[force_move]
enable_force_move: True
# NOTE If you're using a Raspberry Pi, you can uncomment the next 2 lines, optionally.
[temperature_sensor raspberry_pi]
sensor_type: temperature_host
# NOTE If you're using a an Orange Pi, you can uncomment the next 3 lines, optionally.
# [temperature_sensor Orange_Pi]
# sensor_type: temperature_host
# sensor_path: /sys/class/thermal/thermal_zone0/temp
[virtual_sdcard]
path: /home/pi/printer_data/gcodes
# NOTE Cancel objects feature is enabled. If you're using a low powered device, comment out [exclude_object].
# Also see [file_manager] section in moonraker.conf.
[exclude_object]
[pause_resume]
[display_status]
[delayed_gcode DISABLEFILAMENTSENSOR]
initial_duration: 1
gcode:
SET_FILAMENT_SENSOR SENSOR=filament_sensor ENABLE=0
[gcode_macro _globals]
variable_filament_sensor_enabled: 1 # NOTE Enable(1) or disable(0) the filament sensor, if one is connected
variable_beeping_enabled: 1 # NOTE Enable(1) or disable(0) beeping everywhere except during gantry calibration
variable_bed_temp_over: 10 # NOTE Start print if bed temperature is over by this amount, otherwise wait for temperature drop
variable_kamp_enable: 1 # NOTE Enable(1) or disable(0) KAMP (adaptive mesh)
variable_pre_purge_prime_length: 1.40
gcode:
# Don't delete this section
[gcode_macro CONDITIONAL_BEEP]
gcode:
# Parameters
{% set i = params.I|default(1)|int %} ; Iterations (number of times to beep).
{% set dur = params.DUR|default(100)|int %} ; Duration/wait of each beep in ms. Default 100ms.
{% set freq = params.FREQ|default(2000)|int %} ; Frequency in Hz. Default 2kHz.
{% set BEEPING_ENABLED=printer["gcode_macro _globals"].beeping_enabled|default(-1)|int %}
{% if BEEPING_ENABLED == 1 %}
BEEP I={i} DUR={dur} FREQ={freq}
{% endif %}
[gcode_macro ADJUST_FILAMENT_SENSOR_STATUS]
gcode:
# Parameters
{% set NEWSTATUS = params.ENABLE|default(-1)|int %}
{% set FILAMENT_SENSOR_ENABLED=printer["gcode_macro _globals"].filament_sensor_enabled|default(-1)|int %}
{% if FILAMENT_SENSOR_ENABLED == 1 and NEWSTATUS != -1 %}
SET_FILAMENT_SENSOR SENSOR=filament_sensor ENABLE={NEWSTATUS}
{% endif %}
[gcode_macro M109]
rename_existing: M99109
gcode:
#Parameters
{% set s = params.S|float %}
M104 {% for p in params %}{'%s%s' % (p, params[p])}{% endfor %} ; Set hotend temp
{% if s != 0 %}
TEMPERATURE_WAIT SENSOR=extruder MINIMUM={s} MAXIMUM={s+1} ; Wait for hotend temp (within 1 degree)
{% endif %}
[gcode_macro M190]
rename_existing: M99190
gcode:
#Parameters
{% set s = params.S|float %}
M140 {% for p in params %}{'%s%s' % (p, params[p])}{% endfor %} ; Set bed temp
{% if s != 0 %}
TEMPERATURE_WAIT SENSOR=heater_bed MINIMUM={s} MAXIMUM={s+1} ; Wait for bed temp (within 1 degree)
{% endif %}
[gcode_macro PURGE_LINE]
gcode:
{% set PRE_PURGE_PRIME_LENGTH=printer["gcode_macro _globals"].pre_purge_prime_length|default(1.40)|float %}
ADJUST_FILAMENT_SENSOR_STATUS ENABLE=1
