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@ -977,9 +977,9 @@ void get_command() { |
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) { |
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) { |
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if (card_eof) { |
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if (card_eof) { |
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SERIAL_PROTOCOLLNPGM(MSG_FILE_PRINTED); |
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SERIAL_PROTOCOLLNPGM(MSG_FILE_PRINTED); |
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print_job_stop_ms = millis(); |
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print_job_stop(true); |
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char time[30]; |
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char time[30]; |
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millis_t t = (print_job_stop_ms - print_job_start_ms) / 1000; |
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millis_t t = print_job_timer(); |
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int hours = t / 60 / 60, minutes = (t / 60) % 60; |
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int hours = t / 60 / 60, minutes = (t / 60) % 60; |
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sprintf_P(time, PSTR("%i " MSG_END_HOUR " %i " MSG_END_MINUTE), hours, minutes); |
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sprintf_P(time, PSTR("%i " MSG_END_HOUR " %i " MSG_END_MINUTE), hours, minutes); |
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SERIAL_ECHO_START; |
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SERIAL_ECHO_START; |
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@ -3454,7 +3454,7 @@ inline void gcode_M17() { |
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*/ |
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*/ |
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inline void gcode_M24() { |
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inline void gcode_M24() { |
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card.startFileprint(); |
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card.startFileprint(); |
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print_job_start_ms = millis(); |
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print_job_start(); |
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} |
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} |
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/**
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/**
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@ -3510,8 +3510,7 @@ inline void gcode_M17() { |
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* M31: Get the time since the start of SD Print (or last M109) |
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* M31: Get the time since the start of SD Print (or last M109) |
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*/ |
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*/ |
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inline void gcode_M31() { |
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inline void gcode_M31() { |
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print_job_stop_ms = millis(); |
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millis_t t = print_job_timer(); |
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millis_t t = (print_job_stop_ms - print_job_start_ms) / 1000; |
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int min = t / 60, sec = t % 60; |
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int min = t / 60, sec = t % 60; |
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char time[30]; |
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char time[30]; |
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sprintf_P(time, PSTR("%i min, %i sec"), min, sec); |
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sprintf_P(time, PSTR("%i min, %i sec"), min, sec); |
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@ -3545,8 +3544,9 @@ inline void gcode_M31() { |
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card.setIndex(code_value_short()); |
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card.setIndex(code_value_short()); |
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card.startFileprint(); |
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card.startFileprint(); |
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if (!call_procedure) |
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print_job_start_ms = millis(); //procedure calls count as normal print time.
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// Procedure calls count as normal print time.
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if (!call_procedure) print_job_start(); |
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} |
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} |
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} |
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} |
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@ -3884,6 +3884,8 @@ inline void gcode_M104() { |
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setTargetHotend1(temp == 0.0 ? 0.0 : temp + duplicate_extruder_temp_offset); |
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setTargetHotend1(temp == 0.0 ? 0.0 : temp + duplicate_extruder_temp_offset); |
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#endif |
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#endif |
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} |
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} |
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print_job_stop(); |
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} |
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} |
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#if HAS_TEMP_0 || HAS_TEMP_BED || ENABLED(HEATER_0_USES_MAX6675) |
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#if HAS_TEMP_0 || HAS_TEMP_BED || ENABLED(HEATER_0_USES_MAX6675) |
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@ -4008,11 +4010,12 @@ inline void gcode_M105() { |
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inline void gcode_M109() { |
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inline void gcode_M109() { |
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bool no_wait_for_cooling = true; |
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bool no_wait_for_cooling = true; |
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// Start hook must happen before setTargetHotend()
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print_job_start(); |
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if (setTargetedHotend(109)) return; |
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if (setTargetedHotend(109)) return; |
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if (marlin_debug_flags & DEBUG_DRYRUN) return; |
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if (marlin_debug_flags & DEBUG_DRYRUN) return; |
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LCD_MESSAGEPGM(MSG_HEATING); |
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no_wait_for_cooling = code_seen('S'); |
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no_wait_for_cooling = code_seen('S'); |
