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Xavier Thompson
cython
Commits
308c3516
Commit
308c3516
authored
Aug 10, 2009
by
Kurt Smith
Committed by
Mark Florisson
Sep 30, 2011
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
memviewslice copy implementation.
parent
daa49dd4
Changes
3
Hide whitespace changes
Inline
Side-by-side
Showing
3 changed files
with
262 additions
and
39 deletions
+262
-39
Cython/Compiler/CythonScope.py
Cython/Compiler/CythonScope.py
+9
-6
Cython/Compiler/MemoryView.py
Cython/Compiler/MemoryView.py
+173
-6
Cython/Compiler/PyrexTypes.py
Cython/Compiler/PyrexTypes.py
+80
-27
No files found.
Cython/Compiler/CythonScope.py
View file @
308c3516
...
@@ -260,13 +260,16 @@ cdef extern from *:
...
@@ -260,13 +260,16 @@ cdef extern from *:
cdef class memoryview(object):
cdef class memoryview(object):
cdef object obj
cdef Py_buffer view
cdef Py_buffer view
cdef int gotbuf_flag
cdef int gotbuf_flag
def __cinit__(memoryview self, object obj, int flags):
def __cinit__(memoryview self, object obj, int flags):
__Pyx_GetBuffer(obj, &self.view, flags)
self.obj = obj
__Pyx_GetBuffer(self.obj, &self.view, flags)
def __dealloc__(memoryview self):
def __dealloc__(memoryview self):
self.obj = None
__Pyx_ReleaseBuffer(&self.view)
__Pyx_ReleaseBuffer(&self.view)
cdef memoryview memoryview_cwrapper(object o, int flags):
cdef memoryview memoryview_cwrapper(object o, int flags):
...
@@ -298,7 +301,7 @@ cdef class array:
...
@@ -298,7 +301,7 @@ cdef class array:
Py_ssize_t itemsize
Py_ssize_t itemsize
str mode
str mode
def __cinit__(array self, tuple shape, Py_ssize_t itemsize, char *format, mode="c"):
def __cinit__(array self, tuple shape, Py_ssize_t itemsize, char *format,
str
mode="c"):
self.ndim = len(shape)
self.ndim = len(shape)
self.itemsize = itemsize
self.itemsize = itemsize
...
@@ -328,7 +331,7 @@ cdef class array:
...
@@ -328,7 +331,7 @@ cdef class array:
idx += 1
idx += 1
assert idx == self.ndim
assert idx == self.ndim
if mode == "f
ortran
":
if mode == "f":
idx = 0; stride = 1
idx = 0; stride = 1
for dim in shape:
for dim in shape:
self.strides[idx] = stride
self.strides[idx] = stride
...
@@ -347,7 +350,7 @@ cdef class array:
...
@@ -347,7 +350,7 @@ cdef class array:
assert idx == -1
assert idx == -1
self.len = stride * self.itemsize
self.len = stride * self.itemsize
else:
else:
raise ValueError("Invalid mode, expected 'c' or 'f
ortran
', got %s" % mode)
raise ValueError("Invalid mode, expected 'c' or 'f', got %s" % mode)
self.mode = mode
self.mode = mode
...
@@ -360,7 +363,7 @@ cdef class array:
...
@@ -360,7 +363,7 @@ cdef class array:
cdef int bufmode = -1
cdef int bufmode = -1
if self.mode == b"c":
if self.mode == b"c":
bufmode = PyBUF_C_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
bufmode = PyBUF_C_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
elif self.mode == b"f
ortran
":
elif self.mode == b"f":
bufmode = PyBUF_F_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
bufmode = PyBUF_F_CONTIGUOUS | PyBUF_ANY_CONTIGUOUS
if not (flags & bufmode):
if not (flags & bufmode):
raise ValueError("Can only create a buffer that is contiguous in memory.")
raise ValueError("Can only create a buffer that is contiguous in memory.")
