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Xavier Thompson
cython
Commits
f5660d1b
Commit
f5660d1b
authored
Aug 21, 2011
by
Mark Florisson
Browse files
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Allow C/Fortran contiguity after the last indirect dimension + remove generic_contiguous
parent
64f6b025
Changes
9
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Showing
9 changed files
with
214 additions
and
144 deletions
+214
-144
Cython/Compiler/Buffer.py
Cython/Compiler/Buffer.py
+2
-0
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+2
-2
Cython/Compiler/MemoryView.py
Cython/Compiler/MemoryView.py
+98
-56
Cython/Utility/MemoryView.pyx
Cython/Utility/MemoryView.pyx
+18
-5
tests/compile/memview_declaration.pyx
tests/compile/memview_declaration.pyx
+24
-7
tests/errors/memview_declarations.pyx
tests/errors/memview_declarations.pyx
+14
-19
tests/run/cythonscope.pyx
tests/run/cythonscope.pyx
+1
-2
tests/run/memoryview.pyx
tests/run/memoryview.pyx
+25
-25
tests/run/memslice.pyx
tests/run/memslice.pyx
+30
-28
No files found.
Cython/Compiler/Buffer.py
View file @
f5660d1b
...
...
@@ -590,6 +590,8 @@ class GetAndReleaseBufferUtilityCode(object):
for
m
in
scope
.
cimported_modules
:
find_buffer_types
(
m
)
for
e
in
scope
.
type_entries
:
if
isinstance
(
e
.
utility_code_definition
,
CythonUtilityCode
):
continue
t
=
e
.
type
if
t
.
is_extension_type
:
if
scope
is
cython_scope
and
not
e
.
used
:
...
...
Cython/Compiler/ExprNodes.py
View file @
f5660d1b
...
...
@@ -2473,8 +2473,8 @@ class IndexNode(ExprNode):
if
isinstance
(
index
,
SliceNode
):
suboffsets_dim
=
i
self
.
memslice_slice
=
True
if
packing
==
'contig'
and
index
.
step
.
is_none
:
axes
.
append
((
access
,
'contig'
))
if
index
.
step
.
is_none
:
axes
.
append
((
access
,
packing
))
else
:
axes
.
append
((
access
,
'strided'
))
...
...
Cython/Compiler/MemoryView.py
View file @
f5660d1b
...
...
@@ -9,10 +9,9 @@ from PyrexTypes import py_object_type, cython_memoryview_ptr_type
import
Buffer
import
PyrexTypes
START_ERR
=
"there must be nothing or the value 0 (zero) in the start slot."
STOP_ERR
=
"Axis specification only allowed in the 'stop' slot."
STEP_ERR
=
"Only the value 1 (one) or valid axis specification allowed in the step slot."
ONE_ERR
=
"The value 1 (one) may appear in the first or last axis specification only."
START_ERR
=
"Start must not be given."
STOP_ERR
=
"Axis specification only allowed in the 'step' slot."
STEP_ERR
=
"Step must be omitted, 1, or a valid specifier."
BOTH_CF_ERR
=
"Cannot specify an array that is both C and Fortran contiguous."
INVALID_ERR
=
"Invalid axis specification."
EXPR_ERR
=
"no expressions allowed in axis spec, only names and literals."
...
...
@@ -122,8 +121,6 @@ def get_buf_flags(specs):
access
,
packing
=
zip
(
*
specs
)
assert
'follow'
not
in
packing
if
'full'
in
access
or
'ptr'
in
access
:
return
memview_full_access
else
:
...
...
