Implement ETC1S/ETC2AS image compression

Explanation:

ETC1S encoding is a subset of ETC1, which is using only one color endpoint per 4x4 block (modifier indices are identical for both subblocks, base color is encoded differentially as RGB555 with the differential RGB333 part always set to zero, flip bit is always set to zero).
Usage: crunch_x64.exe -ETC1S input.png -out output.ktx

ETC2AS encoding is a subset of ETC2A encoding which is using ETC1S encoding for color and ETC2A encoding for alpha.
Usage: crunch_x64.exe -ETC2AS input.png -out output.ktx

.gitignore

@@ -1,2 +1,17 @@
 *.o
-crnlib/crunch
+*.2010.vcxproj.user
+*.2010.suo
+/crnlib/crunch
+/crnlib/Win32
+/crnlib/x64
+/crunch/Win32
+/crunch/x64
+/example1/Win32
+/example1/x64
+/example2/Win32
+/example2/x64
+/example3/Win32
+/example3/x64
+/lib
+/bin/*
+!bin/crunch_x64.exe

README.md

@@ -141,9 +141,9 @@ be reliably read by other tools.
 This release contains the source code and projects for three simple
 example projects:
 
-crn_examples.2008.sln is a Visual Studio 2008 (VC9) solution file
+crn_examples.2010.sln is a Visual Studio 2010 (VC10) solution file
 containing projects for Win32 and x64. crnlib itself also builds with
-VS2005, VS2010, and gcc 4.5.0 (TDM GCC+MinGW).  A codeblocks 10.05
+VS2005, VS2008, and gcc 4.5.0 (TDM GCC+MinGW).  A codeblocks 10.05
 workspace and project file is also included, but compiling crnlib this
 way hasn't been tested much.
 

crn.2010.sln

@@ -1,12 +1,9 @@
 
-Microsoft Visual Studio Solution File, Format Version 10.00
-# Visual Studio 2008
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "crunch", "crunch\crunch.2008.vcproj", "{8F645BA1-B996-49EB-859B-970A671DE05D}"
-	ProjectSection(ProjectDependencies) = postProject
-		{CF2E70E8-7133-4D96-92C7-68BB406C0664} = {CF2E70E8-7133-4D96-92C7-68BB406C0664}
-	EndProjectSection
+Microsoft Visual Studio Solution File, Format Version 11.00
+# Visual Studio 2010
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "crunch", "crunch\crunch.2010.vcxproj", "{8F645BA1-B996-49EB-859B-970A671DE05D}"
 EndProject
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "crnlib", "crnlib\crnlib.2008.vcproj", "{CF2E70E8-7133-4D96-92C7-68BB406C0664}"
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "crnlib", "crnlib\crnlib.2010.vcxproj", "{CF2E70E8-7133-4D96-92C7-68BB406C0664}"
 EndProject
 Global
 	GlobalSection(SolutionConfigurationPlatforms) = preSolution

crn_examples.2010.sln

@@ -1,11 +1,11 @@
 
-Microsoft Visual Studio Solution File, Format Version 10.00
-# Visual Studio 2008
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example1", "example1\example1.2008.vcproj", "{8F745B42-F996-49EB-859B-970A671DE05D}"
+Microsoft Visual Studio Solution File, Format Version 11.00
+# Visual Studio 2010
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example1", "example1\example1.2010.vcxproj", "{8F745B42-F996-49EB-859B-970A671DE05D}"
 EndProject
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example2", "example2\example2.2008.vcproj", "{AF745B42-F996-49EB-859B-970A671DEF5E}"
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example2", "example2\example2.2010.vcxproj", "{AF745B42-F996-49EB-859B-970A671DEF5E}"
 EndProject
-Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example3", "example3\example3.2008.vcproj", "{AF745B42-E296-46EB-859B-970A671DEF5E}"
+Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "example3", "example3\example3.2010.vcxproj", "{AF745B42-E296-46EB-859B-970A671DEF5E}"
 EndProject
 Global
 	GlobalSection(SolutionConfigurationPlatforms) = preSolution

crnlib/crn_arealist.h

@@ -2,73 +2,70 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   struct Area
-   {
-      struct Area *Pprev, *Pnext;
+namespace crnlib {
+struct Area {
+  struct Area *Pprev, *Pnext;
 
-      int x1, y1, x2, y2;
-      
-      uint get_width() const { return x2 - x1 + 1; }
-      uint get_height() const { return y2 - y1 + 1; }
-      uint get_area() const { return get_width() * get_height(); }
-   };
+  int x1, y1, x2, y2;
 
-   typedef Area * Area_Ptr;
+  uint get_width() const { return x2 - x1 + 1; }
+  uint get_height() const { return y2 - y1 + 1; }
+  uint get_area() const { return get_width() * get_height(); }
+};
 
-   struct Area_List
-   {
-      int total_areas;
-      int next_free;
+typedef Area* Area_Ptr;
 
-      Area *Phead, *Ptail, *Pfree;
-   };
+struct Area_List {
+  int total_areas;
+  int next_free;
 
-   typedef Area_List * Area_List_Ptr;
+  Area *Phead, *Ptail, *Pfree;
+};
 
-   Area_List * Area_List_init(int max_areas);
-   void Area_List_deinit(Area_List* Pobj_base);
+typedef Area_List* Area_List_Ptr;
 
-   void Area_List_print(Area_List *Plist);
+Area_List* Area_List_init(int max_areas);
+void Area_List_deinit(Area_List* Pobj_base);
 
-   Area_List * Area_List_dup_new(Area_List *Plist,
-                                 int x_ofs, int y_ofs);
-                                 
-   uint Area_List_get_num(Area_List* Plist);                                 
+void Area_List_print(Area_List* Plist);
 
-   // src and dst area lists must have the same number of total areas.
-   void Area_List_dup(Area_List *Psrc_list,
-                      Area_List *Pdst_list,
-                      int x_ofs, int y_ofs);
+Area_List* Area_List_dup_new(Area_List* Plist,
+                             int x_ofs, int y_ofs);
 
-   void Area_List_copy(Area_List *Psrc_list,
-                       Area_List *Pdst_list,
-                       int x_ofs, int y_ofs);
+uint Area_List_get_num(Area_List* Plist);
 
-   void Area_List_clear(Area_List *Plist);
+// src and dst area lists must have the same number of total areas.
+void Area_List_dup(Area_List* Psrc_list,
+                   Area_List* Pdst_list,
+                   int x_ofs, int y_ofs);
 
-   void Area_List_set(Area_List *Plist,
+void Area_List_copy(Area_List* Psrc_list,
+                    Area_List* Pdst_list,
+                    int x_ofs, int y_ofs);
+
+void Area_List_clear(Area_List* Plist);
+
+void Area_List_set(Area_List* Plist,
+                   int x1, int y1, int x2, int y2);
+
+// logical: x and (not y)
+void Area_List_remove(Area_List* Plist,
                       int x1, int y1, int x2, int y2);
 
-   // logical: x and (not y)
-   void Area_List_remove(Area_List *Plist,
-                         int x1, int y1, int x2, int y2);
+// logical: x or y
+void Area_List_insert(Area_List* Plist,
+                      int x1, int y1, int x2, int y2,
+                      bool combine);
 
-   // logical: x or y
-   void Area_List_insert(Area_List *Plist,
-                         int x1, int y1, int x2, int y2,
-                         bool combine); 
+// logical: x and y
+void Area_List_intersect_area(Area_List* Plist,
+                              int x1, int y1, int x2, int y2);
 
-   // logical: x and y
-   void Area_List_intersect_area(Area_List *Plist,
-                                 int x1, int y1, int x2, int y2);
+// logical: x and y
+void Area_List_intersect_Area_List(Area_List* Pouter_list,
+                                   Area_List* Pinner_list,
+                                   Area_List* Pdst_list);
 
-   // logical: x and y
-   void Area_List_intersect_Area_List(Area_List *Pouter_list,
-                                      Area_List *Pinner_list,
-                                      Area_List *Pdst_list);
+Area_List_Ptr Area_List_create_optimal(Area_List_Ptr Plist);
 
-   Area_List_Ptr Area_List_create_optimal(Area_List_Ptr Plist);
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_assert.cpp

@@ -8,62 +8,56 @@
 static bool g_fail_exceptions;
 static bool g_exit_on_failure = true;
 
-void crnlib_enable_fail_exceptions(bool enabled)
-{
-   g_fail_exceptions = enabled;
+void crnlib_enable_fail_exceptions(bool enabled) {
+  g_fail_exceptions = enabled;
 }
 
-void crnlib_assert(const char* pExp, const char* pFile, unsigned line)
-{
-   char buf[512];
+void crnlib_assert(const char* pExp, const char* pFile, unsigned line) {
+  char buf[512];
 
-   sprintf_s(buf, sizeof(buf), "%s(%u): Assertion failed: \"%s\"\n", pFile, line, pExp);
+  sprintf_s(buf, sizeof(buf), "%s(%u): Assertion failed: \"%s\"\n", pFile, line, pExp);
 
-   crnlib_output_debug_string(buf);
+  crnlib_output_debug_string(buf);
 
-   fputs(buf, stderr);
+  fputs(buf, stderr);
 
-   if (crnlib_is_debugger_present())
-      crnlib_debug_break();
+  if (crnlib_is_debugger_present())
+    crnlib_debug_break();
 }
 
-void crnlib_fail(const char* pExp, const char* pFile, unsigned line)
-{
-   char buf[512];
+void crnlib_fail(const char* pExp, const char* pFile, unsigned line) {
+  char buf[512];
 
-   sprintf_s(buf, sizeof(buf), "%s(%u): Failure: \"%s\"\n", pFile, line, pExp);
+  sprintf_s(buf, sizeof(buf), "%s(%u): Failure: \"%s\"\n", pFile, line, pExp);
 
-   crnlib_output_debug_string(buf);
+  crnlib_output_debug_string(buf);
 
-   fputs(buf, stderr);
+  fputs(buf, stderr);
 
-   if (crnlib_is_debugger_present())
-      crnlib_debug_break();
+  if (crnlib_is_debugger_present())
+    crnlib_debug_break();
 
 #if CRNLIB_USE_WIN32_API
-   if (g_fail_exceptions)
-      RaiseException(CRNLIB_FAIL_EXCEPTION_CODE, 0, 0, NULL);
-   else
+  if (g_fail_exceptions)
+    RaiseException(CRNLIB_FAIL_EXCEPTION_CODE, 0, 0, NULL);
+  else
 #endif
-   if (g_exit_on_failure)
-      exit(EXIT_FAILURE);
+      if (g_exit_on_failure)
+    exit(EXIT_FAILURE);
 }
 
-void trace(const char* pFmt, va_list args)
-{
-   if (crnlib_is_debugger_present())
-   {
-      char buf[512];
-      vsprintf_s(buf, sizeof(buf), pFmt, args);
+void trace(const char* pFmt, va_list args) {
+  if (crnlib_is_debugger_present()) {
+    char buf[512];
+    vsprintf_s(buf, sizeof(buf), pFmt, args);
 
-      crnlib_output_debug_string(buf);
-   }
+    crnlib_output_debug_string(buf);
+  }
 };
 
-void trace(const char* pFmt, ...)
-{
-   va_list args;
-   va_start(args, pFmt);
-   trace(pFmt, args);
-   va_end(args);
+void trace(const char* pFmt, ...) {
+  va_list args;
+  va_start(args, pFmt);
+  trace(pFmt, args);
+  va_end(args);
 };

crnlib/crn_assert.h

@@ -9,16 +9,19 @@ void crnlib_assert(const char* pExp, const char* pFile, unsigned line);
 void crnlib_fail(const char* pExp, const char* pFile, unsigned line);
 
 #ifdef NDEBUG
-   #define CRNLIB_ASSERT(x) ((void)0)
-   #undef  CRNLIB_ASSERTS_ENABLED
+#define CRNLIB_ASSERT(x) ((void)0)
+#undef CRNLIB_ASSERTS_ENABLED
 #else
-   #define CRNLIB_ASSERT(_exp) (void)( (!!(_exp)) || (crnlib_assert(#_exp, __FILE__, __LINE__), 0) )
-   #define CRNLIB_ASSERTS_ENABLED
+#define CRNLIB_ASSERT(_exp) (void)((!!(_exp)) || (crnlib_assert(#_exp, __FILE__, __LINE__), 0))
+#define CRNLIB_ASSERTS_ENABLED
 #endif
 
-#define CRNLIB_VERIFY(_exp) (void)( (!!(_exp)) || (crnlib_assert(#_exp, __FILE__, __LINE__), 0) )
+#define CRNLIB_VERIFY(_exp) (void)((!!(_exp)) || (crnlib_assert(#_exp, __FILE__, __LINE__), 0))
 
-#define CRNLIB_FAIL(msg) do { crnlib_fail(#msg, __FILE__, __LINE__); } while(0)
+#define CRNLIB_FAIL(msg)                   \
+  do {                                     \
+    crnlib_fail(#msg, __FILE__, __LINE__); \
+  } while (0)
 
 #define CRNLIB_ASSERT_OPEN_RANGE(x, l, h) CRNLIB_ASSERT((x >= l) && (x < h))
 #define CRNLIB_ASSERT_CLOSED_RANGE(x, l, h) CRNLIB_ASSERT((x >= l) && (x <= h))
@@ -27,35 +30,38 @@ void trace(const char* pFmt, va_list args);
 void trace(const char* pFmt, ...);
 
 // Borrowed from boost libraries.
-template <bool x>  struct crnlib_assume_failure;
-template <> struct crnlib_assume_failure<true> { enum { blah = 1 }; };
-template<int x> struct crnlib_assume_try { };
+template <bool x>
+struct crnlib_assume_failure;
+template <>
+struct crnlib_assume_failure<true> {
+  enum { blah = 1 };
+};
+template <int x>
+struct crnlib_assume_try {};
 
 #define CRNLIB_JOINER_FINAL(a, b) a##b
 #define CRNLIB_JOINER(a, b) CRNLIB_JOINER_FINAL(a, b)
 #define CRNLIB_JOIN(a, b) CRNLIB_JOINER(a, b)
-#define CRNLIB_ASSUME(p) typedef crnlib_assume_try < sizeof(crnlib_assume_failure< (bool)(p) > ) > CRNLIB_JOIN(crnlib_assume_typedef, __COUNTER__)
+#define CRNLIB_ASSUME(p) typedef crnlib_assume_try<sizeof(crnlib_assume_failure<(bool)(p)>)> CRNLIB_JOIN(crnlib_assume_typedef, __COUNTER__)
 
 #ifdef NDEBUG
-template<typename T> inline T crnlib_assert_range(T i, T m)
-{
-   m;
-   return i;
+template <typename T>
+inline T crnlib_assert_range(T i, T) {
+  return i;
 }
-template<typename T> inline T crnlib_assert_range_incl(T i, T m)
-{
-   m;
-   return i;
+template <typename T>
+inline T crnlib_assert_range_incl(T i, T) {
+  return i;
 }
 #else
-template<typename T> inline T crnlib_assert_range(T i, T m)
-{
-   CRNLIB_ASSERT((i >= 0) && (i < m));
-   return i;
+template <typename T>
+inline T crnlib_assert_range(T i, T m) {
+  CRNLIB_ASSERT((i >= 0) && (i < m));
+  return i;
 }
-template<typename T> inline T crnlib_assert_range_incl(T i, T m)
-{
-   CRNLIB_ASSERT((i >= 0) && (i <= m));
-   return i;
+template <typename T>
+inline T crnlib_assert_range_incl(T i, T m) {
+  CRNLIB_ASSERT((i >= 0) && (i <= m));
+  return i;
 }
 #endif

crnlib/crn_atomics.h

@@ -11,198 +11,174 @@
 #endif
 
 #if defined(__GNUC__) && CRNLIB_PLATFORM_PC
-extern __inline__ __attribute__((__always_inline__,__gnu_inline__)) void crnlib_yield_processor()
-{
-   __asm__ __volatile__("pause");
+extern __inline__ __attribute__((__always_inline__, __gnu_inline__)) void crnlib_yield_processor() {
+  __asm__ __volatile__("pause");
 }
 #else
-CRNLIB_FORCE_INLINE void crnlib_yield_processor()
-{
+CRNLIB_FORCE_INLINE void crnlib_yield_processor() {
 #if CRNLIB_USE_MSVC_INTRINSICS
-   #if CRNLIB_PLATFORM_PC_X64
-      _mm_pause();
-   #else
-      YieldProcessor();
-   #endif
+#if CRNLIB_PLATFORM_PC_X64
+  _mm_pause();
 #else
-   // No implementation
+  YieldProcessor();
+#endif
+#else
+// No implementation
 #endif
 }
 #endif
 
 #if CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS
-   extern "C" __int64 _InterlockedCompareExchange64(__int64 volatile * Destination, __int64 Exchange, __int64 Comperand);
-   #if defined(_MSC_VER)
-      #pragma intrinsic(_InterlockedCompareExchange64)
-   #endif
-#endif // CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS
+extern "C" __int64 _InterlockedCompareExchange64(__int64 volatile* Destination, __int64 Exchange, __int64 Comperand);
+#if defined(_MSC_VER)
+#pragma intrinsic(_InterlockedCompareExchange64)
+#endif
+#endif  // CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS
 
-namespace crnlib
-{
+namespace crnlib {
 #if CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS
-   typedef LONG atomic32_t;
-   typedef LONGLONG atomic64_t;
+typedef LONG atomic32_t;
+typedef LONGLONG atomic64_t;
 
-   // Returns the original value.
-   inline atomic32_t atomic_compare_exchange32(atomic32_t volatile *pDest, atomic32_t exchange, atomic32_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedCompareExchange(pDest, exchange, comparand);
-   }
+// Returns the original value.
+inline atomic32_t atomic_compare_exchange32(atomic32_t volatile* pDest, atomic32_t exchange, atomic32_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedCompareExchange(pDest, exchange, comparand);
+}
 
-   // Returns the original value.
-   inline atomic64_t atomic_compare_exchange64(atomic64_t volatile *pDest, atomic64_t exchange, atomic64_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
-      return _InterlockedCompareExchange64(pDest, exchange, comparand);
-   }
+// Returns the original value.
+inline atomic64_t atomic_compare_exchange64(atomic64_t volatile* pDest, atomic64_t exchange, atomic64_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
+  return _InterlockedCompareExchange64(pDest, exchange, comparand);
+}
 
-   // Returns the resulting incremented value.
-   inline atomic32_t atomic_increment32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedIncrement(pDest);
-   }
+// Returns the resulting incremented value.
+inline atomic32_t atomic_increment32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedIncrement(pDest);
+}
 
-   // Returns the resulting decremented value.
-   inline atomic32_t atomic_decrement32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedDecrement(pDest);
-   }
+// Returns the resulting decremented value.
+inline atomic32_t atomic_decrement32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedDecrement(pDest);
+}
 
-   // Returns the original value.
-   inline atomic32_t atomic_exchange32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedExchange(pDest, val);
-   }
+// Returns the original value.
+inline atomic32_t atomic_exchange32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedExchange(pDest, val);
+}
 
-   // Returns the resulting value.
-   inline atomic32_t atomic_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedExchangeAdd(pDest, val) + val;
-   }
+// Returns the resulting value.
+inline atomic32_t atomic_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedExchangeAdd(pDest, val) + val;
+}
 
-   // Returns the original value.
-   inline atomic32_t atomic_exchange_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return InterlockedExchangeAdd(pDest, val);
-   }
+// Returns the original value.
+inline atomic32_t atomic_exchange_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return InterlockedExchangeAdd(pDest, val);
+}
 #elif CRNLIB_USE_GCC_ATOMIC_BUILTINS
-   typedef long atomic32_t;
-   typedef long long atomic64_t;
+typedef long atomic32_t;
+typedef long long atomic64_t;
 
-   // Returns the original value.
-   inline atomic32_t atomic_compare_exchange32(atomic32_t volatile *pDest, atomic32_t exchange, atomic32_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_val_compare_and_swap(pDest, comparand, exchange);
-   }
+// Returns the original value.
+inline atomic32_t atomic_compare_exchange32(atomic32_t volatile* pDest, atomic32_t exchange, atomic32_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_val_compare_and_swap(pDest, comparand, exchange);
+}
 
-   // Returns the original value.
-   inline atomic64_t atomic_compare_exchange64(atomic64_t volatile *pDest, atomic64_t exchange, atomic64_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
-      return __sync_val_compare_and_swap(pDest, comparand, exchange);
-   }
+// Returns the original value.
+inline atomic64_t atomic_compare_exchange64(atomic64_t volatile* pDest, atomic64_t exchange, atomic64_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
+  return __sync_val_compare_and_swap(pDest, comparand, exchange);
+}
 
-   // Returns the resulting incremented value.
-   inline atomic32_t atomic_increment32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_add_and_fetch(pDest, 1);
-   }
+// Returns the resulting incremented value.
+inline atomic32_t atomic_increment32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_add_and_fetch(pDest, 1);
+}
 
-   // Returns the resulting decremented value.
-   inline atomic32_t atomic_decrement32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_sub_and_fetch(pDest, 1);
-   }
+// Returns the resulting decremented value.
+inline atomic32_t atomic_decrement32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_sub_and_fetch(pDest, 1);
+}
 
-   // Returns the original value.
-   inline atomic32_t atomic_exchange32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_lock_test_and_set(pDest, val);
-   }
+// Returns the original value.
+inline atomic32_t atomic_exchange32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_lock_test_and_set(pDest, val);
+}
 
-   // Returns the resulting value.
-   inline atomic32_t atomic_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_add_and_fetch(pDest, val);
-   }
+// Returns the resulting value.
+inline atomic32_t atomic_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_add_and_fetch(pDest, val);
+}
 
-   // Returns the original value.
-   inline atomic32_t atomic_exchange_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return __sync_fetch_and_add(pDest, val);
-   }
+// Returns the original value.
+inline atomic32_t atomic_exchange_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return __sync_fetch_and_add(pDest, val);
+}
 #else
-   #define CRNLIB_NO_ATOMICS 1
+#define CRNLIB_NO_ATOMICS 1
 
-   // Atomic ops not supported - but try to do something reasonable. Assumes no threading at all.
-   typedef long atomic32_t;
-   typedef long long atomic64_t;
+// Atomic ops not supported - but try to do something reasonable. Assumes no threading at all.
+typedef long atomic32_t;
+typedef long long atomic64_t;
 
-   inline atomic32_t atomic_compare_exchange32(atomic32_t volatile *pDest, atomic32_t exchange, atomic32_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      atomic32_t cur = *pDest;
-      if (cur == comparand)
-         *pDest = exchange;
-      return cur;
-   }
+inline atomic32_t atomic_compare_exchange32(atomic32_t volatile* pDest, atomic32_t exchange, atomic32_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  atomic32_t cur = *pDest;
+  if (cur == comparand)
+    *pDest = exchange;
+  return cur;
+}
 
-   inline atomic64_t atomic_compare_exchange64(atomic64_t volatile *pDest, atomic64_t exchange, atomic64_t comparand)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
-      atomic64_t cur = *pDest;
-      if (cur == comparand)
-         *pDest = exchange;
-      return cur;
-   }
+inline atomic64_t atomic_compare_exchange64(atomic64_t volatile* pDest, atomic64_t exchange, atomic64_t comparand) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 7) == 0);
+  atomic64_t cur = *pDest;
+  if (cur == comparand)
+    *pDest = exchange;
+  return cur;
+}
 
-   inline atomic32_t atomic_increment32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return (*pDest += 1);
-   }
+inline atomic32_t atomic_increment32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return (*pDest += 1);
+}
 
-   inline atomic32_t atomic_decrement32(atomic32_t volatile *pDest)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return (*pDest -= 1);
-   }
+inline atomic32_t atomic_decrement32(atomic32_t volatile* pDest) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return (*pDest -= 1);
+}
 
-   inline atomic32_t atomic_exchange32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      atomic32_t cur = *pDest;
-      *pDest = val;
-      return cur;
-   }
+inline atomic32_t atomic_exchange32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  atomic32_t cur = *pDest;
+  *pDest = val;
+  return cur;
+}
 
-   inline atomic32_t atomic_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      return (*pDest += val);
-   }
+inline atomic32_t atomic_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  return (*pDest += val);
+}
 
-   inline atomic32_t atomic_exchange_add32(atomic32_t volatile *pDest, atomic32_t val)
-   {
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
-      atomic32_t cur = *pDest;
-      *pDest += val;
-      return cur;
-   }
+inline atomic32_t atomic_exchange_add32(atomic32_t volatile* pDest, atomic32_t val) {
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(pDest) & 3) == 0);
+  atomic32_t cur = *pDest;
+  *pDest += val;
+  return cur;
+}
 #endif
 
-} // namespace crnlib
+}  // namespace crnlib
 
-#endif // CRN_ATOMICS_H
+#endif  // CRN_ATOMICS_H

crnlib/crn_buffer_stream.h

@@ -3,194 +3,176 @@
 #pragma once
 #include "crn_data_stream.h"
 
-namespace crnlib
-{
-   class buffer_stream : public data_stream
-   {
-   public:
-      buffer_stream() :
-         data_stream(),
-         m_pBuf(NULL),
-         m_size(0),
-         m_ofs(0)
-      {
-      }
+namespace crnlib {
+class buffer_stream : public data_stream {
+ public:
+  buffer_stream()
+      : data_stream(),
+        m_pBuf(NULL),
+        m_size(0),
+        m_ofs(0) {
+  }
 
-      buffer_stream(void* p, uint size) :
-         data_stream(),
-         m_pBuf(NULL),
-         m_size(0),
-         m_ofs(0)
-      {
-         open(p, size);
-      }
+  buffer_stream(void* p, uint size)
+      : data_stream(),
+        m_pBuf(NULL),
+        m_size(0),
+        m_ofs(0) {
+    open(p, size);
+  }
 
-      buffer_stream(const void* p, uint size) :
-         data_stream(),
-         m_pBuf(NULL),
-         m_size(0),
-         m_ofs(0)
-      {
-         open(p, size);
-      }
+  buffer_stream(const void* p, uint size)
+      : data_stream(),
+        m_pBuf(NULL),
+        m_size(0),
+        m_ofs(0) {
+    open(p, size);
+  }
 
-      virtual ~buffer_stream()
-      {
-      }
+  virtual ~buffer_stream() {
+  }
 
-      bool open(const void* p, uint size)
-      {
-         CRNLIB_ASSERT(p);
+  bool open(const void* p, uint size) {
+    CRNLIB_ASSERT(p);
 
-         close();
+    close();
 
-         if ((!p) || (!size))
-            return false;
+    if ((!p) || (!size))
+      return false;
 
-         m_opened = true;
-         m_pBuf = (uint8*)(p);
-         m_size = size;
-         m_ofs = 0;
-         m_attribs = cDataStreamSeekable | cDataStreamReadable;
-         return true;
-      }
+    m_opened = true;
+    m_pBuf = (uint8*)(p);
+    m_size = size;
+    m_ofs = 0;
+    m_attribs = cDataStreamSeekable | cDataStreamReadable;
+    return true;
+  }
 
-      bool open(void* p, uint size)
-      {
-         CRNLIB_ASSERT(p);
+  bool open(void* p, uint size) {
+    CRNLIB_ASSERT(p);
 
-         close();
+    close();
 
-         if ((!p) || (!size))
-            return false;
+    if ((!p) || (!size))
+      return false;
 
-         m_opened = true;
-         m_pBuf = static_cast<uint8*>(p);
-         m_size = size;
-         m_ofs = 0;
-         m_attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable;
-         return true;
-      }
+    m_opened = true;
+    m_pBuf = static_cast<uint8*>(p);
+    m_size = size;
+    m_ofs = 0;
+    m_attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable;
+    return true;
+  }
 
-      virtual bool close()
-      {
-         if (m_opened)
-         {
-            m_opened = false;
-            m_pBuf = NULL;
-            m_size = 0;
-            m_ofs = 0;
-            return true;
-         }
+  virtual bool close() {
+    if (m_opened) {
+      m_opened = false;
+      m_pBuf = NULL;
+      m_size = 0;
+      m_ofs = 0;
+      return true;
+    }
 
-         return false;
-      }
+    return false;
+  }
 
-      const void* get_buf() const   { return m_pBuf; }
-            void* get_buf()         { return m_pBuf; }
+  const void* get_buf() const { return m_pBuf; }
+  void* get_buf() { return m_pBuf; }
 
-      virtual const void* get_ptr() const { return m_pBuf; }
+  virtual const void* get_ptr() const { return m_pBuf; }
 
-      virtual uint read(void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+  virtual uint read(void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
 
-         if ((!m_opened) || (!is_readable()) || (!len))
-            return 0;
+    if ((!m_opened) || (!is_readable()) || (!len))
+      return 0;
 
-         CRNLIB_ASSERT(m_ofs <= m_size);
+    CRNLIB_ASSERT(m_ofs <= m_size);
 
-         uint bytes_left = m_size - m_ofs;
+    uint bytes_left = m_size - m_ofs;
 
-         len = math::minimum<uint>(len, bytes_left);
+    len = math::minimum<uint>(len, bytes_left);
 
-         if (len)
-            memcpy(pBuf, &m_pBuf[m_ofs], len);
+    if (len)
+      memcpy(pBuf, &m_pBuf[m_ofs], len);
 
-         m_ofs += len;
+    m_ofs += len;
 
-         return len;
-      }
+    return len;
+  }
 
-      virtual uint write(const void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+  virtual uint write(const void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
 
-         if ((!m_opened) || (!is_writable()) || (!len))
-            return 0;
+    if ((!m_opened) || (!is_writable()) || (!len))
+      return 0;
 
-         CRNLIB_ASSERT(m_ofs <= m_size);
+    CRNLIB_ASSERT(m_ofs <= m_size);
 
-         uint bytes_left = m_size - m_ofs;
+    uint bytes_left = m_size - m_ofs;
 
-         len = math::minimum<uint>(len, bytes_left);
+    len = math::minimum<uint>(len, bytes_left);
 
-         if (len)
-            memcpy(&m_pBuf[m_ofs], pBuf, len);
+    if (len)
+      memcpy(&m_pBuf[m_ofs], pBuf, len);
 
-         m_ofs += len;
+    m_ofs += len;
 
-         return len;
-      }
+    return len;
+  }
 
-      virtual bool flush()
-      {
-         if (!m_opened)
-            return false;
+  virtual bool flush() {
+    if (!m_opened)
+      return false;
 
-         return true;
-      }
+    return true;
+  }
 
-      virtual uint64 get_size()
-      {
-         if (!m_opened)
-            return 0;
+  virtual uint64 get_size() {
+    if (!m_opened)
+      return 0;
 
-         return m_size;
-      }
+    return m_size;
+  }
 
-      virtual uint64 get_remaining()
-      {
-         if (!m_opened)
-            return 0;
+  virtual uint64 get_remaining() {
+    if (!m_opened)
+      return 0;
 
-         CRNLIB_ASSERT(m_ofs <= m_size);
+    CRNLIB_ASSERT(m_ofs <= m_size);
 
-         return m_size - m_ofs;
-      }
+    return m_size - m_ofs;
+  }
 
-      virtual uint64 get_ofs()
-      {
-         if (!m_opened)
-            return 0;
+  virtual uint64 get_ofs() {
+    if (!m_opened)
+      return 0;
 
-         return m_ofs;
-      }
+    return m_ofs;
+  }
 
-      virtual bool seek(int64 ofs, bool relative)
-      {
-         if ((!m_opened) || (!is_seekable()))
-            return false;
+  virtual bool seek(int64 ofs, bool relative) {
+    if ((!m_opened) || (!is_seekable()))
+      return false;
 
-         int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
+    int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
 
-         if (new_ofs < 0)
-            return false;
-         else if (new_ofs > m_size)
-            return false;
+    if (new_ofs < 0)
+      return false;
+    else if (new_ofs > m_size)
+      return false;
 
-         m_ofs = static_cast<uint>(new_ofs);
+    m_ofs = static_cast<uint>(new_ofs);
 
-         post_seek();
+    post_seek();
 
-         return true;
-      }
+    return true;
+  }
 
-   private:
-      uint8*   m_pBuf;
-      uint     m_size;
-      uint     m_ofs;
-   };
-
-} // namespace crnlib
+ private:
+  uint8* m_pBuf;
+  uint m_size;
+  uint m_ofs;
+};
 
+}  // namespace crnlib

crnlib/crn_cfile_stream.h

@@ -3,239 +3,213 @@
 #pragma once
 #include "crn_data_stream.h"
 
-namespace crnlib
-{
-   class cfile_stream : public data_stream
-   {
-   public:
-      cfile_stream() : data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false)
-      {
+namespace crnlib {
+class cfile_stream : public data_stream {
+ public:
+  cfile_stream()
+      : data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false) {
+  }
+
+  cfile_stream(FILE* pFile, const char* pFilename, uint attribs, bool has_ownership)
+      : data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false) {
+    open(pFile, pFilename, attribs, has_ownership);
+  }
+
+  cfile_stream(const char* pFilename, uint attribs = cDataStreamReadable | cDataStreamSeekable, bool open_existing = false)
+      : data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false) {
+    open(pFilename, attribs, open_existing);
+  }
+
+  virtual ~cfile_stream() {
+    close();
+  }
+
+  virtual bool close() {
+    clear_error();
+
+    if (m_opened) {
+      bool status = true;
+      if (m_has_ownership) {
+        if (EOF == fclose(m_pFile))
+          status = false;
       }
 
-      cfile_stream(FILE* pFile, const char* pFilename, uint attribs, bool has_ownership) :
-         data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false)
-      {
-         open(pFile, pFilename, attribs, has_ownership);
+      m_pFile = NULL;
+      m_opened = false;
+      m_size = 0;
+      m_ofs = 0;
+      m_has_ownership = false;
+
+      return status;
+    }
+
+    return false;
+  }
+
+  bool open(FILE* pFile, const char* pFilename, uint attribs, bool has_ownership) {
+    CRNLIB_ASSERT(pFile);
+    CRNLIB_ASSERT(pFilename);
+
+    close();
+
+    set_name(pFilename);
+    m_pFile = pFile;
+    m_has_ownership = has_ownership;
+    m_attribs = static_cast<uint16>(attribs);
+
+    m_ofs = crn_ftell(m_pFile);
+    crn_fseek(m_pFile, 0, SEEK_END);
+    m_size = crn_ftell(m_pFile);
+    crn_fseek(m_pFile, m_ofs, SEEK_SET);
+
+    m_opened = true;
+
+    return true;
+  }
+
+  bool open(const char* pFilename, uint attribs = cDataStreamReadable | cDataStreamSeekable, bool open_existing = false) {
+    CRNLIB_ASSERT(pFilename);
+
+    close();
+
+    m_attribs = static_cast<uint16>(attribs);
+
+    const char* pMode;
+    if ((is_readable()) && (is_writable()))
+      pMode = open_existing ? "r+b" : "w+b";
+    else if (is_writable())
+      pMode = open_existing ? "ab" : "wb";
+    else if (is_readable())
+      pMode = "rb";
+    else {
+      set_error();
+      return false;
+    }
+
+    FILE* pFile = NULL;
+    crn_fopen(&pFile, pFilename, pMode);
+    m_has_ownership = true;
+
+    if (!pFile) {
+      set_error();
+      return false;
+    }
+
+    // TODO: Change stream class to support UCS2 filenames.
+
+    return open(pFile, pFilename, attribs, true);
+  }
+
+  FILE* get_file() const { return m_pFile; }
+
+  virtual uint read(void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+
+    if (!m_opened || (!is_readable()) || (!len))
+      return 0;
+
+    len = static_cast<uint>(math::minimum<uint64>(len, get_remaining()));
+
+    if (fread(pBuf, 1, len, m_pFile) != len) {
+      set_error();
+      return 0;
+    }
+
+    m_ofs += len;
+    return len;
+  }
+
+  virtual uint write(const void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+
+    if (!m_opened || (!is_writable()) || (!len))
+      return 0;
+
+    if (fwrite(pBuf, 1, len, m_pFile) != len) {
+      set_error();
+      return 0;
+    }
+
+    m_ofs += len;
+    m_size = math::maximum(m_size, m_ofs);
+
+    return len;
+  }
+
+  virtual bool flush() {
+    if ((!m_opened) || (!is_writable()))
+      return false;
+
+    if (EOF == fflush(m_pFile)) {
+      set_error();
+      return false;
+    }
+
+    return true;
+  }
+
+  virtual uint64 get_size() {
+    if (!m_opened)
+      return 0;
+
+    return m_size;
+  }
+
+  virtual uint64 get_remaining() {
+    if (!m_opened)
+      return 0;
+
+    CRNLIB_ASSERT(m_ofs <= m_size);
+    return m_size - m_ofs;
+  }
+
+  virtual uint64 get_ofs() {
+    if (!m_opened)
+      return 0;
+
+    return m_ofs;
+  }
+
+  virtual bool seek(int64 ofs, bool relative) {
+    if ((!m_opened) || (!is_seekable()))
+      return false;
+
+    int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
+    if (new_ofs < 0)
+      return false;
+    else if (static_cast<uint64>(new_ofs) > m_size)
+      return false;
+
+    if (static_cast<uint64>(new_ofs) != m_ofs) {
+      if (crn_fseek(m_pFile, new_ofs, SEEK_SET) != 0) {
+        set_error();
+        return false;
       }
 
-      cfile_stream(const char* pFilename, uint attribs = cDataStreamReadable | cDataStreamSeekable, bool open_existing = false) :
-         data_stream(), m_pFile(NULL), m_size(0), m_ofs(0), m_has_ownership(false)
-      {
-         open(pFilename, attribs, open_existing);
-      }
+      m_ofs = new_ofs;
+    }
 
-      virtual ~cfile_stream()
-      {
-         close();
-      }
+    return true;
+  }
 
-      virtual bool close()
-      {
-         clear_error();
+  static bool read_file_into_array(const char* pFilename, vector<uint8>& buf) {
+    cfile_stream in_stream(pFilename);
+    if (!in_stream.is_opened())
+      return false;
+    return in_stream.read_array(buf);
+  }
 
-         if (m_opened)
-         {
-            bool status = true;
-            if (m_has_ownership)
-            {
-               if (EOF == fclose(m_pFile))
-                  status = false;
-            }
+  static bool write_array_to_file(const char* pFilename, const vector<uint8>& buf) {
+    cfile_stream out_stream(pFilename, cDataStreamWritable | cDataStreamSeekable);
+    if (!out_stream.is_opened())
+      return false;
+    return out_stream.write_array(buf);
+  }
 
-            m_pFile = NULL;
-            m_opened = false;
-            m_size = 0;
-            m_ofs = 0;
-            m_has_ownership = false;
+ private:
+  FILE* m_pFile;
+  uint64 m_size, m_ofs;
+  bool m_has_ownership;
+};
 
-            return status;
-         }
-
-         return false;
-      }
-
-      bool open(FILE* pFile, const char* pFilename, uint attribs, bool has_ownership)
-      {
-         CRNLIB_ASSERT(pFile);
-         CRNLIB_ASSERT(pFilename);
-
-         close();
-
-         set_name(pFilename);
-         m_pFile = pFile;
-         m_has_ownership = has_ownership;
-         m_attribs = static_cast<uint16>(attribs);
-
-         m_ofs = crn_ftell(m_pFile);
-         crn_fseek(m_pFile, 0, SEEK_END);
-         m_size = crn_ftell(m_pFile);
-         crn_fseek(m_pFile, m_ofs, SEEK_SET);
-
-         m_opened = true;
-
-         return true;
-      }
-
-      bool open(const char* pFilename, uint attribs = cDataStreamReadable | cDataStreamSeekable, bool open_existing = false)
-      {
-         CRNLIB_ASSERT(pFilename);
-
-         close();
-
-         m_attribs = static_cast<uint16>(attribs);
-
-         const char* pMode;
-         if ((is_readable()) && (is_writable()))
-            pMode = open_existing ? "r+b" : "w+b";
-         else if (is_writable())
-            pMode = open_existing ? "ab" : "wb";
-         else if (is_readable())
-            pMode = "rb";
-         else
-         {
-            set_error();
-            return false;
-         }
-
-         FILE* pFile = NULL;
-         crn_fopen(&pFile, pFilename, pMode);
-         m_has_ownership = true;
-
-         if (!pFile)
-         {
-            set_error();
-            return false;
-         }
-
-         // TODO: Change stream class to support UCS2 filenames.
-
-         return open(pFile, pFilename, attribs, true);
-      }
-
-      FILE* get_file() const { return m_pFile; }
-
-      virtual uint read(void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
-
-         if (!m_opened || (!is_readable()) || (!len))
-            return 0;
-
-         len = static_cast<uint>(math::minimum<uint64>(len, get_remaining()));
-
-         if (fread(pBuf, 1, len, m_pFile) != len)
-         {
-            set_error();
-            return 0;
-         }
-
-         m_ofs += len;
-         return len;
-      }
-
-      virtual uint write(const void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
-
-         if (!m_opened || (!is_writable()) || (!len))
-            return 0;
-
-         if (fwrite(pBuf, 1, len, m_pFile) != len)
-         {
-            set_error();
-            return 0;
-         }
-
-         m_ofs += len;
-         m_size = math::maximum(m_size, m_ofs);
-
-         return len;
-      }
-
-      virtual bool flush()
-      {
-         if ((!m_opened) || (!is_writable()))
-            return false;
-
-         if (EOF == fflush(m_pFile))
-         {
-            set_error();
-            return false;
-         }
-
-         return true;
-      }
-
-      virtual uint64 get_size()
-      {
-         if (!m_opened)
-            return 0;
-
-         return m_size;
-      }
-
-      virtual uint64 get_remaining()
-      {
-         if (!m_opened)
-            return 0;
-
-         CRNLIB_ASSERT(m_ofs <= m_size);
-         return m_size - m_ofs;
-      }
-
-      virtual uint64 get_ofs()
-      {
-         if (!m_opened)
-            return 0;
-
-         return m_ofs;
-      }
-
-      virtual bool seek(int64 ofs, bool relative)
-      {
-         if ((!m_opened) || (!is_seekable()))
-            return false;
-
-         int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
-         if (new_ofs < 0)
-            return false;
-         else if (static_cast<uint64>(new_ofs) > m_size)
-            return false;
-
-         if (static_cast<uint64>(new_ofs) != m_ofs)
-         {
-            if (crn_fseek(m_pFile, new_ofs, SEEK_SET) != 0)
-            {
-               set_error();
-               return false;
-            }
-
-            m_ofs = new_ofs;
-         }
-
-         return true;
-      }
-
-      static bool read_file_into_array(const char* pFilename, vector<uint8>& buf)
-      {
-         cfile_stream in_stream(pFilename);
-         if (!in_stream.is_opened())
-            return false;
-         return in_stream.read_array(buf);
-      }
-
-      static bool write_array_to_file(const char* pFilename, const vector<uint8>& buf)
-      {
-         cfile_stream out_stream(pFilename, cDataStreamWritable|cDataStreamSeekable);
-         if (!out_stream.is_opened())
-            return false;
-         return out_stream.write_array(buf);
-      }
-
-   private:
-      FILE* m_pFile;
-      uint64 m_size, m_ofs;
-      bool m_has_ownership;
-   };
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_checksum.cpp

@@ -1,63 +1,58 @@
 // File: crn_checksum.cpp
 #include "crn_core.h"
 
-namespace crnlib
-{
-   // From the public domain stb.h header.
-   uint adler32(const void* pBuf, size_t buflen, uint adler32)
-   {
-      const uint8* buffer = static_cast<const uint8*>(pBuf);
-      
-      const unsigned long ADLER_MOD = 65521;
-      unsigned long s1 = adler32 & 0xffff, s2 = adler32 >> 16;
-      size_t blocklen;
-      unsigned long i;
+namespace crnlib {
+// From the public domain stb.h header.
+uint adler32(const void* pBuf, size_t buflen, uint adler32) {
+  const uint8* buffer = static_cast<const uint8*>(pBuf);
 
-      blocklen = buflen % 5552;
-      while (buflen) {
-         for (i=0; i + 7 < blocklen; i += 8) {
-            s1 += buffer[0], s2 += s1;
-            s1 += buffer[1], s2 += s1;
-            s1 += buffer[2], s2 += s1;
-            s1 += buffer[3], s2 += s1;
-            s1 += buffer[4], s2 += s1;
-            s1 += buffer[5], s2 += s1;
-            s1 += buffer[6], s2 += s1;
-            s1 += buffer[7], s2 += s1;
+  const unsigned long ADLER_MOD = 65521;
+  unsigned long s1 = adler32 & 0xffff, s2 = adler32 >> 16;
+  size_t blocklen;
+  unsigned long i;
 
-            buffer += 8;
-         }
+  blocklen = buflen % 5552;
+  while (buflen) {
+    for (i = 0; i + 7 < blocklen; i += 8) {
+      s1 += buffer[0], s2 += s1;
+      s1 += buffer[1], s2 += s1;
+      s1 += buffer[2], s2 += s1;
+      s1 += buffer[3], s2 += s1;
+      s1 += buffer[4], s2 += s1;
+      s1 += buffer[5], s2 += s1;
+      s1 += buffer[6], s2 += s1;
+      s1 += buffer[7], s2 += s1;
 
-         for (; i < blocklen; ++i)
-            s1 += *buffer++, s2 += s1;
+      buffer += 8;
+    }
 
-         s1 %= ADLER_MOD, s2 %= ADLER_MOD;
-         buflen -= blocklen;
-         blocklen = 5552;
-      }
-      return (s2 << 16) + s1;
-   }
-   
-   uint16 crc16(const void* pBuf, size_t len, uint16 crc)
-   {
-      crc = ~crc;
+    for (; i < blocklen; ++i)
+      s1 += *buffer++, s2 += s1;
 
-      const uint8* p = reinterpret_cast<const uint8*>(pBuf);
-      while (len)
-      {
-         const uint16 q = *p++ ^ (crc >> 8);
-         crc <<= 8U;
-         uint16 r = (q >> 4) ^ q;
-         crc ^= r;
-         r <<= 5U;
-         crc ^= r;
-         r <<= 7U;
-         crc ^= r; 
-         len--;
-      }
+    s1 %= ADLER_MOD, s2 %= ADLER_MOD;
+    buflen -= blocklen;
+    blocklen = 5552;
+  }
+  return (s2 << 16) + s1;
+}
 
-      return static_cast<uint16>(~crc);
-   }
+uint16 crc16(const void* pBuf, size_t len, uint16 crc) {
+  crc = ~crc;
 
-} // namespace crnlib
+  const uint8* p = reinterpret_cast<const uint8*>(pBuf);
+  while (len) {
+    const uint16 q = *p++ ^ (crc >> 8);
+    crc <<= 8U;
+    uint16 r = (q >> 4) ^ q;
+    crc ^= r;
+    r <<= 5U;
+    crc ^= r;
+    r <<= 7U;
+    crc ^= r;
+    len--;
+  }
 
+  return static_cast<uint16>(~crc);
+}
+
+}  // namespace crnlib

crnlib/crn_checksum.h

@@ -1,13 +1,12 @@
 // File: crn_checksum.h
 #pragma once
 
-namespace crnlib
-{
-   const uint cInitAdler32 = 1U;
-   uint adler32(const void* pBuf, size_t buflen, uint adler32 = cInitAdler32);
-   
-   // crc16() intended for small buffers - doesn't use an acceleration table.
-   const uint cInitCRC16 = 0;
-   uint16 crc16(const void* pBuf, size_t len, uint16 crc = cInitCRC16);
-   
+namespace crnlib {
+const uint cInitAdler32 = 1U;
+uint adler32(const void* pBuf, size_t buflen, uint adler32 = cInitAdler32);
+
+// crc16() intended for small buffers - doesn't use an acceleration table.
+const uint cInitCRC16 = 0;
+uint16 crc16(const void* pBuf, size_t len, uint16 crc = cInitCRC16);
+
 }  // namespace crnlib

crnlib/crn_colorized_console.cpp

@@ -6,114 +6,104 @@
 #include "crn_winhdr.h"
 #endif
 
-namespace crnlib
-{
-   void colorized_console::init()
-   {
-      console::init();
-      console::add_console_output_func(console_output_func, NULL);
-   }
+namespace crnlib {
+void colorized_console::init() {
+  console::init();
+  console::add_console_output_func(console_output_func, NULL);
+}
 
-   void colorized_console::deinit()
-   {
-      console::remove_console_output_func(console_output_func);
-      console::deinit();
-   }
+void colorized_console::deinit() {
+  console::remove_console_output_func(console_output_func);
+  console::deinit();
+}
 
-   void colorized_console::tick()
-   {
-   }
+void colorized_console::tick() {
+}
 
 #ifdef CRNLIB_USE_WIN32_API
-   bool colorized_console::console_output_func(eConsoleMessageType type, const char* pMsg, void* pData)
-   {
-      pData;
+bool colorized_console::console_output_func(eConsoleMessageType type, const char* pMsg, void*) {
+  if (console::get_output_disabled())
+    return true;
 
-      if (console::get_output_disabled())
-         return true;
+  HANDLE cons = GetStdHandle(STD_OUTPUT_HANDLE);
 
-      HANDLE cons = GetStdHandle(STD_OUTPUT_HANDLE);
+  DWORD attr = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE;
+  switch (type) {
+    case cDebugConsoleMessage:
+      attr = FOREGROUND_BLUE | FOREGROUND_INTENSITY;
+      break;
+    case cMessageConsoleMessage:
+      attr = FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY;
+      break;
+    case cWarningConsoleMessage:
+      attr = FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_INTENSITY;
+      break;
+    case cErrorConsoleMessage:
+      attr = FOREGROUND_RED | FOREGROUND_INTENSITY;
+      break;
+    default:
+      break;
+  }
 
-      DWORD attr = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE;
-      switch (type)
-      {
-         case cDebugConsoleMessage:    attr = FOREGROUND_BLUE | FOREGROUND_INTENSITY; break;
-         case cMessageConsoleMessage:  attr = FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY; break;
-         case cWarningConsoleMessage:  attr = FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_INTENSITY; break;
-         case cErrorConsoleMessage:    attr = FOREGROUND_RED | FOREGROUND_INTENSITY; break;
-         default: break;
-      }
+  if (INVALID_HANDLE_VALUE != cons)
+    SetConsoleTextAttribute(cons, (WORD)attr);
 
-      if (INVALID_HANDLE_VALUE != cons)
-         SetConsoleTextAttribute(cons, (WORD)attr);
+  if ((console::get_prefixes()) && (console::get_at_beginning_of_line())) {
+    switch (type) {
+      case cDebugConsoleMessage:
+        printf("Debug: %s", pMsg);
+        break;
+      case cWarningConsoleMessage:
+        printf("Warning: %s", pMsg);
+        break;
+      case cErrorConsoleMessage:
+        printf("Error: %s", pMsg);
+        break;
+      default:
+        printf("%s", pMsg);
+        break;
+    }
+  } else {
+    printf("%s", pMsg);
+  }
 
-      if ((console::get_prefixes()) && (console::get_at_beginning_of_line()))
-      {
-         switch (type)
-         {
-            case cDebugConsoleMessage:
-               printf("Debug: %s", pMsg);
-               break;
-            case cWarningConsoleMessage:
-               printf("Warning: %s", pMsg);
-               break;
-            case cErrorConsoleMessage:
-               printf("Error: %s", pMsg);
-               break;
-            default:
-               printf("%s", pMsg);
-               break;
-         }
-      }
-      else
-      {
-         printf("%s", pMsg);
-      }
+  if (console::get_crlf())
+    printf("\n");
 
-      if (console::get_crlf())
-         printf("\n");
+  if (INVALID_HANDLE_VALUE != cons)
+    SetConsoleTextAttribute(cons, FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE);
 
-      if (INVALID_HANDLE_VALUE != cons)
-         SetConsoleTextAttribute(cons, FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE);
-
-      return true;
-   }
+  return true;
+}
 #else
-   bool colorized_console::console_output_func(eConsoleMessageType type, const char* pMsg, void* pData)
-   {
-      pData;
-      if (console::get_output_disabled())
-         return true;
+bool colorized_console::console_output_func(eConsoleMessageType type, const char* pMsg, void*) {
+  if (console::get_output_disabled())
+    return true;
 
-      if ((console::get_prefixes()) && (console::get_at_beginning_of_line()))
-      {
-         switch (type)
-         {
-         case cDebugConsoleMessage:
-            printf("Debug: %s", pMsg);
-            break;
-         case cWarningConsoleMessage:
-            printf("Warning: %s", pMsg);
-            break;
-         case cErrorConsoleMessage:
-            printf("Error: %s", pMsg);
-            break;
-         default:
-            printf("%s", pMsg);
-            break;
-         }
-      }
-      else
-      {
-         printf("%s", pMsg);
-      }
+  if ((console::get_prefixes()) && (console::get_at_beginning_of_line())) {
+    switch (type) {
+      case cDebugConsoleMessage:
+        printf("Debug: %s", pMsg);
+        break;
+      case cWarningConsoleMessage:
+        printf("Warning: %s", pMsg);
+        break;
+      case cErrorConsoleMessage:
+        printf("Error: %s", pMsg);
+        break;
+      default:
+        printf("%s", pMsg);
+        break;
+    }
+  } else {
+    printf("%s", pMsg);
+  }
 
-      if (console::get_crlf())
-         printf("\n");
+  if (console::get_crlf())
+    printf("\n");
 
-      return true;
-   }
+  return true;
+}
 #endif
 
-} // namespace crnlib
-
+}  // namespace crnlib

crnlib/crn_colorized_console.h

@@ -3,17 +3,15 @@
 #pragma once
 #include "crn_console.h"
 
-namespace crnlib
-{
-   class colorized_console
-   {
-   public:
-      static void init();
-      static void deinit();
-      static void tick();
+namespace crnlib {
+class colorized_console {
+ public:
+  static void init();
+  static void deinit();
+  static void tick();
 
-   private:
-      static bool console_output_func(eConsoleMessageType type, const char* pMsg, void* pData);
-   };
+ private:
+  static bool console_output_func(eConsoleMessageType type, const char* pMsg, void* pData);
+};
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_command_line_params.cpp

@@ -6,467 +6,405 @@
 #include "crn_cfile_stream.h"
 
 #ifdef WIN32
-   #define CRNLIB_CMD_LINE_ALLOW_SLASH_PARAMS 1
+#define CRNLIB_CMD_LINE_ALLOW_SLASH_PARAMS 1
 #endif
 
 #if CRNLIB_USE_WIN32_API
 #include "crn_winhdr.h"
 #endif
-namespace crnlib
-{
-   void get_command_line_as_single_string(dynamic_string& cmd_line, int argc, char *argv[])
-   {
-      argc, argv;
+namespace crnlib {
+void get_command_line_as_single_string(dynamic_string& cmd_line, int argc, char* argv[]) {
+  argc, argv;
 #if CRNLIB_USE_WIN32_API
-      cmd_line.set(GetCommandLineA());
+  cmd_line.set(GetCommandLineA());
 #else
-      cmd_line.clear();
-      for (int i = 0; i < argc; i++)
-      {
-         dynamic_string tmp(argv[i]);
-         if ((tmp.front() != '"') && (tmp.front() != '-') && (tmp.front() != '@'))
-            tmp = "\"" + tmp + "\"";
-         if (cmd_line.get_len())
-            cmd_line += " ";
-         cmd_line += tmp;
-      }
+  cmd_line.clear();
+  for (int i = 0; i < argc; i++) {
+    dynamic_string tmp(argv[i]);
+    if ((tmp.front() != '"') && (tmp.front() != '-') && (tmp.front() != '@'))
+      tmp = "\"" + tmp + "\"";
+    if (cmd_line.get_len())
+      cmd_line += " ";
+    cmd_line += tmp;
+  }
 #endif
-   }
+}
 
-   command_line_params::command_line_params()
-   {
-   }
+command_line_params::command_line_params() {
+}
 
-   void command_line_params::clear()
-   {
-      m_params.clear();
+void command_line_params::clear() {
+  m_params.clear();
 
-      m_param_map.clear();
-   }
+  m_param_map.clear();
+}
 
-   bool command_line_params::split_params(const char* p, dynamic_string_array& params)
-   {
-      bool within_param = false;
-      bool within_quote = false;
+bool command_line_params::split_params(const char* p, dynamic_string_array& params) {
+  bool within_param = false;
+  bool within_quote = false;
 
-      uint ofs = 0;
-      dynamic_string str;
+  uint ofs = 0;
+  dynamic_string str;
 
-      while (p[ofs])
-      {
-         const char c = p[ofs];
+  while (p[ofs]) {
+    const char c = p[ofs];
 
-         if (within_param)
-         {
-            if (within_quote)
-            {
-               if (c == '"')
-                  within_quote = false;
+    if (within_param) {
+      if (within_quote) {
+        if (c == '"')
+          within_quote = false;
 
-               str.append_char(c);
-            }
-            else if ((c == ' ') || (c == '\t'))
-            {
-               if (!str.is_empty())
-               {
-                  params.push_back(str);
-                  str.clear();
-               }
-               within_param = false;
-            }
-            else
-            {
-               if (c == '"')
-                  within_quote = true;
+        str.append_char(c);
+      } else if ((c == ' ') || (c == '\t')) {
+        if (!str.is_empty()) {
+          params.push_back(str);
+          str.clear();
+        }
+        within_param = false;
+      } else {
+        if (c == '"')
+          within_quote = true;
 
-               str.append_char(c);
-            }
-         }
-         else if ((c != ' ') && (c != '\t'))
-         {
-            within_param = true;
-
-            if (c == '"')
-               within_quote = true;
-
-            str.append_char(c);
-         }
-
-         ofs++;
+        str.append_char(c);
       }
+    } else if ((c != ' ') && (c != '\t')) {
+      within_param = true;
 
-      if (within_quote)
-      {
-         console::error("Unmatched quote in command line \"%s\"", p);
-         return false;
-      }
+      if (c == '"')
+        within_quote = true;
 
-      if (!str.is_empty())
-         params.push_back(str);
+      str.append_char(c);
+    }
 
-      return true;
-   }
+    ofs++;
+  }
 
-   bool command_line_params::load_string_file(const char* pFilename, dynamic_string_array& strings)
-   {
-      cfile_stream in_stream;
-      if (!in_stream.open(pFilename, cDataStreamReadable | cDataStreamSeekable))
-      {
-         console::error("Unable to open file \"%s\" for reading!", pFilename);
-         return false;
-      }
+  if (within_quote) {
+    console::error("Unmatched quote in command line \"%s\"", p);
+    return false;
+  }
 
-      dynamic_string ansi_str;
+  if (!str.is_empty())
+    params.push_back(str);
 
-      for ( ; ; )
-      {
-         if (!in_stream.read_line(ansi_str))
-            break;
+  return true;
+}
 
-         ansi_str.trim();
-         if (ansi_str.is_empty())
-            continue;
+bool command_line_params::load_string_file(const char* pFilename, dynamic_string_array& strings) {
+  cfile_stream in_stream;
+  if (!in_stream.open(pFilename, cDataStreamReadable | cDataStreamSeekable)) {
+    console::error("Unable to open file \"%s\" for reading!", pFilename);
+    return false;
+  }
 
-         strings.push_back(dynamic_string(ansi_str.get_ptr()));
-      }
+  dynamic_string ansi_str;
 
-      return true;
-   }
+  for (;;) {
+    if (!in_stream.read_line(ansi_str))
+      break;
 
-   bool command_line_params::parse(const dynamic_string_array& params, uint n, const param_desc* pParam_desc)
-   {
-      CRNLIB_ASSERT(n && pParam_desc);
+    ansi_str.trim();
+    if (ansi_str.is_empty())
+      continue;
 
-      m_params = params;
+    strings.push_back(dynamic_string(ansi_str.get_ptr()));
+  }
 
-      uint arg_index = 0;
-      while (arg_index < params.size())
-      {
-         const uint cur_arg_index = arg_index;
-         const dynamic_string& src_param = params[arg_index++];
+  return true;
+}
 
-         if (src_param.is_empty())
-            continue;
+bool command_line_params::parse(const dynamic_string_array& params, uint n, const param_desc* pParam_desc) {
+  CRNLIB_ASSERT(n && pParam_desc);
+
+  m_params = params;
+
+  uint arg_index = 0;
+  while (arg_index < params.size()) {
+    const uint cur_arg_index = arg_index;
+    const dynamic_string& src_param = params[arg_index++];
+
+    if (src_param.is_empty())
+      continue;
 #if CRNLIB_CMD_LINE_ALLOW_SLASH_PARAMS
-         if ((src_param[0] == '/') || (src_param[0] == '-'))
+    if ((src_param[0] == '/') || (src_param[0] == '-'))
 #else
-         if (src_param[0] == '-')
+    if (src_param[0] == '-')
 #endif
-         {
-            if (src_param.get_len() < 2)
-            {
-               console::error("Invalid command line parameter: \"%s\"", src_param.get_ptr());
-               return false;
-            }
-
-            dynamic_string key_str(src_param);
-
-            key_str.right(1);
-
-            int modifier = 0;
-            char c = key_str[key_str.get_len() - 1];
-            if (c == '+')
-               modifier = 1;
-            else if (c == '-')
-               modifier = -1;
-
-            if (modifier)
-               key_str.left(key_str.get_len() - 1);
-
-            uint param_index;
-            for (param_index = 0; param_index < n; param_index++)
-               if (key_str == pParam_desc[param_index].m_pName)
-                  break;
-
-            if (param_index == n)
-            {
-               console::error("Unrecognized command line parameter: \"%s\"", src_param.get_ptr());
-               return false;
-            }
-
-            const param_desc& desc = pParam_desc[param_index];
-
-            const uint cMaxValues = 16;
-            dynamic_string val_str[cMaxValues];
-            uint num_val_strs = 0;
-            if (desc.m_num_values)
-            {
-               CRNLIB_ASSERT(desc.m_num_values <= cMaxValues);
-
-               if ((arg_index + desc.m_num_values) > params.size())
-               {
-                  console::error("Expected %u value(s) after command line parameter: \"%s\"", desc.m_num_values, src_param.get_ptr());
-                  return false;
-               }
-
-               for (uint v = 0; v < desc.m_num_values; v++)
-                  val_str[num_val_strs++] = params[arg_index++];
-            }
-
-            dynamic_string_array strings;
-
-            if ((desc.m_support_listing_file) && (val_str[0].get_len() >= 2) && (val_str[0][0] == '@'))
-            {
-               dynamic_string filename(val_str[0]);
-               filename.right(1);
-               filename.unquote();
-
-               if (!load_string_file(filename.get_ptr(), strings))
-               {
-                  console::error("Failed loading listing file \"%s\"!", filename.get_ptr());
-                  return false;
-               }
-            }
-            else
-            {
-               for (uint v = 0; v < num_val_strs; v++)
-               {
-                  val_str[v].unquote();
-                  strings.push_back(val_str[v]);
-               }
-            }
-
-            param_value pv;
-            pv.m_values.swap(strings);
-            pv.m_index = cur_arg_index;
-            pv.m_modifier = (int8)modifier;
-            m_param_map.insert(std::make_pair(key_str, pv));
-         }
-         else
-         {
-            param_value pv;
-            pv.m_values.push_back(src_param);
-            pv.m_values.back().unquote();
-            pv.m_index = cur_arg_index;
-            m_param_map.insert(std::make_pair(g_empty_dynamic_string, pv));
-         }
+    {
+      if (src_param.get_len() < 2) {
+        console::error("Invalid command line parameter: \"%s\"", src_param.get_ptr());
+        return false;
       }
 
-      return true;
-   }
+      dynamic_string key_str(src_param);
 
-   bool command_line_params::parse(const char* pCmd_line, uint n, const param_desc* pParam_desc, bool skip_first_param)
-   {
-      CRNLIB_ASSERT(n && pParam_desc);
+      key_str.right(1);
 
-      dynamic_string_array p;
-      if (!split_params(pCmd_line, p))
-         return 0;
+      int modifier = 0;
+      char c = key_str[key_str.get_len() - 1];
+      if (c == '+')
+        modifier = 1;
+      else if (c == '-')
+        modifier = -1;
 
-      if (p.empty())
-         return 0;
+      if (modifier)
+        key_str.left(key_str.get_len() - 1);
 
-      if (skip_first_param)
-         p.erase(0U);
+      uint param_index;
+      for (param_index = 0; param_index < n; param_index++)
+        if (key_str == pParam_desc[param_index].m_pName)
+          break;
 
-      return parse(p, n, pParam_desc);
-   }
+      if (param_index == n) {
+        console::error("Unrecognized command line parameter: \"%s\"", src_param.get_ptr());
+        return false;
+      }
 
-   bool command_line_params::is_param(uint index) const
-   {
-      CRNLIB_ASSERT(index < m_params.size());
-      if (index >= m_params.size())
-         return false;
+      const param_desc& desc = pParam_desc[param_index];
 
-      const dynamic_string& w = m_params[index];
-      if (w.is_empty())
-         return false;
+      const uint cMaxValues = 16;
+      dynamic_string val_str[cMaxValues];
+      uint num_val_strs = 0;
+      if (desc.m_num_values) {
+        CRNLIB_ASSERT(desc.m_num_values <= cMaxValues);
+
+        if ((arg_index + desc.m_num_values) > params.size()) {
+          console::error("Expected %u value(s) after command line parameter: \"%s\"", desc.m_num_values, src_param.get_ptr());
+          return false;
+        }
+
+        for (uint v = 0; v < desc.m_num_values; v++)
+          val_str[num_val_strs++] = params[arg_index++];
+      }
+
+      dynamic_string_array strings;
+
+      if ((desc.m_support_listing_file) && (val_str[0].get_len() >= 2) && (val_str[0][0] == '@')) {
+        dynamic_string filename(val_str[0]);
+        filename.right(1);
+        filename.unquote();
+
+        if (!load_string_file(filename.get_ptr(), strings)) {
+          console::error("Failed loading listing file \"%s\"!", filename.get_ptr());
+          return false;
+        }
+      } else {
+        for (uint v = 0; v < num_val_strs; v++) {
+          val_str[v].unquote();
+          strings.push_back(val_str[v]);
+        }
+      }
+
+      param_value pv;
+      pv.m_values.swap(strings);
+      pv.m_index = cur_arg_index;
+      pv.m_modifier = (int8)modifier;
+      m_param_map.insert(std::make_pair(key_str, pv));
+    } else {
+      param_value pv;
+      pv.m_values.push_back(src_param);
+      pv.m_values.back().unquote();
+      pv.m_index = cur_arg_index;
+      m_param_map.insert(std::make_pair(g_empty_dynamic_string, pv));
+    }
+  }
+
+  return true;
+}
+
+bool command_line_params::parse(const char* pCmd_line, uint n, const param_desc* pParam_desc, bool skip_first_param) {
+  CRNLIB_ASSERT(n && pParam_desc);
+
+  dynamic_string_array p;
+  if (!split_params(pCmd_line, p))
+    return 0;
+
+  if (p.empty())
+    return 0;
+
+  if (skip_first_param)
+    p.erase(0U);
+
+  return parse(p, n, pParam_desc);
+}
+
+bool command_line_params::is_param(uint index) const {
+  CRNLIB_ASSERT(index < m_params.size());
+  if (index >= m_params.size())
+    return false;
+
+  const dynamic_string& w = m_params[index];
+  if (w.is_empty())
+    return false;
 
 #if CRNLIB_CMD_LINE_ALLOW_SLASH_PARAMS
-      return (w.get_len() >= 2) && ((w[0] == '-') || (w[0] == '/'));
+  return (w.get_len() >= 2) && ((w[0] == '-') || (w[0] == '/'));
 #else
-      return (w.get_len() >= 2) && (w[0] == '-');
+  return (w.get_len() >= 2) && (w[0] == '-');
 #endif
-   }
+}
 
-   uint command_line_params::find(uint num_keys, const char** ppKeys, crnlib::vector<param_map_const_iterator>* pIterators, crnlib::vector<uint>* pUnmatched_indices) const
-   {
-      CRNLIB_ASSERT(ppKeys);
+uint command_line_params::find(uint num_keys, const char** ppKeys, crnlib::vector<param_map_const_iterator>* pIterators, crnlib::vector<uint>* pUnmatched_indices) const {
+  CRNLIB_ASSERT(ppKeys);
 
-      if (pUnmatched_indices)
-      {
-         pUnmatched_indices->resize(m_params.size());
-         for (uint i = 0; i < m_params.size(); i++)
-            (*pUnmatched_indices)[i] = i;
+  if (pUnmatched_indices) {
+    pUnmatched_indices->resize(m_params.size());
+    for (uint i = 0; i < m_params.size(); i++)
+      (*pUnmatched_indices)[i] = i;
+  }
+
+  uint n = 0;
+  for (uint i = 0; i < num_keys; i++) {
+    const char* pKey = ppKeys[i];
+
+    param_map_const_iterator begin, end;
+    find(pKey, begin, end);
+
+    while (begin != end) {
+      if (pIterators)
+        pIterators->push_back(begin);
+
+      if (pUnmatched_indices) {
+        int k = pUnmatched_indices->find(begin->second.m_index);
+        if (k >= 0)
+          pUnmatched_indices->erase_unordered(k);
       }
 
-      uint n = 0;
-      for (uint i = 0; i < num_keys; i++)
-      {
-         const char* pKey = ppKeys[i];
+      n++;
+      begin++;
+    }
+  }
 
-         param_map_const_iterator begin, end;
-         find(pKey, begin, end);
+  return n;
+}
 
-         while (begin != end)
-         {
-            if (pIterators)
-               pIterators->push_back(begin);
+void command_line_params::find(const char* pKey, param_map_const_iterator& begin, param_map_const_iterator& end) const {
+  dynamic_string key(pKey);
+  begin = m_param_map.lower_bound(key);
+  end = m_param_map.upper_bound(key);
+}
 
-            if (pUnmatched_indices)
-            {
-               int k = pUnmatched_indices->find(begin->second.m_index);
-               if (k >= 0)
-                  pUnmatched_indices->erase_unordered(k);
-            }
+uint command_line_params::get_count(const char* pKey) const {
+  param_map_const_iterator begin, end;
+  find(pKey, begin, end);
 
-            n++;
-            begin++;
-         }
-      }
+  uint n = 0;
 
-      return n;
-   }
+  while (begin != end) {
+    n++;
+    begin++;
+  }
 
-   void command_line_params::find(const char* pKey, param_map_const_iterator& begin, param_map_const_iterator& end) const
-   {
-      dynamic_string key(pKey);
-      begin = m_param_map.lower_bound(key);
-      end = m_param_map.upper_bound(key);
-   }
+  return n;
+}
 
-   uint command_line_params::get_count(const char* pKey) const
-   {
-      param_map_const_iterator begin, end;
-      find(pKey, begin, end);
+command_line_params::param_map_const_iterator command_line_params::get_param(const char* pKey, uint index) const {
+  param_map_const_iterator begin, end;
+  find(pKey, begin, end);
 
-      uint n = 0;
+  if (begin == end)
+    return m_param_map.end();
 
-      while (begin != end)
-      {
-         n++;
-         begin++;
-      }
+  uint n = 0;
 
-      return n;
-   }
+  while ((begin != end) && (n != index)) {
+    n++;
+    begin++;
+  }
 
-   command_line_params::param_map_const_iterator command_line_params::get_param(const char* pKey, uint index) const
-   {
-      param_map_const_iterator begin, end;
-      find(pKey, begin, end);
+  if (begin == end)
+    return m_param_map.end();
 
-      if (begin == end)
-         return m_param_map.end();
+  return begin;
+}
 
-      uint n = 0;
+bool command_line_params::has_value(const char* pKey, uint index) const {
+  return get_num_values(pKey, index) != 0;
+}
 
-      while ((begin != end) && (n != index))
-      {
-         n++;
-         begin++;
-      }
+uint command_line_params::get_num_values(const char* pKey, uint index) const {
+  param_map_const_iterator it = get_param(pKey, index);
 
-      if (begin == end)
-         return m_param_map.end();
+  if (it == end())
+    return 0;
 
-      return begin;
-   }
+  return it->second.m_values.size();
+}
 
-   bool command_line_params::has_value(const char* pKey, uint index) const
-   {
-      return get_num_values(pKey, index) != 0;
-   }
+bool command_line_params::get_value_as_bool(const char* pKey, uint index, bool def) const {
+  param_map_const_iterator it = get_param(pKey, index);
+  if (it == end())
+    return def;
 
-   uint command_line_params::get_num_values(const char* pKey, uint index) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
+  if (it->second.m_modifier)
+    return it->second.m_modifier > 0;
+  else
+    return true;
+}
 
-      if (it == end())
-         return 0;
+int command_line_params::get_value_as_int(const char* pKey, uint index, int def, int l, int h, uint value_index) const {
+  param_map_const_iterator it = get_param(pKey, index);
+  if ((it == end()) || (value_index >= it->second.m_values.size()))
+    return def;
 
-      return it->second.m_values.size();
-   }
+  int val;
+  const char* p = it->second.m_values[value_index].get_ptr();
+  if (!string_to_int(p, val)) {
+    crnlib::console::warning("Invalid value specified for parameter \"%s\", using default value of %i", pKey, def);
+    return def;
+  }
 
-   bool command_line_params::get_value_as_bool(const char* pKey, uint index, bool def) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
-      if (it == end())
-         return def;
+  if (val < l) {
+    crnlib::console::warning("Value %i for parameter \"%s\" is out of range, clamping to %i", val, pKey, l);
+    val = l;
+  } else if (val > h) {
+    crnlib::console::warning("Value %i for parameter \"%s\" is out of range, clamping to %i", val, pKey, h);
+    val = h;
+  }
 
-      if (it->second.m_modifier)
-         return it->second.m_modifier > 0;
-      else
-         return true;
-   }
+  return val;
+}
 
-   int command_line_params::get_value_as_int(const char* pKey, uint index, int def, int l, int h, uint value_index) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
-      if ((it == end()) || (value_index >= it->second.m_values.size()))
-         return def;
+float command_line_params::get_value_as_float(const char* pKey, uint index, float def, float l, float h, uint value_index) const {
+  param_map_const_iterator it = get_param(pKey, index);
+  if ((it == end()) || (value_index >= it->second.m_values.size()))
+    return def;
 
-      int val;
-      const char* p = it->second.m_values[value_index].get_ptr();
-      if (!string_to_int(p, val))
-      {
-         crnlib::console::warning("Invalid value specified for parameter \"%s\", using default value of %i", pKey, def);
-         return def;
-      }
+  float val;
+  const char* p = it->second.m_values[value_index].get_ptr();
+  if (!string_to_float(p, val)) {
+    crnlib::console::warning("Invalid value specified for float parameter \"%s\", using default value of %f", pKey, def);
+    return def;
+  }
 
-      if (val < l)
-      {
-         crnlib::console::warning("Value %i for parameter \"%s\" is out of range, clamping to %i", val, pKey, l);
-         val = l;
-      }
-      else if (val > h)
-      {
-         crnlib::console::warning("Value %i for parameter \"%s\" is out of range, clamping to %i", val, pKey, h);
-         val = h;
-      }
+  if (val < l) {
+    crnlib::console::warning("Value %f for parameter \"%s\" is out of range, clamping to %f", val, pKey, l);
+    val = l;
+  } else if (val > h) {
+    crnlib::console::warning("Value %f for parameter \"%s\" is out of range, clamping to %f", val, pKey, h);
+    val = h;
+  }
 
-      return val;
-   }
+  return val;
+}
 
-   float command_line_params::get_value_as_float(const char* pKey, uint index, float def, float l, float h, uint value_index) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
-      if ((it == end()) || (value_index >= it->second.m_values.size()))
-         return def;
+bool command_line_params::get_value_as_string(const char* pKey, uint index, dynamic_string& value, uint value_index) const {
+  param_map_const_iterator it = get_param(pKey, index);
+  if ((it == end()) || (value_index >= it->second.m_values.size())) {
+    value.empty();
+    return false;
+  }
 
-      float val;
-      const char* p = it->second.m_values[value_index].get_ptr();
-      if (!string_to_float(p, val))
-      {
-         crnlib::console::warning("Invalid value specified for float parameter \"%s\", using default value of %f", pKey, def);
-         return def;
-      }
+  value = it->second.m_values[value_index];
+  return true;
+}
 
-      if (val < l)
-      {
-         crnlib::console::warning("Value %f for parameter \"%s\" is out of range, clamping to %f", val, pKey, l);
-         val = l;
-      }
-      else if (val > h)
-      {
-         crnlib::console::warning("Value %f for parameter \"%s\" is out of range, clamping to %f", val, pKey, h);
-         val = h;
-      }
+const dynamic_string& command_line_params::get_value_as_string_or_empty(const char* pKey, uint index, uint value_index) const {
+  param_map_const_iterator it = get_param(pKey, index);
+  if ((it == end()) || (value_index >= it->second.m_values.size()))
+    return g_empty_dynamic_string;
 
-      return val;
-   }
-
-   bool command_line_params::get_value_as_string(const char* pKey, uint index, dynamic_string& value, uint value_index) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
-      if ((it == end()) || (value_index >= it->second.m_values.size()))
-      {
-         value.empty();
-         return false;
-      }
-
-      value = it->second.m_values[value_index];
-      return true;
-   }
-
-   const dynamic_string& command_line_params::get_value_as_string_or_empty(const char* pKey, uint index, uint value_index) const
-   {
-      param_map_const_iterator it = get_param(pKey, index);
-      if ((it == end()) || (value_index >= it->second.m_values.size()))
-      return g_empty_dynamic_string;
-
-      return it->second.m_values[value_index];
-   }
-
-} // namespace crnlib
+  return it->second.m_values[value_index];
+}
 
+}  // namespace crnlib

crnlib/crn_command_line_params.h

@@ -4,83 +4,80 @@
 #include "crn_value.h"
 #include <map>
 
-namespace crnlib
-{
-   // Returns the command line passed to the app as a string.
-   // On systems where this isn't trivial, this function combines together the separate arguments, quoting and adding spaces as needed.
-   void get_command_line_as_single_string(dynamic_string& cmd_line, int argc, char *argv[]);
+namespace crnlib {
+// Returns the command line passed to the app as a string.
+// On systems where this isn't trivial, this function combines together the separate arguments, quoting and adding spaces as needed.
+void get_command_line_as_single_string(dynamic_string& cmd_line, int argc, char* argv[]);
 
-   class command_line_params
-   {
-   public:
-      struct param_value
-      {
-         inline param_value() : m_index(0), m_modifier(0) { }
+class command_line_params {
+ public:
+  struct param_value {
+    inline param_value()
+        : m_index(0), m_modifier(0) {}
 
-         dynamic_string_array    m_values;
-         uint                    m_index;
-         int8                    m_modifier;
-      };
+    dynamic_string_array m_values;
+    uint m_index;
+    int8 m_modifier;
+  };
 
-      typedef std::multimap<dynamic_string, param_value>    param_map;
-      typedef param_map::const_iterator                     param_map_const_iterator;
-      typedef param_map::iterator                           param_map_iterator;
+  typedef std::multimap<dynamic_string, param_value> param_map;
+  typedef param_map::const_iterator param_map_const_iterator;
+  typedef param_map::iterator param_map_iterator;
 
-      command_line_params();
+  command_line_params();
 
-      void clear();
+  void clear();
 
-      static bool split_params(const char* p, dynamic_string_array& params);
+  static bool split_params(const char* p, dynamic_string_array& params);
 
-      struct param_desc
-      {
-         const char*    m_pName;
-         uint           m_num_values;
-         bool           m_support_listing_file;
-      };
+  struct param_desc {
+    const char* m_pName;
+    uint m_num_values;
+    bool m_support_listing_file;
+  };
 
-      bool parse(const dynamic_string_array& params, uint n, const param_desc* pParam_desc);
-      bool parse(const char* pCmd_line, uint n, const param_desc* pParam_desc, bool skip_first_param = true);
+  bool parse(const dynamic_string_array& params, uint n, const param_desc* pParam_desc);
+  bool parse(const char* pCmd_line, uint n, const param_desc* pParam_desc, bool skip_first_param = true);
 
-      const dynamic_string_array& get_array() const { return m_params; }
+  const dynamic_string_array& get_array() const { return m_params; }
 
-      bool is_param(uint index) const;
+  bool is_param(uint index) const;
 
-      const param_map& get_map() const { return m_param_map; }
+  const param_map& get_map() const { return m_param_map; }
 
-      uint get_num_params() const { return static_cast<uint>(m_param_map.size()); }
+  uint get_num_params() const { return static_cast<uint>(m_param_map.size()); }
 
-      param_map_const_iterator begin() const { return m_param_map.begin(); }
-      param_map_const_iterator end() const { return m_param_map.end(); }
+  param_map_const_iterator begin() const { return m_param_map.begin(); }
+  param_map_const_iterator end() const { return m_param_map.end(); }
 
-      uint find(uint num_keys, const char** ppKeys, crnlib::vector<param_map_const_iterator>* pIterators, crnlib::vector<uint>* pUnmatched_indices) const;
+  uint find(uint num_keys, const char** ppKeys, crnlib::vector<param_map_const_iterator>* pIterators, crnlib::vector<uint>* pUnmatched_indices) const;
 
-      void find(const char* pKey, param_map_const_iterator& begin, param_map_const_iterator& end) const;
+  void find(const char* pKey, param_map_const_iterator& begin, param_map_const_iterator& end) const;
 
-      uint get_count(const char* pKey) const;
+  uint get_count(const char* pKey) const;
 
-      // Returns end() if param cannot be found, or index is out of range.
-      param_map_const_iterator get_param(const char* pKey, uint index) const;
+  // Returns end() if param cannot be found, or index is out of range.
+  param_map_const_iterator get_param(const char* pKey, uint index) const;
 
-      bool has_key(const char* pKey) const { return get_param(pKey, 0) != end(); }
+  bool has_key(const char* pKey) const { return get_param(pKey, 0) != end(); }
 
-      bool has_value(const char* pKey, uint index) const;
-      uint get_num_values(const char* pKey, uint index) const;
+  bool has_value(const char* pKey, uint index) const;
+  uint get_num_values(const char* pKey, uint index) const;
 
-      bool get_value_as_bool(const char* pKey, uint index = 0, bool def = false) const;
+  bool get_value_as_bool(const char* pKey, uint index = 0, bool def = false) const;
 
-      int get_value_as_int(const char* pKey, uint index, int def, int l = INT_MIN, int h = INT_MAX, uint value_index = 0) const;
-      float get_value_as_float(const char* pKey, uint index, float def = 0.0f, float l = -math::cNearlyInfinite, float h = math::cNearlyInfinite, uint value_index = 0) const;
+  int get_value_as_int(const char* pKey, uint index, int def, int l = INT_MIN, int h = INT_MAX, uint value_index = 0) const;
+  float get_value_as_float(const char* pKey, uint index, float def = 0.0f, float l = -math::cNearlyInfinite, float h = math::cNearlyInfinite, uint value_index = 0) const;
 
-      bool get_value_as_string(const char* pKey, uint index, dynamic_string& value, uint value_index = 0) const;
-      const dynamic_string& get_value_as_string_or_empty(const char* pKey, uint index = 0, uint value_index = 0) const;
+  bool get_value_as_string(const char* pKey, uint index, dynamic_string& value, uint value_index = 0) const;
+  const dynamic_string& get_value_as_string_or_empty(const char* pKey, uint index = 0, uint value_index = 0) const;
 
-   private:
-      dynamic_string_array   m_params;
+ private:
+  dynamic_string_array m_params;
 
-      param_map              m_param_map;
+  param_map m_param_map;
 
-      static bool load_string_file(const char* pFilename, dynamic_string_array& strings);
-   };
+  static bool load_string_file(const char* pFilename, dynamic_string_array& strings);
+};
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_comp.h

@@ -2,9 +2,7 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-#define CRND_HEADER_FILE_ONLY
-#include "../inc/crn_decomp.h"
-#undef CRND_HEADER_FILE_ONLY
+#include "../inc/crn_defs.h"
 
 #include "../inc/crnlib.h"
 #include "crn_symbol_codec.h"
@@ -13,169 +11,115 @@
 #include "crn_image_utils.h"
 #include "crn_texture_comp.h"
 
-namespace crnlib
-{
-   class crn_comp : public itexture_comp
-   {
-      CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(crn_comp);
+namespace crnlib {
+class crn_comp : public itexture_comp {
+  CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(crn_comp);
 
-   public:
-      crn_comp();
-      virtual ~crn_comp();
+ public:
+  crn_comp();
+  virtual ~crn_comp();
 
-      virtual const char *get_ext() const { return "CRN"; }
+  virtual const char* get_ext() const { return "CRN"; }
 
-      virtual bool compress_init(const crn_comp_params& params);
-      virtual bool compress_pass(const crn_comp_params& params, float *pEffective_bitrate);
-      virtual void compress_deinit();
+  virtual bool compress_init(const crn_comp_params&) { return true; };
+  virtual bool compress_pass(const crn_comp_params& params, float* pEffective_bitrate);
+  virtual void compress_deinit();
 
-      virtual const crnlib::vector<uint8>& get_comp_data() const  { return m_comp_data; }
-      virtual       crnlib::vector<uint8>& get_comp_data()        { return m_comp_data; }
+  virtual const crnlib::vector<uint8>& get_comp_data() const { return m_comp_data; }
+  virtual crnlib::vector<uint8>& get_comp_data() { return m_comp_data; }
 
-      uint get_comp_data_size() const { return m_comp_data.size(); }
-      const uint8* get_comp_data_ptr() const { return m_comp_data.size() ? &m_comp_data[0] : NULL; }
+  uint get_comp_data_size() const { return m_comp_data.size(); }
+  const uint8* get_comp_data_ptr() const { return m_comp_data.size() ? &m_comp_data[0] : NULL; }
 
-   private:
-      task_pool                  m_task_pool;
-      const crn_comp_params* m_pParams;
+ private:
+  task_pool m_task_pool;
+  const crn_comp_params* m_pParams;
 
-      image_u8 m_images[cCRNMaxFaces][cCRNMaxLevels];
+  image_u8 m_images[cCRNMaxFaces][cCRNMaxLevels];
 
-      struct level_tag
-      {
-         uint m_width, m_height;
-         uint m_chunk_width, m_chunk_height;
-         uint m_group_index;
-         uint m_num_chunks;
-         uint m_first_chunk;
-         uint m_group_first_chunk;
-      } m_levels[cCRNMaxLevels];
+  enum comp {
+    cColor,
+    cAlpha0,
+    cAlpha1,
+    cNumComps
+  };
 
-      struct mip_group
-      {
-         mip_group() : m_first_chunk(0), m_num_chunks(0) { }
+  bool m_has_comp[cNumComps];
+  bool m_has_etc_color_blocks;
+  bool m_has_subblocks;
 
-         uint m_first_chunk;
-         uint m_num_chunks;
-      };
-      crnlib::vector<mip_group> m_mip_groups;
+  struct level_details {
+    uint first_block;
+    uint num_blocks;
+    uint block_width;
+  };
+  crnlib::vector<level_details> m_levels;
 
-      enum comp
-      {
-         cColor,
-         cAlpha0,
-         cAlpha1,
-         cNumComps
-      };
+  uint m_total_blocks;
+  crnlib::vector<uint32> m_color_endpoints;
+  crnlib::vector<uint32> m_alpha_endpoints;
+  crnlib::vector<uint32> m_color_selectors;
+  crnlib::vector<uint64> m_alpha_selectors;
+  crnlib::vector<dxt_hc::endpoint_indices_details> m_endpoint_indices;
+  crnlib::vector<dxt_hc::selector_indices_details> m_selector_indices;
 
-      bool m_has_comp[cNumComps];
+  crnd::crn_header m_crn_header;
+  crnlib::vector<uint8> m_comp_data;
 
-      struct chunk_detail
-      {
-         chunk_detail() { utils::zero_object(*this); }
+  dxt_hc m_hvq;
 
-         uint m_first_endpoint_index;
-         uint m_first_selector_index;
-      };
-      typedef crnlib::vector<chunk_detail> chunk_detail_vec;
-      chunk_detail_vec              m_chunk_details;
+  symbol_histogram m_reference_hist;
+  static_huffman_data_model m_reference_dm;
 
-      crnlib::vector<uint>          m_endpoint_indices[cNumComps];
-      crnlib::vector<uint>          m_selector_indices[cNumComps];
+  crnlib::vector<uint16> m_endpoint_remaping[2];
+  symbol_histogram m_endpoint_index_hist[2];
+  static_huffman_data_model m_endpoint_index_dm[2];
 
-      uint                          m_total_chunks;
-      dxt_hc::pixel_chunk_vec       m_chunks;
+  crnlib::vector<uint16> m_selector_remaping[2];
+  symbol_histogram m_selector_index_hist[2];
+  static_huffman_data_model m_selector_index_dm[2];
 
-      crnd::crn_header              m_crn_header;
-      crnlib::vector<uint8>         m_comp_data;
+  crnlib::vector<uint8> m_packed_blocks[cCRNMaxLevels];
+  crnlib::vector<uint8> m_packed_data_models;
+  crnlib::vector<uint8> m_packed_color_endpoints;
+  crnlib::vector<uint8> m_packed_color_selectors;
+  crnlib::vector<uint8> m_packed_alpha_endpoints;
+  crnlib::vector<uint8> m_packed_alpha_selectors;
 
-      dxt_hc                        m_hvq;
+  bool pack_color_endpoints(crnlib::vector<uint8>& packed_data, const crnlib::vector<uint16>& remapping);
+  bool pack_color_endpoints_etc(crnlib::vector<uint8>& packed_data, const crnlib::vector<uint16>& remapping);
+  bool pack_color_selectors(crnlib::vector<uint8>& packed_data, const crnlib::vector<uint16>& remapping);
+  bool pack_alpha_endpoints(crnlib::vector<uint8>& packed_data, const crnlib::vector<uint16>& remapping);
+  bool pack_alpha_selectors(crnlib::vector<uint8>& packed_data, const crnlib::vector<uint16>& remapping);
+  bool pack_blocks(
+    uint group,
+    bool clear_histograms,
+    symbol_codec* pCodec,
+    const crnlib::vector<uint16>* pColor_endpoint_remap,
+    const crnlib::vector<uint16>* pColor_selector_remap,
+    const crnlib::vector<uint16>* pAlpha_endpoint_remap,
+    const crnlib::vector<uint16>* pAlpha_selector_remap
+  );
 
-      symbol_histogram              m_chunk_encoding_hist;
-      static_huffman_data_model     m_chunk_encoding_dm;
+  bool alias_images();
+  void clear();
+  bool quantize_images();
 
-      symbol_histogram              m_endpoint_index_hist[2];
-      static_huffman_data_model     m_endpoint_index_dm[2]; // color, alpha
+  void optimize_color_endpoints_task(uint64 data, void* pData_ptr);
+  void optimize_color_selectors();
+  void optimize_color();
 
-      symbol_histogram              m_selector_index_hist[2];
-      static_huffman_data_model     m_selector_index_dm[2]; // color, alpha
+  void optimize_alpha_endpoints_task(uint64 data, void* pData_ptr);
+  void optimize_alpha_selectors();
+  void optimize_alpha();
 
-      crnlib::vector<uint8>         m_packed_chunks[cCRNMaxLevels];
-      crnlib::vector<uint8>         m_packed_data_models;
-      crnlib::vector<uint8>         m_packed_color_endpoints;
-      crnlib::vector<uint8>         m_packed_color_selectors;
-      crnlib::vector<uint8>         m_packed_alpha_endpoints;
-      crnlib::vector<uint8>         m_packed_alpha_selectors;
+  bool pack_data_models();
+  static void append_vec(crnlib::vector<uint8>& a, const void* p, uint size);
+  static void append_vec(crnlib::vector<uint8>& a, const crnlib::vector<uint8>& b);
+  bool create_comp_data();
 
-      void clear();
+  bool update_progress(uint phase_index, uint subphase_index, uint subphase_total);
+  bool compress_internal();
+};
 
-      void append_chunks(const image_u8& img, uint num_chunks_x, uint num_chunks_y, dxt_hc::pixel_chunk_vec& chunks, float weight);
-
-      static float color_endpoint_similarity_func(uint index_a, uint index_b, void* pContext);
-      static float alpha_endpoint_similarity_func(uint index_a, uint index_b, void* pContext);
-      void sort_color_endpoint_codebook(crnlib::vector<uint>& remapping, const crnlib::vector<uint>& endpoints);
-      void sort_alpha_endpoint_codebook(crnlib::vector<uint>& remapping, const crnlib::vector<uint>& endpoints);
-
-      bool pack_color_endpoints(crnlib::vector<uint8>& data, const crnlib::vector<uint>& remapping, const crnlib::vector<uint>& endpoint_indices, uint trial_index);
-      bool pack_alpha_endpoints(crnlib::vector<uint8>& data, const crnlib::vector<uint>& remapping, const crnlib::vector<uint>& endpoint_indices, uint trial_index);
-
-      static float color_selector_similarity_func(uint index_a, uint index_b, void* pContext);
-      static float alpha_selector_similarity_func(uint index_a, uint index_b, void* pContext);
-      void sort_selector_codebook(crnlib::vector<uint>& remapping, const crnlib::vector<dxt_hc::selectors>& selectors, const uint8* pTo_linear);
-
-      bool pack_selectors(
-         crnlib::vector<uint8>& packed_data,
-         const crnlib::vector<uint>& selector_indices,
-         const crnlib::vector<dxt_hc::selectors>& selectors,
-         const crnlib::vector<uint>& remapping,
-         uint max_selector_value,
-         const uint8* pTo_linear,
-         uint trial_index);
-
-      bool alias_images();
-      void create_chunks();
-      bool quantize_chunks();
-      void create_chunk_indices();
-
-      bool pack_chunks(
-         uint first_chunk, uint num_chunks,
-         bool clear_histograms,
-         symbol_codec* pCodec,
-         const crnlib::vector<uint>* pColor_endpoint_remap,
-         const crnlib::vector<uint>* pColor_selector_remap,
-         const crnlib::vector<uint>* pAlpha_endpoint_remap,
-         const crnlib::vector<uint>* pAlpha_selector_remap);
-
-      bool pack_chunks_simulation(
-         uint first_chunk, uint num_chunks,
-         uint& total_bits,
-         const crnlib::vector<uint>* pColor_endpoint_remap,
-         const crnlib::vector<uint>* pColor_selector_remap,
-         const crnlib::vector<uint>* pAlpha_endpoint_remap,
-         const crnlib::vector<uint>* pAlpha_selector_remap);
-
-      void optimize_color_endpoint_codebook_task(uint64 data, void* pData_ptr);
-      bool optimize_color_endpoint_codebook(crnlib::vector<uint>& remapping);
-
-      void optimize_color_selector_codebook_task(uint64 data, void* pData_ptr);
-      bool optimize_color_selector_codebook(crnlib::vector<uint>& remapping);
-
-      void optimize_alpha_endpoint_codebook_task(uint64 data, void* pData_ptr);
-      bool optimize_alpha_endpoint_codebook(crnlib::vector<uint>& remapping);
-
-      void optimize_alpha_selector_codebook_task(uint64 data, void* pData_ptr);
-      bool optimize_alpha_selector_codebook(crnlib::vector<uint>& remapping);
-
-      bool create_comp_data();
-
-      bool pack_data_models();
-
-      bool update_progress(uint phase_index, uint subphase_index, uint subphase_total);
-
-      bool compress_internal();
-
-      static void append_vec(crnlib::vector<uint8>& a, const void* p, uint size);
-      static void append_vec(crnlib::vector<uint8>& a, const crnlib::vector<uint8>& b);
-   };
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_console.cpp

@@ -5,218 +5,196 @@
 #include "crn_data_stream.h"
 #include "crn_threading.h"
 
-namespace crnlib
-{
-   eConsoleMessageType                       console::m_default_category = cInfoConsoleMessage;
-   crnlib::vector<console::console_func>      console::m_output_funcs;
-   bool                                      console::m_crlf = true;
-   bool                                      console::m_prefixes = true;
-   bool                                      console::m_output_disabled;
-   data_stream*                              console::m_pLog_stream;
-   mutex*                                    console::m_pMutex;
-   uint                                      console::m_num_messages[cCMTTotal];
-   bool                                      console::m_at_beginning_of_line = true;
+namespace crnlib {
+eConsoleMessageType console::m_default_category = cInfoConsoleMessage;
+crnlib::vector<console::console_func> console::m_output_funcs;
+bool console::m_crlf = true;
+bool console::m_prefixes = true;
+bool console::m_output_disabled;
+data_stream* console::m_pLog_stream;
+mutex* console::m_pMutex;
+uint console::m_num_messages[cCMTTotal];
+bool console::m_at_beginning_of_line = true;
 
-   const uint cConsoleBufSize = 4096;
+const uint cConsoleBufSize = 4096;
 
-   void console::init()
-   {
-      if (!m_pMutex)
-      {
-         m_pMutex = crnlib_new<mutex>();
-      }
-   }
+void console::init() {
+  if (!m_pMutex) {
+    m_pMutex = crnlib_new<mutex>();
+  }
+}
 
-   void console::deinit()
-   {
-      if (m_pMutex)
-      {
-         crnlib_delete(m_pMutex);
-         m_pMutex = NULL;
-      }
-   }
+void console::deinit() {
+  if (m_pMutex) {
+    crnlib_delete(m_pMutex);
+    m_pMutex = NULL;
+  }
+}
 
-   void console::disable_crlf()
-   {
-      init();
+void console::disable_crlf() {
+  init();
 
-      m_crlf = false;
-   }
+  m_crlf = false;
+}
 
-   void console::enable_crlf()
-   {
-      init();
+void console::enable_crlf() {
+  init();
 
-      m_crlf = true;
-   }
+  m_crlf = true;
+}
 
-   void console::vprintf(eConsoleMessageType type, const char* p, va_list args)
-   {
-      init();
+void console::vprintf(eConsoleMessageType type, const char* p, va_list args) {
+  init();
 
-      scoped_mutex lock(*m_pMutex);
+  scoped_mutex lock(*m_pMutex);
 
-      m_num_messages[type]++;
+  m_num_messages[type]++;
 
-      char buf[cConsoleBufSize];
-      vsprintf_s(buf, cConsoleBufSize, p, args);
+  char buf[cConsoleBufSize];
+  vsprintf_s(buf, cConsoleBufSize, p, args);
 
-      bool handled = false;
+  bool handled = false;
 
-      if (m_output_funcs.size())
-      {
-         for (uint i = 0; i < m_output_funcs.size(); i++)
-            if (m_output_funcs[i].m_func(type, buf, m_output_funcs[i].m_pData))
-               handled = true;
-      }
+  if (m_output_funcs.size()) {
+    for (uint i = 0; i < m_output_funcs.size(); i++)
+      if (m_output_funcs[i].m_func(type, buf, m_output_funcs[i].m_pData))
+        handled = true;
+  }
 
-      const char* pPrefix = NULL;
-      if ((m_prefixes) && (m_at_beginning_of_line))
-      {
-         switch (type)
-         {
-            case cDebugConsoleMessage:    pPrefix = "Debug: ";   break;
-            case cWarningConsoleMessage:  pPrefix = "Warning: "; break;
-            case cErrorConsoleMessage:    pPrefix = "Error: ";   break;
-            default: break;
-         }
-      }
+  const char* pPrefix = NULL;
+  if ((m_prefixes) && (m_at_beginning_of_line)) {
+    switch (type) {
+      case cDebugConsoleMessage:
+        pPrefix = "Debug: ";
+        break;
+      case cWarningConsoleMessage:
+        pPrefix = "Warning: ";
+        break;
+      case cErrorConsoleMessage:
+        pPrefix = "Error: ";
+        break;
+      default:
+        break;
+    }
+  }
 
-      if ((!m_output_disabled) && (!handled))
-      {
-         if (pPrefix)
-            ::printf("%s", pPrefix);
-         ::printf(m_crlf ? "%s\n" : "%s", buf);
-      }
+  if ((!m_output_disabled) && (!handled)) {
+    if (pPrefix)
+      ::printf("%s", pPrefix);
+    ::printf(m_crlf ? "%s\n" : "%s", buf);
+  }
 
-      uint n = strlen(buf);
-      m_at_beginning_of_line = (m_crlf) || ((n) && (buf[n - 1] == '\n'));
+  uint n = strlen(buf);
+  m_at_beginning_of_line = (m_crlf) || ((n) && (buf[n - 1] == '\n'));
 
-      if ((type != cProgressConsoleMessage) && (m_pLog_stream))
-      {
-         // Yes this is bad.
-         dynamic_string tmp_buf(buf);
+  if ((type != cProgressConsoleMessage) && (m_pLog_stream)) {
+    // Yes this is bad.
+    dynamic_string tmp_buf(buf);
 
-         tmp_buf.translate_lf_to_crlf();
+    tmp_buf.translate_lf_to_crlf();
 
-         m_pLog_stream->printf(m_crlf ? "%s\r\n" : "%s", tmp_buf.get_ptr());
-         m_pLog_stream->flush();
-      }
-   }
+    m_pLog_stream->printf(m_crlf ? "%s\r\n" : "%s", tmp_buf.get_ptr());
+    m_pLog_stream->flush();
+  }
+}
 
-   void console::printf(eConsoleMessageType type, const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(type, p, args);
-      va_end(args);
-   }
+void console::printf(eConsoleMessageType type, const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(type, p, args);
+  va_end(args);
+}
 
-   void console::printf(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(m_default_category, p, args);
-      va_end(args);
-   }
+void console::printf(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(m_default_category, p, args);
+  va_end(args);
+}
 
-   void console::set_default_category(eConsoleMessageType category)
-   {
-      init();
+void console::set_default_category(eConsoleMessageType category) {
+  init();
 
-      m_default_category = category;
-   }
+  m_default_category = category;
+}
 
-   eConsoleMessageType console::get_default_category()
-   {
-      init();
+eConsoleMessageType console::get_default_category() {
+  init();
 
-      return m_default_category;
-   }
+  return m_default_category;
+}
 
-   void console::add_console_output_func(console_output_func pFunc, void* pData)
-   {
-      init();
+void console::add_console_output_func(console_output_func pFunc, void* pData) {
+  init();
 
