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nexedi
cython
Commits
66a4a62e
Commit
66a4a62e
authored
Jun 30, 2020
by
Xavier Thompson
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Enforce cypclass method overloading rules
parent
e233afb0
Changes
4
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4 changed files
with
91 additions
and
32 deletions
+91
-32
Cython/Compiler/Builtin.py
Cython/Compiler/Builtin.py
+1
-1
Cython/Compiler/PyrexTypes.py
Cython/Compiler/PyrexTypes.py
+45
-13
Cython/Compiler/Symtab.py
Cython/Compiler/Symtab.py
+33
-5
tests/run/cypclass_inplace_operator_inference.pyx
tests/run/cypclass_inplace_operator_inference.pyx
+12
-13
No files found.
Cython/Compiler/Builtin.py
View file @
66a4a62e
...
@@ -581,7 +581,7 @@ def inject_acthon_interfaces(self):
...
@@ -581,7 +581,7 @@ def inject_acthon_interfaces(self):
queue_is_empty_type
=
PyrexTypes
.
CFuncType
(
PyrexTypes
.
c_bint_type
,
[],
nogil
=
1
)
queue_is_empty_type
=
PyrexTypes
.
CFuncType
(
PyrexTypes
.
c_bint_type
,
[],
nogil
=
1
)
queue_is_empty_type
.
is_const_method
=
1
queue_is_empty_type
.
is_const_method
=
1
queue_is_empty_entry
=
queue_scope
.
declare
(
"is_empty"
,
"is_empty"
,
queue_is_empty_entry
=
queue_scope
.
declare
(
"is_empty"
,
"is_empty"
,
queue_
activate
_type
,
None
,
"extern"
)
queue_
is_empty
_type
,
None
,
"extern"
)
queue_is_empty_entry
.
is_cfunction
=
1
queue_is_empty_entry
.
is_cfunction
=
1
queue_is_empty_entry
.
is_variable
=
1
queue_is_empty_entry
.
is_variable
=
1
queue_scope
.
var_entries
.
append
(
queue_is_empty_entry
)
queue_scope
.
var_entries
.
append
(
queue_is_empty_entry
)
...
...
Cython/Compiler/PyrexTypes.py
View file @
66a4a62e
...
@@ -2958,18 +2958,17 @@ class CFuncType(CType):
...
@@ -2958,18 +2958,17 @@ class CFuncType(CType):
return
0
return
0
return
1
return
1
def
compatible_
signature_with
(
self
,
other_type
,
as_cmethod
=
0
,
ignore_return_type
=
0
):
def
compatible_
arguments_with
(
self
,
other_type
,
as_cmethod
=
0
):
return
self
.
compatible_
signature_with_resolved_type
(
other_type
.
resolve
(),
as_cmethod
,
ignore_return_type
)
return
self
.
compatible_
arguments_with_resolved_type
(
other_type
.
resolve
(),
as_cmethod
)
def
compatible_signature_with_resolved_type
(
self
,
other_type
,
as_cmethod
,
ignore_return_type
=
0
):
def
compatible_arguments_with_resolved_type
(
self
,
other_type
,
as_cmethod
):
#print "CFuncType.same_c_signature_as_resolved_type:", \
# self, other_type, "as_cmethod =", as_cmethod ###
if
other_type
is
error_type
:
if
other_type
is
error_type
:
return
1
return
1
if
not
other_type
.
is_cfunction
:
if
not
other_type
.
is_cfunction
:
return
0
return
0
if
not
self
.
is_overridable
and
other_type
.
is_overridable
:
return
self
.
__compatible_arguments_with_resolved_type
(
other_type
,
as_cmethod
)
return
0
def
__compatible_arguments_with_resolved_type
(
self
,
other_type
,
as_cmethod
):
nargs
=
len
(
self
.
args
)
nargs
=
len
(
self
.
args
)
if
nargs
-
self
.
optional_arg_count
!=
len
(
other_type
.
args
)
-
other_type
.
optional_arg_count
:
if
nargs
-
self
.
optional_arg_count
!=
len
(
other_type
.
args
)
-
other_type
.
optional_arg_count
:
return
0
return
0
...
@@ -2984,9 +2983,24 @@ class CFuncType(CType):
...
@@ -2984,9 +2983,24 @@ class CFuncType(CType):
return
0
return
0
if
self
.
has_varargs
!=
other_type
.
has_varargs
:
if
self
.
has_varargs
!=
other_type
.
has_varargs
:
return
0
return
0
if
not
ignore_return_type
:
return
1
if
not
self
.
return_type
.
subtype_of_resolved_type
(
other_type
.
return_type
):
return
0
def
compatible_signature_with
(
self
,
other_type
,
as_cmethod
=
0
,
skip_args
=
0
,
skip_return
=
0
):
return
self
.
compatible_signature_with_resolved_type
(
other_type
.
