Commit 3c13f13d authored by Mark Florisson's avatar Mark Florisson

Support packed struct cython.array cast + better dtype error checking

parent d2797186
......@@ -713,6 +713,9 @@ def get_type_information_cname(code, dtype, maxdepth=None):
assert False
rep = str(dtype)
flags = "0"
if dtype.is_int:
if dtype.signed == 0:
typegroup = 'U'
......@@ -724,6 +727,8 @@ def get_type_information_cname(code, dtype, maxdepth=None):
typegroup = 'R'
elif dtype.is_struct:
typegroup = 'S'
if dtype.packed:
flags = "__PYX_BUF_FLAGS_PACKED_STRUCT"
elif dtype.is_pyobject:
typegroup = 'O'
else:
......@@ -735,13 +740,14 @@ def get_type_information_cname(code, dtype, maxdepth=None):
else:
is_unsigned = "0"
typecode.putln(('static __Pyx_TypeInfo %s = { "%s", %s, sizeof(%s), \'%s\', %s };'
typecode.putln(('static __Pyx_TypeInfo %s = { "%s", %s, sizeof(%s), \'%s\', %s, %s };'
) % (name,
rep,
structinfo_name,
declcode,
typegroup,
is_unsigned,
flags,
), safe=True)
return name
......
......@@ -6242,7 +6242,7 @@ class CythonArrayNode(ExprNode):
Used when a pointer of base_type is cast to a memoryviewslice with that
base type. i.e.
<int[::1, :]> p
<int[:M:1, :N]> p
creates a fortran-contiguous cython.array.
......@@ -6302,13 +6302,14 @@ class CythonArrayNode(ExprNode):
self.operand.analyse_types(env)
array_dtype = self.base_type_node.base_type_node.analyse(env)
MemoryView.validate_memslice_dtype(self.pos, array_dtype)
if not self.operand.type.is_ptr:
return error(self.operand.pos, ERR_NOT_POINTER)
elif not self.operand.type.base_type.same_as(array_dtype):
return error(self.operand.pos, ERR_BASE_TYPE)
#self.operand = self.operand.coerce_to(PyrexTypes.c_char_ptr_type, env)
if not self.operand.is_name:
self.operand = self.operand.coerce_to_temp(env)
......@@ -6320,7 +6321,7 @@ class CythonArrayNode(ExprNode):
self.coercion_type = PyrexTypes.MemoryViewSliceType(array_dtype, axes)
#self.type = py_object_type
self.type = env.global_scope().context.cython_scope.lookup("array").type
self.type = self.get_cython_array_type(env)
assert self.type
env.use_utility_code(MemoryView.cython_array_utility_code)
......@@ -6332,6 +6333,12 @@ class CythonArrayNode(ExprNode):
self.temp_code = code.funcstate.allocate_temp(self.type, True)
def infer_type(self, env):
return self.get_cython_array_type(env)
def get_cython_array_type(self, env):
return env.global_scope().context.cython_scope.lookup("array").type
def generate_result_code(self, code):
import Buffer
......
......@@ -161,6 +161,27 @@ def src_conforms_to_dst(src, dst):
return True
def valid_memslice_dtype(dtype):
"""
Return whether type dtype can be used as the base type of a
memoryview slice
"""
if dtype.is_complex and dtype.real_type.is_int:
return False
return (
dtype.is_error or
dtype.is_ptr or
dtype.is_numeric or
dtype.is_struct or
dtype.is_pyobject or
(dtype.is_typedef and valid_memslice_dtype(dtype.typedef_base_type))
)
def validate_memslice_dtype(pos, dtype):
if not valid_memslice_dtype(dtype):
error(pos, "Invalid base type for memoryview slice")
class MemoryViewSliceBufferEntry(Buffer.BufferEntry):
def __init__(self, entry):
......
......@@ -828,10 +828,8 @@ class MemoryViewSliceTypeNode(CBaseTypeNode):
self.type = PyrexTypes.ErrorType()
return self.type
MemoryView.validate_memslice_dtype(self.pos, base_type)
self.type = PyrexTypes.MemoryViewSliceType(base_type, axes_specs)
if self.type.dtype.is_memoryviewslice:
error(self.pos, "Memoryview slices may not be used as the "
"base type for memoryview slices")
self.use_memview_utilities(env)
return self.type
......
