def createGlobalStack(cls, new_stack_id: str,
definition: DefinitionContainer,
**kwargs) -> GlobalStack:
stack = GlobalStack(new_stack_id)
stack.setDefinition(definition)
user_container = InstanceContainer(new_stack_id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", new_stack_id)
user_container.setDefinition(definition)
stack.setUserChanges(user_container)
# Important! The order here matters, because that allows the stack to
# assume the material and variant have already been set.
if "definition_changes" in kwargs:
stack.setDefinitionChangesById(kwargs["definition_changes"])
if "variant" in kwargs:
stack.setVariantById(kwargs["variant"])
if "material" in kwargs:
stack.setMaterialById(kwargs["material"])
if "quality" in kwargs:
stack.setQualityById(kwargs["quality"])
if "quality_changes" in kwargs:
stack.setQualityChangesById(kwargs["quality_changes"])
registry = ContainerRegistry.getInstance()
registry.addContainer(stack)
registry.addContainer(user_container)
return stack
def test_roundtrip_instance(tmpdir, process_count, loaded_container_registry):
instance_container = InstanceContainer("test_container")
instance_container.setName("Test Instance Container")
instance_container.setDefinition("inherits")
instance_container.setMetaDataEntry("test", "test")
instance_container.setProperty("test_setting_1", "value", 20)
temp_file = tmpdir.join("instance_container_test")
mp_run(process_count, write_data, temp_file, instance_container)
assert len(list(tmpdir.listdir())) == 1
results = mp_run(process_count, read_data, temp_file)
for result in results:
deserialized_container = InstanceContainer("test_container")
deserialized_container.setDefinition("inherits")
with unittest.mock.patch(
"UM.Settings.ContainerRegistry.ContainerRegistry.getInstance",
unittest.mock.MagicMock(
return_value=loaded_container_registry)):
deserialized_container.deserialize(result)
assert deserialized_container.getName() == instance_container.getName()
assert deserialized_container.getMetaData(
) == instance_container.getMetaData()
assert deserialized_container.getProperty(
"test_setting_1",
"value") == instance_container.getProperty("test_setting_1",
"value")
def test_roundtrip_instance(tmpdir, process_count, loaded_container_registry):
definition = loaded_container_registry.findDefinitionContainers(
id="inherits")[0]
instance_container = InstanceContainer("test_container")
instance_container.setName("Test Instance Container")
instance_container.setDefinition(definition)
instance_container.addMetaDataEntry("test", "test")
instance_container.setProperty("test_setting_1", "value", 20)
temp_file = tmpdir.join("instance_container_test")
mp_run(process_count, write_data, temp_file, instance_container)
assert len(list(tmpdir.listdir())) == 1
results = mp_run(process_count, read_data, temp_file)
for result in results:
deserialized_container = InstanceContainer("test_container")
deserialized_container.setDefinition(definition)
deserialized_container.deserialize(result)
assert deserialized_container.getName() == instance_container.getName()
assert deserialized_container.getMetaData(
) == instance_container.getMetaData()
assert deserialized_container.getProperty(
"test_setting_1",
"value") == instance_container.getProperty("test_setting_1",
"value")
def _createQualityChanges(
self, quality_type: str, new_name: str, machine: "GlobalStack",
extruder_stack: Optional["ExtruderStack"]) -> "InstanceContainer":
base_id = machine.definition.getId(
) if extruder_stack is None else extruder_stack.getId()
new_id = base_id + "_" + new_name
new_id = new_id.lower().replace(" ", "_")
new_id = self._container_registry.uniqueName(new_id)
# Create a new quality_changes container for the quality.
quality_changes = InstanceContainer(new_id)
quality_changes.setName(new_name)
quality_changes.addMetaDataEntry("type", "quality_changes")
quality_changes.addMetaDataEntry("quality_type", quality_type)
# If we are creating a container for an extruder, ensure we add that to the container
if extruder_stack is not None:
quality_changes.addMetaDataEntry(
"position", extruder_stack.getMetaDataEntry("position"))
# If the machine specifies qualities should be filtered, ensure we match the current criteria.
machine_definition_id = getMachineDefinitionIDForQualitySearch(
machine.definition)
quality_changes.setDefinition(machine_definition_id)
quality_changes.addMetaDataEntry("setting_version",
self._application.SettingVersion)
return quality_changes
def _createQualityChanges(
self, quality_type: str, intent_category: Optional[str],
new_name: str, machine: "GlobalStack",
extruder_stack: Optional["ExtruderStack"]) -> "InstanceContainer":
container_registry = cura.CuraApplication.CuraApplication.getInstance(
).getContainerRegistry()
base_id = machine.definition.getId(
) if extruder_stack is None else extruder_stack.getId()
new_id = base_id + "_" + new_name
new_id = new_id.lower().replace(" ", "_")
new_id = container_registry.uniqueName(new_id)
# Create a new quality_changes container for the quality.
quality_changes = InstanceContainer(new_id)
quality_changes.setName(new_name)
quality_changes.setMetaDataEntry("type", "quality_changes")
quality_changes.setMetaDataEntry("quality_type", quality_type)
if intent_category is not None:
quality_changes.setMetaDataEntry("intent_category",
intent_category)
# If we are creating a container for an extruder, ensure we add that to the container.
if extruder_stack is not None:
quality_changes.setMetaDataEntry(
"position", extruder_stack.getMetaDataEntry("position"))
# If the machine specifies qualities should be filtered, ensure we match the current criteria.
machine_definition_id = ContainerTree.getInstance().machines[
machine.definition.getId()].quality_definition
quality_changes.setDefinition(machine_definition_id)
quality_changes.setMetaDataEntry(
"setting_version",
cura.CuraApplication.CuraApplication.getInstance().SettingVersion)
return quality_changes
def convertUserContainerToQuality(self):
if not self._global_container_stack:
return
new_quality_container = InstanceContainer("")
name = self._createUniqueName("quality", "", self.activeQualityName, catalog.i18nc("@label", "Custom profile"))
user_settings = self._global_container_stack.getTop()
## Copy all values
new_quality_container.deserialize(user_settings.serialize())
## If the currently active machine does not have quality profiles of its own,
# make the new quality profile available for all machines that don't have
# unique quality profiles (including the current machine)
if not self.filterQualityByMachine:
new_quality_container.setDefinition(UM.Settings.ContainerRegistry.getInstance().findDefinitionContainers(id = "fdmprinter")[0])
## Change type / id / name
new_quality_container.setMetaDataEntry("type", "quality")
new_quality_container.setMetaDataEntry("read_only", False)
new_quality_container.setName(name)
new_quality_container._id = name
UM.Settings.ContainerRegistry.getInstance().addContainer(new_quality_container)
self.clearUserSettings() # As all users settings are now transfered to the new quality profile, remove them.
self.setActiveQuality(name)
return name
def test_roundtrip_instance(tmpdir, process_count, loaded_container_registry):
definition = loaded_container_registry.findDefinitionContainers(id = "inherits")[0]
instance_container = InstanceContainer("test_container")
instance_container.setName("Test Instance Container")
instance_container.setDefinition(definition)
instance_container.addMetaDataEntry("test", "test")
instance_container.setProperty("test_setting_1", "value", 20)
temp_file = tmpdir.join("instance_container_test")
mp_run(process_count, write_data, temp_file, instance_container)
assert len(list(tmpdir.listdir())) == 1
results = mp_run(process_count, read_data, temp_file)
for result in results:
deserialized_container = InstanceContainer("test_container")
deserialized_container.setDefinition(definition)
deserialized_container.deserialize(result)
assert deserialized_container.getName() == instance_container.getName()
assert deserialized_container.getMetaData() == instance_container.getMetaData()
assert deserialized_container.getProperty("test_setting_1", "value") == instance_container.getProperty("test_setting_1", "value")
def convertUserContainerToQuality(self):
if not self._global_container_stack:
return
new_quality_container = InstanceContainer("")
name = self._createUniqueName(
"quality", "", self.activeQualityName,
catalog.i18nc("@label", "Custom profile"))
user_settings = self._global_container_stack.getTop()
## Copy all values
new_quality_container.deserialize(user_settings.serialize())
## If the currently active machine does not have quality profiles of its own,
# make the new quality profile available for all machines that don't have
# unique quality profiles (including the current machine)
if not self.filterQualityByMachine:
new_quality_container.setDefinition(
UM.Settings.ContainerRegistry.getInstance(
).findDefinitionContainers(id="fdmprinter")[0])
## Change type / id / name
new_quality_container.setMetaDataEntry("type", "quality")
new_quality_container.setMetaDataEntry("read_only", False)
new_quality_container.setName(name)
new_quality_container._id = name
UM.Settings.ContainerRegistry.getInstance().addContainer(
new_quality_container)
self.clearUserSettings(
) # As all users settings are now transfered to the new quality profile, remove them.
self.setActiveQuality(name)
return name
def _serialiseSettings(self, settings):
prefix = ";SETTING_" + str(
GCodeWriter.version) + " " # The prefix to put before each line.
prefix_length = len(prefix)
all_settings = InstanceContainer(
"G-code-imported-profile"
) #Create a new 'profile' with ALL settings so that the slice can be precisely reproduced.
all_settings.setDefinition(settings.getBottom())
for key in settings.getAllKeys():
all_settings.setProperty(
key, "value", settings.getProperty(key, "value")
) #Just copy everything over to the setting instance.
serialised = all_settings.serialize()
# Escape characters that have a special meaning in g-code comments.
pattern = re.compile("|".join(GCodeWriter.escape_characters.keys()))
# Perform the replacement with a regular expression.
serialised = pattern.sub(
lambda m: GCodeWriter.escape_characters[re.escape(m.group(0))],
serialised)
# Introduce line breaks so that each comment is no longer than 80 characters. Prepend each line with the prefix.
result = ""
# Lines have 80 characters, so the payload of each line is 80 - prefix.
for pos in range(0, len(serialised), 80 - prefix_length):
result += prefix + serialised[pos:pos + 80 - prefix_length] + "\n"
serialised = result
return serialised
def createGlobalStack(cls, new_stack_id: str, definition: DefinitionContainer, **kwargs) -> GlobalStack:
stack = GlobalStack(new_stack_id)
stack.setDefinition(definition)
user_container = InstanceContainer(new_stack_id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", new_stack_id)
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_container.setDefinition(definition)
stack.setUserChanges(user_container)
# Important! The order here matters, because that allows the stack to
# assume the material and variant have already been set.
if "definition_changes" in kwargs:
stack.setDefinitionChangesById(kwargs["definition_changes"])
if "variant" in kwargs:
stack.setVariantById(kwargs["variant"])
if "material" in kwargs:
stack.setMaterialById(kwargs["material"])
if "quality" in kwargs:
stack.setQualityById(kwargs["quality"])
if "quality_changes" in kwargs:
stack.setQualityChangesById(kwargs["quality_changes"])
registry = ContainerRegistry.getInstance()
registry.addContainer(stack)
registry.addContainer(user_container)
return stack
def _createQualityChanges(self, quality_container, new_name,
machine_definition, extruder_id):
