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# -*- Mode: Python -*-
# GObject-Introspection - a framework for introspecting GObject libraries
# Copyright (C) 2008 Johan Dahlin
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the
# Free Software Foundation, Inc., 59 Temple Place - Suite 330,
# Boston, MA 02111-1307, USA.
#
import os
from xml.etree.cElementTree import parse
from . import ast
from .girwriter import COMPATIBLE_GIR_VERSION
CORE_NS = "http://www.gtk.org/introspection/core/1.0"
C_NS = "http://www.gtk.org/introspection/c/1.0"
GLIB_NS = "http://www.gtk.org/introspection/glib/1.0"
def _corens(tag):
return '{%s}%s' % (CORE_NS, tag)
def _glibns(tag):
return '{%s}%s' % (GLIB_NS, tag)
def _cns(tag):
return '{%s}%s' % (C_NS, tag)
class GIRParser(object):
def __init__(self):
self._shared_libraries = []
self._includes = set()
self._pkgconfig_packages = set()
self._namespace = None
self._filename_stack = []
# Public API
def parse(self, filename):
filename = os.path.abspath(filename)
self._filename_stack.append(filename)
tree = parse(filename)
self.parse_tree(tree)
self._filename_stack.pop()
def parse_tree(self, tree):
self._includes.clear()
self._namespace = None
self._shared_libraries = []
self._pkgconfig_packages = set()
self._c_includes = set()
self._c_prefix = None
self._parse_api(tree.getroot())
def get_namespace(self):
return self._namespace
def get_shared_libraries(self):
return self._shared_libraries
def get_includes(self):
return self._includes
def get_c_includes(self):
return self._c_includes
def get_c_prefix(self):
return self._c_prefix
def get_pkgconfig_packages(self):
if not hasattr(self, '_pkgconfig_packages'):
self._pkgconfig_packages = []
return self._pkgconfig_packages
def get_doc(self):
return parse(self._filename)
# Private
def _find_first_child(self, node, name):
for child in node.getchildren():
if child.tag == name:
return child
return None
def _find_children(self, node, name):
return [child for child in node.getchildren() if child.tag == name]
def _get_current_file(self):
if not self._filename_stack:
return None
cwd = os.getcwd() + os.sep
curfile = self._filename_stack[-1]
if curfile.startswith(cwd):
return curfile[len(cwd):]
return curfile
def _parse_api(self, root):
assert root.tag == _corens('repository')
version = root.attrib['version']
if version != COMPATIBLE_GIR_VERSION:
raise SystemExit("%s: Incompatible version %s (supported: %s)" \
% (self._get_current_file(),
version, COMPATIBLE_GIR_VERSION))
for node in root.getchildren():
if node.tag == _corens('include'):
self._parse_include(node)
elif node.tag == _corens('package'):
self._parse_pkgconfig_package(node)
elif node.tag == _cns('include'):
self._parse_c_include(node)
ns = root.find(_corens('namespace'))
assert ns is not None
identifier_prefixes = ns.attrib.get(_cns('identifier-prefixes'))
if identifier_prefixes:
identifier_prefixes = identifier_prefixes.split(',')
symbol_prefixes = ns.attrib.get(_cns('symbol-prefixes'))
if symbol_prefixes:
symbol_prefixes = symbol_prefixes.split(',')
self._namespace = ast.Namespace(ns.attrib['name'],
ns.attrib['version'],
identifier_prefixes=identifier_prefixes,
symbol_prefixes=symbol_prefixes)
if 'shared-library' in ns.attrib:
self._shared_libraries.extend(
ns.attrib['shared-library'].split(','))
parser_methods = {
_corens('alias'): self._parse_alias,
_corens('bitfield'): self._parse_enumeration_bitfield,
_corens('callback'): self._parse_callback,
_corens('class'): self._parse_object_interface,
_corens('constant'): self._parse_constant,
_corens('function'): self._parse_function,
_corens('enumeration'): self._parse_enumeration_bitfield,
_corens('interface'): self._parse_object_interface,
_corens('record'): self._parse_record,
_corens('union'): self._parse_union,
_glibns('boxed'): self._parse_boxed,
}
for node in ns.getchildren():
method = parser_methods.get(node.tag)
if method is not None:
method(node)
def _parse_include(self, node):
include = ast.Include(node.attrib['name'],
node.attrib['version'])
self._includes.add(include)
def _parse_pkgconfig_package(self, node):
self._pkgconfig_packages.add(node.attrib['name'])
def _parse_c_include(self, node):
self._c_includes.add(node.attrib['name'])
def _parse_alias(self, node):
typeval = self._parse_type(node)
alias = ast.Alias(node.attrib['name'],
typeval,
node.attrib.get(_cns('type')))
self._namespace.append(alias)
