# Copyright (c) 2017 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. import os import os.path import re import configparser from typing import Optional from PyQt5.QtWidgets import QMessageBox from UM.Decorators import override from UM.Settings.ContainerRegistry import ContainerRegistry from UM.Settings.ContainerStack import ContainerStack from UM.Settings.InstanceContainer import InstanceContainer from UM.Settings.SettingInstance import SettingInstance from UM.Application import Application from UM.Logger import Logger from UM.Message import Message from UM.Platform import Platform from UM.PluginRegistry import PluginRegistry # For getting the possible profile writers to write with. from UM.Util import parseBool from UM.Resources import Resources from . import ExtruderStack from . import GlobalStack from .ContainerManager import ContainerManager from .ExtruderManager import ExtruderManager from cura.CuraApplication import CuraApplication from UM.i18n import i18nCatalog catalog = i18nCatalog("cura") class CuraContainerRegistry(ContainerRegistry): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) # We don't have all the machines loaded in the beginning, so in order to add the missing extruder stack # for single extrusion machines, we subscribe to the containerAdded signal, and whenever a global stack # is added, we check to see if an extruder stack needs to be added. self.containerAdded.connect(self._onContainerAdded) ## Overridden from ContainerRegistry # # Adds a container to the registry. # # This will also try to convert a ContainerStack to either Extruder or # Global stack based on metadata information. @override(ContainerRegistry) def addContainer(self, container): # Note: Intentional check with type() because we want to ignore subclasses if type(container) == ContainerStack: container = self._convertContainerStack(container) if isinstance(container, InstanceContainer) and type(container) != type(self.getEmptyInstanceContainer()): # Check against setting version of the definition. required_setting_version = CuraApplication.SettingVersion actual_setting_version = int(container.getMetaDataEntry("setting_version", default = 0)) if required_setting_version != actual_setting_version: Logger.log("w", "Instance container {container_id} is outdated. Its setting version is {actual_setting_version} but it should be {required_setting_version}.".format(container_id = container.getId(), actual_setting_version = actual_setting_version, required_setting_version = required_setting_version)) return #Don't add. super().addContainer(container) ## Create a name that is not empty and unique # \param container_type \type{string} Type of the container (machine, quality, ...) # \param current_name \type{} Current name of the container, which may be an acceptable option # \param new_name \type{string} Base name, which may not be unique # \param fallback_name \type{string} Name to use when (stripped) new_name is empty # \return \type{string} Name that is unique for the specified type and name/id def createUniqueName(self, container_type, current_name, new_name, fallback_name): new_name = new_name.strip() num_check = re.compile("(.*?)\s*#\d+$").match(new_name) if num_check: new_name = num_check.group(1) if new_name == "": new_name = fallback_name unique_name = new_name i = 1 # In case we are renaming, the current name of the container is also a valid end-result while self._containerExists(container_type, unique_name) and unique_name != current_name: i += 1 unique_name = "%s #%d" % (new_name, i) return unique_name ## Check if a container with of a certain type and a certain name or id exists # Both the id and the name are checked, because they may not be the same and it is better if they are both unique # \param container_type \type{string} Type of the container (machine, quality, ...) # \param container_name \type{string} Name to check def _containerExists(self, container_type, container_name): container_class = ContainerStack if container_type == "machine" else InstanceContainer return self.findContainersMetadata(container_type = container_class, id = container_name, type = container_type, ignore_case = True) or \ self.findContainersMetadata(container_type = container_class, name = container_name, type = container_type) ## Exports an profile to a file # # \param instance_ids \type{list} the IDs of the profiles to export. # \param file_name \type{str} the full path and filename to export to. # \param file_type \type{str} the file type with the format " (*.)" def exportProfile(self, instance_ids, file_name, file_type): # Parse the fileType to deduce what plugin can save the file format. # fileType has the format " (*.)" split = file_type.rfind(" (*.") # Find where the description ends and the extension starts. if split < 0: # Not found. Invalid format. Logger.log("e", "Invalid file format identifier %s", file_type) return description = file_type[:split] extension = file_type[split + 4:-1] # Leave out the " (*." and ")". if not file_name.endswith("." + extension): # Auto-fill the extension if the user did not provide any. file_name += "." + extension # On Windows, QML FileDialog properly asks for overwrite confirm, but not on other platforms, so handle those ourself. if not Platform.isWindows(): if os.path.exists(file_name): result = QMessageBox.question(None, catalog.i18nc("@title:window", "File Already Exists"), catalog.i18nc("@label Don't translate the XML tag !", "The file {0} already exists. Are you sure you want to overwrite it?").format(file_name)) if result == QMessageBox.No: return found_containers = [] extruder_positions = [] for instance_id in instance_ids: containers = ContainerRegistry.getInstance().findInstanceContainers(id = instance_id) if containers: found_containers.append(containers[0]) # Determine the position of the extruder of this container extruder_id = containers[0].getMetaDataEntry("extruder", "") if extruder_id == "": # Global stack extruder_positions.append(-1) else: extruder_containers = ContainerRegistry.getInstance().findDefinitionContainersMetadata(id = extruder_id) if extruder_containers: extruder_positions.append(int(extruder_containers[0].get("position", 0))) else: extruder_positions.append(0) # Ensure the profiles are always exported in order (global, extruder 0, extruder 1, ...) found_containers = [containers for (positions, containers) in sorted(zip(extruder_positions, found_containers))] profile_writer = self._findProfileWriter(extension, description) try: success = profile_writer.write(file_name, found_containers) except Exception as e: Logger.log("e", "Failed to export profile to %s: %s", file_name, str(e)) m = Message(catalog.i18nc("@info:status Don't translate the XML tags or !", "Failed to export profile to {0}: {1}", file_name, str(e)), lifetime = 0, title = catalog.i18nc("@info:title", "Error")) m.show() return if not success: Logger.log("w", "Failed to export profile to %s: Writer plugin reported failure.", file_name) m = Message(catalog.i18nc("@info:status Don't translate the XML tag !", "Failed to export profile to {0}: Writer plugin reported failure.", file_name), lifetime = 0, title = catalog.i18nc("@info:title", "Error")) m.show() return m = Message(catalog.i18nc("@info:status Don't translate the XML tag !", "Exported profile to {0}", file_name), title = catalog.i18nc("@info:title", "Export succeeded")) m.show() ## Gets the plugin object matching the criteria # \param extension # \param description # \return The plugin object matching the given extension and description. def _findProfileWriter(self, extension, description): plugin_registry = PluginRegistry.getInstance() for plugin_id, meta_data in self._getIOPlugins("profile_writer"): for supported_type in meta_data["profile_writer"]: # All file types this plugin can supposedly write. supported_extension = supported_type.get("extension", None) if supported_extension == extension: # This plugin supports a file type with the same extension. supported_description = supported_type.get("description", None) if supported_description == description: # The description is also identical. Assume it's the same file type. return plugin_registry.getPluginObject(plugin_id) return None ## Imports a profile from a file # # \param file_name \type{str} the full path and filename of the profile to import # \return \type{Dict} dict with a 'status' key containing the string 'ok' or 'error', and a 'message' key # containing a message for the user def importProfile(self, file_name): Logger.log("d", "Attempting to import profile %s", file_name) if not file_name: return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags or !", "Failed to import profile from {0}: {1}", file_name, "Invalid path")} plugin_registry = PluginRegistry.getInstance() extension = file_name.split(".")[-1] global_container_stack = Application.getInstance().getGlobalContainerStack() if not global_container_stack: return machine_extruders = list(ExtruderManager.getInstance().getMachineExtruders(global_container_stack.getId())) machine_extruders.sort(key = lambda k: k.getMetaDataEntry("position")) for plugin_id, meta_data in self._getIOPlugins("profile_reader"): if meta_data["profile_reader"][0]["extension"] != extension: continue profile_reader = plugin_registry.getPluginObject(plugin_id) try: profile_or_list = profile_reader.read(file_name) # Try to open the file with the profile reader. except Exception as e: # Note that this will fail quickly. That is, if any profile reader throws an exception, it will stop reading. It will only continue reading if the reader returned None. Logger.log("e", "Failed to import profile from %s: %s while using profile reader. Got exception %s", file_name,profile_reader.getPluginId(), str(e)) return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags or !", "Failed to import profile