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Spend 48b PROGMEM to save 16b SRAM
...by moving `homing_feedrate_mm_s` to PROGMEM.
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@ -389,7 +389,7 @@ static const char *injected_commands_P = NULL;
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* Feed rates are often configured with mm/m
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* but the planner and stepper like mm/s units.
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*/
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float constexpr homing_feedrate_mm_s[] = {
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static const float homing_feedrate_mm_s[] PROGMEM = {
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#if ENABLED(DELTA)
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MMM_TO_MMS(HOMING_FEEDRATE_Z), MMM_TO_MMS(HOMING_FEEDRATE_Z),
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#else
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@ -397,6 +397,8 @@ float constexpr homing_feedrate_mm_s[] = {
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#endif
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MMM_TO_MMS(HOMING_FEEDRATE_Z), 0
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};
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FORCE_INLINE float homing_feedrate(const AxisEnum a) { return pgm_read_float(&homing_feedrate_mm_s[a]); }
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float feedrate_mm_s = MMM_TO_MMS(1500.0);
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static float saved_feedrate_mm_s;
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int feedrate_percentage = 100, saved_feedrate_percentage,
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@ -1504,7 +1506,7 @@ inline float get_homing_bump_feedrate(const AxisEnum axis) {
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SERIAL_ECHO_START;
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SERIAL_ECHOLNPGM("Warning: Homing Bump Divisor < 1");
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}
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return homing_feedrate_mm_s[axis] / hbd;
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return homing_feedrate(axis) / hbd;
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}
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/**
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@ -1631,7 +1633,7 @@ void do_blocking_move_to(const float &x, const float &y, const float &z, const f
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// If Z needs to raise, do it before moving XY
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if (destination[Z_AXIS] < z) {
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destination[Z_AXIS] = z;
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prepare_uninterpolated_move_to_destination(fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[Z_AXIS]);
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prepare_uninterpolated_move_to_destination(fr_mm_s ? fr_mm_s : homing_feedrate(Z_AXIS));
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}
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destination[X_AXIS] = x;
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@ -1641,14 +1643,14 @@ void do_blocking_move_to(const float &x, const float &y, const float &z, const f
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// If Z needs to lower, do it after moving XY
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if (destination[Z_AXIS] > z) {
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destination[Z_AXIS] = z;
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prepare_uninterpolated_move_to_destination(fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[Z_AXIS]);
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prepare_uninterpolated_move_to_destination(fr_mm_s ? fr_mm_s : homing_feedrate(Z_AXIS));
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}
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#else
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// If Z needs to raise, do it before moving XY
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if (current_position[Z_AXIS] < z) {
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feedrate_mm_s = fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[Z_AXIS];
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feedrate_mm_s = fr_mm_s ? fr_mm_s : homing_feedrate(Z_AXIS);
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current_position[Z_AXIS] = z;
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line_to_current_position();
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}
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@ -1660,7 +1662,7 @@ void do_blocking_move_to(const float &x, const float &y, const float &z, const f
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// If Z needs to lower, do it after moving XY
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if (current_position[Z_AXIS] > z) {
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feedrate_mm_s = fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[Z_AXIS];
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feedrate_mm_s = fr_mm_s ? fr_mm_s : homing_feedrate(Z_AXIS);
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current_position[Z_AXIS] = z;
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line_to_current_position();
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}
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@ -2778,11 +2780,11 @@ static void do_homing_move(const AxisEnum axis, const float distance, const floa
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SYNC_PLAN_POSITION_KINEMATIC();
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current_position[axis] = distance;
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inverse_kinematics(current_position);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], current_position[E_AXIS], fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[axis], active_extruder);
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planner.buffer_line(delta[A_AXIS], delta[B_AXIS], delta[C_AXIS], current_position[E_AXIS], fr_mm_s ? fr_mm_s : homing_feedrate(axis), active_extruder);
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#else
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sync_plan_position();
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current_position[axis] = distance;
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], fr_mm_s ? fr_mm_s : homing_feedrate_mm_s[axis], active_extruder);
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], fr_mm_s ? fr_mm_s : homing_feedrate(axis), active_extruder);
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#endif
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stepper.synchronize();
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@ -3397,7 +3399,7 @@ inline void gcode_G4() {
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const float mlx = max_length(X_AXIS),
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mly = max_length(Y_AXIS),
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mlratio = mlx > mly ? mly / mlx : mlx / mly,
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fr_mm_s = min(homing_feedrate_mm_s[X_AXIS], homing_feedrate_mm_s[Y_AXIS]) * sqrt(sq(mlratio) + 1.0);
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fr_mm_s = min(homing_feedrate(X_AXIS), homing_feedrate(Y_AXIS)) * sqrt(sq(mlratio) + 1.0);
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do_blocking_move_to_xy(1.5 * mlx * x_axis_home_dir, 1.5 * mly * home_dir(Y_AXIS), fr_mm_s);
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endstops.hit_on_purpose(); // clear endstop hit flags
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@ -3540,7 +3542,7 @@ inline void gcode_G4() {
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// Move all carriages together linearly until an endstop is hit.
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current_position[X_AXIS] = current_position[Y_AXIS] = current_position[Z_AXIS] = (Z_MAX_LENGTH + 10);
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feedrate_mm_s = homing_feedrate_mm_s[X_AXIS];
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feedrate_mm_s = homing_feedrate(X_AXIS);
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line_to_current_position();
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stepper.synchronize();
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endstops.hit_on_purpose(); // clear endstop hit flags
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@ -3853,7 +3855,7 @@ void home_all_axes() { gcode_G28(true); }
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const float old_feedrate_mm_s = feedrate_mm_s;
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#if MANUAL_PROBE_HEIGHT > 0
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feedrate_mm_s = homing_feedrate_mm_s[Z_AXIS];
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feedrate_mm_s = homing_feedrate(Z_AXIS);
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current_position[Z_AXIS] = LOGICAL_Z_POSITION(Z_MIN_POS) + MANUAL_PROBE_HEIGHT;
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line_to_current_position();
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#endif
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@ -3864,7 +3866,7 @@ void home_all_axes() { gcode_G28(true); }
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line_to_current_position();
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#if MANUAL_PROBE_HEIGHT > 0
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feedrate_mm_s = homing_feedrate_mm_s[Z_AXIS];
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feedrate_mm_s = homing_feedrate(Z_AXIS);
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current_position[Z_AXIS] = LOGICAL_Z_POSITION(Z_MIN_POS); // just slightly over the bed
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line_to_current_position();
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#endif
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@ -3900,7 +3902,7 @@ void home_all_axes() { gcode_G28(true); }
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#if ENABLED(MESH_G28_REST_ORIGIN)
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current_position[Z_AXIS] = LOGICAL_Z_POSITION(Z_MIN_POS);
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set_destination_to_current();
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line_to_destination(homing_feedrate_mm_s[Z_AXIS]);
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line_to_destination(homing_feedrate(Z_AXIS));
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stepper.synchronize();
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#endif
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}
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@ -5502,7 +5504,7 @@ void home_all_axes() { gcode_G28(true); }
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// If any axis has enough movement, do the move
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LOOP_XYZ(i)
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if (fabs(destination[i] - current_position[i]) >= G38_MINIMUM_MOVE) {
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if (!parser.seen('F')) feedrate_mm_s = homing_feedrate_mm_s[i];
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if (!parser.seen('F')) feedrate_mm_s = homing_feedrate(i);
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// If G38.2 fails throw an error
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if (!G38_run_probe() && is_38_2) {
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SERIAL_ERROR_START;
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