@@ -675,56 +672,27 @@ def get_axes_specs(env, axes):
default_access
,
default_packing
=
'direct'
,
'strided'
cf_access
,
cf_packing
=
default_access
,
'follow'
# set the is_{c,f}_contig flag.
for
idx
,
axis
in
((
0
,
axes
[
0
]),
(
-
1
,
axes
[
-
1
])):
if
isinstance
(
axis
.
step
,
IntNode
):
if
axis
.
step
.
compile_time_value
(
env
)
!=
1
:
raise
CompileError
(
axis
.
step
.
pos
,
STEP_ERR
)
if
len
(
axes
)
>
1
and
(
is_c_contig
or
is_f_contig
):
raise
CompileError
(
axis
.
step
.
pos
,
BOTH_CF_ERR
)
if
not
idx
:
is_f_contig
=
True
else
:
is_c_contig
=
True
if
len
(
axes
)
==
1
:
break
assert
not
(
is_c_contig
and
is_f_contig
)
axes_specs
=
[]
# analyse all axes.
for
idx
,
axis
in
enumerate
(
axes
):
# start slot can be either a literal '0' or None.
if
isinstance
(
axis
.
start
,
IntNode
):
if
axis
.
start
.
compile_time_value
(
env
):
raise
CompileError
(
axis
.
start
.
pos
,
START_ERR
)
elif
not
isinstance
(
axis
.
start
,
NoneNode
):
if
not
axis
.
start
.
is_none
:
raise
CompileError
(
axis
.
start
.
pos
,
START_ERR
)
# stop slot must be None.
if
not
isinstance
(
axis
.
stop
,
NoneNode
):
if
not
axis
.
stop
.
is_none
:
raise
CompileError
(
axis
.
stop
.
pos
,
STOP_ERR
)
# step slot can be None, the value 1,
# a single axis spec, or an IntBinopNode.
if
isinstance
(
axis
.
step
,
NoneNode
):
if
is_c_contig
or
is_f_contig
:
axes_specs
.
append
((
cf_access
,
cf_packing
))
else
:
axes_specs
.
append
((
default_access
,
default_packing
))
if
axis
.
step
.
is_none
:
axes_specs
.
append
((
default_access
,
default_packing
))
elif
isinstance
(
axis
.
step
,
IntNode
):
if
idx
not
in
(
0
,
len
(
axes
)
-
1
):
raise
CompileError
(
axis
.
step
.
pos
,
ONE_ERR
)
# the packing for the ::1 axis is contiguous,
# all others are cf_packing.
axes_specs
.
append
((
cf_access
,
'contig'
))
if
axis
.
step
.
compile_time_value
(
env
)
!=
1
:
raise
CompileError
(
axis
.
step
.
pos
,
STEP_ERR
)
elif
isinstance
(
axis
.
step
,
(
NameNode
,
AttributeNode
)):
if
is_c_contig
or
is_f_contig
:
raise
CompileError
(
axis
.
step
.
pos
,
CF_ERR
)
axes_specs
.
append
((
cf_access
,
'cfcontig'
))
elif
isinstance
(
axis
.
step
,
(
NameNode
,
AttributeNode
)):
entry
=
_get_resolved_spec
(
env
,
axis
.
step
)
if
entry
.
name
in
view_constant_to_access_packing
:
axes_specs
.
append
(
view_constant_to_access_packing
[
entry
.
name
])
...
...
@@ -734,7 +702,66 @@ def get_axes_specs(env, axes):
else
:
raise
CompileError
(
axis
.
step
.
pos
,
INVALID_ERR
)
validate_axes_specs
([
axis
.
start
.
pos
for
axis
in
axes
],
axes_specs
)
# First, find out if we have a ::1 somewhere
contig_dim
=
0
is_contig
=
False
for
idx
,
(
access
,
packing
)
in
enumerate
(
axes_specs
):
if
packing
==
'cfcontig'
:
if
is_contig
:
raise
CompileError
(
axis
.
step
.
pos
,
BOTH_CF_ERR
)
contig_dim
=
idx
axes_specs
[
idx
]
=
(
access
,
'contig'
)
is_contig
=
True
if
is_contig
:
# We have a ::1 somewhere, see if we're C or Fortran contiguous
if
contig_dim
==
len
(
axes
)
-
1
:
is_c_contig
=
True
else
:
is_f_contig
=
True
if
contig_dim
and
not
axes_specs
[
contig_dim
-
1
][
0
]
in
(
'full'
,
'ptr'
):
raise
CompileError
(
axes
[
contig_dim
].
