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nexedi
cython
Commits
3738c6a8
Commit
3738c6a8
authored
Jan 18, 2012
by
Mark Florisson
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Plain Diff
Support scalar slice assignment
parent
3693a7b8
Changes
5
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Showing
5 changed files
with
168 additions
and
26 deletions
+168
-26
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+10
-0
Cython/Compiler/MemoryView.py
Cython/Compiler/MemoryView.py
+11
-0
Cython/Compiler/Nodes.py
Cython/Compiler/Nodes.py
+17
-1
Cython/Utility/MemoryView.pyx
Cython/Utility/MemoryView.pyx
+70
-7
tests/run/memslice.pyx
tests/run/memslice.pyx
+60
-18
No files found.
Cython/Compiler/ExprNodes.py
View file @
3738c6a8
...
...
@@ -2346,6 +2346,8 @@ class IndexNode(ExprNode):
is_memslice_copy
=
False
memslice_ellipsis_noop
=
False
warned_untyped_idx
=
False
# set by SingleAssignmentNode after analyse_types()
is_memslice_scalar_assignment
=
False
def
__init__
(
self
,
pos
,
index
,
*
args
,
**
kw
):
ExprNode
.
__init__
(
self
,
pos
,
index
=
index
,
*
args
,
**
kw
)
...
...
@@ -2987,6 +2989,8 @@ class IndexNode(ExprNode):
self
.
generate_subexpr_evaluation_code
(
code
)
if
self
.
is_buffer_access
or
self
.
memslice_index
:
self
.
generate_buffer_setitem_code
(
rhs
,
code
)
elif
self
.
is_memslice_scalar_assignment
:
self
.
generate_memoryviewslice_assign_scalar_code
(
rhs
,
code
)
elif
self
.
memslice_slice
:
self
.
generate_memoryviewslice_setslice_code
(
rhs
,
code
)
elif
self
.
is_memoryviewslice_access
:
...
...
@@ -3089,6 +3093,12 @@ class IndexNode(ExprNode):
import
MemoryView
MemoryView
.
copy_broadcast_memview_src_to_dst
(
rhs
,
self
,
code
)
def
generate_memoryviewslice_assign_scalar_code
(
self
,
rhs
,
code
):
"memslice1[...] = 0.0 or memslice1[:] = 0.0"
import
MemoryView
self
.
generate_evaluation_code
(
code
)
MemoryView
.
assign_scalar
(
self
,
rhs
,
code
)
def
put_nonecheck
(
self
,
code
):
code
.
globalstate
.
use_utility_code
(
raise_noneindex_error_utility_code
)
code
.
putln
(
"if (%s) {"
%
code
.
unlikely
(
"%s == Py_None"
)
%
self
.
base
.
result_as
(
PyrexTypes
.
py_object_type
))
...
...
Cython/Compiler/MemoryView.py
View file @
3738c6a8
...
...
@@ -447,6 +447,17 @@ def copy_broadcast_memview_src_to_dst(src, dst, code):
dst
.
type
.
dtype
.
is_pyobject
),
dst
.
pos
))
def
assign_scalar
(
dst
,
scalar
,
code
):
"Assign a scalar to a slice. Both nodes must be temps."
verify_direct_dimensions
(
dst
)
dtype
=
scalar
.
type
assert
scalar
.
type
.
same_as
(
dst
.
type
.
dtype
)
t
=
(
dst
.
result
(),
dst
.
type
.
ndim
,
dtype
.
declaration_code
(
""
),
scalar
.
result
(),
dtype
.
is_pyobject
)
code
.
putln
(
"__pyx_memoryview_slice_assign_scalar("
"&%s, %d, sizeof(%s), &%s, %d);"
%
t
)
def
copy_c_or_fortran_cname
(
memview
):
if
memview
.
is_c_contig
:
c_or_f
=
'c'
...
...
Cython/Compiler/Nodes.py
View file @
3738c6a8
...
...
@@ -4753,6 +4753,8 @@ class SingleAssignmentNode(AssignmentNode):
self
.
lhs
.
analyse_target_declaration
(
env
)
def
analyse_types
(
self
,
env
,
use_temp
=
0
):
import
ExprNodes
self
.
rhs
.
analyse_types
(
env
)
self
.
lhs
.
analyse_target_types
(
env
)
self
.
lhs
.
gil_assignment_check
(
env
)
...
...
@@ -4761,7 +4763,21 @@ class SingleAssignmentNode(AssignmentNode):
self
.
lhs
.
memslice_broadcast
=
True
self
.
rhs
.
memslice_broadcast
=
True
self
.
rhs
=
self
.
rhs
.
coerce_to
(
self
.
lhs
.
type
,
env
)
is_index_node
=
isinstance
(
self
.
lhs
,
ExprNodes
.
