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added calldownEnforced, EnforcesCalldowns

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This commit is contained in:
Darren Ranalli 2006-09-29 00:34:06 +00:00
parent 88f3ec86be
commit 5e751cb8ad
2 changed files with 219 additions and 96 deletions
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15
direct/src/distributed/DistributedObject.py
View File

@ -3,6 +3,7 @@
from pandac.PandaModules import *
from direct.directnotify.DirectNotifyGlobal import directNotify
from direct.distributed.DistributedObjectBase import DistributedObjectBase
from direct.showbase.PythonUtil import EnforcesCalldowns, calldownEnforced
#from PyDatagram import PyDatagram
#from PyDatagramIterator import PyDatagramIterator
@ -15,7 +16,7 @@ ESDisabled = 4 # values here and lower are considered "disabled"
ESGenerating = 5 # values here and greater are considered "generated"
ESGenerated = 6
class DistributedObject(DistributedObjectBase):
class DistributedObject(DistributedObjectBase, EnforcesCalldowns):
"""
The Distributed Object class is the base class for all network based
(i.e. distributed) objects. These will usually (always?) have a
@ -37,6 +38,8 @@ class DistributedObject(DistributedObjectBase):
self.DistributedObject_initialized = 1
DistributedObjectBase.__init__(self, cr)
EnforcesCalldowns.__init__(self)
# Most DistributedObjects are simple and require no real
# effort to load. Some, particularly actors, may take
# some significant time to load; these we can optimize by
@ -200,6 +203,7 @@ class DistributedObject(DistributedObjectBase):
messenger.send(self.uniqueName("disable"))
self.disable()
@calldownEnforced
def announceGenerate(self):
"""
Sends a message to the world after the object has been
@ -210,6 +214,7 @@ class DistributedObject(DistributedObjectBase):
self.activeState = ESGenerated
messenger.send(self.uniqueName("generate"), [self])
@calldownEnforced
def disable(self):
"""
Inheritors should redefine this to take appropriate action on disable
@ -238,6 +243,7 @@ class DistributedObject(DistributedObjectBase):
assert self.notify.debugStateCall(self)
return (self.activeState == ESGenerated)
@calldownEnforced
def delete(self):
"""
Inheritors should redefine this to take appropriate action on delete
@ -249,7 +255,9 @@ class DistributedObject(DistributedObjectBase):
self.DistributedObject_deleted = 1
self.cr = None
self.dclass = None
EnforcesCalldowns.destroy(self)
@calldownEnforced
def generate(self):
"""
Inheritors should redefine this to take appropriate action on generate
@ -257,11 +265,12 @@ class DistributedObject(DistributedObjectBase):
assert self.notify.debugStateCall(self)
self.activeState = ESGenerating
# this has already been set at this point
#self.cr.storeObjectLocation(self.doId, self.parentId, self.zoneId)
# HACK: we seem to be calling generate() more than once for objects that multiply-inherit
#self.cr.storeObjectLocation(self, self.parentId, self.zoneId)
# semi-hack: we seem to be calling generate() more than once for objects that multiply-inherit
if not hasattr(self, '_autoInterestHandle'):
self.cr.openAutoInterests(self)
@calldownEnforced
def generateInit(self):
"""
This method is called when the DistributedObject is first introduced

300
direct/src/showbase/PythonUtil.py
View File

@ -2305,99 +2305,6 @@ class ArgumentEater:
def __call__(self, *args, **kwArgs):
self._func(*args[self._numToEat:], **kwArgs)
class HasCheckpoints:
"""Derive from this class if you want to ensure that specific methods get called.
See checkpoint/etc. decorators below"""
def __init__(self):
self._checkpoints = {}
self._CPinit = True
def destroyCP(self):
del self._checkpoints
def _getCPFuncName(self, nameOrFunc):
if type(nameOrFunc) == types.StringType:
name = nameOrFunc
else:
func = nameOrFunc
name = '%s.%s' % (func.__module__, func.__name__)
return name
def _CPdestroyed(self):
# if self._CPinit does not exist here, our __init__ was not called
if self._CPinit and not hasattr(self, '_checkpoints'):
# this can occur if a decorated method is called after this
# base class has been destroyed.
return True
return False
def CPreset(self, func):
name = self._getCPFuncName(func)
if name in self._checkpoints:
del self._checkpoints[name]
return True
def CPvisit(self, func):
if self._CPdestroyed():
return True
name = self._getCPFuncName(func)
self._checkpoints.setdefault(name, 0)
self._checkpoints[name] += 1
return True
# check if a particular method was called
def CPcheck(self, func):
if self._CPdestroyed():
return True
name = self._getCPFuncName(func)
if self._checkpoints.get(name) is None:
__builtin__.tree = Functor(ClassTree, self)
raise ('\n%s not called for %s.%s\n call tree() to view %s class hierarchy' % (
name, self.__module__, self.__class__.__name__, self.__class__.__name__))
self.CPreset(name)
return True
def checkpoint(f):
"""
Use this decorator to track if a particular method has been called.
