mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-25 04:32:33 -06:00
1265 lines
48 KiB
Python
1265 lines
48 KiB
Python
""" This module defines a Python-level wrapper around the C++
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AsyncTaskManager interface. It replaces the old full-Python
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implementation of the Task system. """
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__all__ = ['Task', 'TaskManager',
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'cont', 'done', 'again', 'pickup', 'exit',
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'sequence', 'loop', 'pause']
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from direct.directnotify.DirectNotifyGlobal import *
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from direct.showbase import ExceptionVarDump
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from direct.showbase.PythonUtil import *
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from direct.showbase.MessengerGlobal import messenger
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import signal
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import types
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import time
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import random
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import string
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from pandac.PandaModules import *
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def print_exc_plus():
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"""
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Print the usual traceback information, followed by a listing of all the
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local variables in each frame.
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"""
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import sys
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import traceback
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tb = sys.exc_info()[2]
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while 1:
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if not tb.tb_next:
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break
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tb = tb.tb_next
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stack = []
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f = tb.tb_frame
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while f:
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stack.append(f)
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f = f.f_back
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stack.reverse()
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traceback.print_exc()
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print "Locals by frame, innermost last"
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for frame in stack:
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print
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print "Frame %s in %s at line %s" % (frame.f_code.co_name,
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frame.f_code.co_filename,
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frame.f_lineno)
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for key, value in frame.f_locals.items():
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print "\t%20s = " % key,
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#We have to be careful not to cause a new error in our error
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#printer! Calling str() on an unknown object could cause an
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#error we don't want.
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try:
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print value
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except:
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print "<ERROR WHILE PRINTING VALUE>"
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# For historical purposes, we remap the C++-defined enumeration to
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# these Python names, and define them both at the module level, here,
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# and at the class level (below). The preferred access is via the
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# class level.
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done = AsyncTask.DSDone
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cont = AsyncTask.DSCont
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again = AsyncTask.DSAgain
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pickup = AsyncTask.DSPickup
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exit = AsyncTask.DSExit
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# Alias PythonTask to Task for historical purposes.
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Task = PythonTask
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# Copy the module-level enums above into the class level. This funny
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# syntax is necessary because it's a C++-wrapped extension type, not a
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# true Python class.
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Task.DtoolClassDict['done'] = done
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Task.DtoolClassDict['cont'] = cont
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Task.DtoolClassDict['again'] = again
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Task.DtoolClassDict['pickup'] = pickup
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Task.DtoolClassDict['exit'] = exit
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# Alias the AsyncTaskPause constructor as Task.pause().
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pause = AsyncTaskPause
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Task.DtoolClassDict['pause'] = staticmethod(pause)
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def sequence(*taskList):
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seq = AsyncTaskSequence('sequence')
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for task in taskList:
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seq.addTask(task)
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return seq
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Task.DtoolClassDict['sequence'] = staticmethod(sequence)
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def loop(*taskList):
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seq = AsyncTaskSequence('loop')
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for task in taskList:
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seq.addTask(task)
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seq.setRepeatCount(-1)
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return seq
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Task.DtoolClassDict['loop'] = staticmethod(loop)
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class TaskManager:
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notify = directNotify.newCategory("TaskManager")
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extendedExceptions = False
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MaxEpochSpeed = 1.0/30.0
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def __init__(self):
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self.mgr = AsyncTaskManager.getGlobalPtr()
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self.resumeFunc = None
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self.globalClock = self.mgr.getClock()
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self.stepping = False
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self.running = False
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self.destroyed = False
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self.fKeyboardInterrupt = False
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self.interruptCount = 0
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self._frameProfileQueue = Queue()
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# this will be set when it's safe to import StateVar
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self._profileFrames = None
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self._frameProfiler = None
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self._profileTasks = None
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self._taskProfiler = None
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self._taskProfileInfo = ScratchPad(
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taskId = None,
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profiled = False,
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session = None,
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)
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def finalInit(self):
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# This function should be called once during startup, after
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# most things are imported.
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from direct.fsm.StatePush import StateVar
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self._profileTasks = StateVar(False)
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self.setProfileTasks(ConfigVariableBool('profile-task-spikes', 0).getValue())
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self._profileFrames = StateVar(False)
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self.setProfileFrames(ConfigVariableBool('profile-frames', 0).getValue())
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def destroy(self):
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# This should be safe to call multiple times.
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self.notify.info("TaskManager.destroy()")
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self.destroyed = True
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self._frameProfileQueue.clear()
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self.mgr.cleanup()
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def setClock(self, clockObject):
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self.mgr.setClock(clockObject)
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self.globalClock = clockObject
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def invokeDefaultHandler(self, signalNumber, stackFrame):
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print '*** allowing mid-frame keyboard interrupt.'
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# Restore default interrupt handler
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signal.signal(signal.SIGINT, signal.default_int_handler)
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# and invoke it
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raise KeyboardInterrupt
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def keyboardInterruptHandler(self, signalNumber, stackFrame):
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self.fKeyboardInterrupt = 1
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self.interruptCount += 1
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if self.interruptCount == 1:
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print '* interrupt by keyboard'
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elif self.interruptCount == 2:
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print '** waiting for end of frame before interrupting...'
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# The user must really want to interrupt this process
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# Next time around invoke the default handler
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signal.signal(signal.SIGINT, self.invokeDefaultHandler)
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def getCurrentTask(self):
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""" Returns the task currently executing on this thread, or
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None if this is being called outside of the task manager. """
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return Thread.getCurrentThread().getCurrentTask()
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def hasTaskChain(self, chainName):
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""" Returns true if a task chain with the indicated name has
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already been defined, or false otherwise. Note that
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setupTaskChain() will implicitly define a task chain if it has
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not already been defined, or modify an existing one if it has,
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so in most cases there is no need to check this method
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first. """
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return (self.mgr.findTaskChain(chainName) != None)
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def setupTaskChain(self, chainName, numThreads = None, tickClock = None,
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threadPriority = None, frameBudget = None,
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frameSync = None, timeslicePriority = None):
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"""Defines a new task chain. Each task chain executes tasks
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potentially in parallel with all of the other task chains (if
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numThreads is more than zero). When a new task is created, it
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may be associated with any of the task chains, by name (or you
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can move a task to another task chain with
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task.setTaskChain()). You can have any number of task chains,
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but each must have a unique name.
