gstreamer/codegen/codegen.py

import sys, os, string
import getopt, traceback, keyword
import defsparser, argtypes, override
import definitions
import reversewrapper

class Coverage(object):
    def __init__(self, name):
        self.name = name
        self.wrapped = 0
        self.not_wrapped = 0
    def declare_wrapped(self):
        self.wrapped += 1
    def declare_not_wrapped(self):
        self.not_wrapped += 1
    def printstats(self):
        total = (self.wrapped + self.not_wrapped)
        if total:
            print >> sys.stderr, "***INFO*** The coverage of %s is %.2f%% (%i/%i)" %\
                  (self.name, float(self.wrapped*100)/total, self.wrapped, total)
        else:
            print >> sys.stderr, "***INFO*** There are no declared %s." %\
                  (self.name, )

functions_coverage = Coverage("global functions")
methods_coverage = Coverage("methods")
vproxies_coverage = Coverage("virtual proxies")
vaccessors_coverage = Coverage("virtual accessors")
iproxies_coverage = Coverage("interface proxies")

def exc_info():
    #traceback.print_exc()
    etype, value, tb = sys.exc_info()
    ret = ""
    try:
        sval = str(value)
        if etype == KeyError:
            ret = "No ArgType for %s" % (sval,)
        else:
            ret = sval
    finally:
        del etype, value, tb
    return ret

def fixname(name):
    if keyword.iskeyword(name):
	return name + '_'
    return name

class FileOutput:
    '''Simple wrapper for file object, that makes writing #line
    statements easier.''' # "
    def __init__(self, fp, filename=None):
        self.fp = fp
        self.lineno = 1
        if filename:
            self.filename = filename
        else:
            self.filename = self.fp.name
    # handle writing to the file, and keep track of the line number ...
    def write(self, str):
        self.fp.write(str)
        self.lineno = self.lineno + string.count(str, '\n')
    def writelines(self, sequence):
        for line in sequence:
            self.write(line)
    def close(self):
        self.fp.close()
    def flush(self):
        self.fp.flush()

    def setline(self, linenum, filename):
        '''writes out a #line statement, for use by the C
        preprocessor.''' # "
        self.write('#line %d "%s"\n' % (linenum, filename))
    def resetline(self):
        '''resets line numbering to the original file'''
        self.setline(self.lineno + 1, self.filename)

class Wrapper:
    type_tmpl = \
        'PyTypeObject Py%(typename)s_Type = {\n' \
        '    PyObject_HEAD_INIT(NULL)\n' \
        '    0,					/* ob_size */\n' \
        '    "%(classname)s",			/* tp_name */\n' \
        '    sizeof(%(tp_basicsize)s),	        /* tp_basicsize */\n' \
        '    0,					/* tp_itemsize */\n' \
        '    /* methods */\n' \
        '    (destructor)%(tp_dealloc)s,	/* tp_dealloc */\n' \
        '    (printfunc)0,			/* tp_print */\n' \
        '    (getattrfunc)%(tp_getattr)s,	/* tp_getattr */\n' \
        '    (setattrfunc)%(tp_setattr)s,	/* tp_setattr */\n' \
        '    (cmpfunc)%(tp_compare)s,		/* tp_compare */\n' \
        '    (reprfunc)%(tp_repr)s,		/* tp_repr */\n' \
        '    (PyNumberMethods*)%(tp_as_number)s,     /* tp_as_number */\n' \
        '    (PySequenceMethods*)%(tp_as_sequence)s, /* tp_as_sequence */\n' \
        '    (PyMappingMethods*)%(tp_as_mapping)s,   /* tp_as_mapping */\n' \
        '    (hashfunc)%(tp_hash)s,		/* tp_hash */\n' \
        '    (ternaryfunc)%(tp_call)s,		/* tp_call */\n' \
        '    (reprfunc)%(tp_str)s,		/* tp_str */\n' \
        '    (getattrofunc)%(tp_getattro)s,	/* tp_getattro */\n' \
        '    (setattrofunc)%(tp_setattro)s,	/* tp_setattro */\n' \
        '    (PyBufferProcs*)%(tp_as_buffer)s,	/* tp_as_buffer */\n' \
        '    %(tp_flags)s,                      /* tp_flags */\n' \
        '    NULL, 				/* Documentation string */\n' \
        '    (traverseproc)%(tp_traverse)s,	/* tp_traverse */\n' \
        '    (inquiry)%(tp_clear)s,		/* tp_clear */\n' \
        '    (richcmpfunc)%(tp_richcompare)s,	/* tp_richcompare */\n' \
        '    %(tp_weaklistoffset)s,             /* tp_weaklistoffset */\n' \
        '    (getiterfunc)%(tp_iter)s,		/* tp_iter */\n' \
        '    (iternextfunc)%(tp_iternext)s,	/* tp_iternext */\n' \
        '    %(tp_methods)s,			/* tp_methods */\n' \
        '    0,					/* tp_members */\n' \
        '    %(tp_getset)s,		       	/* tp_getset */\n' \
        '    NULL,				/* tp_base */\n' \
        '    NULL,				/* tp_dict */\n' \
        '    (descrgetfunc)%(tp_descr_get)s,	/* tp_descr_get */\n' \
        '    (descrsetfunc)%(tp_descr_set)s,	/* tp_descr_set */\n' \
        '    %(tp_dictoffset)s,                 /* tp_dictoffset */\n' \
        '    (initproc)%(tp_init)s,		/* tp_init */\n' \
        '    (allocfunc)%(tp_alloc)s,           /* tp_alloc */\n' \
        '    (newfunc)%(tp_new)s,               /* tp_new */\n' \
        '    (freefunc)%(tp_free)s,             /* tp_free */\n' \
        '    (inquiry)%(tp_is_gc)s              /* tp_is_gc */\n' \
        '};\n\n'

