# Copyright (c) 2019 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. from PyQt5.QtCore import pyqtSignal, pyqtProperty, QObject, QVariant, pyqtSlot, QUrl from typing import List, Dict, Optional, TYPE_CHECKING from UM.Math.Vector import Vector from cura.PrinterOutput.Peripheral import Peripheral from cura.PrinterOutput.Models.PrinterConfigurationModel import PrinterConfigurationModel from cura.PrinterOutput.Models.ExtruderOutputModel import ExtruderOutputModel from UM.Logger import Logger if TYPE_CHECKING: from cura.PrinterOutput.Models.PrintJobOutputModel import PrintJobOutputModel from cura.PrinterOutput.PrinterOutputController import PrinterOutputController class PrinterOutputModel(QObject): bedTemperatureChanged = pyqtSignal() targetBedTemperatureChanged = pyqtSignal() isPreheatingChanged = pyqtSignal() stateChanged = pyqtSignal() activePrintJobChanged = pyqtSignal() nameChanged = pyqtSignal() headPositionChanged = pyqtSignal() keyChanged = pyqtSignal() typeChanged = pyqtSignal() buildplateChanged = pyqtSignal() cameraUrlChanged = pyqtSignal() configurationChanged = pyqtSignal() canUpdateFirmwareChanged = pyqtSignal() def __init__(self, output_controller: "PrinterOutputController", number_of_extruders: int = 1, parent=None, firmware_version = "") -> None: super().__init__(parent) self._bed_temperature = -1 # type: float # Use -1 for no heated bed. self._target_bed_temperature = 0 # type: float self._name = "" self._key = "" # Unique identifier self._controller = output_controller self._controller.canUpdateFirmwareChanged.connect(self._onControllerCanUpdateFirmwareChanged) self._extruders = [ExtruderOutputModel(printer = self, position = i) for i in range(number_of_extruders)] self._active_printer_configuration = PrinterConfigurationModel() # Indicates the current configuration setup in this printer self._head_position = Vector(0, 0, 0) self._active_print_job = None # type: Optional[PrintJobOutputModel] self._firmware_version = firmware_version self._printer_state = "unknown" self._is_preheating = False self._printer_type = "" self._buildplate = "" self._peripherals = [] # type: List[Peripheral] self._active_printer_configuration.extruderConfigurations = [extruder.extruderConfiguration for extruder in self._extruders] self._active_printer_configuration.configurationChanged.connect(self.configurationChanged) self._available_printer_configurations = [] # type: List[PrinterConfigurationModel] self._camera_url = QUrl() # type: QUrl @pyqtProperty(str, constant = True) def firmwareVersion(self) -> str: return self._firmware_version def setCameraUrl(self, camera_url: "QUrl") -> None: if self._camera_url != camera_url: self._camera_url = camera_url self.cameraUrlChanged.emit() @pyqtProperty(QUrl, fset = setCameraUrl, notify = cameraUrlChanged) def cameraUrl(self) -> "QUrl": return self._camera_url def updateIsPreheating(self, pre_heating: bool) -> None: if self._is_preheating != pre_heating: self._is_preheating = pre_heating self.isPreheatingChanged.emit() @pyqtProperty(bool, notify=isPreheatingChanged) def isPreheating(self) -> bool: return self._is_preheating @pyqtProperty(str, notify = typeChanged) def type(self) -> str: return self._printer_type def updateType(self, printer_type: str) -> None: if self._printer_type != printer_type: self._printer_type = printer_type self._active_printer_configuration.printerType = self._printer_type self.typeChanged.emit() self.configurationChanged.emit() @pyqtProperty(str, notify = buildplateChanged) def buildplate(self) -> str: return self._buildplate def updateBuildplate(self, buildplate: str) -> None: if self._buildplate != buildplate: self._buildplate = buildplate self._active_printer_configuration.buildplateConfiguration = self._buildplate self.buildplateChanged.emit() self.configurationChanged.emit() @pyqtProperty(str, notify=keyChanged) def key(self) -> str: return self._key def updateKey(self, key: str) -> None: if self._key != key: self._key = key self.keyChanged.emit() @pyqtSlot() def