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Boxiang Sun
cython
Commits
556722cb
Commit
556722cb
authored
Jul 21, 2011
by
Mark Florisson
Browse files
Options
Browse Files
Download
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Plain Diff
Utility Code loader + memview python3 compat
parent
c8be949c
Changes
15
Hide whitespace changes
Inline
Side-by-side
Showing
15 changed files
with
711 additions
and
543 deletions
+711
-543
Cython/Compiler/Buffer.py
Cython/Compiler/Buffer.py
+0
-3
Cython/Compiler/Code.pxd
Cython/Compiler/Code.pxd
+4
-1
Cython/Compiler/Code.py
Cython/Compiler/Code.py
+122
-4
Cython/Compiler/CythonScope.py
Cython/Compiler/CythonScope.py
+17
-234
Cython/Compiler/MemoryView.py
Cython/Compiler/MemoryView.py
+25
-298
Cython/Compiler/PyrexTypes.py
Cython/Compiler/PyrexTypes.py
+1
-0
Cython/Compiler/UtilityCode.py
Cython/Compiler/UtilityCode.py
+2
-1
Cython/Utility/MemoryView.c
Cython/Utility/MemoryView.c
+289
-0
Cython/Utility/MemoryView.pyx
Cython/Utility/MemoryView.pyx
+178
-0
Cython/Utility/TestCythonScope.pyx
Cython/Utility/TestCythonScope.pyx
+64
-0
Cython/Utility/__init__.py
Cython/Utility/__init__.py
+0
-0
MANIFEST.in
MANIFEST.in
+2
-1
runtests.py
runtests.py
+1
-0
setup.py
setup.py
+2
-1
tests/run/cythonarray.pyx
tests/run/cythonarray.pyx
+4
-0
No files found.
Cython/Compiler/Buffer.py
View file @
556722cb
...
...
@@ -1090,9 +1090,6 @@ static int __Pyx_BufFmt_ProcessTypeChunk(__Pyx_BufFmt_Context* ctx) {
}
static const char* __Pyx_BufFmt_CheckString(__Pyx_BufFmt_Context* ctx, const char* ts) {
if (!ts) {
PyErr_SetString(PyExc_ValueError, "Got NULL buffer format");
}
int got_Z = 0;
while (1) {
switch(*ts) {
...
...
Cython/Compiler/Code.pxd
View file @
556722cb
cimport
cython
cdef
class
UtilityCode
:
cdef
class
UtilityCodeBase
(
object
):
pass
cdef
class
UtilityCode
(
UtilityCodeBase
):
cdef
public
object
proto
cdef
public
object
impl
cdef
public
object
init
...
...
Cython/Compiler/Code.py
View file @
556722cb
...
...
@@ -8,7 +8,10 @@ cython.declare(re=object, Naming=object, Options=object, StringEncoding=object,
Utils
=
object
,
SourceDescriptor
=
object
,
StringIOTree
=
object
,
DebugFlags
=
object
,
none_or_sub
=
object
,
basestring
=
object
)
import
os
import
re
import
codecs
import
Naming
import
Options
import
StringEncoding
...
...
@@ -16,6 +19,7 @@ from Cython import Utils
from
Scanning
import
SourceDescriptor
from
Cython.StringIOTree
import
StringIOTree
import
DebugFlags
import
Errors
from
Cython.Utils
import
none_or_sub
try
:
...
...
@@ -38,17 +42,130 @@ uncachable_builtins = [
'WindowsError'
,
]
class
UtilityCode
(
object
):
class
UtilityCodeBase
(
object
):
is_cython_utility
=
False
_utility_cache
=
{}
@
classmethod
def
_add_utility
(
self
,
utility
,
type
,
lines
,
begin_lineno
):
if
utility
:
code
=
'
\
n
'
*
begin_lineno
+
''
.
join
(
lines
)
if
type
==
'Proto'
:
utility
[
0
]
=
code
else
:
utility
[
1
]
=
code
@
classmethod
def
load_utilities_from_file
(
cls
,
path
):
utilities
=
cls
.
_utility_cache
.
get
(
path
)
if
utilities
:
return
utilities
Cython_dir
=
os
.
path
.
dirname
(
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
)))
filename
=
os
.
path
.
join
(
Cython_dir
,
"Utility"
,
path
)
f
=
codecs
.
open
(
filename
,
encoding
=
'UTF-8'
)
_
,
ext
=
os
.
path
.
splitext
(
path
)
if
ext
in
(
'.pyx'
,
'.py'
,
'.pxd'
,
'.pxi'
):
comment
=
'#'
else
:
comment
=
'//'
regex
=
r'%s\
s*U
tility(Proto|Code)\
s*:
\s*((\
w|
\.)+)\
s*
' % comment
flags = re.DOTALL
utilities = {}
lines = []
utility = type = None
begin_lineno = 0
for lineno, line in enumerate(f):
m = re.search(regex, line)
if m:
cls._add_utility(utility, type, lines, begin_lineno)
begin_lineno = lineno + 1
type, name = m.group(1), m.group(2)
utility = utilities.setdefault(name, [None, None])
utilities[name] = utility
lines = []
else:
lines.append(line)
if not utility:
raise ValueError("Empty utility code file")
# Don'
t
forget
to
add
the
last
utility
code
cls
.
_add_utility
(
utility
,
type
,
lines
,
begin_lineno
)
f
.
close
()
cls
.
_utility_cache
[
path
]
=
utilities
return
utilities
@
classmethod
def
load_utility_from_file
(
cls
,
path
,
util_code_name
,
proto_fmt_dict
=
None
,
impl_fmt_dict
=
None
,
*
args
,
**
kwargs
):
"""
Load a utility code from a file specified by path (relative to
Cython/Utility) and name util_code_name.
Utilities in the file can be specified as follows:
# UtilityProto: name
# UtilityImpl: name
for prototypes and implementation respectively. For non-python or
-cython files a // comment should be used instead.
proto_fmt_dict and impl_format_dict can optionally be given to perform
any substitutions.
If the @cname decorator is not used and this is a CythonUtilityCode,
one should pass in the 'name' keyword argument to be used for name
mangling of such entries.