...
@@ -393,7 +396,7 @@ cdef class array:
...
@@ -393,7 +396,7 @@ cdef class array:
self.format = NULL
self.format = NULL
self.itemsize = 0
self.itemsize = 0
cdef array array_cwrapper(tuple shape, Py_ssize_t itemsize, char *format, char mode):
cdef array array_cwrapper(tuple shape, Py_ssize_t itemsize, char *format, char
*
mode):
return array(shape, itemsize, format, mode)
return array(shape, itemsize, format, mode)
'''
,
prefix
=
cyarray_prefix
)
'''
,
prefix
=
cyarray_prefix
)
Cython/Compiler/MemoryView.py
View file @
308c3516
...
@@ -69,6 +69,14 @@ def put_init_entry(mv_cname, code):
...
@@ -69,6 +69,14 @@ def put_init_entry(mv_cname, code):
code
.
putln
(
"%s.data = NULL;"
%
mv_cname
)
code
.
putln
(
"%s.data = NULL;"
%
mv_cname
)
code
.
putln
(
"%s.memview = NULL;"
%
mv_cname
)
code
.
putln
(
"%s.memview = NULL;"
%
mv_cname
)
def
mangle_dtype_name
(
dtype
):
# a dumb wrapper for now; move Buffer.mangle_dtype_name in here later?
import
Buffer
return
Buffer
.
mangle_dtype_name
(
dtype
)
def
axes_to_str
(
axes
):
return
""
.
join
([
access
[
0
]
+
packing
[
0
]
for
(
access
,
packing
)
in
axes
])
def
gen_acquire_memoryviewslice
(
rhs
,
lhs_type
,
lhs_is_cglobal
,
lhs_result
,
lhs_pos
,
code
):
def
gen_acquire_memoryviewslice
(
rhs
,
lhs_type
,
lhs_is_cglobal
,
lhs_result
,
lhs_pos
,
code
):
# import MemoryView
# import MemoryView
assert
rhs
.
type
.
is_memoryviewslice
assert
rhs
.
type
.
is_memoryviewslice
...
@@ -79,6 +87,7 @@ def gen_acquire_memoryviewslice(rhs, lhs_type, lhs_is_cglobal, lhs_result, lhs_p
...
@@ -79,6 +87,7 @@ def gen_acquire_memoryviewslice(rhs, lhs_type, lhs_is_cglobal, lhs_result, lhs_p
else
:
else
:
rhstmp
=
code
.
funcstate
.
allocate_temp
(
lhs_type
,
manage_ref
=
False
)
rhstmp
=
code
.
funcstate
.
allocate_temp
(
lhs_type
,
manage_ref
=
False
)
code
.
putln
(
"%s = %s;"
%
(
rhstmp
,
rhs
.
result_as
(
lhs_type
)))
code
.
putln
(
"%s = %s;"
%
(
rhstmp
,
rhs
.
result_as
(
lhs_type
)))
code
.
putln
(
code
.
error_goto_if_null
(
"%s.memview"
%
rhstmp
,
lhs_pos
))
if
not
rhs
.
result_in_temp
():
if
not
rhs
.
result_in_temp
():
code
.
put_incref
(
"%s.memview"
%
rhstmp
,
cython_memoryview_ptr_type
)
code
.
put_incref
(
"%s.memview"
%
rhstmp
,
cython_memoryview_ptr_type
)
...
@@ -184,6 +193,157 @@ def src_conforms_to_dst(src, dst):
...
