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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
import sys
import tempfile
import shutil
import subprocess
from xml.etree.cElementTree import parse
from . import ast
from . import glibast
# GParamFlags
G_PARAM_READABLE = 1 << 0
G_PARAM_WRITABLE = 1 << 1
G_PARAM_CONSTRUCT = 1 << 2
G_PARAM_CONSTRUCT_ONLY = 1 << 3
G_PARAM_LAX_VALIDATION = 1 << 4
G_PARAM_STATIC_NAME = 1 << 5
G_PARAM_STATIC_NICK = 1 << 6
G_PARAM_STATIC_BLURB = 1 << 7
class IntrospectionBinary(object):
def __init__(self, args, tmpdir=None):
self.args = args
if tmpdir is None:
self.tmpdir = tempfile.mkdtemp('', 'tmp-introspect')
else:
self.tmpdir = tmpdir
class Unresolved(object):
def __init__(self, target):
self.target = target
class UnknownTypeError(Exception):
pass
class GDumpParser(object):
def __init__(self, transformer):
self._transformer = transformer
self._namespace = transformer.namespace
self._binary = None
self._get_type_functions = []
self._gtype_data = {}
self._boxed_types = {}
self._private_internal_types = {}
# Public API
def init_parse(self):
"""Do parsing steps that don't involve the introspection binary
This does enough work that get_type_functions() can be called.
"""
self._transformer.parse()
# First pass: parsing
for node in self._namespace.itervalues():
if isinstance(node, ast.Function):
self._initparse_function(node)
if self._namespace.name == 'GObject':
for node in self._namespace.itervalues():
if isinstance(node, ast.Record):
self._initparse_gobject_record(node)
def get_get_type_functions(self):
return self._get_type_functions
def set_introspection_binary(self, binary):
self._binary = binary
def parse(self):
"""Do remaining parsing steps requiring introspection binary"""
# Get all the GObject data by passing our list of get_type
# functions to the compiled binary, returning an XML blob.
tree = self._execute_binary_get_tree()
root = tree.getroot()
for child in root:
self._gtype_data[child.attrib['name']] = child
for child in root:
self._introspect_type(child)
# Pair up boxed types and class records
for name, boxed in self._boxed_types.iteritems():
self._pair_boxed_type(boxed)
for node in self._namespace.itervalues():
if isinstance(node, (ast.Class, ast.Interface)):
self._find_class_record(node)
# Clear the _get_type functions out of the namespace;
# Anyone who wants them can get them from the ast.Class/Interface/Boxed
to_remove = []
for name, node in self._namespace.iteritems():
if isinstance(node, (ast.Class, ast.Interface, glibast.GLibBoxed,
glibast.GLibEnum, glibast.GLibFlags)):
get_type_name = node.get_type
if get_type_name == 'intern':
continue
assert get_type_name, node
(ns, name) = self._transformer.split_csymbol(get_type_name)
assert ns is self._namespace
get_type_func = self._namespace.get(name)
assert get_type_func, name
to_remove.append(get_type_func)
for node in to_remove:
self._namespace.remove(node)
# Helper functions
def _execute_binary_get_tree(self):
"""Load the library (or executable), returning an XML
blob containing data gleaned from GObject's primitive introspection."""
in_path = os.path.join(self._binary.tmpdir, 'types.txt')
f = open(in_path, 'w')
# TODO: Introspect GQuark functions
for func in self._get_type_functions:
f.write(func)
f.write('\n')
f.close()
out_path = os.path.join(self._binary.tmpdir, 'dump.xml')
args = []
args.extend(self._binary.args)
args.append('--introspect-dump=%s,%s' % (in_path, out_path))
# Invoke the binary, having written our get_type functions to types.txt
try:
try:
subprocess.check_call(args, stdout=sys.stdout, stderr=sys.stderr)
except subprocess.CalledProcessError, e:
# Clean up temporaries
raise SystemExit(e)
return parse(out_path)
finally:
shutil.rmtree(self._binary.tmpdir)
def _create_gobject(self, node):
type_name = 'G' + node.name
if type_name == 'GObject':
parent_gitype = None
symbol = 'intern'
elif type_name == 'GInitiallyUnowned':
parent_gitype = ast.Type(target_giname='GObject.Object')
symbol = 'g_initially_unowned_get_type'
else:
assert False
gnode = glibast.GLibObject(node.name, parent_gitype, type_name, symbol, 'object', True)
if type_name == 'GObject':
gnode.fields.extend(node.fields)
else:
# http://bugzilla.gnome.org/show_bug.cgi?id=569408
# GInitiallyUnowned is actually a typedef for GObject, but
# that's not reflected in the GIR, where it appears as a
# subclass (as it appears in the GType hierarchy). So
# what we do here is copy all of the GObject fields into
# GInitiallyUnowned so that struct offset computation
# works correctly.
gnode.fields = self._namespace.get('Object').fields
self._namespace.append(gnode, replace=True)
# Parser
def _initparse_function(self, func):
symbol = func.symbol
if symbol.startswith('_'):
return
elif symbol.endswith('_get_type'):
self._initparse_get_type_function(func)
def _initparse_get_type_function(self, func):
if self._namespace.name == 'GLib':
# No GObjects in GLib
return False
if (self._namespace.name == 'GObject' and
func.symbol in ('g_object_get_type', 'g_initially_unowned_get_type')):
# We handle these internally, see _create_gobject
return True
if func.parameters:
return False
# GType *_get_type(void)
rettype = func.retval.type
if not (rettype.is_equiv(ast.TYPE_GTYPE)
or rettype.target_giname == 'Gtk.Type'):
self._transformer.log_warning("function returns '%r', not a GType"
% (func.retval.type, ))
return False
self._get_type_functions.append(func.symbol)
return True
def _initparse_gobject_record(self, record):
# Special handling for when we're parsing GObject
internal_names = ("Object", 'InitiallyUnowned')
if record.name in internal_names:
self._create_gobject(record)
return
if record.name == 'InitiallyUnownedClass':
record.fields = self._namespace.get('ObjectClass').fields
self._namespace.append(record, replace=True)
# Introspection over the data we get from the dynamic
# GObject/GType system out of the binary
def _introspect_type(self, xmlnode):
if xmlnode.tag in ('enum', 'flags'):
self._introspect_enum(xmlnode)
elif xmlnode.tag == 'class':
self._introspect_object(xmlnode)
elif xmlnode.tag == 'interface':
self._introspect_interface(xmlnode)
elif xmlnode.tag == 'boxed':
self._introspect_boxed(xmlnode)
elif xmlnode.tag == 'fundamental':
self._introspect_fundamental(xmlnode)
else:
raise ValueError("Unhandled introspection XML tag %s", xmlnode.tag)
def _introspect_enum(self, node):
members = []
for member in node.findall('member'):
# Keep the name closer to what we'd take from C by default;
# see http://bugzilla.gnome.org/show_bug.cgi?id=575613
name = member.attrib['nick'].replace('-', '_')
members.append(glibast.GLibEnumMember(name,
member.attrib['value'],
member.attrib['name'],
member.attrib['nick']))
klass = (glibast.GLibFlags if node.tag == 'flags' else glibast.GLibEnum)
type_name = node.attrib['name']
enum_name = self._transformer.strip_identifier_or_warn(type_name, fatal=True)
node = klass(enum_name, type_name, members, node.attrib['get-type'])
self._namespace.append(node, replace=True)
def _split_type_and_symbol_prefix(self, xmlnode):
"""Infer the C symbol prefix from the _get_type function."""
get_type = xmlnode.attrib['get-type']
(ns, name) = self._transformer.split_csymbol(get_type)
assert ns is self._namespace
assert name.endswith('_get_type')
return (get_type, name[:-len('_get_type')])
def _introspect_object(self, xmlnode):
type_name = xmlnode.attrib['name']
# We handle this specially above; in 2.16 and below there
# was no g_object_get_type, for later versions we need
# to skip it
if type_name == 'GObject':
return
is_abstract = bool(xmlnode.attrib.get('abstract', False))
(get_type, c_symbol_prefix) = self._split_type_and_symbol_prefix(xmlnode)
node = glibast.GLibObject(
self._transformer.strip_identifier_or_warn(type_name, fatal=True),
None,
type_name,
get_type, c_symbol_prefix, is_abstract)
self._parse_parents(xmlnode, node)
self._introspect_properties(node, xmlnode)
self._introspect_signals(node, xmlnode)
self._introspect_implemented_interfaces(node, xmlnode)
self._add_record_fields(node)
self._namespace.append(node, replace=True)
def _introspect_interface(self, xmlnode):
type_name = xmlnode.attrib['name']
(get_type, c_symbol_prefix) = self._split_type_and_symbol_prefix(xmlnode)
node = glibast.GLibInterface(
self._transformer.strip_identifier_or_warn(type_name, fatal=True),
None,
type_name, get_type, c_symbol_prefix)
self._introspect_properties(node, xmlnode)
self._introspect_signals(node, xmlnode)
for child in xmlnode.findall('prerequisite'):
name = child.attrib['name']
prereq = self._transformer.create_type_from_user_string(name)
node.prerequisites.append(prereq)
# GtkFileChooserEmbed is an example of a private interface, we
# just filter them out
if xmlnode.attrib['get-type'].startswith('_'):
self._private_internal_types[type_name] = node
else:
self._namespace.append(node, replace=True)
def _introspect_boxed(self, xmlnode):
type_name = xmlnode.attrib['name']
