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Gwenaël Samain
cython
Commits
b62d8ba5
Commit
b62d8ba5
authored
Feb 09, 2019
by
Stefan Behnel
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Merge branch '0.29.x'
parents
d10c07a6
0041db28
Changes
5
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5 changed files
with
119 additions
and
119 deletions
+119
-119
Cython/Compiler/Nodes.py
Cython/Compiler/Nodes.py
+2
-2
Cython/Utility/CythonFunction.c
Cython/Utility/CythonFunction.c
+1
-1
Cython/Utility/Optimize.c
Cython/Utility/Optimize.c
+3
-3
docs/examples/tutorial/clibraries/queue3.pyx
docs/examples/tutorial/clibraries/queue3.pyx
+61
-61
docs/examples/userguide/memoryviews/quickstart.pyx
docs/examples/userguide/memoryviews/quickstart.pyx
+52
-52
No files found.
Cython/Compiler/Nodes.py
View file @
b62d8ba5
...
...
@@ -3466,8 +3466,8 @@ class DefNodeWrapper(FuncDefNode):
if
docstr
.
is_unicode
:
docstr
=
docstr
.
as_utf8_string
()
code
.
putln
(
'static char %s[] = %s;'
%
(
if
with_pymethdef
:
code
.
putln
(
'static char %s[] = %s;'
%
(
entry
.
doc_cname
,
docstr
.
as_c_string_literal
()))
...
...
Cython/Utility/CythonFunction.c
View file @
b62d8ba5
...
...
@@ -1216,7 +1216,7 @@ static int __pyx_FusedFunction_init(void) {
//////////////////// ClassMethod.proto ////////////////////
#include "descrobject.h"
static
PyObject
*
__Pyx_Method_ClassMethod
(
PyObject
*
method
);
/*proto*/
static
CYTHON_UNUSED
PyObject
*
__Pyx_Method_ClassMethod
(
PyObject
*
method
);
/*proto*/
//////////////////// ClassMethod ////////////////////
...
...
Cython/Utility/Optimize.c
View file @
b62d8ba5
...
...
@@ -123,13 +123,13 @@ static PyObject* __Pyx__PyList_PopIndex(PyObject* L, PyObject* py_ix, Py_ssize_t
#define __Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \
(likely(PyList_CheckExact(L) && __Pyx_fits_Py_ssize_t(ix, type, is_signed))) ? \
__Pyx__PyList_PopIndex(L, py_ix, ix) : ( \
(unlikely(
py_ix
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
(unlikely(
(py_ix)
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
__Pyx__PyObject_PopIndex(L, py_ix)))
#define __Pyx_PyList_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \
__Pyx_fits_Py_ssize_t(ix, type, is_signed) ? \
__Pyx__PyList_PopIndex(L, py_ix, ix) : ( \
(unlikely(
py_ix
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
(unlikely(
(py_ix)
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
__Pyx__PyObject_PopIndex(L, py_ix)))
#else
...
...
@@ -138,7 +138,7 @@ static PyObject* __Pyx__PyList_PopIndex(PyObject* L, PyObject* py_ix, Py_ssize_t
__Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func)
#define __Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \
(unlikely(
py_ix
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
(unlikely(
(py_ix)
== Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \
__Pyx__PyObject_PopIndex(L, py_ix))
#endif
...
...
docs/examples/tutorial/clibraries/queue3.pyx
View file @
b62d8ba5
# queue.pyx
cimport
cqueue
cdef
class
Queue
:
"""A queue class for C integer values.
>>> q = Queue()
>>> q.append(5)
>>> q.peek()
5
>>> q.pop()
5
"""
cdef
cqueue
.
Queue
*
_c_queue
def
__cinit__
(
self
):
self
.
_c_queue
=
cqueue
.
queue_new
()
if
self
.
_c_queue
is
NULL
:
raise
MemoryError
()
def
__dealloc__
(
self
):
if
self
.
_c_queue
is
not
NULL
:
cqueue
.
queue_free
(
self
.
_c_queue
)
cpdef
append
(
self
,
int
value
):
if
not
cqueue
.
queue_push_tail
(
self
.
