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@ -44,6 +44,11 @@
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#include "language.h"
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#include "language.h"
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#include "pins_arduino.h"
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#include "pins_arduino.h"
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#ifdef BLINKM
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#include "BlinkM.h"
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#include "Wire.h"
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#endif
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#if NUM_SERVOS > 0
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#if NUM_SERVOS > 0
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#include "Servo.h"
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#include "Servo.h"
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#endif
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#endif
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@ -118,6 +123,7 @@
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// M128 - EtoP Open (BariCUDA EtoP = electricity to air pressure transducer by jmil)
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// M128 - EtoP Open (BariCUDA EtoP = electricity to air pressure transducer by jmil)
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// M129 - EtoP Closed (BariCUDA EtoP = electricity to air pressure transducer by jmil)
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// M129 - EtoP Closed (BariCUDA EtoP = electricity to air pressure transducer by jmil)
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// M140 - Set bed target temp
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// M140 - Set bed target temp
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// M150 - Set BlinkM Colour Output R: Red<0-255> U(!): Green<0-255> B: Blue<0-255> over i2c, G for green does not work.
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// M190 - Sxxx Wait for bed current temp to reach target temp. Waits only when heating
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// M190 - Sxxx Wait for bed current temp to reach target temp. Waits only when heating
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// Rxxx Wait for bed current temp to reach target temp. Waits when heating and cooling
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// Rxxx Wait for bed current temp to reach target temp. Waits when heating and cooling
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// M200 - Set filament diameter
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// M200 - Set filament diameter
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@ -935,10 +941,21 @@ static void homeaxis(int axis) {
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axis_home_dir = x_home_dir(active_extruder);
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axis_home_dir = x_home_dir(active_extruder);
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#endif
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#endif
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current_position[axis] = 0;
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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// Engage Servo endstop if enabled
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// Engage Servo endstop if enabled
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#ifdef SERVO_ENDSTOPS
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#ifdef SERVO_ENDSTOPS
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#if defined (ENABLE_AUTO_BED_LEVELING) && (PROBE_SERVO_DEACTIVATION_DELAY > 0)
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#if defined (ENABLE_AUTO_BED_LEVELING) && (PROBE_SERVO_DEACTIVATION_DELAY > 0)
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if (axis==Z_AXIS) engage_z_probe();
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if (axis==Z_AXIS) {
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#if defined (Z_RAISE_BEFORE_HOMING) && (Z_RAISE_BEFORE_HOMING > 0)
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destination[axis] = Z_RAISE_BEFORE_HOMING * axis_home_dir * (-1); // Set destination away from bed
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feedrate = max_feedrate[axis];
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate, active_extruder);
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st_synchronize();
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#endif
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engage_z_probe();
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}
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else
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else
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#endif
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#endif
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if (servo_endstops[axis] > -1) {
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if (servo_endstops[axis] > -1) {
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@ -946,8 +963,6 @@ static void homeaxis(int axis) {
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}
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}
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#endif
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#endif
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current_position[axis] = 0;
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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destination[axis] = 1.5 * max_length(axis) * axis_home_dir;
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destination[axis] = 1.5 * max_length(axis) * axis_home_dir;
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feedrate = homing_feedrate[axis];
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feedrate = homing_feedrate[axis];
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate/60, active_extruder);
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plan_buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], feedrate/60, active_extruder);
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@ -1213,6 +1228,9 @@ void process_commands()
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current_position[Z_AXIS]=code_value()+add_homeing[2];
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current_position[Z_AXIS]=code_value()+add_homeing[2];
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}
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}
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}
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}
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#ifdef ENABLE_AUTO_BED_LEVELING
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current_position[Z_AXIS] -= Z_PROBE_OFFSET_FROM_EXTRUDER; //Add Z_Probe offset (the distance is negative)
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#endif
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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#endif // else DELTA
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#endif // else DELTA
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@ -1607,6 +1625,23 @@ void process_commands()
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SERIAL_PROTOCOLPGM(" B@:");
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SERIAL_PROTOCOLPGM(" B@:");
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SERIAL_PROTOCOL(getHeaterPower(-1));
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SERIAL_PROTOCOL(getHeaterPower(-1));
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#ifdef SHOW_TEMP_ADC_VALUES