from {0}: {1}", file_name, "\n" + str(e))} if profile_or_list: # Ensure it is always a list of profiles if not isinstance(profile_or_list, list): profile_or_list = [profile_or_list] # First check if this profile is suitable for this machine global_profile = None if len(profile_or_list) == 1: global_profile = profile_or_list[0] else: for profile in profile_or_list: if not profile.getMetaDataEntry("extruder"): global_profile = profile break if not global_profile: Logger.log("e", "Incorrect profile [%s]. Could not find global profile", file_name) return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags or !", "This profile {0} contains incorrect data, could not import it.", file_name)} profile_definition = global_profile.getMetaDataEntry("definition") expected_machine_definition = "fdmprinter" if parseBool(global_container_stack.getMetaDataEntry("has_machine_quality", "False")): expected_machine_definition = global_container_stack.getMetaDataEntry("quality_definition") if not expected_machine_definition: expected_machine_definition = global_container_stack.definition.getId() if expected_machine_definition is not None and profile_definition is not None and profile_definition != expected_machine_definition: Logger.log("e", "Profile [%s] is for machine [%s] but the current active machine is [%s]. Will not import the profile", file_name) return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags or !", "The machine defined in profile {0} doesn't match with your current machine, could not import it.", file_name)} name_seed = os.path.splitext(os.path.basename(file_name))[0] new_name = self.uniqueName(name_seed) # Ensure it is always a list of profiles if type(profile_or_list) is not list: profile_or_list = [profile_or_list] # Make sure that there are also extruder stacks' quality_changes, not just one for the global stack if len(profile_or_list) == 1: global_profile = profile_or_list[0] extruder_profiles = [] for idx, extruder in enumerate(global_container_stack.extruders.values()): profile_id = ContainerRegistry.getInstance().uniqueName(global_container_stack.getId() + "_extruder_" + str(idx + 1)) profile = InstanceContainer(profile_id) profile.setName(global_profile.getName()) profile.addMetaDataEntry("setting_version", CuraApplication.SettingVersion) profile.addMetaDataEntry("type", "quality_changes") profile.addMetaDataEntry("definition", global_profile.getMetaDataEntry("definition")) profile.addMetaDataEntry("quality_type", global_profile.getMetaDataEntry("quality_type")) profile.addMetaDataEntry("extruder", extruder.getId()) profile.setDirty(True) if idx == 0: # move all per-extruder settings to the first extruder's quality_changes for qc_setting_key in global_profile.getAllKeys(): settable_per_extruder = global_container_stack.getProperty(qc_setting_key, "settable_per_extruder") if settable_per_extruder: setting_value = global_profile.getProperty(qc_setting_key, "value") setting_definition = global_container_stack.getSettingDefinition(qc_setting_key) new_instance = SettingInstance(setting_definition, profile) new_instance.setProperty("value", setting_value) new_instance.resetState() # Ensure that the state is not seen as a user state. profile.addInstance(new_instance) profile.setDirty(True) global_profile.removeInstance(qc_setting_key, postpone_emit=True) extruder_profiles.append(profile) for profile in extruder_profiles: profile_or_list.append(profile) # Import all profiles for profile_index, profile in enumerate(profile_or_list): if profile_index == 0: # This is assumed to be the global profile profile_id = (global_container_stack.getBottom().getId() + "_" + name_seed).lower().replace(" ", "_") elif profile_index < len(machine_extruders) + 1: # This is assumed to be an extruder profile extruder_id = Application.getInstance().getMachineManager().getQualityDefinitionId(machine_extruders[profile_index - 1].getBottom()) if not profile.getMetaDataEntry("extruder"): profile.addMetaDataEntry("extruder", extruder_id) else: profile.setMetaDataEntry("extruder", extruder_id) profile_id = (extruder_id + "_" + name_seed).lower().replace(" ", "_") else: #More extruders in the imported file than in the machine. continue #Delete the additional profiles. result = self._configureProfile(profile, profile_id, new_name) if result is not None: return {"status": "error", "message": catalog.i18nc( "@info:status Don't translate the XML tags or !", "Failed to import profile from {0}: {1}", file_name, result)} return {"status": "ok", "message": catalog.i18nc("@info:status", "Successfully imported profile {0}", profile_or_list[0].getName())} # This message is throw when the profile reader doesn't find any profile in the file return {"status": "error", "message": catalog.i18nc("@info:status", "File {0} does not contain any valid profile.", file_name)} # If it hasn't returned by now, none of the plugins loaded the profile successfully. return {"status": "error", "message": catalog.i18nc("@info:status", "Profile {0} has an unknown file type or is corrupted.", file_name)} @override(ContainerRegistry) def load(self): super().load() self._registerSingleExtrusionMachinesExtruderStacks() self._connectUpgradedExtruderStacksToMachines() ## Update an imported profile to match the current machine configuration. # # \param profile The profile to configure. # \param id_seed The base ID for the profile. May be changed so it does not conflict with existing containers. # \param new_name The new name for the profile. # # \return None if configuring was successful or an error message if an error occurred. def _configureProfile(self, profile: InstanceContainer, id_seed: str, new_name: str) -> Optional[str]: profile.setDirty(True) # Ensure the profiles are correctly saved new_id = self.createUniqueName("quality_changes", "", id_seed, catalog.i18nc("@label", "Custom profile")) profile.setMetaDataEntry("id", new_id) profile.setName(new_name) # Set the unique Id to the profile, so it's generating a new one even if the user imports the same profile # It also solves an issue with importing profiles from G-Codes profile.setMetaDataEntry("id", new_id) if "type" in profile.getMetaData(): profile.setMetaDataEntry("type", "quality_changes") else: profile.addMetaDataEntry("type", "quality_changes") quality_type = profile.getMetaDataEntry("quality_type") if not quality_type: return catalog.i18nc("@info:status", "Profile is missing a quality type.") quality_type_criteria = {"quality_type": quality_type} if self._machineHasOwnQualities(): profile.setDefinition(self._activeQualityDefinition().getId()) if self._machineHasOwnMaterials(): active_material_id = self._activeMaterialId() if active_material_id and active_material_id != "empty": # only update if there is an active material profile.addMetaDataEntry("material", active_material_id) quality_type_criteria["material"] = active_material_id quality_type_criteria["definition"] = profile.getDefinition().getId() else: profile.setDefinition("fdmprinter") quality_type_criteria["definition"] = "fdmprinter" machine_definition = Application.getInstance().getGlobalContainerStack().getBottom() del quality_type_criteria["definition"] # materials = None if "material" in quality_type_criteria: # materials = ContainerRegistry.getInstance().findInstanceContainers(id = quality_type_criteria["material"]) del quality_type_criteria["material"] # Do not filter quality containers here with materials because we are trying to import a profile, so it should # NOT be restricted by the active materials on the current machine. materials = None # Check to make sure the imported profile actually makes sense in context of the current configuration. # This prevents issues where importing a "draft" profile for a machine without "draft" qualities would report as # successfully imported but then fail to show up. from cura.QualityManager import QualityManager qualities = QualityManager.getInstance()._getFilteredContainersForStack(machine_definition, materials, **quality_type_criteria) if not qualities: return catalog.i18nc("@info:status", "Could not find a quality type {0} for the current configuration.", quality_type) ContainerRegistry.getInstance().addContainer(profile) return None ## Gets a list of profile writer plugins # \return List of tuples of (plugin_id, meta_data). def _getIOPlugins(self, io_type): plugin_registry = PluginRegistry.getInstance() active_plugin_ids = plugin_registry.getActivePlugins() result = [] for plugin_id in active_plugin_ids: meta_data = plugin_registry.getMetaData(plugin_id) if io_type in meta_data: result.append( (plugin_id, meta_data) ) return result ## Get the definition to use to select quality profiles for the active machine # \return the active quality definition object or None if there is no quality definition def _activeQualityDefinition(self): global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack: definition_id = Application.getInstance().getMachineManager().getQualityDefinitionId(global_container_stack.getBottom()) definition = self.findDefinitionContainers(id = definition_id)[0] if definition: return definition return None ## Returns true if the current machine requires its own materials # \return True if the current machine requires its own materials def _machineHasOwnMaterials(self): global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack: return global_container_stack.getMetaDataEntry("has_materials", False) return False ## Gets the ID of the active material # \return the ID of the active material or the empty string def _activeMaterialId(self): global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack and global_container_stack.material: return global_container_stack.material.getId() return "" ## Returns true if the current machine requires its own quality profiles # \return true if the current machine requires its own quality