Class must derive from HasCheckpoints.
"""
def _checkpoint(obj, *args, **kArgs):
obj.CPvisit(f)
return f(obj, *args, **kArgs)
_checkpoint.__doc__ = f.__doc__
_checkpoint.__name__ = f.__name__
_checkpoint.__module__ = f.__module__
return _checkpoint
def calldownEnforced(f):
"""
Use this decorator to ensure that derived classes that override this method
call down to the base class method.
"""
# TODO
return f
if __debug__:
class CheckPointTest(HasCheckpoints):
@checkpoint
def testFunc(self):
pass
cpt = CheckPointTest()
raised = True
try:
cpt.CPcheck(CheckPointTest.testFunc)
raised = False
except:
pass
if not raised:
raise 'CPcheck failed to raise'
cpt.testFunc()
cpt.CPcheck(CheckPointTest.testFunc)
try:
cpt.CPcheck('testFunc')
raised = False
except:
pass
if not raised:
raise 'CPcheck failed to raise'
del cpt
del CheckPointTest
class ClassTree:
def __init__(self, instanceOrClass):
if type(instanceOrClass) in (types.ClassType, types.TypeType):
@ -2409,6 +2316,13 @@ class ClassTree:
for base in self._cls.__bases__:
if base not in (types.ObjectType, types.TypeType):
self._bases.append(ClassTree(base))
def getAllClasses(self):
# returns set of this class and all base classes
classes = set()
classes.add(self._cls)
for base in self._bases:
classes.update(base.getAllClasses())
return classes
def _getStr(self, indent=None, clsLeftAtIndent=None):
# indent is how far to the right to indent (i.e. how many levels
# deep in the hierarchy from the most-derived)
@ -2433,6 +2347,16 @@ class ClassTree:
s += ' +'
s += self._cls.__name__
clsLeftAtIndent[indent] -= 1
"""
### show the module to the right of the class name
moduleIndent = 48
if len(s) >= moduleIndent:
moduleIndent = (len(s) % 4) + 4
padding = moduleIndent - len(s)
s += padding * ' '
s += self._cls.__module__
###
"""
if len(self._bases):
newList = list(clsLeftAtIndent)
newList.append(len(self._bases))
@ -2445,6 +2369,196 @@ class ClassTree:
def __repr__(self):
return self._getStr()
class EnforcedCalldownException(Exception):
def __init__(self, what):
Exception.__init__(self, what)
class EnforcesCalldowns:
"""Derive from this class if you want to ensure that specific methods
get called. See calldownEnforced decorator below"""
# class-level data for enforcement of base class method call-down
#
# The problem is that we don't have access to the class in the
# decorator, so we need to put the decorated methods in a global
# dict. We can then insert a stub method on each class instance for
# every method that has enforced base-class methods, and the stub can
# watch for each base-class method checkpoint to be passed.
# since the decorator can't know its own id until after it has been
# defined, we map from decorator ID to original func ID
_decoId2funcId = {}
# as calldownEnforced decorators are created, they add themselves to
# this dict. At this point we don't know what class they belong to.
_funcId2func = {}
# this is here so that we can print nice error messages
_funcId2class = {}
# as class instances are created, we populate this dictionary of
# class to func name to list of func ids. The lists of func ids
# include base-class funcs.
_class2funcName2funcIds = {}
# this method will be inserted into instances of classes that need
# to enforce base-class method calls, as the most-derived implementation
# of the method
@staticmethod
def _enforceCalldowns(oldMethod, name, obj, *args, **kArgs):
name2funcIds = EnforcesCalldowns._class2funcName2funcIds[obj.__class__]
funcIds = name2funcIds.get(name)
# prepare for the method call
for funcId in funcIds:
obj._EClatch(funcId)
# call the actual method that we're stubbing
result = oldMethod(*args, **kArgs)
# check on the results
for funcId in funcIds:
obj._ECcheck(funcId)
return result
def __init__(self):
if not __debug__:
return
# this map tracks how many times each func has been called
self._funcId2calls = {}
# this map tracks the 'latch' values for each func; if the call count
# for a func is greater than the latch, then the func has been called.
self._funcId2latch = {}
if self.__class__ not in EnforcesCalldowns._class2funcName2funcIds:
# prepare stubs to enforce method call-downs
EnforcesCalldowns._class2funcName2funcIds.setdefault(self.__class__, {})
# look through all of our base classes and find matches
classes = ClassTree(self).getAllClasses()
# collect IDs of all the enforced methods
funcId2func = {}
for cls in classes:
for name, item in cls.__dict__.items():
if id(item) in EnforcesCalldowns._decoId2funcId:
funcId = EnforcesCalldowns._decoId2funcId[id(item)]
funcId2func[funcId] = item
EnforcesCalldowns._funcId2class[funcId] = cls
# add these funcs to the list for our class
funcName2funcIds = EnforcesCalldowns._class2funcName2funcIds[self.__class__]
for funcId, func in funcId2func.items():
funcName2funcIds.setdefault(func.__name__, [])
funcName2funcIds[func.__name__].append(funcId)
# now run through all the enforced funcs for this class and insert
# stub methods to do the enforcement
funcName2funcIds = EnforcesCalldowns._class2funcName2funcIds[self.__class__]
self._obscuredMethodNames = set()
for name in funcName2funcIds:
oldMethod = getattr(self, name)
self._obscuredMethodNames.add(name)
setattr(self, name, new.instancemethod(
Functor(EnforcesCalldowns._enforceCalldowns, oldMethod, name),
self, self.__class__))
def destroy(self):
# this must be called on destruction to prevent memory leaks
#import pdb;pdb.set_trace()
for name in self._obscuredMethodNames:
delattr(self, name)
del self._obscuredMethodNames
# this opens up more cans of worms. Let's keep it closed for the moment
#del self._funcId2calls
#del self._funcId2latch
def skipCalldown(self, method):
if not __debug__:
return
# Call this function if you really don't want to call down to an
# enforced base-class method. This should hardly ever be used.
funcName2funcIds = EnforcesCalldowns._class2funcName2funcIds[self.__class__]
funcIds = funcName2funcIds[method.__name__]
for funcId in funcIds:
self._ECvisit(funcId)
def _EClatch(self, funcId):
self._funcId2calls.setdefault(funcId, 0)
self._funcId2latch[funcId] = self._funcId2calls[funcId]
def _ECvisit(self, funcId):
self._funcId2calls.setdefault(funcId, 0)
self._funcId2calls[funcId] += 1
def _ECcheck(self, funcId):
if self._funcId2latch[funcId] == self._funcId2calls[funcId]:
func = EnforcesCalldowns._funcId2func[funcId]
raise EnforcedCalldownException(
'%s.%s did not call down to %s.%s\n%s' % (
self.__class__.__module__, self.__class__.__name__,
EnforcesCalldowns._funcId2class[funcId].__name__,
func.__name__,
ClassTree(self)))
def calldownEnforced(f):
"""
Use this decorator to ensure that derived classes that override this method
call down to the base class method.
"""
if not __debug__:
return f
def calldownEnforcedImpl(obj, *args, **kArgs):
# track the fact that this func has been called
obj._ECvisit(id(f))
f(obj, *args, **kArgs)
calldownEnforcedImpl.__doc__ = f.__doc__
calldownEnforcedImpl.__name__ = f.__name__
calldownEnforcedImpl.__module__ = f.__module__
EnforcesCalldowns._decoId2funcId[id(calldownEnforcedImpl)] = id(f)
EnforcesCalldowns._funcId2func[id(f)] = calldownEnforcedImpl
return calldownEnforcedImpl
if __debug__:
class CalldownEnforceTest(EnforcesCalldowns):
@calldownEnforced
def testFunc(self):
pass
class CalldownEnforceTestSubclass(CalldownEnforceTest):
def testFunc(self):
CalldownEnforceTest.testFunc(self)
class CalldownEnforceTestSubclassFail(CalldownEnforceTest):
def testFunc(self):
pass
class CalldownEnforceTestSubclassSkip(CalldownEnforceTest):
def testFunc(self):
self.skipCalldown(CalldownEnforceTest.testFunc)
cets = CalldownEnforceTestSubclass()
cetsf = CalldownEnforceTestSubclassFail()
cetss = CalldownEnforceTestSubclassSkip()
raised = False
try:
cets.testFunc()
except EnforcedCalldownException, e:
raised = True
if raised:
raise "calldownEnforced raised when it shouldn't"
raised = False
try:
cetsf.testFunc()
except EnforcedCalldownException, e:
raised = True
if not raised:
raise 'calldownEnforced failed to raise'
raised = False
try:
cetss.testFunc()
except EnforcedCalldownException, e:
raised = True
if raised:
raise "calldownEnforced.skipCalldown raised when it shouldn't"
del cetss
del cetsf
del cets
del CalldownEnforceTestSubclassSkip
del CalldownEnforceTestSubclassFail
del CalldownEnforceTestSubclass
del CalldownEnforceTest
import __builtin__
__builtin__.Functor = Functor
__builtin__.Stack = Stack