E1+ Autotemp and Planner comments
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@ -587,13 +587,11 @@ namespace ExtUI {
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void setAxisMaxAcceleration_mm_s2(const float &value, const axis_t axis) {
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planner.set_max_acceleration(axis, value);
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planner.reset_acceleration_rates();
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}
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void setAxisMaxAcceleration_mm_s2(const float &value, const extruder_t extruder) {
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UNUSED_E(extruder);
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planner.set_max_acceleration(E_AXIS_N(extruder - E0), value);
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planner.reset_acceleration_rates();
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}
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#if HAS_FILAMENT_SENSOR
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@ -1248,32 +1248,6 @@ void Planner::recalculate() {
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recalculate_trapezoids();
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}
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#if ENABLED(AUTOTEMP)
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void Planner::getHighESpeed() {
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static float oldt = 0;
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if (!autotemp_enabled) return;
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if (thermalManager.degTargetHotend(0) + 2 < autotemp_min) return; // probably temperature set to zero.
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float high = 0.0;
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for (uint8_t b = block_buffer_tail; b != block_buffer_head; b = next_block_index(b)) {
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block_t* block = &block_buffer[b];
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if (block->steps.x || block->steps.y || block->steps.z) {
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const float se = (float)block->steps.e / block->step_event_count * SQRT(block->nominal_speed_sqr); // mm/sec;
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NOLESS(high, se);
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}
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}
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float t = autotemp_min + high * autotemp_factor;
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LIMIT(t, autotemp_min, autotemp_max);
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if (t < oldt) t = t * (1 - float(AUTOTEMP_OLDWEIGHT)) + oldt * float(AUTOTEMP_OLDWEIGHT);
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oldt = t;
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thermalManager.setTargetHotend(t, 0);
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}
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#endif // AUTOTEMP
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/**
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* Maintain fans, paste extruder pressure,
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*/
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@ -1398,6 +1372,72 @@ void Planner::check_axes_activity() {
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#endif
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}
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#if ENABLED(AUTOTEMP)
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#if ENABLED(AUTOTEMP_PROPORTIONAL)
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void Planner::_autotemp_update_from_hotend() {
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const int16_t target = thermalManager.degTargetHotend(active_extruder);
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autotemp_min = target + AUTOTEMP_MIN_P;
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autotemp_max = target + AUTOTEMP_MAX_P;
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}
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#endif
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/**
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* Called after changing tools to:
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* - Reset or re-apply the default proportional autotemp factor.
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* - Enable autotemp if the factor is non-zero.
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*/
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void Planner::autotemp_update() {
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_autotemp_update_from_hotend();
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autotemp_factor = TERN(AUTOTEMP_PROPORTIONAL, AUTOTEMP_FACTOR_P, 0);
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autotemp_enabled = autotemp_factor != 0;
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}
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/**
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* Called by the M104/M109 commands after setting Hotend Temperature
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*
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*/
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void Planner::autotemp_M104_M109() {
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_autotemp_update_from_hotend();
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if (parser.seenval('S')) autotemp_min = parser.value_celsius();
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if (parser.seenval('B')) autotemp_max = parser.value_celsius();
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// When AUTOTEMP_PROPORTIONAL is enabled, F0 disables autotemp.
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// Normally, leaving off F also disables autotemp.
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autotemp_factor = parser.seen('F') ? parser.value_float() : TERN(AUTOTEMP_PROPORTIONAL, AUTOTEMP_FACTOR_P, 0);
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autotemp_enabled = autotemp_factor != 0;
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}
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/**
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* Called every so often to adjust the hotend target temperature
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* based on the extrusion speed, which is calculated from the blocks
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* currently in the planner.
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*/
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void Planner::getHighESpeed() {
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static float oldt = 0;
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if (!autotemp_enabled) return;
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if (thermalManager.degTargetHotend(active_extruder) < autotemp_min - 2) return; // Below the min?
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float high = 0.0;
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for (uint8_t b = block_buffer_tail; b != block_buffer_head; b = next_block_index(b)) {
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block_t* block = &block_buffer[b];
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if (block->steps.x || block->steps.y || block->steps.z) {
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const float se = (float)block->steps.e / block->step_event_count * SQRT(block->nominal_speed_sqr); // mm/sec;
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NOLESS(high, se);
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}
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}
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float t = autotemp_min + high * autotemp_factor;
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LIMIT(t, autotemp_min, autotemp_max);
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if (t < oldt) t *= (1.0f - (AUTOTEMP_OLDWEIGHT)) + oldt * (AUTOTEMP_OLDWEIGHT);
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oldt = t;
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thermalManager.setTargetHotend(t, active_extruder);
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}
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#endif
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#if DISABLED(NO_VOLUMETRICS)
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/**
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@ -2959,13 +2999,17 @@ void Planner::reset_acceleration_rates() {
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TERN_(HAS_LINEAR_E_JERK, recalculate_max_e_jerk());
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}
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// Recalculate position, steps_to_mm if settings.axis_steps_per_mm changes!
