x64/Lib/ctypes/test/test_win32.py - platform/prebuilts/python/windows-x86 - Git at Google

 # Windows specific tests

 from ctypes import *
 from ctypes.test import requires
 import unittest, sys
 from test import test_support as support

 import _ctypes_test

 # Only windows 32-bit has different calling conventions.
 @unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
 @unittest.skipUnless(sizeof(c_void_p) == sizeof(c_int),
                      "sizeof c_void_p and c_int differ")
 class WindowsTestCase(unittest.TestCase):
     def test_callconv_1(self):
         # Testing stdcall function

         IsWindow = windll.user32.IsWindow
         # ValueError: Procedure probably called with not enough arguments
         # (4 bytes missing)
         self.assertRaises(ValueError, IsWindow)

         # This one should succeed...
         self.assertEqual(0, IsWindow(0))

         # ValueError: Procedure probably called with too many arguments
         # (8 bytes in excess)
         self.assertRaises(ValueError, IsWindow, 0, 0, 0)

     def test_callconv_2(self):
         # Calling stdcall function as cdecl

         IsWindow = cdll.user32.IsWindow

         # ValueError: Procedure called with not enough arguments
         # (4 bytes missing) or wrong calling convention
         self.assertRaises(ValueError, IsWindow, None)

 @unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
 class FunctionCallTestCase(unittest.TestCase):
     @unittest.skipUnless('MSC' in sys.version, "SEH only supported by MSC")
     @unittest.skipIf(sys.executable.endswith('_d.exe'),
                      "SEH not enabled in debug builds")
     def test_SEH(self):
         requires("SEH")
         # Call functions with invalid arguments, and make sure
         # that access violations are trapped and raise an
         # exception.
         self.assertRaises(WindowsError, windll.kernel32.GetModuleHandleA, 32)

     def test_noargs(self):
         # This is a special case on win32 x64
         windll.user32.GetDesktopWindow()

 @unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
 class TestWintypes(unittest.TestCase):
     def test_HWND(self):
         from ctypes import wintypes
         self.assertEqual(sizeof(wintypes.HWND), sizeof(c_void_p))

     def test_PARAM(self):
         from ctypes import wintypes
         self.assertEqual(sizeof(wintypes.WPARAM),
                              sizeof(c_void_p))
         self.assertEqual(sizeof(wintypes.LPARAM),
                              sizeof(c_void_p))

     def test_COMError(self):
         from _ctypes import COMError
         if support.HAVE_DOCSTRINGS:
             self.assertEqual(COMError.__doc__,
                              "Raised when a COM method call failed.")

         ex = COMError(-1, "text", ("details",))
         self.assertEqual(ex.hresult, -1)
         self.assertEqual(ex.text, "text")
         self.assertEqual(ex.details, ("details",))

 class Structures(unittest.TestCase):
     def test_struct_by_value(self):
         class POINT(Structure):
             _fields_ = [("x", c_long),
                         ("y", c_long)]

         class RECT(Structure):
             _fields_ = [("left", c_long),
                         ("top", c_long),
                         ("right", c_long),
                         ("bottom", c_long)]

         dll = CDLL(_ctypes_test.__file__)

         pt = POINT(15, 25)
         left = c_long.in_dll(dll, 'left')
         top = c_long.in_dll(dll, 'top')
         right = c_long.in_dll(dll, 'right')
         bottom = c_long.in_dll(dll, 'bottom')
         rect = RECT(left, top, right, bottom)
         PointInRect = dll.PointInRect
         PointInRect.argtypes = [POINTER(RECT), POINT]
         self.assertEqual(1, PointInRect(byref(rect), pt))

         ReturnRect = dll.ReturnRect
         ReturnRect.argtypes = [c_int, RECT, POINTER(RECT), POINT, RECT,
                                POINTER(RECT), POINT, RECT]
         ReturnRect.restype = RECT
         for i in range(4):
             ret = ReturnRect(i, rect, pointer(rect), pt, rect,
                          byref(rect), pt, rect)
             # the c function will check and modify ret if something is
             # passed in improperly
             self.assertEqual(ret.left, left.value)
             self.assertEqual(ret.right, right.value)
             self.assertEqual(ret.top, top.value)
             self.assertEqual(ret.bottom, bottom.value)

 if __name__ == '__main__':
     unittest.main()
	# Windows specific tests

	from ctypes import *
	from ctypes.test import requires
	import unittest, sys
	from test import test_support as support

	import _ctypes_test

	# Only windows 32-bit has different calling conventions.
	@unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
	@unittest.skipUnless(sizeof(c_void_p) == sizeof(c_int),
	"sizeof c_void_p and c_int differ")
	class WindowsTestCase(unittest.TestCase):
	def test_callconv_1(self):
	# Testing stdcall function

