/usr/share/pygobject/2.0/codegen/defsgen.py is in python-gobject-2-dev 2.28.6-12build1.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
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# -*- Mode: Python; py-indent-offset: 4 -*-
#
# Copyright (C) 2006-2009 John Finlay.
#
# Scan the given public .h files of a GTK module (or module using
# GTK object conventions) and generates a set of scheme defs.
#
# defsgen uses the ctypes module to extract information from the installed
# module library (or libraries) to generate the object, interface, function,
# method, virtual, enum and flags defs. defsgen uses the gobject library
# g_type_* functions. defsgen will try to open the "libgobject-2.0.so" library
# if one is not specified on the command line.
#
# Basically the operation of defsgen is:
#
# - open and initialize the gobject and module libraries
# - read each .h file into a buffer which is scrubbed of extraneous data
# - find all *_get_type() functions prototypes
# - look in the module libraries for the get_type symbols
# - if found run the get_type() function to retrieve the GType
# - find the parent type name and save the object info
# - find each function prototypes in the file and check if it has a symbol in
# the module libraries - save the info if found
# - extract the virtual prototypes from the Class or Iface structs and save
# - write out the various defs.
#
# The command line options are:
#
# -l --modulelib Adds the given module library name to the list to be used
# for finding symbols. Mor ethan one modulefile may be
# specified. (required)
# -L --libgobject Specifies the name of the gobject library (optional but
# must be specified if "libgobject-2.0.so" is not availble)
# -s --separate Create separate files for objects and function/method defs
# using the given name as the base name (optional). If this
# is not specified the combined object and function defs
# will be output to sys.stdout.
# -f --defsfile Extract defs from the given file to filter the output defs
# that is don't output defs that are defined in the
# defsfile. More than one deffile may be specified.
# -D --defines Include portions of the defsfile defs that are conditional
# on the given define, for example GDK_TARGET_X11. Only
# useful with the --defsfile option
# -m --modulename The prefix to be stripped from the front of function names
# for the given module
# -p --useprefix Use the modulename prefix as a hint to split names into
# module and name for object and enum defs. Also used for
# generating type codes.
# --onlyenums Only produce defs for enums and flags
# --onlyobjdefs Only produce defs for objects
# --onlyvirtuals Only produce defs for virtuals
# --genpropgetsets Experimental option to generate prop-getset annotations.
# Not supported by codegen.py and friends.
#
# Examples:
#
# python defsgen.py -m pango -l libpango-1.0.so \
# /usr/local/include/pango-1.0/pango/*.h >/tmp/pango.defs
#
# - Outputs all defs for the pango module.using the library module
# libpango-1.0.so.
#
# python defsgen.py -m gdk -DGDK_TARGET_X11 -l libgdk-x11-2.0.so \
# -l libgdk_pixbuf-2.0.so -s /tmp/gdk-2.10 \
# -f /usr/tmp/pygtk/gtk/gdk-base.defs \
# /usr/local/include/gtk-2.0/gdk/*.h \
# /usr/local/include/gtk-2.0/gdk-pixbuf/*.h
#
# - Outputs the gdk module defs that are not contained in the defs file
# /usr/tmp/pygtk/gtk/gdk-base.defs. Two output files are created:
# /tmp/gdk-2.10-types.defs and /tmp/gdk-2.10.defs.
