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📁 ..
📄 __init__.py(399 B)
📄 __main__.py(68 B)
📁 __pycache__
📄 test_anon.py(2.48 KB)
📄 test_array_in_pointer.py(1.7 KB)
📄 test_arrays.py(7.33 KB)
📄 test_as_parameter.py(6.76 KB)
📄 test_bitfields.py(9.98 KB)
📄 test_buffers.py(2.55 KB)
📄 test_bytes.py(1.94 KB)
📄 test_byteswap.py(11.14 KB)
📄 test_callbacks.py(10.33 KB)
📄 test_cast.py(3.64 KB)
📄 test_cfuncs.py(7.5 KB)
📄 test_checkretval.py(968 B)
📄 test_delattr.py(533 B)
📄 test_errno.py(2.12 KB)
📄 test_find.py(4.33 KB)
📄 test_frombuffer.py(5.09 KB)
📄 test_funcptr.py(3.93 KB)
📄 test_functions.py(12.26 KB)
📄 test_incomplete.py(1023 B)
📄 test_init.py(1.01 KB)
📄 test_internals.py(2.57 KB)
📄 test_keeprefs.py(3.96 KB)
📄 test_libc.py(1005 B)
📄 test_loading.py(6.91 KB)
📄 test_macholib.py(2.07 KB)
📄 test_memfunctions.py(3.22 KB)
📄 test_numbers.py(9.3 KB)
📄 test_objects.py(1.64 KB)
📄 test_parameters.py(9.35 KB)
📄 test_pep3118.py(8.32 KB)
📄 test_pickling.py(2.17 KB)
📄 test_pointers.py(7.07 KB)
📄 test_prototypes.py(6.68 KB)
📄 test_python_api.py(2.8 KB)
📄 test_random_things.py(2.77 KB)
📄 test_refcounts.py(2.52 KB)
📄 test_repr.py(842 B)
📄 test_returnfuncptrs.py(2.83 KB)
📄 test_simplesubclasses.py(1.26 KB)
📄 test_sizes.py(804 B)
📄 test_slicing.py(5.88 KB)
📄 test_stringptr.py(2.48 KB)
📄 test_strings.py(7.13 KB)
📄 test_struct_fields.py(2.36 KB)
📄 test_structures.py(26.57 KB)
📄 test_unaligned_structures.py(1.11 KB)
📄 test_unicode.py(1.95 KB)
📄 test_values.py(3.78 KB)
📄 test_varsize_struct.py(1.8 KB)
📄 test_win32.py(4.91 KB)
📄 test_wintypes.py(1.36 KB)

Editing: test_byteswap.py

import sys, unittest, struct, math, ctypes
from binascii import hexlify

from ctypes import *

def bin(s):
    return hexlify(memoryview(s)).decode().upper()

# Each *simple* type that supports different byte orders has an
# __ctype_be__ attribute that specifies the same type in BIG ENDIAN
# byte order, and a __ctype_le__ attribute that is the same type in
# LITTLE ENDIAN byte order.
#
# For Structures and Unions, these types are created on demand.

class Test(unittest.TestCase):
    @unittest.skip('test disabled')
    def test_X(self):
        print(sys.byteorder, file=sys.stderr)
        for i in range(32):
            bits = BITS()
            setattr(bits, "i%s" % i, 1)
            dump(bits)

def test_slots(self):
        class BigPoint(BigEndianStructure):
            __slots__ = ()
            _fields_ = [("x", c_int), ("y", c_int)]

class LowPoint(LittleEndianStructure):
            __slots__ = ()
            _fields_ = [("x", c_int), ("y", c_int)]

big = BigPoint()
        little = LowPoint()
        big.x = 4
        big.y = 2
        little.x = 2
        little.y = 4
        with self.assertRaises(AttributeError):
            big.z = 42
        with self.assertRaises(AttributeError):
            little.z = 24

def test_endian_short(self):
        if sys.byteorder == "little":
            self.assertIs(c_short.__ctype_le__, c_short)
            self.assertIs(c_short.__ctype_be__.__ctype_le__, c_short)
        else:
            self.assertIs(c_short.__ctype_be__, c_short)
            self.assertIs(c_short.__ctype_le__.__ctype_be__, c_short)
        s = c_short.__ctype_be__(0x1234)
        self.assertEqual(bin(struct.pack(">h", 0x1234)), "1234")
        self.assertEqual(bin(s), "1234")
        self.assertEqual(s.value, 0x1234)

s = c_short.__ctype_le__(0x1234)
        self.assertEqual(bin(struct.pack("<h", 0x1234)), "3412")
        self.assertEqual(bin(s), "3412")
        self.assertEqual(s.value, 0x1234)

s = c_ushort.__ctype_be__(0x1234)
        self.assertEqual(bin(struct.pack(">h", 0x1234)), "1234")
        self.assertEqual(bin(s), "1234")
        self.assertEqual(s.value, 0x1234)

