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 _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 _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 _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 _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 importProfile(self, file_name):
Logger.log("d", "Attempting to import profile %s", file_name)
if not file_name:
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"Failed to import profile from <filename>{0}</filename>: <message>{1}</message>",
file_name, "Invalid path")
}
plugin_registry = PluginRegistry.getInstance()
extension = file_name.split(".")[-1]
global_container_stack = Application.getInstance(
).getGlobalContainerStack()
if not global_container_stack:
return
machine_extruders = list(
ExtruderManager.getInstance().getMachineExtruders(
global_container_stack.getId()))
machine_extruders.sort(key=lambda k: k.getMetaDataEntry("position"))
for plugin_id, meta_data in self._getIOPlugins("profile_reader"):
if meta_data["profile_reader"][0]["extension"] != extension:
continue
profile_reader = plugin_registry.getPluginObject(plugin_id)
try:
profile_or_list = profile_reader.read(
file_name) # Try to open the file with the profile reader.
except Exception as e:
# Note that this will fail quickly. That is, if any profile reader throws an exception, it will stop reading. It will only continue reading if the reader returned None.
Logger.log(
"e",
"Failed to import profile from %s: %s while using profile reader. Got exception %s",
file_name, profile_reader.getPluginId(), str(e))
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"Failed to import profile from <filename>{0}</filename>: <message>{1}</message>",
file_name, "\n" + str(e))
}
if profile_or_list:
# Ensure it is always a list of profiles
if not isinstance(profile_or_list, list):
profile_or_list = [profile_or_list]
# First check if this profile is suitable for this machine
global_profile = None
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
else:
for profile in profile_or_list:
if not profile.getMetaDataEntry("extruder"):
global_profile = profile
break
if not global_profile:
Logger.log(
"e",
"Incorrect profile [%s]. Could not find global profile",
file_name)
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"This profile <filename>{0}</filename> contains incorrect data, could not import it.",
file_name)
}
profile_definition = global_profile.getMetaDataEntry(
"definition")
expected_machine_definition = "fdmprinter"
if parseBool(
global_container_stack.getMetaDataEntry(
"has_machine_quality", "False")):
expected_machine_definition = global_container_stack.getMetaDataEntry(
"quality_definition")
if not expected_machine_definition:
expected_machine_definition = global_container_stack.definition.getId(
)
if expected_machine_definition is not None and profile_definition is not None and profile_definition != expected_machine_definition:
Logger.log(
"e",
"Profile [%s] is for machine [%s] but the current active machine is [%s]. Will not import the profile",
file_name, profile_definition,
expected_machine_definition)
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"The machine defined in profile <filename>{0}</filename> ({1}) doesn't match with your current machine ({2}), could not import it.",
file_name, profile_definition,
expected_machine_definition)
}
name_seed = os.path.splitext(os.path.basename(file_name))[0]
new_name = self.uniqueName(name_seed)
# Ensure it is always a list of profiles
if type(profile_or_list) is not list:
profile_or_list = [profile_or_list]
# Make sure that there are also extruder stacks' quality_changes, not just one for the global stack
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
extruder_profiles = []
for idx, extruder in enumerate(
global_container_stack.extruders.values()):
profile_id = ContainerRegistry.getInstance(
).uniqueName(global_container_stack.getId() +
"_extruder_" + str(idx + 1))
profile = InstanceContainer(profile_id)
profile.setName(global_profile.getName())
profile.addMetaDataEntry(
"setting_version", CuraApplication.SettingVersion)
profile.addMetaDataEntry("type", "quality_changes")
profile.addMetaDataEntry(
"definition",
global_profile.getMetaDataEntry("definition"))
profile.addMetaDataEntry(
"quality_type",
global_profile.getMetaDataEntry("quality_type"))
profile.addMetaDataEntry("extruder", extruder.getId())
profile.setDirty(True)
if idx == 0:
# move all per-extruder settings to the first extruder's quality_changes
for qc_setting_key in global_profile.getAllKeys():
settable_per_extruder = global_container_stack.getProperty(
qc_setting_key, "settable_per_extruder")
if settable_per_extruder:
setting_value = global_profile.getProperty(
qc_setting_key, "value")
setting_definition = global_container_stack.getSettingDefinition(
qc_setting_key)
new_instance = SettingInstance(
setting_definition, profile)
new_instance.setProperty(
"value", setting_value)
new_instance.resetState(
) # Ensure that the state is not seen as a user state.
profile.addInstance(new_instance)
profile.setDirty(True)
global_profile.removeInstance(
qc_setting_key, postpone_emit=True)
extruder_profiles.append(profile)
for profile in extruder_profiles:
profile_or_list.append(profile)
# Import all profiles
for profile_index, profile in enumerate(profile_or_list):
if profile_index == 0:
# This is assumed to be the global profile
profile_id = (
global_container_stack.getBottom().getId() + "_" +
name_seed).lower().replace(" ", "_")
elif profile_index < len(machine_extruders) + 1:
# This is assumed to be an extruder profile
extruder_id = Application.getInstance(
).getMachineManager().getQualityDefinitionId(
machine_extruders[profile_index - 1].getBottom())
if not profile.getMetaDataEntry("extruder"):
profile.addMetaDataEntry("extruder", extruder_id)
else:
profile.setMetaDataEntry("extruder", extruder_id)
profile_id = (extruder_id + "_" +
name_seed).lower().replace(" ", "_")
else: #More extruders in the imported file than in the machine.
continue #Delete the additional profiles.
result = self._configureProfile(profile, profile_id,
new_name)
if result is not None:
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"Failed to import profile from <filename>{0}</filename>: <message>{1}</message>",
file_name, result)
}
return {
"status":
"ok",
"message":
catalog.i18nc("@info:status",
"Successfully imported profile {0}",
profile_or_list[0].getName())
}
# This message is throw when the profile reader doesn't find any profile in the file
return {
"status":
"error",
"message":
catalog.i18nc("@info:status",
"File {0} does not contain any valid profile.",
file_name)
}
# If it hasn't returned by now, none of the plugins loaded the profile successfully.
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status",
"Profile {0} has an unknown file type or is corrupted.",
file_name)
}
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 + ".")
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]
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
def importProfile(self, file_name):
Logger.log("d", "Attempting to import profile %s", file_name)
if not file_name:
return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "Failed to import profile from <filename>{0}</filename>: <message>{1}</message>", file_name, "Invalid path")}
plugin_registry = PluginRegistry.getInstance()
extension = file_name.split(".")[-1]
global_stack = Application.getInstance().getGlobalContainerStack()
if not global_stack:
return
machine_extruders = []
for position in sorted(global_stack.extruders):
machine_extruders.append(global_stack.extruders[position])
for plugin_id, meta_data in self._getIOPlugins("profile_reader"):
if meta_data["profile_reader"][0]["extension"] != extension:
continue
profile_reader = plugin_registry.getPluginObject(plugin_id)
try:
profile_or_list = profile_reader.read(file_name) # Try to open the file with the profile reader.
except NoProfileException:
return { "status": "ok", "message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "No custom profile to import in file <filename>{0}</filename>", file_name)}
except Exception as e:
# Note that this will fail quickly. That is, if any profile reader throws an exception, it will stop reading. It will only continue reading if the reader returned None.