"""
proto
,
impl
=
cls
.
load_utility_as_string
(
path
,
util_code_name
)
if
proto
:
if
proto_fmt_dict
:
proto
=
proto
%
proto_fmt_dict
kwargs
[
'proto'
]
=
proto
if
impl
:
if
impl_fmt_dict
:
impl
=
impl
%
impl_fmt_dict
kwargs
[
'impl'
]
=
impl
if
'name'
not
in
kwargs
:
kwargs
[
'name'
]
=
os
.
path
.
splitext
(
path
)[
0
]
return
cls
(
*
args
,
**
kwargs
)
@
classmethod
def
load_utility_as_string
(
cls
,
path
,
util_code_name
):
"""
Load a utility code as a string. Returns (proto, implementation)
"""
utilities
=
cls
.
load_utilities_from_file
(
path
)
return
utilities
[
util_code_name
]
def
__str__
(
self
):
return
"<%s(%s)"
%
(
type
(
self
).
__name__
,
self
.
name
)
class
UtilityCode
(
UtilityCodeBase
):
# Stores utility code to add during code generation.
#
# See GlobalState.put_utility_code.
#
# hashes/equals by instance
is_cython_utility
=
False
def
__init__
(
self
,
proto
=
None
,
impl
=
None
,
init
=
None
,
cleanup
=
None
,
requires
=
None
,
proto_block
=
'utility_code_proto'
):
proto_block
=
'utility_code_proto'
,
name
=
None
):
# proto_block: Which code block to dump prototype in. See GlobalState.
self
.
proto
=
proto
self
.
impl
=
impl
...
...
@@ -58,6 +175,7 @@ class UtilityCode(object):
self
.
_cache
=
{}
self
.
specialize_list
=
[]
self
.
proto_block
=
proto_block
self
.
name
=
name
def
get_tree
(
self
):
pass
...
...
Cython/Compiler/CythonScope.py
View file @
556722cb
...
...
@@ -5,6 +5,7 @@ from Errors import error
from
Scanning
import
StringSourceDescriptor
import
Options
import
Buffer
import
MemoryView
class
CythonScope
(
ModuleScope
):
is_cython_builtin
=
1
...
...
@@ -100,11 +101,12 @@ def create_cython_scope(context, create_testscope):
return
scope
cython_testscope_utility_code
=
CythonUtilityCode
(
u"""
@cname('__pyx_testscope')
cdef object _testscope(int value):
return "hello from cython scope, value=%d" % value
"""
)
# Load test utilities for the cython scope
def
load_testscope_utility
(
cython_util_name
,
*
args
,
**
kwargs
):
return
CythonUtilityCode
.
load_utility_from_file
(
"TestCythonScope.pyx"
,
cython_util_name
,
*
args
,
**
kwargs
)
undecorated_methods_protos
=
UtilityCode
(
proto
=
u"""
/* These methods are undecorated and have therefore no prototype */
...
...
@@ -116,237 +118,18 @@ undecorated_methods_protos = UtilityCode(proto=u"""
PyObject *self, PyObject *value);
"""
)
test_cython_utility_dep
=
CythonUtilityCode
(
u"""
@cname('__pyx_test_dep')
cdef test_dep(obj):
print 'test_dep', obj
"""
)
cython_test_extclass_utility_code
=
CythonUtilityCode
(
name
=
"TestClassUtilityCode"
,
prefix
=
"__pyx_prefix_TestClass_"
,
requires
=
[
undecorated_methods_protos
,
test_cython_utility_dep
],
impl
=
u"""
cdef extern from *:
cdef object __pyx_test_dep(object)
@cname('__pyx_TestClass')
cdef class TestClass(object):
cdef public int value
def __init__(self, int value):
self.value = value
def __str__(self):
return 'TestClass(%d)' % self.value
cdef cdef_method(self, int value):
print 'Hello from cdef_method', value
cpdef cpdef_method(self, int value):
print 'Hello from cpdef_method', value
def def_method(self, int value):
print 'Hello from def_method', value
@cname('cdef_cname')
cdef cdef_cname_method(self, int value):
print "Hello from cdef_cname_method", value
@cname('cpdef_cname')
cpdef cpdef_cname_method(self, int value):
print "Hello from cpdef_cname_method", value
@cname('def_cname')
def def_cname_method(self, int value):
print "Hello from def_cname_method", value
@cname('__pyx_test_call_other_cy_util')
cdef test_call(obj):
print 'test_call'
__pyx_test_dep(obj)
@cname('__pyx_TestClass_New')
cdef _testclass_new(int value):
return TestClass(value)
"""
)
cythonview_testscope_utility_code
=
CythonUtilityCode
(
u"""
@cname('__pyx_view_testscope')
cdef object _testscope(int value):
return "hello from cython.view scope, value=%d" % value
"""
)
memview_name
=
u'memoryview'
memview_typeptr_cname
=
'__pyx_memoryview_type'
memview_objstruct_cname
=
'__pyx_memoryview_obj'
view_utility_code
=
CythonUtilityCode
(
u"""
cdef class Enum(object):
cdef object name
def __init__(self, name):
self.name = name
def __repr__(self):
return self.name
cdef strided = Enum("<strided axis packing mode>")
cdef contig = Enum("<contig axis packing mode>")
cdef follow = Enum("<follow axis packing mode>")
cdef direct = Enum("<direct axis access mode>")
cdef ptr = Enum("<ptr axis access mode>")
cdef full = Enum("<full axis access mode>")
cdef extern from *:
int __Pyx_GetBuffer(object, Py_buffer *, int)
void __Pyx_ReleaseBuffer(Py_buffer *)
@cname('__pyx_memoryview')
cdef class memoryview(object):
cdef object obj
cdef Py_buffer view
cdef int gotbuf_flag
def __cinit__(memoryview self, object obj, int flags):
self.obj = obj
__Pyx_GetBuffer(self.obj, &self.view, flags)
def __dealloc__(memoryview self):
self.obj = None
__Pyx_ReleaseBuffer(&self.view)
@cname('__pyx_memoryview_new')
cdef memoryview memoryview_cwrapper(object o, int flags):
return memoryview(o, flags)
"""
,
name
=
"view_code"
,
requires
=
(
Buffer
.
