[gcode_macro PAUSE] description: Pauses the printer rename_existing: PAUSE_BASE variable_extrude: 1.5 gcode: SAVE_GCODE_STATE NAME=PAUSE_state # Define park positions {% set E = printer["gcode_macro PAUSE"].extrude|float %} {% set speed = printer["gcode_macro RatOS"].macro_travel_speed|float * 60 %} {% set z_speed = printer["gcode_macro RatOS"].macro_z_speed|float * 60 %} # Calculate safe Z position {% set max_z = printer.toolhead.axis_maximum.z|float %} {% set act_z = printer.toolhead.position.z|float %} {% if act_z < (max_z - 20.0) %} {% set z_safe = 20.0 %} {% else %} {% set z_safe = max_z - act_z %} {% endif %} PAUSE_BASE G91 # Retract {% if printer.extruder.can_extrude|lower == 'true' %} G1 E-{E} F2100 {% else %} {action_respond_info("Extruder not hot enough")} {% endif %} # Move to park position {% if "xyz" in printer.toolhead.homed_axes %} G1 Z{z_safe} F{z_speed} _PARK LOCATION={printer["gcode_macro RatOS"].pause_print_park_in} X={printer["gcode_macro RatOS"].pause_print_park_x} {% else %} {action_respond_info("Printer not homed")} {% endif %} {% if printer["gcode_macro RatOS"].tgbot_enabled|lower == 'true' %} RESPOND PREFIX=tgnotify MSG="Принтер встал на паузу" {% endif %} {% if printer["gcode_macro RatOS"].beep_enabled|lower == 'true' %} beep {% endif %} {% if printer["gcode_macro RatOS"].orbiter_sensor_cheat|lower == 'true' %} SET_FILAMENT_SENSOR SENSOR=Orbiter_Sensor ENABLE=1 {% endif %} [gcode_macro RESUME] description: Resumes the print if the printer is paused. rename_existing: RESUME_BASE gcode: {% set E = printer["gcode_macro PAUSE"].extrude|float %} # Prime {% if printer.extruder.can_extrude|lower == 'true' %} G91 G1 E{E} F2100 G90 {% else %} {action_respond_info("Extruder not hot enough")} {% endif %} {% if printer["gcode_macro RatOS"].orbiter_sensor_cheat|lower == 'true' %} SET_FILAMENT_SENSOR SENSOR=Orbiter_Sensor ENABLE=0 {% endif %} RESTORE_GCODE_STATE NAME=PAUSE_state MOVE=1 MOVE_SPEED={printer["gcode_macro RatOS"].macro_travel_speed|float} RESUME_BASE {% if printer["gcode_macro RatOS"].tgbot_enabled|lower == 'true' %} RESPOND PREFIX=tgnotify MSG="Принтер продолжил после паузы" {% endif %} [gcode_macro CANCEL_PRINT] description: Cancels the printer rename_existing: CANCEL_PRINT_BASE gcode: END_PRINT_ROUTINE TURN_OFF_HEATERS CLEAR_PAUSE #SDCARD_RESET_FILE CANCEL_PRINT_BASE RESPOND MSG="Canceled o_O" {% if printer["gcode_macro RatOS"].tgbot_enabled|lower == 'true' %} RESPOND PREFIX=tgnotify MSG="Галя, у нас отмена!!" {% endif %} [gcode_macro PRIME_LINE] description: Prints a primeline, used internally, if configured, as part of the START_PRINT macro. gcode: SAVE_GCODE_STATE NAME=prime_line_state {% set speed = printer["gcode_macro RatOS"].macro_travel_speed|float * 60 %} {% set z_speed = printer["gcode_macro RatOS"].macro_z_speed|float * 60 %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'min' %} {% set x_start = 5 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'max' %} {% set x_start = printer.toolhead.axis_maximum.x - 5 %} {% else %} {% set x_start = printer["gcode_macro RatOS"].nozzle_prime_start_x|float %} {% endif %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'min' %} {% set y_start = 5 %} {% set y_factor = 1 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'max' %} {% set y_start = printer.toolhead.axis_maximum.y - 5 %} {% set y_factor = -1 %} {% else %} {% set y_start = printer["gcode_macro RatOS"].nozzle_prime_start_y|float %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_y|float < printer.toolhead.axis_maximum.y / 2 %} {% set y_factor = 1 %} {% else %} {% set y_factor = -1 %} {% endif %} {% endif %} {% if printer["gcode_macro RatOS"].nozzle_prime_direction|lower == 'forwards' %} {% set y_factor = 1 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_direction|lower == 'backwards' %} {% set