......@@ -42,12 +42,15 @@ static void __Pyx_RaiseBufferFallbackError(void) {
/* Run-time type information about structs used with buffers */
struct __Pyx_StructField_;
#define __PYX_BUF_FLAGS_PACKED_STRUCT (1 << 0)
typedef struct {
const char* name; /* for error messages only */
struct __Pyx_StructField_* fields;
size_t size; /* sizeof(type) */
char typegroup; /* _R_eal, _C_omplex, Signed _I_nt, _U_nsigned int, _S_truct, _P_ointer, _O_bject */
char is_unsigned;
int flags;
} __Pyx_TypeInfo;
typedef struct __Pyx_StructField_ {
......@@ -544,7 +547,7 @@ static struct __pyx_typeinfo_string __Pyx_TypeInfoToFormat(__Pyx_TypeInfo *type)
case 'I':
case 'U':
if (size == 1)
*buf = 'c';
*buf = 'b';
else if (size == 2)
*buf = 'h';
else if (size == 4)
......@@ -565,7 +568,6 @@ static struct __pyx_typeinfo_string __Pyx_TypeInfoToFormat(__Pyx_TypeInfo *type)
complex_type.size /= 2;
*buf++ = 'Z';
/* Note: What about short/int/long complex? Probably not used? */
*buf = __Pyx_TypeInfoToFormat(&complex_type).string[0];
break;
}
......
......@@ -28,13 +28,13 @@ cdef class array:
Py_ssize_t len
char *format
int ndim
Py_ssize_t *shape
Py_ssize_t *strides
Py_ssize_t *_shape
Py_ssize_t *_strides
Py_ssize_t itemsize
unicode mode
bytes _format
void (*callback_free_data)(char *data)
cdef object _memview
# cdef object _memview
def __cinit__(array self, tuple shape, Py_ssize_t itemsize, format,
mode=u"c", bint allocate_buffer=True):
......@@ -54,12 +54,12 @@ cdef class array:
self._format = format
self.format = self._format
self.shape = <Py_ssize_t *> malloc(sizeof(Py_ssize_t)*self.ndim)
self.strides = <Py_ssize_t *> malloc(sizeof(Py_ssize_t)*self.ndim)
self._shape = <Py_ssize_t *> malloc(sizeof(Py_ssize_t)*self.ndim)
self._strides = <Py_ssize_t *> malloc(sizeof(Py_ssize_t)*self.ndim)
if not self.shape or not self.strides:
free(self.shape)
free(self.strides)
if not self._shape or not self._strides:
free(self._shape)
free(self._strides)
raise MemoryError("unable to allocate shape or strides.")
cdef int idx
......@@ -69,20 +69,20 @@ cdef class array:
if dim <= 0:
raise ValueError("Invalid shape.")
self.shape[idx] = dim
self._shape[idx] = dim
idx += 1
stride = itemsize
if mode == "fortran":
idx = 0
for dim in shape:
self.strides[idx] = stride
self._strides[idx] = stride
stride = stride * dim
idx += 1
elif mode == "c":
idx = self.ndim-1
for dim in shape[::-1]:
self.strides[idx] = stride
self._strides[idx] = stride
stride = stride * dim
idx -= 1
else:
......@@ -111,8 +111,8 @@ cdef class array:
info.buf = self.data
info.len = self.len
info.ndim = self.ndim
info.shape = self.shape
info.strides = self.strides
info.shape = self._shape
info.strides = self._strides
info.suboffsets = NULL
info.itemsize = self.itemsize
info.readonly = 0
......@@ -122,6 +122,8 @@ cdef class array:
else:
info.format = NULL
info.obj = self
def __dealloc__(array self):
if self.callback_free_data != NULL:
self.callback_free_data(self.data)
......@@ -130,13 +132,13 @@ cdef class array:
self.data = NULL
if self.strides:
free(self.strides)
self.strides = NULL
if self._strides:
free(self._strides)
self._strides = NULL
if self.shape:
free(self.shape)
self.shape = NULL
if self._shape:
free(self._shape)
self._shape = NULL
self.format = NULL
self.itemsize = 0
......@@ -145,11 +147,14 @@ cdef class array:
@cname('__pyx_cython_array_get_memview')
def __get__(self):
# Make this a property as 'data' may be set after instantiation
if self._memview is None:
#if self._memview is None:
# flags = PyBUF_ANY_CONTIGUOUS|PyBUF_FORMAT|PyBUF_WRITABLE
# self._memview = __pyx_memoryview_new(self, flags)
#return self._memview