GetAndReleaseBufferUtilityCode
(),))
cython_array_utility_code
=
CythonUtilityCode
(
u'''
cdef extern from "stdlib.h":
void *malloc(size_t)
void free(void *)
cdef extern from "Python.h":
cdef enum:
PyBUF_C_CONTIGUOUS,
PyBUF_F_CONTIGUOUS,
PyBUF_ANY_CONTIGUOUS
@cname("__pyx_array")
cdef class array:
cdef:
char *data
Py_ssize_t len
char *format
int ndim
Py_ssize_t *shape
Py_ssize_t *strides
Py_ssize_t itemsize
str mode
void (*callback_free_data)(char *data)
def __cinit__(array self, tuple shape, Py_ssize_t itemsize, char *format,
mode="c", bint allocate_buffer=True):
self.ndim = len(shape)
self.itemsize = itemsize
if not self.ndim:
raise ValueError("Empty shape tuple for cython.array")
if self.itemsize <= 0:
raise ValueError("itemsize <= 0 for cython.array")
self.format = 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)
if not self.shape or not self.strides:
raise MemoryError("unable to allocate shape or strides.")
cdef int idx
# cdef Py_ssize_t dim, stride
idx = 0
for dim in shape:
if dim <= 0:
raise ValueError("Invalid shape.")
self.shape[idx] = dim
idx += 1
stride = itemsize
if mode == "fortran":
idx = 0
for dim in shape:
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
stride = stride * dim
idx -= 1
else:
raise ValueError("Invalid mode, expected 'c' or 'fortran', got %s" % mode)
self.len = stride
self.mode = mode
if allocate_buffer:
self.data = <char *>malloc(self.len)
if not self.data:
raise MemoryError("unable to allocate array data.")
else:
self.data = NULL
self.callback_free_data = NULL
cython_testscope_utility_code
=
load_testscope_utility
(
"TestScope"
)
def __getbuffer__(self, Py_buffer *info, int flags):
test_cython_utility_dep
=
load_testscope_utility
(
"TestDep"
)
cdef int bufmode = -1
if self.mode == b"c":
bufmode = PyBUF_C_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
elif self.mode == b"fortran":
bufmode = PyBUF_F_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
if not (flags & bufmode):
raise ValueError("Can only create a buffer that is contiguous in memory.")
info.buf = self.data
info.len = self.len
info.ndim = self.ndim
info.shape = self.shape
info.strides = self.strides
info.suboffsets = NULL
info.itemsize = self.itemsize
info.format = self.format
# we do not need to call releasebuffer
info.obj = None
cython_test_extclass_utility_code
=
\
load_testscope_utility
(
"TestClass"
,
name
=
"TestClass"
,
requires
=
[
undecorated_methods_protos
,
test_cython_utility_dep
])
def __releasebuffer__(array self, Py_buffer* info):
# array.__releasebuffer__ should not be called,
# because the Py_buffer's 'obj' field is set to None.
raise NotImplementedError()
cythonview_testscope_utility_code
=
load_testscope_utility
(
"View.TestScope"
)
def __dealloc__(array self):
if self.data:
if self.callback_free_data != NULL:
self.callback_free_data(self.data)
else:
free(self.data)
self.data = NULL
if self.strides:
free(self.strides)
self.strides = NULL
if self.shape:
free(self.shape)
self.shape = NULL
self.format = NULL
self.itemsize = 0
view_utility_code
=
MemoryView
.
load_memview_cy_utility
(
"MemoryView"
,
requires
=
(
Buffer
.
GetAndReleaseBufferUtilityCode
(),))
@cname("__pyx_array_new")
cdef array array_cwrapper(tuple shape, Py_ssize_t itemsize, char *format, char *mode):
return array(shape, itemsize, format, mode)
'''
)
cython_array_utility_code
=
MemoryView
.
load_memview_cy_utility
(
"CythonArray"
)
Cython/Compiler/MemoryView.py
View file @
556722cb
...
...
@@ -2,7 +2,6 @@ from Errors import CompileError
from
ExprNodes
import
IntNode
,
NoneNode
,
IntBinopNode
,
NameNode
,
AttributeNode
from
Visitor
import
CythonTransform
import
Options
import
CythonScope
from
Code
import
UtilityCode
from
UtilityCode
import
CythonUtilityCode
from
PyrexTypes
import
py_object_type
,
cython_memoryview_ptr_type
...
...
@@ -47,6 +46,10 @@ _spec_to_const = {
'full'
:
MEMVIEW_FULL
}
memview_name
=
u'memoryview'
memview_typeptr_cname
=
'__pyx_memoryview_type'
memview_objstruct_cname
=
'__pyx_memoryview_obj'
memviewslice_cname
=
u'__Pyx_memviewslice'
def
specs_to_code
(
specs
):
arr
=
[]
...
...
@@ -694,309 +697,33 @@ class MemoryViewSliceTransform(CythonTransform):
def
visit_SingleAssignmentNode
(
self
,
node
):
return
node
copy_template
=
'''
static __Pyx_memviewslice %(copy_name)s(const __Pyx_memviewslice from_mvs) {
__Pyx_RefNannyDeclarations
int i;
__Pyx_memviewslice new_mvs = {0, 0};
struct __pyx_memoryview_obj *from_memview = from_mvs.memview;
Py_buffer *buf = &from_memview->view;
PyObject *shape_tuple = 0;
PyObject *temp_int = 0;
struct __pyx_array_obj *array_obj = 0;
struct __pyx_memoryview_obj *memview_obj = 0;
char *mode = "%(mode)s";
__Pyx_RefNannySetupContext("%(copy_name)s");
shape_tuple = PyTuple_New((Py_ssize_t)(buf->ndim));
if(unlikely(!shape_tuple)) {
goto fail;
}
__Pyx_GOTREF(shape_tuple);
for(i=0; i<buf->ndim; i++) {
temp_int = PyInt_FromLong(buf->shape[i]);
if(unlikely(!temp_int)) {
goto fail;
} else {
PyTuple_SET_ITEM(shape_tuple, i, temp_int);
}
}
array_obj = __pyx_array_new(shape_tuple, %(sizeof_dtype)s, buf->format, mode);
if (unlikely(!array_obj)) {
goto fail;
}
__Pyx_GOTREF(array_obj);
memview_obj = __pyx_memoryview_new((PyObject *) array_obj, %(contig_flag)s);
if (unlikely(!memview_obj)) {
goto fail;
}
def
load_memview_cy_utility
(
name
,
*
args
,
**
kwargs
):
return
CythonUtilityCode
.
load_utility_from_file
(
"MemoryView.pyx"
,
name
,
*
args
,
**
kwargs
)
/* initialize new_mvs */
if (unlikely(-1 == __Pyx_init_memviewslice(memview_obj, buf->ndim, &new_mvs))) {
PyErr_SetString(PyExc_RuntimeError,
"Could not initialize new memoryviewslice object.");
goto fail;
}
def
load_memview_c_utility
(
name
,
*
args
,
**
kwargs
):
return
UtilityCode
.
load_utility_from_file
(
"MemoryView.c"
,
name
,
*
args
,
**
kwargs
)
if (unlikely(-1 == %(copy_contents_name)s(&from_mvs, &new_mvs))) {
/* PyErr_SetString(PyExc_RuntimeError,
"Could not copy contents of memoryview slice."); */
goto fail;
}
def
load_memview_c_string
(
name
):
return
UtilityCode
.