# This one doesn't go in the main namespace; we associate it with
# the struct or union
(get_type, c_symbol_prefix) = self._split_type_and_symbol_prefix(xmlnode)
node = glibast.GLibBoxed(type_name, get_type, c_symbol_prefix)
self._boxed_types[node.type_name] = node
def _introspect_implemented_interfaces(self, node, xmlnode):
gt_interfaces = []
for interface in xmlnode.findall('implements'):
gitype = self._transformer.create_type_from_user_string(interface.attrib['name'])
gt_interfaces.append(gitype)
node.interfaces = gt_interfaces
def _introspect_properties(self, node, xmlnode):
for pspec in xmlnode.findall('property'):
ctype = pspec.attrib['type']
flags = int(pspec.attrib['flags'])
readable = (flags & G_PARAM_READABLE) != 0
writable = (flags & G_PARAM_WRITABLE) != 0
construct = (flags & G_PARAM_CONSTRUCT) != 0
construct_only = (flags & G_PARAM_CONSTRUCT_ONLY) != 0
node.properties.append(ast.Property(
pspec.attrib['name'],
self._transformer.create_type_from_user_string(ctype),
readable, writable, construct, construct_only,
ctype,
))
node.properties = node.properties
def _introspect_signals(self, node, xmlnode):
for signal_info in xmlnode.findall('signal'):
rctype = signal_info.attrib['return']
rtype = self._transformer.create_type_from_user_string(rctype)
return_ = ast.Return(rtype)
parameters = []
for i, parameter in enumerate(signal_info.findall('param')):
if i == 0:
argname = 'object'
else:
argname = 'p%s' % (i-1, )
pctype = parameter.attrib['type']
ptype = self._transformer.create_type_from_user_string(pctype)
param = ast.Parameter(argname, ptype)
param.transfer = ast.PARAM_TRANSFER_NONE
parameters.append(param)
signal = glibast.GLibSignal(signal_info.attrib['name'], return_, parameters)
node.signals.append(signal)
node.signals = node.signals
def _parse_parents(self, xmlnode, node):
if 'parents' in xmlnode.attrib:
parent_types = map(lambda s: self._transformer.create_type_from_user_string(s),
xmlnode.attrib['parents'].split(','))
else:
parent_types = []
node.parent_chain = parent_types
def _introspect_fundamental(self, xmlnode):
# We only care about types that can be instantiatable, other
# fundamental types such as the Clutter.Fixed/CoglFixed registers
# are not yet interesting from an introspection perspective and
# are ignored
if not xmlnode.attrib.get('instantiatable', False):
return
type_name = xmlnode.attrib['name']
is_abstract = bool(xmlnode.attrib.get('abstract', False))
(get_type, c_symbol_prefix) = self._split_type_and_symbol_prefix(xmlnode)
node = glibast.GLibObject(
self._transformer.strip_identifier_or_warn(type_name, fatal=True),
None,
type_name,
get_type, c_symbol_prefix, is_abstract)
self._parse_parents(xmlnode, node)
node.fundamental = True
self._introspect_implemented_interfaces(node, xmlnode)
self._add_record_fields(node)
self._namespace.append(node, replace=True)
def _add_record_fields(self, node):
# add record fields
record = self._namespace.get(node.name)
if not isinstance(record, ast.Record):
return
node.fields = record.fields
for field in node.fields:
if isinstance(field, ast.Field):
# Object instance fields are assumed to be read-only
# (see also _find_class_record and transformer.py)
field.writable = False
def _pair_boxed_type(self, boxed):
name = self._transformer.strip_identifier_or_warn(boxed.type_name, fatal=True)
pair_node = self._namespace.get(name)
if not pair_node:
boxed_item = glibast.GLibBoxedOther(name, boxed.type_name,
boxed.get_type,
boxed.c_symbol_prefix)
elif isinstance(pair_node, ast.Record):
boxed_item = glibast.GLibBoxedStruct(pair_node.name, boxed.type_name,
boxed.get_type,
boxed.c_symbol_prefix)
boxed_item.inherit_file_positions(pair_node)
boxed_item.fields = pair_node.fields
elif isinstance(pair_node, ast.Union):
boxed_item = glibast.GLibBoxedUnion(pair_node.name, boxed.type_name,
boxed.get_type,
boxed.c_symbol_prefix)
boxed_item.inherit_file_positions(pair_node)
boxed_item.fields = pair_node.fields
else:
return False
self._namespace.append(boxed_item, replace=True)
def _strip_class_suffix(self, name):
if (name.endswith('Class') or
name.endswith('Iface')):
return name[:-5]
elif name.endswith('Interface'):
return name[:-9]
else:
return None
def _find_class_record(self, cls):
pair_record = None
if isinstance(cls, ast.Class):
pair_record = self._namespace.get(cls.name + 'Class')
else:
for suffix in ('Iface', 'Interface'):
pair_record = self._namespace.get(cls.name + suffix)
if pair_record:
break
if not (pair_record and isinstance(pair_record, ast.Record)):
return
gclass_struct = glibast.GLibRecord.from_record(pair_record)
self._namespace.append(gclass_struct, replace=True)
cls.glib_type_struct = gclass_struct.create_type()
cls.inherit_file_positions(pair_record)
gclass_struct.is_gtype_struct_for = cls.create_type()
|