Cura/cura/Settings/MachineManager.py

# Copyright (c) 2017 Ultimaker B.V.
# Cura is released under the terms of the AGPLv3 or higher.
from typing import Union

from PyQt5.QtCore import QObject, pyqtProperty, pyqtSignal, QTimer
from UM.FlameProfiler import pyqtSlot
from PyQt5.QtWidgets import QMessageBox
from UM import Util

from UM.Application import Application
from UM.Preferences import Preferences
from UM.Logger import Logger
from UM.Message import Message

from UM.Settings.ContainerRegistry import ContainerRegistry
from UM.Settings.ContainerStack import ContainerStack
from UM.Settings.InstanceContainer import InstanceContainer
from UM.Settings.SettingDefinition import SettingDefinition
from UM.Settings.SettingFunction import SettingFunction
from UM.Settings.Validator import ValidatorState
from UM.Signal import postponeSignals

from cura.QualityManager import QualityManager
from cura.PrinterOutputDevice import PrinterOutputDevice
from cura.Settings.ExtruderManager import ExtruderManager

from UM.i18n import i18nCatalog
catalog = i18nCatalog("cura")

import os

class MachineManager(QObject):
    def __init__(self, parent = None):
        super().__init__(parent)

        self._active_container_stack = None     # type: ContainerStack
        self._global_container_stack = None     # type: ContainerStack

        Application.getInstance().globalContainerStackChanged.connect(self._onGlobalContainerChanged)
        ##  When the global container is changed, active material probably needs to be updated.
        self.globalContainerChanged.connect(self.activeMaterialChanged)
        self.globalContainerChanged.connect(self.activeVariantChanged)
        self.globalContainerChanged.connect(self.activeQualityChanged)

        self._stacks_have_errors = None
        self._empty_variant_container = ContainerRegistry.getInstance().findInstanceContainers(id="empty_variant")[0]
        self._empty_material_container = ContainerRegistry.getInstance().findInstanceContainers(id="empty_material")[0]
        self._empty_quality_container = ContainerRegistry.getInstance().findInstanceContainers(id="empty_quality")[0]
        self._empty_quality_changes_container = ContainerRegistry.getInstance().findInstanceContainers(id="empty_quality_changes")[0]
        self._onGlobalContainerChanged()

        ExtruderManager.getInstance().activeExtruderChanged.connect(self._onActiveExtruderStackChanged)
        self._onActiveExtruderStackChanged()

        ExtruderManager.getInstance().activeExtruderChanged.connect(self.activeMaterialChanged)
        ExtruderManager.getInstance().activeExtruderChanged.connect(self.activeVariantChanged)
        ExtruderManager.getInstance().activeExtruderChanged.connect(self.activeQualityChanged)

        self.globalContainerChanged.connect(self.activeStackChanged)
        self.globalValueChanged.connect(self.activeStackValueChanged)
        ExtruderManager.getInstance().activeExtruderChanged.connect(self.activeStackChanged)
        self.activeStackChanged.connect(self.activeStackValueChanged)

        Preferences.getInstance().addPreference("cura/active_machine", "")

        self._global_event_keys = set()

        active_machine_id = Preferences.getInstance().getValue("cura/active_machine")

        self._printer_output_devices = []
        Application.getInstance().getOutputDeviceManager().outputDevicesChanged.connect(self._onOutputDevicesChanged)

        if active_machine_id != "":
            # An active machine was saved, so restore it.
            self.setActiveMachine(active_machine_id)
            if self._global_container_stack and self._global_container_stack.getProperty("machine_extruder_count", "value") > 1:
                # Make sure _active_container_stack is properly initiated
                ExtruderManager.getInstance().setActiveExtruderIndex(0)

        self._auto_materials_changed = {}
        self._auto_hotends_changed = {}

        self._material_incompatible_message = Message(catalog.i18nc("@info:status",
                                              "The selected material is incompatible with the selected machine or configuration."))

        self._error_check_timer = QTimer()
        self._error_check_timer.setInterval(250)
        self._error_check_timer.setSingleShot(True)
        self._error_check_timer.timeout.connect(self._updateStacksHaveErrors)

    globalContainerChanged = pyqtSignal() # Emitted whenever the global stack is changed (ie: when changing between printers, changing a global profile, but not when changing a value)
    activeMaterialChanged = pyqtSignal()
    activeVariantChanged = pyqtSignal()
    activeQualityChanged = pyqtSignal()
    activeStackChanged = pyqtSignal()  # Emitted whenever the active stack is changed (ie: when changing between extruders, changing a profile, but not when changing a value)

    globalValueChanged = pyqtSignal()  # Emitted whenever a value inside global container is changed.
    activeStackValueChanged = pyqtSignal()  # Emitted whenever a value inside the active stack is changed.
    activeStackValidationChanged = pyqtSignal()  # Emitted whenever a validation inside active container is changed
    stacksValidationChanged = pyqtSignal()  # Emitted whenever a validation is changed

    blurSettings = pyqtSignal() # Emitted to force fields in the advanced sidebar to un-focus, so they update properly

    outputDevicesChanged = pyqtSignal()

    def _onOutputDevicesChanged(self) -> None:
        for printer_output_device in self._printer_output_devices:
            printer_output_device.hotendIdChanged.disconnect(self._onHotendIdChanged)
            printer_output_device.materialIdChanged.disconnect(self._onMaterialIdChanged)

        self._printer_output_devices.clear()

        for printer_output_device in Application.getInstance().getOutputDeviceManager().getOutputDevices():
            if isinstance(printer_output_device, PrinterOutputDevice):
                self._printer_output_devices.append(printer_output_device)
                printer_output_device.hotendIdChanged.connect(self._onHotendIdChanged)
                printer_output_device.materialIdChanged.connect(self._onMaterialIdChanged)

        self.outputDevicesChanged.emit()

    @pyqtProperty("QVariantList", notify = outputDevicesChanged)
    def printerOutputDevices(self):
        return self._printer_output_devices