Logger.log("e", "Failed to import profile from %s: %s while using profile reader. Got exception %s", file_name, profile_reader.getPluginId(), str(e))
return { "status": "error", "message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "Failed to import profile from <filename>{0}</filename>: <message>{1}</message>", file_name, "\n" + str(e))}
if profile_or_list:
# Ensure it is always a list of profiles
if not isinstance(profile_or_list, list):
profile_or_list = [profile_or_list]
# First check if this profile is suitable for this machine
global_profile = None
extruder_profiles = []
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
else:
for profile in profile_or_list:
if not profile.getMetaDataEntry("position"):
global_profile = profile
else:
extruder_profiles.append(profile)
extruder_profiles = sorted(extruder_profiles, key = lambda x: int(x.getMetaDataEntry("position")))
profile_or_list = [global_profile] + extruder_profiles
if not global_profile:
Logger.log("e", "Incorrect profile [%s]. Could not find global profile", file_name)
return { "status": "error",
"message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "This profile <filename>{0}</filename> contains incorrect data, could not import it.", file_name)}
profile_definition = global_profile.getMetaDataEntry("definition")
# Make sure we have a profile_definition in the file:
if profile_definition is None:
break
machine_definition = self.findDefinitionContainers(id = profile_definition)
if not machine_definition:
Logger.log("e", "Incorrect profile [%s]. Unknown machine type [%s]", file_name, profile_definition)
return {"status": "error",
"message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "This profile <filename>{0}</filename> contains incorrect data, could not import it.", file_name)
}
machine_definition = machine_definition[0]
# Get the expected machine definition.
# i.e.: We expect gcode for a UM2 Extended to be defined as normal UM2 gcode...
profile_definition = getMachineDefinitionIDForQualitySearch(machine_definition)
expected_machine_definition = getMachineDefinitionIDForQualitySearch(global_stack.definition)
# And check if the profile_definition matches either one (showing error if not):
if profile_definition != expected_machine_definition:
Logger.log("e", "Profile [%s] is for machine [%s] but the current active machine is [%s]. Will not import the profile", file_name, profile_definition, expected_machine_definition)
return { "status": "error",
"message": catalog.i18nc("@info:status Don't translate the XML tags <filename> or <message>!", "The machine defined in profile <filename>{0}</filename> ({1}) doesn't match with your current machine ({2}), could not import it.", file_name, profile_definition, expected_machine_definition)}
# Fix the global quality profile's definition field in case it's not correct
global_profile.setMetaDataEntry("definition", expected_machine_definition)
quality_name = global_profile.getName()
quality_type = global_profile.getMetaDataEntry("quality_type")
name_seed = os.path.splitext(os.path.basename(file_name))[0]
new_name = self.uniqueName(name_seed)
# Ensure it is always a list of profiles
if type(profile_or_list) is not list:
profile_or_list = [profile_or_list]
# Make sure that there are also extruder stacks' quality_changes, not just one for the global stack
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
extruder_profiles = []
for idx, extruder in enumerate(global_stack.extruders.values()):
profile_id = ContainerRegistry.getInstance().uniqueName(global_stack.getId() + "_extruder_" + str(idx + 1))
profile = InstanceContainer(profile_id)
profile.setName(quality_name)
profile.addMetaDataEntry("setting_version", CuraApplication.SettingVersion)
profile.addMetaDataEntry("type", "quality_changes")
profile.addMetaDataEntry("definition", expected_machine_definition)
profile.addMetaDataEntry("quality_type", quality_type)
profile.addMetaDataEntry("position", "0")
profile.setDirty(True)
if idx == 0:
# move all per-extruder settings to the first extruder's quality_changes
for qc_setting_key in global_profile.getAllKeys():
settable_per_extruder = global_stack.getProperty(qc_setting_key,
"settable_per_extruder")
if settable_per_extruder:
setting_value = global_profile.getProperty(qc_setting_key, "value")
setting_definition = global_stack.getSettingDefinition(qc_setting_key)
new_instance = SettingInstance(setting_definition, profile)
new_instance.setProperty("value", setting_value)
new_instance.resetState() # Ensure that the state is not seen as a user state.
profile.addInstance(new_instance)
profile.setDirty(True)
global_profile.removeInstance(qc_setting_key, postpone_emit=True)
extruder_profiles.append(profile)
for profile in extruder_profiles:
profile_or_list.append(profile)
# Import all profiles
for profile_index, profile in enumerate(profile_or_list):
if profile_index == 0:
# This is assumed to be the global profile
profile_id = (global_stack.getBottom().getId() + "_" + name_seed).lower().replace(" ", "_")
elif profile_index < len(machine_extruders) + 1:
# This is assumed to be an extruder profile
extruder_id = machine_extruders[profile_index - 1].definition.getId()
extruder_position = str(profile_index - 1)
if not profile.getMetaDataEntry("position"):
profile.addMetaDataEntry("position", extruder_position)
else:
profile.setMetaDataEntry("position", extruder_position)
profile_id = (extruder_id + "_" + name_seed).lower().replace(" ", "_")
else: #More extruders in the imported file than in the machine.
continue #Delete the additional profiles.
result = self._configureProfile(profile, profile_id, new_name, expected_machine_definition)
if result is not None:
return {"status": "error", "message": catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"Failed to import profile from <filename>{0}</filename>: <message>{1}</message>",
file_name, result)}
return {"status": "ok", "message": catalog.i18nc("@info:status", "Successfully imported profile {0}", profile_or_list[0].getName())}
# This message is throw when the profile reader doesn't find any profile in the file
return {"status": "error", "message": catalog.i18nc("@info:status", "File {0} does not contain any valid profile.", file_name)}
# If it hasn't returned by now, none of the plugins loaded the profile successfully.
return {"status": "error", "message": catalog.i18nc("@info:status", "Profile {0} has an unknown file type or is corrupted.", file_name)}
def read(self, file_name):
archive = zipfile.ZipFile(file_name, "r")
cura_file_names = [name for name in archive.namelist() if name.startswith("Cura/")]
# Create a shadow copy of the preferences (we don't want all of the preferences, but we do want to re-use its
# parsing code.
temp_preferences = Preferences()
temp_preferences.readFromFile(io.TextIOWrapper(archive.open("Cura/preferences.cfg"))) # We need to wrap it, else the archive parser breaks.
# Copy a number of settings from the temp preferences to the global
global_preferences = Preferences.getInstance()
visible_settings = temp_preferences.getValue("general/visible_settings")
if visible_settings is None:
Logger.log("w", "Workspace did not contain visible settings. Leaving visibility unchanged")
else:
global_preferences.setValue("general/visible_settings", visible_settings)
categories_expanded = temp_preferences.getValue("cura/categories_expanded")
if categories_expanded is None:
Logger.log("w", "Workspace did not contain expanded categories. Leaving them unchanged")
else:
global_preferences.setValue("cura/categories_expanded", categories_expanded)
Application.getInstance().expandedCategoriesChanged.emit() # Notify the GUI of the change
self._id_mapping = {}
# We don't add containers right away, but wait right until right before the stack serialization.
# We do this so that if something goes wrong, it's easier to clean up.
containers_to_add = []
global_stack_file, extruder_stack_files = self._determineGlobalAndExtruderStackFiles(file_name, cura_file_names)
global_stack = None
extruder_stacks = []
extruder_stacks_added = []
container_stacks_added = []
containers_added = []
global_stack_id_original = self._stripFileToId(global_stack_file)
global_stack_id_new = global_stack_id_original
global_stack_need_rename = False
extruder_stack_id_map = {} # new and old ExtruderStack IDs map
if self._resolve_strategies["machine"] == "new":
# We need a new id if the id already exists
if self._container_registry.findContainerStacks(id = global_stack_id_original):
global_stack_id_new = self.getNewId(global_stack_id_original)
global_stack_need_rename = True
for each_extruder_stack_file in extruder_stack_files:
old_container_id = self._stripFileToId(each_extruder_stack_file)
new_container_id = old_container_id
if self._container_registry.findContainerStacks(id = old_container_id):
# get a new name for this extruder
new_container_id = self.getNewId(old_container_id)
extruder_stack_id_map[old_container_id] = new_container_id
# TODO: For the moment we use pretty naive existence checking. If the ID is the same, we assume in quite a few
# TODO: cases that the container loaded is the same (most notable in materials & definitions).
# TODO: It might be possible that we need to add smarter checking in the future.
Logger.log("d", "Workspace loading is checking definitions...")
