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Gwenaël Samain
cython
Commits
3ee57173
Commit
3ee57173
authored
May 12, 2015
by
Stefan Behnel
Browse files
Options
Browse Files
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Plain Diff
partially implement PEP 448 for function calls only
parent
1ba47438
Changes
7
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Showing
7 changed files
with
910 additions
and
203 deletions
+910
-203
CHANGES.rst
CHANGES.rst
+3
-0
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+180
-131
Cython/Compiler/Parsing.pxd
Cython/Compiler/Parsing.pxd
+1
-1
Cython/Compiler/Parsing.py
Cython/Compiler/Parsing.py
+82
-65
Cython/Parser/Grammar
Cython/Parser/Grammar
+18
-6
Cython/Utility/FunctionArguments.c
Cython/Utility/FunctionArguments.c
+51
-0
tests/run/pep448_test_extcall.pyx
tests/run/pep448_test_extcall.pyx
+575
-0
No files found.
CHANGES.rst
View file @
3ee57173
...
...
@@ -15,6 +15,9 @@ Features added
* Tracing is supported in ``nogil`` functions/sections and module init code.
* PEP 448 (Additional Unpacking Generalizations) was implemented for function
calls.
* When generators are used in a Cython module and the module imports the
modules "inspect" and/or "asyncio", Cython enables interoperability by
patching these modules to recognise Cython's internal generator type.
...
...
Cython/Compiler/ExprNodes.py
View file @
3ee57173
...
...
@@ -5450,8 +5450,9 @@ class AsTupleNode(ExprNode):
self
.
compile_time_value_error
(
e
)
def
analyse_types
(
self
,
env
):
self
.
arg
=
self
.
arg
.
analyse_types
(
env
)
self
.
arg
=
self
.
arg
.
coerce_to_pyobject
(
env
)
self
.
arg
=
self
.
arg
.
analyse_types
(
env
).
coerce_to_pyobject
(
env
)
if
self
.
arg
.
type
is
tuple_type
:
return
self
.
arg
.
as_none_safe_node
(
"'NoneType' object is not iterable"
)
self
.
type
=
tuple_type
self
.
is_temp
=
1
return
self
...
...
@@ -5471,6 +5472,159 @@ class AsTupleNode(ExprNode):
code
.
put_gotref
(
self
.
py_result
())
class
KeywordArgsNode
(
ExprNode
):
# Helper class for keyword arguments.
#
# keyword_args [DictNode or other ExprNode]
subexprs
=
[
'keyword_args'
]
is_temp
=
1
type
=
dict_type
reject_duplicates
=
True
def
calculate_constant_result
(
self
):
result
=
{}
reject_duplicates
=
self
.
reject_duplicates
for
item
in
self
.
keyword_args
:
if
item
.
is_dict_literal
:
# process items in order
items
=
((
key
.
constant_result
,
value
.
constant_result
)
for
key
,
value
in
item
.
key_value_pairs
)
else
:
items
=
item
.
constant_result
.
iteritems
()
for
key
,
value
in
items
:
if
reject_duplicates
and
key
in
result
:
raise
ValueError
(
"duplicate keyword argument found: %s"
%
key
)
result
[
key
]
=
value
self
.
constant_result
=
result
def
compile_time_value
(
self
,
denv
):
result
=
{}
reject_duplicates
=
self
.
reject_duplicates
for
item
in
self
.
keyword_args
:
if
item
.
is_dict_literal
:
# process items in order
items
=
[(
key
.
compile_time_value
(
denv
),
value
.
compile_time_value
(
denv
))
for
key
,
value
in
item
.
key_value_pairs
]
else
:
items
=
item
.
compile_time_value
(
denv
).
iteritems
()
try
:
for
key
,
value
in
items
:
if
reject_duplicates
and
key
in
result
:
raise
ValueError
(
"duplicate keyword argument found: %s"
%
key
)
result
[
key
]
=
value
except
Exception
,
e
:
self
.
compile_time_value_error
(
e
)
return
result
def
type_dependencies
(
self
,
env
):
return
()
def
infer_type
(
self
,
env
):
return
dict_type
def
analyse_types
(
self
,
env
):
args
=
[
arg
.
analyse_types
(
env
).
coerce_to_pyobject
(
env
).
as_none_safe_node
(
# FIXME: CPython's error message starts with the runtime function name
'argument after ** must be a mapping, not NoneType'
)
for
arg
in
self
.
keyword_args
]
if
len
(
args
)
==
1
and
args
[
0
].
type
is
dict_type
:
# strip this intermediate node and use the bare dict
arg
=
args
[
0
]
if
arg
.
is_name
and
arg
.
entry
.
is_arg
and
len
(
arg
.
entry
.
cf_assignments
)
==
1
:
# passing **kwargs through to function call => allow NULL
arg
.
allow_null
=
True
return
arg
self
.
keyword_args
=
args
return
self
def
may_be_none
(
self
):
return
False
gil_message
=
"Constructing Python dict"
def
generate_evaluation_code
(
self
,
code
):
code
.
mark_pos
(
self
.
pos
)
self
.
allocate_temp_result
(
code
)
if
self
.
reject_duplicates
and
len
(
self
.
keyword_args
)
>
1
:
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseDoubleKeywords"
,
"FunctionArguments.c"
))
args
=
iter
(
self
.
keyword_args
)
item
=
next
(
args
)
item
.
generate_evaluation_code
(
code
)
if
item
.
type
is
not
dict_type
:
# CPython supports calling functions with non-dicts, so do we
code
.
putln
(
'if (likely(PyDict_Check(%s))) {'
%
item
.
py_result
())
code
.
putln
(
"%s = %s;"
%
(
self
.
result
(),
item
.
py_result
()))
item
.
generate_post_assignment_code
(
code
)
if
item
.