base_id = machine_definition.getId(
) if extruder_id is None else extruder_id
# Create a new quality_changes container for the quality.
quality_changes = InstanceContainer(
self._createUniqueId(base_id, new_name))
quality_changes.setName(new_name)
quality_changes.addMetaDataEntry("type", "quality_changes")
quality_changes.addMetaDataEntry(
"quality_type", quality_container.getMetaDataEntry("quality_type"))
# If we are creating a container for an extruder, ensure we add that to the container
if extruder_id is not None:
quality_changes.addMetaDataEntry("extruder", extruder_id)
# If the machine specifies qualities should be filtered, ensure we match the current criteria.
if not machine_definition.getMetaDataEntry("has_machine_quality"):
quality_changes.setDefinition(
self._container_registry.findContainers(id="fdmprinter")[0])
else:
quality_changes.setDefinition(
QualityManager.getInstance().getParentMachineDefinition(
machine_definition))
return quality_changes
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
def updateQualityChanges(self) -> bool:
application = cura.CuraApplication.CuraApplication.getInstance()
global_stack = application.getMachineManager().activeMachine
if not global_stack:
return False
application.getMachineManager().blurSettings.emit()
current_quality_changes_name = global_stack.qualityChanges.getName()
current_quality_type = global_stack.quality.getMetaDataEntry(
"quality_type")
extruder_stacks = list(global_stack.extruders.values())
container_registry = cura.CuraApplication.CuraApplication.getInstance(
).getContainerRegistry()
machine_definition_id = ContainerTree.getInstance().machines[
global_stack.definition.getId()].quality_definition
for stack in [global_stack] + extruder_stacks:
# Find the quality_changes container for this stack and merge the contents of the top container into it.
quality_changes = stack.qualityChanges
if quality_changes.getId() == "empty_quality_changes":
quality_changes = InstanceContainer(
container_registry.uniqueName(
(stack.getId() + "_" +
current_quality_changes_name).lower().replace(
" ", "_")))
quality_changes.setName(current_quality_changes_name)
quality_changes.setMetaDataEntry("type", "quality_changes")
quality_changes.setMetaDataEntry("quality_type",
current_quality_type)
if stack.getMetaDataEntry(
"position") is not None: # Extruder stacks.
quality_changes.setMetaDataEntry(
"position", stack.getMetaDataEntry("position"))
quality_changes.setMetaDataEntry(
"intent_category",
stack.quality.getMetaDataEntry("intent_category",
"default"))
quality_changes.setMetaDataEntry("setting_version",
application.SettingVersion)
quality_changes.setDefinition(machine_definition_id)
container_registry.addContainer(quality_changes)
stack.qualityChanges = quality_changes
if not quality_changes or container_registry.isReadOnly(
quality_changes.getId()):
Logger.log(
"e",
"Could not update quality of a nonexistant or read only quality profile in stack %s",
stack.getId())
continue
self._performMerge(quality_changes, stack.getTop())
cura.CuraApplication.CuraApplication.getInstance().getMachineManager(
).activeQualityChangesGroupChanged.emit()
return True
def _createDefinitionChangesContainer(self, container_stack, container_name, container_index = None):
definition_changes_container = InstanceContainer(container_name)
definition = container_stack.getBottom()
definition_changes_container.setDefinition(definition)
definition_changes_container.addMetaDataEntry("type", "definition_changes")
self._container_registry.addContainer(definition_changes_container)
container_stack.definitionChanges = definition_changes_container
return definition_changes_container
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._id = new_id
profile.setName(new_name)
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
def _createDefinitionChangesContainer(self, global_container_stack, container_index = None):
definition_changes_container = InstanceContainer(global_container_stack.getName() + "_settings")
definition = global_container_stack.getBottom()
definition_changes_container.setDefinition(definition)
definition_changes_container.addMetaDataEntry("type", "definition_changes")
self._container_registry.addContainer(definition_changes_container)
# Insert definition_changes between the definition and the variant
global_container_stack.insertContainer(-1, definition_changes_container)
return definition_changes_container
def _createDefinitionChangesContainer(self, global_container_stack, container_index = None):
definition_changes_container = InstanceContainer(global_container_stack.getName() + "_settings")
definition = global_container_stack.getBottom()
definition_changes_container.setDefinition(definition)
definition_changes_container.addMetaDataEntry("type", "definition_changes")
self._container_registry.addContainer(definition_changes_container)
# Insert definition_changes between the definition and the variant
global_container_stack.insertContainer(-1, definition_changes_container)
return definition_changes_container
def _createFlattenedContainerInstance(self, instance_container1, instance_container2):
flat_container = InstanceContainer(instance_container2.getName())
flat_container.setDefinition(instance_container2.getDefinition())
flat_container.setMetaData(instance_container2.getMetaData())
for key in instance_container2.getAllKeys():
flat_container.setProperty(key, "value", instance_container2.getProperty(key, "value"))
for key in instance_container1.getAllKeys():
flat_container.setProperty(key, "value", instance_container1.getProperty(key, "value"))
return flat_container
def _createDefinitionChangesContainer(self, container_stack, container_name, container_index = None):
definition_changes_container = InstanceContainer(container_name)
definition = container_stack.getBottom()
definition_changes_container.setDefinition(definition)
definition_changes_container.addMetaDataEntry("type", "definition_changes")
definition_changes_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
self._container_registry.addContainer(definition_changes_container)
container_stack.definitionChanges = definition_changes_container
return definition_changes_container
def createExtruderStack(cls, new_stack_id: str,
definition: DefinitionContainerInterface,
machine_definition_id: str,
**kwargs) -> ExtruderStack:
stack = ExtruderStack(new_stack_id)
stack.setName(definition.getName())
stack.setDefinition(definition)
stack.addMetaDataEntry("position",
definition.getMetaDataEntry("position"))
if "next_stack" in kwargs:
# Add stacks before containers are added, since they may trigger a setting update.
stack.setNextStack(kwargs["next_stack"])
user_container = InstanceContainer(new_stack_id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("extruder", new_stack_id)
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version",
CuraApplication.SettingVersion)
user_container.setDefinition(machine_definition_id)
stack.setUserChanges(user_container)
# Important! The order here matters, because that allows the stack to
# assume the material and variant have already been set.
if "definition_changes" in kwargs:
stack.setDefinitionChangesById(kwargs["definition_changes"])
else:
stack.setDefinitionChanges(
cls.createDefinitionChangesContainer(
stack, new_stack_id + "_settings"))
if "variant" in kwargs:
stack.setVariantById(kwargs["variant"])
if "material" in kwargs:
stack.setMaterialById(kwargs["material"])
if "quality" in kwargs:
stack.setQualityById(kwargs["quality"])
if "quality_changes" in kwargs:
stack.setQualityChangesById(kwargs["quality_changes"])
# Only add the created containers to the registry after we have set all the other
# properties. This makes the create operation more transactional, since any problems
# setting properties will not result in incomplete containers being added.
registry = ContainerRegistry.getInstance()
registry.addContainer(stack)
registry.addContainer(user_container)
return stack
def _configureProfile(self, profile: InstanceContainer, id_seed: str,
new_name: str) -> Optional[str]:
profile.setReadOnly(False)
profile.setDirty(True) # Ensure the profiles are correctly saved
new_id = self.createUniqueName(
"quality_changes", "", id_seed,
catalog.i18nc("@label", "Custom profile"))
profile._id = new_id
profile.setName(new_name)
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())
if self._machineHasOwnMaterials():
active_material_id = self._activeMaterialId()
if active_material_id: # 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(
ContainerRegistry.getInstance().findDefinitionContainers(
id="fdmprinter")[0])
quality_type_criteria["definition"] = "fdmprinter"
# 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.
qualities = self.findInstanceContainers(**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
def createDefinitionChangesContainer(cls, container_stack, container_name):
from cura.CuraApplication import CuraApplication
unique_container_name = ContainerRegistry.getInstance().uniqueName(container_name)
definition_changes_container = InstanceContainer(unique_container_name)
definition_changes_container.setDefinition(container_stack.getBottom().getId())
definition_changes_container.addMetaDataEntry("type", "definition_changes")
definition_changes_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
ContainerRegistry.getInstance().addContainer(definition_changes_container)
container_stack.definitionChanges = definition_changes_container
return definition_changes_container
def _configureProfile(self, profile: InstanceContainer, id_seed: str,
new_name: str,
machine_definition_id: 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)
profile.setMetaDataEntry("definition", machine_definition_id)
if "type" in profile.getMetaData():
profile.setMetaDataEntry("type", "quality_changes")
else:
profile.setMetaDataEntry("type", "quality_changes")
quality_type = profile.getMetaDataEntry("quality_type")
if not quality_type:
return catalog.i18nc("@info:status",
"Profile is missing a quality type.")
global_stack = Application.getInstance().getGlobalContainerStack()
if global_stack is None:
return None
definition_id = getMachineDefinitionIDForQualitySearch(
global_stack.definition)
profile.setDefinition(definition_id)
# 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.
quality_manager = cura.CuraApplication.CuraApplication.getInstance(
)._quality_manager
quality_group_dict = quality_manager.getQualityGroupsForMachineDefinition(
global_stack)
if quality_type not in quality_group_dict:
return catalog.i18nc(
"@info:status",
"Could not find a quality type {0} for the current configuration.",
quality_type)
ContainerRegistry.getInstance().addContainer(profile)
return None
def createDefinitionChangesContainer(cls, container_stack, container_name, container_index = None):
from cura.CuraApplication import CuraApplication
unique_container_name = ContainerRegistry.getInstance().uniqueName(container_name)
definition_changes_container = InstanceContainer(unique_container_name)
definition = container_stack.getBottom()
definition_changes_container.setDefinition(definition)
definition_changes_container.addMetaDataEntry("type", "definition_changes")
definition_changes_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
ContainerRegistry.getInstance().addContainer(definition_changes_container)
container_stack.definitionChanges = definition_changes_container
return definition_changes_container
def createUserChangesContainer(cls, container_name: str, definition_id: str, stack_id: str,
is_global_stack: bool) -> "InstanceContainer":
from cura.CuraApplication import CuraApplication
unique_container_name = ContainerRegistry.getInstance().uniqueName(container_name)
container = InstanceContainer(unique_container_name)
container.setDefinition(definition_id)
container.addMetaDataEntry("type", "user")
container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
metadata_key_to_add = "machine" if is_global_stack else "extruder"
container.addMetaDataEntry(metadata_key_to_add, stack_id)
return container
def _createFlattenedContainerInstance(self, instance_container1, instance_container2):
flat_container = InstanceContainer(instance_container2.getName())
# The metadata includes id, name and definition
flat_container.setMetaData(copy.deepcopy(instance_container2.getMetaData()))
if instance_container1.getDefinition():
flat_container.setDefinition(instance_container1.getDefinition().getId())
for key in instance_container2.getAllKeys():
flat_container.setProperty(key, "value", instance_container2.getProperty(key, "value"))
for key in instance_container1.getAllKeys():
flat_container.setProperty(key, "value", instance_container1.getProperty(key, "value"))
return flat_container
def createDefinitionChangesContainer(cls, container_stack, container_name):
from cura.CuraApplication import CuraApplication
application = CuraApplication.getInstance()
registry = application.getContainerRegistry()
unique_container_name = registry.uniqueName(container_name)
definition_changes_container = InstanceContainer(unique_container_name)
definition_changes_container.setDefinition(container_stack.getBottom().getId())
definition_changes_container.setMetaDataEntry("type", "definition_changes")
definition_changes_container.setMetaDataEntry("setting_version", CuraApplication.SettingVersion)
registry.addContainer(definition_changes_container)
container_stack.definitionChanges = definition_changes_container
return definition_changes_container
def _createFlattenedContainerInstance(self, instance_container1, instance_container2):
flat_container = InstanceContainer(instance_container2.getName())
# The metadata includes id, name and definition
flat_container.setMetaData(copy.deepcopy(instance_container2.getMetaData()))
if instance_container1.getDefinition():
flat_container.setDefinition(instance_container1.getDefinition().getId())
for key in instance_container2.getAllKeys():
flat_container.setProperty(key, "value", instance_container2.getProperty(key, "value"))
for key in instance_container1.getAllKeys():
flat_container.setProperty(key, "value", instance_container1.getProperty(key, "value"))
return flat_container
def _configureProfile(self, profile: InstanceContainer, id_seed: str, new_name: str, machine_definition_id: str) -> Optional[str]:
"""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.
