[gcode_macro TEST_SPEED] # Home, get position, throw around toolhead, home again. # If MCU stepper positions (first line in GET_POSITION) are greater than a full step different (your number of microsteps), then skipping occured. # We only measure to a full step to accomodate for endstop variance. # Example: TEST_SPEED SPEED=300 ACCEL=5000 ITERATIONS=10 description: Test for max speed and acceleration parameters for the printer. Procedure: Home -> ReadPositionFromMCU -> MovesToolhead@Vel&Accel -> Home -> ReadPositionfromMCU gcode: # Speed {% set speed = params.SPEED|default(printer.configfile.settings.printer.max_velocity)|int %} # Iterations {% set iterations = params.ITERATIONS|default(5)|int %} # Acceleration {% set accel = params.ACCEL|default(printer.configfile.settings.printer.max_accel)|int %} # Minimum Cruise Ratio {% set min_cruise_ratio = params.MIN_CRUISE_RATIO|default(0.5)|float %} # Bounding inset for large pattern (helps prevent slamming the toolhead into the sides after small skips, and helps to account for machines with imperfectly set dimensions) {% set bound = params.BOUND|default(20)|int %} # Size for small pattern box {% set smallpatternsize = SMALLPATTERNSIZE|default(20)|int %} # Large pattern # Max positions, inset by BOUND {% set x_min = printer.toolhead.axis_minimum.x + bound %} {% set x_max = printer.toolhead.axis_maximum.x - bound %} {% set y_min = printer.toolhead.axis_minimum.y + bound %} {% set y_max = printer.toolhead.axis_maximum.y - bound %} # Small pattern at center # Find X/Y center point {% set x_center = (printer.toolhead.axis_minimum.x|float + printer.toolhead.axis_maximum.x|float ) / 2 %} {% set y_center = (printer.toolhead.axis_minimum.y|float + printer.toolhead.axis_maximum.y|float ) / 2 %} # Set small pattern box around center point {% set x_center_min = x_center - (smallpatternsize/2) %} {% set x_center_max = x_center + (smallpatternsize/2) %} {% set y_center_min = y_center - (smallpatternsize/2) %} {% set y_center_max = y_center + (smallpatternsize/2) %} # Save current gcode state (absolute/relative, etc) SAVE_GCODE_STATE NAME=TEST_SPEED # Output parameters to g-code terminal { action_respond_info("TEST_SPEED: starting %d iterations at speed %d, accel %d" % (iterations, speed, accel)) } # Home and get position for comparison later: M400 # Finish moves - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/66 G28 # QGL if not already QGLd (only if QGL section exists in config) {% if printer.configfile.settings.quad_gantry_level %} {% if printer.quad_gantry_level.applied == False %} QUAD_GANTRY_LEVEL G28 Z {% endif %} {% endif %} # Move 50mm away from max position and home again (to help with hall effect endstop accuracy - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/24) G90 G1 X{printer.toolhead.axis_maximum.x-50} Y{printer.toolhead.axis_maximum.y-50} F{30*60} M400 # Finish moves - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/66 G28 X Y G0 X{printer.toolhead.axis_maximum.x-1} Y{printer.toolhead.axis_maximum.y-1} F{30*60} G4 P1000 GET_POSITION # Go to starting position G0 X{x_min} Y{y_min} Z{bound + 10} F{speed*60} # Set new limits {% if printer.configfile.settings.printer.minimum_cruise_ratio is defined %} SET_VELOCITY_LIMIT VELOCITY={speed} ACCEL={accel} MINIMUM_CRUISE_RATIO={min_cruise_ratio} {% else %} SET_VELOCITY_LIMIT VELOCITY={speed} ACCEL={accel} ACCEL_TO_DECEL={accel / 2} {% endif %} {% for i in range(iterations) %} # Large pattern diagonals G0 X{x_min} Y{y_min} F{speed*60} G0 X{x_max} Y{y_max} F{speed*60} G0 X{x_min} Y{y_min} F{speed*60} G0 X{x_max} Y{y_min} F{speed*60} G0 X{x_min} Y{y_max} F{speed*60} G0 X{x_max} Y{y_min} F{speed*60} # Large pattern box G0 X{x_min} Y{y_min} F{speed*60} G0 X{x_min} Y{y_max} F{speed*60} G0 X{x_max} Y{y_max} F{speed*60} G0 X{x_max} Y{y_min} F{speed*60} # Small pattern diagonals G0 X{x_center_min} Y{y_center_min} F{speed*60} G0 X{x_center_max} Y{y_center_max} F{speed*60} G0 X{x_center_min} Y{y_center_min} F{speed*60} G0 X{x_center_max} Y{y_center_min} F{speed*60} G0 X{x_center_min} Y{y_center_max} F{speed*60} G0 X{x_center_max} Y{y_center_min} F{speed*60} # Small pattern box G0 X{x_center_min} Y{y_center_min} F{speed*60} G0 X{x_center_min} Y{y_center_max} F{speed*60} G0 X{x_center_max} Y{y_center_max} F{speed*60} G0 X{x_center_max} Y{y_center_min} F{speed*60} {% endfor %} # Restore max speed/accel/accel_to_decel to their configured values {% if printer.configfile.settings.printer.minimum_cruise_ratio is defined %} SET_VELOCITY_LIMIT VELOCITY={printer.configfile.settings.printer.max_velocity} ACCEL={printer.configfile.settings.printer.max_accel} MINIMUM_CRUISE_RATIO={printer.configfile.settings.printer.minimum_cruise_ratio} {% else %} SET_VELOCITY_LIMIT VELOCITY={printer.configfile.settings.printer.max_velocity} ACCEL={printer.configfile.settings.printer.max_accel} ACCEL_TO_DECEL={printer.configfile.settings.printer.max_accel_to_decel} {% endif %} # Re-home and get position again for comparison: M400 # Finish moves - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/66 G28 # This is a full G28 to fix an issue with CoreXZ - https://github.com/AndrewEllis93/Print-Tuning-Guide/issues/12 # Go to XY home positions (in case your homing override leaves it elsewhere) G90 G0 X{printer.toolhead.axis_maximum.x-1} Y{printer.toolhead.axis_maximum.y-1} F{30*60} G4 P1000 GET_POSITION # Restore previous gcode state (absolute/relative, etc) RESTORE_GCODE_STATE NAME=TEST_SPEED