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numThreads is the number of threads to allocate for this task
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chain. If it is 1 or more, then the tasks on this task chain
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will execute in parallel with the tasks on other task chains.
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If it is greater than 1, then the tasks on this task chain may
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execute in parallel with themselves (within tasks of the same
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sort value).
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If tickClock is True, then this task chain will be responsible
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for ticking the global clock each frame (and thereby
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incrementing the frame counter). There should be just one
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task chain responsible for ticking the clock, and usually it
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is the default, unnamed task chain.
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threadPriority specifies the priority level to assign to
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threads on this task chain. It may be one of TPLow, TPNormal,
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TPHigh, or TPUrgent. This is passed to the underlying
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threading system to control the way the threads are scheduled.
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frameBudget is the maximum amount of time (in seconds) to
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allow this task chain to run per frame. Set it to -1 to mean
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no limit (the default). It's not directly related to
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threadPriority.
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frameSync is true to force the task chain to sync to the
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clock. When this flag is false, the default, the task chain
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will finish all of its tasks and then immediately start from
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the first task again, regardless of the clock frame. When it
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is true, the task chain will finish all of its tasks and then
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wait for the clock to tick to the next frame before resuming
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the first task. This only makes sense for threaded tasks
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chains; non-threaded task chains are automatically
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synchronous.
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timeslicePriority is False in the default mode, in which each
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task runs exactly once each frame, round-robin style,
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regardless of the task's priority value; or True to change the
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meaning of priority so that certain tasks are run less often,
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in proportion to their time used and to their priority value.
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See AsyncTaskManager.setTimeslicePriority() for more.
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"""
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chain = self.mgr.makeTaskChain(chainName)
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if numThreads is not None:
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chain.setNumThreads(numThreads)
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if tickClock is not None:
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chain.setTickClock(tickClock)
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if threadPriority is not None:
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chain.setThreadPriority(threadPriority)
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if frameBudget is not None:
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chain.setFrameBudget(frameBudget)
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if frameSync is not None:
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chain.setFrameSync(frameSync)
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if timeslicePriority is not None:
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chain.setTimeslicePriority(timeslicePriority)
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def hasTaskNamed(self, taskName):
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"""Returns true if there is at least one task, active or
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sleeping, with the indicated name. """
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return bool(self.mgr.findTask(taskName))
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def getTasksNamed(self, taskName):
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"""Returns a list of all tasks, active or sleeping, with the
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indicated name. """
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return self.__makeTaskList(self.mgr.findTasks(taskName))
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def getTasksMatching(self, taskPattern):
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"""Returns a list of all tasks, active or sleeping, with a
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name that matches the pattern, which can include standard
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shell globbing characters like *, ?, and []. """
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return self.__makeTaskList(self.mgr.findTasksMatching(GlobPattern(taskPattern)))
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def getAllTasks(self):
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"""Returns list of all tasks, active and sleeping, in
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arbitrary order. """
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return self.__makeTaskList(self.mgr.getTasks())
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def getTasks(self):
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"""Returns list of all active tasks in arbitrary order. """
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return self.__makeTaskList(self.mgr.getActiveTasks())
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def getDoLaters(self):
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"""Returns list of all sleeping tasks in arbitrary order. """
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return self.__makeTaskList(self.mgr.getSleepingTasks())
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def __makeTaskList(self, taskCollection):
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l = []
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for i in range(taskCollection.getNumTasks()):
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l.append(taskCollection.getTask(i))
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return l
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def doMethodLater(self, delayTime, funcOrTask, name, extraArgs = None,
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sort = None, priority = None, taskChain = None,
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uponDeath = None, appendTask = False, owner = None):
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"""Adds a task to be performed at some time in the future.
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This is identical to add(), except that the specified
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delayTime is applied to the Task object first, which means
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that the task will not begin executing until at least the
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indicated delayTime (in seconds) has elapsed.
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After delayTime has elapsed, the task will become active, and
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will run in the soonest possible frame thereafter. If you
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wish to specify a task that will run in the next frame, use a
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delayTime of 0.
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"""
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if delayTime < 0:
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assert self.notify.warning('doMethodLater: added task: %s with negative delay: %s' % (name, delayTime))
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task = self.__setupTask(funcOrTask, name, priority, sort, extraArgs, taskChain, appendTask, owner, uponDeath)
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task.setDelay(delayTime)
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self.mgr.add(task)
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return task
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def add(self, funcOrTask, name = None, sort = None, extraArgs = None,
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priority = None, uponDeath = None, appendTask = False,
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taskChain = None, owner = None):
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"""
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Add a new task to the taskMgr. The task will begin executing
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immediately, or next frame if its sort value has already
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passed this frame.
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The parameters are:
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funcOrTask - either an existing Task object (not already added
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to the task manager), or a callable function object. If this
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is a function, a new Task object will be created and returned.
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name - the name to assign to the Task. Required, unless you
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are passing in a Task object that already has a name.
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extraArgs - the list of arguments to pass to the task
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function. If this is omitted, the list is just the task
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object itself.
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appendTask - a boolean flag. If this is true, then the task
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object itself will be appended to the end of the extraArgs
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list before calling the function.
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sort - the sort value to assign the task. The default sort is
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0. Within a particular task chain, it is guaranteed that the
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tasks with a lower sort value will all run before tasks with a
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higher sort value run.
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priority - the priority at which to run the task. The default
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priority is 0. Higher priority tasks are run sooner, and/or
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more often. For historical purposes, if you specify a
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priority without also specifying a sort, the priority value is
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understood to actually be a sort value. (Previously, there
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was no priority value, only a sort value, and it was called
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"priority".)
