ProjektAI/kelner/venv/Lib/site-packages/pygame/tests/test_utils/arrinter.py

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2020-03-22 02:01:57 +01:00
import sys
import ctypes
from ctypes import *
import unittest
__all__ = ['PAI_CONTIGUOUS', 'PAI_FORTRAN', 'PAI_ALIGNED',
'PAI_NOTSWAPPED', 'PAI_WRITEABLE', 'PAI_ARR_HAS_DESCR',
'ArrayInterface',]
try:
c_ssize_t # Undefined in early Python versions
except NameError:
if sizeof(c_uint) == sizeof(c_void_p):
c_size_t = c_uint
c_ssize_t = c_int
elif sizeof(c_ulong) == sizeof(c_void_p):
c_size_t = c_ulong
c_ssize_t = c_long
elif sizeof(c_ulonglong) == sizeof(c_void_p):
c_size_t = c_ulonglong
c_ssize_t = c_longlong
SIZEOF_VOID_P = sizeof(c_void_p)
if SIZEOF_VOID_P <= sizeof(c_int):
Py_intptr_t = c_int
elif SIZEOF_VOID_P <= sizeof(c_long):
Py_intptr_t = c_long
elif 'c_longlong' in globals() and SIZEOF_VOID_P <= sizeof(c_longlong):
Py_intptr_t = c_longlong
else:
raise RuntimeError("Unrecognized pointer size %i" % (pointer_size,))
class PyArrayInterface(Structure):
_fields_ = [('two', c_int), ('nd', c_int), ('typekind', c_char),
('itemsize', c_int), ('flags', c_int),
('shape', POINTER(Py_intptr_t)),
('strides', POINTER(Py_intptr_t)),
('data', c_void_p), ('descr', py_object)]
PAI_Ptr = POINTER(PyArrayInterface)
try:
PyCObject_AsVoidPtr = pythonapi.PyCObject_AsVoidPtr
except AttributeError:
def PyCObject_AsVoidPtr(o):
raise TypeError("Not available")
else:
PyCObject_AsVoidPtr.restype = c_void_p
PyCObject_AsVoidPtr.argtypes = [py_object]
PyCObject_GetDesc = pythonapi.PyCObject_GetDesc
PyCObject_GetDesc.restype = c_void_p
PyCObject_GetDesc.argtypes = [py_object]
try:
PyCapsule_IsValid = pythonapi.PyCapsule_IsValid
except AttributeError:
def PyCapsule_IsValid(capsule, name):
return 0
else:
PyCapsule_IsValid.restype = c_int
PyCapsule_IsValid.argtypes = [py_object, c_char_p]
PyCapsule_GetPointer = pythonapi.PyCapsule_GetPointer
PyCapsule_GetPointer.restype = c_void_p
PyCapsule_GetPointer.argtypes = [py_object, c_char_p]
PyCapsule_GetContext = pythonapi.PyCapsule_GetContext
PyCapsule_GetContext.restype = c_void_p
PyCapsule_GetContext.argtypes = [py_object]
if sys.version_info >= (3,): # Python3
PyCapsule_Destructor = CFUNCTYPE(None, py_object)
PyCapsule_New = pythonapi.PyCapsule_New
PyCapsule_New.restype = py_object
PyCapsule_New.argtypes = [c_void_p, c_char_p, POINTER(PyCapsule_Destructor)]
def capsule_new(p):
return PyCapsule_New(addressof(p), None, None)
else:
PyCObject_Destructor = CFUNCTYPE(None, c_void_p)
PyCObject_FromVoidPtr = pythonapi.PyCObject_FromVoidPtr
PyCObject_FromVoidPtr.restype = py_object
PyCObject_FromVoidPtr.argtypes = [c_void_p, POINTER(PyCObject_Destructor)]
def capsule_new(p):
return PyCObject_FromVoidPtr(addressof(p), None)
PAI_CONTIGUOUS = 0x01
PAI_FORTRAN = 0x02
PAI_ALIGNED = 0x100
PAI_NOTSWAPPED = 0x200
PAI_WRITEABLE = 0x400
PAI_ARR_HAS_DESCR = 0x800
class ArrayInterface(object):
def __init__(self, arr):
try:
self._cobj = arr.__array_struct__
except AttributeError:
raise TypeError("The array object lacks an array structure")
if not self._cobj:
raise TypeError("The array object has a NULL array structure value")
try:
vp = PyCObject_AsVoidPtr(self._cobj)
except TypeError:
if PyCapsule_IsValid(self._cobj, None):
vp = PyCapsule_GetPointer(self._cobj, None)
else:
raise TypeError("The array object has an invalid array structure")
