Optomize G425 to compute Primary Axis before probing remainders

Marlin/src/gcode/calibrate/G425.cpp

@@ -332,10 +332,13 @@ inline void probe_sides(measurements_t &m, const float uncertainty) {
     probe_side(m, uncertainty, TOP);
   #endif
 
-  TERN_(CALIBRATION_MEASURE_RIGHT, probe_side(m, uncertainty, RIGHT,    probe_top_at_edge));
   TERN_(CALIBRATION_MEASURE_FRONT, probe_side(m, uncertainty, FRONT,    probe_top_at_edge));
-  TERN_(CALIBRATION_MEASURE_LEFT,  probe_side(m, uncertainty, LEFT,     probe_top_at_edge));
   TERN_(CALIBRATION_MEASURE_BACK,  probe_side(m, uncertainty, BACK,     probe_top_at_edge));
+  TERN_(HAS_Y_CENTER, m.obj_center.y = (m.obj_side[FRONT]    + m.obj_side[BACK])     / 2);
+  TERN_(HAS_Y_CENTER, m.nozzle_outer_dimension.y = m.obj_side[BACK]  - m.obj_side[FRONT] - dimensions.y);
+
+  TERN_(CALIBRATION_MEASURE_LEFT,  probe_side(m, uncertainty, LEFT,     probe_top_at_edge));
+  TERN_(CALIBRATION_MEASURE_RIGHT, probe_side(m, uncertainty, RIGHT,    probe_top_at_edge));
   TERN_(CALIBRATION_MEASURE_IMIN,  probe_side(m, uncertainty, IMINIMUM, probe_top_at_edge));
   TERN_(CALIBRATION_MEASURE_IMAX,  probe_side(m, uncertainty, IMAXIMUM, probe_top_at_edge));
   TERN_(CALIBRATION_MEASURE_JMIN,  probe_side(m, uncertainty, JMINIMUM, probe_top_at_edge));
@@ -351,7 +354,6 @@ inline void probe_sides(measurements_t &m, const float uncertainty) {
 
   // Compute the measured center of the calibration object.
   TERN_(HAS_X_CENTER, m.obj_center.x = (m.obj_side[LEFT]     + m.obj_side[RIGHT])    / 2);
-  TERN_(HAS_Y_CENTER, m.obj_center.y = (m.obj_side[FRONT]    + m.obj_side[BACK])     / 2);
   TERN_(HAS_I_CENTER, m.obj_center.i = (m.obj_side[IMINIMUM] + m.obj_side[IMAXIMUM]) / 2);
   TERN_(HAS_J_CENTER, m.obj_center.j = (m.obj_side[JMINIMUM] + m.obj_side[JMAXIMUM]) / 2);
   TERN_(HAS_K_CENTER, m.obj_center.k = (m.obj_side[KMINIMUM] + m.obj_side[KMAXIMUM]) / 2);
@@ -362,7 +364,6 @@ inline void probe_sides(measurements_t &m, const float uncertainty) {
   // Compute the outside diameter of the nozzle at the height
   // at which it makes contact with the calibration object
   TERN_(HAS_X_CENTER, m.nozzle_outer_dimension.x = m.obj_side[RIGHT] - m.obj_side[LEFT] - dimensions.x);
-  TERN_(HAS_Y_CENTER, m.nozzle_outer_dimension.y = m.obj_side[BACK]  - m.obj_side[FRONT] - dimensions.y);
 
   park_above_object(m, uncertainty);