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- # Copyright (c) 2019 Ultimaker B.V.
- # Cura is released under the terms of the LGPLv3 or higher.
- from typing import Dict, List
- from UM.Logger import Logger
- from UM.Signal import Signal
- from UM.Util import parseBool
- from UM.Settings.ContainerRegistry import ContainerRegistry # To find all the variants for this machine.
- import cura.CuraApplication # Imported like this to prevent circular dependencies.
- from cura.Machines.ContainerNode import ContainerNode
- from cura.Machines.QualityChangesGroup import QualityChangesGroup # To construct groups of quality changes profiles that belong together.
- from cura.Machines.QualityGroup import QualityGroup # To construct groups of quality profiles that belong together.
- from cura.Machines.QualityNode import QualityNode
- from cura.Machines.VariantNode import VariantNode
- from cura.Machines.MaterialNode import MaterialNode
- import UM.FlameProfiler
- class MachineNode(ContainerNode):
- """This class represents a machine in the container tree.
- The subnodes of these nodes are variants.
- """
- def __init__(self, container_id: str) -> None:
- super().__init__(container_id)
- self.variants = {} # type: Dict[str, VariantNode] # Mapping variant names to their nodes.
- self.global_qualities = {} # type: Dict[str, QualityNode] # Mapping quality types to the global quality for those types.
- self.materialsChanged = Signal() # Emitted when one of the materials underneath this machine has been changed.
- container_registry = ContainerRegistry.getInstance()
- try:
- my_metadata = container_registry.findContainersMetadata(id = container_id)[0]
- except IndexError:
- Logger.log("Unable to find metadata for container %s", container_id)
- my_metadata = {}
- # Some of the metadata is cached upon construction here.
- # ONLY DO THAT FOR METADATA THAT DOESN'T CHANGE DURING RUNTIME!
- # Otherwise you need to keep it up-to-date during runtime.
- self.has_materials = parseBool(my_metadata.get("has_materials", "true"))
- self.has_variants = parseBool(my_metadata.get("has_variants", "false"))
- self.has_machine_quality = parseBool(my_metadata.get("has_machine_quality", "false"))
- self.quality_definition = my_metadata.get("quality_definition", container_id) if self.has_machine_quality else "fdmprinter"
- self.exclude_materials = my_metadata.get("exclude_materials", [])
- self.preferred_variant_name = my_metadata.get("preferred_variant_name", "")
- self.preferred_material = my_metadata.get("preferred_material", "")
- self.preferred_quality_type = my_metadata.get("preferred_quality_type", "")
- self._loadAll()
- def getQualityGroups(self, variant_names: List[str], material_bases: List[str], extruder_enabled: List[bool]) -> Dict[str, QualityGroup]:
- """Get the available quality groups for this machine.
- This returns all quality groups, regardless of whether they are available to the combination of extruders or
- not. On the resulting quality groups, the is_available property is set to indicate whether the quality group
- can be selected according to the combination of extruders in the parameters.
- :param variant_names: The names of the variants loaded in each extruder.
- :param material_bases: The base file names of the materials loaded in each extruder.
- :param extruder_enabled: Whether or not the extruders are enabled. This allows the function to set the
- is_available properly.
- :return: For each available quality type, a QualityGroup instance.
- """
- if len(variant_names) != len(material_bases) or len(variant_names) != len(extruder_enabled):
- Logger.log("e", "The number of extruders in the list of variants (" + str(len(variant_names)) + ") is not equal to the number of extruders in the list of materials (" + str(len(material_bases)) + ") or the list of enabled extruders (" + str(len(extruder_enabled)) + ").")
- return {}
- # For each extruder, find which quality profiles are available. Later we'll intersect the quality types.
- qualities_per_type_per_extruder = [{}] * len(variant_names) # type: List[Dict[str, QualityNode]]
- for extruder_nr, variant_name in enumerate(variant_names):
- if not extruder_enabled[extruder_nr]:
- continue # No qualities are available in this extruder. It'll get skipped when calculating the available quality types.
- material_base = material_bases[extruder_nr]
- if variant_name not in self.variants or material_base not in self.variants[variant_name].materials:
- # The printer has no variant/material-specific quality profiles. Use the global quality profiles.
- qualities_per_type_per_extruder[extruder_nr] = self.global_qualities
- else:
- # Use the actually specialised quality profiles.
- qualities_per_type_per_extruder[extruder_nr] = {node.quality_type: node for node in self.variants[variant_name].materials[material_base].qualities.values()}
- # Create the quality group for each available type.
- quality_groups = {}
- for quality_type, global_quality_node in self.global_qualities.items():
- if not global_quality_node.container:
- Logger.log("w", "Node {0} doesn't have a container.".format(global_quality_node.container_id))
- continue
- quality_groups[quality_type] = QualityGroup(name = global_quality_node.getMetaDataEntry("name", "Unnamed profile"), quality_type = quality_type)
- quality_groups[quality_type].node_for_global = global_quality_node
- for extruder_position, qualities_per_type in enumerate(qualities_per_type_per_extruder):
- if quality_type in qualities_per_type:
- quality_groups[quality_type].setExtruderNode(extruder_position, qualities_per_type[quality_type])
- available_quality_types = set(quality_groups.keys())
- for extruder_nr, qualities_per_type in enumerate(qualities_per_type_per_extruder):
- if not extruder_enabled[extruder_nr]:
- continue
- available_quality_types.intersection_update(qualities_per_type.keys())
- for quality_type in available_quality_types:
- quality_groups[quality_type].is_available = True
- return quality_groups
- def getQualityChangesGroups(self, variant_names: List[str], material_bases: List[str], extruder_enabled: List[bool]) -> List[QualityChangesGroup]:
- """Returns all of the quality changes groups available to this printer.