profiles def _machineHasOwnQualities(self): global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack: return parseBool(global_container_stack.getMetaDataEntry("has_machine_quality", False)) return False ## Convert an "old-style" pure ContainerStack to either an Extruder or Global stack. def _convertContainerStack(self, container): assert type(container) == ContainerStack container_type = container.getMetaDataEntry("type") if container_type not in ("extruder_train", "machine"): # It is not an extruder or machine, so do nothing with the stack return container Logger.log("d", "Converting ContainerStack {stack} to {type}", stack = container.getId(), type = container_type) new_stack = None if container_type == "extruder_train": new_stack = ExtruderStack.ExtruderStack(container.getId()) else: new_stack = GlobalStack.GlobalStack(container.getId()) container_contents = container.serialize() new_stack.deserialize(container_contents) # Delete the old configuration file so we do not get double stacks if os.path.isfile(container.getPath()): os.remove(container.getPath()) return new_stack def _registerSingleExtrusionMachinesExtruderStacks(self): machines = self.findContainerStacks(type = "machine", machine_extruder_trains = {"0": "fdmextruder"}) for machine in machines: extruder_stacks = self.findContainerStacks(type = "extruder_train", machine = machine.getId()) if not extruder_stacks: self.addExtruderStackForSingleExtrusionMachine(machine, "fdmextruder") def _onContainerAdded(self, container): # We don't have all the machines loaded in the beginning, so in order to add the missing extruder stack # for single extrusion machines, we subscribe to the containerAdded signal, and whenever a global stack # is added, we check to see if an extruder stack needs to be added. if not isinstance(container, ContainerStack) or container.getMetaDataEntry("type") != "machine": return machine_extruder_trains = container.getMetaDataEntry("machine_extruder_trains") if machine_extruder_trains is not None and machine_extruder_trains != {"0": "fdmextruder"}: return extruder_stacks = self.findContainerStacks(type = "extruder_train", machine = container.getId()) if not extruder_stacks: self.addExtruderStackForSingleExtrusionMachine(container, "fdmextruder") # # new_global_quality_changes is optional. It is only used in project loading for a scenario like this: # - override the current machine # - create new for custom quality profile # new_global_quality_changes is the new global quality changes container in this scenario. # create_new_ids indicates if new unique ids must be created # def addExtruderStackForSingleExtrusionMachine(self, machine, extruder_id, new_global_quality_changes = None, create_new_ids = True): new_extruder_id = extruder_id extruder_definitions = self.findDefinitionContainers(id = new_extruder_id) if not extruder_definitions: Logger.log("w", "Could not find definition containers for extruder %s", new_extruder_id) return extruder_definition = extruder_definitions[0] unique_name = self.uniqueName(machine.getName() + " " + new_extruder_id) if create_new_ids else machine.getName() + " " + new_extruder_id extruder_stack = ExtruderStack.ExtruderStack(unique_name) extruder_stack.setName(extruder_definition.getName()) extruder_stack.setDefinition(extruder_definition) extruder_stack.addMetaDataEntry("position", extruder_definition.getMetaDataEntry("position")) from cura.CuraApplication import CuraApplication # create a new definition_changes container for the extruder stack definition_changes_id = self.uniqueName(extruder_stack.getId() + "_settings") if create_new_ids else extruder_stack.getId() + "_settings" definition_changes_name = definition_changes_id definition_changes = InstanceContainer(definition_changes_id) definition_changes.setName(definition_changes_name) definition_changes.addMetaDataEntry("setting_version", CuraApplication.SettingVersion) definition_changes.addMetaDataEntry("type", "definition_changes") definition_changes.addMetaDataEntry("definition", extruder_definition.getId()) # move definition_changes settings if exist for setting_key in definition_changes.getAllKeys(): if machine.definition.getProperty(setting_key, "settable_per_extruder"): setting_value = machine.definitionChanges.getProperty(setting_key, "value") if setting_value is not None: # move it to the extruder stack's definition_changes setting_definition = machine.getSettingDefinition(setting_key) new_instance = SettingInstance(setting_definition, definition_changes) new_instance.setProperty("value", setting_value) new_instance.resetState() # Ensure that the state is not seen as a user state. definition_changes.addInstance(new_instance) definition_changes.setDirty(True) machine.definitionChanges.removeInstance(setting_key, postpone_emit = True) self.addContainer(definition_changes) extruder_stack.setDefinitionChanges(definition_changes) # create empty user changes