Cosmetic patches
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@ -616,12 +616,12 @@ static uint8_t target_extruder;
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float cartes[XYZ] = { 0 };
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#if ENABLED(FILAMENT_WIDTH_SENSOR)
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bool filament_sensor = false; //M405 turns on filament_sensor control, M406 turns it off
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float filament_width_nominal = DEFAULT_NOMINAL_FILAMENT_DIA, // Nominal filament width. Change with M404
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bool filament_sensor = false; // M405 turns on filament sensor control. M406 turns it off.
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float filament_width_nominal = DEFAULT_NOMINAL_FILAMENT_DIA, // Nominal filament width. Change with M404.
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filament_width_meas = DEFAULT_MEASURED_FILAMENT_DIA; // Measured filament diameter
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int8_t measurement_delay[MAX_MEASUREMENT_DELAY + 1]; // Ring buffer to delayed measurement. Store extruder factor after subtracting 100
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int filwidth_delay_index[2] = { 0, -1 }; // Indexes into ring buffer
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int meas_delay_cm = MEASUREMENT_DELAY_CM; //distance delay setting
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int meas_delay_cm = MEASUREMENT_DELAY_CM; // Distance delay setting
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#endif
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#if ENABLED(FILAMENT_RUNOUT_SENSOR)
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@ -8220,10 +8220,10 @@ inline void gcode_M400() { stepper.synchronize(); }
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NOMORE(meas_delay_cm, MAX_MEASUREMENT_DELAY);
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if (filwidth_delay_index[1] == -1) { // Initialize the ring buffer if not done since startup
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int temp_ratio = thermalManager.widthFil_to_size_ratio();
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const int temp_ratio = thermalManager.widthFil_to_size_ratio() - 100; // -100 to scale within a signed byte
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for (uint8_t i = 0; i < COUNT(measurement_delay); ++i)
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measurement_delay[i] = temp_ratio - 100; // Subtract 100 to scale within a signed byte
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measurement_delay[i] = temp_ratio;
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filwidth_delay_index[0] = filwidth_delay_index[1] = 0;
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}
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@ -10279,7 +10279,7 @@ void process_next_command() {
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case 407: // M407: Display measured filament diameter
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gcode_M407();
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break;
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#endif // ENABLED(FILAMENT_WIDTH_SENSOR)
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#endif // FILAMENT_WIDTH_SENSOR
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#if PLANNER_LEVELING
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case 420: // M420: Enable/Disable Bed Leveling
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@ -188,7 +188,8 @@ bool PrintCounter::start() {
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}
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return true;
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}
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else return false;
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return false;
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}
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// @Override
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@ -32,12 +32,12 @@
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// Print debug messages with M111 S2
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//#define DEBUG_PRINTCOUNTER
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struct printStatistics { // 13 bytes
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struct printStatistics { // 16 bytes (20 with real doubles)
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//const uint8_t magic; // Magic header, it will always be 0x16
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uint16_t totalPrints; // Number of prints
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uint16_t finishedPrints; // Number of complete prints
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uint32_t printTime; // Accumulated printing time
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uint32_t longestPrint; // Longest successfull print job
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uint32_t longestPrint; // Longest successful print job
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double filamentUsed; // Accumulated filament consumed in mm
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};
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@ -774,7 +774,7 @@ void Temperature::manage_heater() {
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NOLESS(vm, 0.01);
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volumetric_multiplier[FILAMENT_SENSOR_EXTRUDER_NUM] = vm;
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}
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#endif //FILAMENT_WIDTH_SENSOR
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#endif // FILAMENT_WIDTH_SENSOR
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#if DISABLED(PIDTEMPBED)
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if (PENDING(ms, next_bed_check_ms)) return;
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@ -961,8 +961,8 @@ void Temperature::updateTemperaturesFromRawValues() {
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*/
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void Temperature::init() {
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#if MB(RUMBA) && ((TEMP_SENSOR_0==-1)||(TEMP_SENSOR_1==-1)||(TEMP_SENSOR_2==-1)||(TEMP_SENSOR_BED==-1))
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//disable RUMBA JTAG in case the thermocouple extension is plugged on top of JTAG connector
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#if MB(RUMBA) && (TEMP_SENSOR_0 == -1 || TEMP_SENSOR_1 == -1 || TEMP_SENSOR_2 == -1 || TEMP_SENSOR_BED == -1)
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// Disable RUMBA JTAG in case the thermocouple extension is plugged on top of JTAG connector
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MCUCR = _BV(JTD);
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MCUCR = _BV(JTD);
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#endif
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