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Kirill Smelkov
cython
Commits
7d7e4eb1
Commit
7d7e4eb1
authored
May 14, 2015
by
Stefan Behnel
Browse files
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implement PEP 448 for set/dict literals
parent
be598992
Changes
5
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Showing
5 changed files
with
504 additions
and
64 deletions
+504
-64
CHANGES.rst
CHANGES.rst
+1
-1
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+128
-17
Cython/Compiler/Parsing.py
Cython/Compiler/Parsing.py
+106
-46
Cython/Utility/Builtins.c
Cython/Utility/Builtins.c
+30
-0
tests/run/pep448_extended_unpacking.pyx
tests/run/pep448_extended_unpacking.pyx
+239
-0
No files found.
CHANGES.rst
View file @
7d7e4eb1
...
@@ -16,7 +16,7 @@ Features added
...
@@ -16,7 +16,7 @@ Features added
* Tracing is supported in ``nogil`` functions/sections and module init code.
* Tracing is supported in ``nogil`` functions/sections and module init code.
* PEP 448 (Additional Unpacking Generalizations) was partially implemented
* PEP 448 (Additional Unpacking Generalizations) was partially implemented
only for function cal
ls.
for function calls, set and dict litera
ls.
* When generators are used in a Cython module and the module imports the
* When generators are used in a Cython module and the module imports the
modules "inspect" and/or "asyncio", Cython enables interoperability by
modules "inspect" and/or "asyncio", Cython enables interoperability by
...
...
Cython/Compiler/ExprNodes.py
View file @
7d7e4eb1
...
@@ -297,6 +297,7 @@ class ExprNode(Node):
...
@@ -297,6 +297,7 @@ class ExprNode(Node):
is_sequence_constructor
=
False
is_sequence_constructor
=
False
is_dict_literal
=
False
is_dict_literal
=
False
is_set_literal
=
False
is_string_literal
=
False
is_string_literal
=
False
is_attribute
=
False
is_attribute
=
False
is_subscript
=
False
is_subscript
=
False
...
@@ -5554,10 +5555,6 @@ class MergedDictNode(ExprNode):
...
@@ -5554,10 +5555,6 @@ class MergedDictNode(ExprNode):
code
.
mark_pos
(
self
.
pos
)
code
.
mark_pos
(
self
.
pos
)
self
.
allocate_temp_result
(
code
)
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
)
args
=
iter
(
self
.
keyword_args
)
item
=
next
(
args
)
item
=
next
(
args
)
item
.
generate_evaluation_code
(
code
)
item
.
generate_evaluation_code
(
code
)
...
@@ -5581,14 +5578,16 @@ class MergedDictNode(ExprNode):
...
@@ -5581,14 +5578,16 @@ class MergedDictNode(ExprNode):
code
.
putln
(
'}'
)
code
.
putln
(
'}'
)
item
.
free_temps
(
code
)
item
.
free_temps
(
code
)
helpers
=
set
()
for
item
in
args
:
for
item
in
args
:
if
item
.
is_dict_literal
:
if
item
.
is_dict_literal
:
for
arg
in
item
.
key
word_arg
s
:
for
arg
in
item
.
key
_value_pair
s
:
arg
.
generate_evaluation_code
(
code
)
arg
.
generate_evaluation_code
(
code
)
if
self
.
reject_duplicates
:
if
self
.
reject_duplicates
:
code
.
putln
(
"if (unlikely(PyDict_Contains(%s, %s))) {"
%
(
code
.
putln
(
"if (unlikely(PyDict_Contains(%s, %s))) {"
%
(
self
.
result
(),
self
.
result
(),
arg
.
key
.
py_result
()))
arg
.
key
.
py_result
()))
helpers
.
add
(
"RaiseDoubleKeywords"
)
# FIXME: find out function name at runtime!
# FIXME: find out function name at runtime!
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
arg
.
key
.
py_result
(),
arg
.
key
.
py_result
(),
...
@@ -5605,22 +5604,22 @@ class MergedDictNode(ExprNode):
...