-      scoped_mutex lock(*m_pMutex);
+  scoped_mutex lock(*m_pMutex);
 
-      m_output_funcs.push_back(console_func(pFunc, pData));
-   }
+  m_output_funcs.push_back(console_func(pFunc, pData));
+}
 
-   void console::remove_console_output_func(console_output_func pFunc)
-   {
-      init();
+void console::remove_console_output_func(console_output_func pFunc) {
+  init();
 
-      scoped_mutex lock(*m_pMutex);
+  scoped_mutex lock(*m_pMutex);
 
-      for (int i = m_output_funcs.size() - 1; i >= 0; i--)
-      {
-         if (m_output_funcs[i].m_func == pFunc)
-         {
-            m_output_funcs.erase(m_output_funcs.begin() + i);
-         }
-      }
+  for (int i = m_output_funcs.size() - 1; i >= 0; i--) {
+    if (m_output_funcs[i].m_func == pFunc) {
+      m_output_funcs.erase(m_output_funcs.begin() + i);
+    }
+  }
 
-      if (!m_output_funcs.size())
-      {
-         m_output_funcs.clear();
-      }
-   }
+  if (!m_output_funcs.size()) {
+    m_output_funcs.clear();
+  }
+}
 
-   void console::progress(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cProgressConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::progress(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cProgressConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::info(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cInfoConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::info(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cInfoConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::message(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cMessageConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::message(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cMessageConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::cons(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cConsoleConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::cons(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cConsoleConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::debug(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cDebugConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::debug(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cDebugConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::warning(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cWarningConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::warning(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cWarningConsoleMessage, p, args);
+  va_end(args);
+}
 
-   void console::error(const char* p, ...)
-   {
-      va_list args;
-      va_start(args, p);
-      vprintf(cErrorConsoleMessage, p, args);
-      va_end(args);
-   }
+void console::error(const char* p, ...) {
+  va_list args;
+  va_start(args, p);
+  vprintf(cErrorConsoleMessage, p, args);
+  va_end(args);
+}
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_console.h

@@ -7,122 +7,115 @@
 #include <tchar.h>
 #include <conio.h>
 #endif
-namespace crnlib
-{
-   class dynamic_string;
-   class data_stream;
-   class mutex;
+namespace crnlib {
+class dynamic_string;
+class data_stream;
+class mutex;
 
-   enum eConsoleMessageType
-   {
-      cDebugConsoleMessage,      // debugging messages
-      cProgressConsoleMessage,   // progress messages
-      cInfoConsoleMessage,       // ordinary messages
-      cConsoleConsoleMessage,    // user console output
-      cMessageConsoleMessage,    // high importance messages
-      cWarningConsoleMessage,    // warnings
-      cErrorConsoleMessage,      // errors
+enum eConsoleMessageType {
+  cDebugConsoleMessage,     // debugging messages
+  cProgressConsoleMessage,  // progress messages
+  cInfoConsoleMessage,      // ordinary messages
+  cConsoleConsoleMessage,   // user console output
+  cMessageConsoleMessage,   // high importance messages
+  cWarningConsoleMessage,   // warnings
+  cErrorConsoleMessage,     // errors
 
-      cCMTTotal
-   };
+  cCMTTotal
+};
 
-   typedef bool (*console_output_func)(eConsoleMessageType type, const char* pMsg, void* pData);
+typedef bool (*console_output_func)(eConsoleMessageType type, const char* pMsg, void* pData);
 
-   class console
-   {
-   public:
-      static void init();
-      static void deinit();
+class console {
+ public:
+  static void init();
+  static void deinit();
 
-      static bool is_initialized() { return m_pMutex != NULL; }
+  static bool is_initialized() { return m_pMutex != NULL; }
 
-      static void set_default_category(eConsoleMessageType category);
-      static eConsoleMessageType get_default_category();
+  static void set_default_category(eConsoleMessageType category);
+  static eConsoleMessageType get_default_category();
 
-      static void add_console_output_func(console_output_func pFunc, void* pData);
-      static void remove_console_output_func(console_output_func pFunc);
+  static void add_console_output_func(console_output_func pFunc, void* pData);
+  static void remove_console_output_func(console_output_func pFunc);
 
-      static void printf(const char* p, ...);
+  static void printf(const char* p, ...);
 
-      static void vprintf(eConsoleMessageType type, const char* p, va_list args);
-      static void printf(eConsoleMessageType type, const char* p, ...);
+  static void vprintf(eConsoleMessageType type, const char* p, va_list args);
+  static void printf(eConsoleMessageType type, const char* p, ...);
 
-      static void cons(const char* p, ...);
-      static void debug(const char* p, ...);
-      static void progress(const char* p, ...);
-      static void info(const char* p, ...);
-      static void message(const char* p, ...);
-      static void warning(const char* p, ...);
-      static void error(const char* p, ...);
+  static void cons(const char* p, ...);
+  static void debug(const char* p, ...);
+  static void progress(const char* p, ...);
+  static void info(const char* p, ...);
+  static void message(const char* p, ...);
+  static void warning(const char* p, ...);
+  static void error(const char* p, ...);
 
-      // FIXME: All console state is currently global!
-      static void disable_prefixes();
-      static void enable_prefixes();
-      static bool get_prefixes() { return m_prefixes; }
-      static bool get_at_beginning_of_line() { return m_at_beginning_of_line; }
+  // FIXME: All console state is currently global!
+  static void disable_prefixes();
+  static void enable_prefixes();
+  static bool get_prefixes() { return m_prefixes; }
+  static bool get_at_beginning_of_line() { return m_at_beginning_of_line; }
 
-      static void disable_crlf();
-      static void enable_crlf();
-      static bool get_crlf() { return m_crlf; }
+  static void disable_crlf();
+  static void enable_crlf();
+  static bool get_crlf() { return m_crlf; }
 
-      static void disable_output() { m_output_disabled = true; }
-      static void enable_output() { m_output_disabled = false; }
-      static bool get_output_disabled() { return m_output_disabled; }
+  static void disable_output() { m_output_disabled = true; }
+  static void enable_output() { m_output_disabled = false; }
+  static bool get_output_disabled() { return m_output_disabled; }
 
-      static void set_log_stream(data_stream* pStream) { m_pLog_stream = pStream; }
-      static data_stream* get_log_stream() { return m_pLog_stream; }
+  static void set_log_stream(data_stream* pStream) { m_pLog_stream = pStream; }
+  static data_stream* get_log_stream() { return m_pLog_stream; }
 
-      static uint get_num_messages(eConsoleMessageType type) { return m_num_messages[type]; }
+  static uint get_num_messages(eConsoleMessageType type) { return m_num_messages[type]; }
 
-   private:
-      static eConsoleMessageType m_default_category;
+ private:
+  static eConsoleMessageType m_default_category;
 
-      struct console_func
-      {
-         console_func(console_output_func func = NULL, void* pData = NULL) : m_func(func), m_pData(pData) { }
+  struct console_func {
+    console_func(console_output_func func = NULL, void* pData = NULL)
+        : m_func(func), m_pData(pData) {}
 
-         console_output_func  m_func;
-         void*                m_pData;
-      };
-      static crnlib::vector<console_func> m_output_funcs;
+    console_output_func m_func;
+    void* m_pData;
+  };
+  static crnlib::vector<console_func> m_output_funcs;
 
-      static bool m_crlf, m_prefixes, m_output_disabled;
+  static bool m_crlf, m_prefixes, m_output_disabled;
 
-      static data_stream* m_pLog_stream;
+  static data_stream* m_pLog_stream;
 
-      static mutex* m_pMutex;
+  static mutex* m_pMutex;
 
-      static uint m_num_messages[cCMTTotal];
+  static uint m_num_messages[cCMTTotal];
 
-      static bool m_at_beginning_of_line;
-   };
+  static bool m_at_beginning_of_line;
+};
 
 #if defined(WIN32)
-   inline int crn_getch()
-   {
-      return _getch();
-   }
+inline int crn_getch() {
+  return _getch();
+}
 #elif defined(__GNUC__)
-   #include <termios.h>
-   #include <unistd.h>
-   inline int crn_getch()
-   {
-      struct termios oldt, newt;
-      int ch;
-      tcgetattr(STDIN_FILENO, &oldt);
-      newt = oldt;
-      newt.c_lflag &= ~(ICANON | ECHO);
-      tcsetattr(STDIN_FILENO, TCSANOW, &newt);
-      ch = getchar();
-      tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
-      return ch;
-   }
-#else 
-   inline int crn_getch()
-   {
-      printf("crn_getch: Unimplemented");
-      return 0;
-   }
+#include <termios.h>
+#include <unistd.h>
+inline int crn_getch() {
+  struct termios oldt, newt;
+  int ch;
+  tcgetattr(STDIN_FILENO, &oldt);
+  newt = oldt;
+  newt.c_lflag &= ~(ICANON | ECHO);
+  tcsetattr(STDIN_FILENO, TCSANOW, &newt);
+  ch = getchar();
+  tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
+  return ch;
+}
+#else
+inline int crn_getch() {
+  printf("crn_getch: Unimplemented");
+  return 0;
+}
 #endif
-} // namespace crnlib
-
+}  // namespace crnlib

crnlib/crn_core.cpp

@@ -6,9 +6,8 @@
 #include "crn_winhdr.h"
 #endif
 
-namespace crnlib
-{
-   const char *g_copyright_str = "Copyright (c) 2010-2016 Richard Geldreich, Jr. and Binomial LLC";
-   const char *g_sig_str = "C8cfRlaorj0wLtnMSxrBJxTC85rho2L9hUZKHcBL";
+namespace crnlib {
+const char* g_copyright_str = "Copyright (c) 2010-2016 Richard Geldreich, Jr. and Binomial LLC";
+const char* g_sig_str = "C8cfRlaorj0wLtnMSxrBJxTC85rho2L9hUZKHcBL";
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_core.h

@@ -3,124 +3,124 @@
 #pragma once
 
 #if defined(WIN32) && defined(_MSC_VER)
-   #pragma warning (disable: 4201) // nonstandard extension used : nameless struct/union
-   #pragma warning (disable: 4127) // conditional expression is constant
-   #pragma warning (disable: 4793) // function compiled as native
-   #pragma warning (disable: 4324) // structure was padded due to __declspec(align())
+#pragma warning(disable : 4201)  // nonstandard extension used : nameless struct/union
+#pragma warning(disable : 4127)  // conditional expression is constant
+#pragma warning(disable : 4793)  // function compiled as native
+#pragma warning(disable : 4324)  // structure was padded due to __declspec(align())
 #endif
 
 #if defined(WIN32) && !defined(CRNLIB_ANSI_CPLUSPLUS)
-   // MSVC or MinGW, x86 or x64, Win32 API's for threading and Win32 Interlocked API's or GCC built-ins for atomic ops.
-   #ifdef NDEBUG
-      // Ensure checked iterators are disabled. Note: Be sure anything else that links against this lib also #define's this stuff, or remove this crap!
-      #define _SECURE_SCL 0
-      #define _HAS_ITERATOR_DEBUGGING 0
-   #endif
-   #ifndef _DLL
-      // If we're using the DLL form of the run-time libs, we're also going to be enabling exceptions because we'll be building CLR apps.
-      // Otherwise, we disable exceptions for a small speed boost.
-      #define _HAS_EXCEPTIONS 0
-   #endif
-   #define NOMINMAX
+// MSVC or MinGW, x86 or x64, Win32 API's for threading and Win32 Interlocked API's or GCC built-ins for atomic ops.
+#ifdef NDEBUG
+// Ensure checked iterators are disabled. Note: Be sure anything else that links against this lib also #define's this stuff, or remove this crap!
+#define _SECURE_SCL 0
+#define _HAS_ITERATOR_DEBUGGING 0
+#endif
+#ifndef _DLL
+// If we're using the DLL form of the run-time libs, we're also going to be enabling exceptions because we'll be building CLR apps.
+// Otherwise, we disable exceptions for a small speed boost.
+#define _HAS_EXCEPTIONS 0
+#endif
+#define NOMINMAX
 
-   #define CRNLIB_USE_WIN32_API 1
+#define CRNLIB_USE_WIN32_API 1
 
-   #if defined(__MINGW32__) || defined(__MINGW64__)
-      #define CRNLIB_USE_GCC_ATOMIC_BUILTINS 1
-   #else
-      #define CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS 1
-   #endif
-
-   #define CRNLIB_PLATFORM_PC 1
-
-   #if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
-      #define CRNLIB_PLATFORM_PC_X64 1
-      #define CRNLIB_64BIT_POINTERS 1
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
-      #define CRNLIB_LITTLE_ENDIAN_CPU 1
-   #else
-      #define CRNLIB_PLATFORM_PC_X86 1
-      #define CRNLIB_64BIT_POINTERS 0
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
-      #define CRNLIB_LITTLE_ENDIAN_CPU 1
-   #endif
-
-   #define CRNLIB_USE_UNALIGNED_INT_LOADS 1
-   #define CRNLIB_RESTRICT __restrict
-   #define CRNLIB_FORCE_INLINE __forceinline
-
-   #if defined(_MSC_VER) || defined(__MINGW32__) || defined(__MINGW64__)
-      #define CRNLIB_USE_MSVC_INTRINSICS 1
-   #endif
-
-   #define CRNLIB_INT64_FORMAT_SPECIFIER "%I64i"
-   #define CRNLIB_UINT64_FORMAT_SPECIFIER "%I64u"
-
-   #define CRNLIB_STDCALL __stdcall
-   #define CRNLIB_MEMORY_IMPORT_BARRIER
-   #define CRNLIB_MEMORY_EXPORT_BARRIER
-#elif defined(__GNUC__) && !defined(CRNLIB_ANSI_CPLUSPLUS)
-   // GCC x86 or x64, pthreads for threading and GCC built-ins for atomic ops.
-   #define CRNLIB_PLATFORM_PC 1
-
-   #if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
-      #define CRNLIB_PLATFORM_PC_X64 1
-      #define CRNLIB_64BIT_POINTERS 1
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
-   #else
-      #define CRNLIB_PLATFORM_PC_X86 1
-      #define CRNLIB_64BIT_POINTERS 0
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
-   #endif
-
-   #define CRNLIB_USE_UNALIGNED_INT_LOADS 1
-
-   #define CRNLIB_LITTLE_ENDIAN_CPU 1
-
-   #define CRNLIB_USE_PTHREADS_API 1
-   #define CRNLIB_USE_GCC_ATOMIC_BUILTINS 1
-
-   #define CRNLIB_RESTRICT
-
-   #define CRNLIB_FORCE_INLINE inline __attribute__((__always_inline__,__gnu_inline__))
-
-   #define CRNLIB_INT64_FORMAT_SPECIFIER "%lli"
-   #define CRNLIB_UINT64_FORMAT_SPECIFIER "%llu"
-
-   #define CRNLIB_STDCALL
-   #define CRNLIB_MEMORY_IMPORT_BARRIER
-   #define CRNLIB_MEMORY_EXPORT_BARRIER
+#if defined(__MINGW32__) || defined(__MINGW64__)
+#define CRNLIB_USE_GCC_ATOMIC_BUILTINS 1
 #else
-   // Vanilla ANSI-C/C++
-   // No threading support, unaligned loads are NOT okay.
-   #if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
-      #define CRNLIB_64BIT_POINTERS 1
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
-   #else
-      #define CRNLIB_64BIT_POINTERS 0
-      #define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
-   #endif
+#define CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS 1
+#endif
 
-   #define CRNLIB_USE_UNALIGNED_INT_LOADS 0
+#define CRNLIB_PLATFORM_PC 1
 
-   #if __BIG_ENDIAN__
-      #define CRNLIB_BIG_ENDIAN_CPU 1
-   #else
-      #define CRNLIB_LITTLE_ENDIAN_CPU 1
-   #endif
+#if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
+#define CRNLIB_PLATFORM_PC_X64 1
+#define CRNLIB_64BIT_POINTERS 1
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
+#define CRNLIB_LITTLE_ENDIAN_CPU 1
+#else
+#define CRNLIB_PLATFORM_PC_X86 1
+#define CRNLIB_64BIT_POINTERS 0
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
+#define CRNLIB_LITTLE_ENDIAN_CPU 1
+#endif
 
-   #define CRNLIB_USE_GCC_ATOMIC_BUILTINS 0
-   #define CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS 0
+#define CRNLIB_USE_UNALIGNED_INT_LOADS 1
+#define CRNLIB_RESTRICT __restrict
+#define CRNLIB_FORCE_INLINE __forceinline
 
-   #define CRNLIB_RESTRICT
-   #define CRNLIB_FORCE_INLINE inline
+#if defined(_MSC_VER) || defined(__MINGW32__) || defined(__MINGW64__)
+#define CRNLIB_USE_MSVC_INTRINSICS 1
+#endif
 
-   #define CRNLIB_INT64_FORMAT_SPECIFIER "%I64i"
-   #define CRNLIB_UINT64_FORMAT_SPECIFIER "%I64u"
+#define CRNLIB_INT64_FORMAT_SPECIFIER "%I64i"
+#define CRNLIB_UINT64_FORMAT_SPECIFIER "%I64u"
 
-   #define CRNLIB_STDCALL
-   #define CRNLIB_MEMORY_IMPORT_BARRIER
-   #define CRNLIB_MEMORY_EXPORT_BARRIER
+#define CRNLIB_STDCALL __stdcall
+#define CRNLIB_MEMORY_IMPORT_BARRIER
+#define CRNLIB_MEMORY_EXPORT_BARRIER
+#elif defined(__GNUC__) && !defined(CRNLIB_ANSI_CPLUSPLUS)
+// GCC x86 or x64, pthreads for threading and GCC built-ins for atomic ops.
+#define CRNLIB_PLATFORM_PC 1
+
+#if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
+#define CRNLIB_PLATFORM_PC_X64 1
+#define CRNLIB_64BIT_POINTERS 1
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
+#else
+#define CRNLIB_PLATFORM_PC_X86 1
+#define CRNLIB_64BIT_POINTERS 0
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
+#endif
+
+#define CRNLIB_USE_UNALIGNED_INT_LOADS 1
+
+#define CRNLIB_LITTLE_ENDIAN_CPU 1
+
+#define CRNLIB_USE_PTHREADS_API 1
+#define CRNLIB_USE_GCC_ATOMIC_BUILTINS 1
+
+#define CRNLIB_RESTRICT
+
+#define CRNLIB_FORCE_INLINE inline __attribute__((__always_inline__, __gnu_inline__))
+
+#define CRNLIB_INT64_FORMAT_SPECIFIER "%lli"
+#define CRNLIB_UINT64_FORMAT_SPECIFIER "%llu"
+
+#define CRNLIB_STDCALL
+#define CRNLIB_MEMORY_IMPORT_BARRIER
+#define CRNLIB_MEMORY_EXPORT_BARRIER
+#else
+// Vanilla ANSI-C/C++
+// No threading support, unaligned loads are NOT okay.
+#if defined(_WIN64) || defined(__MINGW64__) || defined(_LP64) || defined(__LP64__)
+#define CRNLIB_64BIT_POINTERS 1
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 1
+#else
+#define CRNLIB_64BIT_POINTERS 0
+#define CRNLIB_CPU_HAS_64BIT_REGISTERS 0
+#endif
+
+#define CRNLIB_USE_UNALIGNED_INT_LOADS 0
+
+#if __BIG_ENDIAN__
+#define CRNLIB_BIG_ENDIAN_CPU 1
+#else
+#define CRNLIB_LITTLE_ENDIAN_CPU 1
+#endif
+
+#define CRNLIB_USE_GCC_ATOMIC_BUILTINS 0
+#define CRNLIB_USE_WIN32_ATOMIC_FUNCTIONS 0
+
+#define CRNLIB_RESTRICT
+#define CRNLIB_FORCE_INLINE inline
+
+#define CRNLIB_INT64_FORMAT_SPECIFIER "%I64i"
+#define CRNLIB_UINT64_FORMAT_SPECIFIER "%I64u"
+
+#define CRNLIB_STDCALL
+#define CRNLIB_MEMORY_IMPORT_BARRIER
+#define CRNLIB_MEMORY_EXPORT_BARRIER
 #endif
 
 #define CRNLIB_SLOW_STRING_LEN_CHECKS 1
@@ -139,11 +139,11 @@
 #include <errno.h>
 
 #ifdef min
-   #undef min
+#undef min
 #endif
 
 #ifdef max
-   #undef max
+#undef max
 #endif
 
 #define CRNLIB_FALSE (0)
@@ -151,17 +151,17 @@
 #define CRNLIB_MAX_PATH (260)
 
 #ifdef _DEBUG
-   #define CRNLIB_BUILD_DEBUG
+#define CRNLIB_BUILD_DEBUG
 #else
-   #define CRNLIB_BUILD_RELEASE
+#define CRNLIB_BUILD_RELEASE
 
-   #ifndef NDEBUG
-      #define NDEBUG
-   #endif
+#ifndef NDEBUG
+#define NDEBUG
+#endif
 
-    #ifdef DEBUG
-      #error DEBUG cannot be defined in CRNLIB_BUILD_RELEASE
-   #endif
+#ifdef DEBUG
+#error DEBUG cannot be defined in CRNLIB_BUILD_RELEASE
+#endif
 #endif
 
 #include "crn_types.h"

crnlib/crn_data_stream.cpp

@@ -3,126 +3,112 @@
 #include "crn_core.h"
 #include "crn_data_stream.h"
 
-namespace crnlib
-{
-   data_stream::data_stream() :
-      m_attribs(0),
-      m_opened(false), m_error(false), m_got_cr(false)
-   {
-   }
+namespace crnlib {
+data_stream::data_stream()
+    : m_attribs(0),
+      m_opened(false),
+      m_error(false),
+      m_got_cr(false) {
+}
 
-   data_stream::data_stream(const char* pName, uint attribs) :
-      m_name(pName),
+data_stream::data_stream(const char* pName, uint attribs)
+    : m_name(pName),
       m_attribs(static_cast<uint16>(attribs)),
-      m_opened(false), m_error(false), m_got_cr(false)
-   {
-   }
+      m_opened(false),
+      m_error(false),
+      m_got_cr(false) {
+}
 
-   uint64 data_stream::skip(uint64 len)
-   {
-      uint64 total_bytes_read = 0;
+uint64 data_stream::skip(uint64 len) {
+  uint64 total_bytes_read = 0;
 
-      const uint cBufSize = 1024;
-      uint8 buf[cBufSize];
+  const uint cBufSize = 1024;
+  uint8 buf[cBufSize];
 
-      while (len)
-      {
-         const uint64 bytes_to_read = math::minimum<uint64>(sizeof(buf), len);
-         const uint64 bytes_read = read(buf, static_cast<uint>(bytes_to_read));
-         total_bytes_read += bytes_read;
+  while (len) {
+    const uint64 bytes_to_read = math::minimum<uint64>(sizeof(buf), len);
+    const uint64 bytes_read = read(buf, static_cast<uint>(bytes_to_read));
+    total_bytes_read += bytes_read;
 
-         if (bytes_read != bytes_to_read)
-            break;
+    if (bytes_read != bytes_to_read)
+      break;
 
-         len -= bytes_read;
-      }
+    len -= bytes_read;
+  }
 
-      return total_bytes_read;
-   }
+  return total_bytes_read;
+}
 
-   bool data_stream::read_line(dynamic_string& str)
-   {
-      str.empty();
+bool data_stream::read_line(dynamic_string& str) {
+  str.empty();
 
-      for ( ; ; )
-      {
-         const int c = read_byte();
+  for (;;) {
+    const int c = read_byte();
 
-         const bool prev_got_cr = m_got_cr;
-         m_got_cr = false;
+    const bool prev_got_cr = m_got_cr;
+    m_got_cr = false;
 
-         if (c < 0)
-         {
-            if (!str.is_empty())
-               break;
-
-            return false;
-         }
-         else if ((26 == c) || (!c))
-            continue;
-         else if (13 == c)
-         {
-            m_got_cr = true;
-            break;
-         }
-         else if (10 == c)
-         {
-            if (prev_got_cr)
-               continue;
-
-            break;
-         }
-
-         str.append_char(static_cast<char>(c));
-      }
-
-      return true;
-   }
-
-   bool data_stream::printf(const char* p, ...)
-   {
-      va_list args;
-
-      va_start(args, p);
-      dynamic_string buf;
-      buf.format_args(p, args);
-      va_end(args);
-
-      return write(buf.get_ptr(), buf.get_len() * sizeof(char)) == buf.get_len() * sizeof(char);
-   }
-
-   bool data_stream::write_line(const dynamic_string& str)
-   {
+    if (c < 0) {
       if (!str.is_empty())
-         return write(str.get_ptr(), str.get_len()) == str.get_len();
+        break;
 
-      return true;
-   }
+      return false;
+    } else if ((26 == c) || (!c))
+      continue;
+    else if (13 == c) {
+      m_got_cr = true;
+      break;
+    } else if (10 == c) {
+      if (prev_got_cr)
+        continue;
 
-   bool data_stream::read_array(vector<uint8>& buf)
-   {
-      if (buf.size() < get_remaining())
-      {
-         if (get_remaining() > 1024U*1024U*1024U)
-            return false;
+      break;
+    }
 
-         buf.resize((uint)get_remaining());
-      }
+    str.append_char(static_cast<char>(c));
+  }
 
-      if (!get_remaining())
-      {
-         buf.resize(0);
-         return true;
-      }
+  return true;
+}
 
-      return read(&buf[0], buf.size()) == buf.size();
-   }
+bool data_stream::printf(const char* p, ...) {
+  va_list args;
 
-   bool data_stream::write_array(const vector<uint8>& buf)
-   {
-      if (!buf.empty())
-         return write(&buf[0], buf.size()) == buf.size();
-      return true;
-   }
+  va_start(args, p);
+  dynamic_string buf;
+  buf.format_args(p, args);
+  va_end(args);
 
-} // namespace crnlib
+  return write(buf.get_ptr(), buf.get_len() * sizeof(char)) == buf.get_len() * sizeof(char);
+}
+
+bool data_stream::write_line(const dynamic_string& str) {
+  if (!str.is_empty())
+    return write(str.get_ptr(), str.get_len()) == str.get_len();
+
+  return true;
+}
+
+bool data_stream::read_array(vector<uint8>& buf) {
+  if (buf.size() < get_remaining()) {
+    if (get_remaining() > 1024U * 1024U * 1024U)
+      return false;
+
+    buf.resize((uint)get_remaining());
+  }
+
+  if (!get_remaining()) {
+    buf.resize(0);
+    return true;
+  }
+
+  return read(&buf[0], buf.size()) == buf.size();
+}
+
+bool data_stream::write_array(const vector<uint8>& buf) {
+  if (!buf.empty())
+    return write(&buf[0], buf.size()) == buf.size();
+  return true;
+}
+
+}  // namespace crnlib

crnlib/crn_data_stream.h

@@ -2,88 +2,97 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   enum data_stream_attribs
-   {
-      cDataStreamReadable = 1,
-      cDataStreamWritable = 2,
-      cDataStreamSeekable = 4
-   };
+namespace crnlib {
+enum data_stream_attribs {
+  cDataStreamReadable = 1,
+  cDataStreamWritable = 2,
+  cDataStreamSeekable = 4
+};
 
-   const int64 DATA_STREAM_SIZE_UNKNOWN = cINT64_MAX;
-   const int64 DATA_STREAM_SIZE_INFINITE = cUINT64_MAX;
+const int64 DATA_STREAM_SIZE_UNKNOWN = cINT64_MAX;
+const int64 DATA_STREAM_SIZE_INFINITE = cUINT64_MAX;
 
-   class data_stream
-   {
-      data_stream(const data_stream&);
-      data_stream& operator= (const data_stream&);
+class data_stream {
+  data_stream(const data_stream&);
+  data_stream& operator=(const data_stream&);
 
-   public:
-      data_stream();
-      data_stream(const char* pName, uint attribs);
+ public:
+  data_stream();
+  data_stream(const char* pName, uint attribs);
 
-      virtual ~data_stream() { }
+  virtual ~data_stream() {}
 
-      virtual data_stream *get_parent() { return NULL; }
+  virtual data_stream* get_parent() { return NULL; }
 
-      virtual bool close() { m_opened = false; m_error = false; m_got_cr = false; return true; }
+  virtual bool close() {
+    m_opened = false;
+    m_error = false;
+    m_got_cr = false;
+    return true;
+  }
 
-      typedef uint16 attribs_t;
-      inline attribs_t get_attribs() const { return m_attribs; }
+  typedef uint16 attribs_t;
+  inline attribs_t get_attribs() const { return m_attribs; }
 
-      inline bool is_opened() const { return m_opened; }
+  inline bool is_opened() const { return m_opened; }
 
-      inline bool is_readable() const { return utils::is_bit_set(m_attribs, cDataStreamReadable); }
-      inline bool is_writable() const { return utils::is_bit_set(m_attribs, cDataStreamWritable); }
-      inline bool is_seekable() const { return utils::is_bit_set(m_attribs, cDataStreamSeekable); }
+  inline bool is_readable() const { return utils::is_bit_set(m_attribs, cDataStreamReadable); }
+  inline bool is_writable() const { return utils::is_bit_set(m_attribs, cDataStreamWritable); }
+  inline bool is_seekable() const { return utils::is_bit_set(m_attribs, cDataStreamSeekable); }
 
-      inline bool get_error() const { return m_error; }
+  inline bool get_error() const { return m_error; }
 
-      inline const dynamic_string& get_name() const { return m_name; }
-      inline void set_name(const char* pName) { m_name.set(pName); }
+  inline const dynamic_string& get_name() const { return m_name; }
+  inline void set_name(const char* pName) { m_name.set(pName); }
 
-      virtual uint read(void* pBuf, uint len) = 0;
-      virtual uint64 skip(uint64 len);
+  virtual uint read(void* pBuf, uint len) = 0;
+  virtual uint64 skip(uint64 len);
 
-      virtual uint write(const void* pBuf, uint len) = 0;
-      virtual bool flush() = 0;
+  virtual uint write(const void* pBuf, uint len) = 0;
+  virtual bool flush() = 0;
 
-      virtual bool is_size_known() const { return true; }
+  virtual bool is_size_known() const { return true; }
 
-      // Returns DATA_STREAM_SIZE_UNKNOWN if size hasn't been determined yet, or DATA_STREAM_SIZE_INFINITE for infinite streams.
-      virtual uint64 get_size() = 0;
-      virtual uint64 get_remaining() = 0;
+  // Returns DATA_STREAM_SIZE_UNKNOWN if size hasn't been determined yet, or DATA_STREAM_SIZE_INFINITE for infinite streams.
+  virtual uint64 get_size() = 0;
+  virtual uint64 get_remaining() = 0;
 
-      virtual uint64 get_ofs() = 0;
-      virtual bool seek(int64 ofs, bool relative) = 0;
+  virtual uint64 get_ofs() = 0;
+  virtual bool seek(int64 ofs, bool relative) = 0;
 
-      virtual const void* get_ptr() const { return NULL; }
+  virtual const void* get_ptr() const { return NULL; }
 
-      inline int read_byte() { uint8 c; if (read(&c, 1) != 1) return -1; return c; }
-      inline bool write_byte(uint8 c) { return write(&c, 1) == 1; }
+  inline int read_byte() {
+    uint8 c;
+    if (read(&c, 1) != 1)
+      return -1;
+    return c;
+  }
+  inline bool write_byte(uint8 c) { return write(&c, 1) == 1; }
 
-      bool read_line(dynamic_string& str);
-      bool printf(const char* p, ...);
-      bool write_line(const dynamic_string& str);
-      bool write_bom() { uint16 bom = 0xFEFF; return write(&bom, sizeof(bom)) == sizeof(bom); }
+  bool read_line(dynamic_string& str);
+  bool printf(const char* p, ...);
+  bool write_line(const dynamic_string& str);
+  bool write_bom() {
+    uint16 bom = 0xFEFF;
+    return write(&bom, sizeof(bom)) == sizeof(bom);
+  }
 
-      bool read_array(vector<uint8>& buf);
-      bool write_array(const vector<uint8>& buf);
+  bool read_array(vector<uint8>& buf);
+  bool write_array(const vector<uint8>& buf);
 
-   protected:
-      dynamic_string m_name;
+ protected:
+  dynamic_string m_name;
 
-      attribs_t      m_attribs;
-      bool           m_opened : 1;
-      bool           m_error : 1;
-      bool           m_got_cr : 1;
+  attribs_t m_attribs;
+  bool m_opened : 1;
+  bool m_error : 1;
+  bool m_got_cr : 1;
 
-      inline void set_error() { m_error = true; }
-      inline void clear_error() { m_error = false; }
+  inline void set_error() { m_error = true; }
+  inline void clear_error() { m_error = false; }
 
-      inline void post_seek() { m_got_cr = false; }
-   };
-
-} // namespace crnlib
+  inline void post_seek() { m_got_cr = false; }
+};
 
+}  // namespace crnlib

crnlib/crn_data_stream_serializer.h

@@ -3,466 +3,493 @@
 #pragma once
 #include "crn_data_stream.h"
 
-namespace crnlib
-{
-   // Defaults to little endian mode.
-   class data_stream_serializer
-   {
-   public:
-      data_stream_serializer() : m_pStream(NULL), m_little_endian(true) { }
-      data_stream_serializer(data_stream* pStream) : m_pStream(pStream), m_little_endian(true) { }
-      data_stream_serializer(data_stream& stream) : m_pStream(&stream), m_little_endian(true) { }
-      data_stream_serializer(const data_stream_serializer& other) : m_pStream(other.m_pStream), m_little_endian(other.m_little_endian) { }
-      
-      data_stream_serializer& operator= (const data_stream_serializer& rhs) { m_pStream = rhs.m_pStream; m_little_endian = rhs.m_little_endian; return *this; }
+namespace crnlib {
+// Defaults to little endian mode.
+class data_stream_serializer {
+ public:
+  data_stream_serializer()
+      : m_pStream(NULL), m_little_endian(true) {}
+  data_stream_serializer(data_stream* pStream)
+      : m_pStream(pStream), m_little_endian(true) {}
+  data_stream_serializer(data_stream& stream)
+      : m_pStream(&stream), m_little_endian(true) {}
+  data_stream_serializer(const data_stream_serializer& other)
+      : m_pStream(other.m_pStream), m_little_endian(other.m_little_endian) {}
 
-      data_stream* get_stream() const { return m_pStream; }
-      void set_stream(data_stream* pStream) { m_pStream = pStream; }
+  data_stream_serializer& operator=(const data_stream_serializer& rhs) {
+    m_pStream = rhs.m_pStream;
+    m_little_endian = rhs.m_little_endian;
+    return *this;
+  }
 
-      const dynamic_string& get_name() const { return m_pStream ? m_pStream->get_name() : g_empty_dynamic_string; }
+  data_stream* get_stream() const { return m_pStream; }
+  void set_stream(data_stream* pStream) { m_pStream = pStream; }
 
-      bool get_error() { return m_pStream ? m_pStream->get_error() : false; }
-      
-      bool get_little_endian() const { return m_little_endian; }
-      void set_little_endian(bool little_endian) { m_little_endian = little_endian; }
-      
-      bool write(const void* pBuf, uint len)
-      {
-         return m_pStream->write(pBuf, len) == len;
-      }
-                  
-      bool read(void* pBuf, uint len)
-      {
-         return m_pStream->read(pBuf, len) == len;
-      }
-      
-      // size = size of each element, count = number of elements, returns actual count of elements written
-      uint write(const void* pBuf, uint size, uint count)
-      {
-         uint actual_size = size * count;
-         if (!actual_size)
-            return 0;
-         uint n = m_pStream->write(pBuf, actual_size);
-         if (n == actual_size)
-            return count;
-         return n / size;
-      }
+  const dynamic_string& get_name() const { return m_pStream ? m_pStream->get_name() : g_empty_dynamic_string; }
 
-      // size = size of each element, count = number of elements, returns actual count of elements read
-      uint read(void* pBuf, uint size, uint count)
-      {
-         uint actual_size = size * count;
-         if (!actual_size)
-            return 0;
-         uint n = m_pStream->read(pBuf, actual_size);
-         if (n == actual_size)
-            return count;
-         return n / size;
-      }
-      
-      bool write_chars(const char* pBuf, uint len)
-      {
-         return write(pBuf, len);
-      }
-      
-      bool read_chars(char* pBuf, uint len)
-      {
-         return read(pBuf, len);
-      }
-      
-      bool skip(uint len)
-      {
-         return m_pStream->skip(len) == len;
-      }
-      
-      template<typename T>
-      bool write_object(const T& obj)
-      {
-         if (m_little_endian == c_crnlib_little_endian_platform)
-            return write(&obj, sizeof(obj));
-         else
-         {
-            uint8 buf[sizeof(T)];
-            uint buf_size = sizeof(T);
-            void* pBuf = buf;
-            utils::write_obj(obj, pBuf, buf_size, m_little_endian);
-            
-            return write(buf, sizeof(T));
-         }
-      }
-      
-      template<typename T>
-      bool read_object(T& obj)
-      {
-         if (m_little_endian == c_crnlib_little_endian_platform)
-            return read(&obj, sizeof(obj));
-         else
-         {
-            uint8 buf[sizeof(T)];
-            if (!read(buf, sizeof(T)))
-               return false;
-            
-            uint buf_size = sizeof(T);
-            const void* pBuf = buf;
-            utils::read_obj(obj, pBuf, buf_size, m_little_endian);
-            
-            return true;
-         }
-      }
-         
-      template<typename T>
-      bool write_value(T value)
-      {
-         return write_object(value);
-      }
-      
-      template<typename T>
-      T read_value(const T& on_error_value = T())
-      {
-         T result;
-         if (!read_object(result))
-            result = on_error_value;
-         return result;
-      }
-      
-      template<typename T>
-      bool write_enum(T e)
-      {
-         int val = static_cast<int>(e);
-         return write_object(val);
-      }
+  bool get_error() { return m_pStream ? m_pStream->get_error() : false; }
 
-      template<typename T>
-      T read_enum()
-      {
-         return static_cast<T>(read_value<int>());
+  bool get_little_endian() const { return m_little_endian; }
+  void set_little_endian(bool little_endian) { m_little_endian = little_endian; }
+
+  bool write(const void* pBuf, uint len) {
+    return m_pStream->write(pBuf, len) == len;
+  }
+
+  bool read(void* pBuf, uint len) {
+    return m_pStream->read(pBuf, len) == len;
+  }
+
+  // size = size of each element, count = number of elements, returns actual count of elements written
+  uint write(const void* pBuf, uint size, uint count) {
+    uint actual_size = size * count;
+    if (!actual_size)
+      return 0;
+    uint n = m_pStream->write(pBuf, actual_size);
+    if (n == actual_size)
+      return count;
+    return n / size;
+  }
+
+  // size = size of each element, count = number of elements, returns actual count of elements read
+  uint read(void* pBuf, uint size, uint count) {
+    uint actual_size = size * count;
+    if (!actual_size)
+      return 0;
+    uint n = m_pStream->read(pBuf, actual_size);
+    if (n == actual_size)
+      return count;
+    return n / size;
+  }
+
+  bool write_chars(const char* pBuf, uint len) {
+    return write(pBuf, len);
+  }
+
+  bool read_chars(char* pBuf, uint len) {
+    return read(pBuf, len);
+  }
+
+  bool skip(uint len) {
+    return m_pStream->skip(len) == len;
+  }
+
+  template <typename T>
+  bool write_object(const T& obj) {
+    if (m_little_endian == c_crnlib_little_endian_platform)
+      return write(&obj, sizeof(obj));
+    else {
+      uint8 buf[sizeof(T)];
+      uint buf_size = sizeof(T);
+      void* pBuf = buf;
+      utils::write_obj(obj, pBuf, buf_size, m_little_endian);
+
+      return write(buf, sizeof(T));
+    }
+  }
+
+  template <typename T>
+  bool read_object(T& obj) {
+    if (m_little_endian == c_crnlib_little_endian_platform)
+      return read(&obj, sizeof(obj));
+    else {
+      uint8 buf[sizeof(T)];
+      if (!read(buf, sizeof(T)))
+        return false;
+
+      uint buf_size = sizeof(T);
+      const void* pBuf = buf;
+      utils::read_obj(obj, pBuf, buf_size, m_little_endian);
+
+      return true;
+    }
+  }
+
+  template <typename T>
+  bool write_value(T value) {
+    return write_object(value);
+  }
+
+  template <typename T>
+  T read_value(const T& on_error_value = T()) {
+    T result;
+    if (!read_object(result))
+      result = on_error_value;
+    return result;
+  }
+
+  template <typename T>
+  bool write_enum(T e) {
+    int val = static_cast<int>(e);
+    return write_object(val);
+  }
+
+  template <typename T>
+  T read_enum() {
+    return static_cast<T>(read_value<int>());
+  }
+
+  // Writes uint using a simple variable length code (VLC).
+  bool write_uint_vlc(uint val) {
+    do {
+      uint8 c = static_cast<uint8>(val) & 0x7F;
+      if (val <= 0x7F)
+        c |= 0x80;
+
+      if (!write_value(c))
+        return false;
+
+      val >>= 7;
+    } while (val);
+
+    return true;
+  }
+
+  // Reads uint using a simple variable length code (VLC).
+  bool read_uint_vlc(uint& val) {
+    val = 0;
+    uint shift = 0;
+
+    for (;;) {
+      if (shift >= 32)
+        return false;
+
+      uint8 c;
+      if (!read_object(c))
+        return false;
+
+      val |= ((c & 0x7F) << shift);
+      shift += 7;
+
+      if (c & 0x80)
+        break;
+    }
+
+    return true;
+  }
+
+  bool write_c_str(const char* p) {
+    uint len = static_cast<uint>(strlen(p));
+    if (!write_uint_vlc(len))
+      return false;
+
+    return write_chars(p, len);
+  }
+
+  bool read_c_str(char* pBuf, uint buf_size) {
+    uint len;
+    if (!read_uint_vlc(len))
+      return false;
+    if ((len + 1) > buf_size)
+      return false;
+
+    pBuf[len] = '\0';
+
+    return read_chars(pBuf, len);
+  }
+
+  bool write_string(const dynamic_string& str) {
+    if (!write_uint_vlc(str.get_len()))
+      return false;
+
+    return write_chars(str.get_ptr(), str.get_len());
+  }
+
+  bool read_string(dynamic_string& str) {
+    uint len;
+    if (!read_uint_vlc(len))
+      return false;
+
+    if (!str.set_len(len))
+      return false;
+
+    if (len) {
+      if (!read_chars(str.get_ptr_raw(), len))
+        return false;
+
+      if (memchr(str.get_ptr(), 0, len) != NULL) {
+        str.truncate(0);
+        return false;
       }
-      
-      // Writes uint using a simple variable length code (VLC).
-      bool write_uint_vlc(uint val)
-      {
-         do
-         {
-            uint8 c = static_cast<uint8>(val) & 0x7F;
-            if (val <= 0x7F)
-               c |= 0x80;
-               
-            if (!write_value(c))
-               return false;
-            
-            val >>= 7;
-         } while (val);
-         
-         return true;
-      }
-      
-      // Reads uint using a simple variable length code (VLC).
-      bool read_uint_vlc(uint& val)
-      {
-         val = 0;
-         uint shift = 0;
-         
-         for ( ; ; )
-         {
-            if (shift >= 32)
-               return false;
-               
-            uint8 c;
-            if (!read_object(c))
-               return false;
-            
-            val |= ((c & 0x7F) << shift);
-            shift += 7;
-            
-            if (c & 0x80)
-               break;
-         }
-         
-         return true;
-      }
-      
-      bool write_c_str(const char* p)
-      {
-         uint len = static_cast<uint>(strlen(p));
-         if (!write_uint_vlc(len))
+    }
+
+    return true;
+  }
+
+  template <typename T>
+  bool write_vector(const T& vec) {
+    if (!write_uint_vlc(vec.size()))
+      return false;
+
+    for (uint i = 0; i < vec.size(); i++) {
+      *this << vec[i];
+      if (get_error())
+        return false;
+    }
+
+    return true;
+  };
+
+  template <typename T>
+  bool read_vector(T& vec, uint num_expected = UINT_MAX) {
+    uint size;
+    if (!read_uint_vlc(size))
+      return false;
+
+    if ((size * sizeof(T::value_type)) >= 2U * 1024U * 1024U * 1024U)
+      return false;
+
+    if ((num_expected != UINT_MAX) && (size != num_expected))
+      return false;
+
+    vec.resize(size);
+    for (uint i = 0; i < vec.size(); i++) {
+      *this >> vec[i];
+
+      if (get_error())
+        return false;
+    }
+
+    return true;
+  }
+
+  bool read_entire_file(crnlib::vector<uint8>& buf) {
+    return m_pStream->read_array(buf);
+  }
+
+  bool write_entire_file(const crnlib::vector<uint8>& buf) {
+    return m_pStream->write_array(buf);
+  }
+
+  // Got this idea from the Molly Rocket forums.
+  // fmt may contain the characters "1", "2", or "4".
+  bool writef(char* fmt, ...) {
+    va_list v;
+    va_start(v, fmt);
+
+    while (*fmt) {
+      switch (*fmt++) {
+        case '1': {
+          const uint8 x = static_cast<uint8>(va_arg(v, uint));
+          if (!write_value(x))
             return false;
-         
-         return write_chars(p, len);
+        }
+        case '2': {
+          const uint16 x = static_cast<uint16>(va_arg(v, uint));
+          if (!write_value(x))
+            return false;
+        }
+        case '4': {
+          const uint32 x = static_cast<uint32>(va_arg(v, uint));
+          if (!write_value(x))
+            return false;
+        }
+        case ' ':
+        case ',': {
+          break;
+        }
+        default: {
+          CRNLIB_ASSERT(0);
+          return false;
+        }
       }
-      
-      bool read_c_str(char* pBuf, uint buf_size)
-      {
-         uint len;
-         if (!read_uint_vlc(len))
+    }
+
+    va_end(v);
+    return true;
+  }
+
+  // Got this idea from the Molly Rocket forums.
+  // fmt may contain the characters "1", "2", or "4".
+  bool readf(char* fmt, ...) {
+    va_list v;
+    va_start(v, fmt);
+
+    while (*fmt) {
+      switch (*fmt++) {
+        case '1': {
+          uint8* x = va_arg(v, uint8*);
+          CRNLIB_ASSERT(x);
+          if (!read_object(*x))
             return false;
-         if ((len + 1) > buf_size)
+        }
+        case '2': {
+          uint16* x = va_arg(v, uint16*);
+          CRNLIB_ASSERT(x);
+          if (!read_object(*x))
             return false;
-         
-         pBuf[len] = '\0';
-         
-         return read_chars(pBuf, len);
+        }
+        case '4': {
+          uint32* x = va_arg(v, uint32*);
+          CRNLIB_ASSERT(x);
+          if (!read_object(*x))
+            return false;
+        }
+        case ' ':
+        case ',': {
+          break;
+        }
+        default: {
+          CRNLIB_ASSERT(0);
+          return false;
+        }
       }
-      
-      bool write_string(const dynamic_string& str)
-      {
-         if (!write_uint_vlc(str.get_len()))
-            return false;
+    }
 
-         return write_chars(str.get_ptr(), str.get_len());
-      }
-      
-      bool read_string(dynamic_string& str)
-      {
-         uint len;
-         if (!read_uint_vlc(len))
-            return false;
-         
-         if (!str.set_len(len))
-            return false;
-         
-         if (len)
-         {
-            if (!read_chars(str.get_ptr_raw(), len))
-               return false;
-            
-            if (memchr(str.get_ptr(), 0, len) != NULL)
-            {
-               str.truncate(0);
-               return false;
-            }
-         }
-         
-         return true;
-      }
-                  
-      template<typename T>
-      bool write_vector(const T& vec)
-      {
-         if (!write_uint_vlc(vec.size()))
-            return false;
-         
-         for (uint i = 0; i < vec.size(); i++)
-         {
-            *this << vec[i];
-            if (get_error())
-               return false;
-         }
-         
-         return true;            
-      };
-      
-      template<typename T>
-      bool read_vector(T& vec, uint num_expected = UINT_MAX)
-      {
-         uint size;
-         if (!read_uint_vlc(size))
-            return false;
-         
-         if ((size * sizeof(T::value_type)) >= 2U*1024U*1024U*1024U)
-            return false;
-         
-         if ((num_expected != UINT_MAX) && (size != num_expected))
-            return false;
-       
-         vec.resize(size);
-         for (uint i = 0; i < vec.size(); i++)
-         {
-            *this >> vec[i];
-            
-            if (get_error())
-               return false;
-         }
-         
-         return true;
-      }
+    va_end(v);
+    return true;
+  }
 
-      bool read_entire_file(crnlib::vector<uint8>& buf)
-      {
-         return m_pStream->read_array(buf);
-      }
+ private:
+  data_stream* m_pStream;
 
-      bool write_entire_file(const crnlib::vector<uint8>& buf)
-      {
-         return m_pStream->write_array(buf);
-      }
-      
-      // Got this idea from the Molly Rocket forums.
-      // fmt may contain the characters "1", "2", or "4".
-      bool writef(char *fmt, ...) 
-      { 
-         va_list v; 
-         va_start(v, fmt); 
-         
-         while (*fmt) 
-         { 
-            switch (*fmt++) 
-            { 
-               case '1': 
-               { 
-                  const uint8 x = static_cast<uint8>(va_arg(v, uint)); 
-                  if (!write_value(x))
-                     return false;
-               } 
-               case '2': 
-               { 
-                  const uint16 x = static_cast<uint16>(va_arg(v, uint)); 
-                  if (!write_value(x))
-                     return false;
-               } 
-               case '4': 
-               { 
-                  const uint32 x = static_cast<uint32>(va_arg(v, uint)); 
-                  if (!write_value(x))
-                     return false;
-               } 
-               case ' ':
-               case ',':
-               {
-                  break;
-               }
-               default: 
-               {
-                  CRNLIB_ASSERT(0); 
-                  return false;
-               }                  
-            } 
-         } 
-         
-         va_end(v); 
-         return true;
-      } 
-      
-      // Got this idea from the Molly Rocket forums.
-      // fmt may contain the characters "1", "2", or "4".
-      bool readf(char *fmt, ...) 
-      { 
-         va_list v; 
-         va_start(v, fmt); 
+  bool m_little_endian;
+};
 
-         while (*fmt) 
-         { 
-            switch (*fmt++) 
-            { 
-               case '1': 
-               { 
-                  uint8* x = va_arg(v, uint8*); 
-                  CRNLIB_ASSERT(x);
-                  if (!read_object(*x))
-                     return false;
-               } 
-               case '2': 
-               { 
-                  uint16* x = va_arg(v, uint16*); 
-                  CRNLIB_ASSERT(x);
-                  if (!read_object(*x))
-                     return false;
-               } 
-               case '4': 
-               { 
-                  uint32* x = va_arg(v, uint32*);
-                  CRNLIB_ASSERT(x);
-                  if (!read_object(*x))
-                     return false;
-               }
-               case ' ':
-               case ',':
-               {
-                  break;
-               }
-               default: 
-               {
-                  CRNLIB_ASSERT(0); 
-                  return false;
-               }                  
-            } 
-         } 
+// Write operators
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, bool val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, int8 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, uint8 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, int16 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, uint16 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, int32 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, uint32 val) {
+  serializer.write_uint_vlc(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, int64 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, uint64 val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, long val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, unsigned long val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, float val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, double val) {
+  serializer.write_value(val);
+  return serializer;
+}
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, const char* p) {
+  serializer.write_c_str(p);
+  return serializer;
+}
 
-         va_end(v); 
-         return true;
-      } 
-            
-   private:
-      data_stream* m_pStream;
-
-      bool m_little_endian;
-   };
-   
-   // Write operators
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, bool val)           { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, int8 val)           { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, uint8 val)          { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, int16 val)          { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, uint16 val)         { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, int32 val)          { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, uint32 val)         { serializer.write_uint_vlc(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, int64 val)          { serializer.write_value(val); return serializer; } 
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, uint64 val)         { serializer.write_value(val); return serializer; } 
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, long val)           { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, unsigned long val)  { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, float val)          { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, double val)         { serializer.write_value(val); return serializer; }
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, const char* p)      { serializer.write_c_str(p); return serializer; }
-   
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, const dynamic_string& str)
-   {
-      serializer.write_string(str);
-      return serializer;
-   }
-   
-   template<typename T>
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, const crnlib::vector<T>& vec)
-   {
-      serializer.write_vector(vec);
-      return serializer;
-   }
-   
-   template<typename T>
-   inline data_stream_serializer& operator<< (data_stream_serializer& serializer, const T* p)
-   {
-      serializer.write_object(*p);
-      return serializer;
-   }
-   
-   // Read operators
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, bool& val)           { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, int8& val)           { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, uint8& val)          { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, int16& val)          { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, uint16& val)         { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, int32& val)          { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, uint32& val)         { serializer.read_uint_vlc(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, int64& val)          { serializer.read_object(val); return serializer; } 
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, uint64& val)         { serializer.read_object(val); return serializer; } 
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, long& val)           { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, unsigned long& val)  { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, float& val)          { serializer.read_object(val); return serializer; }
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, double& val)         { serializer.read_object(val); return serializer; }
-      
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, dynamic_string& str)
-   {
-      serializer.read_string(str);
-      return serializer;
-   }
-   
-   template<typename T>
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, crnlib::vector<T>& vec)
-   {
-      serializer.read_vector(vec);
-      return serializer;
-   }
-   
-   template<typename T>
-   inline data_stream_serializer& operator>> (data_stream_serializer& serializer, T* p)
-   {
-      serializer.read_object(*p);
-      return serializer;
-   }
-
-} // namespace crnlib
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, const dynamic_string& str) {
+  serializer.write_string(str);
+  return serializer;
+}
 
+template <typename T>
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, const crnlib::vector<T>& vec) {
+  serializer.write_vector(vec);
+  return serializer;
+}
 
+template <typename T>
+inline data_stream_serializer& operator<<(data_stream_serializer& serializer, const T* p) {
+  serializer.write_object(*p);
+  return serializer;
+}
 
+// Read operators
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, bool& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, int8& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, uint8& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, int16& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, uint16& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, int32& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, uint32& val) {
+  serializer.read_uint_vlc(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, int64& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, uint64& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, long& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, unsigned long& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, float& val) {
+  serializer.read_object(val);
+  return serializer;
+}
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, double& val) {
+  serializer.read_object(val);
+  return serializer;
+}
 
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, dynamic_string& str) {
+  serializer.read_string(str);
+  return serializer;
+}
 
+template <typename T>
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, crnlib::vector<T>& vec) {
+  serializer.read_vector(vec);
+  return serializer;
+}
 
+template <typename T>
+inline data_stream_serializer& operator>>(data_stream_serializer& serializer, T* p) {
+  serializer.read_object(*p);
+  return serializer;
+}
 
+}  // namespace crnlib

crnlib/crn_dds_comp.cpp

@@ -5,255 +5,223 @@
 #include "crn_dynamic_stream.h"
 #include "crn_lzma_codec.h"
 
-namespace crnlib
-{
-   dds_comp::dds_comp() :
-      m_pParams(NULL),
+namespace crnlib {
+dds_comp::dds_comp()
+    : m_pParams(NULL),
       m_pixel_fmt(PIXEL_FMT_INVALID),
-      m_pQDXT_state(NULL)
-   {
-   }
+      m_pQDXT_state(NULL) {
+}
 
-   dds_comp::~dds_comp()
-   {
-      crnlib_delete(m_pQDXT_state);
-   }
+dds_comp::~dds_comp() {
+  crnlib_delete(m_pQDXT_state);
+}
 
-   void dds_comp::clear()
-   {
-      m_src_tex.clear();
-      m_packed_tex.clear();
-      m_comp_data.clear();
-      m_pParams = NULL;
-      m_pixel_fmt = PIXEL_FMT_INVALID;
-      m_task_pool.deinit();
-      if (m_pQDXT_state)
-      {
-         crnlib_delete(m_pQDXT_state);
-         m_pQDXT_state = NULL;
+void dds_comp::clear() {
+  m_src_tex.clear();
+  m_packed_tex.clear();
+  m_comp_data.clear();
+  m_pParams = NULL;
+  m_pixel_fmt = PIXEL_FMT_INVALID;
+  m_task_pool.deinit();
+  if (m_pQDXT_state) {
+    crnlib_delete(m_pQDXT_state);
+    m_pQDXT_state = NULL;
+  }
+}
+
+bool dds_comp::create_dds_tex(mipmapped_texture& dds_tex) {
+  image_u8 images[cCRNMaxFaces][cCRNMaxLevels];
+
+  bool has_alpha = false;
+  for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++) {
+    for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++) {
+      const uint width = math::maximum(1U, m_pParams->m_width >> level_index);
+      const uint height = math::maximum(1U, m_pParams->m_height >> level_index);
+
+      if (!m_pParams->m_pImages[face_index][level_index])
+        return false;
+
+      images[face_index][level_index].alias((color_quad_u8*)m_pParams->m_pImages[face_index][level_index], width, height);
+      if (!has_alpha)
+        has_alpha = image_utils::has_alpha(images[face_index][level_index]);
+    }
+  }
+
+  for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
+    for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
+      images[face_index][level_index].set_component_valid(3, has_alpha);
+
+  image_utils::conversion_type conv_type = image_utils::get_image_conversion_type_from_crn_format((crn_format)m_pParams->m_format);
+  if (conv_type != image_utils::cConversion_Invalid) {
+    for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++) {
+      for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++) {
+        image_u8 cooked_image(images[face_index][level_index]);
+
+        image_utils::convert_image(cooked_image, conv_type);
+
+        images[face_index][level_index].swap(cooked_image);
       }
-   }
-   
-   bool dds_comp::create_dds_tex(mipmapped_texture &dds_tex)
-   {
-      image_u8 images[cCRNMaxFaces][cCRNMaxLevels];
+    }
+  }
 
-      bool has_alpha = false;
-      for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
-      {
-         for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
-         {
-            const uint width = math::maximum(1U, m_pParams->m_width >> level_index);
-            const uint height = math::maximum(1U, m_pParams->m_height >> level_index);
+  face_vec faces(m_pParams->m_faces);
 
-            if (!m_pParams->m_pImages[face_index][level_index])
-               return false;
+  for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++) {
+    for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++) {
+      mip_level* pMip = crnlib_new<mip_level>();
 
-            images[face_index][level_index].alias((color_quad_u8*)m_pParams->m_pImages[face_index][level_index], width, height);
-            if (!has_alpha)
-               has_alpha = image_utils::has_alpha(images[face_index][level_index]);
-         }
-      }
-      
-      for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
-         for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
-            images[face_index][level_index].set_component_valid(3, has_alpha);
+      image_u8* pImage = crnlib_new<image_u8>();
+      pImage->swap(images[face_index][level_index]);
+      pMip->assign(pImage);
 
-      image_utils::conversion_type conv_type = image_utils::get_image_conversion_type_from_crn_format((crn_format)m_pParams->m_format);
-      if (conv_type != image_utils::cConversion_Invalid)
-      {
-         for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
-         {
-            for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
-            {
-               image_u8 cooked_image(images[face_index][level_index]);
+      faces[face_index].push_back(pMip);
+    }
+  }
 
-               image_utils::convert_image(cooked_image, conv_type);
-
-               images[face_index][level_index].swap(cooked_image);
-            }
-         }
-      }
-
-      face_vec faces(m_pParams->m_faces);
-
-      for (uint face_index = 0; face_index < m_pParams->m_faces; face_index++)
-      {
-         for (uint level_index = 0; level_index < m_pParams->m_levels; level_index++)
-         {
-            mip_level *pMip = crnlib_new<mip_level>();
-
-            image_u8 *pImage = crnlib_new<image_u8>();
-            pImage->swap(images[face_index][level_index]);
-            pMip->assign(pImage);
-
-            faces[face_index].push_back(pMip);
-         }
-      }
-
-      dds_tex.assign(faces);
+  dds_tex.assign(faces);
 #ifdef CRNLIB_BUILD_DEBUG
-      CRNLIB_ASSERT(dds_tex.check());
+  CRNLIB_ASSERT(dds_tex.check());
 #endif
 
-      return true;
-   } 
+  return true;
+}
 
-   static bool progress_callback_func(uint percentage_complete, void* pUser_data_ptr)
-   {
-      const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
-      return params.m_pProgress_func(0, 1, percentage_complete, 100, params.m_pProgress_func_data) != 0;
-   }
+static bool progress_callback_func(uint percentage_complete, void* pUser_data_ptr) {
+  const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
+  return params.m_pProgress_func(0, 1, percentage_complete, 100, params.m_pProgress_func_data) != 0;
+}
 
-   static bool progress_callback_func_phase_0(uint percentage_complete, void* pUser_data_ptr)
-   {
-      const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
-      return params.m_pProgress_func(0, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
-   }
+static bool progress_callback_func_phase_0(uint percentage_complete, void* pUser_data_ptr) {
+  const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
+  return params.m_pProgress_func(0, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
+}
 
-   static bool progress_callback_func_phase_1(uint percentage_complete, void* pUser_data_ptr)
-   {
-      const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
-      return params.m_pProgress_func(1, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
-   }
+static bool progress_callback_func_phase_1(uint percentage_complete, void* pUser_data_ptr) {
+  const crn_comp_params& params = *(const crn_comp_params*)pUser_data_ptr;
+  return params.m_pProgress_func(1, 2, percentage_complete, 100, params.m_pProgress_func_data) != 0;
+}
 
-   bool dds_comp::convert_to_dxt(const crn_comp_params& params)
-   {
-      if ((params.m_quality_level == cCRNMaxQualityLevel) || (params.m_format == cCRNFmtDXT3))
-      {
-         m_packed_tex = m_src_tex;
-         if (!m_packed_tex.convert(m_pixel_fmt, false, m_pack_params))
-            return false;
-      }
-      else
-      {
-         const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
-         
-         m_q1_params.m_quality_level = params.m_quality_level;
-         m_q1_params.m_hierarchical = hierarchical;
+bool dds_comp::convert_to_dxt(const crn_comp_params& params) {
+  if ((params.m_quality_level == cCRNMaxQualityLevel) || (params.m_format == cCRNFmtDXT3)) {
+    m_packed_tex = m_src_tex;
+    if (!m_packed_tex.convert(m_pixel_fmt, false, m_pack_params))
+      return false;
+  } else {
+    const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
 
-         m_q5_params.m_quality_level = params.m_quality_level;
-         m_q5_params.m_hierarchical = hierarchical;
+    m_q1_params.m_quality_level = params.m_quality_level;
+    m_q1_params.m_hierarchical = hierarchical;
 
-         if (!m_pQDXT_state)
-         {
-            m_pQDXT_state = crnlib_new<mipmapped_texture::qdxt_state>(m_task_pool);
-                        
-            if (params.m_pProgress_func)
-            {
-               m_q1_params.m_pProgress_func = progress_callback_func_phase_0;
-               m_q1_params.m_pProgress_data = (void*)&params;
-               m_q5_params.m_pProgress_func = progress_callback_func_phase_0;
-               m_q5_params.m_pProgress_data = (void*)&params;
-            }
+    m_q5_params.m_quality_level = params.m_quality_level;
+    m_q5_params.m_hierarchical = hierarchical;
 
-            if (!m_src_tex.qdxt_pack_init(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params, m_pixel_fmt, false))
-               return false;
-            
-            if (params.m_pProgress_func)
-            {
-               m_q1_params.m_pProgress_func = progress_callback_func_phase_1;
-               m_q5_params.m_pProgress_func = progress_callback_func_phase_1;
-            }
-         }
-         else
-         {
-            if (params.m_pProgress_func)
-            {
-               m_q1_params.m_pProgress_func = progress_callback_func;
-               m_q1_params.m_pProgress_data = (void*)&params;
-               m_q5_params.m_pProgress_func = progress_callback_func;
-               m_q5_params.m_pProgress_data = (void*)&params;
-            }
-         }
+    if (!m_pQDXT_state) {
+      m_pQDXT_state = crnlib_new<mipmapped_texture::qdxt_state>(m_task_pool);
 
-         if (!m_src_tex.qdxt_pack(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params))
-            return false;
-      }
-      
-      return true;
-   }
-         
-   bool dds_comp::compress_init(const crn_comp_params& params)
-   {
-      clear();
-
-      m_pParams = &params;
-
-      if ((math::minimum(m_pParams->m_width, m_pParams->m_height) < 1) || (math::maximum(m_pParams->m_width, m_pParams->m_height) > cCRNMaxLevelResolution))
-         return false;
-
-      if (math::minimum(m_pParams->m_faces, m_pParams->m_levels) < 1)
-         return false;
-      
-      if (!create_dds_tex(m_src_tex))
-         return false;
-
-      m_pack_params.init(*m_pParams);
-      if (params.m_pProgress_func)
-      {
-         m_pack_params.m_pProgress_callback = progress_callback_func;
-         m_pack_params.m_pProgress_callback_user_data_ptr = (void*)&params;
-      }
-      
-      m_pixel_fmt = pixel_format_helpers::convert_crn_format_to_pixel_format(static_cast<crn_format>(m_pParams->m_format));
-      if (m_pixel_fmt == PIXEL_FMT_INVALID)
-         return false;
-      if ((m_pixel_fmt == PIXEL_FMT_DXT1) && (m_src_tex.has_alpha()) && (m_pack_params.m_use_both_block_types) && (m_pParams->m_flags & cCRNCompFlagDXT1AForTransparency))
-         m_pixel_fmt = PIXEL_FMT_DXT1A;
-      
-      if (!m_task_pool.init(m_pParams->m_num_helper_threads))
-         return false;
-      m_pack_params.m_pTask_pool = &m_task_pool;
-
-      const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
-      m_q1_params.init(m_pack_params, params.m_quality_level, hierarchical);
-      m_q5_params.init(m_pack_params, params.m_quality_level, hierarchical);
-      
-      return true;
-   }
-
-   bool dds_comp::compress_pass(const crn_comp_params& params, float *pEffective_bitrate)
-   {
-      if (pEffective_bitrate) *pEffective_bitrate = 0.0f;
-      
-      if (!m_pParams)
-         return false;
-
-      if (!convert_to_dxt(params))
-         return false;
-
-      dynamic_stream out_stream;
-      out_stream.reserve(512*1024);
-      data_stream_serializer serializer(out_stream);
-
-      if (!m_packed_tex.write_dds(serializer))
-         return false;
-      out_stream.reserve(0);
-
-      m_comp_data.swap(out_stream.get_buf());
-
-      if (pEffective_bitrate)
-      {
-         lzma_codec lossless_codec;
-
-         crnlib::vector<uint8> cmp_tex_bytes;
-         if (lossless_codec.pack(m_comp_data.get_ptr(), m_comp_data.size(), cmp_tex_bytes))
-         {
-            uint comp_size = cmp_tex_bytes.size();
-            if (comp_size)
-            {
-               *pEffective_bitrate = (comp_size * 8.0f) / m_src_tex.get_total_pixels_in_all_faces_and_mips();
-            }
-         }
+      if (params.m_pProgress_func) {
+        m_q1_params.m_pProgress_func = progress_callback_func_phase_0;
+        m_q1_params.m_pProgress_data = (void*)&params;
+        m_q5_params.m_pProgress_func = progress_callback_func_phase_0;
+        m_q5_params.m_pProgress_data = (void*)&params;
       }
 
-      return true;
-   }
+      if (!m_src_tex.qdxt_pack_init(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params, m_pixel_fmt, false))
+        return false;
 
-   void dds_comp::compress_deinit()
-   {
-      clear();
-   }
+      if (params.m_pProgress_func) {
+        m_q1_params.m_pProgress_func = progress_callback_func_phase_1;
+        m_q5_params.m_pProgress_func = progress_callback_func_phase_1;
+      }
+    } else {
+      if (params.m_pProgress_func) {
+        m_q1_params.m_pProgress_func = progress_callback_func;
+        m_q1_params.m_pProgress_data = (void*)&params;
+        m_q5_params.m_pProgress_func = progress_callback_func;
+        m_q5_params.m_pProgress_data = (void*)&params;
+      }
+    }
 
-} // namespace crnlib
+    if (!m_src_tex.qdxt_pack(*m_pQDXT_state, m_packed_tex, m_q1_params, m_q5_params))
+      return false;
+  }
+
+  return true;
+}
+
+bool dds_comp::compress_init(const crn_comp_params& params) {
+  clear();
+
+  m_pParams = &params;
+
+  if ((math::minimum(m_pParams->m_width, m_pParams->m_height) < 1) || (math::maximum(m_pParams->m_width, m_pParams->m_height) > cCRNMaxLevelResolution))
+    return false;
+
+  if (math::minimum(m_pParams->m_faces, m_pParams->m_levels) < 1)
+    return false;
+
+  if (!create_dds_tex(m_src_tex))
+    return false;
+
+  m_pack_params.init(*m_pParams);
+  if (params.m_pProgress_func) {
+    m_pack_params.m_pProgress_callback = progress_callback_func;
+    m_pack_params.m_pProgress_callback_user_data_ptr = (void*)&params;
+  }
+
+  m_pixel_fmt = pixel_format_helpers::convert_crn_format_to_pixel_format(static_cast<crn_format>(m_pParams->m_format));
+  if (m_pixel_fmt == PIXEL_FMT_INVALID)
+    return false;
+  if ((m_pixel_fmt == PIXEL_FMT_DXT1) && (m_src_tex.has_alpha()) && (m_pack_params.m_use_both_block_types) && (m_pParams->m_flags & cCRNCompFlagDXT1AForTransparency))
+    m_pixel_fmt = PIXEL_FMT_DXT1A;
+
+  if (!m_task_pool.init(m_pParams->m_num_helper_threads))
+    return false;
+  m_pack_params.m_pTask_pool = &m_task_pool;
+
+  const bool hierarchical = (params.m_flags & cCRNCompFlagHierarchical) != 0;
+  m_q1_params.init(m_pack_params, params.m_quality_level, hierarchical);
+  m_q5_params.init(m_pack_params, params.m_quality_level, hierarchical);
+
+  return true;
+}
+
+bool dds_comp::compress_pass(const crn_comp_params& params, float* pEffective_bitrate) {
+  if (pEffective_bitrate)
+    *pEffective_bitrate = 0.0f;
+
+  if (!m_pParams)
+    return false;
+
+  if (!convert_to_dxt(params))
+    return false;
+
+  dynamic_stream out_stream;
+  out_stream.reserve(512 * 1024);
+  data_stream_serializer serializer(out_stream);
+
+  if (!m_packed_tex.write_dds(serializer))
+    return false;
+  out_stream.reserve(0);
+
+  m_comp_data.swap(out_stream.get_buf());
+
+  if (pEffective_bitrate) {
+    lzma_codec lossless_codec;
+
+    crnlib::vector<uint8> cmp_tex_bytes;
+    if (lossless_codec.pack(m_comp_data.get_ptr(), m_comp_data.size(), cmp_tex_bytes)) {
+      uint comp_size = cmp_tex_bytes.size();
+      if (comp_size) {
+        *pEffective_bitrate = (comp_size * 8.0f) / m_src_tex.get_total_pixels_in_all_faces_and_mips();
+      }
+    }
+  }
+
+  return true;
+}
+
+void dds_comp::compress_deinit() {
+  clear();
+}
+
+}  // namespace crnlib

crnlib/crn_dds_comp.h

@@ -5,44 +5,42 @@
 #include "crn_mipmapped_texture.h"
 #include "crn_texture_comp.h"
 
-namespace crnlib
-{
-   class dds_comp : public itexture_comp
-   {
-      CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(dds_comp);
+namespace crnlib {
+class dds_comp : public itexture_comp {
+  CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(dds_comp);
 
-   public:
-      dds_comp();
-      virtual ~dds_comp();
+ public:
+  dds_comp();
+  virtual ~dds_comp();
 
-      virtual const char *get_ext() const { return "DDS"; }
+  virtual const char* get_ext() const { return "DDS"; }
 
-      virtual bool compress_init(const crn_comp_params& params);
-      virtual bool compress_pass(const crn_comp_params& params, float *pEffective_bitrate);
-      virtual void compress_deinit();
+  virtual bool compress_init(const crn_comp_params& params);
+  virtual bool compress_pass(const crn_comp_params& params, float* pEffective_bitrate);
+  virtual void compress_deinit();
 
-      virtual const crnlib::vector<uint8>& get_comp_data() const  { return m_comp_data; }
-      virtual       crnlib::vector<uint8>& get_comp_data()        { return m_comp_data; }
+  virtual const crnlib::vector<uint8>& get_comp_data() const { return m_comp_data; }
+  virtual crnlib::vector<uint8>& get_comp_data() { return m_comp_data; }
 
-   private:
-      mipmapped_texture m_src_tex;
-      mipmapped_texture m_packed_tex;
+ private:
+  mipmapped_texture m_src_tex;
+  mipmapped_texture m_packed_tex;
 
-      crnlib::vector<uint8> m_comp_data;
+  crnlib::vector<uint8> m_comp_data;
 
-      const crn_comp_params* m_pParams;
+  const crn_comp_params* m_pParams;
 
-      pixel_format m_pixel_fmt;
-      dxt_image::pack_params m_pack_params;
+  pixel_format m_pixel_fmt;
+  dxt_image::pack_params m_pack_params;
 
-      task_pool m_task_pool;
-      qdxt1_params m_q1_params;
-      qdxt5_params m_q5_params;
-      mipmapped_texture::qdxt_state *m_pQDXT_state;
+  task_pool m_task_pool;
+  qdxt1_params m_q1_params;
+  qdxt5_params m_q5_params;
+  mipmapped_texture::qdxt_state* m_pQDXT_state;
 
-      void clear();
-      bool create_dds_tex(mipmapped_texture &dds_tex);
-      bool convert_to_dxt(const crn_comp_params& params);
-   };
+  void clear();
+  bool create_dds_tex(mipmapped_texture& dds_tex);
+  bool convert_to_dxt(const crn_comp_params& params);
+};
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_dxt.cpp

@@ -7,380 +7,371 @@
 #include "crn_dxt_fast.h"
 #include "crn_intersect.h"
 
-namespace crnlib
-{
-   const uint8 g_dxt5_from_linear[cDXT5SelectorValues]   = { 0U, 2U, 3U, 4U, 5U, 6U, 7U, 1U };
-   const uint8 g_dxt5_to_linear[cDXT5SelectorValues]     = { 0U, 7U, 1U, 2U, 3U, 4U, 5U, 6U };
+namespace crnlib {
+const uint8 g_dxt5_from_linear[cDXT5SelectorValues] = {0U, 2U, 3U, 4U, 5U, 6U, 7U, 1U};
+const uint8 g_dxt5_to_linear[cDXT5SelectorValues] = {0U, 7U, 1U, 2U, 3U, 4U, 5U, 6U};
 
-   const uint8 g_dxt5_alpha6_to_linear[cDXT5SelectorValues] = { 0U, 5U, 1U, 2U, 3U, 4U, 0U, 0U };
+const uint8 g_dxt5_alpha6_to_linear[cDXT5SelectorValues] = {0U, 5U, 1U, 2U, 3U, 4U, 0U, 0U};
 
-   const uint8 g_dxt1_from_linear[cDXT1SelectorValues]   = { 0U, 2U, 3U, 1U };
-   const uint8 g_dxt1_to_linear[cDXT1SelectorValues]     = { 0U, 3U, 1U, 2U };
+const uint8 g_dxt1_from_linear[cDXT1SelectorValues] = {0U, 2U, 3U, 1U};
+const uint8 g_dxt1_to_linear[cDXT1SelectorValues] = {0U, 3U, 1U, 2U};
 
-   const uint8 g_six_alpha_invert_table[cDXT5SelectorValues] = { 1, 0, 5, 4, 3, 2, 6, 7 };
-   const uint8 g_eight_alpha_invert_table[cDXT5SelectorValues] = { 1, 0, 7, 6, 5, 4, 3, 2 };
+const uint8 g_six_alpha_invert_table[cDXT5SelectorValues] = {1, 0, 5, 4, 3, 2, 6, 7};
+const uint8 g_eight_alpha_invert_table[cDXT5SelectorValues] = {1, 0, 7, 6, 5, 4, 3, 2};
 
-   const char* get_dxt_format_string(dxt_format fmt)
-   {
-      switch (fmt)
-      {
-         case cDXT1:    return "DXT1";
-         case cDXT1A:   return "DXT1A";
-         case cDXT3:    return "DXT3";
-         case cDXT5:    return "DXT5";
-         case cDXT5A:   return "DXT5A";
-         case cDXN_XY:  return "DXN_XY";
-         case cDXN_YX:  return "DXN_YX";
-         case cETC1:    return "ETC1";
-         default: break;
-      }
-      CRNLIB_ASSERT(false);
-      return "?";
-   }
+const char* get_dxt_format_string(dxt_format fmt) {
+  switch (fmt) {
+    case cDXT1:
+      return "DXT1";
+    case cDXT1A:
+      return "DXT1A";
+    case cDXT3:
+      return "DXT3";
+    case cDXT5:
+      return "DXT5";
+    case cDXT5A:
+      return "DXT5A";
+    case cDXN_XY:
+      return "DXN_XY";
+    case cDXN_YX:
+      return "DXN_YX";
+    case cETC1:
+      return "ETC1";
+    case cETC2:
+      return "ETC2";
+    case cETC2A:
+      return "ETC2A";
+    case cETC1S:
+      return "ETC1S";
+    case cETC2AS:
+      return "ETC2AS";
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return "?";
+}
 
-   const char* get_dxt_compressor_name(crn_dxt_compressor_type c)
-   {
-      switch (c)
-      {
-         case cCRNDXTCompressorCRN:    return "CRN";
-         case cCRNDXTCompressorCRNF:   return "CRNF";
-         case cCRNDXTCompressorRYG:    return "RYG";
+const char* get_dxt_compressor_name(crn_dxt_compressor_type c) {
+  switch (c) {
+    case cCRNDXTCompressorCRN:
+      return "CRN";
+    case cCRNDXTCompressorCRNF:
+      return "CRNF";
+    case cCRNDXTCompressorRYG:
+      return "RYG";
 #if CRNLIB_SUPPORT_ATI_COMPRESS
-         case cCRNDXTCompressorATI:  return "ATI";
+    case cCRNDXTCompressorATI:
+      return "ATI";
 #endif
-         default: break;
-      }
-      CRNLIB_ASSERT(false);
-      return "?";
-   }
-
-   uint get_dxt_format_bits_per_pixel(dxt_format fmt)
-   {
-      switch (fmt)
-      {
-         case cDXT1:
-         case cDXT1A:
-         case cDXT5A:
-         case cETC1:
-            return 4;
-         case cDXT3:
-         case cDXT5:
-         case cDXN_XY:
-         case cDXN_YX:
-            return 8;
-         default: break;
-      }
-      CRNLIB_ASSERT(false);
-      return 0;
-   }
-
-   bool get_dxt_format_has_alpha(dxt_format fmt)
-   {
-      switch (fmt)
-      {
-         case cDXT1A:
-         case cDXT3:
-         case cDXT5:
-         case cDXT5A:
-            return true;
-         default: break;
-      }
-      return false;
-   }
-
-   uint16 dxt1_block::pack_color(const color_quad_u8& color, bool scaled, uint bias)
-   {
-      uint r = color.r;
-      uint g = color.g;
-      uint b = color.b;
-
-      if (scaled)
-      {
-         r = (r * 31U + bias) / 255U;
-         g = (g * 63U + bias) / 255U;
-         b = (b * 31U + bias) / 255U;
-      }
-
-      r = math::minimum(r, 31U);
-      g = math::minimum(g, 63U);
-      b = math::minimum(b, 31U);
-
-      return static_cast<uint16>(b | (g << 5U) | (r << 11U));
-   }
-
-   uint16 dxt1_block::pack_color(uint r, uint g, uint b, bool scaled, uint bias)
-   {
-      return pack_color(color_quad_u8(r, g, b, 0), scaled, bias);
-   }
-
-   color_quad_u8 dxt1_block::unpack_color(uint16 packed_color, bool scaled, uint alpha)
-   {
-      uint b = packed_color & 31U;
-      uint g = (packed_color >> 5U) & 63U;
-      uint r = (packed_color >> 11U) & 31U;
-
-      if (scaled)
-      {
-         b = (b << 3U) | (b >> 2U);
-         g = (g << 2U) | (g >> 4U);
-         r = (r << 3U) | (r >> 2U);
-      }
-
-      return color_quad_u8(cNoClamp, r, g, b, math::minimum(alpha, 255U));
-   }
-
-   void dxt1_block::unpack_color(uint& r, uint& g, uint& b, uint16 packed_color, bool scaled)
-   {
-      color_quad_u8 c(unpack_color(packed_color, scaled, 0));
-      r = c.r;
-      g = c.g;
-      b = c.b;
-   }
-
-   void dxt1_block::get_block_colors_NV5x(color_quad_u8* pDst, uint16 packed_col0, uint16 packed_col1, bool color4)
-   {
-      color_quad_u8 col0(unpack_color(packed_col0, false));
-      color_quad_u8 col1(unpack_color(packed_col1, false));
-
-      pDst[0].r = (3 * col0.r * 22) / 8;
-      pDst[0].b = (3 * col0.b * 22) / 8;
-      pDst[0].g = (col0.g << 2) | (col0.g >> 4);
-      pDst[0].a = 0xFF;
-
-      pDst[1].r = (3 * col1.r * 22) / 8;
-      pDst[1].g = (col1.g << 2) | (col1.g >> 4);
-      pDst[1].b = (3 * col1.b * 22) / 8;
-      pDst[1].a = 0xFF;
-
-      int gdiff = pDst[1].g - pDst[0].g;
-
-      if (color4) //(packed_col0 > packed_col1)
-      {
-         pDst[2].r = static_cast<uint8>(((2 * col0.r + col1.r) * 22) / 8);
-         pDst[2].g = static_cast<uint8>((256 * pDst[0].g + gdiff/4 + 128 + gdiff * 80) / 256);
-         pDst[2].b = static_cast<uint8>(((2 * col0.b + col1.b) * 22) / 8);
-         pDst[2].a = 0xFF;
-
-         pDst[3].r = static_cast<uint8>(((2 * col1.r + col0.r) * 22) / 8);
-         pDst[3].g = static_cast<uint8>((256 * pDst[1].g - gdiff/4 + 128 - gdiff * 80) / 256);
-         pDst[3].b = static_cast<uint8>(((2 * col1.b + col0.b) * 22) / 8);
-         pDst[3].a = 0xFF;
-      }
-      else {
-         pDst[2].r = static_cast<uint8>(((col0.r + col1.r) * 33) / 8);
-         pDst[2].g = static_cast<uint8>((256 * pDst[0].g + gdiff/4 + 128 + gdiff * 128) / 256);
-         pDst[2].b = static_cast<uint8>(((col0.b + col1.b) * 33) / 8);
-         pDst[2].a = 0xFF;
-
-         pDst[3].r = 0x00;
-         pDst[3].g = 0x00;
-         pDst[3].b = 0x00;
-         pDst[3].a = 0x00;
-      }
-   }
-
-   uint dxt1_block::get_block_colors3(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      color_quad_u8 c0(unpack_color(color0, true));
-      color_quad_u8 c1(unpack_color(color1, true));
-
-      pDst[0] = c0;
-      pDst[1] = c1;
-      pDst[2].set_noclamp_rgba( (c0.r + c1.r) >> 1U, (c0.g + c1.g) >> 1U, (c0.b + c1.b) >> 1U, 255U);
-      pDst[3].set_noclamp_rgba(0, 0, 0, 0);
-
-      return 3;
-   }
-
-   uint dxt1_block::get_block_colors4(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      color_quad_u8 c0(unpack_color(color0, true));
-      color_quad_u8 c1(unpack_color(color1, true));
-
-      pDst[0] = c0;
-      pDst[1] = c1;
-
-      // The compiler changes the div3 into a mul by recip+shift.
-      pDst[2].set_noclamp_rgba( (c0.r * 2 + c1.r) / 3, (c0.g * 2 + c1.g) / 3, (c0.b * 2 + c1.b) / 3, 255U);
-      pDst[3].set_noclamp_rgba( (c1.r * 2 + c0.r) / 3, (c1.g * 2 + c0.g) / 3, (c1.b * 2 + c0.b) / 3, 255U);
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return "?";
+}
 
+uint get_dxt_format_bits_per_pixel(dxt_format fmt) {
+  switch (fmt) {
+    case cDXT1:
+    case cDXT1A:
+    case cDXT5A:
+    case cETC1:
+    case cETC2:
+    case cETC1S:
       return 4;
-   }
-
-   uint dxt1_block::get_block_colors3_round(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      color_quad_u8 c0(unpack_color(color0, true));
-      color_quad_u8 c1(unpack_color(color1, true));
-
-      pDst[0] = c0;
-      pDst[1] = c1;
-      pDst[2].set_noclamp_rgba( (c0.r + c1.r + 1) >> 1U, (c0.g + c1.g + 1) >> 1U, (c0.b + c1.b + 1) >> 1U, 255U);
-      pDst[3].set_noclamp_rgba(0, 0, 0, 0);
-
-      return 3;
-   }
-
-   uint dxt1_block::get_block_colors4_round(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      color_quad_u8 c0(unpack_color(color0, true));
-      color_quad_u8 c1(unpack_color(color1, true));
-
-      pDst[0] = c0;
-      pDst[1] = c1;
-
-      // 12/14/08 - Supposed to round according to DX docs, but this conflicts with the OpenGL S3TC spec. ?
-      // The compiler changes the div3 into a mul by recip+shift.
-      pDst[2].set_noclamp_rgba( (c0.r * 2 + c1.r + 1) / 3, (c0.g * 2 + c1.g + 1) / 3, (c0.b * 2 + c1.b + 1) / 3, 255U);
-      pDst[3].set_noclamp_rgba( (c1.r * 2 + c0.r + 1) / 3, (c1.g * 2 + c0.g + 1) / 3, (c1.b * 2 + c0.b + 1) / 3, 255U);
-
-      return 4;
-   }
-
-   uint dxt1_block::get_block_colors(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      if (color0 > color1)
-         return get_block_colors4(pDst, color0, color1);
-      else
-         return get_block_colors3(pDst, color0, color1);
-   }
-
-   uint dxt1_block::get_block_colors_round(color_quad_u8* pDst, uint16 color0, uint16 color1)
-   {
-      if (color0 > color1)
-         return get_block_colors4_round(pDst, color0, color1);
-      else
-         return get_block_colors3_round(pDst, color0, color1);
-   }
-
-   color_quad_u8 dxt1_block::unpack_endpoint(uint32 endpoints, uint index, bool scaled, uint alpha)
-   {
-      CRNLIB_ASSERT(index < 2);
-      return unpack_color( static_cast<uint16>((endpoints >> (index * 16U)) & 0xFFFFU), scaled, alpha );
-   }
-
-   uint dxt1_block::pack_endpoints(uint lo, uint hi)
-   {
-      CRNLIB_ASSERT((lo <= 0xFFFFU) && (hi <= 0xFFFFU));
-      return lo | (hi << 16U);
-   }
-
-   void dxt3_block::set_alpha(uint x, uint y, uint value, bool scaled)
-   {
-      CRNLIB_ASSERT((x < cDXTBlockSize) && (y < cDXTBlockSize));
-
-      if (scaled)
-      {
-         CRNLIB_ASSERT(value <= 0xFF);
-         value = (value * 15U + 128U) / 255U;
-      }
-      else
-      {
-         CRNLIB_ASSERT(value <= 0xF);
-      }
-
-      uint ofs = (y << 1U) + (x >> 1U);
-      uint c = m_alpha[ofs];
-
-      c &= ~(0xF << ((x & 1U) << 2U));
-      c |= (value << ((x & 1U) << 2U));
-
-      m_alpha[ofs] = static_cast<uint8>(c);
-   }
-
-   uint dxt3_block::get_alpha(uint x, uint y, bool scaled) const
-   {
-      CRNLIB_ASSERT((x < cDXTBlockSize) && (y < cDXTBlockSize));
-
-      uint value = m_alpha[(y << 1U) + (x >> 1U)];
-      if (x & 1)
-         value >>= 4;
-      value &= 0xF;
-
-      if (scaled)
-         value = (value << 4U) | value;
-
-      return value;
-   }
-
-   uint dxt5_block::get_block_values6(color_quad_u8* pDst, uint l, uint h)
-   {
-      pDst[0].a = static_cast<uint8>(l);
-      pDst[1].a = static_cast<uint8>(h);
-      pDst[2].a = static_cast<uint8>((l * 4 + h    ) / 5);
-      pDst[3].a = static_cast<uint8>((l * 3 + h * 2) / 5);
-      pDst[4].a = static_cast<uint8>((l * 2 + h * 3) / 5);
-      pDst[5].a = static_cast<uint8>((l     + h * 4) / 5);
-      pDst[6].a = 0;
-      pDst[7].a = 255;
-      return 6;
-   }
-
-   uint dxt5_block::get_block_values8(color_quad_u8* pDst, uint l, uint h)
-   {
-      pDst[0].a = static_cast<uint8>(l);
-      pDst[1].a = static_cast<uint8>(h);
-      pDst[2].a = static_cast<uint8>((l * 6 + h    ) / 7);
-      pDst[3].a = static_cast<uint8>((l * 5 + h * 2) / 7);
-      pDst[4].a = static_cast<uint8>((l * 4 + h * 3) / 7);
-      pDst[5].a = static_cast<uint8>((l * 3 + h * 4) / 7);
-      pDst[6].a = static_cast<uint8>((l * 2 + h * 5) / 7);
-      pDst[7].a = static_cast<uint8>((l     + h * 6) / 7);
+    case cDXT3:
+    case cDXT5:
+    case cDXN_XY:
+    case cDXN_YX:
+    case cETC2A:
+    case cETC2AS:
       return 8;
-   }
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return 0;
+}
 
-   uint dxt5_block::get_block_values(color_quad_u8* pDst, uint l, uint h)
-   {
-      if (l > h)
-         return get_block_values8(pDst, l, h);
-      else
-         return get_block_values6(pDst, l, h);
-   }
+bool get_dxt_format_has_alpha(dxt_format fmt) {
+  switch (fmt) {
+    case cDXT1A:
+    case cDXT3:
+    case cDXT5:
+    case cDXT5A:
+    case cETC2A:
+    case cETC2AS:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-   uint dxt5_block::get_block_values6(uint* pDst, uint l, uint h)
-   {
-      pDst[0] = l;
-      pDst[1] = h;
-      pDst[2] = (l * 4 + h    ) / 5;
-      pDst[3] = (l * 3 + h * 2) / 5;
-      pDst[4] = (l * 2 + h * 3) / 5;
-      pDst[5] = (l     + h * 4) / 5;
-      pDst[6] = 0;
-      pDst[7] = 255;
-      return 6;
-   }
+uint16 dxt1_block::pack_color(const color_quad_u8& color, bool scaled, uint bias) {
+  uint r = color.r;
+  uint g = color.g;
+  uint b = color.b;
 
-   uint dxt5_block::get_block_values8(uint* pDst, uint l, uint h)
-   {
-      pDst[0] = l;
-      pDst[1] = h;
-      pDst[2] = (l * 6 + h    ) / 7;
-      pDst[3] = (l * 5 + h * 2) / 7;
-      pDst[4] = (l * 4 + h * 3) / 7;
-      pDst[5] = (l * 3 + h * 4) / 7;
-      pDst[6] = (l * 2 + h * 5) / 7;
-      pDst[7] = (l     + h * 6) / 7;
-      return 8;
-   }
+  if (scaled) {
+    r = (r * 31U + bias) / 255U;
+    g = (g * 63U + bias) / 255U;
+    b = (b * 31U + bias) / 255U;
+  }
 
-   uint dxt5_block::unpack_endpoint(uint packed, uint index)
-   {
-      CRNLIB_ASSERT(index < 2);
-      return (packed >> (8 * index)) & 0xFF;
-   }
+  r = math::minimum(r, 31U);
+  g = math::minimum(g, 63U);
+  b = math::minimum(b, 31U);
 
-   uint dxt5_block::pack_endpoints(uint lo, uint hi)
-   {
-      CRNLIB_ASSERT((lo <= 0xFF) && (hi <= 0xFF));
-      return lo | (hi << 8U);
-   }
+  return static_cast<uint16>(b | (g << 5U) | (r << 11U));
+}
 
-   uint dxt5_block::get_block_values(uint* pDst, uint l, uint h)
-   {
-      if (l > h)
-         return get_block_values8(pDst, l, h);
-      else
-         return get_block_values6(pDst, l, h);
-   }
+uint16 dxt1_block::pack_color(uint r, uint g, uint b, bool scaled, uint bias) {
+  return pack_color(color_quad_u8(r, g, b, 0), scaled, bias);
+}
 
-} // namespace crnlib
+color_quad_u8 dxt1_block::unpack_color(uint16 packed_color, bool scaled, uint alpha) {
+  uint b = packed_color & 31U;
+  uint g = (packed_color >> 5U) & 63U;
+  uint r = (packed_color >> 11U) & 31U;
 
+  if (scaled) {
+    b = (b << 3U) | (b >> 2U);
+    g = (g << 2U) | (g >> 4U);
+    r = (r << 3U) | (r >> 2U);
+  }
+
+  return color_quad_u8(cNoClamp, r, g, b, math::minimum(alpha, 255U));
+}
+
+void dxt1_block::unpack_color(uint& r, uint& g, uint& b, uint16 packed_color, bool scaled) {
+  color_quad_u8 c(unpack_color(packed_color, scaled, 0));
+  r = c.r;
+  g = c.g;
+  b = c.b;
+}
+
+void dxt1_block::get_block_colors_NV5x(color_quad_u8* pDst, uint16 packed_col0, uint16 packed_col1, bool color4) {
+  color_quad_u8 col0(unpack_color(packed_col0, false));
+  color_quad_u8 col1(unpack_color(packed_col1, false));
+
+  pDst[0].r = (3 * col0.r * 22) / 8;
+  pDst[0].b = (3 * col0.b * 22) / 8;
+  pDst[0].g = (col0.g << 2) | (col0.g >> 4);
+  pDst[0].a = 0xFF;
+
+  pDst[1].r = (3 * col1.r * 22) / 8;
+  pDst[1].g = (col1.g << 2) | (col1.g >> 4);
+  pDst[1].b = (3 * col1.b * 22) / 8;
+  pDst[1].a = 0xFF;
+
+  int gdiff = pDst[1].g - pDst[0].g;
+
+  if (color4)  //(packed_col0 > packed_col1)
+  {
+    pDst[2].r = static_cast<uint8>(((2 * col0.r + col1.r) * 22) / 8);
+    pDst[2].g = static_cast<uint8>((256 * pDst[0].g + gdiff / 4 + 128 + gdiff * 80) / 256);
+    pDst[2].b = static_cast<uint8>(((2 * col0.b + col1.b) * 22) / 8);
+    pDst[2].a = 0xFF;
+
+    pDst[3].r = static_cast<uint8>(((2 * col1.r + col0.r) * 22) / 8);
+    pDst[3].g = static_cast<uint8>((256 * pDst[1].g - gdiff / 4 + 128 - gdiff * 80) / 256);
+    pDst[3].b = static_cast<uint8>(((2 * col1.b + col0.b) * 22) / 8);
+    pDst[3].a = 0xFF;
+  } else {
+    pDst[2].r = static_cast<uint8>(((col0.r + col1.r) * 33) / 8);
+    pDst[2].g = static_cast<uint8>((256 * pDst[0].g + gdiff / 4 + 128 + gdiff * 128) / 256);
+    pDst[2].b = static_cast<uint8>(((col0.b + col1.b) * 33) / 8);
+    pDst[2].a = 0xFF;
+
+    pDst[3].r = 0x00;
+    pDst[3].g = 0x00;
+    pDst[3].b = 0x00;
+    pDst[3].a = 0x00;
+  }
+}
+
+uint dxt1_block::get_block_colors3(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  color_quad_u8 c0(unpack_color(color0, true));
+  color_quad_u8 c1(unpack_color(color1, true));
+
+  pDst[0] = c0;
+  pDst[1] = c1;
+  pDst[2].set_noclamp_rgba((c0.r + c1.r) >> 1U, (c0.g + c1.g) >> 1U, (c0.b + c1.b) >> 1U, 255U);
+  pDst[3].set_noclamp_rgba(0, 0, 0, 0);
+
+  return 3;
+}
+
+uint dxt1_block::get_block_colors4(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  color_quad_u8 c0(unpack_color(color0, true));
+  color_quad_u8 c1(unpack_color(color1, true));
+
+  pDst[0] = c0;
+  pDst[1] = c1;
+
+  // The compiler changes the div3 into a mul by recip+shift.
+  pDst[2].set_noclamp_rgba((c0.r * 2 + c1.r) / 3, (c0.g * 2 + c1.g) / 3, (c0.b * 2 + c1.b) / 3, 255U);
+  pDst[3].set_noclamp_rgba((c1.r * 2 + c0.r) / 3, (c1.g * 2 + c0.g) / 3, (c1.b * 2 + c0.b) / 3, 255U);
+
+  return 4;
+}
+
+uint dxt1_block::get_block_colors3_round(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  color_quad_u8 c0(unpack_color(color0, true));
+  color_quad_u8 c1(unpack_color(color1, true));
+
+  pDst[0] = c0;
+  pDst[1] = c1;
+  pDst[2].set_noclamp_rgba((c0.r + c1.r + 1) >> 1U, (c0.g + c1.g + 1) >> 1U, (c0.b + c1.b + 1) >> 1U, 255U);
+  pDst[3].set_noclamp_rgba(0, 0, 0, 0);
+
+  return 3;
+}
+
+uint dxt1_block::get_block_colors4_round(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  color_quad_u8 c0(unpack_color(color0, true));
+  color_quad_u8 c1(unpack_color(color1, true));
+
+  pDst[0] = c0;
+  pDst[1] = c1;
+
+  // 12/14/08 - Supposed to round according to DX docs, but this conflicts with the OpenGL S3TC spec. ?
+  // The compiler changes the div3 into a mul by recip+shift.
+  pDst[2].set_noclamp_rgba((c0.r * 2 + c1.r + 1) / 3, (c0.g * 2 + c1.g + 1) / 3, (c0.b * 2 + c1.b + 1) / 3, 255U);
+  pDst[3].set_noclamp_rgba((c1.r * 2 + c0.r + 1) / 3, (c1.g * 2 + c0.g + 1) / 3, (c1.b * 2 + c0.b + 1) / 3, 255U);
+
+  return 4;
+}
+
+uint dxt1_block::get_block_colors(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  if (color0 > color1)
+    return get_block_colors4(pDst, color0, color1);
+  else
+    return get_block_colors3(pDst, color0, color1);
+}
+
+uint dxt1_block::get_block_colors_round(color_quad_u8* pDst, uint16 color0, uint16 color1) {
+  if (color0 > color1)
+    return get_block_colors4_round(pDst, color0, color1);
+  else
+    return get_block_colors3_round(pDst, color0, color1);
+}
+
+color_quad_u8 dxt1_block::unpack_endpoint(uint32 endpoints, uint index, bool scaled, uint alpha) {
+  CRNLIB_ASSERT(index < 2);
+  return unpack_color(static_cast<uint16>((endpoints >> (index * 16U)) & 0xFFFFU), scaled, alpha);
+}
+
+uint dxt1_block::pack_endpoints(uint lo, uint hi) {
+  CRNLIB_ASSERT((lo <= 0xFFFFU) && (hi <= 0xFFFFU));
+  return lo | (hi << 16U);
+}
+
+void dxt3_block::set_alpha(uint x, uint y, uint value, bool scaled) {
+  CRNLIB_ASSERT((x < cDXTBlockSize) && (y < cDXTBlockSize));
+
+  if (scaled) {
+    CRNLIB_ASSERT(value <= 0xFF);
+    value = (value * 15U + 128U) / 255U;
+  } else {
+    CRNLIB_ASSERT(value <= 0xF);
+  }
+
+  uint ofs = (y << 1U) + (x >> 1U);
+  uint c = m_alpha[ofs];
+
+  c &= ~(0xF << ((x & 1U) << 2U));
+  c |= (value << ((x & 1U) << 2U));
+
+  m_alpha[ofs] = static_cast<uint8>(c);
+}
+
+uint dxt3_block::get_alpha(uint x, uint y, bool scaled) const {
+  CRNLIB_ASSERT((x < cDXTBlockSize) && (y < cDXTBlockSize));
+
+  uint value = m_alpha[(y << 1U) + (x >> 1U)];
+  if (x & 1)
+    value >>= 4;
+  value &= 0xF;
+
+  if (scaled)
+    value = (value << 4U) | value;
+
+  return value;
+}
+
+uint dxt5_block::get_block_values6(color_quad_u8* pDst, uint l, uint h) {
+  pDst[0].a = static_cast<uint8>(l);
+  pDst[1].a = static_cast<uint8>(h);
+  pDst[2].a = static_cast<uint8>((l * 4 + h) / 5);
+  pDst[3].a = static_cast<uint8>((l * 3 + h * 2) / 5);
+  pDst[4].a = static_cast<uint8>((l * 2 + h * 3) / 5);
+  pDst[5].a = static_cast<uint8>((l + h * 4) / 5);
+  pDst[6].a = 0;
+  pDst[7].a = 255;
+  return 6;
+}
+
+uint dxt5_block::get_block_values8(color_quad_u8* pDst, uint l, uint h) {
+  pDst[0].a = static_cast<uint8>(l);
+  pDst[1].a = static_cast<uint8>(h);
+  pDst[2].a = static_cast<uint8>((l * 6 + h) / 7);
+  pDst[3].a = static_cast<uint8>((l * 5 + h * 2) / 7);
+  pDst[4].a = static_cast<uint8>((l * 4 + h * 3) / 7);
+  pDst[5].a = static_cast<uint8>((l * 3 + h * 4) / 7);
+  pDst[6].a = static_cast<uint8>((l * 2 + h * 5) / 7);
+  pDst[7].a = static_cast<uint8>((l + h * 6) / 7);
+  return 8;
+}
+
+uint dxt5_block::get_block_values(color_quad_u8* pDst, uint l, uint h) {
+  if (l > h)
+    return get_block_values8(pDst, l, h);
+  else
+    return get_block_values6(pDst, l, h);
+}
+
+uint dxt5_block::get_block_values6(uint* pDst, uint l, uint h) {
+  pDst[0] = l;
+  pDst[1] = h;
+  pDst[2] = (l * 4 + h) / 5;
+  pDst[3] = (l * 3 + h * 2) / 5;
+  pDst[4] = (l * 2 + h * 3) / 5;
+  pDst[5] = (l + h * 4) / 5;
+  pDst[6] = 0;
+  pDst[7] = 255;
+  return 6;
+}
+
+uint dxt5_block::get_block_values8(uint* pDst, uint l, uint h) {
+  pDst[0] = l;
+  pDst[1] = h;
+  pDst[2] = (l * 6 + h) / 7;
+  pDst[3] = (l * 5 + h * 2) / 7;
+  pDst[4] = (l * 4 + h * 3) / 7;
+  pDst[5] = (l * 3 + h * 4) / 7;
+  pDst[6] = (l * 2 + h * 5) / 7;
+  pDst[7] = (l + h * 6) / 7;
+  return 8;
+}
+
+uint dxt5_block::unpack_endpoint(uint packed, uint index) {
+  CRNLIB_ASSERT(index < 2);
+  return (packed >> (8 * index)) & 0xFF;
+}
+
+uint dxt5_block::pack_endpoints(uint lo, uint hi) {
+  CRNLIB_ASSERT((lo <= 0xFF) && (hi <= 0xFF));
+  return lo | (hi << 8U);
+}
+
+uint dxt5_block::get_block_values(uint* pDst, uint l, uint h) {
+  if (l > h)
+    return get_block_values8(pDst, l, h);
+  else
+    return get_block_values6(pDst, l, h);
+}
+
+}  // namespace crnlib

crnlib/crn_dxt.h

@@ -11,351 +11,315 @@
 
 #define CRNLIB_DXT_ALT_ROUNDING 1
 
-namespace crnlib
-{
-   enum dxt_constants
-   {
-      cDXT1BytesPerBlock = 8U,
-      cDXT5NBytesPerBlock = 16U,
+namespace crnlib {
+enum dxt_constants {
+  cDXT1BytesPerBlock = 8U,
+  cDXT5NBytesPerBlock = 16U,
 