    @pyqtProperty(int, constant=True)
    def totalNumberOfSettings(self):
        return len(ContainerRegistry.getInstance().findDefinitionContainers(id="fdmprinter")[0].getAllKeys())

    def _onHotendIdChanged(self, index: Union[str, int], hotend_id: str) -> None:
        if not self._global_container_stack:
            return

        containers = ContainerRegistry.getInstance().findInstanceContainers(type="variant", definition=self._global_container_stack.getBottom().getId(), name=hotend_id)
        if containers:  # New material ID is known
            extruder_manager = ExtruderManager.getInstance()
            machine_id = self.activeMachineId
            extruders = extruder_manager.getMachineExtruders(machine_id)
            matching_extruder = None
            for extruder in extruders:
                if str(index) == extruder.getMetaDataEntry("position"):
                    matching_extruder = extruder
                    break
            if matching_extruder and matching_extruder.findContainer({"type": "variant"}).getName() != hotend_id:
                # Save the material that needs to be changed. Multiple changes will be handled by the callback.
                self._auto_hotends_changed[str(index)] = containers[0].getId()
                self._printer_output_devices[0].materialHotendChangedMessage(self._materialHotendChangedCallback)
        else:
            Logger.log("w", "No variant found for printer definition %s with id %s" % (self._global_container_stack.getBottom().getId(), hotend_id))

    def _onMaterialIdChanged(self, index, material_id):
        if not self._global_container_stack:
            return

        definition_id = "fdmprinter"
        if self._global_container_stack.getMetaDataEntry("has_machine_materials", False):
            definition_id = self.activeQualityDefinitionId
        extruder_manager = ExtruderManager.getInstance()
        containers = ContainerRegistry.getInstance().findInstanceContainers(type = "material", definition = definition_id, GUID = material_id)
        if containers:  # New material ID is known
            extruders = list(extruder_manager.getMachineExtruders(self.activeMachineId))
            matching_extruder = None
            for extruder in extruders:
                if str(index) == extruder.getMetaDataEntry("position"):
                    matching_extruder = extruder
                    break

            if matching_extruder and matching_extruder.findContainer({"type": "material"}).getMetaDataEntry("GUID") != material_id:
                # Save the material that needs to be changed. Multiple changes will be handled by the callback.
                variant_container = matching_extruder.findContainer({"type": "variant"})
                if self._global_container_stack.getBottom().getMetaDataEntry("has_variants") and variant_container:
                    variant_id = self.getQualityVariantId(self._global_container_stack.getBottom(), variant_container)
                    for container in containers:
                        if container.getMetaDataEntry("variant") == variant_id:
                            self._auto_materials_changed[str(index)] = container.getId()
                            break
                else:
                    # Just use the first result we found.
                    self._auto_materials_changed[str(index)] = containers[0].getId()
                self._printer_output_devices[0].materialHotendChangedMessage(self._materialHotendChangedCallback)
        else:
            Logger.log("w", "No material definition found for printer definition %s and GUID %s" % (definition_id, material_id))

    def _materialHotendChangedCallback(self, button):
        if button == QMessageBox.No:
            self._auto_materials_changed = {}
            self._auto_hotends_changed = {}
            return
        self._autoUpdateMaterials()
        self._autoUpdateHotends()

    def _autoUpdateMaterials(self):
        extruder_manager = ExtruderManager.getInstance()
        for position in self._auto_materials_changed:
            material_id = self._auto_materials_changed[position]
            old_index = extruder_manager.activeExtruderIndex

            if old_index != int(position):
                extruder_manager.setActiveExtruderIndex(int(position))
            else:
                old_index = None

            Logger.log("d", "Setting material of hotend %s to %s" % (position, material_id))
            self.setActiveMaterial(material_id)

            if old_index is not None:
                extruder_manager.setActiveExtruderIndex(old_index)

    def _autoUpdateHotends(self):
        extruder_manager = ExtruderManager.getInstance()
        for position in self._auto_hotends_changed:
            hotend_id = self._auto_hotends_changed[position]
            old_index = extruder_manager.activeExtruderIndex

            if old_index != int(position):
                extruder_manager.setActiveExtruderIndex(int(position))
            else:
                old_index = None
            Logger.log("d", "Setting hotend variant of hotend %s to %s" % (position, hotend_id))
            self.setActiveVariant(hotend_id)

            if old_index is not None:
                extruder_manager.setActiveExtruderIndex(old_index)

    def _onGlobalContainerChanged(self):
        if self._global_container_stack:
            self._global_container_stack.nameChanged.disconnect(self._onMachineNameChanged)
            self._global_container_stack.containersChanged.disconnect(self._onInstanceContainersChanged)
            self._global_container_stack.propertyChanged.disconnect(self._onPropertyChanged)

            material = self._global_container_stack.findContainer({"type": "material"})
            material.nameChanged.disconnect(self._onMaterialNameChanged)

            quality = self._global_container_stack.findContainer({"type": "quality"})
            quality.nameChanged.disconnect(self._onQualityNameChanged)

            if self._global_container_stack.getProperty("machine_extruder_count", "value") > 1:
                for extruder_stack in ExtruderManager.getInstance().getActiveExtruderStacks():
                    extruder_stack.propertyChanged.disconnect(self._onPropertyChanged)
                    extruder_stack.containersChanged.disconnect(self._onInstanceContainersChanged)

        self._global_container_stack = Application.getInstance().getGlobalContainerStack()
        self._active_container_stack = self._global_container_stack

        self.globalContainerChanged.emit()

        if self._global_container_stack:
            Preferences.getInstance().setValue("cura/active_machine", self._global_container_stack.getId())
            self._global_container_stack.nameChanged.connect(self._onMachineNameChanged)
            self._global_container_stack.containersChanged.connect(self._onInstanceContainersChanged)
            self._global_container_stack.propertyChanged.connect(self._onPropertyChanged)

            if self._global_container_stack.getProperty("machine_extruder_count", "value") > 1:
                # For multi-extrusion machines, we do not want variant or material profiles in the stack,
                # because these are extruder specific and may cause wrong values to be used for extruders
                # that did not specify a value in the extruder.
                global_variant = self._global_container_stack.findContainer(type = "variant")
                if global_variant != self._empty_variant_container:
                    self._global_container_stack.replaceContainer(self._global_container_stack.getContainerIndex(global_variant), self._empty_variant_container)

                global_material = self._global_container_stack.findContainer(type = "material")
                if global_material != self._empty_material_container:
                    self._global_container_stack.replaceContainer(self._global_container_stack.getContainerIndex(global_material), self._empty_material_container)

                for extruder_stack in ExtruderManager.getInstance().getActiveExtruderStacks(): #Listen for changes on all extruder stacks.
                    extruder_stack.propertyChanged.connect(self._onPropertyChanged)
                    extruder_stack.containersChanged.connect(self._onInstanceContainersChanged)

            else:
                material = self._global_container_stack.findContainer({"type": "material"})
                material.nameChanged.connect(self._onMaterialNameChanged)

                quality = self._global_container_stack.findContainer({"type": "quality"})
                quality.nameChanged.connect(self._onQualityNameChanged)

        self._updateStacksHaveErrors()

