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@ -1794,12 +1794,6 @@ inline void gcode_G4() {
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* Y Home to the Y endstop
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* Y Home to the Y endstop
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* Z Home to the Z endstop
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* Z Home to the Z endstop
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*
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*
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* If numbers are included with XYZ set the position as with G92
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* Currently adds the home_offset, which may be wrong and removed soon.
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*
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* Xn Home X, setting X to n + home_offset[X_AXIS]
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* Yn Home Y, setting Y to n + home_offset[Y_AXIS]
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* Zn Home Z, setting Z to n + home_offset[Z_AXIS]
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*/
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*/
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inline void gcode_G28() {
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inline void gcode_G28() {
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@ -1859,7 +1853,7 @@ inline void gcode_G28() {
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homeY = code_seen(axis_codes[Y_AXIS]),
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homeY = code_seen(axis_codes[Y_AXIS]),
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homeZ = code_seen(axis_codes[Z_AXIS]);
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homeZ = code_seen(axis_codes[Z_AXIS]);
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home_all_axis = !(homeX || homeY || homeZ) || (homeX && homeY && homeZ);
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home_all_axis = (!homeX && !homeY && !homeZ) || (homeX && homeY && homeZ);
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if (home_all_axis || homeZ) {
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if (home_all_axis || homeZ) {
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@ -1946,14 +1940,6 @@ inline void gcode_G28() {
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// Home Y
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// Home Y
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if (home_all_axis || homeY) HOMEAXIS(Y);
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if (home_all_axis || homeY) HOMEAXIS(Y);
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// Set the X position, if included
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if (code_seen(axis_codes[X_AXIS]) && code_has_value())
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current_position[X_AXIS] = code_value();
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// Set the Y position, if included
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if (code_seen(axis_codes[Y_AXIS]) && code_has_value())
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current_position[Y_AXIS] = code_value();
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// Home Z last if homing towards the bed
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// Home Z last if homing towards the bed
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#if Z_HOME_DIR < 0
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#if Z_HOME_DIR < 0
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@ -2037,10 +2023,6 @@ inline void gcode_G28() {
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#endif // Z_HOME_DIR < 0
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#endif // Z_HOME_DIR < 0
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// Set the Z position, if included
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if (code_seen(axis_codes[Z_AXIS]) && code_has_value())
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current_position[Z_AXIS] = code_value();
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sync_plan_position();
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sync_plan_position();
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#endif // else DELTA
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#endif // else DELTA
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@ -3152,7 +3134,7 @@ inline void gcode_M104() {
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inline void gcode_M105() {
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inline void gcode_M105() {
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if (setTargetedHotend(105)) return;
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if (setTargetedHotend(105)) return;
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#if HAS_TEMP_0 || HAS_TEMP_BED
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#if HAS_TEMP_0 || HAS_TEMP_BED || defined(HEATER_0_USES_MAX6675)
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SERIAL_PROTOCOLPGM("ok");
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SERIAL_PROTOCOLPGM("ok");
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#if HAS_TEMP_0
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#if HAS_TEMP_0
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SERIAL_PROTOCOLPGM(" T:");
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SERIAL_PROTOCOLPGM(" T:");
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@ -285,8 +285,8 @@ void checkHitEndstops() {
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}
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}
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#ifdef Z_PROBE_ENDSTOP
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#ifdef Z_PROBE_ENDSTOP
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if (endstop_z_probe_hit) {
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if (endstop_z_probe_hit) {
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SERIAL_ECHOPAIR(" Z_PROBE:", (float)endstops_trigsteps[Z_AXIS] / axis_steps_per_unit[Z_AXIS]);
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SERIAL_ECHOPAIR(" Z_PROBE:", (float)endstops_trigsteps[Z_AXIS] / axis_steps_per_unit[Z_AXIS]);
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LCD_MESSAGEPGM(MSG_ENDSTOPS_HIT "ZP");
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LCD_MESSAGEPGM(MSG_ENDSTOPS_HIT "ZP");
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}
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}
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#endif
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#endif
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SERIAL_EOL;
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SERIAL_EOL;
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@ -463,14 +463,22 @@ ISR(TIMER1_COMPA_vect) {
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count_direction[Y_AXIS] = 1;
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count_direction[Y_AXIS] = 1;