@@ -184,6 +193,157 @@ def src_conforms_to_dst(src, dst):
return
True
return
True
def
get_copy_contents_name
(
from_mvs
,
to_mvs
):
dtype
=
from_mvs
.
dtype
assert
dtype
==
to_mvs
.
dtype
return
(
'__Pyx_BufferCopyContents_%s_%s_%s'
%
(
axes_to_str
(
from_mvs
.
axes
),
axes_to_str
(
to_mvs
.
axes
),
mangle_dtype_name
(
dtype
)))
copy_template
=
'''
static __Pyx_memviewslice %(copy_name)s(const __Pyx_memviewslice from_mvs) {
int i;
__Pyx_memviewslice new_mvs = {0, 0};
struct __pyx_obj_memoryview *from_memview = from_mvs.memview;
Py_buffer *buf = &from_memview->view;
PyObject *shape_tuple = 0;
PyObject *temp_int = 0;
struct __pyx_obj_array *array_obj = 0;
struct __pyx_obj_memoryview *memview_obj = 0;
char mode[] = "%(mode)s";
__Pyx_SetupRefcountContext("%(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_cythonarray_array_cwrapper(shape_tuple, %(sizeof_dtype)s, buf->format, mode);
if (unlikely(!array_obj)) {
goto fail;
}
__Pyx_GOTREF(array_obj);
memview_obj = __pyx_viewaxis_memoryview_cwrapper((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_FinishRefcountContext();
return new_mvs;
}
'''
def
get_copy_contents_code
(
from_mvs
,
to_mvs
,
cfunc_name
):
assert
from_mvs
.
dtype
==
to_mvs
.
dtype
assert
len
(
from_mvs
.
axes
)
==
len
(
to_mvs
.
axes
)
ndim
=
len
(
from_mvs
.
axes
)
# XXX: we only support direct access for now.
for
(
access
,
packing
)
in
from_mvs
.
axes
:
if
access
!=
'direct'
:
raise
NotImplementedError
(
"only direct access supported currently."
)
code
=
'''
static int %(cfunc_name)s(const __Pyx_memviewslice *from_mvs, __Pyx_memviewslice *to_mvs) {
char *to_buf = (char *)to_mvs->data;
char *from_buf = (char *)from_mvs->data;
struct __pyx_obj_memoryview *temp_memview = 0;
char *temp_data = 0;
'''
%
{
'cfunc_name'
:
cfunc_name
}
if
to_mvs
.
is_c_contig
:
start
,
stop
,
step
=
0
,
ndim
,
1
elif
to_mvs
.
is_f_contig
:
start
,
stop
,
step
=
ndim
-
1
,
-
1
,
-
1
else
:
assert
False
INDENT
=
" "
for
i
,
idx
in
enumerate
(
range
(
start
,
stop
,
step
)):
# the crazy indexing is to account for the fortran indexing.
# 'i' always goes up from zero to ndim-1.
# 'idx' is the same as 'i' for c_contig, and goes from ndim-1 to 0 for f_contig.
# this makes the loop code below identical in both cases.
code
+=
INDENT
+
"Py_ssize_t i%d = 0, idx%d = 0;
\
n
"
%
(
i
,
i
)
code
+=
INDENT
+
"Py_ssize_t stride%(i)d = from_mvs->diminfo[%(idx)d].strides;
\
n
"
%
{
'i'
:
i
,
'idx'
:
idx
}
code
+=
INDENT
+
"Py_ssize_t shape%(i)d = from_mvs->diminfo[%(idx)d].shape;
\
n
"
%
{
'i'
:
i
,
'idx'
:
idx
}
code
+=
"
\
n
"
# put down the nested for-loop.
for
k
in
range
(
ndim
):
code
+=
INDENT
*
(
k
+
1
)
+
"for(i%(k)d=0; i%(k)d<shape%(k)d; i%(k)d++) {
\
n
"
%
{
'k'
:
k
}
code
+=
INDENT
*
(
k
+
2
)
+
"idx%(k)d = i%(k)d * stride%(k)d;
\
n
"
%
{
'k'
:
k
}
# the inner part of the loop.
dtype_decl
=
from_mvs
.
dtype
.