self.desc = PyCapsule_GetContext(self._cobj)
else:
self.desc = PyCObject_GetDesc(self._cobj)
self._inter = cast(vp, PAI_Ptr)[0]
def __getattr__(self, name):
if (name == 'typekind'):
return self._inter.typekind.decode('latin-1')
return getattr(self._inter, name)
def __str__(self):
if isinstance(self.desc, tuple):
ver = self.desc[0]
else:
ver = "N/A"
return ("nd: %i\n"
"typekind: %s\n"
"itemsize: %i\n"
"flags: %s\n"
"shape: %s\n"
"strides: %s\n"
"ver: %s\n" %
(self.nd, self.typekind, self.itemsize,
format_flags(self.flags),
format_shape(self.nd, self.shape),
format_strides(self.nd, self.strides), ver))
def format_flags(flags):
names = []
for flag, name in [(PAI_CONTIGUOUS, 'CONTIGUOUS'),
(PAI_FORTRAN, 'FORTRAN'),
(PAI_ALIGNED, 'ALIGNED'),
(PAI_NOTSWAPPED, 'NOTSWAPPED'),
(PAI_WRITEABLE, 'WRITEABLE'),
(PAI_ARR_HAS_DESCR, 'ARR_HAS_DESCR')]:
if flag & flags:
names.append(name)
return ', '.join(names)
def format_shape(nd, shape):
return ', '.join([str(shape[i]) for i in range(nd)])
def format_strides(nd, strides):
return ', '.join([str(strides[i]) for i in range(nd)])
class Exporter(object):
def __init__(self, shape,
typekind=None, itemsize=None, strides=None,
descr=None, flags=None):
if typekind is None:
typekind = 'u'
if itemsize is None:
itemsize = 1
if flags is None:
flags = PAI_WRITEABLE | PAI_ALIGNED | PAI_NOTSWAPPED
if descr is not None:
flags |= PAI_ARR_HAS_DESCR
if len(typekind) != 1:
raise ValueError("Argument 'typekind' must be length 1 string")
nd = len(shape)
self.typekind = typekind
self.itemsize = itemsize
self.nd = nd
self.shape = tuple(shape)
self._shape = (c_ssize_t * self.nd)(*self.shape)
if strides is None:
self._strides = (c_ssize_t * self.nd)()
self._strides[self.nd - 1] = self.itemsize
for i in range(self.nd - 1, 0, -1):
self._strides[i - 1] = self.shape[i] * self._strides[i]
strides = tuple(self._strides)
self.strides = strides
elif len(strides) == nd:
self.strides = tuple(strides)
self._strides = (c_ssize_t * self.nd)(*self.strides)
else:
raise ValueError("Mismatch in length of strides and shape")
self.descr = descr
if self.is_contiguous('C'):
flags |= PAI_CONTIGUOUS
if self.is_contiguous('F'):
flags |= PAI_FORTRAN
self.flags = flags
sz = max(shape[i] * strides[i] for i in range(nd))
self._data = (c_ubyte * sz)()
self.data = addressof(self._data)
self._inter = PyArrayInterface(2, nd, typekind.encode('latin_1'),
itemsize, flags, self._shape,
self._strides, self.data, descr)
self.len = itemsize
for i in range(nd):
self.len *= self.shape[i]
__array_struct__ = property(lambda self: capsule_new(self._inter))
def is_contiguous(self, fortran):
if fortran in "CA":
if self.strides[-1] == self.itemsize:
for i in range(self.nd - 1, 0, -1):
if self.strides[i - 1] != self.shape[i] * self.strides[i]:
break
else:
return True
if fortran in "FA":
if self.strides[0] == self.itemsize:
for i in range(0, self.nd - 1):
if self.strides[i + 1] != self.shape[i] * self.strides[i]:
break
else:
return True
return False
class Array(Exporter):
_ctypes = {('u', 1): c_uint8,
('u', 2): c_uint16,
('u', 4): c_uint32,
('u', 8): c_uint64,
('i', 1): c_int8,
('i', 2): c_int16,
('i', 4): c_int32,
('i', 8): c_int64}
def __init__(self, *args, **kwds):
super(Array, self).__init__(*args, **kwds)
try:
if self.flags & PAI_NOTSWAPPED:
ct = self._ctypes[self.typekind, self.itemsize]
elif c_int.__ctype_le__ is c_int:
ct = self._ctypes[self.typekind, self.itemsize].__ctype_be__
else:
ct = self._ctypes[self.typekind, self.itemsize].__ctype_le__
except KeyError:
ct = c_uint8 * self.itemsize
self._ctype = ct
self._ctype_p = POINTER(ct)
def __getitem__(self, key):
return cast(self._addr_at(key), self._ctype_p)[0]
def __setitem__(self, key, value):
cast(self._addr_at(key), self._ctype_p)[0] = value
def _addr_at(self, key):
if not isinstance(key, tuple):
key = key,
if len(key) != self.nd:
raise ValueError("wrong number of indexes")
for i in range(self.nd):
if not (0 <= key[i] < self.shape[i]):
raise IndexError("index {} out of range".format(i))
return self.data + sum(i * s for i, s in zip(key, self.strides))
class ExporterTest(unittest.TestCase):
def test_strides(self):
self.check_args(0, (10,), 'u', (2,), 20, 20, 2)
self.check_args(0, (5, 3), 'u', (6, 2), 30, 30, 2)
self.check_args(0, (7, 3, 5), 'u', (30, 10, 2), 210, 210, 2)
self.check_args(0, (13, 5, 11, 3), 'u', (330, 66, 6, 2), 4290, 4290, 2)
self.check_args(3, (7, 3, 5), 'i', (2, 14, 42), 210, 210, 2)
self.check_args(3, (7, 3, 5), 'x', (2, 16, 48), 210, 240, 2)
self.check_args(3, (13, 5, 11, 3), '%', (440, 88, 8, 2), 4290, 5720, 2)
self.check_args(3, (7, 5), '-', (15, 3), 105, 105, 3)
self.check_args(3, (7, 5), '*', (3, 21), 105, 105, 3)
self.check_args(3, (7, 5), ' ', (3, 24), 105, 120, 3)
def test_is_contiguous(self):
a = Exporter((10,), itemsize=2)
self.assertTrue(a.is_contiguous('C'))
self.assertTrue(a.is_contiguous('F'))
self.assertTrue(a.is_contiguous('A'))
a = Exporter((10, 4), itemsize=2)
self.assertTrue(a.is_contiguous('C'))
self.assertTrue(a.is_contiguous('A'))
self.assertFalse(a.is_contiguous('F'))
a = Exporter((13, 5, 11, 3), itemsize=2, strides=(330, 66, 6, 2))
self.assertTrue(a.is_contiguous('C'))
self.assertTrue(a.is_contiguous('A'))
self.assertFalse(a.is_contiguous('F'))
a = Exporter((10, 4), itemsize=2, strides=(2, 20))
self.assertTrue(a.is_contiguous('F'))
self.assertTrue(a.is_contiguous('A'))
self.assertFalse(a.is_contiguous('C'))
a = Exporter((13, 5, 11, 3), itemsize=2, strides=(2, 26, 130, 1430))
self.assertTrue(a.is_contiguous('F'))
self.assertTrue(a.is_contiguous('A'))
self.assertFalse(a.is_contiguous('C'))
a = Exporter((2, 11, 6, 4), itemsize=2, strides=(576, 48, 8, 2))
self.assertFalse(a.is_contiguous('A'))
a = Exporter((2, 11, 6, 4), itemsize=2, strides=(2, 4, 48, 288))
self.assertFalse(a.is_contiguous('A'))
a = Exporter((3, 2, 2), itemsize=2, strides=(16, 8, 4))
self.assertFalse(a.is_contiguous('A'))
a = Exporter((3, 2, 2), itemsize=2, strides=(4, 12, 24))
self.assertFalse(a.is_contiguous('A'))
def check_args(self, call_flags,
shape, typekind, strides, length, bufsize, itemsize,
offset=0):
if call_flags & 1:
typekind_arg = typekind
else:
typekind_arg = None
if call_flags & 2:
strides_arg = strides
else:
strides_arg = None
a = Exporter(shape, itemsize=itemsize, strides=strides_arg)
self.assertEqual(sizeof(a._data), bufsize)
self.assertEqual(a.data, ctypes.addressof(a._data) + offset)
m = ArrayInterface(a)
self.assertEqual(m.data, a.data)
self.assertEqual(m.itemsize, itemsize)
self.assertEqual(tuple(m.shape[0:m.nd]), shape)
self.assertEqual(tuple(m.strides[0:m.nd]), strides)
class ArrayTest(unittest.TestCase):
def __init__(self, *args, **kwds):
unittest.TestCase.__init__(self, *args, **kwds)
self.a = Array((20, 15), 'i', 4)
def setUp(self):
