boost_1_45_0/libs/python/test/virtual_functions.py - nest-learning-thermostat/5.0/boost - Git at Google

 # Copyright David Abrahams 2004. Distributed under the Boost
 # Software License, Version 1.0. (See accompanying
 # file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 '''
 >>> from virtual_functions_ext import *

 >>> class C1(concrete):
 ...     def f(self, y):
 ...         return concrete.f(self, Y(-y.value()))

 >>> class C2(concrete):
 ...     pass

 >>> class A1(abstract):
 ...     def f(self, y):
 ...         return y.value() * 2
 ...     def g(self, y):
 ...         return self

 >>> class A2(abstract):
 ...     pass


 >>> y1 = Y(16)
 >>> y2 = Y(17)


 #
 # Test abstract with f,g overridden
 #
 >>> a1 = A1(42)
 >>> a1.value()
 42

 # Call f,g indirectly from C++
 >>> a1.call_f(y1)
 32
 >>> assert type(a1.call_g(y1)) is abstract

 # Call f directly from Python
 >>> a1.f(y2)
 34

 #
 # Test abstract with f not overridden
 #
 >>> a2 = A2(42)
 >>> a2.value()
 42

 # Call f indirectly from C++
 >>> try: a2.call_f(y1)
 ... except AttributeError: pass
 ... else: print 'no exception'

 # Call f directly from Python
 >>> try: a2.call_f(y2)
 ... except AttributeError: pass
 ... else: print 'no exception'

 ############# Concrete Tests ############

 #
 # Test concrete with f overridden
 #
 >>> c1 = C1(42)
 >>> c1.value()
 42

 # Call f indirectly from C++
 >>> c1.call_f(y1)
 -16

 # Call f directly from Python
 >>> c1.f(y2)
 -17

 #
 # Test concrete with f not overridden
 #
 >>> c2 = C2(42)
 >>> c2.value()
 42

 # Call f indirectly from C++
 >>> c2.call_f(y1)
 16

 # Call f directly from Python
 >>> c2.f(y2)
 17


 '''

 def run(args = None):
     import sys
     import doctest

     if args is not None:
         sys.argv = args
     return doctest.testmod(sys.modules.get(__name__))

 if __name__ == '__main__':
     print "running..."
     import sys
     status = run()[0]
     if (status == 0): print "Done."
     sys.exit(status)
	# Copyright David Abrahams 2004. Distributed under the Boost
	# Software License, Version 1.0. (See accompanying
	# file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
	'''
	>>> from virtual_functions_ext import *

	>>> class C1(concrete):
	... def f(self, y):
	... return concrete.f(self, Y(-y.value()))

	>>> class C2(concrete):
	... pass

	>>> class A1(abstract):
	... def f(self, y):
	... return y.value() * 2
	... def g(self, y):
	... return self

	>>> class A2(abstract):
	... pass


	>>> y1 = Y(16)
	>>> y2 = Y(17)



	#
	# Test abstract with f,g overridden
	#
	>>> a1 = A1(42)
	>>> a1.value()
	42

	# Call f,g indirectly from C++
	>>> a1.call_f(y1)
	32
	>>> assert type(a1.call_g(y1)) is abstract

	# Call f directly from Python
	>>> a1.f(y2)
	34

	#
	# Test abstract with f not overridden
	#
	>>> a2 = A2(42)
	>>> a2.value()
	42

	# Call f indirectly from C++
	>>> try: a2.call_f(y1)
	... except AttributeError: pass
	... else: print 'no exception'

	# Call f directly from Python
	>>> try: a2.call_f(y2)
	... except AttributeError: pass
	... else: print 'no exception'

	############# Concrete Tests ############

	#
	# Test concrete with f overridden
	#
	>>> c1 = C1(42)
	>>> c1.value()
	42

	# Call f indirectly from C++
	>>> c1.call_f(y1)
	-16

	# Call f directly from Python
	>>> c1.f(y2)
	-17

	#
	# Test concrete with f not overridden
	#
	>>> c2 = C2(42)
	>>> c2.value()
	42

	# Call f indirectly from C++
	>>> c2.call_f(y1)
	16

	# Call f directly from Python
	>>> c2.f(y2)
	17


	'''

	def run(args = None):
	import sys
	import doctest

	if args is not None:
	sys.argv = args
	return doctest.testmod(sys.modules.get(__name__))

	if __name__ == '__main__':
	print "running..."
	import sys
	status = run()[0]
	if (status == 0): print "Done."
	sys.exit(status)