	IsWindow = windll.user32.IsWindow
	# ValueError: Procedure probably called with not enough arguments
	# (4 bytes missing)
	self.assertRaises(ValueError, IsWindow)

	# This one should succeed...
	self.assertEqual(0, IsWindow(0))

	# ValueError: Procedure probably called with too many arguments
	# (8 bytes in excess)
	self.assertRaises(ValueError, IsWindow, 0, 0, 0)

	def test_callconv_2(self):
	# Calling stdcall function as cdecl

	IsWindow = cdll.user32.IsWindow

	# ValueError: Procedure called with not enough arguments
	# (4 bytes missing) or wrong calling convention
	self.assertRaises(ValueError, IsWindow, None)

	@unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
	class FunctionCallTestCase(unittest.TestCase):
	@unittest.skipUnless('MSC' in sys.version, "SEH only supported by MSC")
	@unittest.skipIf(sys.executable.endswith('_d.exe'),
	"SEH not enabled in debug builds")
	def test_SEH(self):
	requires("SEH")
	# Call functions with invalid arguments, and make sure
	# that access violations are trapped and raise an
	# exception.
	self.assertRaises(WindowsError, windll.kernel32.GetModuleHandleA, 32)

	def test_noargs(self):
	# This is a special case on win32 x64
	windll.user32.GetDesktopWindow()

	@unittest.skipUnless(sys.platform == "win32", 'Windows-specific test')
	class TestWintypes(unittest.TestCase):
	def test_HWND(self):
	from ctypes import wintypes
	self.assertEqual(sizeof(wintypes.HWND), sizeof(c_void_p))

	def test_PARAM(self):
	from ctypes import wintypes
	self.assertEqual(sizeof(wintypes.WPARAM),
	sizeof(c_void_p))
	self.assertEqual(sizeof(wintypes.LPARAM),
	sizeof(c_void_p))

	def test_COMError(self):
	from _ctypes import COMError
	if support.HAVE_DOCSTRINGS:
	self.assertEqual(COMError.__doc__,
	"Raised when a COM method call failed.")

	ex = COMError(-1, "text", ("details",))
	self.assertEqual(ex.hresult, -1)
	self.assertEqual(ex.text, "text")
	self.assertEqual(ex.details, ("details",))

	class Structures(unittest.TestCase):
	def test_struct_by_value(self):
	class POINT(Structure):
	_fields_ = [("x", c_long),
	("y", c_long)]

	class RECT(Structure):
	_fields_ = [("left", c_long),
	("top", c_long),
	("right", c_long),
	("bottom", c_long)]

	dll = CDLL(_ctypes_test.__file__)

	pt = POINT(15, 25)
	left = c_long.in_dll(dll, 'left')
	top = c_long.in_dll(dll, 'top')
	right = c_long.in_dll(dll, 'right')
	bottom = c_long.in_dll(dll, 'bottom')
	rect = RECT(left, top, right, bottom)
	PointInRect = dll.PointInRect
	PointInRect.argtypes = [POINTER(RECT), POINT]
	self.assertEqual(1, PointInRect(byref(rect), pt))

	ReturnRect = dll.ReturnRect
	ReturnRect.argtypes = [c_int, RECT, POINTER(RECT), POINT, RECT,
	POINTER(RECT), POINT, RECT]
	ReturnRect.restype = RECT
	for i in range(4):
	ret = ReturnRect(i, rect, pointer(rect), pt, rect,
	byref(rect), pt, rect)
	# the c function will check and modify ret if something is
	# passed in improperly
	self.assertEqual(ret.left, left.value)
	self.assertEqual(ret.right, right.value)
	self.assertEqual(ret.top, top.value)
	self.assertEqual(ret.bottom, bottom.value)

	if __name__ == '__main__':
	unittest.main()