-      cDXT5SelectorBits = 3U,
-      cDXT5SelectorValues = 1U << cDXT5SelectorBits,
-      cDXT5SelectorMask = cDXT5SelectorValues - 1U,
+  cDXT5SelectorBits = 3U,
+  cDXT5SelectorValues = 1U << cDXT5SelectorBits,
+  cDXT5SelectorMask = cDXT5SelectorValues - 1U,
 
-      cDXT1SelectorBits = 2U,
-      cDXT1SelectorValues = 1U << cDXT1SelectorBits,
-      cDXT1SelectorMask = cDXT1SelectorValues - 1U,
+  cDXT1SelectorBits = 2U,
+  cDXT1SelectorValues = 1U << cDXT1SelectorBits,
+  cDXT1SelectorMask = cDXT1SelectorValues - 1U,
 
-      cDXTBlockShift = 2U,
-      cDXTBlockSize = 1U << cDXTBlockShift
-   };
+  cDXTBlockShift = 2U,
+  cDXTBlockSize = 1U << cDXTBlockShift
+};
 
-   enum dxt_format
-   {
-      cDXTInvalid = -1,
+enum dxt_format {
+  cDXTInvalid = -1,
 
-      // cDXT1/1A must appear first!
-      cDXT1,
-      cDXT1A,
+  // cDXT1/1A must appear first!
+  cDXT1,
+  cDXT1A,
 
-      cDXT3,
-      cDXT5,
-      cDXT5A,
+  cDXT3,
+  cDXT5,
+  cDXT5A,
 
-      cDXN_XY,    // inverted relative to standard ATI2, 360's DXN
-      cDXN_YX,    // standard ATI2,
+  cDXN_XY,  // inverted relative to standard ATI2, 360's DXN
+  cDXN_YX,  // standard ATI2,
 
-      cETC1       // Ericsson texture compression (color only, 4x4 blocks, 4bpp, 64-bits/block)
-   };
+  cETC1,
+  cETC2,
+  cETC2A,
+  cETC1S,
+  cETC2AS,
+};
 
-   const float cDXT1MaxLinearValue = 3.0f;
-   const float cDXT1InvMaxLinearValue = 1.0f/3.0f;
+const float cDXT1MaxLinearValue = 3.0f;
+const float cDXT1InvMaxLinearValue = 1.0f / 3.0f;
 
-   const float cDXT5MaxLinearValue = 7.0f;
-   const float cDXT5InvMaxLinearValue = 1.0f/7.0f;
+const float cDXT5MaxLinearValue = 7.0f;
+const float cDXT5InvMaxLinearValue = 1.0f / 7.0f;
 
-   // Converts DXT1 raw color selector index to a linear value.
-   extern const uint8 g_dxt1_to_linear[cDXT1SelectorValues];
+// Converts DXT1 raw color selector index to a linear value.
+extern const uint8 g_dxt1_to_linear[cDXT1SelectorValues];
 
-   // Converts DXT5 raw alpha selector index to a linear value.
-   extern const uint8 g_dxt5_to_linear[cDXT5SelectorValues];
+// Converts DXT5 raw alpha selector index to a linear value.
+extern const uint8 g_dxt5_to_linear[cDXT5SelectorValues];
 
-   // Converts DXT1 linear color selector index to a raw value (inverse of g_dxt1_to_linear).
-   extern const uint8 g_dxt1_from_linear[cDXT1SelectorValues];
+// Converts DXT1 linear color selector index to a raw value (inverse of g_dxt1_to_linear).
+extern const uint8 g_dxt1_from_linear[cDXT1SelectorValues];
 
-   // Converts DXT5 linear alpha selector index to a raw value (inverse of g_dxt5_to_linear).
-   extern const uint8 g_dxt5_from_linear[cDXT5SelectorValues];
+// Converts DXT5 linear alpha selector index to a raw value (inverse of g_dxt5_to_linear).
+extern const uint8 g_dxt5_from_linear[cDXT5SelectorValues];
 
-   extern const uint8 g_dxt5_alpha6_to_linear[cDXT5SelectorValues];
+extern const uint8 g_dxt5_alpha6_to_linear[cDXT5SelectorValues];
 
-   extern const uint8 g_six_alpha_invert_table[cDXT5SelectorValues];
-   extern const uint8 g_eight_alpha_invert_table[cDXT5SelectorValues];
+extern const uint8 g_six_alpha_invert_table[cDXT5SelectorValues];
+extern const uint8 g_eight_alpha_invert_table[cDXT5SelectorValues];
 
-   const char* get_dxt_format_string(dxt_format fmt);
-   uint get_dxt_format_bits_per_pixel(dxt_format fmt);
-   bool get_dxt_format_has_alpha(dxt_format fmt);
+const char* get_dxt_format_string(dxt_format fmt);
+uint get_dxt_format_bits_per_pixel(dxt_format fmt);
+bool get_dxt_format_has_alpha(dxt_format fmt);
 
-   const char* get_dxt_quality_string(crn_dxt_quality q);
+const char* get_dxt_quality_string(crn_dxt_quality q);
 
-   const char* get_dxt_compressor_name(crn_dxt_compressor_type c);
+const char* get_dxt_compressor_name(crn_dxt_compressor_type c);
 
-   struct dxt1_block
-   {
-      uint8 m_low_color[2];
-      uint8 m_high_color[2];
+struct dxt1_block {
+  uint8 m_low_color[2];
+  uint8 m_high_color[2];
 
-      enum { cNumSelectorBytes = 4 };
-      uint8 m_selectors[cNumSelectorBytes];
+  enum { cNumSelectorBytes = 4 };
+  uint8 m_selectors[cNumSelectorBytes];
 
-      inline void clear()
-      {
-         utils::zero_this(this);
+  inline void clear() {
+    utils::zero_this(this);
+  }
+
+  // These methods assume the in-memory rep is in LE byte order.
+  inline uint get_low_color() const {
+    return m_low_color[0] | (m_low_color[1] << 8U);
+  }
+
+  inline uint get_high_color() const {
+    return m_high_color[0] | (m_high_color[1] << 8U);
+  }
+
+  inline void set_low_color(uint16 c) {
+    m_low_color[0] = static_cast<uint8>(c & 0xFF);
+    m_low_color[1] = static_cast<uint8>((c >> 8) & 0xFF);
+  }
+
+  inline void set_high_color(uint16 c) {
+    m_high_color[0] = static_cast<uint8>(c & 0xFF);
+    m_high_color[1] = static_cast<uint8>((c >> 8) & 0xFF);
+  }
+
+  inline bool is_constant_color_block() const { return get_low_color() == get_high_color(); }
+  inline bool is_alpha_block() const { return get_low_color() <= get_high_color(); }
+  inline bool is_non_alpha_block() const { return !is_alpha_block(); }
+
+  inline uint get_selector(uint x, uint y) const {
+    CRNLIB_ASSERT((x < 4U) && (y < 4U));
+    return (m_selectors[y] >> (x * cDXT1SelectorBits)) & cDXT1SelectorMask;
+  }
+
+  inline void set_selector(uint x, uint y, uint val) {
+    CRNLIB_ASSERT((x < 4U) && (y < 4U) && (val < 4U));
+
+    m_selectors[y] &= (~(cDXT1SelectorMask << (x * cDXT1SelectorBits)));
+    m_selectors[y] |= (val << (x * cDXT1SelectorBits));
+  }
+
+  inline void flip_x(uint w = 4, uint h = 4) {
+    for (uint x = 0; x < (w / 2); x++) {
+      for (uint y = 0; y < h; y++) {
+        const uint c = get_selector(x, y);
+        set_selector(x, y, get_selector((w - 1) - x, y));
+        set_selector((w - 1) - x, y, c);
       }
+    }
+  }
 
-      // These methods assume the in-memory rep is in LE byte order.
-      inline uint get_low_color() const
-      {
-         return m_low_color[0] | (m_low_color[1] << 8U);
+  inline void flip_y(uint w = 4, uint h = 4) {
+    for (uint y = 0; y < (h / 2); y++) {
+      for (uint x = 0; x < w; x++) {
+        const uint c = get_selector(x, y);
+        set_selector(x, y, get_selector(x, (h - 1) - y));
+        set_selector(x, (h - 1) - y, c);
       }
+    }
+  }
 
-      inline uint get_high_color() const
-      {
-         return m_high_color[0] | (m_high_color[1] << 8U);
+  static uint16 pack_color(const color_quad_u8& color, bool scaled, uint bias = 127U);
+  static uint16 pack_color(uint r, uint g, uint b, bool scaled, uint bias = 127U);
+
+  static color_quad_u8 unpack_color(uint16 packed_color, bool scaled, uint alpha = 255U);
+  static void unpack_color(uint& r, uint& g, uint& b, uint16 packed_color, bool scaled);
+
+  static uint get_block_colors3(color_quad_u8* pDst, uint16 color0, uint16 color1);
+  static uint get_block_colors3_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
+
+  static uint get_block_colors4(color_quad_u8* pDst, uint16 color0, uint16 color1);
+  static uint get_block_colors4_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
+
+  // pDst must point to an array at least cDXT1SelectorValues long.
+  static uint get_block_colors(color_quad_u8* pDst, uint16 color0, uint16 color1);
+
+  static uint get_block_colors_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
+
+  static color_quad_u8 unpack_endpoint(uint32 endpoints, uint index, bool scaled, uint alpha = 255U);
+  static uint pack_endpoints(uint lo, uint hi);
+
+  static void get_block_colors_NV5x(color_quad_u8* pDst, uint16 packed_col0, uint16 packed_col1, bool color4);
+};
+
+CRNLIB_DEFINE_BITWISE_COPYABLE(dxt1_block);
+
+struct dxt3_block {
+  enum { cNumAlphaBytes = 8 };
+  uint8 m_alpha[cNumAlphaBytes];
+
+  void set_alpha(uint x, uint y, uint value, bool scaled);
+  uint get_alpha(uint x, uint y, bool scaled) const;
+
+  inline void flip_x(uint w = 4, uint h = 4) {
+    for (uint x = 0; x < (w / 2); x++) {
+      for (uint y = 0; y < h; y++) {
+        const uint c = get_alpha(x, y, false);
+        set_alpha(x, y, get_alpha((w - 1) - x, y, false), false);
+        set_alpha((w - 1) - x, y, c, false);
       }
+    }
+  }
 
-      inline void set_low_color(uint16 c)
-      {
-         m_low_color[0] = static_cast<uint8>(c & 0xFF);
-         m_low_color[1] = static_cast<uint8>((c >> 8) & 0xFF);
+  inline void flip_y(uint w = 4, uint h = 4) {
+    for (uint y = 0; y < (h / 2); y++) {
+      for (uint x = 0; x < w; x++) {
+        const uint c = get_alpha(x, y, false);
+        set_alpha(x, y, get_alpha(x, (h - 1) - y, false), false);
+        set_alpha(x, (h - 1) - y, c, false);
       }
+    }
+  }
+};
 
-      inline void set_high_color(uint16 c)
-      {
-         m_high_color[0] = static_cast<uint8>(c & 0xFF);
-         m_high_color[1] = static_cast<uint8>((c >> 8) & 0xFF);
+CRNLIB_DEFINE_BITWISE_COPYABLE(dxt3_block);
+
+struct dxt5_block {
+  uint8 m_endpoints[2];
+
+  enum { cNumSelectorBytes = 6 };
+  uint8 m_selectors[cNumSelectorBytes];
+
+  inline void clear() {
+    utils::zero_this(this);
+  }
+
+  inline uint get_low_alpha() const {
+    return m_endpoints[0];
+  }
+
+  inline uint get_high_alpha() const {
+    return m_endpoints[1];
+  }
+
+  inline void set_low_alpha(uint i) {
+    CRNLIB_ASSERT(i <= cUINT8_MAX);
+    m_endpoints[0] = static_cast<uint8>(i);
+  }
+
+  inline void set_high_alpha(uint i) {
+    CRNLIB_ASSERT(i <= cUINT8_MAX);
+    m_endpoints[1] = static_cast<uint8>(i);
+  }
+
+  inline bool is_alpha6_block() const { return get_low_alpha() <= get_high_alpha(); }
+
+  uint get_endpoints_as_word() const { return m_endpoints[0] | (m_endpoints[1] << 8); }
+  uint get_selectors_as_word(uint index) {
+    CRNLIB_ASSERT(index < 3);
+    return m_selectors[index * 2] | (m_selectors[index * 2 + 1] << 8);
+  }
+
+  inline uint get_selector(uint x, uint y) const {
+    CRNLIB_ASSERT((x < 4U) && (y < 4U));
+
+    uint selector_index = (y * 4) + x;
+    uint bit_index = selector_index * cDXT5SelectorBits;
+
+    uint byte_index = bit_index >> 3;
+    uint bit_ofs = bit_index & 7;
+
+    uint v = m_selectors[byte_index];
+    if (byte_index < (cNumSelectorBytes - 1))
+      v |= (m_selectors[byte_index + 1] << 8);
+
+    return (v >> bit_ofs) & 7;
+  }
+
+  inline void set_selector(uint x, uint y, uint val) {
+    CRNLIB_ASSERT((x < 4U) && (y < 4U) && (val < 8U));
+
+    uint selector_index = (y * 4) + x;
+    uint bit_index = selector_index * cDXT5SelectorBits;
+
+    uint byte_index = bit_index >> 3;
+    uint bit_ofs = bit_index & 7;
+
+    uint v = m_selectors[byte_index];
+    if (byte_index < (cNumSelectorBytes - 1))
+      v |= (m_selectors[byte_index + 1] << 8);
+
+    v &= (~(7 << bit_ofs));
+    v |= (val << bit_ofs);
+
+    m_selectors[byte_index] = static_cast<uint8>(v);
+    if (byte_index < (cNumSelectorBytes - 1))
+      m_selectors[byte_index + 1] = static_cast<uint8>(v >> 8);
+  }
+
+  inline void flip_x(uint w = 4, uint h = 4) {
+    for (uint x = 0; x < (w / 2); x++) {
+      for (uint y = 0; y < h; y++) {
+        const uint c = get_selector(x, y);
+        set_selector(x, y, get_selector((w - 1) - x, y));
+        set_selector((w - 1) - x, y, c);
       }
+    }
+  }
 
-      inline bool is_constant_color_block() const { return get_low_color() == get_high_color(); }
-      inline bool is_alpha_block() const { return get_low_color() <= get_high_color(); }
-      inline bool is_non_alpha_block() const { return !is_alpha_block(); }
-
-      inline uint get_selector(uint x, uint y) const
-      {
-         CRNLIB_ASSERT((x < 4U) && (y < 4U));
-         return (m_selectors[y] >> (x * cDXT1SelectorBits)) & cDXT1SelectorMask;
+  inline void flip_y(uint w = 4, uint h = 4) {
+    for (uint y = 0; y < (h / 2); y++) {
+      for (uint x = 0; x < w; x++) {
+        const uint c = get_selector(x, y);
+        set_selector(x, y, get_selector(x, (h - 1) - y));
+        set_selector(x, (h - 1) - y, c);
       }
+    }
+  }
 
-      inline void set_selector(uint x, uint y, uint val)
-      {
-         CRNLIB_ASSERT((x < 4U) && (y < 4U) && (val < 4U));
+  enum { cMaxSelectorValues = 8 };
 
-         m_selectors[y] &= (~(cDXT1SelectorMask << (x * cDXT1SelectorBits)));
-         m_selectors[y] |= (val << (x * cDXT1SelectorBits));
-      }
+  // Results written to alpha channel.
+  static uint get_block_values6(color_quad_u8* pDst, uint l, uint h);
+  static uint get_block_values8(color_quad_u8* pDst, uint l, uint h);
+  static uint get_block_values(color_quad_u8* pDst, uint l, uint h);
 
-      inline void flip_x(uint w = 4, uint h = 4)
-      {
-         for (uint x = 0; x < (w / 2); x++)
-         {
-            for (uint y = 0; y < h; y++)
-            {
-               const uint c = get_selector(x, y);
-               set_selector(x, y, get_selector((w - 1) - x, y));
-               set_selector((w - 1) - x, y, c);
-            }
-         }
-      }
+  static uint get_block_values6(uint* pDst, uint l, uint h);
+  static uint get_block_values8(uint* pDst, uint l, uint h);
+  // pDst must point to an array at least cDXT5SelectorValues long.
+  static uint get_block_values(uint* pDst, uint l, uint h);
 
-      inline void flip_y(uint w = 4, uint h = 4)
-      {
-         for (uint y = 0; y < (h / 2); y++)
-         {
-            for (uint x = 0; x < w; x++)
-            {
-               const uint c = get_selector(x, y);
-               set_selector(x, y, get_selector(x, (h - 1) - y));
-               set_selector(x, (h - 1) - y, c);
-            }
-         }
-      }
-      
-      static uint16        pack_color(const color_quad_u8& color, bool scaled, uint bias = 127U);
-      static uint16        pack_color(uint r, uint g, uint b, bool scaled, uint bias = 127U);
+  static uint unpack_endpoint(uint packed, uint index);
+  static uint pack_endpoints(uint lo, uint hi);
+};
 
-      static color_quad_u8 unpack_color(uint16 packed_color, bool scaled, uint alpha = 255U);
-      static void          unpack_color(uint& r, uint& g, uint& b, uint16 packed_color, bool scaled);
+CRNLIB_DEFINE_BITWISE_COPYABLE(dxt5_block);
 
-      static uint          get_block_colors3(color_quad_u8* pDst, uint16 color0, uint16 color1);
-      static uint          get_block_colors3_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
-
-      static uint          get_block_colors4(color_quad_u8* pDst, uint16 color0, uint16 color1);
-      static uint          get_block_colors4_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
-
-      // pDst must point to an array at least cDXT1SelectorValues long.
-      static uint          get_block_colors(color_quad_u8* pDst, uint16 color0, uint16 color1);
-
-      static uint          get_block_colors_round(color_quad_u8* pDst, uint16 color0, uint16 color1);
-
-      static color_quad_u8 unpack_endpoint(uint32 endpoints, uint index, bool scaled, uint alpha = 255U);
-      static uint          pack_endpoints(uint lo, uint hi);
-
-      static void          get_block_colors_NV5x(color_quad_u8* pDst, uint16 packed_col0, uint16 packed_col1, bool color4);
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt1_block);
-
-   struct dxt3_block
-   {
-      enum { cNumAlphaBytes = 8 };
-      uint8 m_alpha[cNumAlphaBytes];
-
-      void set_alpha(uint x, uint y, uint value, bool scaled);
-      uint get_alpha(uint x, uint y, bool scaled) const;
-
-      inline void flip_x(uint w = 4, uint h = 4)
-      {
-         for (uint x = 0; x < (w / 2); x++)
-         {
-            for (uint y = 0; y < h; y++)
-            {
-               const uint c = get_alpha(x, y, false);
-               set_alpha(x, y, get_alpha((w - 1) - x, y, false), false);
-               set_alpha((w - 1) - x, y, c, false);
-            }
-         }
-      }
-
-      inline void flip_y(uint w = 4, uint h = 4)
-      {
-         for (uint y = 0; y < (h / 2); y++)
-         {
-            for (uint x = 0; x < w; x++)
-            {
-               const uint c = get_alpha(x, y, false);
-               set_alpha(x, y, get_alpha(x, (h - 1) - y, false), false);
-               set_alpha(x, (h - 1) - y, c, false);
-            }
-         }
-      }
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt3_block);
-
-   struct dxt5_block
-   {
-      uint8 m_endpoints[2];
-
-      enum { cNumSelectorBytes = 6 };
-      uint8 m_selectors[cNumSelectorBytes];
-
-      inline void clear()
-      {
-         utils::zero_this(this);
-      }
-
-      inline uint get_low_alpha() const
-      {
-         return m_endpoints[0];
-      }
-
-      inline uint get_high_alpha() const
-      {
-         return m_endpoints[1];
-      }
-
-      inline void set_low_alpha(uint i)
-      {
-         CRNLIB_ASSERT(i <= cUINT8_MAX);
-         m_endpoints[0] = static_cast<uint8>(i);
-      }
-
-      inline void set_high_alpha(uint i)
-      {
-         CRNLIB_ASSERT(i <= cUINT8_MAX);
-         m_endpoints[1] = static_cast<uint8>(i);
-      }
-
-      inline bool is_alpha6_block() const { return get_low_alpha() <= get_high_alpha(); }
-
-      uint get_endpoints_as_word() const { return m_endpoints[0] | (m_endpoints[1] << 8); }
-      uint get_selectors_as_word(uint index) { CRNLIB_ASSERT(index < 3); return m_selectors[index * 2] | (m_selectors[index * 2 + 1] << 8); }
-
-      inline uint get_selector(uint x, uint y) const
-      {
-         CRNLIB_ASSERT((x < 4U) && (y < 4U));
-
-         uint selector_index = (y * 4) + x;
-         uint bit_index = selector_index * cDXT5SelectorBits;
-
-         uint byte_index = bit_index >> 3;
-         uint bit_ofs = bit_index & 7;
-
-         uint v = m_selectors[byte_index];
-         if (byte_index < (cNumSelectorBytes - 1))
-            v |= (m_selectors[byte_index + 1] << 8);
-
-         return (v >> bit_ofs) & 7;
-      }
-
-      inline void set_selector(uint x, uint y, uint val)
-      {
-         CRNLIB_ASSERT((x < 4U) && (y < 4U) && (val < 8U));
-
-         uint selector_index = (y * 4) + x;
-         uint bit_index = selector_index * cDXT5SelectorBits;
-
-         uint byte_index = bit_index >> 3;
-         uint bit_ofs = bit_index & 7;
-
-         uint v = m_selectors[byte_index];
-         if (byte_index < (cNumSelectorBytes - 1))
-            v |= (m_selectors[byte_index + 1] << 8);
-
-         v &= (~(7 << bit_ofs));
-         v |= (val << bit_ofs);
-
-         m_selectors[byte_index] = static_cast<uint8>(v);
-         if (byte_index < (cNumSelectorBytes - 1))
-            m_selectors[byte_index + 1] = static_cast<uint8>(v >> 8);
-      }
-
-      inline void flip_x(uint w = 4, uint h = 4)
-      {
-         for (uint x = 0; x < (w / 2); x++)
-         {
-            for (uint y = 0; y < h; y++)
-            {
-               const uint c = get_selector(x, y);
-               set_selector(x, y, get_selector((w - 1) - x, y));
-               set_selector((w - 1) - x, y, c);
-            }
-         }
-      }
-
-      inline void flip_y(uint w = 4, uint h = 4)
-      {
-         for (uint y = 0; y < (h / 2); y++)
-         {
-            for (uint x = 0; x < w; x++)
-            {
-               const uint c = get_selector(x, y);
-               set_selector(x, y, get_selector(x, (h - 1) - y));
-               set_selector(x, (h - 1) - y, c);
-            }
-         }
-      }
-
-      enum { cMaxSelectorValues = 8 };
-
-      // Results written to alpha channel.
-      static uint          get_block_values6(color_quad_u8* pDst, uint l, uint h);
-      static uint          get_block_values8(color_quad_u8* pDst, uint l, uint h);
-      static uint          get_block_values(color_quad_u8* pDst, uint l, uint h);
-
-      static uint          get_block_values6(uint* pDst, uint l, uint h);
-      static uint          get_block_values8(uint* pDst, uint l, uint h);
-      // pDst must point to an array at least cDXT5SelectorValues long.
-      static uint          get_block_values(uint* pDst, uint l, uint h);
-
-      static uint          unpack_endpoint(uint packed, uint index);
-      static uint          pack_endpoints(uint lo, uint hi);
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt5_block);
-
-   struct dxt_pixel_block
-   {
-      color_quad_u8 m_pixels[cDXTBlockSize][cDXTBlockSize]; // [y][x]
-
-      inline void clear()
-      {
-         utils::zero_object(*this);
-      }
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt_pixel_block);
-
-} // namespace crnlib
+struct dxt_pixel_block {
+  color_quad_u8 m_pixels[cDXTBlockSize][cDXTBlockSize];  // [y][x]
 
+  inline void clear() {
+    utils::zero_object(*this);
+  }
+};
 
+CRNLIB_DEFINE_BITWISE_COPYABLE(dxt_pixel_block);
 
+}  // namespace crnlib

crnlib/crn_dxt1.h

@@ -3,350 +3,274 @@
 #pragma once
 #include "crn_dxt.h"
 
-namespace crnlib
-{
-   struct dxt1_solution_coordinates
-   {
-      inline dxt1_solution_coordinates() : m_low_color(0), m_high_color(0){ }
+namespace crnlib {
+struct dxt1_solution_coordinates {
+  inline dxt1_solution_coordinates()
+      : m_low_color(0), m_high_color(0) {}
 
-      inline dxt1_solution_coordinates(uint16 l, uint16 h) : m_low_color(l), m_high_color(h) { }
+  inline dxt1_solution_coordinates(uint16 l, uint16 h)
+      : m_low_color(l), m_high_color(h) {}
 
-      inline dxt1_solution_coordinates(const color_quad_u8& l, const color_quad_u8& h, bool scaled = true) :
-         m_low_color(dxt1_block::pack_color(l, scaled)),
-         m_high_color(dxt1_block::pack_color(h, scaled))
-      {
-      }
+  inline dxt1_solution_coordinates(const color_quad_u8& l, const color_quad_u8& h, bool scaled = true)
+      : m_low_color(dxt1_block::pack_color(l, scaled)),
+        m_high_color(dxt1_block::pack_color(h, scaled)) {
+  }
 
-      inline dxt1_solution_coordinates(vec3F nl, vec3F nh)
-      {
+  inline dxt1_solution_coordinates(vec3F nl, vec3F nh) {
 #if CRNLIB_DXT_ALT_ROUNDING
-         // Umm, wtf?
-         nl.clamp(0.0f, .999f);
-         nh.clamp(0.0f, .999f);
-         color_quad_u8 l( (int)floor(nl[0] * 32.0f), (int)floor(nl[1] * 64.0f), (int)floor(nl[2] * 32.0f), 255);
-         color_quad_u8 h( (int)floor(nh[0] * 32.0f), (int)floor(nh[1] * 64.0f), (int)floor(nh[2] * 32.0f), 255);
+    // Umm, wtf?
+    nl.clamp(0.0f, .999f);
+    nh.clamp(0.0f, .999f);
+    color_quad_u8 l((int)floor(nl[0] * 32.0f), (int)floor(nl[1] * 64.0f), (int)floor(nl[2] * 32.0f), 255);
+    color_quad_u8 h((int)floor(nh[0] * 32.0f), (int)floor(nh[1] * 64.0f), (int)floor(nh[2] * 32.0f), 255);
 #else
-         // Fixes the bins
-         color_quad_u8 l( (int)floor(.5f + nl[0] * 31.0f), (int)floor(.5f + nl[1] * 63.0f), (int)floor(.5f + nl[2] * 31.0f), 255);
-         color_quad_u8 h( (int)floor(.5f + nh[0] * 31.0f), (int)floor(.5f + nh[1] * 63.0f), (int)floor(.5f + nh[2] * 31.0f), 255);
+    // Fixes the bins
+    color_quad_u8 l((int)floor(.5f + nl[0] * 31.0f), (int)floor(.5f + nl[1] * 63.0f), (int)floor(.5f + nl[2] * 31.0f), 255);
+    color_quad_u8 h((int)floor(.5f + nh[0] * 31.0f), (int)floor(.5f + nh[1] * 63.0f), (int)floor(.5f + nh[2] * 31.0f), 255);
 #endif
 
-         m_low_color = dxt1_block::pack_color(l, false);
-         m_high_color = dxt1_block::pack_color(h, false);
-      }
-
-      uint16 m_low_color;
-      uint16 m_high_color;
-
-      inline void clear()
-      {
-         m_low_color = 0;
-         m_high_color = 0;
-      }
-
-      inline dxt1_solution_coordinates& canonicalize()
-      {
-         if (m_low_color < m_high_color)
-            utils::swap(m_low_color, m_high_color);
-         return *this;
-      }
-
-      inline operator size_t() const { return fast_hash(this, sizeof(*this)); }
-
-      inline bool operator== (const dxt1_solution_coordinates& other) const
-      {
-         uint16 l0 = math::minimum(m_low_color, m_high_color);
-         uint16 h0 = math::maximum(m_low_color, m_high_color);
-
-         uint16 l1 = math::minimum(other.m_low_color, other.m_high_color);
-         uint16 h1 = math::maximum(other.m_low_color, other.m_high_color);
-
-         return (l0 == l1) && (h0 == h1);
-      }
-
-      inline bool operator!= (const dxt1_solution_coordinates& other) const
-      {
-         return !(*this == other);
-      }
-
-      inline bool operator< (const dxt1_solution_coordinates& other) const
-      {
-         uint16 l0 = math::minimum(m_low_color, m_high_color);
-         uint16 h0 = math::maximum(m_low_color, m_high_color);
-
-         uint16 l1 = math::minimum(other.m_low_color, other.m_high_color);
-         uint16 h1 = math::maximum(other.m_low_color, other.m_high_color);
-
-         if (l0 < l1)
-            return true;
-         else if (l0 == l1)
-         {
-            if (h0 < h1)
-               return true;
-         }
-
-         return false;
-      }
-   };
-
-   typedef crnlib::vector<dxt1_solution_coordinates> dxt1_solution_coordinates_vec;
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt1_solution_coordinates);
-
-   struct unique_color
-   {
-      inline unique_color() { }
-      inline unique_color(const color_quad_u8& color, uint weight) : m_color(color), m_weight(weight) { }
-
-      color_quad_u8  m_color;
-      uint           m_weight;
-
-      inline bool operator< (const unique_color& c) const
-      {
-         return *reinterpret_cast<const uint32*>(&m_color) < *reinterpret_cast<const uint32*>(&c.m_color);
-      }
-
-      inline bool operator== (const unique_color& c) const
-      {
-         return *reinterpret_cast<const uint32*>(&m_color) == *reinterpret_cast<const uint32*>(&c.m_color);
-      }
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(unique_color);
-
-   class dxt1_endpoint_optimizer
-   {
-   public:
-      dxt1_endpoint_optimizer();
-
-      struct params
-      {
-         params() :
-            m_block_index(0),
-            m_pPixels(NULL),
-            m_num_pixels(0),
-            m_dxt1a_alpha_threshold(128U),
-            m_quality(cCRNDXTQualityUber),
-            m_pixels_have_alpha(false),
-            m_use_alpha_blocks(true),
-            m_perceptual(true),
-            m_grayscale_sampling(false),
-            m_endpoint_caching(true),
-            m_use_transparent_indices_for_black(false),
-            m_force_alpha_blocks(false)
-         {
-            m_color_weights[0] = 1;
-            m_color_weights[1] = 1;
-            m_color_weights[2] = 1;
-         }
-
-         uint                 m_block_index;
-
-         const color_quad_u8* m_pPixels;
-         uint                 m_num_pixels;
-         uint                 m_dxt1a_alpha_threshold;
-
-         crn_dxt_quality      m_quality;
-
-         bool                 m_pixels_have_alpha;
-         bool                 m_use_alpha_blocks;
-         bool                 m_perceptual;
-         bool                 m_grayscale_sampling;
-         bool                 m_endpoint_caching;
-         bool                 m_use_transparent_indices_for_black;
-         bool                 m_force_alpha_blocks;
-         int                  m_color_weights[3];
-      };
-
-      struct results
-      {
-         inline results() : m_pSelectors(NULL) { }
-
-         uint64         m_error;
-
-         uint16         m_low_color;
-         uint16         m_high_color;
-
-         uint8*         m_pSelectors;
-         bool           m_alpha_block;
-      };
-
-      struct solution
-      {
-         solution() { }
-
-         solution(const solution& other)
-         {
-            m_results = other.m_results;
-            m_selectors = other.m_selectors;
-            m_results.m_pSelectors = m_selectors.begin();
-         }
-
-         solution& operator= (const solution& rhs)
-         {
-            if (this == &rhs)
-               return *this;
-
-            m_results = rhs.m_results;
-            m_selectors = rhs.m_selectors;
-            m_results.m_pSelectors = m_selectors.begin();
-
-            return *this;
-         }
-
-         results              m_results;
-         crnlib::vector<uint8> m_selectors;
-
-         inline bool operator< (const solution& other) const
-         {
-            return m_results.m_error < other.m_results.m_error;
-         }
-         static inline bool coords_equal(const solution& lhs, const solution& rhs)
-         {
-            return (lhs.m_results.m_low_color == rhs.m_results.m_low_color) && (lhs.m_results.m_high_color == rhs.m_results.m_high_color);
-         }
-      };
-      typedef crnlib::vector<solution> solution_vec;
-
-      bool compute(const params& p, results& r, solution_vec* pSolutions = NULL);
-
-   private:
-      const params*     m_pParams;
-      results*          m_pResults;
-      solution_vec*     m_pSolutions;
-
-      bool              m_perceptual;
-      bool              m_has_color_weighting;
-
-      typedef crnlib::vector<unique_color> unique_color_vec;
-
-      //typedef crnlib::hash_map<uint32, uint32, bit_hasher<uint32> > unique_color_hash_map;
-      typedef crnlib::hash_map<uint32, uint32> unique_color_hash_map;
-      unique_color_hash_map m_unique_color_hash_map;
-
-      unique_color_vec  m_unique_colors;                 // excludes transparent colors!
-      unique_color_vec  m_temp_unique_colors;
-
-      uint              m_total_unique_color_weight;
-
-      bool              m_has_transparent_pixels;
-
-      vec3F_array       m_norm_unique_colors;
-      vec3F             m_mean_norm_color;
-
-      vec3F_array       m_norm_unique_colors_weighted;
-      vec3F             m_mean_norm_color_weighted;
-
-      vec3F             m_principle_axis;
-
-      bool              m_all_pixels_grayscale;
-
-      crnlib::vector<uint16> m_unique_packed_colors;
-      crnlib::vector<uint8> m_trial_selectors;
-
-      crnlib::vector<vec3F> m_low_coords;
-      crnlib::vector<vec3F> m_high_coords;
-
-      enum { cMaxPrevResults = 4 };
-      dxt1_solution_coordinates m_prev_results[cMaxPrevResults];
-      uint m_num_prev_results;
-
-      crnlib::vector<vec3I> m_lo_cells;
-      crnlib::vector<vec3I> m_hi_cells;
-
-      uint m_total_evals;
-
-      struct potential_solution
-      {
-         potential_solution() : m_coords(), m_error(cUINT64_MAX), m_alpha_block(false), m_valid(false)
-         {
-         }
-
-         dxt1_solution_coordinates  m_coords;
-         crnlib::vector<uint8>      m_selectors;
-         uint64                     m_error;
-         bool                       m_alpha_block;
-         bool                       m_valid;
-
-         void clear()
-         {
-            m_coords.clear();
-            m_selectors.resize(0);
-            m_error = cUINT64_MAX;
-            m_alpha_block = false;
-            m_valid = false;
-         }
-
-         bool are_selectors_all_equal() const
-         {
-            if (m_selectors.empty())
-               return false;
-            const uint s = m_selectors[0];
-            for (uint i = 1; i < m_selectors.size(); i++)
-               if (m_selectors[i] != s)
-                  return false;
-            return true;
-         }
-      };
-
-      potential_solution m_trial_solution;
-      potential_solution m_best_solution;
-
-      typedef crnlib::hash_map<uint, empty_type> solution_hash_map;
-      solution_hash_map m_solutions_tried;
-      
-      bool refine_solution(int refinement_level = 0);
-
-      bool evaluate_solution(
-         const dxt1_solution_coordinates& coords,
-         bool early_out,
-         potential_solution* pBest_solution,
-         bool alternate_rounding = false);
-
-      bool evaluate_solution_uber(
-         potential_solution& solution,
-         const dxt1_solution_coordinates& coords,
-         bool early_out,
-         potential_solution* pBest_solution,
-         bool alternate_rounding = false);
-
-      bool evaluate_solution_fast(
-         potential_solution& solution,
-         const dxt1_solution_coordinates& coords,
-         bool early_out,
-         potential_solution* pBest_solution,
-         bool alternate_rounding = false);
-
-      void clear();
-      void find_unique_colors();
-      bool handle_all_transparent_block();
-      bool handle_solid_block();
-      bool handle_multicolor_block();
-      bool handle_grayscale_block();
-      void compute_pca(vec3F& axis, const vec3F_array& norm_colors, const vec3F& def);
-      void compute_vectors(const vec3F& perceptual_weights);
-      void return_solution(results& results, const potential_solution& solution);
-      void try_combinatorial_encoding();
-      void optimize_endpoint_comps();
-      bool optimize_endpoints(vec3F& low_color, vec3F& high_color);
-      bool try_alpha_as_black_optimization();
-      bool try_average_block_as_solid();
-      bool try_median4(const vec3F& low_color, const vec3F& high_color);
-
-      bool compute_internal(const params& p, results& r, solution_vec* pSolutions);
-      
-      unique_color lerp_color(const color_quad_u8& a, const color_quad_u8& b, float f, int rounding = 1);
-
-      inline uint color_distance(bool perceptual, const color_quad_u8& e1, const color_quad_u8& e2, bool alpha);
-
-      static inline vec3F unpack_to_vec3F_raw(uint16 packed_color);
-      static inline vec3F unpack_to_vec3F(uint16 packed_color);
-   };
-
-   inline void swap(dxt1_endpoint_optimizer::solution& a, dxt1_endpoint_optimizer::solution& b)
-   {
-      std::swap(a.m_results, b.m_results);
-      a.m_selectors.swap(b.m_selectors);
-   }
-
-} // namespace crnlib
+    m_low_color = dxt1_block::pack_color(l, false);
+    m_high_color = dxt1_block::pack_color(h, false);
+  }
+
+  uint16 m_low_color;
+  uint16 m_high_color;
+
+  inline void clear() {
+    m_low_color = 0;
+    m_high_color = 0;
+  }
+
+  inline dxt1_solution_coordinates& canonicalize() {
+    if (m_low_color < m_high_color)
+      utils::swap(m_low_color, m_high_color);
+    return *this;
+  }
+
+  inline operator size_t() const { return fast_hash(this, sizeof(*this)); }
+
+  inline bool operator==(const dxt1_solution_coordinates& other) const {
+    uint16 l0 = math::minimum(m_low_color, m_high_color);
+    uint16 h0 = math::maximum(m_low_color, m_high_color);
+
+    uint16 l1 = math::minimum(other.m_low_color, other.m_high_color);
+    uint16 h1 = math::maximum(other.m_low_color, other.m_high_color);
+
+    return (l0 == l1) && (h0 == h1);
+  }
+
+  inline bool operator!=(const dxt1_solution_coordinates& other) const {
+    return !(*this == other);
+  }
+
+  inline bool operator<(const dxt1_solution_coordinates& other) const {
+    uint16 l0 = math::minimum(m_low_color, m_high_color);
+    uint16 h0 = math::maximum(m_low_color, m_high_color);
+
+    uint16 l1 = math::minimum(other.m_low_color, other.m_high_color);
+    uint16 h1 = math::maximum(other.m_low_color, other.m_high_color);
+
+    if (l0 < l1)
+      return true;
+    else if (l0 == l1) {
+      if (h0 < h1)
+        return true;
+    }
+
+    return false;
+  }
+};
+
+typedef crnlib::vector<dxt1_solution_coordinates> dxt1_solution_coordinates_vec;
+
+CRNLIB_DEFINE_BITWISE_COPYABLE(dxt1_solution_coordinates);
+
+struct unique_color {
+  inline unique_color() {}
+  inline unique_color(const color_quad_u8& color, uint weight)
+      : m_color(color), m_weight(weight) {}
+
+  color_quad_u8 m_color;
+  uint m_weight;
+
+  inline bool operator<(const unique_color& c) const {
+    return *reinterpret_cast<const uint32*>(&m_color) < *reinterpret_cast<const uint32*>(&c.m_color);
+  }
+
+  inline bool operator==(const unique_color& c) const {
+    return *reinterpret_cast<const uint32*>(&m_color) == *reinterpret_cast<const uint32*>(&c.m_color);
+  }
+};
+
+CRNLIB_DEFINE_BITWISE_COPYABLE(unique_color);
+
+class dxt1_endpoint_optimizer {
+ public:
+  dxt1_endpoint_optimizer();
+
+  struct params {
+    params()
+        : m_block_index(0),
+          m_pPixels(NULL),
+          m_num_pixels(0),
+          m_dxt1a_alpha_threshold(128U),
+          m_quality(cCRNDXTQualityUber),
+          m_pixels_have_alpha(false),
+          m_use_alpha_blocks(true),
+          m_perceptual(true),
+          m_grayscale_sampling(false),
+          m_endpoint_caching(true),
+          m_use_transparent_indices_for_black(false),
+          m_force_alpha_blocks(false) {
+    }
+
+    uint m_block_index;
+
+    const color_quad_u8* m_pPixels;
+    uint m_num_pixels;
+    uint m_dxt1a_alpha_threshold;
+
+    crn_dxt_quality m_quality;
+
+    bool m_pixels_have_alpha;
+    bool m_use_alpha_blocks;
+    bool m_perceptual;
+    bool m_grayscale_sampling;
+    bool m_endpoint_caching;
+    bool m_use_transparent_indices_for_black;
+    bool m_force_alpha_blocks;
+  };
+
+  struct results {
+    inline results()
+        : m_pSelectors(NULL) {}
+
+    uint64 m_error;
+
+    uint16 m_low_color;
+    uint16 m_high_color;
+
+    uint8* m_pSelectors;
+    bool m_alpha_block;
+    bool m_reordered;
+    bool m_alternate_rounding;
+    bool m_enforce_selector;
+    uint8 m_enforced_selector;
+  };
+
+  bool compute(const params& p, results& r);
+
+ private:
+  const params* m_pParams;
+  results* m_pResults;
+
+  bool m_perceptual;
+  bool m_evaluate_hc;
+
+  typedef crnlib::vector<unique_color> unique_color_vec;
+
+  //typedef crnlib::hash_map<uint32, uint32, bit_hasher<uint32> > unique_color_hash_map;
+  typedef crnlib::hash_map<uint32, uint32> unique_color_hash_map;
+  unique_color_hash_map m_unique_color_hash_map;
+
+  unique_color_vec m_unique_colors;  // excludes transparent colors!
+  unique_color_vec m_evaluated_colors;
+  unique_color_vec m_temp_unique_colors;
+
+  struct {
+    uint64 low, high;
+  } m_rDist[32], m_gDist[64], m_bDist[32];
+  
+  uint m_total_unique_color_weight;
+
+  bool m_has_transparent_pixels;
+
+  vec3F_array m_norm_unique_colors;
+  vec3F m_mean_norm_color;
+
+  vec3F_array m_norm_unique_colors_weighted;
+  vec3F m_mean_norm_color_weighted;
+
+  vec3F m_principle_axis;
+
+  crnlib::vector<uint16> m_unique_packed_colors;
+  crnlib::vector<uint8> m_trial_selectors;
+
+  crnlib::vector<vec3F> m_low_coords;
+  crnlib::vector<vec3F> m_high_coords;
+
+  enum { cMaxPrevResults = 4 };
+  dxt1_solution_coordinates m_prev_results[cMaxPrevResults];
+  uint m_num_prev_results;
+
+  crnlib::vector<vec3I> m_lo_cells;
+  crnlib::vector<vec3I> m_hi_cells;
+
+  struct potential_solution {
+    potential_solution()
+        : m_coords(), m_error(cUINT64_MAX), m_alpha_block(false) {
+    }
+
+    dxt1_solution_coordinates m_coords;
+    crnlib::vector<uint8> m_selectors;
+    uint64 m_error;
+    bool m_alpha_block;
+    bool m_alternate_rounding;
+    bool m_enforce_selector;
+    uint8 m_enforced_selector;
+
+    void clear() {
+      m_coords.clear();
+      m_selectors.resize(0);
+      m_error = cUINT64_MAX;
+      m_alpha_block = false;
+    }
+
+    bool are_selectors_all_equal() const {
+      if (m_selectors.empty())
+        return false;
+      const uint s = m_selectors[0];
+      for (uint i = 1; i < m_selectors.size(); i++)
+        if (m_selectors[i] != s)
+          return false;
+      return true;
+    }
+  };
+
+  potential_solution m_trial_solution;
+  potential_solution m_best_solution;
+
+  typedef crnlib::hash_map<uint, empty_type> solution_hash_map;
+  solution_hash_map m_solutions_tried;
+
+  bool refine_solution(int refinement_level = 0);
+
+  bool evaluate_solution(const dxt1_solution_coordinates& coords, bool alternate_rounding = false);
+  bool evaluate_solution_uber(const dxt1_solution_coordinates& coords, bool alternate_rounding);
+  bool evaluate_solution_fast(const dxt1_solution_coordinates& coords, bool alternate_rounding);
+  bool evaluate_solution_hc_perceptual(const dxt1_solution_coordinates& coords, bool alternate_rounding);
+  bool evaluate_solution_hc_uniform(const dxt1_solution_coordinates& coords, bool alternate_rounding);
+  void compute_selectors();
+  void compute_selectors_hc();
+
+  void find_unique_colors();
+  void handle_multicolor_block();
+  void compute_pca(vec3F& axis, const vec3F_array& norm_colors, const vec3F& def);
+  void compute_vectors(const vec3F& perceptual_weights);
+  void return_solution();
+  void try_combinatorial_encoding();
+  void compute_endpoint_component_errors(uint comp_index, uint64 (&error)[4][256], uint64 (&best_remaining_error)[4]);
+  void optimize_endpoint_comps();
+  void optimize_endpoints(vec3F& low_color, vec3F& high_color);
+  bool try_alpha_as_black_optimization();
+  bool try_average_block_as_solid();
+  bool try_median4(const vec3F& low_color, const vec3F& high_color);
+
+  void compute_internal(const params& p, results& r);
+
+  unique_color lerp_color(const color_quad_u8& a, const color_quad_u8& b, float f, int rounding = 1);
+
+  inline uint color_distance(bool perceptual, const color_quad_u8& e1, const color_quad_u8& e2, bool alpha);
+};
+
+}  // namespace crnlib

crnlib/crn_dxt5a.cpp

@@ -6,204 +6,184 @@
 #include "crn_dxt_fast.h"
 #include "crn_intersect.h"
 
-namespace crnlib
-{
-   dxt5_endpoint_optimizer::dxt5_endpoint_optimizer() :  
-      m_pParams(NULL),
-      m_pResults(NULL)
-   {
-      m_unique_values.reserve(16);
-      m_unique_value_weights.reserve(16);
-   }
+namespace crnlib {
+dxt5_endpoint_optimizer::dxt5_endpoint_optimizer()
+    : m_pParams(NULL),
+      m_pResults(NULL) {
+  m_unique_values.reserve(16);
+  m_unique_value_weights.reserve(16);
+}
 
-   bool dxt5_endpoint_optimizer::compute(const params& p, results& r)
-   {
-      m_pParams = &p;
-      m_pResults = &r;
+bool dxt5_endpoint_optimizer::compute(const params& p, results& r) {
+  m_pParams = &p;
+  m_pResults = &r;
 
-      if ((!p.m_num_pixels) || (!p.m_pPixels))
-         return false;
+  if ((!p.m_num_pixels) || (!p.m_pPixels))
+    return false;
 
-      m_unique_values.resize(0);
-      m_unique_value_weights.resize(0);
+  m_unique_values.resize(0);
+  m_unique_value_weights.resize(0);
 
-      for (uint i = 0; i < 256; i++)
-         m_unique_value_map[i] = -1;
+  for (uint i = 0; i < 256; i++)
+    m_unique_value_map[i] = -1;
 
-      for (uint i = 0; i < p.m_num_pixels; i++)
-      {
-         uint alpha = p.m_pPixels[i][p.m_comp_index];
+  for (uint i = 0; i < p.m_num_pixels; i++) {
+    uint alpha = p.m_pPixels[i][p.m_comp_index];
 
-         int index = m_unique_value_map[alpha];
+    int index = m_unique_value_map[alpha];
 
-         if (index == -1)
-         {
-            index = m_unique_values.size();
+    if (index == -1) {
+      index = m_unique_values.size();
 
-            m_unique_value_map[alpha] = index;
+      m_unique_value_map[alpha] = index;
 
-            m_unique_values.push_back(static_cast<uint8>(alpha));
-            m_unique_value_weights.push_back(0);
-         }
+      m_unique_values.push_back(static_cast<uint8>(alpha));
+      m_unique_value_weights.push_back(0);
+    }
 
-         m_unique_value_weights[index]++;
-      }         
+    m_unique_value_weights[index]++;
+  }
 
-      if (m_unique_values.size() == 1)
-      {
-         r.m_block_type = 0;
-         r.m_error = 0;
-         r.m_first_endpoint = m_unique_values[0];
-         r.m_second_endpoint = m_unique_values[0];
-         memset(r.m_pSelectors, 0, p.m_num_pixels);
-         return true;
+  if (m_unique_values.size() == 1) {
+    r.m_block_type = 0;
+    r.m_reordered = false;
+    r.m_error = 0;
+    r.m_first_endpoint = m_unique_values[0];
+    r.m_second_endpoint = m_unique_values[0];
+    memset(r.m_pSelectors, 0, p.m_num_pixels);
+    return true;
+  }
+
+  m_trial_selectors.resize(m_unique_values.size());
+  m_best_selectors.resize(m_unique_values.size());
+
+  r.m_error = cUINT64_MAX;
+
+  for (uint i = 0; i < m_unique_values.size() - 1; i++) {
+    const uint low_endpoint = m_unique_values[i];
+
+    for (uint j = i + 1; j < m_unique_values.size(); j++) {
+      const uint high_endpoint = m_unique_values[j];
+
+      evaluate_solution(low_endpoint, high_endpoint);
+    }
+  }
+
+  if ((m_pParams->m_quality >= cCRNDXTQualityBetter) && (m_pResults->m_error)) {
+    m_flags.resize(256 * 256);
+    m_flags.clear_all_bits();
+
+    const int cProbeAmount = (m_pParams->m_quality == cCRNDXTQualityUber) ? 16 : 8;
+
+    for (int l_delta = -cProbeAmount; l_delta <= cProbeAmount; l_delta++) {
+      const int l = m_pResults->m_first_endpoint + l_delta;
+      if (l < 0)
+        continue;
+      else if (l > 255)
+        break;
+
+      const uint bit_index = l * 256;
+
+      for (int h_delta = -cProbeAmount; h_delta <= cProbeAmount; h_delta++) {
+        const int h = m_pResults->m_second_endpoint + h_delta;
+        if (h < 0)
+          continue;
+        else if (h > 255)
+          break;
+
+        //if (m_flags.get_bit(bit_index + h))
+        //   continue;
+        if ((m_flags.get_bit(bit_index + h)) || (m_flags.get_bit(h * 256 + l)))
+          continue;
+        m_flags.set_bit(bit_index + h);
+
+        evaluate_solution(static_cast<uint>(l), static_cast<uint>(h));
+      }
+    }
+  }
+
+  m_pResults->m_reordered = false;
+  if (m_pResults->m_first_endpoint == m_pResults->m_second_endpoint) {
+    for (uint i = 0; i < m_best_selectors.size(); i++)
+      m_best_selectors[i] = 0;
+  } else if (m_pResults->m_block_type) {
+    //if (l > h)
+    //   eight alpha
+    // else
+    //   six alpha
+
+    if (m_pResults->m_first_endpoint > m_pResults->m_second_endpoint) {
+      utils::swap(m_pResults->m_first_endpoint, m_pResults->m_second_endpoint);
+      m_pResults->m_reordered = true;
+      for (uint i = 0; i < m_best_selectors.size(); i++)
+        m_best_selectors[i] = g_six_alpha_invert_table[m_best_selectors[i]];
+    }
+  } else if (!(m_pResults->m_first_endpoint > m_pResults->m_second_endpoint)) {
+    utils::swap(m_pResults->m_first_endpoint, m_pResults->m_second_endpoint);
+    m_pResults->m_reordered = true;
+    for (uint i = 0; i < m_best_selectors.size(); i++)
+      m_best_selectors[i] = g_eight_alpha_invert_table[m_best_selectors[i]];
+  }
+
+  for (uint i = 0; i < m_pParams->m_num_pixels; i++) {
+    uint alpha = m_pParams->m_pPixels[i][m_pParams->m_comp_index];
+
+    int index = m_unique_value_map[alpha];
+
+    m_pResults->m_pSelectors[i] = m_best_selectors[index];
+  }
+
+  return true;
+}
+
+void dxt5_endpoint_optimizer::evaluate_solution(uint low_endpoint, uint high_endpoint) {
+  for (uint block_type = 0; block_type < (m_pParams->m_use_both_block_types ? 2U : 1U); block_type++) {
+    uint selector_values[8];
+
+    if (!block_type)
+      dxt5_block::get_block_values8(selector_values, low_endpoint, high_endpoint);
+    else
+      dxt5_block::get_block_values6(selector_values, low_endpoint, high_endpoint);
+
+    uint64 trial_error = 0;
+
+    for (uint i = 0; i < m_unique_values.size(); i++) {
+      const uint val = m_unique_values[i];
+      const uint weight = m_unique_value_weights[i];
+
+      uint best_selector_error = UINT_MAX;
+      uint best_selector = 0;
+
+      for (uint j = 0; j < 8; j++) {
+        int selector_error = val - selector_values[j];
+        selector_error = selector_error * selector_error * (int)weight;
+
+        if (static_cast<uint>(selector_error) < best_selector_error) {
+          best_selector_error = selector_error;
+          best_selector = j;
+          if (!best_selector_error)
+            break;
+        }
       }
 
-      m_trial_selectors.resize(m_unique_values.size());
-      m_best_selectors.resize(m_unique_values.size());
+      m_trial_selectors[i] = static_cast<uint8>(best_selector);
+      trial_error += best_selector_error;
 
-      r.m_error = cUINT64_MAX;
+      if (trial_error > m_pResults->m_error)
+        break;
+    }
 
-      for (uint i = 0; i < m_unique_values.size() - 1; i++)
-      {
-         const uint low_endpoint = m_unique_values[i];
+    if (trial_error < m_pResults->m_error) {
+      m_pResults->m_error = trial_error;
+      m_pResults->m_first_endpoint = static_cast<uint8>(low_endpoint);
+      m_pResults->m_second_endpoint = static_cast<uint8>(high_endpoint);
+      m_pResults->m_block_type = static_cast<uint8>(block_type);
+      m_best_selectors.swap(m_trial_selectors);
 
-         for (uint j = i + 1; j < m_unique_values.size(); j++)
-         {
-            const uint high_endpoint = m_unique_values[j];
+      if (!trial_error)
+        break;
+    }
+  }
+}
 
-            evaluate_solution(low_endpoint, high_endpoint);
-         }
-      }
-
-      if ((m_pParams->m_quality >= cCRNDXTQualityBetter) && (m_pResults->m_error))
-      {
-         m_flags.resize(256 * 256);
-         m_flags.clear_all_bits();
-
-         const int cProbeAmount = (m_pParams->m_quality == cCRNDXTQualityUber) ? 16 : 8;
-
-         for (int l_delta = -cProbeAmount; l_delta <= cProbeAmount; l_delta++)
-         {
-            const int l = m_pResults->m_first_endpoint + l_delta;
-            if (l < 0)
-               continue;
-            else if (l > 255)
-               break;
-
-            const uint bit_index = l * 256;
-
-            for (int h_delta = -cProbeAmount; h_delta <= cProbeAmount; h_delta++)
-            {
-               const int h = m_pResults->m_second_endpoint + h_delta;
-               if (h < 0)
-                  continue;
-               else if (h > 255)
-                  break;
-
-               //if (m_flags.get_bit(bit_index + h))
-               //   continue;
-               if ((m_flags.get_bit(bit_index + h)) || (m_flags.get_bit(h * 256 + l)))
-                  continue;
-               m_flags.set_bit(bit_index + h);
-
-               evaluate_solution(static_cast<uint>(l), static_cast<uint>(h));
-            }
-         }
-      }
-
-      if (m_pResults->m_first_endpoint == m_pResults->m_second_endpoint)
-      {
-         for (uint i = 0; i < m_best_selectors.size(); i++)
-            m_best_selectors[i] = 0;
-      }      
-      else if (m_pResults->m_block_type)
-      {
-         //if (l > h) 
-         //   eight alpha
-         // else 
-         //   six alpha
-
-         if (m_pResults->m_first_endpoint > m_pResults->m_second_endpoint)
-         {
-            utils::swap(m_pResults->m_first_endpoint, m_pResults->m_second_endpoint);
-            for (uint i = 0; i < m_best_selectors.size(); i++)
-               m_best_selectors[i] = g_six_alpha_invert_table[m_best_selectors[i]];
-         }
-      }
-      else if (!(m_pResults->m_first_endpoint > m_pResults->m_second_endpoint))
-      {
-         utils::swap(m_pResults->m_first_endpoint, m_pResults->m_second_endpoint);
-         for (uint i = 0; i < m_best_selectors.size(); i++)
-            m_best_selectors[i] = g_eight_alpha_invert_table[m_best_selectors[i]];
-      }
-
-      for (uint i = 0; i < m_pParams->m_num_pixels; i++)
-      {
-         uint alpha = m_pParams->m_pPixels[i][m_pParams->m_comp_index];
-
-         int index = m_unique_value_map[alpha];
-
-         m_pResults->m_pSelectors[i] = m_best_selectors[index];
-      }
-
-      return true;
-   }
-
-   void dxt5_endpoint_optimizer::evaluate_solution(uint low_endpoint, uint high_endpoint)
-   {
-      for (uint block_type = 0; block_type < (m_pParams->m_use_both_block_types ? 2U : 1U); block_type++)
-      {
-         uint selector_values[8];      
-
-         if (!block_type)
-            dxt5_block::get_block_values8(selector_values, low_endpoint, high_endpoint);
-         else
-            dxt5_block::get_block_values6(selector_values, low_endpoint, high_endpoint);
-
-         uint64 trial_error = 0;
-
-         for (uint i = 0; i < m_unique_values.size(); i++)
-         {
-            const uint val = m_unique_values[i];
-            const uint weight = m_unique_value_weights[i];
-
-            uint best_selector_error = UINT_MAX;
-            uint best_selector = 0;
-
-            for (uint j = 0; j < 8; j++)
-            {
-               int selector_error = val - selector_values[j];
-               selector_error = selector_error * selector_error * (int)weight;
-
-               if (static_cast<uint>(selector_error) < best_selector_error)
-               {
-                  best_selector_error = selector_error;
-                  best_selector = j;
-                  if (!best_selector_error)
-                     break;
-               }
-            }
-
-            m_trial_selectors[i] = static_cast<uint8>(best_selector);
-            trial_error += best_selector_error;
-
-            if (trial_error > m_pResults->m_error)
-               break;
-         }
-
-         if (trial_error < m_pResults->m_error)
-         {
-            m_pResults->m_error = trial_error;
-            m_pResults->m_first_endpoint = static_cast<uint8>(low_endpoint);
-            m_pResults->m_second_endpoint = static_cast<uint8>(high_endpoint);
-            m_pResults->m_block_type = static_cast<uint8>(block_type);
-            m_best_selectors.swap(m_trial_selectors);
-
-            if (!trial_error)
-               break;
-         }
-      }
-   }
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_dxt5a.h

@@ -3,64 +3,60 @@
 #pragma once
 #include "crn_dxt.h"
 
-namespace crnlib
-{
-   class dxt5_endpoint_optimizer
-   {
-   public:
-      dxt5_endpoint_optimizer();
+namespace crnlib {
+class dxt5_endpoint_optimizer {
+ public:
+  dxt5_endpoint_optimizer();
 
-      struct params
-      {
-         params() :
-            m_block_index(0),
-            m_pPixels(NULL),
-            m_num_pixels(0),
-            m_comp_index(3),
-            m_quality(cCRNDXTQualityUber),
-            m_use_both_block_types(true)
-         {
-         }
+  struct params {
+    params()
+        : m_block_index(0),
+          m_pPixels(NULL),
+          m_num_pixels(0),
+          m_comp_index(3),
+          m_quality(cCRNDXTQualityUber),
+          m_use_both_block_types(true) {
+    }
 
-         uint                 m_block_index;
+    uint m_block_index;
 
-         const color_quad_u8* m_pPixels;
-         uint                 m_num_pixels;
-         uint                 m_comp_index;
+    const color_quad_u8* m_pPixels;
+    uint m_num_pixels;
+    uint m_comp_index;
 
-         crn_dxt_quality      m_quality;
+    crn_dxt_quality m_quality;
 
-         bool                 m_use_both_block_types;
-      };
+    bool m_use_both_block_types;
+  };
 
-      struct results
-      {
-         uint8*   m_pSelectors;
+  struct results {
+    uint8* m_pSelectors;
 
-         uint64   m_error;
+    uint64 m_error;
 
-         uint8    m_first_endpoint;
-         uint8    m_second_endpoint;
+    uint8 m_first_endpoint;
+    uint8 m_second_endpoint;
 
-         uint8    m_block_type; // 1 if 6-alpha, otherwise 8-alpha
-      };
+    uint8 m_block_type;  // 1 if 6-alpha, otherwise 8-alpha
+    bool m_reordered;
+  };
 
-      bool compute(const params& p, results& r);
+  bool compute(const params& p, results& r);
 
-   private:
-      const params*  m_pParams;
-      results*       m_pResults;
+ private:
+  const params* m_pParams;
+  results* m_pResults;
 
-      crnlib::vector<uint8> m_unique_values;
-      crnlib::vector<uint> m_unique_value_weights;
+  crnlib::vector<uint8> m_unique_values;
+  crnlib::vector<uint> m_unique_value_weights;
 
-      crnlib::vector<uint8> m_trial_selectors;
-      crnlib::vector<uint8> m_best_selectors;
-      int m_unique_value_map[256];
+  crnlib::vector<uint8> m_trial_selectors;
+  crnlib::vector<uint8> m_best_selectors;
+  int m_unique_value_map[256];
 
-      sparse_bit_array m_flags;
+  sparse_bit_array m_flags;
 
-      void evaluate_solution(uint low_endpoint, uint high_endpoint);
-   };
+  void evaluate_solution(uint low_endpoint, uint high_endpoint);
+};
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_dxt_endpoint_refiner.cpp

@@ -4,359 +4,206 @@
 #include "crn_dxt_endpoint_refiner.h"
 #include "crn_dxt1.h"
 
-namespace crnlib
-{
-   dxt_endpoint_refiner::dxt_endpoint_refiner() :
-      m_pParams(NULL),
-      m_pResults(NULL)
-   {
-   }
+namespace crnlib {
+dxt_endpoint_refiner::dxt_endpoint_refiner()
+    : m_pParams(NULL),
+      m_pResults(NULL) {
+}
 
-   bool dxt_endpoint_refiner::refine(const params& p, results& r)
-   {
-      if (!p.m_num_pixels)
-         return false;
+bool dxt_endpoint_refiner::refine(const params& p, results& r) {
+  if (!p.m_num_pixels)
+    return false;
 
-      m_pParams = &p;
-      m_pResults = &r;
+  m_pParams = &p;
+  m_pResults = &r;
 
-      r.m_error = cUINT64_MAX;
-      r.m_low_color = 0;
-      r.m_high_color = 0;
+  r.m_error = cUINT64_MAX;
+  r.m_low_color = 0;
+  r.m_high_color = 0;
 
-      double alpha2_sum = 0.0f;
-      double beta2_sum = 0.0f;
-      double alphabeta_sum = 0.0f;
+  double alpha2_sum = 0.0f;
+  double beta2_sum = 0.0f;
+  double alphabeta_sum = 0.0f;
 
-      vec<3, double> alphax_sum( 0.0f );
-      vec<3, double> betax_sum( 0.0f );
+  vec<3, double> alphax_sum(0.0f);
+  vec<3, double> betax_sum(0.0f);
 
-      vec<3, double> first_color( 0.0f );
+  vec<3, double> first_color(0.0f);
 
-      // This linear solver is from Squish.
-      for( uint i = 0; i < p.m_num_pixels; ++i )
-      {
-         uint8 c = p.m_pSelectors[i];
+  // This linear solver is from Squish.
+  for (uint i = 0; i < p.m_num_pixels; ++i) {
+    uint8 c = p.m_pSelectors[i];
 
-         double k;
-         if (p.m_dxt1_selectors)
-            k = g_dxt1_to_linear[c] * 1.0f/3.0f;
-         else
-            k = g_dxt5_to_linear[c] * 1.0f/7.0f;
+    double k;
+    if (p.m_dxt1_selectors)
+      k = g_dxt1_to_linear[c] * 1.0f / 3.0f;
+    else
+      k = g_dxt5_to_linear[c] * 1.0f / 7.0f;
 
-         double alpha = 1.0f - k;
-         double beta = k;
+    double alpha = 1.0f - k;
+    double beta = k;
 
-         vec<3, double> x;
+    vec<3, double> x;
 
-         if (p.m_dxt1_selectors)
-            x.set( p.m_pPixels[i][0] * 1.0f/255.0f, p.m_pPixels[i][1] * 1.0f/255.0f, p.m_pPixels[i][2] * 1.0f/255.0f );
-         else
-            x.set( p.m_pPixels[i][p.m_alpha_comp_index]/255.0f );
+    if (p.m_dxt1_selectors)
+      x.set(p.m_pPixels[i][0] * 1.0f / 255.0f, p.m_pPixels[i][1] * 1.0f / 255.0f, p.m_pPixels[i][2] * 1.0f / 255.0f);
+    else
+      x.set(p.m_pPixels[i][p.m_alpha_comp_index] / 255.0f);
 
-         if (!i)
-            first_color = x;
+    if (!i)
+      first_color = x;
 
-         alpha2_sum += alpha*alpha;
-         beta2_sum += beta*beta;
-         alphabeta_sum += alpha*beta;
-         alphax_sum += alpha*x;
-         betax_sum += beta*x;
+    alpha2_sum += alpha * alpha;
+    beta2_sum += beta * beta;
+    alphabeta_sum += alpha * beta;
+    alphax_sum += alpha * x;
+    betax_sum += beta * x;
+  }
+
+  // zero where non-determinate
+  vec<3, double> a, b;
+  if (beta2_sum == 0.0f) {
+    a = alphax_sum / alpha2_sum;
+    b.clear();
+  } else if (alpha2_sum == 0.0f) {
+    a.clear();
+    b = betax_sum / beta2_sum;
+  } else {
+    double factor = alpha2_sum * beta2_sum - alphabeta_sum * alphabeta_sum;
+    if (factor != 0.0f) {
+      a = (alphax_sum * beta2_sum - betax_sum * alphabeta_sum) / factor;
+      b = (betax_sum * alpha2_sum - alphax_sum * alphabeta_sum) / factor;
+    } else {
+      a = first_color;
+      b = first_color;
+    }
+  }
+
+  vec3F l(0.0f), h(0.0f);
+  l = a;
+  h = b;
+
+  l.clamp(0.0f, 1.0f);
+  h.clamp(0.0f, 1.0f);
+
+  if (p.m_dxt1_selectors)
+    optimize_dxt1(l, h);
+  else
+    optimize_dxt5(l, h);
+
+  return r.m_error < p.m_error_to_beat;
+}
+
+void dxt_endpoint_refiner::optimize_dxt5(vec3F low_color, vec3F high_color) {
+  uint8 L0 = math::clamp<int>(low_color[0] * 256.0f, 0, 255);
+  uint8 H0 = math::clamp<int>(high_color[0] * 256.0f, 0, 255);
+
+  uint64 hist[8] = {}, D2[8] = {}, DD[8] = {};
+  for (uint c = m_pParams->m_alpha_comp_index, i = 0; i < m_pParams->m_num_pixels; i++) {
+    uint8 a = m_pParams->m_pPixels[i][c];
+    uint8 s = m_pParams->m_pSelectors[i];
+    hist[s]++;
+    D2[s] += a * 2;
+    DD[s] += a * a;
+  }
+
+  uint16 solutions[529];
+  uint solutions_count = 0;
+  solutions[solutions_count++] = L0 == H0 ? H0 ? H0 - 1 << 8 | L0 : 1 : L0 > H0 ? H0 << 8 | L0 : L0 << 8 | H0;
+  uint8 minL = L0 <= 11 ? 0 : L0 - 11, maxL = L0 >= 244 ? 255 : L0 + 11;
+  uint8 minH = H0 <= 11 ? 0 : H0 - 11, maxH = H0 >= 244 ? 255 : H0 + 11;
+  for (uint16 L = minL; L <= maxL; L++) {
+    for (uint16 H = minH; H <= maxH; H++) {
+      if ((maxH < L || L <= H || H < minL) && (L != L0 || H != H0) && (L != H0 || H != L0))
+        solutions[solutions_count++] = L == H ? H ? H - 1 << 8 | L : 1 : L > H ? H << 8 | L : L << 8 | H;
+    }
+  }
+
+  for (uint i = 0; i < solutions_count; i++) {
+    uint8 L = solutions[i] & 0xFF;
+    uint8 H = solutions[i] >> 8;
+    uint values[8];
+    dxt5_block::get_block_values8(values, L, H);
+    uint64 error = 0;
+    for (uint64 s = 0; s < 8; s++)
+      error += hist[s] * values[s] * values[s] - D2[s] * values[s] + DD[s];
+    if (error < m_pResults->m_error) {
+      m_pResults->m_low_color = L;
+      m_pResults->m_high_color = H;
+      m_pResults->m_error = error;
+      if (!m_pResults->m_error)
+        return;
+    }
+  }
+}
+
+void dxt_endpoint_refiner::optimize_dxt1(vec3F low_color, vec3F high_color) {
+  uint16 L0 = math::clamp<int>(low_color[0] * 32.0f, 0, 31) << 11 | math::clamp<int>(low_color[1] * 64.0f, 0, 63) << 5 | math::clamp<int>(low_color[2] * 32.0f, 0, 31);
+  uint16 H0 = math::clamp<int>(high_color[0] * 32.0f, 0, 31) << 11 | math::clamp<int>(high_color[1] * 64.0f, 0, 63) << 5 | math::clamp<int>(high_color[2] * 32.0f, 0, 31);
+
+  uint64 hist[4] = {}, D2[4][3] = {}, DD[4][3] = {};
+  for (uint i = 0; i < m_pParams->m_num_pixels; i++) {
+    const color_quad_u8& pixel = m_pParams->m_pPixels[i];
+    uint8 s = m_pParams->m_pSelectors[i];
+    hist[s]++;
+    for (uint c = 0; c < 3; c++) {
+      D2[s][c] += pixel[c] * 2;
+      DD[s][c] += pixel[c] * pixel[c];
+    }
+  }
+  crnlib::vector<uint> solutions(54);
+  bool preserveL = hist[0] + hist[2] > hist[1] + hist[3];
+  bool improved = true;
+
+  for (uint iterations = 8; improved && iterations; iterations--) {
+    improved = false;
+    uint solutions_count = 0;
+    for (uint16 b0 = L0 & 31, g0 = L0 >> 5 & 63, r0 = L0 >> 11 & 31, b = b0 ? b0 - 1 : b0; b <= b0 + 1 && b <= 31; b++) {
+      for (uint16 g = g0 ? g0 - 1 : g0; g <= g0 + 1 && g <= 63; g++) {
+        for (uint16 r = r0 ? r0 - 1 : r0; r <= r0 + 1 && r <= 31; r++) {
+          uint16 L = r << 11 | g << 5 | b;
+          if (L != L0)
+            solutions[solutions_count++] = L > H0 ? L | H0 << 16 : H0 | L << 16;
+        }
       }
-
-      // zero where non-determinate
-      vec<3, double> a, b;
-      if( beta2_sum == 0.0f )
-      {
-         a = alphax_sum / alpha2_sum;
-         b.clear();
+    }
+    for (uint16 b0 = H0 & 31, g0 = H0 >> 5 & 63, r0 = H0 >> 11 & 31, b = b0 ? b0 - 1 : b0; b <= b0 + 1 && b <= 31; b++) {
+      for (uint16 g = g0 ? g0 - 1 : g0; g <= g0 + 1 && g <= 63; g++) {
+        for (uint16 r = r0 ? r0 - 1 : r0; r <= r0 + 1 && r <= 31; r++) {
+          uint16 H = r << 11 | g << 5 | b;
+          if (H != H0)
+            solutions[solutions_count++] = H > L0 ? H | L0 << 16 : L0 | H << 16;
+        }
       }
-      else if( alpha2_sum == 0.0f )
-      {
-         a.clear();
-         b = betax_sum / beta2_sum;
+    }
+    std::sort(solutions.begin(), solutions.begin() + solutions_count);
+    for (uint i = 0; i < solutions_count; i++) {
+      if (i && solutions[i] == solutions[i - 1])
+        continue;
+      uint16 L = solutions[i] & 0xFFFF;
+      uint16 H = solutions[i] >> 16;
+      if (L == H) {
+        L += !preserveL ? ~L & 0x1F ? 0x1 : ~L & 0xF800 ? 0x800 : ~L & 0x7E0 ? 0x20 : 0 : !L ? 0x1 : 0;
+        H -= preserveL ? H & 0x1F ? 0x1 : H & 0xF800 ? 0x800 : H & 0x7E0 ? 0x20 : 0 : H == 0xFFFF ? 0x1 : 0;
       }
-      else
-      {
-         double factor = alpha2_sum*beta2_sum - alphabeta_sum*alphabeta_sum;
-         if (factor != 0.0f)
-         {
-            a = ( alphax_sum*beta2_sum - betax_sum*alphabeta_sum ) / factor;
-            b = ( betax_sum*alpha2_sum - alphax_sum*alphabeta_sum ) / factor;
-         }
-         else
-         {
-            a = first_color;
-            b = first_color;
-         }
+      color_quad_u8 block_colors[4];
+      dxt1_block::get_block_colors4(block_colors, L, H);
+      uint64 error = 0;
+      for (uint64 s = 0, d[3]; s < 4; s++) {
+        for (uint c = 0; c < 3; c++)
+          d[c] = hist[s] * block_colors[s][c] * block_colors[s][c] - D2[s][c] * block_colors[s][c] + DD[s][c];
+        error += m_pParams->m_perceptual ? d[0] * 8 + d[1] * 25 + d[2] : d[0] + d[1] + d[2];
       }
-
-      vec3F l(0.0f), h(0.0f);
-      l = a;
-      h = b;
-
-      l.clamp(0.0f, 1.0f);
-      h.clamp(0.0f, 1.0f);
-
-      if (p.m_dxt1_selectors)
-         optimize_dxt1(l, h);
-      else
-         optimize_dxt5(l, h);
-
-      //if (r.m_low_color < r.m_high_color)
-      //   utils::swap(r.m_low_color, r.m_high_color);
-
-      return r.m_error < p.m_error_to_beat;
-   }
-
-   void dxt_endpoint_refiner::optimize_dxt5(vec3F low_color, vec3F high_color)
-   {
-      float nl = low_color[0];
-      float nh = high_color[0];
-
-#if CRNLIB_DXT_ALT_ROUNDING
-      nl = math::clamp(nl, 0.0f, .999f);
-      nh = math::clamp(nh, 0.0f, .999f);
-      uint il = (int)floor(nl * 256.0f);
-      uint ih = (int)floor(nh * 256.0f);
-#else
-      uint il = (int)floor(.5f + math::clamp(nl, 0.0f, 1.0f) * 255.0f);
-      uint ih = (int)floor(.5f + math::clamp(nh, 0.0f, 1.0f) * 255.0f);
-#endif
-
-      crnlib::vector<uint> trial_solutions;
-      trial_solutions.reserve(256);
-      trial_solutions.push_back(il | (ih << 8));
-
-      sparse_bit_array flags;
-      flags.resize(256 * 256);
-
-      flags.set_bit((il * 256) + ih);
-
-      const int cProbeAmount = 11;
-
-      for (int l_delta = -cProbeAmount; l_delta <= cProbeAmount; l_delta++)
-      {
-         const int l = il + l_delta;
-         if (l < 0)
-            continue;
-         else if (l > 255)
-            break;
-
-         const uint bit_index = l * 256;
-
-         for (int h_delta = -cProbeAmount; h_delta <= cProbeAmount; h_delta++)
-         {
-            const int h = ih + h_delta;
-            if (h < 0)
-               continue;
-            else if (h > 255)
-               break;
-
-            if ((flags.get_bit(bit_index + h)) || (flags.get_bit(h * 256 + l)))
-               continue;
-
-            flags.set_bit(bit_index + h);
-
-            trial_solutions.push_back(l | (h << 8));
-         }
+      if (error < m_pResults->m_error) {
+        m_pResults->m_low_color = L0 = L;
+        m_pResults->m_high_color = H0 = H;
+        m_pResults->m_error = error;
+        if (!m_pResults->m_error)
+          return;
+        improved = true;
       }
+    }
+  }
+}
 
-      for (uint trial = 0; trial < trial_solutions.size(); trial++)
-      {
-         uint l = trial_solutions[trial] & 0xFF;
-         uint h = trial_solutions[trial] >> 8;
-
-         if (l == h)
-         {
-            if (h)
-               h--;
-            else
-               l++;
-         }
-         else if (l < h)
-         {
-            utils::swap(l, h);
-         }
-
-         CRNLIB_ASSERT(l > h);
-
-         uint values[cDXT5SelectorValues];
-         dxt5_block::get_block_values8(values, l, h);
-
-         uint total_error = 0;
-
-         for (uint j = 0; j < m_pParams->m_num_pixels; j++)
-         {
-            int p = m_pParams->m_pPixels[j][m_pParams->m_alpha_comp_index];
-            int c = values[m_pParams->m_pSelectors[j]];
-
-            int error = p - c;
-            error *= error;
-
-            total_error += error;
-
-            if (total_error > m_pResults->m_error)
-               break;
-         }
-
-         if (total_error < m_pResults->m_error)
-         {
-            m_pResults->m_error = total_error;
-            m_pResults->m_low_color = static_cast<uint16>(l);
-            m_pResults->m_high_color = static_cast<uint16>(h);
-
-            if (m_pResults->m_error == 0)
-               return;
-         }
-      }
-   }
-
-   void dxt_endpoint_refiner::optimize_dxt1(vec3F low_color, vec3F high_color)
-   {
-      uint selector_hist[4];
-      utils::zero_object(selector_hist);
-      for (uint i = 0; i < m_pParams->m_num_pixels; i++)
-         selector_hist[m_pParams->m_pSelectors[i]]++;
-
-      dxt1_solution_coordinates c(low_color, high_color);
-
-      for (uint pass = 0; pass < 8; pass++)
-      {
-         const uint64 initial_error = m_pResults->m_error;
-
-         dxt1_solution_coordinates_vec coords_to_try;
-
-         coords_to_try.resize(0);
-
-         color_quad_u8 lc(dxt1_block::unpack_color(c.m_low_color, false));
-         color_quad_u8 hc(dxt1_block::unpack_color(c.m_high_color, false));
-
-         for (int i = 0; i < 27; i++)
-         {
-            if (13 == i) continue;
-
-            const int ir = (i % 3) - 1;
-            const int ig = ((i / 3) % 3) - 1;
-            const int ib = ((i / 9) % 3) - 1;
-
-            int r = lc.r + ir;
-            int g = lc.g + ig;
-            int b = lc.b + ib;
-            if ((r < 0) || (r > 31)|| (g < 0) || (g > 63) || (b < 0) || (b > 31)) continue;
-
-            coords_to_try.push_back(
-               dxt1_solution_coordinates(dxt1_block::pack_color(r, g, b, false), c.m_high_color)
-               );
-         }
-
-         for (int i = 0; i < 27; i++)
-         {
-            if (13 == i) continue;
-
-            const int ir = (i % 3) - 1;
-            const int ig = ((i / 3) % 3) - 1;
-            const int ib = ((i / 9) % 3) - 1;
-
-            int r = hc.r + ir;
-            int g = hc.g + ig;
-            int b = hc.b + ib;
-            if ((r < 0) || (r > 31)|| (g < 0) || (g > 63) || (b < 0) || (b > 31)) continue;
-
-            coords_to_try.push_back(dxt1_solution_coordinates(c.m_low_color, dxt1_block::pack_color(r, g, b, false)));
-         }
-
-         std::sort(coords_to_try.begin(), coords_to_try.end());
-
-         dxt1_solution_coordinates_vec::const_iterator p_last = std::unique(coords_to_try.begin(), coords_to_try.end());
-         uint num_coords_to_try = (uint)(p_last - coords_to_try.begin());
-
-         for (uint i = 0; i < num_coords_to_try; i++)
-         {
-            color_quad_u8 block_colors[4];
-            uint16 l = coords_to_try[i].m_low_color;
-            uint16 h = coords_to_try[i].m_high_color;
-            if (l < h)
-               utils::swap(l, h);
-            else if (l == h)
-            {
-               color_quad_u8 lc(dxt1_block::unpack_color(l, false));
-               color_quad_u8 hc(dxt1_block::unpack_color(h, false));
-
-               bool retry = false;
-               if ((selector_hist[0] + selector_hist[2]) > (selector_hist[1] + selector_hist[3]))
-               {
-                  // l affects the output more than h, so muck with h
-                  if (hc[2] != 0)
-                     hc[2]--;
-                  else if (hc[0] != 0)
-                     hc[0]--;
-                  else if (hc[1] != 0)
-                     hc[1]--;
-                  else
-                     retry = true;
-               }
-               else
-               {
-                  // h affects the output more than l, so muck with l
-                  if (lc[2] != 31)
-                     lc[2]++;
-                  else if (lc[0] != 31)
-                     lc[0]++;
-                  else if (lc[1] != 63)
-                     lc[1]++;
-                  else
-                     retry = true;
-               }
-
-               if (retry)
-               {
-                  if (l == 0)
-                     l++;
-                  else
-                     h--;
-               }
-               else
-               {
-                  l = dxt1_block::pack_color(lc, false);
-                  h = dxt1_block::pack_color(hc, false);
-               }
-
-               CRNLIB_ASSERT(l > h);
-            }
-
-            dxt1_block::get_block_colors4(block_colors, l, h);
-
-            uint total_error = 0;
-
-            for (uint j = 0; j < m_pParams->m_num_pixels; j++)
-            {
-               const color_quad_u8& c = block_colors[m_pParams->m_pSelectors[j]];
-               total_error += color::color_distance(m_pParams->m_perceptual, c, m_pParams->m_pPixels[j], false);
-
-               if (total_error > m_pResults->m_error)
-                  break;
-            }
-
-            if (total_error < m_pResults->m_error)
-            {
-               m_pResults->m_error = total_error;
-               m_pResults->m_low_color = l;
-               m_pResults->m_high_color = h;
-               CRNLIB_ASSERT(l > h);
-               if (m_pResults->m_error == 0)
-                  return;
-            }
-         }
-
-         if (m_pResults->m_error == initial_error)
-            break;
-
-         c.m_low_color = m_pResults->m_low_color;
-         c.m_high_color = m_pResults->m_high_color;
-      }
-
-   }
-
-} // namespace crnlib
-
+}  // namespace crnlib

crnlib/crn_dxt_endpoint_refiner.h

@@ -3,60 +3,55 @@
 #pragma once
 #include "crn_dxt.h"
 
-namespace crnlib
-{
-   // TODO: Experimental/Not fully implemented
-   class dxt_endpoint_refiner
-   {
-   public:
-      dxt_endpoint_refiner();
+namespace crnlib {
+// TODO: Experimental/Not fully implemented
+class dxt_endpoint_refiner {
+ public:
+  dxt_endpoint_refiner();
 
-      struct params
-      {
-         params() :
-            m_block_index(0),
-            m_pPixels(NULL),
-            m_num_pixels(0),
-            m_pSelectors(NULL),
-            m_alpha_comp_index(0),
-            m_error_to_beat(cUINT64_MAX),
-            m_dxt1_selectors(true),
-            m_perceptual(true),
-            m_highest_quality(true)
-         {
-         }
+  struct params {
+    params()
+        : m_block_index(0),
+          m_pPixels(NULL),
+          m_num_pixels(0),
+          m_pSelectors(NULL),
+          m_alpha_comp_index(0),
+          m_error_to_beat(cUINT64_MAX),
+          m_dxt1_selectors(true),
+          m_perceptual(true),
+          m_highest_quality(true) {
+    }
 
-         uint                 m_block_index;
+    uint m_block_index;
 
-         const color_quad_u8* m_pPixels;
-         uint                 m_num_pixels;
+    const color_quad_u8* m_pPixels;
+    uint m_num_pixels;
 
-         const uint8*         m_pSelectors;
+    const uint8* m_pSelectors;
 
-         uint                 m_alpha_comp_index;
+    uint m_alpha_comp_index;
 
-         uint64               m_error_to_beat;
+    uint64 m_error_to_beat;
 
-         bool                 m_dxt1_selectors;
-         bool                 m_perceptual;
-         bool                 m_highest_quality;
-      };
+    bool m_dxt1_selectors;
+    bool m_perceptual;
+    bool m_highest_quality;
+  };
 
-      struct results
-      {
-         uint16   m_low_color;
-         uint16   m_high_color;
-         uint64   m_error;
-      };
+  struct results {
+    uint16 m_low_color;
+    uint16 m_high_color;
+    uint64 m_error;
+  };
 
-      bool refine(const params& p, results& r);
+  bool refine(const params& p, results& r);
 
-   private:
-      const params* m_pParams;
-      results* m_pResults;
+ private:
+  const params* m_pParams;
+  results* m_pResults;
 
-      void optimize_dxt1(vec3F low_color, vec3F high_color);
-      void optimize_dxt5(vec3F low_color, vec3F high_color);
-   };
+  void optimize_dxt1(vec3F low_color, vec3F high_color);
+  void optimize_dxt5(vec3F low_color, vec3F high_color);
+};
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_dxt_fast.h

@@ -4,18 +4,16 @@
 #include "crn_color.h"
 #include "crn_dxt.h"
 
-namespace crnlib
-{
-   namespace dxt_fast
-   {
-      void compress_color_block(uint n, const color_quad_u8* block, uint& low16, uint& high16, uint8* pSelectors, bool refine = false);
-      void compress_color_block(dxt1_block* pDXT1_block, const color_quad_u8* pBlock, bool refine = false);
-      
-      void compress_alpha_block(uint n, const color_quad_u8* block, uint& low8, uint& high8, uint8* pSelectors, uint comp_index);
-      void compress_alpha_block(dxt5_block* pDXT5_block, const color_quad_u8* pBlock, uint comp_index);
-      
-      void find_representative_colors(uint n, const color_quad_u8* pBlock, color_quad_u8& lo, color_quad_u8& hi);
-      
-   } // namespace dxt_fast
+namespace crnlib {
+namespace dxt_fast {
+void compress_color_block(uint n, const color_quad_u8* block, uint& low16, uint& high16, uint8* pSelectors, bool refine = false);
+void compress_color_block(dxt1_block* pDXT1_block, const color_quad_u8* pBlock, bool refine = false);
 
-} // namespace crnlib
+void compress_alpha_block(uint n, const color_quad_u8* block, uint& low8, uint& high8, uint8* pSelectors, uint comp_index);
+void compress_alpha_block(dxt5_block* pDXT5_block, const color_quad_u8* pBlock, uint comp_index);
+
+void find_representative_colors(uint n, const color_quad_u8* pBlock, color_quad_u8& lo, color_quad_u8& hi);
+
+}  // namespace dxt_fast
+
+}  // namespace crnlib

crnlib/crn_dxt_hc.h

@@ -14,426 +14,200 @@
 #define CRN_NO_FUNCTION_DEFINITIONS
 #include "../inc/crnlib.h"
 
-namespace crnlib
-{
-   const uint cTotalCompressionPhases = 25;
+namespace crnlib {
+const uint cTotalCompressionPhases = 25;
 
-   class dxt_hc
-   {
-   public:
-      dxt_hc();
-      ~dxt_hc();
+class dxt_hc {
+ public:
+  dxt_hc();
+  ~dxt_hc();
 
-      struct pixel_chunk
-      {
-         pixel_chunk() { clear(); }
-
-         dxt_pixel_block m_blocks[cChunkBlockHeight][cChunkBlockWidth];
-
-         const color_quad_u8& operator() (uint cx, uint cy) const
-         {
-            CRNLIB_ASSERT((cx < cChunkPixelWidth) && (cy < cChunkPixelHeight));
-
-            return m_blocks[cy >> cBlockPixelHeightShift][cx >> cBlockPixelWidthShift].m_pixels
-                           [cy & (cBlockPixelHeight - 1)][cx & (cBlockPixelWidth - 1)];
-         }
-
-         color_quad_u8& operator() (uint cx, uint cy)
-         {
-            CRNLIB_ASSERT((cx < cChunkPixelWidth) && (cy < cChunkPixelHeight));
-
-            return m_blocks[cy >> cBlockPixelHeightShift][cx >> cBlockPixelWidthShift].m_pixels
-                           [cy & (cBlockPixelHeight - 1)][cx & (cBlockPixelWidth - 1)];
-         }
-
-         inline void clear()
-         {
-            utils::zero_object(*this);
-            m_weight = 1.0f;
-         }
-
-         float m_weight;
+  struct endpoint_indices_details {
+    union {
+      struct {
+        uint16 color;
+        uint16 alpha0;
+        uint16 alpha1;
       };
+      uint16 component[3];
+    };
+    uint8 reference;
+    endpoint_indices_details() { utils::zero_object(*this); }
+  };
 