s = c_ushort.__ctype_le__(0x1234)
        self.assertEqual(bin(struct.pack("<h", 0x1234)), "3412")
        self.assertEqual(bin(s), "3412")
        self.assertEqual(s.value, 0x1234)

def test_endian_int(self):
        if sys.byteorder == "little":
            self.assertIs(c_int.__ctype_le__, c_int)
            self.assertIs(c_int.__ctype_be__.__ctype_le__, c_int)
        else:
            self.assertIs(c_int.__ctype_be__, c_int)
            self.assertIs(c_int.__ctype_le__.__ctype_be__, c_int)

s = c_int.__ctype_be__(0x12345678)
        self.assertEqual(bin(struct.pack(">i", 0x12345678)), "12345678")
        self.assertEqual(bin(s), "12345678")
        self.assertEqual(s.value, 0x12345678)

s = c_int.__ctype_le__(0x12345678)
        self.assertEqual(bin(struct.pack("<i", 0x12345678)), "78563412")
        self.assertEqual(bin(s), "78563412")
        self.assertEqual(s.value, 0x12345678)

s = c_uint.__ctype_be__(0x12345678)
        self.assertEqual(bin(struct.pack(">I", 0x12345678)), "12345678")
        self.assertEqual(bin(s), "12345678")
        self.assertEqual(s.value, 0x12345678)

s = c_uint.__ctype_le__(0x12345678)
        self.assertEqual(bin(struct.pack("<I", 0x12345678)), "78563412")
        self.assertEqual(bin(s), "78563412")
        self.assertEqual(s.value, 0x12345678)

def test_endian_longlong(self):
        if sys.byteorder == "little":
            self.assertIs(c_longlong.__ctype_le__, c_longlong)
            self.assertIs(c_longlong.__ctype_be__.__ctype_le__, c_longlong)
        else:
            self.assertIs(c_longlong.__ctype_be__, c_longlong)
            self.assertIs(c_longlong.__ctype_le__.__ctype_be__, c_longlong)

s = c_longlong.__ctype_be__(0x1234567890ABCDEF)
        self.assertEqual(bin(struct.pack(">q", 0x1234567890ABCDEF)), "1234567890ABCDEF")
        self.assertEqual(bin(s), "1234567890ABCDEF")
        self.assertEqual(s.value, 0x1234567890ABCDEF)

s = c_longlong.__ctype_le__(0x1234567890ABCDEF)
        self.assertEqual(bin(struct.pack("<q", 0x1234567890ABCDEF)), "EFCDAB9078563412")
        self.assertEqual(bin(s), "EFCDAB9078563412")
        self.assertEqual(s.value, 0x1234567890ABCDEF)

s = c_ulonglong.__ctype_be__(0x1234567890ABCDEF)
        self.assertEqual(bin(struct.pack(">Q", 0x1234567890ABCDEF)), "1234567890ABCDEF")
        self.assertEqual(bin(s), "1234567890ABCDEF")
        self.assertEqual(s.value, 0x1234567890ABCDEF)

s = c_ulonglong.__ctype_le__(0x1234567890ABCDEF)
        self.assertEqual(bin(struct.pack("<Q", 0x1234567890ABCDEF)), "EFCDAB9078563412")
        self.assertEqual(bin(s), "EFCDAB9078563412")
        self.assertEqual(s.value, 0x1234567890ABCDEF)

def test_endian_float(self):
        if sys.byteorder == "little":
            self.assertIs(c_float.__ctype_le__, c_float)
            self.assertIs(c_float.__ctype_be__.__ctype_le__, c_float)
        else:
            self.assertIs(c_float.__ctype_be__, c_float)
            self.assertIs(c_float.__ctype_le__.__ctype_be__, c_float)
        s = c_float(math.pi)
        self.assertEqual(bin(struct.pack("f", math.pi)), bin(s))
        # Hm, what's the precision of a float compared to a double?
        self.assertAlmostEqual(s.value, math.pi, places=6)
        s = c_float.__ctype_le__(math.pi)
        self.assertAlmostEqual(s.value, math.pi, places=6)
        self.assertEqual(bin(struct.pack("<f", math.pi)), bin(s))
        s = c_float.__ctype_be__(math.pi)
        self.assertAlmostEqual(s.value, math.pi, places=6)
        self.assertEqual(bin(struct.pack(">f", math.pi)), bin(s))

