ext/pybind11/tests/test_numpy_dtypes.py - arm/gem5 - Git at Google

 import re
 import pytest

 pytestmark = pytest.requires_numpy

 with pytest.suppress(ImportError):
     import numpy as np


 @pytest.fixture(scope='module')
 def simple_dtype():
     ld = np.dtype('longdouble')
     return np.dtype({'names': ['bool_', 'uint_', 'float_', 'ldbl_'],
                      'formats': ['?', 'u4', 'f4', 'f{}'.format(ld.itemsize)],
                      'offsets': [0, 4, 8, (16 if ld.alignment > 4 else 12)]})


 @pytest.fixture(scope='module')
 def packed_dtype():
     return np.dtype([('bool_', '?'), ('uint_', 'u4'), ('float_', 'f4'), ('ldbl_', 'g')])


 def dt_fmt():
     from sys import byteorder
     e = '<' if byteorder == 'little' else '>'
     return ("{{'names':['bool_','uint_','float_','ldbl_'],"
             " 'formats':['?','" + e + "u4','" + e + "f4','" + e + "f{}'],"
             " 'offsets':[0,4,8,{}], 'itemsize':{}}}")


 def simple_dtype_fmt():
     ld = np.dtype('longdouble')
     simple_ld_off = 12 + 4 * (ld.alignment > 4)
     return dt_fmt().format(ld.itemsize, simple_ld_off, simple_ld_off + ld.itemsize)


 def packed_dtype_fmt():
     from sys import byteorder
     return "[('bool_', '?'), ('uint_', '{e}u4'), ('float_', '{e}f4'), ('ldbl_', '{e}f{}')]".format(
         np.dtype('longdouble').itemsize, e='<' if byteorder == 'little' else '>')


 def partial_ld_offset():
     return 12 + 4 * (np.dtype('uint64').alignment > 4) + 8 + 8 * (
         np.dtype('longdouble').alignment > 8)


 def partial_dtype_fmt():
     ld = np.dtype('longdouble')
     partial_ld_off = partial_ld_offset()
     return dt_fmt().format(ld.itemsize, partial_ld_off, partial_ld_off + ld.itemsize)


 def partial_nested_fmt():
     ld = np.dtype('longdouble')
     partial_nested_off = 8 + 8 * (ld.alignment > 8)
     partial_ld_off = partial_ld_offset()
     partial_nested_size = partial_nested_off * 2 + partial_ld_off + ld.itemsize
     return "{{'names':['a'], 'formats':[{}], 'offsets':[{}], 'itemsize':{}}}".format(
         partial_dtype_fmt(), partial_nested_off, partial_nested_size)


 def assert_equal(actual, expected_data, expected_dtype):
     np.testing.assert_equal(actual, np.array(expected_data, dtype=expected_dtype))


 def test_format_descriptors():
     from pybind11_tests import get_format_unbound, print_format_descriptors

     with pytest.raises(RuntimeError) as excinfo:
         get_format_unbound()
     assert re.match('^NumPy type info missing for .*UnboundStruct.*$', str(excinfo.value))

     ld = np.dtype('longdouble')
     ldbl_fmt = ('4x' if ld.alignment > 4 else '') + ld.char
     ss_fmt = "T{?:bool_:3xI:uint_:f:float_:" + ldbl_fmt + ":ldbl_:}"
     dbl = np.dtype('double')
     partial_fmt = ("T{?:bool_:3xI:uint_:f:float_:" +
                    str(4 * (dbl.alignment > 4) + dbl.itemsize + 8 * (ld.alignment > 8)) +
                    "xg:ldbl_:}")
     nested_extra = str(max(8, ld.alignment))
     assert print_format_descriptors() == [
         ss_fmt,
         "T{?:bool_:^I:uint_:^f:float_:^g:ldbl_:}",
         "T{" + ss_fmt + ":a:T{?:bool_:^I:uint_:^f:float_:^g:ldbl_:}:b:}",
         partial_fmt,
         "T{" + nested_extra + "x" + partial_fmt + ":a:" + nested_extra + "x}",
         "T{3s:a:3s:b:}",
         'T{q:e1:B:e2:}'
     ]


 def test_dtype(simple_dtype):
     from pybind11_tests import (print_dtypes, test_dtype_ctors, test_dtype_methods,
                                 trailing_padding_dtype, buffer_to_dtype)
     from sys import byteorder
     e = '<' if byteorder == 'little' else '>'