"""
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)
profile.setMetaDataEntry("definition", machine_definition_id)
if "type" in profile.getMetaData():
profile.setMetaDataEntry("type", "quality_changes")
else:
profile.setMetaDataEntry("type", "quality_changes")
quality_type = profile.getMetaDataEntry("quality_type")
if not quality_type:
return catalog.i18nc("@info:status", "Profile is missing a quality type.")
global_stack = cura.CuraApplication.CuraApplication.getInstance().getGlobalContainerStack()
if global_stack is None:
return None
definition_id = ContainerTree.getInstance().machines[global_stack.definition.getId()].quality_definition
profile.setDefinition(definition_id)
# 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.
quality_group_dict = ContainerTree.getInstance().getCurrentQualityGroups()
# "not_supported" profiles can be imported.
if quality_type != empty_quality_container.getMetaDataEntry("quality_type") and quality_type not in quality_group_dict:
return catalog.i18nc("@info:status", "Could not find a quality type {0} for the current configuration.", quality_type)
ContainerRegistry.getInstance().addContainer(profile)
return None
def createUserChangesContainer(cls, container_name: str, definition_id: str, stack_id: str,
is_global_stack: bool) -> "InstanceContainer":
from cura.CuraApplication import CuraApplication
application = CuraApplication.getInstance()
registry = application.getContainerRegistry()
unique_container_name = registry.uniqueName(container_name)
container = InstanceContainer(unique_container_name)
container.setDefinition(definition_id)
container.setMetaDataEntry("type", "user")
container.setMetaDataEntry("setting_version", CuraApplication.SettingVersion)
metadata_key_to_add = "machine" if is_global_stack else "extruder"
container.setMetaDataEntry(metadata_key_to_add, stack_id)
return container
def createExtruderStack(cls, new_stack_id: str, definition: DefinitionContainerInterface, machine_definition_id: str, **kwargs) -> ExtruderStack:
stack = ExtruderStack(new_stack_id)
stack.setName(definition.getName())
stack.setDefinition(definition)
stack.addMetaDataEntry("position", definition.getMetaDataEntry("position"))
if "next_stack" in kwargs:
# Add stacks before containers are added, since they may trigger a setting update.
stack.setNextStack(kwargs["next_stack"])
user_container = InstanceContainer(new_stack_id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("extruder", new_stack_id)
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_container.setDefinition(machine_definition_id)
stack.setUserChanges(user_container)
# Important! The order here matters, because that allows the stack to
# assume the material and variant have already been set.
if "definition_changes" in kwargs:
stack.setDefinitionChangesById(kwargs["definition_changes"])
else:
stack.setDefinitionChanges(cls.createDefinitionChangesContainer(stack, new_stack_id + "_settings"))
if "variant" in kwargs:
stack.setVariantById(kwargs["variant"])
if "material" in kwargs:
stack.setMaterialById(kwargs["material"])
if "quality" in kwargs:
stack.setQualityById(kwargs["quality"])
if "quality_changes" in kwargs:
stack.setQualityChangesById(kwargs["quality_changes"])
# Only add the created containers to the registry after we have set all the other
# properties. This makes the create operation more transactional, since any problems
# setting properties will not result in incomplete containers being added.
registry = ContainerRegistry.getInstance()
registry.addContainer(stack)
registry.addContainer(user_container)
return stack
def _createQualityChanges(self, quality_container, new_name, machine_definition, extruder_id):
base_id = machine_definition.getId() if extruder_id is None else extruder_id
# Create a new quality_changes container for the quality.
quality_changes = InstanceContainer(self._createUniqueId(base_id, new_name))
quality_changes.setName(new_name)
quality_changes.addMetaDataEntry("type", "quality_changes")
quality_changes.addMetaDataEntry("quality_type", quality_container.getMetaDataEntry("quality_type"))
# If we are creating a container for an extruder, ensure we add that to the container
if extruder_id is not None:
quality_changes.addMetaDataEntry("extruder", extruder_id)
# If the machine specifies qualities should be filtered, ensure we match the current criteria.
if not machine_definition.getMetaDataEntry("has_machine_quality"):
quality_changes.setDefinition(self._container_registry.findContainers(id = "fdmprinter")[0])
else:
quality_changes.setDefinition(QualityManager.getInstance().getParentMachineDefinition(machine_definition))
return quality_changes
def createGlobalStack(cls, new_stack_id: str,
definition: DefinitionContainerInterface,
**kwargs) -> GlobalStack:
stack = GlobalStack(new_stack_id)
stack.setDefinition(definition)
user_container = InstanceContainer(new_stack_id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", new_stack_id)
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version",
CuraApplication.SettingVersion)
user_container.setDefinition(definition.getId())
stack.setUserChanges(user_container)
# Important! The order here matters, because that allows the stack to
# assume the material and variant have already been set.
if "definition_changes" in kwargs:
stack.setDefinitionChangesById(kwargs["definition_changes"])
else:
stack.setDefinitionChanges(
cls.createDefinitionChangesContainer(
stack, new_stack_id + "_settings"))
if "variant" in kwargs:
stack.setVariantById(kwargs["variant"])
if "material" in kwargs:
stack.setMaterialById(kwargs["material"])
if "quality" in kwargs:
stack.setQualityById(kwargs["quality"])
if "quality_changes" in kwargs:
stack.setQualityChangesById(kwargs["quality_changes"])
registry = ContainerRegistry.getInstance()
registry.addContainer(stack)
registry.addContainer(user_container)
return stack
def _configureProfile(self, profile: InstanceContainer, id_seed: str, new_name: str) -> Optional[str]:
profile.setReadOnly(False)
profile.setDirty(True) # Ensure the profiles are correctly saved
new_id = self.createUniqueName("quality_changes", "", id_seed, catalog.i18nc("@label", "Custom profile"))
profile._id = new_id
profile.setName(new_name)
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())
if self._machineHasOwnMaterials():
active_material_id = self._activeMaterialId()
if active_material_id: # 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(ContainerRegistry.getInstance().findDefinitionContainers(id="fdmprinter")[0])
quality_type_criteria["definition"] = "fdmprinter"
# 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.
qualities = self.findInstanceContainers(**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
def _configureProfile(self, profile: InstanceContainer, id_seed: str, new_name: str, machine_definition_id: 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)
profile.setMetaDataEntry("definition", machine_definition_id)
if "type" in profile.getMetaData():
profile.setMetaDataEntry("type", "quality_changes")
else:
profile.setMetaDataEntry("type", "quality_changes")
quality_type = profile.getMetaDataEntry("quality_type")
if not quality_type:
return catalog.i18nc("@info:status", "Profile is missing a quality type.")
global_stack = Application.getInstance().getGlobalContainerStack()
if global_stack is None:
return None
definition_id = getMachineDefinitionIDForQualitySearch(global_stack.definition)
profile.setDefinition(definition_id)
# 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.
quality_manager = cura.CuraApplication.CuraApplication.getInstance()._quality_manager
quality_group_dict = quality_manager.getQualityGroupsForMachineDefinition(global_stack)
if quality_type not in quality_group_dict:
return catalog.i18nc("@info:status", "Could not find a quality type {0} for the current configuration.", quality_type)
ContainerRegistry.getInstance().addContainer(profile)
return None
def _createQualityChanges(self, quality_type: str, new_name: str, machine: "GlobalStack",
extruder_stack: Optional["ExtruderStack"]) -> "InstanceContainer":
base_id = machine.definition.getId() if extruder_stack is None else extruder_stack.getId()
new_id = base_id + "_" + new_name
new_id = new_id.lower().replace(" ", "_")
new_id = self._container_registry.uniqueName(new_id)
# Create a new quality_changes container for the quality.
quality_changes = InstanceContainer(new_id)
quality_changes.setName(new_name)
quality_changes.setMetaDataEntry("type", "quality_changes")
quality_changes.setMetaDataEntry("quality_type", quality_type)
# If we are creating a container for an extruder, ensure we add that to the container
if extruder_stack is not None:
quality_changes.setMetaDataEntry("position", extruder_stack.getMetaDataEntry("position"))
# If the machine specifies qualities should be filtered, ensure we match the current criteria.
machine_definition_id = getMachineDefinitionIDForQualitySearch(machine.definition)
quality_changes.setDefinition(machine_definition_id)
quality_changes.setMetaDataEntry("setting_version", self._application.SettingVersion)
return quality_changes
def _serialiseSettings(self, settings):
prefix = ";SETTING_" + str(GCodeWriter.version) + " " # The prefix to put before each line.
prefix_length = len(prefix)
all_settings = InstanceContainer("G-code-imported-profile") #Create a new 'profile' with ALL settings so that the slice can be precisely reproduced.
all_settings.setDefinition(settings.getBottom())
for key in settings.getAllKeys():
all_settings.setProperty(key, "value", settings.getProperty(key, "value")) #Just copy everything over to the setting instance.
serialised = all_settings.serialize()
# Escape characters that have a special meaning in g-code comments.
pattern = re.compile("|".join(GCodeWriter.escape_characters.keys()))
# Perform the replacement with a regular expression.
serialised = pattern.sub(lambda m: GCodeWriter.escape_characters[re.escape(m.group(0))], serialised)
# Introduce line breaks so that each comment is no longer than 80 characters. Prepend each line with the prefix.
result = ""
# Lines have 80 characters, so the payload of each line is 80 - prefix.
for pos in range(0, len(serialised), 80 - prefix_length):
result += prefix + serialised[pos : pos + 80 - prefix_length] + "\n"
serialised = result
return serialised
def read(self, file_name):
if file_name.split(".")[-1] != "ini":
return None
global_container_stack = Application.getInstance(
).getGlobalContainerStack()
if not global_container_stack:
return None
multi_extrusion = global_container_stack.getProperty(
"machine_extruder_count", "value") > 1
if multi_extrusion:
Logger.log(
"e",
"Unable to import legacy profile %s. Multi extrusion is not supported",
file_name)
raise Exception(
"Unable to import legacy profile. Multi extrusion is not supported"
)
Logger.log("i",
"Importing legacy profile from file " + file_name + ".")
container_registry = ContainerRegistry.getInstance()
profile_id = container_registry.uniqueName("Imported Legacy Profile")
profile = InstanceContainer(profile_id) # Create an empty profile.
parser = configparser.ConfigParser(interpolation=None)
try:
parser.read([file_name]) # Parse the INI file.
except Exception as e:
Logger.log("e", "Unable to open legacy profile %s: %s", file_name,
str(e))
return None
# Legacy Cura saved the profile under the section "profile_N" where N is the ID of a machine, except when you export in which case it saves it in the section "profile".