load_utility_as_string
(
"MemoryView.c"
,
name
)
goto no_fail;
fail:
__Pyx_XDECREF(new_mvs.memview); new_mvs.memview = 0;
new_mvs.data = 0;
no_fail:
__Pyx_XDECREF(shape_tuple); shape_tuple = 0;
__Pyx_GOTREF(temp_int);
__Pyx_XDECREF(temp_int); temp_int = 0;
__Pyx_XDECREF(array_obj); array_obj = 0;
__Pyx_RefNannyFinishContext();
return new_mvs;
_
,
copy_template
=
UtilityCode
.
load_utility_as_string
(
"MemoryView.c"
,
"MemviewSliceCopyTemplate"
)
fmt_dict
=
{
'memview_struct_name'
:
memview_objstruct_cname
,
'max_dims'
:
Options
.
buffer_max_dims
,
'memviewslice_name'
:
memviewslice_cname
,
}
'''
spec_constants_code
=
UtilityCode
(
proto
=
"""
#define __Pyx_MEMVIEW_DIRECT 1
#define __Pyx_MEMVIEW_PTR 2
#define __Pyx_MEMVIEW_FULL 4
#define __Pyx_MEMVIEW_CONTIG 8
#define __Pyx_MEMVIEW_STRIDED 16
#define __Pyx_MEMVIEW_FOLLOW 32
"""
)
memviewslice_cname
=
u'__Pyx_memviewslice'
memviewslice_declare_code
=
UtilityCode
(
memviewslice_declare_code
=
load_memview_c_utility
(
name
=
"MemviewSliceStruct"
,
proto_block
=
'utility_code_proto_before_types'
,
proto
=
"""
/* memoryview slice struct */
proto_fmt_dict
=
fmt_dict
)
typedef struct {
struct %(memview_struct_name)s *memview;
char *data;
Py_ssize_t shape[%(max_dims)d];
Py_ssize_t strides[%(max_dims)d];
Py_ssize_t suboffsets[%(max_dims)d];
} %(memviewslice_name)s;
"""
%
dict
(
memview_struct_name
=
CythonScope
.
memview_objstruct_cname
,
max_dims
=
Options
.
buffer_max_dims
,
memviewslice_name
=
memviewslice_cname
)
memviewslice_init_code
=
load_memview_c_utility
(
name
=
"MemviewSliceInit"
,
proto_fmt_dict
=
{
'BUF_MAX_NDIMS'
:
Options
.
buffer_max_dims
},
requires
=
[
memviewslice_declare_code
],
)
memviewslice_init_code
=
UtilityCode
(
proto
=
"""
\
#define __Pyx_BUF_MAX_NDIMS %(BUF_MAX_NDIMS)d
#define __Pyx_MEMVIEW_DIRECT 1
#define __Pyx_MEMVIEW_PTR 2
#define __Pyx_MEMVIEW_FULL 4
#define __Pyx_MEMVIEW_CONTIG 8
#define __Pyx_MEMVIEW_STRIDED 16
#define __Pyx_MEMVIEW_FOLLOW 32
#define __Pyx_IS_C_CONTIG 1
#define __Pyx_IS_F_CONTIG 2
static int __Pyx_ValidateAndInit_memviewslice(struct __pyx_memoryview_obj *memview,
int *axes_specs, int c_or_f_flag, int ndim, __Pyx_TypeInfo *dtype,
__Pyx_BufFmt_StackElem stack[], __Pyx_memviewslice *memviewslice);
static int __Pyx_init_memviewslice(
struct __pyx_memoryview_obj *memview,
int ndim,
__Pyx_memviewslice *memviewslice);
"""
%
{
'BUF_MAX_NDIMS'
:
Options
.
buffer_max_dims
},
impl
=
"""
\
static int __Pyx_ValidateAndInit_memviewslice(
struct __pyx_memoryview_obj *memview,
int *axes_specs,
int c_or_f_flag,
int ndim,
__Pyx_TypeInfo *dtype,
__Pyx_BufFmt_StackElem stack[],
__Pyx_memviewslice *memviewslice) {
__Pyx_RefNannyDeclarations
__Pyx_RefNannySetupContext("ValidateAndInit_memviewslice");
Py_buffer *buf = &memview->view;
int stride, i, spec = 0, retval = -1;
if (!buf) goto fail;
if(memviewslice->data || memviewslice->memview) {
PyErr_SetString(PyExc_ValueError,
"memoryviewslice struct must be initialized to NULL.");
goto fail;
}
if (buf->ndim != ndim) {
PyErr_Format(PyExc_ValueError,
"Buffer has wrong number of dimensions (expected %d, got %d)",
ndim, buf->ndim);
goto fail;
}
__Pyx_BufFmt_Context ctx;
__Pyx_BufFmt_Init(&ctx, stack, dtype);
if (!__Pyx_BufFmt_CheckString(&ctx, buf->format)) goto fail;
if ((unsigned)buf->itemsize != dtype->size) {
PyErr_Format(PyExc_ValueError,
"Item size of buffer (%"PY_FORMAT_SIZE_T"d byte%s) does not match size of '%s' (%"PY_FORMAT_SIZE_T"d byte%s)",
buf->itemsize, (buf->itemsize > 1) ? "s" : "",
dtype->name,
dtype->size, (dtype->size > 1) ? "s" : "");
goto fail;
}
if (!buf->strides) {
PyErr_SetString(PyExc_ValueError,
"buffer does not supply strides necessary for memoryview.");
goto fail;
}
for(i=0; i<ndim; i++) {
spec = axes_specs[i];
if (spec & __Pyx_MEMVIEW_CONTIG) {
if (buf->strides[i] != buf->itemsize) {
PyErr_SetString(PyExc_ValueError,
"Buffer and memoryview are not contiguous in the same dimension.");
goto fail;
}
}
if (spec & (__Pyx_MEMVIEW_STRIDED | __Pyx_MEMVIEW_FOLLOW)) {
if (buf->strides[i] < buf->itemsize) {
PyErr_SetString(PyExc_ValueError,
"Buffer and memoryview are not contiguous in the same dimension.");
goto fail;
}
}
if (spec & __Pyx_MEMVIEW_DIRECT) {
if (buf->suboffsets && buf->suboffsets[i] >= 0) {
PyErr_SetString(PyExc_ValueError,
"Buffer not compatible with direct access.");
goto fail;
}
}
if (spec & (__Pyx_MEMVIEW_PTR | __Pyx_MEMVIEW_FULL)) {
if (!buf->suboffsets) {
PyErr_SetString(PyExc_ValueError,
"Buffer not able to be indirectly accessed.");
