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- # Copyright (c) 2018 Ultimaker B.V.
- # Cura is released under the terms of the LGPLv3 or higher.
- from enum import IntEnum
- from typing import Callable, List, Optional, Union
- from UM.Decorators import deprecated
- from UM.i18n import i18nCatalog
- from UM.OutputDevice.OutputDevice import OutputDevice
- from PyQt5.QtCore import pyqtProperty, pyqtSignal, QObject, QTimer, QUrl
- from PyQt5.QtWidgets import QMessageBox
- from UM.Logger import Logger
- from UM.Signal import signalemitter
- from UM.Qt.QtApplication import QtApplication
- from UM.FlameProfiler import pyqtSlot
- MYPY = False
- if MYPY:
- from cura.PrinterOutput.PrinterOutputModel import PrinterOutputModel
- from cura.PrinterOutput.ConfigurationModel import ConfigurationModel
- from cura.PrinterOutput.FirmwareUpdater import FirmwareUpdater
- from UM.FileHandler.FileHandler import FileHandler
- from UM.Scene.SceneNode import SceneNode
- i18n_catalog = i18nCatalog("cura")
- ## The current processing state of the backend.
- class ConnectionState(IntEnum):
- Closed = 0
- Connecting = 1
- Connected = 2
- Busy = 3
- Error = 4
- class ConnectionType(IntEnum):
- NotConnected = 0
- UsbConnection = 1
- NetworkConnection = 2
- CloudConnection = 3
- ## Printer output device adds extra interface options on top of output device.
- #
- # The assumption is made the printer is a FDM printer.
- #
- # Note that a number of settings are marked as "final". This is because decorators
- # are not inherited by children. To fix this we use the private counter part of those
- # functions to actually have the implementation.
- #
- # For all other uses it should be used in the same way as a "regular" OutputDevice.
- @signalemitter
- class PrinterOutputDevice(QObject, OutputDevice):
- printersChanged = pyqtSignal()
- connectionStateChanged = pyqtSignal(str)
- acceptsCommandsChanged = pyqtSignal()
- # Signal to indicate that the material of the active printer on the remote changed.
- materialIdChanged = pyqtSignal()
- # # Signal to indicate that the hotend of the active printer on the remote changed.
- hotendIdChanged = pyqtSignal()
- # Signal to indicate that the info text about the connection has changed.
- connectionTextChanged = pyqtSignal()
- # Signal to indicate that the configuration of one of the printers has changed.
- uniqueConfigurationsChanged = pyqtSignal()
- def __init__(self, device_id: str, connection_type: "ConnectionType" = ConnectionType.NotConnected, parent: QObject = None) -> None:
- super().__init__(device_id = device_id, parent = parent) # type: ignore # MyPy complains with the multiple inheritance
- self._printers = [] # type: List[PrinterOutputModel]
- self._unique_configurations = [] # type: List[ConfigurationModel]
- self._monitor_view_qml_path = "" # type: str
- self._monitor_component = None # type: Optional[QObject]
- self._monitor_item = None # type: Optional[QObject]
- self._control_view_qml_path = "" # type: str
- self._control_component = None # type: Optional[QObject]
- self._control_item = None # type: Optional[QObject]
- self._accepts_commands = False # type: bool
- self._update_timer = QTimer() # type: QTimer
- self._update_timer.setInterval(2000) # TODO; Add preference for update interval
- self._update_timer.setSingleShot(False)
- self._update_timer.timeout.connect(self._update)
- self._connection_state = ConnectionState.Closed # type: ConnectionState
- self._connection_type = connection_type # type: ConnectionType
- self._firmware_updater = None # type: Optional[FirmwareUpdater]
- self._firmware_name = None # type: Optional[str]
- self._address = "" # type: str
- self._connection_text = "" # type: str
- self.printersChanged.connect(self._onPrintersChanged)
- QtApplication.getInstance().getOutputDeviceManager().outputDevicesChanged.connect(self._updateUniqueConfigurations)
- @pyqtProperty(str, notify = connectionTextChanged)
- def address(self) -> str:
- return self._address
- def setConnectionText(self, connection_text):
- if self._connection_text != connection_text:
- self._connection_text = connection_text
- self.connectionTextChanged.emit()
- @pyqtProperty(str, constant=True)
- def connectionText(self) -> str:
- return self._connection_text
- def materialHotendChangedMessage(self, callback: Callable[[int], None]) -> None:
- Logger.log("w", "materialHotendChangedMessage needs to be implemented, returning 'Yes'")
- callback(QMessageBox.Yes)
- def isConnected(self) -> bool:
- return self._connection_state != ConnectionState.Closed and self._connection_state != ConnectionState.Error
- def setConnectionState(self, connection_state: "ConnectionState") -> None:
- if self._connection_state != connection_state:
- self._connection_state = connection_state
- self.connectionStateChanged.emit(self._id)
- @pyqtProperty(int, constant = True)
- def connectionType(self) -> "ConnectionType":
- return self._connection_type
- @pyqtProperty(int, notify = connectionStateChanged)
- def connectionState(self) -> "ConnectionState":
- return self._connection_state
- def _update(self) -> None:
- pass
- def _getPrinterByKey(self, key: str) -> Optional["PrinterOutputModel"]:
- for printer in self._printers:
- if printer.key == key:
- return printer
- return None
- def requestWrite(self, nodes: List["SceneNode"], file_name: Optional[str] = None, limit_mimetypes: bool = False,
- file_handler: Optional["FileHandler"] = None, **kwargs: str) -> None:
- raise NotImplementedError("requestWrite needs to be implemented")
- @pyqtProperty(QObject, notify = printersChanged)
- def activePrinter(self) -> Optional["PrinterOutputModel"]:
- if len(self._printers):
- return self._printers[0]
- return None
- @pyqtProperty("QVariantList", notify = printersChanged)
- def printers(self) -> List["PrinterOutputModel"]:
- return self._printers
- @pyqtProperty(QObject, constant = True)
- def monitorItem(self) -> QObject:
- # Note that we specifically only check if the monitor component is created.