@@ -5605,22 +5604,22 @@ class MergedDictNode(ExprNode):
item
.
generate_evaluation_code
(
code
)
item
.
generate_evaluation_code
(
code
)
if
self
.
reject_duplicates
:
if
self
.
reject_duplicates
:
# merge mapping into kwdict one by one as we need to check for duplicates
# merge mapping into kwdict one by one as we need to check for duplicates
code
.
globalstate
.
use_utility_code
(
helpers
.
add
(
"MergeKeywords"
)
UtilityCode
.
load_cached
(
"MergeKeywords"
,
"FunctionArguments.c"
))
code
.
put_error_if_neg
(
item
.
pos
,
"__Pyx_MergeKeywords(%s, %s)"
%
(
self
.
result
(),
item
.
py_result
()))
code
.
put_error_if_neg
(
item
.
pos
,
"__Pyx_MergeKeywords(%s, %s)"
%
(
self
.
result
(),
item
.
py_result
()))
else
:
else
:
# simple case, just add all entries
# simple case, just add all entries
code
.
globalstate
.
use_utility_code
(
helpers
.
add
(
"RaiseMappingExpected"
)
UtilityCode
.
load_cached
(
"RaiseMappingExpected"
,
"FunctionArguments.c"
))
code
.
putln
(
"if (unlikely(PyDict_Update(%s, %s) < 0)) {"
%
(
self
.
result
(),
item
.
py_result
()))
code
.
putln
(
"if (unlikely(PyDict_Update(%s, %s) < 0)) {"
%
(
self
.
result
(),
item
.
py_result
()))
code
.
putln
(
"if (PyErr_ExceptionMatches(PyExc_AttributeError)) __Pyx_RaiseMappingExpected(%s);"
%
(
code
.
putln
(
"if (PyErr_ExceptionMatches(PyExc_AttributeError)) __Pyx_RaiseMappingExpected
Error
(%s);"
%
(
item
.
py_result
()))
item
.
py_result
()))
code
.
putln
(
code
.
error_goto
(
item
.
pos
))
code
.
putln
(
code
.
error_goto
(
item
.
pos
))
code
.
putln
(
"}"
)
code
.
putln
(
"}"
)
code
.
putln
(
"}"
)
item
.
generate_disposal_code
(
code
)
item
.
generate_disposal_code
(
code
)
item
.
free_temps
(
code
)
item
.
free_temps
(
code
)
for
helper
in
helpers
:
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
helper
,
"FunctionArguments.c"
))
def
annotate
(
self
,
code
):
def
annotate
(
self
,
code
):
for
item
in
self
.
keyword_args
:
for
item
in
self
.
keyword_args
:
item
.
annotate
(
code
)
item
.
annotate
(
code
)
...
@@ -7228,13 +7227,122 @@ class InlinedGeneratorExpressionNode(ScopedExprNode):
...
@@ -7228,13 +7227,122 @@ class InlinedGeneratorExpressionNode(ScopedExprNode):
self
.
loop
.
generate_execution_code
(
code
)
self
.
loop
.
generate_execution_code
(
code
)
class
SetNode
(
ExprNode
):
class
MergedSetNode
(
ExprNode
):
# Set constructor.
"""
Merge a sequence of iterables into a set.
args [SetNode or other ExprNode]
"""
subexprs
=
[
'args'
]
type
=
set_type
type
=
set_type
is_temp
=
True
gil_message
=
"Constructing Python set"
subexprs
=
[
'args'
]
def
calculate_constant_result
(
self
):
result
=
set
()
for
item
in
self
.
args
:
if
item
.
is_sequence_constructor
and
item
.
mult_factor
:
if
item
.
mult_factor
.
constant_result
<=
0
:
continue
if
item
.
is_set_literal
or
item
.
is_sequence_constructor
:
# process items in order
items
=
(
arg
.
constant_result
for
arg
in
item
.
args
)
else
:
items
=
item
.
constant_result
result
.
update
(
items
)
self
.
constant_result
=
result
def
compile_time_value
(
self
,
denv
):
result
=
set
()
for
item
in
self
.
args
:
if
item
.
is_sequence_constructor
and
item
.
mult_factor
:
if
item
.
mult_factor
.
compile_time_value
(
denv
)
<=
0
:
continue
if
item
.
is_set_literal
or
item
.
is_sequence_constructor
:
# process items in order
items
=
(
arg
.
compile_time_value
(
denv
)
for
arg
in
item
.
args
)
else
:
items
=
item
.
compile_time_value
(
denv
)
try
:
result
.
update
(
items
)
except
Exception
as
e
:
self
.
compile_time_value_error
(
e
)
return
result
def
type_dependencies
(
self
,
env
):
return
()
def
infer_type
(
self
,
env
):
return
set_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 an iterable, not NoneType'
)
for
arg
in
self
.
args
]
if
len
(
args
)
==
1
and
args
[
0
].
type
is
set_type
:
# strip this intermediate node and use the bare set
return
args
[
0
]
self
.
args
=
args
return
self
def
may_be_none
(
self
):
return
False
def
generate_evaluation_code
(
self
,
code
):
code
.
mark_pos
(
self
.
pos
)
self
.
allocate_temp_result
(
code
)
args
=
iter
(
self
.
args
)
item
=
next
(
args
)
item
.
generate_evaluation_code
(
code
)
if
item
.
is_set_literal
:
code
.
putln
(
"%s = %s;"
%
(
self
.
result
(),
item
.
py_result
()))
item
.
generate_post_assignment_code
(
code
)
else
:
code
.
putln
(
"%s = PySet_New(%s); %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
)
item
.
free_temps
(
code
)
for
item
in
args
:
if
item
.
is_set_literal
or
(
item
.
is_sequence_constructor
and
not
item
.
mult_factor
):
for
arg
in
item
.
args
:
arg
.
generate_evaluation_code
(
code
)
code
.
put_error_if_neg
(
arg
.
pos
,
"PySet_Add(%s, %s)"
%
(
self
.
result
(),
arg
.
py_result
()))
arg
.
generate_disposal_code
(
code
)
arg
.
free_temps
(
code
)
continue
item
.
generate_evaluation_code
(
code
)
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"PySet_Update"
,
"Builtins.c"
))
code
.
put_error_if_neg
(
item
.
pos
,
"__Pyx_PySet_Update(%s, %s)"
%
(
self
.
result
(),
item
.
py_result
()))
item
.
generate_disposal_code
(
code
)
item
.
free_temps
(
code
)
def
annotate
(
self
,
code
):
for
item
in
self
.
args
:
item
.
annotate
(
code
)
class
SetNode
(
ExprNode
):
"""
Set constructor.
"""
subexprs
=
[
'args'
]
type
=
set_type
is_set_literal
=
True
gil_message
=
"Constructing Python set"
gil_message
=
"Constructing Python set"
def
analyse_types
(
self
,
env
):
def
analyse_types
(
self
,
env
):
...
@@ -7388,12 +7496,10 @@ class DictNode(ExprNode):
...
@@ -7388,12 +7496,10 @@ class DictNode(ExprNode):
self
.
result
(),
self
.
result
(),
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
error_goto_if_null
(
self
.
result
(),
self
.
pos
)))
code
.
put_gotref
(
self
.
py_result
())
code
.
put_gotref
(
self
.
py_result
())
if
self
.
reject_duplicates
and
len
(
self
.
key_value_pairs
)
>
1
:
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseDoubleKeywords"
,
"FunctionArguments.c"
))
keys_seen
=
set
()
keys_seen
=
set
()
key_type
=
None
key_type
=
None
needs_error_helper
=
False
for
item
in
self
.
key_value_pairs
:
for
item
in
self
.
key_value_pairs
:
item
.
generate_evaluation_code
(
code
)
item
.
generate_evaluation_code
(
code
)
...
@@ -7423,6 +7529,7 @@ class DictNode(ExprNode):
...
@@ -7423,6 +7529,7 @@ class DictNode(ExprNode):
code
.
putln
(
'if (unlikely(PyDict_Contains(%s, %s))) {'
%
(
code
.
putln
(
'if (unlikely(PyDict_Contains(%s, %s))) {'
%
(
self
.
result
(),
key
.
py_result
()))
self
.
result
(),
key
.
py_result
()))
# currently only used in function calls
# currently only used in function calls
needs_error_helper
=
True
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
code
.
putln
(
'__Pyx_RaiseDoubleKeywordsError("function", %s); %s'
%
(
key
.
py_result
(),
key
.
py_result
(),
code
.
error_goto
(
item
.
pos
)))
code
.
error_goto
(
item
.
pos
)))
...
@@ -7444,6 +7551,10 @@ class DictNode(ExprNode):
...
@@ -7444,6 +7551,10 @@ class DictNode(ExprNode):
item
.
generate_disposal_code
(
code
)
item
.
generate_disposal_code
(
code
)
item
.
free_temps
(
code
)
item
.
free_temps
(
code
)
if
needs_error_helper
:
code
.
globalstate
.
use_utility_code
(
UtilityCode
.
load_cached
(
"RaiseDoubleKeywords"
,
"FunctionArguments.c"
))
def
annotate
(
self
,
code
):
def
annotate
(
self
,
code
):
for
item
in
self
.
key_value_pairs
:
for
item
in
self
.
key_value_pairs
:
item
.
annotate
(
code
)
item
.
annotate
(
code
)
...
...
Cython/Compiler/Parsing.py
View file @
7d7e4eb1
...
@@ -973,7 +973,12 @@ def p_comp_if(s, body):
...
@@ -973,7 +973,12 @@ def p_comp_if(s, body):
body
=
p_comp_iter
(
s
,
body
))],
body
=
p_comp_iter
(
s
,
body
))],
else_clause
=
None
)
else_clause
=
None
)
#dictmaker: test ':' test (',' test ':' test)* [',']
# since PEP 448:
#dictorsetmaker: ( ((test ':' test | '**' expr)
# (comp_for | (',' (test ':' test | '**' expr))* [','])) |
# ((test | star_expr)
# (comp_for | (',' (test | star_expr))* [','])) )
def
p_dict_or_set_maker
(
s
):
def
p_dict_or_set_maker
(
s
):
# s.sy == '{'
# s.sy == '{'
...
@@ -981,57 +986,112 @@ def p_dict_or_set_maker(s):
...
@@ -981,57 +986,112 @@ def p_dict_or_set_maker(s):
s
.
next
()
s
.
next
()
if
s
.
sy
==
'}'
:
if
s
.
sy
==
'}'
:
s
.
next
()
s
.
next
()
return
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
[])
return
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
[])
item
=
p_test
(
s
)
if
s
.
sy
==
','
or
s
.
sy
==
'}'
:
parts
=
[]
# set literal
target_type
=
0
values
=
[
item
]
last_was_simple_item
=
False
while
s
.
sy
==
','
:
while
True
:
if
s
.
sy
in
(
'*'
,
'**'
):
# merged set/dict literal
if
target_type
==
0
:
target_type
=
1
if
s
.
sy
==
'*'
else
2
# 'stars'
elif
target_type
!=
len
(
s
.
sy
):
s
.
error
(
"unexpected %sitem found in %s literal"
%
(
s
.
sy
,
'set'
if
target_type
==
1
else
'dict'
))
s
.
next
()
item
=
p_test
(
s
)
parts
.
append
(
item
)
last_was_simple_item
=
False
else
:
item
=
p_test
(
s
)
if
target_type
==
0
:
target_type
=
2
if
s
.
sy
==
':'
else
1
# dict vs. set
if
target_type
==
2
:
# dict literal
s
.
expect
(
':'
)
key
=
item
value
=
p_test
(
s
)
item
=
ExprNodes
.
DictItemNode
(
key
.
pos
,
key
=
key
,
value
=
value
)
if
last_was_simple_item
:
parts
[
-
1
].
append
(
item
)
else
:
parts
.
append
([
item
])
last_was_simple_item
=
True
if
s
.
sy
==
','
:
s
.
next
()
s
.
next
()
if
s
.
sy
==
'}'
:
if
s
.
sy
==
'}'
:
break
break
values
.
append
(
p_test
(
s
)
)
else
:
s
.
expect
(
'}'
)
break
return
ExprNodes
.
SetNode
(
pos
,
args
=
values
)
elif
s
.
sy
==
'for'
:
if
s
.
sy
==
'for'
:
# set comprehension
# dict/set comprehension
append
=
ExprNodes
.