-      typedef crnlib::vector<pixel_chunk> pixel_chunk_vec;
-
-      struct params
-      {
-         params() :
-            m_color_endpoint_codebook_size(3072),
-            m_color_selector_codebook_size(3072),
-            m_alpha_endpoint_codebook_size(3072),
-            m_alpha_selector_codebook_size(3072),
-            m_adaptive_tile_color_psnr_derating(2.0f), // was 3.4f
-            m_adaptive_tile_alpha_psnr_derating(2.0f),
-            m_adaptive_tile_color_alpha_weighting_ratio(3.0f),
-            m_num_levels(0),
-            m_format(cDXT1),
-            m_hierarchical(true),
-            m_perceptual(true),
-            m_debugging(false),
-            m_pProgress_func(NULL),
-            m_pProgress_func_data(NULL)
-         {
-            m_alpha_component_indices[0] = 3;
-            m_alpha_component_indices[1] = 0;
-
-            for (uint i = 0; i < cCRNMaxLevels; i++)
-            {
-               m_levels[i].m_first_chunk = 0;
-               m_levels[i].m_num_chunks = 0;
-            }
-         }
-
-         // Valid range for codebook sizes: [32,8192] (non-power of two values are okay)
-         uint        m_color_endpoint_codebook_size;
-         uint        m_color_selector_codebook_size;
-
-         uint        m_alpha_endpoint_codebook_size;
-         uint        m_alpha_selector_codebook_size;
-
-         // Higher values cause fewer 8x4, 4x8, and 4x4 blocks to be utilized less often (lower quality/smaller files).
-         // Lower values cause the encoder to use large tiles less often (better quality/larger files).
-         // Valid range: [0.0,100.0].
-         // A value of 0 will cause the encoder to only use tiles larger than 4x4 if doing so would incur to quality loss.
-         float       m_adaptive_tile_color_psnr_derating;
-
-         float       m_adaptive_tile_alpha_psnr_derating;
-
-         float       m_adaptive_tile_color_alpha_weighting_ratio;
-
-         uint        m_alpha_component_indices[2];
-
-         struct miplevel_desc
-         {
-            uint m_first_chunk;
-            uint m_num_chunks;
-         };
-         // The mip level data is optional!
-         miplevel_desc m_levels[cCRNMaxLevels];
-         uint        m_num_levels;
-
-         dxt_format  m_format;
-
-         // If m_hierarchical is false, only 4x4 blocks will be used by the encoder (leading to higher quality/larger files).
-         bool        m_hierarchical;
-
-         // If m_perceptual is true, perceptual color metrics will be used by the encoder.
-         bool        m_perceptual;
-
-         bool        m_debugging;
-
-         crn_progress_callback_func m_pProgress_func;
-         void*       m_pProgress_func_data;
+  struct selector_indices_details {
+    union {
+      struct {
+        uint16 color;
+        uint16 alpha0;
+        uint16 alpha1;
       };
-
-      void clear();
-
-      // Main compression function
-      bool compress(const params& p, uint num_chunks, const pixel_chunk* pChunks, task_pool& task_pool);
-
-      // Output accessors
-      inline uint get_num_chunks() const { return m_num_chunks; }
-
-      struct chunk_encoding
-      {
-         chunk_encoding() { utils::zero_object(*this); };
-
-         // Index into g_chunk_encodings.
-         uint8 m_encoding_index;
-
-         // Number of tiles, endpoint indices.
-         uint8 m_num_tiles;
-
-         // Color, alpha0, alpha1
-         enum { cColorIndex = 0, cAlpha0Index = 1, cAlpha1Index = 2 };
-         uint16 m_endpoint_indices[3][cChunkMaxTiles];
-         uint16 m_selector_indices[3][cChunkBlockHeight][cChunkBlockWidth];   // [block_y][block_x]
-      };
-
-      typedef crnlib::vector<chunk_encoding> chunk_encoding_vec;
-
-      inline const chunk_encoding& get_chunk_encoding(uint chunk_index) const { return m_chunk_encoding[chunk_index]; }
-      inline const chunk_encoding_vec& get_chunk_encoding_vec() const { return m_chunk_encoding; }
-
-      struct selectors
-      {
-         selectors() { utils::zero_object(*this); }
-
-         uint8 m_selectors[cBlockPixelHeight][cBlockPixelWidth];
-
-         uint8 get_by_index(uint i) const { CRNLIB_ASSERT(i < (cBlockPixelWidth * cBlockPixelHeight)); const uint8* p = (const uint8*)m_selectors; return *(p + i); }
-         void set_by_index(uint i, uint v) { CRNLIB_ASSERT(i < (cBlockPixelWidth * cBlockPixelHeight)); uint8* p = (uint8*)m_selectors; *(p + i) = static_cast<uint8>(v); }
-      };
-      typedef crnlib::vector<selectors> selectors_vec;
-
-      // Color endpoints
-      inline uint get_color_endpoint_codebook_size() const { return m_color_endpoints.size(); }
-      inline uint get_color_endpoint(uint codebook_index) const { return m_color_endpoints[codebook_index]; }
-      const crnlib::vector<uint>& get_color_endpoint_vec() const { return m_color_endpoints; }
-
-      // Color selectors
-      uint get_color_selector_codebook_size() const { return m_color_selectors.size(); }
-      const selectors& get_color_selectors(uint codebook_index) const { return m_color_selectors[codebook_index]; }
-      const crnlib::vector<selectors>& get_color_selectors_vec() const { return m_color_selectors; }
-
-      // Alpha endpoints
-      inline uint get_alpha_endpoint_codebook_size() const { return m_alpha_endpoints.size(); }
-      inline uint get_alpha_endpoint(uint codebook_index) const { return m_alpha_endpoints[codebook_index]; }
-      const crnlib::vector<uint>& get_alpha_endpoint_vec() const { return m_alpha_endpoints; }
-
-      // Alpha selectors
-      uint get_alpha_selector_codebook_size() const { return m_alpha_selectors.size(); }
-      const selectors& get_alpha_selectors(uint codebook_index) const { return m_alpha_selectors[codebook_index]; }
-      const crnlib::vector<selectors>& get_alpha_selectors_vec() const { return m_alpha_selectors; }
-
-      // Debug images
-      const pixel_chunk_vec& get_compressed_chunk_pixels() const { return m_dbg_chunk_pixels; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_tile_vis() const { return m_dbg_chunk_pixels_tile_vis; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_color_quantized() const { return m_dbg_chunk_pixels_color_quantized; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_alpha_quantized() const { return m_dbg_chunk_pixels_alpha_quantized; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_final() const { return m_dbg_chunk_pixels_final; }
-
-      const pixel_chunk_vec& get_compressed_chunk_pixels_orig_color_selectors() const { return m_dbg_chunk_pixels_orig_color_selectors; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_quantized_color_selectors() const { return m_dbg_chunk_pixels_quantized_color_selectors; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_final_color_selectors() const { return m_dbg_chunk_pixels_final_color_selectors; }
-
-      const pixel_chunk_vec& get_compressed_chunk_pixels_orig_alpha_selectors() const { return m_dbg_chunk_pixels_orig_alpha_selectors; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_quantized_alpha_selectors() const { return m_dbg_chunk_pixels_quantized_alpha_selectors; }
-      const pixel_chunk_vec& get_compressed_chunk_pixels_final_alpha_selectors() const { return m_dbg_chunk_pixels_final_alpha_selectors; }
-
-      static void create_debug_image_from_chunks(uint num_chunks_x, uint num_chunks_y, const pixel_chunk_vec& chunks, const chunk_encoding_vec *pChunk_encodings, image_u8& img, bool serpentine_scan, int comp_index = -1);
-
-   private:
-      params               m_params;
-
-      uint                 m_num_chunks;
-      const pixel_chunk*   m_pChunks;
-
-      chunk_encoding_vec   m_chunk_encoding;
-
-      uint                 m_num_alpha_blocks; // 0, 1, or 2
-      bool                 m_has_color_blocks;
-      bool                 m_has_alpha0_blocks;
-      bool                 m_has_alpha1_blocks;
-
-      struct compressed_tile
-      {
-         uint m_endpoint_cluster_index;
-         uint m_first_endpoint;
-         uint m_second_endpoint;
-
-         uint8 m_selectors[cChunkPixelWidth * cChunkPixelHeight];
-
-         void set_selector(uint x, uint y, uint s)
-         {
-            CRNLIB_ASSERT((x < m_pixel_width) && (y < m_pixel_height));
-            m_selectors[x + y * m_pixel_width] = static_cast<uint8>(s);
-         }
-
-         uint get_selector(uint x, uint y) const
-         {
-            CRNLIB_ASSERT((x < m_pixel_width) && (y < m_pixel_height));
-            return m_selectors[x + y * m_pixel_width];
-         }
-
-         uint8 m_pixel_width;
-         uint8 m_pixel_height;
-
-         uint8 m_layout_index;
-
-         bool m_alpha_encoding;
-      };
-
-      struct compressed_chunk
-      {
-         compressed_chunk() { utils::zero_object(*this); }
-
-         uint8 m_encoding_index;
-
-         uint8 m_num_tiles;
-
-         compressed_tile m_tiles[cChunkMaxTiles];
-         compressed_tile m_quantized_tiles[cChunkMaxTiles];
-
-         uint16 m_endpoint_cluster_index[cChunkMaxTiles];
-         uint16 m_selector_cluster_index[cChunkBlockHeight][cChunkBlockWidth];
-      };
-
-      typedef crnlib::vector<compressed_chunk> compressed_chunk_vec;
-      enum
-      {
-         cColorChunks = 0,
-         cAlpha0Chunks = 1,
-         cAlpha1Chunks = 2,
-
-         cNumCompressedChunkVecs = 3
-      };
-      compressed_chunk_vec m_compressed_chunks[cNumCompressedChunkVecs];
-
-      volatile atomic32_t m_encoding_hist[cNumChunkEncodings];
-
-      atomic32_t m_total_tiles;
-
-      void compress_dxt1_block(
-         dxt1_endpoint_optimizer::results& results,
-         uint chunk_index, const image_u8& chunk, uint x_ofs, uint y_ofs, uint width, uint height,
-         uint8* pSelectors);
-
-      void compress_dxt5_block(
-         dxt5_endpoint_optimizer::results& results,
-         uint chunk_index, const image_u8& chunk, uint x_ofs, uint y_ofs, uint width, uint height, uint component_index,
-         uint8* pAlpha_selectors);
-
-      void determine_compressed_chunks_task(uint64 data, void* pData_ptr);
-      bool determine_compressed_chunks();
-
-      struct tile_cluster
-      {
-         tile_cluster() : m_first_endpoint(0), m_second_endpoint(0), m_error(0), m_alpha_encoding(false) { }
-
-         // first = chunk, second = tile
-         // if an alpha tile, second's upper 16 bits contains the alpha index (0 or 1)
-         crnlib::vector< std::pair<uint, uint> > m_tiles;
-
-         uint m_first_endpoint;
-         uint m_second_endpoint;
-         uint64 m_error;
-
-         bool m_alpha_encoding;
-      };
-
-      typedef crnlib::vector<tile_cluster> tile_cluster_vec;
-
-      tile_cluster_vec m_color_clusters;
-      tile_cluster_vec m_alpha_clusters;
-
-      selectors_vec m_color_selectors;
-      selectors_vec m_alpha_selectors;
-
-      // For each selector, this array indicates every chunk/tile/tile block that use this color selector.
-      struct block_id
-      {
-         block_id() { utils::zero_object(*this); }
-
-         block_id(uint chunk_index, uint alpha_index, uint tile_index, uint block_x, uint block_y) :
-            m_chunk_index(chunk_index), m_alpha_index((uint8)alpha_index), m_tile_index((uint8)tile_index), m_block_x((uint8)block_x), m_block_y((uint8)block_y) { }
-
-         uint m_chunk_index;
-         uint8 m_alpha_index;
-         uint8 m_tile_index;
-         uint8 m_block_x;
-         uint8 m_block_y;
-      };
-
-      typedef crnlib::vector< crnlib::vector< block_id > > chunk_blocks_using_selectors_vec;
-      chunk_blocks_using_selectors_vec m_chunk_blocks_using_color_selectors;
-      chunk_blocks_using_selectors_vec m_chunk_blocks_using_alpha_selectors; // second's upper 16 bits contain alpha index!
-
-      crnlib::vector<uint> m_color_endpoints;   // not valid until end, only for user access
-      crnlib::vector<uint> m_alpha_endpoints;   // not valid until end, only for user access
-
-      // Debugging
-      pixel_chunk_vec m_dbg_chunk_pixels;
-      pixel_chunk_vec m_dbg_chunk_pixels_tile_vis;
-      pixel_chunk_vec m_dbg_chunk_pixels_color_quantized;
-      pixel_chunk_vec m_dbg_chunk_pixels_alpha_quantized;
-
-      pixel_chunk_vec m_dbg_chunk_pixels_orig_color_selectors;
-      pixel_chunk_vec m_dbg_chunk_pixels_quantized_color_selectors;
-      pixel_chunk_vec m_dbg_chunk_pixels_final_color_selectors;
-
-      pixel_chunk_vec m_dbg_chunk_pixels_orig_alpha_selectors;
-      pixel_chunk_vec m_dbg_chunk_pixels_quantized_alpha_selectors;
-      pixel_chunk_vec m_dbg_chunk_pixels_final_alpha_selectors;
-
-      pixel_chunk_vec m_dbg_chunk_pixels_final;
-
-      crn_thread_id_t m_main_thread_id;
-      bool m_canceled;
-      task_pool* m_pTask_pool;
-
-      int m_prev_phase_index;
-      int m_prev_percentage_complete;
-
-      typedef vec<6, float> vec6F;
-      typedef vec<16, float> vec16F;
-      typedef tree_clusterizer<vec2F> vec2F_tree_vq;
-      typedef tree_clusterizer<vec6F> vec6F_tree_vq;
-      typedef tree_clusterizer<vec16F> vec16F_tree_vq;
-
-      struct assign_color_endpoint_clusters_state
-      {
-         CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(assign_color_endpoint_clusters_state);
-
-         assign_color_endpoint_clusters_state(vec6F_tree_vq& vq, crnlib::vector< crnlib::vector<vec6F> >& training_vecs) :
-            m_vq(vq), m_training_vecs(training_vecs) { }
-
-         vec6F_tree_vq& m_vq;
-         crnlib::vector< crnlib::vector<vec6F> >& m_training_vecs;
-      };
-
-      struct create_selector_codebook_state
-      {
-         CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(create_selector_codebook_state);
-
-         create_selector_codebook_state(dxt_hc& hc, bool alpha_blocks, uint comp_index_start, uint comp_index_end, vec16F_tree_vq& selector_vq, chunk_blocks_using_selectors_vec& chunk_blocks_using_selectors, selectors_vec& selectors_cb) :
-            m_hc(hc),
-            m_alpha_blocks(alpha_blocks),
-            m_comp_index_start(comp_index_start),
-            m_comp_index_end(comp_index_end),
-            m_selector_vq(selector_vq),
-            m_chunk_blocks_using_selectors(chunk_blocks_using_selectors),
-            m_selectors_cb(selectors_cb)
-         {
-         }
-
-         dxt_hc&                             m_hc;
-         bool                                m_alpha_blocks;
-         uint                                m_comp_index_start;
-         uint                                m_comp_index_end;
-         vec16F_tree_vq&                     m_selector_vq;
-         chunk_blocks_using_selectors_vec&   m_chunk_blocks_using_selectors;
-         selectors_vec&                      m_selectors_cb;
-
-         mutable spinlock                    m_chunk_blocks_using_selectors_lock;
-      };
-
-      void assign_color_endpoint_clusters_task(uint64 data, void* pData_ptr);
-      bool determine_color_endpoint_clusters();
-
-      struct determine_alpha_endpoint_clusters_state
-      {
-         vec2F_tree_vq m_vq;
-         crnlib::vector< crnlib::vector<vec2F> > m_training_vecs[2];
-      };
-
-      void determine_alpha_endpoint_clusters_task(uint64 data, void* pData_ptr);
-      bool determine_alpha_endpoint_clusters();
-
-      void determine_color_endpoint_codebook_task(uint64 data, void* pData_ptr);
-      bool determine_color_endpoint_codebook();
-
-      void determine_alpha_endpoint_codebook_task(uint64 data, void* pData_ptr);
-      bool determine_alpha_endpoint_codebook();
-
-      void create_quantized_debug_images();
-
-      void create_selector_codebook_task(uint64 data, void* pData_ptr);
-      bool create_selector_codebook(bool alpha_blocks);
-
-      bool refine_quantized_color_endpoints();
-      bool refine_quantized_color_selectors();
-      bool refine_quantized_alpha_endpoints();
-      bool refine_quantized_alpha_selectors();
-      void create_final_debug_image();
-      bool create_chunk_encodings();
-      bool update_progress(uint phase_index, uint subphase_index, uint subphase_total);
-      bool compress_internal(const params& p, uint num_chunks, const pixel_chunk* pChunks);
-   };
-
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt_hc::pixel_chunk);
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt_hc::chunk_encoding);
-   CRNLIB_DEFINE_BITWISE_COPYABLE(dxt_hc::selectors);
-
-} // namespace crnlib
+      uint16 component[3];
+    };
+    selector_indices_details() { utils::zero_object(*this); }
+  };
+
+  struct tile_details {
+    crnlib::vector<color_quad_u8> pixels;
+    float weight;
+    vec<6, float> color_endpoint;
+    vec<2, float> alpha_endpoints[2];
+    uint16 cluster_indices[3];
+  };
+  crnlib::vector<tile_details> m_tiles;
+  uint m_num_tiles;
+  float m_color_derating[cCRNMaxLevels][8];
+  float m_alpha_derating[8];
+  float m_uint8_to_float[256];
+
+  color_quad_u8 (*m_blocks)[16];
+  uint m_num_blocks;
+  crnlib::vector<float> m_block_weights;
+  crnlib::vector<uint8> m_block_encodings;
+  crnlib::vector<uint64> m_block_selectors[3];
+  crnlib::vector<uint32> m_color_selectors;
+  crnlib::vector<uint64> m_alpha_selectors;
+  crnlib::vector<bool> m_color_selectors_used;
+  crnlib::vector<bool> m_alpha_selectors_used;
+  crnlib::vector<uint> m_tile_indices;
+  crnlib::vector<endpoint_indices_details> m_endpoint_indices;
+  crnlib::vector<selector_indices_details> m_selector_indices;
+
+  struct params {
+    params()
+        : m_num_blocks(0),
+          m_num_levels(0),
+          m_num_faces(0),
+          m_format(cDXT1),
+          m_perceptual(true),
+          m_hierarchical(true),
+          m_color_endpoint_codebook_size(3072),
+          m_color_selector_codebook_size(3072),
+          m_alpha_endpoint_codebook_size(3072),
+          m_alpha_selector_codebook_size(3072),
+          m_adaptive_tile_color_psnr_derating(2.0f),
+          m_adaptive_tile_alpha_psnr_derating(2.0f),
+          m_adaptive_tile_color_alpha_weighting_ratio(3.0f),
+          m_debugging(false),
+          m_pProgress_func(0),
+          m_pProgress_func_data(0) {
+      m_alpha_component_indices[0] = 3;
+      m_alpha_component_indices[1] = 0;
+      for (uint i = 0; i < cCRNMaxLevels; i++) {
+        m_levels[i].m_first_block = 0;
+        m_levels[i].m_num_blocks = 0;
+        m_levels[i].m_block_width = 0;
+      }
+    }
+
+    uint m_num_blocks;
+    uint m_num_levels;
+    uint m_num_faces;
+
+    struct {
+      uint m_first_block;
+      uint m_num_blocks;
+      uint m_block_width;
+      float m_weight;
+    } m_levels[cCRNMaxLevels];
+
+    dxt_format m_format;
+    bool m_perceptual;
+    bool m_hierarchical;
+
+    uint m_color_endpoint_codebook_size;
+    uint m_color_selector_codebook_size;
+    uint m_alpha_endpoint_codebook_size;
+    uint m_alpha_selector_codebook_size;
+
+    float m_adaptive_tile_color_psnr_derating;
+    float m_adaptive_tile_alpha_psnr_derating;
+    float m_adaptive_tile_color_alpha_weighting_ratio;
+    uint m_alpha_component_indices[2];
+
+    task_pool* m_pTask_pool;
+    bool m_debugging;
+    crn_progress_callback_func m_pProgress_func;
+    void* m_pProgress_func_data;
+  };
+
+  void clear();
+  bool compress(
+    color_quad_u8 (*blocks)[16],
+    crnlib::vector<endpoint_indices_details>& endpoint_indices,
+    crnlib::vector<selector_indices_details>& selector_indices,
+    crnlib::vector<uint32>& color_endpoints,
+    crnlib::vector<uint32>& alpha_endpoints,
+    crnlib::vector<uint32>& color_selectors,
+    crnlib::vector<uint64>& alpha_selectors,
+    const params& p
+  );
+
+ private:
+  params m_params;
+
+  uint m_num_alpha_blocks;
+  bool m_has_color_blocks;
+  bool m_has_etc_color_blocks;
+  bool m_has_subblocks;
+
+  enum {
+    cColor = 0,
+    cAlpha0 = 1,
+    cAlpha1 = 2,
+    cNumComps = 3
+  };
+
+  struct color_cluster {
+    color_cluster() : first_endpoint(0), second_endpoint(0) {}
+    crnlib::vector<uint> blocks[3];
+    crnlib::vector<color_quad_u8> pixels;
+    uint first_endpoint;
+    uint second_endpoint;
+    color_quad_u8 color_values[4];
+  };
+  crnlib::vector<color_cluster> m_color_clusters;
+
+  struct alpha_cluster {
+    alpha_cluster() : first_endpoint(0), second_endpoint(0) {}
+    crnlib::vector<uint> blocks[3];
+    crnlib::vector<color_quad_u8> pixels;
+    uint first_endpoint;
+    uint second_endpoint;
+    uint alpha_values[8];
+    bool refined_alpha;
+    uint refined_alpha_values[8];
+  };
+  crnlib::vector<alpha_cluster> m_alpha_clusters;
+
+  crn_thread_id_t m_main_thread_id;
+  bool m_canceled;
+  task_pool* m_pTask_pool;
+
+  int m_prev_phase_index;
+  int m_prev_percentage_complete;
+
+  vec<6, float> palettize_color(color_quad_u8* pixels, uint pixels_count);
+  vec<2, float> palettize_alpha(color_quad_u8* pixels, uint pixels_count, uint comp_index);
+  void determine_tiles_task(uint64 data, void* pData_ptr);
+  void determine_tiles_task_etc(uint64 data, void* pData_ptr);
+
+  void determine_color_endpoint_codebook_task(uint64 data, void* pData_ptr);
+  void determine_color_endpoint_codebook_task_etc(uint64 data, void* pData_ptr);
+  void determine_color_endpoint_clusters_task(uint64 data, void* pData_ptr);
+  void determine_color_endpoints();
+
+  void determine_alpha_endpoint_codebook_task(uint64 data, void* pData_ptr);
+  void determine_alpha_endpoint_clusters_task(uint64 data, void* pData_ptr);
+  void determine_alpha_endpoints();
+
+  void create_color_selector_codebook_task(uint64 data, void* pData_ptr);
+  void create_color_selector_codebook();
+
+  void create_alpha_selector_codebook_task(uint64 data, void* pData_ptr);
+  void create_alpha_selector_codebook();
+
+  bool update_progress(uint phase_index, uint subphase_index, uint subphase_total);
+};
+
+}  // namespace crnlib

crnlib/crn_dxt_hc_common.cpp

@@ -3,45 +3,39 @@
 #include "crn_core.h"
 #include "crn_dxt_hc_common.h"
 
-namespace crnlib
-{
-   chunk_encoding_desc g_chunk_encodings[cNumChunkEncodings] =
-   {
-      { 1, { { 0, 0, 8, 8, 0 } } },
+namespace crnlib {
+chunk_encoding_desc g_chunk_encodings[cNumChunkEncodings] =
+    {
+        {1, {{0, 0, 8, 8, 0}}},
 
-      { 2, { { 0, 0, 8, 4, 1 }, { 0, 4, 8, 4, 2 } } },
-      { 2, { { 0, 0, 4, 8, 3 }, { 4, 0, 4, 8, 4 } } },
+        {2, {{0, 0, 8, 4, 1}, {0, 4, 8, 4, 2}}},
+        {2, {{0, 0, 4, 8, 3}, {4, 0, 4, 8, 4}}},
 
-      { 3, { { 0, 0, 8, 4, 1 }, { 0, 4, 4, 4, 7 }, { 4, 4, 4, 4, 8 } } },
-      { 3, { { 0, 4, 8, 4, 2 }, { 0, 0, 4, 4, 5 }, { 4, 0, 4, 4, 6 } } },
+        {3, {{0, 0, 8, 4, 1}, {0, 4, 4, 4, 7}, {4, 4, 4, 4, 8}}},
+        {3, {{0, 4, 8, 4, 2}, {0, 0, 4, 4, 5}, {4, 0, 4, 4, 6}}},
 
-      { 3, { { 0, 0, 4, 8, 3 }, { 4, 0, 4, 4, 6 }, { 4, 4, 4, 4, 8 } } },
-      { 3, { { 4, 0, 4, 8, 4 }, { 0, 0, 4, 4, 5 }, { 0, 4, 4, 4, 7 } } },
+        {3, {{0, 0, 4, 8, 3}, {4, 0, 4, 4, 6}, {4, 4, 4, 4, 8}}},
+        {3, {{4, 0, 4, 8, 4}, {0, 0, 4, 4, 5}, {0, 4, 4, 4, 7}}},
 
-      { 4, { { 0, 0, 4, 4, 5 }, { 4, 0, 4, 4, 6 }, { 0, 4, 4, 4, 7 }, { 4, 4, 4, 4, 8 } } }
-   };
+        {4, {{0, 0, 4, 4, 5}, {4, 0, 4, 4, 6}, {0, 4, 4, 4, 7}, {4, 4, 4, 4, 8}}}};
 
-   chunk_tile_desc g_chunk_tile_layouts[cNumChunkTileLayouts] = 
-   {
-      // 2x2
-      { 0, 0, 8, 8, 0 },
+chunk_tile_desc g_chunk_tile_layouts[cNumChunkTileLayouts] =
+    {
+        // 2x2
+        {0, 0, 8, 8, 0},
 
-      // 2x1
-      { 0, 0, 8, 4, 1 }, 
-      { 0, 4, 8, 4, 2 },
-
-      // 1x2
-      { 0, 0, 4, 8, 3 },
-      { 4, 0, 4, 8, 4 },
-
-      // 1x1
-      { 0, 0, 4, 4, 5 }, 
-      { 4, 0, 4, 4, 6 },
-      { 0, 4, 4, 4, 7 }, 
-      { 4, 4, 4, 4, 8 } 
-   };
-   
-} // namespace crnlib
+        // 2x1
+        {0, 0, 8, 4, 1},
+        {0, 4, 8, 4, 2},
 
+        // 1x2
+        {0, 0, 4, 8, 3},
+        {4, 0, 4, 8, 4},
 
+        // 1x1
+        {0, 0, 4, 4, 5},
+        {4, 0, 4, 4, 6},
+        {0, 4, 4, 4, 7},
+        {4, 4, 4, 4, 8}};
 
+}  // namespace crnlib

crnlib/crn_dxt_hc_common.h

@@ -2,42 +2,39 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   struct chunk_tile_desc
-   {
-      // These values are in pixels, and always a multiple of cBlockPixelWidth/cBlockPixelHeight.
-      uint m_x_ofs;
-      uint m_y_ofs;
-      uint m_width;
-      uint m_height;
-      uint m_layout_index;
-   };
+namespace crnlib {
+struct chunk_tile_desc {
+  // These values are in pixels, and always a multiple of cBlockPixelWidth/cBlockPixelHeight.
+  uint m_x_ofs;
+  uint m_y_ofs;
+  uint m_width;
+  uint m_height;
+  uint m_layout_index;
+};
 
-   struct chunk_encoding_desc
-   {
-      uint m_num_tiles;
-      chunk_tile_desc m_tiles[4];
-   };
+struct chunk_encoding_desc {
+  uint m_num_tiles;
+  chunk_tile_desc m_tiles[4];
+};
 
-   const uint cChunkPixelWidth = 8;
-   const uint cChunkPixelHeight = 8;
-   const uint cChunkBlockWidth = 2;
-   const uint cChunkBlockHeight = 2;
+const uint cChunkPixelWidth = 8;
+const uint cChunkPixelHeight = 8;
+const uint cChunkBlockWidth = 2;
+const uint cChunkBlockHeight = 2;
 
-   const uint cChunkMaxTiles = 4;
+const uint cChunkMaxTiles = 4;
 
-   const uint cBlockPixelWidthShift = 2;
-   const uint cBlockPixelHeightShift = 2;
+const uint cBlockPixelWidthShift = 2;
+const uint cBlockPixelHeightShift = 2;
 
-   const uint cBlockPixelWidth = 4;
-   const uint cBlockPixelHeight = 4;
+const uint cBlockPixelWidth = 4;
+const uint cBlockPixelHeight = 4;
 
-   const uint cNumChunkEncodings = 8;
-   extern chunk_encoding_desc g_chunk_encodings[cNumChunkEncodings];
+const uint cNumChunkEncodings = 8;
+extern chunk_encoding_desc g_chunk_encodings[cNumChunkEncodings];
 
-   const uint cNumChunkTileLayouts = 9;
-   const uint cFirst4x4ChunkTileLayout = 5;
-   extern chunk_tile_desc g_chunk_tile_layouts[cNumChunkTileLayouts];
- 
-} // namespace crnlib
+const uint cNumChunkTileLayouts = 9;
+const uint cFirst4x4ChunkTileLayout = 5;
+extern chunk_tile_desc g_chunk_tile_layouts[cNumChunkTileLayouts];
+
+}  // namespace crnlib

crnlib/crn_dxt_image.h

@@ -11,238 +11,246 @@
 
 #define CRNLIB_SUPPORT_ATI_COMPRESS 0
 
-namespace crnlib
-{
-   class task_pool;
+namespace crnlib {
+class task_pool;
 
-   class dxt_image
-   {
-   public:
-      dxt_image();
-      dxt_image(const dxt_image& other);
-      dxt_image& operator= (const dxt_image& rhs);
-         
-      void clear();
+class dxt_image {
+ public:
+  dxt_image();
+  dxt_image(const dxt_image& other);
+  dxt_image& operator=(const dxt_image& rhs);
 
-      inline bool is_valid() const { return m_blocks_x > 0; }
-      
-      uint get_width() const { return m_width; }
-      uint get_height() const { return m_height; }
-      
-      uint get_blocks_x() const { return m_blocks_x; }
-      uint get_blocks_y() const { return m_blocks_y; }
-      uint get_total_blocks() const { return m_blocks_x * m_blocks_y; }
-      
-      uint get_elements_per_block() const { return m_num_elements_per_block; }
-      uint get_bytes_per_block() const { return m_bytes_per_block; }
-      
-      dxt_format get_format() const { return m_format; }
-      
-      bool has_color() const { return (m_format == cDXT1) || (m_format == cDXT1A) || (m_format == cDXT3) || (m_format == cDXT5) || (m_format == cETC1); }
-      
-      // Will be pretty slow if the image is DXT1, as this method scans for alpha blocks/selectors.
-      bool has_alpha() const;
-            
-      enum element_type
-      { 
-         cUnused = 0,
-         
-         cColorDXT1,    // DXT1 color block
-         
-         cAlphaDXT3,    // DXT3 alpha block (only)
-         cAlphaDXT5,    // DXT5 alpha block (only)
+  void clear();
 
-         cColorETC1,    // ETC1 color block
-      };
-      
-      element_type get_element_type(uint element_index) const { CRNLIB_ASSERT(element_index < m_num_elements_per_block); return m_element_type[element_index]; }
-            
-      //Returns -1 for RGB, or [0,3]
-      int8 get_element_component_index(uint element_index) const { CRNLIB_ASSERT(element_index < m_num_elements_per_block); return m_element_component_index[element_index]; }
-      
-      struct element
-      {
-         uint8 m_bytes[8];
-         
-         uint get_le_word(uint index) const { CRNLIB_ASSERT(index < 4); return m_bytes[index*2] | (m_bytes[index * 2 + 1] << 8); }
-         uint get_be_word(uint index) const { CRNLIB_ASSERT(index < 4); return m_bytes[index*2 + 1] | (m_bytes[index * 2] << 8); }
-         
-         void set_le_word(uint index, uint val) { CRNLIB_ASSERT((index < 4) && (val <= cUINT16_MAX)); m_bytes[index*2] = static_cast<uint8>(val & 0xFF); m_bytes[index * 2 + 1] = static_cast<uint8>((val >> 8) & 0xFF); }
-         void set_be_word(uint index, uint val) { CRNLIB_ASSERT((index < 4) && (val <= cUINT16_MAX)); m_bytes[index*2+1] = static_cast<uint8>(val & 0xFF); m_bytes[index * 2] = static_cast<uint8>((val >> 8) & 0xFF); }
-         
-         void clear()
-         {
-            memset(this, 0, sizeof(*this));
-         }
-      };
-      
-      typedef crnlib::vector<element> element_vec;
-                  
-      bool init(dxt_format fmt, uint width, uint height, bool clear_elements);
-      bool init(dxt_format fmt, uint width, uint height, uint num_elements, element* pElements, bool create_copy);
-      
-      struct pack_params
-      {
-         pack_params()
-         {
-            clear();
-         }
+  inline bool is_valid() const { return m_blocks_x > 0; }
 
-         void clear()
-         {
-            m_quality = cCRNDXTQualityUber;
-            m_perceptual = true;
-            m_dithering = false;
-            m_grayscale_sampling = false;
-            m_use_both_block_types = true;
-            m_endpoint_caching = true;
-            m_compressor = cCRNDXTCompressorCRN;
-            m_pProgress_callback = NULL;
-            m_pProgress_callback_user_data_ptr = NULL;
-            m_dxt1a_alpha_threshold = 128;
-            m_num_helper_threads = 0;
-            m_progress_start = 0;
-            m_progress_range = 100;
-            m_use_transparent_indices_for_black = false;
-            m_pTask_pool = NULL;
-            m_color_weights[0] = 1;
-            m_color_weights[1] = 1;
-            m_color_weights[2] = 1;
-         }
+  uint get_width() const { return m_width; }
+  uint get_height() const { return m_height; }
 
-         void init(const crn_comp_params &params)
-         {
-            m_perceptual = (params.m_flags & cCRNCompFlagPerceptual) != 0;
-            m_num_helper_threads = params.m_num_helper_threads;
-            m_use_both_block_types = (params.m_flags & cCRNCompFlagUseBothBlockTypes) != 0;
-            m_use_transparent_indices_for_black = (params.m_flags & cCRNCompFlagUseTransparentIndicesForBlack) != 0;
-            m_dxt1a_alpha_threshold = params.m_dxt1a_alpha_threshold;
-            m_quality = params.m_dxt_quality;
-            m_endpoint_caching = (params.m_flags & cCRNCompFlagDisableEndpointCaching) == 0;
-            m_grayscale_sampling = (params.m_flags & cCRNCompFlagGrayscaleSampling) != 0;
-            m_compressor = params.m_dxt_compressor_type;
-         }
-         
-         uint                    m_dxt1a_alpha_threshold;
-         
-         uint                    m_num_helper_threads;
-         
-         crn_dxt_quality         m_quality;
-         
-         crn_dxt_compressor_type m_compressor;
-                           
-         bool                    m_perceptual;
-         bool                    m_dithering;
-         bool                    m_grayscale_sampling;
-         bool                    m_use_both_block_types;
-         bool                    m_endpoint_caching;
-         bool                    m_use_transparent_indices_for_black;
-                                    
-         typedef bool (*progress_callback_func)(uint percentage_complete, void* pUser_data_ptr);
-         progress_callback_func  m_pProgress_callback;
-         void*                   m_pProgress_callback_user_data_ptr;
-         
-         uint                    m_progress_start;
-         uint                    m_progress_range;
+  uint get_blocks_x() const { return m_blocks_x; }
+  uint get_blocks_y() const { return m_blocks_y; }
+  uint get_total_blocks() const { return m_blocks_x * m_blocks_y; }
 
-         task_pool               *m_pTask_pool;
+  uint get_elements_per_block() const { return m_num_elements_per_block; }
+  uint get_bytes_per_block() const { return m_bytes_per_block; }
 
-         int                     m_color_weights[3];
-      };
-      
-      bool init(dxt_format fmt, const image_u8& img, const pack_params& p = dxt_image::pack_params());
-      
-      bool unpack(image_u8& img) const;
-      
-      void endian_swap();
-      
-      uint get_total_elements() const { return m_elements.size(); }
-                  
-      const element_vec& get_element_vec() const   { return m_elements; }
-            element_vec& get_element_vec()         { return m_elements; }
-                  
-      const element& get_element(uint block_x, uint block_y, uint element_index) const;
-            element& get_element(uint block_x, uint block_y, uint element_index);      
-            
-      const element* get_element_ptr() const { return m_pElements; } 
-            element* get_element_ptr()       { return m_pElements; } 
-      
-      uint get_size_in_bytes() const { return m_elements.size() * sizeof(element); }
-      uint get_row_pitch_in_bytes() const { return m_blocks_x * m_bytes_per_block; }
-            
-      color_quad_u8 get_pixel(uint x, uint y) const;
-      uint get_pixel_alpha(uint x, uint y, uint element_index) const;
-      
-      void set_pixel(uint x, uint y, const color_quad_u8& c, bool perceptual = true);
-      
-      // get_block_pixels() only sets those components stored in the image!
-      bool get_block_pixels(uint block_x, uint block_y, color_quad_u8* pPixels) const;
+  dxt_format get_format() const { return m_format; }
 
-      struct set_block_pixels_context
-      {
-         dxt1_endpoint_optimizer m_dxt1_optimizer;
-         dxt5_endpoint_optimizer m_dxt5_optimizer;
-         pack_etc1_block_context m_etc1_optimizer;
+  bool has_color() const { return (m_format == cDXT1) || (m_format == cDXT1A) || (m_format == cDXT3) || (m_format == cDXT5) || (m_format == cETC1) || (m_format == cETC2) || (m_format == cETC2A) || (m_format == cETC1S) || (m_format == cETC2AS); }
+
+  // Will be pretty slow if the image is DXT1, as this method scans for alpha blocks/selectors.
+  bool has_alpha() const;
+
+  enum element_type {
+    cUnused = 0,
+
+    cColorDXT1,  // DXT1 color block
+
+    cAlphaDXT3,  // DXT3 alpha block (only)
+    cAlphaDXT5,  // DXT5 alpha block (only)
+
+    cColorETC1,  // ETC1 color block
+    cColorETC2,  // ETC2 color block
+
+    cAlphaETC2,  // ETC2 alpha block (only)
+  };
+
+  element_type get_element_type(uint element_index) const {
+    CRNLIB_ASSERT(element_index < m_num_elements_per_block);
+    return m_element_type[element_index];
+  }
+
+  //Returns -1 for RGB, or [0,3]
+  int8 get_element_component_index(uint element_index) const {
+    CRNLIB_ASSERT(element_index < m_num_elements_per_block);
+    return m_element_component_index[element_index];
+  }
+
+  struct element {
+    uint8 m_bytes[8];
+
+    uint get_le_word(uint index) const {
+      CRNLIB_ASSERT(index < 4);
+      return m_bytes[index * 2] | (m_bytes[index * 2 + 1] << 8);
+    }
+    uint get_be_word(uint index) const {
+      CRNLIB_ASSERT(index < 4);
+      return m_bytes[index * 2 + 1] | (m_bytes[index * 2] << 8);
+    }
+
+    void set_le_word(uint index, uint val) {
+      CRNLIB_ASSERT((index < 4) && (val <= cUINT16_MAX));
+      m_bytes[index * 2] = static_cast<uint8>(val & 0xFF);
+      m_bytes[index * 2 + 1] = static_cast<uint8>((val >> 8) & 0xFF);
+    }
+    void set_be_word(uint index, uint val) {
+      CRNLIB_ASSERT((index < 4) && (val <= cUINT16_MAX));
+      m_bytes[index * 2 + 1] = static_cast<uint8>(val & 0xFF);
+      m_bytes[index * 2] = static_cast<uint8>((val >> 8) & 0xFF);
+    }
+
+    void clear() {
+      memset(this, 0, sizeof(*this));
+    }
+  };
+
+  typedef crnlib::vector<element> element_vec;
+
+  bool init(dxt_format fmt, uint width, uint height, bool clear_elements);
+  bool init(dxt_format fmt, uint width, uint height, uint num_elements, element* pElements, bool create_copy);
+
+  struct pack_params {
+    pack_params() {
+      clear();
+    }
+
+    void clear() {
+      m_quality = cCRNDXTQualityUber;
+      m_perceptual = true;
+      m_dithering = false;
+      m_grayscale_sampling = false;
+      m_use_both_block_types = true;
+      m_endpoint_caching = true;
+      m_compressor = cCRNDXTCompressorCRN;
+      m_pProgress_callback = NULL;
+      m_pProgress_callback_user_data_ptr = NULL;
+      m_dxt1a_alpha_threshold = 128;
+      m_num_helper_threads = 0;
+      m_progress_start = 0;
+      m_progress_range = 100;
+      m_use_transparent_indices_for_black = false;
+      m_pTask_pool = NULL;
+    }
+
+    void init(const crn_comp_params& params) {
+      m_perceptual = (params.m_flags & cCRNCompFlagPerceptual) != 0;
+      m_num_helper_threads = params.m_num_helper_threads;
+      m_use_both_block_types = (params.m_flags & cCRNCompFlagUseBothBlockTypes) != 0;
+      m_use_transparent_indices_for_black = (params.m_flags & cCRNCompFlagUseTransparentIndicesForBlack) != 0;
+      m_dxt1a_alpha_threshold = params.m_dxt1a_alpha_threshold;
+      m_quality = params.m_dxt_quality;
+      m_endpoint_caching = (params.m_flags & cCRNCompFlagDisableEndpointCaching) == 0;
+      m_grayscale_sampling = (params.m_flags & cCRNCompFlagGrayscaleSampling) != 0;
+      m_compressor = params.m_dxt_compressor_type;
+    }
+
+    uint m_dxt1a_alpha_threshold;
+
+    uint m_num_helper_threads;
+
+    crn_dxt_quality m_quality;
+
+    crn_dxt_compressor_type m_compressor;
+
+    bool m_perceptual;
+    bool m_dithering;
+    bool m_grayscale_sampling;
+    bool m_use_both_block_types;
+    bool m_endpoint_caching;
+    bool m_use_transparent_indices_for_black;
+
+    typedef bool (*progress_callback_func)(uint percentage_complete, void* pUser_data_ptr);
+    progress_callback_func m_pProgress_callback;
+    void* m_pProgress_callback_user_data_ptr;
+
+    uint m_progress_start;
+    uint m_progress_range;
+
+    task_pool* m_pTask_pool;
+  };
+
+  bool init(dxt_format fmt, const image_u8& img, const pack_params& p = dxt_image::pack_params());
+
+  bool unpack(image_u8& img) const;
+
+  void endian_swap();
+
+  uint get_total_elements() const { return m_elements.size(); }
+
+  const element_vec& get_element_vec() const { return m_elements; }
+  element_vec& get_element_vec() { return m_elements; }
+
+  const element& get_element(uint block_x, uint block_y, uint element_index) const;
+  element& get_element(uint block_x, uint block_y, uint element_index);
+
+  const element* get_element_ptr() const { return m_pElements; }
+  element* get_element_ptr() { return m_pElements; }
+
+  uint get_size_in_bytes() const { return m_elements.size() * sizeof(element); }
+  uint get_row_pitch_in_bytes() const { return m_blocks_x * m_bytes_per_block; }
+
+  color_quad_u8 get_pixel(uint x, uint y) const;
+  uint get_pixel_alpha(uint x, uint y, uint element_index) const;
+
+  void set_pixel(uint x, uint y, const color_quad_u8& c, bool perceptual = true);
+
+  // get_block_pixels() only sets those components stored in the image!
+  bool get_block_pixels(uint block_x, uint block_y, color_quad_u8* pPixels) const;
+
+  struct set_block_pixels_context {
+    dxt1_endpoint_optimizer m_dxt1_optimizer;
+    dxt5_endpoint_optimizer m_dxt5_optimizer;
+    pack_etc1_block_context m_etc1_optimizer;
 #if CRNLIB_SUPPORT_ETC_A1
-         etc_a1::pack_etc1_block_context m_etc1_a1_optimizer;
+    etc_a1::pack_etc1_block_context m_etc1_a1_optimizer;
 #endif
-      };
-      
-      void set_block_pixels(uint block_x, uint block_y, const color_quad_u8* pPixels, const pack_params& p, set_block_pixels_context& context);
-      void set_block_pixels(uint block_x, uint block_y, const color_quad_u8* pPixels, const pack_params& p);
-      
-      void get_block_endpoints(uint block_x, uint block_y, uint element_index, uint& packed_low_endpoint, uint& packed_high_endpoint) const;
-      
-      // Returns a value representing the component(s) that where actually set, where -1 = RGB.
-      // This method does not always set every component!
-      int get_block_endpoints(uint block_x, uint block_y, uint element_index, color_quad_u8& low_endpoint, color_quad_u8& high_endpoint, bool scaled = true) const;
-      
-      // pColors should point to a 16 entry array, to handle DXT3.
-      // Returns the number of block colors: 3, 4, 6, 8, or 16.
-      uint get_block_colors(uint block_x, uint block_y, uint element_index, color_quad_u8* pColors, uint subblock_index = 0);
-            
-      uint get_subblock_index(uint x, uint y, uint element_index) const;
-      uint get_total_subblocks(uint element_index) const;
-      
-      uint get_selector(uint x, uint y, uint element_index) const;
-      
-      void change_dxt1_to_dxt1a();
+  };
 
-      bool can_flip(uint axis_index);
+  void set_block_pixels(uint block_x, uint block_y, const color_quad_u8* pPixels, const pack_params& p, set_block_pixels_context& context);
+  void set_block_pixels(uint block_x, uint block_y, const color_quad_u8* pPixels, const pack_params& p);
 
-      // Returns true if the texture can actually be flipped.
-      bool flip_x();
-      bool flip_y();
-         
-   private:
-      element_vec       m_elements;
-      element*          m_pElements;
-      
-      uint              m_width;
-      uint              m_height;
-      
-      uint              m_blocks_x;
-      uint              m_blocks_y;
-      uint              m_total_blocks;
-      uint              m_total_elements;
-      
-      uint              m_num_elements_per_block;   // 1 or 2
-      uint              m_bytes_per_block;          // 8 or 16
-      
-      int8              m_element_component_index[2];            
-      element_type      m_element_type[2];
-         
-      dxt_format        m_format;             // DXT1, 1A, 3, 5, N/3DC, or 5A
-      
-      bool init_internal(dxt_format fmt, uint width, uint height);
-      void init_task(uint64 data, void* pData_ptr);
+  void get_block_endpoints(uint block_x, uint block_y, uint element_index, uint& packed_low_endpoint, uint& packed_high_endpoint) const;
 
-#if CRNLIB_SUPPORT_ATI_COMPRESS   
-      bool init_ati_compress(dxt_format fmt, const image_u8& img, const pack_params& p);
-#endif      
+  // Returns a value representing the component(s) that where actually set, where -1 = RGB.
+  // This method does not always set every component!
+  int get_block_endpoints(uint block_x, uint block_y, uint element_index, color_quad_u8& low_endpoint, color_quad_u8& high_endpoint, bool scaled = true) const;
 
-      void flip_col(uint x);
-      void flip_row(uint y);
-   };
+  // pColors should point to a 16 entry array, to handle DXT3.
+  // Returns the number of block colors: 3, 4, 6, 8, or 16.
+  uint get_block_colors(uint block_x, uint block_y, uint element_index, color_quad_u8* pColors, uint subblock_index = 0);
 
-} // namespace crnlib
+  uint get_subblock_index(uint x, uint y, uint element_index) const;
+  uint get_total_subblocks(uint element_index) const;
+
+  uint get_selector(uint x, uint y, uint element_index) const;
+
+  void change_dxt1_to_dxt1a();
+
+  bool can_flip(uint axis_index);
+
+  // Returns true if the texture can actually be flipped.
+  bool flip_x();
+  bool flip_y();
+
+ private:
+  element_vec m_elements;
+  element* m_pElements;
+
+  uint m_width;
+  uint m_height;
+
+  uint m_blocks_x;
+  uint m_blocks_y;
+  uint m_total_blocks;
+  uint m_total_elements;
+
+  uint m_num_elements_per_block;  // 1 or 2
+  uint m_bytes_per_block;         // 8 or 16
+
+  int8 m_element_component_index[2];
+  element_type m_element_type[2];
+
+  dxt_format m_format;  // DXT1, 1A, 3, 5, N/3DC, or 5A
+
+  bool init_internal(dxt_format fmt, uint width, uint height);
+  void init_task(uint64 data, void* pData_ptr);
+
+#if CRNLIB_SUPPORT_ATI_COMPRESS
+  bool init_ati_compress(dxt_format fmt, const image_u8& img, const pack_params& p);
+#endif
+
+  void flip_col(uint x);
+  void flip_row(uint y);
+};
+
+}  // namespace crnlib

crnlib/crn_dynamic_stream.h

@@ -3,204 +3,180 @@
 #pragma once
 #include "crn_data_stream.h"
 
-namespace crnlib
-{
-   class dynamic_stream : public data_stream
-   {
-   public:
-      dynamic_stream(uint initial_size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable) :
-         data_stream(pName, attribs),
-         m_ofs(0)
-      {
-         open(initial_size, pName, attribs);
+namespace crnlib {
+class dynamic_stream : public data_stream {
+ public:
+  dynamic_stream(uint initial_size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable)
+      : data_stream(pName, attribs),
+        m_ofs(0) {
+    open(initial_size, pName, attribs);
+  }
+
+  dynamic_stream(const void* pBuf, uint size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable)
+      : data_stream(pName, attribs),
+        m_ofs(0) {
+    open(pBuf, size, pName, attribs);
+  }
+
+  dynamic_stream()
+      : data_stream(),
+        m_ofs(0) {
+    open();
+  }
+
+  virtual ~dynamic_stream() {
+  }
+
+  bool open(uint initial_size = 0, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable) {
+    close();
+
+    m_opened = true;
+    m_buf.clear();
+    m_buf.resize(initial_size);
+    m_ofs = 0;
+    m_name.set(pName ? pName : "dynamic_stream");
+    m_attribs = static_cast<attribs_t>(attribs);
+    return true;
+  }
+
+  bool reopen(const char* pName, uint attribs) {
+    if (!m_opened) {
+      return open(0, pName, attribs);
+    }
+
+    m_name.set(pName ? pName : "dynamic_stream");
+    m_attribs = static_cast<attribs_t>(attribs);
+    return true;
+  }
+
+  bool open(const void* pBuf, uint size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable) {
+    if (!m_opened) {
+      m_opened = true;
+      m_buf.resize(size);
+      if (size) {
+        CRNLIB_ASSERT(pBuf);
+        memcpy(&m_buf[0], pBuf, size);
       }
+      m_ofs = 0;
+      m_name.set(pName ? pName : "dynamic_stream");
+      m_attribs = static_cast<attribs_t>(attribs);
+      return true;
+    }
 
-      dynamic_stream(const void* pBuf, uint size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable) :
-         data_stream(pName, attribs),
-         m_ofs(0)
-      {
-         open(pBuf, size, pName, attribs);
-      }
+    return false;
+  }
 
-      dynamic_stream() :
-         data_stream(),
-         m_ofs(0)
-      {
-         open();
-      }
+  virtual bool close() {
+    if (m_opened) {
+      m_opened = false;
+      m_buf.clear();
+      m_ofs = 0;
+      return true;
+    }
 
-      virtual ~dynamic_stream()
-      {
-      }
+    return false;
+  }
 
-      bool open(uint initial_size = 0, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable)
-      {
-         close();
+  const crnlib::vector<uint8>& get_buf() const { return m_buf; }
+  crnlib::vector<uint8>& get_buf() { return m_buf; }
 
-         m_opened = true;
-         m_buf.clear();
-         m_buf.resize(initial_size);
-         m_ofs = 0;
-         m_name.set(pName ? pName : "dynamic_stream");
-         m_attribs = static_cast<attribs_t>(attribs);
-         return true;
-      }
+  void reserve(uint size) {
+    if (m_opened) {
+      m_buf.reserve(size);
+    }
+  }
 
-      bool reopen(const char* pName, uint attribs)
-      {
-         if (!m_opened)
-         {
-            return open(0, pName, attribs);
-         }
+  virtual const void* get_ptr() const { return m_buf.empty() ? NULL : &m_buf[0]; }
 
-         m_name.set(pName ? pName : "dynamic_stream");
-         m_attribs = static_cast<attribs_t>(attribs);
-         return true;
-      }
+  virtual uint read(void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
 
-      bool open(const void* pBuf, uint size, const char* pName = "dynamic_stream", uint attribs = cDataStreamSeekable | cDataStreamWritable | cDataStreamReadable)
-      {
-         if (!m_opened)
-         {
-            m_opened = true;
-            m_buf.resize(size);
-            if (size)
-            {
-               CRNLIB_ASSERT(pBuf);
-               memcpy(&m_buf[0], pBuf, size);
-            }
-            m_ofs = 0;
-            m_name.set(pName ? pName : "dynamic_stream");
-            m_attribs = static_cast<attribs_t>(attribs);
-            return true;
-         }
+    if ((!m_opened) || (!is_readable()) || (!len))
+      return 0;
 
-         return false;
-      }
+    CRNLIB_ASSERT(m_ofs <= m_buf.size());
 
-      virtual bool close()
-      {
-         if (m_opened)
-         {
-            m_opened = false;
-            m_buf.clear();
-            m_ofs = 0;
-            return true;
-         }
+    uint bytes_left = m_buf.size() - m_ofs;
 
-         return false;
-      }
+    len = math::minimum<uint>(len, bytes_left);
 
-      const crnlib::vector<uint8>& get_buf() const { return m_buf; }
-            crnlib::vector<uint8>& get_buf()       { return m_buf; }
+    if (len)
+      memcpy(pBuf, &m_buf[m_ofs], len);
 
-      void reserve(uint size)
-      {
-         if (m_opened)
-         {
-            m_buf.reserve(size);
-         }
-      }
+    m_ofs += len;
 
-      virtual const void* get_ptr() const { return m_buf.empty() ? NULL : &m_buf[0]; }
+    return len;
+  }
 
-      virtual uint read(void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+  virtual uint write(const void* pBuf, uint len) {
+    CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
 
-         if ((!m_opened) || (!is_readable()) || (!len))
-            return 0;
+    if ((!m_opened) || (!is_writable()) || (!len))
+      return 0;
 
-         CRNLIB_ASSERT(m_ofs <= m_buf.size());
+    CRNLIB_ASSERT(m_ofs <= m_buf.size());
 
-         uint bytes_left = m_buf.size() - m_ofs;
+    uint new_ofs = m_ofs + len;
+    if (new_ofs > m_buf.size())
+      m_buf.resize(new_ofs);
 
-         len = math::minimum<uint>(len, bytes_left);
+    memcpy(&m_buf[m_ofs], pBuf, len);
+    m_ofs = new_ofs;
 
-         if (len)
-            memcpy(pBuf, &m_buf[m_ofs], len);
+    return len;
+  }
 
-         m_ofs += len;
+  virtual bool flush() {
+    if (!m_opened)
+      return false;
 
-         return len;
-      }
+    return true;
+  }
 
-      virtual uint write(const void* pBuf, uint len)
-      {
-         CRNLIB_ASSERT(pBuf && (len <= 0x7FFFFFFF));
+  virtual uint64 get_size() {
+    if (!m_opened)
+      return 0;
 
-         if ((!m_opened) || (!is_writable()) || (!len))
-            return 0;
+    return m_buf.size();
+  }
 
-         CRNLIB_ASSERT(m_ofs <= m_buf.size());
+  virtual uint64 get_remaining() {
+    if (!m_opened)
+      return 0;
 
-         uint new_ofs = m_ofs + len;
-         if (new_ofs > m_buf.size())
-            m_buf.resize(new_ofs);
+    CRNLIB_ASSERT(m_ofs <= m_buf.size());
 
-         memcpy(&m_buf[m_ofs], pBuf, len);
-         m_ofs = new_ofs;
+    return m_buf.size() - m_ofs;
+  }
 
-         return len;
-      }
+  virtual uint64 get_ofs() {
+    if (!m_opened)
+      return 0;
 
-      virtual bool flush()
-      {
-         if (!m_opened)
-            return false;
+    return m_ofs;
+  }
 
-         return true;
-      }
+  virtual bool seek(int64 ofs, bool relative) {
+    if ((!m_opened) || (!is_seekable()))
+      return false;
 
-      virtual uint64 get_size()
-      {
-         if (!m_opened)
-            return 0;
+    int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
 
-         return m_buf.size();
-      }
+    if (new_ofs < 0)
+      return false;
+    else if (new_ofs > m_buf.size())
+      return false;
 
-      virtual uint64 get_remaining()
-      {
-         if (!m_opened)
-            return 0;
+    m_ofs = static_cast<uint>(new_ofs);
 
-         CRNLIB_ASSERT(m_ofs <= m_buf.size());
+    post_seek();
 
-         return m_buf.size() - m_ofs;
-      }
+    return true;
+  }
 
-      virtual uint64 get_ofs()
-      {
-         if (!m_opened)
-            return 0;
-
-         return m_ofs;
-      }
-
-      virtual bool seek(int64 ofs, bool relative)
-      {
-         if ((!m_opened) || (!is_seekable()))
-            return false;
-
-         int64 new_ofs = relative ? (m_ofs + ofs) : ofs;
-
-         if (new_ofs < 0)
-            return false;
-         else if (new_ofs > m_buf.size())
-            return false;
-
-         m_ofs = static_cast<uint>(new_ofs);
-
-         post_seek();
-
-         return true;
-      }
-
-   private:
-      crnlib::vector<uint8>    m_buf;
-      uint                    m_ofs;
-   };
-
-} // namespace crnlib
+ private:
+  crnlib::vector<uint8> m_buf;
+  uint m_ofs;
+};
 
+}  // namespace crnlib

crnlib/crn_dynamic_string.h

@@ -2,172 +2,184 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   enum { cMaxDynamicStringLen = cUINT16_MAX - 1 };
-   class dynamic_string
-   {
-   public:
-      inline dynamic_string() : m_buf_size(0), m_len(0), m_pStr(NULL) { }
-      dynamic_string(eVarArg dummy, const char* p, ...);
-      dynamic_string(const char* p);
-      dynamic_string(const char* p, uint len);
-      dynamic_string(const dynamic_string& other);
+namespace crnlib {
+enum { cMaxDynamicStringLen = cUINT16_MAX - 1 };
+class dynamic_string {
+ public:
+  inline dynamic_string()
+      : m_buf_size(0), m_len(0), m_pStr(NULL) {}
+  dynamic_string(eVarArg dummy, const char* p, ...);
+  dynamic_string(const char* p);
+  dynamic_string(const char* p, uint len);
+  dynamic_string(const dynamic_string& other);
 
-      inline ~dynamic_string() { if (m_pStr) crnlib_delete_array(m_pStr); }
+  inline ~dynamic_string() {
+    if (m_pStr)
+      crnlib_delete_array(m_pStr);
+  }
 
-      // Truncates the string to 0 chars and frees the buffer.
-      void clear();
-      void optimize();
+  // Truncates the string to 0 chars and frees the buffer.
+  void clear();
+  void optimize();
 
-      // Truncates the string to 0 chars, but does not free the buffer.
-      void empty();
-      inline const char *assume_ownership() { const char *p = m_pStr; m_pStr = NULL; m_len = 0; m_buf_size = 0; return p; }
+  // Truncates the string to 0 chars, but does not free the buffer.
+  void empty();
+  inline const char* assume_ownership() {
+    const char* p = m_pStr;
+    m_pStr = NULL;
+    m_len = 0;
+    m_buf_size = 0;
+    return p;
+  }
 
-      inline uint get_len() const { return m_len; }
-      inline bool is_empty() const { return !m_len; }
+  inline uint get_len() const { return m_len; }
+  inline bool is_empty() const { return !m_len; }
 
-      inline const char* get_ptr() const { return m_pStr ? m_pStr : ""; }
-      inline const char* c_str() const { return get_ptr(); }
+  inline const char* get_ptr() const { return m_pStr ? m_pStr : ""; }
+  inline const char* c_str() const { return get_ptr(); }
 
-      inline const char* get_ptr_raw() const { return m_pStr; }
-      inline       char* get_ptr_raw()       { return m_pStr; }
+  inline const char* get_ptr_raw() const { return m_pStr; }
+  inline char* get_ptr_raw() { return m_pStr; }
 
-      inline char front() const { return m_len ? m_pStr[0] : '\0'; }
-      inline char back() const { return m_len ? m_pStr[m_len - 1] : '\0'; }
+  inline char front() const { return m_len ? m_pStr[0] : '\0'; }
+  inline char back() const { return m_len ? m_pStr[m_len - 1] : '\0'; }
 
-      inline char operator[] (uint i) const { CRNLIB_ASSERT(i <= m_len); return get_ptr()[i]; }
+  inline char operator[](uint i) const {
+    CRNLIB_ASSERT(i <= m_len);
+    return get_ptr()[i];
+  }
 
-      inline operator size_t() const { return fast_hash(get_ptr(), m_len) ^ fast_hash(&m_len, sizeof(m_len)); }
+  inline operator size_t() const { return fast_hash(get_ptr(), m_len) ^ fast_hash(&m_len, sizeof(m_len)); }
 
-      int compare(const char* p, bool case_sensitive = false) const;
-      int compare(const dynamic_string& rhs, bool case_sensitive = false) const;
+  int compare(const char* p, bool case_sensitive = false) const;
+  int compare(const dynamic_string& rhs, bool case_sensitive = false) const;
 
-      inline bool operator== (const dynamic_string& rhs) const { return compare(rhs) == 0; }
-      inline bool operator== (const char* p) const { return compare(p) == 0; }
+  inline bool operator==(const dynamic_string& rhs) const { return compare(rhs) == 0; }
+  inline bool operator==(const char* p) const { return compare(p) == 0; }
 
-      inline bool operator!= (const dynamic_string& rhs) const { return compare(rhs) != 0; }
-      inline bool operator!= (const char* p) const { return compare(p) != 0; }
+  inline bool operator!=(const dynamic_string& rhs) const { return compare(rhs) != 0; }
+  inline bool operator!=(const char* p) const { return compare(p) != 0; }
 
-      inline bool operator< (const dynamic_string& rhs) const { return compare(rhs) < 0; }
-      inline bool operator< (const char* p) const { return compare(p) < 0; }
+  inline bool operator<(const dynamic_string& rhs) const { return compare(rhs) < 0; }
+  inline bool operator<(const char* p) const { return compare(p) < 0; }
 
-      inline bool operator> (const dynamic_string& rhs) const { return compare(rhs) > 0; }
-      inline bool operator> (const char* p) const { return compare(p) > 0; }
+  inline bool operator>(const dynamic_string& rhs) const { return compare(rhs) > 0; }
+  inline bool operator>(const char* p) const { return compare(p) > 0; }
 
-      inline bool operator<= (const dynamic_string& rhs) const { return compare(rhs) <= 0; }
-      inline bool operator<= (const char* p) const { return compare(p) <= 0; }
+  inline bool operator<=(const dynamic_string& rhs) const { return compare(rhs) <= 0; }
+  inline bool operator<=(const char* p) const { return compare(p) <= 0; }
 
-      inline bool operator>= (const dynamic_string& rhs) const { return compare(rhs) >= 0; }
-      inline bool operator>= (const char* p) const { return compare(p) >= 0; }
+  inline bool operator>=(const dynamic_string& rhs) const { return compare(rhs) >= 0; }
+  inline bool operator>=(const char* p) const { return compare(p) >= 0; }
 
-      friend inline bool operator== (const char* p, const dynamic_string& rhs) { return rhs.compare(p) == 0; }
+  friend inline bool operator==(const char* p, const dynamic_string& rhs) { return rhs.compare(p) == 0; }
 
-      dynamic_string& set(const char* p, uint max_len = UINT_MAX);
-      dynamic_string& set(const dynamic_string& other, uint max_len = UINT_MAX);
+  dynamic_string& set(const char* p, uint max_len = UINT_MAX);
+  dynamic_string& set(const dynamic_string& other, uint max_len = UINT_MAX);
 
-      bool set_len(uint new_len, char fill_char = ' ');
+  bool set_len(uint new_len, char fill_char = ' ');
 
-      // Set from non-zero terminated buffer.
-      dynamic_string& set_from_buf(const void* pBuf, uint buf_size);
+  // Set from non-zero terminated buffer.
+  dynamic_string& set_from_buf(const void* pBuf, uint buf_size);
 
-      dynamic_string& operator= (const dynamic_string& rhs) { return set(rhs); }
-      dynamic_string& operator= (const char* p) { return set(p); }
+  dynamic_string& operator=(const dynamic_string& rhs) { return set(rhs); }
+  dynamic_string& operator=(const char* p) { return set(p); }
 
-      dynamic_string& set_char(uint index, char c);
-      dynamic_string& append_char(char c);
-      dynamic_string& append_char(int c) { CRNLIB_ASSERT((c >= 0) && (c <= 255)); return append_char(static_cast<char>(c)); }
-      dynamic_string& truncate(uint new_len);
-      dynamic_string& tolower();
-      dynamic_string& toupper();
+  dynamic_string& set_char(uint index, char c);
+  dynamic_string& append_char(char c);
+  dynamic_string& append_char(int c) {
+    CRNLIB_ASSERT((c >= 0) && (c <= 255));
+    return append_char(static_cast<char>(c));
+  }
+  dynamic_string& truncate(uint new_len);
+  dynamic_string& tolower();
+  dynamic_string& toupper();
 
-      dynamic_string& append(const char* p);
-      dynamic_string& append(const dynamic_string& other);
-      dynamic_string& operator += (const char* p) { return append(p); }
-      dynamic_string& operator += (const dynamic_string& other) { return append(other); }
+  dynamic_string& append(const char* p);
+  dynamic_string& append(const dynamic_string& other);
+  dynamic_string& operator+=(const char* p) { return append(p); }
+  dynamic_string& operator+=(const dynamic_string& other) { return append(other); }
 
-      friend dynamic_string operator+ (const char* p, const dynamic_string& a);
-      friend dynamic_string operator+ (const dynamic_string& a, const char* p);
-      friend dynamic_string operator+ (const dynamic_string& a, const dynamic_string& b);
+  friend dynamic_string operator+(const char* p, const dynamic_string& a);
+  friend dynamic_string operator+(const dynamic_string& a, const char* p);
+  friend dynamic_string operator+(const dynamic_string& a, const dynamic_string& b);
 
-      dynamic_string& format_args(const char* p, va_list args);
-      dynamic_string& format(const char* p, ...);
+  dynamic_string& format_args(const char* p, va_list args);
+  dynamic_string& format(const char* p, ...);
 
-      dynamic_string& crop(uint start, uint len);
-      dynamic_string& substring(uint start, uint end);
-      dynamic_string& left(uint len);
-      dynamic_string& mid(uint start, uint len);
-      dynamic_string& right(uint start);
-      dynamic_string& tail(uint num);
+  dynamic_string& crop(uint start, uint len);
+  dynamic_string& substring(uint start, uint end);
+  dynamic_string& left(uint len);
+  dynamic_string& mid(uint start, uint len);
+  dynamic_string& right(uint start);
+  dynamic_string& tail(uint num);
 
-      dynamic_string& unquote();
+  dynamic_string& unquote();
 
-      uint count_char(char c) const;
+  uint count_char(char c) const;
 
-      int find_left(const char* p, bool case_sensitive = false) const;
-      int find_left(char c) const;
+  int find_left(const char* p, bool case_sensitive = false) const;
+  int find_left(char c) const;
 
-      int find_right(char c) const;
-      int find_right(const char* p, bool case_sensitive = false) const;
+  int find_right(char c) const;
+  int find_right(const char* p, bool case_sensitive = false) const;
 
-      bool contains(const char* p, bool case_sensitive = false) const;
+  bool contains(const char* p, bool case_sensitive = false) const;
 
-      dynamic_string& trim();
-      dynamic_string& trim_crlf();
+  dynamic_string& trim();
+  dynamic_string& trim_crlf();
 
-      dynamic_string& remap(int from_char, int to_char);
+  dynamic_string& remap(int from_char, int to_char);
 
-      void swap(dynamic_string& other);
+  void swap(dynamic_string& other);
 
-      // Returns -1 on failure, or the number of bytes written.
-      int serialize(void* pBuf, uint buf_size, bool little_endian) const;
+  // Returns -1 on failure, or the number of bytes written.
+  int serialize(void* pBuf, uint buf_size, bool little_endian) const;
 
-      // Returns -1 on failure, or the number of bytes read.
-      int deserialize(const void* pBuf, uint buf_size, bool little_endian);
+  // Returns -1 on failure, or the number of bytes read.
+  int deserialize(const void* pBuf, uint buf_size, bool little_endian);
 
-      void translate_lf_to_crlf();
+  void translate_lf_to_crlf();
 
-      static inline char *create_raw_buffer(uint& buf_size_in_chars);
-      static inline void free_raw_buffer(char *p) { crnlib_delete_array(p); }
-      dynamic_string& set_from_raw_buf_and_assume_ownership(char *pBuf, uint buf_size_in_chars, uint len_in_chars);
-   private:
-      uint16      m_buf_size;
-      uint16      m_len;
-      char*       m_pStr;
+  static inline char* create_raw_buffer(uint& buf_size_in_chars);
+  static inline void free_raw_buffer(char* p) { crnlib_delete_array(p); }
+  dynamic_string& set_from_raw_buf_and_assume_ownership(char* pBuf, uint buf_size_in_chars, uint len_in_chars);
+
+ private:
+  uint16 m_buf_size;
+  uint16 m_len;
+  char* m_pStr;
 
 #ifdef CRNLIB_BUILD_DEBUG
-      void check() const;
+  void check() const;
 #else
-      inline void check() const { }
+  inline void check() const {}
 #endif
 
-      bool expand_buf(uint new_buf_size, bool preserve_contents);
+  bool expand_buf(uint new_buf_size, bool preserve_contents);
 
-      const char* get_ptr_priv() const { return m_pStr ? m_pStr : ""; }
-      char* get_ptr_priv() { return (char*)(m_pStr ? m_pStr : ""); }
+  const char* get_ptr_priv() const { return m_pStr ? m_pStr : ""; }
+  char* get_ptr_priv() { return (char*)(m_pStr ? m_pStr : ""); }
 
-      bool ensure_buf(uint len, bool preserve_contents = true);
-   };
+  bool ensure_buf(uint len, bool preserve_contents = true);
+};
 
-   typedef crnlib::vector<dynamic_string> dynamic_string_array;
+typedef crnlib::vector<dynamic_string> dynamic_string_array;
 
-   extern dynamic_string g_empty_dynamic_string;
+extern dynamic_string g_empty_dynamic_string;
 
-   CRNLIB_DEFINE_BITWISE_MOVABLE(dynamic_string);
+CRNLIB_DEFINE_BITWISE_MOVABLE(dynamic_string);
 
-   inline void swap (dynamic_string& a, dynamic_string& b)
-   {
-      a.swap(b);
-   }
+inline void swap(dynamic_string& a, dynamic_string& b) {
+  a.swap(b);
+}
 
-   inline char *dynamic_string::create_raw_buffer(uint& buf_size_in_chars)
-   {
-      if (buf_size_in_chars > cUINT16_MAX)
-      {
-         CRNLIB_ASSERT(0);
-         return NULL;
-      }
-      buf_size_in_chars = math::minimum<uint>(cUINT16_MAX, math::next_pow2(buf_size_in_chars));
-      return crnlib_new_array<char>(buf_size_in_chars);
-   }
-} // namespace crnlib
+inline char* dynamic_string::create_raw_buffer(uint& buf_size_in_chars) {
+  if (buf_size_in_chars > cUINT16_MAX) {
+    CRNLIB_ASSERT(0);
+    return NULL;
+  }
+  buf_size_in_chars = math::minimum<uint>(cUINT16_MAX, math::next_pow2(buf_size_in_chars));
+  return crnlib_new_array<char>(buf_size_in_chars);
+}
+}  // namespace crnlib

crnlib/crn_file_utils.cpp

@@ -18,561 +18,509 @@
 #include <libgen.h>
 #endif
 
-namespace crnlib
-{
+namespace crnlib {
 #if CRNLIB_USE_WIN32_API
-   bool file_utils::is_read_only(const char* pFilename)
-   {
-      uint32 dst_file_attribs = GetFileAttributesA(pFilename);
-      if (dst_file_attribs == INVALID_FILE_ATTRIBUTES)
-         return false;
-      if (dst_file_attribs & FILE_ATTRIBUTE_READONLY)
-         return true;
-      return false;
-   }
-
-   bool file_utils::disable_read_only(const char* pFilename)
-   {
-      uint32 dst_file_attribs = GetFileAttributesA(pFilename);
-      if (dst_file_attribs == INVALID_FILE_ATTRIBUTES)
-         return false;
-      if (dst_file_attribs & FILE_ATTRIBUTE_READONLY)
-      {
-         dst_file_attribs &= ~FILE_ATTRIBUTE_READONLY;
-         if (SetFileAttributesA(pFilename, dst_file_attribs))
-            return true;
-      }
-      return false;
-   }
-
-   bool file_utils::is_older_than(const char* pSrcFilename, const char* pDstFilename)
-   {
-      WIN32_FILE_ATTRIBUTE_DATA src_file_attribs;
-      const BOOL src_file_exists = GetFileAttributesExA(pSrcFilename, GetFileExInfoStandard, &src_file_attribs);
-
-      WIN32_FILE_ATTRIBUTE_DATA dst_file_attribs;
-      const BOOL dest_file_exists = GetFileAttributesExA(pDstFilename, GetFileExInfoStandard, &dst_file_attribs);
-
-      if ((dest_file_exists) && (src_file_exists))
-      {
-         LONG timeComp = CompareFileTime(&src_file_attribs.ftLastWriteTime, &dst_file_attribs.ftLastWriteTime);
-         if (timeComp < 0)
-            return true;
-      }
-      return false;
-   }
-
-   bool file_utils::does_file_exist(const char* pFilename)
-   {
-      const DWORD fullAttributes = GetFileAttributesA(pFilename);
-
-      if (fullAttributes == INVALID_FILE_ATTRIBUTES)
-         return false;
-
-      if (fullAttributes & FILE_ATTRIBUTE_DIRECTORY)
-         return false;
+bool file_utils::is_read_only(const char* pFilename) {
+  uint32 dst_file_attribs = GetFileAttributesA(pFilename);
+  if (dst_file_attribs == INVALID_FILE_ATTRIBUTES)
+    return false;
+  if (dst_file_attribs & FILE_ATTRIBUTE_READONLY)
+    return true;
+  return false;
+}
 
+bool file_utils::disable_read_only(const char* pFilename) {
+  uint32 dst_file_attribs = GetFileAttributesA(pFilename);
+  if (dst_file_attribs == INVALID_FILE_ATTRIBUTES)
+    return false;
+  if (dst_file_attribs & FILE_ATTRIBUTE_READONLY) {
+    dst_file_attribs &= ~FILE_ATTRIBUTE_READONLY;
+    if (SetFileAttributesA(pFilename, dst_file_attribs))
       return true;
-   }
+  }
+  return false;
+}
 
-   bool file_utils::does_dir_exist(const char* pDir)
-   {
-      //-- Get the file attributes.
-      DWORD fullAttributes = GetFileAttributesA(pDir);
+bool file_utils::is_older_than(const char* pSrcFilename, const char* pDstFilename) {
+  WIN32_FILE_ATTRIBUTE_DATA src_file_attribs;
+  const BOOL src_file_exists = GetFileAttributesExA(pSrcFilename, GetFileExInfoStandard, &src_file_attribs);
 
-      if (fullAttributes == INVALID_FILE_ATTRIBUTES)
-         return false;
-
-      if (fullAttributes & FILE_ATTRIBUTE_DIRECTORY)
-         return true;
-
-      return false;
-   }
-
-   bool file_utils::get_file_size(const char* pFilename, uint64& file_size)
-   {
-      file_size = 0;
-
-      WIN32_FILE_ATTRIBUTE_DATA attr;
-
-      if (0 == GetFileAttributesExA(pFilename, GetFileExInfoStandard, &attr))
-         return false;
-
-      if (attr.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
-         return false;
-
-      file_size = static_cast<uint64>(attr.nFileSizeLow) | (static_cast<uint64>(attr.nFileSizeHigh) << 32U);
+  WIN32_FILE_ATTRIBUTE_DATA dst_file_attribs;
+  const BOOL dest_file_exists = GetFileAttributesExA(pDstFilename, GetFileExInfoStandard, &dst_file_attribs);
 
+  if ((dest_file_exists) && (src_file_exists)) {
+    LONG timeComp = CompareFileTime(&src_file_attribs.ftLastWriteTime, &dst_file_attribs.ftLastWriteTime);
+    if (timeComp < 0)
       return true;
-   }
-#elif defined( __GNUC__ )
-   bool file_utils::is_read_only(const char* pFilename)
-   {
-      pFilename;
-      // TODO
-      return false;
-   }
+  }
+  return false;
+}
 
-   bool file_utils::disable_read_only(const char* pFilename)
-   {
-      pFilename;
-      // TODO
-      return false;
-   }
+bool file_utils::does_file_exist(const char* pFilename) {
+  const DWORD fullAttributes = GetFileAttributesA(pFilename);
 
-   bool file_utils::is_older_than(const char *pSrcFilename, const char* pDstFilename)
-   {
-      pSrcFilename, pDstFilename;
-      // TODO
-      return false;
-   }
+  if (fullAttributes == INVALID_FILE_ATTRIBUTES)
+    return false;
 
-   bool file_utils::does_file_exist(const char* pFilename)
-   {
-      struct stat stat_buf;
-      int result = stat(pFilename, &stat_buf);
-      if (result)
-         return false;
-      if (S_ISREG(stat_buf.st_mode))
-         return true;
-      return false;
-   }
+  if (fullAttributes & FILE_ATTRIBUTE_DIRECTORY)
+    return false;
 
-   bool file_utils::does_dir_exist(const char* pDir)
-   {
-      struct stat stat_buf;
-      int result = stat(pDir, &stat_buf);
-      if (result)
-         return false;
-      if (S_ISDIR(stat_buf.st_mode) || S_ISLNK(stat_buf.st_mode))
-         return true;
-      return false;
-   }
+  return true;
+}
 
-   bool file_utils::get_file_size(const char* pFilename, uint64& file_size)
-   {
-      file_size = 0;
-      struct stat stat_buf;
-      int result = stat(pFilename, &stat_buf);
-      if (result)
-         return false;
-      if (!S_ISREG(stat_buf.st_mode))
-         return false;
-      file_size = stat_buf.st_size;
-      return true;
-   }
+bool file_utils::does_dir_exist(const char* pDir) {
+  //-- Get the file attributes.
+  DWORD fullAttributes = GetFileAttributesA(pDir);
+
+  if (fullAttributes == INVALID_FILE_ATTRIBUTES)
+    return false;
+
+  if (fullAttributes & FILE_ATTRIBUTE_DIRECTORY)
+    return true;
+
+  return false;
+}
+
+bool file_utils::get_file_size(const char* pFilename, uint64& file_size) {
+  file_size = 0;
+
+  WIN32_FILE_ATTRIBUTE_DATA attr;
+
+  if (0 == GetFileAttributesExA(pFilename, GetFileExInfoStandard, &attr))
+    return false;
+
+  if (attr.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
+    return false;
+
+  file_size = static_cast<uint64>(attr.nFileSizeLow) | (static_cast<uint64>(attr.nFileSizeHigh) << 32U);
+
+  return true;
+}
+#elif defined(__GNUC__)
+bool file_utils::is_read_only(const char* pFilename) {
+  pFilename;
+  // TODO
+  return false;
+}
+
+bool file_utils::disable_read_only(const char* pFilename) {
+  pFilename;
+  // TODO
+  return false;
+}
+
+bool file_utils::is_older_than(const char* pSrcFilename, const char* pDstFilename) {
+  pSrcFilename, pDstFilename;
+  // TODO
+  return false;
+}
+
+bool file_utils::does_file_exist(const char* pFilename) {
+  struct stat stat_buf;
+  int result = stat(pFilename, &stat_buf);
+  if (result)
+    return false;
+  if (S_ISREG(stat_buf.st_mode))
+    return true;
+  return false;
+}
+
+bool file_utils::does_dir_exist(const char* pDir) {
+  struct stat stat_buf;
+  int result = stat(pDir, &stat_buf);
+  if (result)
+    return false;
+  if (S_ISDIR(stat_buf.st_mode) || S_ISLNK(stat_buf.st_mode))
+    return true;
+  return false;
+}
+
+bool file_utils::get_file_size(const char* pFilename, uint64& file_size) {
+  file_size = 0;
+  struct stat stat_buf;
+  int result = stat(pFilename, &stat_buf);
+  if (result)
+    return false;
+  if (!S_ISREG(stat_buf.st_mode))
+    return false;
+  file_size = stat_buf.st_size;
+  return true;
+}
 #else
-   bool file_utils::is_read_only(const char* pFilename)
-   {
-      return false;
-   }
+bool file_utils::is_read_only(const char* pFilename) {
+  return false;
+}
 
-   bool file_utils::disable_read_only(const char* pFilename)
-   {
-      pFilename;
-      // TODO
-      return false;
-   }
+bool file_utils::disable_read_only(const char* pFilename) {
+  pFilename;
+  // TODO
+  return false;
+}
 
-   bool file_utils::is_older_than(const char *pSrcFilename, const char* pDstFilename)
-   {
-      return false;
-   }
+bool file_utils::is_older_than(const char* pSrcFilename, const char* pDstFilename) {
+  return false;
+}
 
-   bool file_utils::does_file_exist(const char* pFilename)
-   {
-      FILE* pFile;
-      crn_fopen(&pFile, pFilename, "rb");
-      if (!pFile)
-         return false;
-      fclose(pFile);
-      return true;
-   }
+bool file_utils::does_file_exist(const char* pFilename) {
+  FILE* pFile;
+  crn_fopen(&pFile, pFilename, "rb");
+  if (!pFile)
+    return false;
+  fclose(pFile);
+  return true;
+}
 
-   bool file_utils::does_dir_exist(const char* pDir)
-   {
-      return false;
-   }
+bool file_utils::does_dir_exist(const char* pDir) {
+  return false;
+}
 
-   bool file_utils::get_file_size(const char* pFilename, uint64& file_size)
-   {
-      FILE* pFile;
-      crn_fopen(&pFile, pFilename, "rb");
-      if (!pFile)
-         return false;
-      crn_fseek(pFile, 0, SEEK_END);
-      file_size = crn_ftell(pFile);
-      fclose(pFile);
-      return true;
-   }
+bool file_utils::get_file_size(const char* pFilename, uint64& file_size) {
+  FILE* pFile;
+  crn_fopen(&pFile, pFilename, "rb");
+  if (!pFile)
+    return false;
+  crn_fseek(pFile, 0, SEEK_END);
+  file_size = crn_ftell(pFile);
+  fclose(pFile);
+  return true;
+}
 #endif
 
-   bool file_utils::get_file_size(const char* pFilename, uint32& file_size)
-   {
-      uint64 file_size64;
-      if (!get_file_size(pFilename, file_size64))
-      {
-         file_size = 0;
-         return false;
-      }
+bool file_utils::get_file_size(const char* pFilename, uint32& file_size) {
+  uint64 file_size64;
+  if (!get_file_size(pFilename, file_size64)) {
+    file_size = 0;
+    return false;
+  }
 
-      if (file_size64 > cUINT32_MAX)
-         file_size64 = cUINT32_MAX;
+  if (file_size64 > cUINT32_MAX)
+    file_size64 = cUINT32_MAX;
 
-      file_size = static_cast<uint32>(file_size64);
-      return true;
-   }
+  file_size = static_cast<uint32>(file_size64);
+  return true;
+}
 
-   bool file_utils::is_path_separator(char c)
-   {
+bool file_utils::is_path_separator(char c) {
 #ifdef WIN32
-      return (c == '/') || (c == '\\');
+  return (c == '/') || (c == '\\');
 #else
-      return (c == '/');
+  return (c == '/');
 #endif
-   }
+}
 
-   bool file_utils::is_path_or_drive_separator(char c)
-   {
+bool file_utils::is_path_or_drive_separator(char c) {
 #ifdef WIN32
-      return (c == '/') || (c == '\\') || (c == ':');
+  return (c == '/') || (c == '\\') || (c == ':');
 #else
-      return (c == '/');
+  return (c == '/');
 #endif
-   }
+}
 
-   bool file_utils::is_drive_separator(char c)
-   {
+bool file_utils::is_drive_separator(char c) {
 #ifdef WIN32
-      return (c == ':');
+  return (c == ':');
 #else
-      c;
-      return false;
+  c;
+  return false;
 #endif
-   }
+}
 
-   bool file_utils::split_path(const char* p, dynamic_string* pDrive, dynamic_string* pDir, dynamic_string* pFilename, dynamic_string* pExt)
-   {
-      CRNLIB_ASSERT(p);
+bool file_utils::split_path(const char* p, dynamic_string* pDrive, dynamic_string* pDir, dynamic_string* pFilename, dynamic_string* pExt) {
+  CRNLIB_ASSERT(p);
 
 #ifdef WIN32
-      char drive_buf[_MAX_DRIVE];
-      char dir_buf[_MAX_DIR];
-      char fname_buf[_MAX_FNAME];
-      char ext_buf[_MAX_EXT];
+  char drive_buf[_MAX_DRIVE];
+  char dir_buf[_MAX_DIR];
+  char fname_buf[_MAX_FNAME];
+  char ext_buf[_MAX_EXT];
 
 #ifdef _MSC_VER
-      // Compiling with MSVC
-      errno_t error = _splitpath_s(p,
-         pDrive      ? drive_buf : NULL, pDrive    ? _MAX_DRIVE  : 0,
-         pDir        ? dir_buf   : NULL, pDir      ? _MAX_DIR    : 0,
-         pFilename   ? fname_buf : NULL, pFilename ? _MAX_FNAME  : 0,
-         pExt        ? ext_buf   : NULL, pExt      ? _MAX_EXT    : 0);
-      if (error != 0)
-         return false;
+  // Compiling with MSVC
+  errno_t error = _splitpath_s(p,
+                               pDrive ? drive_buf : NULL, pDrive ? _MAX_DRIVE : 0,
+                               pDir ? dir_buf : NULL, pDir ? _MAX_DIR : 0,
+                               pFilename ? fname_buf : NULL, pFilename ? _MAX_FNAME : 0,
+                               pExt ? ext_buf : NULL, pExt ? _MAX_EXT : 0);
+  if (error != 0)
+    return false;
 #else
-      // Compiling with MinGW
-      _splitpath(p,
-         pDrive      ? drive_buf : NULL,
-         pDir        ? dir_buf   : NULL,
-         pFilename   ? fname_buf : NULL,
-         pExt        ? ext_buf   : NULL);
+  // Compiling with MinGW
+  _splitpath(p,
+             pDrive ? drive_buf : NULL,
+             pDir ? dir_buf : NULL,
+             pFilename ? fname_buf : NULL,
+             pExt ? ext_buf : NULL);
 #endif
 
-      if (pDrive)    *pDrive = drive_buf;
-      if (pDir)      *pDir = dir_buf;
-      if (pFilename) *pFilename = fname_buf;
-      if (pExt)      *pExt = ext_buf;
+  if (pDrive)
+    *pDrive = drive_buf;
+  if (pDir)
+    *pDir = dir_buf;
+  if (pFilename)
+    *pFilename = fname_buf;
+  if (pExt)
+    *pExt = ext_buf;
 #else
-      char dirtmp[1024];
-      char nametmp[1024];
-      strcpy_safe(dirtmp, sizeof(dirtmp), p);
-      strcpy_safe(nametmp, sizeof(nametmp), p);
+  char dirtmp[1024];
+  char nametmp[1024];
+  strcpy_safe(dirtmp, sizeof(dirtmp), p);
+  strcpy_safe(nametmp, sizeof(nametmp), p);
 
-      if (pDrive) pDrive->clear();
+  if (pDrive)
+    pDrive->clear();
 
-      const char *pDirName = dirname(dirtmp);
-      if (!pDirName)
-         return false;
+  const char* pDirName = dirname(dirtmp);
+  if (!pDirName)
+    return false;
 
-      if (pDir)
-      {
-         pDir->set(pDirName);
-         if ((!pDir->is_empty()) && (pDir->back() != '/'))
-            pDir->append_char('/');
-      }
+  if (pDir) {
+    pDir->set(pDirName);
+    if ((!pDir->is_empty()) && (pDir->back() != '/'))
+      pDir->append_char('/');
+  }
 
-      const char *pBaseName = basename(nametmp);
-      if (!pBaseName)
-         return false;
+  const char* pBaseName = basename(nametmp);
+  if (!pBaseName)
+    return false;
 
-      if (pFilename)
-      {
-         pFilename->set(pBaseName);
-         remove_extension(*pFilename);
-      }
+  if (pFilename) {
+    pFilename->set(pBaseName);
+    remove_extension(*pFilename);
+  }
 
-      if (pExt)
-      {
-         pExt->set(pBaseName);
-         get_extension(*pExt);
-         *pExt = "." + *pExt;
-      }
-#endif // #ifdef WIN32
+  if (pExt) {
+    pExt->set(pBaseName);
+    get_extension(*pExt);
+    *pExt = "." + *pExt;
+  }
+#endif  // #ifdef WIN32
 
-      return true;
-   }
+  return true;
+}
 
-   bool file_utils::split_path(const char* p, dynamic_string& path, dynamic_string& filename)
-   {
-      dynamic_string temp_drive, temp_path, temp_ext;
-      if (!split_path(p, &temp_drive, &temp_path, &filename, &temp_ext))
-         return false;
+bool file_utils::split_path(const char* p, dynamic_string& path, dynamic_string& filename) {
+  dynamic_string temp_drive, temp_path, temp_ext;
+  if (!split_path(p, &temp_drive, &temp_path, &filename, &temp_ext))
+    return false;
 
-      filename += temp_ext;
+  filename += temp_ext;
 
-      combine_path(path, temp_drive.get_ptr(), temp_path.get_ptr());
-      return true;
-   }
+  combine_path(path, temp_drive.get_ptr(), temp_path.get_ptr());
+  return true;
+}
 
-   bool file_utils::get_pathname(const char* p, dynamic_string& path)
-   {
-      dynamic_string temp_drive, temp_path;
-      if (!split_path(p, &temp_drive, &temp_path, NULL, NULL))
-         return false;
+bool file_utils::get_pathname(const char* p, dynamic_string& path) {
+  dynamic_string temp_drive, temp_path;
+  if (!split_path(p, &temp_drive, &temp_path, NULL, NULL))
+    return false;
 
-      combine_path(path, temp_drive.get_ptr(), temp_path.get_ptr());
-      return true;
-   }
+  combine_path(path, temp_drive.get_ptr(), temp_path.get_ptr());
+  return true;
+}
 
-   bool file_utils::get_filename(const char* p, dynamic_string& filename)
-   {
-      dynamic_string temp_ext;
-      if (!split_path(p, NULL, NULL, &filename, &temp_ext))
-         return false;
+bool file_utils::get_filename(const char* p, dynamic_string& filename) {
+  dynamic_string temp_ext;
+  if (!split_path(p, NULL, NULL, &filename, &temp_ext))
+    return false;
 
-      filename += temp_ext;
-      return true;
-   }
+  filename += temp_ext;
+  return true;
+}
 
-   void file_utils::combine_path(dynamic_string& dst, const char* pA, const char* pB)
-   {
-      dynamic_string temp(pA);
-      if ((!temp.is_empty()) && (!is_path_separator(pB[0])))
-      {
-         char c = temp[temp.get_len() - 1];
-         if (!is_path_separator(c))
-            temp.append_char(CRNLIB_PATH_SEPERATOR_CHAR);
-      }
-      temp += pB;
-      dst.swap(temp);
-   }
+void file_utils::combine_path(dynamic_string& dst, const char* pA, const char* pB) {
+  dynamic_string temp(pA);
+  if ((!temp.is_empty()) && (!is_path_separator(pB[0]))) {
+    char c = temp[temp.get_len() - 1];
+    if (!is_path_separator(c))
+      temp.append_char(CRNLIB_PATH_SEPERATOR_CHAR);
+  }
+  temp += pB;
+  dst.swap(temp);
+}
 
-   void file_utils::combine_path(dynamic_string& dst, const char* pA, const char* pB, const char* pC)
-   {
-      combine_path(dst, pA, pB);
-      combine_path(dst, dst.get_ptr(), pC);
-   }
+void file_utils::combine_path(dynamic_string& dst, const char* pA, const char* pB, const char* pC) {
+  combine_path(dst, pA, pB);
+  combine_path(dst, dst.get_ptr(), pC);
+}
 
-   bool file_utils::full_path(dynamic_string& path)
-   {
+bool file_utils::full_path(dynamic_string& path) {
 #ifdef WIN32
-      char buf[1024];
-      char* p = _fullpath(buf, path.get_ptr(), sizeof(buf));
-      if (!p)
-         return false;
+  char buf[1024];
+  char* p = _fullpath(buf, path.get_ptr(), sizeof(buf));
+  if (!p)
+    return false;
 #else
-      char buf[PATH_MAX];
-      char* p;
-      dynamic_string pn, fn;
-      split_path(path.get_ptr(), pn, fn);
-      if ((fn == ".") || (fn == ".."))
-      {
-         p = realpath(path.get_ptr(), buf);
-         if (!p)
-            return false;
-         path.set(buf);
-      }
-      else
-      {
-         if (pn.is_empty())
-            pn = "./";
-         p = realpath(pn.get_ptr(), buf);
-         if (!p)
-            return false;
-         combine_path(path, buf, fn.get_ptr());
-      }
+  char buf[PATH_MAX];
+  char* p;
+  dynamic_string pn, fn;
+  split_path(path.get_ptr(), pn, fn);
+  if ((fn == ".") || (fn == "..")) {
+    p = realpath(path.get_ptr(), buf);
+    if (!p)
+      return false;
+    path.set(buf);
+  } else {
+    if (pn.is_empty())
+      pn = "./";
+    p = realpath(pn.get_ptr(), buf);
+    if (!p)
+      return false;
+    combine_path(path, buf, fn.get_ptr());
+  }
 #endif
 
-      return true;
-   }
+  return true;
+}
 
-   bool file_utils::get_extension(dynamic_string& filename)
-   {
-      int sep = -1;
+bool file_utils::get_extension(dynamic_string& filename) {
+  int sep = -1;
 #ifdef WIN32
-      sep = filename.find_right('\\');
+  sep = filename.find_right('\\');
 #endif
-      if (sep < 0)
-         sep = filename.find_right('/');
+  if (sep < 0)
+    sep = filename.find_right('/');
 
-      int dot = filename.find_right('.');
-      if (dot < sep)
-      {
-         filename.clear();
-         return false;
-      }
+  int dot = filename.find_right('.');
+  if (dot < sep) {
+    filename.clear();
+    return false;
+  }
 
-      filename.right(dot + 1);
+  filename.right(dot + 1);
 
-      return true;
-   }
+  return true;
+}
 
-   bool file_utils::remove_extension(dynamic_string& filename)
-   {
-      int sep = -1;
+bool file_utils::remove_extension(dynamic_string& filename) {
+  int sep = -1;
 #ifdef WIN32
-      sep = filename.find_right('\\');
+  sep = filename.find_right('\\');
 #endif
-      if (sep < 0)
-         sep = filename.find_right('/');
+  if (sep < 0)
+    sep = filename.find_right('/');
 
-      int dot = filename.find_right('.');
-      if (dot < sep)
-         return false;
+  int dot = filename.find_right('.');
+  if (dot < sep)
+    return false;
 
-      filename.left(dot);
+  filename.left(dot);
 
-      return true;
-   }
-
-   bool file_utils::create_path(const dynamic_string& fullpath)
-   {
-      bool got_unc = false; got_unc;
-      dynamic_string cur_path;
-
-      const int l = fullpath.get_len();
-
-      int n = 0;
-      while (n < l)
-      {
-         const char c = fullpath.get_ptr()[n];
-
-         const bool sep = is_path_separator(c);
-         const bool back_sep = is_path_separator(cur_path.back());
-         const bool is_last_char = (n == (l - 1));
-
-         if ( ((sep) && (!back_sep)) || (is_last_char) )
-         {
-            if ((is_last_char) && (!sep))
-               cur_path.append_char(c);
-
-            bool valid = !cur_path.is_empty();
+  return true;
+}
 
+bool file_utils::create_path(const dynamic_string& fullpath) {
 #ifdef WIN32
-            // reject obvious stuff (drives, beginning of UNC paths):
-            // c:\b\cool
-            // \\machine\blah
-            // \cool\blah
-            if ((cur_path.get_len() == 2) && (cur_path[1] == ':'))
-               valid = false;
-            else if ((cur_path.get_len() >= 2) && (cur_path[0] == '\\') && (cur_path[1] == '\\'))
-            {
-               if (!got_unc)
-                  valid = false;
-               got_unc = true;
-            }
-            else if (cur_path == "\\")
-               valid = false;
+  bool got_unc = false;
 #endif
-            if (cur_path == "/")
-               valid = false;
+  dynamic_string cur_path;
+
+  const int l = fullpath.get_len();
+
+  int n = 0;
+  while (n < l) {
+    const char c = fullpath.get_ptr()[n];
+
+    const bool sep = is_path_separator(c);
+    const bool back_sep = is_path_separator(cur_path.back());
+    const bool is_last_char = (n == (l - 1));
+
+    if (((sep) && (!back_sep)) || (is_last_char)) {
+      if ((is_last_char) && (!sep))
+        cur_path.append_char(c);
+
+      bool valid = !cur_path.is_empty();
 
-            if ((valid) && (cur_path.get_len()))
-            {
 #ifdef WIN32
-               _mkdir(cur_path.get_ptr());
+      // reject obvious stuff (drives, beginning of UNC paths):
+      // c:\b\cool
+      // \\machine\blah
+      // \cool\blah
+      if ((cur_path.get_len() == 2) && (cur_path[1] == ':'))
+        valid = false;
+      else if ((cur_path.get_len() >= 2) && (cur_path[0] == '\\') && (cur_path[1] == '\\')) {
+        if (!got_unc)
+          valid = false;
+        got_unc = true;
+      } else if (cur_path == "\\")
+        valid = false;
+#endif
+      if (cur_path == "/")
+        valid = false;
+
+      if ((valid) && (cur_path.get_len())) {
+#ifdef WIN32
+        _mkdir(cur_path.get_ptr());
 #else
-               mkdir(cur_path.get_ptr(), S_IRWXU | S_IRWXG | S_IRWXO );
+        mkdir(cur_path.get_ptr(), S_IRWXU | S_IRWXG | S_IRWXO);
 #endif
-            }
-         }
-
-         cur_path.append_char(c);
-
-         n++;
       }
+    }
 
-      return true;
-   }
+    cur_path.append_char(c);
 
-   void file_utils::trim_trailing_seperator(dynamic_string& path)
-   {
-      if ((path.get_len()) && (is_path_separator(path.back())))
-         path.truncate(path.get_len() - 1);
-   }
+    n++;
+  }
 
-   // See http://www.codeproject.com/KB/string/wildcmp.aspx
-   int file_utils::wildcmp(const char* pWild, const char* pString)
-   {
-      const char* cp = NULL, *mp = NULL;
+  return true;
+}
 
-      while ((*pString) && (*pWild != '*'))
-      {
-         if ((*pWild != *pString) && (*pWild != '?'))
-            return 0;
-         pWild++;
-         pString++;
-      }
+void file_utils::trim_trailing_seperator(dynamic_string& path) {
+  if ((path.get_len()) && (is_path_separator(path.back())))
+    path.truncate(path.get_len() - 1);
+}
 
-      // Either *pString=='\0' or *pWild='*' here.
+// See http://www.codeproject.com/KB/string/wildcmp.aspx
+int file_utils::wildcmp(const char* pWild, const char* pString) {
+  const char *cp = NULL, *mp = NULL;
 
-      while (*pString)
-      {
-         if (*pWild == '*')
-         {
-            if (!*++pWild)
-               return 1;
-            mp = pWild;
-            cp = pString+1;
-         }
-         else if ((*pWild == *pString) || (*pWild == '?'))
-         {
-            pWild++;
-            pString++;
-         }
-         else
-         {
-            pWild = mp;
-            pString = cp++;
-         }
-      }
+  while ((*pString) && (*pWild != '*')) {
+    if ((*pWild != *pString) && (*pWild != '?'))
+      return 0;
+    pWild++;
+    pString++;
+  }
 
-      while (*pWild == '*')
-         pWild++;
+  // Either *pString=='\0' or *pWild='*' here.
 
