Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
C
cython
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Issues
0
Issues
0
List
Boards
Labels
Milestones
Merge Requests
0
Merge Requests
0
Analytics
Analytics
Repository
Value Stream
Wiki
Wiki
Snippets
Snippets
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Create a new issue
Commits
Issue Boards
Open sidebar
Gwenaël Samain
cython
Commits
55750171
Commit
55750171
authored
Oct 15, 2011
by
Stefan Behnel
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
optimise multiplication of constant lists/tuples as in [1,2,3]*5
parent
8be2ae86
Changes
3
Show whitespace changes
Inline
Side-by-side
Showing
3 changed files
with
150 additions
and
52 deletions
+150
-52
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+84
-52
Cython/Compiler/Optimize.py
Cython/Compiler/Optimize.py
+11
-0
tests/run/consts.pyx
tests/run/consts.pyx
+55
-0
No files found.
Cython/Compiler/ExprNodes.py
View file @
55750171
...
...
@@ -4331,11 +4331,13 @@ class SequenceNode(ExprNode):
# args [ExprNode]
# unpacked_items [ExprNode] or None
# coerced_unpacked_items [ExprNode] or None
# mult_factor ExprNode the integer number of content repetitions ([1,2]*3)
subexprs
=
[
'args'
]
subexprs
=
[
'args'
,
'mult_factor'
]
is_sequence_constructor
=
1
unpacked_items
=
None
mult_factor
=
None
def
compile_time_value_list
(
self
,
denv
):
return
[
arg
.
compile_time_value
(
denv
)
for
arg
in
self
.
args
]
...
...
@@ -4364,6 +4366,15 @@ class SequenceNode(ExprNode):
arg
=
self
.
args
[
i
]
if
not
skip_children
:
arg
.
analyse_types
(
env
)
self
.
args
[
i
]
=
arg
.
coerce_to_pyobject
(
env
)
if
self
.
mult_factor
:
self
.
mult_factor
.
analyse_types
(
env
)
if
not
self
.
mult_factor
.
type
.
is_int
:
if
self
.
mult_factor
.
type
.
is_pyobject
:
self
.
mult_factor
=
self
.
mult_factor
.
coerce_to
(
PyrexTypes
.
c_py_ssize_t_type
,
env
)
else
:
error
(
self
.
pos
,
"can't multiply sequence by non-int of type '%s'"
%
self
.
mult_factor
.
type
)
self
.
is_temp
=
1
# not setting self.type here, subtypes do this
...
...
@@ -4371,6 +4382,8 @@ class SequenceNode(ExprNode):
return
False
def
analyse_target_types
(
self
,
env
):
if
self
.
mult_factor
:
error
(
arg
.
pos
,
"can't assign to multiplied sequence"
)
self
.
unpacked_items
=
[]
self
.
coerced_unpacked_items
=
[]
self
.
any_coerced_items
=
False
...
...
@@ -4393,6 +4406,66 @@ class SequenceNode(ExprNode):
def
generate_result_code
(
self
,
code
):
self
.
generate_operation_code
(
code
)
def
generate_sequence_packing_code
(
self
,
code
):
if
self
.
type
is
Builtin
.
list_type
:
create_func
,
set_item_func
=
'PyList_New'
,
'PyList_SET_ITEM'
elif
self
.
type
is
Builtin
.
tuple_type
:
create_func
,
set_item_func
=
'PyTuple_New'
,
'PyTuple_SET_ITEM'
else
:
raise
InternalError
(
"sequence unpacking for unexpected type %s"
%
self
.
type
)
if
self
.
mult_factor
:
mult
=
self
.
mult_factor
.
result
()
if
isinstance
(
self
.
mult_factor
.
constant_result
,
(
int
,
long
))
\
and
self
.
mult_factor
.
constant_result
>
0
:
size_factor
=
' * %s'
%
self
.
mult_factor
.
constant_result
else
:
size_factor
=
' * ((%s<0) ? 0:%s)'
%
(
mult
,
mult
)
else
:
size_factor
=
''
mult
=
''
arg_count
=
len
(
self
.
args
)
code
.
putln
(
"%s = %s(%s%s); %s"
%
(
self
.
result
(),
create_func
,
arg_count
,
size_factor
,
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
if
mult
:
counter
=
code
.
funcstate
.
allocate_temp
(
self
.
mult_factor
.
type
,
manage_ref
=
False
)
offset
=
'%s * %s + '
%
(
counter
,
arg_count
)
code
.