# Get all the definition files & check if they exist. If not, add them.
definition_container_files = [name for name in cura_file_names if name.endswith(self._definition_container_suffix)]
for definition_container_file in definition_container_files:
container_id = self._stripFileToId(definition_container_file)
definitions = self._container_registry.findDefinitionContainers(id = container_id)
if not definitions:
definition_container = DefinitionContainer(container_id)
definition_container.deserialize(archive.open(definition_container_file).read().decode("utf-8"))
self._container_registry.addContainer(definition_container)
Job.yieldThread()
Logger.log("d", "Workspace loading is checking materials...")
material_containers = []
# Get all the material files and check if they exist. If not, add them.
xml_material_profile = self._getXmlProfileClass()
if self._material_container_suffix is None:
self._material_container_suffix = ContainerRegistry.getMimeTypeForContainer(xml_material_profile).suffixes[0]
if xml_material_profile:
material_container_files = [name for name in cura_file_names if name.endswith(self._material_container_suffix)]
for material_container_file in material_container_files:
container_id = self._stripFileToId(material_container_file)
materials = self._container_registry.findInstanceContainers(id = container_id)
if not materials:
material_container = xml_material_profile(container_id)
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
containers_to_add.append(material_container)
else:
material_container = materials[0]
if not material_container.isReadOnly(): # Only create new materials if they are not read only.
if self._resolve_strategies["material"] == "override":
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
elif self._resolve_strategies["material"] == "new":
# Note that we *must* deserialize it with a new ID, as multiple containers will be
# auto created & added.
material_container = xml_material_profile(self.getNewId(container_id))
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
containers_to_add.append(material_container)
material_containers.append(material_container)
Job.yieldThread()
Logger.log("d", "Workspace loading is checking instance containers...")
# Get quality_changes and user profiles saved in the workspace
instance_container_files = [name for name in cura_file_names if name.endswith(self._instance_container_suffix)]
user_instance_containers = []
quality_and_definition_changes_instance_containers = []
for instance_container_file in instance_container_files:
container_id = self._stripFileToId(instance_container_file)
serialized = archive.open(instance_container_file).read().decode("utf-8")
# HACK! we ignore "quality" and "variant" instance containers!
parser = configparser.ConfigParser()
parser.read_string(serialized)
if not parser.has_option("metadata", "type"):
Logger.log("w", "Cannot find metadata/type in %s, ignoring it", instance_container_file)
continue
if parser.get("metadata", "type") in self._ignored_instance_container_types:
continue
instance_container = InstanceContainer(container_id)
# Deserialize InstanceContainer by converting read data from bytes to string
instance_container.deserialize(serialized)
container_type = instance_container.getMetaDataEntry("type")
Job.yieldThread()
#
# IMPORTANT:
# If an instance container (or maybe other type of container) exists, and user chooses "Create New",
# we need to rename this container and all references to it, and changing those references are VERY
# HARD.
#
if container_type in self._ignored_instance_container_types:
# Ignore certain instance container types
Logger.log("w", "Ignoring instance container [%s] with type [%s]", container_id, container_type)
continue
elif container_type == "user":
# Check if quality changes already exists.
user_containers = self._container_registry.findInstanceContainers(id = container_id)
if not user_containers:
containers_to_add.append(instance_container)
else:
if self._resolve_strategies["machine"] == "override" or self._resolve_strategies["machine"] is None:
instance_container = user_containers[0]
instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8"))
instance_container.setDirty(True)
elif self._resolve_strategies["machine"] == "new":
# The machine is going to get a spiffy new name, so ensure that the id's of user settings match.
old_extruder_id = instance_container.getMetaDataEntry("extruder", None)
if old_extruder_id:
new_extruder_id = extruder_stack_id_map[old_extruder_id]
new_id = new_extruder_id + "_current_settings"
instance_container._id = new_id
instance_container.setName(new_id)
instance_container.setMetaDataEntry("extruder", new_extruder_id)
containers_to_add.append(instance_container)
machine_id = instance_container.getMetaDataEntry("machine", None)
if machine_id:
new_machine_id = self.getNewId(machine_id)
new_id = new_machine_id + "_current_settings"
instance_container._id = new_id
instance_container.setName(new_id)
instance_container.setMetaDataEntry("machine", new_machine_id)
containers_to_add.append(instance_container)
user_instance_containers.append(instance_container)
elif container_type in ("quality_changes", "definition_changes"):
# Check if quality changes already exists.
changes_containers = self._container_registry.findInstanceContainers(id = container_id)
if not changes_containers:
# no existing containers with the same ID, so we can safely add the new one
containers_to_add.append(instance_container)
else:
# we have found existing container with the same ID, so we need to resolve according to the
# selected strategy.
if self._resolve_strategies[container_type] == "override":
instance_container = changes_containers[0]
instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8"))
instance_container.setDirty(True)
elif self._resolve_strategies[container_type] == "new":
# TODO: how should we handle the case "new" for quality_changes and definition_changes?
instance_container.setName(self._container_registry.uniqueName(instance_container.getName()))
new_changes_container_id = self.getNewId(instance_container.getId())
instance_container._id = new_changes_container_id
# TODO: we don't know the following is correct or not, need to verify
# AND REFACTOR!!!
if self._resolve_strategies["machine"] == "new":
# The machine is going to get a spiffy new name, so ensure that the id's of user settings match.
old_extruder_id = instance_container.getMetaDataEntry("extruder", None)
if old_extruder_id:
new_extruder_id = extruder_stack_id_map[old_extruder_id]
instance_container.setMetaDataEntry("extruder", new_extruder_id)
machine_id = instance_container.getMetaDataEntry("machine", None)
if machine_id:
new_machine_id = self.getNewId(machine_id)
instance_container.setMetaDataEntry("machine", new_machine_id)
containers_to_add.append(instance_container)
elif self._resolve_strategies[container_type] is None:
# The ID already exists, but nothing in the values changed, so do nothing.
pass
quality_and_definition_changes_instance_containers.append(instance_container)
else:
existing_container = self._container_registry.findInstanceContainers(id = container_id)
if not existing_container:
containers_to_add.append(instance_container)
if global_stack_need_rename:
if instance_container.getMetaDataEntry("machine"):
instance_container.setMetaDataEntry("machine", global_stack_id_new)
# Add all the containers right before we try to add / serialize the stack
for container in containers_to_add:
self._container_registry.addContainer(container)
container.setDirty(True)
containers_added.append(container)
# Get the stack(s) saved in the workspace.
Logger.log("d", "Workspace loading is checking stacks containers...")