flags = PyBUF_ANY_CONTIGUOUS|PyBUF_FORMAT|PyBUF_WRITABLE
self._memview = __pyx_memoryview_new(self, flags)
return __pyx_memoryview_new(self, flags)
return self._memview
def __getattr__(self, attr):
return getattr(self.memview, attr)
......@@ -221,6 +226,15 @@ cdef extern from *:
PyObject *Py_None
cdef enum:
PyBUF_C_CONTIGUOUS,
PyBUF_F_CONTIGUOUS,
PyBUF_ANY_CONTIGUOUS
PyBUF_FORMAT
PyBUF_WRITABLE
PyBUF_STRIDES
PyBUF_INDIRECT
@cname('__pyx_MemviewEnum')
cdef class Enum(object):
cdef object name
......@@ -348,11 +362,34 @@ cdef class memoryview(object):
itemp[i] = c
def __getbuffer__(self, Py_buffer *info, int flags):
# Note: self.view.obj must not be NULL
Py_INCREF(self.view.obj)
info[0] = self.view
if flags & PyBUF_STRIDES:
info.shape = self.view.shape
else:
info.shape = NULL
if flags & PyBUF_STRIDES:
info.strides = self.view.strides
else:
info.strides = NULL
if flags & PyBUF_INDIRECT:
info.suboffsets = self.view.suboffsets
else:
info.suboffsets = NULL
if flags & PyBUF_FORMAT:
info.format = self.view.format
else:
info.format = NULL
info.buf = self.view.buf
info.ndim = self.view.ndim
info.itemsize = self.view.itemsize
info.len = self.view.len
info.readonly = 0
info.obj = self
# Some properties that have the same sematics as in NumPy
property T:
@cname('__pyx_memoryview_transpose')
......@@ -374,11 +411,18 @@ cdef class memoryview(object):
property strides:
@cname('__pyx_memoryview_get_strides')
def __get__(self):
if self.view.strides == NULL:
# Note: we always ask for strides, so if this is not set it's a bug
raise ValueError("Buffer view does not expose strides")
return tuple([self.view.strides[i] for i in xrange(self.view.ndim)])
property suboffsets:
@cname('__pyx_memoryview_get_suboffsets')
def __get__(self):
if self.view.suboffsets == NULL:
return [-1] * self.view.ndim
return tuple([self.view.suboffsets[i] for i in xrange(self.view.ndim)])
property ndim:
......@@ -409,6 +453,9 @@ cdef class memoryview(object):
return self._size
# The __array_interface__ is broken as it does not properly convert PEP 3118 format
# strings into NumPy typestrs. NumPy 1.5 support the new buffer interface though.
'''
property __array_interface__:
@cname('__pyx_numpy_array_interface')
def __get__(self):
......@@ -424,10 +471,11 @@ cdef class memoryview(object):
data = (PyLong_FromVoidPtr(self.view.buf), False),
shape = self.shape,
strides = self.strides,
typestr = "%s%d" % (self.format, self.view.itemsize),
typestr = "%s%d" % (self.view.format, self.view.itemsize),
version = 3)
return self._array_interface
'''
def __len__(self):
if self.view.ndim >= 1:
......@@ -848,12 +896,17 @@ cdef memoryview_copy(memoryview memview):
cdef extern from *:
ctypedef struct __Pyx_StructField
cdef enum:
__PYX_BUF_FLAGS_PACKED_STRUCT
__PYX_BUF_FLAGS_INTEGER_COMPLEX
ctypedef struct __Pyx_TypeInfo:
char* name
__Pyx_StructField* fields
size_t size
char typegroup
char is_unsigned
int flags
ctypedef struct __Pyx_StructField:
__Pyx_TypeInfo* type
......@@ -882,6 +935,11 @@ cdef format_from_typeinfo(__Pyx_TypeInfo *type):
if type.typegroup == 'S':
assert type.fields != NULL and type.fields.type != NULL
if type.flags & __PYX_BUF_FLAGS_PACKED_STRUCT:
alignment = '^'
else:
alignment = ''
parts = ["T{"]
field = type.fields
......@@ -889,8 +947,7 @@ cdef format_from_typeinfo(__Pyx_TypeInfo *type):
parts.append(format_from_typeinfo(field.type))
field += 1
parts.append("}")
result = "".join(parts)
result = alignment.join(parts) + '}'
else:
fmt = __Pyx_TypeInfoToFormat(type)
result = fmt.string
......