-      return !*pWild;
-   }
+  while (*pString) {
+    if (*pWild == '*') {
+      if (!*++pWild)
+        return 1;
+      mp = pWild;
+      cp = pString + 1;
+    } else if ((*pWild == *pString) || (*pWild == '?')) {
+      pWild++;
+      pString++;
+    } else {
+      pWild = mp;
+      pString = cp++;
+    }
+  }
 
-   bool file_utils::write_buf_to_file(const char* pPath, const void* pData, size_t data_size)
-   {
-      FILE *pFile = NULL;
+  while (*pWild == '*')
+    pWild++;
+
+  return !*pWild;
+}
+
+bool file_utils::write_buf_to_file(const char* pPath, const void* pData, size_t data_size) {
+  FILE* pFile = NULL;
 
 #ifdef _MSC_VER
-      // Compiling with MSVC
-      if (fopen_s(&pFile, pPath, "wb"))
-         return false;
+  // Compiling with MSVC
+  if (fopen_s(&pFile, pPath, "wb"))
+    return false;
 #else
-      pFile = fopen(pPath, "wb");
+  pFile = fopen(pPath, "wb");
 #endif
-      if (!pFile)
-         return false;
+  if (!pFile)
+    return false;
 
-      bool success = fwrite(pData, 1, data_size, pFile) == data_size;
+  bool success = fwrite(pData, 1, data_size, pFile) == data_size;
 
-      fclose(pFile);
+  fclose(pFile);
 
-      return success;
-   }
+  return success;
+}
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_file_utils.h

@@ -2,42 +2,40 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   struct file_utils
-   {
-      // Returns true if pSrcFilename is older than pDstFilename
-      static bool is_read_only(const char* pFilename);
-      static bool disable_read_only(const char* pFilename);
-      static bool is_older_than(const char *pSrcFilename, const char* pDstFilename);
-      static bool does_file_exist(const char* pFilename);
-      static bool does_dir_exist(const char* pDir);
-      static bool get_file_size(const char* pFilename, uint64& file_size);
-      static bool get_file_size(const char* pFilename, uint32& file_size);
+namespace crnlib {
+struct file_utils {
+  // Returns true if pSrcFilename is older than pDstFilename
+  static bool is_read_only(const char* pFilename);
+  static bool disable_read_only(const char* pFilename);
+  static bool is_older_than(const char* pSrcFilename, const char* pDstFilename);
+  static bool does_file_exist(const char* pFilename);
+  static bool does_dir_exist(const char* pDir);
+  static bool get_file_size(const char* pFilename, uint64& file_size);
+  static bool get_file_size(const char* pFilename, uint32& file_size);
 
-      static bool is_path_separator(char c);
-      static bool is_path_or_drive_separator(char c);
-      static bool is_drive_separator(char c);
+  static bool is_path_separator(char c);
+  static bool is_path_or_drive_separator(char c);
+  static bool is_drive_separator(char c);
 
-      static bool split_path(const char* p, dynamic_string* pDrive, dynamic_string* pDir, dynamic_string* pFilename, dynamic_string* pExt);
-      static bool split_path(const char* p, dynamic_string& path, dynamic_string& filename);
+  static bool split_path(const char* p, dynamic_string* pDrive, dynamic_string* pDir, dynamic_string* pFilename, dynamic_string* pExt);
+  static bool split_path(const char* p, dynamic_string& path, dynamic_string& filename);
 
-      static bool get_pathname(const char* p, dynamic_string& path);
-      static bool get_filename(const char* p, dynamic_string& filename);
+  static bool get_pathname(const char* p, dynamic_string& path);
+  static bool get_filename(const char* p, dynamic_string& filename);
 
-      static void combine_path(dynamic_string& dst, const char* pA, const char* pB);
-      static void combine_path(dynamic_string& dst, const char* pA, const char* pB, const char* pC);
+  static void combine_path(dynamic_string& dst, const char* pA, const char* pB);
+  static void combine_path(dynamic_string& dst, const char* pA, const char* pB, const char* pC);
 
-      static bool full_path(dynamic_string& path);
-      static bool get_extension(dynamic_string& filename);
-      static bool remove_extension(dynamic_string& filename);
-      static bool create_path(const dynamic_string& path);
-      static void trim_trailing_seperator(dynamic_string& path);
+  static bool full_path(dynamic_string& path);
+  static bool get_extension(dynamic_string& filename);
+  static bool remove_extension(dynamic_string& filename);
+  static bool create_path(const dynamic_string& path);
+  static void trim_trailing_seperator(dynamic_string& path);
 
-      static int wildcmp(const char* pWild, const char* pString);
+  static int wildcmp(const char* pWild, const char* pString);
 
-      static bool write_buf_to_file(const char* pPath, const void* pData, size_t data_size);
+  static bool write_buf_to_file(const char* pPath, const void* pData, size_t data_size);
 
-   }; // struct file_utils
+};  // struct file_utils
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_find_files.cpp

@@ -13,275 +13,241 @@
 #include <dirent.h>
 #endif
 
-namespace crnlib
-{
+namespace crnlib {
 #ifdef CRNLIB_USE_WIN32_API
-   bool find_files::find(const char* pBasepath, const char* pFilespec, uint flags)
-   {
-      m_last_error = S_OK;
-      m_files.resize(0);
+bool find_files::find(const char* pBasepath, const char* pFilespec, uint flags) {
+  m_last_error = S_OK;
+  m_files.resize(0);
 
-      return find_internal(pBasepath, "", pFilespec, flags, 0);
-   }
+  return find_internal(pBasepath, "", pFilespec, flags, 0);
+}
 
-   bool find_files::find(const char* pSpec, uint flags)
-   {
-      dynamic_string find_name(pSpec);
+bool find_files::find(const char* pSpec, uint flags) {
+  dynamic_string find_name(pSpec);
 
-      if (!file_utils::full_path(find_name))
-         return false;
+  if (!file_utils::full_path(find_name))
+    return false;
 
-      dynamic_string find_pathname, find_filename;
-      if (!file_utils::split_path(find_name.get_ptr(), find_pathname, find_filename))
-         return false;
+  dynamic_string find_pathname, find_filename;
+  if (!file_utils::split_path(find_name.get_ptr(), find_pathname, find_filename))
+    return false;
 
-      return find(find_pathname.get_ptr(), find_filename.get_ptr(), flags);
-   }
+  return find(find_pathname.get_ptr(), find_filename.get_ptr(), flags);
+}
 
-   bool find_files::find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level)
-   {
-      WIN32_FIND_DATAA find_data;
+bool find_files::find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level) {
+  WIN32_FIND_DATAA find_data;
 
-      dynamic_string filename;
+  dynamic_string filename;
 
-      dynamic_string_array child_paths;
-      if (flags & cFlagRecursive)
-      {
-         if (strlen(pRelpath))
-            file_utils::combine_path(filename, pBasepath, pRelpath, "*");
-         else
-            file_utils::combine_path(filename, pBasepath, "*");
+  dynamic_string_array child_paths;
+  if (flags & cFlagRecursive) {
+    if (strlen(pRelpath))
+      file_utils::combine_path(filename, pBasepath, pRelpath, "*");
+    else
+      file_utils::combine_path(filename, pBasepath, "*");
 
-         HANDLE handle = FindFirstFileA(filename.get_ptr(), &find_data);
-         if (handle == INVALID_HANDLE_VALUE)
-         {
-            HRESULT hres = GetLastError();
-            if ((level == 0) && (hres != NO_ERROR) && (hres != ERROR_FILE_NOT_FOUND))
-            {
-               m_last_error = hres;
-               return false;
-            }
-         }
-         else
-         {
-            do
-            {
-               const bool is_dir = (find_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0;
+    HANDLE handle = FindFirstFileA(filename.get_ptr(), &find_data);
+    if (handle == INVALID_HANDLE_VALUE) {
+      HRESULT hres = GetLastError();
+      if ((level == 0) && (hres != NO_ERROR) && (hres != ERROR_FILE_NOT_FOUND)) {
+        m_last_error = hres;
+        return false;
+      }
+    } else {
+      do {
+        const bool is_dir = (find_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0;
 
-               bool skip = !is_dir;
-               if (is_dir)
-                  skip = (strcmp(find_data.cFileName, ".") == 0) || (strcmp(find_data.cFileName, "..") == 0);
+        bool skip = !is_dir;
+        if (is_dir)
+          skip = (strcmp(find_data.cFileName, ".") == 0) || (strcmp(find_data.cFileName, "..") == 0);
 
-               if (find_data.dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_TEMPORARY))
-                  skip = true;
+        if (find_data.dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_TEMPORARY))
+          skip = true;
 
-               if (find_data.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN)
-               {
-                  if ((flags & cFlagAllowHidden) == 0)
-                     skip = true;
-               }
+        if (find_data.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN) {
+          if ((flags & cFlagAllowHidden) == 0)
+            skip = true;
+        }
 
-               if (!skip)
-               {
-                  dynamic_string child_path(find_data.cFileName);
-                  if ((!child_path.count_char('?')) && (!child_path.count_char('*')))
-                     child_paths.push_back(child_path);
-               }
+        if (!skip) {
+          dynamic_string child_path(find_data.cFileName);
+          if ((!child_path.count_char('?')) && (!child_path.count_char('*')))
+            child_paths.push_back(child_path);
+        }
 
-            } while (FindNextFileA(handle, &find_data) != 0);
+      } while (FindNextFileA(handle, &find_data) != 0);
 
-            HRESULT hres = GetLastError();
+      HRESULT hres = GetLastError();
 
-            FindClose(handle);
-            handle = INVALID_HANDLE_VALUE;
+      FindClose(handle);
+      handle = INVALID_HANDLE_VALUE;
 
-            if (hres != ERROR_NO_MORE_FILES)
-            {
-               m_last_error = hres;
-               return false;
-            }
-         }
+      if (hres != ERROR_NO_MORE_FILES) {
+        m_last_error = hres;
+        return false;
+      }
+    }
+  }
+
+  if (strlen(pRelpath))
+    file_utils::combine_path(filename, pBasepath, pRelpath, pFilespec);
+  else
+    file_utils::combine_path(filename, pBasepath, pFilespec);
+
+  HANDLE handle = FindFirstFileA(filename.get_ptr(), &find_data);
+  if (handle == INVALID_HANDLE_VALUE) {
+    HRESULT hres = GetLastError();
+    if ((level == 0) && (hres != NO_ERROR) && (hres != ERROR_FILE_NOT_FOUND)) {
+      m_last_error = hres;
+      return false;
+    }
+  } else {
+    do {
+      const bool is_dir = (find_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0;
+
+      bool skip = false;
+      if (is_dir)
+        skip = (strcmp(find_data.cFileName, ".") == 0) || (strcmp(find_data.cFileName, "..") == 0);
+
+      if (find_data.dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_TEMPORARY))
+        skip = true;
+
+      if (find_data.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN) {
+        if ((flags & cFlagAllowHidden) == 0)
+          skip = true;
       }
 
-      if (strlen(pRelpath))
-         file_utils::combine_path(filename, pBasepath, pRelpath, pFilespec);
-      else
-         file_utils::combine_path(filename, pBasepath, pFilespec);
-
-      HANDLE handle = FindFirstFileA(filename.get_ptr(), &find_data);
-      if (handle == INVALID_HANDLE_VALUE)
-      {
-         HRESULT hres = GetLastError();
-         if ((level == 0) && (hres != NO_ERROR) && (hres != ERROR_FILE_NOT_FOUND))
-         {
-            m_last_error = hres;
-            return false;
-         }
-      }
-      else
-      {
-         do
-         {
-            const bool is_dir = (find_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0;
-
-            bool skip = false;
-            if (is_dir)
-               skip = (strcmp(find_data.cFileName, ".") == 0) || (strcmp(find_data.cFileName, "..") == 0);
-
-            if (find_data.dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_TEMPORARY))
-               skip = true;
-
-            if (find_data.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN)
-            {
-               if ((flags & cFlagAllowHidden) == 0)
-                  skip = true;
-            }
-
-            if (!skip)
-            {
-               if (((is_dir) && (flags & cFlagAllowDirs)) || ((!is_dir) && (flags & cFlagAllowFiles)))
-               {
-                  m_files.resize(m_files.size() + 1);
-                  file_desc& file = m_files.back();
-                  file.m_is_dir = is_dir;
-                  file.m_base = pBasepath;
-                  file.m_name = find_data.cFileName;
-                  file.m_rel = pRelpath;
-                  if (strlen(pRelpath))
-                     file_utils::combine_path(file.m_fullname, pBasepath, pRelpath, find_data.cFileName);
-                  else
-                     file_utils::combine_path(file.m_fullname, pBasepath, find_data.cFileName);
-               }
-            }
-
-         } while (FindNextFileA(handle, &find_data) != 0);
-
-         HRESULT hres = GetLastError();
-
-         FindClose(handle);
-
-         if (hres != ERROR_NO_MORE_FILES)
-         {
-            m_last_error = hres;
-            return false;
-         }
+      if (!skip) {
+        if (((is_dir) && (flags & cFlagAllowDirs)) || ((!is_dir) && (flags & cFlagAllowFiles))) {
+          m_files.resize(m_files.size() + 1);
+          file_desc& file = m_files.back();
+          file.m_is_dir = is_dir;
+          file.m_base = pBasepath;
+          file.m_name = find_data.cFileName;
+          file.m_rel = pRelpath;
+          if (strlen(pRelpath))
+            file_utils::combine_path(file.m_fullname, pBasepath, pRelpath, find_data.cFileName);
+          else
+            file_utils::combine_path(file.m_fullname, pBasepath, find_data.cFileName);
+        }
       }
 
-      for (uint i = 0; i < child_paths.size(); i++)
-      {
-         dynamic_string child_path;
-         if (strlen(pRelpath))
-            file_utils::combine_path(child_path, pRelpath, child_paths[i].get_ptr());
-         else
-            child_path = child_paths[i];
+    } while (FindNextFileA(handle, &find_data) != 0);
 
-         if (!find_internal(pBasepath, child_path.get_ptr(), pFilespec, flags, level + 1))
-            return false;
-      }
+    HRESULT hres = GetLastError();
 
-      return true;
-   }
+    FindClose(handle);
+
+    if (hres != ERROR_NO_MORE_FILES) {
+      m_last_error = hres;
+      return false;
+    }
+  }
+
+  for (uint i = 0; i < child_paths.size(); i++) {
+    dynamic_string child_path;
+    if (strlen(pRelpath))
+      file_utils::combine_path(child_path, pRelpath, child_paths[i].get_ptr());
+    else
+      child_path = child_paths[i];
+
+    if (!find_internal(pBasepath, child_path.get_ptr(), pFilespec, flags, level + 1))
+      return false;
+  }
+
+  return true;
+}
 #elif defined(__GNUC__)
-   bool find_files::find(const char* pBasepath, const char* pFilespec, uint flags)
-   {
-      m_files.resize(0);
-      return find_internal(pBasepath, "", pFilespec, flags, 0);
-   }
+bool find_files::find(const char* pBasepath, const char* pFilespec, uint flags) {
+  m_files.resize(0);
+  return find_internal(pBasepath, "", pFilespec, flags, 0);
+}
 
-   bool find_files::find(const char* pSpec, uint flags)
-   {
-      dynamic_string find_name(pSpec);
+bool find_files::find(const char* pSpec, uint flags) {
+  dynamic_string find_name(pSpec);
 
-      if (!file_utils::full_path(find_name))
-         return false;
+  if (!file_utils::full_path(find_name))
+    return false;
 
-      dynamic_string find_pathname, find_filename;
-      if (!file_utils::split_path(find_name.get_ptr(), find_pathname, find_filename))
-         return false;
+  dynamic_string find_pathname, find_filename;
+  if (!file_utils::split_path(find_name.get_ptr(), find_pathname, find_filename))
+    return false;
 
-      return find(find_pathname.get_ptr(), find_filename.get_ptr(), flags);
-   }
+  return find(find_pathname.get_ptr(), find_filename.get_ptr(), flags);
+}
 
-   bool find_files::find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level)
-   {
-      dynamic_string pathname;
+bool find_files::find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level) {
+  dynamic_string pathname;
+  if (strlen(pRelpath))
+    file_utils::combine_path(pathname, pBasepath, pRelpath);
+  else
+    pathname = pBasepath;
+
+  if (!pathname.is_empty()) {
+    char c = pathname.back();
+    if (c != '/')
+      pathname += "/";
+  }
+
+  DIR* dp = opendir(pathname.get_ptr());
+
+  if (!dp)
+    return level ? true : false;
+
+  dynamic_string_array paths;
+
+  for (;;) {
+    struct dirent* ep = readdir(dp);
+    if (!ep)
+      break;
+    if ((strcmp(ep->d_name, ".") == 0) || (strcmp(ep->d_name, "..") == 0))
+      continue;
+
+    const bool is_directory = (ep->d_type & DT_DIR) != 0;
+    const bool is_file = (ep->d_type & DT_REG) != 0;
+
+    dynamic_string filename(ep->d_name);
+
+    if (is_directory) {
+      if (flags & cFlagRecursive) {
+        paths.push_back(filename);
+      }
+    }
+
+    if (((is_file) && (flags & cFlagAllowFiles)) || ((is_directory) && (flags & cFlagAllowDirs))) {
+      if (0 == fnmatch(pFilespec, filename.get_ptr(), 0)) {
+        m_files.resize(m_files.size() + 1);
+        file_desc& file = m_files.back();
+        file.m_is_dir = is_directory;
+        file.m_base = pBasepath;
+        file.m_rel = pRelpath;
+        file.m_name = filename;
+        file.m_fullname = pathname + filename;
+      }
+    }
+  }
+
+  closedir(dp);
+  dp = NULL;
+
+  if (flags & cFlagRecursive) {
+    for (uint i = 0; i < paths.size(); i++) {
+      dynamic_string childpath;
       if (strlen(pRelpath))
-         file_utils::combine_path(pathname, pBasepath, pRelpath);
+        file_utils::combine_path(childpath, pRelpath, paths[i].get_ptr());
       else
-         pathname = pBasepath;
+        childpath = paths[i];
 
-      if (!pathname.is_empty())
-      {
-         char c = pathname.back();
-         if (c != '/')
-            pathname += "/";
-      }
+      if (!find_internal(pBasepath, childpath.get_ptr(), pFilespec, flags, level + 1))
+        return false;
+    }
+  }
 
-      DIR *dp = opendir(pathname.get_ptr());
-
-      if (!dp)
-         return level ? true : false;
-
-      dynamic_string_array paths;
-
-      for ( ; ; )
-      {
-         struct dirent *ep = readdir(dp);
-         if (!ep)
-            break;
-         if ((strcmp(ep->d_name, ".") == 0) || (strcmp(ep->d_name, "..") == 0))
-            continue;
-
-         const bool is_directory = (ep->d_type & DT_DIR) != 0;
-         const bool is_file =  (ep->d_type & DT_REG) != 0;
-
-         dynamic_string filename(ep->d_name);
-
-         if (is_directory)
-         {
-            if (flags & cFlagRecursive)
-            {
-               paths.push_back(filename);
-            }
-         }
-
-         if (((is_file) && (flags & cFlagAllowFiles)) || ((is_directory) && (flags & cFlagAllowDirs)))
-         {
-            if (0 == fnmatch(pFilespec, filename.get_ptr(), 0))
-            {
-               m_files.resize(m_files.size() + 1);
-               file_desc& file = m_files.back();
-               file.m_is_dir = is_directory;
-               file.m_base = pBasepath;
-               file.m_rel = pRelpath;
-               file.m_name = filename;
-               file.m_fullname = pathname + filename;
-            }
-         }
-      }
-
-      closedir(dp);
-      dp = NULL;
-
-      if (flags & cFlagRecursive)
-      {
-         for (uint i = 0; i < paths.size(); i++)
-         {
-            dynamic_string childpath;
-            if (strlen(pRelpath))
-               file_utils::combine_path(childpath, pRelpath, paths[i].get_ptr());
-            else
-               childpath = paths[i];
-
-            if (!find_internal(pBasepath, childpath.get_ptr(), pFilespec, flags, level + 1))
-               return false;
-         }
-      }
-
-      return true;
-   }
+  return true;
+}
 #else
-   #error Unimplemented
+#error Unimplemented
 #endif
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_find_files.h

@@ -2,59 +2,55 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   class find_files
-   {
-   public:
-      struct file_desc
-      {
-         inline file_desc() : m_is_dir(false) { }
+namespace crnlib {
+class find_files {
+ public:
+  struct file_desc {
+    inline file_desc()
+        : m_is_dir(false) {}
 
-         dynamic_string  m_fullname;
-         dynamic_string  m_base;
-         dynamic_string  m_rel;
-         dynamic_string  m_name;
-         bool            m_is_dir;
+    dynamic_string m_fullname;
+    dynamic_string m_base;
+    dynamic_string m_rel;
+    dynamic_string m_name;
+    bool m_is_dir;
 
-         inline bool operator== (const file_desc& other) const { return m_fullname == other.m_fullname; }
-         inline bool operator< (const file_desc& other) const { return m_fullname < other.m_fullname; }
+    inline bool operator==(const file_desc& other) const { return m_fullname == other.m_fullname; }
+    inline bool operator<(const file_desc& other) const { return m_fullname < other.m_fullname; }
 
-         inline operator size_t() const { return static_cast<size_t>(m_fullname); }
-      };
+    inline operator size_t() const { return static_cast<size_t>(m_fullname); }
+  };
 
-      typedef crnlib::vector<file_desc> file_desc_vec;
+  typedef crnlib::vector<file_desc> file_desc_vec;
 
-      inline find_files()
-      {
-         m_last_error = 0; // S_OK;
-      }
+  inline find_files() {
+    m_last_error = 0;  // S_OK;
+  }
 
-      enum flags
-      {
-         cFlagRecursive = 1,
-         cFlagAllowDirs = 2,
-         cFlagAllowFiles = 4,
-         cFlagAllowHidden = 8
-      };
+  enum flags {
+    cFlagRecursive = 1,
+    cFlagAllowDirs = 2,
+    cFlagAllowFiles = 4,
+    cFlagAllowHidden = 8
+  };
 
-      bool find(const char* pBasepath, const char* pFilespec, uint flags = cFlagAllowFiles);
+  bool find(const char* pBasepath, const char* pFilespec, uint flags = cFlagAllowFiles);
 
-      bool find(const char* pSpec, uint flags = cFlagAllowFiles);
+  bool find(const char* pSpec, uint flags = cFlagAllowFiles);
 
-      // An HRESULT under Win32. FIXME: Abstract this better?
-      inline int64 get_last_error() const { return m_last_error; }
+  // An HRESULT under Win32. FIXME: Abstract this better?
+  inline int64 get_last_error() const { return m_last_error; }
 
-      const file_desc_vec& get_files() const { return m_files; }
+  const file_desc_vec& get_files() const { return m_files; }
 
-   private:
-      file_desc_vec m_files;
+ private:
+  file_desc_vec m_files;
 
-      // A HRESULT under Win32
-      int64 m_last_error;
+  // A HRESULT under Win32
+  int64 m_last_error;
 
-      bool find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level);
+  bool find_internal(const char* pBasepath, const char* pRelpath, const char* pFilespec, uint flags, int level);
 
-   }; // class find_files
+};  // class find_files
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_freeimage_image_utils.h

@@ -6,153 +6,139 @@
 
 #include "freeImagePlus.h"
 
-namespace crnlib
-{
-   namespace freeimage_image_utils
-   {
-      inline bool load_from_file(image_u8& dest, const wchar_t* pFilename, int fi_flag)
-      {
-         fipImage src_image;
+namespace crnlib {
+namespace freeimage_image_utils {
+inline bool load_from_file(image_u8& dest, const wchar_t* pFilename, int fi_flag) {
+  fipImage src_image;
 
-         if (!src_image.loadU(pFilename, fi_flag))
-            return false;
-         
-         const uint orig_bits_per_pixel = src_image.getBitsPerPixel();
+  if (!src_image.loadU(pFilename, fi_flag))
+    return false;
 
-         const FREE_IMAGE_COLOR_TYPE orig_color_type = src_image.getColorType();
-         
-         if (!src_image.convertTo32Bits())
-            return false;
+  const uint orig_bits_per_pixel = src_image.getBitsPerPixel();
 
-         if (src_image.getBitsPerPixel() != 32)
-            return false;
+  const FREE_IMAGE_COLOR_TYPE orig_color_type = src_image.getColorType();
 
-         uint width = src_image.getWidth();
-         uint height = src_image.getHeight();
+  if (!src_image.convertTo32Bits())
+    return false;
 
-         dest.resize(src_image.getWidth(), src_image.getHeight(), src_image.getWidth());
+  if (src_image.getBitsPerPixel() != 32)
+    return false;
 
-         color_quad_u8* pDst = dest.get_ptr();
+  uint width = src_image.getWidth();
+  uint height = src_image.getHeight();
 
-         bool grayscale = true;
-         bool has_alpha = false;
-         for (uint y = 0; y < height; y++)
-         {
-            const BYTE* pSrc = src_image.getScanLine((WORD)(height - 1 - y));
-            color_quad_u8* pD = pDst;
+  dest.resize(src_image.getWidth(), src_image.getHeight(), src_image.getWidth());
 
-            for (uint x = width; x; x--)
-            {
-               color_quad_u8 c;
-               c.r = pSrc[FI_RGBA_RED];
-               c.g = pSrc[FI_RGBA_GREEN];
-               c.b = pSrc[FI_RGBA_BLUE];
-               c.a = pSrc[FI_RGBA_ALPHA];
-               
-               if (!c.is_grayscale())
-                  grayscale = false;
-               has_alpha |= (c.a < 255);
+  color_quad_u8* pDst = dest.get_ptr();
 
-               pSrc += 4;
-               *pD++ = c;
-            }
+  bool grayscale = true;
+  bool has_alpha = false;
+  for (uint y = 0; y < height; y++) {
+    const BYTE* pSrc = src_image.getScanLine((WORD)(height - 1 - y));
+    color_quad_u8* pD = pDst;
 
-            pDst += width;
-         }
+    for (uint x = width; x; x--) {
+      color_quad_u8 c;
+      c.r = pSrc[FI_RGBA_RED];
+      c.g = pSrc[FI_RGBA_GREEN];
+      c.b = pSrc[FI_RGBA_BLUE];
+      c.a = pSrc[FI_RGBA_ALPHA];
 
-         dest.reset_comp_flags();
-         
-         if (grayscale)
-            dest.set_grayscale(true);
-         
-         dest.set_component_valid(3, has_alpha || (orig_color_type == FIC_RGBALPHA) || (orig_bits_per_pixel == 32));
+      if (!c.is_grayscale())
+        grayscale = false;
+      has_alpha |= (c.a < 255);
 
-         return true;
-      }
-            
-      const int cSaveLuma = -1;
-      
-      inline bool save_to_grayscale_file(const wchar_t* pFilename, const image_u8& src, int component, int fi_flag)
-      {
-         fipImage dst_image(FIT_BITMAP, (WORD)src.get_width(), (WORD)src.get_height(), 8);
+      pSrc += 4;
+      *pD++ = c;
+    }
 
-         RGBQUAD* p = dst_image.getPalette();
-         for (uint i = 0; i < dst_image.getPaletteSize(); i++)
-         {
-            p[i].rgbRed = (BYTE)i;
-            p[i].rgbGreen = (BYTE)i;
-            p[i].rgbBlue = (BYTE)i;
-            p[i].rgbReserved = 255;
-         }
+    pDst += width;
+  }
 
-         for (uint y = 0; y < src.get_height(); y++)
-         {
-            const color_quad_u8* pSrc = src.get_scanline(y);
+  dest.reset_comp_flags();
 
-            for (uint x = 0; x < src.get_width(); x++)
-            {
-               BYTE v;
-               if (component == cSaveLuma)
-                  v = (BYTE)(*pSrc).get_luma();
-               else
-                  v = (*pSrc)[component];
-               dst_image.setPixelIndex(x, src.get_height() - 1 - y, &v);
+  if (grayscale)
+    dest.set_grayscale(true);
 
-               pSrc++;
-            } 
-         }
+  dest.set_component_valid(3, has_alpha || (orig_color_type == FIC_RGBALPHA) || (orig_bits_per_pixel == 32));
 
-         if (!dst_image.saveU(pFilename, fi_flag))
-            return false; 
+  return true;
+}
 
-         return true;
-      }
+const int cSaveLuma = -1;
 
-      inline bool save_to_file(const wchar_t* pFilename, const image_u8& src, int fi_flag, bool ignore_alpha = false)
-      {
-         const bool save_alpha = src.is_component_valid(3);
-         uint bpp = (save_alpha && !ignore_alpha) ? 32 : 24;
-         
-         if (bpp == 32)
-         {
-            dynamic_wstring ext(pFilename);
-            get_extension(ext);
+inline bool save_to_grayscale_file(const wchar_t* pFilename, const image_u8& src, int component, int fi_flag) {
+  fipImage dst_image(FIT_BITMAP, (WORD)src.get_width(), (WORD)src.get_height(), 8);
 
-            if ((ext == L"jpg") || (ext == L"jpeg") || (ext == L"gif") || (ext == L"jp2"))
-               bpp = 24;
-         }
-         
-         if ((bpp == 24) && (src.is_grayscale()))
-            return save_to_grayscale_file(pFilename, src, cSaveLuma, fi_flag);
-                  
-         fipImage dst_image(FIT_BITMAP, (WORD)src.get_width(), (WORD)src.get_height(), (WORD)bpp);
+  RGBQUAD* p = dst_image.getPalette();
+  for (uint i = 0; i < dst_image.getPaletteSize(); i++) {
+    p[i].rgbRed = (BYTE)i;
+    p[i].rgbGreen = (BYTE)i;
+    p[i].rgbBlue = (BYTE)i;
+    p[i].rgbReserved = 255;
+  }
 
-         for (uint y = 0; y < src.get_height(); y++)
-         {
-            for (uint x = 0; x < src.get_width(); x++)
-            {
-               color_quad_u8 c(src(x, y));
+  for (uint y = 0; y < src.get_height(); y++) {
+    const color_quad_u8* pSrc = src.get_scanline(y);
 
-               RGBQUAD quad;
-               quad.rgbRed = c.r;
-               quad.rgbGreen = c.g;
-               quad.rgbBlue = c.b;
-               if (bpp == 32)
-                  quad.rgbReserved = c.a;
-               else
-                  quad.rgbReserved = 255;
+    for (uint x = 0; x < src.get_width(); x++) {
+      BYTE v;
+      if (component == cSaveLuma)
+        v = (BYTE)(*pSrc).get_luma();
+      else
+        v = (*pSrc)[component];
+      dst_image.setPixelIndex(x, src.get_height() - 1 - y, &v);
 
-               dst_image.setPixelColor(x, src.get_height() - 1 - y, &quad);
-            } 
-         }
+      pSrc++;
+    }
+  }
 
-         if (!dst_image.saveU(pFilename, fi_flag))
-            return false; 
+  if (!dst_image.saveU(pFilename, fi_flag))
+    return false;
 
-         return true;
-      }
-   
-   } // namespace freeimage_image_utils
-   
-} // namespace crnlib
+  return true;
+}
 
+inline bool save_to_file(const wchar_t* pFilename, const image_u8& src, int fi_flag, bool ignore_alpha = false) {
+  const bool save_alpha = src.is_component_valid(3);
+  uint bpp = (save_alpha && !ignore_alpha) ? 32 : 24;
+
+  if (bpp == 32) {
+    dynamic_wstring ext(pFilename);
+    get_extension(ext);
+
+    if ((ext == L"jpg") || (ext == L"jpeg") || (ext == L"gif") || (ext == L"jp2"))
+      bpp = 24;
+  }
+
+  if ((bpp == 24) && (src.is_grayscale()))
+    return save_to_grayscale_file(pFilename, src, cSaveLuma, fi_flag);
+
+  fipImage dst_image(FIT_BITMAP, (WORD)src.get_width(), (WORD)src.get_height(), (WORD)bpp);
+
+  for (uint y = 0; y < src.get_height(); y++) {
+    for (uint x = 0; x < src.get_width(); x++) {
+      color_quad_u8 c(src(x, y));
+
+      RGBQUAD quad;
+      quad.rgbRed = c.r;
+      quad.rgbGreen = c.g;
+      quad.rgbBlue = c.b;
+      if (bpp == 32)
+        quad.rgbReserved = c.a;
+      else
+        quad.rgbReserved = 255;
+
+      dst_image.setPixelColor(x, src.get_height() - 1 - y, &quad);
+    }
+  }
+
+  if (!dst_image.saveU(pFilename, fi_flag))
+    return false;
+
+  return true;
+}
+
+}  // namespace freeimage_image_utils
+
+}  // namespace crnlib

crnlib/crn_hash.cpp

@@ -5,64 +5,64 @@
 #include "crn_core.h"
 
 #undef get16bits
-#if (defined(__GNUC__) && defined(__i386__)) || defined(__WATCOMC__) \
-   || defined(_MSC_VER) || defined (__BORLANDC__) || defined (__TURBOC__)
-#define get16bits(d) (*((const uint16 *) (d)))
+#if (defined(__GNUC__) && defined(__i386__)) || defined(__WATCOMC__) || defined(_MSC_VER) || defined(__BORLANDC__) || defined(__TURBOC__)
+#define get16bits(d) (*((const uint16*)(d)))
 #endif
 
-#if !defined (get16bits)
-#define get16bits(d) ((((uint32)(((const uint8 *)(d))[1])) << 8)\
-   +(uint32)(((const uint8 *)(d))[0]) )
+#if !defined(get16bits)
+#define get16bits(d) ((((uint32)(((const uint8*)(d))[1])) << 8) + (uint32)(((const uint8*)(d))[0]))
 #endif
 
-namespace crnlib
-{
-   uint32 fast_hash (const void* p, int len) 
-   {
-      const char * data = static_cast<const char *>(p);
-      
-      uint32 hash = len, tmp;
-      int rem;
+namespace crnlib {
+uint32 fast_hash(const void* p, int len) {
+  const char* data = static_cast<const char*>(p);
 
-      if (len <= 0 || data == NULL) return 0;
+  uint32 hash = len, tmp;
+  int rem;
 
-      rem = len & 3;
-      len >>= 2;
+  if (len <= 0 || data == NULL)
+    return 0;
 
-      /* Main loop */
-      for (;len > 0; len--) {
-         hash  += get16bits (data);
-         tmp    = (get16bits (data+2) << 11) ^ hash;
-         hash   = (hash << 16) ^ tmp;
-         data  += 2*sizeof (uint16);
-         hash  += hash >> 11;
-      }
+  rem = len & 3;
+  len >>= 2;
 
-      /* Handle end cases */
-      switch (rem) {
-           case 3: hash += get16bits (data);
-              hash ^= hash << 16;
-              hash ^= data[sizeof (uint16)] << 18;
-              hash += hash >> 11;
-              break;
-           case 2: hash += get16bits (data);
-              hash ^= hash << 11;
-              hash += hash >> 17;
-              break;
-           case 1: hash += *data;
-              hash ^= hash << 10;
-              hash += hash >> 1;
-      }
+  /* Main loop */
+  for (; len > 0; len--) {
+    hash += get16bits(data);
+    tmp = (get16bits(data + 2) << 11) ^ hash;
+    hash = (hash << 16) ^ tmp;
+    data += 2 * sizeof(uint16);
+    hash += hash >> 11;
+  }
 
-      /* Force "avalanching" of final 127 bits */
-      hash ^= hash << 3;
-      hash += hash >> 5;
-      hash ^= hash << 4;
+  /* Handle end cases */
+  switch (rem) {
+    case 3:
+      hash += get16bits(data);
+      hash ^= hash << 16;
+      hash ^= data[sizeof(uint16)] << 18;
+      hash += hash >> 11;
+      break;
+    case 2:
+      hash += get16bits(data);
+      hash ^= hash << 11;
       hash += hash >> 17;
-      hash ^= hash << 25;
-      hash += hash >> 6;
+      break;
+    case 1:
+      hash += *data;
+      hash ^= hash << 10;
+      hash += hash >> 1;
+  }
 
-      return hash;
-   }
+  /* Force "avalanching" of final 127 bits */
+  hash ^= hash << 3;
+  hash += hash >> 5;
+  hash ^= hash << 4;
+  hash += hash >> 17;
+  hash ^= hash << 25;
+  hash += hash >> 6;
+
+  return hash;
+}
 
 }  // namespace crnlib

crnlib/crn_hash.h

@@ -2,33 +2,30 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   uint32 fast_hash (const void* p, int len);
-   
-   // 4-byte integer hash, full avalanche
-   inline uint32 bitmix32c(uint32 a)
-   {
-      a = (a+0x7ed55d16) + (a<<12);
-      a = (a^0xc761c23c) ^ (a>>19);
-      a = (a+0x165667b1) + (a<<5);
-      a = (a+0xd3a2646c) ^ (a<<9);
-      a = (a+0xfd7046c5) + (a<<3);
-      a = (a^0xb55a4f09) ^ (a>>16);
-      return a;
-   }
-   
-   // 4-byte integer hash, full avalanche, no constants
-   inline uint32 bitmix32(uint32 a)
-   {
-      a -= (a<<6);
-      a ^= (a>>17);
-      a -= (a<<9);
-      a ^= (a<<4);
-      a -= (a<<3);
-      a ^= (a<<10);
-      a ^= (a>>15);
-      return a;
-   }
-      
+namespace crnlib {
+uint32 fast_hash(const void* p, int len);
+
+// 4-byte integer hash, full avalanche
+inline uint32 bitmix32c(uint32 a) {
+  a = (a + 0x7ed55d16) + (a << 12);
+  a = (a ^ 0xc761c23c) ^ (a >> 19);
+  a = (a + 0x165667b1) + (a << 5);
+  a = (a + 0xd3a2646c) ^ (a << 9);
+  a = (a + 0xfd7046c5) + (a << 3);
+  a = (a ^ 0xb55a4f09) ^ (a >> 16);
+  return a;
+}
+
+// 4-byte integer hash, full avalanche, no constants
+inline uint32 bitmix32(uint32 a) {
+  a -= (a << 6);
+  a ^= (a >> 17);
+  a -= (a << 9);
+  a ^= (a << 4);
+  a -= (a << 3);
+  a ^= (a << 10);
+  a ^= (a >> 15);
+  return a;
+}
+
 }  // namespace crnlib

crnlib/crn_hash_map.cpp

@@ -4,8 +4,7 @@
 #include "crn_hash_map.h"
 #include "crn_rand.h"
 
-namespace crnlib
-{
+namespace crnlib {
 #if 0
    class counted_obj
    {
@@ -152,4 +151,4 @@ namespace crnlib
    }
 #endif
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_helpers.h

@@ -2,63 +2,61 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-#define CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(c) c(const c&); c& operator= (const c&);
-#define CRNLIB_NO_HEAP_ALLOC() private: static void* operator new(size_t); static void* operator new[](size_t);
+#define CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(c) \
+  c(const c&);                             \
+  c& operator=(const c&);
+#define CRNLIB_NO_HEAP_ALLOC()       \
+ private:                            \
+  static void* operator new(size_t); \
+  static void* operator new[](size_t);
 
-namespace crnlib
-{
-   namespace helpers
-   {
-      template<typename T> struct rel_ops 
-      {
-         friend bool operator!=(const T& x, const T& y) { return (!(x == y)); }
-         friend bool operator> (const T& x, const T& y) { return (y < x); }
-         friend bool operator<=(const T& x, const T& y) { return (!(y < x)); }
-         friend bool operator>=(const T& x, const T& y) { return (!(x < y)); }
-      };
-      
-      template <typename T> 
-      inline T* construct(T* p) 
-      { 
-         return new (static_cast<void*>(p)) T; 
-      }
+namespace crnlib {
+namespace helpers {
+template <typename T>
+struct rel_ops {
+  friend bool operator!=(const T& x, const T& y) { return (!(x == y)); }
+  friend bool operator>(const T& x, const T& y) { return (y < x); }
+  friend bool operator<=(const T& x, const T& y) { return (!(y < x)); }
+  friend bool operator>=(const T& x, const T& y) { return (!(x < y)); }
+};
 
-      template <typename T, typename U> 
-      inline T* construct(T* p, const U& init) 
-      { 
-         return new (static_cast<void*>(p)) T(init); 
-      }
+template <typename T>
+inline T* construct(T* p) {
+  return new (static_cast<void*>(p)) T;
+}
 
-      template <typename T> 
-      inline void construct_array(T* p, uint n) 
-      { 
-         T* q = p + n;
-         for ( ; p != q; ++p)
-            new (static_cast<void*>(p)) T; 
-      }
-      
-      template <typename T, typename U> 
-      inline void construct_array(T* p, uint n, const U& init) 
-      { 
-         T* q = p + n;
-         for ( ; p != q; ++p)
-            new (static_cast<void*>(p)) T(init); 
-      }
+template <typename T, typename U>
+inline T* construct(T* p, const U& init) {
+  return new (static_cast<void*>(p)) T(init);
+}
+
+template <typename T>
+inline void construct_array(T* p, uint n) {
+  T* q = p + n;
+  for (; p != q; ++p)
+    new (static_cast<void*>(p)) T;
+}
+
+template <typename T, typename U>
+inline void construct_array(T* p, uint n, const U& init) {
+  T* q = p + n;
+  for (; p != q; ++p)
+    new (static_cast<void*>(p)) T(init);
+}
+
+template <typename T>
+inline void destruct(T* p) {
+  (void)p;
+  p->~T();
+}
+
+template <typename T>
+inline void destruct_array(T* p, uint n) {
+  T* q = p + n;
+  for (; p != q; ++p)
+    p->~T();
+}
+
+}  // namespace helpers
 
-      template <typename T> 
-      inline void destruct(T* p) 
-      {	   
-         p;
-         p->~T(); 
-      } 
-      
-      template <typename T> inline void destruct_array(T* p, uint n) 
-      {	
-         T* q = p + n;
-         for ( ; p != q; ++p)
-            p->~T();
-      } 
-                  
-   }  // namespace helpers    
-   
 }  // namespace crnlib

crnlib/crn_huffman_codes.cpp

@@ -3,385 +3,364 @@
 #include "crn_core.h"
 #include "crn_huffman_codes.h"
 
-namespace crnlib
-{
-   struct sym_freq
-   {
-      uint m_freq;
-      uint16 m_left;
-      uint16 m_right;
+namespace crnlib {
+struct sym_freq {
+  uint m_freq;
+  uint16 m_left;
+  uint16 m_right;
 
-      inline bool operator< (const sym_freq& other) const
-      {
-         return m_freq > other.m_freq;
-      }
-   };
-   
-   static inline sym_freq* radix_sort_syms(uint num_syms, sym_freq* syms0, sym_freq* syms1)
-   {  
-      const uint cMaxPasses = 2;
-      uint hist[256 * cMaxPasses];
-            
-      memset(hist, 0, sizeof(hist[0]) * 256 * cMaxPasses);
+  inline bool operator<(const sym_freq& other) const {
+    return m_freq > other.m_freq;
+  }
+};
 
-      sym_freq* p = syms0;
-      sym_freq* q = syms0 + (num_syms >> 1) * 2;
+static inline sym_freq* radix_sort_syms(uint num_syms, sym_freq* syms0, sym_freq* syms1) {
+  const uint cMaxPasses = 2;
+  uint hist[256 * cMaxPasses];
 
-      for ( ; p != q; p += 2)
-      {
-         const uint freq0 = p[0].m_freq;
-         const uint freq1 = p[1].m_freq;
+  memset(hist, 0, sizeof(hist[0]) * 256 * cMaxPasses);
 
-         hist[        freq0         & 0xFF]++;
-         hist[256 + ((freq0 >>  8) & 0xFF)]++;
+  sym_freq* p = syms0;
+  sym_freq* q = syms0 + (num_syms >> 1) * 2;
 
-         hist[        freq1        & 0xFF]++;
-         hist[256 + ((freq1 >>  8) & 0xFF)]++;
+  for (; p != q; p += 2) {
+    const uint freq0 = p[0].m_freq;
+    const uint freq1 = p[1].m_freq;
+
+    hist[freq0 & 0xFF]++;
+    hist[256 + ((freq0 >> 8) & 0xFF)]++;
+
+    hist[freq1 & 0xFF]++;
+    hist[256 + ((freq1 >> 8) & 0xFF)]++;
+  }
+
+  if (num_syms & 1) {
+    const uint freq = p->m_freq;
+
+    hist[freq & 0xFF]++;
+    hist[256 + ((freq >> 8) & 0xFF)]++;
+  }
+
+  sym_freq* pCur_syms = syms0;
+  sym_freq* pNew_syms = syms1;
+
+  for (uint pass = 0; pass < cMaxPasses; pass++) {
+    const uint* pHist = &hist[pass << 8];
+
+    uint offsets[256];
+
+    uint cur_ofs = 0;
+    for (uint i = 0; i < 256; i += 2) {
+      offsets[i] = cur_ofs;
+      cur_ofs += pHist[i];
+
+      offsets[i + 1] = cur_ofs;
+      cur_ofs += pHist[i + 1];
+    }
+
+    const uint pass_shift = pass << 3;
+
+    sym_freq* p = pCur_syms;
+    sym_freq* q = pCur_syms + (num_syms >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      uint c0 = p[0].m_freq;
+      uint c1 = p[1].m_freq;
+
+      if (pass) {
+        c0 >>= 8;
+        c1 >>= 8;
       }
 
-      if (num_syms & 1)
-      {
-         const uint freq = p->m_freq;
+      c0 &= 0xFF;
+      c1 &= 0xFF;
 
-         hist[        freq        & 0xFF]++;
-         hist[256 + ((freq >>  8) & 0xFF)]++;
+      if (c0 == c1) {
+        uint dst_offset0 = offsets[c0];
+
+        offsets[c0] = dst_offset0 + 2;
+
+        pNew_syms[dst_offset0] = p[0];
+        pNew_syms[dst_offset0 + 1] = p[1];
+      } else {
+        uint dst_offset0 = offsets[c0]++;
+        uint dst_offset1 = offsets[c1]++;
+
+        pNew_syms[dst_offset0] = p[0];
+        pNew_syms[dst_offset1] = p[1];
       }
-      
-      sym_freq* pCur_syms = syms0;
-      sym_freq* pNew_syms = syms1;
+    }
 
-      for (uint pass = 0; pass < cMaxPasses; pass++)
-      {
-         const uint* pHist = &hist[pass << 8];
+    if (num_syms & 1) {
+      uint c = ((p->m_freq) >> pass_shift) & 0xFF;
 
-         uint offsets[256];
+      uint dst_offset = offsets[c];
+      offsets[c] = dst_offset + 1;
 
-         uint cur_ofs = 0;
-         for (uint i = 0; i < 256; i += 2)
-         {
-            offsets[i] = cur_ofs;
-            cur_ofs += pHist[i];
+      pNew_syms[dst_offset] = *p;
+    }
 
-            offsets[i+1] = cur_ofs;
-            cur_ofs += pHist[i+1];
-         }
-
-         const uint pass_shift = pass << 3;
-
-         sym_freq* p = pCur_syms;
-         sym_freq* q = pCur_syms + (num_syms >> 1) * 2;
-
-         for ( ; p != q; p += 2)
-         {
-            uint c0 = p[0].m_freq;
-            uint c1 = p[1].m_freq;
-            
-            if (pass)
-            {
-               c0 >>= 8;
-               c1 >>= 8;
-            }
-            
-            c0 &= 0xFF;
-            c1 &= 0xFF;
-
-            if (c0 == c1)
-            {
-               uint dst_offset0 = offsets[c0];
-
-               offsets[c0] = dst_offset0 + 2;
-
-               pNew_syms[dst_offset0] = p[0];
-               pNew_syms[dst_offset0 + 1] = p[1];
-            }
-            else
-            {
-               uint dst_offset0 = offsets[c0]++;
-               uint dst_offset1 = offsets[c1]++;
-
-               pNew_syms[dst_offset0] = p[0];
-               pNew_syms[dst_offset1] = p[1];
-            }
-         }
-
-         if (num_syms & 1)
-         {
-            uint c = ((p->m_freq) >> pass_shift) & 0xFF;
-
-            uint dst_offset = offsets[c];
-            offsets[c] = dst_offset + 1;
-
-            pNew_syms[dst_offset] = *p;
-         }
-
-         sym_freq* t = pCur_syms;
-         pCur_syms = pNew_syms;
-         pNew_syms = t;
-      }            
+    sym_freq* t = pCur_syms;
+    pCur_syms = pNew_syms;
+    pNew_syms = t;
+  }
 
 #ifdef CRNLIB_ASSERTS_ENABLED
-      uint prev_freq = 0;
-      for (uint i = 0; i < num_syms; i++)
-      {
-         CRNLIB_ASSERT(!(pCur_syms[i].m_freq < prev_freq));
-         prev_freq = pCur_syms[i].m_freq;
-      }
+  uint prev_freq = 0;
+  for (uint i = 0; i < num_syms; i++) {
+    CRNLIB_ASSERT(!(pCur_syms[i].m_freq < prev_freq));
+    prev_freq = pCur_syms[i].m_freq;
+  }
 #endif
-      
-      return pCur_syms;
-   }
-   
-   struct huffman_work_tables
-   {
-      enum { cMaxInternalNodes = cHuffmanMaxSupportedSyms };
-      
-      sym_freq syms0[cHuffmanMaxSupportedSyms + 1 + cMaxInternalNodes];
-      sym_freq syms1[cHuffmanMaxSupportedSyms + 1 + cMaxInternalNodes];
-                  
-      uint16 queue[cMaxInternalNodes];
-   };
-   
-   void* create_generate_huffman_codes_tables()
-   {
-      return crnlib_new<huffman_work_tables>();
-   }
-   
-   void free_generate_huffman_codes_tables(void* p)
-   {
-      crnlib_delete(static_cast<huffman_work_tables*>(p)); 
-   }
 
-#if USE_CALCULATE_MINIMUM_REDUNDANCY      
-   /* calculate_minimum_redundancy() written by
+  return pCur_syms;
+}
+
+struct huffman_work_tables {
+  enum { cMaxInternalNodes = cHuffmanMaxSupportedSyms };
+
+  sym_freq syms0[cHuffmanMaxSupportedSyms + 1 + cMaxInternalNodes];
+  sym_freq syms1[cHuffmanMaxSupportedSyms + 1 + cMaxInternalNodes];
+
+  uint16 queue[cMaxInternalNodes];
+};
+
+void* create_generate_huffman_codes_tables() {
+  return crnlib_new<huffman_work_tables>();
+}
+
+void free_generate_huffman_codes_tables(void* p) {
+  crnlib_delete(static_cast<huffman_work_tables*>(p));
+}
+
+#if USE_CALCULATE_MINIMUM_REDUNDANCY
+/* calculate_minimum_redundancy() written by
       Alistair Moffat, alistair@cs.mu.oz.au,
       Jyrki Katajainen, jyrki@diku.dk
       November 1996.
    */
-   static void calculate_minimum_redundancy(int A[], int n) {
-         int root;                  /* next root node to be used */
-         int leaf;                  /* next leaf to be used */
-         int next;                  /* next value to be assigned */
-         int avbl;                  /* number of available nodes */
-         int used;                  /* number of internal nodes */
-         int dpth;                  /* current depth of leaves */
+static void calculate_minimum_redundancy(int A[], int n) {
+  int root; /* next root node to be used */
+  int leaf; /* next leaf to be used */
+  int next; /* next value to be assigned */
+  int avbl; /* number of available nodes */
+  int used; /* number of internal nodes */
+  int dpth; /* current depth of leaves */
 
-         /* check for pathological cases */
-         if (n==0) { return; }
-         if (n==1) { A[0] = 0; return; }
+  /* check for pathological cases */
+  if (n == 0) {
+    return;
+  }
+  if (n == 1) {
+    A[0] = 0;
+    return;
+  }
 
-         /* first pass, left to right, setting parent pointers */
-         A[0] += A[1]; root = 0; leaf = 2;
-         for (next=1; next < n-1; next++) {
-            /* select first item for a pairing */
-            if (leaf>=n || A[root]<A[leaf]) {
-               A[next] = A[root]; A[root++] = next;
-            } else
-               A[next] = A[leaf++];
+  /* first pass, left to right, setting parent pointers */
+  A[0] += A[1];
+  root = 0;
+  leaf = 2;
+  for (next = 1; next < n - 1; next++) {
+    /* select first item for a pairing */
+    if (leaf >= n || A[root] < A[leaf]) {
+      A[next] = A[root];
+      A[root++] = next;
+    } else
+      A[next] = A[leaf++];
 
-            /* add on the second item */
-            if (leaf>=n || (root<next && A[root]<A[leaf])) {
-               A[next] += A[root]; A[root++] = next;
-            } else
-               A[next] += A[leaf++];
-         }
+    /* add on the second item */
+    if (leaf >= n || (root < next && A[root] < A[leaf])) {
+      A[next] += A[root];
+      A[root++] = next;
+    } else
+      A[next] += A[leaf++];
+  }
 
-         /* second pass, right to left, setting internal depths */
-         A[n-2] = 0;
-         for (next=n-3; next>=0; next--)
-            A[next] = A[A[next]]+1;
+  /* second pass, right to left, setting internal depths */
+  A[n - 2] = 0;
+  for (next = n - 3; next >= 0; next--)
+    A[next] = A[A[next]] + 1;
 
-         /* third pass, right to left, setting leaf depths */
-         avbl = 1; used = dpth = 0; root = n-2; next = n-1;
-         while (avbl>0) {
-            while (root>=0 && A[root]==dpth) {
-               used++; root--;
-            }
-            while (avbl>used) {
-               A[next--] = dpth; avbl--;
-            }
-            avbl = 2*used; dpth++; used = 0;
-         }
-   }
+  /* third pass, right to left, setting leaf depths */
+  avbl = 1;
+  used = dpth = 0;
+  root = n - 2;
+  next = n - 1;
+  while (avbl > 0) {
+    while (root >= 0 && A[root] == dpth) {
+      used++;
+      root--;
+    }
+    while (avbl > used) {
+      A[next--] = dpth;
+      avbl--;
+    }
+    avbl = 2 * used;
+    dpth++;
+    used = 0;
+  }
+}
 #endif
-     
-   bool generate_huffman_codes(void* pContext, uint num_syms, const uint16* pFreq, uint8* pCodesizes, uint& max_code_size, uint& total_freq_ret)
-   {
-      if ((!num_syms) || (num_syms > cHuffmanMaxSupportedSyms))
-         return false;
-                  
-      huffman_work_tables& state = *static_cast<huffman_work_tables*>(pContext);;
-            
-      uint max_freq = 0;
-      uint total_freq = 0;
-      
-      uint num_used_syms = 0;
-      for (uint i = 0; i < num_syms; i++)
-      {
-         uint freq = pFreq[i];
-         
-         if (!freq)
-            pCodesizes[i] = 0;
-         else
-         {
-            total_freq += freq;
-            max_freq = math::maximum(max_freq, freq);
-            
-            sym_freq& sf = state.syms0[num_used_syms];
-            sf.m_left = (uint16)i;
-            sf.m_right = cUINT16_MAX;
-            sf.m_freq = freq;
-            num_used_syms++;
-         }            
-      }
-      
-      total_freq_ret = total_freq;
 
-      if (num_used_syms == 1)
-      {
-         pCodesizes[state.syms0[0].m_left] = 1;
-         return true;
-      }
+bool generate_huffman_codes(void* pContext, uint num_syms, const uint16* pFreq, uint8* pCodesizes, uint& max_code_size, uint& total_freq_ret) {
+  if ((!num_syms) || (num_syms > cHuffmanMaxSupportedSyms))
+    return false;
 
-      sym_freq* syms = radix_sort_syms(num_used_syms, state.syms0, state.syms1);
+  huffman_work_tables& state = *static_cast<huffman_work_tables*>(pContext);
+  ;
+
+  uint max_freq = 0;
+  uint total_freq = 0;
+
+  uint num_used_syms = 0;
+  for (uint i = 0; i < num_syms; i++) {
+    uint freq = pFreq[i];
+
+    if (!freq)
+      pCodesizes[i] = 0;
+    else {
+      total_freq += freq;
+      max_freq = math::maximum(max_freq, freq);
+
+      sym_freq& sf = state.syms0[num_used_syms];
+      sf.m_left = (uint16)i;
+      sf.m_right = cUINT16_MAX;
+      sf.m_freq = freq;
+      num_used_syms++;
+    }
+  }
+
+  total_freq_ret = total_freq;
+
+  if (num_used_syms == 1) {
+    pCodesizes[state.syms0[0].m_left] = 1;
+    return true;
+  }
+
+  sym_freq* syms = radix_sort_syms(num_used_syms, state.syms0, state.syms1);
 
 #if USE_CALCULATE_MINIMUM_REDUNDANCY
-      int x[cHuffmanMaxSupportedSyms];
-      for (uint i = 0; i < num_used_syms; i++)
-         x[i] = state.syms0[i].m_freq;
-      
-      calculate_minimum_redundancy(x, num_used_syms);
-      
-      uint max_len = 0;
-      for (uint i = 0; i < num_used_syms; i++)
-      {
-         uint len = x[i];
-         max_len = math::maximum(len, max_len);
-         pCodesizes[state.syms0[i].m_left] = static_cast<uint8>(len);
+  int x[cHuffmanMaxSupportedSyms];
+  for (uint i = 0; i < num_used_syms; i++)
+    x[i] = state.syms0[i].m_freq;
+
+  calculate_minimum_redundancy(x, num_used_syms);
+
+  uint max_len = 0;
+  for (uint i = 0; i < num_used_syms; i++) {
+    uint len = x[i];
+    max_len = math::maximum(len, max_len);
+    pCodesizes[state.syms0[i].m_left] = static_cast<uint8>(len);
+  }
+
+  return true;
+#else
+  // Dummy node
+  sym_freq& sf = state.syms0[num_used_syms];
+  sf.m_left = cUINT16_MAX;
+  sf.m_right = cUINT16_MAX;
+  sf.m_freq = UINT_MAX;
+
+  uint next_internal_node = num_used_syms + 1;
+
+  uint queue_front = 0;
+  uint queue_end = 0;
+
+  uint next_lowest_sym = 0;
+
+  uint num_nodes_remaining = num_used_syms;
+  do {
+    uint left_freq = syms[next_lowest_sym].m_freq;
+    uint left_child = next_lowest_sym;
+
+    if ((queue_end > queue_front) && (syms[state.queue[queue_front]].m_freq < left_freq)) {
+      left_child = state.queue[queue_front];
+      left_freq = syms[left_child].m_freq;
+
+      queue_front++;
+    } else
+      next_lowest_sym++;
+
+    uint right_freq = syms[next_lowest_sym].m_freq;
+    uint right_child = next_lowest_sym;
+
+    if ((queue_end > queue_front) && (syms[state.queue[queue_front]].m_freq < right_freq)) {
+      right_child = state.queue[queue_front];
+      right_freq = syms[right_child].m_freq;
+
+      queue_front++;
+    } else
+      next_lowest_sym++;
+
+    const uint internal_node_index = next_internal_node;
+    next_internal_node++;
+
+    CRNLIB_ASSERT(next_internal_node < CRNLIB_ARRAYSIZE(state.syms0));
+
+    syms[internal_node_index].m_freq = left_freq + right_freq;
+    syms[internal_node_index].m_left = static_cast<uint16>(left_child);
+    syms[internal_node_index].m_right = static_cast<uint16>(right_child);
+
+    CRNLIB_ASSERT(queue_end < huffman_work_tables::cMaxInternalNodes);
+    state.queue[queue_end] = static_cast<uint16>(internal_node_index);
+    queue_end++;
+
+    num_nodes_remaining--;
+
+  } while (num_nodes_remaining > 1);
+
+  CRNLIB_ASSERT(next_lowest_sym == num_used_syms);
+  CRNLIB_ASSERT((queue_end - queue_front) == 1);
+
+  uint cur_node_index = state.queue[queue_front];
+
+  uint32* pStack = (syms == state.syms0) ? (uint32*)state.syms1 : (uint32*)state.syms0;
+  uint32* pStack_top = pStack;
+
+  uint max_level = 0;
+
+  for (;;) {
+    uint level = cur_node_index >> 16;
+    uint node_index = cur_node_index & 0xFFFF;
+
+    uint left_child = syms[node_index].m_left;
+    uint right_child = syms[node_index].m_right;
+
+    uint next_level = (cur_node_index + 0x10000) & 0xFFFF0000;
+
+    if (left_child < num_used_syms) {
+      max_level = math::maximum(max_level, level);
+
+      pCodesizes[syms[left_child].m_left] = static_cast<uint8>(level + 1);
+
+      if (right_child < num_used_syms) {
+        pCodesizes[syms[right_child].m_left] = static_cast<uint8>(level + 1);
+
+        if (pStack == pStack_top)
+          break;
+        cur_node_index = *--pStack;
+      } else {
+        cur_node_index = next_level | right_child;
       }
-      
-      return true;
-#else    
-      // Dummy node
-      sym_freq& sf = state.syms0[num_used_syms];
-      sf.m_left = cUINT16_MAX;
-      sf.m_right = cUINT16_MAX;
-      sf.m_freq = UINT_MAX;
-      
-      uint next_internal_node = num_used_syms + 1;
-            
-      uint queue_front = 0;
-      uint queue_end = 0;
-            
-      uint next_lowest_sym = 0;
-      
-      uint num_nodes_remaining = num_used_syms;
-      do
-      {
-         uint left_freq = syms[next_lowest_sym].m_freq;
-         uint left_child = next_lowest_sym;
-         
-         if ((queue_end > queue_front) && (syms[state.queue[queue_front]].m_freq < left_freq))
-         {
-            left_child = state.queue[queue_front];
-            left_freq = syms[left_child].m_freq;
-            
-            queue_front++;
-         }
-         else
-            next_lowest_sym++;
-         
-         uint right_freq = syms[next_lowest_sym].m_freq;
-         uint right_child = next_lowest_sym;
+    } else {
+      if (right_child < num_used_syms) {
+        max_level = math::maximum(max_level, level);
 
-         if ((queue_end > queue_front) && (syms[state.queue[queue_front]].m_freq < right_freq))
-         {
-            right_child = state.queue[queue_front];
-            right_freq = syms[right_child].m_freq;
-            
-            queue_front++;
-         }
-         else
-            next_lowest_sym++;
-                        
-         const uint internal_node_index = next_internal_node;
-         next_internal_node++;
+        pCodesizes[syms[right_child].m_left] = static_cast<uint8>(level + 1);
 
-         CRNLIB_ASSERT(next_internal_node < CRNLIB_ARRAYSIZE(state.syms0));
-         
-         syms[internal_node_index].m_freq = left_freq + right_freq;
-         syms[internal_node_index].m_left = static_cast<uint16>(left_child);
-         syms[internal_node_index].m_right = static_cast<uint16>(right_child);
-         
-         CRNLIB_ASSERT(queue_end < huffman_work_tables::cMaxInternalNodes);
-         state.queue[queue_end] = static_cast<uint16>(internal_node_index);
-         queue_end++;
-                  
-         num_nodes_remaining--;
-         
-      } while (num_nodes_remaining > 1);
-      
-      CRNLIB_ASSERT(next_lowest_sym == num_used_syms);
-      CRNLIB_ASSERT((queue_end - queue_front) == 1);
-      
-      uint cur_node_index = state.queue[queue_front];
-      
-      uint32* pStack = (syms == state.syms0) ? (uint32*)state.syms1 : (uint32*)state.syms0;
-      uint32* pStack_top = pStack;
+        cur_node_index = next_level | left_child;
+      } else {
+        *pStack++ = next_level | left_child;
 
-      uint max_level = 0;
-      
-      for ( ; ; ) 
-      {
-         uint level = cur_node_index >> 16;
-         uint node_index = cur_node_index & 0xFFFF;
-         
-         uint left_child = syms[node_index].m_left;
-         uint right_child = syms[node_index].m_right;
-         
-         uint next_level = (cur_node_index + 0x10000) & 0xFFFF0000;
-                           
-         if (left_child < num_used_syms)
-         {
-            max_level = math::maximum(max_level, level);
-            
-            pCodesizes[syms[left_child].m_left] = static_cast<uint8>(level + 1);
-            
-            if (right_child < num_used_syms)
-            {
-               pCodesizes[syms[right_child].m_left] = static_cast<uint8>(level + 1);
-               
-               if (pStack == pStack_top) break;
-               cur_node_index = *--pStack;
-            }
-            else
-            {
-               cur_node_index = next_level | right_child;
-            }
-         }
-         else
-         {
-            if (right_child < num_used_syms)
-            {
-               max_level = math::maximum(max_level, level);
-               
-               pCodesizes[syms[right_child].m_left] = static_cast<uint8>(level + 1);
-                              
-               cur_node_index = next_level | left_child;
-            }
-            else
-            {
-               *pStack++ = next_level | left_child;
-                              
-               cur_node_index = next_level | right_child;
-            }
-         }
+        cur_node_index = next_level | right_child;
       }
-      
-      max_code_size = max_level + 1;
+    }
+  }
+
+  max_code_size = max_level + 1;
 #endif
-                  
-      return true;
-   }
 
-} // namespace crnlib
+  return true;
+}
 
+}  // namespace crnlib

crnlib/crn_huffman_codes.h

@@ -2,13 +2,12 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   const uint cHuffmanMaxSupportedSyms = 8192;
+namespace crnlib {
+const uint cHuffmanMaxSupportedSyms = 8192;
 
-   void* create_generate_huffman_codes_tables();
-   void free_generate_huffman_codes_tables(void* p);
-   
-   bool generate_huffman_codes(void* pContext, uint num_syms, const uint16* pFreq, uint8* pCodesizes, uint& max_code_size, uint& total_freq_ret);
+void* create_generate_huffman_codes_tables();
+void free_generate_huffman_codes_tables(void* p);
 
-} // namespace crnlib
+bool generate_huffman_codes(void* pContext, uint num_syms, const uint16* pFreq, uint8* pCodesizes, uint& max_code_size, uint& total_freq_ret);
+
+}  // namespace crnlib

crnlib/crn_image_utils.h

@@ -4,190 +4,180 @@
 #include "crn_image.h"
 #include "crn_data_stream_serializer.h"
 
-namespace crnlib
-{
-   enum pixel_format;
+namespace crnlib {
+enum pixel_format;
 
-   namespace image_utils
-   {
-      enum read_flags_t
-      {
-         cReadFlagForceSTB = 1,
+namespace image_utils {
+enum read_flags_t {
+  cReadFlagForceSTB = 1,
 
-         cReadFlagsAllFlags = 1
-      };
+  cReadFlagsAllFlags = 1
+};
 
-      bool read_from_stream_stb(data_stream_serializer& serializer, image_u8& img);
-      bool read_from_stream_jpgd(data_stream_serializer& serializer, image_u8& img);
-      bool read_from_stream(image_u8& dest, data_stream_serializer& serializer, uint read_flags = 0);
-      bool read_from_file(image_u8& dest, const char* pFilename, uint read_flags = 0);
+bool read_from_stream_stb(data_stream_serializer& serializer, image_u8& img);
+bool read_from_stream_jpgd(data_stream_serializer& serializer, image_u8& img);
+bool read_from_stream(image_u8& dest, data_stream_serializer& serializer, uint read_flags = 0);
+bool read_from_file(image_u8& dest, const char* pFilename, uint read_flags = 0);
 
-      // Reads texture from memory, results returned stb_image.c style.
-      // *pActual_comps is set to 1, 3, or 4. req_comps must range from 1-4.
-      uint8* read_from_memory(const uint8* pImage, int nSize, int* pWidth, int* pHeight, int* pActualComps, int req_comps, const char* pFilename);
+// Reads texture from memory, results returned stb_image.c style.
+// *pActual_comps is set to 1, 3, or 4. req_comps must range from 1-4.
+uint8* read_from_memory(const uint8* pImage, int nSize, int* pWidth, int* pHeight, int* pActualComps, int req_comps, const char* pFilename);
 
-      enum
-      {
-         cWriteFlagIgnoreAlpha            = 0x00000001,
-         cWriteFlagGrayscale              = 0x00000002,
+enum {
+  cWriteFlagIgnoreAlpha = 0x00000001,
+  cWriteFlagGrayscale = 0x00000002,
 
-         cWriteFlagJPEGH1V1               = 0x00010000,
-         cWriteFlagJPEGH2V1               = 0x00020000,
-         cWriteFlagJPEGH2V2               = 0x00040000,
-         cWriteFlagJPEGTwoPass            = 0x00080000,
-         cWriteFlagJPEGNoChromaDiscrim    = 0x00100000,
-         cWriteFlagJPEGQualityLevelMask   = 0xFF000000,
-         cWriteFlagJPEGQualityLevelShift  = 24,
-      };
+  cWriteFlagJPEGH1V1 = 0x00010000,
+  cWriteFlagJPEGH2V1 = 0x00020000,
+  cWriteFlagJPEGH2V2 = 0x00040000,
+  cWriteFlagJPEGTwoPass = 0x00080000,
+  cWriteFlagJPEGNoChromaDiscrim = 0x00100000,
+  cWriteFlagJPEGQualityLevelMask = 0xFF000000,
+  cWriteFlagJPEGQualityLevelShift = 24,
+};
 
-      const int cLumaComponentIndex = -1;
+const int cLumaComponentIndex = -1;
 
-      inline uint create_jpeg_write_flags(uint base_flags, uint quality_level) { CRNLIB_ASSERT(quality_level <= 100); return base_flags | ((quality_level << cWriteFlagJPEGQualityLevelShift) & cWriteFlagJPEGQualityLevelMask); }
+inline uint create_jpeg_write_flags(uint base_flags, uint quality_level) {
+  CRNLIB_ASSERT(quality_level <= 100);
+  return base_flags | ((quality_level << cWriteFlagJPEGQualityLevelShift) & cWriteFlagJPEGQualityLevelMask);
+}
 
-      bool write_to_file(const char* pFilename, const image_u8& img, uint write_flags = 0, int grayscale_comp_index = cLumaComponentIndex);
+bool write_to_file(const char* pFilename, const image_u8& img, uint write_flags = 0, int grayscale_comp_index = cLumaComponentIndex);
 
-      bool has_alpha(const image_u8& img);
-      bool is_normal_map(const image_u8& img, const char* pFilename = NULL);
-      void renorm_normal_map(image_u8& img);
+bool has_alpha(const image_u8& img);
+bool is_normal_map(const image_u8& img, const char* pFilename = NULL);
+void renorm_normal_map(image_u8& img);
 
-      struct resample_params
-      {
-         resample_params() :
-            m_dst_width(0),
-            m_dst_height(0),
-            m_pFilter("lanczos4"),
-            m_filter_scale(1.0f),
-            m_srgb(true),
-            m_wrapping(false),
-            m_first_comp(0),
-            m_num_comps(4),
-            m_source_gamma(2.2f), // 1.75f
-            m_multithreaded(true)
-         {
-         }
+struct resample_params {
+  resample_params()
+      : m_dst_width(0),
+        m_dst_height(0),
+        m_pFilter("lanczos4"),
+        m_filter_scale(1.0f),
+        m_srgb(true),
+        m_wrapping(false),
+        m_first_comp(0),
+        m_num_comps(4),
+        m_source_gamma(2.2f),  // 1.75f
+        m_multithreaded(true) {
+  }
 
-         uint        m_dst_width;
-         uint        m_dst_height;
-         const char* m_pFilter;
-         float       m_filter_scale;
-         bool        m_srgb;
-         bool        m_wrapping;
-         uint        m_first_comp;
-         uint        m_num_comps;
-         float       m_source_gamma;
-         bool        m_multithreaded;
-      };
+  uint m_dst_width;
+  uint m_dst_height;
+  const char* m_pFilter;
+  float m_filter_scale;
+  bool m_srgb;
+  bool m_wrapping;
+  uint m_first_comp;
+  uint m_num_comps;
+  float m_source_gamma;
+  bool m_multithreaded;
+};
 
-      bool resample_single_thread(const image_u8& src, image_u8& dst, const resample_params& params);
-      bool resample_multithreaded(const image_u8& src, image_u8& dst, const resample_params& params);
-      bool resample(const image_u8& src, image_u8& dst, const resample_params& params);
+bool resample_single_thread(const image_u8& src, image_u8& dst, const resample_params& params);
+bool resample_multithreaded(const image_u8& src, image_u8& dst, const resample_params& params);
+bool resample(const image_u8& src, image_u8& dst, const resample_params& params);
 
-      bool compute_delta(image_u8& dest, image_u8& a, image_u8& b, uint scale = 2);
+bool compute_delta(image_u8& dest, image_u8& a, image_u8& b, uint scale = 2);
 
-      class error_metrics
-      {
-      public:
-         error_metrics() { utils::zero_this(this); }
+class error_metrics {
+ public:
+  error_metrics() { utils::zero_this(this); }
 
-         void print(const char* pName) const;
+  void print(const char* pName) const;
 
-         // If num_channels==0, luma error is computed.
-         // If pHist != NULL, it must point to a 256 entry array.
-         bool compute(const image_u8& a, const image_u8& b, uint first_channel, uint num_channels, bool average_component_error = true);
+  // If num_channels==0, luma error is computed.
+  // If pHist != NULL, it must point to a 256 entry array.
+  bool compute(const image_u8& a, const image_u8& b, uint first_channel, uint num_channels, bool average_component_error = true);
 
-         uint  mMax;
-         double mMean;
-         double mMeanSquared;
-         double mRootMeanSquared;
-         double mPeakSNR;
+  uint mMax;
+  double mMean;
+  double mMeanSquared;
+  double mRootMeanSquared;
+  double mPeakSNR;
 
-         inline bool operator== (const error_metrics& other) const
-         {
-            return mPeakSNR == other.mPeakSNR;
-         }
+  inline bool operator==(const error_metrics& other) const {
+    return mPeakSNR == other.mPeakSNR;
+  }
 
-         inline bool operator< (const error_metrics& other) const
-         {
-            return mPeakSNR < other.mPeakSNR;
-         }
+  inline bool operator<(const error_metrics& other) const {
+    return mPeakSNR < other.mPeakSNR;
+  }
 
-         inline bool operator> (const error_metrics& other) const
-         {
-            return mPeakSNR > other.mPeakSNR;
-         }
-      };
+  inline bool operator>(const error_metrics& other) const {
+    return mPeakSNR > other.mPeakSNR;
+  }
+};
 
-      void print_image_metrics(const image_u8& src_img, const image_u8& dst_img);
+void print_image_metrics(const image_u8& src_img, const image_u8& dst_img);
 
-      double compute_block_ssim(uint n, const uint8* pX, const uint8* pY);
-      double compute_ssim(const image_u8& a, const image_u8& b, int channel_index);
-      void print_ssim(const image_u8& src_img, const image_u8& dst_img);
+double compute_block_ssim(uint n, const uint8* pX, const uint8* pY);
+double compute_ssim(const image_u8& a, const image_u8& b, int channel_index);
+void print_ssim(const image_u8& src_img, const image_u8& dst_img);
 
-      enum conversion_type
-      {
-         cConversion_Invalid = -1,
+enum conversion_type {
+  cConversion_Invalid = -1,
 
-         cConversion_To_CCxY,
-         cConversion_From_CCxY,
+  cConversion_To_CCxY,
+  cConversion_From_CCxY,
 
-         cConversion_To_xGxR,
-         cConversion_From_xGxR,
+  cConversion_To_xGxR,
+  cConversion_From_xGxR,
 
-         cConversion_To_xGBR,
-         cConversion_From_xGBR,
+  cConversion_To_xGBR,
+  cConversion_From_xGBR,
 
-         cConversion_To_AGBR,
-         cConversion_From_AGBR,
+  cConversion_To_AGBR,
+  cConversion_From_AGBR,
 
-         cConversion_XY_to_XYZ,
+  cConversion_XY_to_XYZ,
 
-         cConversion_Y_To_A,
+  cConversion_Y_To_A,
 
-         cConversion_A_To_RGBA,
-         cConversion_Y_To_RGB,
+  cConversion_A_To_RGBA,
+  cConversion_Y_To_RGB,
 
-         cConversion_To_Y,
+  cConversion_To_Y,
 
-         cConversionTotal
-      };
+  cConversionTotal
+};
 
-      void convert_image(image_u8& img, conversion_type conv_type);
+void convert_image(image_u8& img, conversion_type conv_type);
 
-      template<typename image_type>
-      inline uint8* pack_image(const image_type& img, const pixel_packer& packer, uint& n)
-      {
-         n = 0;
+template <typename image_type>
+inline uint8* pack_image(const image_type& img, const pixel_packer& packer, uint& n) {
+  n = 0;
 
-         if (!packer.is_valid())
-            return NULL;
+  if (!packer.is_valid())
+    return NULL;
 
-         const uint width = img.get_width(), height = img.get_height();
-         uint dst_pixel_stride = packer.get_pixel_stride();
-         uint dst_pitch = width * dst_pixel_stride;
+  const uint width = img.get_width(), height = img.get_height();
+  uint dst_pixel_stride = packer.get_pixel_stride();
+  uint dst_pitch = width * dst_pixel_stride;
 
-         n = dst_pitch * height;
+  n = dst_pitch * height;
 
-         uint8* pImage = static_cast<uint8*>(crnlib_malloc(n));
+  uint8* pImage = static_cast<uint8*>(crnlib_malloc(n));
 
-         uint8* pDst = pImage;
-         for (uint y = 0; y < height; y++)
-         {
-            const typename image_type::color_t* pSrc = img.get_scanline(y);
-            for (uint x = 0; x < width; x++)
-               pDst = (uint8*)packer.pack(*pSrc++, pDst);
-         }
+  uint8* pDst = pImage;
+  for (uint y = 0; y < height; y++) {
+    const typename image_type::color_t* pSrc = img.get_scanline(y);
+    for (uint x = 0; x < width; x++)
+      pDst = (uint8*)packer.pack(*pSrc++, pDst);
+  }
 
-         return pImage;
-      }
+  return pImage;
+}
 
-      image_utils::conversion_type get_conversion_type(bool cooking, pixel_format fmt);
+image_utils::conversion_type get_conversion_type(bool cooking, pixel_format fmt);
 
-      image_utils::conversion_type get_image_conversion_type_from_crn_format(crn_format fmt);
+image_utils::conversion_type get_image_conversion_type_from_crn_format(crn_format fmt);
 
-      double compute_std_dev(uint n, const color_quad_u8* pPixels, uint first_channel, uint num_channels);
+double compute_std_dev(uint n, const color_quad_u8* pPixels, uint first_channel, uint num_channels);
 
-      uint8* read_image_from_memory(const uint8* pImage, int nSize, int* pWidth, int* pHeight, int* pActualComps, int req_comps, const char* pFilename);
+uint8* read_image_from_memory(const uint8* pImage, int nSize, int* pWidth, int* pHeight, int* pActualComps, int req_comps, const char* pFilename);
 
-   } // namespace image_utils
+}  // namespace image_utils
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_intersect.h

@@ -3,121 +3,102 @@
 #pragma once
 #include "crn_ray.h"
 
-namespace crnlib
-{
-   namespace intersection
-   {
-      enum result 
-      {
-         cBackfacing = -1,
-         cFailure = 0,
-         cSuccess,
-         cParallel,
-         cInside,
-      };
-      
-      // Returns cInside, cSuccess, or cFailure.
-      // Algorithm: Graphics Gems 1
-      template<typename vector_type, typename scalar_type, typename ray_type, typename aabb_type>
-      result ray_aabb(vector_type& coord, scalar_type& t, const ray_type& ray, const aabb_type& box)
-      {
-         enum 
-         { 
-            cNumDim = vector_type::num_elements, 
-            cRight = 0, 
-            cLeft = 1, 
-            cMiddle = 2 
-         };
+namespace crnlib {
+namespace intersection {
+enum result {
+  cBackfacing = -1,
+  cFailure = 0,
+  cSuccess,
+  cParallel,
+  cInside,
+};
 
-         bool inside = true;
-         int quadrant[cNumDim];
-         scalar_type candidate_plane[cNumDim];
+// Returns cInside, cSuccess, or cFailure.
+// Algorithm: Graphics Gems 1
+template <typename vector_type, typename scalar_type, typename ray_type, typename aabb_type>
+result ray_aabb(vector_type& coord, scalar_type& t, const ray_type& ray, const aabb_type& box) {
+  enum {
+    cNumDim = vector_type::num_elements,
+    cRight = 0,
+    cLeft = 1,
+    cMiddle = 2
+  };
 
-         for (int i = 0; i < cNumDim; i++)
-         {
-            if (ray.get_origin()[i] < box[0][i])
-            {
-               quadrant[i] = cLeft;
-               candidate_plane[i] = box[0][i];
-               inside = false;
-            }
-            else if (ray.get_origin()[i] > box[1][i])
-            {
-               quadrant[i] = cRight;
-               candidate_plane[i] = box[1][i];
-               inside = false;
-            }
-            else
-            {
-               quadrant[i] = cMiddle;
-            }
-         }
+  bool inside = true;
+  int quadrant[cNumDim];
+  scalar_type candidate_plane[cNumDim];
 
-         if (inside)
-         {
-            coord = ray.get_origin();
-            t = 0.0f;
-            return cInside;
-         }
+  for (int i = 0; i < cNumDim; i++) {
+    if (ray.get_origin()[i] < box[0][i]) {
+      quadrant[i] = cLeft;
+      candidate_plane[i] = box[0][i];
+      inside = false;
+    } else if (ray.get_origin()[i] > box[1][i]) {
+      quadrant[i] = cRight;
+      candidate_plane[i] = box[1][i];
+      inside = false;
+    } else {
+      quadrant[i] = cMiddle;
+    }
+  }
 
-         scalar_type max_t[cNumDim];
-         for (int i = 0; i < cNumDim; i++)
-         {
-            if ((quadrant[i] != cMiddle) && (ray.get_direction()[i] != 0.0f))
-               max_t[i] = (candidate_plane[i] - ray.get_origin()[i]) / ray.get_direction()[i];
-            else
-               max_t[i] = -1.0f;
-         }         
+  if (inside) {
+    coord = ray.get_origin();
+    t = 0.0f;
+    return cInside;
+  }
 
-         int which_plane = 0;
-         for (int i = 1; i < cNumDim; i++)
-            if (max_t[which_plane] < max_t[i])
-               which_plane = i;
+  scalar_type max_t[cNumDim];
+  for (int i = 0; i < cNumDim; i++) {
+    if ((quadrant[i] != cMiddle) && (ray.get_direction()[i] != 0.0f))
+      max_t[i] = (candidate_plane[i] - ray.get_origin()[i]) / ray.get_direction()[i];
+    else
+      max_t[i] = -1.0f;
+  }
 
-         if (max_t[which_plane] < 0.0f)
-            return cFailure;               
+  int which_plane = 0;
+  for (int i = 1; i < cNumDim; i++)
+    if (max_t[which_plane] < max_t[i])
+      which_plane = i;
 
-         for (int i = 0; i < cNumDim; i++)
-         {
-            if (i != which_plane)
-            {
-               coord[i] = ray.get_origin()[i] + max_t[which_plane] * ray.get_direction()[i];
+  if (max_t[which_plane] < 0.0f)
+    return cFailure;
 
-               if ( (coord[i] < box[0][i]) || (coord[i] > box[1][i]) )
-                  return cFailure;
-            }
-            else
-            {
-               coord[i] = candidate_plane[i];
-            }
+  for (int i = 0; i < cNumDim; i++) {
+    if (i != which_plane) {
+      coord[i] = ray.get_origin()[i] + max_t[which_plane] * ray.get_direction()[i];
 
-            CRNLIB_ASSERT(coord[i] >= box[0][i] && coord[i] <= box[1][i]); 
-         }               
+      if ((coord[i] < box[0][i]) || (coord[i] > box[1][i]))
+        return cFailure;
+    } else {
+      coord[i] = candidate_plane[i];
+    }
 
-         t = max_t[which_plane];
-         return cSuccess;
-      }
-      
-      template<typename vector_type, typename scalar_type, typename ray_type, typename aabb_type>
-      result ray_aabb(bool& started_within, vector_type& coord, scalar_type& t, const ray_type& ray, const aabb_type& box)
-      {
-         if (!box.contains(ray.get_origin()))
-         {
-            started_within = false;
-            return ray_aabb(coord, t, ray, box);
-         }
-         
-         started_within = true;
-         
-         float diag_dist = box.diagonal_length() * 1.5f;
-         ray_type outside_ray(ray.eval(diag_dist), -ray.get_direction());
-         
-         result res(ray_aabb(coord, t, outside_ray, box));
-         if (res != cSuccess)
-            return res;
-         
-         t = math::maximum(0.0f, diag_dist - t);
-         return cSuccess;
-      }
-   }
+    CRNLIB_ASSERT(coord[i] >= box[0][i] && coord[i] <= box[1][i]);
+  }
+
+  t = max_t[which_plane];
+  return cSuccess;
+}
+
+template <typename vector_type, typename scalar_type, typename ray_type, typename aabb_type>
+result ray_aabb(bool& started_within, vector_type& coord, scalar_type& t, const ray_type& ray, const aabb_type& box) {
+  if (!box.contains(ray.get_origin())) {
+    started_within = false;
+    return ray_aabb(coord, t, ray, box);
+  }
+
+  started_within = true;
+
+  float diag_dist = box.diagonal_length() * 1.5f;
+  ray_type outside_ray(ray.eval(diag_dist), -ray.get_direction());
+
+  result res(ray_aabb(coord, t, outside_ray, box));
+  if (res != cSuccess)
+    return res;
+
+  t = math::maximum(0.0f, diag_dist - t);
+  return cSuccess;
+}
+}
 }

crnlib/crn_jpgd.h

@@ -8,312 +8,342 @@
 #include <setjmp.h>
 
 #ifdef _MSC_VER
-  #define JPGD_NORETURN __declspec(noreturn) 
+#define JPGD_NORETURN __declspec(noreturn)
 #elif defined(__GNUC__)
-  #define JPGD_NORETURN __attribute__ ((noreturn))
+#define JPGD_NORETURN __attribute__((noreturn))
 #else
-  #define JPGD_NORETURN
+#define JPGD_NORETURN
 #endif
 
-namespace jpgd
-{
-  typedef unsigned char  uint8;
-  typedef   signed short int16;
-  typedef unsigned short uint16;
-  typedef unsigned int   uint;
-  typedef   signed int   int32;
+namespace jpgd {
+typedef unsigned char uint8;
+typedef signed short int16;
+typedef unsigned short uint16;
+typedef unsigned int uint;
+typedef signed int int32;
 
-  // Loads a JPEG image from a memory buffer or a file.
-  // req_comps can be 1 (grayscale), 3 (RGB), or 4 (RGBA).
-  // On return, width/height will be set to the image's dimensions, and actual_comps will be set to the either 1 (grayscale) or 3 (RGB).
-  // Notes: For more control over where and how the source data is read, see the decompress_jpeg_image_from_stream() function below, or call the jpeg_decoder class directly.
-  // Requesting a 8 or 32bpp image is currently a little faster than 24bpp because the jpeg_decoder class itself currently always unpacks to either 8 or 32bpp.
-  unsigned char *decompress_jpeg_image_from_memory(const unsigned char *pSrc_data, int src_data_size, int *width, int *height, int *actual_comps, int req_comps);
-  unsigned char *decompress_jpeg_image_from_file(const char *pSrc_filename, int *width, int *height, int *actual_comps, int req_comps);
+// Loads a JPEG image from a memory buffer or a file.
+// req_comps can be 1 (grayscale), 3 (RGB), or 4 (RGBA).
+// On return, width/height will be set to the image's dimensions, and actual_comps will be set to the either 1 (grayscale) or 3 (RGB).
+// Notes: For more control over where and how the source data is read, see the decompress_jpeg_image_from_stream() function below, or call the jpeg_decoder class directly.
+// Requesting a 8 or 32bpp image is currently a little faster than 24bpp because the jpeg_decoder class itself currently always unpacks to either 8 or 32bpp.
+unsigned char* decompress_jpeg_image_from_memory(const unsigned char* pSrc_data, int src_data_size, int* width, int* height, int* actual_comps, int req_comps);
+unsigned char* decompress_jpeg_image_from_file(const char* pSrc_filename, int* width, int* height, int* actual_comps, int req_comps);
 
-  // Success/failure error codes.
-  enum jpgd_status
-  {
-    JPGD_SUCCESS = 0, JPGD_FAILED = -1, JPGD_DONE = 1,
-    JPGD_BAD_DHT_COUNTS = -256, JPGD_BAD_DHT_INDEX, JPGD_BAD_DHT_MARKER, JPGD_BAD_DQT_MARKER, JPGD_BAD_DQT_TABLE, 
-    JPGD_BAD_PRECISION, JPGD_BAD_HEIGHT, JPGD_BAD_WIDTH, JPGD_TOO_MANY_COMPONENTS, 
-    JPGD_BAD_SOF_LENGTH, JPGD_BAD_VARIABLE_MARKER, JPGD_BAD_DRI_LENGTH, JPGD_BAD_SOS_LENGTH,
-    JPGD_BAD_SOS_COMP_ID, JPGD_W_EXTRA_BYTES_BEFORE_MARKER, JPGD_NO_ARITHMITIC_SUPPORT, JPGD_UNEXPECTED_MARKER,
-    JPGD_NOT_JPEG, JPGD_UNSUPPORTED_MARKER, JPGD_BAD_DQT_LENGTH, JPGD_TOO_MANY_BLOCKS,
-    JPGD_UNDEFINED_QUANT_TABLE, JPGD_UNDEFINED_HUFF_TABLE, JPGD_NOT_SINGLE_SCAN, JPGD_UNSUPPORTED_COLORSPACE,
-    JPGD_UNSUPPORTED_SAMP_FACTORS, JPGD_DECODE_ERROR, JPGD_BAD_RESTART_MARKER, JPGD_ASSERTION_ERROR,
-    JPGD_BAD_SOS_SPECTRAL, JPGD_BAD_SOS_SUCCESSIVE, JPGD_STREAM_READ, JPGD_NOTENOUGHMEM
-  };
-    
-  // Input stream interface.
-  // Derive from this class to read input data from sources other than files or memory. Set m_eof_flag to true when no more data is available.
-  // The decoder is rather greedy: it will keep on calling this method until its internal input buffer is full, or until the EOF flag is set.
-  // It the input stream contains data after the JPEG stream's EOI (end of image) marker it will probably be pulled into the internal buffer.
-  // Call the get_total_bytes_read() method to determine the actual size of the JPEG stream after successful decoding.
-  class jpeg_decoder_stream
-  {
-  public:
-    jpeg_decoder_stream() { }
-    virtual ~jpeg_decoder_stream() { }
+// Success/failure error codes.
+enum jpgd_status {
+  JPGD_SUCCESS = 0,
+  JPGD_FAILED = -1,
+  JPGD_DONE = 1,
+  JPGD_BAD_DHT_COUNTS = -256,
+  JPGD_BAD_DHT_INDEX,
+  JPGD_BAD_DHT_MARKER,
+  JPGD_BAD_DQT_MARKER,
+  JPGD_BAD_DQT_TABLE,
+  JPGD_BAD_PRECISION,
+  JPGD_BAD_HEIGHT,
+  JPGD_BAD_WIDTH,
+  JPGD_TOO_MANY_COMPONENTS,
+  JPGD_BAD_SOF_LENGTH,
+  JPGD_BAD_VARIABLE_MARKER,
+  JPGD_BAD_DRI_LENGTH,
+  JPGD_BAD_SOS_LENGTH,
+  JPGD_BAD_SOS_COMP_ID,
+  JPGD_W_EXTRA_BYTES_BEFORE_MARKER,
+  JPGD_NO_ARITHMITIC_SUPPORT,
+  JPGD_UNEXPECTED_MARKER,
+  JPGD_NOT_JPEG,
+  JPGD_UNSUPPORTED_MARKER,
+  JPGD_BAD_DQT_LENGTH,
+  JPGD_TOO_MANY_BLOCKS,
+  JPGD_UNDEFINED_QUANT_TABLE,
+  JPGD_UNDEFINED_HUFF_TABLE,
+  JPGD_NOT_SINGLE_SCAN,
+  JPGD_UNSUPPORTED_COLORSPACE,
+  JPGD_UNSUPPORTED_SAMP_FACTORS,
+  JPGD_DECODE_ERROR,
+  JPGD_BAD_RESTART_MARKER,
+  JPGD_ASSERTION_ERROR,
+  JPGD_BAD_SOS_SPECTRAL,
+  JPGD_BAD_SOS_SUCCESSIVE,
+  JPGD_STREAM_READ,
+  JPGD_NOTENOUGHMEM
+};
 
-    // The read() method is called when the internal input buffer is empty.
-    // Parameters:
-    // pBuf - input buffer
-    // max_bytes_to_read - maximum bytes that can be written to pBuf
-    // pEOF_flag - set this to true if at end of stream (no more bytes remaining)
-    // Returns -1 on error, otherwise return the number of bytes actually written to the buffer (which may be 0).
-    // Notes: This method will be called in a loop until you set *pEOF_flag to true or the internal buffer is full.
-    virtual int read(uint8 *pBuf, int max_bytes_to_read, bool *pEOF_flag) = 0;
+// Input stream interface.
+// Derive from this class to read input data from sources other than files or memory. Set m_eof_flag to true when no more data is available.
+// The decoder is rather greedy: it will keep on calling this method until its internal input buffer is full, or until the EOF flag is set.
+// It the input stream contains data after the JPEG stream's EOI (end of image) marker it will probably be pulled into the internal buffer.
+// Call the get_total_bytes_read() method to determine the actual size of the JPEG stream after successful decoding.
+class jpeg_decoder_stream {
+ public:
+  jpeg_decoder_stream() {}
+  virtual ~jpeg_decoder_stream() {}
+
+  // The read() method is called when the internal input buffer is empty.
+  // Parameters:
+  // pBuf - input buffer
+  // max_bytes_to_read - maximum bytes that can be written to pBuf
+  // pEOF_flag - set this to true if at end of stream (no more bytes remaining)
+  // Returns -1 on error, otherwise return the number of bytes actually written to the buffer (which may be 0).
+  // Notes: This method will be called in a loop until you set *pEOF_flag to true or the internal buffer is full.
+  virtual int read(uint8* pBuf, int max_bytes_to_read, bool* pEOF_flag) = 0;
+};
+
+// stdio FILE stream class.
+class jpeg_decoder_file_stream : public jpeg_decoder_stream {
+  jpeg_decoder_file_stream(const jpeg_decoder_file_stream&);
+  jpeg_decoder_file_stream& operator=(const jpeg_decoder_file_stream&);
+
+  FILE* m_pFile;
+  bool m_eof_flag, m_error_flag;
+
+ public:
+  jpeg_decoder_file_stream();
+  virtual ~jpeg_decoder_file_stream();
+
+  bool open(const char* Pfilename);
+  void close();
+
+  virtual int read(uint8* pBuf, int max_bytes_to_read, bool* pEOF_flag);
+};
+
+// Memory stream class.
+class jpeg_decoder_mem_stream : public jpeg_decoder_stream {
+  const uint8* m_pSrc_data;
+  uint m_ofs, m_size;
+
+ public:
+  jpeg_decoder_mem_stream()
+      : m_pSrc_data(NULL), m_ofs(0), m_size(0) {}
+  jpeg_decoder_mem_stream(const uint8* pSrc_data, uint size)
+      : m_pSrc_data(pSrc_data), m_ofs(0), m_size(size) {}
+
+  virtual ~jpeg_decoder_mem_stream() {}
+
+  bool open(const uint8* pSrc_data, uint size);
+  void close() {
+    m_pSrc_data = NULL;
+    m_ofs = 0;
+    m_size = 0;
+  }
+
+  virtual int read(uint8* pBuf, int max_bytes_to_read, bool* pEOF_flag);
+};
+
+// Loads JPEG file from a jpeg_decoder_stream.
+unsigned char* decompress_jpeg_image_from_stream(jpeg_decoder_stream* pStream, int* width, int* height, int* actual_comps, int req_comps);
+
+enum {
+  JPGD_IN_BUF_SIZE = 8192,
+  JPGD_MAX_BLOCKS_PER_MCU = 10,
+  JPGD_MAX_HUFF_TABLES = 8,
+  JPGD_MAX_QUANT_TABLES = 4,
+  JPGD_MAX_COMPONENTS = 4,
+  JPGD_MAX_COMPS_IN_SCAN = 4,
+  JPGD_MAX_BLOCKS_PER_ROW = 8192,
+  JPGD_MAX_HEIGHT = 16384,
+  JPGD_MAX_WIDTH = 16384
+};
+
+typedef int16 jpgd_quant_t;
+typedef int16 jpgd_block_t;
+
+class jpeg_decoder {
+ public:
+  // Call get_error_code() after constructing to determine if the stream is valid or not. You may call the get_width(), get_height(), etc.
+  // methods after the constructor is called. You may then either destruct the object, or begin decoding the image by calling begin_decoding(), then decode() on each scanline.
+  jpeg_decoder(jpeg_decoder_stream* pStream);
+
+  ~jpeg_decoder();
+
+  // Call this method after constructing the object to begin decompression.
+  // If JPGD_SUCCESS is returned you may then call decode() on each scanline.
+  int begin_decoding();
+
+  // Returns the next scan line.
+  // For grayscale images, pScan_line will point to a buffer containing 8-bit pixels (get_bytes_per_pixel() will return 1).
+  // Otherwise, it will always point to a buffer containing 32-bit RGBA pixels (A will always be 255, and get_bytes_per_pixel() will return 4).
+  // Returns JPGD_SUCCESS if a scan line has been returned.
+  // Returns JPGD_DONE if all scan lines have been returned.
+  // Returns JPGD_FAILED if an error occurred. Call get_error_code() for a more info.
+  int decode(const void** pScan_line, uint* pScan_line_len);
+
+  inline jpgd_status get_error_code() const { return m_error_code; }
+
+  inline int get_width() const { return m_image_x_size; }
+  inline int get_height() const { return m_image_y_size; }
+
+  inline int get_num_components() const { return m_comps_in_frame; }
+
+  inline int get_bytes_per_pixel() const { return m_dest_bytes_per_pixel; }
+  inline int get_bytes_per_scan_line() const { return m_image_x_size * get_bytes_per_pixel(); }
+
+  // Returns the total number of bytes actually consumed by the decoder (which should equal the actual size of the JPEG file).
+  inline int get_total_bytes_read() const { return m_total_bytes_read; }
+
+ private:
+  jpeg_decoder(const jpeg_decoder&);
+  jpeg_decoder& operator=(const jpeg_decoder&);
+
+  typedef void (*pDecode_block_func)(jpeg_decoder*, int, int, int);
+
+  struct huff_tables {
+    bool ac_table;
+    uint look_up[256];
+    uint look_up2[256];
+    uint8 code_size[256];
+    uint tree[512];
   };
 
-  // stdio FILE stream class.
-  class jpeg_decoder_file_stream : public jpeg_decoder_stream
-  {
-    jpeg_decoder_file_stream(const jpeg_decoder_file_stream &);
-    jpeg_decoder_file_stream &operator =(const jpeg_decoder_file_stream &);
-
-    FILE *m_pFile;
-    bool m_eof_flag, m_error_flag;
-
-  public:
-    jpeg_decoder_file_stream();
-    virtual ~jpeg_decoder_file_stream();
-    
-    bool open(const char *Pfilename);
-    void close();
-
-    virtual int read(uint8 *pBuf, int max_bytes_to_read, bool *pEOF_flag);
+  struct coeff_buf {
+    uint8* pData;
+    int block_num_x, block_num_y;
+    int block_len_x, block_len_y;
+    int block_size;
   };
 
-  // Memory stream class.
-  class jpeg_decoder_mem_stream : public jpeg_decoder_stream
-  {
-    const uint8 *m_pSrc_data;
-    uint m_ofs, m_size;
-
-  public:
-    jpeg_decoder_mem_stream() : m_pSrc_data(NULL), m_ofs(0), m_size(0) { }
-    jpeg_decoder_mem_stream(const uint8 *pSrc_data, uint size) : m_pSrc_data(pSrc_data), m_ofs(0), m_size(size) { }
-
-    virtual ~jpeg_decoder_mem_stream() { }
-
-    bool open(const uint8 *pSrc_data, uint size);
-    void close() { m_pSrc_data = NULL; m_ofs = 0; m_size = 0; }
-    
-    virtual int read(uint8 *pBuf, int max_bytes_to_read, bool *pEOF_flag);
+  struct mem_block {
+    mem_block* m_pNext;
+    size_t m_used_count;
+    size_t m_size;
+    char m_data[1];
   };
 
-  // Loads JPEG file from a jpeg_decoder_stream.
-  unsigned char *decompress_jpeg_image_from_stream(jpeg_decoder_stream *pStream, int *width, int *height, int *actual_comps, int req_comps);
+  jmp_buf m_jmp_state;
+  mem_block* m_pMem_blocks;
+  int m_image_x_size;
+  int m_image_y_size;
+  jpeg_decoder_stream* m_pStream;
+  int m_progressive_flag;
+  uint8 m_huff_ac[JPGD_MAX_HUFF_TABLES];
+  uint8* m_huff_num[JPGD_MAX_HUFF_TABLES];       // pointer to number of Huffman codes per bit size
+  uint8* m_huff_val[JPGD_MAX_HUFF_TABLES];       // pointer to Huffman codes per bit size
+  jpgd_quant_t* m_quant[JPGD_MAX_QUANT_TABLES];  // pointer to quantization tables
+  int m_scan_type;                               // Gray, Yh1v1, Yh1v2, Yh2v1, Yh2v2 (CMYK111, CMYK4114 no longer supported)
+  int m_comps_in_frame;                          // # of components in frame
+  int m_comp_h_samp[JPGD_MAX_COMPONENTS];        // component's horizontal sampling factor
+  int m_comp_v_samp[JPGD_MAX_COMPONENTS];        // component's vertical sampling factor
+  int m_comp_quant[JPGD_MAX_COMPONENTS];         // component's quantization table selector
+  int m_comp_ident[JPGD_MAX_COMPONENTS];         // component's ID
+  int m_comp_h_blocks[JPGD_MAX_COMPONENTS];
+  int m_comp_v_blocks[JPGD_MAX_COMPONENTS];
+  int m_comps_in_scan;                      // # of components in scan
+  int m_comp_list[JPGD_MAX_COMPS_IN_SCAN];  // components in this scan
+  int m_comp_dc_tab[JPGD_MAX_COMPONENTS];   // component's DC Huffman coding table selector
+  int m_comp_ac_tab[JPGD_MAX_COMPONENTS];   // component's AC Huffman coding table selector
+  int m_spectral_start;                     // spectral selection start
+  int m_spectral_end;                       // spectral selection end
+  int m_successive_low;                     // successive approximation low
+  int m_successive_high;                    // successive approximation high
+  int m_max_mcu_x_size;                     // MCU's max. X size in pixels
+  int m_max_mcu_y_size;                     // MCU's max. Y size in pixels
+  int m_blocks_per_mcu;
+  int m_max_blocks_per_row;
+  int m_mcus_per_row, m_mcus_per_col;
+  int m_mcu_org[JPGD_MAX_BLOCKS_PER_MCU];
+  int m_total_lines_left;  // total # lines left in image
+  int m_mcu_lines_left;    // total # lines left in this MCU
+  int m_real_dest_bytes_per_scan_line;
+  int m_dest_bytes_per_scan_line;  // rounded up
+  int m_dest_bytes_per_pixel;      // 4 (RGB) or 1 (Y)
+  huff_tables* m_pHuff_tabs[JPGD_MAX_HUFF_TABLES];
+  coeff_buf* m_dc_coeffs[JPGD_MAX_COMPONENTS];
+  coeff_buf* m_ac_coeffs[JPGD_MAX_COMPONENTS];
+  int m_eob_run;
+  int m_block_y_mcu[JPGD_MAX_COMPONENTS];
+  uint8* m_pIn_buf_ofs;
+  int m_in_buf_left;
+  int m_tem_flag;
+  bool m_eof_flag;
+  uint8 m_in_buf_pad_start[128];
+  uint8 m_in_buf[JPGD_IN_BUF_SIZE + 128];
+  uint8 m_in_buf_pad_end[128];
+  int m_bits_left;
+  uint m_bit_buf;
+  int m_restart_interval;
+  int m_restarts_left;
+  int m_next_restart_num;
+  int m_max_mcus_per_row;
+  int m_max_blocks_per_mcu;
+  int m_expanded_blocks_per_mcu;
+  int m_expanded_blocks_per_row;
+  int m_expanded_blocks_per_component;
+  bool m_freq_domain_chroma_upsample;
+  int m_max_mcus_per_col;
+  uint m_last_dc_val[JPGD_MAX_COMPONENTS];
+  jpgd_block_t* m_pMCU_coefficients;
+  int m_mcu_block_max_zag[JPGD_MAX_BLOCKS_PER_MCU];
+  uint8* m_pSample_buf;
+  int m_crr[256];
+  int m_cbb[256];
+  int m_crg[256];
+  int m_cbg[256];
+  uint8* m_pScan_line_0;
+  uint8* m_pScan_line_1;
+  jpgd_status m_error_code;
+  bool m_ready_flag;
+  int m_total_bytes_read;
 
-  enum 
-  { 
-    JPGD_IN_BUF_SIZE = 8192, JPGD_MAX_BLOCKS_PER_MCU = 10, JPGD_MAX_HUFF_TABLES = 8, JPGD_MAX_QUANT_TABLES = 4, 
-    JPGD_MAX_COMPONENTS = 4, JPGD_MAX_COMPS_IN_SCAN = 4, JPGD_MAX_BLOCKS_PER_ROW = 8192, JPGD_MAX_HEIGHT = 16384, JPGD_MAX_WIDTH = 16384 
-  };
-          
-  typedef int16 jpgd_quant_t;
-  typedef int16 jpgd_block_t;
+  void free_all_blocks();
+  JPGD_NORETURN void stop_decoding(jpgd_status status);
+  void* alloc(size_t n, bool zero = false);
+  void word_clear(void* p, uint16 c, uint n);
+  void prep_in_buffer();
+  void read_dht_marker();
+  void read_dqt_marker();
+  void read_sof_marker();
+  void skip_variable_marker();
+  void read_dri_marker();
+  void read_sos_marker();
+  int next_marker();
+  int process_markers();
+  void locate_soi_marker();
+  void locate_sof_marker();
+  int locate_sos_marker();
+  void init(jpeg_decoder_stream* pStream);
+  void create_look_ups();
+  void fix_in_buffer();
+  void transform_mcu(int mcu_row);
+  void transform_mcu_expand(int mcu_row);
+  coeff_buf* coeff_buf_open(int block_num_x, int block_num_y, int block_len_x, int block_len_y);
+  inline jpgd_block_t* coeff_buf_getp(coeff_buf* cb, int block_x, int block_y);
+  void load_next_row();
+  void decode_next_row();
+  void make_huff_table(int index, huff_tables* pH);
+  void check_quant_tables();
+  void check_huff_tables();
+  void calc_mcu_block_order();
+  int init_scan();
+  void init_frame();
+  void process_restart();
+  void decode_scan(pDecode_block_func decode_block_func);
+  void init_progressive();
+  void init_sequential();
+  void decode_start();
+  void decode_init(jpeg_decoder_stream* pStream);
+  void H2V2Convert();
+  void H2V1Convert();
+  void H1V2Convert();
+  void H1V1Convert();
+  void gray_convert();
+  void expanded_convert();
+  void find_eoi();
+  inline uint get_char();
+  inline uint get_char(bool* pPadding_flag);
+  inline void stuff_char(uint8 q);
+  inline uint8 get_octet();
+  inline uint get_bits(int num_bits);
+  inline uint get_bits_no_markers(int numbits);
+  inline int huff_decode(huff_tables* pH);
+  inline int huff_decode(huff_tables* pH, int& extrabits);
+  static inline uint8 clamp(int i);
+  static void decode_block_dc_first(jpeg_decoder* pD, int component_id, int block_x, int block_y);
+  static void decode_block_dc_refine(jpeg_decoder* pD, int component_id, int block_x, int block_y);
+  static void decode_block_ac_first(jpeg_decoder* pD, int component_id, int block_x, int block_y);
+  static void decode_block_ac_refine(jpeg_decoder* pD, int component_id, int block_x, int block_y);
+};
 
-  class jpeg_decoder
-  {
-  public:
-    // Call get_error_code() after constructing to determine if the stream is valid or not. You may call the get_width(), get_height(), etc.
-    // methods after the constructor is called. You may then either destruct the object, or begin decoding the image by calling begin_decoding(), then decode() on each scanline.
-    jpeg_decoder(jpeg_decoder_stream *pStream);
+}  // namespace jpgd
 