y_factor = -1 %} {% endif %} {% set z = printer["gcode_macro RatOS"].start_print_park_z_height|float %} # Absolute positioning G90 # Absolute extrusion M82 M117 Priming nozzle with prime line.. RESPOND MSG="Priming nozzle with prime line.." # Lift to start print Z height G0 Z{z} F{z_speed} # move to blob position along the edge of the bed G1 X{x_start} F{speed} G1 Y{y_start} F{speed} # Get ready to prime G1 Z0.3 F{z_speed} # Reset extrusion distance G92 E0 # Prime nozzle G1 Y{y_start + (70 * y_factor)} E16 F1200 # Wipe G1 Y{y_start + (90 * y_factor)} F{speed} RESTORE_GCODE_STATE NAME=prime_line_state [gcode_macro PRIME_BLOB] description: Prints a primeblob, used internally, if configured, as part of the START_PRINT macro. Slower than PRIME_LINE but much more effective. gcode: SAVE_GCODE_STATE NAME=prime_blob_state M117 Priming nozzle with prime blob.. RESPOND MSG="Priming nozzle with prime blob.." {% if printer["gcode_macro RatOS"].filament_encoder_enabled|lower == 'true' %} SET_FILAMENT_SENSOR SENSOR=encoder_sensor ENABLE=0 {% endif %} {% set speed = printer["gcode_macro RatOS"].macro_travel_speed|float * 60 %} {% set z_speed = printer["gcode_macro RatOS"].macro_z_speed|float * 60 %} {% set fan_speed = printer["gcode_macro RatOS"].nozzle_prime_bridge_fan|float %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'min' %} {% set x_start = 5 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'max' %} {% set x_start = printer.toolhead.axis_maximum.x - 5 %} {% else %} {% set x_start = printer["gcode_macro RatOS"].nozzle_prime_start_x|float %} {% endif %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'min' %} {% set y_start = 5 %} {% set y_factor = 1 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'max' %} {% set y_start = printer.toolhead.axis_maximum.y - 5 %} {% set y_factor = -1 %} {% else %} {% set y_start = printer["gcode_macro RatOS"].nozzle_prime_start_y|float %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_y|float < printer.toolhead.axis_maximum.y / 2 %} {% set y_factor = 1 %} {% else %} {% set y_factor = -1 %} {% endif %} {% endif %} {% if printer["gcode_macro RatOS"].nozzle_prime_direction|lower == 'forwards' %} {% set y_factor = 1 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_direction|lower == 'backwards' %} {% set y_factor = -1 %} {% endif %} {% set z = printer["gcode_macro RatOS"].start_print_park_z_height|float %} # Absolute positioning G90 # Relative extrusion M83 # Lift to start print Z height G0 Z{z} F{z_speed} # move close to blob position along the edge of the bed G1 X{x_start} F{speed} G1 Y{y_start + (15 * y_factor)} F{speed} # Lower to blob extrusion height G1 Z0.5 F{z_speed} # Move to final position horizontally G1 Y{y_start} F{speed} # Extrude a blob G1 F60 E20 # 40% fan M106 S{fan_speed} # Move the extruder up by 5mm while extruding, breaks away from blob G1 Z5 F100 E5 # Move to wipe position, but keep extruding so the wipe is attached to blob G1 F200 Y{y_start + (25 * y_factor)} E1 # Go down diagonally while extruding # Broken down in z moves under 2mm as a workaround for a tuning tower test. # The tuning tower command thinks a new print has been started when z moves over 2mm and aborts. G1 F200 Y{y_start + (30 * y_factor)} Z3.8 E0.5 G1 F200 Y{y_start + (35 * y_factor)} Z2.6 E0.5 G1 F200 Y{y_start + (40 * y_factor)} Z1.4 E0.5 G1 F200 Y{y_start + (45 * y_factor)} Z0.2 E0.5 # 0% fan M106 S0 # small wipe line G1 F200 Y{y_start + (50 * y_factor)} Z0.2 E0.6 # Break away wipe G1 F{speed} Y{y_start + (100 * y_factor)} {% if printer["gcode_macro RatOS"].filament_encoder_enabled|lower == 'true' %} SET_FILAMENT_SENSOR SENSOR=encoder_sensor ENABLE=1 {% endif %} RESTORE_GCODE_STATE NAME=prime_blob_state [gcode_macro _PARK] gcode: {% set speed = printer["gcode_macro RatOS"].macro_travel_speed|float * 60 %} # Get X position {% if params.X != '' %} {% if params.X|float >= printer.toolhead.axis_minimum.x + 5 and params.X|float <= printer.toolhead.axis_maximum.x - 5 %} {% set safe_x = params.X|float %} {% else %} {action_respond_info('The requested X co-ordinate is outside the defined axis bounds - using defaults')} {% set safe_x = printer.toolhead.axis_maximum.x / 2 %} {% endif %} {% else %} {% set safe_x = printer.toolhead.axis_maximum.x / 2 %} #{% set safe_x = printer.toolhead.axis_maximum.x / 2 %} {% endif %} # Get Y position {% if params.LOCATION|default('back')|lower == 'back' %} {% set y = printer.toolhead.axis_maximum.y - 5 %} {% elif params.LOCATION|lower == 'front' %} {% set y = printer.toolhead.axis_minimum.y + 5 %} {% elif params.LOCATION|lower == 'center' %} {% set y = printer.toolhead.axis_maximum.y / 2 %} {% endif %} # Absolute positioning G90 # Park G0 X{safe_x} Y{y} F{speed} ##### # COLOR CHANGE ##### [gcode_macro M600] description: Executes a color change by pausing the printer an unloading the filament. gcode: PAUSE UNLOAD_FILAMENT M117 Please load new filament and resume RESPOND MSG="Please load new filament and resume" {% if printer["gcode_macro RatOS"].tgbot_enabled|lower == 'true' %} RESPOND PREFIX=tgnotify MSG="Требуется замена филамента" {% endif %} {% if printer["gcode_macro RatOS"].beep_enabled|lower == 'true' %} beep {% endif %} ##### # MESH MACROS #### [gcode_macro SAVE_PROBE_RESULT] gcode: {% set last_z = printer.probe.last_z_result %} SET_GCODE_VARIABLE MACRO=RatOS VARIABLE={params.VARIABLE|default('last_z')} VALUE={last_z} [gcode_macro PROBE_FOR_PRIMING] gcode: {% if printer["gcode_macro RatOS"].nozzle_priming|lower != 'false' %} SAVE_GCODE_STATE NAME=probe_for_priming_state RESPOND MSG="Probing the prime location.." {% set speed = printer["gcode_macro RatOS"].macro_travel_speed|float * 60 %} {% set z_speed = printer["gcode_macro RatOS"].macro_z_speed|float * 60 %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'min' %} {% set x_start = 5 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_x|lower == 'max' %} {% set x_start = printer.toolhead.axis_maximum.x - 5 %} {% else %} {% set x_start = printer["gcode_macro RatOS"].nozzle_prime_start_x|float %} {% endif %} {% if printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'min' %} {% set y_start = 5 %} {% elif printer["gcode_macro RatOS"].nozzle_prime_start_y|lower == 'max' %} {% set y_start = printer.toolhead.axis_maximum.y - 5 %} {% else %} {% set y_start = printer["gcode_macro RatOS"].nozzle_prime_start_y|float %} {% endif %} {% set z = printer.configfile.settings.bed_mesh.horizontal_move_z|float %} # get bed mesh config object {% set mesh_config = printer.configfile.config.bed_mesh %} # Get probe offsets {% if printer.configfile.settings.bltouch is defined %} {% set x_offset = printer.configfile.settings.bltouch.x_offset|float %} {% set y_offset = printer.configfile.settings.bltouch.y_offset|float %} {% elif printer.configfile.settings.probe is defined %} {% set x_offset = printer.configfile.settings.probe.x_offset|float %} {% set y_offset = printer.configfile.settings.probe.y_offset|float %} {% elif printer.configfile.settings.beacon is defined %} {% set x_offset = printer.configfile.settings.beacon.x_offset|float %} {% set y_offset = printer.configfile.settings.beacon.y_offset|float %} {% else %} { action_raise_error("No probe or bltouch section found. Adaptive priming only works with [probe] or [bltouch].") } {% endif %} # get configured bed mesh area {% set min_x = mesh_config.mesh_min.split(",")[0]|float - x_offset %} {% set min_y = mesh_config.mesh_min.split(",")[1]|float - y_offset %} {% set max_x = mesh_config.mesh_max.split(",")[0]|float - x_offset %} {% set max_y = mesh_config.mesh_max.split(",")[1]|float - y_offset %} # make sure probe coordinates lie within the configured