declaration_code
(
""
)
last_idx
=
ndim
-
1
code
+=
INDENT
*
ndim
+
"memcpy(to_buf, from_buf+idx%(last_idx)d, sizeof(%(dtype_decl)s));
\
n
"
%
locals
()
code
+=
INDENT
*
ndim
+
"to_buf += sizeof(%(dtype_decl)s);
\
n
"
%
locals
()
# for-loop closing braces
for
k
in
range
(
ndim
-
1
,
-
1
,
-
1
):
code
+=
INDENT
*
(
k
+
1
)
+
"}
\
n
"
# init to_mvs->data and to_mvs->diminfo.
code
+=
INDENT
+
"temp_memview = to_mvs->memview;
\
n
"
code
+=
INDENT
+
"temp_data = to_mvs->data;
\
n
"
code
+=
INDENT
+
"to_mvs->memview = 0; to_mvs->data = 0;
\
n
"
code
+=
INDENT
+
"if(unlikely(-1 == __Pyx_init_memviewslice(temp_memview, %d, to_mvs))) {
\
n
"
%
(
ndim
,)
code
+=
INDENT
*
2
+
"return -1;
\
n
"
code
+=
INDENT
+
"}
\
n
"
code
+=
INDENT
+
"return 0;
\
n
"
code
+=
'}
\
n
'
return
code
def
get_axes_specs
(
env
,
axes
):
def
get_axes_specs
(
env
,
axes
):
'''
'''
...
@@ -288,16 +448,17 @@ def get_axes_specs(env, axes):
...
@@ -288,16 +448,17 @@ def get_axes_specs(env, axes):
def
is_cf_contig
(
specs
):
def
is_cf_contig
(
specs
):
is_c_contig
=
is_f_contig
=
False
is_c_contig
=
is_f_contig
=
False
packing_idx
=
1
if
(
len
(
specs
)
==
1
and
specs
==
[(
'direct'
,
'contig'
)]):
is_c_contig
=
True
if
(
specs
[
-
1
][
packing_idx
]
==
'contig'
and
elif
(
specs
[
-
1
]
==
(
'direct'
,
'contig'
)
and
all
(
axis
[
packing_idx
]
==
'follow'
for
axis
in
specs
[:
-
1
])):
all
(
axis
==
(
'direct'
,
'follow'
)
for
axis
in
specs
[:
-
1
])):
# c_contiguous: 'follow', 'follow', ..., 'follow', 'contig'
# c_contiguous: 'follow', 'follow', ..., 'follow', 'contig'
is_c_contig
=
True
is_c_contig
=
True
elif
(
len
(
specs
)
>
1
and
elif
(
len
(
specs
)
>
1
and
specs
[
0
]
[
packing_idx
]
==
'contig'
and
specs
[
0
]
==
(
'direct'
,
'contig'
)
and
all
(
axis
[
packing_idx
]
==
'follow'
for
axis
in
specs
[
1
:])):
all
(
axis
==
(
'direct'
,
'follow'
)
for
axis
in
specs
[
1
:])):
# f_contiguous: 'contig', 'follow', 'follow', ..., 'follow'
# f_contiguous: 'contig', 'follow', 'follow', ..., 'follow'
is_f_contig
=
True
is_f_contig
=
True
...
@@ -596,7 +757,13 @@ static int __Pyx_init_memviewslice(
...
@@ -596,7 +757,13 @@ static int __Pyx_init_memviewslice(
int i, retval=-1;
int i, retval=-1;
Py_buffer *buf = &memview->view;
Py_buffer *buf = &memview->view;
if(!buf || memviewslice->memview || memviewslice->data) {
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;
goto fail;
}
}
...
...
Cython/Compiler/PyrexTypes.py
View file @
308c3516
...
@@ -383,6 +383,7 @@ class MemoryViewSliceType(PyrexType):
...
