Svanhvid/print_area_bed_mesh.cfg

[gcode_macro BED_MESH_CALIBRATE]
# print surface bed mesh calibrate
# Works with Klicky Probe on Voron
# November 24, 2021
# Steve Turgeon
rename_existing: _BED_MESH_CALIBRATE

variable_buffer: 20

; Do not change any of the existing values below.
variable_last_area_start_x: -1 ; Do not change
variable_last_area_start_y: -1 ; Do not change
variable_last_area_end_x: -1 ; Do not change
variable_last_area_end_y: -1 ; Do not change

gcode:

    {% if params.FORCE_NEW_MESH != null %}
        { action_respond_info("Force New Mesh: %s" % (params.FORCE_NEW_MESH)) }
    {% endif %}
    {% if printer["bed_mesh"].profile_name == '' %}
        { action_respond_info("No existing bed mesh found.") }
        {% set last_area_end_x=-1 %}
    {% endif %}

    {% if printer.toolhead.homed_axes != "xyz" %}
        G28
    {% endif %}

    {% set klicky_available = printer['gcode_macro _Probe_Variables'] != null %}
    {% set euclid_available = printer['gcode_macro EuclidProbe'] != null %}; Requires v5 macros https://github.com/nionio6915/Euclid_Probe/blob/main/Firmware_Examples/Klipper/00-euclid_exampleV5.cfg
    {% if params.PRINT_MIN %}
        { action_respond_info("print_min: %s" % params.PRINT_MIN) }
        { action_respond_info("print_max: %s" % params.PRINT_MAX) }
        
        {% set blTouchConfig = printer['configfile'].config["bltouch"] %}
        {% if blTouchConfig %}
            {% set OffsetX = blTouchConfig.x_offset|default(0)|float %}
            {% set OffsetY = blTouchConfig.y_offset|default(0)|float %}
        {% endif %}
        
        {% set probeConfig = printer['configfile'].config["probe"] %}
        {% if probeConfig %}
            {% set OffsetX = probeConfig.x_offset|default(0)|float %}
            {% set OffsetY = probeConfig.y_offset|default(0)|float %}
        {% endif %}

        {% set print_min_x = params.PRINT_MIN.split(",")[0]|float %}
        {% set print_min_y = params.PRINT_MIN.split(",")[1]|float %}
        {% set print_max_x = params.PRINT_MAX.split(",")[0]|float %}
        {% set print_max_y = params.PRINT_MAX.split(",")[1]|float %}

        {% if last_area_start_x > 0 %}
            { action_respond_info("last_bed_mesh: %s,%s %s,%s" % (last_area_start_x, last_area_start_y, last_area_end_x, last_area_end_y)) }
        {% endif %}

        {% if (params.FORCE_NEW_MESH != null) or (print_min_x < last_area_start_x) or (print_max_x > last_area_end_x) or (print_min_y < last_area_start_y) or (print_max_y > last_area_end_y)  %}
            {% if klicky_available %}
                _CheckProbe action=query
                Attach_Probe
            {% elif euclid_available %}
                DEPLOY_PROBE
            {% endif %}
            {% if (print_min_x < print_max_x) and (print_min_y < print_max_y) %}

                # Get bed_mesh config (probe count, mesh_min and mesh_max for x and y
                {% set bedMeshConfig = printer['configfile'].config["bed_mesh"] %}
                {% set minimum_probe_count = 3 %}
                {% if bedMeshConfig.algorithm == "bicubic" %}
                    {% set minimum_probe_count = 5 %}
                {% endif %}
                {% set probe_count = bedMeshConfig.probe_count.split(",") %}
                {% set probe_count_x = probe_count[0]|int %}
                {% if probe_count.__len__() > 1 %}
                    {% set probe_count_y = probe_count[1]|int %}
                {% else %}
                    {% set probe_count_y = probe_count_x|int %}
                {% endif %}
                {% set relative_reference_index = bedMeshConfig.relative_reference_index %}
                {% set mesh_min_x = bedMeshConfig.mesh_min.split(",")[0]|float %}
                {% set mesh_min_y = bedMeshConfig.mesh_min.split(",")[1]|float %}
                {% set mesh_max_x = bedMeshConfig.mesh_max.split(",")[0]|float %}
                {% set mesh_max_y = bedMeshConfig.mesh_max.split(",")[1]|float %}

