boost_1_45_0/libs/python/test/newtest.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 m1 import *

 >>> from m2 import *

    Prove that we get an appropriate error from trying to return a type
    for which we have no registered to_python converter

 >>> def check_unregistered(f, msgprefix):
 ...     try:
 ...         f(1)
 ...     except TypeError, x:
 ...         if not str(x).startswith(msgprefix):
 ...             print str(x)
 ...     else:
 ...         print 'expected a TypeError'
 ...
 >>> check_unregistered(make_unregistered, 'No to_python (by-value) converter found for C++ type')
 >>> check_unregistered(make_unregistered2, 'No Python class registered for C++ class')

 >>> n = new_noddy()
 >>> s = new_simple()
 >>> unwrap_int(n)
 42
 >>> unwrap_int_ref(n)
 42
 >>> unwrap_int_const_ref(n)
 42
 >>> unwrap_simple(s)
 'hello, world'
 >>> unwrap_simple_ref(s)
 'hello, world'
 >>> unwrap_simple_const_ref(s)
 'hello, world'
 >>> unwrap_int(5)
 5

 Can't get a non-const reference to a built-in integer object
 >>> try:
 ...     unwrap_int_ref(7)
 ... except: pass
 ... else: print 'no exception'

 >>> unwrap_int_const_ref(9)
 9

 >>> wrap_int(n)
 42

 try: wrap_int_ref(n)
 ... except: pass
 ... else: print 'no exception'

 >>> wrap_int_const_ref(n)
 42

 >>> unwrap_simple_ref(wrap_simple(s))
 'hello, world'

 >>> unwrap_simple_ref(wrap_simple_ref(s))
 'hello, world'

 >>> unwrap_simple_ref(wrap_simple_const_ref(s))
 'hello, world'

 >>> f(s)
 12

 >>> unwrap_simple(g(s))
 'hello, world'

 >>> f(g(s))
 12

 >>> f_mutable_ref(g(s))
 12

 >>> f_const_ptr(g(s))
 12

 >>> f_mutable_ptr(g(s))
 12

 >>> f2(g(s))
 12

 Create an extension class which wraps "complicated" (init1 and get_n)
 are a complicated constructor and member function, respectively.

 >>> c1 = complicated(s, 99)
 >>> c1.get_n()
 99
 >>> c2 = complicated(s)
 >>> c2.get_n()
 0

      a quick regression test for a bug where None could be converted
      to the target of any member function. To see it, we need to
      access the __dict__ directly, to bypass the type check supplied
      by the Method property which wraps the method when accessed as an
      attribute.

 >>> try: A.__dict__['name'](None)
 ... except TypeError: pass
 ... else: print 'expected an exception!'


 >>> a = A()
 >>> b = B()
 >>> c = C()
 >>> d = D()


 >>> take_a(a).name()
 'A'

 >>> try:
 ...     take_b(a)
 ... except: pass
 ... else: print 'no exception'

 >>> try:
 ...     take_c(a)
 ... except: pass
 ... else: print 'no exception'

 >>> try:
 ...     take_d(a)
 ... except: pass
 ... else: print 'no exception'

 ------
 >>> take_a(b).name()
 'A'

 >>> take_b(b).name()
 'B'

 >>> try:
 ...     take_c(b)
 ... except: pass
 ... else: print 'no exception'

 >>> try:
 ...     take_d(b)
 ... except: pass
 ... else: print 'no exception'

 -------
 >>> take_a(c).name()
 'A'

 >>> try:
 ...     take_b(c)
 ... except: pass
 ... else: print 'no exception'

 >>> take_c(c).name()
 'C'

 >>> try:
 ...     take_d(c)
 ... except: pass
 ... else: print 'no exception'

 -------
 >>> take_a(d).name()
 'A'
 >>> take_b(d).name()
 'B'
 >>> take_c(d).name()
 'C'
 >>> take_d(d).name()
 'D'

 >>> take_d_shared_ptr(d).name()
 'D'

 >>> d_as_a = d_factory()
 >>> dd = take_d(d_as_a)
 >>> dd.name()
 'D'
 >>> print g.__doc__.splitlines()[1]
 g( (Simple)arg1) -> Simple :