# --
# load global stack file
try:
# Check if a stack by this ID already exists;
container_stacks = self._container_registry.findContainerStacks(id = global_stack_id_original)
if container_stacks:
stack = container_stacks[0]
if self._resolve_strategies["machine"] == "override":
# TODO: HACK
# There is a machine, check if it has authentication data. If so, keep that data.
network_authentication_id = container_stacks[0].getMetaDataEntry("network_authentication_id")
network_authentication_key = container_stacks[0].getMetaDataEntry("network_authentication_key")
container_stacks[0].deserialize(archive.open(global_stack_file).read().decode("utf-8"))
if network_authentication_id:
container_stacks[0].addMetaDataEntry("network_authentication_id", network_authentication_id)
if network_authentication_key:
container_stacks[0].addMetaDataEntry("network_authentication_key", network_authentication_key)
elif self._resolve_strategies["machine"] == "new":
stack = GlobalStack(global_stack_id_new)
stack.deserialize(archive.open(global_stack_file).read().decode("utf-8"))
# Ensure a unique ID and name
stack._id = global_stack_id_new
# Extruder stacks are "bound" to a machine. If we add the machine as a new one, the id of the
# bound machine also needs to change.
if stack.getMetaDataEntry("machine", None):
stack.setMetaDataEntry("machine", global_stack_id_new)
# Only machines need a new name, stacks may be non-unique
stack.setName(self._container_registry.uniqueName(stack.getName()))
container_stacks_added.append(stack)
self._container_registry.addContainer(stack)
else:
Logger.log("w", "Resolve strategy of %s for machine is not supported", self._resolve_strategies["machine"])
else:
# no existing container stack, so we create a new one
stack = GlobalStack(global_stack_id_new)
# Deserialize stack by converting read data from bytes to string
stack.deserialize(archive.open(global_stack_file).read().decode("utf-8"))
container_stacks_added.append(stack)
self._container_registry.addContainer(stack)
containers_added.append(stack)
global_stack = stack
Job.yieldThread()
except:
Logger.logException("w", "We failed to serialize the stack. Trying to clean up.")
# Something went really wrong. Try to remove any data that we added.
for container in containers_added:
self._container_registry.removeContainer(container.getId())
return
# --
# load extruder stack files
try:
for index, extruder_stack_file in enumerate(extruder_stack_files):
container_id = self._stripFileToId(extruder_stack_file)
extruder_file_content = archive.open(extruder_stack_file, "r").read().decode("utf-8")
container_stacks = self._container_registry.findContainerStacks(id = container_id)
if container_stacks:
# this container stack already exists, try to resolve
stack = container_stacks[0]
if self._resolve_strategies["machine"] == "override":
# NOTE: This is the same code as those in the lower part
# deserialize new extruder stack over the current ones
stack = self._overrideExtruderStack(global_stack, extruder_file_content)
elif self._resolve_strategies["machine"] == "new":
# create a new extruder stack from this one
new_id = extruder_stack_id_map[container_id]
stack = ExtruderStack(new_id)
# HACK: the global stack can have a new name, so we need to make sure that this extruder stack
# references to the new name instead of the old one. Normally, this can be done after
# deserialize() by setting the metadata, but in the case of ExtruderStack, deserialize()
# also does addExtruder() to its machine stack, so we have to make sure that it's pointing
# to the right machine BEFORE deserialization.
extruder_config = configparser.ConfigParser()
extruder_config.read_string(extruder_file_content)
extruder_config.set("metadata", "machine", global_stack_id_new)
tmp_string_io = io.StringIO()
extruder_config.write(tmp_string_io)
extruder_file_content = tmp_string_io.getvalue()
stack.deserialize(extruder_file_content)
# Ensure a unique ID and name
stack._id = new_id
self._container_registry.addContainer(stack)
extruder_stacks_added.append(stack)
containers_added.append(stack)
else:
# No extruder stack with the same ID can be found
if self._resolve_strategies["machine"] == "override":
# deserialize new extruder stack over the current ones
stack = self._overrideExtruderStack(global_stack, extruder_file_content)
elif self._resolve_strategies["machine"] == "new":
# container not found, create a new one
stack = ExtruderStack(container_id)
# HACK: the global stack can have a new name, so we need to make sure that this extruder stack
# references to the new name instead of the old one. Normally, this can be done after
# deserialize() by setting the metadata, but in the case of ExtruderStack, deserialize()
# also does addExtruder() to its machine stack, so we have to make sure that it's pointing
# to the right machine BEFORE deserialization.
extruder_config = configparser.ConfigParser()
extruder_config.read_string(extruder_file_content)
extruder_config.set("metadata", "machine", global_stack_id_new)
tmp_string_io = io.StringIO()
extruder_config.write(tmp_string_io)
extruder_file_content = tmp_string_io.getvalue()
stack.deserialize(extruder_file_content)
self._container_registry.addContainer(stack)
extruder_stacks_added.append(stack)
containers_added.append(stack)
else:
Logger.log("w", "Unknown resolve strategy: %s" % str(self._resolve_strategies["machine"]))
extruder_stacks.append(stack)
except:
Logger.logException("w", "We failed to serialize the stack. Trying to clean up.")
# Something went really wrong. Try to remove any data that we added.
for container in containers_added:
self._container_registry.removeContainer(container.getId())
return
#
# Replacing the old containers if resolve is "new".
# When resolve is "new", some containers will get renamed, so all the other containers that reference to those
# MUST get updated too.
#
if self._resolve_strategies["machine"] == "new":
# A new machine was made, but it was serialized with the wrong user container. Fix that now.
for container in user_instance_containers:
# replacing the container ID for user instance containers for the extruders
extruder_id = container.getMetaDataEntry("extruder", None)
if extruder_id:
for extruder in extruder_stacks:
if extruder.getId() == extruder_id:
extruder.userChanges = container
continue
# replacing the container ID for user instance containers for the machine
machine_id = container.getMetaDataEntry("machine", None)
if machine_id:
if global_stack.getId() == machine_id:
global_stack.userChanges = container
continue
for changes_container_type in ("quality_changes", "definition_changes"):
if self._resolve_strategies[changes_container_type] == "new":
# Quality changes needs to get a new ID, added to registry and to the right stacks
for each_changes_container in quality_and_definition_changes_instance_containers:
# NOTE: The renaming and giving new IDs are possibly redundant because they are done in the
# instance container loading part.
new_id = each_changes_container.getId()
# Find the old (current) changes container in the global stack
if changes_container_type == "quality_changes":
old_container = global_stack.qualityChanges
elif changes_container_type == "definition_changes":
old_container = global_stack.definitionChanges
# sanity checks
# NOTE: The following cases SHOULD NOT happen!!!!
if not old_container:
Logger.log("e", "We try to get [%s] from the global stack [%s] but we got None instead!",
changes_container_type, global_stack.getId())
# Replace the quality/definition changes container if it's in the GlobalStack
# NOTE: we can get an empty container here, but the IDs will not match,
# so this comparison is fine.
if self._id_mapping.get(old_container.getId()) == new_id:
if changes_container_type == "quality_changes":
global_stack.qualityChanges = each_changes_container
elif changes_container_type == "definition_changes":
global_stack.definitionChanges = each_changes_container
continue
# Replace the quality/definition changes container if it's in one of the ExtruderStacks
for each_extruder_stack in extruder_stacks:
changes_container = None
if changes_container_type == "quality_changes":
changes_container = each_extruder_stack.qualityChanges
elif changes_container_type == "definition_changes":
changes_container = each_extruder_stack.definitionChanges
# sanity checks
# NOTE: The following cases SHOULD NOT happen!!!!
if not changes_container:
Logger.log("e", "We try to get [%s] from the extruder stack [%s] but we got None instead!",
changes_container_type, each_extruder_stack.getId())
# NOTE: we can get an empty container here, but the IDs will not match,
# so this comparison is fine.
if self._id_mapping.get(changes_container.getId()) == new_id:
if changes_container_type == "quality_changes":
each_extruder_stack.qualityChanges = each_changes_container
elif changes_container_type == "definition_changes":
each_extruder_stack.definitionChanges = each_changes_container
if self._resolve_strategies["material"] == "new":
for each_material in material_containers:
old_material = global_stack.material
# check if the old material container has been renamed to this material container ID
# if the container hasn't been renamed, we do nothing.
new_id = self._id_mapping.get(old_material.getId())
if new_id is None or new_id != each_material.getId():
continue
if old_material.getId() in self._id_mapping:
global_stack.material = each_material
for each_extruder_stack in extruder_stacks:
old_material = each_extruder_stack.material
# check if the old material container has been renamed to this material container ID
# if the container hasn't been renamed, we do nothing.
new_id = self._id_mapping.get(old_material.getId())
if new_id is None or new_id != each_material.getId():
continue
if old_material.getId() in self._id_mapping:
each_extruder_stack.material = each_material
if extruder_stacks:
for stack in extruder_stacks:
ExtruderManager.getInstance().registerExtruder(stack, global_stack.getId())
else:
# Machine has no extruders, but it needs to be registered with the extruder manager.
ExtruderManager.getInstance().registerExtruder(None, global_stack.getId())
Logger.log("d", "Workspace loading is notifying rest of the code of changes...")