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}
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}
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#define _ENDSTOP(axis, minmax) axis ##_## minmax ##_endstop
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#define _ENDSTOP_PIN(AXIS, MINMAX) AXIS ##_## MINMAX ##_PIN
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#define _ENDSTOP_INVERTING(AXIS, MINMAX) AXIS ##_## MINMAX ##_ENDSTOP_INVERTING
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#define _OLD_ENDSTOP(axis, minmax) old_## axis ##_## minmax ##_endstop
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#define _AXIS(AXIS) AXIS ##_AXIS
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#define _ENDSTOP_HIT(axis) endstop_## axis ##_hit
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#define UPDATE_ENDSTOP(axis,AXIS,minmax,MINMAX) \
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#define UPDATE_ENDSTOP(axis,AXIS,minmax,MINMAX) \
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bool axis ##_## minmax ##_endstop = (READ(AXIS ##_## MINMAX ##_PIN) != AXIS ##_## MINMAX ##_ENDSTOP_INVERTING); \
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bool _ENDSTOP(axis, minmax) = (READ(_ENDSTOP_PIN(AXIS, MINMAX)) != _ENDSTOP_INVERTING(AXIS, MINMAX)); \
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if (axis ##_## minmax ##_endstop && old_## axis ##_## minmax ##_endstop && (current_block->steps[AXIS ##_AXIS] > 0)) { \
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if (_ENDSTOP(axis, minmax) && _OLD_ENDSTOP(axis, minmax) && (current_block->steps[_AXIS(AXIS)] > 0)) { \
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endstops_trigsteps[AXIS ##_AXIS] = count_position[AXIS ##_AXIS]; \
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endstops_trigsteps[_AXIS(AXIS)] = count_position[_AXIS(AXIS)]; \
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endstop_## axis ##_hit = true; \
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_ENDSTOP_HIT(axis) = true; \
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step_events_completed = current_block->step_event_count; \
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step_events_completed = current_block->step_event_count; \
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} \
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} \
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old_## axis ##_## minmax ##_endstop = axis ##_## minmax ##_endstop;
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_OLD_ENDSTOP(axis, minmax) = _ENDSTOP(axis, minmax);
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// Check X and Y endstops
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// Check X and Y endstops
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if (check_endstops) {
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if (check_endstops) {
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@ -572,10 +580,10 @@ ISR(TIMER1_COMPA_vect) {
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z_probe_endstop=(READ(Z_PROBE_PIN) != Z_PROBE_ENDSTOP_INVERTING);
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z_probe_endstop=(READ(Z_PROBE_PIN) != Z_PROBE_ENDSTOP_INVERTING);
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if(z_probe_endstop && old_z_probe_endstop)
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if(z_probe_endstop && old_z_probe_endstop)
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{
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{
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstop_z_probe_hit=true;
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endstop_z_probe_hit=true;
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// if (z_probe_endstop && old_z_probe_endstop) SERIAL_ECHOLN("z_probe_endstop = true");
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// if (z_probe_endstop && old_z_probe_endstop) SERIAL_ECHOLN("z_probe_endstop = true");
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}
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}
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old_z_probe_endstop = z_probe_endstop;
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old_z_probe_endstop = z_probe_endstop;
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#endif
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#endif
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@ -631,9 +639,9 @@ ISR(TIMER1_COMPA_vect) {
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z_probe_endstop=(READ(Z_PROBE_PIN) != Z_PROBE_ENDSTOP_INVERTING);
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z_probe_endstop=(READ(Z_PROBE_PIN) != Z_PROBE_ENDSTOP_INVERTING);
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if(z_probe_endstop && old_z_probe_endstop)
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if(z_probe_endstop && old_z_probe_endstop)
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{
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{
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstops_trigsteps[Z_AXIS] = count_position[Z_AXIS];
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endstop_z_probe_hit=true;
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endstop_z_probe_hit=true;
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// if (z_probe_endstop && old_z_probe_endstop) SERIAL_ECHOLN("z_probe_endstop = true");
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// if (z_probe_endstop && old_z_probe_endstop) SERIAL_ECHOLN("z_probe_endstop = true");
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}
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}
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old_z_probe_endstop = z_probe_endstop;
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old_z_probe_endstop = z_probe_endstop;
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#endif
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#endif
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@ -667,6 +675,11 @@ ISR(TIMER1_COMPA_vect) {
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}
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}
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#endif //ADVANCE
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#endif //ADVANCE
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#define _COUNTER(axis) counter_## axis
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#define _WRITE_STEP(AXIS, HIGHLOW) AXIS ##_STEP_WRITE(HIGHLOW)
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#define _APPLY_STEP(AXIS) AXIS ##_APPLY_STEP
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#define _INVERT_STEP_PIN(AXIS) INVERT_## AXIS ##_STEP_PIN
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#ifdef CONFIG_STEPPERS_TOSHIBA
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#ifdef CONFIG_STEPPERS_TOSHIBA
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/**
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/**
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* The Toshiba stepper controller require much longer pulses.
