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
1aa49b25
Commit
1aa49b25
authored
Jun 29, 2012
by
Robert Bradshaw
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
First pass at C++ stl conversion.
parent
75c52f53
Changes
3
Hide whitespace changes
Inline
Side-by-side
Showing
3 changed files
with
264 additions
and
3 deletions
+264
-3
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+1
-1
Cython/Compiler/PyrexTypes.py
Cython/Compiler/PyrexTypes.py
+59
-2
Cython/Utility/CppConvert.pyx
Cython/Utility/CppConvert.pyx
+204
-0
No files found.
Cython/Compiler/ExprNodes.py
View file @
1aa49b25
...
@@ -7084,7 +7084,7 @@ class AmpersandNode(ExprNode):
...
@@ -7084,7 +7084,7 @@ class AmpersandNode(ExprNode):
def
analyse_types
(
self
,
env
):
def
analyse_types
(
self
,
env
):
self
.
operand
.
analyse_types
(
env
)
self
.
operand
.
analyse_types
(
env
)
argtype
=
self
.
operand
.
type
argtype
=
self
.
operand
.
type
if
not
(
argtype
.
is_cfunction
or
self
.
operand
.
is_addressable
()):
if
not
(
argtype
.
is_cfunction
or
argtype
.
is_reference
or
self
.
operand
.
is_addressable
()):
if
argtype
.
is_memoryviewslice
:
if
argtype
.
is_memoryviewslice
:
self
.
error
(
"Cannot take address of memoryview slice"
)
self
.
error
(
"Cannot take address of memoryview slice"
)
else
:
else
:
...
...
Cython/Compiler/PyrexTypes.py
View file @
1aa49b25
...
@@ -22,7 +22,16 @@ class BaseType(object):
...
@@ -22,7 +22,16 @@ class BaseType(object):
return
"((%s)%s)"
%
(
self
.
declaration_code
(
""
),
expr_code
)
return
"((%s)%s)"
%
(
self
.
declaration_code
(
""
),
expr_code
)
def
specialization_name
(
self
):
def
specialization_name
(
self
):
return
self
.
declaration_code
(
""
).
replace
(
" "
,
"__"
)
# This is not entirely robust.
safe
=
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_0123456789'
all
=
[]
for
c
in
self
.
declaration_code
(
""
).
replace
(
" "
,
"__"
):
if
c
in
safe
:
all
.
append
(
c
)
else
:
all
.
append
(
'_%x_'
%
ord
(
c
))
print
self
.
declaration_code
(
""
),
''
.
join
(
all
)
return
''
.
join
(
all
)
def
base_declaration_code
(
self
,
base_code
,
entity_code
):
def
base_declaration_code
(
self
,
base_code
,
entity_code
):
if
entity_code
:
if
entity_code
:
...
@@ -2978,6 +2987,9 @@ class CStructOrUnionType(CType):
...
@@ -2978,6 +2987,9 @@ class CStructOrUnionType(CType):
return
expr_code
return
expr_code
return
super
(
CStructOrUnionType
,
self
).
cast_code
(
expr_code
)
return
super
(
CStructOrUnionType
,
self
).
cast_code
(
expr_code
)
builtin_cpp_conversions
=
(
"std::string"
,
"std::vector"
,
"std::set"
,
"std::map"
,
"std::pair"
)
class
CppClassType
(
CType
):
class
CppClassType
(
CType
):
# name string
# name string
# cname string
# cname string
...
@@ -3001,6 +3013,47 @@ class CppClassType(CType):
...
@@ -3001,6 +3013,47 @@ class CppClassType(CType):
self
.
template_type
=
template_type
self
.
template_type
=
template_type
self
.
specializations
=
{}
self
.
specializations
=
{}
def
use_conversion_utility
(
self
,
from_or_to
):
pass
def
create_from_py_utility_code
(
self
,
env
):
if
self
.
from_py_function
is
not
None
:
return
True
if
self
.
cname
in
builtin_cpp_conversions
:
tags
=
[]
context
=
{}
for
ix
,
T
in
enumerate
(
self
.
templates
or
[]):
if
not
T
.
create_from_py_utility_code
(
env
):
return
False
tags
.
append
(
T
.
specialization_name
())
context
[
"T%s"
%
ix
]
=
T
.
declaration_code
(
""
,
for_display
=
True
)
cls
=
self
.
cname
[
5
:]
cname
=
"__pyx_convert_%s_from_py_%s"
%
(
cls
,
"____"
.