_c_queue
,
<
void
*>
value
):
raise
MemoryError
()
# The `cpdef` feature is obviously not available for the original "extend()"
# method, as the method signature is incompatible with Python argument
# types (Python does not have pointers). However, we can rename
# the C-ish "extend()" method to e.g. "extend_ints()", and write
# a new "extend()" method that provides a suitable Python interface by
# accepting an arbitrary Python iterable.
cpdef
extend
(
self
,
values
):
for
value
in
values
:
self
.
append
(
value
)
cdef
extend_ints
(
self
,
int
*
values
,
size_t
count
):
cdef
int
value
for
value
in
values
[:
count
]:
# Slicing pointer to limit the iteration boundaries.
self
.
append
(
value
)
cpdef
int
peek
(
self
)
except
?
-
1
:
cdef
int
value
=
<
Py_ssize_t
>
cqueue
.
queue_peek_head
(
self
.
_c_queue
)
if
value
==
0
:
# this may mean that the queue is empty,
# or that it happens to contain a 0 value
if
cqueue
.
queue_is_empty
(
self
.
_c_queue
):
raise
IndexError
(
"Queue is empty"
)
return
value
cpdef
int
pop
(
self
)
except
?
-
1
:
if
cqueue
.
queue_is_empty
(
self
.
_c_queue
):
raise
IndexError
(
"Queue is empty"
)
return
<
Py_ssize_t
>
cqueue
.
queue_pop_head
(
self
.
_c_queue
)
def
__bool__
(
self
):
return
not
cqueue
.
queue_is_empty
(
self
.
_c_queue
)
# queue.pyx
cimport
cqueue
cdef
class
Queue
:
"""A queue class for C integer values.
>>> q = Queue()
>>> q.append(5)
>>> q.peek()
5
>>> q.pop()
5
"""
cdef
cqueue
.
Queue
*
_c_queue
def
__cinit__
(
self
):
self
.
_c_queue
=
cqueue
.
queue_new
()
if
self
.
_c_queue
is
NULL
:
raise
MemoryError
()
def
__dealloc__
(
self
):
if
self
.
_c_queue
is
not
NULL
:
cqueue
.
queue_free
(
self
.
_c_queue
)
cpdef
append
(
self
,
int
value
):
if
not
cqueue
.
queue_push_tail
(
self
.
_c_queue
,
<
void
*>
<
Py_ssize_t
>
value
):
raise
MemoryError
()
# The `cpdef` feature is obviously not available for the original "extend()"
# method, as the method signature is incompatible with Python argument
# types (Python does not have pointers). However, we can rename
# the C-ish "extend()" method to e.g. "extend_ints()", and write
# a new "extend()" method that provides a suitable Python interface by
# accepting an arbitrary Python iterable.
cpdef
extend
(
self
,
values
):
for
value
in
values
:
self
.
append
(
value
)
cdef
extend_ints
(
self
,
int
*
values
,
size_t
count
):
cdef
int
value
for
value
in
values
[:
count
]:
# Slicing pointer to limit the iteration boundaries.
self
.
append
(
value
)
cpdef
int
peek
(
self
)
except
?
-
1
:
cdef
int
value
=
<
Py_ssize_t
>
cqueue
.
queue_peek_head
(
self
.
_c_queue
)
if
value
==
0
:
# this may mean that the queue is empty,
# or that it happens to contain a 0 value
if
cqueue
.
queue_is_empty
(
self
.
_c_queue
):
raise
IndexError
(
"Queue is empty"
)
return
value
cpdef
int
pop
(
self
)
except
?
-
1
:
if
cqueue
.
queue_is_empty
(
self
.
_c_queue
):
raise
IndexError
(
"Queue is empty"
)
return
<
Py_ssize_t
>
cqueue
.
queue_pop_head
(
self
.
_c_queue
)
def
__bool__
(
self
):
return
not
cqueue
.
queue_is_empty
(
self
.
_c_queue
)
docs/examples/userguide/memoryviews/quickstart.pyx
View file @
b62d8ba5
from
cython.view
cimport
array
as
cvarray
import
numpy
as
np
# Memoryview on a NumPy array
narr
=
np
.
arange
(
27
,
dtype
=
np
.
dtype
(
"i"
)).
reshape
((
3
,
3
,
3
))
cdef
int
[:,
:,
:]
narr_view
=
narr
# Memoryview on a C array
cdef
int
carr
[
3
][
3
][
3
]
cdef
int
[:,
:,
:]
carr_view
=
carr
# Memoryview on a Cython array
cyarr
=
cvarray
(
shape
=
(
3
,
3
,
3
),
itemsize
=
sizeof
(
int
),
format
=
"i"
)
cdef
int
[:,
:,
:]
cyarr_view
=
cyarr
# Show the sum of all the arrays before altering it
print
(
"NumPy sum of the NumPy array before assignments: %s"
%
narr
.
sum
())
# We can copy the values from one memoryview into another using a single
# statement, by either indexing with ... or (NumPy-style) with a colon.
carr_view
[...]