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* The Toshiba stepper controller require much longer pulses.
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@ -675,8 +688,8 @@ ISR(TIMER1_COMPA_vect) {
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* lag to allow it work with without needing NOPs
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* lag to allow it work with without needing NOPs
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*/
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*/
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#define STEP_ADD(axis, AXIS) \
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#define STEP_ADD(axis, AXIS) \
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counter_## axis += current_block->steps[AXIS ##_AXIS]; \
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_COUNTER(axis) += current_block->steps[_AXIS(AXIS)]; \
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if (counter_## axis > 0) { AXIS ##_STEP_WRITE(HIGH); }
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if (_COUNTER(axis) > 0) { _WRITE_STEP(AXIS, HIGH); }
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STEP_ADD(x,X);
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STEP_ADD(x,X);
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STEP_ADD(y,Y);
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STEP_ADD(y,Y);
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STEP_ADD(z,Z);
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STEP_ADD(z,Z);
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@ -685,10 +698,10 @@ ISR(TIMER1_COMPA_vect) {
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#endif
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#endif
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#define STEP_IF_COUNTER(axis, AXIS) \
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#define STEP_IF_COUNTER(axis, AXIS) \
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if (counter_## axis > 0) { \
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if (_COUNTER(axis) > 0) { \
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counter_## axis -= current_block->step_event_count; \
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_COUNTER(axis) -= current_block->step_event_count; \
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count_position[AXIS ##_AXIS] += count_direction[AXIS ##_AXIS]; \
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count_position[_AXIS(AXIS)] += count_direction[_AXIS(AXIS)]; \
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AXIS ##_STEP_WRITE(LOW); \
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_WRITE_STEP(AXIS, LOW); \
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}
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}
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STEP_IF_COUNTER(x, X);
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STEP_IF_COUNTER(x, X);
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@ -701,12 +714,12 @@ ISR(TIMER1_COMPA_vect) {
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#else // !CONFIG_STEPPERS_TOSHIBA
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#else // !CONFIG_STEPPERS_TOSHIBA
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#define APPLY_MOVEMENT(axis, AXIS) \
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#define APPLY_MOVEMENT(axis, AXIS) \
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counter_## axis += current_block->steps[AXIS ##_AXIS]; \
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_COUNTER(axis) += current_block->steps[_AXIS(AXIS)]; \
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if (counter_## axis > 0) { \
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if (_COUNTER(axis) > 0) { \
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AXIS ##_APPLY_STEP(!INVERT_## AXIS ##_STEP_PIN,0); \
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_APPLY_STEP(AXIS)(!_INVERT_STEP_PIN(AXIS),0); \
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counter_## axis -= current_block->step_event_count; \
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_COUNTER(axis) -= current_block->step_event_count; \
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count_position[AXIS ##_AXIS] += count_direction[AXIS ##_AXIS]; \
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count_position[_AXIS(AXIS)] += count_direction[_AXIS(AXIS)]; \
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AXIS ##_APPLY_STEP(INVERT_## AXIS ##_STEP_PIN,0); \
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_APPLY_STEP(AXIS)(_INVERT_STEP_PIN(AXIS),0); \
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}
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}
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APPLY_MOVEMENT(x, X);
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APPLY_MOVEMENT(x, X);
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@ -921,10 +934,10 @@ void st_init() {
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Y_ENABLE_INIT;
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Y_ENABLE_INIT;
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if (!Y_ENABLE_ON) Y_ENABLE_WRITE(HIGH);
