from UM.Workspace.WorkspaceReader import WorkspaceReader from UM.Application import Application from UM.Logger import Logger from UM.i18n import i18nCatalog from UM.Settings.ContainerStack import ContainerStack from UM.Settings.DefinitionContainer import DefinitionContainer from UM.Settings.InstanceContainer import InstanceContainer from UM.Settings.ContainerRegistry import ContainerRegistry from UM.MimeTypeDatabase import MimeTypeDatabase from UM.Job import Job from UM.Preferences import Preferences from .WorkspaceDialog import WorkspaceDialog import xml.etree.ElementTree as ET from cura.Settings.ExtruderManager import ExtruderManager import zipfile import io import configparser i18n_catalog = i18nCatalog("cura") ## Base implementation for reading 3MF workspace files. class ThreeMFWorkspaceReader(WorkspaceReader): def __init__(self): super().__init__() self._supported_extensions = [".3mf"] self._dialog = WorkspaceDialog() self._3mf_mesh_reader = None self._container_registry = ContainerRegistry.getInstance() self._definition_container_suffix = ContainerRegistry.getMimeTypeForContainer(DefinitionContainer).preferredSuffix self._material_container_suffix = None # We have to wait until all other plugins are loaded before we can set it self._instance_container_suffix = ContainerRegistry.getMimeTypeForContainer(InstanceContainer).preferredSuffix self._container_stack_suffix = ContainerRegistry.getMimeTypeForContainer(ContainerStack).preferredSuffix self._resolve_strategies = {} self._id_mapping = {} ## Get a unique name based on the old_id. This is different from directly calling the registry in that it caches results. # This has nothing to do with speed, but with getting consistent new naming for instances & objects. def getNewId(self, old_id): if old_id not in self._id_mapping: self._id_mapping[old_id] = self._container_registry.uniqueName(old_id) return self._id_mapping[old_id] def preRead(self, file_name): self._3mf_mesh_reader = Application.getInstance().getMeshFileHandler().getReaderForFile(file_name) if self._3mf_mesh_reader and self._3mf_mesh_reader.preRead(file_name) == WorkspaceReader.PreReadResult.accepted: pass else: Logger.log("w", "Could not find reader that was able to read the scene data for 3MF workspace") return WorkspaceReader.PreReadResult.failed machine_name = "" machine_type = "" variant_type_name = i18n_catalog.i18nc("@label", "Nozzle") num_extruders = 0 # Check if there are any conflicts, so we can ask the user. archive = zipfile.ZipFile(file_name, "r") cura_file_names = [name for name in archive.namelist() if name.startswith("Cura/")] container_stack_files = [name for name in cura_file_names if name.endswith(self._container_stack_suffix)] self._resolve_strategies = {"machine": None, "quality_changes": None, "material": None} machine_conflict = False quality_changes_conflict = False for container_stack_file in container_stack_files: container_id = self._stripFileToId(container_stack_file) serialized = archive.open(container_stack_file).read().decode("utf-8") if machine_name == "": machine_name = self._getMachineNameFromSerializedStack(serialized) stacks = self._container_registry.findContainerStacks(id=container_id) if stacks: # Check if there are any changes at all in any of the container stacks. id_list = self._getContainerIdListFromSerialized(serialized) for index, container_id in enumerate(id_list): if stacks[0].getContainer(index).getId() != container_id: machine_conflict = True Job.yieldThread() definition_container_files = [name for name in cura_file_names if name.endswith(self._definition_container_suffix)] for definition_container_file in definition_container_files: container_id = self._stripFileToId(definition_container_file) definitions = self._container_registry.findDefinitionContainers(id=container_id) if not definitions: definition_container = DefinitionContainer(container_id) definition_container.deserialize(archive.open(definition_container_file).read().decode("utf-8")) else: definition_container = definitions[0] if definition_container.getMetaDataEntry("type") != "extruder": machine_type = definition_container.getName() variant_type_name = definition_container.getMetaDataEntry("variants_name", variant_type_name) else: num_extruders += 1 Job.yieldThread() if num_extruders == 0: num_extruders = 1 # No extruder stacks found, which means there is one extruder extruders = num_extruders * [""] material_labels = [] material_conflict = False xml_material_profile = self._getXmlProfileClass() if self._material_container_suffix is None: self._material_container_suffix = ContainerRegistry.getMimeTypeForContainer(xml_material_profile).preferredSuffix if xml_material_profile: material_container_files = [name for name in cura_file_names if name.endswith(self._material_container_suffix)] for material_container_file in material_container_files: container_id = self._stripFileToId(material_container_file) materials = self._container_registry.findInstanceContainers(id=container_id) material_labels.append(self._getMaterialLabelFromSerialized(archive.open(material_container_file).read().decode("utf-8"))) if materials and not materials[0].isReadOnly(): # Only non readonly materials can be in conflict material_conflict = True Job.yieldThread() # Check if any quality_changes instance container is in conflict. instance_container_files = [name for name in cura_file_names if name.endswith(self._instance_container_suffix)] quality_name = "" quality_type = "" num_settings_overriden_by_quality_changes = 0 # How many settings are changed by the quality changes num_user_settings = 0 for instance_container_file in instance_container_files: container_id = self._stripFileToId(instance_container_file) instance_container = InstanceContainer(container_id) # Deserialize InstanceContainer by converting read data from bytes to string instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8")) container_type = instance_container.getMetaDataEntry("type") if container_type == "quality_changes": quality_name = instance_container.getName() num_settings_overriden_by_quality_changes += len(instance_container._instances) # Check if quality changes already exists. quality_changes = self._container_registry.findInstanceContainers(id = container_id) if quality_changes: # Check if there really is a conflict by comparing the values if quality_changes[0] != instance_container: quality_changes_conflict = True elif container_type == "quality": # If the quality name is not set (either by quality or changes, set it now) # Quality changes should always override this (as they are "on top") if quality_name == "": quality_name = instance_container.getName() quality_type = instance_container.getName() elif container_type == "user": num_user_settings += len(instance_container._instances) Job.yieldThread() num_visible_settings = 0 try: temp_preferences = Preferences() temp_preferences.readFromFile(io.TextIOWrapper(archive.open("Cura/preferences.cfg"))) # We need to wrap it, else the archive parser breaks. visible_settings_string = temp_preferences.getValue("general/visible_settings") if visible_settings_string is not None: num_visible_settings = len(visible_settings_string.split(";")) active_mode = temp_preferences.getValue("cura/active_mode") if not active_mode: active_mode = Preferences.getInstance().getValue("cura/active_mode") except KeyError: # If there is no preferences file, it's not a workspace, so notify user of failure. Logger.log("w", "File %s is not a valid workspace.", file_name) return WorkspaceReader.PreReadResult.failed # Show the dialog, informing the user what is about to happen. self._dialog.setMachineConflict(machine_conflict) self._dialog.setQualityChangesConflict(quality_changes_conflict) self._dialog.setMaterialConflict(material_conflict) self._dialog.setNumVisibleSettings(num_visible_settings) self._dialog.setQualityName(quality_name) self._dialog.setQualityType(quality_type) self._dialog.setNumSettingsOverridenByQualityChanges(num_settings_overriden_by_quality_changes) self._dialog.setNumUserSettings(num_user_settings) self._dialog.setActiveMode(active_mode) self._dialog.setMachineName(machine_name) self._dialog.setMaterialLabels(material_labels) self._dialog.setMachineType(machine_type) self._dialog.setExtruders(extruders) self._dialog.setVariantType(variant_type_name) self._dialog.setHasObjectsOnPlate(Application.getInstance().getPlatformActivity) self._dialog.show() # Block until the dialog is closed. self._dialog.waitForClose() if self._dialog.getResult() == {}: return WorkspaceReader.PreReadResult.cancelled self._resolve_strategies = self._dialog.getResult() return WorkspaceReader.PreReadResult.accepted def read(self, file_name): archive = zipfile.ZipFile(file_name, "r") cura_file_names = [name for name in archive.namelist() if name.startswith("Cura/")] # Create a shadow copy of the preferences (we don't want all of the preferences, but we do want to re-use its # parsing code. temp_preferences = Preferences() temp_preferences.readFromFile(io.TextIOWrapper(archive.open("Cura/preferences.cfg"))) # We need to wrap it, else the archive parser