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if (no_wait_for_cooling || code_seen('R')) { |
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if (no_wait_for_cooling || code_seen('R')) { |
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float temp = code_value(); |
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float temp = code_value(); |
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@ -4021,8 +4024,12 @@ inline void gcode_M109() { |
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if (dual_x_carriage_mode == DXC_DUPLICATION_MODE && target_extruder == 0) |
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if (dual_x_carriage_mode == DXC_DUPLICATION_MODE && target_extruder == 0) |
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setTargetHotend1(temp == 0.0 ? 0.0 : temp + duplicate_extruder_temp_offset); |
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setTargetHotend1(temp == 0.0 ? 0.0 : temp + duplicate_extruder_temp_offset); |
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#endif |
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#endif |
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if (temp > degHotend(target_extruder)) LCD_MESSAGEPGM(MSG_HEATING); |
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} |
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} |
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if (print_job_stop()) LCD_MESSAGEPGM(WELCOME_MSG); |
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#if ENABLED(AUTOTEMP) |
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#if ENABLED(AUTOTEMP) |
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autotemp_enabled = code_seen('F'); |
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autotemp_enabled = code_seen('F'); |
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if (autotemp_enabled) autotemp_factor = code_value(); |
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if (autotemp_enabled) autotemp_factor = code_value(); |
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@ -4082,7 +4089,6 @@ inline void gcode_M109() { |
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} // while(!cancel_heatup && TEMP_CONDITIONS)
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} // while(!cancel_heatup && TEMP_CONDITIONS)
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LCD_MESSAGEPGM(MSG_HEATING_COMPLETE); |
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LCD_MESSAGEPGM(MSG_HEATING_COMPLETE); |
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print_job_start_ms = previous_cmd_ms; |
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} |
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} |
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#if HAS_TEMP_BED |
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#if HAS_TEMP_BED |
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@ -7398,3 +7404,50 @@ void calculate_volumetric_multipliers() { |
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for (int i = 0; i < EXTRUDERS; i++) |
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for (int i = 0; i < EXTRUDERS; i++) |
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volumetric_multiplier[i] = calculate_volumetric_multiplier(filament_size[i]); |
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volumetric_multiplier[i] = calculate_volumetric_multiplier(filament_size[i]); |
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} |
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} |
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/**
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* Start the print job timer |
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* |
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* The print job is only started if all extruders have their target temp at zero |
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* otherwise the print job timew would be reset everytime a M109 is received. |
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* |
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* @param t start timer timestamp |
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* |
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* @return true if the timer was started at function call |
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*/ |
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bool print_job_start(millis_t t /* = 0 */) { |
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for (int i = 0; i < EXTRUDERS; i++) if (degTargetHotend(i) > 0) return false; |
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print_job_start_ms = (t) ? t : millis(); |
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print_job_stop_ms = 0; |
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return true; |
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} |
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/**
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* Output the print job timer in seconds |
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* |
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* @return the number of seconds |
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*/ |
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millis_t print_job_timer() { |
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if (!print_job_start_ms) return 0; |
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return (((print_job_stop_ms > print_job_start_ms) |
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? print_job_stop_ms : millis()) - print_job_start_ms) / 1000; |
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} |
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/**
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* Check if the running print job has finished and stop the timer |
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* |
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* When the target temperature for all extruders is zero then we assume that the |
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* print job has finished printing. There are some special conditions under which |
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* this assumption may not be valid: If during a print job for some reason the |
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* user decides to bring a nozzle temp down and only then heat the other afterwards. |
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* |
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* @param force stops the timer ignoring all pre-checks |
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* |
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* @return boolean true if the print job has finished printing |
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*/ |
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bool print_job_stop(bool force /* = false */) { |
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if (!print_job_start_ms) return false; |
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if (!force) for (int i = 0; i < EXTRUDERS; i++) if (degTargetHotend(i) > 0) return false; |
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print_job_stop_ms = millis(); |
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return true; |
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} |
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