type
is
not
dict_type
:
code
.
putln
(
'} else {'
)
code
.
putln
(
"%s = PyObject_CallFunctionObjArgs((PyObject*)&PyDict_Type, %s, NULL); %s"
%
(
self
.
result
(),
item
.
py_result
(),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
item
.
generate_disposal_code
(
code
)
code
.
putln
(
'}'
)
item
.
free_temps
(
code
)
for
item
in
args
:
if
item
.
is_dict_literal
:
for
arg
in
item
.
keyword_args
:
arg
.
generate_evaluation_code
(
code
)
if
self
.
reject_duplicates
:
code
.
putln
(
"if (unlikely(PyDict_Contains(%s, %s))) {"
%
(
self
.
result
(),
arg
.
key
.
py_result
()))
# FIXME: find out function name at runtime!
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
arg
.
key
.
py_result
(),
code
.
error_goto
(
self
.
pos
)))
code
.
putln
(
"}"
)
code
.
put_error_if_neg
(
arg
.
key
.
pos
,
"PyDict_SetItem(%s, %s, %s)"
%
(
self
.
result
(),
arg
.
key
.
py_result
(),
arg
.
value
.
py_result
()))
arg
.
generate_disposal_code
(
code
)
arg
.
free_temps
(
code
)
continue
item
.
generate_evaluation_code
(
code
)
if
self
.
reject_duplicates
:
# merge mapping into kwdict one by one as we need to check for duplicates
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"MergeKeywords"
,
"FunctionArguments.c"
))
code
.
put_error_if_neg
(
item
.
pos
,
"__Pyx_MergeKeywords(%s, %s)"
%
(
self
.
result
(),
item
.
py_result
()))
else
:
# simple case, just add all entries
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseMappingExpected"
,
"FunctionArguments.c"
))
code
.
putln
(
"if (unlikely(PyDict_Update(%s, %s) < 0)) {"
%
(
self
.
result
(),
item
.
py_result
()))
code
.
putln
(
"if (PyErr_ExceptionMatches(PyExc_AttributeError)) __Pyx_RaiseMappingExpected(%s);"
%
(
item
.
py_result
()))
code
.
putln
(
code
.
error_goto
(
item
.
pos
))
code
.
putln
(
"}"
)
code
.
putln
(
"}"
)
item
.
generate_disposal_code
(
code
)
item
.
free_temps
(
code
)
def
annotate
(
self
,
code
):
for
item
in
self
.
keyword_args
:
item
.
annotate
(
code
)
class
AttributeNode
(
ExprNode
):
# obj.attribute
#
...
...
@@ -7134,6 +7288,7 @@ class DictNode(ExprNode):
exclude_null_values
=
False
type
=
dict_type
is_dict_literal
=
True
reject_duplicates
=
False
obj_conversion_errors
=
[]
...
...
@@ -7223,23 +7378,38 @@ class DictNode(ExprNode):
# pairs are evaluated and used one at a time.
code
.
mark_pos
(
self
.
pos
)
self
.
allocate_temp_result
(
code
)
if
self
.
type
.
is_pyobject
:
is_dict
=
self
.
type
.
is_pyobject
if
is_dict
:
self
.
release_errors
()
code
.
putln
(
"%s = PyDict_New(); %s"
%
(
self
.
result
(),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
for
item
in
self
.
key_value_pairs
:
if
self
.
reject_duplicates
and
len
(
self
.
key_value_pairs
)
>
1
:
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseDoubleKeywords"
,
"FunctionArguments.c"
))
for
i
,
item
in
enumerate
(
self
.
key_value_pairs
):
item
.
generate_evaluation_code
(
code
)
if
self
.
type
.
is_pyobje
ct
:
if
is_di
ct
:
if
self
.
exclude_null_values
:
code
.
putln
(
'if (%s) {'
%
item
.
value
.
py_result
())
code
.
put_error_if_neg
(
self
.
pos
,
"PyDict_SetItem(%s, %s, %s)"
%
(
if
self
.
reject_duplicates
and
i
>=
1
:
code
.
putln
(
'if (unlikely(PyDict_Contains(%s, %s))) {'
%
(
self
.
result
(),
item
.
key
.
py_result
()))
# currently only used in function calls
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
item
.
key
.
py_result
(),
code
.
error_goto
(
item
.
pos
)))
code
.
putln
(
"} else {"
)
code
.
put_error_if_neg
(
self
.
pos
,
"PyDict_SetItem(%s, %s, %s)"
%
(
self
.
result
(),
item
.
key
.
py_result
(),
item
.
value
.
py_result
()))
if
self
.
reject_duplicates
and
i
>=
1
:
code
.
putln
(
'}'
)
if
self
.
exclude_null_values
:
code
.
putln
(
'}'
)
else
:
...
...
@@ -7254,6 +7424,7 @@ class DictNode(ExprNode):
for
item
in
self
.
key_value_pairs
:
item
.
annotate
(
code
)
class
DictItemNode
(
ExprNode
):
# Represents a single item in a DictNode
#
...
...
