# Copyright (c) 2018 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. from PyQt6.QtCore import pyqtProperty, QObject, pyqtSignal from typing import List MYPY = False if MYPY: from cura.PrinterOutput.Models.ExtruderConfigurationModel import ExtruderConfigurationModel class PrinterConfigurationModel(QObject): configurationChanged = pyqtSignal() def __init__(self) -> None: super().__init__() self._printer_type = "" self._extruder_configurations = [] # type: List[ExtruderConfigurationModel] self._buildplate_configuration = "" def setPrinterType(self, printer_type: str) -> None: self._printer_type = printer_type @pyqtProperty(str, fset = setPrinterType, notify = configurationChanged) def printerType(self) -> str: return self._printer_type def setExtruderConfigurations(self, extruder_configurations: List["ExtruderConfigurationModel"]) -> None: if self._extruder_configurations != extruder_configurations: self._extruder_configurations = extruder_configurations for extruder_configuration in self._extruder_configurations: extruder_configuration.extruderConfigurationChanged.connect(self.configurationChanged) self.configurationChanged.emit() @pyqtProperty("QVariantList", fset = setExtruderConfigurations, notify = configurationChanged) def extruderConfigurations(self): return self._extruder_configurations def setBuildplateConfiguration(self, buildplate_configuration: str) -> None: if self._buildplate_configuration != buildplate_configuration: self._buildplate_configuration = buildplate_configuration self.configurationChanged.emit() @pyqtProperty(str, fset = setBuildplateConfiguration, notify = configurationChanged) def buildplateConfiguration(self) -> str: return self._buildplate_configuration def isValid(self) -> bool: """This method is intended to indicate whether the configuration is valid or not. The method checks if the mandatory fields are or not set """ if not self._extruder_configurations: return False for configuration in self._extruder_configurations: if configuration is None: return False return self._printer_type != "" def hasAnyMaterialLoaded(self) -> bool: if not self.isValid(): return False for configuration in self._extruder_configurations: if configuration.activeMaterial and configuration.activeMaterial.type != "empty": return True return False def __str__(self): message_chunks = [] message_chunks.append("Printer type: " + self._printer_type) message_chunks.append("Extruders: [") for configuration in self._extruder_configurations: message_chunks.append(" " + str(configuration)) message_chunks.append("]") if self._buildplate_configuration is not None: message_chunks.append("Buildplate: " + self._buildplate_configuration) return "\n".join(message_chunks) def __eq__(self, other): if not isinstance(other, PrinterConfigurationModel): return False if self.printerType != other.printerType: return False if self.buildplateConfiguration != other.buildplateConfiguration: return False if len(self.extruderConfigurations) != len(other.extruderConfigurations): return False for self_extruder, other_extruder in zip(sorted(self._extruder_configurations, key=lambda x: x.position), sorted(other.extruderConfigurations, key=lambda x: x.position)): if self_extruder != other_extruder: return False return True def __hash__(self): """The hash function is used to compare and create unique sets. The configuration is unique if the configuration of the extruders is unique (the order of the extruders matters), and the type and buildplate is the same. """ extruder_hash = hash(0) first_extruder = None for configuration in self._extruder_configurations: extruder_hash ^= hash(configuration) if configuration.position == 0: first_extruder = configuration # To ensure the correct order of the extruders, we add an "and" operation using the first extruder hash value if first_extruder: extruder_hash &= hash(first_extruder) return hash(self._printer_type) ^ extruder_hash ^ hash(self._buildplate_configuration)