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Boxiang Sun
cython
Commits
dd5c9a50
Commit
dd5c9a50
authored
Nov 14, 2008
by
Stefan Behnel
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merge
parents
84e977c8
4ce2f147
Changes
2
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2 changed files
with
50 additions
and
27 deletions
+50
-27
Cython/Includes/numpy.pxd
Cython/Includes/numpy.pxd
+47
-12
tests/run/numpy_test.pyx
tests/run/numpy_test.pyx
+3
-15
No files found.
Cython/Includes/numpy.pxd
View file @
dd5c9a50
...
...
@@ -52,8 +52,13 @@ cdef extern from "numpy/arrayobject.h":
# requirements, and does not yet fullfill the PEP.
# In particular strided access is always provided regardless
# of flags
cdef
int
copy_shape
,
i
,
ndim
ndim
=
PyArray_NDIM
(
self
)
if
sizeof
(
npy_intp
)
!=
sizeof
(
Py_ssize_t
):
raise
RuntimeError
(
"Py_intptr_t and Py_ssize_t differs in size, numpy.pxd does not support this"
)
copy_shape
=
1
else
:
copy_shape
=
0
if
((
flags
&
pybuf
.
PyBUF_C_CONTIGUOUS
==
pybuf
.
PyBUF_C_CONTIGUOUS
)
and
not
PyArray_CHKFLAGS
(
self
,
NPY_C_CONTIGUOUS
)):
...
...
@@ -64,9 +69,18 @@ cdef extern from "numpy/arrayobject.h":
raise
ValueError
(
"ndarray is not Fortran contiguous"
)
info
.
buf
=
PyArray_DATA
(
self
)
info
.
ndim
=
PyArray_NDIM
(
self
)
info
.
strides
=
<
Py_ssize_t
*>
PyArray_STRIDES
(
self
)
info
.
shape
=
<
Py_ssize_t
*>
PyArray_DIMS
(
self
)
info
.
ndim
=
ndim
if
copy_shape
:
# Allocate new buffer for strides and shape info. This is allocated
# as one block, strides first.
info
.
strides
=
<
Py_ssize_t
*>
stdlib
.
malloc
(
sizeof
(
Py_ssize_t
)
*
ndim
*
2
)
info
.
shape
=
info
.
strides
+
ndim
for
i
in
range
(
ndim
):
info
.
strides
[
i
]
=
PyArray_STRIDES
(
self
)[
i
]
info
.
shape
[
i
]
=
PyArray_DIMS
(
self
)[
i
]
else
:
info
.
strides
=
<
Py_ssize_t
*>
PyArray_STRIDES
(
self
)
info
.
shape
=
<
Py_ssize_t
*>
PyArray_DIMS
(
self
)
info
.
suboffsets
=
NULL
info
.
itemsize
=
PyArray_ITEMSIZE
(
self
)
info
.
readonly
=
not
PyArray_ISWRITEABLE
(
self
)
...
...
@@ -86,9 +100,14 @@ cdef extern from "numpy/arrayobject.h":
# (this would look much prettier if we could use utility
# functions).
if
not
hasfields
and
not
copy_shape
:
# do not call releasebuffer
info
.
obj
=
None
else
:
# need to call releasebuffer
info
.
obj
=
self
if
not
hasfields
:
info
.
obj
=
None
# do not call releasebuffer
t
=
descr
.
type_num
if
t
==
NPY_BYTE
:
f
=
"b"
elif
t
==
NPY_UBYTE
:
f
=
"B"
...
...
@@ -112,7 +131,6 @@ cdef extern from "numpy/arrayobject.h":
info
.
format
=
f
return
else
:
info
.
obj
=
self
# need to call releasebuffer
info
.
format
=
<
char
*>
stdlib
.
malloc
(
255
)
# static size
f
=
info
.
format
stack
=
[
iter
(
descr
.
fields
.
iteritems
())]
...
...