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/**
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* Recalculate 'position' and 'steps_to_mm'.
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* Must be called whenever settings.axis_steps_per_mm changes!
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*/
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void Planner::refresh_positioning() {
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LOOP_XYZE_N(i) steps_to_mm[i] = 1.0f / settings.axis_steps_per_mm[i];
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set_position_mm(current_position);
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reset_acceleration_rates();
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}
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// Apply limits to a variable and give a warning if the value was out of range
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inline void limit_and_warn(float &val, const uint8_t axis, PGM_P const setting_name, const xyze_float_t &max_limit) {
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const uint8_t lim_axis = axis > E_AXIS ? E_AXIS : axis;
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const float before = val;
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@ -2978,7 +3022,14 @@ inline void limit_and_warn(float &val, const uint8_t axis, PGM_P const setting_n
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}
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}
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void Planner::set_max_acceleration(const uint8_t axis, float targetValue) {
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/**
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* For the specified 'axis' set the Maximum Acceleration to the given value (mm/s^2)
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* The value may be limited with warning feedback, if configured.
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* Calls reset_acceleration_rates to precalculate planner terms in steps.
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*
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* This hard limit is applied as a block is being added to the planner queue.
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*/
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void Planner::set_max_acceleration(const uint8_t axis, const float &inMaxAccelMMS2) {
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#if ENABLED(LIMITED_MAX_ACCEL_EDITING)
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#ifdef MAX_ACCEL_EDIT_VALUES
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constexpr xyze_float_t max_accel_edit = MAX_ACCEL_EDIT_VALUES;
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@ -2987,15 +3038,21 @@ void Planner::set_max_acceleration(const uint8_t axis, float targetValue) {
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constexpr xyze_float_t max_accel_edit = DEFAULT_MAX_ACCELERATION;
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const xyze_float_t max_acc_edit_scaled = max_accel_edit * 2;
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#endif
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limit_and_warn(targetValue, axis, PSTR("Acceleration"), max_acc_edit_scaled);
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limit_and_warn(inMaxAccelMMS2, axis, PSTR("Acceleration"), max_acc_edit_scaled);
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#endif
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settings.max_acceleration_mm_per_s2[axis] = targetValue;
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settings.max_acceleration_mm_per_s2[axis] = inMaxAccelMMS2;
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// Update steps per s2 to agree with the units per s2 (since they are used in the planner)
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reset_acceleration_rates();
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}
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void Planner::set_max_feedrate(const uint8_t axis, float targetValue) {
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/**
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* For the specified 'axis' set the Maximum Feedrate to the given value (mm/s)
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* The value may be limited with warning feedback, if configured.
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*
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* This hard limit is applied as a block is being added to the planner queue.
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*/
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void Planner::set_max_feedrate(const uint8_t axis, const float &inMaxFeedrateMMS) {
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#if ENABLED(LIMITED_MAX_FR_EDITING)
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#ifdef MAX_FEEDRATE_EDIT_VALUES
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constexpr xyze_float_t max_fr_edit = MAX_FEEDRATE_EDIT_VALUES;
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@ -3004,13 +3061,20 @@ void Planner::set_max_feedrate(const uint8_t axis, float targetValue) {
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constexpr xyze_float_t max_fr_edit = DEFAULT_MAX_FEEDRATE;
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const xyze_float_t max_fr_edit_scaled = max_fr_edit * 2;
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#endif
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limit_and_warn(targetValue, axis, PSTR("Feedrate"), max_fr_edit_scaled);
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limit_and_warn(inMaxFeedrateMMS, axis, PSTR("Feedrate"), max_fr_edit_scaled);
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#endif
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settings.max_feedrate_mm_s[axis] = targetValue;
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settings.max_feedrate_mm_s[axis] = inMaxFeedrateMMS;
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}
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void Planner::set_max_jerk(const AxisEnum axis, float targetValue) {
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#if HAS_CLASSIC_JERK
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#if HAS_CLASSIC_JERK
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/**
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* For the specified 'axis' set the Maximum Jerk (instant change) to the given value (mm/s)
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* The value may be limited with warning feedback, if configured.