# Since importing multiple machine profiles is out of scope, just import the first section we find.
section = ""
for found_section in parser.sections():
if found_section.startswith("profile"):
section = found_section
break
if not section: # No section starting with "profile" was found. Probably not a proper INI file.
return None
try:
with open(
os.path.join(
PluginRegistry.getInstance().getPluginPath(
"LegacyProfileReader"), "DictionaryOfDoom.json"),
"r", -1, "utf-8") as f:
dict_of_doom = json.load(f) # Parse the Dictionary of Doom.
except IOError as e:
Logger.log("e",
"Could not open DictionaryOfDoom.json for reading: %s",
str(e))
return None
except Exception as e:
Logger.log("e", "Could not parse DictionaryOfDoom.json: %s",
str(e))
return None
defaults = self.prepareDefaults(dict_of_doom)
legacy_settings = self.prepareLocals(
parser, section,
defaults) #Gets the settings from the legacy profile.
#Check the target version in the Dictionary of Doom with this application version.
if "target_version" not in dict_of_doom:
Logger.log(
"e",
"Dictionary of Doom has no target version. Is it the correct JSON file?"
)
return None
if InstanceContainer.Version != dict_of_doom["target_version"]:
Logger.log(
"e",
"Dictionary of Doom of legacy profile reader (version %s) is not in sync with the current instance container version (version %s)!",
dict_of_doom["target_version"], str(InstanceContainer.Version))
return None
if "translation" not in dict_of_doom:
Logger.log(
"e",
"Dictionary of Doom has no translation. Is it the correct JSON file?"
)
return None
current_printer_definition = global_container_stack.definition
profile.setDefinition(current_printer_definition.getId())
for new_setting in dict_of_doom[
"translation"]: # Evaluate all new settings that would get a value from the translations.
old_setting_expression = dict_of_doom["translation"][new_setting]
compiled = compile(old_setting_expression, new_setting, "eval")
try:
new_value = eval(
compiled, {"math": math}, legacy_settings
) # Pass the legacy settings as local variables to allow access to in the evaluation.
value_using_defaults = eval(
compiled, {"math": math}, defaults
) #Evaluate again using only the default values to try to see if they are default.
except Exception: # Probably some setting name that was missing or something else that went wrong in the ini file.
Logger.log(
"w", "Setting " + new_setting +
" could not be set because the evaluation failed. Something is probably missing from the imported legacy profile."
)
continue
definitions = current_printer_definition.findDefinitions(
key=new_setting)
if definitions:
if new_value != value_using_defaults and definitions[
0].default_value != new_value: # Not equal to the default in the new Cura OR the default in the legacy Cura.
profile.setProperty(
new_setting, "value",
new_value) # Store the setting in the profile!
if len(profile.getAllKeys()) == 0:
Logger.log(
"i",
"A legacy profile was imported but everything evaluates to the defaults, creating an empty profile."
)
profile.addMetaDataEntry("type", "profile")
# don't know what quality_type it is based on, so use "normal" by default
profile.addMetaDataEntry("quality_type", "normal")
profile.setName(profile_id)
profile.setDirty(True)
#Serialise and deserialise in order to perform the version upgrade.
parser = configparser.ConfigParser(interpolation=None)
data = profile.serialize()
parser.read_string(data)
parser["general"]["version"] = "1"
if parser.has_section("values"):
parser["settings"] = parser["values"]
del parser["values"]
stream = io.StringIO()
parser.write(stream)
data = stream.getvalue()
profile.deserialize(data)
#We need to return one extruder stack and one global stack.
global_container_id = container_registry.uniqueName(
"Global Imported Legacy Profile")
global_profile = profile.duplicate(
new_id=global_container_id, new_name=profile_id
) #Needs to have the same name as the extruder profile.
global_profile.setDirty(True)
#Only the extruder stack has an extruder metadata entry.
profile.addMetaDataEntry(
"extruder",
ExtruderManager.getInstance().getActiveExtruderStack().definition.
getId())
#Split all settings into per-extruder and global settings.
for setting_key in profile.getAllKeys():
settable_per_extruder = global_container_stack.getProperty(
setting_key, "settable_per_extruder")
if settable_per_extruder:
global_profile.removeInstance(setting_key)
else:
profile.removeInstance(setting_key)
return [global_profile, profile]
class Script:
def __init__(self):
super().__init__()
self._settings = None
self._stack = None
setting_data = self.getSettingData()
self._stack = ContainerStack(stack_id = str(id(self)))
self._stack.setDirty(False) # This stack does not need to be saved.
## Check if the definition of this script already exists. If not, add it to the registry.
if "key" in setting_data:
definitions = ContainerRegistry.getInstance().findDefinitionContainers(id = setting_data["key"])
if definitions:
# Definition was found
self._definition = definitions[0]
else:
self._definition = DefinitionContainer(setting_data["key"])
self._definition.deserialize(json.dumps(setting_data))
ContainerRegistry.getInstance().addContainer(self._definition)
self._stack.addContainer(self._definition)
self._instance = InstanceContainer(container_id="ScriptInstanceContainer")
self._instance.setDefinition(self._definition.getId())
self._instance.addMetaDataEntry("setting_version", self._definition.getMetaDataEntry("setting_version", default = 0))
self._stack.addContainer(self._instance)
self._stack.propertyChanged.connect(self._onPropertyChanged)
ContainerRegistry.getInstance().addContainer(self._stack)
settingsLoaded = Signal()
valueChanged = Signal() # Signal emitted whenever a value of a setting is changed
def _onPropertyChanged(self, key, property_name):
if property_name == "value":
self.valueChanged.emit()
# Property changed: trigger reslice
# To do this we use the global container stack propertyChanged.
# Reslicing is necessary for setting changes in this plugin, because the changes
# are applied only once per "fresh" gcode
global_container_stack = Application.getInstance().getGlobalContainerStack()
global_container_stack.propertyChanged.emit(key, property_name)
## Needs to return a dict that can be used to construct a settingcategory file.
# See the example script for an example.
# It follows the same style / guides as the Uranium settings.
# Scripts can either override getSettingData directly, or use getSettingDataString
# to return a string that will be parsed as json. The latter has the benefit over
# returning a dict in that the order of settings is maintained.
def getSettingData(self):
setting_data = self.getSettingDataString()
if type(setting_data) == str:
setting_data = json.loads(setting_data, object_pairs_hook = collections.OrderedDict)
return setting_data
def getSettingDataString(self):
raise NotImplementedError()
def getDefinitionId(self):
if self._stack:
return self._stack.getBottom().getId()
def getStackId(self):
if self._stack:
return self._stack.getId()
## Convenience function that retrieves value of a setting from the stack.
def getSettingValueByKey(self, key):
return self._stack.getProperty(key, "value")
## Convenience function that finds the value in a line of g-code.
# When requesting key = x from line "G1 X100" the value 100 is returned.
def getValue(self, line, key, default = None):
if not key in line or (';' in line and line.find(key) > line.find(';')):
return default
sub_part = line[line.find(key) + 1:]
m = re.search('^-?[0-9]+\.?[0-9]*', sub_part)
if m is None:
return default
try:
return float(m.group(0))
except:
return default
## This is called when the script is executed.
# It gets a list of g-code strings and needs to return a (modified) list.
def execute(self, data):
raise NotImplementedError()
def _serialiseSettings(self, stack):
"""Serialises a container stack to prepare it for writing at the end of the g-code.
The settings are serialised, and special characters (including newline)
are escaped.
:param stack: A container stack to serialise.
:return: A serialised string of the settings.
"""
container_registry = self._application.getContainerRegistry()
prefix = self._setting_keyword + str(
GCodeWriter.version) + " " # The prefix to put before each line.
prefix_length = len(prefix)
quality_type = stack.quality.getMetaDataEntry("quality_type")
container_with_profile = stack.qualityChanges
machine_definition_id_for_quality = ContainerTree.getInstance(
).machines[stack.definition.getId()].quality_definition
if container_with_profile.getId() == "empty_quality_changes":
# If the global quality changes is empty, create a new one
quality_name = container_registry.uniqueName(
stack.quality.getName())
quality_id = container_registry.uniqueName(
(stack.definition.getId() + "_" +
quality_name).lower().replace(" ", "_"))
container_with_profile = InstanceContainer(quality_id)
container_with_profile.setName(quality_name)
container_with_profile.setMetaDataEntry("type", "quality_changes")
container_with_profile.setMetaDataEntry("quality_type",
quality_type)
if stack.getMetaDataEntry(
"position"
) is not None: # For extruder stacks, the quality changes should include an intent category.
container_with_profile.setMetaDataEntry(
"intent_category",
stack.intent.getMetaDataEntry("intent_category", "solid"))
container_with_profile.setDefinition(
machine_definition_id_for_quality)
container_with_profile.setMetaDataEntry(
"setting_version",
stack.quality.getMetaDataEntry("setting_version"))
flat_global_container = self._createFlattenedContainerInstance(
stack.userChanges, container_with_profile)
# If the quality changes is not set, we need to set type manually
if flat_global_container.getMetaDataEntry("type", None) is None:
flat_global_container.setMetaDataEntry("type", "quality_changes")
# Ensure that quality_type is set. (Can happen if we have empty quality changes).
if flat_global_container.getMetaDataEntry("quality_type",
None) is None:
flat_global_container.setMetaDataEntry(
"quality_type",
stack.quality.getMetaDataEntry("quality_type", "normal"))
# Get the machine definition ID for quality profiles
flat_global_container.setMetaDataEntry(
"definition", machine_definition_id_for_quality)
serialized = flat_global_container.serialize()
data = {"global_quality": serialized}
all_setting_keys = flat_global_container.getAllKeys()
for extruder in stack.extruderList:
extruder_quality = extruder.qualityChanges
if extruder_quality.getId() == "empty_quality_changes":
# Same story, if quality changes is empty, create a new one
quality_name = container_registry.uniqueName(
stack.quality.getName())
quality_id = container_registry.uniqueName(
(stack.definition.getId() + "_" +
quality_name).lower().replace(" ", "_"))
extruder_quality = InstanceContainer(quality_id)
extruder_quality.setName(quality_name)
extruder_quality.setMetaDataEntry("type", "quality_changes")
extruder_quality.setMetaDataEntry("quality_type", quality_type)
extruder_quality.setDefinition(
machine_definition_id_for_quality)
extruder_quality.setMetaDataEntry(
"setting_version",
stack.quality.getMetaDataEntry("setting_version"))
flat_extruder_quality = self._createFlattenedContainerInstance(
extruder.userChanges, extruder_quality)
# If the quality changes is not set, we need to set type manually
if flat_extruder_quality.getMetaDataEntry("type", None) is None:
flat_extruder_quality.setMetaDataEntry("type",
"quality_changes")
# Ensure that extruder is set. (Can happen if we have empty quality changes).
if flat_extruder_quality.getMetaDataEntry("position",
None) is None:
flat_extruder_quality.setMetaDataEntry(
"position", extruder.getMetaDataEntry("position"))
# Ensure that quality_type is set. (Can happen if we have empty quality changes).
if flat_extruder_quality.getMetaDataEntry("quality_type",
None) is None:
flat_extruder_quality.setMetaDataEntry(
"quality_type",
extruder.quality.getMetaDataEntry("quality_type",
"normal"))
# Change the default definition
flat_extruder_quality.setMetaDataEntry(
"definition", machine_definition_id_for_quality)
extruder_serialized = flat_extruder_quality.serialize()
data.setdefault("extruder_quality", []).append(extruder_serialized)
all_setting_keys.update(flat_extruder_quality.getAllKeys())
# Check if there is any profiles
if not all_setting_keys:
Logger.log(
"i",
"No custom settings found, not writing settings to g-code.")