putln
(
'for (%s=0; %s < %s; %s++) {'
%
(
counter
,
counter
,
mult
,
counter
))
else
:
offset
=
''
for
i
in
xrange
(
arg_count
):
arg
=
self
.
args
[
i
]
if
mult
or
not
arg
.
result_in_temp
():
code
.
put_incref
(
arg
.
result
(),
arg
.
ctype
())
code
.
putln
(
"%s(%s, %s%s, %s);"
%
(
set_item_func
,
self
.
result
(),
offset
,
i
,
arg
.
py_result
()))
code
.
put_giveref
(
arg
.
py_result
())
if
mult
:
code
.
putln
(
'}'
)
code
.
funcstate
.
release_temp
(
counter
)
def
generate_subexpr_disposal_code
(
self
,
code
):
if
self
.
mult_factor
:
super
(
SequenceNode
,
self
).
generate_subexpr_disposal_code
(
code
)
else
:
# We call generate_post_assignment_code here instead
# of generate_disposal_code, because values were stored
# in the tuple using a reference-stealing operation.
for
arg
in
self
.
args
:
arg
.
generate_post_assignment_code
(
code
)
# Should NOT call free_temps -- this is invoked by the default
# generate_evaluation_code which will do that.
def
generate_assignment_code
(
self
,
rhs
,
code
):
if
self
.
starred_assignment
:
self
.
generate_starred_assignment_code
(
rhs
,
code
)
...
...
@@ -4651,35 +4724,10 @@ class TupleNode(SequenceNode):
self
.
result_code
=
code
.
get_py_const
(
py_object_type
,
'tuple_'
,
cleanup_level
=
2
)
code
=
code
.
get_cached_constants_writer
()
code
.
mark_pos
(
self
.
pos
)
code
.
putln
(
"%s = PyTuple_New(%s); %s"
%
(
self
.
result
(),
len
(
self
.
args
),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
for
i
in
range
(
len
(
self
.
args
)):
arg
=
self
.
args
[
i
]
if
not
arg
.
result_in_temp
():
code
.
put_incref
(
arg
.
result
(),
arg
.
ctype
())
code
.
putln
(
"PyTuple_SET_ITEM(%s, %s, %s);"
%
(
self
.
result
(),
i
,
arg
.
py_result
()))
code
.
put_giveref
(
arg
.
py_result
())
self
.
generate_sequence_packing_code
(
code
)
if
self
.
is_literal
:
code
.
put_giveref
(
self
.
py_result
())
def
generate_subexpr_disposal_code
(
self
,
code
):
# We call generate_post_assignment_code here instead
# of generate_disposal_code, because values were stored
# in the tuple using a reference-stealing operation.
for
arg
in
self
.
args
:
arg
.
generate_post_assignment_code
(
code
)
# Should NOT call free_temps -- this is invoked by the default
# generate_evaluation_code which will do that.
class
ListNode
(
SequenceNode
):
# List constructor.
...
...
@@ -4717,6 +4765,8 @@ class ListNode(SequenceNode):
self
.
obj_conversion_errors
=
[]
if
not
self
.
type
.
subtype_of
(
dst_type
):
error
(
self
.
pos
,
"Cannot coerce list to type '%s'"
%
dst_type
)
elif
self
.
mult_factor
:
error
(
self
.
pos
,
"Cannot coerce multiplied list to '%s'"
%
dst_type
)
elif
dst_type
.
is_ptr
and
dst_type
.
base_type
is
not
PyrexTypes
.
c_void_type
:
base_type
=
dst_type
.
base_type
self
.
type
=
PyrexTypes
.
CArrayType
(
base_type
,
len
(
self
.
args
))
...
...
@@ -4750,31 +4800,22 @@ class ListNode(SequenceNode):
SequenceNode
.
release_temp
(
self
,
env
)
def
calculate_constant_result
(
self
):
if
self
.
mult_factor
:
raise
ValueError
()
# may exceed the compile time memory
self
.
constant_result
=
[
arg
.
constant_result
for
arg
in
self
.
args
]
def
compile_time_value
(
self
,
denv
):
return
self
.
compile_time_value_list
(
denv
)
l
=
self
.
compile_time_value_list
(
denv
)
if
self
.
mult_factor
:
l
*=
self
.
mult_factor
.
compile_time_value
(
denv
)
return
l
def
generate_operation_code
(
self
,
code
):
if
self
.
type
.
is_pyobject
:
for
err
in
self
.
obj_conversion_errors
:
report_error
(
err
)
code
.
putln
(
"%s = PyList_New(%s); %s"
%
(
self
.
result
(),
len
(
self
.