if self._resolve_strategies["machine"] == "new":
for stack in extruder_stacks:
stack.setNextStack(global_stack)
stack.containersChanged.emit(stack.getTop())
# Actually change the active machine.
Application.getInstance().setGlobalContainerStack(global_stack)
# Notify everything/one that is to notify about changes.
global_stack.containersChanged.emit(global_stack.getTop())
# Load all the nodes / meshdata of the workspace
nodes = self._3mf_mesh_reader.read(file_name)
if nodes is None:
nodes = []
return nodes
def read(self, file_name):
archive = zipfile.ZipFile(file_name, "r")
cura_file_names = [name for name in archive.namelist() if name.startswith("Cura/")]
# Create a shadow copy of the preferences (we don't want all of the preferences, but we do want to re-use its
# parsing code.
temp_preferences = Preferences()
temp_preferences.readFromFile(io.TextIOWrapper(archive.open("Cura/preferences.cfg"))) # We need to wrap it, else the archive parser breaks.
# Copy a number of settings from the temp preferences to the global
global_preferences = Preferences.getInstance()
visible_settings = temp_preferences.getValue("general/visible_settings")
if visible_settings is None:
Logger.log("w", "Workspace did not contain visible settings. Leaving visibility unchanged")
else:
global_preferences.setValue("general/visible_settings", visible_settings)
categories_expanded = temp_preferences.getValue("cura/categories_expanded")
if categories_expanded is None:
Logger.log("w", "Workspace did not contain expanded categories. Leaving them unchanged")
else:
global_preferences.setValue("cura/categories_expanded", categories_expanded)
Application.getInstance().expandedCategoriesChanged.emit() # Notify the GUI of the change
self._id_mapping = {}
# We don't add containers right away, but wait right until right before the stack serialization.
# We do this so that if something goes wrong, it's easier to clean up.
containers_to_add = []
global_stack_file, extruder_stack_files = self._determineGlobalAndExtruderStackFiles(file_name, cura_file_names)
global_stack = None
extruder_stacks = []
extruder_stacks_added = []
container_stacks_added = []
containers_added = []
global_stack_id_original = self._stripFileToId(global_stack_file)
global_stack_id_new = global_stack_id_original
global_stack_need_rename = False
extruder_stack_id_map = {} # new and old ExtruderStack IDs map
if self._resolve_strategies["machine"] == "new":
# We need a new id if the id already exists
if self._container_registry.findContainerStacks(id = global_stack_id_original):
global_stack_id_new = self.getNewId(global_stack_id_original)
global_stack_need_rename = True
for each_extruder_stack_file in extruder_stack_files:
old_container_id = self._stripFileToId(each_extruder_stack_file)
new_container_id = old_container_id
if self._container_registry.findContainerStacks(id = old_container_id):
# get a new name for this extruder
new_container_id = self.getNewId(old_container_id)
extruder_stack_id_map[old_container_id] = new_container_id
# TODO: For the moment we use pretty naive existence checking. If the ID is the same, we assume in quite a few
# TODO: cases that the container loaded is the same (most notable in materials & definitions).
# TODO: It might be possible that we need to add smarter checking in the future.
Logger.log("d", "Workspace loading is checking definitions...")
# Get all the definition files & check if they exist. If not, add them.
definition_container_files = [name for name in cura_file_names if name.endswith(self._definition_container_suffix)]
for definition_container_file in definition_container_files:
container_id = self._stripFileToId(definition_container_file)
definitions = self._container_registry.findDefinitionContainers(id = container_id)
if not definitions:
definition_container = DefinitionContainer(container_id)
definition_container.deserialize(archive.open(definition_container_file).read().decode("utf-8"))
self._container_registry.addContainer(definition_container)
Job.yieldThread()
Logger.log("d", "Workspace loading is checking materials...")
material_containers = []
# Get all the material files and check if they exist. If not, add them.
xml_material_profile = self._getXmlProfileClass()
if self._material_container_suffix is None:
self._material_container_suffix = ContainerRegistry.getMimeTypeForContainer(xml_material_profile).suffixes[0]
if xml_material_profile:
material_container_files = [name for name in cura_file_names if name.endswith(self._material_container_suffix)]
for material_container_file in material_container_files:
container_id = self._stripFileToId(material_container_file)
materials = self._container_registry.findInstanceContainers(id = container_id)
if not materials:
material_container = xml_material_profile(container_id)
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
containers_to_add.append(material_container)
else:
material_container = materials[0]
if not material_container.isReadOnly(): # Only create new materials if they are not read only.
if self._resolve_strategies["material"] == "override":
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
elif self._resolve_strategies["material"] == "new":
# Note that we *must* deserialize it with a new ID, as multiple containers will be
# auto created & added.
material_container = xml_material_profile(self.getNewId(container_id))
material_container.deserialize(archive.open(material_container_file).read().decode("utf-8"))
containers_to_add.append(material_container)
material_containers.append(material_container)
Job.yieldThread()
Logger.log("d", "Workspace loading is checking instance containers...")
# Get quality_changes and user profiles saved in the workspace
instance_container_files = [name for name in cura_file_names if name.endswith(self._instance_container_suffix)]
user_instance_containers = []
quality_and_definition_changes_instance_containers = []
for instance_container_file in instance_container_files:
container_id = self._stripFileToId(instance_container_file)
serialized = archive.open(instance_container_file).read().decode("utf-8")
# HACK! we ignore "quality" and "variant" instance containers!
parser = configparser.ConfigParser()
parser.read_string(serialized)
if not parser.has_option("metadata", "type"):
Logger.log("w", "Cannot find metadata/type in %s, ignoring it", instance_container_file)
continue
if parser.get("metadata", "type") in self._ignored_instance_container_types:
continue
instance_container = InstanceContainer(container_id)
# Deserialize InstanceContainer by converting read data from bytes to string
instance_container.deserialize(serialized)
container_type = instance_container.getMetaDataEntry("type")
Job.yieldThread()
