# Copyright (c) 2018 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. from PyQt5.QtCore import Qt from UM.Application import Application from UM.Logger import Logger from UM.Qt.ListModel import ListModel from cura.Machines.QualityManager import QualityGroup # # QML Model for all built-in quality profiles. This model is used for the drop-down quality menu. # class QualityProfilesDropDownMenuModel(ListModel): NameRole = Qt.UserRole + 1 QualityTypeRole = Qt.UserRole + 2 LayerHeightRole = Qt.UserRole + 3 LayerHeightUnitRole = Qt.UserRole + 4 AvailableRole = Qt.UserRole + 5 QualityGroupRole = Qt.UserRole + 6 QualityChangesGroupRole = Qt.UserRole + 7 def __init__(self, parent = None): super().__init__(parent) self.addRoleName(self.NameRole, "name") self.addRoleName(self.QualityTypeRole, "quality_type") self.addRoleName(self.LayerHeightRole, "layer_height") self.addRoleName(self.LayerHeightUnitRole, "layer_height_unit") self.addRoleName(self.AvailableRole, "available") #Whether the quality profile is available in our current nozzle + material. self.addRoleName(self.QualityGroupRole, "quality_group") self.addRoleName(self.QualityChangesGroupRole, "quality_changes_group") self._application = Application.getInstance() self._machine_manager = self._application.getMachineManager() self._quality_manager = Application.getInstance().getQualityManager() self._application.globalContainerStackChanged.connect(self._update) self._machine_manager.activeQualityGroupChanged.connect(self._update) self._machine_manager.extruderChanged.connect(self._update) self._quality_manager.qualitiesUpdated.connect(self._update) self._layer_height_unit = "" # This is cached self._update() def _update(self): Logger.log("d", "Updating {model_class_name}.".format(model_class_name = self.__class__.__name__)) global_stack = self._machine_manager.activeMachine if global_stack is None: self.setItems([]) Logger.log("d", "No active GlobalStack, set quality profile model as empty.") return # Check for material compatibility if not self._machine_manager.activeMaterialsCompatible(): Logger.log("d", "No active material compatibility, set quality profile model as empty.") self.setItems([]) return quality_group_dict = self._quality_manager.getQualityGroups(global_stack) item_list = [] for key in sorted(quality_group_dict): quality_group = quality_group_dict[key] layer_height = self._fetchLayerHeight(quality_group) item = {"name": quality_group.name, "quality_type": quality_group.quality_type, "layer_height": layer_height, "layer_height_unit": self._layer_height_unit, "available": quality_group.is_available, "quality_group": quality_group} item_list.append(item) # Sort items based on layer_height item_list = sorted(item_list, key = lambda x: x["layer_height"]) self.setItems(item_list) def _fetchLayerHeight(self, quality_group: "QualityGroup"): global_stack = self._machine_manager.activeMachine if not self._layer_height_unit: unit = global_stack.definition.getProperty("layer_height", "unit") if not unit: unit = "" self._layer_height_unit = unit default_layer_height = global_stack.definition.getProperty("layer_height", "value") # Get layer_height from the quality profile for the GlobalStack container = quality_group.node_for_global.getContainer() layer_height = default_layer_height if container.hasProperty("layer_height", "value"): layer_height = container.getProperty("layer_height", "value") else: # Look for layer_height in the GlobalStack from material -> definition container = global_stack.definition if container.hasProperty("layer_height", "value"): layer_height = container.getProperty("layer_height", "value") return float(layer_height)