@@ -7454,128 +7625,6 @@ class Py3ClassNode(ExprNode):
code
.
put_gotref
(
self
.
py_result
())
class
KeywordArgsNode
(
ExprNode
):
# Helper class for keyword arguments.
#
# starstar_arg DictNode
# keyword_args [DictItemNode]
subexprs
=
[
'starstar_arg'
,
'keyword_args'
]
is_temp
=
1
type
=
dict_type
def
calculate_constant_result
(
self
):
result
=
dict
(
self
.
starstar_arg
.
constant_result
)
for
item
in
self
.
keyword_args
:
key
,
value
=
item
.
constant_result
if
key
in
result
:
raise
ValueError
(
"duplicate keyword argument found: %s"
%
key
)
result
[
key
]
=
value
self
.
constant_result
=
result
def
compile_time_value
(
self
,
denv
):
result
=
self
.
starstar_arg
.
compile_time_value
(
denv
)
pairs
=
[
(
item
.
key
.
compile_time_value
(
denv
),
item
.
value
.
compile_time_value
(
denv
))
for
item
in
self
.
keyword_args
]
try
:
result
=
dict
(
result
)
for
key
,
value
in
pairs
:
if
key
in
result
:
raise
ValueError
(
"duplicate keyword argument found: %s"
%
key
)
result
[
key
]
=
value
except
Exception
,
e
:
self
.
compile_time_value_error
(
e
)
return
result
def
type_dependencies
(
self
,
env
):
return
()
def
infer_type
(
self
,
env
):
return
dict_type
def
analyse_types
(
self
,
env
):
arg
=
self
.
starstar_arg
.
analyse_types
(
env
)
arg
=
arg
.
coerce_to_pyobject
(
env
)
arg
=
arg
.
as_none_safe_node
(
# FIXME: CPython's error message starts with the runtime function name
'argument after ** must be a mapping, not NoneType'
)
self
.
starstar_arg
=
arg
if
not
self
.
keyword_args
and
arg
.
type
is
dict_type
:
# strip this intermediate node and use the bare dict
if
arg
.
is_name
and
arg
.
entry
.
is_arg
and
len
(
arg
.
entry
.
cf_assignments
)
==
1
:
# passing **kwargs through to function call => allow NULL
arg
.
allow_null
=
True
return
arg
self
.
keyword_args
=
[
item
.
analyse_types
(
env
)
for
item
in
self
.
keyword_args
]
return
self
def
may_be_none
(
self
):
return
False
gil_message
=
"Constructing Python dict"
def
generate_evaluation_code
(
self
,
code
):
code
.
mark_pos
(
self
.
pos
)
self
.
allocate_temp_result
(
code
)
self
.
starstar_arg
.
generate_evaluation_code
(
code
)
if
self
.
starstar_arg
.
type
is
not
dict_type
:
# CPython supports calling functions with non-dicts, so do we
code
.
putln
(
'if (likely(PyDict_Check(%s))) {'
%
self
.
starstar_arg
.
py_result
())
if
self
.
keyword_args
:
code
.
putln
(
"%s = PyDict_Copy(%s); %s"
%
(
self
.
result
(),
self
.
starstar_arg
.
py_result
(),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
else
:
code
.
putln
(
"%s = %s;"
%
(
self
.
result
(),
self
.
starstar_arg
.
py_result
()))
code
.
put_incref
(
self
.
result
(),
py_object_type
)
if
self
.
starstar_arg
.
type
is
not
dict_type
:
code
.
putln
(
'} else {'
)
code
.
putln
(
"%s = PyObject_CallFunctionObjArgs("
"(PyObject*)&PyDict_Type, %s, NULL); %s"
%
(
self
.
result
(),
self
.
starstar_arg
.
py_result
(),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
code
.
putln
(
'}'
)
self
.
starstar_arg
.
generate_disposal_code
(
code
)
self
.
starstar_arg
.
free_temps
(
code
)
if
not
self
.
keyword_args
:
return
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseDoubleKeywords"
,
"FunctionArguments.c"
))
for
item
in
self
.
keyword_args
:
item
.
generate_evaluation_code
(
code
)
code
.
putln
(
"if (unlikely(PyDict_GetItem(%s, %s))) {"
%
(
self
.
result
(),
item
.
key
.
py_result
()))
# FIXME: find out function name at runtime!
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
item
.
key
.
py_result
(),
code
.
error_goto
(
self
.
pos
)))
code
.
putln
(
"}"
)
code
.
put_error_if_neg
(
self
.
pos
,
"PyDict_SetItem(%s, %s, %s)"
%
(
self
.
result
(),
item
.
key
.
py_result
(),
item
.
value
.
py_result
()))
item
.
generate_disposal_code
(
code
)
item
.
free_temps
(
code
)
def
annotate
(
self
,
code
):
self
.
starstar_arg
.
annotate
(
code
)
for
item
in
self
.
keyword_args
:
item
.
annotate
(
code
)
class
PyClassMetaclassNode
(
ExprNode
):
# Helper class holds Python3 metaclass object
#
...
...
Cython/Compiler/Parsing.pxd
View file @
3ee57173
...
...
@@ -48,7 +48,7 @@ cdef p_power(PyrexScanner s)
cdef
p_new_expr
(
PyrexScanner
s
)
cdef
p_trailer
(
PyrexScanner
s
,
node1
)
cdef
p_call_parse_args
(
PyrexScanner
s
,
bint
allow_genexp
=
*
)
cdef
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
)
cdef
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
)
cdef
p_call
(
PyrexScanner
s
,
function
)
cdef
p_index
(
PyrexScanner
s
,
base
)
cdef
tuple
p_subscript_list
(
PyrexScanner
s
)
...
...
Cython/Compiler/Parsing.py
View file @
3ee57173
...
...
@@ -12,10 +12,11 @@ cython.declare(Nodes=object, ExprNodes=object, EncodedString=object,
FileSourceDescriptor
=
object
,
lookup_unicodechar
=
object
,
Future
=
object
,
Options
=
object
,
error
=
object
,
warning
=
object
,
Builtin
=
object
,
ModuleNode
=
object
,
Utils
=
object
,
re
=
object
,
_unicode
=
object
,
_bytes
=
object
)
re
=
object
,
_unicode
=
object
,
_bytes
=
object
,
partial
=
object
)
import
re
from
unicodedata
import
lookup
as
lookup_unicodechar
from
functools
import
partial
from
.Scanning
import
PyrexScanner
,
FileSourceDescriptor
from
.
import
Nodes
...
...