    slots_list = ['tp_getattr', 'tp_setattr', 'tp_getattro', 'tp_setattro',
                  'tp_compare', 'tp_repr',
                  'tp_as_number', 'tp_as_sequence', 'tp_as_mapping', 'tp_hash',
                  'tp_call', 'tp_str', 'tp_as_buffer', 'tp_richcompare', 'tp_iter',
                  'tp_iternext', 'tp_descr_get', 'tp_descr_set', 'tp_init',
                  'tp_alloc', 'tp_new', 'tp_free', 'tp_is_gc',
                  'tp_traverse', 'tp_clear', 'tp_dealloc', 'tp_flags']

    getter_tmpl = \
        'static PyObject *\n' \
        '%(funcname)s(PyObject *self, void *closure)\n' \
        '{\n' \
        '%(varlist)s' \
        '    ret = %(field)s;\n' \
        '%(codeafter)s\n' \
        '}\n\n'
    
    parse_tmpl = \
        '    if (!PyArg_ParseTupleAndKeywords(args, kwargs, "%(typecodes)s:%(name)s"%(parselist)s))\n' \
        '        return %(errorreturn)s;\n'

    deprecated_tmpl = \
        '    if (PyErr_Warn(PyExc_DeprecationWarning, "%(deprecationmsg)s") < 0)\n' \
        '        return %(errorreturn)s;\n'

    methdef_tmpl = '    { "%(name)s", (PyCFunction)%(cname)s, %(flags)s },\n'

    noconstructor = \
        'static int\n' \
        'pygobject_no_constructor(PyObject *self, PyObject *args, PyObject *kwargs)\n' \
        '{\n' \
        '    gchar buf[512];\n' \
        '\n' \
        '    g_snprintf(buf, sizeof(buf), "%s is an abstract widget", self->ob_type->tp_name);\n' \
        '    PyErr_SetString(PyExc_NotImplementedError, buf);\n' \
        '    return -1;\n' \
        '}\n\n'

    function_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    %(setreturn)s%(cname)s(%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '}\n\n'

    virtual_accessor_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyObject *cls%(extraparams)s)\n' \
        '{\n' \
        '    gpointer klass;\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    klass = g_type_class_ref(pyg_type_from_object(cls));\n' \
        '    if (%(class_cast_macro)s(klass)->%(virtual)s)\n' \
        '        %(setreturn)s%(class_cast_macro)s(klass)->%(virtual)s(%(arglist)s);\n' \
        '    else {\n' \
        '        PyErr_SetString(PyExc_NotImplementedError, ' \
        '"virtual method %(name)s not implemented");\n' \
        '        g_type_class_unref(klass);\n' \
        '        return NULL;\n' \
        '    }\n' \
        '    g_type_class_unref(klass);\n' \
        '%(codeafter)s\n' \
        '}\n\n'