# Misc variables
{% set extrudeAmount = 26.6 %}
{% set movementLength = 100.0 %}
{% set movementSpeed = 15 * 60 %}
{% set xStart = 0.5 %}
{% set yStart = 0.5 %}
# Set safe speeds
{% set maxVelocity = printer.configfile.settings.printer.max_velocity|default(200)|int %}
{% set maxVelocityAdjusted = (0.95 * maxVelocity * 60)|int %}
G92 E0.0 ; reset extruder
G90 ; Absolute positioning
G0 X{xStart} Y{yStart} F{maxVelocityAdjusted} ; move to purge position
G1 Z0.4 F500.0 ; move to purge height
M83 ; Relative extrusion mode
G1 E{PRE_PURGE_PRIME_LENGTH} F500 ; pre-purge prime LENGTH SHOULD MATCH YOUR PRINT_END RETRACT
G1 X{xStart + movementLength} E{extrudeAmount} F{movementSpeed} ; intro line 1
G92 E0.0 ; reset extruder
M82 ; Absolute extrusion mode
G1 Z5.0 ; move nozzle to prevent scratch
[gcode_macro CANCEL_PRINT]
rename_existing: BASE_CANCEL_PRINT
gcode:
SET_IDLE_TIMEOUT TIMEOUT={printer.configfile.settings.idle_timeout.timeout} ; set timeout back to configured value
CLEAR_PAUSE
SDCARD_RESET_FILE
PRINT_END
BASE_CANCEL_PRINT
[gcode_macro PRINT_START]
gcode:
ADJUST_FILAMENT_SENSOR_STATUS ENABLE=1
# Parameters
{% set bedtemp = params.BED|int %}
{% set hotendtemp = params.HOTEND|int %}
{% set chambertemp = params.CHAMBER|default(0)|int %}
# Other variables
{% set bedtempSlicer = bedtemp %}
{% set bedtempOver = printer["gcode_macro _globals"].bed_temp_over|default(0)|int %}
{% set maxVelocity = printer.configfile.settings.printer.max_velocity|default(200)|int %}
{% set maxVelocityAdjusted = (0.90 * maxVelocity * 60)|int %}
{% set kampEnabled=printer["gcode_macro _globals"].kamp_enable|default(0)|int %}
{% if printer.configfile.settings.safe_z_home %}
{% set startX = printer.configfile.settings.safe_z_home.home_xy_position[0]|float %}
{% set startY = printer.configfile.settings.safe_z_home.home_xy_position[1]|float %}
{% endif %}
{% set bedtempAlmost = ((bedtemp - 2, 0, printer.heater_bed.temperature|int)|max, bedtemp)|max %}
{% set hotendtempStepOne = ((hotendtemp, printer[printer.toolhead.extruder].temperature|int)|min, 150)|max %}
{% set hotendtempStepTwo = ((hotendtemp, printer[printer.toolhead.extruder].temperature|int)|min, 170)|max %}
# If bed-temp-almost is higher than bed-temp by a maximum of bed-temp-over
{% if bedtempAlmost > bedtemp %}
{% if (bedtempAlmost - bedtempOver) <= bedtemp %}
{% set bedtemp = bedtempAlmost %}
{% endif %}
{% endif %}
G90 ; absolute positioning
M140 S{bedtempAlmost} ; set & don't wait for bed temp
M104 S{hotendtempStepOne} ; set & don't wait for hotend temp
G28 X Y
{% if printer.configfile.settings.safe_z_home %}
G1 X{startX} Y{startY} F{maxVelocityAdjusted}
{% endif %}
M190 S{bedtempAlmost} ; set & wait for bed temp
{% if kampEnabled == 0 %}
M104 S{hotendtempStepTwo} ; set & don't wait for hotend temp
{% endif %}
M190 S{bedtemp} ; set & wait for bed temp
M140 S{bedtempSlicer} ; set & don't wait for bed temp ; set temp to sliced setting regardless