    ##  Update self._stacks_valid according to _checkStacksForErrors and emit if change.
    def _updateStacksHaveErrors(self):
        old_stacks_have_errors = self._stacks_have_errors
        self._stacks_have_errors = self._checkStacksHaveErrors()
        if old_stacks_have_errors != self._stacks_have_errors:
            self.stacksValidationChanged.emit()

    def _onActiveExtruderStackChanged(self):
        self.blurSettings.emit()  # Ensure no-one has focus.
        old_active_container_stack = self._active_container_stack

        self._active_container_stack = ExtruderManager.getInstance().getActiveExtruderStack()
        if not self._active_container_stack:
            self._active_container_stack = self._global_container_stack

        self._updateStacksHaveErrors()

        if old_active_container_stack != self._active_container_stack:
            # Many methods and properties related to the active quality actually depend
            # on _active_container_stack. If it changes, then the properties change.
            self.activeQualityChanged.emit()

    def _onInstanceContainersChanged(self, container):
        container_type = container.getMetaDataEntry("type")

        self.activeVariantChanged.emit()
        self.activeMaterialChanged.emit()
        self.activeQualityChanged.emit()

        self._updateStacksHaveErrors()

    def _onPropertyChanged(self, key, property_name):
        if property_name == "value":
            # Notify UI items, such as the "changed" star in profile pull down menu.
            self.activeStackValueChanged.emit()

        elif property_name == "validationState":
            self._error_check_timer.start()

    @pyqtSlot(str)
    def setActiveMachine(self, stack_id: str) -> None:
        self.blurSettings.emit()  # Ensure no-one has focus.
        containers = ContainerRegistry.getInstance().findContainerStacks(id = stack_id)
        if containers:
            Application.getInstance().setGlobalContainerStack(containers[0])

    @pyqtSlot(str, str)
    def addMachine(self, name: str, definition_id: str) -> None:
        container_registry = ContainerRegistry.getInstance()
        definitions = container_registry.findDefinitionContainers(id = definition_id)
        if definitions:
            definition = definitions[0]
            name = self._createUniqueName("machine", "", name, definition.getName())
            new_global_stack = ContainerStack(name)
            new_global_stack.addMetaDataEntry("type", "machine")
            container_registry.addContainer(new_global_stack)

            variant_instance_container = self._updateVariantContainer(definition)
            material_instance_container = self._updateMaterialContainer(definition, variant_instance_container)
            quality_instance_container = self._updateQualityContainer(definition, variant_instance_container, material_instance_container)

            current_settings_instance_container = InstanceContainer(name + "_current_settings")
            current_settings_instance_container.addMetaDataEntry("machine", name)
            current_settings_instance_container.addMetaDataEntry("type", "user")
            current_settings_instance_container.setDefinition(definitions[0])
            container_registry.addContainer(current_settings_instance_container)

            new_global_stack.addContainer(definition)
            if variant_instance_container:
                new_global_stack.addContainer(variant_instance_container)
            if material_instance_container:
                new_global_stack.addContainer(material_instance_container)
            if quality_instance_container:
                new_global_stack.addContainer(quality_instance_container)

            new_global_stack.addContainer(self._empty_quality_changes_container)
            new_global_stack.addContainer(current_settings_instance_container)

            ExtruderManager.getInstance().addMachineExtruders(definition, new_global_stack.getId())

            Application.getInstance().setGlobalContainerStack(new_global_stack)


    ##  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: str, current_name: str, new_name: str, fallback_name: str) -> str:
        return ContainerRegistry.getInstance().createUniqueName(container_type, current_name, new_name, fallback_name)

    def _checkStacksHaveErrors(self):
        if self._global_container_stack is None: #No active machine.
            return False

        if self._global_container_stack.hasErrors():
            return True
        for stack in ExtruderManager.getInstance().getMachineExtruders(self._global_container_stack.getId()):
            if stack.hasErrors():
                return True

        return False

    ##  Remove all instances from the top instanceContainer (effectively removing all user-changed settings)
    @pyqtSlot()
    def clearUserSettings(self):
        if not self._active_container_stack:
            return

        self.blurSettings.emit()
        user_settings = self._active_container_stack.getTop()
        user_settings.clear()

    ##  Check if the global_container has instances in the user container
    @pyqtProperty(bool, notify = activeStackValueChanged)
    def hasUserSettings(self):
        if not self._global_container_stack:
            return False

        if self._global_container_stack.getTop().findInstances():
            return True

        stacks = list(ExtruderManager.getInstance().getMachineExtruders(self._global_container_stack.getId()))
        for stack in stacks:
            if stack.getTop().findInstances():
                return True

        return False

    @pyqtProperty(int, notify = activeStackValueChanged)
    def numUserSettings(self):
        if not self._global_container_stack:
            return 0
        num_user_settings = 0
        num_user_settings += len(self._global_container_stack.getTop().findInstances())
        stacks = list(ExtruderManager.getInstance().getMachineExtruders(self._global_container_stack.getId()))
        for stack in stacks:
            num_user_settings += len(stack.getTop().findInstances())
        return num_user_settings

    ##  Delete a user setting from the global stack and all extruder stacks.
    #   \param key \type{str} the name of the key to delete
    @pyqtSlot(str)
    def clearUserSettingAllCurrentStacks(self, key):
        if not self._global_container_stack:
            return

        send_emits_containers = []

        top_container = self._global_container_stack.getTop()
        top_container.removeInstance(key, postpone_emit=True)
        send_emits_containers.append(top_container)

        linked = not self._global_container_stack.getProperty(key, "settable_per_extruder") or \
                      self._global_container_stack.getProperty(key, "limit_to_extruder") != "-1"

        if not linked:
            stack = ExtruderManager.getInstance().getActiveExtruderStack()
            stacks = [stack]
        else:
            stacks = ExtruderManager.getInstance().getMachineExtruders(self._global_container_stack.getId())

        for stack in stacks:
            if stack is not None:
                container = stack.getTop()
                container.removeInstance(key, postpone_emit=True)
                send_emits_containers.append(container)

        for container in send_emits_containers:
            container.sendPostponedEmits()