#
# IMPORTANT:
# If an instance container (or maybe other type of container) exists, and user chooses "Create New",
# we need to rename this container and all references to it, and changing those references are VERY
# HARD.
#
if container_type in self._ignored_instance_container_types:
# Ignore certain instance container types
Logger.log("w", "Ignoring instance container [%s] with type [%s]", container_id, container_type)
continue
elif container_type == "user":
# Check if quality changes already exists.
user_containers = self._container_registry.findInstanceContainers(id = container_id)
if not user_containers:
containers_to_add.append(instance_container)
else:
if self._resolve_strategies["machine"] == "override" or self._resolve_strategies["machine"] is None:
instance_container = user_containers[0]
instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8"))
instance_container.setDirty(True)
elif self._resolve_strategies["machine"] == "new":
# The machine is going to get a spiffy new name, so ensure that the id's of user settings match.
old_extruder_id = instance_container.getMetaDataEntry("extruder", None)
if old_extruder_id:
new_extruder_id = extruder_stack_id_map[old_extruder_id]
new_id = new_extruder_id + "_current_settings"
instance_container._id = new_id
instance_container.setName(new_id)
instance_container.setMetaDataEntry("extruder", new_extruder_id)
containers_to_add.append(instance_container)
machine_id = instance_container.getMetaDataEntry("machine", None)
if machine_id:
new_machine_id = self.getNewId(machine_id)
new_id = new_machine_id + "_current_settings"
instance_container._id = new_id
instance_container.setName(new_id)
instance_container.setMetaDataEntry("machine", new_machine_id)
containers_to_add.append(instance_container)
user_instance_containers.append(instance_container)
elif container_type in ("quality_changes", "definition_changes"):
# Check if quality changes already exists.
changes_containers = self._container_registry.findInstanceContainers(id = container_id)
if not changes_containers:
# no existing containers with the same ID, so we can safely add the new one
containers_to_add.append(instance_container)
else:
# we have found existing container with the same ID, so we need to resolve according to the
# selected strategy.
if self._resolve_strategies[container_type] == "override":
instance_container = changes_containers[0]
instance_container.deserialize(archive.open(instance_container_file).read().decode("utf-8"))
instance_container.setDirty(True)
elif self._resolve_strategies[container_type] == "new":
# TODO: how should we handle the case "new" for quality_changes and definition_changes?
instance_container.setName(self._container_registry.uniqueName(instance_container.getName()))
new_changes_container_id = self.getNewId(instance_container.getId())
instance_container._id = new_changes_container_id
# TODO: we don't know the following is correct or not, need to verify
# AND REFACTOR!!!
if self._resolve_strategies["machine"] == "new":
# The machine is going to get a spiffy new name, so ensure that the id's of user settings match.
old_extruder_id = instance_container.getMetaDataEntry("extruder", None)
if old_extruder_id:
new_extruder_id = extruder_stack_id_map[old_extruder_id]
instance_container.setMetaDataEntry("extruder", new_extruder_id)
machine_id = instance_container.getMetaDataEntry("machine", None)
if machine_id:
new_machine_id = self.getNewId(machine_id)
instance_container.setMetaDataEntry("machine", new_machine_id)
containers_to_add.append(instance_container)
elif self._resolve_strategies[container_type] is None:
# The ID already exists, but nothing in the values changed, so do nothing.
pass
quality_and_definition_changes_instance_containers.append(instance_container)
else:
existing_container = self._container_registry.findInstanceContainers(id = container_id)
if not existing_container:
containers_to_add.append(instance_container)
if global_stack_need_rename:
if instance_container.getMetaDataEntry("machine"):
instance_container.setMetaDataEntry("machine", global_stack_id_new)
# Add all the containers right before we try to add / serialize the stack
for container in containers_to_add:
self._container_registry.addContainer(container)
container.setDirty(True)
containers_added.append(container)
# Get the stack(s) saved in the workspace.
Logger.log("d", "Workspace loading is checking stacks containers...")
# --
# load global stack file
try:
if self._resolve_strategies["machine"] == "override":
container_stacks = self._container_registry.findContainerStacks(id = global_stack_id_original)
stack = container_stacks[0]
# HACK
# There is a machine, check if it has authentication data. If so, keep that data.
network_authentication_id = container_stacks[0].getMetaDataEntry("network_authentication_id")
network_authentication_key = container_stacks[0].getMetaDataEntry("network_authentication_key")
container_stacks[0].deserialize(archive.open(global_stack_file).read().decode("utf-8"))
if network_authentication_id:
container_stacks[0].addMetaDataEntry("network_authentication_id", network_authentication_id)
if network_authentication_key:
container_stacks[0].addMetaDataEntry("network_authentication_key", network_authentication_key)
elif self._resolve_strategies["machine"] == "new":
# create a new global stack
stack = GlobalStack(global_stack_id_new)
# Deserialize stack by converting read data from bytes to string
stack.deserialize(archive.open(global_stack_file).read().decode("utf-8"))
# Ensure a unique ID and name
stack._id = global_stack_id_new
# Extruder stacks are "bound" to a machine. If we add the machine as a new one, the id of the
# bound machine also needs to change.
if stack.getMetaDataEntry("machine", None):
stack.setMetaDataEntry("machine", global_stack_id_new)
# Only machines need a new name, stacks may be non-unique
stack.setName(global_stack_id_new)
container_stacks_added.append(stack)
self._container_registry.addContainer(stack)
containers_added.append(stack)
else:
Logger.log("e", "Resolve strategy of %s for machine is not supported",
self._resolve_strategies["machine"])
global_stack = stack
Job.yieldThread()
except:
Logger.logException("w", "We failed to serialize the stack. Trying to clean up.")
# Something went really wrong. Try to remove any data that we added.
for container in containers_added:
self._container_registry.removeContainer(container.getId())
return
# --
# load extruder stack files
try:
for extruder_stack_file in extruder_stack_files:
container_id = self._stripFileToId(extruder_stack_file)
extruder_file_content = archive.open(extruder_stack_file, "r").read().decode("utf-8")
if self._resolve_strategies["machine"] == "override":
# deserialize new extruder stack over the current ones
stack = self._overrideExtruderStack(global_stack, extruder_file_content)
elif self._resolve_strategies["machine"] == "new":
new_id = extruder_stack_id_map[container_id]
stack = ExtruderStack(new_id)
# HACK: the global stack can have a new name, so we need to make sure that this extruder stack
# references to the new name instead of the old one. Normally, this can be done after
# deserialize() by setting the metadata, but in the case of ExtruderStack, deserialize()
# also does addExtruder() to its machine stack, so we have to make sure that it's pointing
# to the right machine BEFORE deserialization.
extruder_config = configparser.ConfigParser()
extruder_config.read_string(extruder_file_content)
extruder_config.set("metadata", "machine", global_stack_id_new)
tmp_string_io = io.StringIO()
extruder_config.write(tmp_string_io)
extruder_file_content = tmp_string_io.getvalue()
stack.deserialize(extruder_file_content)
# Ensure a unique ID and name
stack._id = new_id
self._container_registry.addContainer(stack)
extruder_stacks_added.append(stack)
containers_added.append(stack)
else:
Logger.log("w", "Unknown resolve strategy: %s", self._resolve_strategies["machine"])
extruder_stacks.append(stack)
except:
Logger.logException("w", "We failed to serialize the stack. Trying to clean up.")
# Something went really wrong. Try to remove any data that we added.
for container in containers_added:
self._container_registry.removeContainer(container.getId())
return
#
# Replacing the old containers if resolve is "new".
# When resolve is "new", some containers will get renamed, so all the other containers that reference to those
# MUST get updated too.
#
if self._resolve_strategies["machine"] == "new":
# A new machine was made, but it was serialized with the wrong user container. Fix that now.
for container in user_instance_containers:
# replacing the container ID for user instance containers for the extruders
extruder_id = container.getMetaDataEntry("extruder", None)
if extruder_id:
for extruder in extruder_stacks:
if extruder.getId() == extruder_id:
extruder.userChanges = container
continue
# replacing the container ID for user instance containers for the machine
machine_id = container.getMetaDataEntry("machine", None)
if machine_id:
if global_stack.getId() == machine_id:
global_stack.userChanges = container
continue
for changes_container_type in ("quality_changes", "definition_changes"):
if self._resolve_strategies[changes_container_type] == "new":
# Quality changes needs to get a new ID, added to registry and to the right stacks
for each_changes_container in quality_and_definition_changes_instance_containers:
# NOTE: The renaming and giving new IDs are possibly redundant because they are done in the
# instance container loading part.
new_id = each_changes_container.getId()
# Find the old (current) changes container in the global stack
if changes_container_type == "quality_changes":
old_container = global_stack.qualityChanges
elif changes_container_type == "definition_changes":