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uponDeath - a function to call when the task terminates,
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either because it has run to completion, or because it has
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been explicitly removed.
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taskChain - the name of the task chain to assign the task to.
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owner - an optional Python object that is declared as the
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"owner" of this task for maintenance purposes. The owner must
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have two methods: owner._addTask(self, task), which is called
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when the task begins, and owner._clearTask(self, task), which
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is called when the task terminates. This is all the owner
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means.
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The return value of add() is the new Task object that has been
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added, or the original Task object that was passed in.
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"""
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task = self.__setupTask(funcOrTask, name, priority, sort, extraArgs, taskChain, appendTask, owner, uponDeath)
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self.mgr.add(task)
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return task
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def __setupTask(self, funcOrTask, name, priority, sort, extraArgs, taskChain, appendTask, owner, uponDeath):
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if isinstance(funcOrTask, AsyncTask):
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task = funcOrTask
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elif hasattr(funcOrTask, '__call__'):
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task = PythonTask(funcOrTask)
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else:
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self.notify.error(
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'add: Tried to add a task that was not a Task or a func')
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if hasattr(task, 'setArgs'):
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# It will only accept arguments if it's a PythonTask.
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if extraArgs is None:
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extraArgs = []
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appendTask = True
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task.setArgs(extraArgs, appendTask)
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elif extraArgs is not None:
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self.notify.error(
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'Task %s does not accept arguments.' % (repr(task)))
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if name is not None:
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assert isinstance(name, types.StringTypes), 'Name must be a string type'
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task.setName(name)
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assert task.hasName()
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# For historical reasons, if priority is specified but not
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# sort, it really means sort.
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if priority is not None and sort is None:
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task.setSort(priority)
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else:
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if priority is not None:
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task.setPriority(priority)
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if sort is not None:
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task.setSort(sort)
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if taskChain is not None:
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task.setTaskChain(taskChain)
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if owner is not None:
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task.setOwner(owner)
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if uponDeath is not None:
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task.setUponDeath(uponDeath)
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return task
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def remove(self, taskOrName):
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"""Removes a task from the task manager. The task is stopped,
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almost as if it had returned task.done. (But if the task is
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currently executing, it will finish out its current frame
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before being removed.) You may specify either an explicit
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Task object, or the name of a task. If you specify a name,
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all tasks with the indicated name are removed. Returns the
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number of tasks removed. """
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if isinstance(taskOrName, types.StringTypes):
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tasks = self.mgr.findTasks(taskOrName)
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return self.mgr.remove(tasks)
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elif isinstance(taskOrName, AsyncTask):
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return self.mgr.remove(taskOrName)
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elif isinstance(taskOrName, types.ListType):
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for task in taskOrName:
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self.remove(task)
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else:
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self.notify.error('remove takes a string or a Task')
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def removeTasksMatching(self, taskPattern):
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"""Removes all tasks whose names match the pattern, which can
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include standard shell globbing characters like *, ?, and [].
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See also remove().
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Returns the number of tasks removed.
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"""
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tasks = self.mgr.findTasksMatching(GlobPattern(taskPattern))
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return self.mgr.remove(tasks)
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|
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def step(self):
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"""Invokes the task manager for one frame, and then returns.
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Normally, this executes each task exactly once, though task
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chains that are in sub-threads or that have frame budgets
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might execute their tasks differently. """
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# Replace keyboard interrupt handler during task list processing
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# so we catch the keyboard interrupt but don't handle it until
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# after task list processing is complete.
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self.fKeyboardInterrupt = 0
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self.interruptCount = 0
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signal.signal(signal.SIGINT, self.keyboardInterruptHandler)
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startFrameTime = self.globalClock.getRealTime()
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self.mgr.poll()
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# This is the spot for an internal yield function
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nextTaskTime = self.mgr.getNextWakeTime()
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self.doYield(startFrameTime, nextTaskTime)
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# Restore default interrupt handler
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signal.signal(signal.SIGINT, signal.default_int_handler)
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if self.fKeyboardInterrupt:
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raise KeyboardInterrupt
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def run(self):
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|
"""Starts the task manager running. Does not return until an
|
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exception is encountered (including KeyboardInterrupt). """
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# Set the clock to have last frame's time in case we were
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# Paused at the prompt for a long time
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t = self.globalClock.getFrameTime()
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timeDelta = t - self.globalClock.getRealTime()
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self.globalClock.setRealTime(t)
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messenger.send("resetClock", [timeDelta])
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|
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if self.resumeFunc != None:
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self.resumeFunc()
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|
|
if self.stepping:
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self.step()
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|
else:
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self.running = True
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while self.running:
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try:
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if len(self._frameProfileQueue):
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|
numFrames, session, callback = self._frameProfileQueue.pop()
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|
def _profileFunc(numFrames=numFrames):
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self._doProfiledFrames(numFrames)
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session.setFunc(_profileFunc)
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session.run()
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|
_profileFunc = None
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if callback:
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callback()
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session.release()
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|
else:
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self.step()
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|
except KeyboardInterrupt:
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self.stop()
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except SystemExit:
|
|
self.stop()
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raise
|
|
except IOError, ioError:
|
|
code, message = self._unpackIOError(ioError)