pos
,
"Fortran contiguous specifier must follow an indirect dimension"
)
if
is_c_contig
:
# Contiguous in the last dimension, find the last indirect dimension
contig_dim
=
-
1
for
idx
,
(
access
,
packing
)
in
enumerate
(
reversed
(
axes_specs
)):
if
access
in
(
'ptr'
,
'full'
):
contig_dim
=
len
(
axes
)
-
idx
-
1
# Replace 'strided' with 'follow' for any dimension following the last
# indirect dimension, the first dimension or the dimension following
# the ::1.
# int[::indirect, ::1, :, :]
# ^ ^
# int[::indirect, :, :, ::1]
# ^ ^
start
=
contig_dim
+
1
stop
=
len
(
axes
)
-
is_c_contig
for
idx
,
(
access
,
packing
)
in
enumerate
(
axes_specs
[
start
:
stop
]):
idx
=
contig_dim
+
1
+
idx
if
access
!=
'direct'
:
raise
CompileError
(
axes
[
idx
].
pos
,
"Indirect dimension may not follow "
"Fortran contiguous dimension"
)
if
packing
==
'contig'
:
raise
CompileError
(
axes
[
idx
].
pos
,
"Dimension may not be contiguous"
)
axes_specs
[
idx
]
=
(
access
,
cf_packing
)
if
is_c_contig
:
# For C contiguity, we need to fix the 'contig' dimension
# after the loop
a
,
p
=
axes_specs
[
-
1
]
axes_specs
[
-
1
]
=
a
,
'contig'
validate_axes_specs
([
axis
.
start
.
pos
for
axis
in
axes
],
axes_specs
,
is_c_contig
,
is_f_contig
)
return
axes_specs
...
...
@@ -786,16 +813,21 @@ view_constant_to_access_packing = {
'indirect_contiguous'
:
(
'ptr'
,
'contig'
),
}
def
validate_axes_specs
(
positions
,
specs
):
def
validate_axes_specs
(
positions
,
specs
,
is_c_contig
,
is_f_contig
):
packing_specs
=
(
'contig'
,
'strided'
,
'follow'
)
access_specs
=
(
'direct'
,
'ptr'
,
'full'
)
is_c_contig
,
is_f_contig
=
is_cf_contig
(
specs
)
#
is_c_contig, is_f_contig = is_cf_contig(specs)
has_contig
=
has_follow
=
has_strided
=
has_generic_contig
=
False
for
pos
,
(
access
,
packing
)
in
zip
(
positions
,
specs
):
last_indirect_dimension
=
-
1
for
idx
,
(
access
,
packing
)
in
enumerate
(
specs
):
if
access
==
'ptr'
:
last_indirect_dimension
=
idx
for
idx
,
pos
,
(
access
,
packing
)
in
zip
(
xrange
(
len
(
specs
)),
positions
,
specs
):
if
not
(
access
in
access_specs
and
packing
in
packing_specs
):
...
...
@@ -805,22 +837,28 @@ def validate_axes_specs(positions, specs):
has_strided
=
True
elif
packing
==
'contig'
:
if
has_contig
:
if
access
==
'ptr'
:
raise
CompileError
(
pos
,
"Indirect contiguous dimensions must precede direct contiguous"
)
elif
has_generic_contig
or
access
==
'full'
:
raise
CompileError
(
pos
,
"Generic contiguous cannot be combined with direct contiguous"
)
raise
CompileError
(
pos
,
"Only one direct contiguous "
"axis may be specified."
)
valid_contig_dims
=
last_indirect_dimension
+
1
,
len
(
specs
)
-
1
if
idx
not
in
valid_contig_dims
and
access
!=
'ptr'
:
if
last_indirect_dimension
+
1
!=
len
(
specs
)
-
1
:
dims
=
"dimensions %d and %d"
%
valid_contig_dims
else
:
raise
CompileError
(
pos
,
"Only one direct contiguous axis may be specified."