- # It could be that it failed to actually create the qml item! If we check if the item was created, it will try to
- # create the item (and fail) every time.
- if not self._monitor_component:
- self._createMonitorViewFromQML()
- return self._monitor_item
- @pyqtProperty(QObject, constant = True)
- def controlItem(self) -> QObject:
- if not self._control_component:
- self._createControlViewFromQML()
- return self._control_item
- def _createControlViewFromQML(self) -> None:
- if not self._control_view_qml_path:
- return
- if self._control_item is None:
- self._control_item = QtApplication.getInstance().createQmlComponent(self._control_view_qml_path, {"OutputDevice": self})
- def _createMonitorViewFromQML(self) -> None:
- if not self._monitor_view_qml_path:
- return
- if self._monitor_item is None:
- self._monitor_item = QtApplication.getInstance().createQmlComponent(self._monitor_view_qml_path, {"OutputDevice": self})
- ## Attempt to establish connection
- def connect(self) -> None:
- self.setConnectionState(ConnectionState.Connecting)
- self._update_timer.start()
- ## Attempt to close the connection
- def close(self) -> None:
- self._update_timer.stop()
- self.setConnectionState(ConnectionState.Closed)
- ## Ensure that close gets called when object is destroyed
- def __del__(self) -> None:
- self.close()
- @pyqtProperty(bool, notify = acceptsCommandsChanged)
- def acceptsCommands(self) -> bool:
- return self._accepts_commands
- @deprecated("Please use the protected function instead", "3.2")
- def setAcceptsCommands(self, accepts_commands: bool) -> None:
- self._setAcceptsCommands(accepts_commands)
- ## Set a flag to signal the UI that the printer is not (yet) ready to receive commands
- def _setAcceptsCommands(self, accepts_commands: bool) -> None:
- if self._accepts_commands != accepts_commands:
- self._accepts_commands = accepts_commands
- self.acceptsCommandsChanged.emit()
- # Returns the unique configurations of the printers within this output device
- @pyqtProperty("QVariantList", notify = uniqueConfigurationsChanged)
- def uniqueConfigurations(self) -> List["ConfigurationModel"]:
- return self._unique_configurations
- def _updateUniqueConfigurations(self) -> None:
- self._unique_configurations = sorted(
- {printer.printerConfiguration for printer in self._printers if printer.printerConfiguration is not None},
- key=lambda config: config.printerType,
- )
- self.uniqueConfigurationsChanged.emit()
- # Returns the unique configurations of the printers within this output device
- @pyqtProperty("QStringList", notify = uniqueConfigurationsChanged)
- def uniquePrinterTypes(self) -> List[str]:
- return list(sorted(set([configuration.printerType for configuration in self._unique_configurations])))
- def _onPrintersChanged(self) -> None:
- for printer in self._printers:
- printer.configurationChanged.connect(self._updateUniqueConfigurations)
- # At this point there may be non-updated configurations
- self._updateUniqueConfigurations()
- ## Set the device firmware name
- #
- # \param name The name of the firmware.
- def _setFirmwareName(self, name: str) -> None:
- self._firmware_name = name
- ## Get the name of device firmware
- #
- # This name can be used to define device type
- def getFirmwareName(self) -> Optional[str]:
- return self._firmware_name
- def getFirmwareUpdater(self) -> Optional["FirmwareUpdater"]:
- return self._firmware_updater
- @pyqtSlot(str)
- def updateFirmware(self, firmware_file: Union[str, QUrl]) -> None:
- if not self._firmware_updater:
- return
- self._firmware_updater.updateFirmware(firmware_file)
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