|
|
# Since upgrading to Python 2.4.1, pausing the execution
|
|
# often gives this IOError during the sleep function:
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|
# IOError: [Errno 4] Interrupted function call
|
|
# So, let's just handle that specific exception and stop.
|
|
# All other IOErrors should still get raised.
|
|
# Only problem: legit IOError 4s will be obfuscated.
|
|
if code == 4:
|
|
self.stop()
|
|
else:
|
|
raise
|
|
except Exception, e:
|
|
if self.extendedExceptions:
|
|
self.stop()
|
|
print_exc_plus()
|
|
else:
|
|
if (ExceptionVarDump.wantStackDumpLog and
|
|
ExceptionVarDump.dumpOnExceptionInit):
|
|
ExceptionVarDump._varDump__print(e)
|
|
raise
|
|
except:
|
|
if self.extendedExceptions:
|
|
self.stop()
|
|
print_exc_plus()
|
|
else:
|
|
raise
|
|
|
|
self.mgr.stopThreads()
|
|
|
|
def _unpackIOError(self, ioError):
|
|
# IOError unpack from http://www.python.org/doc/essays/stdexceptions/
|
|
# this needs to be in its own method, exceptions that occur inside
|
|
# a nested try block are not caught by the inner try block's except
|
|
try:
|
|
(code, message) = ioError
|
|
except:
|
|
code = 0
|
|
message = ioError
|
|
return code, message
|
|
|
|
def stop(self):
|
|
# Set a flag so we will stop before beginning next frame
|
|
self.running = False
|
|
|
|
def __tryReplaceTaskMethod(self, task, oldMethod, newFunction):
|
|
if not isinstance(task, PythonTask):
|
|
return 0
|
|
|
|
method = task.getFunction()
|
|
if (type(method) == types.MethodType):
|
|
function = method.im_func
|
|
else:
|
|
function = method
|
|
if (function == oldMethod):
|
|
newMethod = types.MethodType(newFunction,
|
|
method.im_self,
|
|
method.im_class)
|
|
task.setFunction(newMethod)
|
|
# Found a match
|
|
return 1
|
|
return 0
|
|
|
|
def replaceMethod(self, oldMethod, newFunction):
|
|
numFound = 0
|
|
for task in self.getAllTasks():
|
|
numFound += self.__tryReplaceTaskMethod(task, oldMethod, newFunction)
|
|
return numFound
|
|
|
|
def popupControls(self):
|
|
from direct.tkpanels import TaskManagerPanel
|
|
return TaskManagerPanel.TaskManagerPanel(self)
|
|
|
|
def getProfileSession(self, name=None):
|
|
# call to get a profile session that you can modify before passing to profileFrames()
|
|
if name is None:
|
|
name = 'taskMgrFrameProfile'
|
|
|
|
# Defer this import until we need it: some Python
|
|
# distributions don't provide the profile and pstats modules.
|
|
from direct.showbase.ProfileSession import ProfileSession
|
|
return ProfileSession(name)
|
|
|
|
def profileFrames(self, num=None, session=None, callback=None):
|
|
if num is None:
|
|
num = 1
|
|
if session is None:
|
|
session = self.getProfileSession()
|
|
# make sure the profile session doesn't get destroyed before we're done with it
|
|
session.acquire()
|
|
self._frameProfileQueue.push((num, session, callback))
|
|
|
|
def _doProfiledFrames(self, numFrames):
|
|
for i in xrange(numFrames):
|
|
result = self.step()
|
|
return result
|
|
|
|
def getProfileFrames(self):
|
|
return self._profileFrames.get()
|
|
|
|
def getProfileFramesSV(self):
|
|
return self._profileFrames
|
|
|
|
def setProfileFrames(self, profileFrames):
|
|
self._profileFrames.set(profileFrames)
|
|
if (not self._frameProfiler) and profileFrames:
|
|
# import here due to import dependencies
|
|
from direct.task.FrameProfiler import FrameProfiler
|
|
self._frameProfiler = FrameProfiler()
|
|
|
|
def getProfileTasks(self):
|
|
return self._profileTasks.get()
|
|
|
|
def getProfileTasksSV(self):
|
|
return self._profileTasks
|
|
|
|
def setProfileTasks(self, profileTasks):
|
|
self._profileTasks.set(profileTasks)
|
|
if (not self._taskProfiler) and profileTasks:
|
|
# import here due to import dependencies
|
|
from direct.task.TaskProfiler import TaskProfiler
|
|
self._taskProfiler = TaskProfiler()
|
|
|
|
def logTaskProfiles(self, name=None):
|
|
if self._taskProfiler:
|
|
self._taskProfiler.logProfiles(name)
|
|
|
|
def flushTaskProfiles(self, name=None):
|
|
if self._taskProfiler:
|
|
self._taskProfiler.flush(name)
|
|
|
|
def _setProfileTask(self, task):
|
|
if self._taskProfileInfo.session:
|
|
self._taskProfileInfo.session.release()
|
|
self._taskProfileInfo.session = None
|
|
self._taskProfileInfo = ScratchPad(
|
|
taskFunc = task.getFunction(),
|
|
taskArgs = task.getArgs(),
|
|
task = task,
|
|
profiled = False,
|
|
session = None,
|
|
)
|
|
|
|
# Temporarily replace the task's own function with our
|
|
# _profileTask method.
|
|
task.setFunction(self._profileTask)
|
|
task.setArgs([self._taskProfileInfo], True)
|
|
|
|
def _profileTask(self, profileInfo, task):
|
|
# This is called instead of the task function when we have
|
|
# decided to profile a task.
|
|
|
|
assert profileInfo.task == task
|
|
# don't profile the same task twice in a row
|
|
assert not profileInfo.profiled
|
|
|
|
# Restore the task's proper function for next time.
|
|
appendTask = False
|
|
taskArgs = profileInfo.taskArgs
|
|
if taskArgs and taskArgs[-1] == task:
|
|
appendTask = True
|
|
taskArgs = taskArgs[:-1]
|
|
task.setArgs(taskArgs, appendTask)
|
|
task.setFunction(profileInfo.taskFunc)
|
|
|
|
# Defer this import until we need it: some Python
|
|
# distributions don't provide the profile and pstats modules.
|
|
from direct.showbase.ProfileSession import ProfileSession
|
|
profileSession = ProfileSession('profiled-task-%s' % task.getName(),
|
|
Functor(profileInfo.taskFunc, *profileInfo.taskArgs))
|
|
ret = profileSession.run()
|
|
|
|
# set these values *after* profiling in case we're profiling the TaskProfiler
|
|
profileInfo.session = profileSession
|
|
profileInfo.profiled = True
|
|
|
|
return ret
|
|
|
|
def _hasProfiledDesignatedTask(self):
|
|
# have we run a profile of the designated task yet?
|
|
return self._taskProfileInfo.profiled
|
|
|
|
def _getLastTaskProfileSession(self):
|
|
return self._taskProfileInfo.session
|
|
|
|
def _getRandomTask(self):
|
|
# Figure out when the next frame is likely to expire, so we
|
|
# won't grab any tasks that are sleeping for a long time.
|
|
now = globalClock.getFrameTime()
|
|
avgFrameRate = globalClock.getAverageFrameRate()
|
|
if avgFrameRate < .00001:
|
|
avgFrameDur = 0.