old_container = global_stack.definitionChanges
# sanity checks
# NOTE: The following cases SHOULD NOT happen!!!!
if not old_container:
Logger.log("e", "We try to get [%s] from the global stack [%s] but we got None instead!",
changes_container_type, global_stack.getId())
# Replace the quality/definition changes container if it's in the GlobalStack
# NOTE: we can get an empty container here, but the IDs will not match,
# so this comparison is fine.
if self._id_mapping.get(old_container.getId()) == new_id:
if changes_container_type == "quality_changes":
global_stack.qualityChanges = each_changes_container
elif changes_container_type == "definition_changes":
global_stack.definitionChanges = each_changes_container
continue
# Replace the quality/definition changes container if it's in one of the ExtruderStacks
for each_extruder_stack in extruder_stacks:
changes_container = None
if changes_container_type == "quality_changes":
changes_container = each_extruder_stack.qualityChanges
elif changes_container_type == "definition_changes":
changes_container = each_extruder_stack.definitionChanges
# sanity checks
# NOTE: The following cases SHOULD NOT happen!!!!
if not changes_container:
Logger.log("e", "We try to get [%s] from the extruder stack [%s] but we got None instead!",
changes_container_type, each_extruder_stack.getId())
# NOTE: we can get an empty container here, but the IDs will not match,
# so this comparison is fine.
if self._id_mapping.get(changes_container.getId()) == new_id:
if changes_container_type == "quality_changes":
each_extruder_stack.qualityChanges = each_changes_container
elif changes_container_type == "definition_changes":
each_extruder_stack.definitionChanges = each_changes_container
if self._resolve_strategies["material"] == "new":
for each_material in material_containers:
old_material = global_stack.material
# check if the old material container has been renamed to this material container ID
# if the container hasn't been renamed, we do nothing.
new_id = self._id_mapping.get(old_material.getId())
if new_id is None or new_id != each_material.getId():
continue
if old_material.getId() in self._id_mapping:
global_stack.material = each_material
for each_extruder_stack in extruder_stacks:
old_material = each_extruder_stack.material
# check if the old material container has been renamed to this material container ID
# if the container hasn't been renamed, we do nothing.
new_id = self._id_mapping.get(old_material.getId())
if new_id is None or new_id != each_material.getId():
continue
if old_material.getId() in self._id_mapping:
each_extruder_stack.material = each_material
if extruder_stacks:
for stack in extruder_stacks:
ExtruderManager.getInstance().registerExtruder(stack, global_stack.getId())
else:
# Machine has no extruders, but it needs to be registered with the extruder manager.
ExtruderManager.getInstance().registerExtruder(None, global_stack.getId())
Logger.log("d", "Workspace loading is notifying rest of the code of changes...")
if self._resolve_strategies["machine"] == "new":
for stack in extruder_stacks:
stack.setNextStack(global_stack)
stack.containersChanged.emit(stack.getTop())
# Actually change the active machine.
Application.getInstance().setGlobalContainerStack(global_stack)
# Notify everything/one that is to notify about changes.
global_stack.containersChanged.emit(global_stack.getTop())
# Load all the nodes / meshdata of the workspace
nodes = self._3mf_mesh_reader.read(file_name)
if nodes is None:
nodes = []
return nodes
def read(self, file_name):
"""Reads a legacy Cura profile from a file and returns it.
:param file_name: The file to read the legacy Cura profile from.
:return: The legacy Cura profile that was in the file, if any. If the
file could not be read or didn't contain a valid profile, None is returned.
"""
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")
input_parser = configparser.ConfigParser(interpolation = None)
try:
input_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 input_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(input_parser, section, defaults) #Gets the settings from the legacy profile.
# Serialised format into version 4.5. Do NOT upgrade this, let the version upgrader handle it.
output_parser = configparser.ConfigParser(interpolation = None)
output_parser.add_section("general")
output_parser.add_section("metadata")
output_parser.add_section("values")
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()
output_parser["general"]["definition"] = 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.
output_parser["values"][new_setting] = str(new_value) # Store the setting in the profile!
if len(output_parser["values"]) == 0:
Logger.log("i", "A legacy profile was imported but everything evaluates to the defaults, creating an empty profile.")
output_parser["general"]["version"] = "4"
output_parser["general"]["name"] = profile_id
output_parser["metadata"]["type"] = "quality_changes"
output_parser["metadata"]["quality_type"] = "normal" # Don't know what quality_type it is based on, so use "normal" by default.
output_parser["metadata"]["position"] = "0" # We only support single extrusion.
output_parser["metadata"]["setting_version"] = "5" # What the dictionary of doom is made for.
# Serialise in order to perform the version upgrade.
stream = io.StringIO()
output_parser.write(stream)
data = stream.getvalue()
profile = InstanceContainer(profile_id)
profile.deserialize(data, file_name) # Also performs the version upgrade.
profile.setDirty(True)
#We need to return one extruder stack and one global stack.
global_container_id = container_registry.uniqueName("Global Imported Legacy Profile")
# We duplicate the extruder profile into the global stack.
# This may introduce some settings that are global in the extruder stack and some settings that are per-extruder in the global stack.
# We don't care about that. The engine will ignore them anyway.
global_profile = profile.duplicate(new_id = global_container_id, new_name = profile_id) #Needs to have the same name as the extruder profile.
del global_profile.getMetaData()["position"] # Has no position because it's global.
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 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 importProfile(self, file_name: str) -> Dict[str, str]:
Logger.log("d", "Attempting to import profile %s", file_name)
if not file_name:
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"Failed to import profile from <filename>{0}</filename>: {1}",
file_name, "Invalid path")
}
global_stack = Application.getInstance().getGlobalContainerStack()
if not global_stack:
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"Can't import profile from <filename>{0}</filename> before a printer is added.",
file_name)
}
machine_extruders = []
for position in sorted(global_stack.extruders):
machine_extruders.append(global_stack.extruders[position])
plugin_registry = PluginRegistry.getInstance()
extension = file_name.split(".")[-1]
for plugin_id, meta_data in self._getIOPlugins("profile_reader"):
if meta_data["profile_reader"][0]["extension"] != extension:
continue
profile_reader = cast(ProfileReader,
plugin_registry.getPluginObject(plugin_id))
try:
profile_or_list = profile_reader.read(
file_name) # Try to open the file with the profile reader.
except NoProfileException:
return {
"status":
"ok",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"No custom profile to import in file <filename>{0}</filename>",
file_name)
}
except Exception as e:
# Note that this will fail quickly. That is, if any profile reader throws an exception, it will stop reading. It will only continue reading if the reader returned None.
Logger.log(
"e",
"Failed to import profile from %s: %s while using profile reader. Got exception %s",
file_name, profile_reader.getPluginId(), str(e))
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"Failed to import profile from <filename>{0}</filename>:",
file_name) + "\n<message>" + str(e) + "</message>"
}
if profile_or_list:
# Ensure it is always a list of profiles
if not isinstance(profile_or_list, list):
profile_or_list = [profile_or_list]
# First check if this profile is suitable for this machine
global_profile = None
extruder_profiles = []
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
else:
for profile in profile_or_list:
if not profile.getMetaDataEntry("position"):
global_profile = profile
else:
extruder_profiles.append(profile)
extruder_profiles = sorted(
extruder_profiles,
key=lambda x: int(x.getMetaDataEntry("position")))
profile_or_list = [global_profile] + extruder_profiles
if not global_profile:
Logger.log(
"e",
"Incorrect profile [%s]. Could not find global profile",
file_name)
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"This profile <filename>{0}</filename> contains incorrect data, could not import it.",
file_name)
}
profile_definition = global_profile.getMetaDataEntry(
"definition")
# Make sure we have a profile_definition in the file:
if profile_definition is None:
break
machine_definitions = self.findDefinitionContainers(
id=profile_definition)
if not machine_definitions:
Logger.log(
"e",
"Incorrect profile [%s]. Unknown machine type [%s]",
file_name, profile_definition)
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"This profile <filename>{0}</filename> contains incorrect data, could not import it.",
file_name)
}
machine_definition = machine_definitions[0]