#
# Based on the original h2def.py program by
# Toby D. Reeves <toby@max.rl.plh.af.mil> and
# modified by James Henstridge <james@daa.com.au> to output stuff in
# Havoc's new defs format. Info on this format can be seen at:
# http://www.gnome.org/mailing-lists/archives/gtk-devel-list/2000-January/0085.shtml
# Updated to be PEP-8 compatible and refactored to use OOP
# Extensively modified by John Finlay to use ctypes module to extract GType
# info from the given library and to create virtual defines.
#
import getopt
import os
import re, string
import sys
import ctypes
import defsparser
#------------------ utility defs -----------------
_upperstr_pat1 = re.compile(r'([^A-Z])([A-Z])')
_upperstr_pat2 = re.compile(r'([A-Z][A-Z])([A-Z][0-9a-z])')
_upperstr_pat3 = re.compile(r'^([A-Z])([A-Z])')
def to_upper_str(name):
"""Converts a typename to the equivalent uppercase and underscores
name. This is used to form the type conversion macros and enum/flag
name variables"""
name = _upperstr_pat1.sub(r'\1_\2', name)
name = _upperstr_pat2.sub(r'\1_\2', name)
name = _upperstr_pat3.sub(r'\1_\2', name, count=1)
return name.upper()
def typecode(typename, prefix, use_prefix):
"""create a typecode (eg. GTK_TYPE_WIDGET) from a typename"""
tcode = to_upper_str(typename)
if (use_prefix and prefix and tcode.lower() != prefix
and tcode.lower().startswith(prefix)):
l = len(prefix)
tcode = tcode[:l] + '_TYPE' + tcode[l:]
else:
tcode = tcode.replace('_', '_TYPE_', 1)
return tcode
_class_iface_pat = re.compile(r'\w+(Class|Iface)')
def class_iface_sub(mobj):
'''Returns matched string if it matches a Class or Iface struct
otherwise returns the empty string'''
if not _class_iface_pat.match(mobj.group(1)):
return ''
return mobj.group(0)
clean_patterns = [
# strip comments
(re.compile(r'/\*.*?\*/', re.DOTALL), ''),
# compact continued lines
(re.compile(r"\\\n", re.MULTILINE), ''),
# remove preprocess directives
(re.compile(r"""^[#].*?$""", re.MULTILINE), ''),
# strip DECLS macros and Windows DLL API macros
(re.compile(r"""G_BEGIN_DECLS|BEGIN_LIBGTOP_DECLS|G_END_DECLS|[A-Z]+_API """,
re.MULTILINE), ''),
# remove extern "C"
(re.compile(r'^\s*(extern)\s+"C"\s+{', re.MULTILINE), ''),
# remove singleline typedefs of stucts
(re.compile(r'^typedef\s+struct\s*[^{;\n]*;\s*$', re.MULTILINE), ''),
# remove all struct definitons but those for object classes and interfaces
(re.compile(r'^struct\s+(\w+)\s+{[^}]+}\s*;\s*$', re.MULTILINE),
class_iface_sub),
# compress multiple whitespace
(re.compile(r'\s+', re.MULTILINE), ' '),
# clean up line ends
(re.compile(r';\s*', re.MULTILINE), '\n'),
(re.compile(r'^\s*', re.MULTILINE), ''),
# associate *, &, and [] with type instead of variable
(re.compile(r' \s* ([*|&]+) \s* ([(\w]+)', re.VERBOSE), r'\1 \2'),
(re.compile(r'\s+ (\w+) \[ \s* \]', re.VERBOSE), r'[] \1'),
# make return types that are const work.
(re.compile(r'\s*\*\s*G_CONST_RETURN\s*\*\s*'), '** '),
(re.compile(r'G_CONST_RETURN |const '), 'const-'),
# remove typedefs of callback types
(re.compile(r'^typedef\s+\w+\s*\*?\s*\(\s*\*\s*\w+\)\s*\([^(]*\)\n',
re.MULTILINE), ''),
#strip GSEAL macros from the middle of function declarations:
(re.compile(r"""GSEAL""", re.VERBOSE), '')
]
def clean_buffer(buf):
"""Cleans out extraneous data leaving function prototypes, Class and Iface
structs."""
