# Copyright (c) 2020 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. # Created by Wayne Porter from ..Script import Script class TimeLapse(Script): def __init__(self): super().__init__() def getSettingDataString(self): return """{ "name": "Time Lapse", "key": "TimeLapse", "metadata": {}, "version": 2, "settings": { "trigger_command": { "label": "Trigger camera command", "description": "G-code command used to trigger camera.", "type": "str", "default_value": "M240" }, "pause_length": { "label": "Pause length", "description": "How long to wait (in ms) after camera was triggered.", "type": "int", "default_value": 700, "minimum_value": 0, "unit": "ms" }, "park_print_head": { "label": "Park Print Head", "description": "Park the print head out of the way. Assumes absolute positioning.", "type": "bool", "default_value": true }, "head_park_x": { "label": "Park Print Head X", "description": "What X location does the head move to for photo.", "unit": "mm", "type": "float", "default_value": 0, "enabled": "park_print_head" }, "head_park_y": { "label": "Park Print Head Y", "description": "What Y location does the head move to for photo.", "unit": "mm", "type": "float", "default_value": 190, "enabled": "park_print_head" }, "park_feed_rate": { "label": "Park Feed Rate", "description": "How fast does the head move to the park coordinates.", "unit": "mm/s", "type": "float", "default_value": 9000, "enabled": "park_print_head" }, "retract": { "label": "Retraction Distance", "description": "Filament retraction distance for camera trigger.", "unit": "mm", "type": "int", "default_value": 0 }, "zhop": { "label": "Z-Hop Height When Parking", "description": "Z-hop length before parking", "unit": "mm", "type": "float", "default_value": 0 } } }""" def execute(self, data): feed_rate = self.getSettingValueByKey("park_feed_rate") park_print_head = self.getSettingValueByKey("park_print_head") x_park = self.getSettingValueByKey("head_park_x") y_park = self.getSettingValueByKey("head_park_y") trigger_command = self.getSettingValueByKey("trigger_command") pause_length = self.getSettingValueByKey("pause_length") retract = int(self.getSettingValueByKey("retract")) zhop = self.getSettingValueByKey("zhop") gcode_to_append = ";TimeLapse Begin\n" last_x = 0 last_y = 0 last_z = 0 if park_print_head: gcode_to_append += self.putValue(G=1, F=feed_rate, X=x_park, Y=y_park) + " ;Park print head\n" gcode_to_append += self.putValue(M=400) + " ;Wait for moves to finish\n" gcode_to_append += trigger_command + " ;Snap Photo\n" gcode_to_append += self.putValue(G=4, P=pause_length) + " ;Wait for camera\n" for idx, layer in enumerate(data): for line in layer.split("\n"): if self.getValue(line, "G") in {0, 1}: # Track X,Y,Z location. last_x = self.getValue(line, "X", last_x) last_y = self.getValue(line, "Y", last_y) last_z = self.getValue(line, "Z", last_z) # Check that a layer is being printed lines = layer.split("\n") for line in lines: if ";LAYER:" in line: if retract != 0: # Retract the filament so no stringing happens layer += self.putValue(M=83) + " ;Extrude Relative\n" layer += self.putValue(G=1, E=-retract, F=3000) + " ;Retract filament\n" layer += self.putValue(M=82) + " ;Extrude Absolute\n" layer += self.putValue(M=400) + " ;Wait for moves to finish\n" # Wait to fully retract before hopping if zhop != 0: layer += self.putValue(G=1, Z=last_z+zhop, F=3000) + " ;Z-Hop\n" layer += gcode_to_append if zhop != 0: layer += self.putValue(G=0, X=last_x, Y=last_y, Z=last_z) + "; Restore position \n" else: layer += self.putValue(G=0, X=last_x, Y=last_y) + "; Restore position \n" if retract != 0: layer += self.putValue(M=400) + " ;Wait for moves to finish\n" layer += self.putValue(M=83) + " ;Extrude Relative\n" layer += self.putValue(G=1, E=retract, F=3000) + " ;Retract filament\n" layer += self.putValue(M=82) + " ;Extrude Absolute\n" data[idx] = layer break return data