|
|
else:
|
|
avgFrameDur = (1. / globalClock.getAverageFrameRate())
|
|
next = now + avgFrameDur
|
|
|
|
# Now grab a task at random, until we find one that we like.
|
|
tasks = self.mgr.getTasks()
|
|
i = random.randrange(tasks.getNumTasks())
|
|
task = tasks.getTask(i)
|
|
while not isinstance(task, PythonTask) or \
|
|
task.getWakeTime() > next:
|
|
tasks.removeTask(i)
|
|
i = random.randrange(tasks.getNumTasks())
|
|
task = tasks.getTask(i)
|
|
return task
|
|
|
|
def __repr__(self):
|
|
return str(self.mgr)
|
|
|
|
# In the event we want to do frame time managment, this is the
|
|
# function to replace or overload.
|
|
def doYield(self, frameStartTime, nextScheduledTaskTime):
|
|
pass
|
|
|
|
"""
|
|
def doYieldExample(self, frameStartTime, nextScheduledTaskTime):
|
|
minFinTime = frameStartTime + self.MaxEpochSpeed
|
|
if nextScheduledTaskTime > 0 and nextScheduledTaskTime < minFinTime:
|
|
print ' Adjusting Time'
|
|
minFinTime = nextScheduledTaskTime
|
|
delta = minFinTime - self.globalClock.getRealTime()
|
|
while(delta > 0.002):
|
|
print ' sleep %s'% (delta)
|
|
time.sleep(delta)
|
|
delta = minFinTime - self.globalClock.getRealTime()
|
|
"""
|
|
|
|
if __debug__:
|
|
# to catch memory leaks during the tests at the bottom of the file
|
|
def _startTrackingMemLeaks(self):
|
|
pass
|
|
|
|
def _stopTrackingMemLeaks(self):
|
|
pass
|
|
|
|
def _checkMemLeaks(self):
|
|
pass
|
|
|
|
def _runTests(self):
|
|
if __debug__:
|
|
tm = TaskManager()
|
|
tm.setClock(ClockObject())
|
|
tm.setupTaskChain("default", tickClock = True)
|
|
|
|
# check for memory leaks after every test
|
|
tm._startTrackingMemLeaks()
|
|
tm._checkMemLeaks()
|
|
|
|
# run-once task
|
|
l = []
|
|
def _testDone(task, l=l):
|
|
l.append(None)
|
|
return task.done
|
|
tm.add(_testDone, 'testDone')
|
|
tm.step()
|
|
assert len(l) == 1
|
|
tm.step()
|
|
assert len(l) == 1
|
|
_testDone = None
|
|
tm._checkMemLeaks()
|
|
|
|
# remove by name
|
|
def _testRemoveByName(task):
|
|
return task.done
|
|
tm.add(_testRemoveByName, 'testRemoveByName')
|
|
assert tm.remove('testRemoveByName') == 1
|
|
assert tm.remove('testRemoveByName') == 0
|
|
_testRemoveByName = None
|
|
tm._checkMemLeaks()
|
|
|
|
# duplicate named tasks
|
|
def _testDupNamedTasks(task):
|
|
return task.done
|
|
tm.add(_testDupNamedTasks, 'testDupNamedTasks')
|
|
tm.add(_testDupNamedTasks, 'testDupNamedTasks')
|
|
assert tm.remove('testRemoveByName') == 0
|
|
_testDupNamedTasks = None
|
|
tm._checkMemLeaks()
|
|
|
|
# continued task
|
|
l = []
|
|
def _testCont(task, l = l):
|
|
l.append(None)
|
|
return task.cont
|
|
tm.add(_testCont, 'testCont')
|
|
tm.step()
|
|
assert len(l) == 1
|
|
tm.step()
|
|
assert len(l) == 2
|
|
tm.remove('testCont')
|
|
_testCont = None
|
|
tm._checkMemLeaks()
|
|
|
|
# continue until done task
|
|
l = []
|
|
def _testContDone(task, l = l):
|
|
l.append(None)
|
|
if len(l) >= 2:
|
|
return task.done
|
|
else:
|
|
return task.cont
|
|
tm.add(_testContDone, 'testContDone')
|
|
tm.step()
|
|
assert len(l) == 1
|
|
tm.step()
|
|
assert len(l) == 2
|
|
tm.step()
|
|
assert len(l) == 2
|
|
assert not tm.hasTaskNamed('testContDone')
|
|
_testContDone = None
|
|
tm._checkMemLeaks()
|
|
|
|
# hasTaskNamed
|
|
def _testHasTaskNamed(task):
|
|
return task.done
|
|
tm.add(_testHasTaskNamed, 'testHasTaskNamed')
|
|
assert tm.hasTaskNamed('testHasTaskNamed')
|
|
tm.step()
|
|
assert not tm.hasTaskNamed('testHasTaskNamed')
|
|
_testHasTaskNamed = None
|
|
tm._checkMemLeaks()
|
|
|
|
# task sort
|
|
l = []
|
|
def _testPri1(task, l = l):
|
|
l.append(1)
|
|
return task.cont
|
|
def _testPri2(task, l = l):
|
|
l.append(2)
|
|
return task.cont
|
|
tm.add(_testPri1, 'testPri1', sort = 1)
|
|
tm.add(_testPri2, 'testPri2', sort = 2)
|
|
tm.step()
|
|
assert len(l) == 2
|
|
assert l == [1, 2,]
|
|
tm.step()
|
|
assert len(l) == 4
|
|
assert l == [1, 2, 1, 2,]
|
|
tm.remove('testPri1')
|
|
tm.remove('testPri2')
|
|
_testPri1 = None
|
|
_testPri2 = None
|
|
tm._checkMemLeaks()
|
|
|
|
# task extraArgs
|
|
l = []
|
|
def _testExtraArgs(arg1, arg2, l=l):
|
|
l.extend([arg1, arg2,])
|
|
return done
|
|
tm.add(_testExtraArgs, 'testExtraArgs', extraArgs=[4,5])
|
|
tm.step()
|
|
assert len(l) == 2
|
|
assert l == [4, 5,]
|
|