container otherwise user_container_id = self.uniqueName(extruder_stack.getId() + "_user") if create_new_ids else extruder_stack.getId() + "_user" user_container_name = user_container_id user_container = InstanceContainer(user_container_id) user_container.setName(user_container_name) user_container.addMetaDataEntry("type", "user") user_container.addMetaDataEntry("machine", machine.getId()) user_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion) user_container.setDefinition(machine.definition.getId()) user_container.setMetaDataEntry("extruder", extruder_stack.getId()) if machine.userChanges: # for the newly created extruder stack, we need to move all "per-extruder" settings to the user changes # container to the extruder stack. for user_setting_key in machine.userChanges.getAllKeys(): settable_per_extruder = machine.getProperty(user_setting_key, "settable_per_extruder") if settable_per_extruder: setting_value = machine.getProperty(user_setting_key, "value") setting_definition = machine.getSettingDefinition(user_setting_key) new_instance = SettingInstance(setting_definition, definition_changes) new_instance.setProperty("value", setting_value) new_instance.resetState() # Ensure that the state is not seen as a user state. user_container.addInstance(new_instance) user_container.setDirty(True) machine.userChanges.removeInstance(user_setting_key, postpone_emit = True) self.addContainer(user_container) extruder_stack.setUserChanges(user_container) variant_id = "default" if machine.variant.getId() not in ("empty", "empty_variant"): variant_id = machine.variant.getId() else: variant_id = "empty_variant" extruder_stack.setVariantById(variant_id) material_id = "default" if machine.material.getId() not in ("empty", "empty_material"): material_id = machine.material.getId() else: material_id = "empty_material" extruder_stack.setMaterialById(material_id) quality_id = "default" if machine.quality.getId() not in ("empty", "empty_quality"): quality_id = machine.quality.getId() else: quality_id = "empty_quality" extruder_stack.setQualityById(quality_id) machine_quality_changes = machine.qualityChanges if new_global_quality_changes is not None: machine_quality_changes = new_global_quality_changes if machine_quality_changes.getId() not in ("empty", "empty_quality_changes"): extruder_quality_changes_container = self.findInstanceContainers(name = machine_quality_changes.getName(), extruder = extruder_id) if extruder_quality_changes_container: extruder_quality_changes_container = extruder_quality_changes_container[0] quality_changes_id = extruder_quality_changes_container.getId() extruder_stack.setQualityChangesById(quality_changes_id) else: # Some extruder quality_changes containers can be created at runtime as files in the qualities # folder. Those files won't be loaded in the registry immediately. So we also need to search # the folder to see if the quality_changes exists. extruder_quality_changes_container = self._findQualityChangesContainerInCuraFolder(machine_quality_changes.getName()) if extruder_quality_changes_container: quality_changes_id = extruder_quality_changes_container.getId() extruder_quality_changes_container.addMetaDataEntry("extruder", extruder_stack.definition.getId()) extruder_stack.setQualityChangesById(quality_changes_id) else: # if we still cannot find a quality changes container for the extruder, create a new one container_name = machine_quality_changes.getName() container_id = self.uniqueName(extruder_stack.getId() + "_qc_" + container_name) extruder_quality_changes_container = InstanceContainer(container_id) extruder_quality_changes_container.setName(container_name) extruder_quality_changes_container.addMetaDataEntry("type", "quality_changes") extruder_quality_changes_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion) extruder_quality_changes_container.addMetaDataEntry("extruder", extruder_stack.definition.getId()) extruder_quality_changes_container.addMetaDataEntry("quality_type", machine_quality_changes.getMetaDataEntry("quality_type")) extruder_quality_changes_container.setDefinition(machine_quality_changes.getDefinition().getId()) self.addContainer(extruder_quality_changes_container) extruder_stack.qualityChanges = extruder_quality_changes_container if not extruder_quality_changes_container: Logger.log("w", "Could not find quality_changes named [%s] for extruder [%s]", machine_quality_changes.getName(), extruder_stack.getId()) else: # move all per-extruder settings to the extruder's quality changes for qc_setting_key in machine_quality_changes.getAllKeys(): settable_per_extruder = machine.getProperty(qc_setting_key, "settable_per_extruder") if settable_per_extruder: setting_value = machine_quality_changes.getProperty(qc_setting_key, "value") setting_definition = machine.getSettingDefinition(qc_setting_key) new_instance = SettingInstance(setting_definition, definition_changes) new_instance.setProperty("value", setting_value) new_instance.resetState() # Ensure