IndexNode
)
if
(
is_index_node
and
not
self
.
rhs
.
type
.
is_memoryviewslice
and
(
self
.
lhs
.
memslice_slice
or
self
.
lhs
.
is_memslice_copy
)
and
(
self
.
lhs
.
type
.
dtype
.
assignable_from
(
self
.
rhs
.
type
)
or
self
.
rhs
.
type
.
is_pyobject
)):
# scalar slice assignment
self
.
lhs
.
is_memslice_scalar_assignment
=
True
#self.lhs = self.lhs.coerce_to_temp(env)
self
.
lhs
.
is_temp
=
True
dtype
=
self
.
lhs
.
type
.
dtype
use_temp
=
True
else
:
dtype
=
self
.
lhs
.
type
self
.
rhs
=
self
.
rhs
.
coerce_to
(
dtype
,
env
)
if
use_temp
:
self
.
rhs
=
self
.
rhs
.
coerce_to_temp
(
env
)
...
...
Cython/Utility/MemoryView.pyx
View file @
3738c6a8
...
...
@@ -101,7 +101,7 @@ cdef class array:
if
not
self
.
data
:
raise
MemoryError
(
"unable to allocate array data."
)
self
.
dtype_is_object
=
format
==
'O'
self
.
dtype_is_object
=
format
==
b
'O'
def
__getbuffer__
(
self
,
Py_buffer
*
info
,
int
flags
):
cdef
int
bufmode
=
-
1
...
...
@@ -355,9 +355,9 @@ cdef class memoryview(object):
if
have_slices
:
obj
=
self
.
is_slice
(
value
)
if
obj
:
self
.
setitem_slice_assignment
(
index
,
obj
)
self
.
setitem_slice_assignment
(
self
[
index
]
,
obj
)
else
:
self
.
setitem_slice_assign_scalar
(
index
,
value
)
self
.
setitem_slice_assign_scalar
(
self
[
index
]
,
value
)
else
:
self
.
setitem_indexed
(
index
,
value
)
...
...
@@ -371,17 +371,42 @@ cdef class memoryview(object):
return
obj
cdef
setitem_slice_assignment
(
self
,
index
,
src
):
cdef
setitem_slice_assignment
(
self
,
dst
,
src
):
cdef
{{
memviewslice_name
}}
dst_slice
cdef
{{
memviewslice_name
}}
src_slice
dst
=
self
[
index
]
memoryview_copy_contents
(
get_slice_from_memview
(
src
,
&
src_slice
)[
0
],
get_slice_from_memview
(
dst
,
&
dst_slice
)[
0
],
src
.
ndim
,
dst
.
ndim
,
self
.
dtype_is_object
)
cdef
setitem_slice_assign_scalar
(
self
,
index
,
value
):
raise
ValueError
(
"Scalar assignment currently unsupported"
)
cdef
setitem_slice_assign_scalar
(
self
,
dst
,
value
):
cdef
int
array
[
128
]
cdef
void
*
tmp
=
NULL
cdef
void
*
item
cdef
{{
memviewslice_name
}}
tmp_slice
,
*
dst_slice
dst_slice
=
get_slice_from_memview
(
dst
,
&
tmp_slice
)
if
self
.
view
.
itemsize
>
sizeof
(
array
):
tmp
=
malloc
(
self
.
view
.
itemsize
)
if
tmp
==
NULL
:
raise
MemoryError
item
=
tmp
else
:
item
=
<
void
*>
array
try
:
self
.
assign_item_from_object
(
<
char
*>
item
,
value
)
except
:
free
(
tmp
)
raise
# It would be easy to support indirect dimensions, but it's easier
# to disallow :)
assert_direct_dimensions
(
self
.
view
.
suboffsets
,
self
.
view
.
ndim
)
slice_assign_scalar
(
dst_slice
,
self
.
view
.
ndim
,
self
.
view
.
itemsize
,
item
,
self
.
dtype_is_object
)
free
(
tmp
)
cdef
setitem_indexed
(
self
,
index
,
value
):
cdef
char
*
itemp
=
self
.
get_item_pointer
(
index
)
...
...
@@ -597,6 +622,12 @@ cdef tuple _unellipsify(object index, int ndim):
return
have_slices
or
nslices
,
tuple
(
result
)
cdef
assert_direct_dimensions
(
Py_ssize_t
*
suboffsets
,
int
ndim
):
cdef
int
i
for
i
in
range
(
ndim
):
if
suboffsets
[
i
]
>=
0
:
raise
ValueError
(
"Indirect dimensions not supported"
)
#
### Slicing a memoryview
#
...
...
@@ -1228,6 +1259,11 @@ cdef void broadcast_leading({{memviewslice_name}} *slice,
slice
.
strides
[
i
]
=
slice
.
strides
[
0
]
slice
.
suboffsets
[
i
]
=
-
1
#
### Take care of refcounting the objects in slices. Do this seperately from any copying,
### to minimize acquiring the GIL
#
@
cname
(
'__pyx_memoryview_refcount_copying'
)
cdef
void
refcount_copying
({{
memviewslice_name
}}
*
dst
,
bint
dtype_is_object
,
int
ndim
,
bint
inc
)
nogil
:
...