    # template for method calls
    constructor_tmpl = None
    method_tmpl = None

    def __init__(self, parser, objinfo, overrides, fp=FileOutput(sys.stdout)):
        self.parser = parser
        self.objinfo = objinfo
        self.overrides = overrides
        self.fp = fp

    def get_lower_name(self):
        return string.lower(string.replace(self.objinfo.typecode,
                                           '_TYPE_', '_', 1))

    def get_field_accessor(self, fieldname):
        raise NotImplementedError

    def get_initial_class_substdict(self): return {}

    def get_initial_constructor_substdict(self, constructor):
        return { 'name': '%s.__init__' % self.objinfo.c_name,
                 'errorreturn': '-1' }
    def get_initial_method_substdict(self, method):
        return { 'name': '%s.%s' % (self.objinfo.c_name, method.name) }

    def write_class(self):
        self.fp.write('\n/* ----------- ' + self.objinfo.c_name + ' ----------- */\n\n')
        substdict = self.get_initial_class_substdict()
        if not substdict.has_key('tp_flags'):
            substdict['tp_flags'] = 'Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE'
        substdict['typename'] = self.objinfo.c_name
        if self.overrides.modulename:
            substdict['classname'] = '%s.%s' % (self.overrides.modulename,
                                           self.objinfo.name)
        else:
            substdict['classname'] = self.objinfo.name

        # Maybe this could be done in a nicer way, but I'll leave it as it is
        # for now: -- Johan
        if not self.overrides.slot_is_overriden('%s.tp_init' % self.objinfo.c_name):
            substdict['tp_init'] = self.write_constructor()
        substdict['tp_methods'] = self.write_methods()
        substdict['tp_getset'] = self.write_getsets()

        # handle slots ...
        for slot in self.slots_list:
            
            slotname = '%s.%s' % (self.objinfo.c_name, slot)
            slotfunc = '_wrap_%s_%s' % (self.get_lower_name(), slot)
            if slot[:6] == 'tp_as_':
                slotfunc = '&' + slotfunc
            if self.overrides.slot_is_overriden(slotname):
                data = self.overrides.slot_override(slotname)
                self.write_function(slotname, data)
                substdict[slot] = slotfunc
            else:
                if not substdict.has_key(slot):
                    substdict[slot] = '0'
    
        self.fp.write(self.type_tmpl % substdict)

        self.write_virtuals()

    def write_function_wrapper(self, function_obj, template,
                               handle_return=0, is_method=0, kwargs_needed=0,
                               substdict=None):
        '''This function is the guts of all functions that generate
        wrappers for functions, methods and constructors.'''
        if not substdict: substdict = {}
        
        info = argtypes.WrapperInfo()

        substdict.setdefault('errorreturn', 'NULL')

        # for methods, we want the leading comma
        if is_method:
            info.arglist.append('')

        if function_obj.varargs:
            raise ValueError, "varargs functions not supported"

        for param in function_obj.params:
            if param.pdflt and '|' not in info.parsestr:
                info.add_parselist('|', [], [])
            handler = argtypes.matcher.get(param.ptype)
            handler.write_param(param.ptype, param.pname, param.pdflt,
                                param.pnull, info)

        substdict['setreturn'] = ''
        if handle_return:
            if function_obj.ret not in ('none', None):
                substdict['setreturn'] = 'ret = '
            handler = argtypes.matcher.get(function_obj.ret)
            handler.write_return(function_obj.ret,
                                 function_obj.caller_owns_return, info)

        if function_obj.deprecated != None:
            deprecated = self.deprecated_tmpl % {
                'deprecationmsg': function_obj.deprecated,
                'errorreturn': substdict['errorreturn'] }
        else:
            deprecated = ''