return ""
json_string = json.dumps(data)
# Escape characters that have a special meaning in g-code comments.
pattern = re.compile("|".join(GCodeWriter.escape_characters.keys()))
# Perform the replacement with a regular expression.
escaped_string = pattern.sub(
lambda m: GCodeWriter.escape_characters[re.escape(m.group(0))],
json_string)
# Introduce line breaks so that each comment is no longer than 80 characters. Prepend each line with the prefix.
result = ""
# Lines have 80 characters, so the payload of each line is 80 - prefix.
for pos in range(0, len(escaped_string), 80 - prefix_length):
result += prefix + escaped_string[pos:pos + 80 -
prefix_length] + "\n"
return result
def createExtruderTrain(self, extruder_definition: DefinitionContainerInterface, machine_definition: DefinitionContainerInterface,
position, machine_id: str) -> None:
# Cache some things.
container_registry = ContainerRegistry.getInstance()
machine_definition_id = Application.getInstance().getMachineManager().getQualityDefinitionId(machine_definition)
# Create a container stack for this extruder.
extruder_stack_id = container_registry.uniqueName(extruder_definition.getId())
container_stack = ContainerStack(extruder_stack_id)
container_stack.setName(extruder_definition.getName()) # Take over the display name to display the stack with.
container_stack.addMetaDataEntry("type", "extruder_train")
container_stack.addMetaDataEntry("machine", machine_id)
container_stack.addMetaDataEntry("position", position)
container_stack.addContainer(extruder_definition)
# Find the variant to use for this extruder.
variant = container_registry.findInstanceContainers(id = "empty_variant")[0]
if machine_definition.getMetaDataEntry("has_variants"):
# First add any variant. Later, overwrite with preference if the preference is valid.
variants = container_registry.findInstanceContainers(definition = machine_definition_id, type = "variant")
if len(variants) >= 1:
variant = variants[0]
preferred_variant_id = machine_definition.getMetaDataEntry("preferred_variant")
if preferred_variant_id:
preferred_variants = container_registry.findInstanceContainers(id = preferred_variant_id, definition = machine_definition_id, type = "variant")
if len(preferred_variants) >= 1:
variant = preferred_variants[0]
else:
Logger.log("w", "The preferred variant \"%s\" of machine %s doesn't exist or is not a variant profile.", preferred_variant_id, machine_id)
# And leave it at the default variant.
container_stack.addContainer(variant)
# Find a material to use for this variant.
material = container_registry.findInstanceContainers(id = "empty_material")[0]
if machine_definition.getMetaDataEntry("has_materials"):
# First add any material. Later, overwrite with preference if the preference is valid.
machine_has_variant_materials = machine_definition.getMetaDataEntry("has_variant_materials", default = False)
if machine_has_variant_materials or machine_has_variant_materials == "True":
materials = container_registry.findInstanceContainers(type = "material", definition = machine_definition_id, variant = variant.getId())
else:
materials = container_registry.findInstanceContainers(type = "material", definition = machine_definition_id)
if len(materials) >= 1:
material = materials[0]
preferred_material_id = machine_definition.getMetaDataEntry("preferred_material")
if preferred_material_id:
global_stack = ContainerRegistry.getInstance().findContainerStacks(id = machine_id)
if global_stack:
approximate_material_diameter = str(round(global_stack[0].getProperty("material_diameter", "value")))
else:
approximate_material_diameter = str(round(machine_definition.getProperty("material_diameter", "value")))
search_criteria = { "type": "material", "id": preferred_material_id, "approximate_diameter": approximate_material_diameter}
if machine_definition.getMetaDataEntry("has_machine_materials"):
search_criteria["definition"] = machine_definition_id
if machine_definition.getMetaDataEntry("has_variants") and variant:
search_criteria["variant"] = variant.id
else:
search_criteria["definition"] = "fdmprinter"
preferred_materials = container_registry.findInstanceContainers(**search_criteria)
if len(preferred_materials) >= 1:
# In some cases we get multiple materials. In that case, prefer materials that are marked as read only.
read_only_preferred_materials = [preferred_material for preferred_material in preferred_materials if preferred_material.isReadOnly()]
if len(read_only_preferred_materials) >= 1:
material = read_only_preferred_materials[0]
else:
material = preferred_materials[0]
else:
Logger.log("w", "The preferred material \"%s\" of machine %s doesn't exist or is not a material profile.", preferred_material_id, machine_id)
# And leave it at the default material.
container_stack.addContainer(material)
# Find a quality to use for this extruder.
quality = container_registry.getEmptyInstanceContainer()
search_criteria = { "type": "quality" }
if machine_definition.getMetaDataEntry("has_machine_quality"):
search_criteria["definition"] = machine_definition_id
if machine_definition.getMetaDataEntry("has_materials") and material:
search_criteria["material"] = material.id
else:
search_criteria["definition"] = "fdmprinter"
preferred_quality = machine_definition.getMetaDataEntry("preferred_quality")
if preferred_quality:
search_criteria["id"] = preferred_quality
containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
if not containers and preferred_quality:
Logger.log("w", "The preferred quality \"%s\" of machine %s doesn't exist or is not a quality profile.", preferred_quality, machine_id)
search_criteria.pop("id", None)
containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
if containers:
quality = containers[0]
container_stack.addContainer(quality)
empty_quality_changes = container_registry.findInstanceContainers(id = "empty_quality_changes")[0]
container_stack.addContainer(empty_quality_changes)
user_profile = container_registry.findInstanceContainers(type = "user", extruder = extruder_stack_id)
if user_profile: # There was already a user profile, loaded from settings.
user_profile = user_profile[0]
else:
user_profile = InstanceContainer(extruder_stack_id + "_current_settings") # Add an empty user profile.
user_profile.addMetaDataEntry("type", "user")
user_profile.addMetaDataEntry("extruder", extruder_stack_id)
from cura.CuraApplication import CuraApplication
user_profile.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_profile.setDefinition(machine_definition)
container_registry.addContainer(user_profile)
container_stack.addContainer(user_profile)
# regardless of what the next stack is, we have to set it again, because of signal routing.
container_stack.setNextStack(Application.getInstance().getGlobalContainerStack())
container_registry.addContainer(container_stack)
def createExtruderTrain(self, extruder_definition: DefinitionContainerInterface, machine_definition: DefinitionContainerInterface,
position, machine_id: str) -> None:
# Cache some things.
container_registry = ContainerRegistry.getInstance()
machine_definition_id = Application.getInstance().getMachineManager().getQualityDefinitionId(machine_definition)
# Create a container stack for this extruder.
extruder_stack_id = container_registry.uniqueName(extruder_definition.getId())
container_stack = ContainerStack(extruder_stack_id)
container_stack.setName(extruder_definition.getName()) # Take over the display name to display the stack with.
container_stack.addMetaDataEntry("type", "extruder_train")
container_stack.addMetaDataEntry("machine", machine_id)
container_stack.addMetaDataEntry("position", position)
container_stack.addContainer(extruder_definition)
# Find the variant to use for this extruder.
variant = container_registry.findInstanceContainers(id = "empty_variant")[0]
if machine_definition.getMetaDataEntry("has_variants"):
# First add any variant. Later, overwrite with preference if the preference is valid.
variants = container_registry.findInstanceContainers(definition = machine_definition_id, type = "variant")
if len(variants) >= 1:
variant = variants[0]
preferred_variant_id = machine_definition.getMetaDataEntry("preferred_variant")
if preferred_variant_id:
preferred_variants = container_registry.findInstanceContainers(id = preferred_variant_id, definition = machine_definition_id, type = "variant")
if len(preferred_variants) >= 1:
variant = preferred_variants[0]
else:
Logger.log("w", "The preferred variant \"%s\" of machine %s doesn't exist or is not a variant profile.", preferred_variant_id, machine_id)
# And leave it at the default variant.
container_stack.addContainer(variant)
# Find a material to use for this variant.
material = container_registry.findInstanceContainers(id = "empty_material")[0]
if machine_definition.getMetaDataEntry("has_materials"):
# First add any material. Later, overwrite with preference if the preference is valid.
machine_has_variant_materials = machine_definition.getMetaDataEntry("has_variant_materials", default = False)
if machine_has_variant_materials or machine_has_variant_materials == "True":
materials = container_registry.findInstanceContainers(type = "material", definition = machine_definition_id, variant = variant.getId())
else:
materials = container_registry.findInstanceContainers(type = "material", definition = machine_definition_id)
if len(materials) >= 1:
material = materials[0]
preferred_material_id = machine_definition.getMetaDataEntry("preferred_material")
if preferred_material_id:
global_stack = ContainerRegistry.getInstance().findContainerStacks(id = machine_id)
if global_stack:
approximate_material_diameter = str(round(global_stack[0].getProperty("material_diameter", "value")))
else:
approximate_material_diameter = str(round(machine_definition.getProperty("material_diameter", "value")))
search_criteria = { "type": "material", "id": preferred_material_id, "approximate_diameter": approximate_material_diameter}
if machine_definition.getMetaDataEntry("has_machine_materials"):
search_criteria["definition"] = machine_definition_id
if machine_definition.getMetaDataEntry("has_variants") and variant:
search_criteria["variant"] = variant.id
else:
search_criteria["definition"] = "fdmprinter"
preferred_materials = container_registry.findInstanceContainers(**search_criteria)
if len(preferred_materials) >= 1:
# In some cases we get multiple materials. In that case, prefer materials that are marked as read only.
read_only_preferred_materials = [preferred_material for preferred_material in preferred_materials if preferred_material.isReadOnly()]
if len(read_only_preferred_materials) >= 1:
material = read_only_preferred_materials[0]
else:
material = preferred_materials[0]
else:
Logger.log("w", "The preferred material \"%s\" of machine %s doesn't exist or is not a material profile.", preferred_material_id, machine_id)
# And leave it at the default material.
container_stack.addContainer(material)
# Find a quality to use for this extruder.
quality = container_registry.getEmptyInstanceContainer()
search_criteria = { "type": "quality" }
if machine_definition.getMetaDataEntry("has_machine_quality"):
search_criteria["definition"] = machine_definition_id
if machine_definition.getMetaDataEntry("has_materials") and material:
search_criteria["material"] = material.id
else:
search_criteria["definition"] = "fdmprinter"
preferred_quality = machine_definition.getMetaDataEntry("preferred_quality")
if preferred_quality:
search_criteria["id"] = preferred_quality
containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
if not containers and preferred_quality:
Logger.log("w", "The preferred quality \"%s\" of machine %s doesn't exist or is not a quality profile.", preferred_quality, machine_id)
search_criteria.pop("id", None)
containers = ContainerRegistry.getInstance().findInstanceContainers(**search_criteria)
if containers:
quality = containers[0]
container_stack.addContainer(quality)
empty_quality_changes = container_registry.findInstanceContainers(id = "empty_quality_changes")[0]
container_stack.addContainer(empty_quality_changes)
user_profile = container_registry.findInstanceContainers(type = "user", extruder = extruder_stack_id)
if user_profile: # There was already a user profile, loaded from settings.