args
),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
for
i
in
range
(
len
(
self
.
args
)):
arg
=
self
.
args
[
i
]
#if not arg.is_temp:
if
not
arg
.
result_in_temp
():
code
.
put_incref
(
arg
.
result
(),
arg
.
ctype
())
code
.
putln
(
"PyList_SET_ITEM(%s, %s, %s);"
%
(
self
.
result
(),
i
,
arg
.
py_result
()))
code
.
put_giveref
(
arg
.
py_result
())
self
.
generate_sequence_packing_code
(
code
)
elif
self
.
type
.
is_array
:
for
i
,
arg
in
enumerate
(
self
.
args
):
code
.
putln
(
"%s[%s] = %s;"
%
(
...
...
@@ -4790,15 +4831,6 @@ class ListNode(SequenceNode):
else
:
raise
InternalError
(
"List type never specified"
)
def
generate_subexpr_disposal_code
(
self
,
code
):
# We call generate_post_assignment_code here instead
# of generate_disposal_code, because values were stored
# in the list using a reference-stealing operation.
for
arg
in
self
.
args
:
arg
.
generate_post_assignment_code
(
code
)
# Should NOT call free_temps -- this is invoked by the default
# generate_evaluation_code which will do that.
class
ScopedExprNode
(
ExprNode
):
# Abstract base class for ExprNodes that have their own local
...
...
Cython/Compiler/Optimize.py
View file @
55750171
...
...
@@ -3501,6 +3501,17 @@ class ConstantFolding(Visitor.VisitorTransform, SkipDeclarations):
constant_result
=
node
.
constant_result
)
return
new_node
def
visit_MulNode
(
self
,
node
):
if
isinstance
(
node
.
operand1
,
(
ExprNodes
.
ListNode
,
ExprNodes
.
TupleNode
)):
sequence_node
=
node
.
operand1
factor
=
node
.
operand2
self
.
_calculate_const
(
factor
)
if
factor
.
constant_result
!=
1
:
sequence_node
.
mult_factor
=
factor
self
.
visitchildren
(
sequence_node
)
return
sequence_node
return
self
.
visit_BinopNode
(
node
)
def
visit_PrimaryCmpNode
(
self
,
node
):
self
.
_calculate_const
(
node
)
if
node
.
constant_result
is
ExprNodes
.
not_a_constant
:
...
...
tests/run/consts.pyx
View file @
55750171
...
...
@@ -91,6 +91,61 @@ def lists():
"""
return
[
1
,
2
,
3
]
+
[
4
,
5
,
6
]
@
cython
.
test_fail_if_path_exists
(
"//BinopNode"
)
def
multiplied_lists
():
"""
>>> multiplied_lists() == [1,2,3] * 5
True
"""
return
[
1
,
2
,
3
]
*
5
@
cython
.
test_fail_if_path_exists
(
"//BinopNode"
)
def
multiplied_lists_neg
():
"""
>>> multiplied_lists_neg() == [1,2,3] * -5
True
"""
return
[
1
,
2
,
3
]
*
-
5
@
cython
.
test_fail_if_path_exists
(
"//BinopNode"
)
def
multiplied_lists_nonconst
(
x
):
"""
>>> multiplied_lists_nonconst(5) == [1,2,3] * 5
True
>>> multiplied_lists_nonconst(-5) == [1,2,3] * -5
True
>>> multiplied_lists_nonconst(0) == [1,2,3] * 0
True
"""
return
[
1
,
2
,
3
]
*
x
@
cython
.
test_fail_if_path_exists
(
"//BinopNode"
)
def
multiplied_lists_nonconst_expression
(
x
):
"""
>>> multiplied_lists_nonconst_expression(5) == [1,2,3] * (5 * 2)
True
>>> multiplied_lists_nonconst_expression(-5) == [1,2,3] * (-5 * 2)
True
>>> multiplied_lists_nonconst_expression(0) == [1,2,3] * (0 * 2)
True
"""
return
[
1
,
2
,
3
]
*
(
x
*
2
)
cdef
side_effect
(
int
x
):
print
x
return
x
@
cython
.
test_fail_if_path_exists
(
"//BinopNode"
)
def
multiplied_lists_with_side_effects
():
"""
>>> multiplied_lists_with_side_effects() == [1,2,3] * 5
1
2
3
True
"""
return
[
side_effect
(
1
),
side_effect
(
2
),
side_effect
(
3
)]
*
5
@
cython
.
test_fail_if_path_exists
(
"//PrimaryCmpNode"
)
def
compile_time_DEF
():
"""
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment