/usr/lib/python2.7/dist-packages/pygccxml/declarations/declarations_matchers.py is in python-pygccxml 1.8.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Copyright 2004-2008 Roman Yakovenko.
# Distributed under the Boost Software License, Version 1.0.
# See http://www.boost.org/LICENSE_1_0.txt
import os
import warnings
from . import templates
from . import declaration_utils
from . import matcher_base_t
from . import variable
from . import cpptypes
from . import namespace
from . import calldef
from . import calldef_members
from .. import utils
class declaration_matcher_t(matcher_base_t):
"""
Instance of this class will match declarations by next criteria:
- declaration name, also could be fully qualified name
Example: `wstring` or `::std::wstring`
- declaration type
Example: :class:`class_t`, :class:`namespace_t`,
:class:`enumeration_t`
- location within file system ( file or directory )
"""
def __init__(
self,
name=None,
decl_type=None,
header_dir=None,
header_file=None):
"""
:param decl_type: declaration type to match by. For example
:class:`enumeration_t`.
:type decl_type: any class that derives from :class:`declaration_t`
class
:param name: declaration name, could be full name.
:type name: str
:param header_dir: absolute directory path
:type header_dir: str
:param header_file: absolute file path
:type header_file: str
"""
# An other option is that pygccxml will create absolute path using
# os.path.abspath function. But I think this is just wrong, because
# abspath builds path using current working directory. This behavior
# is fragile and very difficult to find a bug.
matcher_base_t.__init__(self)
self.decl_type = decl_type
self.__name = None
self.__opt_is_tmpl_inst = None
self.__opt_tmpl_name = None
self.__opt_is_full_name = None
self.__decl_name_only = None
# Set the name through the setter.
self.name = name
self.header_dir = header_dir
self.header_file = header_file
if self.header_dir:
self.header_dir = utils.normalize_path(self.header_dir)
if not os.path.isabs(self.header_dir):
raise RuntimeError(
"Path to header directory should be absolute!")
if self.header_file:
self.header_file = utils.normalize_path(self.header_file)
if not os.path.isabs(self.header_file):
raise RuntimeError("Path to header file should be absolute!")
@property
def name(self):
return self.__name
@name.setter
def name(self, name):
self.__name = name
if not self.__name:
self.__opt_is_tmpl_inst = None
self.__opt_tmpl_name = None
self.__opt_is_full_name = None
self.__decl_name_only = None
else:
self.__opt_is_tmpl_inst = templates.is_instantiation(self.__name)
self.__opt_tmpl_name = templates.name(self.__name)
if self.__opt_is_tmpl_inst:
if '::' in self.__opt_tmpl_name:
self.__opt_is_full_name = True
self.__decl_name_only = \
self.__opt_tmpl_name.split('::')[-1]
else:
self.__opt_is_full_name = False
self.__decl_name_only = self.__opt_tmpl_name
self.__name = templates.normalize(name)
else:
if '::' in self.__name:
self.__opt_is_full_name = True
self.__decl_name_only = self.__name.split('::')[-1]
else:
self.__opt_is_full_name = False
self.__decl_name_only = self.__name
def __str__(self):
msg = []
if self.decl_type is not None:
msg.append('(decl type==%s)' % self.decl_type.__name__)
if self.name is not None:
msg.append('(name==%s)' % self.name)
if self.header_dir is not None:
msg.append('(header dir==%s)' % self.header_dir)
if self.header_file is not None:
msg.append('(header file==%s)' % self.header_file)
if not msg:
msg.append('any')
return ' and '.join(msg)
def __call__(self, decl):
if self.decl_type is not None:
if not isinstance(decl, self.decl_type):
return False
if self.name is not None:
if not self.check_name(decl):
return False
if self.header_dir is not None:
if decl.location:
decl_dir = os.path.abspath(
os.path.dirname(decl.location.file_name))
decl_dir = utils.normalize_path(decl_dir)
if decl_dir[:len(self.header_dir)] != self.header_dir:
return False
else:
return False
if self.header_file is not None:
if decl.location:
decl_file = os.path.abspath(decl.location.file_name)
decl_file = utils.normalize_path(decl_file)
if decl_file != self.header_file:
return False
else:
return False
return True
def check_name(self, decl):
assert self.name is not None
if self.__opt_is_tmpl_inst:
if not self.__opt_is_full_name:
if self.name != templates.normalize_name(decl) \
and self.name != templates.normalize_partial_name(decl):
return False
else:
if self.name != templates.normalize_full_name_true(decl) and \
self.name != templates.normalize_full_name_false(decl):
return False
else:
if not self.__opt_is_full_name:
if self.name != decl.name and self.name != decl.partial_name:
return False
else:
if self.name != templates.normalize_full_name_true(decl) and \
self.name != templates.normalize_full_name_false(decl):
return False
return True
def is_full_name(self):
return self.__opt_is_full_name
@property
def decl_name_only(self):
return self.__decl_name_only
class variable_matcher_t(declaration_matcher_t):
"""
Instance of this class will match variables by next criteria:
- :class:`declaration_matcher_t` criteria
- variable type. Example: :class:`int_t` or 'int'
"""
def __init__(
self,
name=None,
type=None,
decl_type=None,
header_dir=None,
header_file=None):
"""
:param decl_type: variable type
:type decl_type: string or instance of :class:`type_t` derived class
"""
if type is not None:
# Deprecated since 1.8.0. Will be removed in 1.9.0
warnings.warn(
"The type argument is deprecated. \n" +
"Please use the decl_type argument instead.",
DeprecationWarning)
if decl_type is not None:
raise (
"Please use only either the type or " +
"decl_type argument.")