    ##  Check if none of the stacks contain error states
    #   Note that the _stacks_have_errors is cached due to performance issues
    #   Calling _checkStack(s)ForErrors on every change is simply too expensive
    @pyqtProperty(bool, notify = stacksValidationChanged)
    def stacksHaveErrors(self):
        return bool(self._stacks_have_errors)

    @pyqtProperty(str, notify = activeStackChanged)
    def activeUserProfileId(self) -> str:
        if self._active_container_stack:
            return self._active_container_stack.getTop().getId()

        return ""

    @pyqtProperty(str, notify = globalContainerChanged)
    def activeMachineName(self) -> str:
        if self._global_container_stack:
            return self._global_container_stack.getName()

        return ""

    @pyqtProperty(str, notify = globalContainerChanged)
    def activeMachineId(self) -> str:
        if self._global_container_stack:
            return self._global_container_stack.getId()

        return ""

    @pyqtProperty(str, notify = activeStackChanged)
    def activeStackId(self) -> str:
        if self._active_container_stack:
            return self._active_container_stack.getId()

        return ""

    @pyqtProperty(str, notify = activeMaterialChanged)
    def activeMaterialName(self) -> str:
        if self._active_container_stack:
            material = self._active_container_stack.findContainer({"type":"material"})
            if material:
                return material.getName()

        return ""

    @pyqtProperty("QVariantList", notify=activeVariantChanged)
    def activeVariantNames(self):
        result = []
        if ExtruderManager.getInstance().getActiveGlobalAndExtruderStacks() is not None:
            for stack in ExtruderManager.getInstance().getActiveGlobalAndExtruderStacks():
                variant_container = stack.findContainer({"type": "variant"})
                if variant_container and variant_container != self._empty_variant_container:
                    result.append(variant_container.getName())

        return result

    @pyqtProperty("QVariantList", notify = activeMaterialChanged)
    def activeMaterialNames(self):
        result = []
        if ExtruderManager.getInstance().getActiveGlobalAndExtruderStacks() is not None:
            for stack in ExtruderManager.getInstance().getActiveGlobalAndExtruderStacks():
                material_container = stack.findContainer(type="material")
                if material_container and material_container != self._empty_material_container:
                    result.append(material_container.getName())
        return result

    @pyqtProperty(str, notify=activeMaterialChanged)
    def activeMaterialId(self) -> str:
        if self._active_container_stack:
            material = self._active_container_stack.findContainer({"type": "material"})
            if material:
                return material.getId()

        return ""

    @pyqtProperty("QVariantMap", notify = activeMaterialChanged)
    def allActiveMaterialIds(self):
        if not self._global_container_stack:
            return {}

        result = {}

        for stack in ExtruderManager.getInstance().getActiveGlobalAndExtruderStacks():
            material_container = stack.findContainer(type = "material")
            if not material_container:
                continue

            result[stack.getId()] = material_container.getId()

        return result

    ##  Gets the layer height of the currently active quality profile.
    #
    #   This is indicated together with the name of the active quality profile.
    #
    #   \return The layer height of the currently active quality profile. If
    #   there is no quality profile, this returns 0.
    @pyqtProperty(float, notify=activeQualityChanged)
    def activeQualityLayerHeight(self):
        if not self._global_container_stack:
            return 0

        quality_changes = self._global_container_stack.findContainer({"type": "quality_changes"})
        if quality_changes:
            value = self._global_container_stack.getRawProperty("layer_height", "value", skip_until_container = quality_changes.getId())
            if isinstance(value, SettingFunction):
                value = value(self._global_container_stack)
            return value
        quality = self._global_container_stack.findContainer({"type": "quality"})
        if quality:
            value = self._global_container_stack.getRawProperty("layer_height", "value", skip_until_container = quality.getId())
            if isinstance(value, SettingFunction):
                value = value(self._global_container_stack)
            return value

        return 0 #No quality profile.

    ##  Get the Material ID associated with the currently active material
    #   \returns MaterialID (string) if found, empty string otherwise
    @pyqtProperty(str, notify=activeQualityChanged)
    def activeQualityMaterialId(self) -> str:
        if self._active_container_stack:
            quality = self._active_container_stack.findContainer({"type": "quality"})
            if quality:
                material_id = quality.getMetaDataEntry("material")
                if material_id:
                    # if the currently active machine inherits its qualities from a different machine
                    # definition, make sure to return a material that is relevant to that machine definition
                    definition_id = self.activeDefinitionId
                    quality_definition_id = self.activeQualityDefinitionId
                    if definition_id != quality_definition_id:
                        material_id = material_id.replace(definition_id, quality_definition_id, 1)

                    return material_id
        return ""

    @pyqtProperty(str, notify=activeQualityChanged)
    def activeQualityName(self):
        if self._active_container_stack and self._global_container_stack:
            quality = self._global_container_stack.findContainer({"type": "quality_changes"})
            if quality and quality != self._empty_quality_changes_container:
                return quality.getName()
            quality = self._active_container_stack.findContainer({"type": "quality"})
            if quality:
                return quality.getName()
        return ""

    @pyqtProperty(str, notify=activeQualityChanged)
    def activeQualityId(self):
        if self._active_container_stack:
            quality = self._active_container_stack.findContainer({"type": "quality_changes"})
            if quality and quality != self._empty_quality_changes_container:
                return quality.getId()
            quality = self._active_container_stack.findContainer({"type": "quality"})
            if quality:
                return quality.getId()
        return ""

    @pyqtProperty(str, notify=activeQualityChanged)
    def globalQualityId(self):
        if self._global_container_stack:
            quality = self._global_container_stack.findContainer({"type": "quality_changes"})
            if quality and quality != self._empty_quality_changes_container:
                return quality.getId()
            quality = self._global_container_stack.findContainer({"type": "quality"})
            if quality:
                return quality.getId()
        return ""

    @pyqtProperty(str, notify = activeQualityChanged)
    def activeQualityType(self):
        if self._active_container_stack:
            quality = self._active_container_stack.findContainer(type = "quality")
            if quality:
                return quality.getMetaDataEntry("quality_type")
        return ""

    @pyqtProperty(bool, notify = activeQualityChanged)
    def isActiveQualitySupported(self):
        if self._active_container_stack:
            quality = self._active_container_stack.findContainer(type = "quality")
            if quality:
                return Util.parseBool(quality.getMetaDataEntry("supported", True))
        return False