join
(
tags
))
context
[
'cname'
]
=
cname
from
UtilityCode
import
CythonUtilityCode
env
.
use_utility_code
(
CythonUtilityCode
.
load
(
cls
+
".from_py"
,
"CppConvert.pyx"
,
context
=
context
))
self
.
from_py_function
=
cname
return
True
def
create_to_py_utility_code
(
self
,
env
):
if
self
.
to_py_function
is
not
None
:
return
True
if
self
.
cname
in
builtin_cpp_conversions
:
tags
=
[]
context
=
{}
for
ix
,
T
in
enumerate
(
self
.
templates
or
[]):
if
not
T
.
create_to_py_utility_code
(
env
):
return
False
tags
.
append
(
T
.
specialization_name
())
context
[
"T%s"
%
ix
]
=
T
.
declaration_code
(
""
,
for_display
=
True
)
cls
=
self
.
cname
[
5
:]
cname
=
"__pyx_convert_%s_to_py_%s"
%
(
cls
,
"____"
.
join
(
tags
))
context
[
'cname'
]
=
cname
from
UtilityCode
import
CythonUtilityCode
env
.
use_utility_code
(
CythonUtilityCode
.
load
(
cls
+
".to_py"
,
"CppConvert.pyx"
,
context
=
context
))
self
.
to_py_function
=
cname
return
True
def
specialize_here
(
self
,
pos
,
template_values
=
None
):
def
specialize_here
(
self
,
pos
,
template_values
=
None
):
if
self
.
templates
is
None
:
if
self
.
templates
is
None
:
error
(
pos
,
"'%s' type is not a template"
%
self
);
error
(
pos
,
"'%s' type is not a template"
%
self
);
...
@@ -3035,7 +3088,11 @@ class CppClassType(CType):
...
@@ -3035,7 +3088,11 @@ class CppClassType(CType):
if
self
.
templates
:
if
self
.
templates
:
template_strings
=
[
param
.
declaration_code
(
''
,
for_display
,
None
,
pyrex
)
template_strings
=
[
param
.
declaration_code
(
''
,
for_display
,
None
,
pyrex
)
for
param
in
self
.
templates
]
for
param
in
self
.
templates
]
templates
=
"<%s>"
%
","
.
join
(
template_strings
)
if
for_display
:
brackets
=
"[%s]"
else
:
brackets
=
"<%s>"
templates
=
brackets
%
","
.
join
(
template_strings
)
if
templates
[
-
2
:]
==
">>"
:
if
templates
[
-
2
:]
==
">>"
:
templates
=
templates
[:
-
2
]
+
"> >"
templates
=
templates
[:
-
2
]
+
"> >"
else
:
else
:
...
...
Cython/Utility/CppConvert.pyx
0 → 100644
View file @
1aa49b25
# TODO: Figure out how many of the pass-by-value copies the compiler can eliminate.
#################### string.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
string
"std::string"
:
string
(
char
*
c_str
,
size_t
size
)
@
cname
(
"{{cname}}"
)
cdef
string
{{
cname
}}(
object
o
)
except
*
:
return
string
(
<
char
*>
o
,
len
(
o
))
#################### string.to_py ####################
#cimport cython
#from libcpp.string cimport string
cdef
extern
from
*
:
cdef
cppclass
string
"const std::string"
:
char
*
c_str
()
size_t
size
()
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
string
&
s
):
return
s
.
c_str
()[:
s
.
size
()]
#################### vector.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
vector
"std::vector"
[
T
]:
void
push_back
(
T
&
)
@
cname
(
"{{cname}}"
)
cdef
vector
[{{
T0
}}]
{{
cname
}}(
object
o
)
except
*
:
cdef
vector
[{{
T0
}}]
v
for
item
in
o
:
v
.
push_back
(
item
)
return
v
#################### vector.to_py ####################
cdef
extern
from
*
:
cdef
cppclass
vector
"const std::vector"
[
T
]:
size_t
size
()
T
&
operator
[](
size_t
)
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
vector
[{{
T0
}}]
&
v
):
return
[
v
[
i
]
for
i
in
range
(
v
.
size
())]
#################### list.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
cpp_list
"std::list"
[
T
]:
void
push_back
(
T
&
)
@
cname
(
"{{cname}}"
)
cdef
cpp_list
[{{
T0
}}]
{{
cname
}}(
object
o
)
except
*
:
cdef
cpp_list
[{{
T0
}}]
l
for
item
in
o
:
l
.