# Still allow to use the old type for the moment.
decl_type = type
declaration_matcher_t.__init__(
self,
name=name,
decl_type=variable.variable_t,
header_dir=header_dir,
header_file=header_file)
self._decl_type = decl_type
def __call__(self, decl):
if not super(variable_matcher_t, self).__call__(decl):
return False
if self._decl_type is not None:
if isinstance(self._decl_type, cpptypes.type_t):
if self._decl_type != decl.decl_type:
return False
else:
if self._decl_type != decl.decl_type.decl_string:
return False
return True
def __str__(self):
msg = [super(variable_matcher_t, self).__str__()]
if msg == ['any']:
msg = []
if self._decl_type is not None:
msg.append('(value type==%s)' % str(self._decl_type))
if not msg:
msg.append('any')
return ' and '.join(msg)
class namespace_matcher_t(declaration_matcher_t):
"""Instance of this class will match namespaces by name."""
def __init__(self, name=None):
declaration_matcher_t.__init__(
self,
name=name,
decl_type=namespace.namespace_t)
def __call__(self, decl):
if self.name and decl.name == '':
# unnamed namespace have same name as thier parent, we should
# prevent this happens. The price is: user should search for
# unnamed namespace directly.
return False
return super(namespace_matcher_t, self).__call__(decl)
class calldef_matcher_t(declaration_matcher_t):
"""
Instance of this class will match callable by the following criteria:
* :class:`declaration_matcher_t` criteria
* return type. For example: :class:`int_t` or 'int'
* argument types
"""
def __init__(
self,
name=None,
return_type=None,
arg_types=None,
decl_type=None,
header_dir=None,
header_file=None):
"""
:param return_type: callable return type
:type return_type: string or instance of :class:`type_t` derived class
:type arg_types: list
:param arg_types: list of function argument types. `arg_types` can
contain.
Any item within the list could be string or instance
of :class:`type_t` derived class. If you don't want
some argument to participate in match you can put
None.
For example:
.. code-block:: python
calldef_matcher_t( arg_types=[ 'int &', None ] )
will match all functions that takes 2 arguments, where the first one is
reference to integer and second any
"""
if None is decl_type:
decl_type = calldef.calldef_t
declaration_matcher_t.__init__(
self,
name=name,
decl_type=decl_type,
header_dir=header_dir,
header_file=header_file)
self.return_type = return_type
self.arg_types = arg_types
def __call__(self, decl):
if not super(calldef_matcher_t, self).__call__(decl):
return False
if self.return_type is not None \
and not self.__compare_types(self.return_type, decl.return_type):
return False
if self.arg_types:
if isinstance(self.arg_types, (list, tuple)):
if len(self.arg_types) != len(decl.arguments):
return False
for type_or_str, arg in zip(self.arg_types, decl.arguments):
if type_or_str is None:
continue
else:
if not self.__compare_types(
type_or_str, arg.decl_type):
return False
return True
def __compare_types(self, type_or_str, type):
assert type_or_str
if type is None:
return False
if isinstance(type_or_str, cpptypes.type_t):
if type_or_str != type:
return False
else:
if type_or_str != type.decl_string:
return False
return True
def __str__(self):
msg = [super(calldef_matcher_t, self).__str__()]
if msg == ['any']:
msg = []
if self.return_type is not None:
msg.append('(return type==%s)' % str(self.return_type))
if self.arg_types:
for i, arg_type in enumerate(self.arg_types):
if arg_type is None:
msg.append('(arg %d type==any)' % i)
else:
msg.append('(arg %d type==%s)' % (i, str(arg_type)))
if not msg:
msg.append('any')
return ' and '.join(msg)
class operator_matcher_t(calldef_matcher_t):
"""
Instance of this class will match operators by next criteria:
* :class:`calldef_matcher_t` criteria
* operator symbol: =, !=, (), [] and etc
"""
def __init__(
self,
name=None,
symbol=None,
return_type=None,
arg_types=None,
decl_type=None,
header_dir=None,
header_file=None):
"""
:param symbol: operator symbol
:type symbol: str
"""
if None is decl_type:
decl_type = calldef_members.operator_t
calldef_matcher_t.__init__(
self,
name=name,
return_type=return_type,
arg_types=arg_types,
decl_type=decl_type,
header_dir=header_dir,
header_file=header_file)
self.symbol = symbol
def __call__(self, decl):
if not super(operator_matcher_t, self).__call__(decl):
return False
if self.symbol is not None:
if self.symbol != decl.symbol:
return False
return True
def __str__(self):
msg = [super(operator_matcher_t, self).__str__()]
if msg == ['any']:
msg = []
if self.symbol is not None:
msg.append('(symbol==%s)' % str(self.symbol))
if not msg:
msg.append('any')
return ' and '.join(msg)
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