for pat, subst in clean_patterns:
buf = pat.sub(subst, buf)
return buf
# ------------------ utility classes -------------------------
class ObjDef(object):
def __init__(self, name, type_id, parent_name, parent_type, base_name):
self.name = name
self.type = type_id
self.parent_name = parent_name
self.parent_type = parent_type
self.base_name = base_name
self.props = []
return
def __cmp__(self, other):
try:
res = cmp(self.name, other.name)
except AttributeError:
res = cmp(id(self), id(other))
return res
def set_properties(self, gobj):
if self.base_name == 'GObject':
self.props = self._get_gobject_properties(gobj)
elif self.base_name == 'GInterface':
self.props = self._get_ginterface_properties(gobj)
def _get_gobject_properties(self, gobj):
klass = gobj.g_type_class_ref(self.type)
num = ctypes.c_uint()
plist = gobj.g_object_class_list_properties(klass, ctypes.byref(num))
props = [plist[i][0].name for i in range(num.value)
if self.name == gobj.g_type_name(plist[i][0].owner_type)]
return props
def _get_ginterface_properties(self, gobj):
iface = gobj.g_type_default_interface_ref(self.type)
num = ctypes.c_uint()
plist = gobj.g_object_interface_list_properties(iface,
ctypes.byref(num))
props = [plist[i][0].name for i in range(num.value)]
return props
# ------------------ Find object definitions -----------------
split_prefix_pat = re.compile('([A-Z]+[a-z]*)([A-Za-z0-9]+)')
get_type_pat = re.compile(r'''^\s*(GType|GtkType)\s+
([a-z]\w+_get_type)\s*(\(void\)|\(\)).*$''', re.VERBOSE | re.MULTILINE)
defkeys = 'GBoxed GInterface GObject gpointer GEnum GFlags'
def find_defs(buf, gobj, modlib, defs):
"""Find possible gobject, gboxed, interface, gpointer, enum and flags
definitions in header files.and find parent type."""
# find all *_get_type() functions that may represent a GObject
for m in get_type_pat.findall(buf):
func_name = m[1]
for lib in modlib:
if hasattr(lib, func_name):
objtype = apply(getattr(lib, func_name))
obj_name = gobj.g_type_name(objtype)
parent = gobj.g_type_parent(objtype)
parent_name = gobj.g_type_name(parent)
base_name = gobj.g_type_name(gobj.g_type_fundamental(parent))
#if gobj.g_type_is_a(parent, gobj.GObject):
# base_name = 'GObject'
if base_name in defkeys:
obj = ObjDef(obj_name, objtype, parent_name, parent,
base_name)
obj.set_properties(gobj)
defs[obj.base_name].append(obj)
break
return
# ------------------ Find function definitions -----------------
arg_split_pat = re.compile("\s*,\s*")
proto_pat=re.compile(r"""^
\s*((?:-|\w|\&|\*)+) # return type
\s+ # skip whitespace
([a-z]\w+)\s*[(] # match the function name until the opening (
\s*(.*?)\s*[)].* # group the function arguments
$""", re.IGNORECASE|re.VERBOSE|re.MULTILINE)
def find_func_defs(buf, modlib, deffile, defs, verbose):
'''Find function prototypes in buf that have symbols in modlib
and save in defs.'''
funcs = defs['funcs'][deffile] = []
for m in proto_pat.findall(buf):
ret, func, args = m
if not True in [hasattr(lib, func) for lib in modlib]:
if verbose:
sys.stderr.write('no symbol for function: ' + func
+ ' from file' + deffile + '\n')
else:
args = arg_split_pat.split(args)
args = [a.replace(' ','-', a.count(' ')-1) for a in args]
funcs.append((func, ret, args))
return
virtual_pat = re.compile(r'''^
\s*((?:-|\w|\&|\*)+) # return type
\s* # skip whitespace
\(\s*\*\s* # opening (
([a-z]\w+)\) # match the function name until the closing )
\s*\(\s*([^)]*)\).* # group the function arguments
$''', re.VERBOSE|re.MULTILINE)
class_iface_struct_pat = re.compile(
r'^struct\s+_(\w+)(?:Class|Iface)\s+{([^}]+)}\s*$', re.MULTILINE)
def find_virt_defs(buf, deffile, defs):
'''Find virtual function prototypes in buf and save in defs.'''