breaks. # Copy a number of settings from the temp preferences to the global global_preferences = Preferences.getInstance() visible_settings = temp_preferences.getValue("general/visible_settings") if visible_settings is None: Logger.log("w", "Workspace did not contain visible settings. Leaving visibility unchanged") else: global_preferences.setValue("general/visible_settings", visible_settings) categories_expanded = temp_preferences.getValue("cura/categories_expanded") if categories_expanded is None: Logger.log("w", "Workspace did not contain expanded categories. Leaving them unchanged") else: global_preferences.setValue("cura/categories_expanded", categories_expanded) Application.getInstance().expandedCategoriesChanged.emit() # Notify the GUI of the change self._id_mapping = {} # We don't add containers right away, but wait right until right before the stack serialization. # We do this so that if something goes wrong, it's easier to clean up. containers_to_add = [] # TODO: For the moment we use pretty naive existence checking. If the ID is the same, we assume in quite a few # TODO: cases that the container loaded is the same (most notable in materials & definitions). # TODO: It might be possible that we need to add smarter checking in the future. Logger.log("d", "Workspace loading is checking definitions...") # Get all the definition files & check if they exist. If not, add them. definition_container_files = [name for name in cura_file_names if name.endswith(self._definition_container_suffix)] for definition_container_file in definition_container_files: container_id = self._stripFileToId(definition_container_file) definitions = self._container_registry.findDefinitionContainers(id=container_id) if not definitions: definition_container = DefinitionContainer(container_id) definition_container.deserialize(archive.open(definition_container_file).read().decode("utf-8")) self._container_registry.addContainer(definition_container) Job.yieldThread() Logger.log("d", "Workspace loading is checking materials...") material_containers = [] # Get all the material files and check if they exist. If not, add them. xml_material_profile = self._getXmlProfileClass() if self._material_container_suffix is None: self._material_container_suffix = ContainerRegistry.getMimeTypeForContainer(xml_material_profile).suffixes[0] if xml_material_profile: material_container_files = [name for name in cura_file_names if name.endswith(self._material_container_suffix)] for material_container_file in material_container_files: container_id = self._stripFileToId(material_container_file) materials = self._container_registry.findInstanceContainers(id=container_id) if not materials: material_container = xml_material_profile(container_id) material_container.deserialize(archive.open(material_container_file).read().decode("utf-8")) containers_to_add.append(material_container) else: if not materials[0].isReadOnly(): # Only create new materials if they are not read only. if self._resolve_strategies["material"] == "override": materials[0].deserialize(archive.open(material_container_file).read().decode("utf-8")) elif self._resolve_strategies["material"] == "new": # Note that we *must* deserialize it with a new ID, as multiple containers will be # auto created & added. material_container = xml_material_profile(self.getNewId(container_id)) material_container.deserialize(archive.open(material_container_file).read().decode("utf-8")) containers_to_add.append(material_container) material_containers.append(material_container) Job.yieldThread() Logger.log("d", "Workspace loading is checking instance containers...") # Get quality_changes and user profiles saved in the workspace instance_container_files = [name for name in cura_file_names if name.endswith(self._instance_container_suffix)] user_instance_containers = [] quality_changes_instance_containers = [] for instance_container_file in instance_container_files: container_id = self._stripFileToId(instance_container_file) instance_container = InstanceContainer(container_id) # Deserialize InstanceContainer by converting read data from bytes to string instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8")) container_type = instance_container.getMetaDataEntry("type") Job.yieldThread() if container_type == "user": # Check if quality changes already exists. user_containers = self._container_registry.findInstanceContainers(id=container_id) if not user_containers: containers_to_add.append(instance_container) else: if self._resolve_strategies["machine"] == "override" or