    ##  Get the Quality ID associated with the currently active extruder
    #   Note that this only returns the "quality", not the "quality_changes"
    #   \returns QualityID (string) if found, empty string otherwise
    #   \sa activeQualityId()
    #   \todo Ideally, this method would be named activeQualityId(), and the other one
    #         would be named something like activeQualityOrQualityChanges() for consistency
    @pyqtProperty(str, notify = activeQualityChanged)
    def activeQualityContainerId(self):
        # We're using the active stack instead of the global stack in case the list of qualities differs per extruder
        if self._global_container_stack:
            quality = self._active_container_stack.findContainer(type = "quality")
            if quality:
                return quality.getId()
        return ""

    @pyqtProperty(str, notify = activeQualityChanged)
    def activeQualityChangesId(self):
        if self._active_container_stack:
            changes = self._active_container_stack.findContainer(type = "quality_changes")
            if changes:
                return changes.getId()
        return ""

    ## Check if a container is read_only
    @pyqtSlot(str, result = bool)
    def isReadOnly(self, container_id) -> bool:
        containers = ContainerRegistry.getInstance().findInstanceContainers(id = container_id)
        if not containers or not self._active_container_stack:
            return True
        return containers[0].isReadOnly()

    ## Copy the value of the setting of the current extruder to all other extruders as well as the global container.
    @pyqtSlot(str)
    def copyValueToExtruders(self, key):
        if not self._active_container_stack or self._global_container_stack.getProperty("machine_extruder_count", "value") <= 1:
            return

        new_value = self._active_container_stack.getProperty(key, "value")
        stacks = [stack for stack in ExtruderManager.getInstance().getMachineExtruders(self._global_container_stack.getId())]
        stacks.append(self._global_container_stack)
        for extruder_stack in stacks:
            if extruder_stack != self._active_container_stack and extruder_stack.getProperty(key, "value") != new_value:
                extruder_stack.getTop().setProperty(key, "value", new_value)

    ## Set the active material by switching out a container
    #  Depending on from/to material+current variant, a quality profile is chosen and set.
    @pyqtSlot(str)
    def setActiveMaterial(self, material_id):
        with postponeSignals(*self._getContainerChangedSignals(), compress = True):
            containers = ContainerRegistry.getInstance().findInstanceContainers(id = material_id)
            if not containers or not self._active_container_stack:
                return
            material_container = containers[0]

            Logger.log("d", "Attempting to change the active material to %s", material_id)

            old_material = self._active_container_stack.findContainer({"type": "material"})
            old_quality = self._active_container_stack.findContainer({"type": "quality"})
            old_quality_changes = self._active_container_stack.findContainer({"type": "quality_changes"})
            if not old_material:
                Logger.log("w", "While trying to set the active material, no material was found to replace it.")
                return

            if old_quality_changes.getId() == "empty_quality_changes":
                old_quality_changes = None

            self.blurSettings.emit()
            old_material.nameChanged.disconnect(self._onMaterialNameChanged)

            material_index = self._active_container_stack.getContainerIndex(old_material)
            self._active_container_stack.replaceContainer(material_index, material_container)
            Logger.log("d", "Active material changed")

            material_container.nameChanged.connect(self._onMaterialNameChanged)

            if material_container.getMetaDataEntry("compatible") == False:
                self._material_incompatible_message.show()
            else:
                self._material_incompatible_message.hide()

            quality_type = None
            new_quality_id = None
            if old_quality:
                new_quality_id = old_quality.getId()
                quality_type = old_quality.getMetaDataEntry("quality_type")
            if old_quality_changes:
                quality_type = old_quality_changes.getMetaDataEntry("quality_type")
                new_quality_id = old_quality_changes.getId()

            # See if the requested quality type is available in the new situation.
            machine_definition = self._active_container_stack.getBottom()
            quality_manager = QualityManager.getInstance()
            candidate_quality = None
            if quality_type:
                candidate_quality = quality_manager.findQualityByQualityType(quality_type,
                                        quality_manager.getWholeMachineDefinition(machine_definition),
                                        [material_container])
            if not candidate_quality or candidate_quality.getId() == "empty_quality":
                # Fall back to a quality (which must be compatible with all other extruders)
                new_qualities = quality_manager.findAllUsableQualitiesForMachineAndExtruders(
                    self._global_container_stack, ExtruderManager.getInstance().getExtruderStacks())

                if new_qualities:
                    new_quality_id = new_qualities[0].getId()  # Just pick the first available one
                else:
                    Logger.log("w", "No quality profile found that matches the current machine and extruders.")
            else:
                if not old_quality_changes:
                    new_quality_id = candidate_quality.getId()

            self.setActiveQuality(new_quality_id)

    @pyqtSlot(str)
    def setActiveVariant(self, variant_id):
        with postponeSignals(*self._getContainerChangedSignals(), compress = True):
            containers = ContainerRegistry.getInstance().findInstanceContainers(id = variant_id)
            if not containers or not self._active_container_stack:
                return
            Logger.log("d", "Attempting to change the active variant to %s", variant_id)
            old_variant = self._active_container_stack.findContainer({"type": "variant"})
            old_material = self._active_container_stack.findContainer({"type": "material"})
            if old_variant:
                self.blurSettings.emit()
                variant_index = self._active_container_stack.getContainerIndex(old_variant)
                self._active_container_stack.replaceContainer(variant_index, containers[0])
                Logger.log("d", "Active variant changed")
                preferred_material = None
                if old_material:
                    preferred_material_name = old_material.getName()

                self.setActiveMaterial(self._updateMaterialContainer(self._global_container_stack.getBottom(), containers[0], preferred_material_name).id)
            else:
                Logger.log("w", "While trying to set the active variant, no variant was found to replace.")

