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Boxiang Sun
cython
Commits
dfea91e5
Commit
dfea91e5
authored
Jul 07, 2009
by
Kurt Smith
Committed by
Mark Florisson
Sep 30, 2011
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Plain Diff
cython.array implementation & tests.
parent
d7e5e0c9
Changes
3
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Showing
3 changed files
with
209 additions
and
3 deletions
+209
-3
Cython/Compiler/CythonScope.py
Cython/Compiler/CythonScope.py
+158
-1
Cython/Compiler/Symtab.py
Cython/Compiler/Symtab.py
+5
-2
tests/run/cythonarray.pyx
tests/run/cythonarray.pyx
+46
-0
No files found.
Cython/Compiler/CythonScope.py
View file @
dfea91e5
...
@@ -88,6 +88,27 @@ class CythonScope(ModuleScope):
...
@@ -88,6 +88,27 @@ class CythonScope(ModuleScope):
is_cdef
=
True
)
is_cdef
=
True
)
entry
.
utility_code_definition
=
view_utility_code
entry
.
utility_code_definition
=
view_utility_code
entry
=
self
.
declare_c_class
(
u'array'
,
None
,
implementing
=
1
,
objstruct_cname
=
'__pyx_obj_array'
,
typeobj_cname
=
'__pyx_tobj_array'
,
typeptr_cname
=
'__pyx_ptype_array'
)
# NOTE: the typeptr_cname is constrained to be '__pyx_ptype_<name>'
# (name is 'array' in this case). otherwise the code generation for
# the struct pointers will not work!
entry
.
utility_code_definition
=
cython_array_utility_code
entry
.
type
.
scope
.
declare_var
(
u'data'
,
c_char_ptr_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'len'
,
c_size_t_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'format'
,
c_char_ptr_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'ndim'
,
c_int_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'shape'
,
c_py_ssize_t_ptr_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'strides'
,
c_py_ssize_t_ptr_type
,
None
,
is_cdef
=
1
)
entry
.
type
.
scope
.
declare_var
(
u'itemsize'
,
c_py_ssize_t_type
,
None
,
is_cdef
=
1
)
def
create_cython_scope
(
context
,
create_testscope
):
def
create_cython_scope
(
context
,
create_testscope
):
# One could in fact probably make it a singleton,
# One could in fact probably make it a singleton,
# but not sure yet whether any code mutates it (which would kill reusing
# but not sure yet whether any code mutates it (which would kill reusing
...
@@ -193,3 +214,139 @@ cdef direct = Enum("<direct axis access mode>")
...
@@ -193,3 +214,139 @@ cdef direct = Enum("<direct axis access mode>")
cdef ptr = Enum("<ptr axis access mode>")
cdef ptr = Enum("<ptr axis access mode>")
cdef full = Enum("<full axis access mode>")
cdef full = Enum("<full axis access mode>")
"""
,
prefix
=
"__pyx_viewaxis_"
)
"""
,
prefix
=
"__pyx_viewaxis_"
)
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_SIMPLE,
PyBUF_WRITABLE,
PyBUF_WRITEABLE, # backwards compatability
PyBUF_FORMAT,
PyBUF_ND,
PyBUF_STRIDES,
PyBUF_C_CONTIGUOUS,
PyBUF_F_CONTIGUOUS,
PyBUF_ANY_CONTIGUOUS,
PyBUF_INDIRECT,
PyBUF_CONTIG,
PyBUF_CONTIG_RO,
PyBUF_STRIDED,
PyBUF_STRIDED_RO,
PyBUF_RECORDS,
PyBUF_RECORDS_RO,
PyBUF_FULL,
PyBUF_FULL_RO,
PyBUF_READ,
PyBUF_WRITE,
PyBUF_SHADOW
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
char *mode
def __cinit__(array self, tuple shape, Py_ssize_t itemsize, char *format, mode="c"):
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 int_dim, stride
idx = 0
for dim in shape:
int_dim = <Py_ssize_t>dim
if int_dim <= 0:
raise ValueError("Invalid shape.")
self.shape[idx] = int_dim
idx += 1
assert idx == self.ndim
if mode == "fortran":
idx = 0; stride = 1
for dim in shape:
self.strides[idx] = stride
int_dim = <Py_ssize_t>dim
stride = stride * int_dim
idx += 1
assert idx == self.ndim
self.len = stride * self.itemsize
elif mode == "c":
idx = self.ndim-1; stride = 1
for dim in reversed(shape):
self.strides[idx] = stride
int_dim = <Py_ssize_t>dim
stride = stride * int_dim
idx -= 1
assert idx == -1
self.len = stride * self.itemsize
else:
raise ValueError("Invalid mode, expected 'c' or 'fortran', got %s" % mode)
self.mode = mode
self.data = <char *>malloc(self.len)
if not self.data:
raise MemoryError("unable to allocate array data.")
def __getbuffer__(array self, Py_buffer *info, int flags):
cdef int bufmode
if self.mode == b"c":
bufmode = PyBUF_C_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
if 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.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):
print "array.__releasebuffer__"
def __dealloc__(array self):
if self.data:
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
'''
,
prefix
=
'__pyx_cythonarray_'
)
\ No newline at end of file
Cython/Compiler/Symtab.py
View file @
dfea91e5
...
