# Copyright (c) 2019 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. from PyQt5.QtCore import Qt, QTimer import cura.CuraApplication # Imported this way to prevent circular dependencies. from UM.Logger import Logger from UM.Qt.ListModel import ListModel from cura.Machines.ContainerTree import ContainerTree from cura.Machines.Models.MachineModelUtils import fetchLayerHeight class QualityProfilesDropDownMenuModel(ListModel): """QML Model for all built-in quality profiles. This model is used for the drop-down quality menu.""" 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 IsExperimentalRole = Qt.UserRole + 8 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.addRoleName(self.IsExperimentalRole, "is_experimental") application = cura.CuraApplication.CuraApplication.getInstance() machine_manager = application.getMachineManager() application.globalContainerStackChanged.connect(self._onChange) machine_manager.activeQualityGroupChanged.connect(self._onChange) machine_manager.activeMaterialChanged.connect(self._onChange) machine_manager.activeVariantChanged.connect(self._onChange) machine_manager.extruderChanged.connect(self._onChange) extruder_manager = application.getExtruderManager() extruder_manager.extrudersChanged.connect(self._onChange) self._layer_height_unit = "" # This is cached self._update_timer = QTimer() # type: QTimer self._update_timer.setInterval(100) self._update_timer.setSingleShot(True) self._update_timer.timeout.connect(self._update) self._onChange() def _onChange(self) -> None: self._update_timer.start() def _update(self): Logger.log("d", "Updating {model_class_name}.".format(model_class_name = self.__class__.__name__)) # CURA-6836 # LabelBar is a repeater that creates labels for quality layer heights. Because of an optimization in # UM.ListModel, the model will not remove all items and recreate new ones every time there's an update. # Because LabelBar uses Repeater with Labels anchoring to "undefined" in certain cases, the anchoring will be # kept the same as before. self.setItems([]) global_stack = cura.CuraApplication.CuraApplication.getInstance().getGlobalContainerStack() if global_stack is None: self.setItems([]) Logger.log("d", "No active GlobalStack, set quality profile model as empty.") return if not self._layer_height_unit: unit = global_stack.definition.getProperty("layer_height", "unit") if not unit: unit = "" self._layer_height_unit = unit # Check for material compatibility if not cura.CuraApplication.CuraApplication.getInstance().getMachineManager().activeMaterialsCompatible(): Logger.log("d", "No active material compatibility, set quality profile model as empty.") self.setItems([]) return quality_group_dict = ContainerTree.getInstance().getCurrentQualityGroups() item_list = [] for quality_group in quality_group_dict.values(): layer_height = 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, "is_experimental": quality_group.is_experimental} 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)