    ##  set the active quality
    #   \param quality_id The quality_id of either a quality or a quality_changes
    @pyqtSlot(str)
    def setActiveQuality(self, quality_id):
        with postponeSignals(*self._getContainerChangedSignals(), compress = True):
            self.blurSettings.emit()

            containers = ContainerRegistry.getInstance().findInstanceContainers(id = quality_id)
            if not containers or not self._global_container_stack:
                return

            Logger.log("d", "Attempting to change the active quality to %s", quality_id)

            # Quality profile come in two flavours: type=quality and type=quality_changes
            # If we found a quality_changes profile then look up its parent quality profile.
            container_type = containers[0].getMetaDataEntry("type")
            quality_name = containers[0].getName()
            quality_type = containers[0].getMetaDataEntry("quality_type")

            # Get quality container and optionally the quality_changes container.
            if container_type == "quality":
                new_quality_settings_list = self.determineQualityAndQualityChangesForQualityType(quality_type)
            elif container_type == "quality_changes":
                new_quality_settings_list = self._determineQualityAndQualityChangesForQualityChanges(quality_name)
            else:
                Logger.log("e", "Tried to set quality to a container that is not of the right type")
                return

            # Check if it was at all possible to find new settings
            if new_quality_settings_list is None:
                return

            name_changed_connect_stacks = []  # Connect these stacks to the name changed callback
            for setting_info in new_quality_settings_list:
                stack = setting_info["stack"]
                stack_quality = setting_info["quality"]
                stack_quality_changes = setting_info["quality_changes"]

                name_changed_connect_stacks.append(stack_quality)
                name_changed_connect_stacks.append(stack_quality_changes)
                self._replaceQualityOrQualityChangesInStack(stack, stack_quality)
                self._replaceQualityOrQualityChangesInStack(stack, stack_quality_changes)

            # Send emits that are postponed in replaceContainer.
            # Here the stacks are finished replacing and every value can be resolved based on the current state.
            for setting_info in new_quality_settings_list:
                setting_info["stack"].sendPostponedEmits()

            # Connect to onQualityNameChanged
            for stack in name_changed_connect_stacks:
                stack.nameChanged.connect(self._onQualityNameChanged)

            if self.hasUserSettings and Preferences.getInstance().getValue("cura/active_mode") == 1:
                self._askUserToKeepOrClearCurrentSettings()

            self.activeQualityChanged.emit()

    ##  Determine the quality and quality changes settings for the current machine for a quality name.
    #
    #   \param quality_name \type{str} the name of the quality.
    #   \return \type{List[Dict]} with keys "stack", "quality" and "quality_changes".
    def determineQualityAndQualityChangesForQualityType(self, quality_type):
        quality_manager = QualityManager.getInstance()
        result = []
        empty_quality_changes = self._empty_quality_changes_container
        global_container_stack = self._global_container_stack
        if not global_container_stack:
            return []
        global_machine_definition = quality_manager.getParentMachineDefinition(global_container_stack.getBottom())

        extruder_stacks = ExtruderManager.getInstance().getActiveExtruderStacks()
        if extruder_stacks:
            stacks = extruder_stacks
        else:
            stacks = [global_container_stack]

        for stack in stacks:
            material = stack.findContainer(type="material")
            quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [material])
            if not quality: #No quality profile is found for this quality type.
                quality = self._empty_quality_container
            result.append({"stack": stack, "quality": quality, "quality_changes": empty_quality_changes})

        if extruder_stacks:
            # Add an extra entry for the global stack.
            global_quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [], global_quality = "True")

            if not global_quality:
                global_quality = self._empty_quality_container

            result.append({"stack": global_container_stack, "quality": global_quality, "quality_changes": empty_quality_changes})

        return result

    ##  Determine the quality and quality changes settings for the current machine for a quality changes name.
    #
    #   \param quality_changes_name \type{str} the name of the quality changes.
    #   \return \type{List[Dict]} with keys "stack", "quality" and "quality_changes".
    def _determineQualityAndQualityChangesForQualityChanges(self, quality_changes_name):
        result = []
        quality_manager = QualityManager.getInstance()

        global_container_stack = self._global_container_stack
        global_machine_definition = quality_manager.getParentMachineDefinition(global_container_stack.getBottom())

        quality_changes_profiles = quality_manager.findQualityChangesByName(quality_changes_name,
                                                                            global_machine_definition)

        global_quality_changes = [qcp for qcp in quality_changes_profiles if qcp.getMetaDataEntry("extruder") is None]
        if global_quality_changes:
            global_quality_changes = global_quality_changes[0]
        else:
            Logger.log("e", "Could not find the global quality changes container with name %s", quality_changes_name)
            return None
        material = global_container_stack.findContainer(type="material")

        # For the global stack, find a quality which matches the quality_type in
        # the quality changes profile and also satisfies any material constraints.
        quality_type = global_quality_changes.getMetaDataEntry("quality_type")
        if global_container_stack.getProperty("machine_extruder_count", "value") > 1:
            global_quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [], global_quality = True)
        else:
            global_quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [material])

        # Find the values for each extruder.
        extruder_stacks = ExtruderManager.getInstance().getActiveExtruderStacks()

        for stack in extruder_stacks:
            extruder_definition = quality_manager.getParentMachineDefinition(stack.getBottom())

            quality_changes_list = [qcp for qcp in quality_changes_profiles
                                    if qcp.getMetaDataEntry("extruder") == extruder_definition.getId()]
            if quality_changes_list:
                quality_changes = quality_changes_list[0]
            else:
                quality_changes = global_quality_changes

            material = stack.findContainer(type="material")
            quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [material])
            if not quality: #No quality profile found for this quality type.
                quality = self._empty_quality_container

            result.append({"stack": stack, "quality": quality, "quality_changes": quality_changes})

        if extruder_stacks:
            global_quality = quality_manager.findQualityByQualityType(quality_type, global_machine_definition, [material], global_quality = "True")
            if not global_quality:
                global_quality = self._empty_quality_container
            result.append({"stack": global_container_stack, "quality": global_quality, "quality_changes": global_quality_changes})
        else:
            result.append({"stack": global_container_stack, "quality": global_quality, "quality_changes": global_quality_changes})

        return result

    def _replaceQualityOrQualityChangesInStack(self, stack, container, postpone_emit = False):
        # Disconnect the signal handling from the old container.
        old_container = stack.findContainer(type=container.getMetaDataEntry("type"))
        if old_container:
            old_container.nameChanged.disconnect(self._onQualityNameChanged)
        else:
            Logger.log("e", "Could not find container of type %s in stack %s while replacing quality (changes) with container %s", container.getMetaDataEntry("type"), stack.getId(), container.getId())
            return

        # Swap in the new container into the stack.
        stack.replaceContainer(stack.getContainerIndex(old_container), container, postpone_emit = postpone_emit)