...
@@ -1260,6 +1296,33 @@ cdef void refcount_objects_in_slice(char *data, Py_ssize_t *shape,
data
+=
strides
[
0
]
#
### Scalar to slice assignment
#
@
cname
(
'__pyx_memoryview_slice_assign_scalar'
)
cdef
void
slice_assign_scalar
({{
memviewslice_name
}}
*
dst
,
int
ndim
,
size_t
itemsize
,
void
*
item
,
bint
dtype_is_object
)
nogil
:
refcount_copying
(
dst
,
dtype_is_object
,
ndim
,
False
)
_slice_assign_scalar
(
dst
.
data
,
dst
.
shape
,
dst
.
strides
,
ndim
,
itemsize
,
item
)
refcount_copying
(
dst
,
dtype_is_object
,
ndim
,
True
)
@
cname
(
'__pyx_memoryview__slice_assign_scalar'
)
cdef
void
_slice_assign_scalar
(
char
*
data
,
Py_ssize_t
*
shape
,
Py_ssize_t
*
strides
,
int
ndim
,
size_t
itemsize
,
void
*
item
)
nogil
:
cdef
Py_ssize_t
i
for
i
in
range
(
shape
[
0
]):
if
ndim
==
1
:
memcpy
(
data
,
item
,
itemsize
)
else
:
_slice_assign_scalar
(
data
,
shape
+
1
,
strides
+
1
,
ndim
-
1
,
itemsize
,
item
)
data
+=
strides
[
0
]
############### BufferFormatFromTypeInfo ###############
cdef
extern
from
*
:
...
...
tests/run/memslice.pyx
View file @
3738c6a8
...
...
@@ -1888,11 +1888,20 @@ class SingleObject(object):
def
__str__
(
self
):
return
str
(
self
.
value
)
cdef
_get_empty_object_slice
(
fill
=
None
):
cdef
cython
.
array
a
=
cython
.
array
((
10
,),
sizeof
(
PyObject
*
),
'O'
)
cdef
int
i
for
i
in
range
(
10
):
(
<
PyObject
**>
a
.
data
)[
i
]
=
<
PyObject
*>
fill
Py_INCREF
(
fill
)
assert
a
.
dtype_is_object
return
a
@
testcase
def
test_object_dtype_copying
():
"""
>>> test_object_dtype_copying()
True
0
1
2
...
...
@@ -1908,28 +1917,17 @@ def test_object_dtype_copying():
"""
cdef
int
i
none_refcount
=
get_refcount
(
None
)
cdef
cython
.
array
a1
=
cython
.
array
((
10
,),
sizeof
(
PyObject
*
),
'O'
)
cdef
cython
.
array
a2
=
cython
.
array
((
10
,),
sizeof
(
PyObject
*
),
'O'
)
unique
=
object
()
unique_refcount
=
get_refcount
(
unique
)
print
a1
.
dtype_is_object
cdef
object
[:]
m1
=
a1
cdef
object
[:]
m2
=
a2
cdef
object
[:]
m1
=
_get_empty_object_slice
()
cdef
object
[:]
m2
=
_get_empty_object_slice
()
for
i
in
range
(
10
):
# Initialize to None first
(
<
PyObject
**>
a1
.
data
)[
i
]
=
<
PyObject
*>
None
Py_INCREF
(
None
)
(
<
PyObject
**>
a2
.
data
)[
i
]
=
<
PyObject
*>
None
Py_INCREF
(
None
)
# now set a unique object
m1
[
i
]
=
SingleObject
(
i
)
m2
[...]
=
m1
del
a1
,
a2
,
m1
del
m1
for
i
in
range
(
10
):
print
m2
[
i
]
...
...
@@ -1940,4 +1938,48 @@ def test_object_dtype_copying():
del
m2
print
get_refcount
(
obj
),
obj
assert
none_refcount
==
get_refcount
(
None
)
assert
unique_refcount
==
get_refcount
(
unique
),
(
unique_refcount
,
get_refcount
(
unique
))
@
testcase
def
test_scalar_slice_assignment
():
"""
>>> test_scalar_slice_assignment()
0
1
6
3
6
5
6
7
6
9
<BLANKLINE>
0
1
6
3
6
5
6
7
6
9
"""
cdef
int
[
10
]
a
cdef
int
[:]
m
=
a
_test_scalar_slice_assignment
(
m
)
print
_test_scalar_slice_assignment
(
<
object
>
m
)
cdef
_test_scalar_slice_assignment
(
slice_1d
m
):
cdef
int
i
for
i
in
range
(
10
):
m
[
i
]
=
i
m
[
-
2
:
0
:
-
2
]
=
6
for
i
in
range
(
10
):
print
m
[
i
]
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