@@ -383,6 +383,7 @@ class MemoryViewSliceType(PyrexType):
if
self
.
scope
is
None
:
if
self
.
scope
is
None
:
import
Symtab
,
MemoryView
import
Symtab
,
MemoryView
from
MemoryView
import
axes_to_str
self
.
scope
=
scope
=
Symtab
.
CClassScope
(
self
.
scope
=
scope
=
Symtab
.
CClassScope
(
'mvs_class_'
+
self
.
specialization_suffix
(),
'mvs_class_'
+
self
.
specialization_suffix
(),
...
@@ -391,41 +392,90 @@ class MemoryViewSliceType(PyrexType):
...
@@ -391,41 +392,90 @@ class MemoryViewSliceType(PyrexType):
scope
.
parent_type
=
self
scope
.
parent_type
=
self
# the C copy method
scope
.
declare_var
(
'_data'
,
c_char_ptr_type
,
None
,
cname
=
'data'
,
is_cdef
=
1
)
c_copy_name
=
'__Pyx_CopyBuffer_C_'
+
self
.
specialization_suffix
()
scope
.
declare_cfunction
(
'copy'
,
CFuncType
(
cython_memoryview_ptr_type
,
[
CFuncTypeArg
(
"memviewslice"
,
self
,
None
)]),
pos
=
None
,
defining
=
1
,
cname
=
c_copy_name
)
# the Fortran copy method
f_copy_name
=
'__Pyx_CopyBuffer_F_'
+
self
.
specialization_suffix
()
scope
.
declare_cfunction
(
'copy_fortran'
,
CFuncType
(
cython_memoryview_ptr_type
,
[
CFuncTypeArg
(
"memviewslice"
,
self
,
None
)]),
pos
=
None
,
defining
=
1
,
cname
=
f_copy_name
)
# ensure the right util code is used
mangle_dtype
=
MemoryView
.
mangle_dtype_name
(
self
.
dtype
)
MemoryView
.
use_cython_array
(
self
.
env
)
ndim
=
len
(
self
.
axes
)
MemoryView
.
use_memview_util_code
(
self
.
env
)
# C copy method implementation.
to_axes_c
=
[(
'direct'
,
'contig'
)]
ccopy_util_code
=
UtilityCode
()
to_axes_f
=
[(
'direct'
,
'contig'
)]
# ccopy_util_code.proto =#XXX
if
ndim
-
1
:
to_axes_c
=
[(
'direct'
,
'follow'
)
*
(
ndim
-
1
)]
+
to_axes_c
to_axes_f
=
to_axes_f
+
[(
'direct'
,
'follow'
)
*
(
ndim
-
1
)]
to_memview_c
=
MemoryViewSliceType
(
self
.
dtype
,
to_axes_c
,
self
.
env
)
to_memview_f
=
MemoryViewSliceType
(
self
.
dtype
,
to_axes_f
,
self
.
env
)
copy_name_c
=
'__Pyx_BufferNew_C_From_'
+
self
.
specialization_suffix
()
copy_name_f
=
'__Pyx_BufferNew_F_From_'
+
self
.
specialization_suffix
()
return
True
cython_name_c
=
'copy'
cython_name_f
=
'copy_fortran'
c_copy_util_code
=
UtilityCode
()
f_copy_util_code
=
UtilityCode
()
for
(
to_memview
,
copy_name
,
cython_name
,
mode
,
contig_flag
,
util_code
)
in
(
(
to_memview_c
,
copy_name_c
,
cython_name_c
,
'c'
,
'PyBUF_C_CONTIGUOUS'
,
c_copy_util_code
),
(
to_memview_f
,
copy_name_f
,
cython_name_f
,
'f'
,
'PyBUF_F_CONTIGUOUS'
,
f_copy_util_code
)):
copy_contents_name
=
MemoryView
.
get_copy_contents_name
(
self
,
to_memview
)
scope
.
declare_cfunction
(
cython_name
,
CFuncType
(
self
,
[
CFuncTypeArg
(
"memviewslice"
,
self
,
None
)]),
pos
=
None
,
defining
=
1
,
cname
=
copy_name
)
copy_impl
=
MemoryView
.