virts = defs['virts'][deffile] = []
# get the Class or Iface structs
for m in class_iface_struct_pat.findall(buf):
objname, virtuals = m
for v in virtual_pat.findall(virtuals):
ret, func, args = v
if 'reserved' in func or args == 'void':
continue
args = arg_split_pat.split(args)
args = [a.replace(' ','-', a.count(' ')-1) for a in args]
virts.append((func, ret, args, objname))
return
enum_pat = re.compile(r'^\s*typedef enum\s+{\s*([^}]*)}\s*([^\s]*)$',
re.MULTILINE)
values_splitter = re.compile(r'\s*,\s', re.MULTILINE)
def find_enums(buf, defs):
for vals, name in enum_pat.findall(buf):
if name != 'GdkCursorType':
isflags = '<<' in vals
entries = [val.split()[0] for val in values_splitter.split(vals)
if val.strip()]
if entries:
defs['untypedenums'][name] = (isflags, entries)
return
# ------------------ write definitions -----------------
type_pat = re.compile(r'(?:const-)?([A-Za-z0-9]+)\*?\s+')
pointer_pat = re.compile('(.*)\*$')
func_new_pat = re.compile('(\w+)_new$')
getset_pat = re.compile(r'^(?:get|set)_(.*)$')
def split_prefix(cname, prefix, use_prefix):
# use the module prefix to split the cname
pre = prefix.replace('_', '')
if use_prefix and cname.lower().startswith(pre):
l = len(pre)
module = cname[:l]
name = cname[l:]
else:
m = split_prefix_pat.match(cname)
if m:
module = m.group(1)
name = m.group(2)
return module, name
class DefsWriter:
def __init__(self, defs, fp=None, prefix=None, verbose=False,
defsfiles=None, defines={}, genpropgetsets=False,
useprefix=False):
self.defs = defs
self.use_prefix = useprefix
self.objnames = reduce(list.__add__,
[[o.name for o in defs[base]]
for base in defkeys.split()[:3]])
self.othernames = reduce(list.__add__,
[[o.name for o in defs[base]]
for base in defkeys.split()[3:]])
self.objifacedefs = dict(reduce(list.__add__,
[[(o.name, o) for o in defs[base]]
for base in defkeys.split()[1:3]]))
self.fp = (fp, sys.stdout)[not fp]
self.prefix = prefix
self.verbose = verbose
self.genpropgetsets = genpropgetsets
self._c_names={}
for defsfile in defsfiles:
filter = defsparser.DefsParser(defsfile, defines)
filter.startParsing()
self._c_names.update(filter.c_name)
for vdef in filter.virtuals:
self._c_names[vdef.of_object + '.' + vdef.name] = None
return
def write_func_defs(self, deffiles, onlyvirts=False):
filter = self._c_names
for deffile in deffiles:
self.fp.write('\n;; From %s\n\n' % os.path.basename(deffile))
if not onlyvirts:
for func, ret, args in self.defs['funcs'][deffile]:
if not func in filter:
self._write_func(func, ret, args)
for virt, ret, args, objname in self.defs['virts'][deffile]:
if not objname + '.' + virt in filter:
self._write_virt(objname, virt, ret, args)
self.fp.write('\n')
return
def write_enum_defs(self, fp=None):
fp = (fp, self.fp)[not fp]
klassptrs = {'GEnum':ctypes.POINTER(EnumClass),
'GFlags':ctypes.POINTER(FlagsClass)}
filter = self._c_names
objs = self.defs['GEnum'] + self.defs ['GFlags']
#objs.sort()
fp.write(';; Enumerations and Flags ...\n\n')
for obj in objs:
cname = name = obj.name
tcode = typecode(cname, self.prefix, self.use_prefix)
if cname in filter:
continue
if cname in self.defs['untypedenums']:
if tcode not in self.defs['typedefines']:
# no type define so skip and print as untyped enum
continue
self.defs['untypedenums'].pop(cname, None)
parent_name = obj.parent_name
klassptr = klassptrs[parent_name]