self._resolve_strategies["machine"] is None: user_containers[0].deserialize(archive.open(instance_container_file).read().decode("utf-8")) elif self._resolve_strategies["machine"] == "new": # The machine is going to get a spiffy new name, so ensure that the id's of user settings match. extruder_id = instance_container.getMetaDataEntry("extruder", None) if extruder_id: new_id = self.getNewId(extruder_id) + "_current_settings" instance_container._id = new_id instance_container.setName(new_id) instance_container.setMetaDataEntry("extruder", self.getNewId(extruder_id)) containers_to_add.append(instance_container) machine_id = instance_container.getMetaDataEntry("machine", None) if machine_id: new_id = self.getNewId(machine_id) + "_current_settings" instance_container._id = new_id instance_container.setName(new_id) instance_container.setMetaDataEntry("machine", self.getNewId(machine_id)) containers_to_add.append(instance_container) user_instance_containers.append(instance_container) elif container_type == "quality_changes": # Check if quality changes already exists. quality_changes = self._container_registry.findInstanceContainers(id = container_id) if not quality_changes: containers_to_add.append(instance_container) else: if self._resolve_strategies["quality_changes"] == "override": quality_changes[0].deserialize(archive.open(instance_container_file).read().decode("utf-8")) elif self._resolve_strategies["quality_changes"] is None: # The ID already exists, but nothing in the values changed, so do nothing. pass quality_changes_instance_containers.append(instance_container) else: continue # Add all the containers right before we try to add / serialize the stack for container in containers_to_add: self._container_registry.addContainer(container) container.setDirty(True) # Get the stack(s) saved in the workspace. Logger.log("d", "Workspace loading is checking stacks containers...") container_stack_files = [name for name in cura_file_names if name.endswith(self._container_stack_suffix)] global_stack = None extruder_stacks = [] container_stacks_added = [] try: for container_stack_file in container_stack_files: container_id = self._stripFileToId(container_stack_file) # Check if a stack by this ID already exists; container_stacks = self._container_registry.findContainerStacks(id=container_id) if container_stacks: stack = container_stacks[0] if self._resolve_strategies["machine"] == "override": # TODO: HACK # There is a machine, check if it has authenticationd data. If so, keep that data. network_authentication_id = container_stacks[0].getMetaDataEntry("network_authentication_id") network_authentication_key = container_stacks[0].getMetaDataEntry("network_authentication_key") container_stacks[0].deserialize(archive.open(container_stack_file).read().decode("utf-8")) if network_authentication_id: container_stacks[0].addMetaDataEntry("network_authentication_id", network_authentication_id) if network_authentication_key: container_stacks[0].addMetaDataEntry("network_authentication_key", network_authentication_key) elif self._resolve_strategies["machine"] == "new": new_id = self.getNewId(container_id) stack = ContainerStack(new_id) stack.deserialize(archive.open(container_stack_file).read().decode("utf-8")) # Ensure a unique ID and name stack._id = new_id # Extruder stacks are "bound" to a machine. If we add the machine as a new one, the id of the # bound machine also needs to change. if stack.getMetaDataEntry("machine", None): stack.setMetaDataEntry("machine", self.getNewId(stack.getMetaDataEntry("machine"))) if stack.getMetaDataEntry("type") != "extruder_train": # Only machines need a new name, stacks may be non-unique stack.setName(self._container_registry.uniqueName(stack.getName())) container_stacks_added.append(stack) self._container_registry.addContainer(stack) else: Logger.log("w", "Resolve strategy of %s for machine is not supported", self._resolve_strategies["machine"]) else: stack = ContainerStack(container_id) # Deserialize stack by converting read data from bytes to string stack.deserialize(archive.open(container_stack_file).read().decode("utf-8")) container_stacks_added.append(stack) self._container_registry.addContainer(stack) if stack.getMetaDataEntry("type") == "extruder_train": extruder_stacks.append(stack) else: global_stack = stack Job.yieldThread() except: Logger.logException("w", "We failed to serialize the stack. Trying to clean up.") # Something went really wrong. Try to remove any data that we added. for container in containers_to_add: self._container_registry.getInstance().removeContainer(container.getId()) for