def _parse_generic_attribs(self, node, obj):
assert isinstance(obj, ast.Annotated)
doc = node.find(_corens('doc'))
if doc is not None:
obj.doc = doc.text
version = node.attrib.get('version')
if version:
obj.version = version
deprecated = node.attrib.get('deprecated')
if deprecated:
obj.deprecated = deprecated
introspectable = node.attrib.get('introspectable')
if introspectable:
obj.introspectable = int(introspectable) > 0
def _parse_object_interface(self, node):
parent = node.attrib.get('parent')
if parent:
parent_type = self._namespace.type_from_name(parent)
else:
parent_type = None
ctor_args = [node.attrib['name'],
parent_type]
ctor_kwargs = {'gtype_name': node.attrib[_glibns('type-name')],
'get_type': node.attrib[_glibns('get-type')],
'c_symbol_prefix': node.attrib.get(_cns('symbol-prefix')),
'ctype': node.attrib.get(_cns('type'))}
if node.tag == _corens('interface'):
klass = ast.Interface
elif node.tag == _corens('class'):
klass = ast.Class
is_abstract = node.attrib.get('abstract')
is_abstract = is_abstract and is_abstract != '0'
ctor_kwargs['is_abstract'] = is_abstract
else:
raise AssertionError(node)
obj = klass(*ctor_args, **ctor_kwargs)
self._parse_generic_attribs(node, obj)
type_struct = node.attrib.get(_glibns('type-struct'))
if type_struct:
obj.glib_type_struct = self._namespace.type_from_name(type_struct)
self._namespace.append(obj)
ctor_args.append(node.attrib.get(_cns('type')))
for iface in self._find_children(node, _corens('implements')):
obj.interfaces.append(self._namespace.type_from_name(iface.attrib['name']))
for iface in self._find_children(node, _corens('prerequisite')):
obj.prerequisites.append(self._namespace.type_from_name(iface.attrib['name']))
for func_node in self._find_children(node, _corens('function')):
func = self._parse_function_common(func_node, ast.Function)
obj.static_methods.append(func)
for method in self._find_children(node, _corens('method')):
func = self._parse_function_common(method, ast.Function)
func.is_method = True
obj.methods.append(func)
for method in self._find_children(node, _corens('virtual-method')):
func = self._parse_function_common(method, ast.VFunction)
self._parse_generic_attribs(method, func)
func.is_method = True
func.invoker = method.get('invoker')
obj.virtual_methods.append(func)
for ctor in self._find_children(node, _corens('constructor')):
func = self._parse_function_common(ctor, ast.Function)
func.is_constructor = True
obj.constructors.append(func)
obj.fields.extend(self._parse_fields(node))
for prop in self._find_children(node, _corens('property')):
obj.properties.append(self._parse_property(prop))
for signal in self._find_children(node, _glibns('signal')):
obj.signals.append(self._parse_function_common(signal, ast.Function))
def _parse_callback(self, node):
callback = self._parse_function_common(node, ast.Callback)
self._namespace.append(callback)
def _parse_function(self, node):
function = self._parse_function_common(node, ast.Function)
function.shadows = node.attrib.get('shadows', None)
function.shadowed_by = node.attrib.get('shadowed-by', None)
self._namespace.append(function)
def _parse_function_common(self, node, klass):
name = node.attrib['name']
returnnode = node.find(_corens('return-value'))
if not returnnode:
raise ValueError('node %r has no return-value' % (name, ))
transfer = returnnode.attrib.get('transfer-ownership')
retval = ast.Return(self._parse_type(returnnode), transfer)
self._parse_generic_attribs(returnnode, retval)
parameters = []
throws = (node.attrib.get('throws') == '1')
if klass is ast.Callback:
func = klass(name, retval, parameters, throws,
node.attrib.get(_cns('type')))
elif klass is ast.Function:
identifier = node.attrib.get(_cns('identifier'))
func = klass(name, retval, parameters, throws, identifier)
elif klass is ast.VFunction:
func = klass(name, retval, parameters, throws)
else:
assert False
parameters_node = node.find(_corens('parameters'))
if (parameters_node is not None):
for paramnode in self._find_children(parameters_node, _corens('parameter')):
typeval = self._parse_type(paramnode)
param = ast.Parameter(paramnode.attrib.get('name'),
typeval,
paramnode.attrib.get('direction') or ast.PARAM_DIRECTION_IN,
paramnode.attrib.get('transfer-ownership'),
paramnode.attrib.get('allow-none') == '1',
paramnode.attrib.get('scope'),
paramnode.attrib.get('caller-allocates') == '1')
self._parse_generic_attribs(paramnode, param)
