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- # Copyright (c) 2022 Ultimaker B.V.
- # Cura is released under the terms of the LGPLv3 or higher.
- from PyQt6.QtCore import pyqtSignal, pyqtProperty, QObject, QVariant # For communicating data and events to Qt.
- from UM.Application import Application
- from UM.FlameProfiler import pyqtSlot
- import cura.CuraApplication # To get the global container stack to find the current machine.
- from UM.Util import parseBool
- from cura.Settings.GlobalStack import GlobalStack
- from UM.Logger import Logger
- from UM.Scene.Iterator.DepthFirstIterator import DepthFirstIterator
- from UM.Scene.Selection import Selection
- from UM.Scene.Iterator.BreadthFirstIterator import BreadthFirstIterator
- from UM.Settings.ContainerRegistry import ContainerRegistry # Finding containers by ID.
- from cura.Machines.ContainerTree import ContainerTree
- from typing import Any, cast, Dict, List, Optional, TYPE_CHECKING, Union
- if TYPE_CHECKING:
- from cura.Settings.ExtruderStack import ExtruderStack
- class ExtruderManager(QObject):
- """Manages all existing extruder stacks.
- This keeps a list of extruder stacks for each machine.
- """
- def __init__(self, parent = None):
- """Registers listeners and such to listen to changes to the extruders."""
- if ExtruderManager.__instance is not None:
- raise RuntimeError("Try to create singleton '%s' more than once" % self.__class__.__name__)
- super().__init__(parent)
- ExtruderManager.__instance = self
- self._application = cura.CuraApplication.CuraApplication.getInstance()
- # Per machine, a dictionary of extruder container stack IDs. Only for separately defined extruders.
- self._extruder_trains = {} # type: Dict[str, Dict[str, "ExtruderStack"]]
- self._active_extruder_index = -1 # Indicates the index of the active extruder stack. -1 means no active extruder stack
- # TODO; I have no idea why this is a union of ID's and extruder stacks. This needs to be fixed at some point.
- self._selected_object_extruders = [] # type: List[Union[str, "ExtruderStack"]]
- Selection.selectionChanged.connect(self.resetSelectedObjectExtruders)
- Application.getInstance().globalContainerStackChanged.connect(self.emitGlobalStackExtrudersChanged) # When the machine is swapped we must update the active machine extruders
- extrudersChanged = pyqtSignal(QVariant)
- """Signal to notify other components when the list of extruders for a machine definition changes."""
- activeExtruderChanged = pyqtSignal()
- """Notify when the user switches the currently active extruder."""
- def emitGlobalStackExtrudersChanged(self):
- # HACK
- # The emit function can't be directly connected to another signal. This wrapper function is required.
- # The extrudersChanged signal is emitted early when changing machines. This triggers it a second time
- # after the extruder have changed properly. This is important for any QML using ExtruderManager.extruderIds
- # This is a hack, but other behaviour relys on the updating in this order.
- self.extrudersChanged.emit(self._application.getGlobalContainerStack().getId())
- @pyqtProperty(int, notify = extrudersChanged)
- def enabledExtruderCount(self) -> int:
- global_container_stack = self._application.getGlobalContainerStack()
- if global_container_stack:
- return len([extruder for extruder in global_container_stack.extruderList if parseBool(extruder.getMetaDataEntry("enabled", "True"))])
- return 0
- @pyqtProperty(str, notify = activeExtruderChanged)
- def activeExtruderStackId(self) -> Optional[str]:
- """Gets the unique identifier of the currently active extruder stack.
- The currently active extruder stack is the stack that is currently being
- edited.
- :return: The unique ID of the currently active extruder stack.
- """
- if not self._application.getGlobalContainerStack():
- return None # No active machine, so no active extruder.
- try:
- return self._extruder_trains[self._application.getGlobalContainerStack().getId()][str(self.activeExtruderIndex)].getId()
- except KeyError: # Extruder index could be -1 if the global tab is selected, or the entry doesn't exist if the machine definition is wrong.
- return None
- @pyqtProperty("QVariantMap", notify = extrudersChanged)
- def extruderIds(self) -> Dict[str, str]:
- """Gets a dict with the extruder stack ids with the extruder number as the key."""