......@@ -60,7 +60,7 @@ def full_or_strided():
def dont_allocate_buffer():
"""
>>> dont_allocate_buffer()
callback called 1
callback called
"""
cdef cy.array result = cy.array((10, 10), itemsize=sizeof(int), format='i', allocate_buffer=False)
assert result.data == NULL
......
......@@ -2,7 +2,7 @@ from libc.stdlib cimport malloc, free
cimport cython
cdef void callback(char *data):
print "callback called %d" % <long> data
print "callback called"
def create_array(shape, mode, use_callback=False):
cdef cython.array result = cython.array(shape, itemsize=sizeof(int),
......
......@@ -9,6 +9,7 @@ cimport numpy as np
import numpy as np
include "cythonarrayutil.pxi"
include "mockbuffers.pxi"
ctypedef np.int32_t dtype_t
......@@ -27,10 +28,23 @@ def ae(*args):
if x != args[0]:
raise AssertionError(args)
__test__ = {}
def testcase(f):
__test__[f.__name__] = f.__doc__
return f
def testcase_numpy_1_5(f):
major, minor, *rest = np.__version__.split('.')
if (int(major), int(minor)) >= (1, 5):
__test__[f.__name__] = f.__doc__
return f
#
### Test slicing memoryview slices
#
@testcase
def test_partial_slicing(array):
"""
>>> test_partial_slicing(a)
......@@ -46,6 +60,7 @@ def test_partial_slicing(array):
ae(b.strides[0], c.strides[0], obj.strides[0])
ae(b.strides[1], c.strides[1], obj.strides[1])
@testcase
def test_ellipsis(array):
"""
>>> test_ellipsis(a)
......@@ -87,7 +102,7 @@ def test_ellipsis(array):
#
### Test slicing memoryview objects
#
@testcase
def test_partial_slicing_memoryview(array):
"""
>>> test_partial_slicing_memoryview(a)
......@@ -104,6 +119,7 @@ def test_partial_slicing_memoryview(array):
ae(b.strides[0], c.strides[0], obj.strides[0])
ae(b.strides[1], c.strides[1], obj.strides[1])
@testcase
def test_ellipsis_memoryview(array):
"""
>>> test_ellipsis_memoryview(a)
......@@ -143,6 +159,7 @@ def test_ellipsis_memoryview(array):
ae(e.shape[0], e_obj.shape[0])
ae(e.strides[0], e_obj.strides[0])
@testcase
def test_transpose():
"""
>>> test_transpose()
......@@ -172,26 +189,10 @@ def test_transpose():
print a[3, 2], a.T[2, 3], a_obj[3, 2], a_obj.T[2, 3], numpy_obj[3, 2], numpy_obj.T[2, 3]
def test_coerce_to_numpy():
"""
>>> test_coerce_to_numpy()
34
34
2
"""
cyarray = create_array(shape=(8, 5), mode="c", use_callback=True)
numarray = np.asarray(cyarray)
print cyarray[6, 4]
del cyarray
print numarray[6, 4]
numarray[6, 4] = 2
print numarray[6, 4]
@testcase
def test_numpy_like_attributes(cyarray):
"""
>>> cyarray = create_array(shape=(8, 5), mode="c", use_callback=True)
>>> cyarray = create_array(shape=(8, 5), mode="c")
>>> test_numpy_like_attributes(cyarray)
>>> test_numpy_like_attributes(cyarray.memview)
"""
......@@ -205,3 +206,164 @@ def test_numpy_like_attributes(cyarray):
cdef int[:, :] mslice = numarray
assert (<object> mslice).base is numarray
ctypedef int td_cy_int
cdef extern from "bufaccess.h":
ctypedef td_cy_int td_h_short # Defined as short, but Cython doesn't know this!
ctypedef float td_h_double # Defined as double
ctypedef unsigned int td_h_ushort # Defined as unsigned short
ctypedef td_h_short td_h_cy_short
cdef void dealloc_callback(char *data):
print "deallocating..."
def index(cython.array array):
array.callback_free_data = dealloc_callback
print np.asarray(array)[3, 2]
@testcase_numpy_1_5
def test_coerce_to_numpy():
"""
Test coercion to NumPy arrays, especially with automatically
generated format strings.
>>> test_coerce_to_numpy()
(97, 98, 600L, 700, 800)
deallocating...
(600, 700)
deallocating...
((100, 200), (300, 400), 500)
deallocating...
(97, 900)
deallocating...
99
deallocating...
111
deallocating...
222
deallocating...
333
deallocating...
11.1
deallocating...
12.2
deallocating...
13.3
deallocating...
(14.4+15.5j)
deallocating...
(16.6+17.7j)
deallocating...
(18.8+19.9j)
deallocating...
22
deallocating...
33.33
deallocating...
44
deallocating...
"""
#
### First set up some C arrays that will be used to hold data
#
cdef MyStruct mystructs[20]
cdef SmallStruct smallstructs[20]
cdef NestedStruct nestedstructs[20]
cdef PackedStruct packedstructs[20]
cdef char chars[20]
cdef short shorts[20]
cdef int ints[20]
cdef long long longlongs[20]
cdef td_h_short externs[20]
cdef float floats[20]
cdef double doubles[20]
cdef long double longdoubles[20]
cdef float complex floatcomplex[20]
cdef double complex doublecomplex[20]
cdef long double complex longdoublecomplex[20]
cdef td_h_short h_shorts[20]
cdef td_h_double h_doubles[20]
cdef td_h_ushort h_ushorts[20]
cdef Py_ssize_t idx = 17
#
### Initialize one element in each array
#
mystructs[idx] = {
'a': 'a',
'b': 'b',
'c': 600,
'd': 700,
'e': 800,
}
smallstructs[idx] = { 'a': 600, 'b': 700 }
nestedstructs[idx] = {
'x': { 'a': 100, 'b': 200 },
'y': { 'a': 300, 'b': 400 },
'z': 500,
}
packedstructs[idx] = { 'a': 'a', 'b': 900 }
chars[idx] = 99
shorts[idx] = 111
ints[idx] = 222
longlongs[idx] = 333
externs[idx] = 444
floats[idx] = 11.1
doubles[idx] = 12.2
longdoubles[idx] = 13.3
floatcomplex[idx] = 14.4 + 15.5j
doublecomplex[idx] = 16.6 + 17.7j
longdoublecomplex[idx] = 18.8 + 19.9j
h_shorts[idx] = 22
h_doubles[idx] = 33.33
h_ushorts[idx] = 44
#
### Create a NumPy array and see if our element can be correctly retrieved
#
index(<MyStruct[:4, :5]> <MyStruct *> mystructs)
index(<SmallStruct[:4, :5]> <SmallStruct *> smallstructs)
index(<NestedStruct[:4, :5]> <NestedStruct *> nestedstructs)
index(<PackedStruct[:4, :5]> <PackedStruct *> packedstructs)
index(<char[:4, :5]> <char *> chars)
index(<short[:4, :5]> <short *> shorts)
index(<int[:4, :5]> <int *> ints)
index(<long long[:4, :5]> <long long *> longlongs)
index(<float[:4, :5]> <float *> floats)
index(<double[:4, :5]> <double *> doubles)
index(<long double[:4, :5]> <long double *> longdoubles)
index(<float complex[:4, :5]> <float complex *> floatcomplex)
index(<double complex[:4, :5]> <double complex *> doublecomplex)
index(<long double complex[:4, :5]> <long double complex *> longdoublecomplex)
index(<td_h_short[:4, :5]> <td_h_short *> h_shorts)
index(<td_h_double[:4, :5]> <td_h_double *> h_doubles)
index(<td_h_ushort[:4, :5]> <td_h_ushort *> h_ushorts)
@testcase_numpy_1_5
def test_memslice_getbuffer():
"""
>>> test_memslice_getbuffer()
[[ 0 2 4]
[10 12 14]]
callback called
"""
cdef int[:, :] array = create_array((4, 5), mode="c", use_callback=True)
print np.asarray(array)[::2, ::2]
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