{% if kampEnabled == 0 %}
BED_MESH_PROFILE LOAD=default ; NOTE if not using a mesh, comment out this line
SKEW_PROFILE LOAD=CaliFlower
M104 S{hotendtemp} ; set & don't wait for hotend temp
G28 Z ; final z homing
{% else %}
G28 Z ; final z homing
BED_MESH_CALIBRATE ; KAMP mesh
M104 S{hotendtemp} ; set & don't wait for hotend temp
{% endif %}
G1 X0 Y0 F{maxVelocityAdjusted}
M109 S{hotendtemp} ; set & wait for hotend temp
G1 Z20 F3000 ; move nozzle away from bed
[gcode_macro PRINT_END]
gcode:
SET_SKEW CLEAR=1
ADJUST_FILAMENT_SENSOR_STATUS ENABLE=0
CONDITIONAL_BEEP I=2 DUR=30 FREQ=8500
{% set PRE_PURGE_PRIME_LENGTH=printer["gcode_macro _globals"].pre_purge_prime_length|default(1.40)|float %}
M400 ; wait for buffer to clear
G92 E0 ; zero the extruder
G1 E-{PRE_PURGE_PRIME_LENGTH} F400 ; retract filament
G91 ; relative positioning
# Set safe speeds
{% set zVelocity = printer.configfile.settings.printer.max_z_velocity|default(15)|int %}
{% set maxVelocity = printer.configfile.settings.printer.max_velocity|default(200)|int %}
{% set zVelocityAdjusted = (0.95 * zVelocity * 60)|int %}
{% set maxVelocityAdjusted = (0.95 * maxVelocity * 60)|int %}
# Get Boundaries
{% set max_x = printer.configfile.config["stepper_x"]["position_max"]|float %}
{% set max_y = printer.configfile.config["stepper_y"]["position_max"]|float %}
{% set max_z = printer.configfile.config["stepper_z"]["position_max"]|float %}
# Check end position to determine safe direction to move
{% if printer.toolhead.position.x < (max_x - 20) %}
{% set x_safe = 20.0 %}
{% else %}
{% set x_safe = -20.0 %}
{% endif %}
{% if printer.toolhead.position.y < (max_y - 20) %}
{% set y_safe = 20.0 %}
{% else %}
{% set y_safe = -20.0 %}
{% endif %}
{% set lift_height = 25.0 %}
{% if printer.toolhead.position.z < (max_z - lift_height) %}
{% set z_safe = lift_height %}
{% else %}
{% set z_safe = max_z - printer.toolhead.position.z %}
{% endif %}
G0 Z{z_safe} F{zVelocityAdjusted} ; move nozzle up
G0 X{x_safe} Y{y_safe} F{maxVelocityAdjusted} ; move nozzle to remove stringing
TURN_OFF_HEATERS
M107 ; turn off fan
G90 ; absolute positioning
G0 X60 Y{max_y} F3600 ; park nozzle at rear
M84
[gcode_macro LOAD_FILAMENT]
gcode:
M83 ; set extruder to relative
G1 E30 F300 ; load
G1 E15 F150 ; prime nozzle with filament
M82 ; set extruder to absolute
[gcode_macro UNLOAD_FILAMENT]
gcode:
M83 ; set extruder to relative
G1 E10 F300 ; extrude a little to soften tip
G1 E-40 F1800 ; retract some, but not too much or it will jam
M82 ; set extruder to absolute
[gcode_macro M600]
gcode:
CONDITIONAL_BEEP i=1 dur=300
CONDITIONAL_BEEP i=1 dur=100
CONDITIONAL_BEEP i=1 dur=100
PAUSE ; Pause
[gcode_macro PAUSE]
rename_existing: BASE_PAUSE
gcode:
# Parameters
{% set z = params.Z|default(10)|int %} ; z hop amount
{% if printer['pause_resume'].is_paused|int == 0 %}