- extruder_stack_ids = {} # type: Dict[str, str]
- global_container_stack = self._application.getGlobalContainerStack()
- if global_container_stack:
- extruder_stack_ids = {extruder.getMetaDataEntry("position", ""): extruder.id for extruder in global_container_stack.extruderList}
- return extruder_stack_ids
- @pyqtSlot(int)
- def setActiveExtruderIndex(self, index: int) -> None:
- """Changes the active extruder by index.
- :param index: The index of the new active extruder.
- """
- if self._active_extruder_index != index:
- self._active_extruder_index = index
- self.activeExtruderChanged.emit()
- @pyqtProperty(int, notify = activeExtruderChanged)
- def activeExtruderIndex(self) -> int:
- return self._active_extruder_index
- selectedObjectExtrudersChanged = pyqtSignal()
- """Emitted whenever the selectedObjectExtruders property changes."""
- @pyqtProperty("QVariantList", notify = selectedObjectExtrudersChanged)
- def selectedObjectExtruders(self) -> List[Union[str, "ExtruderStack"]]:
- """Provides a list of extruder IDs used by the current selected objects."""
- if not self._selected_object_extruders:
- object_extruders = set()
- # First, build a list of the actual selected objects (including children of groups, excluding group nodes)
- selected_nodes = [] # type: List["SceneNode"]
- for node in Selection.getAllSelectedObjects():
- if node.callDecoration("isGroup"):
- for grouped_node in BreadthFirstIterator(node):
- if grouped_node.callDecoration("isGroup"):
- continue
- selected_nodes.append(grouped_node)
- else:
- selected_nodes.append(node)
- # Then, figure out which nodes are used by those selected nodes.
- current_extruder_trains = self.getActiveExtruderStacks()
- for node in selected_nodes:
- extruder = node.callDecoration("getActiveExtruder")
- if extruder:
- object_extruders.add(extruder)
- elif current_extruder_trains:
- object_extruders.add(current_extruder_trains[0].getId())
- self._selected_object_extruders = list(object_extruders)
- return self._selected_object_extruders
- def resetSelectedObjectExtruders(self) -> None:
- """Reset the internal list used for the selectedObjectExtruders property
- This will trigger a recalculation of the extruders used for the
- selection.
- """
- self._selected_object_extruders = []
- self.selectedObjectExtrudersChanged.emit()
- @pyqtSlot(result = QObject)
- def getActiveExtruderStack(self) -> Optional["ExtruderStack"]:
- return self.getExtruderStack(self.activeExtruderIndex)
- def getExtruderStack(self, index) -> Optional["ExtruderStack"]:
- """Get an extruder stack by index"""
- global_container_stack = self._application.getGlobalContainerStack()
- if global_container_stack:
- if global_container_stack.getId() in self._extruder_trains:
- if str(index) in self._extruder_trains[global_container_stack.getId()]:
- return self._extruder_trains[global_container_stack.getId()][str(index)]
- return None
- def getAllExtruderSettings(self, setting_key: str, prop: str) -> List[Any]:
- """Gets a property of a setting for all extruders.
- :param setting_key: :type{str} The setting to get the property of.
- :param prop: :type{str} The property to get.
- :return: :type{List} the list of results
- """
- result = []
- for extruder_stack in self.getActiveExtruderStacks():
- result.append(extruder_stack.getProperty(setting_key, prop))
- return result
- def extruderValueWithDefault(self, value: str) -> str:
- machine_manager = self._application.getMachineManager()
- if value == "-1":
- return machine_manager.defaultExtruderPosition
- else:
- return value
- def getUsedExtruderStacks(self) -> List["ExtruderStack"]:
- """Gets the extruder stacks that are actually being used at the moment.
- An extruder stack is being used if it is the extruder to print any mesh
- with, or if it is the support infill extruder, the support interface
- extruder, or the bed adhesion extruder.
- If there are no extruders, this returns the global stack as a singleton
- list.
- :return: A list of extruder stacks.
- """
- global_stack = self._application.getGlobalContainerStack()
- container_registry = ContainerRegistry.getInstance()
- used_extruder_stack_ids = set()
- # Get the extruders of all meshes in the scene
- support_enabled = False
- support_bottom_enabled = False
- support_roof_enabled = False
- scene_root = self._application.getController().getScene().getRoot()
- # If no extruders are registered in the extruder manager yet, return an empty array
- if len(self.extruderIds) == 0:
- return []
- number_active_extruders = len([extruder for extruder in self.getActiveExtruderStacks() if extruder.isEnabled])
- # Get the extruders of all printable meshes in the scene
- nodes = [node for node in DepthFirstIterator(scene_root) if node.isSelectable() and not node.callDecoration("isAntiOverhangMesh") and not node.callDecoration("isSupportMesh")] #type: ignore #Ignore type error because iter() should get called automatically by Python syntax.