typename = parent_name.lower()[1:]
module = None
module, name = split_prefix(cname, self.prefix, self.use_prefix)
fp.write('(define-' + typename + ' ' + name + '\n')
if module:
fp.write(' (in-module "' + module + '")\n')
fp.write(' (c-name "' + cname + '")\n')
fp.write(' (gtype-id "' + tcode + '")\n')
fp.write(' (values\n')
classref = self.gobj.g_type_class_ref(obj.type)
itemclass = ctypes.cast(classref, klassptr).contents
for i in range(itemclass.n_values):
val = itemclass.values[i]
fp.write(' \'("%s" "%s")\n' % (val.value_nick,
val.value_name))
fp.write(' )\n')
fp.write(')\n\n')
if self.defs['untypedenums']:
self.write_untyped_enum_defs(fp)
return
def write_untyped_enum_defs(self, fp):
fp.write(';; Untyped enumerations and flags ...\n\n')
filter = self._c_names
for cname, (isflags, entries) in self.defs['untypedenums'].items():
if filter and cname in filter: continue
module, name = split_prefix(cname, self.prefix, self.use_prefix)
if isflags:
fp.write('(define-flags ' + name + '\n')
else:
fp.write('(define-enum ' + name + '\n')
if module:
fp.write(' (in-module "' + module + '")\n')
fp.write(' (c-name "' + cname + '")\n')
preindex = entries[0].rfind('_')
for ent in entries[1:]:
while (preindex > 0
and ent[:preindex] != entries[0][:preindex]):
preindex = ent[:preindex].rfind('_')
fp.write(' (values\n')
for ent in entries:
fp.write(' \'("%s" "%s")\n' %
(ent[preindex+1:].lower().replace('_', '-'), ent))
fp.write(' )\n')
fp.write(')\n\n')
def _write_obj_helper(self, obj, fp):
base_name = obj.base_name.lower()[1:]
cmodule = None
cname = name = obj.name
type_id = obj.type
parent_name = obj.parent_name
cmodule, name = split_prefix(cname, self.prefix, self.use_prefix)
fp.write('(define-' + base_name + ' ' + name + '\n')
if cmodule:
fp.write(' (in-module "' + cmodule + '")\n')
if base_name == 'object':
fp.write(' (parent "' + parent_name + '")\n')
fp.write(' (c-name "' + cname + '")\n')
fp.write(' (gtype-id "'
+ typecode(cname, self.prefix, self.use_prefix) + '")\n')
n = ctypes.c_uint()
ifaces = self.gobj.g_type_interfaces(type_id, ctypes.byref(n))
for i in range(n.value):
iface_name = self.gobj.g_type_name(ifaces[i])
if iface_name in self.interfaces:
fp.write(' (implements "%s")\n' % iface_name)
if base_name == 'interface':
prereq = self.gobj.g_type_interface_prerequisites(type_id,
ctypes.byref(n))
for i in range(n.value):
fp.write(' (prerequisite "%s")\n'
% self.gobj.g_type_name(prereq[i]))
# should do something about accessible fields
fp.write(')\n\n')
return
def write_obj_defs(self, fp=None):
fp = (fp, self.fp)[not fp]
fp.write(';; -*- scheme -*-\n')
filter = self._c_names
for base in defkeys.split()[:4]:
base_name = base.lower()[1:]
fp.write('; %s definitions ...\n\n' % base_name)
for obj in self.defs[base]:
if not obj.name in filter:
self._write_obj_helper(obj, fp)
return
def _write_func(self, name, ret, args):
if len(args) >= 1:
# methods must have at least one argument
munged_name = name.replace('_', '')
m = type_pat.match(args[0])
if m:
obj = m.group(1)
if munged_name.startswith(obj.lower()):
if obj not in self.othernames:
self._write_method(obj, name, ret, args)
return
fname = name
if self.prefix:
fname = re.sub('^'+self.prefix+'_', '', fname)
# it is either a constructor or normal function
self.fp.write('(define-function ' + fname + '\n')
self.fp.write(' (c-name "' + name + '")\n')