- The quality changes groups store which quality type and intent category they were made for, but not which
- material and nozzle. Instead for the quality type and intent category, the quality changes will always be
- available but change the quality type and intent category when activated.
- The quality changes group does depend on the printer: Which quality definition is used.
- The quality changes groups that are available do depend on the quality types that are available, so it must
- still be known which extruders are enabled and which materials and variants are loaded in them. This allows
- setting the correct is_available flag.
- :param variant_names: The names of the variants loaded in each extruder.
- :param material_bases: The base file names of the materials loaded in each extruder.
- :param extruder_enabled: For each extruder whether or not they are enabled.
- :return: List of all quality changes groups for the printer.
- """
- machine_quality_changes = ContainerRegistry.getInstance().findContainersMetadata(type = "quality_changes", definition = self.quality_definition) # All quality changes for each extruder.
- groups_by_name = {} #type: Dict[str, QualityChangesGroup] # Group quality changes profiles by their display name. The display name must be unique for quality changes. This finds profiles that belong together in a group.
- for quality_changes in machine_quality_changes:
- name = quality_changes["name"]
- if name not in groups_by_name:
- # CURA-6599
- # For some reason, QML will get null or fail to convert type for MachineManager.activeQualityChangesGroup() to
- # a QObject. Setting the object ownership to QQmlEngine.ObjectOwnership.CppOwnership doesn't work, but setting the object
- # parent to application seems to work.
- from cura.CuraApplication import CuraApplication
- groups_by_name[name] = QualityChangesGroup(name, quality_type = quality_changes["quality_type"],
- intent_category = quality_changes.get("intent_category", "default"),
- parent = CuraApplication.getInstance())
- elif groups_by_name[name].intent_category == "default": # Intent category should be stored as "default" if everything is default or as the intent if any of the extruder have an actual intent.
- groups_by_name[name].intent_category = quality_changes.get("intent_category", "default")
- if quality_changes.get("position") is not None and quality_changes.get("position") != "None": # An extruder profile.
- groups_by_name[name].metadata_per_extruder[int(quality_changes["position"])] = quality_changes
- else: # Global profile.
- groups_by_name[name].metadata_for_global = quality_changes
- quality_groups = self.getQualityGroups(variant_names, material_bases, extruder_enabled)
- for quality_changes_group in groups_by_name.values():
- if quality_changes_group.quality_type not in quality_groups:
- if quality_changes_group.quality_type == "not_supported":
- # Quality changes based on an empty profile are always available.
- quality_changes_group.is_available = True
- else:
- quality_changes_group.is_available = False
- else:
- # Quality changes group is available iff the quality group it depends on is available. Irrespective of whether the intent category is available.
- quality_changes_group.is_available = quality_groups[quality_changes_group.quality_type].is_available
- return list(groups_by_name.values())
- def preferredGlobalQuality(self) -> "QualityNode":
- """Gets the preferred global quality node, going by the preferred quality type.
- If the preferred global quality is not in there, an arbitrary global quality is taken. If there are no global
- qualities, an empty quality is returned.
- """
- return self.global_qualities.get(self.preferred_quality_type, next(iter(self.global_qualities.values())))
- def isExcludedMaterial(self, material: MaterialNode) -> bool:
- """Returns whether the material should be excluded from the list of materials."""
- for exclude_material in self.exclude_materials:
- if exclude_material in material["id"]:
- return True
- return False
- @UM.FlameProfiler.profile
- def _loadAll(self) -> None:
- """(Re)loads all variants under this printer."""
- container_registry = ContainerRegistry.getInstance()
- if not self.has_variants:
- self.variants["empty"] = VariantNode("empty_variant", machine=self)
- self.variants["empty"].materialsChanged.connect(self.materialsChanged)
- else:
- # Find all the variants for this definition ID.
- variants = container_registry.findInstanceContainersMetadata(type = "variant", definition = self.container_id, hardware_type = "nozzle")
- for variant in variants:
- variant_name = variant["name"]
- if variant_name not in self.variants:
- self.variants[variant_name] = VariantNode(variant["id"], machine = self)
- self.variants[variant_name].materialsChanged.connect(self.materialsChanged)
- else:
- # Force reloading the materials if the variant already exists or else materals won't be loaded
- # when the G-Code flavor changes --> CURA-7354
- self.variants[variant_name]._loadAll()
- if not self.variants:
- self.variants["empty"] = VariantNode("empty_variant", machine = self)
- # Find the global qualities for this printer.
- global_qualities = container_registry.findInstanceContainersMetadata(type = "quality", definition = self.quality_definition, global_quality = "True") # First try specific to this printer.
- if not global_qualities: # This printer doesn't override the global qualities.
- global_qualities = container_registry.findInstanceContainersMetadata(type = "quality", definition = "fdmprinter", global_quality = "True") # Otherwise pick the global global qualities.
- if not global_qualities: # There are no global qualities either?! Something went very wrong, but we'll not crash and properly fill the tree.
- global_qualities = [cura.CuraApplication.CuraApplication.getInstance().empty_quality_container.getMetaData()]
- for global_quality in global_qualities:
- self.global_qualities[global_quality["quality_type"]] = QualityNode(global_quality["id"], parent = self)
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