     assert print_dtypes() == [
         simple_dtype_fmt(),
         packed_dtype_fmt(),
         "[('a', {}), ('b', {})]".format(simple_dtype_fmt(), packed_dtype_fmt()),
         partial_dtype_fmt(),
         partial_nested_fmt(),
         "[('a', 'S3'), ('b', 'S3')]",
         "[('e1', '" + e + "i8'), ('e2', 'u1')]",
         "[('x', 'i1'), ('y', '" + e + "u8')]"
     ]

     d1 = np.dtype({'names': ['a', 'b'], 'formats': ['int32', 'float64'],
                    'offsets': [1, 10], 'itemsize': 20})
     d2 = np.dtype([('a', 'i4'), ('b', 'f4')])
     assert test_dtype_ctors() == [np.dtype('int32'), np.dtype('float64'),
                                   np.dtype('bool'), d1, d1, np.dtype('uint32'), d2]

     assert test_dtype_methods() == [np.dtype('int32'), simple_dtype, False, True,
                                     np.dtype('int32').itemsize, simple_dtype.itemsize]

     assert trailing_padding_dtype() == buffer_to_dtype(np.zeros(1, trailing_padding_dtype()))


 def test_recarray(simple_dtype, packed_dtype):
     from pybind11_tests import (create_rec_simple, create_rec_packed, create_rec_nested,
                                 print_rec_simple, print_rec_packed, print_rec_nested,
                                 create_rec_partial, create_rec_partial_nested)

     elements = [(False, 0, 0.0, -0.0), (True, 1, 1.5, -2.5), (False, 2, 3.0, -5.0)]

     for func, dtype in [(create_rec_simple, simple_dtype), (create_rec_packed, packed_dtype)]:
         arr = func(0)
         assert arr.dtype == dtype
         assert_equal(arr, [], simple_dtype)
         assert_equal(arr, [], packed_dtype)

         arr = func(3)
         assert arr.dtype == dtype
         assert_equal(arr, elements, simple_dtype)
         assert_equal(arr, elements, packed_dtype)

         if dtype == simple_dtype:
             assert print_rec_simple(arr) == [
                 "s:0,0,0,-0",
                 "s:1,1,1.5,-2.5",
                 "s:0,2,3,-5"
             ]
         else:
             assert print_rec_packed(arr) == [
                 "p:0,0,0,-0",
                 "p:1,1,1.5,-2.5",
                 "p:0,2,3,-5"
             ]

     nested_dtype = np.dtype([('a', simple_dtype), ('b', packed_dtype)])

     arr = create_rec_nested(0)
     assert arr.dtype == nested_dtype
     assert_equal(arr, [], nested_dtype)

     arr = create_rec_nested(3)
     assert arr.dtype == nested_dtype
     assert_equal(arr, [((False, 0, 0.0, -0.0), (True, 1, 1.5, -2.5)),
                        ((True, 1, 1.5, -2.5), (False, 2, 3.0, -5.0)),
                        ((False, 2, 3.0, -5.0), (True, 3, 4.5, -7.5))], nested_dtype)
     assert print_rec_nested(arr) == [
         "n:a=s:0,0,0,-0;b=p:1,1,1.5,-2.5",
         "n:a=s:1,1,1.5,-2.5;b=p:0,2,3,-5",
         "n:a=s:0,2,3,-5;b=p:1,3,4.5,-7.5"
     ]

     arr = create_rec_partial(3)
     assert str(arr.dtype) == partial_dtype_fmt()
     partial_dtype = arr.dtype
     assert '' not in arr.dtype.fields
     assert partial_dtype.itemsize > simple_dtype.itemsize
     assert_equal(arr, elements, simple_dtype)
     assert_equal(arr, elements, packed_dtype)

     arr = create_rec_partial_nested(3)
     assert str(arr.dtype) == partial_nested_fmt()
     assert '' not in arr.dtype.fields
     assert '' not in arr.dtype.fields['a'][0].fields
     assert arr.dtype.itemsize > partial_dtype.itemsize
     np.testing.assert_equal(arr['a'], create_rec_partial(3))


 def test_array_constructors():
     from pybind11_tests import test_array_ctors

     data = np.arange(1, 7, dtype='int32')
     for i in range(8):
         np.testing.assert_array_equal(test_array_ctors(10 + i), data.reshape((3, 2)))
         np.testing.assert_array_equal(test_array_ctors(20 + i), data.reshape((3, 2)))
     for i in range(5):
         np.testing.assert_array_equal(test_array_ctors(30 + i), data)
         np.testing.assert_array_equal(test_array_ctors(40 + i), data)


 def test_string_array():
     from pybind11_tests import create_string_array, print_string_array