goto fail;
}
}
if (spec & __Pyx_MEMVIEW_PTR) {
if (buf->suboffsets[i] < 0) {
PyErr_Format(PyExc_ValueError,
"Buffer not indirectly accessed in %d dimension, although memoryview is.", i);
goto fail;
}
}
}
if (c_or_f_flag & __Pyx_IS_F_CONTIG) {
stride = 1;
for(i=0; i<ndim; i++) {
if(stride * buf->itemsize != buf->strides[i]) {
PyErr_SetString(PyExc_ValueError,
"Buffer not fortran contiguous.");
goto fail;
}
stride = stride * buf->shape[i];
}
} else if (c_or_f_flag & __Pyx_IS_F_CONTIG) {
for(i=ndim-1; i>-1; i--) {
if(stride * buf->itemsize != buf->strides[i]) {
PyErr_SetString(PyExc_ValueError,
"Buffer not C contiguous.");
goto fail;
}
stride = stride * buf->shape[i];
}
}
if(unlikely(__Pyx_init_memviewslice(memview, ndim, memviewslice) == -1)) {
goto fail;
}
retval = 0;
goto no_fail;
fail:
__Pyx_XDECREF(memviewslice->memview);
memviewslice->memview = 0;
memviewslice->data = 0;
retval = -1;
no_fail:
__Pyx_RefNannyFinishContext();
return retval;
}
static int __Pyx_init_memviewslice(
struct __pyx_memoryview_obj *memview,
int ndim,
__Pyx_memviewslice *memviewslice) {
__Pyx_RefNannyDeclarations
__Pyx_RefNannySetupContext("init_memviewslice");
int i, retval=-1;
Py_buffer *buf = &memview->view;
if(!buf) {
PyErr_SetString(PyExc_ValueError,
"buf is NULL.");
goto fail;
} else if(memviewslice->memview || memviewslice->data) {
PyErr_SetString(PyExc_ValueError,
"memviewslice is already initialized!");
goto fail;
}
for(i=0; i<ndim; i++) {
memviewslice->strides[i] = buf->strides[i];
memviewslice->shape[i] = buf->shape[i];
if(buf->suboffsets) {
memviewslice->suboffsets[i] = buf->suboffsets[i];
} else {
memviewslice->suboffsets[i] = -1;
}
}
__Pyx_INCREF((PyObject *)memview);
__Pyx_GIVEREF((PyObject *)memview);
memviewslice->memview = memview;
memviewslice->data = (char *)buf->buf;
retval = 0;
goto no_fail;
fail:
__Pyx_XDECREF(memviewslice->memview);
memviewslice->memview = 0;
memviewslice->data = 0;
retval = -1;
no_fail:
__Pyx_RefNannyFinishContext();
return retval;
}
"""
)
memviewslice_init_code
.
requires
=
[
memviewslice_declare_code
]
Cython/Compiler/PyrexTypes.py
View file @
556722cb
...
...
@@ -498,6 +498,7 @@ class MemoryViewSliceType(PyrexType):
def
check_for_null_code
(
self
,
cname
):
return
cname
+
'.memview'
class
BufferType
(
BaseType
):
#
# Delegates most attribute
...
...
Cython/Compiler/UtilityCode.py
View file @
556722cb
...
...
@@ -3,6 +3,7 @@ from Scanning import StringSourceDescriptor
import
Symtab
import
Naming
from
Cython.Compiler
import
Visitor
import
Code
class
NonManglingModuleScope
(
Symtab
.
ModuleScope
):
...
...
@@ -43,7 +44,7 @@ class CythonUtilityCodeContext(StringParseContext):
return
self
.
scope
class
CythonUtilityCode
(
object
):
class
CythonUtilityCode
(
Code
.
UtilityCodeBase
):
"""
Utility code written in the Cython language itself.
...
...
Cython/Utility/MemoryView.c
0 → 100644
View file @
556722cb
// UtilityProto: MemviewSliceStruct
/* memoryview slice struct */
typedef
struct
{
struct
%
(
memview_struct_name
)
s
*
memview
;
char
*
data
;
Py_ssize_t
shape
[
%
(
max_dims
)
d
];
Py_ssize_t
strides
[
%
(
max_dims
)
d
];
Py_ssize_t
suboffsets
[
%
(
max_dims
)
d
];
}
%
(
memviewslice_name
)
s
;
// UtilityProto: MemviewSliceInit
#define __Pyx_BUF_MAX_NDIMS %(BUF_MAX_NDIMS)d
#define __Pyx_MEMVIEW_DIRECT 1
#define __Pyx_MEMVIEW_PTR 2
#define __Pyx_MEMVIEW_FULL 4
#define __Pyx_MEMVIEW_CONTIG 8
#define __Pyx_MEMVIEW_STRIDED 16
#define __Pyx_MEMVIEW_FOLLOW 32
#define __Pyx_IS_C_CONTIG 1
#define __Pyx_IS_F_CONTIG 2
static
int
__Pyx_ValidateAndInit_memviewslice
(
struct
__pyx_memoryview_obj
*
memview
,
int
*
axes_specs
,
int
c_or_f_flag
,
int
ndim
,
__Pyx_TypeInfo
*
dtype
,
__Pyx_BufFmt_StackElem
stack
[],
__Pyx_memviewslice
*
memviewslice
);
static
int
__Pyx_init_memviewslice
(
struct
__pyx_memoryview_obj
*
memview
,
int
ndim
,
__Pyx_memviewslice
*
memviewslice
);
// UtilityCode: MemviewSliceInit
static
int
__Pyx_ValidateAndInit_memviewslice
(
struct
__pyx_memoryview_obj
*
memview
,
int
*
axes_specs
,
int
c_or_f_flag
,
int
ndim
,
__Pyx_TypeInfo
*
dtype
,
__Pyx_BufFmt_StackElem
stack
[],
__Pyx_memviewslice
*
memviewslice
)
{
__Pyx_RefNannyDeclarations
__Pyx_RefNannySetupContext
(
"ValidateAndInit_memviewslice"
);
Py_buffer
*
buf
=
&
memview
->
view
;
int
stride
,
i
,
spec
=
0
,
retval
=
-
1
;
if
(
!
buf
)
goto
fail
;
if
(
memviewslice
->
data
||
memviewslice
->
memview
)
{
PyErr_SetString
(
PyExc_ValueError
,
"memoryviewslice struct must be initialized to NULL."
);
goto
fail
;
}
if
(
buf
->
ndim
!=
ndim
)
{
PyErr_Format
(
PyExc_ValueError
,
"Buffer has wrong number of dimensions (expected %d, got %d)"
,
ndim
,
buf
->
ndim
);
goto
fail
;
}
__Pyx_BufFmt_Context
ctx
;
__Pyx_BufFmt_Init
(
&
ctx
,
stack
,
dtype
);
if
(
!
__Pyx_BufFmt_CheckString
(
&
ctx
,
buf
->
format
))
goto
fail
;
if
((
unsigned
)
buf
->
itemsize
!=
dtype
->
size
)
{
PyErr_Format
(
PyExc_ValueError
,
"Item size of buffer (%"
PY_FORMAT_SIZE_T
"d byte%s) "
"does not match size of '%s' (%"
PY_FORMAT_SIZE_T
"d byte%s)"
,
buf
->
itemsize
,
(
buf
->
itemsize
>
1
)
?
"s"
:
""
,
dtype
->
name
,
dtype
->
size
,
(
dtype
->
size
>
1
)
?
"s"
:
""
);
goto
fail
;
}
if
(
!
buf
->
strides
)
{
PyErr_SetString
(
PyExc_ValueError
,
"buffer does not supply strides necessary for memoryview."
);
goto
fail
;
}
for
(
i
=
0
;
i
<
ndim
;
i
++
)
{
spec
=
axes_specs
[
i
];
if
(
spec
&
__Pyx_MEMVIEW_CONTIG
)
{
if
(
buf
->
strides
[
i
]
!=
buf
->
itemsize
)
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer and memoryview are not contiguous in the same dimension."
);
goto
fail
;
}
}
if
(
spec
&
(
__Pyx_MEMVIEW_STRIDED
|
__Pyx_MEMVIEW_FOLLOW
))
{
if
(
buf
->
strides
[
i
]
<
buf
->
itemsize
)
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer and memoryview are not contiguous in the same dimension."
);
goto
fail
;
}
}
if
(
spec
&
__Pyx_MEMVIEW_DIRECT
)
{
if
(
buf
->
suboffsets
&&
buf
->
suboffsets
[
i
]
>=
0
)
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer not compatible with direct access."
);
goto
fail
;
}
}
if
(
spec
&
(
__Pyx_MEMVIEW_PTR
|
__Pyx_MEMVIEW_FULL
))
{
if
(
!
buf
->
suboffsets
)
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer not able to be indirectly accessed."
);
goto
fail
;
}
}
if
(
spec
&
__Pyx_MEMVIEW_PTR
)
{
if
(
buf
->
suboffsets
[
i
]
<
0
)
{
PyErr_Format
(
PyExc_ValueError
,
"Buffer not indirectly accessed in %d dimension, although memoryview is."
,
i
);
goto
fail
;
}
}
}
if
(
c_or_f_flag
&
__Pyx_IS_F_CONTIG
)
{
stride
=
1
;
for
(
i
=
0
;
i
<
ndim
;
i
++
)
{
if
(
stride
*
buf
->
itemsize
!=
buf
->
strides
[
i
])
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer not fortran contiguous."
);
goto
fail
;
}
stride
=
stride
*
buf
->
shape
[
i
];
}
}
else
if
(
c_or_f_flag
&
__Pyx_IS_F_CONTIG
)
{
for
(
i
=
ndim
-
1
;
i
>-
1
;
i
--
)
{
if
(
stride
*
buf
->
itemsize
!=
buf
->
strides
[
i
])
{
PyErr_SetString
(
PyExc_ValueError
,
"Buffer not C contiguous."
);
goto
fail
;
}
stride
=
stride
*
buf
->
shape
[
i
];
}
}
if
(
unlikely
(
__Pyx_init_memviewslice
(
memview
,
ndim
,
memviewslice
)
==
-
1
))
{
goto
fail
;
}
retval
=
0
;
goto
no_fail
;
fail:
__Pyx_XDECREF
(
memviewslice
->
memview
);
memviewslice
->
memview
=
0
;
memviewslice
->
data
=
0
;
retval
=
-
1
;
no_fail:
__Pyx_RefNannyFinishContext
();
return
retval
;
}
static
int
__Pyx_init_memviewslice
(
struct
__pyx_memoryview_obj
*
memview
,
int
ndim
,
__Pyx_memviewslice
*
memviewslice
)
{
__Pyx_RefNannyDeclarations
__Pyx_RefNannySetupContext
(
"init_memviewslice"
);
int
i
,
retval
=-
1
;
Py_buffer
*
buf
=
&
memview
->
view
;
if
(
!
buf
)
{
PyErr_SetString
(
PyExc_ValueError
,
"buf is NULL."
);
goto
fail
;
}
else
if
(
memviewslice
->
memview
||
memviewslice
->
data
)
{
PyErr_SetString
(
PyExc_ValueError
,
"memviewslice is already initialized!"
);
goto
fail
;
}
for
(
i
=
0
;
i
<
ndim
;
i
++
)
{
memviewslice
->
strides
[
i
]
=
buf
->
strides
[
i
];
memviewslice
->
shape
[
i
]
=
buf
->
shape
[
i
];
if
(
buf
->
suboffsets
)
{
memviewslice
->
suboffsets
[
i
]
=
buf
->
suboffsets
[
i
];
}
else
{
memviewslice
->
suboffsets
[
i
]
=
-
1
;
}
}
__Pyx_INCREF
((
PyObject
*
)
memview
);
__Pyx_GIVEREF
((
PyObject
*
)
memview
);
memviewslice
->
memview
=
memview
;
memviewslice
->
data
=
(
char
*
)
buf
->
buf
;
retval
=
0
;
goto
no_fail
;
fail:
__Pyx_XDECREF
(
memviewslice
->
memview
);
memviewslice
->
memview
=
0
;
memviewslice
->
data
=
0
;
retval
=
-
1
;
no_fail:
__Pyx_RefNannyFinishContext
();
return
retval
;
}
// UtilityCode: MemviewSliceCopyTemplate
static
__Pyx_memviewslice
%
(
copy_name
)
s
(
const
__Pyx_memviewslice
from_mvs
)
{
__Pyx_RefNannyDeclarations
int
i
;
__Pyx_memviewslice
new_mvs
=
{
0
,
0
};
struct
__pyx_memoryview_obj
*
from_memview
=
from_mvs
.
memview
;
Py_buffer
*
buf
=
&
from_memview
->
view
;
PyObject
*
shape_tuple
=
0
;
PyObject
*
temp_int
=
0
;
struct
__pyx_array_obj
*
array_obj
=
0
;
struct
__pyx_memoryview_obj
*
memview_obj
=
0
;
char
*
mode
=
"%(mode)s"
;
__Pyx_RefNannySetupContext
(
"%(copy_name)s"
);
shape_tuple
=
PyTuple_New
((
Py_ssize_t
)(
buf
->
ndim
));
if
(
unlikely
(
!
shape_tuple
))
{
goto
fail
;
}
__Pyx_GOTREF
(
shape_tuple
);
for
(
i
=
0
;
i
<
buf
->
ndim
;
i
++
)
{
temp_int
=
PyInt_FromLong
(
buf
->
shape
[
i
]);
if
(
unlikely
(
!
temp_int
))
{
goto
fail
;
}
else
{
PyTuple_SET_ITEM
(
shape_tuple
,
i
,
temp_int
);
}
}
array_obj
=
__pyx_array_new
(
shape_tuple
,
%
(
sizeof_dtype
)
s
,
buf
->
format
,
mode
);
if
(
unlikely
(
!
array_obj
))
{
goto
fail
;
}
__Pyx_GOTREF
(
array_obj
);
memview_obj
=
__pyx_memoryview_new
((
PyObject
*
)
array_obj
,
%
(
contig_flag
)
s
);
if
(
unlikely
(
!
memview_obj
))
{
goto
fail
;
}
/* initialize new_mvs */
if
(
unlikely
(
-
1
==
__Pyx_init_memviewslice
(
memview_obj
,
buf
->
ndim
,
&
new_mvs
)))
{
PyErr_SetString
(
PyExc_RuntimeError
,
"Could not initialize new memoryviewslice object."
);
goto
fail
;
}
if
(
unlikely
(
-
1
==
%
(
copy_contents_name
)
s
(
&
from_mvs
,
&
new_mvs
)))
{
/* PyErr_SetString(PyExc_RuntimeError,
"Could not copy contents of memoryview slice."); */
goto
fail
;
}
goto
no_fail
;
fail:
__Pyx_XDECREF
(
new_mvs
.
memview
);
new_mvs
.
memview
=
0
;
new_mvs
.
data
=
0
;
no_fail:
__Pyx_XDECREF
(
shape_tuple
);
shape_tuple
=
0
;
__Pyx_GOTREF
(
temp_int
);
__Pyx_XDECREF
(
temp_int
);
temp_int
=
0
;
__Pyx_XDECREF
(
array_obj
);
array_obj
=
0
;
__Pyx_RefNannyFinishContext
();
return
new_mvs
;
}
Cython/Utility/MemoryView.pyx
0 → 100644
View file @
556722cb
# UtilityCode: CythonArray
cdef
extern
from
"stdlib.h"
:
void
*
malloc
(
size_t
)
void
free
(
void
*
)
cdef
extern
from
"Python.h"
:
cdef
enum
:
PyBUF_C_CONTIGUOUS
,
PyBUF_F_CONTIGUOUS
,
PyBUF_ANY_CONTIGUOUS
@
cname
(
"__pyx_array"
)
cdef
class
array
:
cdef
:
char
*
data
Py_ssize_t
len
char
*
format
int
ndim
Py_ssize_t
*
shape
Py_ssize_t
*
strides
Py_ssize_t
itemsize
unicode
mode
bytes
_format
void
(
*
callback_free_data
)(
char
*
data
)
def
__cinit__
(
array
self
,
tuple
shape
,
Py_ssize_t
itemsize
,
format
,
mode
=
u"c"
,
bint
allocate_buffer
=
True
):
self
.
ndim
=
len
(
shape
)
self
.
itemsize
=
itemsize
if
not
self
.
ndim
:
raise
ValueError
(
"Empty shape tuple for cython.array"
)
if
self
.
itemsize
<=
0
:
raise
ValueError
(
"itemsize <= 0 for cython.array"
)
encode
=
getattr
(
format
,
'encode'
,
None
)
if
encode
:
format
=
encode
(
'ASCII'
)
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
)
if
not
self
.
shape
or
not
self
.
strides
:
raise
MemoryError
(
"unable to allocate shape or strides."
)
cdef
int
idx
# cdef Py_ssize_t dim, stride
idx
=
0
for
dim
in
shape
:
if
dim
<=
0
:
raise
ValueError
(
"Invalid shape."
)
self
.
shape
[
idx
]
=
dim
idx
+=
1
stride
=
itemsize
if
mode
==
"fortran"
:
idx
=
0
for
dim
in
shape
:
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
stride
=
stride
*
dim
idx
-=
1
else
:
raise
ValueError
(
"Invalid mode, expected 'c' or 'fortran', got %s"
%
mode
)
self
.
len
=
stride
decode
=
getattr
(
mode
,
'decode'
,
None
)
if
decode
:
mode
=
decode
(
'ASCII'
)
self
.
mode
=
mode
if
allocate_buffer
:
self
.
data
=
<
char
*>
malloc
(
self
.
len
)
if
not
self
.
data
:
raise
MemoryError
(
"unable to allocate array data."
)
else
:
self
.
data
=
NULL
self
.
callback_free_data
=
NULL
def
__getbuffer__
(
self
,
Py_buffer
*
info
,
int
flags
):
cdef
int
bufmode
=
-
1
if
self
.
mode
==
b"c"
:
bufmode
=
PyBUF_C_CONTIGUOUS
|
PyBUF_ANY_CONTIGUOUS
elif
self
.
mode
==
b"fortran"
:
bufmode
=
PyBUF_F_CONTIGUOUS
|
PyBUF_ANY_CONTIGUOUS
if
not
(
flags
&
bufmode
):
raise
ValueError
(
"Can only create a buffer that is contiguous in memory."
)
info
.
buf
=
self
.
data
info
.
len
=
self
.
len
info
.
ndim
=
self
.
ndim
info
.
shape
=
self
.
shape
info
.
strides
=
self
.
strides
info
.
suboffsets
=
NULL
info
.
itemsize
=
self
.
itemsize
info
.
format
=
self
.
format
# we do not need to call releasebuffer
info
.
obj
=
None
def
__releasebuffer__
(
array
self
,
Py_buffer
*
info
):
# array.__releasebuffer__ should not be called,
# because the Py_buffer's 'obj' field is set to None.
raise
NotImplementedError
()
def
__dealloc__
(
array
self
):
if
self
.
data
:
if
self
.
callback_free_data
!=
NULL
:
self
.
callback_free_data
(
self
.
data
)
else
:
free
(
self
.
data
)
self
.
data
=
NULL
if
self
.
strides
:
free
(
self
.
strides
)
self
.
strides
=
NULL
if
self
.
shape
:
free
(
self
.
shape
)
self
.
shape
=
NULL
self
.
format
=
NULL
self
.
itemsize
=
0
@
cname
(
"__pyx_array_new"
)
cdef
array
array_cwrapper
(
tuple
shape
,
Py_ssize_t
itemsize
,
char
*
format
,
char
*
mode
):
return
array
(
shape
,
itemsize
,
format
,
mode
.
decode
(
'ASCII'
))
# UtilityCode: MemoryView
@
cname
(
'__pyx_MemviewEnum'
)
cdef
class
Enum
(
object
):
cdef
object
name
def
__init__
(
self
,
name
):
self
.
name
=
name
def
__repr__
(
self
):
return
self
.
name
cdef
strided
=
Enum
(
"<strided axis packing mode>"
)
cdef
contig
=
Enum
(
"<contig axis packing mode>"
)
cdef
follow
=
Enum
(
"<follow axis packing mode>"
)
cdef
direct
=
Enum
(
"<direct axis access mode>"
)
cdef
ptr
=
Enum
(
"<ptr axis access mode>"
)
cdef
full
=
Enum
(
"<full axis access mode>"
)
cdef
extern
from
*
:
int
__Pyx_GetBuffer
(
object
,
Py_buffer
*
,
int
)
void
__Pyx_ReleaseBuffer
(
Py_buffer
*
)
@
cname
(
'__pyx_memoryview'
)
cdef
class
memoryview
(
object
):
cdef
object
obj
cdef
Py_buffer
view
cdef
int
gotbuf_flag
def
__cinit__
(
memoryview
self
,
object
obj
,
int
flags
):
self
.
obj
=
obj
__Pyx_GetBuffer
(
self
.
obj
,
&
self
.
view
,
flags
)
def
__dealloc__
(
memoryview
self
):
self
.
obj
=
None
__Pyx_ReleaseBuffer
(
&
self
.
view
)
@
cname
(
'__pyx_memoryview_new'
)
cdef
memoryview
memoryview_cwrapper
(
object
o
,
int
flags
):
return
memoryview
(
o
,
flags
)
Cython/Utility/TestCythonScope.pyx
0 → 100644
View file @
556722cb
# UtilityCode: TestClass
# These utilities are for testing purposes
cdef
extern
from
*
:
cdef
object
__pyx_test_dep
(
object
)
@
cname
(
'__pyx_TestClass'
)
cdef
class
TestClass
(
object
):
cdef
public
int
value
def
__init__
(
self
,
int
value
):
self
.
value
=
value
def
__str__
(
self
):
return
'TestClass(%d)'
%
self
.
value
cdef
cdef
_method
(
self
,
int
value
):
print
'Hello from cdef_method'
,
value
cpdef
cpdef
_method
(
self
,
int
value
):
print
'Hello from cpdef_method'
,
value
def
def_method
(
self
,
int
value
):
print
'Hello from def_method'
,
value
@
cname
(
'cdef_cname'
)
cdef
cdef
_cname_method
(
self
,
int
value
):
print
"Hello from cdef_cname_method"
,
value
@
cname
(
'cpdef_cname'
)
cpdef
cpdef
_cname_method
(
self
,
int
value
):
print
"Hello from cpdef_cname_method"
,
value
@
cname
(
'def_cname'
)
def
def_cname_method
(
self
,
int
value
):
print
"Hello from def_cname_method"
,
value
@
cname
(
'__pyx_test_call_other_cy_util'
)
cdef
test_call
(
obj
):
print
'test_call'
__pyx_test_dep
(
obj
)
@
cname
(
'__pyx_TestClass_New'
)
cdef
_testclass_new
(
int
value
):
return
TestClass
(
value
)
# UtilityCode: TestDep
@
cname
(
'__pyx_test_dep'
)
cdef
test_dep
(
obj
):
print
'test_dep'
,
obj
# UtilityCode: TestScope
@
cname
(
'__pyx_testscope'
)
cdef
object
_testscope
(
int
value
):
return
"hello from cython scope, value=%d"
%
value
# UtilityCode: View.TestScope
@
cname
(
'__pyx_view_testscope'
)
cdef
object
_testscope
(
int
value
):
return
"hello from cython.view scope, value=%d"
%
value
Cython/Utility/__init__.py
0 → 100644
View file @
556722cb
MANIFEST.in
View file @
556722cb
...
...
@@ -17,7 +17,8 @@ include Demos/embed/*
include Demos/freeze/*
include Demos/libraries/*
include Demos/Makefile*
recursive-include Cython/Debugger/Tests *
recursive-include Cython/Debugger/Tests *.pyx *.pxd *.c *.h
recursive-include Cython/Utility *
recursive-include Tools *
recursive-include tests *.pyx *.pxd *.pxi *.py *.h *.BROKEN bugs.txt
recursive-include tests *_lib.cpp *.srctree
...
...
runtests.py
View file @
556722cb
...
...
@@ -1187,6 +1187,7 @@ def refactor_for_py3(distdir, cy3_dir):
recursive-exclude Cython *
recursive-include Cython *.py *.pyx *.pxd
recursive-include Cython/Debugger/Tests *
recursive-include Cython/Utility *
include runtests.py
include cython.py
''')
...
...
setup.py
View file @
556722cb
...
...
@@ -63,6 +63,7 @@ else:
'Cython.Plex'
:
[
'*.pxd'
],
'Cython.Compiler'
:
[
'*.pxd'
],
'Cython.Runtime'
:
[
'*.pyx'
,
'*.pxd'
],
'Cython.Utility'
:
[
'*.pyx'
,
'*.pxd'
,
'*.c'
,
'*.h'
],
'Cython'
:
[
p
[
7
:]
for
p
in
pxd_include_patterns
],
}
...
...
@@ -272,6 +273,7 @@ packages = [
'Cython.Tests'
,
'Cython.Build.Tests'
,
'Cython.Compiler.Tests'
,
'Cython.Utility'
,
]
if
include_debugger
:
...
...
@@ -280,7 +282,6 @@ if include_debugger:
# it's enough to do this for Py2.5+:
setup_args
[
'package_data'
][
'Cython.Debugger.Tests'
]
=
[
'codefile'
,
'cfuncs.c'
]
setup
(
name
=
'Cython'
,
version
=
version
,
...
...
tests/run/cythonarray.pyx
View file @
556722cb
# mode: run
from
__future__
import
unicode_literals
# from cython cimport array
# cimport cython.array as array
cimport
cython
as
cy
...
...
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