-    ~jpeg_decoder();
-
-    // Call this method after constructing the object to begin decompression.
-    // If JPGD_SUCCESS is returned you may then call decode() on each scanline.
-    int begin_decoding();
-
-    // Returns the next scan line.
-    // For grayscale images, pScan_line will point to a buffer containing 8-bit pixels (get_bytes_per_pixel() will return 1). 
-    // Otherwise, it will always point to a buffer containing 32-bit RGBA pixels (A will always be 255, and get_bytes_per_pixel() will return 4).
-    // Returns JPGD_SUCCESS if a scan line has been returned.
-    // Returns JPGD_DONE if all scan lines have been returned.
-    // Returns JPGD_FAILED if an error occurred. Call get_error_code() for a more info.
-    int decode(const void** pScan_line, uint* pScan_line_len);
-    
-    inline jpgd_status get_error_code() const { return m_error_code; }
-
-    inline int get_width() const { return m_image_x_size; }
-    inline int get_height() const { return m_image_y_size; }
-
-    inline int get_num_components() const { return m_comps_in_frame; }
-
-    inline int get_bytes_per_pixel() const { return m_dest_bytes_per_pixel; }
-    inline int get_bytes_per_scan_line() const { return m_image_x_size * get_bytes_per_pixel(); }
-
-    // Returns the total number of bytes actually consumed by the decoder (which should equal the actual size of the JPEG file).
-    inline int get_total_bytes_read() const { return m_total_bytes_read; }
-    
-  private:
-    jpeg_decoder(const jpeg_decoder &);
-    jpeg_decoder &operator =(const jpeg_decoder &);
-
-    typedef void (*pDecode_block_func)(jpeg_decoder *, int, int, int);
-
-    struct huff_tables
-    {
-      bool ac_table;
-      uint  look_up[256];
-      uint  look_up2[256];
-      uint8 code_size[256];
-      uint  tree[512];
-    };
-
-    struct coeff_buf
-    {
-      uint8 *pData;
-      int block_num_x, block_num_y;
-      int block_len_x, block_len_y;
-      int block_size;
-    };
-
-    struct mem_block
-    {
-      mem_block *m_pNext;
-      size_t m_used_count;
-      size_t m_size;
-      char m_data[1];
-    };
-
-    jmp_buf m_jmp_state;
-    mem_block *m_pMem_blocks;
-    int m_image_x_size;
-    int m_image_y_size;
-    jpeg_decoder_stream *m_pStream;
-    int m_progressive_flag;
-    uint8 m_huff_ac[JPGD_MAX_HUFF_TABLES];
-    uint8* m_huff_num[JPGD_MAX_HUFF_TABLES];      // pointer to number of Huffman codes per bit size
-    uint8* m_huff_val[JPGD_MAX_HUFF_TABLES];      // pointer to Huffman codes per bit size
-    jpgd_quant_t* m_quant[JPGD_MAX_QUANT_TABLES]; // pointer to quantization tables
-    int m_scan_type;                              // Gray, Yh1v1, Yh1v2, Yh2v1, Yh2v2 (CMYK111, CMYK4114 no longer supported)
-    int m_comps_in_frame;                         // # of components in frame
-    int m_comp_h_samp[JPGD_MAX_COMPONENTS];       // component's horizontal sampling factor
-    int m_comp_v_samp[JPGD_MAX_COMPONENTS];       // component's vertical sampling factor
-    int m_comp_quant[JPGD_MAX_COMPONENTS];        // component's quantization table selector
-    int m_comp_ident[JPGD_MAX_COMPONENTS];        // component's ID
-    int m_comp_h_blocks[JPGD_MAX_COMPONENTS];
-    int m_comp_v_blocks[JPGD_MAX_COMPONENTS];
-    int m_comps_in_scan;                          // # of components in scan
-    int m_comp_list[JPGD_MAX_COMPS_IN_SCAN];      // components in this scan
-    int m_comp_dc_tab[JPGD_MAX_COMPONENTS];       // component's DC Huffman coding table selector
-    int m_comp_ac_tab[JPGD_MAX_COMPONENTS];       // component's AC Huffman coding table selector
-    int m_spectral_start;                         // spectral selection start
-    int m_spectral_end;                           // spectral selection end
-    int m_successive_low;                         // successive approximation low
-    int m_successive_high;                        // successive approximation high
-    int m_max_mcu_x_size;                         // MCU's max. X size in pixels
-    int m_max_mcu_y_size;                         // MCU's max. Y size in pixels
-    int m_blocks_per_mcu;
-    int m_max_blocks_per_row;
-    int m_mcus_per_row, m_mcus_per_col;
-    int m_mcu_org[JPGD_MAX_BLOCKS_PER_MCU];
-    int m_total_lines_left;                       // total # lines left in image
-    int m_mcu_lines_left;                         // total # lines left in this MCU
-    int m_real_dest_bytes_per_scan_line;
-    int m_dest_bytes_per_scan_line;               // rounded up
-    int m_dest_bytes_per_pixel;                   // 4 (RGB) or 1 (Y)
-    huff_tables* m_pHuff_tabs[JPGD_MAX_HUFF_TABLES];
-    coeff_buf* m_dc_coeffs[JPGD_MAX_COMPONENTS];
-    coeff_buf* m_ac_coeffs[JPGD_MAX_COMPONENTS];
-    int m_eob_run;
-    int m_block_y_mcu[JPGD_MAX_COMPONENTS];
-    uint8* m_pIn_buf_ofs;
-    int m_in_buf_left;
-    int m_tem_flag;
-    bool m_eof_flag;
-    uint8 m_in_buf_pad_start[128];
-    uint8 m_in_buf[JPGD_IN_BUF_SIZE + 128];
-    uint8 m_in_buf_pad_end[128];
-    int m_bits_left;
-    uint m_bit_buf;
-    int m_restart_interval;
-    int m_restarts_left;
-    int m_next_restart_num;
-    int m_max_mcus_per_row;
-    int m_max_blocks_per_mcu;
-    int m_expanded_blocks_per_mcu;
-    int m_expanded_blocks_per_row;
-    int m_expanded_blocks_per_component;
-    bool  m_freq_domain_chroma_upsample;
-    int m_max_mcus_per_col;
-    uint m_last_dc_val[JPGD_MAX_COMPONENTS];
-    jpgd_block_t* m_pMCU_coefficients;
-    int m_mcu_block_max_zag[JPGD_MAX_BLOCKS_PER_MCU];
-    uint8* m_pSample_buf;
-    int m_crr[256];
-    int m_cbb[256];
-    int m_crg[256];
-    int m_cbg[256];
-    uint8* m_pScan_line_0;
-    uint8* m_pScan_line_1;
-    jpgd_status m_error_code;
-    bool m_ready_flag;
-    int m_total_bytes_read;
-
-    void free_all_blocks();
-    JPGD_NORETURN void stop_decoding(jpgd_status status);
-    void *alloc(size_t n, bool zero = false);
-    void word_clear(void *p, uint16 c, uint n);
-    void prep_in_buffer();
-    void read_dht_marker();
-    void read_dqt_marker();
-    void read_sof_marker();
-    void skip_variable_marker();
-    void read_dri_marker();
-    void read_sos_marker();
-    int next_marker();
-    int process_markers();
-    void locate_soi_marker();
-    void locate_sof_marker();
-    int locate_sos_marker();
-    void init(jpeg_decoder_stream * pStream);
-    void create_look_ups();
-    void fix_in_buffer();
-    void transform_mcu(int mcu_row);
-    void transform_mcu_expand(int mcu_row);
-    coeff_buf* coeff_buf_open(int block_num_x, int block_num_y, int block_len_x, int block_len_y);
-    inline jpgd_block_t *coeff_buf_getp(coeff_buf *cb, int block_x, int block_y);
-    void load_next_row();
-    void decode_next_row();
-    void make_huff_table(int index, huff_tables *pH);
-    void check_quant_tables();
-    void check_huff_tables();
-    void calc_mcu_block_order();
-    int init_scan();
-    void init_frame();
-    void process_restart();
-    void decode_scan(pDecode_block_func decode_block_func);
-    void init_progressive();
-    void init_sequential();
-    void decode_start();
-    void decode_init(jpeg_decoder_stream * pStream);
-    void H2V2Convert();
-    void H2V1Convert();
-    void H1V2Convert();
-    void H1V1Convert();
-    void gray_convert();
-    void expanded_convert();
-    void find_eoi();
-    inline uint get_char();
-    inline uint get_char(bool *pPadding_flag);
-    inline void stuff_char(uint8 q);
-    inline uint8 get_octet();
-    inline uint get_bits(int num_bits);
-    inline uint get_bits_no_markers(int numbits);
-    inline int huff_decode(huff_tables *pH);
-    inline int huff_decode(huff_tables *pH, int& extrabits);
-    static inline uint8 clamp(int i);
-    static void decode_block_dc_first(jpeg_decoder *pD, int component_id, int block_x, int block_y);
-    static void decode_block_dc_refine(jpeg_decoder *pD, int component_id, int block_x, int block_y);
-    static void decode_block_ac_first(jpeg_decoder *pD, int component_id, int block_x, int block_y);
-    static void decode_block_ac_refine(jpeg_decoder *pD, int component_id, int block_x, int block_y);
-  };
-  
-} // namespace jpgd
-
-#endif // JPEG_DECODER_H
+#endif  // JPEG_DECODER_H

crnlib/crn_jpge.h

@@ -4,166 +4,168 @@
 #ifndef JPEG_ENCODER_H
 #define JPEG_ENCODER_H
 
-namespace jpge
-{
-  typedef unsigned char  uint8;
-  typedef signed short   int16;
-  typedef signed int     int32;
-  typedef unsigned short uint16;
-  typedef unsigned int   uint32;
-  typedef unsigned int   uint;
+namespace jpge {
+typedef unsigned char uint8;
+typedef signed short int16;
+typedef signed int int32;
+typedef unsigned short uint16;
+typedef unsigned int uint32;
+typedef unsigned int uint;
 
-  // JPEG chroma subsampling factors. Y_ONLY (grayscale images) and H2V2 (color images) are the most common.
-  enum subsampling_t { Y_ONLY = 0, H1V1 = 1, H2V1 = 2, H2V2 = 3 };
+// JPEG chroma subsampling factors. Y_ONLY (grayscale images) and H2V2 (color images) are the most common.
+enum subsampling_t { Y_ONLY = 0,
+                     H1V1 = 1,
+                     H2V1 = 2,
+                     H2V2 = 3 };
 
-  // JPEG compression parameters structure.
-  struct params
-  {
-    inline params() : m_quality(85), m_subsampling(H2V2), m_no_chroma_discrim_flag(false), m_two_pass_flag(false) { }
+// JPEG compression parameters structure.
+struct params {
+  inline params()
+      : m_quality(85), m_subsampling(H2V2), m_no_chroma_discrim_flag(false), m_two_pass_flag(false) {}
 
-    inline bool check() const
-    {
-      if ((m_quality < 1) || (m_quality > 100)) return false;
-      if ((uint)m_subsampling > (uint)H2V2) return false;
-      return true;
-    }
+  inline bool check() const {
+    if ((m_quality < 1) || (m_quality > 100))
+      return false;
+    if ((uint)m_subsampling > (uint)H2V2)
+      return false;
+    return true;
+  }
 
-    // Quality: 1-100, higher is better. Typical values are around 50-95.
-    int m_quality;
+  // Quality: 1-100, higher is better. Typical values are around 50-95.
+  int m_quality;
 
-    // m_subsampling:
-    // 0 = Y (grayscale) only
-    // 1 = YCbCr, no subsampling (H1V1, YCbCr 1x1x1, 3 blocks per MCU)
-    // 2 = YCbCr, H2V1 subsampling (YCbCr 2x1x1, 4 blocks per MCU)
-    // 3 = YCbCr, H2V2 subsampling (YCbCr 4x1x1, 6 blocks per MCU-- very common)
-    subsampling_t m_subsampling;
+  // m_subsampling:
+  // 0 = Y (grayscale) only
+  // 1 = YCbCr, no subsampling (H1V1, YCbCr 1x1x1, 3 blocks per MCU)
+  // 2 = YCbCr, H2V1 subsampling (YCbCr 2x1x1, 4 blocks per MCU)
+  // 3 = YCbCr, H2V2 subsampling (YCbCr 4x1x1, 6 blocks per MCU-- very common)
+  subsampling_t m_subsampling;
 
-    // Disables CbCr discrimination - only intended for testing.
-    // If true, the Y quantization table is also used for the CbCr channels.
-    bool m_no_chroma_discrim_flag;
+  // Disables CbCr discrimination - only intended for testing.
+  // If true, the Y quantization table is also used for the CbCr channels.
+  bool m_no_chroma_discrim_flag;
 
-    bool m_two_pass_flag;
-  };
+  bool m_two_pass_flag;
+};
 
-  // Writes JPEG image to a file. 
-  // num_channels must be 1 (Y) or 3 (RGB), image pitch must be width*num_channels.
-  bool compress_image_to_jpeg_file(const char *pFilename, int width, int height, int num_channels, const uint8 *pImage_data, const params &comp_params = params());
+// Writes JPEG image to a file.
+// num_channels must be 1 (Y) or 3 (RGB), image pitch must be width*num_channels.
+bool compress_image_to_jpeg_file(const char* pFilename, int width, int height, int num_channels, const uint8* pImage_data, const params& comp_params = params());
 
-  // Writes JPEG image to memory buffer. 
-  // On entry, buf_size is the size of the output buffer pointed at by pBuf, which should be at least ~1024 bytes. 
-  // If return value is true, buf_size will be set to the size of the compressed data.
-  bool compress_image_to_jpeg_file_in_memory(void *pBuf, int &buf_size, int width, int height, int num_channels, const uint8 *pImage_data, const params &comp_params = params());
+// Writes JPEG image to memory buffer.
+// On entry, buf_size is the size of the output buffer pointed at by pBuf, which should be at least ~1024 bytes.
+// If return value is true, buf_size will be set to the size of the compressed data.
+bool compress_image_to_jpeg_file_in_memory(void* pBuf, int& buf_size, int width, int height, int num_channels, const uint8* pImage_data, const params& comp_params = params());
 
-  // Output stream abstract class - used by the jpeg_encoder class to write to the output stream. 
-  // put_buf() is generally called with len==JPGE_OUT_BUF_SIZE bytes, but for headers it'll be called with smaller amounts.
-  class output_stream
-  {
-  public:
-    virtual ~output_stream() { };
-    virtual bool put_buf(const void* Pbuf, int len) = 0;
-    template<class T> inline bool put_obj(const T& obj) { return put_buf(&obj, sizeof(T)); }
-  };
+// Output stream abstract class - used by the jpeg_encoder class to write to the output stream.
+// put_buf() is generally called with len==JPGE_OUT_BUF_SIZE bytes, but for headers it'll be called with smaller amounts.
+class output_stream {
+ public:
+  virtual ~output_stream(){};
+  virtual bool put_buf(const void* Pbuf, int len) = 0;
+  template <class T>
+  inline bool put_obj(const T& obj) { return put_buf(&obj, sizeof(T)); }
+};
 
-  // Lower level jpeg_encoder class - useful if more control is needed than the above helper functions.
-  class jpeg_encoder
-  {
-  public:
-    jpeg_encoder();
-    ~jpeg_encoder();
+// Lower level jpeg_encoder class - useful if more control is needed than the above helper functions.
+class jpeg_encoder {
+ public:
+  jpeg_encoder();
+  ~jpeg_encoder();
 
-    // Initializes the compressor.
-    // pStream: The stream object to use for writing compressed data.
-    // params - Compression parameters structure, defined above.
-    // width, height  - Image dimensions.
-    // channels - May be 1, or 3. 1 indicates grayscale, 3 indicates RGB source data.
-    // Returns false on out of memory or if a stream write fails.
-    bool init(output_stream *pStream, int width, int height, int src_channels, const params &comp_params = params());
+  // Initializes the compressor.
+  // pStream: The stream object to use for writing compressed data.
+  // params - Compression parameters structure, defined above.
+  // width, height  - Image dimensions.
+  // channels - May be 1, or 3. 1 indicates grayscale, 3 indicates RGB source data.
+  // Returns false on out of memory or if a stream write fails.
+  bool init(output_stream* pStream, int width, int height, int src_channels, const params& comp_params = params());
 
-    const params &get_params() const { return m_params; }
+  const params& get_params() const { return m_params; }
 
-    // Deinitializes the compressor, freeing any allocated memory. May be called at any time.
-    void deinit();
+  // Deinitializes the compressor, freeing any allocated memory. May be called at any time.
+  void deinit();
 
-    uint get_total_passes() const { return m_params.m_two_pass_flag ? 2 : 1; }
-    inline uint get_cur_pass() { return m_pass_num; }
+  uint get_total_passes() const { return m_params.m_two_pass_flag ? 2 : 1; }
+  inline uint get_cur_pass() { return m_pass_num; }
 
-    // Call this method with each source scanline.
-    // width * src_channels bytes per scanline is expected (RGB or Y format).
-    // You must call with NULL after all scanlines are processed to finish compression.
-    // Returns false on out of memory or if a stream write fails.
-    bool process_scanline(const void* pScanline);
+  // Call this method with each source scanline.
+  // width * src_channels bytes per scanline is expected (RGB or Y format).
+  // You must call with NULL after all scanlines are processed to finish compression.
+  // Returns false on out of memory or if a stream write fails.
+  bool process_scanline(const void* pScanline);
 
-  private:
-    jpeg_encoder(const jpeg_encoder &);
-    jpeg_encoder &operator =(const jpeg_encoder &);
+ private:
+  jpeg_encoder(const jpeg_encoder&);
+  jpeg_encoder& operator=(const jpeg_encoder&);
 
-    typedef int32 sample_array_t;
+  typedef int32 sample_array_t;
 
-    output_stream *m_pStream;
-    params m_params;
-    uint8 m_num_components;
-    uint8 m_comp_h_samp[3], m_comp_v_samp[3];
-    int m_image_x, m_image_y, m_image_bpp, m_image_bpl;
-    int m_image_x_mcu, m_image_y_mcu;
-    int m_image_bpl_xlt, m_image_bpl_mcu;
-    int m_mcus_per_row;
-    int m_mcu_x, m_mcu_y;
-    uint8 *m_mcu_lines[16];
-    uint8 m_mcu_y_ofs;
-    sample_array_t m_sample_array[64];
-    int16 m_coefficient_array[64];
-    int32 m_quantization_tables[2][64];
-    uint m_huff_codes[4][256];
-    uint8 m_huff_code_sizes[4][256];
-    uint8 m_huff_bits[4][17];
-    uint8 m_huff_val[4][256];
-    uint32 m_huff_count[4][256];
-    int m_last_dc_val[3];
-    enum { JPGE_OUT_BUF_SIZE = 2048 };
-    uint8 m_out_buf[JPGE_OUT_BUF_SIZE];
-    uint8 *m_pOut_buf;
-    uint m_out_buf_left;
-    uint32 m_bit_buffer;
-    uint m_bits_in;
-    uint8 m_pass_num;
-    bool m_all_stream_writes_succeeded;
+  output_stream* m_pStream;
+  params m_params;
+  uint8 m_num_components;
+  uint8 m_comp_h_samp[3], m_comp_v_samp[3];
+  int m_image_x, m_image_y, m_image_bpp, m_image_bpl;
+  int m_image_x_mcu, m_image_y_mcu;
+  int m_image_bpl_xlt, m_image_bpl_mcu;
+  int m_mcus_per_row;
+  int m_mcu_x, m_mcu_y;
+  uint8* m_mcu_lines[16];
+  uint8 m_mcu_y_ofs;
+  sample_array_t m_sample_array[64];
+  int16 m_coefficient_array[64];
+  int32 m_quantization_tables[2][64];
+  uint m_huff_codes[4][256];
+  uint8 m_huff_code_sizes[4][256];
+  uint8 m_huff_bits[4][17];
+  uint8 m_huff_val[4][256];
+  uint32 m_huff_count[4][256];
+  int m_last_dc_val[3];
+  enum { JPGE_OUT_BUF_SIZE = 2048 };
+  uint8 m_out_buf[JPGE_OUT_BUF_SIZE];
+  uint8* m_pOut_buf;
+  uint m_out_buf_left;
+  uint32 m_bit_buffer;
+  uint m_bits_in;
+  uint8 m_pass_num;
+  bool m_all_stream_writes_succeeded;
 
-    void optimize_huffman_table(int table_num, int table_len);
-    void emit_byte(uint8 i);
-    void emit_word(uint i);
-    void emit_marker(int marker);
-    void emit_jfif_app0();
-    void emit_dqt();
-    void emit_sof();
-    void emit_dht(uint8 *bits, uint8 *val, int index, bool ac_flag);
-    void emit_dhts();
-    void emit_sos();
-    void emit_markers();
-    void compute_huffman_table(uint *codes, uint8 *code_sizes, uint8 *bits, uint8 *val);
-    void compute_quant_table(int32 *dst, int16 *src);
-    void adjust_quant_table(int32 *dst, int32 *src);
-    void first_pass_init();
-    bool second_pass_init();
-    bool jpg_open(int p_x_res, int p_y_res, int src_channels);
-    void load_block_8_8_grey(int x);
-    void load_block_8_8(int x, int y, int c);
-    void load_block_16_8(int x, int c);
-    void load_block_16_8_8(int x, int c);
-    void load_quantized_coefficients(int component_num);
-    void flush_output_buffer();
-    void put_bits(uint bits, uint len);
-    void code_coefficients_pass_one(int component_num);
-    void code_coefficients_pass_two(int component_num);
-    void code_block(int component_num);
-    void process_mcu_row();
-    bool terminate_pass_one();
-    bool terminate_pass_two();
-    bool process_end_of_image();
-    void load_mcu(const void* src);
-    void clear();
-    void init();
-  };
+  void optimize_huffman_table(int table_num, int table_len);
+  void emit_byte(uint8 i);
+  void emit_word(uint i);
+  void emit_marker(int marker);
+  void emit_jfif_app0();
+  void emit_dqt();
+  void emit_sof();
+  void emit_dht(uint8* bits, uint8* val, int index, bool ac_flag);
+  void emit_dhts();
+  void emit_sos();
+  void emit_markers();
+  void compute_huffman_table(uint* codes, uint8* code_sizes, uint8* bits, uint8* val);
+  void compute_quant_table(int32* dst, int16* src);
+  void adjust_quant_table(int32* dst, int32* src);
+  void first_pass_init();
+  bool second_pass_init();
+  bool jpg_open(int p_x_res, int p_y_res, int src_channels);
+  void load_block_8_8_grey(int x);
+  void load_block_8_8(int x, int y, int c);
+  void load_block_16_8(int x, int c);
+  void load_block_16_8_8(int x, int c);
+  void load_quantized_coefficients(int component_num);
+  void flush_output_buffer();
+  void put_bits(uint bits, uint len);
+  void code_coefficients_pass_one(int component_num);
+  void code_coefficients_pass_two(int component_num);
+  void code_block(int component_num);
+  void process_mcu_row();
+  bool terminate_pass_one();
+  bool terminate_pass_two();
+  bool process_end_of_image();
+  void load_mcu(const void* src);
+  void clear();
+  void init();
+};
 
-} // namespace jpge
+}  // namespace jpge
 
-#endif // JPEG_ENCODER
+#endif  // JPEG_ENCODER

crnlib/crn_ktx_texture.h

@@ -10,235 +10,282 @@
 #define KTX_ENDIAN 0x04030201
 #define KTX_OPPOSITE_ENDIAN 0x01020304
 
-namespace crnlib
-{
-   extern const uint8 s_ktx_file_id[12];
+namespace crnlib {
+extern const uint8 s_ktx_file_id[12];
 
-   struct ktx_header
-   {
-      uint8 m_identifier[12];
-      uint32 m_endianness;
-      uint32 m_glType;
-      uint32 m_glTypeSize;
-      uint32 m_glFormat;
-      uint32 m_glInternalFormat;
-      uint32 m_glBaseInternalFormat;
-      uint32 m_pixelWidth;
-      uint32 m_pixelHeight;
-      uint32 m_pixelDepth;
-      uint32 m_numberOfArrayElements;
-      uint32 m_numberOfFaces;
-      uint32 m_numberOfMipmapLevels;
-      uint32 m_bytesOfKeyValueData;
+struct ktx_header {
+  uint8 m_identifier[12];
+  uint32 m_endianness;
+  uint32 m_glType;
+  uint32 m_glTypeSize;
+  uint32 m_glFormat;
+  uint32 m_glInternalFormat;
+  uint32 m_glBaseInternalFormat;
+  uint32 m_pixelWidth;
+  uint32 m_pixelHeight;
+  uint32 m_pixelDepth;
+  uint32 m_numberOfArrayElements;
+  uint32 m_numberOfFaces;
+  uint32 m_numberOfMipmapLevels;
+  uint32 m_bytesOfKeyValueData;
 
-      void clear()
-      {
-         memset(this, 0, sizeof(*this));
-      }
+  void clear() {
+    memset(this, 0, sizeof(*this));
+  }
 
-      void endian_swap()
-      {
-         utils::endian_swap_mem32(&m_endianness, (sizeof(*this) - sizeof(m_identifier)) / sizeof(uint32));
-      }
-   };
+  void endian_swap() {
+    utils::endian_swap_mem32(&m_endianness, (sizeof(*this) - sizeof(m_identifier)) / sizeof(uint32));
+  }
+};
 
-   typedef crnlib::vector<uint8_vec> ktx_key_value_vec;
-   typedef crnlib::vector<uint8_vec> ktx_image_data_vec;
+typedef crnlib::vector<uint8_vec> ktx_key_value_vec;
+typedef crnlib::vector<uint8_vec> ktx_image_data_vec;
 
-   // Compressed pixel data formats: ETC1, DXT1, DXT3, DXT5
-   enum 
-   { 
-      KTX_ETC1_RGB8_OES = 0x8D64, KTX_RGB_S3TC = 0x83A0, KTX_RGB4_S3TC = 0x83A1, KTX_COMPRESSED_RGB_S3TC_DXT1_EXT = 0x83F0,
-      KTX_COMPRESSED_RGBA_S3TC_DXT1_EXT = 0x83F1, KTX_COMPRESSED_SRGB_S3TC_DXT1_EXT = 0x8C4C, KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT = 0x8C4D,
-      KTX_RGBA_S3TC = 0x83A2, KTX_RGBA4_S3TC = 0x83A3, KTX_COMPRESSED_RGBA_S3TC_DXT3_EXT = 0x83F2, KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT = 0x8C4E,
-      KTX_COMPRESSED_RGBA_S3TC_DXT5_EXT = 0x83F3, KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT = 0x8C4F, KTX_RGBA_DXT5_S3TC = 0x83A4, KTX_RGBA4_DXT5_S3TC = 0x83A5,
-      KTX_COMPRESSED_RED_RGTC1_EXT = 0x8DBB, KTX_COMPRESSED_SIGNED_RED_RGTC1_EXT = 0x8DBC, KTX_COMPRESSED_RED_GREEN_RGTC2_EXT = 0x8DBD, KTX_COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT = 0x8DBE,
-      KTX_COMPRESSED_LUMINANCE_LATC1_EXT = 0x8C70, KTX_COMPRESSED_SIGNED_LUMINANCE_LATC1_EXT = 0x8C71, KTX_COMPRESSED_LUMINANCE_ALPHA_LATC2_EXT = 0x8C72, KTX_COMPRESSED_SIGNED_LUMINANCE_ALPHA_LATC2_EXT = 0x8C73
-   };
+// Compressed pixel data formats: ETC1, DXT1, DXT3, DXT5
+enum {
+  KTX_ETC1_RGB8_OES = 0x8D64,
+  KTX_COMPRESSED_RGB8_ETC2 = 0x9274,
+  KTX_COMPRESSED_RGBA8_ETC2_EAC = 0x9278,
+  KTX_RGB_S3TC = 0x83A0,
+  KTX_RGB4_S3TC = 0x83A1,
+  KTX_COMPRESSED_RGB_S3TC_DXT1_EXT = 0x83F0,
+  KTX_COMPRESSED_RGBA_S3TC_DXT1_EXT = 0x83F1,
+  KTX_COMPRESSED_SRGB_S3TC_DXT1_EXT = 0x8C4C,
+  KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT = 0x8C4D,
+  KTX_RGBA_S3TC = 0x83A2,
+  KTX_RGBA4_S3TC = 0x83A3,
+  KTX_COMPRESSED_RGBA_S3TC_DXT3_EXT = 0x83F2,
+  KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT = 0x8C4E,
+  KTX_COMPRESSED_RGBA_S3TC_DXT5_EXT = 0x83F3,
+  KTX_COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT = 0x8C4F,
+  KTX_RGBA_DXT5_S3TC = 0x83A4,
+  KTX_RGBA4_DXT5_S3TC = 0x83A5,
+  KTX_COMPRESSED_RED_RGTC1_EXT = 0x8DBB,
+  KTX_COMPRESSED_SIGNED_RED_RGTC1_EXT = 0x8DBC,
+  KTX_COMPRESSED_RED_GREEN_RGTC2_EXT = 0x8DBD,
+  KTX_COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT = 0x8DBE,
+  KTX_COMPRESSED_LUMINANCE_LATC1_EXT = 0x8C70,
+  KTX_COMPRESSED_SIGNED_LUMINANCE_LATC1_EXT = 0x8C71,
+  KTX_COMPRESSED_LUMINANCE_ALPHA_LATC2_EXT = 0x8C72,
+  KTX_COMPRESSED_SIGNED_LUMINANCE_ALPHA_LATC2_EXT = 0x8C73
+};
 
-   // Pixel formats (various internal, base, and base internal formats)
-   enum 
-   { 
-      KTX_R8 = 0x8229, KTX_R8UI = 0x8232, KTX_RGB8 = 0x8051, KTX_SRGB8 = 0x8C41, KTX_SRGB = 0x8C40, KTX_SRGB_ALPHA = 0x8C42,
-      KTX_SRGB8_ALPHA8 = 0x8C43, KTX_RGBA8 = 0x8058, KTX_STENCIL_INDEX = 0x1901, KTX_DEPTH_COMPONENT = 0x1902, KTX_DEPTH_STENCIL = 0x84F9, KTX_RED = 0x1903,
-      KTX_GREEN = 0x1904, KTX_BLUE = 0x1905, KTX_ALPHA = 0x1906, KTX_RG = 0x8227, KTX_RGB = 0x1907, KTX_RGBA = 0x1908, KTX_BGR = 0x80E0, KTX_BGRA = 0x80E1,
-      KTX_RED_INTEGER = 0x8D94, KTX_GREEN_INTEGER = 0x8D95, KTX_BLUE_INTEGER = 0x8D96, KTX_ALPHA_INTEGER = 0x8D97, KTX_RGB_INTEGER = 0x8D98, KTX_RGBA_INTEGER = 0x8D99,
-      KTX_BGR_INTEGER = 0x8D9A, KTX_BGRA_INTEGER = 0x8D9B, KTX_LUMINANCE = 0x1909, KTX_LUMINANCE_ALPHA = 0x190A, KTX_RG_INTEGER = 0x8228, KTX_RG8 = 0x822B,
-      KTX_ALPHA8 = 0x803C, KTX_LUMINANCE8 = 0x8040, KTX_LUMINANCE8_ALPHA8 = 0x8045
-   };
+// Pixel formats (various internal, base, and base internal formats)
+enum {
+  KTX_R8 = 0x8229,
+  KTX_R8UI = 0x8232,
+  KTX_RGB8 = 0x8051,
+  KTX_SRGB8 = 0x8C41,
+  KTX_SRGB = 0x8C40,
+  KTX_SRGB_ALPHA = 0x8C42,
+  KTX_SRGB8_ALPHA8 = 0x8C43,
+  KTX_RGBA8 = 0x8058,
+  KTX_STENCIL_INDEX = 0x1901,
+  KTX_DEPTH_COMPONENT = 0x1902,
+  KTX_DEPTH_STENCIL = 0x84F9,
+  KTX_RED = 0x1903,
+  KTX_GREEN = 0x1904,
+  KTX_BLUE = 0x1905,
+  KTX_ALPHA = 0x1906,
+  KTX_RG = 0x8227,
+  KTX_RGB = 0x1907,
+  KTX_RGBA = 0x1908,
+  KTX_BGR = 0x80E0,
+  KTX_BGRA = 0x80E1,
+  KTX_RED_INTEGER = 0x8D94,
+  KTX_GREEN_INTEGER = 0x8D95,
+  KTX_BLUE_INTEGER = 0x8D96,
+  KTX_ALPHA_INTEGER = 0x8D97,
+  KTX_RGB_INTEGER = 0x8D98,
+  KTX_RGBA_INTEGER = 0x8D99,
+  KTX_BGR_INTEGER = 0x8D9A,
+  KTX_BGRA_INTEGER = 0x8D9B,
+  KTX_LUMINANCE = 0x1909,
+  KTX_LUMINANCE_ALPHA = 0x190A,
+  KTX_RG_INTEGER = 0x8228,
+  KTX_RG8 = 0x822B,
+  KTX_ALPHA8 = 0x803C,
+  KTX_LUMINANCE8 = 0x8040,
+  KTX_LUMINANCE8_ALPHA8 = 0x8045
+};
 
-   // Pixel data types
-   enum 
-   {
-      KTX_UNSIGNED_BYTE = 0x1401, KTX_BYTE = 0x1400, KTX_UNSIGNED_SHORT = 0x1403, KTX_SHORT = 0x1402,
-      KTX_UNSIGNED_INT = 0x1405, KTX_INT = 0x1404, KTX_HALF_FLOAT = 0x140B, KTX_FLOAT = 0x1406,
-      KTX_UNSIGNED_BYTE_3_3_2 = 0x8032, KTX_UNSIGNED_BYTE_2_3_3_REV = 0x8362, KTX_UNSIGNED_SHORT_5_6_5 = 0x8363,
-      KTX_UNSIGNED_SHORT_5_6_5_REV = 0x8364, KTX_UNSIGNED_SHORT_4_4_4_4 = 0x8033, KTX_UNSIGNED_SHORT_4_4_4_4_REV = 0x8365,
-      KTX_UNSIGNED_SHORT_5_5_5_1 = 0x8034, KTX_UNSIGNED_SHORT_1_5_5_5_REV = 0x8366, KTX_UNSIGNED_INT_8_8_8_8 = 0x8035,
-      KTX_UNSIGNED_INT_8_8_8_8_REV = 0x8367, KTX_UNSIGNED_INT_10_10_10_2 = 0x8036, KTX_UNSIGNED_INT_2_10_10_10_REV = 0x8368,
-      KTX_UNSIGNED_INT_24_8 = 0x84FA, KTX_UNSIGNED_INT_10F_11F_11F_REV = 0x8C3B, KTX_UNSIGNED_INT_5_9_9_9_REV = 0x8C3E, 
-      KTX_FLOAT_32_UNSIGNED_INT_24_8_REV = 0x8DAD
-   };
-   
-   bool is_packed_pixel_ogl_type(uint32 ogl_type);
-   uint get_ogl_type_size(uint32 ogl_type);
-   bool get_ogl_fmt_desc(uint32 ogl_fmt, uint32 ogl_type, uint& block_dim, uint& bytes_per_block);
-   uint get_ogl_type_size(uint32 ogl_type);
-   uint32 get_ogl_base_internal_fmt(uint32 ogl_fmt);
+// Pixel data types
+enum {
+  KTX_UNSIGNED_BYTE = 0x1401,
+  KTX_BYTE = 0x1400,
+  KTX_UNSIGNED_SHORT = 0x1403,
+  KTX_SHORT = 0x1402,
+  KTX_UNSIGNED_INT = 0x1405,
+  KTX_INT = 0x1404,
+  KTX_HALF_FLOAT = 0x140B,
+  KTX_FLOAT = 0x1406,
+  KTX_UNSIGNED_BYTE_3_3_2 = 0x8032,
+  KTX_UNSIGNED_BYTE_2_3_3_REV = 0x8362,
+  KTX_UNSIGNED_SHORT_5_6_5 = 0x8363,
+  KTX_UNSIGNED_SHORT_5_6_5_REV = 0x8364,
+  KTX_UNSIGNED_SHORT_4_4_4_4 = 0x8033,
+  KTX_UNSIGNED_SHORT_4_4_4_4_REV = 0x8365,
+  KTX_UNSIGNED_SHORT_5_5_5_1 = 0x8034,
+  KTX_UNSIGNED_SHORT_1_5_5_5_REV = 0x8366,
+  KTX_UNSIGNED_INT_8_8_8_8 = 0x8035,
+  KTX_UNSIGNED_INT_8_8_8_8_REV = 0x8367,
+  KTX_UNSIGNED_INT_10_10_10_2 = 0x8036,
+  KTX_UNSIGNED_INT_2_10_10_10_REV = 0x8368,
+  KTX_UNSIGNED_INT_24_8 = 0x84FA,
+  KTX_UNSIGNED_INT_10F_11F_11F_REV = 0x8C3B,
+  KTX_UNSIGNED_INT_5_9_9_9_REV = 0x8C3E,
+  KTX_FLOAT_32_UNSIGNED_INT_24_8_REV = 0x8DAD
+};
 
-   class ktx_texture
-   {
-   public:
-      ktx_texture()
-      {
-         clear();
-      }
+bool is_packed_pixel_ogl_type(uint32 ogl_type);
+uint get_ogl_type_size(uint32 ogl_type);
+bool get_ogl_fmt_desc(uint32 ogl_fmt, uint32 ogl_type, uint& block_dim, uint& bytes_per_block);
+uint get_ogl_type_size(uint32 ogl_type);
+uint32 get_ogl_base_internal_fmt(uint32 ogl_fmt);
 
-      ktx_texture(const ktx_texture& other)
-      {
-         *this = other;
-      }
+class ktx_texture {
+ public:
+  ktx_texture() {
+    clear();
+  }
 
-      ktx_texture& operator= (const ktx_texture& rhs)
-      {
-         if (this == &rhs)
-            return *this;
+  ktx_texture(const ktx_texture& other) {
+    *this = other;
+  }
 
-         clear();
+  ktx_texture& operator=(const ktx_texture& rhs) {
+    if (this == &rhs)
+      return *this;
 
-         m_header = rhs.m_header;
-         m_key_values = rhs.m_key_values;
-         m_image_data = rhs.m_image_data;
-         m_block_dim = rhs.m_block_dim;
-         m_bytes_per_block = rhs.m_bytes_per_block;
-         m_opposite_endianness = rhs.m_opposite_endianness;
+    clear();
 
-         return *this;
-      }
+    m_header = rhs.m_header;
+    m_key_values = rhs.m_key_values;
+    m_image_data = rhs.m_image_data;
+    m_block_dim = rhs.m_block_dim;
+    m_bytes_per_block = rhs.m_bytes_per_block;
+    m_opposite_endianness = rhs.m_opposite_endianness;
 
-      void clear()
-      {
-         m_header.clear();
-         m_key_values.clear();
-         m_image_data.clear();
-         
-         m_block_dim = 0;
-         m_bytes_per_block = 0;
+    return *this;
+  }
 
-         m_opposite_endianness = false;
-      }
+  void clear() {
+    m_header.clear();
+    m_key_values.clear();
+    m_image_data.clear();
 
-      // High level methods
-      bool read_from_stream(data_stream_serializer& serializer);
-      bool write_to_stream(data_stream_serializer& serializer, bool no_keyvalue_data = false);
-      
-      bool init_2D(uint width, uint height, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
-      bool init_2D_array(uint width, uint height, uint num_mips, uint array_size, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
-      bool init_3D(uint width, uint height, uint depth, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
-      bool init_cubemap(uint dim, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
+    m_block_dim = 0;
+    m_bytes_per_block = 0;
 
-      bool check_header() const;
-      bool consistency_check() const;
+    m_opposite_endianness = false;
+  }
 
-      // General info
+  // High level methods
+  bool read_from_stream(data_stream_serializer& serializer);
+  bool write_to_stream(data_stream_serializer& serializer, bool no_keyvalue_data = false);
 
-      bool is_valid() const { return (m_header.m_pixelWidth > 0) && (m_image_data.size() > 0); }
+  bool init_2D(uint width, uint height, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
+  bool init_2D_array(uint width, uint height, uint num_mips, uint array_size, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
+  bool init_3D(uint width, uint height, uint depth, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
+  bool init_cubemap(uint dim, uint num_mips, uint32 ogl_internal_fmt, uint32 ogl_fmt, uint32 ogl_type);
 
-      uint get_width() const { return m_header.m_pixelWidth; }
-      uint get_height() const { return CRNLIB_MAX(m_header.m_pixelHeight, 1); }
-      uint get_depth() const { return CRNLIB_MAX(m_header.m_pixelDepth, 1); }
-      uint get_num_mips() const { return CRNLIB_MAX(m_header.m_numberOfMipmapLevels, 1); }
-      uint get_array_size() const { return CRNLIB_MAX(m_header.m_numberOfArrayElements, 1); }
-      uint get_num_faces() const { return m_header.m_numberOfFaces; }
+  bool check_header() const;
+  bool consistency_check() const;
 
-      uint32 get_ogl_type() const { return m_header.m_glType; }
-      uint32 get_ogl_fmt() const { return m_header.m_glFormat; }
-      uint32 get_ogl_base_fmt() const { return m_header.m_glBaseInternalFormat; }
-      uint32 get_ogl_internal_fmt() const { return m_header.m_glInternalFormat; }
-            
-      uint get_total_images() const { return get_num_mips() * (get_depth() * get_num_faces() * get_array_size()); }
+  // General info
 
-      bool is_compressed() const { return m_block_dim > 1; }
-      bool is_uncompressed() const { return !is_compressed(); }
-     
-      bool get_opposite_endianness() const { return m_opposite_endianness; }
-      void set_opposite_endianness(bool flag) { m_opposite_endianness = flag; }
+  bool is_valid() const { return (m_header.m_pixelWidth > 0) && (m_image_data.size() > 0); }
 
-      uint32 get_block_dim() const { return m_block_dim; }
-      uint32 get_bytes_per_block() const { return m_bytes_per_block; }
+  uint get_width() const { return m_header.m_pixelWidth; }
+  uint get_height() const { return CRNLIB_MAX(m_header.m_pixelHeight, 1); }
+  uint get_depth() const { return CRNLIB_MAX(m_header.m_pixelDepth, 1); }
+  uint get_num_mips() const { return CRNLIB_MAX(m_header.m_numberOfMipmapLevels, 1); }
+  uint get_array_size() const { return CRNLIB_MAX(m_header.m_numberOfArrayElements, 1); }
+  uint get_num_faces() const { return m_header.m_numberOfFaces; }
 
-      const ktx_header& get_header() const { return m_header; }
+  uint32 get_ogl_type() const { return m_header.m_glType; }
+  uint32 get_ogl_fmt() const { return m_header.m_glFormat; }
+  uint32 get_ogl_base_fmt() const { return m_header.m_glBaseInternalFormat; }
+  uint32 get_ogl_internal_fmt() const { return m_header.m_glInternalFormat; }
 
-      // Key values
-      const ktx_key_value_vec& get_key_value_vec() const { return m_key_values; }
-            ktx_key_value_vec& get_key_value_vec()       { return m_key_values; }
+  uint get_total_images() const { return get_num_mips() * (get_depth() * get_num_faces() * get_array_size()); }
 
-      const uint8_vec* find_key(const char* pKey) const;
-      bool get_key_value_as_string(const char* pKey, dynamic_string& str) const;
+  bool is_compressed() const { return m_block_dim > 1; }
+  bool is_uncompressed() const { return !is_compressed(); }
 
-      uint add_key_value(const char* pKey, const void* pVal, uint val_size);
-      uint add_key_value(const char* pKey, const char* pVal) { return add_key_value(pKey, pVal, static_cast<uint>(strlen(pVal)) + 1); }
+  bool get_opposite_endianness() const { return m_opposite_endianness; }
+  void set_opposite_endianness(bool flag) { m_opposite_endianness = flag; }
 
-      // Image data
-      uint get_num_images() const { return m_image_data.size(); }
+  uint32 get_block_dim() const { return m_block_dim; }
+  uint32 get_bytes_per_block() const { return m_bytes_per_block; }
 
-      const uint8_vec& get_image_data(uint image_index) const  { return m_image_data[image_index]; }
-            uint8_vec& get_image_data(uint image_index)        { return m_image_data[image_index]; }
+  const ktx_header& get_header() const { return m_header; }
 
-      const uint8_vec& get_image_data(uint mip_index, uint array_index, uint face_index, uint zslice_index) const  { return get_image_data(get_image_index(mip_index, array_index, face_index, zslice_index)); }
-            uint8_vec& get_image_data(uint mip_index, uint array_index, uint face_index, uint zslice_index)        { return get_image_data(get_image_index(mip_index, array_index, face_index, zslice_index)); }
-      
-      const ktx_image_data_vec& get_image_data_vec() const  { return m_image_data; }
-            ktx_image_data_vec& get_image_data_vec()        { return m_image_data; }
+  // Key values
+  const ktx_key_value_vec& get_key_value_vec() const { return m_key_values; }
+  ktx_key_value_vec& get_key_value_vec() { return m_key_values; }
 
-      void add_image(uint face_index, uint mip_index, const void* pImage, uint image_size) 
-      { 
-         const uint image_index = get_image_index(mip_index, 0, face_index, 0);
-         if (image_index >= m_image_data.size())
-            m_image_data.resize(image_index + 1);
-         if (image_size)
-         {  
-            uint8_vec& v = m_image_data[image_index];
-            v.resize(image_size);
-            memcpy(&v[0], pImage, image_size);
-         }
-      }
+  const uint8_vec* find_key(const char* pKey) const;
+  bool get_key_value_as_string(const char* pKey, dynamic_string& str) const;
 
-      uint get_image_index(uint mip_index, uint array_index, uint face_index, uint zslice_index) const
-      {
-         CRNLIB_ASSERT((mip_index < get_num_mips()) && (array_index < get_array_size()) && (face_index < get_num_faces()) && (zslice_index < get_depth()));
-         return zslice_index + (face_index * get_depth()) + (array_index * (get_depth() * get_num_faces())) + (mip_index * (get_depth() * get_num_faces() * get_array_size()));
-      }
-      
-      void get_mip_dim(uint mip_index, uint& mip_width, uint& mip_height) const
-      {
-         CRNLIB_ASSERT(mip_index < get_num_mips());
-         mip_width = CRNLIB_MAX(get_width() >> mip_index, 1);
-         mip_height = CRNLIB_MAX(get_height() >> mip_index, 1);
-      }
+  uint add_key_value(const char* pKey, const void* pVal, uint val_size);
+  uint add_key_value(const char* pKey, const char* pVal) { return add_key_value(pKey, pVal, static_cast<uint>(strlen(pVal)) + 1); }
 
-      void get_mip_dim(uint mip_index, uint& mip_width, uint& mip_height, uint& mip_depth) const
-      {
-         CRNLIB_ASSERT(mip_index < get_num_mips());
-         mip_width = CRNLIB_MAX(get_width() >> mip_index, 1);
-         mip_height = CRNLIB_MAX(get_height() >> mip_index, 1);
-         mip_depth = CRNLIB_MAX(get_depth() >> mip_index, 1);
-      }
-         
-   private:
-      ktx_header                 m_header;
-      
-      ktx_key_value_vec          m_key_values;
-      ktx_image_data_vec         m_image_data;
+  // Image data
+  uint get_num_images() const { return m_image_data.size(); }
 
-      uint32                     m_block_dim;
-      uint32                     m_bytes_per_block;
-            
-      bool                       m_opposite_endianness;
-      
-      bool compute_pixel_info();
-   };
-   
-} // namespace crnlib
+  const uint8_vec& get_image_data(uint image_index) const { return m_image_data[image_index]; }
+  uint8_vec& get_image_data(uint image_index) { return m_image_data[image_index]; }
 
-#endif // #ifndef _KTX_TEXTURE_H_
+  const uint8_vec& get_image_data(uint mip_index, uint array_index, uint face_index, uint zslice_index) const { return get_image_data(get_image_index(mip_index, array_index, face_index, zslice_index)); }
+  uint8_vec& get_image_data(uint mip_index, uint array_index, uint face_index, uint zslice_index) { return get_image_data(get_image_index(mip_index, array_index, face_index, zslice_index)); }
+
+  const ktx_image_data_vec& get_image_data_vec() const { return m_image_data; }
+  ktx_image_data_vec& get_image_data_vec() { return m_image_data; }
+
+  void add_image(uint face_index, uint mip_index, const void* pImage, uint image_size) {
+    const uint image_index = get_image_index(mip_index, 0, face_index, 0);
+    if (image_index >= m_image_data.size())
+      m_image_data.resize(image_index + 1);
+    if (image_size) {
+      uint8_vec& v = m_image_data[image_index];
+      v.resize(image_size);
+      memcpy(&v[0], pImage, image_size);
+    }
+  }
+
+  uint get_image_index(uint mip_index, uint array_index, uint face_index, uint zslice_index) const {
+    CRNLIB_ASSERT((mip_index < get_num_mips()) && (array_index < get_array_size()) && (face_index < get_num_faces()) && (zslice_index < get_depth()));
+    return zslice_index + (face_index * get_depth()) + (array_index * (get_depth() * get_num_faces())) + (mip_index * (get_depth() * get_num_faces() * get_array_size()));
+  }
+
+  void get_mip_dim(uint mip_index, uint& mip_width, uint& mip_height) const {
+    CRNLIB_ASSERT(mip_index < get_num_mips());
+    mip_width = CRNLIB_MAX(get_width() >> mip_index, 1);
+    mip_height = CRNLIB_MAX(get_height() >> mip_index, 1);
+  }
+
+  void get_mip_dim(uint mip_index, uint& mip_width, uint& mip_height, uint& mip_depth) const {
+    CRNLIB_ASSERT(mip_index < get_num_mips());
+    mip_width = CRNLIB_MAX(get_width() >> mip_index, 1);
+    mip_height = CRNLIB_MAX(get_height() >> mip_index, 1);
+    mip_depth = CRNLIB_MAX(get_depth() >> mip_index, 1);
+  }
+
+ private:
+  ktx_header m_header;
+
+  ktx_key_value_vec m_key_values;
+  ktx_image_data_vec m_image_data;
+
+  uint32 m_block_dim;
+  uint32 m_bytes_per_block;
+
+  bool m_opposite_endianness;
+
+  bool compute_pixel_info();
+};
+
+}  // namespace crnlib
+
+#endif  // #ifndef _KTX_TEXTURE_H_

crnlib/crn_lzma_codec.cpp

@@ -7,136 +7,126 @@
 #include "lzma_LzmaLib.h"
 #include "crn_threading.h"
 
-namespace crnlib
-{
-   lzma_codec::lzma_codec() :
-      m_pCompress(LzmaCompress),
-      m_pUncompress(LzmaUncompress)
-   {
-      CRNLIB_ASSUME(cLZMAPropsSize == LZMA_PROPS_SIZE);
-   }
+namespace crnlib {
+lzma_codec::lzma_codec()
+    : m_pCompress(LzmaCompress),
+      m_pUncompress(LzmaUncompress) {
+  CRNLIB_ASSUME(cLZMAPropsSize == LZMA_PROPS_SIZE);
+}
 
-   lzma_codec::~lzma_codec()
-   {
-   }
+lzma_codec::~lzma_codec() {
+}
 
-   bool lzma_codec::pack(const void* p, uint n, crnlib::vector<uint8>& buf)
-   {
-      if (n > 1024U*1024U*1024U)
-         return false;
+bool lzma_codec::pack(const void* p, uint n, crnlib::vector<uint8>& buf) {
+  if (n > 1024U * 1024U * 1024U)
+    return false;
 
-      uint max_comp_size = n + math::maximum<uint>(128, n >> 8);
-      buf.resize(sizeof(header) + max_comp_size);
+  uint max_comp_size = n + math::maximum<uint>(128, n >> 8);
+  buf.resize(sizeof(header) + max_comp_size);
 
-      header* pHDR = reinterpret_cast<header*>(&buf[0]);
-      uint8* pComp_data = &buf[sizeof(header)];
+  header* pHDR = reinterpret_cast<header*>(&buf[0]);
+  uint8* pComp_data = &buf[sizeof(header)];
 
-      utils::zero_object(*pHDR);
+  utils::zero_object(*pHDR);
 
-      pHDR->m_uncomp_size = n;
-      pHDR->m_adler32 = adler32(p, n);
+  pHDR->m_uncomp_size = n;
+  pHDR->m_adler32 = adler32(p, n);
 
-      if (n)
-      {
-         size_t destLen = 0;
-         size_t outPropsSize = 0;
-         int status = SZ_ERROR_INPUT_EOF;
+  if (n) {
+    size_t destLen = 0;
+    size_t outPropsSize = 0;
+    int status = SZ_ERROR_INPUT_EOF;
 
-         for (uint trial = 0; trial < 3; trial++)
-         {
-            destLen = max_comp_size;
-            outPropsSize = cLZMAPropsSize;
+    for (uint trial = 0; trial < 3; trial++) {
+      destLen = max_comp_size;
+      outPropsSize = cLZMAPropsSize;
 
-            status = (*m_pCompress)(pComp_data, &destLen, reinterpret_cast<const unsigned char*>(p), n,
-               pHDR->m_lzma_props, &outPropsSize,
-               -1,      /* 0 <= level <= 9, default = 5 */
-               0,       /* default = (1 << 24) */
-               -1,        /* 0 <= lc <= 8, default = 3  */
-               -1,        /* 0 <= lp <= 4, default = 0  */
-               -1,        /* 0 <= pb <= 4, default = 2  */
-               -1,        /* 5 <= fb <= 273, default = 32 */
+      status = (*m_pCompress)(pComp_data, &destLen, reinterpret_cast<const unsigned char*>(p), n,
+                              pHDR->m_lzma_props, &outPropsSize,
+                              -1, /* 0 <= level <= 9, default = 5 */
+                              0,  /* default = (1 << 24) */
+                              -1, /* 0 <= lc <= 8, default = 3  */
+                              -1, /* 0 <= lp <= 4, default = 0  */
+                              -1, /* 0 <= pb <= 4, default = 2  */
+                              -1, /* 5 <= fb <= 273, default = 32 */
 #ifdef WIN32
-               (g_number_of_processors > 1) ? 2 : 1
+                              (g_number_of_processors > 1) ? 2 : 1
 #else
-               1
+                              1
 #endif
-               );
+                              );
 
-            if (status != SZ_ERROR_OUTPUT_EOF)
-               break;
+      if (status != SZ_ERROR_OUTPUT_EOF)
+        break;
 
-            max_comp_size += ((n+1)/2);
-            buf.resize(sizeof(header) + max_comp_size);
-            pHDR = reinterpret_cast<header*>(&buf[0]);
-            pComp_data = &buf[sizeof(header)];
-         }
+      max_comp_size += ((n + 1) / 2);
+      buf.resize(sizeof(header) + max_comp_size);
+      pHDR = reinterpret_cast<header*>(&buf[0]);
+      pComp_data = &buf[sizeof(header)];
+    }
 
-         if (status != SZ_OK)
-         {
-            buf.clear();
-            return false;
-         }
+    if (status != SZ_OK) {
+      buf.clear();
+      return false;
+    }
 
-         pHDR->m_comp_size = static_cast<uint>(destLen);
+    pHDR->m_comp_size = static_cast<uint>(destLen);
 
-         buf.resize(CRNLIB_SIZEOF_U32(header) + static_cast<uint32>(destLen));
-      }
+    buf.resize(CRNLIB_SIZEOF_U32(header) + static_cast<uint32>(destLen));
+  }
 
-      pHDR->m_sig = header::cSig;
-      pHDR->m_checksum = static_cast<uint8>(adler32((uint8*)pHDR + header::cChecksumSkipBytes, sizeof(header) - header::cChecksumSkipBytes));
+  pHDR->m_sig = header::cSig;
+  pHDR->m_checksum = static_cast<uint8>(adler32((uint8*)pHDR + header::cChecksumSkipBytes, sizeof(header) - header::cChecksumSkipBytes));
 
-      return true;
-   }
+  return true;
+}
 
-   bool lzma_codec::unpack(const void* p, uint n, crnlib::vector<uint8>& buf)
-   {
-      buf.resize(0);
+bool lzma_codec::unpack(const void* p, uint n, crnlib::vector<uint8>& buf) {
+  buf.resize(0);
 
-      if (n < sizeof(header))
-         return false;
+  if (n < sizeof(header))
+    return false;
 
-      const header& hdr = *static_cast<const header*>(p);
-      if (hdr.m_sig != header::cSig)
-         return false;
+  const header& hdr = *static_cast<const header*>(p);
+  if (hdr.m_sig != header::cSig)
+    return false;
 
-      if (static_cast<uint8>(adler32((const uint8*)&hdr + header::cChecksumSkipBytes, sizeof(hdr) - header::cChecksumSkipBytes)) != hdr.m_checksum)
-         return false;
+  if (static_cast<uint8>(adler32((const uint8*)&hdr + header::cChecksumSkipBytes, sizeof(hdr) - header::cChecksumSkipBytes)) != hdr.m_checksum)
+    return false;
 
-      if (!hdr.m_uncomp_size)
-         return true;
+  if (!hdr.m_uncomp_size)
+    return true;
 
-      if (!hdr.m_comp_size)
-         return false;
+  if (!hdr.m_comp_size)
+    return false;
 
-      if (hdr.m_uncomp_size > 1024U*1024U*1024U)
-         return false;
+  if (hdr.m_uncomp_size > 1024U * 1024U * 1024U)
+    return false;
 
-      if (!buf.try_resize(hdr.m_uncomp_size))
-         return false;
+  if (!buf.try_resize(hdr.m_uncomp_size))
+    return false;
 
-      const uint8* pComp_data = static_cast<const uint8*>(p) + sizeof(header);
-      size_t srcLen = n - sizeof(header);
-      if (srcLen < hdr.m_comp_size)
-         return false;
+  const uint8* pComp_data = static_cast<const uint8*>(p) + sizeof(header);
+  size_t srcLen = n - sizeof(header);
+  if (srcLen < hdr.m_comp_size)
+    return false;
 
-      size_t destLen = hdr.m_uncomp_size;
+  size_t destLen = hdr.m_uncomp_size;
 
-      int status = (*m_pUncompress)(&buf[0], &destLen, pComp_data, &srcLen,
-         hdr.m_lzma_props, cLZMAPropsSize);
+  int status = (*m_pUncompress)(&buf[0], &destLen, pComp_data, &srcLen,
+                                hdr.m_lzma_props, cLZMAPropsSize);
 
-      if ((status != SZ_OK) || (destLen != hdr.m_uncomp_size))
-      {
-         buf.clear();
-         return false;
-      }
+  if ((status != SZ_OK) || (destLen != hdr.m_uncomp_size)) {
+    buf.clear();
+    return false;
+  }
 
-      if (adler32(&buf[0], buf.size()) != hdr.m_adler32)
-      {
-         buf.clear();
-         return false;
-      }
+  if (adler32(&buf[0], buf.size()) != hdr.m_adler32) {
+    buf.clear();
+    return false;
+  }
 
-      return true;
-   }
+  return true;
+}
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_lzma_codec.h

@@ -3,58 +3,55 @@
 #pragma once
 #include "crn_packed_uint.h"
 
-namespace crnlib
-{
-   class lzma_codec
-   {
-   public:
-      lzma_codec();
-      ~lzma_codec();
+namespace crnlib {
+class lzma_codec {
+ public:
+  lzma_codec();
+  ~lzma_codec();
 
-      // Always available, because we're statically linking in lzmalib now vs. dynamically loading the DLL.
-      bool is_initialized() const { return true; }
+  // Always available, because we're statically linking in lzmalib now vs. dynamically loading the DLL.
+  bool is_initialized() const { return true; }
 
-      bool pack(const void* p, uint n, crnlib::vector<uint8>& buf);
+  bool pack(const void* p, uint n, crnlib::vector<uint8>& buf);
 
-      bool unpack(const void* p, uint n, crnlib::vector<uint8>& buf);
+  bool unpack(const void* p, uint n, crnlib::vector<uint8>& buf);
 
-   private:
-      typedef int (CRNLIB_STDCALL *LzmaCompressFuncPtr)(unsigned char *dest, size_t *destLen, const unsigned char *src, size_t srcLen,
-         unsigned char *outProps, size_t *outPropsSize, /* *outPropsSize must be = 5 */
-         int level,      /* 0 <= level <= 9, default = 5 */
-         unsigned dictSize,  /* default = (1 << 24) */
-         int lc,        /* 0 <= lc <= 8, default = 3  */
-         int lp,        /* 0 <= lp <= 4, default = 0  */
-         int pb,        /* 0 <= pb <= 4, default = 2  */
-         int fb,        /* 5 <= fb <= 273, default = 32 */
-         int numThreads /* 1 or 2, default = 2 */
-         );
+ private:
+  typedef int(CRNLIB_STDCALL* LzmaCompressFuncPtr)(unsigned char* dest, size_t* destLen, const unsigned char* src, size_t srcLen,
+                                                   unsigned char* outProps, size_t* outPropsSize, /* *outPropsSize must be = 5 */
+                                                   int level,                                     /* 0 <= level <= 9, default = 5 */
+                                                   unsigned dictSize,                             /* default = (1 << 24) */
+                                                   int lc,                                        /* 0 <= lc <= 8, default = 3  */
+                                                   int lp,                                        /* 0 <= lp <= 4, default = 0  */
+                                                   int pb,                                        /* 0 <= pb <= 4, default = 2  */
+                                                   int fb,                                        /* 5 <= fb <= 273, default = 32 */
+                                                   int numThreads                                 /* 1 or 2, default = 2 */
+                                                   );
 
-      typedef int (CRNLIB_STDCALL  *LzmaUncompressFuncPtr)(unsigned char *dest, size_t *destLen, const unsigned char *src, size_t *srcLen,
-         const unsigned char *props, size_t propsSize);
+  typedef int(CRNLIB_STDCALL* LzmaUncompressFuncPtr)(unsigned char* dest, size_t* destLen, const unsigned char* src, size_t* srcLen,
+                                                     const unsigned char* props, size_t propsSize);
 
-      LzmaCompressFuncPtr     m_pCompress;
-      LzmaUncompressFuncPtr   m_pUncompress;
+  LzmaCompressFuncPtr m_pCompress;
+  LzmaUncompressFuncPtr m_pUncompress;
 
-      enum { cLZMAPropsSize = 5 };
+  enum { cLZMAPropsSize = 5 };
 
 #pragma pack(push)
 #pragma pack(1)
-      struct header
-      {
-         enum { cSig = 'L' | ('0' << 8), cChecksumSkipBytes = 3 };
-         packed_uint<2> m_sig;
-         uint8          m_checksum;
+  struct header {
+    enum { cSig = 'L' | ('0' << 8),
+           cChecksumSkipBytes = 3 };
+    packed_uint<2> m_sig;
+    uint8 m_checksum;
 
-         uint8          m_lzma_props[cLZMAPropsSize];
+    uint8 m_lzma_props[cLZMAPropsSize];
 
-         packed_uint<4> m_comp_size;
-         packed_uint<4> m_uncomp_size;
+    packed_uint<4> m_comp_size;
+    packed_uint<4> m_uncomp_size;
 
-         packed_uint<4> m_adler32;
-      };
+    packed_uint<4> m_adler32;
+  };
 #pragma pack(pop)
+};
 
-   };
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_math.cpp

@@ -2,75 +2,66 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #include "crn_core.h"
 
-namespace crnlib
-{
-   namespace math
-   {
-      uint g_bitmasks[32] =
-      {
-         1U <<  0U,         1U <<  1U,          1U <<  2U,        1U <<  3U,
-         1U <<  4U,         1U <<  5U,          1U <<  6U,        1U <<  7U,
-         1U <<  8U,         1U <<  9U,          1U << 10U,        1U << 11U,
-         1U << 12U,         1U << 13U,          1U << 14U,        1U << 15U,
-         1U << 16U,         1U << 17U,          1U << 18U,        1U << 19U,
-         1U << 20U,         1U << 21U,          1U << 22U,        1U << 23U,
-         1U << 24U,         1U << 25U,          1U << 26U,        1U << 27U,
-         1U << 28U,         1U << 29U,          1U << 30U,        1U << 31U
-      };
-      
-      double compute_entropy(const uint8* p, uint n)
-      {
-         uint hist[256];
-         utils::zero_object(hist);
-         
-         for (uint i = 0; i < n; i++)
-            hist[*p++]++;
-         
-         double entropy = 0.0f;
-         
-         const double invln2 = 1.0f/log(2.0f);
-         for (uint i = 0; i < 256; i++)
-         {
-            if (!hist[i])
-               continue;
-               
-            double prob = static_cast<double>(hist[i]) / n;
-            entropy += (-log(prob) * invln2) * hist[i];
-         }
-         
-         return entropy;
-      }
+namespace crnlib {
+namespace math {
+uint g_bitmasks[32] =
+    {
+        1U << 0U, 1U << 1U, 1U << 2U, 1U << 3U,
+        1U << 4U, 1U << 5U, 1U << 6U, 1U << 7U,
+        1U << 8U, 1U << 9U, 1U << 10U, 1U << 11U,
+        1U << 12U, 1U << 13U, 1U << 14U, 1U << 15U,
+        1U << 16U, 1U << 17U, 1U << 18U, 1U << 19U,
+        1U << 20U, 1U << 21U, 1U << 22U, 1U << 23U,
+        1U << 24U, 1U << 25U, 1U << 26U, 1U << 27U,
+        1U << 28U, 1U << 29U, 1U << 30U, 1U << 31U};
 
-      void compute_lower_pow2_dim(int& width, int& height)
-      {
-         const int tex_width = width;
-         const int tex_height = height;
+double compute_entropy(const uint8* p, uint n) {
+  uint hist[256];
+  utils::zero_object(hist);
 
-         width = 1;
-         for ( ; ; )
-         {
-            if ((width * 2) > tex_width)
-               break;
-            width *= 2;
-         }
+  for (uint i = 0; i < n; i++)
+    hist[*p++]++;
 
-         height = 1;
-         for ( ; ; )
-         {
-            if ((height * 2) > tex_height)
-               break;
-            height *= 2;
-         }
-      }         
+  double entropy = 0.0f;
 
-      void compute_upper_pow2_dim(int& width, int& height)
-      {
-         if (!math::is_power_of_2((uint32)width))
-            width = math::next_pow2((uint32)width);
+  const double invln2 = 1.0f / log(2.0f);
+  for (uint i = 0; i < 256; i++) {
+    if (!hist[i])
+      continue;
 
-         if (!math::is_power_of_2((uint32)height))
-            height = math::next_pow2((uint32)height);
-      }         
-      
-   } // namespace math
-} // namespace crnlib
+    double prob = static_cast<double>(hist[i]) / n;
+    entropy += (-log(prob) * invln2) * hist[i];
+  }
+
+  return entropy;
+}
+
+void compute_lower_pow2_dim(int& width, int& height) {
+  const int tex_width = width;
+  const int tex_height = height;
+
+  width = 1;
+  for (;;) {
+    if ((width * 2) > tex_width)
+      break;
+    width *= 2;
+  }
+
+  height = 1;
+  for (;;) {
+    if ((height * 2) > tex_height)
+      break;
+    height *= 2;
+  }
+}
+
+void compute_upper_pow2_dim(int& width, int& height) {
+  if (!math::is_power_of_2((uint32)width))
+    width = math::next_pow2((uint32)width);
+
+  if (!math::is_power_of_2((uint32)height))
+    height = math::next_pow2((uint32)height);
+}
+
+}  // namespace math
+}  // namespace crnlib

crnlib/crn_math.h

@@ -3,235 +3,278 @@
 #pragma once
 
 #if defined(_M_IX86) && defined(_MSC_VER)
-   #include <intrin.h>
-   #pragma intrinsic(__emulu)
-   unsigned __int64 __emulu(unsigned int a,unsigned int b );
+#include <intrin.h>
+#pragma intrinsic(__emulu)
+unsigned __int64 __emulu(unsigned int a, unsigned int b);
 #endif
 
-namespace crnlib
-{
-   namespace math
-   {
-      const float cNearlyInfinite = 1.0e+37f;
-						
-      const float cDegToRad = 0.01745329252f;
-      const float cRadToDeg = 57.29577951f;
+namespace crnlib {
+namespace math {
+const float cNearlyInfinite = 1.0e+37f;
 
-      extern uint g_bitmasks[32];
+const float cDegToRad = 0.01745329252f;
+const float cRadToDeg = 57.29577951f;
 
-      template<typename T> inline bool within_closed_range(T a, T b, T c) { return (a >= b) && (a <= c); }
+extern uint g_bitmasks[32];
 
-      template<typename T> inline bool within_open_range(T a, T b, T c) { return (a >= b) && (a < c); }
+template <typename T>
+inline bool within_closed_range(T a, T b, T c) {
+  return (a >= b) && (a <= c);
+}
 
-      // Yes I know these should probably be pass by ref, not val:
-      // http://www.stepanovpapers.com/notes.pdf
-      // Just don't use them on non-simple (non built-in) types!
-      template<typename T> inline T minimum(T a, T b) { return (a < b) ? a : b; }
+template <typename T>
+inline bool within_open_range(T a, T b, T c) {
+  return (a >= b) && (a < c);
+}
 
-      template<typename T> inline T minimum(T a, T b, T c) { return minimum(minimum(a, b), c); }
+// Yes I know these should probably be pass by ref, not val:
+// http://www.stepanovpapers.com/notes.pdf
+// Just don't use them on non-simple (non built-in) types!
+template <typename T>
+inline T minimum(T a, T b) {
+  return (a < b) ? a : b;
+}
 
-      template<typename T> inline T maximum(T a, T b) { return (a > b) ? a : b; }
+template <typename T>
+inline T minimum(T a, T b, T c) {
+  return minimum(minimum(a, b), c);
+}
 
-      template<typename T> inline T maximum(T a, T b, T c) { return maximum(maximum(a, b), c); }
+template <typename T>
+inline T maximum(T a, T b) {
+  return (a > b) ? a : b;
+}
 
-      template<typename T, typename U> inline T lerp(T a, T b, U c) { return a + (b - a) * c; }
+template <typename T>
+inline T maximum(T a, T b, T c) {
+  return maximum(maximum(a, b), c);
+}
 
-      template<typename T> inline T clamp(T value, T low, T high) { return (value < low) ? low : ((value > high) ? high : value); }
+template <typename T, typename U>
+inline T lerp(T a, T b, U c) {
+  return a + (b - a) * c;
+}
 
-      template<typename T> inline T saturate(T value) { return (value < 0.0f) ? 0.0f : ((value > 1.0f) ? 1.0f : value); }
+template <typename T>
+inline T clamp(T value, T low, T high) {
+  return (value < low) ? low : ((value > high) ? high : value);
+}
 
-      inline int float_to_int(float f) { return static_cast<int>(f); }
+template <typename T>
+inline T saturate(T value) {
+  return (value < 0.0f) ? 0.0f : ((value > 1.0f) ? 1.0f : value);
+}
 
-      inline uint float_to_uint(float f) { return static_cast<uint>(f); }
+inline int float_to_int(float f) {
+  return static_cast<int>(f);
+}
 
-      inline int float_to_int(double f) { return static_cast<int>(f); }
+inline uint float_to_uint(float f) {
+  return static_cast<uint>(f);
+}
 
-      inline uint float_to_uint(double f) { return static_cast<uint>(f); }
+inline int float_to_int(double f) {
+  return static_cast<int>(f);
+}
 
-      inline int float_to_int_round(float f) { return static_cast<int>((f < 0.0f) ? -floor(-f + .5f) : floor(f + .5f)); }
+inline uint float_to_uint(double f) {
+  return static_cast<uint>(f);
+}
 
-      inline uint float_to_uint_round(float f) { return static_cast<uint>((f < 0.0f) ? 0.0f : floor(f + .5f)); }
+inline int float_to_int_round(float f) {
+  return static_cast<int>((f < 0.0f) ? -floor(-f + .5f) : floor(f + .5f));
+}
 
-      template<typename T> inline int sign(T value) { return (value < 0) ? -1 : ((value > 0) ? 1 : 0); }
+inline uint float_to_uint_round(float f) {
+  return static_cast<uint>((f < 0.0f) ? 0.0f : floor(f + .5f));
+}
 
-      template<typename T> inline T square(T value) { return value * value; }
+template <typename T>
+inline int sign(T value) {
+  return (value < 0) ? -1 : ((value > 0) ? 1 : 0);
+}
 
-      inline bool is_power_of_2(uint32 x) { return x && ((x & (x - 1U)) == 0U); }
-      inline bool is_power_of_2(uint64 x) { return x && ((x & (x - 1U)) == 0U); }
+template <typename T>
+inline T square(T value) {
+  return value * value;
+}
 
-      template<typename T> inline T align_up_value(T x, uint alignment)
-      {
-         CRNLIB_ASSERT(is_power_of_2(alignment));
-         uint q = static_cast<uint>(x);
-         q = (q + alignment - 1) & (~(alignment - 1));
-         return static_cast<T>(q);
-      }
+inline bool is_power_of_2(uint32 x) {
+  return x && ((x & (x - 1U)) == 0U);
+}
+inline bool is_power_of_2(uint64 x) {
+  return x && ((x & (x - 1U)) == 0U);
+}
 
-      template<typename T> inline T align_down_value(T x, uint alignment)
-      {
-         CRNLIB_ASSERT(is_power_of_2(alignment));
-         uint q = static_cast<uint>(x);
-         q = q & (~(alignment - 1));
-         return static_cast<T>(q);
-      }
+template <typename T>
+inline T align_up_value(T x, uint alignment) {
+  CRNLIB_ASSERT(is_power_of_2(alignment));
+  uint q = static_cast<uint>(x);
+  q = (q + alignment - 1) & (~(alignment - 1));
+  return static_cast<T>(q);
+}
 
-      template<typename T> inline T get_align_up_value_delta(T x, uint alignment)
-      {
-         return align_up_value(x, alignment) - x;
-      }
-		      
-		// From "Hackers Delight"
-      inline uint32 next_pow2(uint32 val)
-      {
-         val--;
-         val |= val >> 16;
-         val |= val >> 8;
-         val |= val >> 4;
-         val |= val >> 2;
-         val |= val >> 1;
-         return val + 1;
-      }
+template <typename T>
+inline T align_down_value(T x, uint alignment) {
+  CRNLIB_ASSERT(is_power_of_2(alignment));
+  uint q = static_cast<uint>(x);
+  q = q & (~(alignment - 1));
+  return static_cast<T>(q);
+}
 
-      inline uint64 next_pow2(uint64 val)
-      {
-         val--;
-         val |= val >> 32;
-         val |= val >> 16;
-         val |= val >> 8;
-         val |= val >> 4;
-         val |= val >> 2;
-         val |= val >> 1;
-         return val + 1;
-      }
-            
-      inline uint floor_log2i(uint v)
-      {
-         uint l = 0;
-         while (v > 1U)
-         {
-            v >>= 1;
-            l++;
-         }
-         return l;
-      }
+template <typename T>
+inline T get_align_up_value_delta(T x, uint alignment) {
+  return align_up_value(x, alignment) - x;
+}
 
-      inline uint ceil_log2i(uint v)
-      {
-         uint l = floor_log2i(v);
-         if ((l != cIntBits) && (v > (1U << l)))
-            l++;
-         return l;
-      }
+// From "Hackers Delight"
+inline uint32 next_pow2(uint32 val) {
+  val--;
+  val |= val >> 16;
+  val |= val >> 8;
+  val |= val >> 4;
+  val |= val >> 2;
+  val |= val >> 1;
+  return val + 1;
+}
 
-      // Returns the total number of bits needed to encode v.
-      inline uint total_bits(uint v)
-      {
-         uint l = 0;
-         while (v > 0U)
-         {
-            v >>= 1;
-            l++;
-         }
-         return l;
-      }
+inline uint64 next_pow2(uint64 val) {
+  val--;
+  val |= val >> 32;
+  val |= val >> 16;
+  val |= val >> 8;
+  val |= val >> 4;
+  val |= val >> 2;
+  val |= val >> 1;
+  return val + 1;
+}
 
-      // Actually counts the number of set bits, but hey
-      inline uint bitmask_size(uint mask)
-      {
-         uint size = 0;
-         while (mask)
-         {
-            mask &= (mask - 1U);
-            size++;
-         }
-         return size;
-      }
+inline uint floor_log2i(uint v) {
+  uint l = 0;
+  while (v > 1U) {
+    v >>= 1;
+    l++;
+  }
+  return l;
+}
 
-      inline uint bitmask_ofs(uint mask)
-      {
-         if (!mask)
-            return 0;
-         uint ofs = 0;
-         while ((mask & 1U) == 0)
-         {
-            mask >>= 1U;
-            ofs++;
-         }
-         return ofs;
-      }
+inline uint ceil_log2i(uint v) {
+  uint l = floor_log2i(v);
+  if ((l != cIntBits) && (v > (1U << l)))
+    l++;
+  return l;
+}
 
-      // See Bit Twiddling Hacks (public domain)
-      // http://www-graphics.stanford.edu/~seander/bithacks.html
-      inline uint count_trailing_zero_bits(uint v)
-      {
-         uint c = 32; // c will be the number of zero bits on the right
+// Returns the total number of bits needed to encode v.
+inline uint total_bits(uint v) {
+  uint l = 0;
+  while (v > 0U) {
+    v >>= 1;
+    l++;
+  }
+  return l;
+}
 
-         static const unsigned int B[] = { 0x55555555, 0x33333333, 0x0F0F0F0F, 0x00FF00FF, 0x0000FFFF };
-         static const unsigned int S[] = { 1, 2, 4, 8, 16 }; // Our Magic Binary Numbers
+// Actually counts the number of set bits, but hey
+inline uint bitmask_size(uint mask) {
+  uint size = 0;
+  while (mask) {
+    mask &= (mask - 1U);
+    size++;
+  }
+  return size;
+}
 
-         for (int i = 4; i >= 0; --i) // unroll for more speed
-         {
-            if (v & B[i])
-            {
-               v <<= S[i];
-               c -= S[i];
-            }
-         }
+inline uint bitmask_ofs(uint mask) {
+  if (!mask)
+    return 0;
+  uint ofs = 0;
+  while ((mask & 1U) == 0) {
+    mask >>= 1U;
+    ofs++;
+  }
+  return ofs;
+}
 
-         if (v)
-         {
-            c--;
-         }
+// See Bit Twiddling Hacks (public domain)
+// http://www-graphics.stanford.edu/~seander/bithacks.html
+inline uint count_trailing_zero_bits(uint v) {
+  uint c = 32;  // c will be the number of zero bits on the right
 
-         return c;
-      }
+  static const unsigned int B[] = {0x55555555, 0x33333333, 0x0F0F0F0F, 0x00FF00FF, 0x0000FFFF};
+  static const unsigned int S[] = {1, 2, 4, 8, 16};  // Our Magic Binary Numbers
 
-      inline uint count_leading_zero_bits(uint v)
-      {
-         uint temp;
-         uint result = 32U;
+  for (int i = 4; i >= 0; --i)  // unroll for more speed
+  {
+    if (v & B[i]) {
+      v <<= S[i];
+      c -= S[i];
+    }
+  }
 
-         temp = (v >> 16U); if (temp) { result -= 16U; v = temp; }
-         temp = (v >>  8U); if (temp) { result -=  8U; v = temp; }
-         temp = (v >>  4U); if (temp) { result -=  4U; v = temp; }
-         temp = (v >>  2U); if (temp) { result -=  2U; v = temp; }
-         temp = (v >>  1U); if (temp) { result -=  1U; v = temp; }
+  if (v) {
+    c--;
+  }
 
-         if (v & 1U)
-            result--;
+  return c;
+}
 
-         return result;
-      }
+inline uint count_leading_zero_bits(uint v) {
+  uint temp;
+  uint result = 32U;
 
-      inline uint64 emulu(uint32 a, uint32 b)
-      {
+  temp = (v >> 16U);
+  if (temp) {
+    result -= 16U;
+    v = temp;
+  }
+  temp = (v >> 8U);
+  if (temp) {
+    result -= 8U;
+    v = temp;
+  }
+  temp = (v >> 4U);
+  if (temp) {
+    result -= 4U;
+    v = temp;
+  }
+  temp = (v >> 2U);
+  if (temp) {
+    result -= 2U;
+    v = temp;
+  }
+  temp = (v >> 1U);
+  if (temp) {
+    result -= 1U;
+    v = temp;
+  }
+
+  if (v & 1U)
+    result--;
+
+  return result;
+}
+
+inline uint64 emulu(uint32 a, uint32 b) {
 #if defined(_M_IX86) && defined(_MSC_VER)
-         return __emulu(a, b);
+  return __emulu(a, b);
 #else
-         return static_cast<uint64>(a) * static_cast<uint64>(b);
+  return static_cast<uint64>(a) * static_cast<uint64>(b);
 #endif
-      }
-
-      double compute_entropy(const uint8* p, uint n);
-
-      void compute_lower_pow2_dim(int& width, int& height);
-      void compute_upper_pow2_dim(int& width, int& height);
-      
-      inline bool equal_tol(float a, float b, float t)
-      {
-         return fabs(a - b) < ((maximum(fabs(a), fabs(b)) + 1.0f) * t);
-      }
-
-      inline bool equal_tol(double a, double b, double t)
-      {
-         return fabs(a - b) < ((maximum(fabs(a), fabs(b)) + 1.0f) * t);
-      }
-   }
-
-} // namespace crnlib
-
+}
 
+double compute_entropy(const uint8* p, uint n);
 
+void compute_lower_pow2_dim(int& width, int& height);
+void compute_upper_pow2_dim(int& width, int& height);
 
+inline bool equal_tol(float a, float b, float t) {
+  return fabs(a - b) < ((maximum(fabs(a), fabs(b)) + 1.0f) * t);
+}
 
+inline bool equal_tol(double a, double b, double t) {
+  return fabs(a - b) < ((maximum(fabs(a), fabs(b)) + 1.0f) * t);
+}
+}
 
+}  // namespace crnlib

crnlib/crn_mem.cpp

@@ -14,366 +14,244 @@
 #define _msize malloc_usable_size
 #endif
 
-namespace crnlib
-{
+namespace crnlib {
 #if CRNLIB_MEM_STATS
-   #if CRNLIB_64BIT_POINTERS
-      typedef LONGLONG mem_stat_t;
-      #define CRNLIB_MEM_COMPARE_EXCHANGE InterlockedCompareExchange64
-   #else
-      typedef LONG mem_stat_t;
-      #define CRNLIB_MEM_COMPARE_EXCHANGE InterlockedCompareExchange
-   #endif
-
-   static volatile mem_stat_t g_total_blocks;
-   static volatile mem_stat_t g_total_allocated;
-   static volatile mem_stat_t g_max_allocated;
-
-   static mem_stat_t update_total_allocated(int block_delta, mem_stat_t byte_delta)
-   {
-      mem_stat_t cur_total_blocks;
-      for ( ; ; )
-      {
-         cur_total_blocks = (mem_stat_t)g_total_blocks;
-         mem_stat_t new_total_blocks = static_cast<mem_stat_t>(cur_total_blocks + block_delta);
-         CRNLIB_ASSERT(new_total_blocks >= 0);
-         if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_total_blocks, new_total_blocks, cur_total_blocks) == cur_total_blocks)
-            break;
-      }
-
-      mem_stat_t cur_total_allocated, new_total_allocated;
-      for ( ; ; )
-      {
-         cur_total_allocated = g_total_allocated;
-         new_total_allocated = static_cast<mem_stat_t>(cur_total_allocated + byte_delta);
-         CRNLIB_ASSERT(new_total_allocated >= 0);
-         if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_total_allocated, new_total_allocated, cur_total_allocated) == cur_total_allocated)
-            break;
-      }
-      for ( ; ; )
-      {
-         mem_stat_t cur_max_allocated = g_max_allocated;
-         mem_stat_t new_max_allocated = CRNLIB_MAX(new_total_allocated, cur_max_allocated);
-         if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_max_allocated, new_max_allocated, cur_max_allocated) == cur_max_allocated)
-            break;
-      }
-      return new_total_allocated;
-   }
-#endif // CRNLIB_MEM_STATS
-
-   static void* crnlib_default_realloc(void* p, size_t size, size_t* pActual_size, bool movable, void* pUser_data)
-   {
-      pUser_data;
-
-      void* p_new;
-
-      if (!p)
-      {
-         p_new = ::malloc(size);
-         CRNLIB_ASSERT( (reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0 );
-
-         if (!p_new)
-         {
-            printf("WARNING: ::malloc() of size %u failed!\n", (uint)size);
-         }
-
-         if (pActual_size)
-            *pActual_size = p_new ? ::_msize(p_new) : 0;
-      }
-      else if (!size)
-      {
-         ::free(p);
-         p_new = NULL;
-
-         if (pActual_size)
-            *pActual_size = 0;
-      }
-      else
-      {
-         void* p_final_block = p;
-#ifdef WIN32
-         p_new = ::_expand(p, size);
+#if CRNLIB_64BIT_POINTERS
+typedef LONGLONG mem_stat_t;
+#define CRNLIB_MEM_COMPARE_EXCHANGE InterlockedCompareExchange64
 #else
-         p_new = NULL;
+typedef LONG mem_stat_t;
+#define CRNLIB_MEM_COMPARE_EXCHANGE InterlockedCompareExchange
 #endif
 
-         if (p_new)
-         {
-            CRNLIB_ASSERT( (reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0 );
-            p_final_block = p_new;
-         }
-         else if (movable)
-         {
-            p_new = ::realloc(p, size);
+static volatile mem_stat_t g_total_blocks;
+static volatile mem_stat_t g_total_allocated;
+static volatile mem_stat_t g_max_allocated;
 
-            if (p_new)
-            {
-               CRNLIB_ASSERT( (reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0 );
-               p_final_block = p_new;
-            }
-            else
-            {
-               printf("WARNING: ::realloc() of size %u failed!\n", (uint)size);
-            }
-         }
+static mem_stat_t update_total_allocated(int block_delta, mem_stat_t byte_delta) {
+  mem_stat_t cur_total_blocks;
+  for (;;) {
+    cur_total_blocks = (mem_stat_t)g_total_blocks;
+    mem_stat_t new_total_blocks = static_cast<mem_stat_t>(cur_total_blocks + block_delta);
+    CRNLIB_ASSERT(new_total_blocks >= 0);
+    if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_total_blocks, new_total_blocks, cur_total_blocks) == cur_total_blocks)
+      break;
+  }
 
-         if (pActual_size)
-            *pActual_size = ::_msize(p_final_block);
-      }
-
-      return p_new;
-   }
-
-   static size_t crnlib_default_msize(void* p, void* pUser_data)
-   {
-      pUser_data;
-      return p ? _msize(p) : 0;
-   }
-
-#if 0
-   static __declspec(thread) void *g_pBuf;
-   static __declspec(thread) size_t g_buf_size;
-   static __declspec(thread) size_t g_buf_ofs;
-
-   static size_t crnlib_nofree_msize(void* p, void* pUser_data)
-   {
-      pUser_data;
-      return p ? ((const size_t*)p)[-1] : 0;
-   }
-
-   static void* crnlib_nofree_realloc(void* p, size_t size, size_t* pActual_size, bool movable, void* pUser_data)
-   {
-      pUser_data;
-
-      void* p_new;
-
-      if (!p)
-      {
-         size = math::align_up_value(size, CRNLIB_MIN_ALLOC_ALIGNMENT);
-         size_t actual_size = sizeof(size_t)*2 + size;
-         size_t num_remaining = g_buf_size - g_buf_ofs;
-         if (num_remaining < actual_size)
-         {
-            g_buf_size = CRNLIB_MAX(actual_size, 32*1024*1024);
-            g_buf_ofs = 0;
-            g_pBuf = malloc(g_buf_size);
-            if (!g_pBuf)
-               return NULL;
-         }
-
-         p_new = (uint8*)g_pBuf + g_buf_ofs;
-         ((size_t*)p_new)[1] = size;
-         p_new = (size_t*)p_new + 2;
-         g_buf_ofs += actual_size;
-
-         if (pActual_size)
-            *pActual_size = size;
-
-         CRNLIB_ASSERT(crnlib_nofree_msize(p_new, NULL) == size);
-      }
-      else if (!size)
-      {
-         if (pActual_size)
-            *pActual_size = 0;
-         p_new = NULL;
-      }
-      else
-      {
-         size_t cur_size = crnlib_nofree_msize(p, NULL);
-         p_new = p;
-
-         if (!movable)
-            return NULL;
-
-         if (size > cur_size)
-         {
-            p_new = crnlib_nofree_realloc(NULL, size, NULL, true, NULL);
-            if (!p_new)
-               return NULL;
-
-            memcpy(p_new, p, cur_size);
-
-            cur_size = size;
-         }
-
-         if (pActual_size)
-            *pActual_size = cur_size;
-      }
-
-      return p_new;
-   }
-
-   static crn_realloc_func    g_pRealloc = crnlib_nofree_realloc;
-   static crn_msize_func      g_pMSize   = crnlib_nofree_msize;
-#else
-   static crn_realloc_func    g_pRealloc = crnlib_default_realloc;
-   static crn_msize_func      g_pMSize   = crnlib_default_msize;
-#endif
-   static void*               g_pUser_data;
-
-   void crnlib_mem_error(const char* p_msg)
-   {
-      crnlib_assert(p_msg, __FILE__, __LINE__);
-   }
-   void* crnlib_malloc(size_t size)
-   {
-      return crnlib_malloc(size, NULL);
-   }
-
-   void* crnlib_malloc(size_t size, size_t* pActual_size)
-   {
-      size = (size + sizeof(uint32) - 1U) & ~(sizeof(uint32) - 1U);
-      if (!size)
-         size = sizeof(uint32);
-
-      if (size > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE)
-      {
-         crnlib_mem_error("crnlib_malloc: size too big");
-         return NULL;
-      }
-
-      size_t actual_size = size;
-      uint8* p_new = static_cast<uint8*>((*g_pRealloc)(NULL, size, &actual_size, true, g_pUser_data));
-
-      if (pActual_size)
-         *pActual_size = actual_size;
-
-      if ((!p_new) || (actual_size < size))
-      {
-         crnlib_mem_error("crnlib_malloc: out of memory");
-         return NULL;
-      }
-
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
-
-#if CRNLIB_MEM_STATS
-      CRNLIB_ASSERT((*g_pMSize)(p_new, g_pUser_data) == actual_size);
-      update_total_allocated(1, static_cast<mem_stat_t>(actual_size));
-#endif
-
-      return p_new;
-   }
-
-   void* crnlib_realloc(void* p, size_t size, size_t* pActual_size, bool movable)
-   {
-      if ((ptr_bits_t)p & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1))
-      {
-         crnlib_mem_error("crnlib_realloc: bad ptr");
-         return NULL;
-      }
-
-      if (size > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE)
-      {
-         crnlib_mem_error("crnlib_malloc: size too big");
-         return NULL;
-      }
-
-#if CRNLIB_MEM_STATS
-      size_t cur_size = p ? (*g_pMSize)(p, g_pUser_data) : 0;
-      CRNLIB_ASSERT(!p || (cur_size >= sizeof(uint32)));
-#endif
-      if ((size) && (size < sizeof(uint32)))
-         size = sizeof(uint32);
-
-      size_t actual_size = size;
-      void* p_new = (*g_pRealloc)(p, size, &actual_size, movable, g_pUser_data);
-
-      if (pActual_size)
-         *pActual_size = actual_size;
-
-      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
-
-#if CRNLIB_MEM_STATS
-      CRNLIB_ASSERT(!p_new || ((*g_pMSize)(p_new, g_pUser_data) == actual_size));
-
-      int num_new_blocks = 0;
-      if (p)
-      {
-         if (!p_new)
-            num_new_blocks = -1;
-      }
-      else if (p_new)
-      {
-         num_new_blocks = 1;
-      }
-      update_total_allocated(num_new_blocks, static_cast<mem_stat_t>(actual_size) - static_cast<mem_stat_t>(cur_size));
-#endif
-
-      return p_new;
-   }
-
-   void* crnlib_calloc(size_t count, size_t size, size_t* pActual_size)
-   {
-      size_t total = count * size;
-      void *p = crnlib_malloc(total, pActual_size);
-      if (p) memset(p, 0, total);
-      return p;
-   }
-
-   void crnlib_free(void* p)
-   {
-      if (!p)
-         return;
-
-      if (reinterpret_cast<ptr_bits_t>(p) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1))
-      {
-         crnlib_mem_error("crnlib_free: bad ptr");
-         return;
-      }
-
-#if CRNLIB_MEM_STATS
-      size_t cur_size = (*g_pMSize)(p, g_pUser_data);
-      CRNLIB_ASSERT(cur_size >= sizeof(uint32));
-      update_total_allocated(-1, -static_cast<mem_stat_t>(cur_size));
-#endif
-
-      (*g_pRealloc)(p, 0, NULL, true, g_pUser_data);
-   }
-
-   size_t crnlib_msize(void* p)
-   {
-      if (!p)
-         return 0;
-
-      if (reinterpret_cast<ptr_bits_t>(p) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1))
-      {
-         crnlib_mem_error("crnlib_msize: bad ptr");
-         return 0;
-      }
-
-      return (*g_pMSize)(p, g_pUser_data);
-   }
-
-   void crnlib_print_mem_stats()
-   {
-#if CRNLIB_MEM_STATS
-      if (console::is_initialized())
-      {
-         console::debug("crnlib_print_mem_stats:");
-         console::debug("Current blocks: %u, allocated: " CRNLIB_INT64_FORMAT_SPECIFIER ", max ever allocated: " CRNLIB_INT64_FORMAT_SPECIFIER, g_total_blocks, (int64)g_total_allocated, (int64)g_max_allocated);
-      }
-      else
-      {
-         printf("crnlib_print_mem_stats:\n");
-         printf("Current blocks: %u, allocated: " CRNLIB_INT64_FORMAT_SPECIFIER ", max ever allocated: " CRNLIB_INT64_FORMAT_SPECIFIER "\n", g_total_blocks, (int64)g_total_allocated, (int64)g_max_allocated);
-      }
-#endif
-   }
-
-} // namespace crnlib
-
-void crn_set_memory_callbacks(crn_realloc_func pRealloc, crn_msize_func pMSize, void* pUser_data)
-{
-   if ((!pRealloc) || (!pMSize))
-   {
-      crnlib::g_pRealloc = crnlib::crnlib_default_realloc;
-      crnlib::g_pMSize = crnlib::crnlib_default_msize;
-      crnlib::g_pUser_data = NULL;
-   }
-   else
-   {
-      crnlib::g_pRealloc = pRealloc;
-      crnlib::g_pMSize = pMSize;
-      crnlib::g_pUser_data = pUser_data;
-   }
+  mem_stat_t cur_total_allocated, new_total_allocated;
+  for (;;) {
+    cur_total_allocated = g_total_allocated;
+    new_total_allocated = static_cast<mem_stat_t>(cur_total_allocated + byte_delta);
+    CRNLIB_ASSERT(new_total_allocated >= 0);
+    if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_total_allocated, new_total_allocated, cur_total_allocated) == cur_total_allocated)
+      break;
+  }
+  for (;;) {
+    mem_stat_t cur_max_allocated = g_max_allocated;
+    mem_stat_t new_max_allocated = CRNLIB_MAX(new_total_allocated, cur_max_allocated);
+    if (CRNLIB_MEM_COMPARE_EXCHANGE(&g_max_allocated, new_max_allocated, cur_max_allocated) == cur_max_allocated)
+      break;
+  }
+  return new_total_allocated;
+}
+#endif  // CRNLIB_MEM_STATS
+
+static void* crnlib_default_realloc(void* p, size_t size, size_t* pActual_size, bool movable, void*) {
+  void* p_new;
+
+  if (!p) {
+    p_new = ::malloc(size);
+    CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
+
+    if (!p_new) {
+      printf("WARNING: ::malloc() of size %u failed!\n", (uint)size);
+    }
+
+    if (pActual_size)
+      *pActual_size = p_new ? ::_msize(p_new) : 0;
+  } else if (!size) {
+    ::free(p);
+    p_new = NULL;
+
+    if (pActual_size)
+      *pActual_size = 0;
+  } else {
+    void* p_final_block = p;
+#ifdef WIN32
+    p_new = ::_expand(p, size);
+#else
+    p_new = NULL;
+#endif
+
+    if (p_new) {
+      CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
+      p_final_block = p_new;
+    } else if (movable) {
+      p_new = ::realloc(p, size);
+
+      if (p_new) {
+        CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
+        p_final_block = p_new;
+      } else {
+        printf("WARNING: ::realloc() of size %u failed!\n", (uint)size);
+      }
+    }
+
+    if (pActual_size)
+      *pActual_size = ::_msize(p_final_block);
+  }
+
+  return p_new;
+}
+
+static size_t crnlib_default_msize(void* p, void*) {
+  return p ? _msize(p) : 0;
+}
+
+static crn_realloc_func g_pRealloc = crnlib_default_realloc;
+static crn_msize_func g_pMSize = crnlib_default_msize;
+static void* g_pUser_data;
+
+void crnlib_mem_error(const char* p_msg) {
+  crnlib_assert(p_msg, __FILE__, __LINE__);
+}
+void* crnlib_malloc(size_t size) {
+  return crnlib_malloc(size, NULL);
+}
+
+void* crnlib_malloc(size_t size, size_t* pActual_size) {
+  size = (size + sizeof(uint32) - 1U) & ~(sizeof(uint32) - 1U);
+  if (!size)
+    size = sizeof(uint32);
+
+  if (size > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE) {
+    crnlib_mem_error("crnlib_malloc: size too big");
+    return NULL;
+  }
+
+  size_t actual_size = size;
+  uint8* p_new = static_cast<uint8*>((*g_pRealloc)(NULL, size, &actual_size, true, g_pUser_data));
+
+  if (pActual_size)
+    *pActual_size = actual_size;
+
+  if ((!p_new) || (actual_size < size)) {
+    crnlib_mem_error("crnlib_malloc: out of memory");
+    return NULL;
+  }
+
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
+
+#if CRNLIB_MEM_STATS
+  CRNLIB_ASSERT((*g_pMSize)(p_new, g_pUser_data) == actual_size);
+  update_total_allocated(1, static_cast<mem_stat_t>(actual_size));
+#endif
+
+  return p_new;
+}
+
+void* crnlib_realloc(void* p, size_t size, size_t* pActual_size, bool movable) {
+  if ((ptr_bits_t)p & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) {
+    crnlib_mem_error("crnlib_realloc: bad ptr");
+    return NULL;
+  }
+
+  if (size > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE) {
+    crnlib_mem_error("crnlib_malloc: size too big");
+    return NULL;
+  }
+
+#if CRNLIB_MEM_STATS
+  size_t cur_size = p ? (*g_pMSize)(p, g_pUser_data) : 0;
+  CRNLIB_ASSERT(!p || (cur_size >= sizeof(uint32)));
+#endif
+  if ((size) && (size < sizeof(uint32)))
+    size = sizeof(uint32);
+
+  size_t actual_size = size;
+  void* p_new = (*g_pRealloc)(p, size, &actual_size, movable, g_pUser_data);
+
+  if (pActual_size)
+    *pActual_size = actual_size;
+
+  CRNLIB_ASSERT((reinterpret_cast<ptr_bits_t>(p_new) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) == 0);
+
+#if CRNLIB_MEM_STATS
+  CRNLIB_ASSERT(!p_new || ((*g_pMSize)(p_new, g_pUser_data) == actual_size));
+
+  int num_new_blocks = 0;
+  if (p) {
+    if (!p_new)
+      num_new_blocks = -1;
+  } else if (p_new) {
+    num_new_blocks = 1;
+  }
+  update_total_allocated(num_new_blocks, static_cast<mem_stat_t>(actual_size) - static_cast<mem_stat_t>(cur_size));
+#endif
+
+  return p_new;
+}
+
+void* crnlib_calloc(size_t count, size_t size, size_t* pActual_size) {
+  size_t total = count * size;
+  void* p = crnlib_malloc(total, pActual_size);
+  if (p)
+    memset(p, 0, total);
+  return p;
+}
+
+void crnlib_free(void* p) {
+  if (!p)
+    return;
+
+  if (reinterpret_cast<ptr_bits_t>(p) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) {
+    crnlib_mem_error("crnlib_free: bad ptr");
+    return;
+  }
+
+#if CRNLIB_MEM_STATS
+  size_t cur_size = (*g_pMSize)(p, g_pUser_data);
+  CRNLIB_ASSERT(cur_size >= sizeof(uint32));
+  update_total_allocated(-1, -static_cast<mem_stat_t>(cur_size));
+#endif
+
+  (*g_pRealloc)(p, 0, NULL, true, g_pUser_data);
+}
+
+size_t crnlib_msize(void* p) {
+  if (!p)
+    return 0;
+
+  if (reinterpret_cast<ptr_bits_t>(p) & (CRNLIB_MIN_ALLOC_ALIGNMENT - 1)) {
+    crnlib_mem_error("crnlib_msize: bad ptr");
+    return 0;
+  }
+
+  return (*g_pMSize)(p, g_pUser_data);
+}
+
+void crnlib_print_mem_stats() {
+#if CRNLIB_MEM_STATS
+  if (console::is_initialized()) {
+    console::debug("crnlib_print_mem_stats:");
+    console::debug("Current blocks: %u, allocated: " CRNLIB_INT64_FORMAT_SPECIFIER ", max ever allocated: " CRNLIB_INT64_FORMAT_SPECIFIER, g_total_blocks, (int64)g_total_allocated, (int64)g_max_allocated);
+  } else {
+    printf("crnlib_print_mem_stats:\n");
+    printf("Current blocks: %u, allocated: " CRNLIB_INT64_FORMAT_SPECIFIER ", max ever allocated: " CRNLIB_INT64_FORMAT_SPECIFIER "\n", g_total_blocks, (int64)g_total_allocated, (int64)g_max_allocated);
+  }
+#endif
+}
+
+}  // namespace crnlib
+
+void crn_set_memory_callbacks(crn_realloc_func pRealloc, crn_msize_func pMSize, void* pUser_data) {
+  if ((!pRealloc) || (!pMSize)) {
+    crnlib::g_pRealloc = crnlib::crnlib_default_realloc;
+    crnlib::g_pMSize = crnlib::crnlib_default_msize;
+    crnlib::g_pUser_data = NULL;
+  } else {
+    crnlib::g_pRealloc = pRealloc;
+    crnlib::g_pMSize = pMSize;
+    crnlib::g_pUser_data = pUser_data;
+  }
 }

crnlib/crn_mem.h

@@ -6,204 +6,176 @@
 #define CRNLIB_MIN_ALLOC_ALIGNMENT sizeof(size_t) * 2
 #endif
 
-namespace crnlib
-{
+namespace crnlib {
 #if CRNLIB_64BIT_POINTERS
-   const uint64 CRNLIB_MAX_POSSIBLE_BLOCK_SIZE = 0x400000000ULL;
+const uint64 CRNLIB_MAX_POSSIBLE_BLOCK_SIZE = 0x400000000ULL;
 #else
-   const uint32 CRNLIB_MAX_POSSIBLE_BLOCK_SIZE = 0x7FFF0000U;
+const uint32 CRNLIB_MAX_POSSIBLE_BLOCK_SIZE = 0x7FFF0000U;
 #endif
 
-   void*    crnlib_malloc(size_t size);
-   void*    crnlib_malloc(size_t size, size_t* pActual_size);
-   void*    crnlib_realloc(void* p, size_t size, size_t* pActual_size = NULL, bool movable = true);
-   void*    crnlib_calloc(size_t count, size_t size, size_t* pActual_size = NULL);
-   void     crnlib_free(void* p);
-   size_t   crnlib_msize(void* p);
-   void     crnlib_print_mem_stats();
-   void     crnlib_mem_error(const char* p_msg);
-   
-   // omfg - there must be a better way
-   
-   template<typename T>
-   inline T* crnlib_new()
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      if (CRNLIB_IS_SCALAR_TYPE(T))
-         return p;
-      return helpers::construct(p);
-   }
+void* crnlib_malloc(size_t size);
+void* crnlib_malloc(size_t size, size_t* pActual_size);
+void* crnlib_realloc(void* p, size_t size, size_t* pActual_size = NULL, bool movable = true);
+void* crnlib_calloc(size_t count, size_t size, size_t* pActual_size = NULL);
+void crnlib_free(void* p);
+size_t crnlib_msize(void* p);
+void crnlib_print_mem_stats();
+void crnlib_mem_error(const char* p_msg);
 
-   template<typename T, typename A>
-   inline T* crnlib_new(const A& init0)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0); 
-   }
+// omfg - there must be a better way
 
-   template<typename T, typename A>
-   inline T* crnlib_new(A& init0)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0); 
-   }
+template <typename T>
+inline T* crnlib_new() {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  if (CRNLIB_IS_SCALAR_TYPE(T))
+    return p;
+  return helpers::construct(p);
+}
 
-   template<typename T, typename A, typename B>
-   inline T* crnlib_new(const A& init0, const B& init1)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1); 
-   }
+template <typename T, typename A>
+inline T* crnlib_new(const A& init0) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0);
+}
 
-   template<typename T, typename A, typename B, typename C>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2); 
-   }
+template <typename T, typename A>
+inline T* crnlib_new(A& init0) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3); 
-   }
+template <typename T, typename A, typename B>
+inline T* crnlib_new(const A& init0, const B& init1) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4); 
-   }
+template <typename T, typename A, typename B, typename C>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5); 
-   }
+template <typename T, typename A, typename B, typename C, typename D>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9, const K& init10)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9, init10); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8);
+}
 
-   template<typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L>
-   inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9, const K& init10, const L& init11)
-   {
-      T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
-      return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9, init10, init11); 
-   }
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9);
+}
 
-   template<typename T>
-   inline T* crnlib_new_array(uint32 num)
-   {
-      if (!num) num = 1;
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9, const K& init10) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9, init10);
+}
 