@@ -409,24 +410,35 @@ def p_trailer(s, node1):
return
ExprNodes
.
AttributeNode
(
pos
,
obj
=
node1
,
attribute
=
name
)
# arglist: argument (',' argument)* [',']
# argument: [test '='] test # Really [keyword '='] test
def
p_call_parse_args
(
s
,
allow_genexp
=
True
):
# since PEP 448:
# argument: ( test [comp_for] |
# test '=' test |
# '**' expr |
# star_expr )
def
p_call_parse_args
(
s
,
allow_genexp
=
True
):
# s.sy == '('
pos
=
s
.
position
()
s
.
next
()
positional_args
=
[]
keyword_args
=
[]
star
_arg
=
Non
e
starstar_arg
=
Non
e
while
s
.
sy
not
in
(
'**'
,
')'
)
:
star
star_seen
=
Fals
e
last_was_tuple_unpack
=
Fals
e
while
s
.
sy
!=
')'
:
if
s
.
sy
==
'*'
:
if
star_arg
:
s
.
error
(
"only one star-arg parameter allowed"
,
pos
=
s
.
position
())
if
starstar_seen
:
s
.
error
(
"Non-keyword arg following keyword arg"
,
pos
=
s
.
position
())
s
.
next
()
star_arg
=
p_test
(
s
)
positional_args
.
append
(
p_test
(
s
))
last_was_tuple_unpack
=
True
elif
s
.
sy
==
'**'
:
s
.
next
()
keyword_args
.
append
(
p_test
(
s
))
starstar_seen
=
True
else
:
arg
=
p_test
(
s
)
if
s
.
sy
==
'='
:
...
...
@@ -441,73 +453,78 @@ def p_call_parse_args(s, allow_genexp = True):
keyword_args
.
append
((
keyword
,
arg
))
else
:
if
keyword_args
:
s
.
error
(
"Non-keyword arg following keyword arg"
,
pos
=
arg
.
pos
)
if
star_arg
:
s
.
error
(
"Non-keyword arg following star-arg"
,
pos
=
arg
.
pos
)
positional_args
.
append
(
arg
)
s
.
error
(
"Non-keyword arg following keyword arg"
,
pos
=
arg
.
pos
)
if
positional_args
and
not
last_was_tuple_unpack
:
positional_args
[
-
1
].
append
(
arg
)
else
:
positional_args
.
append
([
arg
]
)
last_was_tuple_unpack
=
False
if
s
.
sy
!=
','
:
break
s
.
next
()
if
s
.
sy
==
'for'
:
if
len
(
positional_args
)
==
1
and
not
star_arg
:
positional_args
=
[
p_genexp
(
s
,
positional_args
[
0
])
]
elif
s
.
sy
==
'**'
:
s
.
next
()
starstar_arg
=
p_test
(
s
)
if
s
.
sy
==
','
:
s
.
next
()
# FIXME: this is actually not valid Python syntax
if
not
keyword_args
and
not
last_was_tuple_unpack
:
if
len
(
positional_args
)
==
1
and
len
(
positional_args
[
0
])
==
1
:
positional_args
=
[
p_genexp
(
s
,
positional_args
[
0
][
0
])]
s
.
expect
(
')'
)
return
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
return
positional_args
or
[[]],
keyword_args
def
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
):
arg_tuple
=
None
def
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
):
keyword_dict
=
None
if
positional_args
or
not
star_arg
:
arg_tuple
=
ExprNodes
.
TupleNode
(
pos
,
args
=
positional_args
)
if
star_arg
:
star_arg_tuple
=
ExprNodes
.
AsTupleNode
(
pos
,
arg
=
star_arg
)
if
arg_tuple
:
arg_tuple
=
ExprNodes
.
binop_node
(
pos
,
operator
=
'+'
,
operand1
=
arg_tuple
,
operand2
=
star_arg_tuple
)
else
:
arg_tuple
=
star_arg_tuple
if
keyword_args
or
starstar_arg
:
keyword_args
=
[
ExprNodes
.
DictItemNode
(
pos
=
key
.
pos
,
key
=
key
,
value
=
value
)
for
key
,
value
in
keyword_args
]
if
starstar_arg
:
keyword_dict
=
ExprNodes
.
KeywordArgsNode
(
pos
,
starstar_arg
=
starstar_arg
,
keyword_args
=
keyword_args
)
else
:
keyword_dict
=
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
keyword_args
)
subtuples
=
[
ExprNodes
.
TupleNode
(
pos
,
args
=
arg
)
if
isinstance
(
arg
,
list
)
else
ExprNodes
.
AsTupleNode
(
pos
,
arg
=
arg
)
for
arg
in
positional_args
]
# TODO: implement a faster way to join tuples than creating each one and adding them
arg_tuple
=
reduce
(
partial
(
ExprNodes
.
binop_node
,
pos
,
'+'
),
subtuples
)
if
keyword_args
:
kwargs
=
[]
dict_items
=
[]
for
item
in
keyword_args
:
if
isinstance
(
item
,
tuple
):
key
,
value
=
item
dict_items
.
append
(
ExprNodes
.
DictItemNode
(
pos
=
key
.
pos
,
key
=
key
,
value
=
value
))
elif
item
.
is_dict_literal
:
# unpack "**{a:b}" directly
dict_items
.
extend
(
item
.
key_value_pairs
)
else
:
if
dict_items
:
kwargs
.
append
(
ExprNodes
.
DictNode
(
dict_items
[
0
].
pos
,
key_value_pairs
=
dict_items
,
reject_duplicates
=
True
))
dict_items
=
[]
kwargs
.
append
(
item
)
if
dict_items
:
kwargs
.
append
(
ExprNodes
.