that the state is not seen as a user state. extruder_quality_changes_container.addInstance(new_instance) extruder_quality_changes_container.setDirty(True) machine_quality_changes.removeInstance(qc_setting_key, postpone_emit=True) else: extruder_stack.setQualityChangesById("empty_quality_changes") self.addContainer(extruder_stack) # Also need to fix the other qualities that are suitable for this machine. Those quality changes may still have # per-extruder settings in the container for the machine instead of the extruder. if machine_quality_changes.getId() not in ("empty", "empty_quality_changes"): quality_changes_machine_definition_id = machine_quality_changes.getDefinition().getId() else: whole_machine_definition = machine.definition machine_entry = machine.definition.getMetaDataEntry("machine") if machine_entry is not None: container_registry = ContainerRegistry.getInstance() whole_machine_definition = container_registry.findDefinitionContainers(id = machine_entry)[0] quality_changes_machine_definition_id = "fdmprinter" if whole_machine_definition.getMetaDataEntry("has_machine_quality"): quality_changes_machine_definition_id = machine.definition.getMetaDataEntry("quality_definition", whole_machine_definition.getId()) qcs = self.findInstanceContainers(type = "quality_changes", definition = quality_changes_machine_definition_id) qc_groups = {} # map of qc names -> qc containers for qc in qcs: qc_name = qc.getName() if qc_name not in qc_groups: qc_groups[qc_name] = [] qc_groups[qc_name].append(qc) # try to find from the quality changes cura directory too quality_changes_container = self._findQualityChangesContainerInCuraFolder(machine_quality_changes.getName()) if quality_changes_container: qc_groups[qc_name].append(quality_changes_container) for qc_name, qc_list in qc_groups.items(): qc_dict = {"global": None, "extruders": []} for qc in qc_list: extruder_def_id = qc.getMetaDataEntry("extruder") if extruder_def_id is not None: qc_dict["extruders"].append(qc) else: qc_dict["global"] = qc if qc_dict["global"] is not None and len(qc_dict["extruders"]) == 1: # move per-extruder settings for qc_setting_key in qc_dict["global"].getAllKeys(): settable_per_extruder = machine.getProperty(qc_setting_key, "settable_per_extruder") if settable_per_extruder: setting_value = qc_dict["global"].getProperty(qc_setting_key, "value") setting_definition = machine.getSettingDefinition(qc_setting_key) new_instance = SettingInstance(setting_definition, definition_changes) new_instance.setProperty("value", setting_value) new_instance.resetState() # Ensure that the state is not seen as a user state. qc_dict["extruders"][0].addInstance(new_instance) qc_dict["extruders"][0].setDirty(True) qc_dict["global"].removeInstance(qc_setting_key, postpone_emit=True) # Set next stack at the end extruder_stack.setNextStack(machine) return extruder_stack def _findQualityChangesContainerInCuraFolder(self, name): quality_changes_dir = Resources.getPath(CuraApplication.ResourceTypes.QualityInstanceContainer) instance_container = None for item in os.listdir(quality_changes_dir): file_path = os.path.join(quality_changes_dir, item) if not os.path.isfile(file_path): continue parser = configparser.ConfigParser(interpolation=None) try: parser.read([file_path]) except: # skip, it is not a valid stack file continue if not parser.has_option("general", "name"): continue if parser["general"]["name"] == name: # load the container container_id = os.path.basename(file_path).replace(".inst.cfg", "") if self.findInstanceContainers(id = container_id): # this container is already in the registry, skip it continue instance_container = InstanceContainer(container_id) with open(file_path, "r", encoding = "utf-8") as f: serialized = f.read() instance_container.deserialize(serialized, file_path) self.addContainer(instance_container) break return instance_container # Fix the extruders that were upgraded to ExtruderStack instances during addContainer. # The stacks are now responsible for setting the next stack on deserialize. However, # due to problems with loading order, some stacks may not have the proper next stack # set after upgrading, because the proper global stack was not yet loaded. This method # makes sure those extruders also get the right stack set. def _connectUpgradedExtruderStacksToMachines(self): extruder_stacks = self.findContainers(container_type = ExtruderStack.ExtruderStack) for extruder_stack in extruder_stacks: if extruder_stack.getNextStack(): # Has the right next stack, so ignore it. continue machines = ContainerRegistry.getInstance().findContainerStacks(id = extruder_stack.getMetaDataEntry("machine", "")) if machines: extruder_stack.setNextStack(machines[0]) else: Logger.log("w", "Could not find machine {machine} for extruder {extruder}", machine = extruder_stack.getMetaDataEntry("machine"), extruder = extruder_stack.getId())