        # if name isn't set, set it to function_obj.name
        substdict.setdefault('name', function_obj.name)

        if self.objinfo:
            substdict['typename'] = self.objinfo.c_name
        substdict.setdefault('cname',  function_obj.c_name)
        substdict['varlist'] = info.get_varlist()
        substdict['typecodes'] = info.parsestr
        substdict['parselist'] = info.get_parselist()
        substdict['arglist'] = info.get_arglist()
        substdict['codebefore'] = deprecated + \
            string.replace(info.get_codebefore(),
            'return NULL', 'return ' + substdict['errorreturn'])
        substdict['codeafter'] = string.replace(info.get_codeafter(),
            'return NULL', 'return ' + substdict['errorreturn'])

        if info.parsestr or kwargs_needed:
            substdict['parseargs'] = self.parse_tmpl % substdict
            substdict['extraparams'] = ', PyObject *args, PyObject *kwargs'
            flags = 'METH_VARARGS|METH_KEYWORDS'

            # prepend the keyword list to the variable list
            substdict['varlist'] = info.get_kwlist() + substdict['varlist']
        else:
            substdict['parseargs'] = ''
            substdict['extraparams'] = ''
            flags = 'METH_NOARGS'

        return template % substdict, flags

    def write_constructor(self):
        initfunc = '0'
        constructor = self.parser.find_constructor(self.objinfo,self.overrides)
        if constructor:
            funcname = constructor.c_name
            try:
                if self.overrides.is_overriden(funcname):
                    data = self.overrides.override(funcname)
                    self.write_function(funcname, data)
                else:
                    # ok, a hack to determine if we should use new-style constructores :P
                    if getattr(self, 'write_property_based_constructor', None) is not None:
                        if (len(constructor.params) == 0 or
                            isinstance(constructor.params[0], definitions.Property)):
                            # write_property_based_constructor is only
                            # implemented in GObjectWrapper
                            return self.write_property_based_constructor(constructor)
                        else:
                            print >> sys.stderr, "Warning: generating old-style constructor for",\
                                  constructor.c_name
                    # write constructor from template ...
                    code = self.write_function_wrapper(constructor,
                        self.constructor_tmpl,
                        handle_return=0, is_method=0, kwargs_needed=1,
                        substdict=self.get_initial_constructor_substdict(constructor))[0]
                    self.fp.write(code)
                initfunc = '_wrap_' + funcname
            except:
                sys.stderr.write('Could not write constructor for %s: %s\n' 
                                 % (self.objinfo.c_name, exc_info()))
                initfunc = self.write_noconstructor()
        else:
            initfunc = self.write_default_constructor()
        return initfunc

    def write_noconstructor(self):
        # this is a hack ...
        if not hasattr(self.overrides, 'no_constructor_written'):
            self.fp.write(self.noconstructor)
            self.overrides.no_constructor_written = 1
        initfunc = 'pygobject_no_constructor'
        return initfunc

    def write_default_constructor(self):
        return self.write_noconstructor()

    def get_methflags(self, funcname):
        if self.overrides.wants_kwargs(funcname):
            return 'METH_VARARGS|METH_KEYWORDS'
        elif self.overrides.wants_noargs(funcname):
            return 'METH_NOARGS'
        else:
            return 'METH_VARARGS'

    def write_function(self, funcname, data):
        lineno, filename = self.overrides.getstartline(funcname)
        self.fp.setline(lineno, filename)
        self.fp.write(data)
        self.fp.resetline()
        self.fp.write('\n\n')

    def _get_class_virtual_substdict(self, meth, cname, parent):
        substdict = self.get_initial_method_substdict(meth)
        substdict['virtual'] = substdict['name'].split('.')[1]
        substdict['cname'] = cname
        substdict['class_cast_macro'] = parent.typecode.replace('_TYPE_', '_', 1) + "_CLASS"
        substdict['typecode'] = self.objinfo.typecode
        substdict['cast'] = string.replace(parent.typecode, '_TYPE_', '_', 1)
        return substdict

