Changed default MINIMUM_PLANNER_SPEED -> 0.05
Fixed small bug in arcs M105 prints now actual_temp/target_temp
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@ -108,7 +108,7 @@
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// Minimum planner junction speed. Sets the default minimum speed the planner plans for at the end
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// Minimum planner junction speed. Sets the default minimum speed the planner plans for at the end
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// of the buffer and all stops. This should not be much greater than zero and should only be changed
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// of the buffer and all stops. This should not be much greater than zero and should only be changed
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// if unwanted behavior is observed on a user's machine when running at very slow speeds.
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// if unwanted behavior is observed on a user's machine when running at very slow speeds.
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#define MINIMUM_PLANNER_SPEED 2.0 // (mm/sec)
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#define MINIMUM_PLANNER_SPEED 0.05// (mm/sec)
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//===========================================================================
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//===========================================================================
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//=============================Additional Features===========================
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//=============================Additional Features===========================
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@ -850,9 +850,13 @@ void process_commands()
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#if (TEMP_0_PIN > -1)
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#if (TEMP_0_PIN > -1)
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SERIAL_PROTOCOLPGM("ok T:");
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SERIAL_PROTOCOLPGM("ok T:");
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SERIAL_PROTOCOL(degHotend(tmp_extruder));
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SERIAL_PROTOCOL(degHotend(tmp_extruder));
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SERIAL_PROTOCOLPGM("/");
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SERIAL_PROTOCOL(degTargetHotend(tmp_extruder));
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#if TEMP_BED_PIN > -1
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#if TEMP_BED_PIN > -1
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SERIAL_PROTOCOLPGM(" B:");
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SERIAL_PROTOCOLPGM(" B:");
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SERIAL_PROTOCOL(degBed());
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SERIAL_PROTOCOL(degBed());
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SERIAL_PROTOCOLPGM("/");
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SERIAL_PROTOCOL(degTargetBed());
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#endif //TEMP_BED_PIN
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#endif //TEMP_BED_PIN
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#else
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#else
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SERIAL_ERROR_START;
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SERIAL_ERROR_START;
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@ -47,6 +47,8 @@ void mc_arc(float *position, float *target, float *offset, uint8_t axis_0, uint8
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float millimeters_of_travel = hypot(angular_travel*radius, fabs(linear_travel));
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float millimeters_of_travel = hypot(angular_travel*radius, fabs(linear_travel));
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if (millimeters_of_travel < 0.001) { return; }
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if (millimeters_of_travel < 0.001) { return; }
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uint16_t segments = floor(millimeters_of_travel/MM_PER_ARC_SEGMENT);
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uint16_t segments = floor(millimeters_of_travel/MM_PER_ARC_SEGMENT);
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if(segments = 0) segments = 1;
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/*
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/*
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// Multiply inverse feed_rate to compensate for the fact that this movement is approximated
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// Multiply inverse feed_rate to compensate for the fact that this movement is approximated
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// by a number of discrete segments. The inverse feed_rate should be correct for the sum of
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// by a number of discrete segments. The inverse feed_rate should be correct for the sum of
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@ -438,7 +438,9 @@ void check_axes_activity() {
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}
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}
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else {
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else {
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#if FAN_PIN > -1
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#if FAN_PIN > -1
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if (FanSpeed != 0) analogWrite(FAN_PIN,FanSpeed); // If buffer is empty use current fan speed
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if (FanSpeed != 0){
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analogWrite(FAN_PIN,FanSpeed); // If buffer is empty use current fan speed
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}
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#endif
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#endif
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}
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}
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if((DISABLE_X) && (x_active == 0)) disable_x();
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if((DISABLE_X) && (x_active == 0)) disable_x();
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@ -446,11 +448,14 @@ void check_axes_activity() {
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if((DISABLE_Z) && (z_active == 0)) disable_z();
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if((DISABLE_Z) && (z_active == 0)) disable_z();
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if((DISABLE_E) && (e_active == 0)) { disable_e0();disable_e1();disable_e2(); }
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if((DISABLE_E) && (e_active == 0)) { disable_e0();disable_e1();disable_e2(); }
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#if FAN_PIN > -1
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#if FAN_PIN > -1
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if((FanSpeed == 0) && (fan_speed ==0)) analogWrite(FAN_PIN, 0);
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if((FanSpeed == 0) && (fan_speed ==0)) {
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#endif
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analogWrite(FAN_PIN, 0);
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}
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if (FanSpeed != 0 && tail_fan_speed !=0) {
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if (FanSpeed != 0 && tail_fan_speed !=0) {
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analogWrite(FAN_PIN,tail_fan_speed);
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analogWrite(FAN_PIN,tail_fan_speed);
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}
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}
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#endif
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}
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}
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@ -714,9 +719,9 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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if(abs(current_speed[E_AXIS]) > max_e_jerk/2)
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if(abs(current_speed[E_AXIS]) > max_e_jerk/2)
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vmax_junction = min(vmax_junction, max_e_jerk/2);
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vmax_junction = min(vmax_junction, max_e_jerk/2);
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if ((moves_queued > 1) && (previous_nominal_speed > 0.0)) {
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if ((moves_queued > 1) && (previous_nominal_speed > 0.0001)) {
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float jerk = sqrt(pow((current_speed[X_AXIS]-previous_speed[X_AXIS]), 2)+pow((current_speed[Y_AXIS]-previous_speed[Y_AXIS]), 2));
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float jerk = sqrt(pow((current_speed[X_AXIS]-previous_speed[X_AXIS]), 2)+pow((current_speed[Y_AXIS]-previous_speed[Y_AXIS]), 2));
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if((previous_speed[X_AXIS] != 0.0) || (previous_speed[Y_AXIS] != 0.0)) {
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if((abs(previous_speed[X_AXIS]) > 0.0001) || (abs(previous_speed[Y_AXIS]) > 0.0001)) {
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vmax_junction = block->nominal_speed;
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vmax_junction = block->nominal_speed;
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}
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}
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if (jerk > max_xy_jerk) {
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if (jerk > max_xy_jerk) {
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@ -751,6 +756,7 @@ void plan_buffer_line(const float &x, const float &y, const float &z, const floa
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memcpy(previous_speed, current_speed, sizeof(previous_speed)); // previous_speed[] = current_speed[]
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memcpy(previous_speed, current_speed, sizeof(previous_speed)); // previous_speed[] = current_speed[]
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previous_nominal_speed = block->nominal_speed;
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previous_nominal_speed = block->nominal_speed;
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#ifdef ADVANCE
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#ifdef ADVANCE
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// Calculate advance rate
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// Calculate advance rate
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if((block->steps_e == 0) || (block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0)) {
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if((block->steps_e == 0) || (block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0)) {
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