     arr = create_string_array(True)
     assert str(arr.dtype) == "[('a', 'S3'), ('b', 'S3')]"
     assert print_string_array(arr) == [
         "a='',b=''",
         "a='a',b='a'",
         "a='ab',b='ab'",
         "a='abc',b='abc'"
     ]
     dtype = arr.dtype
     assert arr['a'].tolist() == [b'', b'a', b'ab', b'abc']
     assert arr['b'].tolist() == [b'', b'a', b'ab', b'abc']
     arr = create_string_array(False)
     assert dtype == arr.dtype


 def test_enum_array():
     from pybind11_tests import create_enum_array, print_enum_array
     from sys import byteorder
     e = '<' if byteorder == 'little' else '>'

     arr = create_enum_array(3)
     dtype = arr.dtype
     assert dtype == np.dtype([('e1', e + 'i8'), ('e2', 'u1')])
     assert print_enum_array(arr) == [
         "e1=A,e2=X",
         "e1=B,e2=Y",
         "e1=A,e2=X"
     ]
     assert arr['e1'].tolist() == [-1, 1, -1]
     assert arr['e2'].tolist() == [1, 2, 1]
     assert create_enum_array(0).dtype == dtype


 def test_signature(doc):
     from pybind11_tests import create_rec_nested

     assert doc(create_rec_nested) == "create_rec_nested(arg0: int) -> numpy.ndarray[NestedStruct]"


 def test_scalar_conversion():
     from pybind11_tests import (create_rec_simple, f_simple,
                                 create_rec_packed, f_packed,
                                 create_rec_nested, f_nested,
                                 create_enum_array)

     n = 3
     arrays = [create_rec_simple(n), create_rec_packed(n),
               create_rec_nested(n), create_enum_array(n)]
     funcs = [f_simple, f_packed, f_nested]

     for i, func in enumerate(funcs):
         for j, arr in enumerate(arrays):
             if i == j and i < 2:
                 assert [func(arr[k]) for k in range(n)] == [k * 10 for k in range(n)]
             else:
                 with pytest.raises(TypeError) as excinfo:
                     func(arr[0])
                 assert 'incompatible function arguments' in str(excinfo.value)


 def test_register_dtype():
     from pybind11_tests import register_dtype

     with pytest.raises(RuntimeError) as excinfo:
         register_dtype()
     assert 'dtype is already registered' in str(excinfo.value)


 @pytest.requires_numpy
 def test_compare_buffer_info():
     from pybind11_tests import compare_buffer_info
     assert all(compare_buffer_info())
	import re
	import pytest

	pytestmark = pytest.requires_numpy

	with pytest.suppress(ImportError):
	import numpy as np


	@pytest.fixture(scope='module')
	def simple_dtype():
	ld = np.dtype('longdouble')
	return np.dtype({'names': ['bool_', 'uint_', 'float_', 'ldbl_'],
	'formats': ['?', 'u4', 'f4', 'f{}'.format(ld.itemsize)],
	'offsets': [0, 4, 8, (16 if ld.alignment > 4 else 12)]})


	@pytest.fixture(scope='module')
	def packed_dtype():
	return np.dtype([('bool_', '?'), ('uint_', 'u4'), ('float_', 'f4'), ('ldbl_', 'g')])


	def dt_fmt():
	from sys import byteorder
	e = '<' if byteorder == 'little' else '>'
	return ("{{'names':['bool_','uint_','float_','ldbl_'],"
	" 'formats':['?','" + e + "u4','" + e + "f4','" + e + "f{}'],"
	" 'offsets':[0,4,8,{}], 'itemsize':{}}}")


	def simple_dtype_fmt():
	ld = np.dtype('longdouble')
	simple_ld_off = 12 + 4 * (ld.alignment > 4)
	return dt_fmt().format(ld.itemsize, simple_ld_off, simple_ld_off + ld.itemsize)


	def packed_dtype_fmt():
	from sys import byteorder
	return "[('bool_', '?'), ('uint_', '{e}u4'), ('float_', '{e}f4'), ('ldbl_', '{e}f{}')]".format(
	np.dtype('longdouble').itemsize, e='<' if byteorder == 'little' else '>')


	def partial_ld_offset():
	return 12 + 4 * (np.dtype('uint64').alignment > 4) + 8 + 8 * (
	np.dtype('longdouble').alignment > 8)


	def partial_dtype_fmt():
	ld = np.dtype('longdouble')
	partial_ld_off = partial_ld_offset()
	return dt_fmt().format(ld.itemsize, partial_ld_off, partial_ld_off + ld.itemsize)