=
narr_view
cyarr_view
[:]
=
narr_view
# NumPy-style syntax for assigning a single value to all elements.
narr_view
[:,
:,
:]
=
3
# Just to distinguish the arrays
carr_view
[
0
,
0
,
0
]
=
100
cyarr_view
[
0
,
0
,
0
]
=
1000
# Assigning into the memoryview on the NumPy array alters the latter
print
(
"NumPy sum of NumPy array after assignments: %s"
%
narr
.
sum
())
# A function using a memoryview does not usually need the GIL
cpdef
int
sum3d
(
int
[:,
:,
:]
arr
)
nogil
:
cdef
size_t
i
,
j
,
k
cdef
int
total
=
0
I
=
arr
.
shape
[
0
]
J
=
arr
.
shape
[
1
]
K
=
arr
.
shape
[
2
]
for
i
in
range
(
I
):
for
j
in
range
(
J
):
for
k
in
range
(
K
):
total
+=
arr
[
i
,
j
,
k
]
return
total
# A function accepting a memoryview knows how to use a NumPy array,
# a C array, a Cython array...
print
(
"Memoryview sum of NumPy array is %s"
%
sum3d
(
narr
))
print
(
"Memoryview sum of C array is %s"
%
sum3d
(
carr
))
print
(
"Memoryview sum of Cython array is %s"
%
sum3d
(
cyarr
))
# ... and of course, a memoryview.
print
(
"Memoryview sum of C memoryview is %s"
%
sum3d
(
carr_view
))
from
cython.view
cimport
array
as
cvarray
import
numpy
as
np
# Memoryview on a NumPy array
narr
=
np
.
arange
(
27
,
dtype
=
np
.
dtype
(
"i"
)).
reshape
((
3
,
3
,
3
))
cdef
int
[:,
:,
:]
narr_view
=
narr
# Memoryview on a C array
cdef
int
carr
[
3
][
3
][
3
]
cdef
int
[:,
:,
:]
carr_view
=
carr
# Memoryview on a Cython array
cyarr
=
cvarray
(
shape
=
(
3
,
3
,
3
),
itemsize
=
sizeof
(
int
),
format
=
"i"
)
cdef
int
[:,
:,
:]
cyarr_view
=
cyarr
# Show the sum of all the arrays before altering it
print
(
"NumPy sum of the NumPy array before assignments: %s"
%
narr
.
sum
())
# We can copy the values from one memoryview into another using a single
# statement, by either indexing with ... or (NumPy-style) with a colon.
carr_view
[...]
=
narr_view
cyarr_view
[:]
=
narr_view
# NumPy-style syntax for assigning a single value to all elements.
narr_view
[:,
:,
:]
=
3
# Just to distinguish the arrays
carr_view
[
0
,
0
,
0
]
=
100
cyarr_view
[
0
,
0
,
0
]
=
1000
# Assigning into the memoryview on the NumPy array alters the latter
print
(
"NumPy sum of NumPy array after assignments: %s"
%
narr
.
sum
())
# A function using a memoryview does not usually need the GIL
cpdef
int
sum3d
(
int
[:,
:,
:]
arr
)
nogil
:
cdef
size_t
i
,
j
,
k
,
I
,
J
,
K
cdef
int
total
=
0
I
=
arr
.
shape
[
0
]
J
=
arr
.
shape
[
1
]
K
=
arr
.
shape
[
2
]
for
i
in
range
(
I
):
for
j
in
range
(
J
):
for
k
in
range
(
K
):
total
+=
arr
[
i
,
j
,
k
]
return
total
# A function accepting a memoryview knows how to use a NumPy array,
# a C array, a Cython array...
print
(
"Memoryview sum of NumPy array is %s"
%
sum3d
(
narr
))
print
(
"Memoryview sum of C array is %s"
%
sum3d
(
carr
))
print
(
"Memoryview sum of Cython array is %s"
%
sum3d
(
cyarr
))
# ... and of course, a memoryview.
print
(
"Memoryview sum of C memoryview is %s"
%
sum3d
(
carr_view
))
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