@@ -167,9 +185,11 @@ cdef extern from "numpy/arrayobject.h":
stack
.
append
(
iter
(
descr
.
fields
.
iteritems
()))
def
__releasebuffer__
(
ndarray
self
,
Py_buffer
*
info
):
# This can not be called unless format needs to be freed (as
# obj is set to NULL in those case)
stdlib
.
free
(
info
.
format
)
if
PyArray_HASFIELDS
(
self
):
stdlib
.
free
(
info
.
format
)
if
sizeof
(
npy_intp
)
!=
sizeof
(
Py_ssize_t
):
stdlib
.
free
(
info
.
strides
)
# info.shape was stored after info.strides in the same block
cdef
void
*
PyArray_DATA
(
ndarray
arr
)
...
...
@@ -180,7 +200,7 @@ cdef extern from "numpy/arrayobject.h":
cdef
npy_intp
*
PyArray_DIMS
(
ndarray
arr
)
cdef
int
PyArray_ITEMSIZE
(
ndarray
arr
)
cdef
int
PyArray_CHKFLAGS
(
ndarray
arr
,
int
flags
)
cdef
int
PyArray_HASFIELDS
(
ndarray
arr
,
int
flags
)
cdef
int
PyArray_HASFIELDS
(
ndarray
arr
)
cdef
int
PyDataType_HASFIELDS
(
dtype
obj
)
...
...
@@ -220,6 +240,18 @@ cdef extern from "numpy/arrayobject.h":
ctypedef
float
npy_float96
ctypedef
float
npy_float128
ctypedef
struct
npy_cfloat
:
float
real
float
imag
ctypedef
struct
npy_cdouble
:
double
real
double
imag
ctypedef
struct
npy_clongdouble
:
long
double
real
long
double
imag
# Typedefs that matches the runtime dtype objects in
# the numpy module.
...
...
@@ -253,7 +285,10 @@ ctypedef npy_longlong long_t
ctypedef
npy_ulong
uint_t
ctypedef
npy_ulonglong
ulong_t
ctypedef
npy_double
float_t
ctypedef
npy_double
float_t
ctypedef
npy_double
double_t
ctypedef
npy_longdouble
longdouble_t
ctypedef
npy_cfloat
cfloat_t
ctypedef
npy_cdouble
cdouble_t
ctypedef
npy_clongdouble
clongdouble_t
tests/run/numpy_test.pyx
View file @
dd5c9a50
...
...
@@ -202,18 +202,6 @@ def test_f_contig(np.ndarray[int, ndim=2, mode='fortran'] arr):
for
i
in
range
(
arr
.
shape
[
0
]):
print
" "
.
join
([
str
(
arr
[
i
,
j
])
for
j
in
range
(
arr
.
shape
[
1
])])
cdef
struct
cfloat
:
float
real
float
imag
cdef
struct
cdouble
:
double
real
double
imag
cdef
struct
clongdouble
:
long
double
real
long
double
imag
# Exhaustive dtype tests -- increments element [1] by 1 (or 1+1j) for all dtypes
def
inc1_byte
(
np
.
ndarray
[
char
]
arr
):
arr
[
1
]
+=
1
def
inc1_ubyte
(
np
.
ndarray
[
unsigned
char
]
arr
):
arr
[
1
]
+=
1
...
...
@@ -230,15 +218,15 @@ def inc1_float(np.ndarray[float] arr): arr[1] += 1
def
inc1_double
(
np
.
ndarray
[
double
]
arr
):
arr
[
1
]
+=
1
def
inc1_longdouble
(
np
.
ndarray
[
long
double
]
arr
):
arr
[
1
]
+=
1
def
inc1_cfloat
(
np
.
ndarray
[
cfloa
t
]
arr
):
def
inc1_cfloat
(
np
.
ndarray
[
np
.
cfloat_
t
]
arr
):
arr
[
1
].
real
+=
1
arr
[
1
].
imag
+=
1
def
inc1_cdouble
(
np
.
ndarray
[
cdouble
]
arr
):
def
inc1_cdouble
(
np
.
ndarray
[
np
.
cdouble_t
]
arr
):
arr
[
1
].
real
+=
1
arr
[
1
].
imag
+=
1
def
inc1_clongdouble
(
np
.
ndarray
[
clongdouble
]
arr
):
def
inc1_clongdouble
(
np
.
ndarray
[
np
.
clongdouble_t
]
arr
):
cdef
long
double
x
x
=
arr
[
1
].
real
+
1
arr
[
1
].
real
=
x
...
...
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