@@ -1160,7 +1160,7 @@ class ModuleScope(Scope):
...
@@ -1160,7 +1160,7 @@ class ModuleScope(Scope):
def declare_c_class(self, name, pos, defining = 0, implementing = 0,
def declare_c_class(self, name, pos, defining = 0, implementing = 0,
module_name = None, base_type = None, objstruct_cname = None,
module_name = None, base_type = None, objstruct_cname = None,
typeobj_cname = None, visibility = 'private', typedef_flag = 0, api = 0,
typeobj_cname = None,
typeptr_cname = None,
visibility = 'private', typedef_flag = 0, api = 0,
buffer_defaults = None, shadow = 0):
buffer_defaults = None, shadow = 0):
# If this is a non-extern typedef class, expose the typedef, but use
# If this is a non-extern typedef class, expose the typedef, but use
# the non-typedef struct internally to avoid needing forward
# the non-typedef struct internally to avoid needing forward
...
@@ -1202,6 +1202,9 @@ class ModuleScope(Scope):
...
@@ -1202,6 +1202,9 @@ class ModuleScope(Scope):
type.module_name = module_name
type.module_name = module_name
else:
else:
type.module_name = self.qualified_name
type.module_name = self.qualified_name
if typeptr_cname:
type.typeptr_cname = typeptr_cname
else:
type.typeptr_cname = self.mangle(Naming.typeptr_prefix, name)
type.typeptr_cname = self.mangle(Naming.typeptr_prefix, name)
entry = self.declare_type(name, type, pos, visibility = visibility,
entry = self.declare_type(name, type, pos, visibility = visibility,
defining = 0, shadow = shadow)
defining = 0, shadow = shadow)
...
...
tests/run/cythonarray.pyx
0 → 100644
View file @
dfea91e5
from
cython
cimport
array
def
contiguity
():
'''
>>> contiguity()
3 1
2 3
2
1 2
2 3
2
'''
cdef
array
cvarray
=
array
(
shape
=
(
2
,
3
),
itemsize
=
sizeof
(
int
),
format
=
"i"
,
mode
=
'c'
)
assert
cvarray
.
len
==
2
*
3
*
sizeof
(
int
)
assert
cvarray
.
itemsize
==
sizeof
(
int
)
print
cvarray
.
strides
[
0
],
cvarray
.
strides
[
1
]
print
cvarray
.
shape
[
0
],
cvarray
.
shape
[
1
]
print
cvarray
.
ndim
cdef
array
farray
=
array
(
shape
=
(
2
,
3
),
itemsize
=
sizeof
(
int
),
format
=
"i"
,
mode
=
'fortran'
)
assert
farray
.
len
==
2
*
3
*
sizeof
(
int
)
assert
farray
.
itemsize
==
sizeof
(
int
)
print
farray
.
strides
[
0
],
farray
.
strides
[
1
]
print
farray
.
shape
[
0
],
farray
.
shape
[
1
]
print
farray
.
ndim
def
acquire
():
'''
>>> acquire()
'''
cdef
object
[
int
,
ndim
=
1
,
mode
=
"c"
]
buf1d
=
\
array
(
shape
=
(
10
,),
itemsize
=
sizeof
(
int
),
format
=
'i'
,
mode
=
'c'
)
cdef
object
[
int
,
ndim
=
2
,
mode
=
"c"
]
buf2d
=
\
array
(
shape
=
(
10
,
10
),
itemsize
=
sizeof
(
int
),
format
=
'i'
)
cdef
object
[
unsigned
long
,
ndim
=
3
,
mode
=
'fortran'
]
buf3d
=
\
array
(
shape
=
(
1
,
2
,
3
),
itemsize
=
sizeof
(
unsigned
long
),
format
=
'L'
,
mode
=
'fortran'
)
cdef
object
[
long
double
,
ndim
=
3
,
mode
=
'fortran'
]
bufld
=
\
array
(
shape
=
(
1
,
2
,
3
),
itemsize
=
sizeof
(
long
double
),
format
=
'g'
,
mode
=
'fortran'
)
def
full_or_strided
():
'''
>>> full_or_strided()
'''
cdef
object
[
float
,
ndim
=
2
,
mode
=
'full'
]
fullbuf
=
\
array
(
shape
=
(
10
,
10
),
itemsize
=
sizeof
(
float
),
format
=
'f'
,
mode
=
'c'
)
cdef
object
[
long
long
int
,
ndim
=
3
,
mode
=
'strided'
]
stridedbuf
=
\
array
(
shape
=
(
1
,
2
,
3
),
itemsize
=
sizeof
(
long
long
int
),
format
=
'q'
,
mode
=
'fortran'
)
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