DictNode
(
dict_items
[
0
].
pos
,
key_value_pairs
=
dict_items
,
reject_duplicates
=
True
))
if
kwargs
:
if
len
(
kwargs
)
==
1
and
kwargs
[
0
].
is_dict_literal
:
# only simple keyword arguments found -> one dict
keyword_dict
=
kwargs
[
0
]
else
:
# at least one **kwargs
keyword_dict
=
ExprNodes
.
KeywordArgsNode
(
pos
,
keyword_args
=
kwargs
)
return
arg_tuple
,
keyword_dict
def
p_call
(
s
,
function
):
# s.sy == '('
pos
=
s
.
position
()
positional_args
,
keyword_args
=
p_call_parse_args
(
s
)
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
=
\
p_call_parse_args
(
s
)
if
not
(
keyword_args
or
star_arg
or
starstar_arg
):
return
ExprNodes
.
SimpleCallNode
(
pos
,
function
=
function
,
args
=
positional_args
)
if
not
keyword_args
and
len
(
positional_args
)
==
1
and
isinstance
(
positional_args
[
0
],
list
):
return
ExprNodes
.
SimpleCallNode
(
pos
,
function
=
function
,
args
=
positional_args
[
0
])
else
:
arg_tuple
,
keyword_dict
=
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
)
return
ExprNodes
.
GeneralCallNode
(
pos
,
function
=
function
,
positional_args
=
arg_tuple
,
keyword_args
=
keyword_dict
)
arg_tuple
,
keyword_dict
=
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
)
return
ExprNodes
.
GeneralCallNode
(
pos
,
function
=
function
,
positional_args
=
arg_tuple
,
keyword_args
=
keyword_dict
)
#lambdef: 'lambda' [varargslist] ':' test
...
...
@@ -2969,6 +2986,7 @@ def p_py_arg_decl(s, annotated = 1):
annotation
=
p_test
(
s
)
return
Nodes
.
PyArgDeclNode
(
pos
,
name
=
name
,
annotation
=
annotation
)
def
p_class_statement
(
s
,
decorators
):
# s.sy == 'class'
pos
=
s
.
position
()
...
...
@@ -2979,10 +2997,8 @@ def p_class_statement(s, decorators):
keyword_dict
=
None
starstar_arg
=
None
if
s
.
sy
==
'('
:
positional_args
,
keyword_args
,
star_arg
,
starstar_arg
=
\
p_call_parse_args
(
s
,
allow_genexp
=
False
)
arg_tuple
,
keyword_dict
=
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
,
star_arg
,
None
)
positional_args
,
keyword_args
=
p_call_parse_args
(
s
,
allow_genexp
=
False
)
arg_tuple
,
keyword_dict
=
p_call_build_packed_args
(
pos
,
positional_args
,
keyword_args
)
if
arg_tuple
is
None
:
# XXX: empty arg_tuple
arg_tuple
=
ExprNodes
.
TupleNode
(
pos
,
args
=
[])
...
...
@@ -2995,6 +3011,7 @@ def p_class_statement(s, decorators):
doc
=
doc
,
body
=
body
,
decorators
=
decorators
,
force_py3_semantics
=
s
.
context
.
language_level
>=
3
)
def
p_c_class_definition
(
s
,
pos
,
ctx
):
# s.sy == 'class'
s
.
next
()
...
...
Cython/Parser/Grammar
View file @
3ee57173
...
...
@@ -109,17 +109,29 @@ subscript: test | [test] ':' [test] [sliceop]
sliceop: ':' [test]
exprlist: (expr|star_expr) (',' (expr|star_expr))* [',']
testlist: test (',' test)* [',']
dictorsetmaker: ( (test ':' test (comp_for | (',' test ':' test)* [','])) |
(test (comp_for | (',' test)* [','])) )
dictorsetmaker: ( ((test ':' test | '**' expr)
(comp_for | (',' (test ':' test | '**' expr))* [','])) |
((test | star_expr)
(comp_for | (',' (test | star_expr))* [','])) )
classdef: 'class' PY_NAME ['(' [arglist] ')'] ':' suite
arglist: (argument ',')* (argument [',']
|'*' test (',' argument)* [',' '**' test]
|'**' test)
arglist: argument (',' argument)* [',']
# The reason that keywords are test nodes instead of NAME is that using NAME
# results in an ambiguity. ast.c makes sure it's a NAME.
argument: test [comp_for] | test '=' test # Really [keyword '='] test
# "test '=' test" is really "keyword '=' test", but we have no such token.
# These need to be in a single rule to avoid grammar that is ambiguous
# to our LL(1) parser. Even though 'test' includes '*expr' in star_expr,
# we explicitly match '*' here, too, to give it proper precedence.
# Illegal combinations and orderings are blocked in ast.c:
# multiple (test comp_for) arguements are blocked; keyword unpackings
# that precede iterable unpackings are blocked; etc.
argument: ( test [comp_for] |
test '=' test |
'**' expr |
star_expr )
comp_iter: comp_for | comp_if
comp_for: 'for' exprlist ('in' or_test | for_from_clause) [comp_iter]
comp_if: 'if' test_nocond [comp_iter]
...
...
Cython/Utility/FunctionArguments.c
View file @
3ee57173
...
...
@@ -110,6 +110,17 @@ static void __Pyx_RaiseDoubleKeywordsError(
}
//////////////////// RaiseMappingExpected.proto ////////////////////
static
void
__Pyx_RaiseMappingExpectedError
(
PyObject
*
arg
);
/*proto*/
//////////////////// RaiseMappingExpected ////////////////////
static
void
__Pyx_RaiseMappingExpectedError
(
PyObject
*
arg
)
{
PyErr_Format
(
PyExc_TypeError
,
"'%.200s' object is not a mapping"
,
Py_TYPE
(
arg
)
->
tp_name
);
}
//////////////////// KeywordStringCheck.proto ////////////////////
static
CYTHON_INLINE
int
__Pyx_CheckKeywordStrings
(
PyObject
*
kwdict
,
const
char
*
function_name
,
int
kw_allowed
);
/*proto*/
...