# Asume that a constructor function name
# ends with '_new' and it returns an object pointer.
m = func_new_pat.match(name)
r = pointer_pat.match(ret)
if m and r:
cname = ''
# get the type name by using the _get_type function
func = m.group(1) + '_get_type'
lib = [l for l in self.modlib if hasattr(l, func)]
if lib:
cname = self.gobj.g_type_name(apply(getattr(lib[0], func)))
if cname and self.gobj.g_type_from_name(r.group(1)):
self.fp.write(' (is-constructor-of "' + cname + '")\n')
self._write_return(ret)
self._write_arguments(args)
return
def _write_method(self, obj, name, ret, args):
regex = ''.join([c+'_?' for c in obj.lower()])
mname, count = re.subn(regex, '', name, 1)
if not count and self.prefix:
mname = re.sub('^'+self.prefix+'_', '', mname)
self.fp.write('(define-method ' + mname + '\n')
self.fp.write(' (of-object "' + obj + '")\n')
self.fp.write(' (c-name "' + name + '")\n')
m = getset_pat.match(mname)
if self.genpropgetsets and m and len(args[1:]) <= 1:
prop = m.group(1)
if obj in self.objifacedefs:
oidef = self.objifacedefs[obj]
if prop.replace('_', '-') in oidef.props:
self.fp.write(' (prop-getset "' + prop + '")\n')
self._write_return(ret)
self._write_arguments(args[1:])
return
def _write_virt(self, obj, name, ret, args):
self.fp.write('(define-virtual ' + name + '\n')
self.fp.write(' (of-object "' + obj + '")\n')
self._write_return(ret)
self._write_arguments(args[1:])
return
def _write_return(self, ret):
if ret == 'void':
ret = 'none'
self.fp.write(' (return-type "' + ret + '")\n')
return
def _write_arguments(self, args):
if args and not 'void' in args:
varargs = ''
self.fp.write(' (parameters\n')
for arg in args:
if arg == '...':
varargs = ' (varargs #t)\n'
else:
tupleArg = tuple(arg.split())
if len(tupleArg) == 2:
self.fp.write(' \'("%s" "%s")\n' % tupleArg)
self.fp.write(' )\n' + varargs)
self.fp.write(')\n\n')
# ---------- ctypes support classes for gobject library functions ----------
GType = ctypes.c_uint
class GTypeClass(ctypes.Structure):
_fields_ = [('g_type', GType)]
class GTypeInstance(ctypes.Structure):
_fields_ = [('g_class', ctypes.POINTER(GTypeClass))]
class EnumValue(ctypes.Structure):
_fields_ = [('value', ctypes.c_int),
('value_name', ctypes.c_char_p),
('value_nick', ctypes.c_char_p)]
class FlagsValue(ctypes.Structure):
_fields_ = [('value', ctypes.c_uint),
('value_name', ctypes.c_char_p),
('value_nick', ctypes.c_char_p)]
class EnumClass(ctypes.Structure):
_fields_ = [('g_type_class', GTypeClass),
('minimum', ctypes.c_int),
('maximum', ctypes.c_int),
('n_values', ctypes.c_uint),
('values', ctypes.POINTER(EnumValue))]
class FlagsClass(ctypes.Structure):
_fields_ = [('g_type_class', GTypeClass),
('mask', ctypes.c_uint),
('n_values', ctypes.c_uint),
('values', ctypes.POINTER(FlagsValue))]
class GTypeInterface(ctypes.Structure):
_fields_ = [('g_type', GType),
('g_instance_type', GType)]
class GParamSpec(ctypes.Structure):
_fields_ = [('g_type_instance', GTypeInstance),
('name', ctypes.c_char_p),
('flags', ctypes.c_uint),
('value_type', GType),
('owner_type', GType)]
# ------------------ Main function -----------------
def main(args):
verbose = False
all = True
onlyenums = False
onlyobjdefs = False
onlyvirtuals = False
separate = False
modulename = None
defsfiles = []
libgobject = None
modulelibs = []
defines = {}
genpropgetsets = False
use_prefix = False
opts, args = getopt.getopt(args[1:], 'vs:m:f:D:L:l:p',