ComprehensionAppendNode
(
if
len
(
parts
)
==
1
and
isinstance
(
parts
[
0
],
list
)
and
len
(
parts
[
0
])
==
1
:
item
.
pos
,
expr
=
item
)
item
=
parts
[
0
][
0
]
loop
=
p_comp_for
(
s
,
append
)
if
target_type
==
2
:
s
.
expect
(
'}'
)
assert
isinstance
(
item
,
ExprNodes
.
DictItemNode
),
type
(
item
)
return
ExprNodes
.
ComprehensionNode
(
comprehension_type
=
Builtin
.
dict_type
pos
,
loop
=
loop
,
append
=
append
,
type
=
Builtin
.
set_type
)
append
=
ExprNodes
.
DictComprehensionAppendNode
(
elif
s
.
sy
==
':'
:
item
.
pos
,
key_expr
=
item
.
key
,
value_expr
=
item
.
value
)
# dict literal or comprehension
else
:
key
=
item
comprehension_type
=
Builtin
.
set_type
s
.
next
()
append
=
ExprNodes
.
ComprehensionAppendNode
(
item
.
pos
,
expr
=
item
)
value
=
p_test
(
s
)
if
s
.
sy
==
'for'
:
# dict comprehension
append
=
ExprNodes
.
DictComprehensionAppendNode
(
item
.
pos
,
key_expr
=
key
,
value_expr
=
value
)
loop
=
p_comp_for
(
s
,
append
)
loop
=
p_comp_for
(
s
,
append
)
s
.
expect
(
'}'
)
s
.
expect
(
'}'
)
return
ExprNodes
.
ComprehensionNode
(
return
ExprNodes
.
ComprehensionNode
(
pos
,
loop
=
loop
,
append
=
append
,
type
=
comprehension_type
)
pos
,
loop
=
loop
,
append
=
append
,
type
=
Builtin
.
dict_type
)
else
:
else
:
# dict literal
# syntax error, try to find a good error message
items
=
[
ExprNodes
.
DictItemNode
(
key
.
pos
,
key
=
key
,
value
=
value
)]
if
len
(
parts
)
==
1
and
not
isinstance
(
parts
[
0
],
list
):
while
s
.
sy
==
','
:
s
.
error
(
"iterable unpacking cannot be used in comprehension"
)
s
.
next
()
else
:
if
s
.
sy
==
'}'
:
# e.g. "{1,2,3 for ..."
break
s
.
expect
(
'}'
)
key
=
p_test
(
s
)
return
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
[])
s
.
expect
(
':'
)
value
=
p_test
(
s
)
s
.
expect
(
'}'
)
items
.
append
(
if
target_type
==
1
:
ExprNodes
.
DictItemNode
(
key
.
pos
,
key
=
key
,
value
=
value
))
# (merged) set literal
s
.
expect
(
'}'
)
items
=
[]
return
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
items
)
set_items
=
[]
else
:
for
part
in
parts
:
# raise an error
if
isinstance
(
part
,
list
):
s
.
expect
(
'}'
)
set_items
.
extend
(
part
)
return
ExprNodes
.
DictNode
(
pos
,
key_value_pairs
=
[])
elif
part
.
is_set_literal
or
part
.
is_sequence_constructor
:
# unpack *{1,2,3} and *[1,2,3] in place
set_items
.
extend
(
part
.
args
)
else
:
if
set_items
:
items
.
append
(
ExprNodes
.
SetNode
(
set_items
[
0
].
pos
,
args
=
set_items
))
set_items
=
[]
items
.
append
(
part
)
if
set_items
:
items
.
append
(
ExprNodes
.
SetNode
(
set_items
[
0
].
pos
,
args
=
set_items
))
if
len
(
items
)
==
1
and
items
[
0
].
is_set_literal
:
return
items
[
0
]
return
ExprNodes
.
MergedSetNode
(
pos
,
args
=
items
)
else
:
# (merged) dict literal
items
=
[]
dict_items
=
[]
for
part
in
parts
:
if
isinstance
(
part
,
list
):
dict_items
.
extend
(
part
)
elif
part
.
is_dict_literal
:
# unpack **{...} in place
dict_items
.
extend
(
part
.
key_value_pairs
)
else
:
if
dict_items
:
items
.
append
(
ExprNodes
.
DictNode
(
dict_items
[
0
].
pos
,
key_value_pairs
=
dict_items
))
dict_items
=
[]
items
.
append
(
part
)
if
dict_items
:
items
.
append
(
ExprNodes
.
