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Boxiang Sun
cython
Commits
71064916
Commit
71064916
authored
Sep 06, 2011
by
Mark Florisson
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Support memoryview(slice) -> NumPy coercion + NumPy-like attributes
parent
dca00ef2
Changes
5
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5 changed files
with
156 additions
and
41 deletions
+156
-41
Cython/Utility/MemoryView.pyx
Cython/Utility/MemoryView.pyx
+84
-14
docs/src/userguide/memoryviews.rst
docs/src/userguide/memoryviews.rst
+27
-9
tests/run/cythonarray.pyx
tests/run/cythonarray.pyx
+6
-0
tests/run/mockbuffers.pxi
tests/run/mockbuffers.pxi
+4
-18
tests/run/numpy_memoryview.pyx
tests/run/numpy_memoryview.pyx
+35
-0
No files found.
Cython/Utility/MemoryView.pyx
View file @
71064916
...
...
@@ -11,6 +11,7 @@ cdef extern from "Python.h":
PyBUF_F_CONTIGUOUS
,
PyBUF_ANY_CONTIGUOUS
PyBUF_FORMAT
PyBUF_WRITABLE
void
Py_INCREF
(
object
)
...
...
@@ -33,6 +34,7 @@ cdef class array:
unicode
mode
bytes
_format
void
(
*
callback_free_data
)(
char
*
data
)
cdef
object
_memview
def
__cinit__
(
array
self
,
tuple
shape
,
Py_ssize_t
itemsize
,
format
,
mode
=
u"c"
,
bint
allocate_buffer
=
True
):
...
...
@@ -113,6 +115,7 @@ cdef class array:
info
.
strides
=
self
.
strides
info
.
suboffsets
=
NULL
info
.
itemsize
=
self
.
itemsize
info
.
readonly
=
0
if
flags
&
PyBUF_FORMAT
:
info
.
format
=
self
.
format
...
...
@@ -138,13 +141,24 @@ cdef class array:
self
.
format
=
NULL
self
.
itemsize
=
0
def
__getitem__
(
self
,
index
):
view
=
__pyx_memoryview_new
(
self
,
PyBUF_ANY_CONTIGUOUS
|
PyBUF_FORMAT
)
return
view
[
index
]
property
memview
:
@
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
:
flags
=
PyBUF_ANY_CONTIGUOUS
|
PyBUF_FORMAT
|
PyBUF_WRITABLE
self
.
_memview
=
__pyx_memoryview_new
(
self
,
flags
)
return
self
.
_memview
def
__getattr__
(
self
,
attr
):
return
getattr
(
self
.
memview
,
attr
)
def
__setitem__
(
self
,
index
,
value
):
view
=
__pyx_memoryview_new
(
self
,
PyBUF_ANY_CONTIGUOUS
|
PyBUF_FORMAT
)
view
[
index
]
=
value
def
__getitem__
(
self
,
item
):
return
self
.
memview
[
item
]
def
__setitem__
(
self
,
item
,
value
):
self
.
memview
[
item
]
=
value
@
cname
(
"__pyx_array_new"
)
...
...
@@ -165,6 +179,7 @@ import cython
# from cpython cimport ...
cdef
extern
from
"Python.h"
:
int
PyIndex_Check
(
object
)
object
PyLong_FromVoidPtr
(
void
*
)
cdef
extern
from
"pythread.h"
:
ctypedef
void
*
PyThread_type_lock
...
...
@@ -244,6 +259,8 @@ cdef indirect_contiguous = Enum("<contiguous and indirect>")
cdef
class
memoryview
(
object
):
cdef
object
obj
cdef
object
_size
cdef
object
_array_interface
cdef
PyThread_type_lock
lock
cdef
int
acquisition_count
cdef
Py_buffer
view
...
...
@@ -336,6 +353,7 @@ cdef class memoryview(object):
info
[
0
]
=
self
.
view
info
.
obj
=
self
# Some properties that have the same sematics as in NumPy
property
T
:
@
cname
(
'__pyx_memoryview_transpose'
)
def
__get__
(
self
):
...
...
@@ -343,8 +361,8 @@ cdef class memoryview(object):
transpose_memslice
(
&
result
.
from_slice
)
return
result
property
object
:
@
cname
(
'__pyx_memoryview__get__
object
'
)
property
base
:
@
cname
(
'__pyx_memoryview__get__
base
'
)
def
__get__
(
self
):
return
self
.
obj
...