...
@@ -290,3 +301,43 @@ invalid_keyword:
bad:
return
-
1
;
}
//////////////////// MergeKeywords.proto ////////////////////
static
int
__Pyx_MergeKeywords
(
PyObject
*
kwdict
,
PyObject
*
source_mapping
);
/*proto*/
//////////////////// MergeKeywords ////////////////////
//@requires: RaiseDoubleKeywords
//@requires: Optimize.c::dict_iter
static
int
__Pyx_MergeKeywords
(
PyObject
*
kwdict
,
PyObject
*
source_mapping
)
{
PyObject
*
iter
,
*
key
,
*
value
;
int
source_is_dict
,
result
;
Py_ssize_t
orig_length
,
ppos
=
0
;
iter
=
__Pyx_dict_iterator
(
source_mapping
,
0
,
PYIDENT
(
"items"
),
&
orig_length
,
&
source_is_dict
);
if
(
unlikely
(
!
iter
))
goto
bad
;
while
(
1
)
{
result
=
__Pyx_dict_iter_next
(
iter
,
orig_length
,
&
ppos
,
&
key
,
&
value
,
NULL
,
source_is_dict
);
if
(
unlikely
(
result
<
0
))
goto
bad
;
if
(
!
result
)
break
;
if
(
unlikely
(
PyDict_Contains
(
kwdict
,
key
)))
{
__Pyx_RaiseDoubleKeywordsError
(
"function"
,
key
);
result
=
-
1
;
}
else
{
result
=
PyDict_SetItem
(
kwdict
,
key
,
value
);
}
Py_DECREF
(
key
);
Py_DECREF
(
value
);
if
(
unlikely
(
result
<
0
))
goto
bad
;
}
Py_XDECREF
(
iter
);
return
0
;
bad:
Py_XDECREF
(
iter
);
return
-
1
;
}
tests/run/pep448_test_extcall.pyx
0 → 100644
View file @
3ee57173
# mode: run
# tag: pep448
from
__future__
import
print_function
import
sys
IS_PY3
=
sys
.
version_info
[
0
]
>=
3
if
IS_PY3
:
__doc__
=
"""
>>> def f(*, w): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(*, a, b, c, d, e): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(*, kw, b): pass
>>> errors_call_3args_2kwargs(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(a, b=2, *, kw): pass
>>> try: errors_call_3args_1kwarg(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(*, kw): pass
>>> try: errors_call_1arg_1kwarg(f)
... except TypeError: pass
... else: print("FAILED!")
"""
# test for method/function calls. adapted from CPython's "test_extcall.py".
def
sortdict
(
d
):
return
'{%s}'
%
', '
.
join
([
'%r: %r'
%
item
for
item
in
sorted
(
d
.
items
())])
# We're going the use these types for extra testing
try
:
from
collections
import
UserList
,
UserDict
except
ImportError
:
from
UserList
import
UserList
from
UserDict
import
UserDict
# We're defining four helper functions
def
e
(
a
,
b
):
print
(
a
,
b
)
def
f
(
*
a
,
**
k
):
print
(
a
,
sortdict
(
k
))
def
g
(
x
,
*
y
,
**
z
):
print
(
x
,
y
,
sortdict
(
z
))
def
h
(
j
=
1
,
a
=
2
,
h
=
3
):
print
(
j
,
a
,
h
)
# Argument list examples
def
call_f_positional
():
"""
>>> call_f_positional()
() {}
(1,) {}
(1, 2) {}
(1, 2, 3) {}
(1, 2, 3, 4, 5) {}
(1, 2, 3, 4, 5) {}
(1, 2, 3, 4, 5) {}
(1, 2, 3, 4, 5) {}
(1, 2, 3, 4, 5, 6, 7) {}
(1, 2, 3, 4, 5, 6, 7) {}
(1, 2, 3, 4, 5, 6, 7) {}
"""
f
()
f
(
1
)
f
(
1
,
2
)
f
(
1
,
2
,
3
)
f
(
1
,
2
,
3
,
*
(
4
,
5
))
f
(
1
,
2
,
3
,
*
[
4
,
5
])
f
(
*
[
1
,
2
,
3
],
4
,
5
)
f
(
1
,
2
,
3
,
*
UserList
([
4
,
5
]))
f
(
1
,
2
,
3
,
*
[
4
,
5
],
*
[
6
,
7
])
f
(
1
,
*
[
2
,
3
],
4
,
*
[
5
,
6
],
7
)
f
(
*
UserList
([
1
,
2
]),
*
UserList
([
3
,
4
]),
5
,
*
UserList
([
6
,
7
]))
# Here we add keyword arguments
def
call_f_kwargs
():
"""
>>> call_f_kwargs()
(1, 2, 3) {'a': 4, 'b': 5}
(1, 2, 3, 4, 5) {'a': 6, 'b': 7}
(1, 2, 3, 6, 7) {'a': 8, 'b': 9, 'x': 4, 'y': 5}
(1, 2, 3, 4, 5) {'a': 6, 'b': 7, 'c': 8}
(1, 2, 3, 4, 5) {'a': 8, 'b': 9, 'x': 6, 'y': 7}
(1, 2, 3) {'a': 4, 'b': 5}
(1, 2, 3, 4, 5) {'a': 6, 'b': 7}
(1, 2, 3, 6, 7) {'a': 8, 'b': 9, 'x': 4, 'y': 5}
(1, 2, 3, 4, 5) {'a': 8, 'b': 9, 'x': 6, 'y': 7}
"""
f
(
1
,
2
,
3
,
**
{
'a'
:
4
,
'b'
:
5
})
f
(
1
,
2
,
3
,
*
[
4
,
5
],
**
{
'a'
:
6
,
'b'
:
7
})
f
(
1
,
2
,
3
,
x
=
4
,
y
=
5
,
*
(
6
,
7
),
**
{
'a'
:
8
,
'b'
:
9
})
f
(
1
,
2
,
3
,
*
[
4
,
5
],
**
{
'c'
:
8
},
**
{
'a'
:
6
,
'b'
:
7
})
f
(
1
,
2
,
3
,
*
(
4
,
5
),
x
=
6
,
y
=
7
,
**
{
'a'
:
8
,
'b'
:
9
})
f
(
1
,
2
,
3
,
**
UserDict
(
a
=
4
,
b
=
5
))
f
(
1
,
2
,
3
,
*
(
4
,
5
),
**
UserDict
(
a
=
6
,
b
=
7
))
f
(
1
,
2
,
3
,
x
=
4
,
y
=
5
,
*
(
6
,
7
),
**
UserDict
(
a
=
8
,
b
=
9
))
f
(
1
,
2
,
3
,
*
(
4
,
5
),
x
=
6
,
y
=
7
,
**
UserDict
(
a
=
8
,
b
=
9
))