parameters.append(param)
for i, paramnode in enumerate(self._find_children(parameters_node,
_corens('parameter'))):
param = parameters[i]
self._parse_type_second_pass(func, paramnode, param.type)
closure = paramnode.attrib.get('closure')
if closure:
idx = int(closure)
assert idx < len(parameters), "%d >= %d" % (idx, len(parameters))
param.closure_name = parameters[idx].argname
destroy = paramnode.attrib.get('destroy')
if destroy:
idx = int(destroy)
assert idx < len(parameters), "%d >= %d" % (idx, len(parameters))
param.destroy_name = parameters[idx].argname
self._parse_type_second_pass(func, returnnode, retval.type)
self._parse_generic_attribs(node, func)
return func
def _parse_fields(self, node):
res = []
names = (_corens('field'), _corens('record'), _corens('union'), _corens('callback'))
for child in node.getchildren():
if child.tag in names:
fieldobj = self._parse_field(child)
res.append(fieldobj)
return res
def _parse_compound(self, cls, node):
compound = cls(node.attrib.get('name'),
ctype=node.attrib.get(_cns('type')),
disguised=node.attrib.get('disguised') == '1',
gtype_name=node.attrib.get(_glibns('type-name')),
get_type=node.attrib.get(_glibns('get-type')),
c_symbol_prefix=node.attrib.get(_cns('symbol-prefix')))
if node.attrib.get('foreign') == '1':
compound.foreign = True
self._parse_generic_attribs(node, compound)
compound.fields.extend(self._parse_fields(node))
for method in self._find_children(node, _corens('method')):
compound.methods.append(
self._parse_function_common(method, ast.Function))
for func in self._find_children(node, _corens('function')):
compound.static_methods.append(
self._parse_function_common(func, ast.Function))
for ctor in self._find_children(node, _corens('constructor')):
compound.constructors.append(
self._parse_function_common(ctor, ast.Function))
return compound
def _parse_record(self, node, anonymous=False):
struct = self._parse_compound(ast.Record, node)
is_gtype_struct_for = node.attrib.get(_glibns('is-gtype-struct-for'))
if is_gtype_struct_for is not None:
struct.is_gtype_struct_for = self._namespace.type_from_name(is_gtype_struct_for)
if not anonymous:
self._namespace.append(struct)
return struct
def _parse_union(self, node, anonymous=False):
union = self._parse_compound(ast.Union, node)
if not anonymous:
self._namespace.append(union)
return union
def _parse_type_simple(self, typenode):
# ast.Fields can contain inline callbacks
if typenode.tag == _corens('callback'):
typeval = self._namespace.type_from_name(typenode.attrib['name'])
typeval.ctype = typenode.attrib.get(_cns('type'))
return typeval
# ast.Arrays have their own toplevel XML
elif typenode.tag == _corens('array'):
array_type = typenode.attrib.get('name')
element_type = self._parse_type(typenode)
array_ctype = typenode.attrib.get(_cns('type'))
ret = ast.Array(array_type, element_type, ctype=array_ctype)
# zero-terminated defaults to true...
zero = typenode.attrib.get('zero-terminated')
if zero and zero == '0':
ret.zeroterminated = False
fixed_size = typenode.attrib.get('fixed-size')
if fixed_size:
ret.size = int(fixed_size)
return ret
elif typenode.tag == _corens('varargs'):
return ast.Varargs()
elif typenode.tag == _corens('type'):
name = typenode.attrib.get('name')
ctype = typenode.attrib.get(_cns('type'))
if name is None:
if ctype is None:
return ast.TypeUnknown()
return ast.Type(ctype=ctype)
elif name in ['GLib.List', 'GLib.SList']:
subchild = self._find_first_child(typenode, _corens('type'))
if subchild is not None:
element_type = self._parse_type(typenode)
else:
element_type = ast.TYPE_ANY
return ast.List(name, element_type, ctype=ctype)
elif name == 'GLib.HashTable':
subchildren = self._find_children(typenode, _corens('type'))
subchildren_types = map(self._parse_type_simple, subchildren)
while len(subchildren_types) < 2:
subchildren_types.append(ast.TYPE_ANY)
return ast.Map(subchildren_types[0],
subchildren_types[1],
ctype=ctype)
else:
return self._namespace.type_from_name(name, ctype)
else:
assert False, "Failed to parse inner type"
def _parse_type(self, node):
for name in map(_corens, ('callback', 'array', 'varargs', 'type')):
typenode = node.find(name)
if typenode is not None:
return self._parse_type_simple(typenode)
assert False, "Failed to parse toplevel type"
def _parse_type_second_pass(self, parent, node, typeval):
"""A hack necessary to handle the integer parameter indexes on
array types."""