DictNode
(
dict_items
[
0
].
pos
,
key_value_pairs
=
dict_items
))
if
len
(
items
)
==
1
and
items
[
0
].
is_dict_literal
:
return
items
[
0
]
return
ExprNodes
.
MergedDictNode
(
pos
,
keyword_args
=
items
,
reject_duplicates
=
False
)
# NOTE: no longer in Py3 :)
# NOTE: no longer in Py3 :)
def
p_backquote_expr
(
s
):
def
p_backquote_expr
(
s
):
...
...
Cython/Utility/Builtins.c
View file @
7d7e4eb1
...
@@ -441,3 +441,33 @@ static CYTHON_INLINE PyObject* __Pyx_PyFrozenSet_New(PyObject* it) {
...
@@ -441,3 +441,33 @@ static CYTHON_INLINE PyObject* __Pyx_PyFrozenSet_New(PyObject* it) {
return
PyObject_Call
((
PyObject
*
)
&
PyFrozenSet_Type
,
$
empty_tuple
,
NULL
);
return
PyObject_Call
((
PyObject
*
)
&
PyFrozenSet_Type
,
$
empty_tuple
,
NULL
);
#endif
#endif
}
}
//////////////////// PySet_Update.proto ////////////////////
static
CYTHON_INLINE
int
__Pyx_PySet_Update
(
PyObject
*
set
,
PyObject
*
it
);
/*proto*/
//////////////////// PySet_Update ////////////////////
//@requires: ObjectHandling.c::PyObjectCallMethod1
static
CYTHON_INLINE
int
__Pyx_PySet_Update
(
PyObject
*
set
,
PyObject
*
it
)
{
PyObject
*
retval
;
#if CYTHON_COMPILING_IN_CPYTHON
if
(
PyAnySet_Check
(
it
))
{
// fast and safe case: CPython will update our result set and return it
retval
=
PySet_Type
.
tp_as_number
->
nb_inplace_or
(
set
,
it
);
if
(
likely
(
retval
==
set
))
{
Py_DECREF
(
retval
);
return
0
;
}
if
(
unlikely
(
!
retval
))
return
-
1
;
// unusual result, fall through to set.update() call below
Py_DECREF
(
retval
);
}
#endif
retval
=
__Pyx_PyObject_CallMethod1
(
set
,
PYIDENT
(
"update"
),
it
);
if
(
unlikely
(
!
retval
))
return
-
1
;
Py_DECREF
(
retval
);
return
0
;
}
tests/run/pep448_extended_unpacking.pyx
0 → 100644
View file @
7d7e4eb1
cimport
cython
class
Iter
(
object
):
def
__init__
(
self
,
it
=
()):
self
.
it
=
iter
(
it
)
def
__iter__
(
self
):
return
self
def
__next__
(
self
):
return
next
(
self
.
it
)
next
=
__next__
class
Map
(
object
):
def
__init__
(
self
,
mapping
=
{}):
self
.
mapping
=
mapping
def
__iter__
(
self
):
return
iter
(
self
.
mapping
)
def
keys
(
self
):
return
self
.
mapping
.
keys
()
def
__getitem__
(
self
,
key
):
return
self
.
mapping
[
key
]
@
cython
.
test_fail_if_path_exists
(
"//SetNode//SetNode"
,
"//MergedSetNode//SetNode"
,
"//MergedSetNode//MergedSetNode"
,
)
def
unpack_set_literal
():
"""
>>> s = unpack_set_literal()
>>> s == set([1, 2, 4, 5]) or s
True
"""
return
{
*
{
1
,
2
,
*
{
4
,
5
}}}
def
unpack_set_simple
(
it
):
"""
>>> s = unpack_set_simple([])
>>> s == set([]) or s
True
>>> s = unpack_set_simple(set())
>>> s == set([]) or s
True
>>> s = unpack_set_simple(Iter())
>>> s == set([]) or s
True
>>> s = unpack_set_simple([1])
>>> s == set([1]) or s
True
>>> s = unpack_set_simple([2, 1])
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_simple((2, 1))
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_simple(set([2, 1]))
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_simple(Iter([2, 1]))
>>> s == set([1, 2]) or s
True
"""
return
{
*
it
}
def
unpack_set_from_iterable
(
it
):
"""
>>> s = unpack_set_from_iterable([1, 2, 3])
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable([1, 2])
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable(set([1, 2]))
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable(Iter([1, 2]))
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable([3])
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable(set([3]))
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable(Iter([3]))
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable([])
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable(set([]))
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable([])
>>> s == set([1, 2]) or s
True
>>> s = unpack_set_from_iterable((1, 2, 3))
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable(set([1, 2, 3]))
>>> s == set([1, 2, 3]) or s
True
>>> s = unpack_set_from_iterable(Iter([1, 2, 3]))
>>> s == set([1, 2, 3]) or s
True
"""
return
{
1
,
2
,
*
it
,
1
,
*
{
*
it
,
*
it
},
*
it
,
2
,
1
,
*
it
,
*
it
}
@
cython
.