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#if defined(TEMP_BED_PIN) && TEMP_BED_PIN > -1
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SERIAL_PROTOCOLPGM(" ADC B:");
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SERIAL_PROTOCOL_F(degBed(),1);
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SERIAL_PROTOCOLPGM("C->");
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SERIAL_PROTOCOL_F(rawBedTemp()/OVERSAMPLENR,0);
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#endif
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for (int8_t cur_extruder = 0; cur_extruder < EXTRUDERS; ++cur_extruder) {
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SERIAL_PROTOCOLPGM(" T");
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SERIAL_PROTOCOL(cur_extruder);
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SERIAL_PROTOCOLPGM(":");
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SERIAL_PROTOCOL_F(degHotend(cur_extruder),1);
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SERIAL_PROTOCOLPGM("C->");
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SERIAL_PROTOCOL_F(rawHotendTemp(cur_extruder)/OVERSAMPLENR,0);
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}
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#endif
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SERIAL_PROTOCOLLN("");
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SERIAL_PROTOCOLLN("");
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return;
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return;
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break;
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break;
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@ -1943,6 +1978,21 @@ void process_commands()
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#endif
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#endif
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break;
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break;
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//TODO: update for all axis, use for loop
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//TODO: update for all axis, use for loop
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#ifdef BLINKM
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case 150: // M150
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{
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byte red;
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byte grn;
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byte blu;
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if(code_seen('R')) red = code_value();
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if(code_seen('U')) grn = code_value();
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if(code_seen('B')) blu = code_value();
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SendColors(red,grn,blu);
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}
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break;
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#endif //BLINKM
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case 201: // M201
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case 201: // M201
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for(int8_t i=0; i < NUM_AXIS; i++)
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for(int8_t i=0; i < NUM_AXIS; i++)
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{
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{
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@ -2925,6 +2975,39 @@ void controllerFan()
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}
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}
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#endif
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#endif
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#ifdef TEMP_STAT_LEDS
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static bool blue_led = false;
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static bool red_led = false;
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static uint32_t stat_update = 0;
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void handle_status_leds(void) {
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float max_temp = 0.0;
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if(millis() > stat_update) {
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stat_update += 500; // Update every 0.5s
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for (int8_t cur_extruder = 0; cur_extruder < EXTRUDERS; ++cur_extruder) {
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max_temp = max(max_temp, degHotend(cur_extruder));
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max_temp = max(max_temp, degTargetHotend(cur_extruder));
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}
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#if defined(TEMP_BED_PIN) && TEMP_BED_PIN > -1
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max_temp = max(max_temp, degTargetBed());
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max_temp = max(max_temp, degBed());
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#endif
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if((max_temp > 55.0) && (red_led == false)) {
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digitalWrite(STAT_LED_RED, 1);
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digitalWrite(STAT_LED_BLUE, 0);
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red_led = true;
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blue_led = false;
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}
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if((max_temp < 54.0) && (blue_led == false)) {
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digitalWrite(STAT_LED_RED, 0);
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digitalWrite(STAT_LED_BLUE, 1);
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red_led = false;
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blue_led = true;
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}
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}
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}
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#endif
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void manage_inactivity()
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void manage_inactivity()
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{
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{
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if( (millis() - previous_millis_cmd) > max_inactive_time )
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if( (millis() - previous_millis_cmd) > max_inactive_time )
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@ -2979,6 +3062,9 @@ void manage_inactivity()
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prepare_move();
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prepare_move();
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}
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}
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#endif
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#endif
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#ifdef TEMP_STAT_LEDS
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handle_status_leds();
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#endif
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check_axes_activity();
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check_axes_activity();
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}
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}
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