# Every test starts with a zeroed array.
memset(self.a.data, 0, sizeof(self.a._data))
def test__addr_at(self):
a = self.a
self.assertEqual(a._addr_at((0, 0)), a.data)
self.assertEqual(a._addr_at((0, 1)), a.data + 4)
self.assertEqual(a._addr_at((1, 0)), a.data + 60)
self.assertEqual(a._addr_at((1, 1)), a.data + 64)
def test_indices(self):
a = self.a
self.assertEqual(a[0, 0], 0)
self.assertEqual(a[19, 0], 0)
self.assertEqual(a[0, 14], 0)
self.assertEqual(a[19, 14], 0)
self.assertEqual(a[5, 8], 0)
a[0, 0] = 12
a[5, 8] = 99
self.assertEqual(a[0, 0], 12)
self.assertEqual(a[5, 8], 99)
self.assertRaises(IndexError, a.__getitem__, (-1, 0))
self.assertRaises(IndexError, a.__getitem__, (0, -1))
self.assertRaises(IndexError, a.__getitem__, (20, 0))
self.assertRaises(IndexError, a.__getitem__, (0, 15))
self.assertRaises(ValueError, a.__getitem__, 0)
self.assertRaises(ValueError, a.__getitem__, (0, 0, 0))
a = Array((3,), 'i', 4)
a[1] = 333
self.assertEqual(a[1], 333)
def test_typekind(self):
a = Array((1,), 'i', 4)
self.assertTrue(a._ctype is c_int32)
self.assertTrue(a._ctype_p is POINTER(c_int32))
a = Array((1,), 'u', 4)
self.assertTrue(a._ctype is c_uint32)
self.assertTrue(a._ctype_p is POINTER(c_uint32))
a = Array((1,), 'f', 4) # float types unsupported: size system dependent
ct = a._ctype
self.assertTrue(issubclass(ct, ctypes.Array))
self.assertEqual(sizeof(ct), 4)
def test_itemsize(self):
for size in [1, 2, 4, 8]:
a = Array((1,), 'i', size)
ct = a._ctype
self.assertTrue(issubclass(ct, ctypes._SimpleCData))
self.assertEqual(sizeof(ct), size)
def test_oddball_itemsize(self):
for size in [3, 5, 6, 7, 9]:
a = Array((1,), 'i', size)
ct = a._ctype
self.assertTrue(issubclass(ct, ctypes.Array))
self.assertEqual(sizeof(ct), size)
def test_byteswapped(self):
a = Array((1,), 'u', 4, flags=(PAI_ALIGNED | PAI_WRITEABLE))
ct = a._ctype
self.assertTrue(ct is not c_uint32)
if sys.byteorder == 'little':
self.assertTrue(ct is c_uint32.__ctype_be__)
else:
self.assertTrue(ct is c_uint32.__ctype_le__)
i = 0xa0b0c0d
n = c_uint32(i)
a[0] = i
self.assertEqual(a[0], i)
self.assertEqual(a._data[0:4],
cast(addressof(n), POINTER(c_uint8))[3:-1:-1])
if __name__ == '__main__':
unittest.main()