358 lines
11 KiB
Markdown
358 lines
11 KiB
Markdown
# Commands templates
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This document provides information on implementing G-Code command
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sequences in gcode_macro (and similar) config sections.
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## G-Code Macro Naming
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Case is not important for the G-Code macro name - MY_MACRO and
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my_macro will evaluate the same and may be called in either upper or
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lower case. If any numbers are used in the macro name then they must
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all be at the end of the name (eg, TEST_MACRO25 is valid, but
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MACRO25_TEST3 is not).
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## Formatting of G-Code in the config
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Indentation is important when defining a macro in the config file. To
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specify a multi-line G-Code sequence it is important for each line to
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have proper indentation. For example:
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```
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[gcode_macro blink_led]
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gcode:
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SET_PIN PIN=my_led VALUE=1
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G4 P2000
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SET_PIN PIN=my_led VALUE=0
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```
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Note how the `gcode:` config option always starts at the beginning of
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the line and subsequent lines in the G-Code macro never start at the
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beginning.
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## Add a description to your macro
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To help identify the functionality a short description can be added.
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Add `description:` with a short text to describe the functionality.
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Default is "G-Code macro" if not specified.
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For example:
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```
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[gcode_macro blink_led]
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description: Blink my_led one time
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gcode:
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SET_PIN PIN=my_led VALUE=1
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G4 P2000
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SET_PIN PIN=my_led VALUE=0
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```
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The terminal will display the description when you use the `HELP` command or the autocomplete function.
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## Save/Restore state for G-Code moves
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Unfortunately, the G-Code command language can be challenging to use.
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The standard mechanism to move the toolhead is via the `G1` command
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(the `G0` command is an alias for `G1` and it can be used
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interchangeably with it). However, this command relies on the "G-Code
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parsing state" setup by `M82`, `M83`, `G90`, `G91`, `G92`, and
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previous `G1` commands. When creating a G-Code macro it is a good
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idea to always explicitly set the G-Code parsing state prior to
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issuing a `G1` command. (Otherwise, there is a risk the `G1` command
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will make an undesirable request.)
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A common way to accomplish that is to wrap the `G1` moves in
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`SAVE_GCODE_STATE`, `G91`, and `RESTORE_GCODE_STATE`. For example:
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```
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[gcode_macro MOVE_UP]
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gcode:
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SAVE_GCODE_STATE NAME=my_move_up_state
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G91
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G1 Z10 F300
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RESTORE_GCODE_STATE NAME=my_move_up_state
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```
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The `G91` command places the G-Code parsing state into "relative move
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mode" and the `RESTORE_GCODE_STATE` command restores the state to what
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it was prior to entering the macro. Be sure to specify an explicit
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speed (via the `F` parameter) on the first `G1` command.
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## Template expansion
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The gcode_macro `gcode:` config section is evaluated using the Jinja2
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template language. One can evaluate expressions at run-time by
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wrapping them in `{ }` characters or use conditional statements
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wrapped in `{% %}`. See the
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[Jinja2 documentation](http://jinja.pocoo.org/docs/2.10/templates/)
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for further information on the syntax.
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An example of a complex macro:
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```
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[gcode_macro clean_nozzle]
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gcode:
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{% set wipe_count = 8 %}
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SAVE_GCODE_STATE NAME=clean_nozzle_state
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G90
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G0 Z15 F300
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{% for wipe in range(wipe_count) %}
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{% for coordinate in [(275, 4),(235, 4)] %}
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G0 X{coordinate[0]} Y{coordinate[1] + 0.25 * wipe} Z9.7 F12000
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{% endfor %}
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{% endfor %}
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RESTORE_GCODE_STATE NAME=clean_nozzle_state
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```
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### Macro parameters
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It is often useful to inspect parameters passed to the macro when
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it is called. These parameters are available via the `params`
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pseudo-variable. For example, if the macro:
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```
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[gcode_macro SET_PERCENT]
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gcode:
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M117 Now at { params.VALUE|float * 100 }%
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```
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were invoked as `SET_PERCENT VALUE=.2` it would evaluate to `M117 Now
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at 20%`. Note that parameter names are always in upper-case when
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evaluated in the macro and are always passed as strings. If performing
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math then they must be explicitly converted to integers or floats.