push_back
(
item
)
return
l
#################### list.to_py ####################
cdef
extern
from
*
:
cdef
cppclass
cpp_list
"std::list"
[
T
]:
cppclass
const_iterator
:
T
&
operator
*
()
const_iterator
operator
++
()
bint
operator
!=
(
const_iterator
)
const_iterator
begin
()
const_iterator
end
()
cdef
cppclass
const_cpp_list
"const std::list"
[
T
]
(
cpp_list
)
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
const_cpp_list
[{{
T0
}}]
&
v
):
o
=
[]
cdef
cpp_list
[{{
T0
}}].
const_iterator
iter
=
s
.
begin
()
while
iter
!=
s
.
end
():
o
.
append
(
cython
.
operator
.
dereference
(
iter
))
cython
.
operator
.
preincrement
(
iter
)
return
o
#################### set.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
set
"std::set"
[
T
]:
void
insert
(
T
&
)
@
cname
(
"{{cname}}"
)
cdef
set
[{{
T0
}}]
{{
cname
}}(
object
o
)
except
*
:
cdef
set
[{{
T0
}}]
s
for
item
in
o
:
s
.
insert
(
item
)
return
s
#################### set.to_py ####################
cimport
cython
cdef
extern
from
*
:
cdef
cppclass
cpp_set
"std::set"
[
T
]:
cppclass
const_iterator
:
T
&
operator
*
()
const_iterator
operator
++
()
bint
operator
!=
(
const_iterator
)
const_iterator
begin
()
const_iterator
end
()
cdef
cppclass
const_cpp_set
"const std::set"
[
T
](
cpp_set
):
pass
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
const_cpp_set
[{{
T0
}}]
&
s
):
o
=
set
()
cdef
cpp_set
[{{
T0
}}].
const_iterator
iter
=
s
.
begin
()
while
iter
!=
s
.
end
():
o
.
add
(
cython
.
operator
.
dereference
(
iter
))
cython
.
operator
.
preincrement
(
iter
)
return
o
#################### pair.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
pair
"std::pair"
[
T
,
U
]:
pair
(
T
&
,
U
&
)
@
cname
(
"{{cname}}"
)
cdef
pair
[{{
T0
}},{{
T1
}}]
{{
cname
}}(
object
o
)
except
*
:
x
,
y
=
o
return
pair
[{{
T0
}},{{
T1
}}](
x
,
y
)
#################### pair.to_py ####################
cdef
extern
from
*
:
cdef
cppclass
pair
"const std::pair"
[
T
,
U
]:
T
first
U
second
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
pair
[{{
T0
}},{{
T1
}}]
&
p
):
return
p
.
first
,
p
.
second
#################### map.from_py ####################
cdef
extern
from
*
:
cdef
cppclass
pair
"std::pair"
[
T
,
U
]:
pair
(
T
&
,
U
&
)
cdef
cppclass
map
"std::map"
[
T
,
U
]:
void
insert
(
pair
[
T
,
U
]
&
)
cdef
cppclass
pair
"std::pair"
[
T
,
U
]:
pass
cdef
cppclass
vector
"std::vector"
[
T
]:
pass
@
cname
(
"{{cname}}"
)
cdef
map
[{{
T0
}},{{
T1
}}]
{{
cname
}}(
object
o
)
except
*
:
cdef
dict
d
=
o
cdef
map
[{{
T0
}},{{
T1
}}]
m
for
key
,
value
in
d
.
iteritems
():
m
.
insert
(
pair
[{{
T0
}},{{
T1
}}](
<
{{
T0
}}
>
key
,
<
{{
T1
}}
>
value
))
return
m
#################### map.to_py ####################
# TODO: Work out const so that this can take a const
# reference rather than pass by value.
cimport
cython
cdef
extern
from
*
:
cdef
cppclass
map
"std::map"
[
T
,
U
]:
cppclass
value_type
:
T
first
U
second
cppclass
iterator
:
value_type
&
operator
*
()
iterator
operator
++
()
bint
operator
!=
(
iterator
)
iterator
begin
()
iterator
end
()
@
cname
(
"{{cname}}"
)
cdef
object
{{
cname
}}(
map
[{{
T0
}},{{
T1
}}]
s
):
o
=
{}
cdef
map
[{{
T0
}},{{
T1
}}].
value_type
*
key_value
cdef
map
[{{
T0
}},{{
T1
}}].
iterator
iter
=
s
.
begin
()
while
iter
!=
s
.
end
():
key_value
=
&
cython
.
operator
.
dereference
(
iter
)
o
[
key_value
.
first
]
=
key_value
.
second
cython
.
operator
.
preincrement
(
iter
)
return
o
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