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- # Copyright (c) 2020 Ultimaker B.V.
- # Cura is released under the terms of the LGPLv3 or higher.
- import time
- from collections import deque
- from PyQt5.QtCore import QObject, QTimer, pyqtSignal, pyqtProperty
- from typing import Optional, Any, Set
- from UM.Logger import Logger
- from UM.Settings.SettingDefinition import SettingDefinition
- from UM.Settings.Validator import ValidatorState
- import cura.CuraApplication
- class MachineErrorChecker(QObject):
- """This class performs setting error checks for the currently active machine.
- The whole error checking process is pretty heavy which can take ~0.5 secs, so it can cause GUI to lag. The idea
- here is to split the whole error check into small tasks, each of which only checks a single setting key in a
- stack. According to my profiling results, the maximal runtime for such a sub-task is <0.03 secs, which should be
- good enough. Moreover, if any changes happened to the machine, we can cancel the check in progress without wait
- for it to finish the complete work.
- """
- def __init__(self, parent: Optional[QObject] = None) -> None:
- super().__init__(parent)
- self._global_stack = None
- self._has_errors = True # Result of the error check, indicating whether there are errors in the stack
- self._error_keys = set() # type: Set[str] # A set of settings keys that have errors
- self._error_keys_in_progress = set() # type: Set[str] # The variable that stores the results of the currently in progress check
- self._stacks_and_keys_to_check = None # type: Optional[deque] # a FIFO queue of tuples (stack, key) to check for errors
- self._need_to_check = False # Whether we need to schedule a new check or not. This flag is set when a new
- # error check needs to take place while there is already one running at the moment.
- self._check_in_progress = False # Whether there is an error check running in progress at the moment.
- self._application = cura.CuraApplication.CuraApplication.getInstance()
- self._machine_manager = self._application.getMachineManager()
- self._start_time = 0. # measure checking time
- # This timer delays the starting of error check so we can react less frequently if the user is frequently
- # changing settings.
- self._error_check_timer = QTimer(self)
- self._error_check_timer.setInterval(100)
- self._error_check_timer.setSingleShot(True)
- self._keys_to_check = set() # type: Set[str]
- def initialize(self) -> None:
- self._error_check_timer.timeout.connect(self._rescheduleCheck)
- # Reconnect all signals when the active machine gets changed.
- self._machine_manager.globalContainerChanged.connect(self._onMachineChanged)
- # Whenever the machine settings get changed, we schedule an error check.
- self._machine_manager.globalContainerChanged.connect(self.startErrorCheck)
- self._onMachineChanged()
- def _onMachineChanged(self) -> None:
- if self._global_stack:
- self._global_stack.propertyChanged.disconnect(self.startErrorCheckPropertyChanged)
- self._global_stack.containersChanged.disconnect(self.startErrorCheck)
- for extruder in self._global_stack.extruderList:
- extruder.propertyChanged.disconnect(self.startErrorCheckPropertyChanged)
- extruder.containersChanged.disconnect(self.startErrorCheck)
- self._global_stack = self._machine_manager.activeMachine
- if self._global_stack:
- self._global_stack.propertyChanged.connect(self.startErrorCheckPropertyChanged)
- self._global_stack.containersChanged.connect(self.startErrorCheck)
- for extruder in self._global_stack.extruderList:
- extruder.propertyChanged.connect(self.startErrorCheckPropertyChanged)
- extruder.containersChanged.connect(self.startErrorCheck)
- hasErrorUpdated = pyqtSignal()
- needToWaitForResultChanged = pyqtSignal()
- errorCheckFinished = pyqtSignal()
- @pyqtProperty(bool, notify = hasErrorUpdated)
- def hasError(self) -> bool:
- return self._has_errors
- @pyqtProperty(bool, notify = needToWaitForResultChanged)
- def needToWaitForResult(self) -> bool:
- return self._need_to_check or self._check_in_progress
- def startErrorCheckPropertyChanged(self, key: str, property_name: str) -> None:
- """Start the error check for property changed
- this is separate from the startErrorCheck because it ignores a number property types
- :param key:
- :param property_name:
- """
- if property_name != "value":
- return
- self._keys_to_check.add(key)
- self.startErrorCheck()
- def startErrorCheck(self, *args: Any) -> None:
- """Starts the error check timer to schedule a new error check.