user_profile = user_profile[0]
else:
user_profile = InstanceContainer(extruder_stack_id + "_current_settings") # Add an empty user profile.
user_profile.addMetaDataEntry("type", "user")
user_profile.addMetaDataEntry("extruder", extruder_stack_id)
from cura.CuraApplication import CuraApplication
user_profile.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_profile.setDefinition(machine_definition)
container_registry.addContainer(user_profile)
container_stack.addContainer(user_profile)
# regardless of what the next stack is, we have to set it again, because of signal routing.
container_stack.setNextStack(Application.getInstance().getGlobalContainerStack())
container_registry.addContainer(container_stack)
def addExtruderStackForSingleExtrusionMachine(self, machine, extruder_id):
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)
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"))
extruder_stack.setNextStack(machine)
# create empty user changes container otherwise
user_container = InstanceContainer(extruder_stack.id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", extruder_stack.getId())
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_container.setDefinition(machine.definition)
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:
user_container.addInstance(machine.userChanges.getInstance(user_setting_key))
machine.userChanges.removeInstance(user_setting_key, postpone_emit = True)
extruder_stack.setUserChanges(user_container)
self.addContainer(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)
if machine.qualityChanges.getId() not in ("empty", "empty_quality_changes"):
extruder_quality_changes_container = self.findInstanceContainers(name = machine.qualityChanges.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.qualityChanges.getName())
if extruder_quality_changes_container:
quality_changes_id = extruder_quality_changes_container.getId()
extruder_stack.setQualityChangesById(quality_changes_id)
if not extruder_quality_changes_container:
Logger.log("w", "Could not find quality_changes named [%s] for extruder [%s]",
machine.qualityChanges.getName(), extruder_stack.getId())
else:
extruder_stack.setQualityChangesById("empty_quality_changes")
self.addContainer(extruder_stack)
return extruder_stack
def addExtruderStackForSingleExtrusionMachine(
self,
machine,
extruder_id,
new_global_quality_changes=None,
create_new_ids=True):
new_extruder_id = extruder_id
application = cura.CuraApplication.CuraApplication.getInstance()
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.setMetaDataEntry(
"position", extruder_definition.getMetaDataEntry("position"))
# 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,
parent=application)
definition_changes.setName(definition_changes_name)
definition_changes.setMetaDataEntry("setting_version",
application.SettingVersion)
definition_changes.setMetaDataEntry("type", "definition_changes")
definition_changes.setMetaDataEntry("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,
parent=application)
user_container.setName(user_container_name)
user_container.setMetaDataEntry("type", "user")
user_container.setMetaDataEntry("machine", machine.getId())
user_container.setMetaDataEntry("setting_version",
application.SettingVersion)
user_container.setDefinition(machine.definition.getId())
user_container.setMetaDataEntry(
"position", extruder_stack.getMetaDataEntry("position"))
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)
empty_variant = application.empty_variant_container
empty_material = application.empty_material_container
empty_quality = application.empty_quality_container
if machine.variant.getId() not in ("empty", "empty_variant"):
variant = machine.variant
else:
variant = empty_variant
extruder_stack.variant = variant
if machine.material.getId() not in ("empty", "empty_material"):
material = machine.material
else:
material = empty_material
extruder_stack.material = material
if machine.quality.getId() not in ("empty", "empty_quality"):
quality = machine.quality
else:
quality = empty_quality
extruder_stack.quality = quality
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.qualityChanges = self.findInstanceContainers(
id=quality_changes_id)[0]
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.setMetaDataEntry(
"position",
extruder_definition.getMetaDataEntry("position"))
extruder_stack.qualityChanges = self.findInstanceContainers(
id=quality_changes_id)[0]
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, parent=application)
extruder_quality_changes_container.setName(container_name)
extruder_quality_changes_container.setMetaDataEntry(
"type", "quality_changes")
extruder_quality_changes_container.setMetaDataEntry(
"setting_version", application.SettingVersion)
extruder_quality_changes_container.setMetaDataEntry(
"position",
extruder_definition.getMetaDataEntry("position"))
extruder_quality_changes_container.setMetaDataEntry(
"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.qualityChanges = self.findInstanceContainers(
id="empty_quality_changes")[0]
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_position = qc.getMetaDataEntry("position")
if extruder_position 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 read(self, file_name):
if file_name.split(".")[-1] != "ini":
return None
global_container_stack = Application.getInstance().getGlobalContainerStack()
if not global_container_stack:
return None
multi_extrusion = global_container_stack.getProperty("machine_extruder_count", "value") > 1
if multi_extrusion:
Logger.log("e", "Unable to import legacy profile %s. Multi extrusion is not supported", file_name)
raise Exception("Unable to import legacy profile. Multi extrusion is not supported")
Logger.log("i", "Importing legacy profile from file " + file_name + ".")
container_registry = ContainerRegistry.getInstance()
profile_id = container_registry.uniqueName("Imported Legacy Profile")
profile = InstanceContainer(profile_id) # Create an empty profile.
parser = configparser.ConfigParser(interpolation = None)
try:
parser.read([file_name]) # Parse the INI file.
except Exception as e:
Logger.log("e", "Unable to open legacy profile %s: %s", file_name, str(e))
return None
# Legacy Cura saved the profile under the section "profile_N" where N is the ID of a machine, except when you export in which case it saves it in the section "profile".
# Since importing multiple machine profiles is out of scope, just import the first section we find.
section = ""
for found_section in parser.sections():
if found_section.startswith("profile"):
section = found_section
break
if not section: # No section starting with "profile" was found. Probably not a proper INI file.
return None
try:
with open(os.path.join(PluginRegistry.getInstance().getPluginPath("LegacyProfileReader"), "DictionaryOfDoom.json"), "r", encoding = "utf-8") as f:
dict_of_doom = json.load(f) # Parse the Dictionary of Doom.
except IOError as e:
Logger.log("e", "Could not open DictionaryOfDoom.json for reading: %s", str(e))
return None
except Exception as e:
Logger.log("e", "Could not parse DictionaryOfDoom.json: %s", str(e))
return None
defaults = self.prepareDefaults(dict_of_doom)
legacy_settings = self.prepareLocals(parser, section, defaults) #Gets the settings from the legacy profile.
#Check the target version in the Dictionary of Doom with this application version.
if "target_version" not in dict_of_doom:
Logger.log("e", "Dictionary of Doom has no target version. Is it the correct JSON file?")
return None
if InstanceContainer.Version != dict_of_doom["target_version"]:
Logger.log("e", "Dictionary of Doom of legacy profile reader (version %s) is not in sync with the current instance container version (version %s)!", dict_of_doom["target_version"], str(InstanceContainer.Version))
return None
if "translation" not in dict_of_doom:
Logger.log("e", "Dictionary of Doom has no translation. Is it the correct JSON file?")
return None
current_printer_definition = global_container_stack.definition
quality_definition = current_printer_definition.getMetaDataEntry("quality_definition")
if not quality_definition:
quality_definition = current_printer_definition.getId()
profile.setDefinition(quality_definition)
for new_setting in dict_of_doom["translation"]: # Evaluate all new settings that would get a value from the translations.
old_setting_expression = dict_of_doom["translation"][new_setting]
compiled = compile(old_setting_expression, new_setting, "eval")
try:
new_value = eval(compiled, {"math": math}, legacy_settings) # Pass the legacy settings as local variables to allow access to in the evaluation.
value_using_defaults = eval(compiled, {"math": math}, defaults) #Evaluate again using only the default values to try to see if they are default.
except Exception: # Probably some setting name that was missing or something else that went wrong in the ini file.
Logger.log("w", "Setting " + new_setting + " could not be set because the evaluation failed. Something is probably missing from the imported legacy profile.")
continue
definitions = current_printer_definition.findDefinitions(key = new_setting)
if definitions:
if new_value != value_using_defaults and definitions[0].default_value != new_value: # Not equal to the default in the new Cura OR the default in the legacy Cura.
profile.setProperty(new_setting, "value", new_value) # Store the setting in the profile!
if len(profile.getAllKeys()) == 0:
Logger.log("i", "A legacy profile was imported but everything evaluates to the defaults, creating an empty profile.")
profile.addMetaDataEntry("type", "profile")
# don't know what quality_type it is based on, so use "normal" by default
profile.addMetaDataEntry("quality_type", "normal")
profile.setName(profile_id)
profile.setDirty(True)
#Serialise and deserialise in order to perform the version upgrade.
parser = configparser.ConfigParser(interpolation=None)
data = profile.serialize()
parser.read_string(data)
parser["general"]["version"] = "1"
if parser.has_section("values"):
parser["settings"] = parser["values"]
del parser["values"]
stream = io.StringIO()
parser.write(stream)
data = stream.getvalue()
profile.deserialize(data)
# The definition can get reset to fdmprinter during the deserialization's upgrade. Here we set the definition
# again.
profile.setDefinition(quality_definition)
#We need to return one extruder stack and one global stack.
global_container_id = container_registry.uniqueName("Global Imported Legacy Profile")
global_profile = profile.duplicate(new_id = global_container_id, new_name = profile_id) #Needs to have the same name as the extruder profile.
global_profile.setDirty(True)
profile_definition = "fdmprinter"
from UM.Util import parseBool
if parseBool(global_container_stack.getMetaDataEntry("has_machine_quality", "False")):
profile_definition = global_container_stack.getMetaDataEntry("quality_definition")
if not profile_definition:
profile_definition = global_container_stack.definition.getId()
global_profile.setDefinition(profile_definition)
return [global_profile]
def addExtruderStackForSingleExtrusionMachine(self, machine, extruder_id, new_global_quality_changes = None, create_new_ids = True):
new_extruder_id = extruder_id
application = CuraApplication.getInstance()
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"))
# 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, parent = application)
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, parent = application)
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("position", extruder_stack.getMetaDataEntry("position"))
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)
empty_variant = application.empty_variant_container
empty_material = application.empty_material_container
empty_quality = application.empty_quality_container
if machine.variant.getId() not in ("empty", "empty_variant"):
variant = machine.variant
else:
variant = empty_variant
extruder_stack.variant = variant
if machine.material.getId() not in ("empty", "empty_material"):
material = machine.material
else:
material = empty_material
extruder_stack.material = material
if machine.quality.getId() not in ("empty", "empty_quality"):
quality = machine.quality
else:
quality = empty_quality
extruder_stack.quality = quality
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.qualityChanges = self.findInstanceContainers(id = quality_changes_id)[0]
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("position", extruder_definition.getMetaDataEntry("position"))
extruder_stack.qualityChanges = self.findInstanceContainers(id = quality_changes_id)[0]
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, parent = application)
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("position", extruder_definition.getMetaDataEntry("position"))
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.qualityChanges = self.findInstanceContainers(id = "empty_quality_changes")[0]
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_position = qc.getMetaDataEntry("position")
if extruder_position 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
class Script:
def __init__(self):
super().__init__()
self._settings = None
self._stack = None
setting_data = self.getSettingData()
self._stack = ContainerStack(stack_id=id(self))
self._stack.setDirty(False) # This stack does not need to be saved.