test_fail_if_path_exists
(
"//DictNode//DictNode"
,
"//MergedDictNode//DictNode"
,
"//MergedDictNode//MergedDictNode"
,
)
def
unpack_dict_literal
():
"""
>>> d = unpack_dict_literal()
>>> d == dict(a=1, b=2, c=4, d=5) or d
True
"""
return
{
**
{
'a'
:
1
,
'b'
:
2
,
**
{
'c'
:
4
,
'd'
:
5
}}}
def
unpack_dict_simple
(
it
):
"""
>>> d = unpack_dict_simple({})
>>> d == {} or d
True
>>> d = unpack_dict_simple([])
>>> d == {} or d
True
>>> d = unpack_dict_simple(set())
>>> d == {} or d
True
>>> d = unpack_dict_simple(Iter())
>>> d == {} or d
True
>>> d = unpack_dict_simple(Map())
>>> d == {} or d
True
>>> d = unpack_dict_simple(dict(a=1))
>>> d == dict(a=1) or d
True
>>> d = unpack_dict_simple(dict(a=1, b=2))
>>> d == dict(a=1, b=2) or d
True
>>> d = unpack_dict_simple(Map(dict(a=1, b=2)))
>>> d == dict(a=1, b=2) or d
True
"""
return
{
**
it
}
def
unpack_dict_from_iterable
(
it
):
"""
>>> d = unpack_dict_from_iterable(dict(a=1, b=2, c=3))
>>> d == dict(a=1, b=2, c=3) or d
True
>>> d = unpack_dict_from_iterable(dict(a=1, b=2))
>>> d == dict(a=1, b=2) or d
True
>>> d = unpack_dict_from_iterable(Map(dict(a=1, b=2)))
>>> d == dict(a=1, b=2) or d
True
>>> d = unpack_dict_from_iterable(dict(a=3))
>>> d == dict(a=3, b=5) or d
True
>>> d = unpack_dict_from_iterable(Map(dict(a=3)))
>>> d == dict(a=3, b=5) or d
True
>>> d = unpack_dict_from_iterable({})
>>> d == dict(a=4, b=5) or d
True
>>> d = unpack_dict_from_iterable(Map())
>>> d == dict(a=4, b=5) or d
True
>>> d = unpack_dict_from_iterable(Iter())
Traceback (most recent call last):
TypeError: 'Iter' object is not a mapping
>>> d = unpack_dict_from_iterable([])
Traceback (most recent call last):
TypeError: 'list' object is not a mapping
>>> d = unpack_dict_from_iterable(dict(b=2, c=3))
>>> d == dict(a=4, b=2, c=3) or d
True
>>> d = unpack_dict_from_iterable(Map(dict(b=2, c=3)))
>>> d == dict(a=4, b=2, c=3) or d
True
>>> d = unpack_dict_from_iterable(dict(a=2, c=3))
>>> d == dict(a=2, b=5, c=3) or d
True
>>> d = unpack_dict_from_iterable(Map(dict(a=2, c=3)))
>>> d == dict(a=2, b=5, c=3) or d
True
"""
return
{
'a'
:
2
,
'b'
:
3
,
**
it
,
'a'
:
1
,
**
{
**
it
,
**
it
},
**
it
,
'a'
:
4
,
'b'
:
5
,
**
it
,
**
it
}
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