    def write_methods(self):
        methods = []
        klass = self.objinfo.c_name
        # First, get methods from the defs files
        for meth in self.parser.find_methods(self.objinfo):
            method_name = meth.c_name
            if self.overrides.is_ignored(method_name):
                continue
            try:
                if self.overrides.is_overriden(method_name):
                    if not self.overrides.is_already_included(method_name):
                        data = self.overrides.override(method_name)
                        self.write_function(method_name, data) 

                    methflags = self.get_methflags(method_name)
                else:
                    # write constructor from template ...
                    code, methflags = self.write_function_wrapper(meth,
                        self.method_tmpl, handle_return=1, is_method=1,
                        substdict=self.get_initial_method_substdict(meth))
                    self.fp.write(code)
                methods.append(self.methdef_tmpl %
                               { 'name':  fixname(meth.name),
                                 'cname': '_wrap_' + method_name,
                                 'flags': methflags})
                methods_coverage.declare_wrapped()
            except:
                methods_coverage.declare_not_wrapped()
                sys.stderr.write('Could not write method %s.%s: %s\n'
                                % (klass, meth.name, exc_info()))

        # Now try to see if there are any defined in the override
        for method_name in self.overrides.get_defines_for(klass):
            c_name = override.class2cname(klass, method_name)
            if self.overrides.is_already_included(method_name):
                continue

            try:
                data = self.overrides.define(klass, method_name)
                self.write_function(method_name, data) 
                methflags = self.get_methflags(method_name)

                methods.append(self.methdef_tmpl %
                               { 'name':  method_name,
                                 'cname': '_wrap_' + c_name,
                                 'flags': methflags})
                methods_coverage.declare_wrapped()
            except:
                methods_coverage.declare_not_wrapped()
                sys.stderr.write('Could not write method %s.%s: %s\n'
                                % (klass, meth.name, exc_info()))

        # Add GObject virtual method accessors, for chaining to parent
        # virtuals from subclasses
        methods += self.write_virtual_accessors()
            
        if methods:
            methoddefs = '_Py%s_methods' % self.objinfo.c_name
            # write the PyMethodDef structure
            methods.append('    { NULL, NULL, 0 }\n')
            self.fp.write('static PyMethodDef %s[] = {\n' % methoddefs)
            self.fp.write(string.join(methods, ''))
            self.fp.write('};\n\n')
        else:
            methoddefs = 'NULL'
        return methoddefs

    def write_virtual_accessors(self):
        klass = self.objinfo.c_name
        methods = []
        for meth in self.parser.find_virtuals(self.objinfo):
            method_name = self.objinfo.c_name + "__do_" + meth.name
            if self.overrides.is_ignored(method_name):
                continue
            try:
                if self.overrides.is_overriden(method_name):
                    if not self.overrides.is_already_included(method_name):
                        data = self.overrides.override(method_name)
                        self.write_function(method_name, data)
                    methflags = self.get_methflags(method_name)
                else:
                    # temporarily add a 'self' parameter as first argument
                    meth.params.insert(0, definitions.Parameter(
                        ptype=(self.objinfo.c_name + '*'),
                        pname='self', pdflt=None, pnull=None))
                    try:
                        # write method from template ...
                        code, methflags = self.write_function_wrapper(meth,
                            self.virtual_accessor_tmpl, handle_return=True, is_method=False,
                            substdict=self._get_class_virtual_substdict(meth, method_name, self.objinfo))
                        self.fp.write(code)
                    finally:
                        del meth.params[0]
                methods.append(self.methdef_tmpl %
                               { 'name':  "do_" + fixname(meth.name),
                                 'cname': '_wrap_' + method_name,
                                 'flags': methflags + '|METH_CLASS'})
                vaccessors_coverage.declare_wrapped()
            except:
                vaccessors_coverage.declare_not_wrapped()
                sys.stderr.write('Could not write virtual accessor method %s.%s: %s\n'
                                % (klass, meth.name, exc_info()))
        return methods