- for node in nodes:
- extruder_stack_id = node.callDecoration("getActiveExtruder")
- if not extruder_stack_id:
- # No per-object settings for this node
- extruder_stack_id = self.extruderIds["0"]
- used_extruder_stack_ids.add(extruder_stack_id)
- if len(used_extruder_stack_ids) == number_active_extruders:
- # We're already done. Stop looking.
- # Especially with a lot of models on the buildplate, this will speed up things rather dramatically.
- break
- # Get whether any of them use support.
- stack_to_use = node.callDecoration("getStack") # if there is a per-mesh stack, we use it
- if not stack_to_use:
- # if there is no per-mesh stack, we use the build extruder for this mesh
- stack_to_use = container_registry.findContainerStacks(id = extruder_stack_id)[0]
- if not support_enabled:
- support_enabled |= stack_to_use.getProperty("support_enable", "value")
- if not support_bottom_enabled:
- support_bottom_enabled |= stack_to_use.getProperty("support_bottom_enable", "value")
- if not support_roof_enabled:
- support_roof_enabled |= stack_to_use.getProperty("support_roof_enable", "value")
- # Check limit to extruders
- limit_to_extruder_feature_list = ["wall_0_extruder_nr",
- "wall_x_extruder_nr",
- "roofing_extruder_nr",
- "top_bottom_extruder_nr",
- "infill_extruder_nr",
- ]
- for extruder_nr_feature_name in limit_to_extruder_feature_list:
- extruder_nr = int(global_stack.getProperty(extruder_nr_feature_name, "value"))
- if extruder_nr == -1:
- continue
- if str(extruder_nr) not in self.extruderIds:
- extruder_nr = int(self._application.getMachineManager().defaultExtruderPosition)
- used_extruder_stack_ids.add(self.extruderIds[str(extruder_nr)])
- # Check support extruders
- if support_enabled:
- used_extruder_stack_ids.add(self.extruderIds[self.extruderValueWithDefault(str(global_stack.getProperty("support_infill_extruder_nr", "value")))])
- used_extruder_stack_ids.add(self.extruderIds[self.extruderValueWithDefault(str(global_stack.getProperty("support_extruder_nr_layer_0", "value")))])
- if support_bottom_enabled:
- used_extruder_stack_ids.add(self.extruderIds[self.extruderValueWithDefault(str(global_stack.getProperty("support_bottom_extruder_nr", "value")))])
- if support_roof_enabled:
- used_extruder_stack_ids.add(self.extruderIds[self.extruderValueWithDefault(str(global_stack.getProperty("support_roof_extruder_nr", "value")))])
- # The platform adhesion extruders.
- used_adhesion_extruders = set()
- adhesion_type = global_stack.getProperty("adhesion_type", "value")
- if adhesion_type == "skirt" and (global_stack.getProperty("skirt_line_count", "value") > 0 or global_stack.getProperty("skirt_brim_minimal_length", "value") > 0):
- used_adhesion_extruders.add("skirt_brim_extruder_nr") # There's a skirt.
- if (adhesion_type == "brim" or global_stack.getProperty("prime_tower_brim_enable", "value")) and (global_stack.getProperty("brim_line_count", "value") > 0 or global_stack.getProperty("skirt_brim_minimal_length", "value") > 0):
- used_adhesion_extruders.add("skirt_brim_extruder_nr") # There's a brim or prime tower brim.
- if adhesion_type == "raft":
- used_adhesion_extruders.add("raft_base_extruder_nr")
- if global_stack.getProperty("raft_interface_layers", "value") > 0:
- used_adhesion_extruders.add("raft_interface_extruder_nr")
- if global_stack.getProperty("raft_surface_layers", "value") > 0:
- used_adhesion_extruders.add("raft_surface_extruder_nr")
- for extruder_setting in used_adhesion_extruders:
- extruder_str_nr = str(global_stack.getProperty(extruder_setting, "value"))
- if extruder_str_nr == "-1":
- continue # An optional extruder doesn't force any extruder to be used if it isn't used already
- if extruder_str_nr in self.extruderIds:
- used_extruder_stack_ids.add(self.extruderIds[extruder_str_nr])
- try:
- return [container_registry.findContainerStacks(id = stack_id)[0] for stack_id in used_extruder_stack_ids]
- except IndexError: # One or more of the extruders was not found.