- :param args:
- """
- if not self._check_in_progress:
- self._need_to_check = True
- self.needToWaitForResultChanged.emit()
- self._error_check_timer.start()
- def _rescheduleCheck(self) -> None:
- """This function is called by the timer to reschedule a new error check.
- If there is no check in progress, it will start a new one. If there is any, it sets the "_need_to_check" flag
- to notify the current check to stop and start a new one.
- """
- if self._check_in_progress and not self._need_to_check:
- self._need_to_check = True
- self.needToWaitForResultChanged.emit()
- return
- self._error_keys_in_progress = set()
- self._need_to_check = False
- self.needToWaitForResultChanged.emit()
- global_stack = self._machine_manager.activeMachine
- if global_stack is None:
- Logger.log("i", "No active machine, nothing to check.")
- return
- # Populate the (stack, key) tuples to check
- self._stacks_and_keys_to_check = deque()
- for stack in global_stack.extruderList:
- if not self._keys_to_check:
- self._keys_to_check = stack.getAllKeys()
- for key in self._keys_to_check:
- self._stacks_and_keys_to_check.append((stack, key))
- self._application.callLater(self._checkStack)
- self._start_time = time.time()
- Logger.log("d", "New error check scheduled.")
- def _checkStack(self) -> None:
- if self._need_to_check:
- Logger.log("d", "Need to check for errors again. Discard the current progress and reschedule a check.")
- self._check_in_progress = False
- self._application.callLater(self.startErrorCheck)
- return
- self._check_in_progress = True
- # If there is nothing to check any more, it means there is no error.
- if not self._stacks_and_keys_to_check:
- # Finish
- self._setResult(False)
- return
- # Get the next stack and key to check
- stack, key = self._stacks_and_keys_to_check.popleft()
- enabled = stack.getProperty(key, "enabled")
- if not enabled:
- self._application.callLater(self._checkStack)
- return
- validation_state = stack.getProperty(key, "validationState")
- if validation_state is None:
- # Setting is not validated. This can happen if there is only a setting definition.
- # We do need to validate it, because a setting definitions value can be set by a function, which could
- # be an invalid setting.
- definition = stack.getSettingDefinition(key)
- validator_type = SettingDefinition.getValidatorForType(definition.type)
- if validator_type:
- validator = validator_type(key)
- validation_state = validator(stack)
- if validation_state in (ValidatorState.Exception, ValidatorState.MaximumError, ValidatorState.MinimumError, ValidatorState.Invalid):
- # Since we don't know if any of the settings we didn't check is has an error value, store the list for the
- # next check.
- keys_to_recheck = {setting_key for stack, setting_key in self._stacks_and_keys_to_check}
- keys_to_recheck.add(key)
- self._setResult(True, keys_to_recheck = keys_to_recheck)
- return
- # Schedule the check for the next key
- self._application.callLater(self._checkStack)
- def _setResult(self, result: bool, keys_to_recheck = None) -> None:
- if result != self._has_errors:
- self._has_errors = result
- self.hasErrorUpdated.emit()
- self._machine_manager.stacksValidationChanged.emit()
- if keys_to_recheck is None:
- self._keys_to_check = set()
- else:
- self._keys_to_check = keys_to_recheck
- self._need_to_check = False
- self._check_in_progress = False
- self.needToWaitForResultChanged.emit()
- self.errorCheckFinished.emit()
- Logger.log("i", "Error check finished, result = %s, time = %0.1fs", result, time.time() - self._start_time)
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