SET_GCODE_VARIABLE MACRO=RESUME VARIABLE=zhop VALUE={z} ; set z hop variable for reference in resume macro
SET_GCODE_VARIABLE MACRO=RESUME VARIABLE=etemp VALUE={printer['extruder'].target} ; set hotend temp variable for reference in resume macro
ADJUST_FILAMENT_SENSOR_STATUS ENABLE=0
SAVE_GCODE_STATE NAME=PAUSE ; save current print position for resume
BASE_PAUSE ; pause print
{% if (printer.gcode_move.position.z + z) < printer.toolhead.axis_maximum.z %} ; check that zhop doesn't exceed z max
G91 ; relative positioning
G1 Z{z} F900 ; raise Z up by z hop amount
{% else %}
{ action_respond_info("Pause zhop exceeds maximum Z height.") } ; if z max is exceeded, show message and set zhop value for resume to 0
SET_GCODE_VARIABLE MACRO=RESUME VARIABLE=zhop VALUE=0
{% endif %}
G90 ; absolute positioning
G1 X{printer.toolhead.axis_maximum.x/2} Y{printer.toolhead.axis_minimum.y+5} F6000 ; park toolhead at front center
SAVE_GCODE_STATE NAME=PAUSEPARK ; save parked position in case toolhead is moved during the pause (otherwise the return zhop can error)
M104 S0 ; turn off hotend
SET_IDLE_TIMEOUT TIMEOUT=43200 ; set timeout to 12 hours
{% endif %}
[gcode_macro RESUME]
rename_existing: BASE_RESUME
variable_zhop: 0
variable_etemp: 0
gcode:
# Parameters
{% set e = params.E|default(2.5)|int %} ; hotend prime amount (in mm)
{% if printer['pause_resume'].is_paused|int == 1 %}
ADJUST_FILAMENT_SENSOR_STATUS ENABLE=1
SET_IDLE_TIMEOUT TIMEOUT={printer.configfile.settings.idle_timeout.timeout} ; set timeout back to configured value
{% if etemp > 0 %}
M109 S{etemp|int} ; wait for hotend to heat back up
{% endif %}
RESTORE_GCODE_STATE NAME=PAUSEPARK MOVE=1 MOVE_SPEED=100 ; go back to parked position in case toolhead was moved during pause (otherwise the return zhop can error)
G91 ; relative positioning
M83 ; relative extruder positioning
{% if printer[printer.toolhead.extruder].temperature >= printer.configfile.settings.extruder.min_extrude_temp %}
G1 Z{zhop * -1} E{e} F900 ; prime nozzle by E, lower Z back down
{% else %}
G1 Z{zhop * -1} F900 ; lower Z back down without priming (just in case we are testing the macro with cold hotend)
{% endif %}
RESTORE_GCODE_STATE NAME=PAUSE MOVE=1 MOVE_SPEED=60 ; restore position
BASE_RESUME ; resume print
{% endif %}
[gcode_macro _CG28]
# Conditional homing
gcode:
{% if "xyz" not in printer.toolhead.homed_axes %}
G28
{% endif %}
[gcode_macro BEEP]
description: BEEP I=3 DUR=200 FREQ=2000: Beep 3 times, for 200ms each, at 2kHz frequency.
gcode:
# Parameters
{% set i = params.I|default(1)|int %} ; Iterations (number of times to beep).
{% set dur = params.DUR|default(100)|int %} ; Duration/wait of each beep in ms. Default 100ms.
{% set freq = params.FREQ|default(2000)|int %} ; Frequency in Hz. Default 2kHz.
{% for iteration in range(i|int) %}
SET_PIN PIN=beeper VALUE=0.8 CYCLE_TIME={ 1.0/freq if freq > 0 else 1 }
G4 P{dur}
SET_PIN PIN=beeper VALUE=0
G4 P{dur}
{% endfor %}