 """

 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 m1 import *

	>>> from m2 import *

	Prove that we get an appropriate error from trying to return a type
	for which we have no registered to_python converter

	>>> def check_unregistered(f, msgprefix):
	... try:
	... f(1)
	... except TypeError, x:
	... if not str(x).startswith(msgprefix):
	... print str(x)
	... else:
	... print 'expected a TypeError'
	...
	>>> check_unregistered(make_unregistered, 'No to_python (by-value) converter found for C++ type')
	>>> check_unregistered(make_unregistered2, 'No Python class registered for C++ class')

	>>> n = new_noddy()
	>>> s = new_simple()
	>>> unwrap_int(n)
	42
	>>> unwrap_int_ref(n)
	42
	>>> unwrap_int_const_ref(n)
	42
	>>> unwrap_simple(s)
	'hello, world'
	>>> unwrap_simple_ref(s)
	'hello, world'
	>>> unwrap_simple_const_ref(s)
	'hello, world'
	>>> unwrap_int(5)
	5

	Can't get a non-const reference to a built-in integer object
	>>> try:
	... unwrap_int_ref(7)
	... except: pass
	... else: print 'no exception'

	>>> unwrap_int_const_ref(9)
	9

	>>> wrap_int(n)
	42

	try: wrap_int_ref(n)
	... except: pass
	... else: print 'no exception'

	>>> wrap_int_const_ref(n)
	42

	>>> unwrap_simple_ref(wrap_simple(s))
	'hello, world'

	>>> unwrap_simple_ref(wrap_simple_ref(s))
	'hello, world'

	>>> unwrap_simple_ref(wrap_simple_const_ref(s))
	'hello, world'

	>>> f(s)
	12

	>>> unwrap_simple(g(s))
	'hello, world'

	>>> f(g(s))
	12

	>>> f_mutable_ref(g(s))
	12

	>>> f_const_ptr(g(s))
	12

	>>> f_mutable_ptr(g(s))
	12

	>>> f2(g(s))
	12

	Create an extension class which wraps "complicated" (init1 and get_n)
	are a complicated constructor and member function, respectively.

	>>> c1 = complicated(s, 99)
	>>> c1.get_n()
	99
	>>> c2 = complicated(s)
	>>> c2.get_n()
	0

	a quick regression test for a bug where None could be converted
	to the target of any member function. To see it, we need to
	access the __dict__ directly, to bypass the type check supplied
	by the Method property which wraps the method when accessed as an
	attribute.

	>>> try: A.__dict__['name'](None)
	... except TypeError: pass
	... else: print 'expected an exception!'


	>>> a = A()
	>>> b = B()
	>>> c = C()
	>>> d = D()


	>>> take_a(a).name()
	'A'

	>>> try:
	... take_b(a)
	... except: pass
	... else: print 'no exception'

	>>> try:
	... take_c(a)
	... except: pass
	... else: print 'no exception'

	>>> try:
	... take_d(a)
	... except: pass
	... else: print 'no exception'

	------
	>>> take_a(b).name()
	'A'

	>>> take_b(b).name()
	'B'

	>>> try:
	... take_c(b)
	... except: pass
	... else: print 'no exception'

	>>> try:
	... take_d(b)
	... except: pass
	... else: print 'no exception'

	-------
	>>> take_a(c).name()
	'A'

	>>> try:
	... take_b(c)
	... except: pass
	... else: print 'no exception'

	>>> take_c(c).name()
	'C'

	>>> try:
	... take_d(c)
	... except: pass
	... else: print 'no exception'

	-------
	>>> take_a(d).name()
	'A'
	>>> take_b(d).name()
	'B'
	>>> take_c(d).name()
	'C'
	>>> take_d(d).name()
	'D'

	>>> take_d_shared_ptr(d).name()
	'D'

	>>> d_as_a = d_factory()
	>>> dd = take_d(d_as_a)
	>>> dd.name()
	'D'
	>>> print g.__doc__.splitlines()[1]
	g( (Simple)arg1) -> Simple :

	"""

	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)