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It's common to use the Jinja2 `set` directive to use a default
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parameter and assign the result to a local name. For example:
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```
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[gcode_macro SET_BED_TEMPERATURE]
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gcode:
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{% set bed_temp = params.TEMPERATURE|default(40)|float %}
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M140 S{bed_temp}
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```
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### The "rawparams" variable
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The full unparsed parameters for the running macro can be access via the `rawparams` pseudo-variable.
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This is quite useful if you want to change the behavior of certain commands like the `M117`. For example:
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```
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[gcode_macro M117]
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rename_existing: M117.1
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gcode:
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{% if rawparams %}
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{% set escaped_msg = rawparams|replace('"', '\\"') %}
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SET_DISPLAY_TEXT MSG="{escaped_msg}"
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RESPOND TYPE=command MSG="{escaped_msg}"
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{% else %}
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SET_DISPLAY_TEXT
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{% endif %}
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```
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### The "printer" Variable
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It is possible to inspect (and alter) the current state of the printer
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via the `printer` pseudo-variable. For example:
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```
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[gcode_macro slow_fan]
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gcode:
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M106 S{ printer.fan.speed * 0.9 * 255}
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```
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Available fields are defined in the
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[Status Reference](Status_Reference.md) document.
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Important! Macros are first evaluated in entirety and only then are
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the resulting commands executed. If a macro issues a command that
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alters the state of the printer, the results of that state change will
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not be visible during the evaluation of the macro. This can also
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result in subtle behavior when a macro generates commands that call
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other macros, as the called macro is evaluated when it is invoked
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(which is after the entire evaluation of the calling macro).
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By convention, the name immediately following `printer` is the name of
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a config section. So, for example, `printer.fan` refers to the fan
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object created by the `[fan]` config section. There are some
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exceptions to this rule - notably the `gcode_move` and `toolhead`
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objects. If the config section contains spaces in it, then one can
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access it via the `[ ]` accessor - for example:
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`printer["generic_heater my_chamber_heater"].temperature`.
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Note that the Jinja2 `set` directive can assign a local name to an
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object in the `printer` hierarchy. This can make macros more readable
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and reduce typing. For example:
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```
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[gcode_macro QUERY_HTU21D]
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gcode:
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{% set sensor = printer["htu21d my_sensor"] %}
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M117 Temp:{sensor.temperature} Humidity:{sensor.humidity}
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```
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## Actions
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There are some commands available that can alter the state of the
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printer. For example, `{ action_emergency_stop() }` would cause the
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printer to go into a shutdown state. Note that these actions are taken
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at the time that the macro is evaluated, which may be a significant
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amount of time before the generated g-code commands are executed.
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Available "action" commands:
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- `action_respond_info(msg)`: Write the given `msg` to the
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/tmp/printer pseudo-terminal. Each line of `msg` will be sent with a
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"// " prefix.
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- `action_raise_error(msg)`: Abort the current macro (and any calling
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macros) and write the given `msg` to the /tmp/printer
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pseudo-terminal. The first line of `msg` will be sent with a "!! "
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prefix and subsequent lines will have a "// " prefix.
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- `action_emergency_stop(msg)`: Transition the printer to a shutdown
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state. The `msg` parameter is optional, it may be useful to describe
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the reason for the shutdown.
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- `action_call_remote_method(method_name)`: Calls a method registered
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by a remote client. If the method takes parameters they should
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be provided via keyword arguments, ie:
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`action_call_remote_method("print_stuff", my_arg="hello_world")`
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## Variables
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The SET_GCODE_VARIABLE command may be useful for saving state between
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macro calls. Variable names may not contain any upper case characters.