        # Attach the needed signal handling.
        container.nameChanged.connect(self._onQualityNameChanged)

    def _askUserToKeepOrClearCurrentSettings(self):
        Application.getInstance().discardOrKeepProfileChanges()

    @pyqtProperty(str, notify = activeVariantChanged)
    def activeVariantName(self):
        if self._active_container_stack:
            variant = self._active_container_stack.findContainer({"type": "variant"})
            if variant:
                return variant.getName()

        return ""

    @pyqtProperty(str, notify = activeVariantChanged)
    def activeVariantId(self):
        if self._active_container_stack:
            variant = self._active_container_stack.findContainer({"type": "variant"})
            if variant:
                return variant.getId()

        return ""

    @pyqtProperty(str, notify = globalContainerChanged)
    def activeDefinitionId(self):
        if self._global_container_stack:
            definition = self._global_container_stack.getBottom()
            if definition:
                return definition.id

        return ""

    @pyqtProperty(str, notify=globalContainerChanged)
    def activeDefinitionName(self):
        if self._global_container_stack:
            definition = self._global_container_stack.getBottom()
            if definition:
                return definition.getName()

        return ""

    ##  Get the Definition ID to use to select quality profiles for the currently active machine
    #   \returns DefinitionID (string) if found, empty string otherwise
    #   \sa getQualityDefinitionId
    @pyqtProperty(str, notify = globalContainerChanged)
    def activeQualityDefinitionId(self):
        if self._global_container_stack:
            return self.getQualityDefinitionId(self._global_container_stack.getBottom())
        return ""

    ##  Get the Definition ID to use to select quality profiles for machines of the specified definition
    #   This is normally the id of the definition itself, but machines can specify a different definition to inherit qualities from
    #   \param definition (DefinitionContainer) machine definition
    #   \returns DefinitionID (string) if found, empty string otherwise
    def getQualityDefinitionId(self, definition):
        return QualityManager.getInstance().getParentMachineDefinition(definition).getId()

    ##  Get the Variant ID to use to select quality profiles for the currently active variant
    #   \returns VariantID (string) if found, empty string otherwise
    #   \sa getQualityVariantId
    @pyqtProperty(str, notify = activeVariantChanged)
    def activeQualityVariantId(self):
        if self._active_container_stack:
            variant = self._active_container_stack.findContainer({"type": "variant"})
            if variant:
                return self.getQualityVariantId(self._global_container_stack.getBottom(), variant)
        return ""

    ##  Get the Variant ID to use to select quality profiles for variants of the specified definitions
    #   This is normally the id of the variant itself, but machines can specify a different definition
    #   to inherit qualities from, which has consequences for the variant to use as well
    #   \param definition (DefinitionContainer) machine definition
    #   \param variant (DefinitionContainer) variant definition
    #   \returns VariantID (string) if found, empty string otherwise
    def getQualityVariantId(self, definition, variant):
        variant_id = variant.getId()
        definition_id = definition.getId()
        quality_definition_id = self.getQualityDefinitionId(definition)

        if definition_id != quality_definition_id:
            variant_id = variant_id.replace(definition_id, quality_definition_id, 1)
        return variant_id

    ##  Gets how the active definition calls variants
    #   Caveat: per-definition-variant-title is currently not translated (though the fallback is)
    @pyqtProperty(str, notify = globalContainerChanged)
    def activeDefinitionVariantsName(self):
        fallback_title = catalog.i18nc("@label", "Nozzle")
        if self._global_container_stack:
            return self._global_container_stack.getBottom().getMetaDataEntry("variants_name", fallback_title)

        return fallback_title

    @pyqtSlot(str, str)
    def renameMachine(self, machine_id, new_name):
        containers = ContainerRegistry.getInstance().findContainerStacks(id = machine_id)
        if containers:
            new_name = self._createUniqueName("machine", containers[0].getName(), new_name, containers[0].getBottom().getName())
            containers[0].setName(new_name)
            self.globalContainerChanged.emit()

    @pyqtSlot(str)
    def removeMachine(self, machine_id):
        # If the machine that is being removed is the currently active machine, set another machine as the active machine.
        activate_new_machine = (self._global_container_stack and self._global_container_stack.getId() == machine_id)

        ExtruderManager.getInstance().removeMachineExtruders(machine_id)

        containers = ContainerRegistry.getInstance().findInstanceContainers(type = "user", machine = machine_id)
        for container in containers:
            ContainerRegistry.getInstance().removeContainer(container.getId())
        ContainerRegistry.getInstance().removeContainer(machine_id)

        if activate_new_machine:
            stacks = ContainerRegistry.getInstance().findContainerStacks(type = "machine")
            if stacks:
                Application.getInstance().setGlobalContainerStack(stacks[0])


    @pyqtProperty(bool, notify = globalContainerChanged)
    def hasMaterials(self):
        if self._global_container_stack:
            return bool(self._global_container_stack.getMetaDataEntry("has_materials", False))

        return False

    @pyqtProperty(bool, notify = globalContainerChanged)
    def hasVariants(self):
        if self._global_container_stack:
            return bool(self._global_container_stack.getMetaDataEntry("has_variants", False))

        return False

    ##  Property to indicate if a machine has "specialized" material profiles.
    #   Some machines have their own material profiles that "override" the default catch all profiles.
    @pyqtProperty(bool, notify = globalContainerChanged)
    def filterMaterialsByMachine(self):
        if self._global_container_stack:
            return bool(self._global_container_stack.getMetaDataEntry("has_machine_materials", False))

        return False

    ##  Property to indicate if a machine has "specialized" quality profiles.
    #   Some machines have their own quality profiles that "override" the default catch all profiles.
    @pyqtProperty(bool, notify = globalContainerChanged)
    def filterQualityByMachine(self):
        if self._global_container_stack:
            return bool(self._global_container_stack.getMetaDataEntry("has_machine_quality", False))
        return False

    ##  Get the Definition ID of a machine (specified by ID)
    #   \param machine_id string machine id to get the definition ID of
    #   \returns DefinitionID (string) if found, None otherwise
    @pyqtSlot(str, result = str)
    def getDefinitionByMachineId(self, machine_id):
        containers = ContainerRegistry.getInstance().findContainerStacks(id=machine_id)
        if containers:
            return containers[0].getBottom().getId()