mesh area {% set x_start = [[x_start, max_x]|min, min_x]|max %} {% set y_start = [[y_start, max_y]|min, min_y]|max %} RESPOND MSG="PROBE_FOR_PRIMING: Probing the prime location at X: {x_start} Y: {y_start}" # Absolute positioning G90 # Relative extrusion M83 # Lift to horizontal_move_z G0 Z{z} F{z_speed} # move close to blob position G1 X{x_start} Y{y_start} F{speed} PROBE_CURRENT_POSITION SAVE_PROBE_RESULT VARIABLE=probe_for_priming_result RESTORE_GCODE_STATE NAME=probe_for_priming_state {% endif %} [gcode_macro RESET_PRIME_PROBE_STATE] gcode: SET_GCODE_VARIABLE MACRO=RatOS VARIABLE=probe_for_priming_result VALUE=None [gcode_macro PROBE_CURRENT_POSITION] gcode: SAVE_GCODE_STATE NAME=probe_current_position_state PROBE RESTORE_GCODE_STATE NAME=probe_current_position_state MOVE=1 MOVE_SPEED={printer["gcode_macro RatOS"].macro_z_speed|float} [gcode_macro ADD_PRIME_PROBE_TO_OFFSET] gcode: {% set last_z = printer["gcode_macro RatOS"].probe_for_priming_result|float(9999.9) %} {% if printer.configfile.settings.bltouch is defined %} {% set z_offset = printer.configfile.settings.bltouch.z_offset|float %} {% elif printer.configfile.settings.probe is defined %} {% set z_offset = printer.configfile.settings.probe.z_offset|float %} {% else %} { action_raise_error("No probe or bltouch section found. Adaptive priming only works with [probe] or [bltouch].") } {% endif %} {% if last_z == 9999.9 %} { action_raise_error("No probe result found for prime area. This is likely a bug.") } {% endif %} {% set adjustment = last_z - z_offset %} {% set adjustment_threshold = printer["gcode_macro RatOS"].adaptive_prime_offset_threshold|float %} {% if adjustment < adjustment_threshold %} { action_raise_error("Abnormal probe offset detected. Needed offset of {adjustment} is below the offset threshold of -1mm. Please verify the probe is over the bed when probing for priming. If it isn't, you should adjust you min/max bed_mesh settings so the probe is always over the print area.") } {% endif %} RESPOND MSG="ADD_PRIME_PROBE_TO_OFFSET: adjusting z offset by {adjustment}" SET_GCODE_OFFSET Z_ADJUST={adjustment} MOVE=1 [gcode_macro SUBTRACT_PRIME_PROBE_FROM_OFFSET] gcode: {% set last_z = printer["gcode_macro RatOS"].probe_for_priming_result|float(9999.9) %} {% if printer.configfile.settings.bltouch is defined %} {% set z_offset = printer.configfile.settings.bltouch.z_offset|float %} {% elif printer.configfile.settings.probe is defined %} {% set z_offset = printer.configfile.settings.probe.z_offset|float %} {% else %} { action_raise_error("No probe or bltouch section found. Adaptive priming only works with [probe] or [bltouch].") } {% endif %} {% if last_z == 9999.9 %} { action_raise_error("No probe result found for prime area. This is likely a bug.") } {% endif %} RESPOND MSG="SUBTRACT_PRIME_PROBE_FROM_OFFSET: adjusting z offset by {z_offset - last_z}" SET_GCODE_OFFSET Z_ADJUST={z_offset - last_z} MOVE=1 [gcode_macro beep] gcode: SET_PIN PIN=_Beeper VALUE=1 # в завершающем коде слайсера напиши в конце beep G4 P5000 # и тогда после окончания печати он тебе пикнет 4 раза. это 5 секунд работы, SET_PIN PIN=_Beeper VALUE=0 # если хочется побольше то вместо 5000 поставь например 10000 будет пищать 10 секунд можно также вставить на замену филамента. на начало печати. [gcode_macro PID_E] gcode: {% set T = params.T|default(240) %} PID_CALIBRATE HEATER=extruder TARGET={T} [gcode_macro PID_B] gcode: {% set T = params.T|default(80) %} PID_CALIBRATE HEATER=heater_bed TARGET={T} [gcode_macro PSTATUS] gcode: {% if params.S3 %} {% set info = printer[params.S1][params.S2][params.S3] %} {% elif params.S2 %} {% set info = printer[params.S1][params.S2] %} {% elif params.S1 %} {% set info = printer[params.S1] %} {% else %} {% set info = printer.idle_timeout.state %} {% endif %} {action_respond_info(info|string)}