## Check if the definition of this script already exists. If not, add it to the registry.
if "key" in setting_data:
definitions = ContainerRegistry.getInstance().findDefinitionContainers(id = setting_data["key"])
if definitions:
# Definition was found
self._definition = definitions[0]
else:
self._definition = DefinitionContainer(setting_data["key"])
self._definition.deserialize(json.dumps(setting_data))
ContainerRegistry.getInstance().addContainer(self._definition)
self._stack.addContainer(self._definition)
self._instance = InstanceContainer(container_id="ScriptInstanceContainer")
self._instance.setDefinition(self._definition)
self._stack.addContainer(self._instance)
ContainerRegistry.getInstance().addContainer(self._stack)
settingsLoaded = Signal()
## Needs to return a dict that can be used to construct a settingcategory file.
# See the example script for an example.
# It follows the same style / guides as the Uranium settings.
def getSettingData(self):
raise NotImplementedError()
def getDefinitionId(self):
if self._stack:
return self._stack.getBottom().getId()
def getStackId(self):
if self._stack:
return self._stack.getId()
## Convenience function that retrieves value of a setting from the stack.
def getSettingValueByKey(self, key):
return self._stack.getProperty(key, "value")
## Convenience function that finds the value in a line of g-code.
# When requesting key = x from line "G1 X100" the value 100 is returned.
def getValue(self, line, key, default = None):
if not key in line or (';' in line and line.find(key) > line.find(';')):
return default
sub_part = line[line.find(key) + 1:]
m = re.search('^[0-9]+\.?[0-9]*', sub_part)
if m is None:
return default
try:
return float(m.group(0))
except:
return default
## This is called when the script is executed.
# It gets a list of g-code strings and needs to return a (modified) list.
def execute(self, data):
raise NotImplementedError()
class Script:
def __init__(self) -> None:
super().__init__()
self._stack = None # type: Optional[ContainerStack]
self._definition = None # type: Optional[DefinitionContainerInterface]
self._instance = None # type: Optional[InstanceContainer]
def initialize(self) -> None:
setting_data = self.getSettingData()
self._stack = ContainerStack(stack_id=str(id(self)))
self._stack.setDirty(False) # This stack does not need to be saved.
## Check if the definition of this script already exists. If not, add it to the registry.
if "key" in setting_data:
definitions = ContainerRegistry.getInstance().findDefinitionContainers(id=setting_data["key"])
if definitions:
# Definition was found
self._definition = definitions[0]
else:
self._definition = DefinitionContainer(setting_data["key"])
try:
self._definition.deserialize(json.dumps(setting_data))
ContainerRegistry.getInstance().addContainer(self._definition)
except ContainerFormatError:
self._definition = None
return
if self._definition is None:
return
self._stack.addContainer(self._definition)
self._instance = InstanceContainer(container_id="ScriptInstanceContainer")
self._instance.setDefinition(self._definition.getId())
self._instance.setMetaDataEntry("setting_version",
self._definition.getMetaDataEntry("setting_version", default=0))
self._stack.addContainer(self._instance)
self._stack.propertyChanged.connect(self._onPropertyChanged)
ContainerRegistry.getInstance().addContainer(self._stack)
settingsLoaded = Signal()
valueChanged = Signal() # Signal emitted whenever a value of a setting is changed
def _onPropertyChanged(self, key: str, property_name: str) -> None:
if property_name == "value":
self.valueChanged.emit()
# Property changed: trigger reslice
# To do this we use the global container stack propertyChanged.
# Re-slicing is necessary for setting changes in this plugin, because the changes
# are applied only once per "fresh" gcode
global_container_stack = Application.getInstance().getGlobalContainerStack()
if global_container_stack is not None:
global_container_stack.propertyChanged.emit(key, property_name)
## Needs to return a dict that can be used to construct a settingcategory file.
# See the example script for an example.
# It follows the same style / guides as the Uranium settings.
# Scripts can either override getSettingData directly, or use getSettingDataString
# to return a string that will be parsed as json. The latter has the benefit over
# returning a dict in that the order of settings is maintained.
def getSettingData(self) -> Dict[str, Any]:
setting_data_as_string = self.getSettingDataString()
setting_data = json.loads(setting_data_as_string, object_pairs_hook = collections.OrderedDict)
return setting_data
def getSettingDataString(self) -> str:
raise NotImplementedError()
def getDefinitionId(self) -> Optional[str]:
if self._stack:
bottom = self._stack.getBottom()
if bottom is not None:
return bottom.getId()
return None
def getStackId(self) -> Optional[str]:
if self._stack:
return self._stack.getId()
return None
## Convenience function that retrieves value of a setting from the stack.
def getSettingValueByKey(self, key: str) -> Any:
if self._stack is not None:
return self._stack.getProperty(key, "value")
return None
## Convenience function that finds the value in a line of g-code.
# When requesting key = x from line "G1 X100" the value 100 is returned.
def getValue(self, line: str, key: str, default = None) -> Any:
if not key in line or (';' in line and line.find(key) > line.find(';')):
return default
sub_part = line[line.find(key) + 1:]
m = re.search('^-?[0-9]+\.?[0-9]*', sub_part)
if m is None:
return default
try:
return int(m.group(0))
except ValueError: #Not an integer.
try:
return float(m.group(0))
except ValueError: #Not a number at all.
return default
## Convenience function to produce a line of g-code.
#
# You can put in an original g-code line and it'll re-use all the values
# in that line.
# All other keyword parameters are put in the result in g-code's format.
# For instance, if you put ``G=1`` in the parameters, it will output
# ``G1``. If you put ``G=1, X=100`` in the parameters, it will output
# ``G1 X100``. The parameters G and M will always be put first. The
# parameters T and S will be put second (or first if there is no G or M).
# The rest of the parameters will be put in arbitrary order.
# \param line The original g-code line that must be modified. If not
# provided, an entirely new g-code line will be produced.
# \return A line of g-code with the desired parameters filled in.
def putValue(self, line: str = "", **kwargs) -> str:
#Strip the comment.
comment = ""
if ";" in line:
comment = line[line.find(";"):]
line = line[:line.find(";")] #Strip the comment.
#Parse the original g-code line.
for part in line.split(" "):
if part == "":
continue
parameter = part[0]
if parameter in kwargs:
continue #Skip this one. The user-provided parameter overwrites the one in the line.
value = part[1:]
kwargs[parameter] = value
#Write the new g-code line.
result = ""
priority_parameters = ["G", "M", "T", "S", "F", "X", "Y", "Z", "E"] #First some parameters that get priority. In order of priority!
for priority_key in priority_parameters:
if priority_key in kwargs:
if result != "":
result += " "
result += priority_key + str(kwargs[priority_key])
del kwargs[priority_key]
for key, value in kwargs.items():
if result != "":
result += " "
result += key + str(value)
#Put the comment back in.
if comment != "":
if result != "":
result += " "
result += ";" + comment
return result
## This is called when the script is executed.
# It gets a list of g-code strings and needs to return a (modified) list.
def execute(self, data: List[str]) -> List[str]:
raise NotImplementedError()
def read(self, file_name):
if file_name.split(".")[-1] != "ini":
return None
global_container_stack = Application.getInstance(
).getGlobalContainerStack()
if not global_container_stack:
return None
multi_extrusion = global_container_stack.getProperty(
"machine_extruder_count", "value") > 1
if multi_extrusion:
Logger.log(
"e",
"Unable to import legacy profile %s. Multi extrusion is not supported",
file_name)
raise Exception(
"Unable to import legacy profile. Multi extrusion is not supported"
)
Logger.log("i",
"Importing legacy profile from file " + file_name + ".")
profile = InstanceContainer(
"Imported Legacy Profile") # Create an empty profile.
parser = configparser.ConfigParser(interpolation=None)
try:
with open(file_name) as f:
parser.readfp(f) #Parse the INI file.
except Exception as e:
Logger.log("e", "Unable to open legacy profile %s: %s", file_name,
str(e))
return None
#Legacy Cura saved the profile under the section "profile_N" where N is the ID of a machine, except when you export in which case it saves it in the section "profile".
#Since importing multiple machine profiles is out of scope, just import the first section we find.
section = ""
for found_section in parser.sections():
if found_section.startswith("profile"):
section = found_section
break
if not section: #No section starting with "profile" was found. Probably not a proper INI file.
return None
try:
with open(
os.path.join(
PluginRegistry.getInstance().getPluginPath(
"LegacyProfileReader"), "DictionaryOfDoom.json"),
"r", -1, "utf-8") as f:
dict_of_doom = json.load(f) #Parse the Dictionary of Doom.
except IOError as e:
Logger.log("e",
"Could not open DictionaryOfDoom.json for reading: %s",
str(e))
return None
except Exception as e:
Logger.log("e", "Could not parse DictionaryOfDoom.json: %s",
str(e))
return None
defaults = self.prepareDefaults(dict_of_doom)
legacy_settings = self.prepareLocals(
parser, section,
defaults) #Gets the settings from the legacy profile.
#Check the target version in the Dictionary of Doom with this application version.
if "target_version" not in dict_of_doom:
Logger.log(
"e",
"Dictionary of Doom has no target version. Is it the correct JSON file?"
)
return None
if InstanceContainer.Version != dict_of_doom["target_version"]:
Logger.log(
"e",
"Dictionary of Doom of legacy profile reader (version %s) is not in sync with the current instance container version (version %s)!",
dict_of_doom["target_version"], str(InstanceContainer.Version))
return None
if "translation" not in dict_of_doom:
Logger.log(
"e",
"Dictionary of Doom has no translation. Is it the correct JSON file?"