typenode = node.find(_corens('array'))
if typenode is None:
return
lenidx = typenode.attrib.get('length')
if lenidx is not None:
idx = int(lenidx)
assert idx < len(parent.parameters), "%r %d >= %d" \
% (parent, idx, len(parent.parameters))
typeval.length_param_name = parent.parameters[idx].argname
def _parse_boxed(self, node):
obj = ast.Boxed(node.attrib[_glibns('name')],
gtype_name=node.attrib[_glibns('type-name')],
get_type=node.attrib[_glibns('get-type')],
c_symbol_prefix=node.attrib.get(_cns('symbol-prefix')))
self._parse_generic_attribs(node, obj)
self._namespace.append(obj)
for method in self._find_children(node, _corens('method')):
func = self._parse_function_common(method, ast.Function)
func.is_method = True
obj.methods.append(func)
for ctor in self._find_children(node, _corens('constructor')):
obj.constructors.append(
self._parse_function_common(ctor, ast.Function))
for callback in self._find_children(node, _corens('callback')):
obj.fields.append(
self._parse_function_common(callback, ast.Callback))
def _parse_field(self, node):
type_node = None
anonymous_node = None
if node.tag in map(_corens, ('record', 'union')):
anonymous_elt = node
else:
anonymous_elt = self._find_first_child(node, _corens('callback'))
if anonymous_elt is not None:
if anonymous_elt.tag == _corens('callback'):
anonymous_node = self._parse_function_common(anonymous_elt, ast.Callback)
elif anonymous_elt.tag == _corens('record'):
anonymous_node = self._parse_record(anonymous_elt, anonymous=True)
elif anonymous_elt.tag == _corens('union'):
anonymous_node = self._parse_union(anonymous_elt, anonymous=True)
else:
assert False, anonymous_elt.tag
else:
assert node.tag == _corens('field'), node.tag
type_node = self._parse_type(node)
field = ast.Field(node.attrib.get('name'),
type_node,
node.attrib.get('readable') != '0',
node.attrib.get('writable') == '1',
node.attrib.get('bits'),
anonymous_node=anonymous_node)
self._parse_generic_attribs(node, field)
return field
def _parse_property(self, node):
prop = ast.Property(node.attrib['name'],
self._parse_type(node),
node.attrib.get('readable') != '0',
node.attrib.get('writable') == '1',
node.attrib.get('construct') == '1',
node.attrib.get('construct-only') == '1')
self._parse_generic_attribs(node, prop)
return prop
def _parse_member(self, node):
member = ast.Member(node.attrib['name'],
node.attrib['value'],
node.attrib.get(_cns('identifier')),
node.attrib.get(_glibns('nick')))
self._parse_generic_attribs(node, member)
return member
def _parse_constant(self, node):
type_node = self._parse_type(node)
constant = ast.Constant(node.attrib['name'],
type_node,
node.attrib['value'])
self._parse_generic_attribs(node, constant)
self._namespace.append(constant)
def _parse_enumeration_bitfield(self, node):
name = node.attrib.get('name')
ctype = node.attrib.get(_cns('type'))
get_type = node.attrib.get(_glibns('get-type'))
type_name = node.attrib.get(_glibns('type-name'))
glib_error_quark = node.attrib.get(_glibns('error-quark'))
if node.tag == _corens('bitfield'):
klass = ast.Bitfield
else:
klass = ast.Enum
members = []
obj = klass(name, ctype,
members=members,
gtype_name=type_name,
get_type=get_type)
obj.error_quark = glib_error_quark
obj.ctype = ctype
self._parse_generic_attribs(node, obj)
self._namespace.append(obj)
for member in self._find_children(node, _corens('member')):
members.append(self._parse_member(member))
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