...
@@ -353,23 +371,75 @@ cdef class memoryview(object):
def
__get__
(
self
):
return
tuple
([
self
.
view
.
shape
[
i
]
for
i
in
xrange
(
self
.
view
.
ndim
)])
property
strides
:
@
cname
(
'__pyx_memoryview_get_strides'
)
def
__get__
(
self
):
return
tuple
([
self
.
view
.
strides
[
i
]
for
i
in
xrange
(
self
.
view
.
ndim
)])
property
suboffsets
:
@
cname
(
'__pyx_memoryview_get_suboffsets'
)
def
__get__
(
self
):
return
tuple
([
self
.
view
.
suboffsets
[
i
]
for
i
in
xrange
(
self
.
view
.
ndim
)])
property
ndim
:
@
cname
(
'__pyx_memoryview_get_ndim'
)
def
__get__
(
self
):
return
self
.
view
.
ndim
property
itemsize
:
@
cname
(
'__pyx_memoryview_get_itemsize'
)
def
__get__
(
self
):
return
self
.
view
.
itemsize
property
nbytes
:
@
cname
(
'__pyx_memoryview_get_nbytes'
)
def
__get__
(
self
):
return
self
.
size
*
self
.
view
.
itemsize
property
size
:
@
cname
(
'__pyx_memoryview_get_size'
)
def
__get__
(
self
):
if
self
.
_size
is
None
:
result
=
1
for
length
in
self
.
shape
:
result
*=
length
self
.
_size
=
result
return
self
.
_size
property
__array_interface__
:
@
cname
(
'__pyx_numpy_array_interface'
)
def
__get__
(
self
):
"Interface for NumPy to obtain a ndarray from this object"
# Note: we always request writable buffers, so we set readonly to
# False in the data tuple
if
self
.
_array_interface
is
None
:
for
suboffset
in
self
.
suboffsets
:
if
suboffset
>=
0
:
raise
ValueError
(
"Cannot convert indirect buffer to numpy object"
)
self
.
_array_interface
=
dict
(
data
=
(
PyLong_FromVoidPtr
(
self
.
view
.
buf
),
False
),
shape
=
self
.
shape
,
strides
=
self
.
strides
,
typestr
=
"%s%d"
%
(
self
.
format
,
self
.
view
.
itemsize
),
version
=
3
)
return
self
.
_array_interface
def
__len__
(
self
):
if
self
.
view
.
ndim
>=
1
:
return
self
.
view
.
shape
[
0
]
return
0
def
__repr__
(
self
):
return
"<MemoryView of %r at 0x%x>"
%
(
self
.
object
.
__class__
.
__name__
,
id
(
self
))
return
"<MemoryView of %r at 0x%x>"
%
(
self
.
base
.
__class__
.
__name__
,
id
(
self
))
def
__str__
(
self
):
return
"<MemoryView of %r object>"
%
(
self
.
object
.
__class__
.
__name__
,)
return
"<MemoryView of %r object>"
%
(
self
.
base
.
__class__
.
__name__
,)
@
cname
(
'__pyx_memoryview_new'
)
...
...
@@ -703,8 +773,8 @@ cdef class _memoryviewslice(memoryview):
else
:
memoryview
.
assign_item_from_object
(
self
,
itemp
,
value
)
property
object
:
@
cname
(
'__pyx_memoryviewslice__get__
object
'
)
property
base
:
@
cname
(
'__pyx_memoryviewslice__get__
base
'
)
def
__get__
(
self
):
return
self
.
from_object
...
...
docs/src/userguide/memoryviews.rst
View file @
71064916
...
...
@@ -154,6 +154,19 @@ These typed slices can be converted to Python objects (`cython.memoryview`), and
slicable and transposable in the same way that the slices are. They can also be converted back to typed
slices at any time.
They have the following attributes:
* shape
* strides
* suboffsets
* ndim
* size
* itemsize
* nbytes
And of course the aforementioned ``T`` attribute. These attributes have the same semantics as in NumPy_.
Cython Array
============
Whenever a slice is copied (using any of the `copy` or `copy_fortran` methods), you get a new
...
...
@@ -186,21 +199,26 @@ You can also cast pointers to arrays::
Again, when the array will go out of scope, it will free the data, unless you register a callback like above.
Of course, you can also immidiately assign a cython.array to a typed memoryview slice.