-      uint64 total = CRNLIB_MIN_ALLOC_ALIGNMENT + sizeof(T) * num;
-      if (total > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE)
-      {
-         crnlib_mem_error("crnlib_new_array: Array too large!");
-         return NULL;
+template <typename T, typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L>
+inline T* crnlib_new(const A& init0, const B& init1, const C& init2, const D& init3, const E& init4, const F& init5, const G& init6, const H& init7, const I& init8, const J& init9, const K& init10, const L& init11) {
+  T* p = static_cast<T*>(crnlib_malloc(sizeof(T)));
+  return new (static_cast<void*>(p)) T(init0, init1, init2, init3, init4, init5, init6, init7, init8, init9, init10, init11);
+}
+
+template <typename T>
+inline T* crnlib_new_array(uint32 num) {
+  if (!num)
+    num = 1;
+
+  uint64 total = CRNLIB_MIN_ALLOC_ALIGNMENT + sizeof(T) * num;
+  if (total > CRNLIB_MAX_POSSIBLE_BLOCK_SIZE) {
+    crnlib_mem_error("crnlib_new_array: Array too large!");
+    return NULL;
+  }
+  uint8* q = static_cast<uint8*>(crnlib_malloc(static_cast<size_t>(total)));
+
+  T* p = reinterpret_cast<T*>(q + CRNLIB_MIN_ALLOC_ALIGNMENT);
+
+  reinterpret_cast<uint32*>(p)[-1] = num;
+  reinterpret_cast<uint32*>(p)[-2] = ~num;
+
+  if (!CRNLIB_IS_SCALAR_TYPE(T)) {
+    helpers::construct_array(p, num);
+  }
+  return p;
+}
+
+template <typename T>
+inline void crnlib_delete(T* p) {
+  if (p) {
+    if (!CRNLIB_IS_SCALAR_TYPE(T)) {
+      helpers::destruct(p);
+    }
+    crnlib_free(p);
+  }
+}
+
+template <typename T>
+inline void crnlib_delete_array(T* p) {
+  if (p) {
+    const uint32 num = reinterpret_cast<uint32*>(p)[-1];
+    const uint32 num_check = reinterpret_cast<uint32*>(p)[-2];
+    CRNLIB_ASSERT(num && (num == ~num_check));
+    if (num == ~num_check) {
+      if (!CRNLIB_IS_SCALAR_TYPE(T)) {
+        helpers::destruct_array(p, num);
       }
-      uint8* q = static_cast<uint8*>(crnlib_malloc(static_cast<size_t>(total)));
 
-      T* p = reinterpret_cast<T*>(q + CRNLIB_MIN_ALLOC_ALIGNMENT);
+      crnlib_free(reinterpret_cast<uint8*>(p) - CRNLIB_MIN_ALLOC_ALIGNMENT);
+    }
+  }
+}
 
-      reinterpret_cast<uint32*>(p)[-1] = num;
-      reinterpret_cast<uint32*>(p)[-2] = ~num;
-
-      if (!CRNLIB_IS_SCALAR_TYPE(T))
-      {
-         helpers::construct_array(p, num);
-      }
-      return p;
-   }
-
-   template<typename T> 
-   inline void crnlib_delete(T* p)
-   {
-      if (p) 
-      {
-         if (!CRNLIB_IS_SCALAR_TYPE(T))
-         {
-            helpers::destruct(p);
-         }
-         crnlib_free(p);
-      }         
-   }
-
-   template<typename T> 
-   inline void crnlib_delete_array(T* p)
-   {
-      if (p)
-      {
-         const uint32 num = reinterpret_cast<uint32*>(p)[-1];
-         const uint32 num_check = reinterpret_cast<uint32*>(p)[-2];
-         CRNLIB_ASSERT(num && (num == ~num_check));
-         if (num == ~num_check)
-         {
-            if (!CRNLIB_IS_SCALAR_TYPE(T))
-            {
-               helpers::destruct_array(p, num);
-            }
-
-            crnlib_free(reinterpret_cast<uint8*>(p) - CRNLIB_MIN_ALLOC_ALIGNMENT);
-         }
-      }
-   }   
-   
-} // namespace crnlib
-#define CRNLIB_DEFINE_NEW_DELETE \
-   void* operator new (size_t size) \
-   { \
-      void* p = crnlib::crnlib_malloc(size); \
-      if (!p) \
-         crnlib_fail("new: Out of memory!", __FILE__, __LINE__); \
-      return p; \
-   } \
-   void* operator new[] (size_t size) \
-   { \
-      void* p = crnlib::crnlib_malloc(size); \
-      if (!p) \
-         crnlib_fail("new[]: Out of memory!", __FILE__, __LINE__); \
-      return p; \
-   } \
-   void operator delete (void* p_block) \
-   { \
-      crnlib::crnlib_free(p_block); \
-   } \
-   void operator delete[] (void* p_block) \
-   { \
-      crnlib::crnlib_free(p_block); \
-   }
+}  // namespace crnlib
+#define CRNLIB_DEFINE_NEW_DELETE                                \
+  void* operator new(size_t size) {                             \
+    void* p = crnlib::crnlib_malloc(size);                      \
+    if (!p)                                                     \
+      crnlib_fail("new: Out of memory!", __FILE__, __LINE__);   \
+    return p;                                                   \
+  }                                                             \
+  void* operator new[](size_t size) {                           \
+    void* p = crnlib::crnlib_malloc(size);                      \
+    if (!p)                                                     \
+      crnlib_fail("new[]: Out of memory!", __FILE__, __LINE__); \
+    return p;                                                   \
+  }                                                             \
+  void operator delete(void* p_block) {                         \
+    crnlib::crnlib_free(p_block);                               \
+  }                                                             \
+  void operator delete[](void* p_block) {                       \
+    crnlib::crnlib_free(p_block);                               \
+  }

crnlib/crn_miniz.h

@@ -174,7 +174,7 @@
 #define MINIZ_X86_OR_X64_CPU 1
 #endif
 
-#if (__BYTE_ORDER__==__ORDER_LITTLE_ENDIAN__) || MINIZ_X86_OR_X64_CPU
+#if (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) || MINIZ_X86_OR_X64_CPU
 // Set MINIZ_LITTLE_ENDIAN to 1 if the processor is little endian.
 #define MINIZ_LITTLE_ENDIAN 1
 #endif
@@ -199,18 +199,22 @@ extern "C" {
 typedef unsigned long mz_ulong;
 
 // mz_free() internally uses the MZ_FREE() macro (which by default calls free() unless you've modified the MZ_MALLOC macro) to release a block allocated from the heap.
-void mz_free(void *p);
+void mz_free(void* p);
 
 #define MZ_ADLER32_INIT (1)
 // mz_adler32() returns the initial adler-32 value to use when called with ptr==NULL.
-mz_ulong mz_adler32(mz_ulong adler, const unsigned char *ptr, size_t buf_len);
+mz_ulong mz_adler32(mz_ulong adler, const unsigned char* ptr, size_t buf_len);
 
 #define MZ_CRC32_INIT (0)
 // mz_crc32() returns the initial CRC-32 value to use when called with ptr==NULL.
-mz_ulong mz_crc32(mz_ulong crc, const unsigned char *ptr, size_t buf_len);
+mz_ulong mz_crc32(mz_ulong crc, const unsigned char* ptr, size_t buf_len);
 
 // Compression strategies.
-enum { MZ_DEFAULT_STRATEGY = 0, MZ_FILTERED = 1, MZ_HUFFMAN_ONLY = 2, MZ_RLE = 3, MZ_FIXED = 4 };
+enum { MZ_DEFAULT_STRATEGY = 0,
+       MZ_FILTERED = 1,
+       MZ_HUFFMAN_ONLY = 2,
+       MZ_RLE = 3,
+       MZ_FIXED = 4 };
 
 // Method
 #define MZ_DEFLATED 8
@@ -219,25 +223,44 @@ enum { MZ_DEFAULT_STRATEGY = 0, MZ_FILTERED = 1, MZ_HUFFMAN_ONLY = 2, MZ_RLE = 3
 
 // Heap allocation callbacks.
 // Note that mz_alloc_func parameter types purpsosely differ from zlib's: items/size is size_t, not unsigned long.
-typedef void *(*mz_alloc_func)(void *opaque, size_t items, size_t size);
-typedef void (*mz_free_func)(void *opaque, void *address);
-typedef void *(*mz_realloc_func)(void *opaque, void *address, size_t items, size_t size);
+typedef void* (*mz_alloc_func)(void* opaque, size_t items, size_t size);
+typedef void (*mz_free_func)(void* opaque, void* address);
+typedef void* (*mz_realloc_func)(void* opaque, void* address, size_t items, size_t size);
 
-#define MZ_VERSION          "9.1.14"
-#define MZ_VERNUM           0x91E0
-#define MZ_VER_MAJOR        9
-#define MZ_VER_MINOR        1
-#define MZ_VER_REVISION     14
-#define MZ_VER_SUBREVISION  0
+#define MZ_VERSION "9.1.14"
+#define MZ_VERNUM 0x91E0
+#define MZ_VER_MAJOR 9
+#define MZ_VER_MINOR 1
+#define MZ_VER_REVISION 14
+#define MZ_VER_SUBREVISION 0
 
 // Flush values. For typical usage you only need MZ_NO_FLUSH and MZ_FINISH. The other values are for advanced use (refer to the zlib docs).
-enum { MZ_NO_FLUSH = 0, MZ_PARTIAL_FLUSH = 1, MZ_SYNC_FLUSH = 2, MZ_FULL_FLUSH = 3, MZ_FINISH = 4, MZ_BLOCK = 5 };
+enum { MZ_NO_FLUSH = 0,
+       MZ_PARTIAL_FLUSH = 1,
+       MZ_SYNC_FLUSH = 2,
+       MZ_FULL_FLUSH = 3,
+       MZ_FINISH = 4,
+       MZ_BLOCK = 5 };
 
 // Return status codes. MZ_PARAM_ERROR is non-standard.
-enum { MZ_OK = 0, MZ_STREAM_END = 1, MZ_NEED_DICT = 2, MZ_ERRNO = -1, MZ_STREAM_ERROR = -2, MZ_DATA_ERROR = -3, MZ_MEM_ERROR = -4, MZ_BUF_ERROR = -5, MZ_VERSION_ERROR = -6, MZ_PARAM_ERROR = -10000 };
+enum { MZ_OK = 0,
+       MZ_STREAM_END = 1,
+       MZ_NEED_DICT = 2,
+       MZ_ERRNO = -1,
+       MZ_STREAM_ERROR = -2,
+       MZ_DATA_ERROR = -3,
+       MZ_MEM_ERROR = -4,
+       MZ_BUF_ERROR = -5,
+       MZ_VERSION_ERROR = -6,
+       MZ_PARAM_ERROR = -10000 };
 
 // Compression levels: 0-9 are the standard zlib-style levels, 10 is best possible compression (not zlib compatible, and may be very slow), MZ_DEFAULT_COMPRESSION=MZ_DEFAULT_LEVEL.
-enum { MZ_NO_COMPRESSION = 0, MZ_BEST_SPEED = 1, MZ_BEST_COMPRESSION = 9, MZ_UBER_COMPRESSION = 10, MZ_DEFAULT_LEVEL = 6, MZ_DEFAULT_COMPRESSION = -1 };
+enum { MZ_NO_COMPRESSION = 0,
+       MZ_BEST_SPEED = 1,
+       MZ_BEST_COMPRESSION = 9,
+       MZ_UBER_COMPRESSION = 10,
+       MZ_DEFAULT_LEVEL = 6,
+       MZ_DEFAULT_COMPRESSION = -1 };
 
 // Window bits
 #define MZ_DEFAULT_WINDOW_BITS 15
@@ -245,32 +268,31 @@ enum { MZ_NO_COMPRESSION = 0, MZ_BEST_SPEED = 1, MZ_BEST_COMPRESSION = 9, MZ_UBE
 struct mz_internal_state;
 
 // Compression/decompression stream struct.
-typedef struct mz_stream_s
-{
-  const unsigned char *next_in;     // pointer to next byte to read
-  unsigned int avail_in;            // number of bytes available at next_in
-  mz_ulong total_in;                // total number of bytes consumed so far
+typedef struct mz_stream_s {
+  const unsigned char* next_in;  // pointer to next byte to read
+  unsigned int avail_in;         // number of bytes available at next_in
+  mz_ulong total_in;             // total number of bytes consumed so far
 
-  unsigned char *next_out;          // pointer to next byte to write
-  unsigned int avail_out;           // number of bytes that can be written to next_out
-  mz_ulong total_out;               // total number of bytes produced so far
+  unsigned char* next_out;  // pointer to next byte to write
+  unsigned int avail_out;   // number of bytes that can be written to next_out
+  mz_ulong total_out;       // total number of bytes produced so far
 
-  char *msg;                        // error msg (unused)
-  struct mz_internal_state *state;  // internal state, allocated by zalloc/zfree
+  char* msg;                        // error msg (unused)
+  struct mz_internal_state* state;  // internal state, allocated by zalloc/zfree
 
-  mz_alloc_func zalloc;             // optional heap allocation function (defaults to malloc)
-  mz_free_func zfree;               // optional heap free function (defaults to free)
-  void *opaque;                     // heap alloc function user pointer
+  mz_alloc_func zalloc;  // optional heap allocation function (defaults to malloc)
+  mz_free_func zfree;    // optional heap free function (defaults to free)
+  void* opaque;          // heap alloc function user pointer
 
-  int data_type;                    // data_type (unused)
-  mz_ulong adler;                   // adler32 of the source or uncompressed data
-  mz_ulong reserved;                // not used
+  int data_type;      // data_type (unused)
+  mz_ulong adler;     // adler32 of the source or uncompressed data
+  mz_ulong reserved;  // not used
 } mz_stream;
 
-typedef mz_stream *mz_streamp;
+typedef mz_stream* mz_streamp;
 
 // Returns the version string of miniz.c.
-const char *mz_version(void);
+const char* mz_version(void);
 
 // mz_deflateInit() initializes a compressor with default options:
 // Parameters:
@@ -318,8 +340,8 @@ mz_ulong mz_deflateBound(mz_streamp pStream, mz_ulong source_len);
 
 // Single-call compression functions mz_compress() and mz_compress2():
 // Returns MZ_OK on success, or one of the error codes from mz_deflate() on failure.
-int mz_compress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len);
-int mz_compress2(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len, int level);
+int mz_compress(unsigned char* pDest, mz_ulong* pDest_len, const unsigned char* pSource, mz_ulong source_len);
+int mz_compress2(unsigned char* pDest, mz_ulong* pDest_len, const unsigned char* pSource, mz_ulong source_len, int level);
 
 // mz_compressBound() returns a (very) conservative upper bound on the amount of data that could be generated by calling mz_compress().
 mz_ulong mz_compressBound(mz_ulong source_len);
@@ -352,87 +374,87 @@ int mz_inflateEnd(mz_streamp pStream);
 
 // Single-call decompression.
 // Returns MZ_OK on success, or one of the error codes from mz_inflate() on failure.
-int mz_uncompress(unsigned char *pDest, mz_ulong *pDest_len, const unsigned char *pSource, mz_ulong source_len);
+int mz_uncompress(unsigned char* pDest, mz_ulong* pDest_len, const unsigned char* pSource, mz_ulong source_len);
 
 // Returns a string description of the specified error code, or NULL if the error code is invalid.
-const char *mz_error(int err);
+const char* mz_error(int err);
 
 // Redefine zlib-compatible names to miniz equivalents, so miniz.c can be used as a drop-in replacement for the subset of zlib that miniz.c supports.
 // Define MINIZ_NO_ZLIB_COMPATIBLE_NAMES to disable zlib-compatibility if you use zlib in the same project.
 #ifndef MINIZ_NO_ZLIB_COMPATIBLE_NAMES
-  typedef unsigned char Byte;
-  typedef unsigned int uInt;
-  typedef mz_ulong uLong;
-  typedef Byte Bytef;
-  typedef uInt uIntf;
-  typedef char charf;
-  typedef int intf;
-  typedef void *voidpf;
-  typedef uLong uLongf;
-  typedef void *voidp;
-  typedef void *const voidpc;
-  #define Z_NULL                0
-  #define Z_NO_FLUSH            MZ_NO_FLUSH
-  #define Z_PARTIAL_FLUSH       MZ_PARTIAL_FLUSH
-  #define Z_SYNC_FLUSH          MZ_SYNC_FLUSH
-  #define Z_FULL_FLUSH          MZ_FULL_FLUSH
-  #define Z_FINISH              MZ_FINISH
-  #define Z_BLOCK               MZ_BLOCK
-  #define Z_OK                  MZ_OK
-  #define Z_STREAM_END          MZ_STREAM_END
-  #define Z_NEED_DICT           MZ_NEED_DICT
-  #define Z_ERRNO               MZ_ERRNO
-  #define Z_STREAM_ERROR        MZ_STREAM_ERROR
-  #define Z_DATA_ERROR          MZ_DATA_ERROR
-  #define Z_MEM_ERROR           MZ_MEM_ERROR
-  #define Z_BUF_ERROR           MZ_BUF_ERROR
-  #define Z_VERSION_ERROR       MZ_VERSION_ERROR
-  #define Z_PARAM_ERROR         MZ_PARAM_ERROR
-  #define Z_NO_COMPRESSION      MZ_NO_COMPRESSION
-  #define Z_BEST_SPEED          MZ_BEST_SPEED
-  #define Z_BEST_COMPRESSION    MZ_BEST_COMPRESSION
-  #define Z_DEFAULT_COMPRESSION MZ_DEFAULT_COMPRESSION
-  #define Z_DEFAULT_STRATEGY    MZ_DEFAULT_STRATEGY
-  #define Z_FILTERED            MZ_FILTERED
-  #define Z_HUFFMAN_ONLY        MZ_HUFFMAN_ONLY
-  #define Z_RLE                 MZ_RLE
-  #define Z_FIXED               MZ_FIXED
-  #define Z_DEFLATED            MZ_DEFLATED
-  #define Z_DEFAULT_WINDOW_BITS MZ_DEFAULT_WINDOW_BITS
-  #define alloc_func            mz_alloc_func
-  #define free_func             mz_free_func
-  #define internal_state        mz_internal_state
-  #define z_stream              mz_stream
-  #define deflateInit           mz_deflateInit
-  #define deflateInit2          mz_deflateInit2
-  #define deflateReset          mz_deflateReset
-  #define deflate               mz_deflate
-  #define deflateEnd            mz_deflateEnd
-  #define deflateBound          mz_deflateBound
-  #define compress              mz_compress
-  #define compress2             mz_compress2
-  #define compressBound         mz_compressBound
-  #define inflateInit           mz_inflateInit
-  #define inflateInit2          mz_inflateInit2
-  #define inflate               mz_inflate
-  #define inflateEnd            mz_inflateEnd
-  #define uncompress            mz_uncompress
-  #define crc32                 mz_crc32
-  #define adler32               mz_adler32
-  #define MAX_WBITS             15
-  #define MAX_MEM_LEVEL         9
-  #define zError                mz_error
-  #define ZLIB_VERSION          MZ_VERSION
-  #define ZLIB_VERNUM           MZ_VERNUM
-  #define ZLIB_VER_MAJOR        MZ_VER_MAJOR
-  #define ZLIB_VER_MINOR        MZ_VER_MINOR
-  #define ZLIB_VER_REVISION     MZ_VER_REVISION
-  #define ZLIB_VER_SUBREVISION  MZ_VER_SUBREVISION
-  #define zlibVersion           mz_version
-  #define zlib_version          mz_version()
-#endif // #ifndef MINIZ_NO_ZLIB_COMPATIBLE_NAMES
+typedef unsigned char Byte;
+typedef unsigned int uInt;
+typedef mz_ulong uLong;
+typedef Byte Bytef;
+typedef uInt uIntf;
+typedef char charf;
+typedef int intf;
+typedef void* voidpf;
+typedef uLong uLongf;
+typedef void* voidp;
+typedef void* const voidpc;
+#define Z_NULL 0
+#define Z_NO_FLUSH MZ_NO_FLUSH
+#define Z_PARTIAL_FLUSH MZ_PARTIAL_FLUSH
+#define Z_SYNC_FLUSH MZ_SYNC_FLUSH
+#define Z_FULL_FLUSH MZ_FULL_FLUSH
+#define Z_FINISH MZ_FINISH
+#define Z_BLOCK MZ_BLOCK
+#define Z_OK MZ_OK
+#define Z_STREAM_END MZ_STREAM_END
+#define Z_NEED_DICT MZ_NEED_DICT
+#define Z_ERRNO MZ_ERRNO
+#define Z_STREAM_ERROR MZ_STREAM_ERROR
+#define Z_DATA_ERROR MZ_DATA_ERROR
+#define Z_MEM_ERROR MZ_MEM_ERROR
+#define Z_BUF_ERROR MZ_BUF_ERROR
+#define Z_VERSION_ERROR MZ_VERSION_ERROR
+#define Z_PARAM_ERROR MZ_PARAM_ERROR
+#define Z_NO_COMPRESSION MZ_NO_COMPRESSION
+#define Z_BEST_SPEED MZ_BEST_SPEED
+#define Z_BEST_COMPRESSION MZ_BEST_COMPRESSION
+#define Z_DEFAULT_COMPRESSION MZ_DEFAULT_COMPRESSION
+#define Z_DEFAULT_STRATEGY MZ_DEFAULT_STRATEGY
+#define Z_FILTERED MZ_FILTERED
+#define Z_HUFFMAN_ONLY MZ_HUFFMAN_ONLY
+#define Z_RLE MZ_RLE
+#define Z_FIXED MZ_FIXED
+#define Z_DEFLATED MZ_DEFLATED
+#define Z_DEFAULT_WINDOW_BITS MZ_DEFAULT_WINDOW_BITS
+#define alloc_func mz_alloc_func
+#define free_func mz_free_func
+#define internal_state mz_internal_state
+#define z_stream mz_stream
+#define deflateInit mz_deflateInit
+#define deflateInit2 mz_deflateInit2
+#define deflateReset mz_deflateReset
+#define deflate mz_deflate
+#define deflateEnd mz_deflateEnd
+#define deflateBound mz_deflateBound
+#define compress mz_compress
+#define compress2 mz_compress2
+#define compressBound mz_compressBound
+#define inflateInit mz_inflateInit
+#define inflateInit2 mz_inflateInit2
+#define inflate mz_inflate
+#define inflateEnd mz_inflateEnd
+#define uncompress mz_uncompress
+#define crc32 mz_crc32
+#define adler32 mz_adler32
+#define MAX_WBITS 15
+#define MAX_MEM_LEVEL 9
+#define zError mz_error
+#define ZLIB_VERSION MZ_VERSION
+#define ZLIB_VERNUM MZ_VERNUM
+#define ZLIB_VER_MAJOR MZ_VER_MAJOR
+#define ZLIB_VER_MINOR MZ_VER_MINOR
+#define ZLIB_VER_REVISION MZ_VER_REVISION
+#define ZLIB_VER_SUBREVISION MZ_VER_SUBREVISION
+#define zlibVersion mz_version
+#define zlib_version mz_version()
+#endif  // #ifndef MINIZ_NO_ZLIB_COMPATIBLE_NAMES
 
-#endif // MINIZ_NO_ZLIB_APIS
+#endif  // MINIZ_NO_ZLIB_APIS
 
 // ------------------- Types and macros
 
@@ -450,18 +472,17 @@ typedef int mz_bool;
 
 // Works around MSVC's spammy "warning C4127: conditional expression is constant" message.
 #ifdef _MSC_VER
-   #define MZ_MACRO_END while (0, 0)
+#define MZ_MACRO_END while (0, 0)
 #else
-   #define MZ_MACRO_END while (0)
+#define MZ_MACRO_END while (0)
 #endif
 
 // ------------------- ZIP archive reading/writing
 
 #ifndef MINIZ_NO_ARCHIVE_APIS
 
-enum
-{
-  MZ_ZIP_MAX_IO_BUF_SIZE = 64*1024,
+enum {
+  MZ_ZIP_MAX_IO_BUF_SIZE = 64 * 1024,
   MZ_ZIP_MAX_ARCHIVE_FILENAME_SIZE = 260,
   MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE = 256
 };
@@ -488,14 +509,13 @@ typedef struct
   char m_comment[MZ_ZIP_MAX_ARCHIVE_FILE_COMMENT_SIZE];
 } mz_zip_archive_file_stat;
 
-typedef size_t (*mz_file_read_func)(void *pOpaque, mz_uint64 file_ofs, void *pBuf, size_t n);
-typedef size_t (*mz_file_write_func)(void *pOpaque, mz_uint64 file_ofs, const void *pBuf, size_t n);
+typedef size_t (*mz_file_read_func)(void* pOpaque, mz_uint64 file_ofs, void* pBuf, size_t n);
+typedef size_t (*mz_file_write_func)(void* pOpaque, mz_uint64 file_ofs, const void* pBuf, size_t n);
 
 struct mz_zip_internal_state_tag;
 typedef struct mz_zip_internal_state_tag mz_zip_internal_state;
 
-typedef enum
-{
+typedef enum {
   MZ_ZIP_MODE_INVALID = 0,
   MZ_ZIP_MODE_READING = 1,
   MZ_ZIP_MODE_WRITING = 2,
@@ -514,21 +534,20 @@ typedef struct
   mz_alloc_func m_pAlloc;
   mz_free_func m_pFree;
   mz_realloc_func m_pRealloc;
-  void *m_pAlloc_opaque;
+  void* m_pAlloc_opaque;
 
   mz_file_read_func m_pRead;
   mz_file_write_func m_pWrite;
-  void *m_pIO_opaque;
+  void* m_pIO_opaque;
 
-  mz_zip_internal_state *m_pState;
+  mz_zip_internal_state* m_pState;
 
 } mz_zip_archive;
 
-typedef enum
-{
-  MZ_ZIP_FLAG_CASE_SENSITIVE                = 0x0100,
-  MZ_ZIP_FLAG_IGNORE_PATH                   = 0x0200,
-  MZ_ZIP_FLAG_COMPRESSED_DATA               = 0x0400,
+typedef enum {
+  MZ_ZIP_FLAG_CASE_SENSITIVE = 0x0100,
+  MZ_ZIP_FLAG_IGNORE_PATH = 0x0200,
+  MZ_ZIP_FLAG_COMPRESSED_DATA = 0x0400,
   MZ_ZIP_FLAG_DO_NOT_SORT_CENTRAL_DIRECTORY = 0x0800
 } mz_zip_flags;
 
@@ -536,68 +555,68 @@ typedef enum
 
 // Inits a ZIP archive reader.
 // These functions read and validate the archive's central directory.
-mz_bool mz_zip_reader_init(mz_zip_archive *pZip, mz_uint64 size, mz_uint32 flags);
-mz_bool mz_zip_reader_init_mem(mz_zip_archive *pZip, const void *pMem, size_t size, mz_uint32 flags);
+mz_bool mz_zip_reader_init(mz_zip_archive* pZip, mz_uint64 size, mz_uint32 flags);
+mz_bool mz_zip_reader_init_mem(mz_zip_archive* pZip, const void* pMem, size_t size, mz_uint32 flags);
 
 #ifndef MINIZ_NO_STDIO
-mz_bool mz_zip_reader_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint32 flags);
+mz_bool mz_zip_reader_init_file(mz_zip_archive* pZip, const char* pFilename, mz_uint32 flags);
 #endif
 
 // Returns the total number of files in the archive.
-mz_uint mz_zip_reader_get_num_files(mz_zip_archive *pZip);
+mz_uint mz_zip_reader_get_num_files(mz_zip_archive* pZip);
 
 // Returns detailed information about an archive file entry.
-mz_bool mz_zip_reader_file_stat(mz_zip_archive *pZip, mz_uint file_index, mz_zip_archive_file_stat *pStat);
+mz_bool mz_zip_reader_file_stat(mz_zip_archive* pZip, mz_uint file_index, mz_zip_archive_file_stat* pStat);
 
 // Determines if an archive file entry is a directory entry.
-mz_bool mz_zip_reader_is_file_a_directory(mz_zip_archive *pZip, mz_uint file_index);
-mz_bool mz_zip_reader_is_file_encrypted(mz_zip_archive *pZip, mz_uint file_index);
+mz_bool mz_zip_reader_is_file_a_directory(mz_zip_archive* pZip, mz_uint file_index);
+mz_bool mz_zip_reader_is_file_encrypted(mz_zip_archive* pZip, mz_uint file_index);
 
 // Retrieves the filename of an archive file entry.
 // Returns the number of bytes written to pFilename, or if filename_buf_size is 0 this function returns the number of bytes needed to fully store the filename.
-mz_uint mz_zip_reader_get_filename(mz_zip_archive *pZip, mz_uint file_index, char *pFilename, mz_uint filename_buf_size);
+mz_uint mz_zip_reader_get_filename(mz_zip_archive* pZip, mz_uint file_index, char* pFilename, mz_uint filename_buf_size);
 
 // Attempts to locates a file in the archive's central directory.
 // Valid flags: MZ_ZIP_FLAG_CASE_SENSITIVE, MZ_ZIP_FLAG_IGNORE_PATH
 // Returns -1 if the file cannot be found.
-int mz_zip_reader_locate_file(mz_zip_archive *pZip, const char *pName, const char *pComment, mz_uint flags);
+int mz_zip_reader_locate_file(mz_zip_archive* pZip, const char* pName, const char* pComment, mz_uint flags);
 
 // Extracts a archive file to a memory buffer using no memory allocation.
-mz_bool mz_zip_reader_extract_to_mem_no_alloc(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size);
-mz_bool mz_zip_reader_extract_file_to_mem_no_alloc(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags, void *pUser_read_buf, size_t user_read_buf_size);
+mz_bool mz_zip_reader_extract_to_mem_no_alloc(mz_zip_archive* pZip, mz_uint file_index, void* pBuf, size_t buf_size, mz_uint flags, void* pUser_read_buf, size_t user_read_buf_size);
+mz_bool mz_zip_reader_extract_file_to_mem_no_alloc(mz_zip_archive* pZip, const char* pFilename, void* pBuf, size_t buf_size, mz_uint flags, void* pUser_read_buf, size_t user_read_buf_size);
 
 // Extracts a archive file to a memory buffer.
-mz_bool mz_zip_reader_extract_to_mem(mz_zip_archive *pZip, mz_uint file_index, void *pBuf, size_t buf_size, mz_uint flags);
-mz_bool mz_zip_reader_extract_file_to_mem(mz_zip_archive *pZip, const char *pFilename, void *pBuf, size_t buf_size, mz_uint flags);
+mz_bool mz_zip_reader_extract_to_mem(mz_zip_archive* pZip, mz_uint file_index, void* pBuf, size_t buf_size, mz_uint flags);
+mz_bool mz_zip_reader_extract_file_to_mem(mz_zip_archive* pZip, const char* pFilename, void* pBuf, size_t buf_size, mz_uint flags);
 
 // Extracts a archive file to a dynamically allocated heap buffer.
-void *mz_zip_reader_extract_to_heap(mz_zip_archive *pZip, mz_uint file_index, size_t *pSize, mz_uint flags);
-void *mz_zip_reader_extract_file_to_heap(mz_zip_archive *pZip, const char *pFilename, size_t *pSize, mz_uint flags);
+void* mz_zip_reader_extract_to_heap(mz_zip_archive* pZip, mz_uint file_index, size_t* pSize, mz_uint flags);
+void* mz_zip_reader_extract_file_to_heap(mz_zip_archive* pZip, const char* pFilename, size_t* pSize, mz_uint flags);
 
 // Extracts a archive file using a callback function to output the file's data.
-mz_bool mz_zip_reader_extract_to_callback(mz_zip_archive *pZip, mz_uint file_index, mz_file_write_func pCallback, void *pOpaque, mz_uint flags);
-mz_bool mz_zip_reader_extract_file_to_callback(mz_zip_archive *pZip, const char *pFilename, mz_file_write_func pCallback, void *pOpaque, mz_uint flags);
+mz_bool mz_zip_reader_extract_to_callback(mz_zip_archive* pZip, mz_uint file_index, mz_file_write_func pCallback, void* pOpaque, mz_uint flags);
+mz_bool mz_zip_reader_extract_file_to_callback(mz_zip_archive* pZip, const char* pFilename, mz_file_write_func pCallback, void* pOpaque, mz_uint flags);
 
 #ifndef MINIZ_NO_STDIO
 // Extracts a archive file to a disk file and sets its last accessed and modified times.
 // This function only extracts files, not archive directory records.
-mz_bool mz_zip_reader_extract_to_file(mz_zip_archive *pZip, mz_uint file_index, const char *pDst_filename, mz_uint flags);
-mz_bool mz_zip_reader_extract_file_to_file(mz_zip_archive *pZip, const char *pArchive_filename, const char *pDst_filename, mz_uint flags);
+mz_bool mz_zip_reader_extract_to_file(mz_zip_archive* pZip, mz_uint file_index, const char* pDst_filename, mz_uint flags);
+mz_bool mz_zip_reader_extract_file_to_file(mz_zip_archive* pZip, const char* pArchive_filename, const char* pDst_filename, mz_uint flags);
 #endif
 
 // Ends archive reading, freeing all allocations, and closing the input archive file if mz_zip_reader_init_file() was used.
-mz_bool mz_zip_reader_end(mz_zip_archive *pZip);
+mz_bool mz_zip_reader_end(mz_zip_archive* pZip);
 
 // ZIP archive writing
 
 #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS
 
 // Inits a ZIP archive writer.
-mz_bool mz_zip_writer_init(mz_zip_archive *pZip, mz_uint64 existing_size);
-mz_bool mz_zip_writer_init_heap(mz_zip_archive *pZip, size_t size_to_reserve_at_beginning, size_t initial_allocation_size);
+mz_bool mz_zip_writer_init(mz_zip_archive* pZip, mz_uint64 existing_size);
+mz_bool mz_zip_writer_init_heap(mz_zip_archive* pZip, size_t size_to_reserve_at_beginning, size_t initial_allocation_size);
 
 #ifndef MINIZ_NO_STDIO
-mz_bool mz_zip_writer_init_file(mz_zip_archive *pZip, const char *pFilename, mz_uint64 size_to_reserve_at_beginning);
+mz_bool mz_zip_writer_init_file(mz_zip_archive* pZip, const char* pFilename, mz_uint64 size_to_reserve_at_beginning);
 #endif
 
 // Converts a ZIP archive reader object into a writer object, to allow efficient in-place file appends to occur on an existing archive.
@@ -606,48 +625,48 @@ mz_bool mz_zip_writer_init_file(mz_zip_archive *pZip, const char *pFilename, mz_
 // Finally, for archives opened using mz_zip_reader_init, the mz_zip_archive's user provided m_pWrite function cannot be NULL.
 // Note: In-place archive modification is not recommended unless you know what you're doing, because if execution stops or something goes wrong before
 // the archive is finalized the file's central directory will be hosed.
-mz_bool mz_zip_writer_init_from_reader(mz_zip_archive *pZip, const char *pFilename);
+mz_bool mz_zip_writer_init_from_reader(mz_zip_archive* pZip, const char* pFilename);
 
 // Adds the contents of a memory buffer to an archive. These functions record the current local time into the archive.
 // To add a directory entry, call this method with an archive name ending in a forwardslash with empty buffer.
 // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION.
-mz_bool mz_zip_writer_add_mem(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, mz_uint level_and_flags);
-mz_bool mz_zip_writer_add_mem_ex(mz_zip_archive *pZip, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags, mz_uint64 uncomp_size, mz_uint32 uncomp_crc32);
+mz_bool mz_zip_writer_add_mem(mz_zip_archive* pZip, const char* pArchive_name, const void* pBuf, size_t buf_size, mz_uint level_and_flags);
+mz_bool mz_zip_writer_add_mem_ex(mz_zip_archive* pZip, const char* pArchive_name, const void* pBuf, size_t buf_size, const void* pComment, mz_uint16 comment_size, mz_uint level_and_flags, mz_uint64 uncomp_size, mz_uint32 uncomp_crc32);
 
 #ifndef MINIZ_NO_STDIO
 // Adds the contents of a disk file to an archive. This function also records the disk file's modified time into the archive.
 // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION.
-mz_bool mz_zip_writer_add_file(mz_zip_archive *pZip, const char *pArchive_name, const char *pSrc_filename, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags);
+mz_bool mz_zip_writer_add_file(mz_zip_archive* pZip, const char* pArchive_name, const char* pSrc_filename, const void* pComment, mz_uint16 comment_size, mz_uint level_and_flags);
 #endif
 
 // Adds a file to an archive by fully cloning the data from another archive.
 // This function fully clones the source file's compressed data (no recompression), along with its full filename, extra data, and comment fields.
-mz_bool mz_zip_writer_add_from_zip_reader(mz_zip_archive *pZip, mz_zip_archive *pSource_zip, mz_uint file_index);
+mz_bool mz_zip_writer_add_from_zip_reader(mz_zip_archive* pZip, mz_zip_archive* pSource_zip, mz_uint file_index);
 
 // Finalizes the archive by writing the central directory records followed by the end of central directory record.
 // After an archive is finalized, the only valid call on the mz_zip_archive struct is mz_zip_writer_end().
 // An archive must be manually finalized by calling this function for it to be valid.
-mz_bool mz_zip_writer_finalize_archive(mz_zip_archive *pZip);
-mz_bool mz_zip_writer_finalize_heap_archive(mz_zip_archive *pZip, void **pBuf, size_t *pSize);
+mz_bool mz_zip_writer_finalize_archive(mz_zip_archive* pZip);
+mz_bool mz_zip_writer_finalize_heap_archive(mz_zip_archive* pZip, void** pBuf, size_t* pSize);
 
 // Ends archive writing, freeing all allocations, and closing the output file if mz_zip_writer_init_file() was used.
 // Note for the archive to be valid, it must have been finalized before ending.
-mz_bool mz_zip_writer_end(mz_zip_archive *pZip);
+mz_bool mz_zip_writer_end(mz_zip_archive* pZip);
 
 // Misc. high-level helper functions:
 
 // mz_zip_add_mem_to_archive_file_in_place() efficiently (but not atomically) appends a memory blob to a ZIP archive.
 // level_and_flags - compression level (0-10, see MZ_BEST_SPEED, MZ_BEST_COMPRESSION, etc.) logically OR'd with zero or more mz_zip_flags, or just set to MZ_DEFAULT_COMPRESSION.
-mz_bool mz_zip_add_mem_to_archive_file_in_place(const char *pZip_filename, const char *pArchive_name, const void *pBuf, size_t buf_size, const void *pComment, mz_uint16 comment_size, mz_uint level_and_flags);
+mz_bool mz_zip_add_mem_to_archive_file_in_place(const char* pZip_filename, const char* pArchive_name, const void* pBuf, size_t buf_size, const void* pComment, mz_uint16 comment_size, mz_uint level_and_flags);
 
 // Reads a single file from an archive into a heap block.
 // If pComment is not NULL, only the file with the specified comment will be extracted.
 // Returns NULL on failure.
-void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, const char *pArchive_name, const char *pComment, size_t *pSize, mz_uint flags);
+void* mz_zip_extract_archive_file_to_heap(const char* pZip_filename, const char* pArchive_name, const char* pComment, size_t* pSize, mz_uint flags);
 
-#endif // #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS
+#endif  // #ifndef MINIZ_NO_ARCHIVE_WRITING_APIS
 
-#endif // #ifndef MINIZ_NO_ARCHIVE_APIS
+#endif  // #ifndef MINIZ_NO_ARCHIVE_APIS
 
 // ------------------- Low-level Decompression API Definitions
 
@@ -656,8 +675,7 @@ void *mz_zip_extract_archive_file_to_heap(const char *pZip_filename, const char
 // TINFL_FLAG_HAS_MORE_INPUT: If set, there are more input bytes available beyond the end of the supplied input buffer. If clear, the input buffer contains all remaining input.
 // TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF: If set, the output buffer is large enough to hold the entire decompressed stream. If clear, the output buffer is at least the size of the dictionary (typically 32KB).
 // TINFL_FLAG_COMPUTE_ADLER32: Force adler-32 checksum computation of the decompressed bytes.
-enum
-{
+enum {
   TINFL_FLAG_PARSE_ZLIB_HEADER = 1,
   TINFL_FLAG_HAS_MORE_INPUT = 2,
   TINFL_FLAG_USING_NON_WRAPPING_OUTPUT_BUF = 4,
@@ -672,26 +690,26 @@ enum
 //  Function returns a pointer to the decompressed data, or NULL on failure.
 //  *pOut_len will be set to the decompressed data's size, which could be larger than src_buf_len on uncompressible data.
 //  The caller must call mz_free() on the returned block when it's no longer needed.
-void *tinfl_decompress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags);
+void* tinfl_decompress_mem_to_heap(const void* pSrc_buf, size_t src_buf_len, size_t* pOut_len, int flags);
 
 // tinfl_decompress_mem_to_mem() decompresses a block in memory to another block in memory.
 // Returns TINFL_DECOMPRESS_MEM_TO_MEM_FAILED on failure, or the number of bytes written on success.
 #define TINFL_DECOMPRESS_MEM_TO_MEM_FAILED ((size_t)(-1))
-size_t tinfl_decompress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags);
+size_t tinfl_decompress_mem_to_mem(void* pOut_buf, size_t out_buf_len, const void* pSrc_buf, size_t src_buf_len, int flags);
 
 // tinfl_decompress_mem_to_callback() decompresses a block in memory to an internal 32KB buffer, and a user provided callback function will be called to flush the buffer.
 // Returns 1 on success or 0 on failure.
-typedef int (*tinfl_put_buf_func_ptr)(const void* pBuf, int len, void *pUser);
-int tinfl_decompress_mem_to_callback(const void *pIn_buf, size_t *pIn_buf_size, tinfl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags);
+typedef int (*tinfl_put_buf_func_ptr)(const void* pBuf, int len, void* pUser);
+int tinfl_decompress_mem_to_callback(const void* pIn_buf, size_t* pIn_buf_size, tinfl_put_buf_func_ptr pPut_buf_func, void* pPut_buf_user, int flags);
 
-struct tinfl_decompressor_tag; typedef struct tinfl_decompressor_tag tinfl_decompressor;
+struct tinfl_decompressor_tag;
+typedef struct tinfl_decompressor_tag tinfl_decompressor;
 
 // Max size of LZ dictionary.
 #define TINFL_LZ_DICT_SIZE 32768
 
 // Return status.
-typedef enum
-{
+typedef enum {
   TINFL_STATUS_BAD_PARAM = -3,
   TINFL_STATUS_ADLER32_MISMATCH = -2,
   TINFL_STATUS_FAILED = -1,
@@ -701,18 +719,25 @@ typedef enum
 } tinfl_status;
 
 // Initializes the decompressor to its initial state.
-#define tinfl_init(r) do { (r)->m_state = 0; } MZ_MACRO_END
+#define tinfl_init(r) \
+  do {                \
+    (r)->m_state = 0; \
+  }                   \
+  MZ_MACRO_END
 #define tinfl_get_adler32(r) (r)->m_check_adler32
 
 // Main low-level decompressor coroutine function. This is the only function actually needed for decompression. All the other functions are just high-level helpers for improved usability.
 // This is a universal API, i.e. it can be used as a building block to build any desired higher level decompression API. In the limit case, it can be called once per every byte input or output.
-tinfl_status tinfl_decompress(tinfl_decompressor *r, const mz_uint8 *pIn_buf_next, size_t *pIn_buf_size, mz_uint8 *pOut_buf_start, mz_uint8 *pOut_buf_next, size_t *pOut_buf_size, const mz_uint32 decomp_flags);
+tinfl_status tinfl_decompress(tinfl_decompressor* r, const mz_uint8* pIn_buf_next, size_t* pIn_buf_size, mz_uint8* pOut_buf_start, mz_uint8* pOut_buf_next, size_t* pOut_buf_size, const mz_uint32 decomp_flags);
 
 // Internal/private bits follow.
-enum
-{
-  TINFL_MAX_HUFF_TABLES = 3, TINFL_MAX_HUFF_SYMBOLS_0 = 288, TINFL_MAX_HUFF_SYMBOLS_1 = 32, TINFL_MAX_HUFF_SYMBOLS_2 = 19,
-  TINFL_FAST_LOOKUP_BITS = 10, TINFL_FAST_LOOKUP_SIZE = 1 << TINFL_FAST_LOOKUP_BITS
+enum {
+  TINFL_MAX_HUFF_TABLES = 3,
+  TINFL_MAX_HUFF_SYMBOLS_0 = 288,
+  TINFL_MAX_HUFF_SYMBOLS_1 = 32,
+  TINFL_MAX_HUFF_SYMBOLS_2 = 19,
+  TINFL_FAST_LOOKUP_BITS = 10,
+  TINFL_FAST_LOOKUP_SIZE = 1 << TINFL_FAST_LOOKUP_BITS
 };
 
 typedef struct
@@ -722,19 +747,18 @@ typedef struct
 } tinfl_huff_table;
 
 #if MINIZ_HAS_64BIT_REGISTERS
-  #define TINFL_USE_64BIT_BITBUF 1
+#define TINFL_USE_64BIT_BITBUF 1
 #endif
 
 #if TINFL_USE_64BIT_BITBUF
-  typedef mz_uint64 tinfl_bit_buf_t;
-  #define TINFL_BITBUF_SIZE (64)
+typedef mz_uint64 tinfl_bit_buf_t;
+#define TINFL_BITBUF_SIZE (64)
 #else
-  typedef mz_uint32 tinfl_bit_buf_t;
-  #define TINFL_BITBUF_SIZE (32)
+typedef mz_uint32 tinfl_bit_buf_t;
+#define TINFL_BITBUF_SIZE (32)
 #endif
 
-struct tinfl_decompressor_tag
-{
+struct tinfl_decompressor_tag {
   mz_uint32 m_state, m_num_bits, m_zhdr0, m_zhdr1, m_z_adler32, m_final, m_type, m_check_adler32, m_dist, m_counter, m_num_extra, m_table_sizes[TINFL_MAX_HUFF_TABLES];
   tinfl_bit_buf_t m_bit_buf;
   size_t m_dist_from_out_buf_start;
@@ -749,9 +773,10 @@ struct tinfl_decompressor_tag
 
 // tdefl_init() compression flags logically OR'd together (low 12 bits contain the max. number of probes per dictionary search):
 // TDEFL_DEFAULT_MAX_PROBES: The compressor defaults to 128 dictionary probes per dictionary search. 0=Huffman only, 1=Huffman+LZ (fastest/crap compression), 4095=Huffman+LZ (slowest/best compression).
-enum
-{
-  TDEFL_HUFFMAN_ONLY = 0, TDEFL_DEFAULT_MAX_PROBES = 128, TDEFL_MAX_PROBES_MASK = 0xFFF
+enum {
+  TDEFL_HUFFMAN_ONLY = 0,
+  TDEFL_DEFAULT_MAX_PROBES = 128,
+  TDEFL_MAX_PROBES_MASK = 0xFFF
 };
 
 // TDEFL_WRITE_ZLIB_HEADER: If set, the compressor outputs a zlib header before the deflate data, and the Adler-32 of the source data at the end. Otherwise, you'll get raw deflate data.
@@ -762,16 +787,15 @@ enum
 // TDEFL_FILTER_MATCHES: Discards matches <= 5 chars if enabled.
 // TDEFL_FORCE_ALL_STATIC_BLOCKS: Disable usage of optimized Huffman tables.
 // TDEFL_FORCE_ALL_RAW_BLOCKS: Only use raw (uncompressed) deflate blocks.
-enum
-{
-  TDEFL_WRITE_ZLIB_HEADER             = 0x01000,
-  TDEFL_COMPUTE_ADLER32               = 0x02000,
-  TDEFL_GREEDY_PARSING_FLAG           = 0x04000,
+enum {
+  TDEFL_WRITE_ZLIB_HEADER = 0x01000,
+  TDEFL_COMPUTE_ADLER32 = 0x02000,
+  TDEFL_GREEDY_PARSING_FLAG = 0x04000,
   TDEFL_NONDETERMINISTIC_PARSING_FLAG = 0x08000,
-  TDEFL_RLE_MATCHES                   = 0x10000,
-  TDEFL_FILTER_MATCHES                = 0x20000,
-  TDEFL_FORCE_ALL_STATIC_BLOCKS       = 0x40000,
-  TDEFL_FORCE_ALL_RAW_BLOCKS          = 0x80000
+  TDEFL_RLE_MATCHES = 0x10000,
+  TDEFL_FILTER_MATCHES = 0x20000,
+  TDEFL_FORCE_ALL_STATIC_BLOCKS = 0x40000,
+  TDEFL_FORCE_ALL_RAW_BLOCKS = 0x80000
 };
 
 // High level compression functions:
@@ -783,40 +807,58 @@ enum
 //  Function returns a pointer to the compressed data, or NULL on failure.
 //  *pOut_len will be set to the compressed data's size, which could be larger than src_buf_len on uncompressible data.
 //  The caller must free() the returned block when it's no longer needed.
-void *tdefl_compress_mem_to_heap(const void *pSrc_buf, size_t src_buf_len, size_t *pOut_len, int flags);
+void* tdefl_compress_mem_to_heap(const void* pSrc_buf, size_t src_buf_len, size_t* pOut_len, int flags);
 
 // tdefl_compress_mem_to_mem() compresses a block in memory to another block in memory.
 // Returns 0 on failure.
-size_t tdefl_compress_mem_to_mem(void *pOut_buf, size_t out_buf_len, const void *pSrc_buf, size_t src_buf_len, int flags);
+size_t tdefl_compress_mem_to_mem(void* pOut_buf, size_t out_buf_len, const void* pSrc_buf, size_t src_buf_len, int flags);
 
 // Compresses an image to a compressed PNG file in memory.
 // On entry:
-//  pImage, w, h, and num_chans describe the image to compress. num_chans may be 1, 2, 3, or 4. 
+//  pImage, w, h, and num_chans describe the image to compress. num_chans may be 1, 2, 3, or 4.
 //  The image pitch in bytes per scanline will be w*num_chans. The leftmost pixel on the top scanline is stored first in memory.
 // On return:
 //  Function returns a pointer to the compressed data, or NULL on failure.
 //  *pLen_out will be set to the size of the PNG image file.
 //  The caller must mz_free() the returned heap block (which will typically be larger than *pLen_out) when it's no longer needed.
-void *tdefl_write_image_to_png_file_in_memory(const void *pImage, int w, int h, int num_chans, size_t *pLen_out);
+void* tdefl_write_image_to_png_file_in_memory(const void* pImage, int w, int h, int num_chans, size_t* pLen_out);
 
 // Output stream interface. The compressor uses this interface to write compressed data. It'll typically be called TDEFL_OUT_BUF_SIZE at a time.
-typedef mz_bool (*tdefl_put_buf_func_ptr)(const void* pBuf, int len, void *pUser);
+typedef mz_bool (*tdefl_put_buf_func_ptr)(const void* pBuf, int len, void* pUser);
 
 // tdefl_compress_mem_to_output() compresses a block to an output stream. The above helpers use this function internally.
-mz_bool tdefl_compress_mem_to_output(const void *pBuf, size_t buf_len, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags);
+mz_bool tdefl_compress_mem_to_output(const void* pBuf, size_t buf_len, tdefl_put_buf_func_ptr pPut_buf_func, void* pPut_buf_user, int flags);
 
-enum { TDEFL_MAX_HUFF_TABLES = 3, TDEFL_MAX_HUFF_SYMBOLS_0 = 288, TDEFL_MAX_HUFF_SYMBOLS_1 = 32, TDEFL_MAX_HUFF_SYMBOLS_2 = 19, TDEFL_LZ_DICT_SIZE = 32768, TDEFL_LZ_DICT_SIZE_MASK = TDEFL_LZ_DICT_SIZE - 1, TDEFL_MIN_MATCH_LEN = 3, TDEFL_MAX_MATCH_LEN = 258 };
+enum { TDEFL_MAX_HUFF_TABLES = 3,
+       TDEFL_MAX_HUFF_SYMBOLS_0 = 288,
+       TDEFL_MAX_HUFF_SYMBOLS_1 = 32,
+       TDEFL_MAX_HUFF_SYMBOLS_2 = 19,
+       TDEFL_LZ_DICT_SIZE = 32768,
+       TDEFL_LZ_DICT_SIZE_MASK = TDEFL_LZ_DICT_SIZE - 1,
+       TDEFL_MIN_MATCH_LEN = 3,
+       TDEFL_MAX_MATCH_LEN = 258 };
 
 // TDEFL_OUT_BUF_SIZE MUST be large enough to hold a single entire compressed output block (using static/fixed Huffman codes).
 #if TDEFL_LESS_MEMORY
-enum { TDEFL_LZ_CODE_BUF_SIZE = 24 * 1024, TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13 ) / 10, TDEFL_MAX_HUFF_SYMBOLS = 288, TDEFL_LZ_HASH_BITS = 12, TDEFL_LEVEL1_HASH_SIZE_MASK = 4095, TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3, TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS };
+enum { TDEFL_LZ_CODE_BUF_SIZE = 24 * 1024,
+       TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13) / 10,
+       TDEFL_MAX_HUFF_SYMBOLS = 288,
+       TDEFL_LZ_HASH_BITS = 12,
+       TDEFL_LEVEL1_HASH_SIZE_MASK = 4095,
+       TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3,
+       TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS };
 #else
-enum { TDEFL_LZ_CODE_BUF_SIZE = 64 * 1024, TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13 ) / 10, TDEFL_MAX_HUFF_SYMBOLS = 288, TDEFL_LZ_HASH_BITS = 15, TDEFL_LEVEL1_HASH_SIZE_MASK = 4095, TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3, TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS };
+enum { TDEFL_LZ_CODE_BUF_SIZE = 64 * 1024,
+       TDEFL_OUT_BUF_SIZE = (TDEFL_LZ_CODE_BUF_SIZE * 13) / 10,
+       TDEFL_MAX_HUFF_SYMBOLS = 288,
+       TDEFL_LZ_HASH_BITS = 15,
+       TDEFL_LEVEL1_HASH_SIZE_MASK = 4095,
+       TDEFL_LZ_HASH_SHIFT = (TDEFL_LZ_HASH_BITS + 2) / 3,
+       TDEFL_LZ_HASH_SIZE = 1 << TDEFL_LZ_HASH_BITS };
 #endif
 
 // The low-level tdefl functions below may be used directly if the above helper functions aren't flexible enough. The low-level functions don't make any heap allocations, unlike the above helper functions.
-typedef enum
-{
+typedef enum {
   TDEFL_STATUS_BAD_PARAM = -2,
   TDEFL_STATUS_PUT_BUF_FAILED = -1,
   TDEFL_STATUS_OKAY = 0,
@@ -824,8 +866,7 @@ typedef enum
 } tdefl_status;
 
 // Must map to MZ_NO_FLUSH, MZ_SYNC_FLUSH, etc. enums
-typedef enum
-{
+typedef enum {
   TDEFL_NO_FLUSH = 0,
   TDEFL_SYNC_FLUSH = 2,
   TDEFL_FULL_FLUSH = 3,
@@ -836,7 +877,7 @@ typedef enum
 typedef struct
 {
   tdefl_put_buf_func_ptr m_pPut_buf_func;
-  void *m_pPut_buf_user;
+  void* m_pPut_buf_user;
   mz_uint m_flags, m_max_probes[2];
   int m_greedy_parsing;
   mz_uint m_adler32, m_lookahead_pos, m_lookahead_size, m_dict_size;
@@ -844,11 +885,11 @@ typedef struct
   mz_uint m_num_flags_left, m_total_lz_bytes, m_lz_code_buf_dict_pos, m_bits_in, m_bit_buffer;
   mz_uint m_saved_match_dist, m_saved_match_len, m_saved_lit, m_output_flush_ofs, m_output_flush_remaining, m_finished, m_block_index, m_wants_to_finish;
   tdefl_status m_prev_return_status;
-  const void *m_pIn_buf;
-  void *m_pOut_buf;
+  const void* m_pIn_buf;
+  void* m_pOut_buf;
   size_t *m_pIn_buf_size, *m_pOut_buf_size;
   tdefl_flush m_flush;
-  const mz_uint8 *m_pSrc;
+  const mz_uint8* m_pSrc;
   size_t m_src_buf_left, m_out_buf_ofs;
   mz_uint8 m_dict[TDEFL_LZ_DICT_SIZE + TDEFL_MAX_MATCH_LEN - 1];
   mz_uint16 m_huff_count[TDEFL_MAX_HUFF_TABLES][TDEFL_MAX_HUFF_SYMBOLS];
@@ -865,17 +906,17 @@ typedef struct
 // pBut_buf_func: If NULL, output data will be supplied to the specified callback. In this case, the user should call the tdefl_compress_buffer() API for compression.
 // If pBut_buf_func is NULL the user should always call the tdefl_compress() API.
 // flags: See the above enums (TDEFL_HUFFMAN_ONLY, TDEFL_WRITE_ZLIB_HEADER, etc.)
-tdefl_status tdefl_init(tdefl_compressor *d, tdefl_put_buf_func_ptr pPut_buf_func, void *pPut_buf_user, int flags);
+tdefl_status tdefl_init(tdefl_compressor* d, tdefl_put_buf_func_ptr pPut_buf_func, void* pPut_buf_user, int flags);
 
 // Compresses a block of data, consuming as much of the specified input buffer as possible, and writing as much compressed data to the specified output buffer as possible.
-tdefl_status tdefl_compress(tdefl_compressor *d, const void *pIn_buf, size_t *pIn_buf_size, void *pOut_buf, size_t *pOut_buf_size, tdefl_flush flush);
+tdefl_status tdefl_compress(tdefl_compressor* d, const void* pIn_buf, size_t* pIn_buf_size, void* pOut_buf, size_t* pOut_buf_size, tdefl_flush flush);
 
 // tdefl_compress_buffer() is only usable when the tdefl_init() is called with a non-NULL tdefl_put_buf_func_ptr.
 // tdefl_compress_buffer() always consumes the entire input buffer.
-tdefl_status tdefl_compress_buffer(tdefl_compressor *d, const void *pIn_buf, size_t in_buf_size, tdefl_flush flush);
+tdefl_status tdefl_compress_buffer(tdefl_compressor* d, const void* pIn_buf, size_t in_buf_size, tdefl_flush flush);
 
-tdefl_status tdefl_get_prev_return_status(tdefl_compressor *d);
-mz_uint32 tdefl_get_adler32(tdefl_compressor *d);
+tdefl_status tdefl_get_prev_return_status(tdefl_compressor* d);
+mz_uint32 tdefl_get_adler32(tdefl_compressor* d);
 
 // Can't use tdefl_create_comp_flags_from_zip_params if MINIZ_NO_ZLIB_APIS isn't defined, because it uses some of its macros.
 #ifndef MINIZ_NO_ZLIB_APIS
@@ -884,10 +925,10 @@ mz_uint32 tdefl_get_adler32(tdefl_compressor *d);
 // window_bits may be -15 (raw deflate) or 15 (zlib)
 // strategy may be either MZ_DEFAULT_STRATEGY, MZ_FILTERED, MZ_HUFFMAN_ONLY, MZ_RLE, or MZ_FIXED
 mz_uint tdefl_create_comp_flags_from_zip_params(int level, int window_bits, int strategy);
-#endif // #ifndef MINIZ_NO_ZLIB_APIS
+#endif  // #ifndef MINIZ_NO_ZLIB_APIS
 
 #ifdef __cplusplus
 }
 #endif
 
-#endif // MINIZ_HEADER_INCLUDED
+#endif  // MINIZ_HEADER_INCLUDED

crnlib/crn_mipmapped_texture.h

@@ -12,328 +12,326 @@
 #include "crn_texture_file_types.h"
 #include "crn_image_utils.h"
 
-namespace crnlib
-{
-   extern const vec2I g_vertical_cross_image_offsets[6];
+namespace crnlib {
+extern const vec2I g_vertical_cross_image_offsets[6];
 
-   enum orientation_flags_t
-   {
-      cOrientationFlagXFlipped = 1,
-      cOrientationFlagYFlipped = 2,
+enum orientation_flags_t {
+  cOrientationFlagXFlipped = 1,
+  cOrientationFlagYFlipped = 2,
 
-      cDefaultOrientationFlags = 0
-   };
+  cDefaultOrientationFlags = 0
+};
 
-   enum unpack_flags_t
-   {
-      cUnpackFlagUncook = 1,
-      cUnpackFlagUnflip = 2
-   };
+enum unpack_flags_t {
+  cUnpackFlagUncook = 1,
+  cUnpackFlagUnflip = 2
+};
 
-   class mip_level
-   {
-      friend class mipmapped_texture;
+class mip_level {
+  friend class mipmapped_texture;
 
-   public:
-      mip_level();
-      ~mip_level();
+ public:
+  mip_level();
+  ~mip_level();
 
-      mip_level(const mip_level& other);
-      mip_level& operator= (const mip_level& rhs);
+  mip_level(const mip_level& other);
+  mip_level& operator=(const mip_level& rhs);
 
-      // Assumes ownership.
-      void assign(image_u8* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
-      void assign(dxt_image* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
+  // Assumes ownership.
+  void assign(image_u8* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
+  void assign(dxt_image* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
 
-      void clear();
+  void clear();
 
-      inline uint get_width() const { return m_width; }
-      inline uint get_height() const { return m_height; }
-      inline uint get_total_pixels() const { return m_width * m_height; }
-      
-      orientation_flags_t get_orientation_flags() const { return m_orient_flags; }
-      void set_orientation_flags(orientation_flags_t flags) { m_orient_flags = flags; }
+  inline uint get_width() const { return m_width; }
+  inline uint get_height() const { return m_height; }
+  inline uint get_total_pixels() const { return m_width * m_height; }
 
-      inline image_u8* get_image() const { return m_pImage; }
-      inline dxt_image* get_dxt_image() const { return m_pDXTImage; }
-      
-      image_u8* get_unpacked_image(image_u8& tmp, uint unpack_flags) const;
+  orientation_flags_t get_orientation_flags() const { return m_orient_flags; }
+  void set_orientation_flags(orientation_flags_t flags) { m_orient_flags = flags; }
 
-      inline bool is_packed() const { return m_pDXTImage != NULL; }
+  inline image_u8* get_image() const { return m_pImage; }
+  inline dxt_image* get_dxt_image() const { return m_pDXTImage; }
 
-      inline bool is_valid() const { return (m_pImage != NULL) || (m_pDXTImage != NULL); }
+  image_u8* get_unpacked_image(image_u8& tmp, uint unpack_flags) const;
 
-      inline pixel_format_helpers::component_flags get_comp_flags() const { return m_comp_flags; }
-      inline void set_comp_flags(pixel_format_helpers::component_flags comp_flags) { m_comp_flags = comp_flags; }
+  inline bool is_packed() const { return m_pDXTImage != NULL; }
 
-      inline pixel_format get_format() const { return m_format; }
-      inline void set_format(pixel_format fmt) { m_format = fmt; }
+  inline bool is_valid() const { return (m_pImage != NULL) || (m_pDXTImage != NULL); }
 
-      bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
+  inline pixel_format_helpers::component_flags get_comp_flags() const { return m_comp_flags; }
+  inline void set_comp_flags(pixel_format_helpers::component_flags comp_flags) { m_comp_flags = comp_flags; }
 
-      bool pack_to_dxt(const image_u8& img, pixel_format fmt, bool cook, const dxt_image::pack_params& p, orientation_flags_t orient_flags = cDefaultOrientationFlags);
-      bool pack_to_dxt(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
+  inline pixel_format get_format() const { return m_format; }
+  inline void set_format(pixel_format fmt) { m_format = fmt; }
 
-      bool unpack_from_dxt(bool uncook = true);
+  bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
 
-      // Returns true if flipped on either axis.
-      bool is_flipped() const;
-      
-      bool is_x_flipped() const;
-      bool is_y_flipped() const;
-      
-      bool can_unflip_without_unpacking() const;
-      
-      // Returns true if unflipped on either axis.
-      // Will try to flip packed (DXT/ETC) data in-place, if this isn't possible it'll unpack/uncook the mip level then unflip.
-      bool unflip(bool allow_unpacking_to_flip, bool uncook_during_unpack);
-      
-      bool set_alpha_to_luma();
-      bool convert(image_utils::conversion_type conv_type);
+  bool pack_to_dxt(const image_u8& img, pixel_format fmt, bool cook, const dxt_image::pack_params& p, orientation_flags_t orient_flags = cDefaultOrientationFlags);
+  bool pack_to_dxt(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
 
-      bool flip_x();
-      bool flip_y();
+  bool unpack_from_dxt(bool uncook = true);
 
-   private:
-      uint                                   m_width;
-      uint                                   m_height;
+  // Returns true if flipped on either axis.
+  bool is_flipped() const;
 
-      pixel_format_helpers::component_flags  m_comp_flags;
-      pixel_format                           m_format;
+  bool is_x_flipped() const;
+  bool is_y_flipped() const;
 
-      image_u8*                              m_pImage;
-      dxt_image*                             m_pDXTImage;
+  bool can_unflip_without_unpacking() const;
 
-      orientation_flags_t                    m_orient_flags;
+  // Returns true if unflipped on either axis.
+  // Will try to flip packed (DXT/ETC) data in-place, if this isn't possible it'll unpack/uncook the mip level then unflip.
+  bool unflip(bool allow_unpacking_to_flip, bool uncook_during_unpack);
 
-      void cook_image(image_u8& img) const;
-      void uncook_image(image_u8& img) const;
-   };
+  bool set_alpha_to_luma();
+  bool convert(image_utils::conversion_type conv_type);
 
-   // A face is an array of mip_level ptr's.
-   typedef crnlib::vector<mip_level*> mip_ptr_vec;
+  bool flip_x();
+  bool flip_y();
 
-   // And an array of one, six, or N faces make up a texture.
-   typedef crnlib::vector<mip_ptr_vec> face_vec;
+ private:
+  uint m_width;
+  uint m_height;
 
-   class mipmapped_texture
-   {
-   public:
-      // Construction/destruction
-      mipmapped_texture();
-      ~mipmapped_texture();
+  pixel_format_helpers::component_flags m_comp_flags;
+  pixel_format m_format;
 
-      mipmapped_texture(const mipmapped_texture& other);
-      mipmapped_texture& operator= (const mipmapped_texture& rhs);
+  image_u8* m_pImage;
+  dxt_image* m_pDXTImage;
 
-      void clear();
+  orientation_flags_t m_orient_flags;
 
-      void init(uint width, uint height, uint levels, uint faces, pixel_format fmt, const char* pName, orientation_flags_t orient_flags);
+  void cook_image(image_u8& img) const;
+  void uncook_image(image_u8& img) const;
+};
 
-      // Assumes ownership.
-      void assign(face_vec& faces);
-      void assign(mip_level* pLevel);
-      void assign(image_u8* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
-      void assign(dxt_image* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
+// A face is an array of mip_level ptr's.
+typedef crnlib::vector<mip_level*> mip_ptr_vec;
 
-      void set(texture_file_types::format source_file_type, const mipmapped_texture& mipmapped_texture);
+// And an array of one, six, or N faces make up a texture.
+typedef crnlib::vector<mip_ptr_vec> face_vec;
 
-      // Accessors
-      image_u8* get_level_image(uint face, uint level, image_u8& img, uint unpack_flags = cUnpackFlagUncook | cUnpackFlagUnflip) const;
+class mipmapped_texture {
+ public:
+  // Construction/destruction
+  mipmapped_texture();
+  ~mipmapped_texture();
 
-      inline bool is_valid() const { return m_faces.size() > 0; }
-
-      const dynamic_string& get_name() const { return m_name; }
-      void set_name(const dynamic_string& name) { m_name = name; }
-
-      const dynamic_string& get_source_filename() const { return get_name(); }
-      texture_file_types::format get_source_file_type() const { return m_source_file_type; }
-
-      inline uint get_width() const { return m_width; }
-      inline uint get_height() const { return m_height; }
-      inline uint get_total_pixels() const { return m_width * m_height; }
-      uint get_total_pixels_in_all_faces_and_mips() const;
+  mipmapped_texture(const mipmapped_texture& other);
+  mipmapped_texture& operator=(const mipmapped_texture& rhs);
 
-      inline uint get_num_faces() const { return m_faces.size(); }
-      inline uint get_num_levels() const { if (m_faces.empty()) return 0; else return m_faces[0].size(); }
+  void clear();
 
-      inline pixel_format_helpers::component_flags get_comp_flags() const { return m_comp_flags; }
-      inline pixel_format get_format() const { return m_format; }
+  void init(uint width, uint height, uint levels, uint faces, pixel_format fmt, const char* pName, orientation_flags_t orient_flags);
 
-      inline bool is_unpacked() const { if (get_num_faces()) { return get_level(0, 0)->get_image() != NULL; } return false; }
+  // Assumes ownership.
+  void assign(face_vec& faces);
+  void assign(mip_level* pLevel);
+  void assign(image_u8* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
+  void assign(dxt_image* p, pixel_format fmt = PIXEL_FMT_INVALID, orientation_flags_t orient_flags = cDefaultOrientationFlags);
 
-      inline const   mip_ptr_vec& get_face(uint face) const { return m_faces[face]; }
-      inline         mip_ptr_vec& get_face(uint face)       { return m_faces[face]; }
-
-      inline const   mip_level* get_level(uint face, uint mip) const { return m_faces[face][mip]; }
-      inline         mip_level* get_level(uint face, uint mip)       { return m_faces[face][mip]; }
-
-      bool has_alpha() const;
-      bool is_normal_map() const;
-      bool is_vertical_cross() const;
-      bool is_packed() const;
-      texture_type determine_texture_type() const;
-
-      const dynamic_string& get_last_error() const { return m_last_error; }
-      void clear_last_error() { m_last_error.clear(); }
-
-      // Reading/writing
-      bool read_dds(data_stream_serializer& serializer);
-      bool write_dds(data_stream_serializer& serializer) const;
-
-      bool read_ktx(data_stream_serializer& serializer);
-      bool write_ktx(data_stream_serializer& serializer) const;
- 
-      bool read_crn(data_stream_serializer& serializer);
-      bool read_crn_from_memory(const void *pData, uint data_size, const char* pFilename);
-      
-      // If file_format is texture_file_types::cFormatInvalid, the format will be determined from the filename's extension.
-      bool read_from_file(const char* pFilename, texture_file_types::format file_format = texture_file_types::cFormatInvalid);
-      bool read_from_stream(data_stream_serializer& serializer, texture_file_types::format file_format = texture_file_types::cFormatInvalid);
-
-      bool write_to_file(
-         const char* pFilename,
-         texture_file_types::format file_format = texture_file_types::cFormatInvalid,
-         crn_comp_params* pComp_params = NULL,
-         uint32* pActual_quality_level = NULL, float* pActual_bitrate = NULL,
-         uint32 image_write_flags = 0);
-
-      // Conversion
-      bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
-      bool convert(pixel_format fmt, const dxt_image::pack_params& p);
-      bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p, int qdxt_quality, bool hierarchical = true);
-      bool convert(image_utils::conversion_type conv_type);
-
-      bool unpack_from_dxt(bool uncook = true);
-
-      bool set_alpha_to_luma();
-
-      void discard_mipmaps();
-
-      void discard_mips();
-
-      struct resample_params
-      {
-         resample_params() :
-            m_pFilter("kaiser"),
-            m_wrapping(false),
-            m_srgb(false),
-            m_renormalize(false),
-            m_filter_scale(.9f),
-            m_gamma(1.75f),    // or 2.2f
-            m_multithreaded(true)
-         {
-         }
-
-         const char* m_pFilter;
-         bool        m_wrapping;
-         bool        m_srgb;
-         bool        m_renormalize;
-         float       m_filter_scale;
-         float       m_gamma;
-         bool        m_multithreaded;
-      };
-
-      bool resize(uint new_width, uint new_height, const resample_params& params);
-
-      struct generate_mipmap_params : public resample_params
-      {
-         generate_mipmap_params() :
-            resample_params(),
-            m_min_mip_size(1),
-            m_max_mips(0)
-         {
-         }
-
-         uint        m_min_mip_size;
-         uint        m_max_mips; // actually the max # of total levels
-      };
-
-      bool generate_mipmaps(const generate_mipmap_params& params, bool force);
-
-      bool crop(uint x, uint y, uint width, uint height);
-
-      bool vertical_cross_to_cubemap();
-
-      // Low-level clustered DXT (QDXT) compression
-      struct qdxt_state
-      {
-         qdxt_state(task_pool& tp) : m_fmt(PIXEL_FMT_INVALID), m_qdxt1(tp), m_qdxt5a(tp), m_qdxt5b(tp)
-         {
-         }
-
-         pixel_format                        m_fmt;
-         qdxt1                               m_qdxt1;
-         qdxt5                               m_qdxt5a;
-         qdxt5                               m_qdxt5b;
-         crnlib::vector<dxt_pixel_block>     m_pixel_blocks;
-
-         qdxt1_params                        m_qdxt1_params;
-         qdxt5_params                        m_qdxt5_params[2];
-         bool                                m_has_blocks[3];
-
-         void clear()
-         {
-            m_fmt = PIXEL_FMT_INVALID;
-            m_qdxt1.clear();
-            m_qdxt5a.clear();
-            m_qdxt5b.clear();
-            m_pixel_blocks.clear();
-            m_qdxt1_params.clear();
-            m_qdxt5_params[0].clear();
-            m_qdxt5_params[1].clear();
-            utils::zero_object(m_has_blocks);
-         }
-      };
-      bool qdxt_pack_init(qdxt_state& state, mipmapped_texture& dst_tex, const qdxt1_params& dxt1_params, const qdxt5_params& dxt5_params, pixel_format fmt, bool cook);
-      bool qdxt_pack(qdxt_state& state, mipmapped_texture& dst_tex, const qdxt1_params& dxt1_params, const qdxt5_params& dxt5_params);
-
-      void swap(mipmapped_texture& img);
-
-      bool check() const;
-
-      void set_orientation_flags(orientation_flags_t flags);
-
-      // Returns true if any face/miplevel is flipped.
-      bool is_flipped() const;
-      bool is_x_flipped() const;
-      bool is_y_flipped() const;
-      bool can_unflip_without_unpacking() const;
-      bool unflip(bool allow_unpacking_to_flip, bool uncook_if_necessary_to_unpack);
-      
-      bool flip_y(bool update_orientation_flags);
-
-   private:
-      dynamic_string                         m_name;
-
-      uint                                   m_width;
-      uint                                   m_height;
-
-      pixel_format_helpers::component_flags  m_comp_flags;
-      pixel_format                           m_format;
-
-      face_vec                               m_faces;
-
-      texture_file_types::format             m_source_file_type;
-
-      mutable dynamic_string                 m_last_error;
-
-      inline void clear_last_error() const { m_last_error.clear(); }
-      inline void set_last_error(const char* p) const { m_last_error = p; }
-
-      void free_all_mips();
-      bool read_regular_image(data_stream_serializer &serializer, texture_file_types::format file_format);
-      bool write_regular_image(const char* pFilename, uint32 image_write_flags);
-      bool read_dds_internal(data_stream_serializer& serializer);
-      void print_crn_comp_params(const crn_comp_params& p);
-      bool write_comp_texture(const char* pFilename, const crn_comp_params &comp_params, uint32 *pActual_quality_level, float *pActual_bitrate);
-      void change_dxt1_to_dxt1a();
-      bool flip_y_helper();
-   };
-
-   inline void swap(mipmapped_texture& a, mipmapped_texture& b)
-   {
-      a.swap(b);
-   }
-
-} // namespace crnlib
+  void set(texture_file_types::format source_file_type, const mipmapped_texture& mipmapped_texture);
+
+  // Accessors
+  image_u8* get_level_image(uint face, uint level, image_u8& img, uint unpack_flags = cUnpackFlagUncook | cUnpackFlagUnflip) const;
+
+  inline bool is_valid() const { return m_faces.size() > 0; }
+
+  const dynamic_string& get_name() const { return m_name; }
+  void set_name(const dynamic_string& name) { m_name = name; }
+
+  const dynamic_string& get_source_filename() const { return get_name(); }
+  texture_file_types::format get_source_file_type() const { return m_source_file_type; }
+
+  inline uint get_width() const { return m_width; }
+  inline uint get_height() const { return m_height; }
+  inline uint get_total_pixels() const { return m_width * m_height; }
+  uint get_total_pixels_in_all_faces_and_mips() const;
+
+  inline uint get_num_faces() const { return m_faces.size(); }
+  inline uint get_num_levels() const {
+    if (m_faces.empty())
+      return 0;
+    else
+      return m_faces[0].size();
+  }
+
+  inline pixel_format_helpers::component_flags get_comp_flags() const { return m_comp_flags; }
+  inline pixel_format get_format() const { return m_format; }
+
+  inline bool is_unpacked() const {
+    if (get_num_faces()) {
+      return get_level(0, 0)->get_image() != NULL;
+    }
+    return false;
+  }
+
+  inline const mip_ptr_vec& get_face(uint face) const { return m_faces[face]; }
+  inline mip_ptr_vec& get_face(uint face) { return m_faces[face]; }
+
+  inline const mip_level* get_level(uint face, uint mip) const { return m_faces[face][mip]; }
+  inline mip_level* get_level(uint face, uint mip) { return m_faces[face][mip]; }
+
+  bool has_alpha() const;
+  bool is_normal_map() const;
+  bool is_vertical_cross() const;
+  bool is_packed() const;
+  texture_type determine_texture_type() const;
+
+  const dynamic_string& get_last_error() const { return m_last_error; }
+  void clear_last_error() { m_last_error.clear(); }
+
+  // Reading/writing
+  bool read_dds(data_stream_serializer& serializer);
+  bool write_dds(data_stream_serializer& serializer) const;
+
+  bool read_ktx(data_stream_serializer& serializer);
+  bool write_ktx(data_stream_serializer& serializer) const;
+
+  bool read_crn(data_stream_serializer& serializer);
+  bool read_crn_from_memory(const void* pData, uint data_size, const char* pFilename);
+
+  // If file_format is texture_file_types::cFormatInvalid, the format will be determined from the filename's extension.
+  bool read_from_file(const char* pFilename, texture_file_types::format file_format = texture_file_types::cFormatInvalid);
+  bool read_from_stream(data_stream_serializer& serializer, texture_file_types::format file_format = texture_file_types::cFormatInvalid);
+
+  bool write_to_file(
+      const char* pFilename,
+      texture_file_types::format file_format = texture_file_types::cFormatInvalid,
+      crn_comp_params* pComp_params = NULL,
+      uint32* pActual_quality_level = NULL, float* pActual_bitrate = NULL,
+      uint32 image_write_flags = 0);
+
+  // Conversion
+  bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p);
+  bool convert(pixel_format fmt, const dxt_image::pack_params& p);
+  bool convert(pixel_format fmt, bool cook, const dxt_image::pack_params& p, int qdxt_quality, bool hierarchical = true);
+  bool convert(image_utils::conversion_type conv_type);
+
+  bool unpack_from_dxt(bool uncook = true);
+
+  bool set_alpha_to_luma();
+
+  void discard_mipmaps();
+
+  void discard_mips();
+
+  struct resample_params {
+    resample_params()
+        : m_pFilter("kaiser"),
+          m_wrapping(false),
+          m_srgb(false),
+          m_renormalize(false),
+          m_filter_scale(.9f),
+          m_gamma(1.75f),  // or 2.2f
+          m_multithreaded(true) {
+    }
+
+    const char* m_pFilter;
+    bool m_wrapping;
+    bool m_srgb;
+    bool m_renormalize;
+    float m_filter_scale;
+    float m_gamma;
+    bool m_multithreaded;
+  };
+
+  bool resize(uint new_width, uint new_height, const resample_params& params);
+
+  struct generate_mipmap_params : public resample_params {
+    generate_mipmap_params()
+        : resample_params(),
+          m_min_mip_size(1),
+          m_max_mips(0) {
+    }
+
+    uint m_min_mip_size;
+    uint m_max_mips;  // actually the max # of total levels
+  };
+
+  bool generate_mipmaps(const generate_mipmap_params& params, bool force);
+
+  bool crop(uint x, uint y, uint width, uint height);
+
+  bool vertical_cross_to_cubemap();
+
+  // Low-level clustered DXT (QDXT) compression
+  struct qdxt_state {
+    qdxt_state(task_pool& tp)
+        : m_fmt(PIXEL_FMT_INVALID), m_qdxt1(tp), m_qdxt5a(tp), m_qdxt5b(tp) {
+    }
+
+    pixel_format m_fmt;
+    qdxt1 m_qdxt1;
+    qdxt5 m_qdxt5a;
+    qdxt5 m_qdxt5b;
+    crnlib::vector<dxt_pixel_block> m_pixel_blocks;
+
+    qdxt1_params m_qdxt1_params;
+    qdxt5_params m_qdxt5_params[2];
+    bool m_has_blocks[3];
+
+    void clear() {
+      m_fmt = PIXEL_FMT_INVALID;
+      m_qdxt1.clear();
+      m_qdxt5a.clear();
+      m_qdxt5b.clear();
+      m_pixel_blocks.clear();
+      m_qdxt1_params.clear();
+      m_qdxt5_params[0].clear();
+      m_qdxt5_params[1].clear();
+      utils::zero_object(m_has_blocks);
+    }
+  };
+  bool qdxt_pack_init(qdxt_state& state, mipmapped_texture& dst_tex, const qdxt1_params& dxt1_params, const qdxt5_params& dxt5_params, pixel_format fmt, bool cook);
+  bool qdxt_pack(qdxt_state& state, mipmapped_texture& dst_tex, const qdxt1_params& dxt1_params, const qdxt5_params& dxt5_params);
+
+  void swap(mipmapped_texture& img);
+
+  bool check() const;
+
+  void set_orientation_flags(orientation_flags_t flags);
+
+  // Returns true if any face/miplevel is flipped.
+  bool is_flipped() const;
+  bool is_x_flipped() const;
+  bool is_y_flipped() const;
+  bool can_unflip_without_unpacking() const;
+  bool unflip(bool allow_unpacking_to_flip, bool uncook_if_necessary_to_unpack);
+
+  bool flip_y(bool update_orientation_flags);
+
+ private:
+  dynamic_string m_name;
+
+  uint m_width;
+  uint m_height;
+
+  pixel_format_helpers::component_flags m_comp_flags;
+  pixel_format m_format;
+
+  face_vec m_faces;
+
+  texture_file_types::format m_source_file_type;
+
+  mutable dynamic_string m_last_error;
+
+  inline void clear_last_error() const { m_last_error.clear(); }
+  inline void set_last_error(const char* p) const { m_last_error = p; }
+
+  void free_all_mips();
+  bool read_regular_image(data_stream_serializer& serializer);
+  bool write_regular_image(const char* pFilename, uint32 image_write_flags);
+  bool read_dds_internal(data_stream_serializer& serializer);
+  void print_crn_comp_params(const crn_comp_params& p);
+  bool write_comp_texture(const char* pFilename, const crn_comp_params& comp_params, uint32* pActual_quality_level, float* pActual_bitrate);
+  void change_dxt1_to_dxt1a();
+  bool flip_y_helper();
+};
+
+inline void swap(mipmapped_texture& a, mipmapped_texture& b) {
+  a.swap(b);
+}
+
+}  // namespace crnlib

crnlib/crn_packed_uint.h

@@ -2,90 +2,78 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   template<unsigned int N>
-   struct packed_uint
-   {
-      inline packed_uint() { }
+namespace crnlib {
+template <unsigned int N>
+struct packed_uint {
+  inline packed_uint() {}
 
-      inline packed_uint(unsigned int val) { *this = val; }
+  inline packed_uint(unsigned int val) { *this = val; }
 
-      inline packed_uint(const packed_uint& other) { *this = other; }
+  inline packed_uint(const packed_uint& other) { *this = other; }
 
-      inline packed_uint& operator= (const packed_uint& rhs)
-      {
-         if (this != &rhs)
-            memcpy(m_buf, rhs.m_buf, sizeof(m_buf));
-         return *this;
-      }
+  inline packed_uint& operator=(const packed_uint& rhs) {
+    if (this != &rhs)
+      memcpy(m_buf, rhs.m_buf, sizeof(m_buf));
+    return *this;
+  }
 
-      inline packed_uint& operator= (unsigned int val)
-      {
+  inline packed_uint& operator=(unsigned int val) {
 #ifdef CRNLIB_BUILD_DEBUG
-         if (N == 1)
-         {
-            CRNLIB_ASSERT(val <= 0xFFU);
-         }
-         else if (N == 2)
-         {
-            CRNLIB_ASSERT(val <= 0xFFFFU);
-         }
-         else if (N == 3)
-         {
-            CRNLIB_ASSERT(val <= 0xFFFFFFU);
-         }
-#endif      
-         
-         val <<= (8U * (4U - N));
+    if (N == 1) {
+      CRNLIB_ASSERT(val <= 0xFFU);
+    } else if (N == 2) {
+      CRNLIB_ASSERT(val <= 0xFFFFU);
+    } else if (N == 3) {
+      CRNLIB_ASSERT(val <= 0xFFFFFFU);
+    }
+#endif
 
-         for (unsigned int i = 0; i < N; i++)
-         {
-            m_buf[i] = static_cast<unsigned char>(val >> 24U);
-            val <<= 8U;
-         }
+    val <<= (8U * (4U - N));
 
-         return *this;
-      }
+    for (unsigned int i = 0; i < N; i++) {
+      m_buf[i] = static_cast<unsigned char>(val >> 24U);
+      val <<= 8U;
+    }
 
-      inline operator unsigned int() const
-      {
-         switch (N)
-         {
-            case 1:  return  m_buf[0];
-            case 2:  return (m_buf[0] <<  8U) |  m_buf[1];
-            case 3:  return (m_buf[0] << 16U) | (m_buf[1] <<  8U) | (m_buf[2]);
-            default: return (m_buf[0] << 24U) | (m_buf[1] << 16U) | (m_buf[2] << 8U) | (m_buf[3]);
-         }
-      }
+    return *this;
+  }
 
-      unsigned char m_buf[N];
-   };
-   template<typename T>
-   class packed_value
-   {
-   public:
-      packed_value() { }
-      packed_value(T val) { *this = val; }
+  inline operator unsigned int() const {
+    switch (N) {
+      case 1:
+        return m_buf[0];
+      case 2:
+        return (m_buf[0] << 8U) | m_buf[1];
+      case 3:
+        return (m_buf[0] << 16U) | (m_buf[1] << 8U) | (m_buf[2]);
+      default:
+        return (m_buf[0] << 24U) | (m_buf[1] << 16U) | (m_buf[2] << 8U) | (m_buf[3]);
+    }
+  }
 
-      inline operator T() const
-      {
-         T result = 0;
-         for (int i = sizeof(T) - 1; i >= 0; i--)
-            result = static_cast<T>((result << 8) | m_bytes[i]);
-         return result;
-      }
-      packed_value& operator= (T val)
-      {
-         for (int i = 0; i < sizeof(T); i++)
-         {
-            m_bytes[i] = static_cast<uint8>(val);
-            val >>= 8;
-         }
-         return *this;
-      }            
-   private:
-      uint8 m_bytes[sizeof(T)];
-   };
-} // namespace crnlib
-   
+  unsigned char m_buf[N];
+};
+template <typename T>
+class packed_value {
+ public:
+  packed_value() {}
+  packed_value(T val) { *this = val; }
+
+  inline operator T() const {
+    T result = 0;
+    for (int i = sizeof(T) - 1; i >= 0; i--)
+      result = static_cast<T>((result << 8) | m_bytes[i]);
+    return result;
+  }
+  packed_value& operator=(T val) {
+    for (int i = 0; i < sizeof(T); i++) {
+      m_bytes[i] = static_cast<uint8>(val);
+      val >>= 8;
+    }
+    return *this;
+  }
+
+ private:
+  uint8 m_bytes[sizeof(T)];
+};
+}  // namespace crnlib

crnlib/crn_pixel_format.cpp

@@ -4,277 +4,330 @@
 #include "crn_pixel_format.h"
 #include "crn_image.h"
 
-namespace crnlib
-{
-   namespace pixel_format_helpers
-   {
-      const pixel_format g_all_pixel_formats[] =
-      {
-         PIXEL_FMT_DXT1,
-         PIXEL_FMT_DXT2,
-         PIXEL_FMT_DXT3,
-         PIXEL_FMT_DXT4,
-         PIXEL_FMT_DXT5,
-         PIXEL_FMT_3DC,
-         PIXEL_FMT_DXN,
-         PIXEL_FMT_DXT5A,
-         PIXEL_FMT_DXT5_CCxY,
-         PIXEL_FMT_DXT5_xGxR,
-         PIXEL_FMT_DXT5_xGBR,
-         PIXEL_FMT_DXT5_AGBR,
-         PIXEL_FMT_DXT1A,
-         PIXEL_FMT_ETC1,
-         PIXEL_FMT_R8G8B8,
-         PIXEL_FMT_L8,
-         PIXEL_FMT_A8,
-         PIXEL_FMT_A8L8,
-         PIXEL_FMT_A8R8G8B8
-      };
+namespace crnlib {
+namespace pixel_format_helpers {
+const pixel_format g_all_pixel_formats[] =
+    {
+        PIXEL_FMT_DXT1,
+        PIXEL_FMT_DXT2,
+        PIXEL_FMT_DXT3,
+        PIXEL_FMT_DXT4,
+        PIXEL_FMT_DXT5,
+        PIXEL_FMT_3DC,
+        PIXEL_FMT_DXN,
+        PIXEL_FMT_DXT5A,
+        PIXEL_FMT_DXT5_CCxY,
+        PIXEL_FMT_DXT5_xGxR,
+        PIXEL_FMT_DXT5_xGBR,
+        PIXEL_FMT_DXT5_AGBR,
+        PIXEL_FMT_DXT1A,
+        PIXEL_FMT_ETC1,
+        PIXEL_FMT_ETC2,
+        PIXEL_FMT_ETC2A,
+        PIXEL_FMT_ETC1S,
+        PIXEL_FMT_ETC2AS,
+        PIXEL_FMT_R8G8B8,
+        PIXEL_FMT_L8,
+        PIXEL_FMT_A8,
+        PIXEL_FMT_A8L8,
+        PIXEL_FMT_A8R8G8B8};
 
-      uint get_num_formats()
-      {
-         return sizeof(g_all_pixel_formats) / sizeof(g_all_pixel_formats[0]);
-      }
+uint get_num_formats() {
+  return sizeof(g_all_pixel_formats) / sizeof(g_all_pixel_formats[0]);
+}
 
-      pixel_format get_pixel_format_by_index(uint index)
-      {
-         CRNLIB_ASSERT(index < get_num_formats());
-         return g_all_pixel_formats[index];
-      }
+pixel_format get_pixel_format_by_index(uint index) {
+  CRNLIB_ASSERT(index < get_num_formats());
+  return g_all_pixel_formats[index];
+}
 
-      const char* get_pixel_format_string(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_INVALID:   return "INVALID";
-            case PIXEL_FMT_DXT1:      return "DXT1";
-            case PIXEL_FMT_DXT1A:     return "DXT1A";
-            case PIXEL_FMT_DXT2:      return "DXT2";
-            case PIXEL_FMT_DXT3:      return "DXT3";
-            case PIXEL_FMT_DXT4:      return "DXT4";
-            case PIXEL_FMT_DXT5:      return "DXT5";
-            case PIXEL_FMT_3DC:       return "3DC";
-            case PIXEL_FMT_DXN:       return "DXN";
-            case PIXEL_FMT_DXT5A:     return "DXT5A";
-            case PIXEL_FMT_DXT5_CCxY: return "DXT5_CCxY";
-            case PIXEL_FMT_DXT5_xGxR: return "DXT5_xGxR";
-            case PIXEL_FMT_DXT5_xGBR: return "DXT5_xGBR";
-            case PIXEL_FMT_DXT5_AGBR: return "DXT5_AGBR";
-            case PIXEL_FMT_ETC1:      return "ETC1";
-            case PIXEL_FMT_R8G8B8:    return "R8G8B8";
-            case PIXEL_FMT_A8R8G8B8:  return "A8R8G8B8";
-            case PIXEL_FMT_A8:        return "A8";
-            case PIXEL_FMT_L8:        return "L8";
-            case PIXEL_FMT_A8L8:      return "A8L8";
-            default: break;
-         }
-         CRNLIB_ASSERT(false);
-         return "?";
-      }
+const char* get_pixel_format_string(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_INVALID:
+      return "INVALID";
+    case PIXEL_FMT_DXT1:
+      return "DXT1";
+    case PIXEL_FMT_DXT1A:
+      return "DXT1A";
+    case PIXEL_FMT_DXT2:
+      return "DXT2";
+    case PIXEL_FMT_DXT3:
+      return "DXT3";
+    case PIXEL_FMT_DXT4:
+      return "DXT4";
+    case PIXEL_FMT_DXT5:
+      return "DXT5";
+    case PIXEL_FMT_3DC:
+      return "3DC";
+    case PIXEL_FMT_DXN:
+      return "DXN";
+    case PIXEL_FMT_DXT5A:
+      return "DXT5A";
+    case PIXEL_FMT_DXT5_CCxY:
+      return "DXT5_CCxY";
+    case PIXEL_FMT_DXT5_xGxR:
+      return "DXT5_xGxR";
+    case PIXEL_FMT_DXT5_xGBR:
+      return "DXT5_xGBR";
+    case PIXEL_FMT_DXT5_AGBR:
+      return "DXT5_AGBR";
+    case PIXEL_FMT_ETC1:
+      return "ETC1";
+    case PIXEL_FMT_ETC2:
+      return "ETC2";
+    case PIXEL_FMT_ETC2A:
+      return "ETC2A";
+    case PIXEL_FMT_ETC1S:
+      return "ETC1S";
+    case PIXEL_FMT_ETC2AS:
+      return "ETC2AS";
+    case PIXEL_FMT_R8G8B8:
+      return "R8G8B8";
+    case PIXEL_FMT_A8R8G8B8:
+      return "A8R8G8B8";
+    case PIXEL_FMT_A8:
+      return "A8";
+    case PIXEL_FMT_L8:
+      return "L8";
+    case PIXEL_FMT_A8L8:
+      return "A8L8";
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return "?";
+}
 
-      const char* get_crn_format_string(crn_format fmt)
-      {
-         switch (fmt)
-         {
-            case cCRNFmtDXT1:        return "DXT1";
-            case cCRNFmtDXT3:        return "DXT3";
-            case cCRNFmtDXT5:        return "DXT5";
-            case cCRNFmtDXT5_CCxY:   return "DXT5_CCxY";
-            case cCRNFmtDXT5_xGBR:   return "DXT5_xGBR";
-            case cCRNFmtDXT5_AGBR:   return "DXT5_AGBR";
-            case cCRNFmtDXT5_xGxR:   return "DXT5_xGxR";
-            case cCRNFmtDXN_XY:      return "DXN_XY";
-            case cCRNFmtDXN_YX:      return "DXN_YX";
-            case cCRNFmtDXT5A:       return "DXT5A";
-            case cCRNFmtETC1:        return "ETC1";
-            default: break;
-         }
-         CRNLIB_ASSERT(false);
-         return "?";
-      }
+const char* get_crn_format_string(crn_format fmt) {
+  switch (fmt) {
+    case cCRNFmtDXT1:
+      return "DXT1";
+    case cCRNFmtDXT3:
+      return "DXT3";
+    case cCRNFmtDXT5:
+      return "DXT5";
+    case cCRNFmtDXT5_CCxY:
+      return "DXT5_CCxY";
+    case cCRNFmtDXT5_xGBR:
+      return "DXT5_xGBR";
+    case cCRNFmtDXT5_AGBR:
+      return "DXT5_AGBR";
+    case cCRNFmtDXT5_xGxR:
+      return "DXT5_xGxR";
+    case cCRNFmtDXN_XY:
+      return "DXN_XY";
+    case cCRNFmtDXN_YX:
+      return "DXN_YX";
+    case cCRNFmtDXT5A:
+      return "DXT5A";
+    case cCRNFmtETC1:
+      return "ETC1";
+    case cCRNFmtETC2:
+      return "ETC2";
+    case cCRNFmtETC2A:
+      return "ETC2A";
+    case cCRNFmtETC1S:
+      return "ETC1S";
+    case cCRNFmtETC2AS:
+      return "ETC2AS";
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return "?";
+}
 
-      component_flags get_component_flags(pixel_format fmt)
-      {
-         // These flags are for *uncooked* pixels, i.e. after after adding Z to DXN maps, or converting YCC maps to RGB, etc.
+component_flags get_component_flags(pixel_format fmt) {
+  // These flags are for *uncooked* pixels, i.e. after after adding Z to DXN maps, or converting YCC maps to RGB, etc.
 