resolve
(),
as_cmethod
,
skip_args
,
skip_return
)
def
compatible_signature_with_resolved_type
(
self
,
other_type
,
as_cmethod
,
skip_args
=
0
,
skip_return
=
0
):
#print "CFuncType.same_c_signature_as_resolved_type:", \
# self, other_type, "as_cmethod =", as_cmethod ###
if
other_type
is
error_type
:
return
1
if
not
other_type
.
is_cfunction
:
return
0
if
not
self
.
is_overridable
and
other_type
.
is_overridable
:
return
0
if
not
skip_args
and
not
self
.
compatible_arguments_with_resolved_type
(
other_type
,
as_cmethod
):
return
0
if
not
self
.
return_type
.
subtype_of_resolved_type
(
other_type
.
return_type
):
return
0
if
not
self
.
same_calling_convention_as
(
other_type
):
if
not
self
.
same_calling_convention_as
(
other_type
):
return
0
return
0
if
self
.
nogil
!=
other_type
.
nogil
:
if
self
.
nogil
!=
other_type
.
nogil
:
...
@@ -3010,14 +3024,17 @@ class CFuncType(CType):
...
@@ -3010,14 +3024,17 @@ class CFuncType(CType):
return
0
return
0
return
1
return
1
def
narrower_
c_signature
_than
(
self
,
other_type
,
as_cmethod
=
0
):
def
narrower_
arguments
_than
(
self
,
other_type
,
as_cmethod
=
0
):
return
self
.
narrower_
c_signature
_than_resolved_type
(
other_type
.
resolve
(),
as_cmethod
)
return
self
.
narrower_
arguments
_than_resolved_type
(
other_type
.
resolve
(),
as_cmethod
)
def
narrower_
c_signature
_than_resolved_type
(
self
,
other_type
,
as_cmethod
):
def
narrower_
arguments
_than_resolved_type
(
self
,
other_type
,
as_cmethod
):
if
other_type
is
error_type
:
if
other_type
is
error_type
:
return
1
return
1
if
not
other_type
.
is_cfunction
:
if
not
other_type
.
is_cfunction
:
return
0
return
0
return
self
.
__narrower_arguments_than_resolved_type
(
other_type
,
as_cmethod
)
def
__narrower_arguments_than_resolved_type
(
self
,
other_type
,
as_cmethod
):
nargs
=
len
(
self
.
args
)
nargs
=
len
(
self
.
args
)
if
nargs
!=
len
(
other_type
.
args
):
if
nargs
!=
len
(
other_type
.
args
):
return
0
return
0
...
@@ -3031,6 +3048,18 @@ class CFuncType(CType):
...
@@ -3031,6 +3048,18 @@ class CFuncType(CType):
return
0
return
0
if
self
.
optional_arg_count
!=
other_type
.
optional_arg_count
:
if
self
.
optional_arg_count
!=
other_type
.
optional_arg_count
:
return
0
return
0
return
1
def
narrower_c_signature_than
(
self
,
other_type
,
as_cmethod
=
0
,
skip_args
=
0
):
return
self
.
narrower_c_signature_than_resolved_type
(
other_type
.
resolve
(),
as_cmethod
)
def
narrower_c_signature_than_resolved_type
(
self
,
other_type
,
as_cmethod
,
skip_args
=
0
):
if
other_type
is
error_type
:
return
1
if
not
other_type
.
is_cfunction
:
return
0
if
not
skip_args
and
not
self
.
__narrower_arguments_than_resolved_type
(
other_type
,
as_cmethod
):
return
0
if
not
self
.
return_type
.
subtype_of_resolved_type
(
other_type
.
return_type
):
if
not
self
.
return_type
.
subtype_of_resolved_type
(
other_type
.
return_type
):
return
0
return
0
if
not
self
.
exception_check
and
other_type
.
exception_check
:
if
not
self
.
exception_check
and
other_type
.
exception_check
:
...
@@ -3966,6 +3995,9 @@ class CppClassType(CType):
...
@@ -3966,6 +3995,9 @@ class CppClassType(CType):
base_code
=
public_decl
(
base_code
,
dll_linkage
)
base_code
=
public_decl
(
base_code
,
dll_linkage
)
return
self
.
base_declaration_code
(
base_code
,
entity_code
)
return
self
.
base_declaration_code
(
base_code
,
entity_code
)
def
subtype_of_resolved_type
(
self
,
other_type
):
return
self
.
is_subclass
(
other_type
)
def
is_subclass
(
self
,
other_type
):
def
is_subclass
(
self
,
other_type
):
if
self
.
same_as_resolved_type
(
other_type
):
if
self
.
same_as_resolved_type
(
other_type
):
return
1
return
1
...
...
Cython/Compiler/Symtab.py
View file @
66a4a62e
...
@@ -537,11 +537,13 @@ class Scope(object):
...
@@ -537,11 +537,13 @@ class Scope(object):
cpp_override_allowed
=
True
cpp_override_allowed
=
True
for
index
,
alt_entry
in
enumerate
(
old_entry
.
all_alternatives
()):
for
index
,
alt_entry
in
enumerate
(
old_entry
.
all_alternatives
()):
# in a cypclass, a method can hide a method inherited from a different class
# in a cypclass, a method can hide a method inherited from a different class
# regardless of their return types
# based only on their argument types
ignore_return_type
=
(
self
.
is_cyp_class_scope
if
self
.
is_cyp_class_scope
:
and
alt_entry
.
is_inherited
might_redeclare_or_override
=
type
.
compatible_arguments_with
and
alt_entry
.
from_type
is
not
from_type
)
else
:
if
type
.
compatible_signature_with
(
alt_entry
.
type
,
ignore_return_type
=
ignore_return_type
):
might_redeclare_or_override
=
type
.
compatible_signature_with
if
might_redeclare_or_override
(
alt_entry
.
type
):
cpp_override_allowed
=
False
cpp_override_allowed
=
False
...
@@ -555,10 +557,36 @@ class Scope(object):
...
@@ -555,10 +557,36 @@ class Scope(object):
# Any inherited method is visible
# Any inherited method is visible
# until overloaded by a method with the same signature
# until overloaded by a method with the same signature
if
alt_entry
.
is_inherited
:
if
alt_entry
.
is_inherited
:
# in a cypclass, if the arguments are compatible
# then the whole signature must also be compatible
if
self
.
is_cyp_class_scope
:
if
not
type
.
compatible_signature_with
(
alt_entry
.
type
,
skip_args
=
1
):
error
(
pos
,
"Cypclass overriding method with incompatible return type"
)
if
alt_entry
.
pos
is
not
None
:
error
(
alt_entry
.
pos
,
"Overriden method is defined here"
)
# 'CFuncType.compatible_signature_with' doesn't compare constness, so we're doing it here.
# TODO: Maybe it should.
elif
(
type
.
is_const_method
and
not
alt_entry
.
type
.
is_const_method
or
not
type
.
is_const_method
and
alt_entry
.
type
.
is_const_method
):
print
(
type
.
is_const_method
)
print
(
alt_entry
.
type
.
is_const_method
)
error
(
pos
,
"Cypclass overriding method with conflicting constness"
)
if
alt_entry
.
pos
is
not
None
:
error
(
alt_entry
.
pos
,
"Overriden method is defined here"
)
previous_alternative_indices
.
append
(
index
)
previous_alternative_indices
.
append
(
index
)
cpp_override_allowed
=
True
cpp_override_allowed
=
True
continue
continue
elif
self
.
is_cyp_class_scope
:
if
(
type
.
narrower_arguments_than
(
alt_entry
.
type
)
or
alt_entry
.
type
.
narrower_arguments_than
(
type
)):
error
(
pos
,
"Cypclass overloaded method with narrower arguments"
)
if
alt_entry
.
pos
is
not
None
:
error
(
alt_entry
.
pos
,
"Conflicting method is defined here"
)
if
cpp_override_allowed
:
if
cpp_override_allowed
:
# C++ function/method overrides with different signatures are ok.
# C++ function/method overrides with different signatures are ok.
pass
pass
...
...
tests/run/cypclass_inplace_operator_inference.pyx
View file @
66a4a62e
...
@@ -13,30 +13,29 @@ cdef cypclass A nolock:
...
@@ -13,30 +13,29 @@ cdef cypclass A nolock:
cdef
cypclass
B
(
A
)
nolock
:
cdef
cypclass
B
(
A
)
nolock
:
B
__iadd__
(
self
,
A
other
):
B
__iadd__
(
self
,
A
other
):
self
.
val
+=
(
other
.
val
+
10
)
self
.
val
+=
(
other
.
val
+
10
)
B
__iadd__
(
self
,
B
other
):
int
is_inferred_as_B
(
self
):
self
.
val
+=
(
other
.
val
+
100
)
return
1
def
test_inplace_operator_inference
():
def
test_inplace_operator_inference
():
"""
"""
>>> test_inplace_operator_inference()
>>> test_inplace_operator_inference()
111
(11, 1)
"""
"""
a
=
A
(
0
)
a
=
A
(
0
)
b0
=
B
(
0
)
b
=
B
(
0
)
b1
=
B
(
0
)
# at this point, the types are unambiguous and the following assignments should not cause them to infer as another type.
# at this point, the types are unambiguous and the following assignments should not cause them to infer as another type.
a
+=
b
0
# should add 1
a
+=
b
# should add 1
# before it being fixed, 'b
0 += a' where 'a' is of type A caused 'b0
' to be inferred as type A instead of B.
# before it being fixed, 'b
+= a' where 'a' is of type A caused 'b
' to be inferred as type A instead of B.
b
0
+=
a
# should add 10
b
+=
a
# should add 10
# since all cypclass methods are virtual, 'b
0' being erroneously inferred as type A would cause
# since all cypclass methods are virtual, 'b
' being erroneously inferred as type A would cause a compilation error
#
'b0 += b1' to call 'B __iadd__(self, A other)' instead of 'B __iadd__(self, B other
)'.
#
when calling 'b.is_inferred_as_B(
)'.
b0
+=
b1
# should add 100
r
=
b
.
is_inferred_as_B
()
return
b
0
.
val
return
b
.
val
,
r
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