_testExtraArgs = None
|
|
tm._checkMemLeaks()
|
|
|
|
# task appendTask
|
|
l = []
|
|
def _testAppendTask(arg1, arg2, task, l=l):
|
|
l.extend([arg1, arg2,])
|
|
return task.done
|
|
tm.add(_testAppendTask, '_testAppendTask', extraArgs=[4,5], appendTask=True)
|
|
tm.step()
|
|
assert len(l) == 2
|
|
assert l == [4, 5,]
|
|
_testAppendTask = None
|
|
tm._checkMemLeaks()
|
|
|
|
# task uponDeath
|
|
l = []
|
|
def _uponDeathFunc(task, l=l):
|
|
l.append(task.name)
|
|
def _testUponDeath(task):
|
|
return done
|
|
tm.add(_testUponDeath, 'testUponDeath', uponDeath=_uponDeathFunc)
|
|
tm.step()
|
|
assert len(l) == 1
|
|
assert l == ['testUponDeath']
|
|
_testUponDeath = None
|
|
_uponDeathFunc = None
|
|
tm._checkMemLeaks()
|
|
|
|
# task owner
|
|
class _TaskOwner:
|
|
def _addTask(self, task):
|
|
self.addedTaskName = task.name
|
|
def _clearTask(self, task):
|
|
self.clearedTaskName = task.name
|
|
to = _TaskOwner()
|
|
l = []
|
|
def _testOwner(task):
|
|
return done
|
|
tm.add(_testOwner, 'testOwner', owner=to)
|
|
tm.step()
|
|
assert getattr(to, 'addedTaskName', None) == 'testOwner'
|
|
assert getattr(to, 'clearedTaskName', None) == 'testOwner'
|
|
_testOwner = None
|
|
del to
|
|
_TaskOwner = None
|
|
tm._checkMemLeaks()
|
|
|
|
|
|
doLaterTests = [0,]
|
|
|
|
# doLater
|
|
l = []
|
|
def _testDoLater1(task, l=l):
|
|
l.append(1)
|
|
def _testDoLater2(task, l=l):
|
|
l.append(2)
|
|
def _monitorDoLater(task, tm=tm, l=l, doLaterTests=doLaterTests):
|
|
if task.time > .03:
|
|
assert l == [1, 2,]
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLater1, 'testDoLater1')
|
|
tm.doMethodLater(.02, _testDoLater2, 'testDoLater2')
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLater, 'monitorDoLater', sort=10)
|
|
_testDoLater1 = None
|
|
_testDoLater2 = None
|
|
_monitorDoLater = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# doLater sort
|
|
l = []
|
|
def _testDoLaterPri1(task, l=l):
|
|
l.append(1)
|
|
def _testDoLaterPri2(task, l=l):
|
|
l.append(2)
|
|
def _monitorDoLaterPri(task, tm=tm, l=l, doLaterTests=doLaterTests):
|
|
if task.time > .02:
|
|
assert l == [1, 2,]
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLaterPri1, 'testDoLaterPri1', sort=1)
|
|
tm.doMethodLater(.01, _testDoLaterPri2, 'testDoLaterPri2', sort=2)
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLaterPri, 'monitorDoLaterPri', sort=10)
|
|
_testDoLaterPri1 = None
|
|
_testDoLaterPri2 = None
|
|
_monitorDoLaterPri = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# doLater extraArgs
|
|
l = []
|
|
def _testDoLaterExtraArgs(arg1, l=l):
|
|
l.append(arg1)
|
|
def _monitorDoLaterExtraArgs(task, tm=tm, l=l, doLaterTests=doLaterTests):
|
|
if task.time > .02:
|
|
assert l == [3,]
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLaterExtraArgs, 'testDoLaterExtraArgs', extraArgs=[3,])
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLaterExtraArgs, 'monitorDoLaterExtraArgs', sort=10)
|
|
_testDoLaterExtraArgs = None
|
|
_monitorDoLaterExtraArgs = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# doLater appendTask
|
|
l = []
|
|
def _testDoLaterAppendTask(arg1, task, l=l):
|
|
assert task.name == 'testDoLaterAppendTask'
|
|
l.append(arg1)
|
|
def _monitorDoLaterAppendTask(task, tm=tm, l=l, doLaterTests=doLaterTests):
|
|
if task.time > .02:
|
|
assert l == [4,]
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLaterAppendTask, 'testDoLaterAppendTask',
|
|
extraArgs=[4,], appendTask=True)
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLaterAppendTask, 'monitorDoLaterAppendTask', sort=10)
|
|
_testDoLaterAppendTask = None
|
|
_monitorDoLaterAppendTask = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# doLater uponDeath
|
|
l = []
|
|
def _testUponDeathFunc(task, l=l):
|
|
assert task.name == 'testDoLaterUponDeath'
|
|
l.append(10)
|
|
def _testDoLaterUponDeath(arg1, l=l):
|
|
return done
|
|
def _monitorDoLaterUponDeath(task, tm=tm, l=l, doLaterTests=doLaterTests):
|
|
if task.time > .02:
|
|
assert l == [10,]
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLaterUponDeath, 'testDoLaterUponDeath',
|
|
uponDeath=_testUponDeathFunc)
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLaterUponDeath, 'monitorDoLaterUponDeath', sort=10)