# Examples with invalid arguments (TypeErrors). We're also testing the function
# names in the exception messages.
#
# Verify clearing of SF bug #733667
def
errors_f1
():
"""
>>> errors_f1() # doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...got multiple values for keyword argument 'a'
"""
f
(
1
,
2
,
**
{
'a'
:
-
1
,
'b'
:
5
},
**
{
'a'
:
4
,
'c'
:
6
})
def
errors_f2
():
"""
>>> errors_f2() # doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...multiple values for keyword argument 'a'
"""
f
(
1
,
2
,
**
{
'a'
:
-
1
,
'b'
:
5
},
a
=
4
,
c
=
6
)
def
errors_e1
():
"""
>>> try: errors_e1()
... except TypeError: pass
... else: print("FAILED!")
"""
e
(
c
=
4
)
def
errors_e2
():
"""
>>> try: errors_e2()
... except TypeError: pass
... else: print("FAILED!")
"""
e
(
a
=
1
,
b
=
2
,
c
=
4
)
def
errors_g1
():
"""
>>> errors_g1()
Traceback (most recent call last):
...
TypeError: g() takes at least 1 positional argument (0 given)
# TypeError: g() missing 1 required positional argument: 'x'
"""
g
()
def
errors_g2
():
"""
>>> errors_g2()
Traceback (most recent call last):
...
TypeError: g() takes at least 1 positional argument (0 given)
# TypeError: g() missing 1 required positional argument: 'x'
"""
g
(
*
())
def
errors_g3
():
"""
>>> errors_g3()
Traceback (most recent call last):
...
TypeError: g() takes at least 1 positional argument (0 given)
# TypeError: g() missing 1 required positional argument: 'x'
"""
g
(
*
(),
**
{})
def
call_g_positional
():
"""
>>> call_g_positional()
1 () {}
1 (2,) {}
1 (2, 3) {}
1 (2, 3, 4, 5) {}
"""
g
(
1
)
g
(
1
,
2
)
g
(
1
,
2
,
3
)
g
(
1
,
2
,
3
,
*
(
4
,
5
))
def
call_nonseq_positional1
():
"""
>>> call_nonseq_positional1()
Traceback (most recent call last):
...
TypeError: 'Nothing' object is not iterable
# TypeError: g() argument after * must be a sequence, not Nothing
"""
class
Nothing
(
object
):
pass
g
(
*
Nothing
())
def
call_nonseq_positional2
():
"""
>>> call_nonseq_positional2()
Traceback (most recent call last):
...
TypeError: 'Nothing' object is not iterable
# TypeError: g() argument after * must be a sequence, not Nothing
"""
class
Nothing
(
object
):
def
__len__
(
self
):
return
5
g
(
*
Nothing
())
def
call_seqlike_positional1
():
"""
>>> call_seqlike_positional1()
0 (1, 2) {}
"""
class
Nothing
(
object
):
def
__len__
(
self
):
return
5
def
__getitem__
(
self
,
i
):
if
i
<
3
:
return
i
else
:
raise
IndexError
(
i
)
g
(
*
Nothing
())
def
call_seqlike_positional2
():
"""
>>> call_seqlike_positional2()
0 (1, 2, 3) {}
"""
class
Nothing
:
def
__init__
(
self
):
self
.
c
=
0
def
__iter__
(
self
):
return
self
def
__next__
(
self
):
if
self
.
c
==
4
:
raise
StopIteration
c
=
self
.
c
self
.
c
+=
1
return
c
next
=
__next__
g
(
*
Nothing
())
# Make sure that the function doesn't stomp the dictionary
def
call_kwargs_unmodified1
():
"""
>>> call_kwargs_unmodified1()
1 () {'a': 1, 'b': 2, 'c': 3, 'd': 4}
True
"""
d
=
{
'a'
:
1
,
'b'
:
2
,
'c'
:
3
}
d2
=
d
.
copy
()
g
(
1
,
d
=
4
,
**
d
)
return
d
==
d2
# What about willful misconduct?
def
call_kwargs_unmodified2
():
"""
>>> call_kwargs_unmodified2()
{}
"""
def
saboteur
(
**
kw
):
kw
[
'x'
]
=
'm'
return
kw
d
=
{}
kw
=
saboteur
(
a
=
1
,
**
d
)
return
d
def
errors_args_kwargs_overlap
():
"""
>>> errors_args_kwargs_overlap() # doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...got multiple values for... argument 'x'
"""
g
(
1
,
2
,
3
,
**
{
'x'
:
4
,
'y'
:
5
})
def
errors_non_string_kwarg
():
"""
>>> errors_non_string_kwarg()
Traceback (most recent call last):
...