# Get the expected machine definition.
# i.e.: We expect gcode for a UM2 Extended to be defined as normal UM2 gcode...
profile_definition = getMachineDefinitionIDForQualitySearch(
machine_definition)
expected_machine_definition = getMachineDefinitionIDForQualitySearch(
global_stack.definition)
# And check if the profile_definition matches either one (showing error if not):
if profile_definition != expected_machine_definition:
Logger.log(
"e",
"Profile [%s] is for machine [%s] but the current active machine is [%s]. Will not import the profile",
file_name, profile_definition,
expected_machine_definition)
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename>!",
"The machine defined in profile <filename>{0}</filename> ({1}) doesn't match with your current machine ({2}), could not import it.",
file_name, profile_definition,
expected_machine_definition)
}
# Fix the global quality profile's definition field in case it's not correct
global_profile.setMetaDataEntry("definition",
expected_machine_definition)
quality_name = global_profile.getName()
quality_type = global_profile.getMetaDataEntry("quality_type")
name_seed = os.path.splitext(os.path.basename(file_name))[0]
new_name = self.uniqueName(name_seed)
# Ensure it is always a list of profiles
if type(profile_or_list) is not list:
profile_or_list = [profile_or_list]
# Make sure that there are also extruder stacks' quality_changes, not just one for the global stack
if len(profile_or_list) == 1:
global_profile = profile_or_list[0]
extruder_profiles = []
for idx, extruder in enumerate(
global_stack.extruders.values()):
profile_id = ContainerRegistry.getInstance(
).uniqueName(global_stack.getId() + "_extruder_" +
str(idx + 1))
profile = InstanceContainer(profile_id)
profile.setName(quality_name)
profile.setMetaDataEntry(
"setting_version", cura.CuraApplication.
CuraApplication.SettingVersion)
profile.setMetaDataEntry("type", "quality_changes")
profile.setMetaDataEntry("definition",
expected_machine_definition)
profile.setMetaDataEntry("quality_type", quality_type)
profile.setMetaDataEntry("position", "0")
profile.setDirty(True)
if idx == 0:
# Move all per-extruder settings to the first extruder's quality_changes
for qc_setting_key in global_profile.getAllKeys():
settable_per_extruder = global_stack.getProperty(
qc_setting_key, "settable_per_extruder")
if settable_per_extruder:
setting_value = global_profile.getProperty(
qc_setting_key, "value")
setting_definition = global_stack.getSettingDefinition(
qc_setting_key)
if setting_definition is not None:
new_instance = SettingInstance(
setting_definition, profile)
new_instance.setProperty(
"value", setting_value)
new_instance.resetState(
) # Ensure that the state is not seen as a user state.
profile.addInstance(new_instance)
profile.setDirty(True)
global_profile.removeInstance(
qc_setting_key, postpone_emit=True)
extruder_profiles.append(profile)
for profile in extruder_profiles:
profile_or_list.append(profile)
# Import all profiles
for profile_index, profile in enumerate(profile_or_list):
if profile_index == 0:
# This is assumed to be the global profile
profile_id = (cast(ContainerInterface,
global_stack.getBottom()).getId() +
"_" + name_seed).lower().replace(
" ", "_")
elif profile_index < len(machine_extruders) + 1:
# This is assumed to be an extruder profile
extruder_id = machine_extruders[profile_index -
1].definition.getId()
extruder_position = str(profile_index - 1)
if not profile.getMetaDataEntry("position"):
profile.setMetaDataEntry("position",
extruder_position)
else:
profile.setMetaDataEntry("position",
extruder_position)
profile_id = (extruder_id + "_" +
name_seed).lower().replace(" ", "_")
else: # More extruders in the imported file than in the machine.
continue # Delete the additional profiles.
result = self._configureProfile(
profile, profile_id, new_name,
expected_machine_definition)
if result is not None:
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status Don't translate the XML tags <filename> or <message>!",
"Failed to import profile from <filename>{0}</filename>:",
file_name) + " <message>" + result +
"</message>"
}
return {
"status":
"ok",
"message":
catalog.i18nc("@info:status",
"Successfully imported profile {0}",
profile_or_list[0].getName())
}
# This message is throw when the profile reader doesn't find any profile in the file
return {
"status":
"error",
"message":
catalog.i18nc("@info:status",
"File {0} does not contain any valid profile.",
file_name)
}
# If it hasn't returned by now, none of the plugins loaded the profile successfully.
return {
"status":
"error",
"message":
catalog.i18nc(
"@info:status",
"Profile {0} has an unknown file type or is corrupted.",
file_name)
}
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 = 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 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"))
from cura.CuraApplication import CuraApplication
# create a new definition_changes container for the extruder stack
definition_changes_id = self.uniqueName(extruder_stack.getId() +
"_settings")
definition_changes_name = definition_changes_id
definition_changes = InstanceContainer(definition_changes_id)
definition_changes.setName(definition_changes_name)
definition_changes.addMetaDataEntry("setting_version",
CuraApplication.SettingVersion)
definition_changes.addMetaDataEntry("type", "definition_changes")
definition_changes.addMetaDataEntry("definition",
extruder_definition.getId())
# move definition_changes settings if exist
for setting_key in definition_changes.getAllKeys():
if machine.definition.getProperty(setting_key,
"settable_per_extruder"):
setting_value = machine.definitionChanges.getProperty(
setting_key, "value")
if setting_value is not None:
# move it to the extruder stack's definition_changes
setting_definition = machine.getSettingDefinition(
setting_key)
new_instance = SettingInstance(setting_definition,
definition_changes)
new_instance.setProperty("value", setting_value)
new_instance.resetState(
) # Ensure that the state is not seen as a user state.
definition_changes.addInstance(new_instance)
definition_changes.setDirty(True)
machine.definitionChanges.removeInstance(
setting_key, postpone_emit=True)
self.addContainer(definition_changes)
extruder_stack.setDefinitionChanges(definition_changes)
# create empty user changes container otherwise
user_container_id = self.uniqueName(extruder_stack.getId() + "_user")
user_container_name = user_container_id
user_container = InstanceContainer(user_container_id)
user_container.setName(user_container_name)
user_container.addMetaDataEntry("type", "user")
user_container.addMetaDataEntry("machine", extruder_stack.getId())
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:
setting_value = machine.getProperty(
user_setting_key, "value")
setting_definition = machine.getSettingDefinition(
user_setting_key)
new_instance = SettingInstance(setting_definition,
definition_changes)
new_instance.setProperty("value", setting_value)
new_instance.resetState(
) # Ensure that the state is not seen as a user state.
user_container.addInstance(new_instance)
user_container.setDirty(True)
machine.userChanges.removeInstance(user_setting_key,
postpone_emit=True)
self.addContainer(user_container)
extruder_stack.setUserChanges(user_container)
variant_id = "default"
if machine.variant.getId() not in ("empty", "empty_variant"):
variant_id = machine.variant.getId()
else:
variant_id = "empty_variant"
extruder_stack.setVariantById(variant_id)
material_id = "default"
if machine.material.getId() not in ("empty", "empty_material"):
material_id = machine.material.getId()
else:
material_id = "empty_material"
extruder_stack.setMaterialById(material_id)
quality_id = "default"
if machine.quality.getId() not in ("empty", "empty_quality"):
quality_id = machine.quality.getId()
else:
quality_id = "empty_quality"
extruder_stack.setQualityById(quality_id)
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