|
|
_testUponDeathFunc = None
|
|
_testDoLaterUponDeath = None
|
|
_monitorDoLaterUponDeath = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# doLater owner
|
|
class _DoLaterOwner:
|
|
def _addTask(self, task):
|
|
self.addedTaskName = task.name
|
|
def _clearTask(self, task):
|
|
self.clearedTaskName = task.name
|
|
doLaterOwner = _DoLaterOwner()
|
|
l = []
|
|
def _testDoLaterOwner(l=l):
|
|
pass
|
|
def _monitorDoLaterOwner(task, tm=tm, l=l, doLaterOwner=doLaterOwner,
|
|
doLaterTests=doLaterTests):
|
|
if task.time > .02:
|
|
assert getattr(doLaterOwner, 'addedTaskName', None) == 'testDoLaterOwner'
|
|
assert getattr(doLaterOwner, 'clearedTaskName', None) == 'testDoLaterOwner'
|
|
doLaterTests[0] -= 1
|
|
return task.done
|
|
return task.cont
|
|
tm.doMethodLater(.01, _testDoLaterOwner, 'testDoLaterOwner',
|
|
owner=doLaterOwner)
|
|
doLaterTests[0] += 1
|
|
# make sure we run this task after the doLaters if they all occur on the same frame
|
|
tm.add(_monitorDoLaterOwner, 'monitorDoLaterOwner', sort=10)
|
|
_testDoLaterOwner = None
|
|
_monitorDoLaterOwner = None
|
|
del doLaterOwner
|
|
_DoLaterOwner = None
|
|
# don't check until all the doLaters are finished
|
|
#tm._checkMemLeaks()
|
|
|
|
# run the doLater tests
|
|
while doLaterTests[0] > 0:
|
|
tm.step()
|
|
del doLaterTests
|
|
tm._checkMemLeaks()
|
|
|
|
# getTasks
|
|
def _testGetTasks(task):
|
|
return task.cont
|
|
# No doLaterProcessor in the new world.
|
|
assert len(tm.getTasks()) == 0
|
|
tm.add(_testGetTasks, 'testGetTasks1')
|
|
assert len(tm.getTasks()) == 1
|
|
assert (tm.getTasks()[0].name == 'testGetTasks1' or
|
|
tm.getTasks()[1].name == 'testGetTasks1')
|
|
tm.add(_testGetTasks, 'testGetTasks2')
|
|
tm.add(_testGetTasks, 'testGetTasks3')
|
|
assert len(tm.getTasks()) == 3
|
|
tm.remove('testGetTasks2')
|
|
assert len(tm.getTasks()) == 2
|
|
tm.remove('testGetTasks1')
|
|
tm.remove('testGetTasks3')
|
|
assert len(tm.getTasks()) == 0
|
|
_testGetTasks = None
|
|
tm._checkMemLeaks()
|
|
|
|
# getDoLaters
|
|
def _testGetDoLaters():
|
|
pass
|
|
assert len(tm.getDoLaters()) == 0
|
|
tm.doMethodLater(.1, _testGetDoLaters, 'testDoLater1')
|
|
assert len(tm.getDoLaters()) == 1
|
|
assert tm.getDoLaters()[0].name == 'testDoLater1'
|
|
tm.doMethodLater(.1, _testGetDoLaters, 'testDoLater2')
|
|
tm.doMethodLater(.1, _testGetDoLaters, 'testDoLater3')
|
|
assert len(tm.getDoLaters()) == 3
|
|
tm.remove('testDoLater2')
|
|
assert len(tm.getDoLaters()) == 2
|
|
tm.remove('testDoLater1')
|
|
tm.remove('testDoLater3')
|
|
assert len(tm.getDoLaters()) == 0
|
|
_testGetDoLaters = None
|
|
tm._checkMemLeaks()
|
|
|
|
# duplicate named doLaters removed via taskMgr.remove
|
|
def _testDupNameDoLaters():
|
|
pass
|
|
# the doLaterProcessor is always running
|
|
tm.doMethodLater(.1, _testDupNameDoLaters, 'testDupNameDoLater')
|
|
tm.doMethodLater(.1, _testDupNameDoLaters, 'testDupNameDoLater')
|
|
assert len(tm.getDoLaters()) == 2
|
|
tm.remove('testDupNameDoLater')
|
|
assert len(tm.getDoLaters()) == 0
|
|
_testDupNameDoLaters = None
|
|
tm._checkMemLeaks()
|
|
|
|
# duplicate named doLaters removed via remove()
|
|
def _testDupNameDoLatersRemove():
|
|
pass
|
|
# the doLaterProcessor is always running
|
|
dl1 = tm.doMethodLater(.1, _testDupNameDoLatersRemove, 'testDupNameDoLaterRemove')
|
|
dl2 = tm.doMethodLater(.1, _testDupNameDoLatersRemove, 'testDupNameDoLaterRemove')
|
|
assert len(tm.getDoLaters()) == 2
|
|
dl2.remove()
|
|
assert len(tm.getDoLaters()) == 1
|
|
dl1.remove()
|
|
assert len(tm.getDoLaters()) == 0
|
|
_testDupNameDoLatersRemove = None
|
|
# nameDict etc. isn't cleared out right away with task.remove()
|
|
tm._checkMemLeaks()
|
|
|
|
# getTasksNamed
|
|
def _testGetTasksNamed(task):
|
|
return task.cont
|
|
assert len(tm.getTasksNamed('testGetTasksNamed')) == 0
|
|
tm.add(_testGetTasksNamed, 'testGetTasksNamed')
|
|
assert len(tm.getTasksNamed('testGetTasksNamed')) == 1
|
|
assert tm.getTasksNamed('testGetTasksNamed')[0].name == 'testGetTasksNamed'
|
|
tm.add(_testGetTasksNamed, 'testGetTasksNamed')
|
|
tm.add(_testGetTasksNamed, 'testGetTasksNamed')
|
|
assert len(tm.getTasksNamed('testGetTasksNamed')) == 3
|
|
tm.remove('testGetTasksNamed')
|
|
assert len(tm.getTasksNamed('testGetTasksNamed')) == 0