                # If print area X is smaller than 50% of the bed size, change to to 3 probe counts for X instead of the default 
                {% if print_max_x - print_min_x < (mesh_max_x - mesh_min_x) * 0.50 %}
                    {% set probe_count_x = minimum_probe_count %}
                {% endif %}

                # If print area Y is smaller than 50% of the bed size, change to to 3 probe counts for Y instead of the default 
                {% if print_max_y - print_min_y < (mesh_max_y - mesh_min_y) * 0.50 %}
                    {% set probe_count_y = minimum_probe_count %}
                {% endif %}

                {% if print_min_x - buffer >= mesh_min_x %}
                    {% set mesh_min_x = print_min_x - buffer %}
                {% endif %}

                {% if print_min_y - buffer >= mesh_min_y %}
                    {% set mesh_min_y = print_min_y - buffer %}
                {% endif %}

                {% if print_max_x + buffer <= mesh_max_x %}
                    {% set mesh_max_x = print_max_x + buffer %}
                {% endif %}

                {% if print_max_y + buffer <= mesh_max_y %}
                    {% set mesh_max_y = print_max_y + buffer %}
                {% endif %}

                { action_respond_info("mesh_min: %s,%s" % (mesh_min_x, mesh_min_y)) }
                { action_respond_info("mesh_max: %s,%s" % (mesh_max_x, mesh_max_y)) }
                { action_respond_info("probe_count: %s,%s" % (probe_count_x,probe_count_y)) }

                ; Set variables so they're available outside of macro
                SET_GCODE_VARIABLE MACRO=BED_MESH_CALIBRATE VARIABLE=last_area_start_x VALUE={print_min_x}
                SET_GCODE_VARIABLE MACRO=BED_MESH_CALIBRATE VARIABLE=last_area_start_y VALUE={print_min_y}
                SET_GCODE_VARIABLE MACRO=BED_MESH_CALIBRATE VARIABLE=last_area_end_x VALUE={print_max_x}
                SET_GCODE_VARIABLE MACRO=BED_MESH_CALIBRATE VARIABLE=last_area_end_y VALUE={print_max_y}

                {% if printer["gcode_macro status_meshing"] != null %}
                    status_meshing
                {% endif %}

                {% if relative_reference_index == 0 or relative_reference_index == null %}
                    _BED_MESH_CALIBRATE mesh_min={mesh_min_x},{mesh_min_y} mesh_max={mesh_max_x},{mesh_max_y} probe_count={probe_count_x},{probe_count_y}
                {% else %}
                    {% set relative_reference_index = ((probe_count_x * probe_count_y - 1) / 2)|int %}
                    { action_respond_info("relative_reference_index: %s" % relative_reference_index) }
                    _BED_MESH_CALIBRATE mesh_min={mesh_min_x},{mesh_min_y} mesh_max={mesh_max_x},{mesh_max_y} probe_count={probe_count_x},{probe_count_y} relative_reference_index={relative_reference_index}
                {% endif %}
            {% else %}
                {% if printer["gcode_macro status_meshing"] != null %}
                    status_meshing
                {% endif %}
                _BED_MESH_CALIBRATE
            {% endif %}
            {% if klicky_available %}
                Dock_Probe
            {% elif euclid_available %}
                STOW_PROBE
            {% endif %}
        {% else %}
            { action_respond_info("No need to recreate Bed Mesh since it's same as current mesh or smaller") }
        {% endif %}
    {% else %}
        {% if klicky_available %}
            _CheckProbe action=query
            Attach_Probe
        {% elif euclid_available %}
            STOW_PROBE
        {% endif %}
        {% if printer["gcode_macro status_meshing"] != null %}
            status_meshing
        {% endif %}
        _BED_MESH_CALIBRATE
        {% if klicky_available %}
            Dock_Probe
        {% endif %}
        {% if euclid_available %}
            STOW_PROBE
        {% endif %}
    {% endif %}
    {% if printer["gcode_macro status_ready"] != null %}
        status_ready
    {% endif %}