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*
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* This hard limit is applied (to the block start speed) as the block is being added to the planner queue.
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*/
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void Planner::set_max_jerk(const AxisEnum axis, const float &targetValue) {
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#if ENABLED(LIMITED_JERK_EDITING)
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constexpr xyze_float_t max_jerk_edit =
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#ifdef MAX_JERK_EDIT_VALUES
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@ -3023,10 +3087,9 @@ void Planner::set_max_jerk(const AxisEnum axis, float targetValue) {
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limit_and_warn(targetValue, axis, PSTR("Jerk"), max_jerk_edit);
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#endif
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max_jerk[axis] = targetValue;
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#else
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UNUSED(axis); UNUSED(targetValue);
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#endif
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}
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}
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#endif
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#if HAS_WIRED_LCD
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@ -3069,33 +3132,3 @@ void Planner::set_max_jerk(const AxisEnum axis, float targetValue) {
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}
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#endif
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#if ENABLED(AUTOTEMP)
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void Planner::autotemp_update() {
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#if ENABLED(AUTOTEMP_PROPORTIONAL)
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const int16_t target = thermalManager.degTargetHotend(active_extruder);
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autotemp_min = target + AUTOTEMP_MIN_P;
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autotemp_max = target + AUTOTEMP_MAX_P;
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#endif
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autotemp_factor = TERN(AUTOTEMP_PROPORTIONAL, AUTOTEMP_FACTOR_P, 0);
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autotemp_enabled = autotemp_factor != 0;
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}
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void Planner::autotemp_M104_M109() {
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#if ENABLED(AUTOTEMP_PROPORTIONAL)
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const int16_t target = thermalManager.degTargetHotend(active_extruder);
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autotemp_min = target + AUTOTEMP_MIN_P;
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autotemp_max = target + AUTOTEMP_MAX_P;
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#endif
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if (parser.seenval('S')) autotemp_min = parser.value_celsius();
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if (parser.seenval('B')) autotemp_max = parser.value_celsius();
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// When AUTOTEMP_PROPORTIONAL is enabled, F0 disables autotemp.
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// Normally, leaving off F also disables autotemp.
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autotemp_factor = parser.seen('F') ? parser.value_float() : TERN(AUTOTEMP_PROPORTIONAL, AUTOTEMP_FACTOR_P, 0);
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autotemp_enabled = autotemp_factor != 0;
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}
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#endif
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@ -460,12 +460,27 @@ class Planner {
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* Static (class) Methods
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*/
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// Recalculate steps/s^2 accelerations based on mm/s^2 settings
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static void reset_acceleration_rates();
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static void refresh_positioning();
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static void set_max_acceleration(const uint8_t axis, float targetValue);
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static void set_max_feedrate(const uint8_t axis, float targetValue);
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static void set_max_jerk(const AxisEnum axis, float targetValue);
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/**
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* Recalculate 'position' and 'steps_to_mm'.
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* Must be called whenever settings.axis_steps_per_mm changes!
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*/
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static void refresh_positioning();
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// For an axis set the Maximum Acceleration in mm/s^2
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static void set_max_acceleration(const uint8_t axis, const float &inMaxAccelMMS2);
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// For an axis set the Maximum Feedrate in mm/s
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static void set_max_feedrate(const uint8_t axis, const float &inMaxFeedrateMMS);
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// For an axis set the Maximum Jerk (instant change) in mm/s
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#if HAS_CLASSIC_JERK
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static void set_max_jerk(const AxisEnum axis, const float &inMaxJerkMMS);
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#else
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static inline void set_max_jerk(const AxisEnum, const float&) {}
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#endif
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#if EXTRUDERS
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FORCE_INLINE static void refresh_e_factor(const uint8_t e) {
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@ -883,9 +898,9 @@ class Planner {
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#if ENABLED(AUTOTEMP)
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static float autotemp_min, autotemp_max, autotemp_factor;
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static bool autotemp_enabled;
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static void getHighESpeed();
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static void autotemp_M104_M109();
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static void autotemp_update();
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static void autotemp_M104_M109();
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static void getHighESpeed();
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#endif
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#if HAS_LINEAR_E_JERK
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@ -898,6 +913,14 @@ class Planner {
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private:
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#if ENABLED(AUTOTEMP)
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#if ENABLED(AUTOTEMP_PROPORTIONAL)
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static void _autotemp_update_from_hotend();
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#else
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static inline void _autotemp_update_from_hotend() {}
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#endif
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#endif
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/**
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* Get the index of the next / previous block in the ring buffer
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*/
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