    def write_virtuals(self):
        '''Write _wrap_FooBar__proxy_do_zbr() reverse wrapers for GObject virtuals'''
        klass = self.objinfo.c_name
        virtuals = []
        for meth in self.parser.find_virtuals(self.objinfo):
            method_name = self.objinfo.c_name + "__proxy_do_" + meth.name
            if self.overrides.is_ignored(method_name):
                continue
            try:
                if self.overrides.is_overriden(method_name):
                    if not self.overrides.is_already_included(method_name):
                        data = self.overrides.override(method_name)
                        self.write_function(method_name, data)
                else:
                    # write virtual proxy ...
                    ret, props = argtypes.matcher.get_reverse_ret(meth.ret)
                    wrapper = reversewrapper.ReverseWrapper(
                        '_wrap_' + method_name, is_static=True)
                    wrapper.set_return_type(ret(wrapper, **props))
                    wrapper.add_parameter(reversewrapper.PyGObjectMethodParam(
                        wrapper, "self", method_name="do_" + meth.name,
                        c_type=(klass + ' *')))
                    for param in meth.params:
                        handler, props = argtypes.matcher.get_reverse(param.ptype)
                        wrapper.add_parameter(handler(wrapper, param.pname, **props))
                    buf = reversewrapper.MemoryCodeSink()
                    wrapper.generate(buf)
                    self.fp.write(buf.flush())
                virtuals.append((fixname(meth.name), '_wrap_' + method_name))
                vproxies_coverage.declare_wrapped()
            except KeyError:
                vproxies_coverage.declare_not_wrapped()
                virtuals.append((fixname(meth.name), None))
                sys.stderr.write('Could not write virtual proxy %s.%s: %s\n'
                                % (klass, meth.name, exc_info()))
        if virtuals:
            # Write a 'pygtk class init' function for this object,
            # except when the object type is explicitly ignored (like
            # GtkPlug and GtkSocket on win32).
            if self.overrides.is_ignored(self.objinfo.typecode):
                return
            class_cast_macro = self.objinfo.typecode.replace('_TYPE_', '_', 1) + "_CLASS"
            cast_macro = self.objinfo.typecode.replace('_TYPE_', '_', 1)
            funcname = "__%s_class_init" % klass
            self.objinfo.class_init_func = funcname
            have_implemented_virtuals = not not [True for name, cname in virtuals
                                                          if cname is not None]
            self.fp.write(('\nstatic int\n'
                           '%(funcname)s(gpointer gclass, PyTypeObject *pyclass)\n'
                           '{\n') % vars())

            if have_implemented_virtuals:
                self.fp.write('    PyObject *o;\n')
                self.fp.write(
                    '    %(klass)sClass *klass = %(class_cast_macro)s(gclass);\n'
                    % vars())
                
            for name, cname in virtuals:
                do_name = 'do_' + name
                if cname is None:
                    self.fp.write('\n    /* overriding %(do_name)s '
                                  'is currently not supported */\n' % vars())
                else:
                    self.fp.write('''
    if ((o = PyDict_GetItemString(pyclass->tp_dict, "%(do_name)s"))
        && !PyObject_TypeCheck(o, &PyCFunction_Type))
        klass->%(name)s = %(cname)s;\n''' % vars())
            self.fp.write('    return 0;\n}\n')
    
    def write_getsets(self):
        lower_name = self.get_lower_name()
        getsets_name = lower_name + '_getsets'
        getterprefix = '_wrap_' + lower_name + '__get_'
        setterprefix = '_wrap_' + lower_name + '__set_'

        # no overrides for the whole function.  If no fields, don't write a func
        if not self.objinfo.fields:
            return '0'
        getsets = []
        for ftype, fname in self.objinfo.fields:
            gettername = '0'
            settername = '0'
            attrname = self.objinfo.c_name + '.' + fname
            if self.overrides.attr_is_overriden(attrname): 
                code = self.overrides.attr_override(attrname)
                self.write_function(attrname, code)
                if string.find(code, getterprefix + fname) >= 0:
                    gettername = getterprefix + fname
                if string.find(code, setterprefix + fname) >= 0:
                    settername = setterprefix + fname
            if gettername == '0':
                try:
                    funcname = getterprefix + fname
                    info = argtypes.WrapperInfo()
                    handler = argtypes.matcher.get(ftype)
                    # for attributes, we don't own the "return value"
                    handler.write_return(ftype, 0, info)
                    self.fp.write(self.getter_tmpl %
                                  { 'funcname': funcname,
                                    'varlist': info.varlist,
                                    'field': self.get_field_accessor(fname),
                                    'codeafter': info.get_codeafter() })
                    gettername = funcname
                except:
                    sys.stderr.write("Could not write getter for %s.%s: %s\n"
                                     % (self.objinfo.c_name, fname, exc_info()))
            if gettername != '0' or settername != '0':
                getsets.append('    { "%s", (getter)%s, (setter)%s },\n' %
                               (fixname(fname), gettername, settername))