-         uint flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagGrayscale;
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1:
-            case PIXEL_FMT_ETC1:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid;
-               break;
-            }
-            case PIXEL_FMT_DXT1A:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_DXT2:
-            case PIXEL_FMT_DXT3:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_DXT4:
-            case PIXEL_FMT_DXT5:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_DXT5A:
-            {
-               flags = cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_DXT5_CCxY:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagLumaChroma;
-               break;
-            }
-            case PIXEL_FMT_DXT5_xGBR:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
-               break;
-            }
-            case PIXEL_FMT_DXT5_AGBR:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagNormalMap;
-               break;
-            }
-            case PIXEL_FMT_DXT5_xGxR:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
-               break;
-            }
-            case PIXEL_FMT_3DC:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
-               break;
-            }
-            case PIXEL_FMT_DXN:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
-               break;
-            }
-            case PIXEL_FMT_R8G8B8:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid;
-               break;
-            }
-            case PIXEL_FMT_A8R8G8B8:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_A8:
-            {
-               flags = cCompFlagAValid;
-               break;
-            }
-            case PIXEL_FMT_L8:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagGrayscale;
-               break;
-            }
-            case PIXEL_FMT_A8L8:
-            {
-               flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagGrayscale;
-               break;
-            }
-            default:
-            {
-               CRNLIB_ASSERT(0);
-               break;
-            }
-         }
-         return static_cast<component_flags>(flags);
-      }
+  uint flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagGrayscale;
+  switch (fmt) {
+    case PIXEL_FMT_DXT1:
+    case PIXEL_FMT_ETC1:
+    case PIXEL_FMT_ETC2:
+    case PIXEL_FMT_ETC1S: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid;
+      break;
+    }
+    case PIXEL_FMT_DXT1A: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_DXT2:
+    case PIXEL_FMT_DXT3: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_DXT4:
+    case PIXEL_FMT_DXT5:
+    case PIXEL_FMT_ETC2A:
+    case PIXEL_FMT_ETC2AS: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_DXT5A: {
+      flags = cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_DXT5_CCxY: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagLumaChroma;
+      break;
+    }
+    case PIXEL_FMT_DXT5_xGBR: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
+      break;
+    }
+    case PIXEL_FMT_DXT5_AGBR: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagNormalMap;
+      break;
+    }
+    case PIXEL_FMT_DXT5_xGxR: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
+      break;
+    }
+    case PIXEL_FMT_3DC: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
+      break;
+    }
+    case PIXEL_FMT_DXN: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagNormalMap;
+      break;
+    }
+    case PIXEL_FMT_R8G8B8: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid;
+      break;
+    }
+    case PIXEL_FMT_A8R8G8B8: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_A8: {
+      flags = cCompFlagAValid;
+      break;
+    }
+    case PIXEL_FMT_L8: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagGrayscale;
+      break;
+    }
+    case PIXEL_FMT_A8L8: {
+      flags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid | cCompFlagGrayscale;
+      break;
+    }
+    default: {
+      CRNLIB_ASSERT(0);
+      break;
+    }
+  }
+  return static_cast<component_flags>(flags);
+}
 
-      crn_format convert_pixel_format_to_best_crn_format(pixel_format crn_fmt)
-      {
-         crn_format fmt = cCRNFmtDXT1;
-         switch (crn_fmt)
-         {
-            case PIXEL_FMT_DXT1:
-            case PIXEL_FMT_DXT1A:
-               fmt = cCRNFmtDXT1;
-               break;
-            case PIXEL_FMT_DXT2:
-            case PIXEL_FMT_DXT3:
-            case PIXEL_FMT_DXT4:
-            case PIXEL_FMT_DXT5:
-               fmt = cCRNFmtDXT5;
-               break;
-            case PIXEL_FMT_3DC:
-               fmt = cCRNFmtDXN_YX;
-               break;
-            case PIXEL_FMT_DXN:
-               fmt = cCRNFmtDXN_XY;
-               break;
-            case PIXEL_FMT_DXT5A:
-               fmt = cCRNFmtDXT5A;
-               break;
-            case PIXEL_FMT_R8G8B8:
-            case PIXEL_FMT_L8:
-               fmt = cCRNFmtDXT1;
-               break;
-            case PIXEL_FMT_A8R8G8B8:
-            case PIXEL_FMT_A8:
-            case PIXEL_FMT_A8L8:
-               fmt = cCRNFmtDXT5;
-               break;
-            case PIXEL_FMT_DXT5_CCxY:
-               fmt = cCRNFmtDXT5_CCxY;
-               break;
-            case PIXEL_FMT_DXT5_xGBR:
-               fmt = cCRNFmtDXT5_xGBR;
-               break;
-            case PIXEL_FMT_DXT5_AGBR:
-               fmt = cCRNFmtDXT5_AGBR;
-               break;
-            case PIXEL_FMT_DXT5_xGxR:
-               fmt = cCRNFmtDXT5_xGxR;
-               break;
-            case PIXEL_FMT_ETC1:
-               fmt = cCRNFmtETC1;
-               break;
-            default:
-            {
-               CRNLIB_ASSERT(false);
-               break;
-            }
-         }
-         return fmt;
-      }
+crn_format convert_pixel_format_to_best_crn_format(pixel_format crn_fmt) {
+  crn_format fmt = cCRNFmtDXT1;
+  switch (crn_fmt) {
+    case PIXEL_FMT_DXT1:
+    case PIXEL_FMT_DXT1A:
+      fmt = cCRNFmtDXT1;
+      break;
+    case PIXEL_FMT_DXT2:
+    case PIXEL_FMT_DXT3:
+    case PIXEL_FMT_DXT4:
+    case PIXEL_FMT_DXT5:
+      fmt = cCRNFmtDXT5;
+      break;
+    case PIXEL_FMT_3DC:
+      fmt = cCRNFmtDXN_YX;
+      break;
+    case PIXEL_FMT_DXN:
+      fmt = cCRNFmtDXN_XY;
+      break;
+    case PIXEL_FMT_DXT5A:
+      fmt = cCRNFmtDXT5A;
+      break;
+    case PIXEL_FMT_R8G8B8:
+    case PIXEL_FMT_L8:
+      fmt = cCRNFmtDXT1;
+      break;
+    case PIXEL_FMT_A8R8G8B8:
+    case PIXEL_FMT_A8:
+    case PIXEL_FMT_A8L8:
+      fmt = cCRNFmtDXT5;
+      break;
+    case PIXEL_FMT_DXT5_CCxY:
+      fmt = cCRNFmtDXT5_CCxY;
+      break;
+    case PIXEL_FMT_DXT5_xGBR:
+      fmt = cCRNFmtDXT5_xGBR;
+      break;
+    case PIXEL_FMT_DXT5_AGBR:
+      fmt = cCRNFmtDXT5_AGBR;
+      break;
+    case PIXEL_FMT_DXT5_xGxR:
+      fmt = cCRNFmtDXT5_xGxR;
+      break;
+    case PIXEL_FMT_ETC1:
+      fmt = cCRNFmtETC1;
+      break;
+    case PIXEL_FMT_ETC2:
+      fmt = cCRNFmtETC2;
+      break;
+    case PIXEL_FMT_ETC2A:
+      fmt = cCRNFmtETC2A;
+      break;
+    case PIXEL_FMT_ETC1S:
+      fmt = cCRNFmtETC1S;
+      break;
+    case PIXEL_FMT_ETC2AS:
+      fmt = cCRNFmtETC2AS;
+      break;
+    default: {
+      CRNLIB_ASSERT(false);
+      break;
+    }
+  }
+  return fmt;
+}
 
-      pixel_format convert_crn_format_to_pixel_format(crn_format fmt)
-      {
-         switch (fmt)
-         {
-            case cCRNFmtDXT1:       return PIXEL_FMT_DXT1;
-            case cCRNFmtDXT3:       return PIXEL_FMT_DXT3;
-            case cCRNFmtDXT5:       return PIXEL_FMT_DXT5;
-            case cCRNFmtDXT5_CCxY:  return PIXEL_FMT_DXT5_CCxY;
-            case cCRNFmtDXT5_xGxR:  return PIXEL_FMT_DXT5_xGxR;
-            case cCRNFmtDXT5_xGBR:  return PIXEL_FMT_DXT5_xGBR;
-            case cCRNFmtDXT5_AGBR:  return PIXEL_FMT_DXT5_AGBR;
-            case cCRNFmtDXN_XY:     return PIXEL_FMT_DXN;
-            case cCRNFmtDXN_YX:     return PIXEL_FMT_3DC;
-            case cCRNFmtDXT5A:      return PIXEL_FMT_DXT5A;
-            case cCRNFmtETC1:       return PIXEL_FMT_ETC1;
-            default: 
-            {
-               CRNLIB_ASSERT(false); 
-               break;
-            }
-         }
+pixel_format convert_crn_format_to_pixel_format(crn_format fmt) {
+  switch (fmt) {
+    case cCRNFmtDXT1:
+      return PIXEL_FMT_DXT1;
+    case cCRNFmtDXT3:
+      return PIXEL_FMT_DXT3;
+    case cCRNFmtDXT5:
+      return PIXEL_FMT_DXT5;
+    case cCRNFmtDXT5_CCxY:
+      return PIXEL_FMT_DXT5_CCxY;
+    case cCRNFmtDXT5_xGxR:
+      return PIXEL_FMT_DXT5_xGxR;
+    case cCRNFmtDXT5_xGBR:
+      return PIXEL_FMT_DXT5_xGBR;
+    case cCRNFmtDXT5_AGBR:
+      return PIXEL_FMT_DXT5_AGBR;
+    case cCRNFmtDXN_XY:
+      return PIXEL_FMT_DXN;
+    case cCRNFmtDXN_YX:
+      return PIXEL_FMT_3DC;
+    case cCRNFmtDXT5A:
+      return PIXEL_FMT_DXT5A;
+    case cCRNFmtETC1:
+      return PIXEL_FMT_ETC1;
+    case cCRNFmtETC2:
+      return PIXEL_FMT_ETC2;
+    case cCRNFmtETC2A:
+      return PIXEL_FMT_ETC2A;
+    case cCRNFmtETC1S:
+      return PIXEL_FMT_ETC1S;
+    case cCRNFmtETC2AS:
+      return PIXEL_FMT_ETC2AS;
+    default: {
+      CRNLIB_ASSERT(false);
+      break;
+    }
+  }
 
-         return PIXEL_FMT_INVALID;
-      }
+  return PIXEL_FMT_INVALID;
+}
 
-   } // namespace pixel_format
-
-} // namespace crnlib
+}  // namespace pixel_format
 
+}  // namespace crnlib

crnlib/crn_pixel_format.h

@@ -5,280 +5,348 @@
 #include "../inc/crnlib.h"
 #include "../inc/dds_defs.h"
 
-namespace crnlib
-{
-   namespace pixel_format_helpers
-   {
-      uint get_num_formats();
-      pixel_format get_pixel_format_by_index(uint index);
+namespace crnlib {
+namespace pixel_format_helpers {
+uint get_num_formats();
+pixel_format get_pixel_format_by_index(uint index);
 
-      const char* get_pixel_format_string(pixel_format fmt);
+const char* get_pixel_format_string(pixel_format fmt);
 
-      const char* get_crn_format_string(crn_format fmt);
+const char* get_crn_format_string(crn_format fmt);
 
-      inline bool is_grayscale(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_L8:
-            case PIXEL_FMT_A8L8:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline bool is_grayscale(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_L8:
+    case PIXEL_FMT_A8L8:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline bool is_dxt1(pixel_format fmt)
-      {
-         return (fmt == PIXEL_FMT_DXT1) || (fmt == PIXEL_FMT_DXT1A);
-      }
+inline bool is_dxt1(pixel_format fmt) {
+  return (fmt == PIXEL_FMT_DXT1) || (fmt == PIXEL_FMT_DXT1A);
+}
 
-      // has_alpha() should probably be called "has_opacity()" - it indicates if the format encodes opacity
-      // because some swizzled DXT5 formats do not encode opacity.
-      inline bool has_alpha(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1A:
-            case PIXEL_FMT_DXT2:
-            case PIXEL_FMT_DXT3:
-            case PIXEL_FMT_DXT4:
-            case PIXEL_FMT_DXT5:
-            case PIXEL_FMT_DXT5A:
-            case PIXEL_FMT_A8R8G8B8:
-            case PIXEL_FMT_A8:
-            case PIXEL_FMT_A8L8:
-            case PIXEL_FMT_DXT5_AGBR:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+// has_alpha() should probably be called "has_opacity()" - it indicates if the format encodes opacity
+// because some swizzled DXT5 formats do not encode opacity.
+inline bool has_alpha(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1A:
+    case PIXEL_FMT_DXT2:
+    case PIXEL_FMT_DXT3:
+    case PIXEL_FMT_DXT4:
+    case PIXEL_FMT_DXT5:
+    case PIXEL_FMT_DXT5A:
+    case PIXEL_FMT_A8R8G8B8:
+    case PIXEL_FMT_A8:
+    case PIXEL_FMT_A8L8:
+    case PIXEL_FMT_DXT5_AGBR:
+    case PIXEL_FMT_ETC2A:
+    case PIXEL_FMT_ETC2AS:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline bool is_alpha_only(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_A8:
-            case PIXEL_FMT_DXT5A:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline bool is_alpha_only(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_A8:
+    case PIXEL_FMT_DXT5A:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline bool is_normal_map(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_3DC:
-            case PIXEL_FMT_DXN:
-            case PIXEL_FMT_DXT5_xGBR:
-            case PIXEL_FMT_DXT5_xGxR:
-            case PIXEL_FMT_DXT5_AGBR:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline bool is_normal_map(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_3DC:
+    case PIXEL_FMT_DXN:
+    case PIXEL_FMT_DXT5_xGBR:
+    case PIXEL_FMT_DXT5_xGxR:
+    case PIXEL_FMT_DXT5_AGBR:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline int is_dxt(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1:
-            case PIXEL_FMT_DXT1A:
-            case PIXEL_FMT_DXT2:
-            case PIXEL_FMT_DXT3:
-            case PIXEL_FMT_DXT4:
-            case PIXEL_FMT_DXT5:
-            case PIXEL_FMT_3DC:
-            case PIXEL_FMT_DXT5A:
-            case PIXEL_FMT_DXN:
-            case PIXEL_FMT_DXT5_CCxY:
-            case PIXEL_FMT_DXT5_xGxR:
-            case PIXEL_FMT_DXT5_xGBR:
-            case PIXEL_FMT_DXT5_AGBR:
-            case PIXEL_FMT_ETC1:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline int is_dxt(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1:
+    case PIXEL_FMT_DXT1A:
+    case PIXEL_FMT_DXT2:
+    case PIXEL_FMT_DXT3:
+    case PIXEL_FMT_DXT4:
+    case PIXEL_FMT_DXT5:
+    case PIXEL_FMT_3DC:
+    case PIXEL_FMT_DXT5A:
+    case PIXEL_FMT_DXN:
+    case PIXEL_FMT_DXT5_CCxY:
+    case PIXEL_FMT_DXT5_xGxR:
+    case PIXEL_FMT_DXT5_xGBR:
+    case PIXEL_FMT_DXT5_AGBR:
+    case PIXEL_FMT_ETC1:
+    case PIXEL_FMT_ETC2:
+    case PIXEL_FMT_ETC2A:
+    case PIXEL_FMT_ETC1S:
+    case PIXEL_FMT_ETC2AS:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline int get_fundamental_format(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1A:
-               return PIXEL_FMT_DXT1;
-            case PIXEL_FMT_DXT5_CCxY:
-            case PIXEL_FMT_DXT5_xGxR:
-            case PIXEL_FMT_DXT5_xGBR:
-            case PIXEL_FMT_DXT5_AGBR:
-               return PIXEL_FMT_DXT5;
-            default: break;
-         }
-         return fmt;
-      }
+inline int get_fundamental_format(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1A:
+      return PIXEL_FMT_DXT1;
+    case PIXEL_FMT_DXT5_CCxY:
+    case PIXEL_FMT_DXT5_xGxR:
+    case PIXEL_FMT_DXT5_xGBR:
+    case PIXEL_FMT_DXT5_AGBR:
+      return PIXEL_FMT_DXT5;
+    default:
+      break;
+  }
+  return fmt;
+}
 
-      inline dxt_format get_dxt_format(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1:         return cDXT1;
-            case PIXEL_FMT_DXT1A:        return cDXT1A;
-            case PIXEL_FMT_DXT2:         return cDXT3;
-            case PIXEL_FMT_DXT3:         return cDXT3;
-            case PIXEL_FMT_DXT4:         return cDXT5;
-            case PIXEL_FMT_DXT5:         return cDXT5;
-            case PIXEL_FMT_3DC:          return cDXN_YX;
-            case PIXEL_FMT_DXT5A:        return cDXT5A;
-            case PIXEL_FMT_DXN:          return cDXN_XY;
-            case PIXEL_FMT_DXT5_CCxY:    return cDXT5;
-            case PIXEL_FMT_DXT5_xGxR:    return cDXT5;
-            case PIXEL_FMT_DXT5_xGBR:    return cDXT5;
-            case PIXEL_FMT_DXT5_AGBR:    return cDXT5;
-            case PIXEL_FMT_ETC1:         return cETC1;
-            default: break;
-         }
-         return cDXTInvalid;
-      }
+inline dxt_format get_dxt_format(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1:
+      return cDXT1;
+    case PIXEL_FMT_DXT1A:
+      return cDXT1A;
+    case PIXEL_FMT_DXT2:
+      return cDXT3;
+    case PIXEL_FMT_DXT3:
+      return cDXT3;
+    case PIXEL_FMT_DXT4:
+      return cDXT5;
+    case PIXEL_FMT_DXT5:
+      return cDXT5;
+    case PIXEL_FMT_3DC:
+      return cDXN_YX;
+    case PIXEL_FMT_DXT5A:
+      return cDXT5A;
+    case PIXEL_FMT_DXN:
+      return cDXN_XY;
+    case PIXEL_FMT_DXT5_CCxY:
+      return cDXT5;
+    case PIXEL_FMT_DXT5_xGxR:
+      return cDXT5;
+    case PIXEL_FMT_DXT5_xGBR:
+      return cDXT5;
+    case PIXEL_FMT_DXT5_AGBR:
+      return cDXT5;
+    case PIXEL_FMT_ETC1:
+      return cETC1;
+    case PIXEL_FMT_ETC2:
+      return cETC2;
+    case PIXEL_FMT_ETC2A:
+      return cETC2A;
+    case PIXEL_FMT_ETC1S:
+      return cETC1S;
+    case PIXEL_FMT_ETC2AS:
+      return cETC2AS;
+    default:
+      break;
+  }
+  return cDXTInvalid;
+}
 
-      inline pixel_format from_dxt_format(dxt_format dxt_fmt)
-      {
-         switch (dxt_fmt)
-         {
-            case cDXT1:
-               return PIXEL_FMT_DXT1;
-            case cDXT1A:
-               return PIXEL_FMT_DXT1A;
-            case cDXT3:
-               return PIXEL_FMT_DXT3;
-            case cDXT5:
-               return PIXEL_FMT_DXT5;
-            case cDXN_XY:
-               return PIXEL_FMT_DXN;
-            case cDXN_YX:
-               return PIXEL_FMT_3DC;
-            case cDXT5A:
-               return PIXEL_FMT_DXT5A;
-            case cETC1:
-               return PIXEL_FMT_ETC1;
-            default: break;
-         }
-         CRNLIB_ASSERT(false);
-         return PIXEL_FMT_INVALID;
-      }
+inline pixel_format from_dxt_format(dxt_format dxt_fmt) {
+  switch (dxt_fmt) {
+    case cDXT1:
+      return PIXEL_FMT_DXT1;
+    case cDXT1A:
+      return PIXEL_FMT_DXT1A;
+    case cDXT3:
+      return PIXEL_FMT_DXT3;
+    case cDXT5:
+      return PIXEL_FMT_DXT5;
+    case cDXN_XY:
+      return PIXEL_FMT_DXN;
+    case cDXN_YX:
+      return PIXEL_FMT_3DC;
+    case cDXT5A:
+      return PIXEL_FMT_DXT5A;
+    case cETC1:
+      return PIXEL_FMT_ETC1;
+    case cETC2:
+      return PIXEL_FMT_ETC2;
+    case cETC2A:
+      return PIXEL_FMT_ETC2A;
+    case cETC1S:
+      return PIXEL_FMT_ETC1S;
+    case cETC2AS:
+      return PIXEL_FMT_ETC2AS;
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return PIXEL_FMT_INVALID;
+}
 
-      inline bool is_pixel_format_non_srgb(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_3DC:
-            case PIXEL_FMT_DXN:
-            case PIXEL_FMT_DXT5A:
-            case PIXEL_FMT_DXT5_CCxY:
-            case PIXEL_FMT_DXT5_xGxR:
-            case PIXEL_FMT_DXT5_xGBR:
-            case PIXEL_FMT_DXT5_AGBR:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline bool is_pixel_format_non_srgb(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_3DC:
+    case PIXEL_FMT_DXN:
+    case PIXEL_FMT_DXT5A:
+    case PIXEL_FMT_DXT5_CCxY:
+    case PIXEL_FMT_DXT5_xGxR:
+    case PIXEL_FMT_DXT5_xGBR:
+    case PIXEL_FMT_DXT5_AGBR:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline bool is_crn_format_non_srgb(crn_format fmt)
-      {
-         switch (fmt)
-         {
-            case cCRNFmtDXN_XY:
-            case cCRNFmtDXN_YX:
-            case cCRNFmtDXT5A:
-            case cCRNFmtDXT5_CCxY:
-            case cCRNFmtDXT5_xGxR:
-            case cCRNFmtDXT5_xGBR:
-            case cCRNFmtDXT5_AGBR:
-               return true;
-            default: break;
-         }
-         return false;
-      }
+inline bool is_crn_format_non_srgb(crn_format fmt) {
+  switch (fmt) {
+    case cCRNFmtDXN_XY:
+    case cCRNFmtDXN_YX:
+    case cCRNFmtDXT5A:
+    case cCRNFmtDXT5_CCxY:
+    case cCRNFmtDXT5_xGxR:
+    case cCRNFmtDXT5_xGBR:
+    case cCRNFmtDXT5_AGBR:
+      return true;
+    default:
+      break;
+  }
+  return false;
+}
 
-      inline uint get_bpp(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1:      return 4;
-            case PIXEL_FMT_DXT1A:     return 4;
-            case PIXEL_FMT_ETC1:      return 4;
-            case PIXEL_FMT_DXT2:      return 8;
-            case PIXEL_FMT_DXT3:      return 8;
-            case PIXEL_FMT_DXT4:      return 8;
-            case PIXEL_FMT_DXT5:      return 8;
-            case PIXEL_FMT_3DC:       return 8;
-            case PIXEL_FMT_DXT5A:     return 4;
-            case PIXEL_FMT_R8G8B8:    return 24;
-            case PIXEL_FMT_A8R8G8B8:  return 32;
-            case PIXEL_FMT_A8:        return 8;
-            case PIXEL_FMT_L8:        return 8;
-            case PIXEL_FMT_A8L8:      return 16;
-            case PIXEL_FMT_DXN:       return 8;
-            case PIXEL_FMT_DXT5_CCxY: return 8;
-            case PIXEL_FMT_DXT5_xGxR: return 8;
-            case PIXEL_FMT_DXT5_xGBR: return 8;
-            case PIXEL_FMT_DXT5_AGBR: return 8;
-            default: break;
-         }
-         CRNLIB_ASSERT(false);
-         return 0;
-      };
+inline uint get_bpp(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1:
+      return 4;
+    case PIXEL_FMT_DXT1A:
+      return 4;
+    case PIXEL_FMT_ETC1:
+      return 4;
+    case PIXEL_FMT_ETC2:
+      return 4;
+    case PIXEL_FMT_ETC2A:
+      return 8;
+    case PIXEL_FMT_ETC1S:
+      return 4;
+    case PIXEL_FMT_ETC2AS:
+      return 8;
+    case PIXEL_FMT_DXT2:
+      return 8;
+    case PIXEL_FMT_DXT3:
+      return 8;
+    case PIXEL_FMT_DXT4:
+      return 8;
+    case PIXEL_FMT_DXT5:
+      return 8;
+    case PIXEL_FMT_3DC:
+      return 8;
+    case PIXEL_FMT_DXT5A:
+      return 4;
+    case PIXEL_FMT_R8G8B8:
+      return 24;
+    case PIXEL_FMT_A8R8G8B8:
+      return 32;
+    case PIXEL_FMT_A8:
+      return 8;
+    case PIXEL_FMT_L8:
+      return 8;
+    case PIXEL_FMT_A8L8:
+      return 16;
+    case PIXEL_FMT_DXN:
+      return 8;
+    case PIXEL_FMT_DXT5_CCxY:
+      return 8;
+    case PIXEL_FMT_DXT5_xGxR:
+      return 8;
+    case PIXEL_FMT_DXT5_xGBR:
+      return 8;
+    case PIXEL_FMT_DXT5_AGBR:
+      return 8;
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return 0;
+};
 
-      inline uint get_dxt_bytes_per_block(pixel_format fmt)
-      {
-         switch (fmt)
-         {
-            case PIXEL_FMT_DXT1:      return 8;
-            case PIXEL_FMT_DXT1A:     return 8;
-            case PIXEL_FMT_DXT5A:     return 8;
-            case PIXEL_FMT_ETC1:      return 8;
-            case PIXEL_FMT_DXT2:      return 16;
-            case PIXEL_FMT_DXT3:      return 16;
-            case PIXEL_FMT_DXT4:      return 16;
-            case PIXEL_FMT_DXT5:      return 16;
-            case PIXEL_FMT_3DC:       return 16;
-            case PIXEL_FMT_DXN:       return 16;
-            case PIXEL_FMT_DXT5_CCxY: return 16;
-            case PIXEL_FMT_DXT5_xGxR: return 16;
-            case PIXEL_FMT_DXT5_xGBR: return 16;
-            case PIXEL_FMT_DXT5_AGBR: return 16;
-            default: break;
-         }
-         CRNLIB_ASSERT(false);
-         return 0;
-      }
+inline uint get_dxt_bytes_per_block(pixel_format fmt) {
+  switch (fmt) {
+    case PIXEL_FMT_DXT1:
+      return 8;
+    case PIXEL_FMT_DXT1A:
+      return 8;
+    case PIXEL_FMT_DXT5A:
+      return 8;
+    case PIXEL_FMT_ETC1:
+      return 8;
+    case PIXEL_FMT_ETC2:
+      return 8;
+    case PIXEL_FMT_ETC2A:
+      return 16;
+    case PIXEL_FMT_ETC1S:
+      return 8;
+    case PIXEL_FMT_ETC2AS:
+      return 16;
+    case PIXEL_FMT_DXT2:
+      return 16;
+    case PIXEL_FMT_DXT3:
+      return 16;
+    case PIXEL_FMT_DXT4:
+      return 16;
+    case PIXEL_FMT_DXT5:
+      return 16;
+    case PIXEL_FMT_3DC:
+      return 16;
+    case PIXEL_FMT_DXN:
+      return 16;
+    case PIXEL_FMT_DXT5_CCxY:
+      return 16;
+    case PIXEL_FMT_DXT5_xGxR:
+      return 16;
+    case PIXEL_FMT_DXT5_xGBR:
+      return 16;
+    case PIXEL_FMT_DXT5_AGBR:
+      return 16;
+    default:
+      break;
+  }
+  CRNLIB_ASSERT(false);
+  return 0;
+}
 
-      enum component_flags
-      {
-         cCompFlagRValid            = 1,
-         cCompFlagGValid            = 2,
-         cCompFlagBValid            = 4,
-         cCompFlagAValid            = 8,
+enum component_flags {
+  cCompFlagRValid = 1,
+  cCompFlagGValid = 2,
+  cCompFlagBValid = 4,
+  cCompFlagAValid = 8,
 
-         cCompFlagGrayscale         = 16,
-         cCompFlagNormalMap         = 32,
-         cCompFlagLumaChroma        = 64,
+  cCompFlagGrayscale = 16,
+  cCompFlagNormalMap = 32,
+  cCompFlagLumaChroma = 64,
 
-         cDefaultCompFlags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid
-      };
+  cDefaultCompFlags = cCompFlagRValid | cCompFlagGValid | cCompFlagBValid | cCompFlagAValid
+};
 
-      component_flags get_component_flags(pixel_format fmt);
+component_flags get_component_flags(pixel_format fmt);
 
-      crn_format convert_pixel_format_to_best_crn_format(pixel_format crn_fmt);
+crn_format convert_pixel_format_to_best_crn_format(pixel_format crn_fmt);
 
-      pixel_format convert_crn_format_to_pixel_format(crn_format fmt);
+pixel_format convert_crn_format_to_pixel_format(crn_format fmt);
 
-   } // namespace pixel_format_helpers
-
-} // namespace crnlib
+}  // namespace pixel_format_helpers
 
+}  // namespace crnlib

crnlib/crn_platform.cpp

@@ -6,87 +6,76 @@
 #include "crn_winhdr.h"
 #endif
 #ifndef _MSC_VER
-int sprintf_s(char *buffer, size_t sizeOfBuffer, const char *format, ...)
-{
-   if (!sizeOfBuffer)
-      return 0;
+int sprintf_s(char* buffer, size_t sizeOfBuffer, const char* format, ...) {
+  if (!sizeOfBuffer)
+    return 0;
 
-   va_list args;
-   va_start(args, format);
-   int c = vsnprintf(buffer, sizeOfBuffer, format, args);
-   va_end(args);
+  va_list args;
+  va_start(args, format);
+  int c = vsnprintf(buffer, sizeOfBuffer, format, args);
+  va_end(args);
 
-   buffer[sizeOfBuffer - 1] = '\0';
+  buffer[sizeOfBuffer - 1] = '\0';
 
-   if (c < 0)
-      return sizeOfBuffer - 1;
+  if (c < 0)
+    return sizeOfBuffer - 1;
 
-   return CRNLIB_MIN(c, (int)sizeOfBuffer - 1);
+  return CRNLIB_MIN(c, (int)sizeOfBuffer - 1);
 }
 
-int vsprintf_s(char *buffer, size_t sizeOfBuffer, const char *format, va_list args)
-{
-   if (!sizeOfBuffer)
-      return 0;
+int vsprintf_s(char* buffer, size_t sizeOfBuffer, const char* format, va_list args) {
+  if (!sizeOfBuffer)
+    return 0;
 
-   int c = vsnprintf(buffer, sizeOfBuffer, format, args);
+  int c = vsnprintf(buffer, sizeOfBuffer, format, args);
 
-   buffer[sizeOfBuffer - 1] = '\0';
+  buffer[sizeOfBuffer - 1] = '\0';
 
-   if (c < 0)
-      return sizeOfBuffer - 1;
+  if (c < 0)
+    return sizeOfBuffer - 1;
 
-   return CRNLIB_MIN(c, (int)sizeOfBuffer - 1);
+  return CRNLIB_MIN(c, (int)sizeOfBuffer - 1);
 }
 
-char* strlwr(char* p)
-{
-   char *q = p;
-   while (*q)
-   {
-      char c = *q;
-      *q++ = tolower(c);
-   }
-   return p;
+char* strlwr(char* p) {
+  char* q = p;
+  while (*q) {
+    char c = *q;
+    *q++ = tolower(c);
+  }
+  return p;
 }
 
-char* strupr(char *p)
-{
-   char *q = p;
-   while (*q)
-   {
-      char c = *q;
-      *q++ = toupper(c);
-   }
-   return p;
+char* strupr(char* p) {
+  char* q = p;
+  while (*q) {
+    char c = *q;
+    *q++ = toupper(c);
+  }
+  return p;
 }
-#endif // __GNUC__
+#endif  // __GNUC__
 
-void crnlib_debug_break(void)
-{
-   CRNLIB_BREAKPOINT
+void crnlib_debug_break(void) {
+  CRNLIB_BREAKPOINT
 }
 
 #if CRNLIB_USE_WIN32_API
 #include "crn_winhdr.h"
 
-bool crnlib_is_debugger_present(void)
-{
-   return IsDebuggerPresent() != 0;
+bool crnlib_is_debugger_present(void) {
+  return IsDebuggerPresent() != 0;
 }
 
-void crnlib_output_debug_string(const char* p)
-{
-   OutputDebugStringA(p);
+void crnlib_output_debug_string(const char* p) {
+  OutputDebugStringA(p);
 }
 #else
-bool crnlib_is_debugger_present(void)
-{
-   return false;
+bool crnlib_is_debugger_present(void) {
+  return false;
 }
 
-void crnlib_output_debug_string(const char* p)
-{
-   puts(p);
+void crnlib_output_debug_string(const char* p) {
+  puts(p);
 }
-#endif // CRNLIB_USE_WIN32_API
+#endif  // CRNLIB_USE_WIN32_API

crnlib/crn_platform.h

@@ -11,86 +11,87 @@ void crnlib_assert(const char* pExp, const char* pFile, unsigned line);
 void crnlib_fail(const char* pExp, const char* pFile, unsigned line);
 
 #if CRNLIB_LITTLE_ENDIAN_CPU
-   const bool c_crnlib_little_endian_platform = true;
+const bool c_crnlib_little_endian_platform = true;
 #else
-   const bool c_crnlib_little_endian_platform = false;
+const bool c_crnlib_little_endian_platform = false;
 #endif
 
 const bool c_crnlib_big_endian_platform = !c_crnlib_little_endian_platform;
 
 #ifdef __GNUC__
-   #define crn_fopen(pDstFile, f, m) *(pDstFile) = fopen64(f, m)
-   #define crn_fseek fseeko64
-   #define crn_ftell ftello64
-#elif defined( _MSC_VER )
-   #define crn_fopen(pDstFile, f, m) fopen_s(pDstFile, f, m)
-   #define crn_fseek _fseeki64
-   #define crn_ftell _ftelli64
+#define crn_fopen(pDstFile, f, m) *(pDstFile) = fopen64(f, m)
+#define crn_fseek fseeko64
+#define crn_ftell ftello64
+#elif defined(_MSC_VER)
+#define crn_fopen(pDstFile, f, m) fopen_s(pDstFile, f, m)
+#define crn_fseek _fseeki64
+#define crn_ftell _ftelli64
 #else
-   #define crn_fopen(pDstFile, f, m) *(pDstFile) = fopen(f, m)
-   #define crn_fseek(s, o, w) fseek(s, static_cast<long>(o), w)
-   #define crn_ftell ftell
+#define crn_fopen(pDstFile, f, m) *(pDstFile) = fopen(f, m)
+#define crn_fseek(s, o, w) fseek(s, static_cast<long>(o), w)
+#define crn_ftell ftell
 #endif
 
 #if CRNLIB_USE_WIN32_API
-   #define CRNLIB_BREAKPOINT DebugBreak();
-   #define CRNLIB_BUILTIN_EXPECT(c, v) c
+#define CRNLIB_BREAKPOINT DebugBreak();
+#define CRNLIB_BUILTIN_EXPECT(c, v) c
 #elif defined(__GNUC__)
-   #define CRNLIB_BREAKPOINT asm("int $3");
-   #define CRNLIB_BUILTIN_EXPECT(c, v) __builtin_expect(c, v)
+#define CRNLIB_BREAKPOINT asm("int $3");
+#define CRNLIB_BUILTIN_EXPECT(c, v) __builtin_expect(c, v)
 #else
-   #define CRNLIB_BREAKPOINT
-   #define CRNLIB_BUILTIN_EXPECT(c, v) c
+#define CRNLIB_BREAKPOINT
+#define CRNLIB_BUILTIN_EXPECT(c, v) c
 #endif
 
 #if defined(__GNUC__)
-   #define CRNLIB_ALIGNED(x) __attribute__((aligned(x)))
-   #define CRNLIB_NOINLINE __attribute__((noinline))
+#define CRNLIB_ALIGNED(x) __attribute__((aligned(x)))
+#define CRNLIB_NOINLINE __attribute__((noinline))
 #elif defined(_MSC_VER)
-   #define CRNLIB_ALIGNED(x) __declspec(align(x))
-   #define CRNLIB_NOINLINE __declspec(noinline) 
+#define CRNLIB_ALIGNED(x) __declspec(align(x))
+#define CRNLIB_NOINLINE __declspec(noinline)
 #else
-   #define CRNLIB_ALIGNED(x)
-   #define CRNLIB_NOINLINE
+#define CRNLIB_ALIGNED(x)
+#define CRNLIB_NOINLINE
 #endif
 
 #define CRNLIB_GET_ALIGNMENT(v) ((!sizeof(v)) ? 1 : (__alignof(v) ? __alignof(v) : sizeof(uint32)))
 
 #ifndef _MSC_VER
-   int sprintf_s(char *buffer, size_t sizeOfBuffer, const char *format, ...);
-   int vsprintf_s(char *buffer, size_t sizeOfBuffer, const char *format, va_list args);
-   char* strlwr(char* p);
-   char* strupr(char *p);
-   #define _stricmp strcasecmp
-   #define _strnicmp strncasecmp
+int sprintf_s(char* buffer, size_t sizeOfBuffer, const char* format, ...);
+int vsprintf_s(char* buffer, size_t sizeOfBuffer, const char* format, va_list args);
+char* strlwr(char* p);
+char* strupr(char* p);
+#define _stricmp strcasecmp
+#define _strnicmp strncasecmp
 #endif
 
-inline bool crnlib_is_little_endian() { return c_crnlib_little_endian_platform; }
-inline bool crnlib_is_big_endian() { return c_crnlib_big_endian_platform; }
+inline bool crnlib_is_little_endian() {
+  return c_crnlib_little_endian_platform;
+}
+inline bool crnlib_is_big_endian() {
+  return c_crnlib_big_endian_platform;
+}
 
-inline bool crnlib_is_pc()
-{
+inline bool crnlib_is_pc() {
 #ifdef CRNLIB_PLATFORM_PC
-   return true;
+  return true;
 #else
-   return false;
+  return false;
 #endif
 }
 
-inline bool crnlib_is_x86()
-{
+inline bool crnlib_is_x86() {
 #ifdef CRNLIB_PLATFORM_PC_X86
-   return true;
+  return true;
 #else
-   return false;
+  return false;
 #endif
 }
 
-inline bool crnlib_is_x64()
-{
+inline bool crnlib_is_x64() {
 #ifdef CRNLIB_PLATFORM_PC_X64
-   return true;
+  return true;
 #else
-   return false;
+  return false;
 #endif
 }

crnlib/crn_prefix_coding.cpp

@@ -5,352 +5,309 @@
 //#include "rand.h"
 
 #ifdef CRNLIB_BUILD_DEBUG
-   //#define TEST_DECODER_TABLES
+//#define TEST_DECODER_TABLES
 #endif
 
-namespace crnlib
-{
+namespace crnlib {
 
-   namespace prefix_coding
-   {
-      bool limit_max_code_size(uint num_syms, uint8* pCodesizes, uint max_code_size)
-      {
-         const uint cMaxEverCodeSize = 34;            
-         
-         if ((!num_syms) || (num_syms > cMaxSupportedSyms) || (max_code_size < 1) || (max_code_size > cMaxEverCodeSize))
-            return false;
-         
-         uint num_codes[cMaxEverCodeSize + 1];
-         utils::zero_object(num_codes);
+namespace prefix_coding {
+bool limit_max_code_size(uint num_syms, uint8* pCodesizes, uint max_code_size) {
+  const uint cMaxEverCodeSize = 34;
 
-         bool should_limit = false;
-         
-         for (uint i = 0; i < num_syms; i++)
-         {
-            uint c = pCodesizes[i];
-            if (c)
-            {
-               CRNLIB_ASSERT(c <= cMaxEverCodeSize);
-               
-               num_codes[c]++;
-               if (c > max_code_size)
-                  should_limit = true;
-            }
-         }
-         
-         if (!should_limit)
-            return true;
-         
-         uint ofs = 0;
-         uint next_sorted_ofs[cMaxEverCodeSize + 1];
-         for (uint i = 1; i <= cMaxEverCodeSize; i++)
-         {
-            next_sorted_ofs[i] = ofs;
-            ofs += num_codes[i];
-         }
-            
-         if ((ofs < 2) || (ofs > cMaxSupportedSyms))
-            return true;
-         
-         if (ofs > (1U << max_code_size))
-            return false;
-                           
-         for (uint i = max_code_size + 1; i <= cMaxEverCodeSize; i++)
-            num_codes[max_code_size] += num_codes[i];
-         
-         // Technique of adjusting tree to enforce maximum code size from LHArc.
-         
-         uint total = 0;
-         for (uint i = max_code_size; i; --i)
-            total += (num_codes[i] << (max_code_size - i));
+  if ((!num_syms) || (num_syms > cMaxSupportedSyms) || (max_code_size < 1) || (max_code_size > cMaxEverCodeSize))
+    return false;
 
-         if (total == (1U << max_code_size))  
-            return true;
-            
-         do
-         {
-            num_codes[max_code_size]--;
+  uint num_codes[cMaxEverCodeSize + 1];
+  utils::zero_object(num_codes);
 
-            uint i;
-            for (i = max_code_size - 1; i; --i)
-            {
-               if (!num_codes[i])
-                  continue;
-               num_codes[i]--;          
-               num_codes[i + 1] += 2;   
-               break;
-            }
-            if (!i)
-               return false;
+  bool should_limit = false;
 
-            total--;   
-         } while (total != (1U << max_code_size));
-         
-         uint8 new_codesizes[cMaxSupportedSyms];
-         uint8* p = new_codesizes;
-         for (uint i = 1; i <= max_code_size; i++)
-         {
-            uint n = num_codes[i];
-            if (n)
-            {
-               memset(p, i, n);
-               p += n;
-            }
-         }
-                                             
-         for (uint i = 0; i < num_syms; i++)
-         {
-            const uint c = pCodesizes[i];
-            if (c)
-            {
-               uint ofs = next_sorted_ofs[c];
-               next_sorted_ofs[c] = ofs + 1;
-            
-               pCodesizes[i] = static_cast<uint8>(new_codesizes[ofs]);
-            }
-         }
-            
-         return true;
+  for (uint i = 0; i < num_syms; i++) {
+    uint c = pCodesizes[i];
+    if (c) {
+      CRNLIB_ASSERT(c <= cMaxEverCodeSize);
+
+      num_codes[c]++;
+      if (c > max_code_size)
+        should_limit = true;
+    }
+  }
+
+  if (!should_limit)
+    return true;
+
+  uint ofs = 0;
+  uint next_sorted_ofs[cMaxEverCodeSize + 1];
+  for (uint i = 1; i <= cMaxEverCodeSize; i++) {
+    next_sorted_ofs[i] = ofs;
+    ofs += num_codes[i];
+  }
+
+  if ((ofs < 2) || (ofs > cMaxSupportedSyms))
+    return true;
+
+  if (ofs > (1U << max_code_size))
+    return false;
+
+  for (uint i = max_code_size + 1; i <= cMaxEverCodeSize; i++)
+    num_codes[max_code_size] += num_codes[i];
+
+  // Technique of adjusting tree to enforce maximum code size from LHArc.
+
+  uint total = 0;
+  for (uint i = max_code_size; i; --i)
+    total += (num_codes[i] << (max_code_size - i));
+
+  if (total == (1U << max_code_size))
+    return true;
+
+  do {
+    num_codes[max_code_size]--;
+
+    uint i;
+    for (i = max_code_size - 1; i; --i) {
+      if (!num_codes[i])
+        continue;
+      num_codes[i]--;
+      num_codes[i + 1] += 2;
+      break;
+    }
+    if (!i)
+      return false;
+
+    total--;
+  } while (total != (1U << max_code_size));
+
+  uint8 new_codesizes[cMaxSupportedSyms];
+  uint8* p = new_codesizes;
+  for (uint i = 1; i <= max_code_size; i++) {
+    uint n = num_codes[i];
+    if (n) {
+      memset(p, i, n);
+      p += n;
+    }
+  }
+
+  for (uint i = 0; i < num_syms; i++) {
+    const uint c = pCodesizes[i];
+    if (c) {
+      uint ofs = next_sorted_ofs[c];
+      next_sorted_ofs[c] = ofs + 1;
+
+      pCodesizes[i] = static_cast<uint8>(new_codesizes[ofs]);
+    }
+  }
+
+  return true;
+}
+
+bool generate_codes(uint num_syms, const uint8* pCodesizes, uint16* pCodes) {
+  uint num_codes[cMaxExpectedCodeSize + 1];
+  utils::zero_object(num_codes);
+
+  for (uint i = 0; i < num_syms; i++) {
+    uint c = pCodesizes[i];
+    if (c) {
+      CRNLIB_ASSERT(c <= cMaxExpectedCodeSize);
+      num_codes[c]++;
+    }
+  }
+
+  uint code = 0;
+
+  uint next_code[cMaxExpectedCodeSize + 1];
+  next_code[0] = 0;
+
+  for (uint i = 1; i <= cMaxExpectedCodeSize; i++) {
+    next_code[i] = code;
+
+    code = (code + num_codes[i]) << 1;
+  }
+
+  if (code != (1 << (cMaxExpectedCodeSize + 1))) {
+    uint t = 0;
+    for (uint i = 1; i <= cMaxExpectedCodeSize; i++) {
+      t += num_codes[i];
+      if (t > 1)
+        return false;
+    }
+  }
+
+  for (uint i = 0; i < num_syms; i++) {
+    uint c = pCodesizes[i];
+    if (c) {
+      CRNLIB_ASSERT(next_code[c] <= cUINT16_MAX);
+      pCodes[i] = static_cast<uint16>(next_code[c]++);
+
+      CRNLIB_ASSERT(math::total_bits(pCodes[i]) <= pCodesizes[i]);
+    }
+  }
+
+  return true;
+}
+
+bool generate_decoder_tables(uint num_syms, const uint8* pCodesizes, decoder_tables* pTables, uint table_bits) {
+  uint min_codes[cMaxExpectedCodeSize];
+
+  if ((!num_syms) || (table_bits > cMaxTableBits))
+    return false;
+
+  pTables->m_num_syms = num_syms;
+
+  uint num_codes[cMaxExpectedCodeSize + 1];
+  utils::zero_object(num_codes);
+
+  for (uint i = 0; i < num_syms; i++) {
+    uint c = pCodesizes[i];
+    if (c)
+      num_codes[c]++;
+  }
+
+  uint sorted_positions[cMaxExpectedCodeSize + 1];
+
+  uint code = 0;
+
+  uint total_used_syms = 0;
+  uint max_code_size = 0;
+  uint min_code_size = UINT_MAX;
+  for (uint i = 1; i <= cMaxExpectedCodeSize; i++) {
+    const uint n = num_codes[i];
+
+    if (!n)
+      pTables->m_max_codes[i - 1] = 0;  //UINT_MAX;
+    else {
+      min_code_size = math::minimum(min_code_size, i);
+      max_code_size = math::maximum(max_code_size, i);
+
+      min_codes[i - 1] = code;
+
+      pTables->m_max_codes[i - 1] = code + n - 1;
+      pTables->m_max_codes[i - 1] = 1 + ((pTables->m_max_codes[i - 1] << (16 - i)) | ((1 << (16 - i)) - 1));
+
+      pTables->m_val_ptrs[i - 1] = total_used_syms;
+
+      sorted_positions[i] = total_used_syms;
+
+      code += n;
+      total_used_syms += n;
+    }
+
+    code <<= 1;
+  }
+
+  pTables->m_total_used_syms = total_used_syms;
+
+  if (total_used_syms > pTables->m_cur_sorted_symbol_order_size) {
+    pTables->m_cur_sorted_symbol_order_size = total_used_syms;
+
+    if (!math::is_power_of_2(total_used_syms))
+      pTables->m_cur_sorted_symbol_order_size = math::minimum<uint>(num_syms, math::next_pow2(total_used_syms));
+
+    if (pTables->m_sorted_symbol_order) {
+      crnlib_delete_array(pTables->m_sorted_symbol_order);
+      pTables->m_sorted_symbol_order = NULL;
+    }
+
+    pTables->m_sorted_symbol_order = crnlib_new_array<uint16>(pTables->m_cur_sorted_symbol_order_size);
+  }
+
+  pTables->m_min_code_size = static_cast<uint8>(min_code_size);
+  pTables->m_max_code_size = static_cast<uint8>(max_code_size);
+
+  for (uint i = 0; i < num_syms; i++) {
+    uint c = pCodesizes[i];
+    if (c) {
+      CRNLIB_ASSERT(num_codes[c]);
+
+      uint sorted_pos = sorted_positions[c]++;
+
+      CRNLIB_ASSERT(sorted_pos < total_used_syms);
+
+      pTables->m_sorted_symbol_order[sorted_pos] = static_cast<uint16>(i);
+    }
+  }
+
+  if (table_bits <= pTables->m_min_code_size)
+    table_bits = 0;
+  pTables->m_table_bits = table_bits;
+
+  if (table_bits) {
+    uint table_size = 1 << table_bits;
+    if (table_size > pTables->m_cur_lookup_size) {
+      pTables->m_cur_lookup_size = table_size;
+
+      if (pTables->m_lookup) {
+        crnlib_delete_array(pTables->m_lookup);
+        pTables->m_lookup = NULL;
       }
-            
-      bool generate_codes(uint num_syms, const uint8* pCodesizes, uint16* pCodes)
-      {
-         uint num_codes[cMaxExpectedCodeSize + 1];
-         utils::zero_object(num_codes);
 
-         for (uint i = 0; i < num_syms; i++)
-         {
-            uint c = pCodesizes[i];
-            if (c)
-            {
-               CRNLIB_ASSERT(c <= cMaxExpectedCodeSize);
-               num_codes[c]++;
-            }
-         }
+      pTables->m_lookup = crnlib_new_array<uint32>(table_size);
+    }
 
-         uint code = 0;
+    memset(pTables->m_lookup, 0xFF, static_cast<uint>(sizeof(pTables->m_lookup[0])) * (1UL << table_bits));
 
-         uint next_code[cMaxExpectedCodeSize + 1];
-         next_code[0] = 0;
-         
-         for (uint i = 1; i <= cMaxExpectedCodeSize; i++)
-         {
-            next_code[i] = code;
-            
-            code = (code + num_codes[i]) << 1;
-         }
+    for (uint codesize = 1; codesize <= table_bits; codesize++) {
+      if (!num_codes[codesize])
+        continue;
 
-         if (code != (1 << (cMaxExpectedCodeSize + 1)))
-         {
-            uint t = 0;
-            for (uint i = 1; i <= cMaxExpectedCodeSize; i++)
-            {
-               t += num_codes[i];
-               if (t > 1)
-                  return false;
-            }
-         }
+      const uint fillsize = table_bits - codesize;
+      const uint fillnum = 1 << fillsize;
 
-         for (uint i = 0; i < num_syms; i++)
-         {
-            uint c = pCodesizes[i];
-            if (c)
-            {
-               CRNLIB_ASSERT(next_code[c] <= cUINT16_MAX);
-               pCodes[i] = static_cast<uint16>(next_code[c]++);
-               
-               CRNLIB_ASSERT(math::total_bits(pCodes[i]) <= pCodesizes[i]);
-            }
-         }  
-         
-         return true;
+      const uint min_code = min_codes[codesize - 1];
+      const uint max_code = pTables->get_unshifted_max_code(codesize);
+      const uint val_ptr = pTables->m_val_ptrs[codesize - 1];
+
+      for (uint code = min_code; code <= max_code; code++) {
+        const uint sym_index = pTables->m_sorted_symbol_order[val_ptr + code - min_code];
+        CRNLIB_ASSERT(pCodesizes[sym_index] == codesize);
+
+        for (uint j = 0; j < fillnum; j++) {
+          const uint t = j + (code << fillsize);
+
+          CRNLIB_ASSERT(t < (1U << table_bits));
+
+          CRNLIB_ASSERT(pTables->m_lookup[t] == cUINT32_MAX);
+
+          pTables->m_lookup[t] = sym_index | (codesize << 16U);
+        }
       }
-            
-      bool generate_decoder_tables(uint num_syms, const uint8* pCodesizes, decoder_tables* pTables, uint table_bits)
-      {
-         uint min_codes[cMaxExpectedCodeSize];
-         
-         if ((!num_syms) || (table_bits > cMaxTableBits))
-            return false;
-            
-         pTables->m_num_syms = num_syms;
-         
-         uint num_codes[cMaxExpectedCodeSize + 1];
-         utils::zero_object(num_codes);
+    }
+  }
 
-         for (uint i = 0; i < num_syms; i++)
-         {
-            uint c = pCodesizes[i];
-            if (c)
-               num_codes[c]++;
-         }
+  for (uint i = 0; i < cMaxExpectedCodeSize; i++)
+    pTables->m_val_ptrs[i] -= min_codes[i];
 
-         uint sorted_positions[cMaxExpectedCodeSize + 1];
-               
-         uint code = 0;
+  pTables->m_table_max_code = 0;
+  pTables->m_decode_start_code_size = pTables->m_min_code_size;
 
-         uint total_used_syms = 0;
-         uint max_code_size = 0;
-         uint min_code_size = UINT_MAX;
-         for (uint i = 1; i <= cMaxExpectedCodeSize; i++)
-         {
-            const uint n = num_codes[i];
-            
-            if (!n)
-               pTables->m_max_codes[i - 1] = 0;//UINT_MAX;
-            else
-            {
-               min_code_size = math::minimum(min_code_size, i);
-               max_code_size = math::maximum(max_code_size, i);
-                  
-               min_codes[i - 1] = code;
-               
-               pTables->m_max_codes[i - 1] = code + n - 1;
-               pTables->m_max_codes[i - 1] = 1 + ((pTables->m_max_codes[i - 1] << (16 - i)) | ((1 << (16 - i)) - 1));
-               
-               pTables->m_val_ptrs[i - 1] = total_used_syms;
-               
-               sorted_positions[i] = total_used_syms;
-               
-               code += n;
-               total_used_syms += n;
-            }
-
-            code <<= 1;
-         }
-         
-         pTables->m_total_used_syms = total_used_syms;
-
-         if (total_used_syms > pTables->m_cur_sorted_symbol_order_size)
-         {
-            pTables->m_cur_sorted_symbol_order_size = total_used_syms;
-            
-            if (!math::is_power_of_2(total_used_syms))
-               pTables->m_cur_sorted_symbol_order_size = math::minimum<uint>(num_syms, math::next_pow2(total_used_syms));
-            
-            if (pTables->m_sorted_symbol_order)
-            {
-               crnlib_delete_array(pTables->m_sorted_symbol_order);
-               pTables->m_sorted_symbol_order = NULL;
-            }
-            
-            pTables->m_sorted_symbol_order = crnlib_new_array<uint16>(pTables->m_cur_sorted_symbol_order_size);
-         }
-         
-         pTables->m_min_code_size = static_cast<uint8>(min_code_size);
-         pTables->m_max_code_size = static_cast<uint8>(max_code_size);
-                  
-         for (uint i = 0; i < num_syms; i++)
-         {
-            uint c = pCodesizes[i];
-            if (c)
-            {
-               CRNLIB_ASSERT(num_codes[c]);
-               
-               uint sorted_pos = sorted_positions[c]++;
-               
-               CRNLIB_ASSERT(sorted_pos < total_used_syms);
-               
-               pTables->m_sorted_symbol_order[sorted_pos] = static_cast<uint16>(i);
-            }            
-         }
-
-         if (table_bits <= pTables->m_min_code_size)
-            table_bits = 0;                                       
-         pTables->m_table_bits = table_bits;
-                  
-         if (table_bits)
-         {
-            uint table_size = 1 << table_bits;
-            if (table_size > pTables->m_cur_lookup_size)
-            {
-               pTables->m_cur_lookup_size = table_size;
-               
-               if (pTables->m_lookup)
-               {
-                  crnlib_delete_array(pTables->m_lookup);
-                  pTables->m_lookup = NULL;
-               }
-                  
-               pTables->m_lookup = crnlib_new_array<uint32>(table_size);
-            }
-                        
-            memset(pTables->m_lookup, 0xFF, static_cast<uint>(sizeof(pTables->m_lookup[0])) * (1UL << table_bits));
-            
-            for (uint codesize = 1; codesize <= table_bits; codesize++)
-            {
-               if (!num_codes[codesize])
-                  continue;
-               
-               const uint fillsize = table_bits - codesize;
-               const uint fillnum = 1 << fillsize;
-               
-               const uint min_code = min_codes[codesize - 1];
-               const uint max_code = pTables->get_unshifted_max_code(codesize);
-               const uint val_ptr = pTables->m_val_ptrs[codesize - 1];
-                      
-               for (uint code = min_code; code <= max_code; code++)
-               {
-                  const uint sym_index = pTables->m_sorted_symbol_order[ val_ptr + code - min_code ];
-                  CRNLIB_ASSERT( pCodesizes[sym_index] == codesize );
-                  
-                  for (uint j = 0; j < fillnum; j++)
-                  {
-                     const uint t = j + (code << fillsize);
-                     
-                     CRNLIB_ASSERT(t < (1U << table_bits));
-                     
-                     CRNLIB_ASSERT(pTables->m_lookup[t] == cUINT32_MAX);
-                     
-                     pTables->m_lookup[t] = sym_index | (codesize << 16U);
-                  }
-               }
-            }
-         }         
-         
-         for (uint i = 0; i < cMaxExpectedCodeSize; i++)
-            pTables->m_val_ptrs[i] -= min_codes[i];
-         
-         pTables->m_table_max_code = 0;
-         pTables->m_decode_start_code_size = pTables->m_min_code_size;
-
-         if (table_bits)
-         {
-            uint i;
-            for (i = table_bits; i >= 1; i--)
-            {
-               if (num_codes[i])
-               {
-                  pTables->m_table_max_code = pTables->m_max_codes[i - 1];
-                  break;
-               }
-            }
-            if (i >= 1)
-            {
-               pTables->m_decode_start_code_size = table_bits + 1;
-               for (uint i = table_bits + 1; i <= max_code_size; i++)
-               {
-                  if (num_codes[i])
-                  {
-                     pTables->m_decode_start_code_size = i;
-                     break;
-                  }
-               }
-            }
-         }
-
-         // sentinels
-         pTables->m_max_codes[cMaxExpectedCodeSize] = UINT_MAX;
-         pTables->m_val_ptrs[cMaxExpectedCodeSize] = 0xFFFFF;
-
-         pTables->m_table_shift = 32 - pTables->m_table_bits;
-
-         return true;
+  if (table_bits) {
+    uint i;
+    for (i = table_bits; i >= 1; i--) {
+      if (num_codes[i]) {
+        pTables->m_table_max_code = pTables->m_max_codes[i - 1];
+        break;
       }
-               
-   } // namespace prefix_codig
+    }
+    if (i >= 1) {
+      pTables->m_decode_start_code_size = table_bits + 1;
+      for (uint i = table_bits + 1; i <= max_code_size; i++) {
+        if (num_codes[i]) {
+          pTables->m_decode_start_code_size = i;
+          break;
+        }
+      }
+    }
+  }
 
+  // sentinels
+  pTables->m_max_codes[cMaxExpectedCodeSize] = UINT_MAX;
+  pTables->m_val_ptrs[cMaxExpectedCodeSize] = 0xFFFFF;
 
-} // namespace crnlib
+  pTables->m_table_shift = 32 - pTables->m_table_bits;
 
+  return true;
+}
 
+}  // namespace prefix_codig
+
+}  // namespace crnlib

crnlib/crn_prefix_coding.h

@@ -2,115 +2,102 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   namespace prefix_coding
-   {
-      const uint cMaxExpectedCodeSize = 16;
-      const uint cMaxSupportedSyms = 8192;
-      const uint cMaxTableBits = 11;
+namespace crnlib {
+namespace prefix_coding {
+const uint cMaxExpectedCodeSize = 16;
+const uint cMaxSupportedSyms = 8192;
+const uint cMaxTableBits = 11;
 
-      bool limit_max_code_size(uint num_syms, uint8* pCodesizes, uint max_code_size);
+bool limit_max_code_size(uint num_syms, uint8* pCodesizes, uint max_code_size);
 
-      bool generate_codes(uint num_syms, const uint8* pCodesizes, uint16* pCodes);
+bool generate_codes(uint num_syms, const uint8* pCodesizes, uint16* pCodes);
 
-      class decoder_tables
-      {
-      public:
-         inline decoder_tables() :
-            m_table_shift(0), m_table_max_code(0), m_decode_start_code_size(0), m_cur_lookup_size(0), m_lookup(NULL), m_cur_sorted_symbol_order_size(0), m_sorted_symbol_order(NULL)
-         {
-         }
+class decoder_tables {
+ public:
+  inline decoder_tables()
+      : m_table_shift(0), m_table_max_code(0), m_decode_start_code_size(0), m_cur_lookup_size(0), m_lookup(NULL), m_cur_sorted_symbol_order_size(0), m_sorted_symbol_order(NULL) {
+  }
 
-         inline decoder_tables(const decoder_tables& other) :
-            m_table_shift(0), m_table_max_code(0), m_decode_start_code_size(0), m_cur_lookup_size(0), m_lookup(NULL), m_cur_sorted_symbol_order_size(0), m_sorted_symbol_order(NULL)
-         {
-            *this = other;
-         }
+  inline decoder_tables(const decoder_tables& other)
+      : m_table_shift(0), m_table_max_code(0), m_decode_start_code_size(0), m_cur_lookup_size(0), m_lookup(NULL), m_cur_sorted_symbol_order_size(0), m_sorted_symbol_order(NULL) {
+    *this = other;
+  }
 
-         decoder_tables& operator= (const decoder_tables& other)
-         {
-            if (this == &other)
-               return *this;
+  decoder_tables& operator=(const decoder_tables& other) {
+    if (this == &other)
+      return *this;
 
-            clear();
+    clear();
 
-            memcpy(this, &other, sizeof(*this));
+    memcpy(this, &other, sizeof(*this));
 
-            if (other.m_lookup)
-            {
-               m_lookup = crnlib_new_array<uint32>(m_cur_lookup_size);
-               memcpy(m_lookup, other.m_lookup, sizeof(m_lookup[0]) * m_cur_lookup_size);
-            }
+    if (other.m_lookup) {
+      m_lookup = crnlib_new_array<uint32>(m_cur_lookup_size);
+      memcpy(m_lookup, other.m_lookup, sizeof(m_lookup[0]) * m_cur_lookup_size);
+    }
 
-            if (other.m_sorted_symbol_order)
-            {
-               m_sorted_symbol_order = crnlib_new_array<uint16>(m_cur_sorted_symbol_order_size);
-               memcpy(m_sorted_symbol_order, other.m_sorted_symbol_order, sizeof(m_sorted_symbol_order[0]) * m_cur_sorted_symbol_order_size);
-            }
+    if (other.m_sorted_symbol_order) {
+      m_sorted_symbol_order = crnlib_new_array<uint16>(m_cur_sorted_symbol_order_size);
+      memcpy(m_sorted_symbol_order, other.m_sorted_symbol_order, sizeof(m_sorted_symbol_order[0]) * m_cur_sorted_symbol_order_size);
+    }
 
-            return *this;
-         }
+    return *this;
+  }
 
-         inline void clear()
-         {
-            if (m_lookup)
-            {
-               crnlib_delete_array(m_lookup);
-               m_lookup = 0;
-               m_cur_lookup_size = 0;
-            }
+  inline void clear() {
+    if (m_lookup) {
+      crnlib_delete_array(m_lookup);
+      m_lookup = 0;
+      m_cur_lookup_size = 0;
+    }
 
-            if (m_sorted_symbol_order)
-            {
-               crnlib_delete_array(m_sorted_symbol_order);
-               m_sorted_symbol_order = NULL;
-               m_cur_sorted_symbol_order_size = 0;
-            }
-         }
+    if (m_sorted_symbol_order) {
+      crnlib_delete_array(m_sorted_symbol_order);
+      m_sorted_symbol_order = NULL;
+      m_cur_sorted_symbol_order_size = 0;
+    }
+  }
 
-         inline ~decoder_tables()
-         {
-            if (m_lookup)
-               crnlib_delete_array(m_lookup);
+  inline ~decoder_tables() {
+    if (m_lookup)
+      crnlib_delete_array(m_lookup);
 
-            if (m_sorted_symbol_order)
-               crnlib_delete_array(m_sorted_symbol_order);
-         }
+    if (m_sorted_symbol_order)
+      crnlib_delete_array(m_sorted_symbol_order);
+  }
 
-         // DO NOT use any complex classes here - it is bitwise copied.
+  // DO NOT use any complex classes here - it is bitwise copied.
 
-         uint                 m_num_syms;
-         uint                 m_total_used_syms;
-         uint                 m_table_bits;
-         uint                 m_table_shift;
-         uint                 m_table_max_code;
-         uint                 m_decode_start_code_size;
+  uint m_num_syms;
+  uint m_total_used_syms;
+  uint m_table_bits;
+  uint m_table_shift;
+  uint m_table_max_code;
+  uint m_decode_start_code_size;
 
-         uint8                m_min_code_size;
-         uint8                m_max_code_size;
+  uint8 m_min_code_size;
+  uint8 m_max_code_size;
 
-         uint                 m_max_codes[cMaxExpectedCodeSize + 1];
-         int                  m_val_ptrs[cMaxExpectedCodeSize + 1];
+  uint m_max_codes[cMaxExpectedCodeSize + 1];
+  int m_val_ptrs[cMaxExpectedCodeSize + 1];
 
-         uint                 m_cur_lookup_size;
-         uint32*              m_lookup;
+  uint m_cur_lookup_size;
+  uint32* m_lookup;
 
-         uint                 m_cur_sorted_symbol_order_size;
-         uint16*              m_sorted_symbol_order;
+  uint m_cur_sorted_symbol_order_size;
+  uint16* m_sorted_symbol_order;
 
-         inline uint get_unshifted_max_code(uint len) const
-         {
-            CRNLIB_ASSERT( (len >= 1) && (len <= cMaxExpectedCodeSize) );
-            uint k = m_max_codes[len - 1];
-            if (!k)
-               return UINT_MAX;
-            return (k - 1) >> (16 - len);
-         }
-      };
+  inline uint get_unshifted_max_code(uint len) const {
+    CRNLIB_ASSERT((len >= 1) && (len <= cMaxExpectedCodeSize));
+    uint k = m_max_codes[len - 1];
+    if (!k)
+      return UINT_MAX;
+    return (k - 1) >> (16 - len);
+  }
+};
 
-      bool generate_decoder_tables(uint num_syms, const uint8* pCodesizes, decoder_tables* pTables, uint table_bits);
+bool generate_decoder_tables(uint num_syms, const uint8* pCodesizes, decoder_tables* pTables, uint table_bits);
 
-   } // namespace prefix_coding
+}  // namespace prefix_coding
 
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_qdxt1.h

@@ -8,178 +8,165 @@
 #include "crn_threaded_clusterizer.h"
 #include "crn_dxt_image.h"
 
-namespace crnlib
-{
-   struct qdxt1_params
-   {
-      qdxt1_params()
-      {
-         clear();
-      }
+namespace crnlib {
+struct qdxt1_params {
+  qdxt1_params() {
+    clear();
+  }
 
-      void clear()
-      {
-         m_quality_level = cMaxQuality;
-         m_dxt_quality = cCRNDXTQualityUber;
-         m_perceptual = true;
-         m_dxt1a_alpha_threshold = 0;
-         m_use_alpha_blocks = true;
-         m_pProgress_func = NULL;
-         m_pProgress_data = NULL;
-         m_num_mips = 0;
-         m_hierarchical = true;
-         utils::zero_object(m_mip_desc);
-         m_progress_start = 0;
-         m_progress_range = 100;
-      }
+  void clear() {
+    m_quality_level = cMaxQuality;
+    m_dxt_quality = cCRNDXTQualityUber;
+    m_perceptual = true;
+    m_dxt1a_alpha_threshold = 0;
+    m_use_alpha_blocks = true;
+    m_pProgress_func = NULL;
+    m_pProgress_data = NULL;
+    m_num_mips = 0;
+    m_hierarchical = true;
+    utils::zero_object(m_mip_desc);
+    m_progress_start = 0;
+    m_progress_range = 100;
+  }
 
-      void init(const dxt_image::pack_params &pp, int quality_level, bool hierarchical)
-      {
-         m_dxt_quality = pp.m_quality;
-         m_hierarchical = hierarchical;
-         m_perceptual = pp.m_perceptual;
-         m_use_alpha_blocks = pp.m_use_both_block_types;
-         m_quality_level = quality_level;
-         m_dxt1a_alpha_threshold = pp.m_dxt1a_alpha_threshold;
-      }
+  void init(const dxt_image::pack_params& pp, int quality_level, bool hierarchical) {
+    m_dxt_quality = pp.m_quality;
+    m_hierarchical = hierarchical;
+    m_perceptual = pp.m_perceptual;
+    m_use_alpha_blocks = pp.m_use_both_block_types;
+    m_quality_level = quality_level;
+    m_dxt1a_alpha_threshold = pp.m_dxt1a_alpha_threshold;
+  }
 
-      enum { cMaxQuality = cCRNMaxQualityLevel };
-      uint m_quality_level;
+  enum { cMaxQuality = cCRNMaxQualityLevel };
+  uint m_quality_level;
 
-      uint m_dxt1a_alpha_threshold;
-      crn_dxt_quality m_dxt_quality;
-      bool m_perceptual;
-      bool m_use_alpha_blocks;
-      bool m_hierarchical;
+  uint m_dxt1a_alpha_threshold;
+  crn_dxt_quality m_dxt_quality;
+  bool m_perceptual;
+  bool m_use_alpha_blocks;
+  bool m_hierarchical;
 
-      struct mip_desc
-      {
-         uint m_first_block;
-         uint m_block_width;
-         uint m_block_height;
-      };
+  struct mip_desc {
+    uint m_first_block;
+    uint m_block_width;
+    uint m_block_height;
+  };
 
-      uint m_num_mips;
-      enum { cMaxMips = 128 };
-      mip_desc m_mip_desc[cMaxMips];
+  uint m_num_mips;
+  enum { cMaxMips = 128 };
+  mip_desc m_mip_desc[cMaxMips];
 
-      typedef bool (*progress_callback_func)(uint percentage_completed, void* pProgress_data);
-      progress_callback_func m_pProgress_func;
-      void* m_pProgress_data;
-      uint m_progress_start;
-      uint m_progress_range;
-   };
+  typedef bool (*progress_callback_func)(uint percentage_completed, void* pProgress_data);
+  progress_callback_func m_pProgress_func;
+  void* m_pProgress_data;
+  uint m_progress_start;
+  uint m_progress_range;
+};
 
-   class qdxt1
-   {
-      CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(qdxt1);
+class qdxt1 {
+  CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(qdxt1);
 
-   public:
-      qdxt1(task_pool& task_pool);
-      ~qdxt1();
+ public:
+  qdxt1(task_pool& task_pool);
+  ~qdxt1();
 
-      void clear();
+  void clear();
 
-      bool init(uint n, const dxt_pixel_block* pBlocks, const qdxt1_params& params);
+  bool init(uint n, const dxt_pixel_block* pBlocks, const qdxt1_params& params);
 
-      uint get_num_blocks() const { return m_num_blocks; }
-      const dxt_pixel_block* get_blocks() const { return m_pBlocks; }
+  uint get_num_blocks() const { return m_num_blocks; }
+  const dxt_pixel_block* get_blocks() const { return m_pBlocks; }
 
-      bool pack(dxt1_block* pDst_elements, uint elements_per_block, const qdxt1_params& params, float quality_power_mul);
+  bool pack(dxt1_block* pDst_elements, uint elements_per_block, const qdxt1_params& params, float quality_power_mul);
 
-   private:
-      task_pool*           m_pTask_pool;
-      crn_thread_id_t      m_main_thread_id;
-      bool                 m_canceled;
+ private:
+  task_pool* m_pTask_pool;
+  crn_thread_id_t m_main_thread_id;
+  bool m_canceled;
 
-      uint                 m_progress_start;
-      uint                 m_progress_range;
+  uint m_progress_start;
+  uint m_progress_range;
 
-      uint                 m_num_blocks;
-      const dxt_pixel_block*   m_pBlocks;
+  uint m_num_blocks;
+  const dxt_pixel_block* m_pBlocks;
 
-      dxt1_block*          m_pDst_elements;
-      uint                 m_elements_per_block;
-      qdxt1_params         m_params;
+  dxt1_block* m_pDst_elements;
+  uint m_elements_per_block;
+  qdxt1_params m_params;
 
-      uint                 m_max_selector_clusters;
+  uint m_max_selector_clusters;
 
-      int                  m_prev_percentage_complete;
+  int m_prev_percentage_complete;
 
-      typedef vec<6, float> vec6F;
-      typedef clusterizer<vec6F> vec6F_clusterizer;
-      vec6F_clusterizer    m_endpoint_clusterizer;
+  typedef vec<6, float> vec6F;
+  typedef clusterizer<vec6F> vec6F_clusterizer;
+  vec6F_clusterizer m_endpoint_clusterizer;
 
-      crnlib::vector< crnlib::vector<uint> > m_endpoint_cluster_indices;
+  crnlib::vector<crnlib::vector<uint> > m_endpoint_cluster_indices;
 
-      typedef vec<16, float> vec16F;
-      typedef threaded_clusterizer<vec16F> vec16F_clusterizer;
+  typedef vec<16, float> vec16F;
+  typedef threaded_clusterizer<vec16F> vec16F_clusterizer;
 
-      typedef vec16F_clusterizer::weighted_vec weighted_selector_vec;
-      typedef vec16F_clusterizer::weighted_vec_array weighted_selector_vec_array;
+  typedef vec16F_clusterizer::weighted_vec weighted_selector_vec;
+  typedef vec16F_clusterizer::weighted_vec_array weighted_selector_vec_array;
 
-      vec16F_clusterizer m_selector_clusterizer;
+  vec16F_clusterizer m_selector_clusterizer;
 
-      crnlib::vector< crnlib::vector<uint> > m_cached_selector_cluster_indices[qdxt1_params::cMaxQuality + 1];
+  crnlib::vector<crnlib::vector<uint> > m_cached_selector_cluster_indices[qdxt1_params::cMaxQuality + 1];
 
-      struct cluster_id
-      {
-         cluster_id() : m_hash(0)
-         {
+  struct cluster_id {
+    cluster_id()
+        : m_hash(0) {
+    }
 
-         }
+    cluster_id(const crnlib::vector<uint>& indices) {
+      set(indices);
+    }
 
-         cluster_id(const crnlib::vector<uint>& indices)
-         {
-            set(indices);
-         }
+    void set(const crnlib::vector<uint>& indices) {
+      m_cells.resize(indices.size());
 
-         void set(const crnlib::vector<uint>& indices)
-         {
-            m_cells.resize(indices.size());
+      for (uint i = 0; i < indices.size(); i++)
+        m_cells[i] = static_cast<uint32>(indices[i]);
 
-            for (uint i = 0; i < indices.size(); i++)
-               m_cells[i] = static_cast<uint32>(indices[i]);
+      std::sort(m_cells.begin(), m_cells.end());
 
-            std::sort(m_cells.begin(), m_cells.end());
+      m_hash = fast_hash(&m_cells[0], sizeof(m_cells[0]) * m_cells.size());
+    }
 
-            m_hash = fast_hash(&m_cells[0], sizeof(m_cells[0]) * m_cells.size());
-         }
+    bool operator<(const cluster_id& rhs) const {
+      return m_cells < rhs.m_cells;
+    }
 
-         bool operator< (const cluster_id& rhs) const
-         {
-            return m_cells < rhs.m_cells;
-         }
+    bool operator==(const cluster_id& rhs) const {
+      if (m_hash != rhs.m_hash)
+        return false;
 
-         bool operator== (const cluster_id& rhs) const
-         {
-            if (m_hash != rhs.m_hash)
-               return false;
+      return m_cells == rhs.m_cells;
+    }
 
-            return m_cells == rhs.m_cells;
-         }
+    crnlib::vector<uint32> m_cells;
 
-         crnlib::vector<uint32> m_cells;
+    size_t m_hash;
 
-         size_t m_hash;
+    operator size_t() const { return m_hash; }
+  };
 
-         operator size_t() const { return m_hash; }
-      };
+  typedef crnlib::hash_map<cluster_id, uint> cluster_hash;
+  cluster_hash m_cluster_hash;
+  spinlock m_cluster_hash_lock;
 
-      typedef crnlib::hash_map<cluster_id, uint> cluster_hash;
-      cluster_hash m_cluster_hash;
-      spinlock m_cluster_hash_lock;
+  static bool generate_codebook_dummy_progress_callback(uint percentage_completed, void* pData);
+  static bool generate_codebook_progress_callback(uint percentage_completed, void* pData);
+  bool update_progress(uint value, uint max_value);
+  void pack_endpoints_task(uint64 data, void* pData_ptr);
+  void optimize_selectors_task(uint64 data, void* pData_ptr);
+  bool create_selector_clusters(uint max_selector_clusters, crnlib::vector<crnlib::vector<uint> >& selector_cluster_indices);
 
-      static bool generate_codebook_dummy_progress_callback(uint percentage_completed, void* pData);
-      static bool generate_codebook_progress_callback(uint percentage_completed, void* pData);
-      bool update_progress(uint value, uint max_value);
-      void pack_endpoints_task(uint64 data, void* pData_ptr);
-      void optimize_selectors_task(uint64 data, void* pData_ptr);
-      bool create_selector_clusters(uint max_selector_clusters, crnlib::vector< crnlib::vector<uint> >& selector_cluster_indices);
+  inline dxt1_block& get_block(uint index) const { return m_pDst_elements[index * m_elements_per_block]; }
+};
 
-      inline dxt1_block& get_block(uint index) const { return m_pDst_elements[index * m_elements_per_block]; }
-   };
+CRNLIB_DEFINE_BITWISE_MOVABLE(qdxt1::cluster_id);
 
-   CRNLIB_DEFINE_BITWISE_MOVABLE(qdxt1::cluster_id);
-
-} // namespace crnlib
+}  // namespace crnlib

crnlib/crn_qdxt5.h

@@ -8,187 +8,164 @@
 #include "crn_dxt.h"
 #include "crn_dxt_image.h"
 
-namespace crnlib
-{
-   struct qdxt5_params
-   {
-      qdxt5_params()
-      {
-         clear();
-      }
+namespace crnlib {
+struct qdxt5_params {
+  qdxt5_params() {
+    clear();
+  }
 
-      void clear()
-      {
-         m_quality_level = cMaxQuality;
-         m_dxt_quality = cCRNDXTQualityUber;
+  void clear() {
+    m_quality_level = cMaxQuality;
+    m_dxt_quality = cCRNDXTQualityUber;
 
-         m_pProgress_func = NULL;
-         m_pProgress_data = NULL;
-         m_num_mips = 0;
-         m_hierarchical = true;
-         utils::zero_object(m_mip_desc);
+    m_pProgress_func = NULL;
+    m_pProgress_data = NULL;
+    m_num_mips = 0;
+    m_hierarchical = true;
+    utils::zero_object(m_mip_desc);
 
-         m_comp_index = 3;
-         m_progress_start = 0;
-         m_progress_range = 100;
+    m_comp_index = 3;
+    m_progress_start = 0;
+    m_progress_range = 100;
 
-         m_use_both_block_types = true;
-      }
+    m_use_both_block_types = true;
+  }
 
-      void init(const dxt_image::pack_params &pp, int quality_level, bool hierarchical, int comp_index = 3)
-      {
-         m_dxt_quality = pp.m_quality;
-         m_hierarchical = hierarchical;
-         m_comp_index = comp_index;
-         m_use_both_block_types = pp.m_use_both_block_types;
-         m_quality_level = quality_level;
-      }
+  void init(const dxt_image::pack_params& pp, int quality_level, bool hierarchical, int comp_index = 3) {
+    m_dxt_quality = pp.m_quality;
+    m_hierarchical = hierarchical;
+    m_comp_index = comp_index;
+    m_use_both_block_types = pp.m_use_both_block_types;
+    m_quality_level = quality_level;
+  }
 
-      enum { cMaxQuality = cCRNMaxQualityLevel };
-      uint m_quality_level;
-      crn_dxt_quality m_dxt_quality;
-      bool m_hierarchical;
+  enum { cMaxQuality = cCRNMaxQualityLevel };
+  uint m_quality_level;
+  crn_dxt_quality m_dxt_quality;
+  bool m_hierarchical;
 
-      struct mip_desc
-      {
-         uint m_first_block;
-         uint m_block_width;
-         uint m_block_height;
-      };
+  struct mip_desc {
+    uint m_first_block;
+    uint m_block_width;
+    uint m_block_height;
+  };
 
-      uint m_num_mips;
-      enum { cMaxMips = 128 };
-      mip_desc m_mip_desc[cMaxMips];
+  uint m_num_mips;
+  enum { cMaxMips = 128 };
+  mip_desc m_mip_desc[cMaxMips];
 
-      typedef bool (*progress_callback_func)(uint percentage_completed, void* pProgress_data);
-      progress_callback_func m_pProgress_func;
-      void* m_pProgress_data;
-      uint m_progress_start;
-      uint m_progress_range;
+  typedef bool (*progress_callback_func)(uint percentage_completed, void* pProgress_data);
+  progress_callback_func m_pProgress_func;
+  void* m_pProgress_data;
+  uint m_progress_start;
+  uint m_progress_range;
 
-      uint m_comp_index;
+  uint m_comp_index;
 
-      bool m_use_both_block_types;
-   };
+  bool m_use_both_block_types;
+};
 
-   class qdxt5
-   {
-      CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(qdxt5);
+class qdxt5 {
+  CRNLIB_NO_COPY_OR_ASSIGNMENT_OP(qdxt5);
 
-   public:
-      qdxt5(task_pool& task_pool);
-      ~qdxt5();
+ public:
+  qdxt5(task_pool& task_pool);
+  ~qdxt5();
 
-      void clear();
+  void clear();
 
-      bool init(uint n, const dxt_pixel_block* pBlocks, const qdxt5_params& params);
+  bool init(uint n, const dxt_pixel_block* pBlocks, const qdxt5_params& params);
 
-      uint get_num_blocks() const { return m_num_blocks; }
-      const dxt_pixel_block* get_blocks() const { return m_pBlocks; }
+  uint get_num_blocks() const { return m_num_blocks; }
+  const dxt_pixel_block* get_blocks() const { return m_pBlocks; }
 
-      bool pack(dxt5_block* pDst_elements, uint elements_per_block, const qdxt5_params& params);
+  bool pack(dxt5_block* pDst_elements, uint elements_per_block, const qdxt5_params& params);
 
-   private:
-      task_pool*           m_pTask_pool;
-      crn_thread_id_t      m_main_thread_id;
-      bool                 m_canceled;
+ private:
+  task_pool* m_pTask_pool;
+  crn_thread_id_t m_main_thread_id;
+  bool m_canceled;
 
-      uint                 m_progress_start;
-      uint                 m_progress_range;
+  uint m_progress_start;
+  uint m_progress_range;
 
-      uint                 m_num_blocks;
-      const dxt_pixel_block*   m_pBlocks;
+  uint m_num_blocks;
+  const dxt_pixel_block* m_pBlocks;
 
-      dxt5_block*          m_pDst_elements;
-      uint                 m_elements_per_block;
-      qdxt5_params         m_params;
+  dxt5_block* m_pDst_elements;
+  uint m_elements_per_block;
+  qdxt5_params m_params;
 
-      uint                 m_max_selector_clusters;
+  uint m_max_selector_clusters;
 
-      int                  m_prev_percentage_complete;
+  int m_prev_percentage_complete;
 
-      typedef vec<2, float> vec2F;
-      typedef clusterizer<vec2F> vec2F_clusterizer;
-      vec2F_clusterizer    m_endpoint_clusterizer;
+  typedef vec<2, float> vec2F;
+  typedef clusterizer<vec2F> vec2F_clusterizer;
+  vec2F_clusterizer m_endpoint_clusterizer;
 
-      crnlib::vector< crnlib::vector<uint> > m_endpoint_cluster_indices;
+  crnlib::vector<crnlib::vector<uint> > m_endpoint_cluster_indices;
 
-      typedef vec<16, float> vec16F;
-      typedef threaded_clusterizer<vec16F> vec16F_clusterizer;
+  typedef vec<16, float> vec16F;
+  typedef threaded_clusterizer<vec16F> vec16F_clusterizer;
 
-      typedef vec16F_clusterizer::weighted_vec weighted_selector_vec;
-      typedef vec16F_clusterizer::weighted_vec_array weighted_selector_vec_array;
+  typedef vec16F_clusterizer::weighted_vec weighted_selector_vec;
+  typedef vec16F_clusterizer::weighted_vec_array weighted_selector_vec_array;
 
-      vec16F_clusterizer m_selector_clusterizer;
+  vec16F_clusterizer m_selector_clusterizer;
 
-      crnlib::vector< crnlib::vector<uint> > m_cached_selector_cluster_indices[qdxt5_params::cMaxQuality + 1];
+  crnlib::vector<crnlib::vector<uint> > m_cached_selector_cluster_indices[qdxt5_params::cMaxQuality + 1];
 
-      struct cluster_id
-      {
-         cluster_id() : m_hash(0)
-         {
+  struct cluster_id {
+    cluster_id()
+        : m_hash(0) {
+    }
 
-         }
+    cluster_id(const crnlib::vector<uint>& indices) {
+      set(indices);
+    }
 
-         cluster_id(const crnlib::vector<uint>& indices)
-         {
-            set(indices);
-         }
+    void set(const crnlib::vector<uint>& indices) {
+      m_cells.resize(indices.size());
 
-         void set(const crnlib::vector<uint>& indices)
-         {
-            m_cells.resize(indices.size());
+      for (uint i = 0; i < indices.size(); i++)
+        m_cells[i] = static_cast<uint32>(indices[i]);
 
-            for (uint i = 0; i < indices.size(); i++)
-               m_cells[i] = static_cast<uint32>(indices[i]);
+      std::sort(m_cells.begin(), m_cells.end());
 
-            std::sort(m_cells.begin(), m_cells.end());
-
-            m_hash = fast_hash(&m_cells[0], sizeof(m_cells[0]) * m_cells.size());
-         }
-
-         bool operator< (const cluster_id& rhs) const
-         {
-            return m_cells < rhs.m_cells;
-         }
-
-         bool operator== (const cluster_id& rhs) const
-         {
-            if (m_hash != rhs.m_hash)
-               return false;
-
-            return m_cells == rhs.m_cells;
-         }
-
-         crnlib::vector<uint32> m_cells;
-
-         size_t m_hash;
-
-         operator size_t() const { return m_hash; }
-      };
-
-      typedef crnlib::hash_map<cluster_id, uint> cluster_hash;
-      cluster_hash m_cluster_hash;
-      spinlock m_cluster_hash_lock;
-
-      static bool generate_codebook_dummy_progress_callback(uint percentage_completed, void* pData);
-      static bool generate_codebook_progress_callback(uint percentage_completed, void* pData);
-      bool update_progress(uint value, uint max_value);
-      void pack_endpoints_task(uint64 data, void* pData_ptr);
-      void optimize_selectors_task(uint64 data, void* pData_ptr);
-      bool create_selector_clusters(uint max_selector_clusters, crnlib::vector< crnlib::vector<uint> >& selector_cluster_indices);
-
-      inline dxt5_block& get_block(uint index) const { return m_pDst_elements[index * m_elements_per_block]; }
-   };
-
-} // namespace crnlib
+      m_hash = fast_hash(&m_cells[0], sizeof(m_cells[0]) * m_cells.size());
+    }
 
+    bool operator<(const cluster_id& rhs) const {
+      return m_cells < rhs.m_cells;
+    }
 
+    bool operator==(const cluster_id& rhs) const {
+      if (m_hash != rhs.m_hash)
+        return false;
 
+      return m_cells == rhs.m_cells;
+    }
 
+    crnlib::vector<uint32> m_cells;
 
+    size_t m_hash;
 
+    operator size_t() const { return m_hash; }
+  };
 
+  typedef crnlib::hash_map<cluster_id, uint> cluster_hash;
+  cluster_hash m_cluster_hash;
+  spinlock m_cluster_hash_lock;
 
+  static bool generate_codebook_dummy_progress_callback(uint percentage_completed, void* pData);
+  static bool generate_codebook_progress_callback(uint percentage_completed, void* pData);
+  bool update_progress(uint value, uint max_value);
+  void pack_endpoints_task(uint64 data, void* pData_ptr);
+  void optimize_selectors_task(uint64 data, void* pData_ptr);
+  bool create_selector_clusters(uint max_selector_clusters, crnlib::vector<crnlib::vector<uint> >& selector_cluster_indices);
 
+  inline dxt5_block& get_block(uint index) const { return m_pDst_elements[index * m_elements_per_block]; }
+};
 
+}  // namespace crnlib

crnlib/crn_radix_sort.h

@@ -2,344 +2,299 @@
 // See Copyright Notice and license at the end of inc/crnlib.h
 #pragma once
 
-namespace crnlib
-{
-   // Returns pointer to sorted array.
-   template<typename T>
-   T* radix_sort(uint num_vals, T* pBuf0, T* pBuf1, uint key_ofs, uint key_size)
-   {  
-      CRNLIB_ASSERT_OPEN_RANGE(key_ofs, 0, sizeof(T));
-      CRNLIB_ASSERT_CLOSED_RANGE(key_size, 1, 4);
+namespace crnlib {
+// Returns pointer to sorted array.
+template <typename T>
+T* radix_sort(uint num_vals, T* pBuf0, T* pBuf1, uint key_ofs, uint key_size) {
+  CRNLIB_ASSERT_OPEN_RANGE(key_ofs, 0, sizeof(T));
+  CRNLIB_ASSERT_CLOSED_RANGE(key_size, 1, 4);
 
-      uint hist[256 * 4];
+  uint hist[256 * 4];
 
-      memset(hist, 0, sizeof(hist[0]) * 256 * key_size);
+  memset(hist, 0, sizeof(hist[0]) * 256 * key_size);
 
 #define CRNLIB_GET_KEY(p) (*(uint*)((uint8*)(p) + key_ofs))
 
-      if (key_size == 4)
-      {
-         T* p = pBuf0;
-         T* q = pBuf0 + num_vals;
-         for ( ; p != q; p++)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
+  if (key_size == 4) {
+    T* p = pBuf0;
+    T* q = pBuf0 + num_vals;
+    for (; p != q; p++) {
+      const uint key = CRNLIB_GET_KEY(p);
 
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-            hist[512 + ((key >> 16) & 0xFF)]++;
-            hist[768 + ((key >> 24) & 0xFF)]++;
-         }
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+      hist[512 + ((key >> 16) & 0xFF)]++;
+      hist[768 + ((key >> 24) & 0xFF)]++;
+    }
+  } else if (key_size == 3) {
+    T* p = pBuf0;
+    T* q = pBuf0 + num_vals;
+    for (; p != q; p++) {
+      const uint key = CRNLIB_GET_KEY(p);
+
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+      hist[512 + ((key >> 16) & 0xFF)]++;
+    }
+  } else if (key_size == 2) {
+    T* p = pBuf0;
+    T* q = pBuf0 + (num_vals >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      const uint key0 = CRNLIB_GET_KEY(p);
+      const uint key1 = CRNLIB_GET_KEY(p + 1);
+
+      hist[key0 & 0xFF]++;
+      hist[256 + ((key0 >> 8) & 0xFF)]++;
+
+      hist[key1 & 0xFF]++;
+      hist[256 + ((key1 >> 8) & 0xFF)]++;
+    }
+
+    if (num_vals & 1) {
+      const uint key = CRNLIB_GET_KEY(p);
+
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+    }
+  } else {
+    CRNLIB_ASSERT(key_size == 1);
+    if (key_size != 1)
+      return NULL;
+
+    T* p = pBuf0;
+    T* q = pBuf0 + (num_vals >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      const uint key0 = CRNLIB_GET_KEY(p);
+      const uint key1 = CRNLIB_GET_KEY(p + 1);
+
+      hist[key0 & 0xFF]++;
+      hist[key1 & 0xFF]++;
+    }
+
+    if (num_vals & 1) {
+      const uint key = CRNLIB_GET_KEY(p);
+      hist[key & 0xFF]++;
+    }
+  }
+
+  T* pCur = pBuf0;
+  T* pNew = pBuf1;
+
+  for (uint pass = 0; pass < key_size; pass++) {
+    const uint* pHist = &hist[pass << 8];
+
+    uint offsets[256];
+
+    uint cur_ofs = 0;
+    for (uint i = 0; i < 256; i += 2) {
+      offsets[i] = cur_ofs;
+      cur_ofs += pHist[i];
+
+      offsets[i + 1] = cur_ofs;
+      cur_ofs += pHist[i + 1];
+    }
+
+    const uint pass_shift = pass << 3;
+
+    T* p = pCur;
+    T* q = pCur + (num_vals >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      uint c0 = (CRNLIB_GET_KEY(p) >> pass_shift) & 0xFF;
+      uint c1 = (CRNLIB_GET_KEY(p + 1) >> pass_shift) & 0xFF;
+
+      if (c0 == c1) {
+        uint dst_offset0 = offsets[c0];
+
+        offsets[c0] = dst_offset0 + 2;
+
+        pNew[dst_offset0] = p[0];
+        pNew[dst_offset0 + 1] = p[1];
+      } else {
+        uint dst_offset0 = offsets[c0]++;
+        uint dst_offset1 = offsets[c1]++;
+
+        pNew[dst_offset0] = p[0];
+        pNew[dst_offset1] = p[1];
       }
-      else if (key_size == 3)
-      {
-         T* p = pBuf0;
-         T* q = pBuf0 + num_vals;
-         for ( ; p != q; p++)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
+    }
 
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-            hist[512 + ((key >> 16) & 0xFF)]++;
-         }
-      }   
-      else if (key_size == 2)
-      {
-         T* p = pBuf0;
-         T* q = pBuf0 + (num_vals >> 1) * 2;
+    if (num_vals & 1) {
+      uint c = (CRNLIB_GET_KEY(p) >> pass_shift) & 0xFF;
 
-         for ( ; p != q; p += 2)
-         {
-            const uint key0 = CRNLIB_GET_KEY(p);
-            const uint key1 = CRNLIB_GET_KEY(p+1);
+      uint dst_offset = offsets[c];
+      offsets[c] = dst_offset + 1;
 
-            hist[        key0         & 0xFF]++;
-            hist[256 + ((key0 >>  8) & 0xFF)]++;
+      pNew[dst_offset] = *p;
+    }
 
-            hist[        key1        & 0xFF]++;
-            hist[256 + ((key1 >>  8) & 0xFF)]++;
-         }
+    T* t = pCur;
+    pCur = pNew;
+    pNew = t;
+  }
 
-         if (num_vals & 1)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
-
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-         }
-      }      
-      else
-      {
-         CRNLIB_ASSERT(key_size == 1);
-         if (key_size != 1)
-            return NULL;
-
-         T* p = pBuf0;
-         T* q = pBuf0 + (num_vals >> 1) * 2;
-
-         for ( ; p != q; p += 2)
-         {
-            const uint key0 = CRNLIB_GET_KEY(p);
-            const uint key1 = CRNLIB_GET_KEY(p+1);
-
-            hist[key0 & 0xFF]++;
-            hist[key1 & 0xFF]++;
-         }
-
-         if (num_vals & 1)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
-            hist[key & 0xFF]++;
-         }
-      }
-
-      T* pCur = pBuf0;
-      T* pNew = pBuf1;
-
-      for (uint pass = 0; pass < key_size; pass++)
-      {
-         const uint* pHist = &hist[pass << 8];
-
-         uint offsets[256];
-
-         uint cur_ofs = 0;
-         for (uint i = 0; i < 256; i += 2)
-         {
-            offsets[i] = cur_ofs;
-            cur_ofs += pHist[i];
-
-            offsets[i+1] = cur_ofs;
-            cur_ofs += pHist[i+1];
-         }
-
-         const uint pass_shift = pass << 3;
-
-         T* p = pCur;
-         T* q = pCur + (num_vals >> 1) * 2;
-
-         for ( ; p != q; p += 2)
-         {
-            uint c0 = (CRNLIB_GET_KEY(p) >> pass_shift) & 0xFF;
-            uint c1 = (CRNLIB_GET_KEY(p+1) >> pass_shift) & 0xFF;
-
-            if (c0 == c1)
-            {
-               uint dst_offset0 = offsets[c0];
-
-               offsets[c0] = dst_offset0 + 2;
-
-               pNew[dst_offset0] = p[0];
-               pNew[dst_offset0 + 1] = p[1];
-            }
-            else
-            {
-               uint dst_offset0 = offsets[c0]++;
-               uint dst_offset1 = offsets[c1]++;
-
-               pNew[dst_offset0] = p[0];
-               pNew[dst_offset1] = p[1];
-            }
-         }
-
-         if (num_vals & 1)
-         {
-            uint c = (CRNLIB_GET_KEY(p) >> pass_shift) & 0xFF;
-
-            uint dst_offset = offsets[c];
-            offsets[c] = dst_offset + 1;
-
-            pNew[dst_offset] = *p;
-         }
-
-         T* t = pCur;
-         pCur = pNew;
-         pNew = t;
-      }            
-
-      return pCur;
-   }
+  return pCur;
+}
 
 #undef CRNLIB_GET_KEY
 
-   // Returns pointer to sorted array.
-   template<typename T, typename Q>
-   T* indirect_radix_sort(uint num_indices, T* pIndices0, T* pIndices1, const Q* pKeys, uint key_ofs, uint key_size, bool init_indices)
-   {  
-      CRNLIB_ASSERT_OPEN_RANGE(key_ofs, 0, sizeof(T));
-      CRNLIB_ASSERT_CLOSED_RANGE(key_size, 1, 4);
+// Returns pointer to sorted array.
+template <typename T, typename Q>
+T* indirect_radix_sort(uint num_indices, T* pIndices0, T* pIndices1, const Q* pKeys, uint key_ofs, uint key_size, bool init_indices) {
+  CRNLIB_ASSERT_OPEN_RANGE(key_ofs, 0, sizeof(T));
+  CRNLIB_ASSERT_CLOSED_RANGE(key_size, 1, 4);
 
-      if (init_indices)
-      {
-         T* p = pIndices0;
-         T* q = pIndices0 + (num_indices >> 1) * 2;
-         uint i;
-         for (i = 0; p != q; p += 2, i += 2)
-         {
-            p[0] = static_cast<T>(i);
-            p[1] = static_cast<T>(i + 1); 
-         }
+  if (init_indices) {
+    T* p = pIndices0;
+    T* q = pIndices0 + (num_indices >> 1) * 2;
+    uint i;
+    for (i = 0; p != q; p += 2, i += 2) {
+      p[0] = static_cast<T>(i);
+      p[1] = static_cast<T>(i + 1);
+    }
 
-         if (num_indices & 1)
-            *p = static_cast<T>(i);
-      }
+    if (num_indices & 1)
+      *p = static_cast<T>(i);
+  }
 
-      uint hist[256 * 4];
+  uint hist[256 * 4];
 
-      memset(hist, 0, sizeof(hist[0]) * 256 * key_size);
+  memset(hist, 0, sizeof(hist[0]) * 256 * key_size);
 
 #define CRNLIB_GET_KEY(p) (*(const uint*)((const uint8*)(pKeys + *(p)) + key_ofs))
 #define CRNLIB_GET_KEY_FROM_INDEX(i) (*(const uint*)((const uint8*)(pKeys + (i)) + key_ofs))
 
-      if (key_size == 4)
-      {
-         T* p = pIndices0;
-         T* q = pIndices0 + num_indices;
-         for ( ; p != q; p++)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
+  if (key_size == 4) {
+    T* p = pIndices0;
+    T* q = pIndices0 + num_indices;
+    for (; p != q; p++) {
+      const uint key = CRNLIB_GET_KEY(p);
 
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-            hist[512 + ((key >> 16) & 0xFF)]++;
-            hist[768 + ((key >> 24) & 0xFF)]++;
-         }
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+      hist[512 + ((key >> 16) & 0xFF)]++;
+      hist[768 + ((key >> 24) & 0xFF)]++;
+    }
+  } else if (key_size == 3) {
+    T* p = pIndices0;
+    T* q = pIndices0 + num_indices;
+    for (; p != q; p++) {
+      const uint key = CRNLIB_GET_KEY(p);
+
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+      hist[512 + ((key >> 16) & 0xFF)]++;
+    }
+  } else if (key_size == 2) {
+    T* p = pIndices0;
+    T* q = pIndices0 + (num_indices >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      const uint key0 = CRNLIB_GET_KEY(p);
+      const uint key1 = CRNLIB_GET_KEY(p + 1);
+
+      hist[key0 & 0xFF]++;
+      hist[256 + ((key0 >> 8) & 0xFF)]++;
+
+      hist[key1 & 0xFF]++;
+      hist[256 + ((key1 >> 8) & 0xFF)]++;
+    }
+
+    if (num_indices & 1) {
+      const uint key = CRNLIB_GET_KEY(p);
+
+      hist[key & 0xFF]++;
+      hist[256 + ((key >> 8) & 0xFF)]++;
+    }
+  } else {
+    CRNLIB_ASSERT(key_size == 1);
+    if (key_size != 1)
+      return NULL;
+
+    T* p = pIndices0;
+    T* q = pIndices0 + (num_indices >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      const uint key0 = CRNLIB_GET_KEY(p);
+      const uint key1 = CRNLIB_GET_KEY(p + 1);
+
+      hist[key0 & 0xFF]++;
+      hist[key1 & 0xFF]++;
+    }
+
+    if (num_indices & 1) {
+      const uint key = CRNLIB_GET_KEY(p);
+
+      hist[key & 0xFF]++;
+    }
+  }
+
+  T* pCur = pIndices0;
+  T* pNew = pIndices1;
+
+  for (uint pass = 0; pass < key_size; pass++) {
+    const uint* pHist = &hist[pass << 8];
+
+    uint offsets[256];
+
+    uint cur_ofs = 0;
+    for (uint i = 0; i < 256; i += 2) {
+      offsets[i] = cur_ofs;
+      cur_ofs += pHist[i];
+
+      offsets[i + 1] = cur_ofs;
+      cur_ofs += pHist[i + 1];
+    }
+
+    const uint pass_shift = pass << 3;
+
+    T* p = pCur;
+    T* q = pCur + (num_indices >> 1) * 2;
+
+    for (; p != q; p += 2) {
+      uint index0 = p[0];
+      uint index1 = p[1];
+
+      uint c0 = (CRNLIB_GET_KEY_FROM_INDEX(index0) >> pass_shift) & 0xFF;
+      uint c1 = (CRNLIB_GET_KEY_FROM_INDEX(index1) >> pass_shift) & 0xFF;
+
+      if (c0 == c1) {
+        uint dst_offset0 = offsets[c0];
+
+        offsets[c0] = dst_offset0 + 2;
+
+        pNew[dst_offset0] = static_cast<T>(index0);
+        pNew[dst_offset0 + 1] = static_cast<T>(index1);
+      } else {
+        uint dst_offset0 = offsets[c0]++;
+        uint dst_offset1 = offsets[c1]++;
+
+        pNew[dst_offset0] = static_cast<T>(index0);
+        pNew[dst_offset1] = static_cast<T>(index1);
       }
-      else if (key_size == 3)
-      {
-         T* p = pIndices0;
-         T* q = pIndices0 + num_indices;
-         for ( ; p != q; p++)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
+    }
 
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-            hist[512 + ((key >> 16) & 0xFF)]++;
-         }
-      }   
-      else if (key_size == 2)
-      {
-         T* p = pIndices0;
-         T* q = pIndices0 + (num_indices >> 1) * 2;
+    if (num_indices & 1) {
+      uint index = *p;
+      uint c = (CRNLIB_GET_KEY_FROM_INDEX(index) >> pass_shift) & 0xFF;
 
-         for ( ; p != q; p += 2)
-         {
-            const uint key0 = CRNLIB_GET_KEY(p);
-            const uint key1 = CRNLIB_GET_KEY(p+1);
+      uint dst_offset = offsets[c];
+      offsets[c] = dst_offset + 1;
 
-            hist[        key0         & 0xFF]++;
-            hist[256 + ((key0 >>  8) & 0xFF)]++;
+      pNew[dst_offset] = static_cast<T>(index);
+    }
 
-            hist[        key1        & 0xFF]++;
-            hist[256 + ((key1 >>  8) & 0xFF)]++;
-         }
+    T* t = pCur;
+    pCur = pNew;
+    pNew = t;
+  }
 
-         if (num_indices & 1)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
-
-            hist[        key        & 0xFF]++;
-            hist[256 + ((key >>  8) & 0xFF)]++;
-         }
-      }      
-      else
-      {
-         CRNLIB_ASSERT(key_size == 1);
-         if (key_size != 1)
-            return NULL;
-
-         T* p = pIndices0;
-         T* q = pIndices0 + (num_indices >> 1) * 2;
-
-         for ( ; p != q; p += 2)
-         {
-            const uint key0 = CRNLIB_GET_KEY(p);
-            const uint key1 = CRNLIB_GET_KEY(p+1);
-
-            hist[key0 & 0xFF]++;
-            hist[key1 & 0xFF]++;
-         }
-
-         if (num_indices & 1)
-         {
-            const uint key = CRNLIB_GET_KEY(p);
-
-            hist[key & 0xFF]++;
-         }
-      }      
-
-      T* pCur = pIndices0;
-      T* pNew = pIndices1;
-
-      for (uint pass = 0; pass < key_size; pass++)
-      {
-         const uint* pHist = &hist[pass << 8];
-
-         uint offsets[256];
-
-         uint cur_ofs = 0;
-         for (uint i = 0; i < 256; i += 2)
-         {
-            offsets[i] = cur_ofs;
-            cur_ofs += pHist[i];
-
-            offsets[i+1] = cur_ofs;
-            cur_ofs += pHist[i+1];
-         }
-
-         const uint pass_shift = pass << 3;
-
-         T* p = pCur;
-         T* q = pCur + (num_indices >> 1) * 2;
-
-         for ( ; p != q; p += 2)
-         {
-            uint index0 = p[0];
-            uint index1 = p[1];
-
-            uint c0 = (CRNLIB_GET_KEY_FROM_INDEX(index0) >> pass_shift) & 0xFF;
-            uint c1 = (CRNLIB_GET_KEY_FROM_INDEX(index1) >> pass_shift) & 0xFF;
-
-            if (c0 == c1)
-            {
-               uint dst_offset0 = offsets[c0];
-
-               offsets[c0] = dst_offset0 + 2;
-
-               pNew[dst_offset0] = static_cast<T>(index0);
-               pNew[dst_offset0 + 1] = static_cast<T>(index1);
-            }
-            else
-            {
-               uint dst_offset0 = offsets[c0]++;
-               uint dst_offset1 = offsets[c1]++;
-
-               pNew[dst_offset0] = static_cast<T>(index0);
-               pNew[dst_offset1] = static_cast<T>(index1);
-            }
-         }
-
-         if (num_indices & 1)
-         {
-            uint index = *p;
-            uint c = (CRNLIB_GET_KEY_FROM_INDEX(index) >> pass_shift) & 0xFF;
-
-            uint dst_offset = offsets[c];
-            offsets[c] = dst_offset + 1;
-
-            pNew[dst_offset] = static_cast<T>(index);
-         }
-
-         T* t = pCur;
-         pCur = pNew;
-         pNew = t;
-      }            
-
-      return pCur;
-   }
+  return pCur;
+}
 
 #undef CRNLIB_GET_KEY
 #undef CRNLIB_GET_KEY_FROM_INDEX
 
-} // namespace crnlib
+}  // namespace crnlib