- Logger.log("e", "Unable to find one or more of the extruders in %s", used_extruder_stack_ids)
- return []
- def getInitialExtruderNr(self) -> int:
- """Get the extruder that the print will start with.
- This should mirror the implementation in CuraEngine of
- ``FffGcodeWriter::getStartExtruder()``.
- """
- application = cura.CuraApplication.CuraApplication.getInstance()
- global_stack = application.getGlobalContainerStack()
- # Starts with the adhesion extruder.
- adhesion_type = global_stack.getProperty("adhesion_type", "value")
- if adhesion_type in {"skirt", "brim"}:
- skirt_brim_extruder_nr = global_stack.getProperty("skirt_brim_extruder_nr", "value")
- # if the skirt_brim_extruder_nr is -1, then we use the first used extruder
- if skirt_brim_extruder_nr == -1:
- used_extruders = self.getUsedExtruderStacks()
- return used_extruders[0].position
- else:
- return skirt_brim_extruder_nr
- if adhesion_type == "raft":
- return global_stack.getProperty("raft_base_extruder_nr", "value")
- # No adhesion? Well maybe there is still support brim.
- if (global_stack.getProperty("support_enable", "value") or global_stack.getProperty("support_structure", "value") == "tree") and global_stack.getProperty("support_brim_enable", "value"):
- return global_stack.getProperty("support_infill_extruder_nr", "value")
- # REALLY no adhesion? Use the first used extruder.
- return self.getUsedExtruderStacks()[0].getProperty("extruder_nr", "value")
- def removeMachineExtruders(self, machine_id: str) -> None:
- """Removes the container stack and user profile for the extruders for a specific machine.
- :param machine_id: The machine to remove the extruders for.
- """
- for extruder in self.getMachineExtruders(machine_id):
- ContainerRegistry.getInstance().removeContainer(extruder.userChanges.getId())
- ContainerRegistry.getInstance().removeContainer(extruder.definitionChanges.getId())
- ContainerRegistry.getInstance().removeContainer(extruder.getId())
- if machine_id in self._extruder_trains:
- del self._extruder_trains[machine_id]
- def getMachineExtruders(self, machine_id: str) -> List["ExtruderStack"]:
- """Returns extruders for a specific machine.
- :param machine_id: The machine to get the extruders of.
- """
- if machine_id not in self._extruder_trains:
- return []
- return [self._extruder_trains[machine_id][name] for name in self._extruder_trains[machine_id]]
- def getActiveExtruderStacks(self) -> List["ExtruderStack"]:
- """Returns the list of active extruder stacks, taking into account the machine extruder count.
- :return: :type{List[ContainerStack]} a list of
- """
- global_stack = self._application.getGlobalContainerStack()
- if not global_stack:
- return []
- return global_stack.extruderList
- def _globalContainerStackChanged(self) -> None:
- # If the global container changed, the machine changed and might have extruders that were not registered yet
- self._addCurrentMachineExtruders()
- self.resetSelectedObjectExtruders()
- def addMachineExtruders(self, global_stack: GlobalStack) -> None:
- """Adds the extruders to the selected machine."""
- extruders_changed = False
- container_registry = ContainerRegistry.getInstance()
- global_stack_id = global_stack.getId()
- # Gets the extruder trains that we just created as well as any that still existed.
- extruder_trains = container_registry.findContainerStacks(type = "extruder_train", machine = global_stack_id)
- # Make sure the extruder trains for the new machine can be placed in the set of sets
- if global_stack_id not in self._extruder_trains:
- self._extruder_trains[global_stack_id] = {}
- extruders_changed = True
- # Register the extruder trains by position
- for extruder_train in extruder_trains:
- extruder_position = extruder_train.getMetaDataEntry("position")
- self._extruder_trains[global_stack_id][extruder_position] = extruder_train
- # regardless of what the next stack is, we have to set it again, because of signal routing. ???
- extruder_train.setParent(global_stack)
- extruder_train.setNextStack(global_stack)
- extruders_changed = True
- self.fixSingleExtrusionMachineExtruderDefinition(global_stack)
- if extruders_changed:
- self.extrudersChanged.emit(global_stack_id)
- # After 3.4, all single-extrusion machines have their own extruder definition files instead of reusing
- # "fdmextruder". We need to check a machine here so its extruder definition is correct according to this.