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For example:
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```
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[gcode_macro start_probe]
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variable_bed_temp: 0
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gcode:
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# Save target temperature to bed_temp variable
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SET_GCODE_VARIABLE MACRO=start_probe VARIABLE=bed_temp VALUE={printer.heater_bed.target}
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# Disable bed heater
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M140
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# Perform probe
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PROBE
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# Call finish_probe macro at completion of probe
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finish_probe
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[gcode_macro finish_probe]
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gcode:
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# Restore temperature
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M140 S{printer["gcode_macro start_probe"].bed_temp}
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```
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Be sure to take the timing of macro evaluation and command execution
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into account when using SET_GCODE_VARIABLE.
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## Delayed Gcodes
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The [delayed_gcode] configuration option can be used to execute a delayed
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gcode sequence:
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```
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[delayed_gcode clear_display]
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gcode:
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M117
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[gcode_macro load_filament]
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gcode:
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G91
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G1 E50
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G90
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M400
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M117 Load Complete!
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UPDATE_DELAYED_GCODE ID=clear_display DURATION=10
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```
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When the `load_filament` macro above executes, it will display a
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"Load Complete!" message after the extrusion is finished. The
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last line of gcode enables the "clear_display" delayed_gcode, set
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to execute in 10 seconds.
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The `initial_duration` config option can be set to execute the
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delayed_gcode on printer startup. The countdown begins when the
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printer enters the "ready" state. For example, the below delayed_gcode
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will execute 5 seconds after the printer is ready, initializing
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the display with a "Welcome!" message:
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```
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[delayed_gcode welcome]
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initial_duration: 5.
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gcode:
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M117 Welcome!
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```
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Its possible for a delayed gcode to repeat by updating itself in
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the gcode option:
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```
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[delayed_gcode report_temp]
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initial_duration: 2.
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gcode:
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{action_respond_info("Extruder Temp: %.1f" % (printer.extruder0.temperature))}
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UPDATE_DELAYED_GCODE ID=report_temp DURATION=2
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```
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The above delayed_gcode will send "// Extruder Temp: [ex0_temp]" to
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Octoprint every 2 seconds. This can be canceled with the following
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gcode:
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```
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UPDATE_DELAYED_GCODE ID=report_temp DURATION=0
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```
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## Menu templates
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If a [display config section](Config_Reference.md#display) is enabled,
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then it is possible to customize the menu with
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[menu](Config_Reference.md#menu) config sections.
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The following read-only attributes are available in menu templates:
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* `menu.width` - element width (number of display columns)
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* `menu.ns` - element namespace
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* `menu.event` - name of the event that triggered the script
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* `menu.input` - input value, only available in input script context
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The following actions are available in menu templates:
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* `menu.back(force, update)`: will execute menu back command, optional
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boolean parameters `<force>` and `<update>`.
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* When `<force>` is set True then it will also stop editing. Default
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value is False.
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* When `<update>` is set False then parent container items are not
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updated. Default value is True.
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* `menu.exit(force)` - will execute menu exit command, optional
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boolean parameter `<force>` default value False.
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* When `<force>` is set True then it will also stop editing. Default
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value is False.
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## Save Variables to disk
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If a
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[save_variables config section](Config_Reference.md#save_variables)
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has been enabled, `SAVE_VARIABLE VARIABLE=<name> VALUE=<value>` can be
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used to save the variable to disk so that it can be used across
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restarts. All stored variables are loaded into the
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`printer.save_variables.variables` dict at startup and can be used in
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gcode macros. to avoid overly long lines you can add the following at
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the top of the macro:
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```
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{% set svv = printer.save_variables.variables %}
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```
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As an example, it could be used to save the state of 2-in-1-out hotend
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and when starting a print ensure that the active extruder is used,
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instead of T0:
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```
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[gcode_macro T1]
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gcode:
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ACTIVATE_EXTRUDER extruder=extruder1
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SAVE_VARIABLE VARIABLE=currentextruder VALUE='"extruder1"'
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[gcode_macro T0]
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gcode:
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ACTIVATE_EXTRUDER extruder=extruder
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SAVE_VARIABLE VARIABLE=currentextruder VALUE='"extruder"'
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[gcode_macro START_GCODE]
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gcode:
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{% set svv = printer.save_variables.variables %}
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ACTIVATE_EXTRUDER extruder={svv.currentextruder}
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```
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