Poodletooth-iLand/panda/direct/showbase/CountedResource.py

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Python
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2015-03-03 22:10:12 +00:00
class CountedResource(object):
"""
This class is an attempt to combine the RAIA idiom with reference
counting semantics in order to model shared resources. RAIA stands
for "Resource Allocation Is Acquisition" (see 'Effective C++' for a
more in-depth explanation)
When a resource is needed, create an appropriate CountedResource
object. If the resource is already available (meaning another
CountedResource object of the same type already exists), no action
is taken. Otherwise, acquire() is invoked, and the resource is
allocated. The resource will remain valid until all matching
CountedResource objects have been deleted. When no objects of
a particular CountedResource type exist, the release() function for
that type is invoked and the managed resource is cleaned up.
Usage:
Define a subclass of CountedResource that defines the
@classmethods acquire() and release(). In these two
functions, define your resource allocation and cleanup code.
IMPORTANT:
If you define your own __init__ and __del__ methods, you
MUST be sure to call down to the ones defined in
CountedResource.
Notes:
Until we figure out a way to wrangle a bit more functionality
out of Python, you MUST NOT inherit from any class that has
CountedResource as its base class. In debug mode, this will
raise a runtime assertion during the invalid class's call to
__init__(). If you have more than one resource that you want to
manage/access with a single object, you should subclass
CountedResource again. See the example code at the bottom of
this file to see how to accomplish this (This is useful for
dependent resources).
"""
@classmethod
def incrementCounter(cls):
try:
cls.RESOURCE_COUNTER += 1
except AttributeError:
cls.RESOURCE_COUNTER = 1
if cls.RESOURCE_COUNTER == 1:
cls.acquire()
@classmethod
def decrementCounter(cls):
try:
cls.RESOURCE_COUNTER_INIT_FAILED
del cls.RESOURCE_COUNTER_INIT_FAILED
except AttributeError:
cls.RESOURCE_COUNTER -= 1
if cls.RESOURCE_COUNTER < 1:
cls.release()
@classmethod
def getCount(cls):
return cls.RESOURCE_COUNTER
@classmethod
def acquire(cls):
pass
@classmethod
def release(cls):
pass
def __init__(self):
cls = type(self)
cls.RESOURCE_COUNTER_INIT_FAILED = True
assert cls.mro()[1] == CountedResource, \
(lambda: \
'%s cannot be subclassed.' \
% cls.mro()[list(cls.mro()).index(CountedResource) - 1].__name__)()
del cls.RESOURCE_COUNTER_INIT_FAILED
self.incrementCounter()
def __del__(self):
self.decrementCounter()
if __debug__ and __name__ == '__main__':
class MouseResource(CountedResource):
"""
A simple class to demonstrate the acquisition of a resource.
"""
@classmethod
def acquire(cls):
# The call to the super-class's acquire() is
# not necessary at the moment, but may be in
# the future, so do it now for good measure.
super(MouseResource, cls).acquire()
# Now acquire the resource this class is
# managing.
print '-- Acquire Mouse'
@classmethod
def release(cls):
# First, release the resource this class is
# managing.
print '-- Release Mouse'
# The call to the super-class's release() is
# not necessary at the moment, but may be in
# the future, so do it now for good measure.
super(MouseResource, cls).release()
def __init__(self):
super(MouseResource, self).__init__()
def __del__(self):
super(MouseResource, self).__del__()
class CursorResource(CountedResource):
"""
A class to demonstrate how to implement a dependent
resource. Notice how this class also inherits from
CountedResource. Instead of subclassing MouseCounter,
we will just acquire it in our __init__() and release
it in our __del__().
"""
@classmethod
def acquire(cls):
super(CursorResource, cls).acquire()
print '-- Acquire Cursor'
@classmethod
def release(cls):
print '-- Release Cursor'
super(CursorResource, cls).release()
def __init__(self):
# The required resource references should
# be stored on 'self' since we want to
# release it when the object is deleted.
self.__mouseResource = MouseResource()
# Call the super-classes __init__()
# after all required resources are
# referenced.
super(CursorResource, self).__init__()
def __del__(self):
# Free up the most dependent resource
# first, the one this class is managing.
super(CursorResource, self).__del__()
# Now unlink any required resources.
del self.__mouseResource
class InvalidResource(MouseResource):
@classmethod
def acquire(cls):
super(InvalidResource, cls).acquire()
print '-- Acquire Invalid'
@classmethod
def release(cls):
print '-- Release Invalid'
super(InvalidResource, cls).release()
print '\nAllocate Mouse'
m = MouseResource()
print 'Free up Mouse'
del m
print '\nAllocate Cursor'
c = CursorResource()
print 'Free up Cursor'
del c
print '\nAllocate Mouse then Cursor'
m = MouseResource()
c = CursorResource()
print 'Free up Cursor'
del c
print 'Free up Mouse'
del m
print '\nAllocate Mouse then Cursor'
m = MouseResource()
c = CursorResource()
print 'Free up Mouse'
del m
print 'Free up Cursor'
del c
print '\nAllocate Cursor then Mouse'
c = CursorResource()
m = MouseResource()
print 'Free up Mouse'
del m
print 'Free up Cursor'
del c
print '\nAllocate Cursor then Mouse'
c = CursorResource()
m = MouseResource()
print 'Free up Cursor'
del c
# example of an invalid subclass
try:
print '\nAllocate Invalid'
i = InvalidResource()
print 'Free up Invalid'
except AssertionError,e:
print e
print
print 'Free up Mouse'
del m
def demoFunc():
print '\nAllocate Cursor within function'
c = CursorResource()
print 'Cursor will be freed on function exit'
demoFunc()