- def fixSingleExtrusionMachineExtruderDefinition(self, global_stack: "GlobalStack") -> None:
- container_registry = ContainerRegistry.getInstance()
- expected_extruder_stack = global_stack.getMetaDataEntry("machine_extruder_trains")
- if expected_extruder_stack is None:
- return
- expected_extruder_definition_0_id = expected_extruder_stack["0"]
- try:
- extruder_stack_0 = global_stack.extruderList[0]
- except IndexError:
- extruder_stack_0 = None
- # At this point, extruder stacks for this machine may not have been loaded yet. In this case, need to look in
- # the container registry as well.
- if not global_stack.extruderList:
- extruder_trains = container_registry.findContainerStacks(type = "extruder_train",
- machine = global_stack.getId())
- if extruder_trains:
- for extruder in extruder_trains:
- if extruder.getMetaDataEntry("position") == "0":
- extruder_stack_0 = extruder
- break
- if extruder_stack_0 is None:
- Logger.log("i", "No extruder stack for global stack [%s], create one", global_stack.getId())
- # Single extrusion machine without an ExtruderStack, create it
- from cura.Settings.CuraStackBuilder import CuraStackBuilder
- CuraStackBuilder.createExtruderStackWithDefaultSetup(global_stack, 0)
- elif extruder_stack_0.definition.getId() != expected_extruder_definition_0_id:
- Logger.log("e", "Single extruder printer [{printer}] expected extruder [{expected}], but got [{got}]. I'm making it [{expected}].".format(
- printer = global_stack.getId(), expected = expected_extruder_definition_0_id, got = extruder_stack_0.definition.getId()))
- try:
- extruder_definition = container_registry.findDefinitionContainers(id = expected_extruder_definition_0_id)[0]
- except IndexError:
- # It still needs to break, but we want to know what extruder ID made it break.
- msg = "Unable to find extruder definition with the id [%s]" % expected_extruder_definition_0_id
- Logger.logException("e", msg)
- raise IndexError(msg)
- extruder_stack_0.definition = extruder_definition
- @pyqtSlot("QVariant", result = bool)
- def getExtruderHasQualityForMaterial(self, extruder_stack: "ExtruderStack") -> bool:
- """Checks if quality nodes exist for the variant/material combination."""
- application = cura.CuraApplication.CuraApplication.getInstance()
- global_stack = application.getGlobalContainerStack()
- if not global_stack or not extruder_stack:
- return False
- if not global_stack.getMetaDataEntry("has_materials"):
- return True
- machine_node = ContainerTree.getInstance().machines[global_stack.definition.getId()]
- active_variant_name = extruder_stack.variant.getMetaDataEntry("name")
- if active_variant_name not in machine_node.variants:
- Logger.log("w", "Could not find the variant %s", active_variant_name)
- return True
- active_variant_node = machine_node.variants[active_variant_name]
- try:
- active_material_node = active_variant_node.materials[extruder_stack.material.getMetaDataEntry("base_file")]
- except KeyError: # The material in this stack is not a supported material (e.g. wrong filament diameter, as loaded from a project file).
- return False
- active_material_node_qualities = active_material_node.qualities
- if not active_material_node_qualities:
- return False
- return list(active_material_node_qualities.keys())[0] != "empty_quality"
- @pyqtSlot(str, result="QVariant")
- def getInstanceExtruderValues(self, key: str) -> List:
- """Get all extruder values for a certain setting.
- This is exposed to qml for display purposes
- :param key: The key of the setting to retrieve values for.
- :return: String representing the extruder values
- """
- return self._application.getCuraFormulaFunctions().getValuesInAllExtruders(key)
- @staticmethod
- def getResolveOrValue(key: str) -> Any:
- """Get the resolve value or value for a given key
- This is the effective value for a given key, it is used for values in the global stack.
- This is exposed to SettingFunction to use in value functions.
- :param key: The key of the setting to get the value of.
- :return: The effective value
- """
- global_stack = cast(GlobalStack, cura.CuraApplication.CuraApplication.getInstance().getGlobalContainerStack())
- resolved_value = global_stack.getProperty(key, "value")
- return resolved_value
- __instance = None # type: ExtruderManager
- @classmethod
- def getInstance(cls, *args, **kwargs) -> "ExtruderManager":
- return cls.__instance
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