The arrays are indexable and slicable from Python space just like memoryview objects. If you need to do this
a lot, you're better off creating a memoryview object from your array::
The arrays are indexable and slicable from Python space just like memoryview objects, and have the same
attributes as memoryview objects.
Coercion to NumPy
=================
Memoryview (and array) objects can be coerced to a NumPy ndarray, without having to copy the data. You can
e.g. do::
memview = cython.memoryview(my_cython_array, PyBUF_C_CONTIGUOUS)
cimport numpy as np
import numpy as np
# OR
numpy_array = np.asarray(<np.int32_t[:10, :10]> my_pointer)
cdef int[:, ::1] myslice = my_cython_array
memview = myslice
Of course, you are not restricted to using NumPy's type (such as ``np.int32_t`` here), you can use any usable type.
The future
==========
In the future some functionality may be added for convenience, like
1. A numpy-like `.flat` attribute (that allows efficient iteration)
2.
A numpy-like `.reshape` method
3. A method `to_numpy` which would convert a memoryview object to a NumPy object
4. Indexing with newaxis or None to introduce a new axis
2.
Indexing with newaxis or None to introduce a new axis
.. _NumPy: http://docs.scipy.org/doc/numpy/reference/arrays.ndarray.html#memory-layout
tests/run/cythonarray.pyx
View file @
71064916
...
...
@@ -144,3 +144,9 @@ def test_array_from_pointer():
cdef
int
[:,
::
1
]
mslice
=
<
int
[:
10
,
:
10
]
>
getp
()
print
mslice
[
5
,
6
]
print
(
<
int
[:
12
,
:
10
]
>
getp
(
12
,
10
))[
5
,
6
]
# There is a reference cycle between the array object to its memoryview
# object that it keeps
del
c_arr
import
gc
gc
.
collect
()
tests/run/mockbuffers.pxi
View file @
71064916
...
...
@@ -331,24 +331,10 @@ cdef class LongComplexMockBuffer(MockBuffer):
cdef
get_default_format
(
self
):
return
b"Zg"
def
print_offsets
(
*
args
,
size
=
0
,
newline
=
True
):
"""
print with a trailing comma does not have the same semantics in python 3.
Use sys.stdout.write instead.
# python 2
->> print 'foo',; sys.stdout.write('bar
\
n
') # no space between foo and bar
foobar
In python 3 you get trailing spaces from the last ','
"""
for
idx
,
item
in
enumerate
(
args
):
if
idx
==
len
(
args
)
-
1
:
sys
.
stdout
.
write
(
str
(
item
//
size
))
else
:
sys
.
stdout
.
write
(
'%s '
%
(
item
//
size
))
if
newline
:
sys
.
stdout
.
write
(
'
\
n
'
)
def
print_offsets
(
*
args
,
size
,
newline
=
True
):
sys
.
stdout
.
write
(
' '
.
join
([
str
(
item
//
size
)
for
item
in
args
]))
if
newline
:
sys
.
stdout
.
write
(
'
\
n
'
)
def
print_int_offsets
(
*
args
,
newline
=
True
):
print_offsets
(
*
args
,
size
=
sizeof
(
int
),
newline
=
newline
)
...
...
tests/run/numpy_memoryview.pyx
View file @
71064916
...
...
@@ -8,6 +8,8 @@ Test slicing for memoryviews and memoryviewslices
cimport
numpy
as
np
import
numpy
as
np
include
"cythonarrayutil.pxi"
ctypedef
np
.
int32_t
dtype_t
def
get_array
():
...
...
@@ -163,3 +165,36 @@ 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
]
def
test_numpy_like_attributes
(
cyarray
):
"""
>>> cyarray = create_array(shape=(8, 5), mode="c", use_callback=True)
>>> test_numpy_like_attributes(cyarray)
>>> test_numpy_like_attributes(cyarray.memview)
"""
numarray
=
np
.
asarray
(
cyarray
)
assert
cyarray
.
shape
==
numarray
.
shape
assert
cyarray
.
strides
==
numarray
.
strides
assert
cyarray
.
ndim
==
numarray
.
ndim
assert
cyarray
.
size
==
numarray
.
size
assert
cyarray
.
nbytes
==
numarray
.
nbytes
cdef
int
[:,
:]
mslice
=
numarray
assert
(
<
object
>
mslice
).
base
is
numarray
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