TypeError: f() keywords must be strings
"""
f
(
**
{
1
:
2
})
def
errors_unexpected_kwarg
():
"""
>>> errors_unexpected_kwarg()
Traceback (most recent call last):
...
TypeError: h() got an unexpected keyword argument 'e'
"""
h
(
**
{
'e'
:
2
})
def
errors_call_nonseq
():
"""
>>> try: errors_call_nonseq()
... except TypeError: pass
... else: print("FAILED!")
"""
h
(
*
h
)
def
errors_call_builtin_nonseq
():
"""
>>> try: errors_call_builtin_nonseq()
... except TypeError: pass
... else: print("FAILED!")
"""
dir
(
*
h
)
def
errors_call_none_nonseq
():
"""
>>> try: errors_call_none_nonseq()
... except TypeError: pass
... else: print("FAILED!")
"""
None
(
*
h
)
def
errors_call_nonmapping_kwargs
():
"""
>>> try: errors_call_nonmapping_kwargs()
... except TypeError: pass
... else: print("FAILED!")
"""
h
(
**
h
)
def
errors_call_builtin_nonmapping_kwargs
():
"""
>>> try: errors_call_builtin_nonmapping_kwargs()
... except TypeError: pass
... else: print("FAILED!")
"""
dir
(
**
h
)
def
errors_call_none_nonmapping_kwargs
():
"""
>>> try: errors_call_none_nonmapping_kwargs()
... except TypeError: pass
... else: print("FAILED!")
"""
None
(
**
h
)
''' # compile time error in Cython
def errors_call_builtin_duplicate_kwarg():
"""
>>> errors_call_builtin_duplicate_kwarg() # doctest: +ELLIPSIS
Traceback (most recent call last):
...
TypeError: ...got multiple values for keyword argument 'b'
"""
dir(b=1, **{'b': 1})
'''
# Another helper function
def
f2
(
*
a
,
**
b
):
return
a
,
b
def
call_many_kwargs
():
"""
call_many_kwargs()
(3, 512, True)
"""
d
=
{}
for
i
in
range
(
512
):
key
=
'k%d'
%
i
d
[
key
]
=
i
a
,
b
=
f2
(
1
,
*
(
2
,
3
),
**
d
)
return
len
(
a
),
len
(
b
),
b
==
d
def
call_method
(
Foo
):
"""
>>> class Foo(object):
... def method(self, arg1, arg2):
... print(arg1+arg2)
>>> call_method(Foo)
3
3
5
5
"""
x
=
Foo
()
Foo
.
method
(
*
(
x
,
1
,
2
))
Foo
.
method
(
x
,
*
(
1
,
2
))
if
sys
.
version_info
[
0
]
>=
3
:
Foo
.
method
(
*
(
1
,
2
,
3
))
Foo
.
method
(
1
,
*
[
2
,
3
])
else
:
print
(
5
)
print
(
5
)
# A PyCFunction that takes only positional parameters should allow an
# empty keyword dictionary to pass without a complaint, but raise a
# TypeError if te dictionary is not empty
def
call_builtin_empty_dict
():
"""
>>> call_builtin_empty_dict()
"""
silence
=
id
(
1
,
*
{})
silence
=
id
(
1
,
**
{})
def
call_builtin_nonempty_dict
():
"""
>>> call_builtin_nonempty_dict()
Traceback (most recent call last):
...
TypeError: id() takes no keyword arguments
"""
return
id
(
1
,
**
{
'foo'
:
1
})
''' Cython: currently just passes empty kwargs into f() while CPython keeps the content
# A corner case of keyword dictionary items being deleted during
# the function call setup. See <http://bugs.python.org/issue2016>.
def call_kwargs_modified_while_building():
"""
>>> call_kwargs_modified_while_building()
1 2
"""
class Name(str):
def __eq__(self, other):
try:
del x[self]
except KeyError:
pass
return str.__eq__(self, other)
def __hash__(self):
return str.__hash__(self)
x = {Name("a"):1, Name("b"):2}
def f(a, b):
print(a,b)
f(**x)
'''
# Too many arguments:
def
errors_call_one_arg
(
f
):
"""
>>> def f(): pass
>>> try: errors_call_one_arg(f)
... except TypeError: pass
... else: print("FAILED!")
"""
f
(
1
)
def
errors_call_2args
(
f
):
"""
>>> def f(a): pass
>>> try: errors_call_2args(f)
... except TypeError: pass
... else: print("FAILED!")
"""
f
(
1
,
2
)
def
errors_call_3args
(
f
):
"""
>>> def f(a, b=1): pass
>>> try: errors_call_3args(f)
... except TypeError: pass
... else: print("FAILED!")
"""
f
(
1
,
2
,
3
)
def
errors_call_1arg_1kwarg
(
f
):
# Py3 only
f
(
1
,
kw
=
3
)
def
errors_call_3args_2kwargs
(
f
):
# Py3 only
f
(
1
,
2
,
3
,
b
=
3
,
kw
=
3
)
def
errors_call_3args_1kwarg
(
f
):
# Py3 only
f
(
2
,
3
,
4
,
kw
=
4
)
# Too few and missing arguments:
def
errors_call_no_args
(
f
):
"""
>>> def f(a): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(a, b): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(a, b, c): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
>>> def f(a, b, c, d, e): pass
>>> try: errors_call_no_args(f)
... except TypeError: pass
... else: print("FAILED!")
"""
f
()
def
errors_call_one_missing_kwarg
(
f
):
"""
>>> def f(a, b=4, c=5, d=5): pass
>>> try: errors_call_one_missing_kwarg(f)
... except TypeError: pass
... else: print("FAILED!")
"""
f
(
c
=
12
,
b
=
9
)
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