        if not getsets:
            return '0'
        self.fp.write('static PyGetSetDef %s[] = {\n' % getsets_name)
        for getset in getsets:
            self.fp.write(getset)
        self.fp.write('    { NULL, (getter)0, (setter)0 },\n')
        self.fp.write('};\n\n')
    
        return getsets_name

    def write_functions(self, prefix):
        self.fp.write('\n/* ----------- functions ----------- */\n\n')
        functions = []
            
        # First, get methods from the defs files
        for func in self.parser.find_functions():
            funcname = func.c_name
            if self.overrides.is_ignored(funcname):
                continue
            try:
                if self.overrides.is_overriden(funcname):
                    data = self.overrides.override(funcname)
                    self.write_function(funcname, data)

                    methflags = self.get_methflags(funcname)
                else:
                    # write constructor from template ...
                    code, methflags = self.write_function_wrapper(func,
                        self.function_tmpl, handle_return=1, is_method=0)
                    self.fp.write(code)
                functions.append(self.methdef_tmpl %
                                 { 'name':  func.name,
                                   'cname': '_wrap_' + funcname,
                                   'flags': methflags })
                functions_coverage.declare_wrapped()
            except:
                functions_coverage.declare_not_wrapped()
                sys.stderr.write('Could not write function %s: %s\n'
                                 % (func.name, exc_info()))

        # Now try to see if there are any defined in the override
        for funcname in self.overrides.get_functions():
            try:
                data = self.overrides.function(funcname)
                self.write_function(funcname)
                methflags = self.get_methflags(funcname)
                functions.append(self.methdef_tmpl %
                                 { 'name':  funcname,
                                   'cname': '_wrap_' + funcname,
                                   'flags': methflags })
                functions_coverage.declare_wrapped()
            except:
                functions_coverage.declare_not_wrapped()
                sys.stderr.write('Could not write function %s: %s\n'
                                 % (funcname, exc_info()))
                
        # write the PyMethodDef structure
        functions.append('    { NULL, NULL, 0 }\n')
        
        self.fp.write('PyMethodDef ' + prefix + '_functions[] = {\n')
        self.fp.write(string.join(functions, ''))
        self.fp.write('};\n\n')

class GObjectWrapper(Wrapper):
    constructor_tmpl = \
        'static int\n' \
        '_wrap_%(cname)s(PyGObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    self->obj = (GObject *)%(cname)s(%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '    if (!self->obj) {\n' \
        '        PyErr_SetString(PyExc_RuntimeError, "could not create %(typename)s object");\n' \
        '        return -1;\n' \
        '    }\n' \
        '%(aftercreate)s' \
        '    pygobject_register_wrapper((PyObject *)self);\n' \
        '    return 0;\n' \
        '}\n\n'
    method_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyGObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    %(setreturn)s%(cname)s(%(cast)s(self->obj)%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '}\n\n'

    def __init__(self, parser, objinfo, overrides, fp=FileOutput(sys.stdout)):
        Wrapper.__init__(self, parser, objinfo, overrides, fp)
        if self.objinfo:
            self.castmacro = string.replace(self.objinfo.typecode,
                                            '_TYPE_', '_', 1)

    def get_initial_class_substdict(self):
        return { 'tp_basicsize'      : 'PyGObject',
                 'tp_weaklistoffset' : 'offsetof(PyGObject, weakreflist)',
                 'tp_dictoffset'     : 'offsetof(PyGObject, inst_dict)' }
    
    def get_field_accessor(self, fieldname):
        castmacro = string.replace(self.objinfo.typecode, '_TYPE_', '_', 1)
        return '%s(pygobject_get(self))->%s' % (castmacro, fieldname)