)
# Note: We do NOT allow access == 'full' to act as
# "additionally potentially contiguous"
dims
=
"dimension %d"
%
valid_contig_dims
[
0
]
raise
CompileError
(
pos
,
"Only %s may be contiguous and direct"
%
dims
)
has_contig
=
access
!=
'ptr'
has_generic_contig
=
has_generic_contig
or
access
==
'full'
elif
packing
==
'follow'
:
if
has_strided
:
raise
CompileError
(
pos
,
"A memoryview cannot have both follow and strided axis specifiers."
)
if
not
(
is_c_contig
or
is_f_contig
):
raise
CompileError
(
pos
,
"Invalid use of the follow specifier."
)
if
access
in
(
'ptr'
,
'full'
):
has_strided
=
False
def
_get_resolved_spec
(
env
,
spec
):
# spec must be a NameNode or an AttributeNode
if
isinstance
(
spec
,
NameNode
):
...
...
@@ -859,7 +897,11 @@ def _resolve_AttributeNode(env, node):
node
.
pos
,
"undeclared name not builtin: %s"
%
modname
)
scope
=
mod
.
as_module
return
scope
.
lookup
(
path
[
-
1
])
entry
=
scope
.
lookup
(
path
[
-
1
])
if
not
entry
:
raise
CompileError
(
node
.
pos
,
"No such attribute '%s'"
%
path
[
-
1
])
return
entry
def
load_memview_cy_utility
(
util_code_name
,
context
=
None
,
**
kwargs
):
return
CythonUtilityCode
.
load
(
util_code_name
,
"MemoryView.pyx"
,
...
...
Cython/Utility/MemoryView.pyx
View file @
f5660d1b
...
...
@@ -206,10 +206,27 @@ cdef class Enum(object):
def
__repr__
(
self
):
return
self
.
name
# Disable generic_contiguous, as it makes trouble verifying contiguity:
# - 'contiguous' or '::1' means the dimension is contiguous with dtype
# - 'indirect_contiguous' means a contiguous list of pointers
# - dtype contiguous must be contiguous in the first or last dimension
# from the start, or from the dimension following the last indirect dimension
#
# e.g.
# int[::indirect_contiguous, ::contiguous, :]
#
# is valid (list of pointers to 2d fortran-contiguous array), but
#
# int[::generic_contiguous, ::contiguous, :]
#
# would mean you'd have assert dimension 0 to be indirect (and pointer contiguous) at runtime.
# So it doesn't bring any performance benefit, and it's only confusing.
cdef
generic
=
Enum
(
"<strided and direct or indirect>"
)
cdef
strided
=
Enum
(
"<strided and direct>"
)
# default
cdef
indirect
=
Enum
(
"<strided and indirect>"
)
cdef
generic_contiguous
=
Enum
(
"<contiguous and direct or indirect>"
)
# Disable generic_contiguous, as it is a troublemaker
#cdef generic_contiguous = Enum("<contiguous and direct or indirect>")
cdef
contiguous
=
Enum
(
"<contiguous and direct>"
)
cdef
indirect_contiguous
=
Enum
(
"<contiguous and indirect>"
)
...
...
@@ -677,10 +694,6 @@ cdef class _memoryviewslice(memoryview):
def
__get__
(
self
):
return
self
.
from_object
@
cname
(
'__pyx_memoryviewslice_check'
)
cdef
int
__pyx_memoryviewslice_check
(
obj
):
return
isinstance
(
obj
,
_memoryviewslice
)
@
cname
(
'__pyx_memoryview_fromslice'
)
cdef
memoryview_fromslice
({{
memviewslice_name
}}
*
memviewslice
,
int
ndim
,
...
...
tests/compile/memview_declaration.pyx
View file @
f5660d1b
...
...
@@ -4,7 +4,7 @@ cimport cython
# from cython.view cimport contig as foo, full as bar #, follow
from
cython
cimport
view
from
cython.view
cimport
(
generic
,
strided
,
indirect
,
generic_contiguous
,
contiguous
,
indirect_contiguous
)
contiguous
,
indirect_contiguous
)
cdef
char
[:]
one_dim
cdef
char
[:,:,:]
three_dim
...
...
@@ -13,8 +13,7 @@ cdef unsigned int[:, ::1] view2
cdef
long
long
[::
1
,
:,
:,
:]
fort_contig
cdef
unsigned
long
[:,
:,
:,
::
1
]
c_contig
cdef
unsigned
short
int
[::
1
]
c_and_fort
cdef
long
long
[
0x0
::
0x1
,
00
:,
-
0
:,
0
:]
fort_contig0
cdef
unsigned
long
[
0
:,
0
:,
0
:,
0
::
0x0001
]
c_contig0
cdef
unsigned
long
[:,
:,
:,
::
0x0001
]
c_contig0
cdef
int
[::
generic
,
::
generic
]
a1
cdef
int
[::
strided
,
::
generic
]
a2
...
...
@@ -26,9 +25,6 @@ cdef int[::generic, ::indirect] a7
cdef
int
[::
strided
,
::
indirect
]
a8
cdef
int
[::
indirect
,
::
indirect
]
a9
cdef
int
[::
generic
,
::
generic_contiguous
]
a10
cdef
int
[::
strided
,
::
generic_contiguous
]
a11
cdef
int
[::
indirect
,
::
generic_contiguous
]
a12
cdef
int
[::
generic
,
::
contiguous
]
a13
cdef
int
[::
strided
,
::
contiguous
]
a14
cdef
int
[::
indirect
,
::
contiguous
]
a15
...
...
@@ -39,7 +35,28 @@ cdef int[::indirect, ::indirect_contiguous] a18
cdef
int
[::
generic
,
::]
a19
cdef
int
[::
strided
,
:]
a20
cdef
int
[::
indirect
,
:]
a21
cdef
int
[::
generic_contiguous
,
:]
a22
cdef
int
[::
contiguous
,
:]
a23
cdef
int
[::
indirect_contiguous
,
:]
a24
cdef
int
[::
indirect_contiguous
,
::
1
]
a25
cdef
int
[::
indirect_contiguous
,
::
1
,
:]
a26
cdef
int
[::
indirect_contiguous
,
:,
::
1
]
a27
cdef
int
[::
indirect_contiguous
,
::
1
,
:]
a28
cdef
int
[::
indirect_contiguous
,
::
view
.
contiguous
,
:]
a29
cdef
int
[::
indirect_contiguous
,
:,
::
view
.
contiguous
]
a30
cdef
int
[::
indirect
,
::
1
]
a31
cdef
int
[::
indirect
,
::
1
,
:]
a32
=
object
()
cdef
int
[::
indirect
,
:,
::
1
]
a33
=
object
()
cdef
int
[::
indirect
,
::
1
,
:]
a34
cdef
int
[::
indirect
,
::
view
.
contiguous
,
:]
a35
cdef
int
[::
indirect
,
:,
::
view
.
contiguous
]
a36
cdef
int
[::
1
,
:]
my_f_contig
=
a32
[
0
]
cdef
int
[:,
::
1
]
my_c_contig
=
a33
[
0
]
my_f_contig
=
a32
[
0
,
:,
:]
my_c_contig
=
a33
[
0
,
:,
:]
my_f_contig
=
a32
[
0
,
...]
my_c_contig
=
a33
[
0
,
...]
tests/errors/memview_declarations.pyx
View file @
f5660d1b
...
...
@@ -29,16 +29,16 @@ unconformable1 = dtype_unconformable
# These are INVALID
cdef
int
[::
view
.
contiguous
,
::
1
]
a1
cdef
int
[::
view
.
generic_contiguous
,
::
1
]
a2
#
cdef int[::view.generic_contiguous, ::1] a2
cdef
int
[::
view
.
contiguous
,
::
view
.
generic_contiguous
]
a3
cdef
int
[::
view
.
generic_contiguous
,
::
view
.
generic_contiguous
]
a4
#
cdef int[::view.contiguous, ::view.generic_contiguous] a3
#
cdef int[::view.generic_contiguous, ::view.generic_contiguous] a4
cdef
int
[::
view
.
contiguous
,
::
view
.
contiguous
]
a5
cdef
int
[:,
::
view
.
contiguous
,
::
view
.
indirect_contiguous
]
a6
cdef
int
[::
view
.
generic_contiguous
,
::
view
.
contiguous
]
a7
cdef
int
[::
view
.
contiguous
,
::
view
.
generic_contiguous
]
a8
#
cdef int[::view.generic_contiguous, ::view.contiguous] a7
#
cdef int[::view.contiguous, ::view.generic_contiguous] a8
# These are VALID
cdef
int
[::
view
.
indirect_contiguous
,
::
view
.
contiguous
]
a9
...
...
@@ -46,24 +46,19 @@ cdef int[::view.indirect_contiguous, ::view.contiguous] a9
_ERRORS
=
u'''
11:25: Cannot specify an array that is both C and Fortran contiguous.
12:31: Cannot specify an array that is both C and Fortran contiguous.
13:19:
Only the value 1 (one) or valid axis specification allowed in the step slot
.
14:20:
Only the value 1 (one) or valid axis specification allowed in the step slot
.
15:20:
Only the value 1 (one) or valid axis specification allowed in the step slot
.
16:17:
there must be nothing or the value 0 (zero) in the start slot
.
17:18:
there must be nothing or the value 0 (zero) in the start slot
.
18:22: Axis specification only allowed in the 'st
o
p' slot.
19:
23: The value 1 (one) may appear in the first or last axis specification only.
13:19:
Step must be omitted, 1, or a valid specifier
.
14:20:
Step must be omitted, 1, or a valid specifier
.
15:20:
Step must be omitted, 1, or a valid specifier
.
16:17:
Start must not be given
.
17:18:
Start must not be given
.
18:22: Axis specification only allowed in the 'st
e
p' slot.
19:
19: Fortran contiguous specifier must follow an indirect dimension
20:22: Invalid axis specification.
21:25: Invalid axis specification.
22:22: no expressions allowed in axis spec, only names and literals.
25:51: Memoryview 'object[::contiguous, :]' not conformable to memoryview 'object[:, ::contiguous]'.
28:36: Different base types for memoryviews (int, Python object)
31:15: Invalid axis specification for a C/Fortran contiguous array.
32:15: Invalid axis specification for a C/Fortran contiguous array.
34:9: Generic contiguous cannot be combined with direct contiguous
35:9: Generic contiguous cannot be combined with direct contiguous
31:9: Dimension may not be contiguous
37:9: Only one direct contiguous axis may be specified.
38:9: Indirect contiguous dimensions must precede direct contiguous
40:9: Generic contiguous cannot be combined with direct contiguous
41:9: Generic contiguous cannot be combined with direct contiguous
38:9:Only dimensions 3 and 2 may be contiguous and direct
'''
tests/run/cythonscope.pyx
View file @
f5660d1b
...
...
@@ -154,13 +154,12 @@ def viewobjs():
<strided and direct or indirect>
<strided and direct>
<strided and indirect>
<contiguous and direct or indirect>
<contiguous and direct>
<contiguous and indirect>
"""
print
cython
.
view
.
generic
print
cython
.
view
.
strided
print
cython
.
view
.
indirect
print
cython
.
view
.
generic_contiguous
#
print cython.view.generic_contiguous
print
cython
.
view
.
contiguous
print
cython
.
view
.
indirect_contiguous
tests/run/memoryview.pyx
View file @
f5660d1b
...
...
@@ -400,31 +400,31 @@ def generic(int[::view.generic, ::view.generic] mslice1,
print
buf1
[
2
,
2
]
print
buf2
[
2
,
2
]
def
generic_contig
(
int
[::
view
.
generic_contiguous
,
:]
mslice1
,
int
[::
view
.
generic_contiguous
,
:]
mslice2
):
"""
>>> A = IntMockBuffer("A", [[0,1,2], [3,4,5], [6,7,8]])
>>> B = IntMockBuffer("B", [[0,1,2], [3,4,5], [6,7,8]], shape=(3, 3), strides=(1, 3))
>>> generic_contig(A, B)
acquired A
acquired B
4
4
10
11
released A
released B
"""
buf1
,
buf2
=
mslice1
,
mslice2
print
buf1
[
1
,
1
]
print
buf2
[
1
,
1
]
buf1
[
2
,
-
1
]
=
10
buf2
[
2
,
-
1
]
=
11
print
buf1
[
2
,
2
]
print
buf2
[
2
,
2
]
#
def generic_contig(int[::view.generic_contiguous, :] mslice1,
#
int[::view.generic_contiguous, :] mslice2):
#
"""
#
>>> A = IntMockBuffer("A", [[0,1,2], [3,4,5], [6,7,8]])
#
>>> B = IntMockBuffer("B", [[0,1,2], [3,4,5], [6,7,8]], shape=(3, 3), strides=(1, 3))
#
>>> generic_contig(A, B)
#
acquired A
#
acquired B
#
4
#
4
#
10
#
11
#
released A
#
released B
#
"""
#
buf1, buf2 = mslice1, mslice2
#
#
print buf1[1, 1]
#
print buf2[1, 1]
#
#
buf1[2, -1] = 10
#
buf2[2, -1] = 11
#
#
print buf1[2, 2]
#
print buf2[2, 2]
ctypedef
int
td_cy_int
cdef
extern
from
"bufaccess.h"
:
...
...
tests/run/memslice.pyx
View file @
f5660d1b
...
...
@@ -543,34 +543,36 @@ def generic(int[::view.generic, ::view.generic] buf1,
print
buf1
[
2
,
2
]
print
buf2
[
2
,
2
]
@
testcase
def
generic_contig
(
int
[::
view
.
generic_contiguous
,
:]
buf1
,
int
[::
view
.
generic_contiguous
,
:]
buf2
):
"""
>>> A = IntMockBuffer("A", [[0,1,2], [3,4,5], [6,7,8]])
>>> B = IntMockBuffer("B", [[0,1,2], [3,4,5], [6,7,8]], shape=(3, 3), strides=(1, 3))
>>> generic_contig(A, B)
acquired A
acquired B
4
4
10
11
released A
released B
>>> [str(x) for x in A.recieved_flags]
['FORMAT', 'INDIRECT', 'ND', 'STRIDES', 'WRITABLE']
>>> [str(x) for x in B.recieved_flags]
['FORMAT', 'INDIRECT', 'ND', 'STRIDES', 'WRITABLE']
"""
print
buf1
[
1
,
1
]
print
buf2
[
1
,
1
]
buf1
[
2
,
-
1
]
=
10
buf2
[
2
,
-
1
]
=
11
print
buf1
[
2
,
2
]
print
buf2
[
2
,
2
]
# Note: disabled. generic_contiguous isn't very useful (you have to check suboffsets,
# might as well multiply with strides)
# @testcase
# def generic_contig(int[::view.generic_contiguous, :] buf1,
# int[::view.generic_contiguous, :] buf2):
# """
# >>> A = IntMockBuffer("A", [[0,1,2], [3,4,5], [6,7,8]])
# >>> B = IntMockBuffer("B", [[0,1,2], [3,4,5], [6,7,8]], shape=(3, 3), strides=(1, 3))
# >>> generic_contig(A, B)
# acquired A
# acquired B
# 4
# 4
# 10
# 11
# released A
# released B
# >>> [str(x) for x in A.recieved_flags]
# ['FORMAT', 'INDIRECT', 'ND', 'STRIDES', 'WRITABLE']
# >>> [str(x) for x in B.recieved_flags]
# ['FORMAT', 'INDIRECT', 'ND', 'STRIDES', 'WRITABLE']
# """
# print buf1[1, 1]
# print buf2[1, 1]
#
# buf1[2, -1] = 10
# buf2[2, -1] = 11
#
# print buf1[2, 2]
# print buf2[2, 2]
@
testcase
def
indirect_strided_and_contig
(
...
...
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