	def partial_nested_fmt():
	ld = np.dtype('longdouble')
	partial_nested_off = 8 + 8 * (ld.alignment > 8)
	partial_ld_off = partial_ld_offset()
	partial_nested_size = partial_nested_off * 2 + partial_ld_off + ld.itemsize
	return "{{'names':['a'], 'formats':[{}], 'offsets':[{}], 'itemsize':{}}}".format(
	partial_dtype_fmt(), partial_nested_off, partial_nested_size)


	def assert_equal(actual, expected_data, expected_dtype):
	np.testing.assert_equal(actual, np.array(expected_data, dtype=expected_dtype))


	def test_format_descriptors():
	from pybind11_tests import get_format_unbound, print_format_descriptors

	with pytest.raises(RuntimeError) as excinfo:
	get_format_unbound()
	assert re.match('^NumPy type info missing for .UnboundStruct.$', str(excinfo.value))

	ld = np.dtype('longdouble')
	ldbl_fmt = ('4x' if ld.alignment > 4 else '') + ld.char
	ss_fmt = "T{?:bool_:3xI:uint_:f:float_:" + ldbl_fmt + ":ldbl_:}"
	dbl = np.dtype('double')
	partial_fmt = ("T{?:bool_:3xI:uint_:f:float_:" +
	str(4 * (dbl.alignment > 4) + dbl.itemsize + 8 * (ld.alignment > 8)) +
	"xg:ldbl_:}")
	nested_extra = str(max(8, ld.alignment))
	assert print_format_descriptors() == [
	ss_fmt,
	"T{?:bool_:^I:uint_:^f:float_:^g:ldbl_:}",
	"T{" + ss_fmt + ":a:T{?:bool_:^I:uint_:^f:float_:^g:ldbl_:}:b:}",
	partial_fmt,
	"T{" + nested_extra + "x" + partial_fmt + ":a:" + nested_extra + "x}",
	"T{3s:a:3s:b:}",
	'T{q:e1:B:e2:}'
	]


	def test_dtype(simple_dtype):
	from pybind11_tests import (print_dtypes, test_dtype_ctors, test_dtype_methods,
	trailing_padding_dtype, buffer_to_dtype)
	from sys import byteorder
	e = '<' if byteorder == 'little' else '>'

	assert print_dtypes() == [
	simple_dtype_fmt(),
	packed_dtype_fmt(),
	"[('a', {}), ('b', {})]".format(simple_dtype_fmt(), packed_dtype_fmt()),
	partial_dtype_fmt(),
	partial_nested_fmt(),
	"[('a', 'S3'), ('b', 'S3')]",
	"[('e1', '" + e + "i8'), ('e2', 'u1')]",
	"[('x', 'i1'), ('y', '" + e + "u8')]"
	]

	d1 = np.dtype({'names': ['a', 'b'], 'formats': ['int32', 'float64'],
	'offsets': [1, 10], 'itemsize': 20})
	d2 = np.dtype([('a', 'i4'), ('b', 'f4')])
	assert test_dtype_ctors() == [np.dtype('int32'), np.dtype('float64'),
	np.dtype('bool'), d1, d1, np.dtype('uint32'), d2]

	assert test_dtype_methods() == [np.dtype('int32'), simple_dtype, False, True,
	np.dtype('int32').itemsize, simple_dtype.itemsize]

	assert trailing_padding_dtype() == buffer_to_dtype(np.zeros(1, trailing_padding_dtype()))


	def test_recarray(simple_dtype, packed_dtype):
	from pybind11_tests import (create_rec_simple, create_rec_packed, create_rec_nested,
	print_rec_simple, print_rec_packed, print_rec_nested,
	create_rec_partial, create_rec_partial_nested)

	elements = [(False, 0, 0.0, -0.0), (True, 1, 1.5, -2.5), (False, 2, 3.0, -5.0)]

	for func, dtype in [(create_rec_simple, simple_dtype), (create_rec_packed, packed_dtype)]:
	arr = func(0)
	assert arr.dtype == dtype
	assert_equal(arr, [], simple_dtype)
	assert_equal(arr, [], packed_dtype)

	arr = func(3)
	assert arr.dtype == dtype
	assert_equal(arr, elements, simple_dtype)
	assert_equal(arr, elements, packed_dtype)

	if dtype == simple_dtype:
	assert print_rec_simple(arr) == [
	"s:0,0,0,-0",
	"s:1,1,1.5,-2.5",
	"s:0,2,3,-5"
	]
	else:
	assert print_rec_packed(arr) == [
	"p:0,0,0,-0",
	"p:1,1,1.5,-2.5",
	"p:0,2,3,-5"
	]

	nested_dtype = np.dtype([('a', simple_dtype), ('b', packed_dtype)])