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if (!Y_ENABLE_ON) Y_ENABLE_WRITE(HIGH);
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#if defined(Y_DUAL_STEPPER_DRIVERS) && HAS_Y2_ENABLE
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#if defined(Y_DUAL_STEPPER_DRIVERS) && HAS_Y2_ENABLE
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Y2_ENABLE_INIT;
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Y2_ENABLE_INIT;
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if (!Y_ENABLE_ON) Y2_ENABLE_WRITE(HIGH);
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if (!Y_ENABLE_ON) Y2_ENABLE_WRITE(HIGH);
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#endif
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#endif
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#endif
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#endif
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#if HAS_Z_ENABLE
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#if HAS_Z_ENABLE
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Z_ENABLE_INIT;
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Z_ENABLE_INIT;
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@ -1010,10 +1023,13 @@ void st_init() {
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#endif
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#endif
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#endif
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#endif
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#define _STEP_INIT(AXIS) AXIS ##_STEP_INIT
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#define _DISABLE(axis) disable_## axis()
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#define AXIS_INIT(axis, AXIS, PIN) \
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#define AXIS_INIT(axis, AXIS, PIN) \
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AXIS ##_STEP_INIT; \
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_STEP_INIT(AXIS); \
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AXIS ##_STEP_WRITE(INVERT_## PIN ##_STEP_PIN); \
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_WRITE_STEP(AXIS, _INVERT_STEP_PIN(PIN)); \
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disable_## axis()
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_DISABLE(axis)
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#define E_AXIS_INIT(NUM) AXIS_INIT(e## NUM, E## NUM, E)
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#define E_AXIS_INIT(NUM) AXIS_INIT(e## NUM, E## NUM, E)
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@ -1146,14 +1162,19 @@ void quickStop() {
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// No other ISR should ever interrupt this!
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// No other ISR should ever interrupt this!
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void babystep(const uint8_t axis, const bool direction) {
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void babystep(const uint8_t axis, const bool direction) {
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#define _ENABLE(axis) enable_## axis()
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#define _READ_DIR(AXIS) AXIS ##_DIR_READ
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#define _INVERT_DIR(AXIS) INVERT_## AXIS ##_DIR
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#define _APPLY_DIR(AXIS, INVERT) AXIS ##_APPLY_DIR(INVERT, true)
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#define BABYSTEP_AXIS(axis, AXIS, INVERT) { \
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#define BABYSTEP_AXIS(axis, AXIS, INVERT) { \
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enable_## axis(); \
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_ENABLE(axis); \
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uint8_t old_pin = AXIS ##_DIR_READ; \
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uint8_t old_pin = _READ_DIR(AXIS); \
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AXIS ##_APPLY_DIR(INVERT_## AXIS ##_DIR^direction^INVERT, true); \
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_APPLY_DIR(AXIS, _INVERT_DIR(AXIS)^direction^INVERT); \
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AXIS ##_APPLY_STEP(!INVERT_## AXIS ##_STEP_PIN, true); \
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_APPLY_STEP(AXIS)(!_INVERT_STEP_PIN(AXIS), true); \
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delayMicroseconds(2); \
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delayMicroseconds(2); \
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AXIS ##_APPLY_STEP(INVERT_## AXIS ##_STEP_PIN, true); \
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_APPLY_STEP(AXIS)(_INVERT_STEP_PIN(AXIS), true); \
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AXIS ##_APPLY_DIR(old_pin, true); \
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_APPLY_DIR(AXIS, old_pin); \
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}
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}
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switch(axis) {
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switch(axis) {
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