def test_endian_double(self):
        if sys.byteorder == "little":
            self.assertIs(c_double.__ctype_le__, c_double)
            self.assertIs(c_double.__ctype_be__.__ctype_le__, c_double)
        else:
            self.assertIs(c_double.__ctype_be__, c_double)
            self.assertIs(c_double.__ctype_le__.__ctype_be__, c_double)
        s = c_double(math.pi)
        self.assertEqual(s.value, math.pi)
        self.assertEqual(bin(struct.pack("d", math.pi)), bin(s))
        s = c_double.__ctype_le__(math.pi)
        self.assertEqual(s.value, math.pi)
        self.assertEqual(bin(struct.pack("<d", math.pi)), bin(s))
        s = c_double.__ctype_be__(math.pi)
        self.assertEqual(s.value, math.pi)
        self.assertEqual(bin(struct.pack(">d", math.pi)), bin(s))

def test_endian_other(self):
        self.assertIs(c_byte.__ctype_le__, c_byte)
        self.assertIs(c_byte.__ctype_be__, c_byte)

self.assertIs(c_ubyte.__ctype_le__, c_ubyte)
        self.assertIs(c_ubyte.__ctype_be__, c_ubyte)

self.assertIs(c_char.__ctype_le__, c_char)
        self.assertIs(c_char.__ctype_be__, c_char)

def test_struct_fields_1(self):
        if sys.byteorder == "little":
            base = BigEndianStructure
        else:
            base = LittleEndianStructure

class T(base):
            pass
        _fields_ = [("a", c_ubyte),
                    ("b", c_byte),
                    ("c", c_short),
                    ("d", c_ushort),
                    ("e", c_int),
                    ("f", c_uint),
                    ("g", c_long),
                    ("h", c_ulong),
                    ("i", c_longlong),
                    ("k", c_ulonglong),
                    ("l", c_float),
                    ("m", c_double),
                    ("n", c_char),

("b1", c_byte, 3),
                    ("b2", c_byte, 3),
                    ("b3", c_byte, 2),
                    ("a", c_int * 3 * 3 * 3)]
        T._fields_ = _fields_

# these fields do not support different byte order:
        for typ in c_wchar, c_void_p, POINTER(c_int):
            _fields_.append(("x", typ))
            class T(base):
                pass
            self.assertRaises(TypeError, setattr, T, "_fields_", [("x", typ)])

def test_struct_struct(self):
        # nested structures with different byteorders

# create nested structures with given byteorders and set memory to data

for nested, data in (
            (BigEndianStructure, b'\0\0\0\1\0\0\0\2'),
            (LittleEndianStructure, b'\1\0\0\0\2\0\0\0'),
        ):
            for parent in (
                BigEndianStructure,
                LittleEndianStructure,
                Structure,
            ):
                class NestedStructure(nested):
                    _fields_ = [("x", c_uint32),
                                ("y", c_uint32)]

class TestStructure(parent):
                    _fields_ = [("point", NestedStructure)]

self.assertEqual(len(data), sizeof(TestStructure))
                ptr = POINTER(TestStructure)
                s = cast(data, ptr)[0]
                del ctypes._pointer_type_cache[TestStructure]
                self.assertEqual(s.point.x, 1)
                self.assertEqual(s.point.y, 2)

def test_struct_fields_2(self):
        # standard packing in struct uses no alignment.
        # So, we have to align using pad bytes.
        #
        # Unaligned accesses will crash Python (on those platforms that
        # don't allow it, like sparc solaris).
        if sys.byteorder == "little":
            base = BigEndianStructure
            fmt = ">bxhid"
        else:
            base = LittleEndianStructure
            fmt = "<bxhid"

class S(base):
            _fields_ = [("b", c_byte),
                        ("h", c_short),
                        ("i", c_int),
                        ("d", c_double)]

s1 = S(0x12, 0x1234, 0x12345678, 3.14)
        s2 = struct.pack(fmt, 0x12, 0x1234, 0x12345678, 3.14)
        self.assertEqual(bin(s1), bin(s2))

def test_unaligned_nonnative_struct_fields(self):
        if sys.byteorder == "little":
            base = BigEndianStructure
            fmt = ">b h xi xd"
        else:
            base = LittleEndianStructure
            fmt = "<b h xi xd"

class S(base):
            _pack_ = 1
            _fields_ = [("b", c_byte),

("h", c_short),

("_1", c_byte),
                        ("i", c_int),

("_2", c_byte),
                        ("d", c_double)]

s1 = S()
        s1.b = 0x12
        s1.h = 0x1234
        s1.i = 0x12345678
        s1.d = 3.14
        s2 = struct.pack(fmt, 0x12, 0x1234, 0x12345678, 3.14)
        self.assertEqual(bin(s1), bin(s2))

def test_unaligned_native_struct_fields(self):
        if sys.byteorder == "little":
            fmt = "<b h xi xd"
        else:
            base = LittleEndianStructure
            fmt = ">b h xi xd"

class S(Structure):
            _pack_ = 1
            _fields_ = [("b", c_byte),

("h", c_short),

("_1", c_byte),
                        ("i", c_int),

("_2", c_byte),
                        ("d", c_double)]

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

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