['onlyenums', 'onlyobjdefs', 'onlyvirtuals',
'modulename=', 'separate=',
'defsfile=', 'defines=', 'genpropgetsets',
'libgobject-', 'modulelib=', 'useprefix'])
for o, v in opts:
if o == '-v':
verbose = True
if o == '--onlyenums':
onlyenums = True
all = False
if o == '--onlyvirtuals':
onlyvirtuals = True
all = False
if o == '--onlyobjdefs':
onlyobjdefs = True
all = False
if o in ('-p', '--useprefix'):
use_prefix = True
if o == '--genpropgetsets':
genpropgetsets = True
if o in ('-s', '--separate'):
separate = v
if o in ('-m', '--modulename'):
modulename = v
if o in ('-L', '--libgobject'):
libgobject = v
if o in ('-l', '--modulelib'):
modulelibs.append(v)
if o in ('-f', '--defsfile'):
defsfiles.append(v)
if o in ('-D', '--defines'):
nameval = v.split('=')
try:
defines[nameval[0]] = nameval[1]
except IndexError:
defines[nameval[0]] = None
if not args[0:1]:
print 'Must specify at least one input file name'
return -1
if not modulelibs:
print 'Must specify one or more modulelib names'
return -1
# load the gobject and module libraries and init the gtype system
if not libgobject:
if verbose:
sys.stderr.write('Using "libgobject-2.0.so" as the libobject' \
'library name by default\n')
gobj = ctypes.cdll.LoadLibrary('libgobject-2.0.so')
else:
gobj = ctypes.cdll.LoadLibrary(libgobject)
modlib = [ctypes.cdll.LoadLibrary(lib) for lib in modulelibs]
gobj.g_type_init()
gobj.g_type_name.restype = ctypes.c_char_p
gobj.g_type_from_name.argtypes = [ctypes.c_char_p]
gobj.g_type_interfaces.restype = ctypes.POINTER(ctypes.c_int)
gobj.g_type_interface_prerequisites.restype = ctypes.POINTER(ctypes.c_int)
gobj.g_object_class_list_properties.restype = ctypes.POINTER(ctypes.POINTER(GParamSpec))
gobj.g_object_interface_list_properties.restype = ctypes.POINTER(ctypes.POINTER(GParamSpec))
gobj.GObject = gobj.g_type_from_name('GObject')
gobj.g_object_new(gobj.GObject, None)
defs = {}
for key in defkeys.split():
defs[key] = []
defs['funcs'] = {}
defs['virts'] = {}
defs['untypedenums'] = {}
defs['typedefines'] = []
# read in all the object and function definitions
args.sort()
type_define_pat = re.compile(
r'^#define\s+([A-Z]\S+_TYPE_\S+)\s+.*[a-z]\w+_get_type.*$',
re.MULTILINE)
for filename in args:
buf = open(filename).read()
defs['typedefines'] += type_define_pat.findall(buf)
buf = clean_buffer(buf)
find_enums(buf, defs)
find_defs(buf, gobj, modlib, defs)
find_func_defs(buf, modlib, filename, defs, verbose)
find_virt_defs(buf, filename, defs)
for key in defkeys.split():
defs[key].sort()
methods = types = None
if separate:
methods = file(separate + '.defs', 'w')
types = file(separate + '-types.defs', 'w')
dw = DefsWriter(defs, methods, prefix=modulename, verbose=verbose,
defsfiles=defsfiles, defines=defines,
genpropgetsets=genpropgetsets, useprefix=use_prefix)
dw.interfaces = [i.name for i in defs['GInterface']]
dw.gobj = gobj
dw.modlib = modlib
if onlyobjdefs or all:
dw.write_obj_defs(types)
if separate:
print "Wrote object defs to %s-types.defs" % separate
if onlyenums or all:
dw.write_enum_defs(types)
if separate:
print "Wrote enum and flags defs to %s-types.defs" % separate
if onlyvirtuals or all:
dw.write_func_defs(args, onlyvirtuals)
if separate:
print "Wrote function and virtual defs to %s.defs" % separate
if __name__ == '__main__':
sys.exit(main(sys.argv))
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