container in container_stacks_added: self._container_registry.getInstance().removeContainer(container.getId()) return None if self._resolve_strategies["machine"] == "new": # A new machine was made, but it was serialized with the wrong user container. Fix that now. for container in user_instance_containers: extruder_id = container.getMetaDataEntry("extruder", None) if extruder_id: for extruder in extruder_stacks: if extruder.getId() == extruder_id: extruder.replaceContainer(0, container) continue machine_id = container.getMetaDataEntry("machine", None) if machine_id: if global_stack.getId() == machine_id: global_stack.replaceContainer(0, container) continue if self._resolve_strategies["quality_changes"] == "new": # Quality changes needs to get a new ID, added to registry and to the right stacks for container in quality_changes_instance_containers: old_id = container.getId() container.setName(self._container_registry.uniqueName(container.getName())) # We're not really supposed to change the ID in normal cases, but this is an exception. container._id = self.getNewId(container.getId()) # The container was not added yet, as it didn't have an unique ID. It does now, so add it. self._container_registry.addContainer(container) # Replace the quality changes container old_container = global_stack.findContainer({"type": "quality_changes"}) if old_container.getId() == old_id: quality_changes_index = global_stack.getContainerIndex(old_container) global_stack.replaceContainer(quality_changes_index, container) continue for stack in extruder_stacks: old_container = stack.findContainer({"type": "quality_changes"}) if old_container.getId() == old_id: quality_changes_index = stack.getContainerIndex(old_container) stack.replaceContainer(quality_changes_index, container) if self._resolve_strategies["material"] == "new": for material in material_containers: old_material = global_stack.findContainer({"type": "material"}) if old_material.getId() in self._id_mapping: material_index = global_stack.getContainerIndex(old_material) global_stack.replaceContainer(material_index, material) continue for stack in extruder_stacks: old_material = stack.findContainer({"type": "material"}) if old_material.getId() in self._id_mapping: material_index = stack.getContainerIndex(old_material) stack.replaceContainer(material_index, material) continue for stack in extruder_stacks: ExtruderManager.getInstance().registerExtruder(stack, global_stack.getId()) else: # Machine has no extruders, but it needs to be registered with the extruder manager. ExtruderManager.getInstance().registerExtruder(None, global_stack.getId()) Logger.log("d", "Workspace loading is notifying rest of the code of changes...") # Notify everything/one that is to notify about changes. global_stack.containersChanged.emit(global_stack.getTop()) for stack in extruder_stacks: stack.setNextStack(global_stack) stack.containersChanged.emit(stack.getTop()) # Actually change the active machine. Application.getInstance().setGlobalContainerStack(global_stack) # Load all the nodes / meshdata of the workspace nodes = self._3mf_mesh_reader.read(file_name) if nodes is None: nodes = [] return nodes def _stripFileToId(self, file): return file.replace("Cura/", "").split(".")[0] def _getXmlProfileClass(self): return self._container_registry.getContainerForMimeType(MimeTypeDatabase.getMimeType("application/x-ultimaker-material-profile")) ## Get the list of ID's of all containers in a container stack by partially parsing it's serialized data. def _getContainerIdListFromSerialized(self, serialized): parser = configparser.ConfigParser(interpolation=None, empty_lines_in_values=False) parser.read_string(serialized) container_ids = [] if "containers" in parser: for index, container_id in parser.items("containers"): container_ids.append(container_id) elif parser.has_option("general", "containers"): container_string = parser["general"].get("containers", "") container_list = container_string.split(",") container_ids = [container_id for container_id in container_list if container_id != ""] return container_ids def _getMachineNameFromSerializedStack(self, serialized): parser = configparser.ConfigParser(interpolation=None, empty_lines_in_values=False) parser.read_string(serialized) return parser["general"].get("name", "") def _getMaterialLabelFromSerialized(self, serialized): data = ET.fromstring(serialized) metadata = data.iterfind("./um:metadata/um:name/um:label", {"um": "http://www.ultimaker.com/material"}) for entry in metadata: return entry.text pass