copy_template
%
\
dict
(
copy_name
=
copy_name
,
mode
=
mode
,
sizeof_dtype
=
"sizeof(%s)"
%
self
.
dtype
.
declaration_code
(
''
),
contig_flag
=
contig_flag
,
copy_contents_name
=
copy_contents_name
)
copy_decl
=
'''
\
static __Pyx_memviewslice %s(const __Pyx_memviewslice); /* proto */
'''
%
(
copy_name
,)
util_code
.
proto
=
copy_decl
util_code
.
impl
=
copy_impl
copy_contents_name_c
=
MemoryView
.
get_copy_contents_name
(
self
,
to_memview_c
)
copy_contents_name_f
=
MemoryView
.
get_copy_contents_name
(
self
,
to_memview_f
)
def
axes_to_str
(
self
):
c_copy_util_code
.
proto
+=
(
'static int %s'
return
""
.
join
([
access
[
0
]
+
packing
[
0
]
for
(
access
,
packing
)
in
self
.
axes
])
'(const __Pyx_memviewslice *,'
' __Pyx_memviewslice *); /* proto */
\
n
'
%
(
copy_contents_name_c
,))
c_copy_util_code
.
impl
+=
\
MemoryView
.
get_copy_contents_code
(
self
,
to_memview_c
,
copy_contents_name_c
)
if
(
MemoryView
.
get_copy_contents_code
(
self
,
to_memview_c
,
copy_contents_name_c
)
!=
MemoryView
.
get_copy_contents_code
(
self
,
to_memview_f
,
copy_contents_name_f
)):
f_copy_util_code
.
proto
+=
(
'static int %s'
'(const __Pyx_memviewslice *,'
' __Pyx_memviewslice *); /* proto */
\
n
'
%
(
copy_contents_name_f
,))
f_copy_util_code
.
impl
+=
\
MemoryView
.
get_copy_contents_code
(
self
,
to_memview_f
,
copy_contents_name_f
)
self
.
env
.
use_utility_code
(
c_copy_util_code
)
self
.
env
.
use_utility_code
(
c_copy_util_code
)
# ensure the right util code is used
MemoryView
.
use_cython_array
(
self
.
env
)
MemoryView
.
use_memview_util_code
(
self
.
env
)
return
True
def
specialization_suffix
(
self
):
def
specialization_suffix
(
self
):
return
self
.
axes_to_str
()
+
'_'
+
self
.
dtype
.
specalization_name
()
import
MemoryView
return
MemoryView
.
axes_to_str
(
self
.
axes
)
+
'_'
+
MemoryView
.
mangle_dtype_name
(
self
.
dtype
)
def
global_init_code
(
self
,
entry
,
code
):
def
global_init_code
(
self
,
entry
,
code
):
code
.
putln
(
"%s.data = NULL;"
%
entry
.
cname
)
code
.
putln
(
"%s.data = NULL;"
%
entry
.
cname
)
...
@@ -2622,6 +2672,9 @@ cython_memoryview_type = CStructOrUnionType("__pyx_obj_memoryview", "struct",
...
@@ -2622,6 +2672,9 @@ cython_memoryview_type = CStructOrUnionType("__pyx_obj_memoryview", "struct",
cython_memoryview_ptr_type
=
CPtrType
(
cython_memoryview_type
)
cython_memoryview_ptr_type
=
CPtrType
(
cython_memoryview_type
)
memoryviewslice_type
=
CStructOrUnionType
(
"__Pyx_memviewslice"
,
"struct"
,
None
,
1
,
"__Pyx_memviewslice"
)
error_type
=
ErrorType
()
error_type
=
ErrorType
()
unspecified_type
=
UnspecifiedType
()
unspecified_type
=
UnspecifiedType
()
...
...
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