klipper-dgus/config/sample-macros.cfg

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# This file provides examples of Klipper G-Code macros. The snippets
# in this file may be copied into the main printer.cfg file and
# customized.
# See docs/Config_Reference.md for a description of parameters.
######################################################################
# Start Print and End Print
######################################################################
# Replace the slicer's custom start and end g-code scripts with
# START_PRINT and END_PRINT.
[gcode_macro START_PRINT]
gcode:
{% set BED_TEMP = params.BED_TEMP|default(60)|float %}
{% set EXTRUDER_TEMP = params.EXTRUDER_TEMP|default(190)|float %}
# Start bed heating
M140 S{BED_TEMP}
# Use absolute coordinates
G90
# Reset the G-Code Z offset (adjust Z offset if needed)
SET_GCODE_OFFSET Z=0.0
# Home the printer
G28
# Move the nozzle near the bed
G1 Z5 F3000
# Move the nozzle very close to the bed
G1 Z0.15 F300
# Wait for bed to reach temperature
M190 S{BED_TEMP}
# Set and wait for nozzle to reach temperature
M109 S{EXTRUDER_TEMP}
[gcode_macro END_PRINT]
gcode:
# Turn off bed, extruder, and fan
M140 S0
M104 S0
M106 S0
# Move nozzle away from print while retracting
G91
G1 X-2 Y-2 E-3 F300
# Raise nozzle by 10mm
G1 Z10 F3000
G90
# Disable steppers
M84
######################################################################
# Beeper
######################################################################
# M300 : Play tone. Beeper support, as commonly found on usual LCD
# displays (i.e. RepRapDiscount 2004 Smart Controller, RepRapDiscount
# 12864 Full Graphic). This defines a custom I/O pin and a custom
# GCODE macro. Usage:
# M300 [P<ms>] [S<Hz>]
# P is the tone duration, S the tone frequency.
# The frequency won't be pitch perfect.
[output_pin BEEPER_pin]
pin: ar37
# Beeper pin. This parameter must be provided.
# ar37 is the default RAMPS/MKS pin.
pwm: True
# A piezo beeper needs a PWM signal, a DC buzzer doesn't.
value: 0
# Silent at power on, set to 1 if active low.
shutdown_value: 0
# Disable at emergency shutdown (no PWM would be available anyway).
cycle_time: 0.001
# Default PWM frequency : 0.001 = 1ms will give a tone of 1kHz
# Although not pitch perfect.
[gcode_macro M300]
gcode:
# Use a default 1kHz tone if S is omitted.
{% set S = params.S|default(1000)|int %}
# Use a 10ms duration is P is omitted.
{% set P = params.P|default(100)|int %}
SET_PIN PIN=BEEPER_pin VALUE=0.5 CYCLE_TIME={ 1.0/S if S > 0 else 1 }
G4 P{P}
SET_PIN PIN=BEEPER_pin VALUE=0
######################################################################
# Filament Change
######################################################################
# M600: Filament Change. This macro will pause the printer, move the
# tool to the change position, and retract the filament 50mm. Adjust
# the retraction settings for your own extruder. After filament has
# been changed, the print can be resumed from its previous position
# with the "RESUME" gcode.
[pause_resume]
[gcode_macro M600]
gcode:
{% set X = params.X|default(50)|float %}
{% set Y = params.Y|default(0)|float %}
{% set Z = params.Z|default(10)|float %}
SAVE_GCODE_STATE NAME=M600_state
PAUSE
G91
G1 E-.8 F2700
G1 Z{Z}
G90
G1 X{X} Y{Y} F3000
G91
G1 E-50 F1000
RESTORE_GCODE_STATE NAME=M600_state
######################################################################
# BMP280/BME280/BME680 Environmental Sensor
######################################################################
# The macro below assumes you have a BME280 sensor_type defined in one
# of the applicable sections in printer.cfg, such as:
#
#[temperature_sensor my_sensor]
#sensor_type: BME280
#gcode_id: AMB
#
# Note the format of the parameter SENSOR in the macro below. The BME280
# sensor status can be accessed using the format "bme280 <section_name>".
# The example section above is named "my_sensor", thus the bme280 can be
# queried as follows:
#
# QUERY_BME280 SENSOR='bme280 my_sensor'
#
# Since a default parameter is defined one could simply enter QUERY_BME280
# as well.
[gcode_macro QUERY_BME280]
gcode:
{% set sensor = printer["bme280 my_sensor"] %}
{action_respond_info(
"Temperature: %.2f C\n"
"Pressure: %.2f hPa\n"
"Humidity: %.2f%%" % (
sensor.temperature,
sensor.pressure,
sensor.humidity))}
######################################################################
# HTU21D family Environmental Sensor
######################################################################
# The macro below assumes you have a HTU21D sensor_type defined in one
# of the applicable sections in printer.cfg, such as:
#
#[temperature_sensor my_sensor]
#sensor_type: HTU21D
#
# Note the format of the parameter SENSOR in the macro below. The HTU21D
# sensor status can be accessed using the format "htu21d <section_name>".
# The example section above is named "my_sensor", thus the htu21d can be
# queried as follows:
#
# QUERY_HTU21D SENSOR='htu21d my_sensor'
#
# Since a default parameter is defined one could simply enter QUERY_HTU21D
# as well.
[gcode_macro QUERY_HTU21D]
gcode:
{% set sensor = printer["htu21d my_sensor"] %}
{action_respond_info(
"Temperature: %.2f C\n"
"Humidity: %.2f%%" % (
sensor.temperature,
sensor.humidity))}
# SDCard 'looping' (aka Marlin M808 commands) support
#
# Support SDCard looping
[sdcard_loop]
# 'Marlin' style M808 compatibility macro for SDCard looping
[gcode_macro M808]
gcode:
{% if params.K is not defined and params.L is defined %}SDCARD_LOOP_BEGIN COUNT={params.L|int}{% endif %}
{% if params.K is not defined and params.L is not defined %}SDCARD_LOOP_END{% endif %}
{% if params.K is defined and params.L is not defined %}SDCARD_LOOP_DESIST{% endif %}