homeHead(self) -> None: self._controller.homeHead(self) @pyqtSlot() def homeBed(self) -> None: self._controller.homeBed(self) @pyqtSlot(str) def sendRawCommand(self, command: str) -> None: self._controller.sendRawCommand(self, command) @pyqtProperty("QVariantList", constant = True) def extruders(self) -> List["ExtruderOutputModel"]: return self._extruders @pyqtProperty(QVariant, notify = headPositionChanged) def headPosition(self) -> Dict[str, float]: return {"x": self._head_position.x, "y": self._head_position.y, "z": self.head_position.z} def updateHeadPosition(self, x: float, y: float, z: float) -> None: if self._head_position.x != x or self._head_position.y != y or self._head_position.z != z: self._head_position = Vector(x, y, z) self.headPositionChanged.emit() @pyqtProperty(float, float, float) @pyqtProperty(float, float, float, float) def setHeadPosition(self, x: float, y: float, z: float, speed: float = 3000) -> None: self.updateHeadPosition(x, y, z) self._controller.setHeadPosition(self, x, y, z, speed) @pyqtProperty(float) @pyqtProperty(float, float) def setHeadX(self, x: float, speed: float = 3000) -> None: self.updateHeadPosition(x, self._head_position.y, self._head_position.z) self._controller.setHeadPosition(self, x, self._head_position.y, self._head_position.z, speed) @pyqtProperty(float) @pyqtProperty(float, float) def setHeadY(self, y: float, speed: float = 3000) -> None: self.updateHeadPosition(self._head_position.x, y, self._head_position.z) self._controller.setHeadPosition(self, self._head_position.x, y, self._head_position.z, speed) @pyqtProperty(float) @pyqtProperty(float, float) def setHeadZ(self, z: float, speed:float = 3000) -> None: self.updateHeadPosition(self._head_position.x, self._head_position.y, z) self._controller.setHeadPosition(self, self._head_position.x, self._head_position.y, z, speed) @pyqtSlot(float, float, float) @pyqtSlot(float, float, float, float) def moveHead(self, x: float = 0, y: float = 0, z: float = 0, speed: float = 3000) -> None: self._controller.moveHead(self, x, y, z, speed) ## Pre-heats the heated bed of the printer. # # \param temperature The temperature to heat the bed to, in degrees # Celsius. # \param duration How long the bed should stay warm, in seconds. @pyqtSlot(float, float) def preheatBed(self, temperature: float, duration: float) -> None: self._controller.preheatBed(self, temperature, duration) @pyqtSlot() def cancelPreheatBed(self) -> None: self._controller.cancelPreheatBed(self) def getController(self) -> "PrinterOutputController": return self._controller @pyqtProperty(str, notify = nameChanged) def name(self) -> str: return self._name def setName(self, name: str) -> None: self.updateName(name) def updateName(self, name: str) -> None: if self._name != name: self._name = name self.nameChanged.emit() ## Update the bed temperature. This only changes it locally. def updateBedTemperature(self, temperature: float) -> None: if self._bed_temperature != temperature: self._bed_temperature = temperature self.bedTemperatureChanged.emit() def updateTargetBedTemperature(self, temperature: float) -> None: if self._target_bed_temperature != temperature: self._target_bed_temperature = temperature self.targetBedTemperatureChanged.emit() ## Set the target bed temperature. This ensures that it's actually sent to the remote. @pyqtSlot(float) def setTargetBedTemperature(self, temperature: float) -> None: self._controller.setTargetBedTemperature(self, temperature) self.updateTargetBedTemperature(temperature) def updateActivePrintJob(self, print_job: Optional["PrintJobOutputModel"]) -> None: if self._active_print_job != print_job: old_print_job = self._active_print_job if print_job is not None: print_job.updateAssignedPrinter(self) self._active_print_job = print_job if old_print_job is not None: old_print_job.updateAssignedPrinter(None) self.activePrintJobChanged.emit() def updateState(self, printer_state: str) -> None: if self._printer_state != printer_state: self._printer_state = printer_state self.stateChanged.emit() @pyqtProperty(QObject, notify = activePrintJobChanged) def activePrintJob(self) -> Optional["PrintJobOutputModel"]: return self._active_print_job @pyqtProperty(str, notify = stateChanged) def state(self) -> str: return self._printer_state @pyqtProperty(float, notify = bedTemperatureChanged) def bedTemperature(self) -> float: return self._bed_temperature @pyqtProperty(float, notify = targetBedTemperatureChanged) def targetBedTemperature(self) -> float: return self._target_bed_temperature # Does the printer support pre-heating the bed at all @pyqtProperty(bool, constant = True) def canPreHeatBed(self) -> bool: if self._controller: return self._controller.can_pre_heat_bed return False # Does the printer support pre-heating the bed at all @pyqtProperty(bool, constant = True) def canPreHeatHotends(self) -> bool: if self._controller: return self._controller.can_pre_heat_hotends return False # Does the printer support sending raw G-code at all @pyqtProperty(bool, constant = True) def canSendRawGcode(self) -> bool: if self._controller: return self._controller.can_send_raw_gcode return False # Does the printer support pause at all @pyqtProperty(bool, constant = True) def canPause(self) -> bool: if self._controller: return self._controller.can_pause return False # Does the printer support abort at all @pyqtProperty(bool, constant = True) def canAbort(self) -> bool: if self._controller: return self._controller.can_abort return False # Does the printer support manual control at all @pyqtProperty(bool, constant = True) def canControlManually(self) -> bool: if self._controller: return self._controller.can_control_manually return False # Does the printer support upgrading firmware @pyqtProperty(bool, notify = canUpdateFirmwareChanged) def canUpdateFirmware(self) -> bool: if self._controller: return self._controller.can_update_firmware return False # Stub to connect UM.Signal to pyqtSignal def _onControllerCanUpdateFirmwareChanged(self) -> None: self.canUpdateFirmwareChanged.emit() # Returns the active configuration (material, variant and buildplate) of the current printer @pyqtProperty(QObject, notify = configurationChanged) def printerConfiguration(self) -> Optional[PrinterConfigurationModel]: if self._active_printer_configuration.isValid(): return self._active_printer_configuration return None peripheralsChanged = pyqtSignal() @pyqtProperty(str, notify = peripheralsChanged) def peripherals(self) -> str: return ", ".join([peripheral.name for peripheral in self._peripherals]) def addPeripheral(self, peripheral: Peripheral) -> None: self._peripherals.append(peripheral) self.peripheralsChanged.emit() def removePeripheral(self, peripheral: Peripheral) -> None: self._peripherals.remove(peripheral) self.peripheralsChanged.emit() availableConfigurationsChanged = pyqtSignal() # The availableConfigurations are configuration options that a printer can switch to, but doesn't currently have # active (eg; Automatic tool changes, material loaders, etc). @pyqtProperty("QVariantList", notify = availableConfigurationsChanged) def availableConfigurations(self) -> List[PrinterConfigurationModel]: return self._available_printer_configurations def addAvailableConfiguration(self, new_configuration: PrinterConfigurationModel) -> None: if new_configuration not in self._available_printer_configurations: self._available_printer_configurations.append(new_configuration) self.availableConfigurationsChanged.emit() def removeAvailableConfiguration(self, config_to_remove: PrinterConfigurationModel) -> None: try: self._available_printer_configurations.remove(config_to_remove) except ValueError: Logger.log("w", "Unable to remove configuration that isn't in the list of available configurations") else: self.availableConfigurationsChanged.emit() def setAvailableConfigurations(self, new_configurations: List[PrinterConfigurationModel]) -> None: self._available_printer_configurations = new_configurations self.availableConfigurationsChanged.emit()