|
|
_testGetTasksNamed = None
|
|
tm._checkMemLeaks()
|
|
|
|
# removeTasksMatching
|
|
def _testRemoveTasksMatching(task):
|
|
return task.cont
|
|
tm.add(_testRemoveTasksMatching, 'testRemoveTasksMatching')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching')) == 1
|
|
tm.removeTasksMatching('testRemoveTasksMatching')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching')) == 0
|
|
tm.add(_testRemoveTasksMatching, 'testRemoveTasksMatching1')
|
|
tm.add(_testRemoveTasksMatching, 'testRemoveTasksMatching2')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching1')) == 1
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching2')) == 1
|
|
tm.removeTasksMatching('testRemoveTasksMatching*')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching1')) == 0
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching2')) == 0
|
|
tm.add(_testRemoveTasksMatching, 'testRemoveTasksMatching1a')
|
|
tm.add(_testRemoveTasksMatching, 'testRemoveTasksMatching2a')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching1a')) == 1
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching2a')) == 1
|
|
tm.removeTasksMatching('testRemoveTasksMatching?a')
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching1a')) == 0
|
|
assert len(tm.getTasksNamed('testRemoveTasksMatching2a')) == 0
|
|
_testRemoveTasksMatching = None
|
|
tm._checkMemLeaks()
|
|
|
|
# create Task object and add to mgr
|
|
l = []
|
|
def _testTaskObj(task, l=l):
|
|
l.append(None)
|
|
return task.cont
|
|
t = Task(_testTaskObj)
|
|
tm.add(t, 'testTaskObj')
|
|
tm.step()
|
|
assert len(l) == 1
|
|
tm.step()
|
|
assert len(l) == 2
|
|
tm.remove('testTaskObj')
|
|
tm.step()
|
|
assert len(l) == 2
|
|
_testTaskObj = None
|
|
tm._checkMemLeaks()
|
|
|
|
# remove Task via task.remove()
|
|
l = []
|
|
def _testTaskObjRemove(task, l=l):
|
|
l.append(None)
|
|
return task.cont
|
|
t = Task(_testTaskObjRemove)
|
|
tm.add(t, 'testTaskObjRemove')
|
|
tm.step()
|
|
assert len(l) == 1
|
|
tm.step()
|
|
assert len(l) == 2
|
|
t.remove()
|
|
tm.step()
|
|
assert len(l) == 2
|
|
del t
|
|
_testTaskObjRemove = None
|
|
tm._checkMemLeaks()
|
|
|
|
"""
|
|
# this test fails, and it's not clear what the correct behavior should be.
|
|
# sort passed to Task.__init__ is always overridden by taskMgr.add()
|
|
# even if no sort is specified, and calling Task.setSort() has no
|
|
# effect on the taskMgr's behavior.
|
|
# set/get Task sort
|
|
l = []
|
|
def _testTaskObjSort(arg, task, l=l):
|
|
l.append(arg)
|
|
return task.cont
|
|
t1 = Task(_testTaskObjSort, sort=1)
|
|
t2 = Task(_testTaskObjSort, sort=2)
|
|
tm.add(t1, 'testTaskObjSort1', extraArgs=['a',], appendTask=True)
|
|
tm.add(t2, 'testTaskObjSort2', extraArgs=['b',], appendTask=True)
|
|
tm.step()
|
|
assert len(l) == 2
|
|
assert l == ['a', 'b']
|
|
assert t1.getSort() == 1
|
|
assert t2.getSort() == 2
|
|
t1.setSort(3)
|
|
assert t1.getSort() == 3
|
|
tm.step()
|
|
assert len(l) == 4
|
|
assert l == ['a', 'b', 'b', 'a',]
|
|
t1.remove()
|
|
t2.remove()
|
|
tm.step()
|
|
assert len(l) == 4
|
|
del t1
|
|
del t2
|
|
_testTaskObjSort = None
|
|
tm._checkMemLeaks()
|
|
"""
|
|
|
|
del l
|
|
tm.destroy()
|
|
del tm
|
|
|
|
if __debug__:
|
|
def checkLeak():
|
|
import sys
|
|
import gc
|
|
gc.enable()
|
|
from direct.showbase.DirectObject import DirectObject
|
|
class TestClass(DirectObject):
|
|
def doTask(self, task):
|
|
return task.done
|
|
obj = TestClass()
|
|
startRefCount = sys.getrefcount(obj)
|
|
print 'sys.getrefcount(obj): %s' % sys.getrefcount(obj)
|
|
print '** addTask'
|
|
t = obj.addTask(obj.doTask, 'test')
|
|
print 'sys.getrefcount(obj): %s' % sys.getrefcount(obj)
|
|
print 'task.getRefCount(): %s' % t.getRefCount()
|
|
print '** removeTask'
|
|
obj.removeTask('test')
|
|
print 'sys.getrefcount(obj): %s' % sys.getrefcount(obj)
|
|
print 'task.getRefCount(): %s' % t.getRefCount()
|
|
print '** step'
|
|
taskMgr.step()
|
|
taskMgr.step()
|
|
taskMgr.step()
|
|
print 'sys.getrefcount(obj): %s' % sys.getrefcount(obj)
|
|
print 'task.getRefCount(): %s' % t.getRefCount()
|
|
print '** task release'
|
|
t = None
|
|
print 'sys.getrefcount(obj): %s' % sys.getrefcount(obj)
|
|
assert sys.getrefcount(obj) == startRefCount
|