	arr = create_rec_nested(0)
	assert arr.dtype == nested_dtype
	assert_equal(arr, [], nested_dtype)

	arr = create_rec_nested(3)
	assert arr.dtype == nested_dtype
	assert_equal(arr, [((False, 0, 0.0, -0.0), (True, 1, 1.5, -2.5)),
	((True, 1, 1.5, -2.5), (False, 2, 3.0, -5.0)),
	((False, 2, 3.0, -5.0), (True, 3, 4.5, -7.5))], nested_dtype)
	assert print_rec_nested(arr) == [
	"n:a=s:0,0,0,-0;b=p:1,1,1.5,-2.5",
	"n:a=s:1,1,1.5,-2.5;b=p:0,2,3,-5",
	"n:a=s:0,2,3,-5;b=p:1,3,4.5,-7.5"
	]

	arr = create_rec_partial(3)
	assert str(arr.dtype) == partial_dtype_fmt()
	partial_dtype = arr.dtype
	assert '' not in arr.dtype.fields
	assert partial_dtype.itemsize > simple_dtype.itemsize
	assert_equal(arr, elements, simple_dtype)
	assert_equal(arr, elements, packed_dtype)

	arr = create_rec_partial_nested(3)
	assert str(arr.dtype) == partial_nested_fmt()
	assert '' not in arr.dtype.fields
	assert '' not in arr.dtype.fields['a'][0].fields
	assert arr.dtype.itemsize > partial_dtype.itemsize
	np.testing.assert_equal(arr['a'], create_rec_partial(3))


	def test_array_constructors():
	from pybind11_tests import test_array_ctors

	data = np.arange(1, 7, dtype='int32')
	for i in range(8):
	np.testing.assert_array_equal(test_array_ctors(10 + i), data.reshape((3, 2)))
	np.testing.assert_array_equal(test_array_ctors(20 + i), data.reshape((3, 2)))
	for i in range(5):
	np.testing.assert_array_equal(test_array_ctors(30 + i), data)
	np.testing.assert_array_equal(test_array_ctors(40 + i), data)


	def test_string_array():
	from pybind11_tests import create_string_array, print_string_array

	arr = create_string_array(True)
	assert str(arr.dtype) == "[('a', 'S3'), ('b', 'S3')]"
	assert print_string_array(arr) == [
	"a='',b=''",
	"a='a',b='a'",
	"a='ab',b='ab'",
	"a='abc',b='abc'"
	]
	dtype = arr.dtype
	assert arr['a'].tolist() == [b'', b'a', b'ab', b'abc']
	assert arr['b'].tolist() == [b'', b'a', b'ab', b'abc']
	arr = create_string_array(False)
	assert dtype == arr.dtype


	def test_enum_array():
	from pybind11_tests import create_enum_array, print_enum_array
	from sys import byteorder
	e = '<' if byteorder == 'little' else '>'

	arr = create_enum_array(3)
	dtype = arr.dtype
	assert dtype == np.dtype([('e1', e + 'i8'), ('e2', 'u1')])
	assert print_enum_array(arr) == [
	"e1=A,e2=X",
	"e1=B,e2=Y",
	"e1=A,e2=X"
	]
	assert arr['e1'].tolist() == [-1, 1, -1]
	assert arr['e2'].tolist() == [1, 2, 1]
	assert create_enum_array(0).dtype == dtype


	def test_signature(doc):
	from pybind11_tests import create_rec_nested

	assert doc(create_rec_nested) == "create_rec_nested(arg0: int) -> numpy.ndarray[NestedStruct]"


	def test_scalar_conversion():
	from pybind11_tests import (create_rec_simple, f_simple,
	create_rec_packed, f_packed,
	create_rec_nested, f_nested,
	create_enum_array)

	n = 3
	arrays = [create_rec_simple(n), create_rec_packed(n),
	create_rec_nested(n), create_enum_array(n)]
	funcs = [f_simple, f_packed, f_nested]

	for i, func in enumerate(funcs):
	for j, arr in enumerate(arrays):
	if i == j and i < 2:
	assert [func(arr[k]) for k in range(n)] == [k * 10 for k in range(n)]
	else:
	with pytest.raises(TypeError) as excinfo:
	func(arr[0])
	assert 'incompatible function arguments' in str(excinfo.value)


	def test_register_dtype():
	from pybind11_tests import register_dtype

	with pytest.raises(RuntimeError) as excinfo:
	register_dtype()
	assert 'dtype is already registered' in str(excinfo.value)


	@pytest.requires_numpy
	def test_compare_buffer_info():
	from pybind11_tests import compare_buffer_info
	assert all(compare_buffer_info())