# Copyright (c) 2019 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. from typing import Optional, Dict, Any, Set, List from PyQt5.QtCore import Qt, QObject, pyqtProperty, pyqtSignal import cura.CuraApplication from UM.Qt.ListModel import ListModel from UM.Settings.ContainerRegistry import ContainerRegistry from UM.Settings.SettingFunction import SettingFunction from cura.Machines import MaterialNode, QualityGroup from cura.Machines.ContainerTree import ContainerTree class IntentModel(ListModel): NameRole = Qt.UserRole + 1 QualityTypeRole = Qt.UserRole + 2 LayerHeightRole = Qt.UserRole + 3 AvailableRole = Qt.UserRole + 4 IntentRole = Qt.UserRole + 5 def __init__(self, parent: Optional[QObject] = None) -> None: super().__init__(parent) self.addRoleName(self.NameRole, "name") self.addRoleName(self.QualityTypeRole, "quality_type") self.addRoleName(self.LayerHeightRole, "layer_height") self.addRoleName(self.AvailableRole, "available") self.addRoleName(self.IntentRole, "intent_category") self._intent_category = "engineering" machine_manager = cura.CuraApplication.CuraApplication.getInstance().getMachineManager() machine_manager.globalContainerChanged.connect(self._update) machine_manager.extruderChanged.connect(self._update) # We also need to update if an extruder gets disabled ContainerRegistry.getInstance().containerAdded.connect(self._onChanged) ContainerRegistry.getInstance().containerRemoved.connect(self._onChanged) self._layer_height_unit = "" # This is cached self._update() intentCategoryChanged = pyqtSignal() def setIntentCategory(self, new_category: str) -> None: if self._intent_category != new_category: self._intent_category = new_category self.intentCategoryChanged.emit() self._update() @pyqtProperty(str, fset = setIntentCategory, notify = intentCategoryChanged) def intentCategory(self) -> str: return self._intent_category def _onChanged(self, container): if container.getMetaDataEntry("type") == "intent": self._update() def _update(self) -> None: new_items = [] # type: List[Dict[str, Any]] global_stack = cura.CuraApplication.CuraApplication.getInstance().getGlobalContainerStack() if not global_stack: self.setItems(new_items) return quality_groups = ContainerTree.getInstance().getCurrentQualityGroups() material_nodes = self._get_active_materials() layer_heights_added = [] for material_node in material_nodes: intents = self._get_intents_for_material(material_node, quality_groups) for intent in intents: if intent["layer_height"] not in layer_heights_added: new_items.append(intent) layer_heights_added.append(intent["layer_height"]) # Now that we added all intents that we found something for, ensure that we set add ticks (and layer_heights) # for all groups that we don't have anything for (and set it to not available) for quality_tuple, quality_group in quality_groups.items(): # Add the intents that are of the correct category if quality_tuple[0] != self._intent_category: layer_height = self._fetchLayerHeight(quality_group) if layer_height not in layer_heights_added: new_items.append({"name": "Unavailable", "quality_type": "", "layer_height": layer_height, "intent_category": self._intent_category, "available": False}) layer_heights_added.append(layer_height) new_items = sorted(new_items, key=lambda x: x["layer_height"]) self.setItems(new_items) ## Get the active materials for all extruders. No duplicates will be returned def _get_active_materials(self) -> Set[MaterialNode]: global_stack = cura.CuraApplication.CuraApplication.getInstance().getGlobalContainerStack() container_tree = ContainerTree.getInstance() machine_node = container_tree.machines[global_stack.definition.getId()] nodes = set([]) for extruder in global_stack.extruderList: active_variant_name = extruder.variant.getMetaDataEntry("name") active_variant_node = machine_node.variants[active_variant_name] active_material_node = active_variant_node.materials[extruder.material.getMetaDataEntry("base_file")] nodes.add(active_material_node) return nodes def _get_intents_for_material(self, active_material_node: MaterialNode, quality_groups: Dict[str, QualityGroup]) -> List[Dict[str, Any]]: extruder_intents = [] # type: List[Dict[str, Any]] for quality_id, quality_node in active_material_node.qualities.items(): if quality_node.quality_type not in quality_groups: # Don't add the empty quality type (or anything else that would crash, defensively). continue quality_group = quality_groups[quality_node.quality_type] layer_height = self._fetchLayerHeight(quality_group) for intent_id, intent_node in quality_node.intents.items(): if intent_node.intent_category != self._intent_category: continue extruder_intents.append({"name": quality_group.name, "quality_type": quality_group.quality_type, "layer_height": layer_height, "available": quality_group.is_available, "intent_category": self._intent_category }) return extruder_intents #TODO: Copied this from QualityProfilesDropdownMenuModel for the moment. This code duplication should be fixed. def _fetchLayerHeight(self, quality_group: QualityGroup) -> float: global_stack = cura.CuraApplication.CuraApplication.getInstance().getMachineManager().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 if quality_group.node_for_global is None: return float(default_layer_height) container = quality_group.node_for_global.container layer_height = default_layer_height if container and 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 and container.hasProperty("layer_height", "value"): layer_height = container.getProperty("layer_height", "value") if isinstance(layer_height, SettingFunction): layer_height = layer_height(global_stack) return float(layer_height) def __repr__(self): return str(self.items)