)
return None
current_printer_definition = global_container_stack.getBottom()
profile.setDefinition(current_printer_definition)
for new_setting in dict_of_doom[
"translation"]: #Evaluate all new settings that would get a value from the translations.
old_setting_expression = dict_of_doom["translation"][new_setting]
compiled = compile(old_setting_expression, new_setting, "eval")
try:
new_value = eval(
compiled, {"math": math}, legacy_settings
) #Pass the legacy settings as local variables to allow access to in the evaluation.
value_using_defaults = eval(
compiled, {"math": math}, defaults
) #Evaluate again using only the default values to try to see if they are default.
except Exception: #Probably some setting name that was missing or something else that went wrong in the ini file.
Logger.log(
"w", "Setting " + new_setting +
" could not be set because the evaluation failed. Something is probably missing from the imported legacy profile."
)
continue
definitions = current_printer_definition.findDefinitions(
key=new_setting)
if definitions:
if new_value != value_using_defaults and definitions[
0].default_value != new_value: # Not equal to the default in the new Cura OR the default in the legacy Cura.
profile.setProperty(
new_setting, "value",
new_value) # Store the setting in the profile!
if len(profile.getAllKeys()) == 0:
Logger.log(
"i",
"A legacy profile was imported but everything evaluates to the defaults, creating an empty profile."
)
profile.setDirty(True)
profile.addMetaDataEntry("type", "quality_changes")
profile.addMetaDataEntry("quality_type", "normal")
return profile
def read(self, file_name):
if file_name.split(".")[-1] != "ini":
return None
global_container_stack = Application.getInstance().getGlobalContainerStack()
if not global_container_stack:
return None
multi_extrusion = global_container_stack.getProperty("machine_extruder_count", "value") > 1
if multi_extrusion:
Logger.log("e", "Unable to import legacy profile %s. Multi extrusion is not supported", file_name)
raise Exception("Unable to import legacy profile. Multi extrusion is not supported")
Logger.log("i", "Importing legacy profile from file " + file_name + ".")
profile = InstanceContainer("Imported Legacy Profile") # Create an empty profile.
parser = configparser.ConfigParser(interpolation = None)
try:
with open(file_name) as f:
parser.readfp(f) # Parse the INI file.
except Exception as e:
Logger.log("e", "Unable to open legacy profile %s: %s", file_name, str(e))
return None
# Legacy Cura saved the profile under the section "profile_N" where N is the ID of a machine, except when you export in which case it saves it in the section "profile".
# Since importing multiple machine profiles is out of scope, just import the first section we find.
section = ""
for found_section in parser.sections():
if found_section.startswith("profile"):
section = found_section
break
if not section: # No section starting with "profile" was found. Probably not a proper INI file.
return None
try:
with open(os.path.join(PluginRegistry.getInstance().getPluginPath("LegacyProfileReader"), "DictionaryOfDoom.json"), "r", -1, "utf-8") as f:
dict_of_doom = json.load(f) # Parse the Dictionary of Doom.
except IOError as e:
Logger.log("e", "Could not open DictionaryOfDoom.json for reading: %s", str(e))
return None
except Exception as e:
Logger.log("e", "Could not parse DictionaryOfDoom.json: %s", str(e))
return None
defaults = self.prepareDefaults(dict_of_doom)
legacy_settings = self.prepareLocals(parser, section, defaults) #Gets the settings from the legacy profile.
#Check the target version in the Dictionary of Doom with this application version.
if "target_version" not in dict_of_doom:
Logger.log("e", "Dictionary of Doom has no target version. Is it the correct JSON file?")
return None
if InstanceContainer.Version != dict_of_doom["target_version"]:
Logger.log("e", "Dictionary of Doom of legacy profile reader (version %s) is not in sync with the current instance container version (version %s)!", dict_of_doom["target_version"], str(InstanceContainer.Version))
return None
if "translation" not in dict_of_doom:
Logger.log("e", "Dictionary of Doom has no translation. Is it the correct JSON file?")
return None
current_printer_definition = global_container_stack.getBottom()
profile.setDefinition(current_printer_definition)
for new_setting in dict_of_doom["translation"]: # Evaluate all new settings that would get a value from the translations.
old_setting_expression = dict_of_doom["translation"][new_setting]
compiled = compile(old_setting_expression, new_setting, "eval")
try:
new_value = eval(compiled, {"math": math}, legacy_settings) # Pass the legacy settings as local variables to allow access to in the evaluation.
value_using_defaults = eval(compiled, {"math": math}, defaults) #Evaluate again using only the default values to try to see if they are default.
except Exception: # Probably some setting name that was missing or something else that went wrong in the ini file.
Logger.log("w", "Setting " + new_setting + " could not be set because the evaluation failed. Something is probably missing from the imported legacy profile.")
continue
definitions = current_printer_definition.findDefinitions(key = new_setting)
if definitions:
if new_value != value_using_defaults and definitions[0].default_value != new_value: # Not equal to the default in the new Cura OR the default in the legacy Cura.
profile.setProperty(new_setting, "value", new_value) # Store the setting in the profile!
if len(profile.getAllKeys()) == 0:
Logger.log("i", "A legacy profile was imported but everything evaluates to the defaults, creating an empty profile.")
profile.setDirty(True)
profile.addMetaDataEntry("type", "quality_changes")
profile.addMetaDataEntry("quality_type", "normal")
return profile
class Script:
def __init__(self):
super().__init__()
self._settings = None
self._stack = None
setting_data = self.getSettingData()
self._stack = ContainerStack(stack_id=str(id(self)))
self._stack.setDirty(False) # This stack does not need to be saved.
## Check if the definition of this script already exists. If not, add it to the registry.
if "key" in setting_data:
definitions = ContainerRegistry.getInstance(
).findDefinitionContainers(id=setting_data["key"])
if definitions:
# Definition was found
self._definition = definitions[0]
else:
self._definition = DefinitionContainer(setting_data["key"])
try:
self._definition.deserialize(json.dumps(setting_data))
ContainerRegistry.getInstance().addContainer(
self._definition)
except ContainerFormatError:
self._definition = None
return
self._stack.addContainer(self._definition)
self._instance = InstanceContainer(
container_id="ScriptInstanceContainer")
self._instance.setDefinition(self._definition.getId())
self._instance.addMetaDataEntry(
"setting_version",
self._definition.getMetaDataEntry("setting_version", default=0))
self._stack.addContainer(self._instance)
self._stack.propertyChanged.connect(self._onPropertyChanged)
ContainerRegistry.getInstance().addContainer(self._stack)
settingsLoaded = Signal()
valueChanged = Signal(
) # Signal emitted whenever a value of a setting is changed
def _onPropertyChanged(self, key, property_name):
if property_name == "value":
self.valueChanged.emit()
# Property changed: trigger reslice
# To do this we use the global container stack propertyChanged.
# Reslicing is necessary for setting changes in this plugin, because the changes
# are applied only once per "fresh" gcode
global_container_stack = Application.getInstance(
).getGlobalContainerStack()
global_container_stack.propertyChanged.emit(key, property_name)
## Needs to return a dict that can be used to construct a settingcategory file.
# See the example script for an example.
# It follows the same style / guides as the Uranium settings.
# Scripts can either override getSettingData directly, or use getSettingDataString
# to return a string that will be parsed as json. The latter has the benefit over
# returning a dict in that the order of settings is maintained.
def getSettingData(self):
setting_data = self.getSettingDataString()
if type(setting_data) == str:
setting_data = json.loads(
setting_data, object_pairs_hook=collections.OrderedDict)
return setting_data
def getSettingDataString(self):
raise NotImplementedError()
def getDefinitionId(self):
if self._stack:
return self._stack.getBottom().getId()
def getStackId(self):
if self._stack:
return self._stack.getId()
## Convenience function that retrieves value of a setting from the stack.
def getSettingValueByKey(self, key):
return self._stack.getProperty(key, "value")
## Convenience function that finds the value in a line of g-code.
# When requesting key = x from line "G1 X100" the value 100 is returned.
def getValue(self, line, key, default=None):
if not key in line or (';' in line
and line.find(key) > line.find(';')):
return default
sub_part = line[line.find(key) + 1:]
m = re.search('^-?[0-9]+\.?[0-9]*', sub_part)
if m is None:
return default
try:
return float(m.group(0))
except:
return default
## Convenience function to produce a line of g-code.
#
# You can put in an original g-code line and it'll re-use all the values
# in that line.
# All other keyword parameters are put in the result in g-code's format.
# For instance, if you put ``G=1`` in the parameters, it will output
# ``G1``. If you put ``G=1, X=100`` in the parameters, it will output
# ``G1 X100``. The parameters G and M will always be put first. The
# parameters T and S will be put second (or first if there is no G or M).
# The rest of the parameters will be put in arbitrary order.
# \param line The original g-code line that must be modified. If not
# provided, an entirely new g-code line will be produced.
# \return A line of g-code with the desired parameters filled in.
def putValue(self, line="", **kwargs):
#Strip the comment.
comment = ""
if ";" in line:
comment = line[line.find(";"):]
line = line[:line.find(";")] #Strip the comment.
#Parse the original g-code line.
for part in line.split(" "):
if part == "":
continue
parameter = part[0]
if parameter in kwargs:
continue #Skip this one. The user-provided parameter overwrites the one in the line.
value = part[1:]
kwargs[parameter] = value
#Write the new g-code line.
result = ""
priority_parameters = [
"G", "M", "T", "S", "F", "X", "Y", "Z", "E"
] #First some parameters that get priority. In order of priority!
for priority_key in priority_parameters:
if priority_key in kwargs:
if result != "":
result += " "
result += priority_key + str(kwargs[priority_key])
del kwargs[priority_key]
for key, value in kwargs.items():
if result != "":
result += " "
result += key + str(value)
#Put the comment back in.
if comment != "":
if result != "":
result += " "
result += ";" + comment
return result
## This is called when the script is executed.
# It gets a list of g-code strings and needs to return a (modified) list.
def execute(self, data):
raise NotImplementedError()
def addExtruderStackForSingleExtrusionMachine(self, machine, extruder_id):
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)
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"))
# create empty user changes container otherwise
user_container = InstanceContainer(extruder_stack.id + "_user")
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", extruder_stack.getId())
from cura.CuraApplication import CuraApplication
user_container.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
user_container.setDefinition(machine.definition.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:
user_container.addInstance(machine.userChanges.getInstance(user_setting_key))
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)
if machine.qualityChanges.getId() not in ("empty", "empty_quality_changes"):
extruder_quality_changes_container = self.findInstanceContainers(name = machine.qualityChanges.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.qualityChanges.getName())
if extruder_quality_changes_container:
quality_changes_id = extruder_quality_changes_container.getId()
extruder_stack.setQualityChangesById(quality_changes_id)
if not extruder_quality_changes_container:
Logger.log("w", "Could not find quality_changes named [%s] for extruder [%s]",
machine.qualityChanges.getName(), extruder_stack.getId())
else:
extruder_stack.setQualityChangesById("empty_quality_changes")
self.addContainer(extruder_stack)
# Set next stack at the end
extruder_stack.setNextStack(machine)
return extruder_stack