    @staticmethod
    def createMachineManager(engine=None, script_engine=None):
        return MachineManager()

    def _updateVariantContainer(self, definition):
        if not definition.getMetaDataEntry("has_variants"):
            return self._empty_variant_container
        machine_definition_id = Application.getInstance().getMachineManager().getQualityDefinitionId(definition)
        containers = []
        preferred_variant = definition.getMetaDataEntry("preferred_variant")
        if preferred_variant:
            containers = ContainerRegistry.getInstance().findInstanceContainers(type = "variant", definition = machine_definition_id, id = preferred_variant)
        if not containers:
            containers = ContainerRegistry.getInstance().findInstanceContainers(type = "variant", definition = machine_definition_id)

        if containers:
            return containers[0]

        return self._empty_variant_container

    def _updateMaterialContainer(self, definition, variant_container = None, preferred_material_name = None):
        if not definition.getMetaDataEntry("has_materials"):
            return self._empty_material_container

        search_criteria = { "type": "material" }

        if definition.getMetaDataEntry("has_machine_materials"):
            search_criteria["definition"] = self.getQualityDefinitionId(definition)

            if definition.getMetaDataEntry("has_variants") and variant_container:
                search_criteria["variant"] = self.getQualityVariantId(definition, variant_container)
        else:
            search_criteria["definition"] = "fdmprinter"

        if preferred_material_name:
            search_criteria["name"] = preferred_material_name
        else:
            preferred_material = definition.getMetaDataEntry("preferred_material")
            if preferred_material:
                search_criteria["id"] = preferred_material

        containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
        if containers:
            return containers[0]

        if "variant" in search_criteria or "id" in search_criteria:
            # If a material by this name can not be found, try a wider set of search criteria
            search_criteria.pop("variant", None)
            search_criteria.pop("id", None)

            containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
            if containers:
                return containers[0]
        Logger.log("w", "Unable to find a material container with provided criteria, returning an empty one instead.")
        return self._empty_material_container

    def _updateQualityContainer(self, definition, variant_container, material_container = None, preferred_quality_name = None):
        container_registry = ContainerRegistry.getInstance()
        search_criteria = { "type": "quality" }

        if definition.getMetaDataEntry("has_machine_quality"):
            search_criteria["definition"] = self.getQualityDefinitionId(definition)

            if definition.getMetaDataEntry("has_materials") and material_container:
                search_criteria["material"] = material_container.id
        else:
            search_criteria["definition"] = "fdmprinter"

        if preferred_quality_name and preferred_quality_name != "empty":
            search_criteria["name"] = preferred_quality_name
        else:
            preferred_quality = definition.getMetaDataEntry("preferred_quality")
            if preferred_quality:
                search_criteria["id"] = preferred_quality

        containers = container_registry.findInstanceContainers(**search_criteria)
        if containers:
            return containers[0]

        if "material" in search_criteria:
            # First check if we can solve our material not found problem by checking if we can find quality containers
            # that are assigned to the parents of this material profile.
            try:
                inherited_files = material_container.getInheritedFiles()
            except AttributeError:  # Material_container does not support inheritance.
                inherited_files = []

            if inherited_files:
                for inherited_file in inherited_files:
                    # Extract the ID from the path we used to load the file.
                    search_criteria["material"] = os.path.basename(inherited_file).split(".")[0]
                    containers = container_registry.findInstanceContainers(**search_criteria)
                    if containers:
                        return containers[0]
            # We still weren't able to find a quality for this specific material.
            # Try to find qualities for a generic version of the material.
            material_search_criteria = { "type": "material", "material": material_container.getMetaDataEntry("material"), "color_name": "Generic"}
            if definition.getMetaDataEntry("has_machine_quality"):
                if material_container:
                    material_search_criteria["definition"] = material_container.getDefinition().id

                    if definition.getMetaDataEntry("has_variants"):
                        material_search_criteria["variant"] = material_container.getMetaDataEntry("variant")
                else:
                    material_search_criteria["definition"] = self.getQualityDefinitionId(definition)

                    if definition.getMetaDataEntry("has_variants") and variant_container:
                        material_search_criteria["variant"] = self.getQualityVariantId(definition, variant_container)
            else:
                material_search_criteria["definition"] = "fdmprinter"
            material_containers = container_registry.findInstanceContainers(**material_search_criteria)
            # Try all materials to see if there is a quality profile available.
            for material_container in material_containers:
                search_criteria["material"] = material_container.getId()

                containers = container_registry.findInstanceContainers(**search_criteria)
                if containers:
                    return containers[0]

        if "name" in search_criteria or "id" in search_criteria:
            # If a quality by this name can not be found, try a wider set of search criteria
            search_criteria.pop("name", None)
            search_criteria.pop("id", None)

            containers = container_registry.findInstanceContainers(**search_criteria)
            if containers:
                return containers[0]

        # Notify user that we were unable to find a matching quality
        message = Message(catalog.i18nc("@info:status", "Unable to find a quality profile for this combination. Default settings will be used instead."))
        message.show()
        return self._empty_quality_container

    ##  Finds a quality-changes container to use if any other container
    #   changes.
    #
    #   \param quality_type The quality type to find a quality-changes for.
    #   \param preferred_quality_changes_name The name of the quality-changes to
    #   pick, if any such quality-changes profile is available.
    def _updateQualityChangesContainer(self, quality_type, preferred_quality_changes_name = None):
        container_registry = ContainerRegistry.getInstance() # Cache.
        search_criteria = { "type": "quality_changes" }

        search_criteria["quality"] = quality_type
        if preferred_quality_changes_name:
            search_criteria["name"] = preferred_quality_changes_name

        # Try to search with the name in the criteria first, since we prefer to have the correct name.
        containers = container_registry.findInstanceContainers(**search_criteria)
        if containers: # Found one!
            return containers[0]

        if "name" in search_criteria:
            del search_criteria["name"] # Not found, then drop the name requirement (if we had one) and search again.
            containers = container_registry.findInstanceContainers(**search_criteria)
            if containers:
                return containers[0]

        return self._empty_quality_changes_container # Didn't find anything with the required quality_type.

    def _onMachineNameChanged(self):
        self.globalContainerChanged.emit()

    def _onMaterialNameChanged(self):
        self.activeMaterialChanged.emit()

    def _onQualityNameChanged(self):
        self.activeQualityChanged.emit()

    def _getContainerChangedSignals(self):
        stacks = ExtruderManager.getInstance().getActiveExtruderStacks()
        stacks.append(self._global_container_stack)
        return [ s.containersChanged for s in stacks ]