    def get_initial_constructor_substdict(self, constructor):
        substdict = Wrapper.get_initial_constructor_substdict(self, constructor)
        if not constructor.caller_owns_return:
            substdict['aftercreate'] = "    g_object_ref(self->obj);\n"
        else:
            substdict['aftercreate'] = ''
        return substdict

    def get_initial_method_substdict(self, method):
        substdict = Wrapper.get_initial_method_substdict(self, method)
        substdict['cast'] = string.replace(self.objinfo.typecode, '_TYPE_', '_', 1)
        return substdict
    def write_default_constructor(self):
        return '0'

    def write_property_based_constructor(self, constructor):
        out = self.fp
        print >> out, "static int"
        print >> out, '_wrap_%s(PyGObject *self, PyObject *args,'\
              ' PyObject *kwargs)\n{' % constructor.c_name
        print >> out, "    GType obj_type = pyg_type_from_object((PyObject *) self);"

        def py_str_list_to_c(arg):
            if arg:
                return "{" + ", ".join(map(lambda s: '"' + s + '"', arg)) + ", NULL }"
            else:
                return "{ NULL }"

        classname = '%s.%s' % (self.overrides.modulename, self.objinfo.name)

        if constructor.params:
            mandatory_arguments = [param for param in constructor.params if not param.optional]
            optional_arguments = [param for param in constructor.params if param.optional]
            arg_names = py_str_list_to_c([param.argname for param in
                                          mandatory_arguments + optional_arguments])
            prop_names = py_str_list_to_c([param.pname for param in
                                          mandatory_arguments + optional_arguments])

            print >> out, "    GParameter params[%i];" % len(constructor.params)
            print >> out, "    PyObject *parsed_args[%i] = {NULL, };" % len(constructor.params)
            print >> out, "    char *arg_names[] = %s;" % arg_names
            print >> out, "    char *prop_names[] = %s;" % prop_names
            print >> out, "    guint nparams, i;"
            print >> out
            if constructor.deprecated is not None:
                print >> out, '    if (PyErr_Warn(PyExc_DeprecationWarning, "%s") < 0)' %\
                      constructor.deprecated
                print >> out, '        return -1;'
                print >> out
            print >> out, "    if (!PyArg_ParseTupleAndKeywords(args, kwargs, ",
            template = '"'
            if mandatory_arguments:
                template += "O"*len(mandatory_arguments)
            if optional_arguments:
                template += "|" + "O"*len(optional_arguments)
            template += ':%s.__init__"' % classname
            print >> out, template, ", arg_names",
            for i in range(len(constructor.params)):
                print >> out, ", &parsed_args[%i]" % i,
            print >> out, "))"
            print >> out, "        return -1;"
            print >> out
            print >> out, "    memset(params, 0, sizeof(GParameter)*%i);" % len(constructor.params)
            print >> out, "    if (!pyg_parse_constructor_args(obj_type, arg_names, prop_names,"
            print >> out, "                                    params, &nparams, parsed_args))"
            print >> out, "        return -1;"
            print >> out, "    self->obj = g_object_newv(obj_type, nparams, params);"
            print >> out, "    for (i = 0; i < nparams; ++i)"
            print >> out, "        g_value_unset(&params[i].value);"
        else:
            print >> out, "    static char* kwlist[] = { NULL };";
            print >> out
            if constructor.deprecated is not None:
                print >> out, '    if (PyErr_Warn(PyExc_DeprecationWarning, "%s") < 0)' %\
                      constructor.deprecated
                print >> out, '        return -1;'
                print >> out
            print >> out, '    if (!PyArg_ParseTupleAndKeywords(args, kwargs, ":%s.__init__", kwlist))' % classname
            print >> out, "        return -1;"
            print >> out
            print >> out, "    self->obj = g_object_newv(obj_type, 0, NULL);"

        print >> out, \
              '    if (!self->obj) {\n' \
              '        PyErr_SetString(PyExc_RuntimeError, "could not create %(typename)s object");\n' \
              '        return -1;\n' \
              '    }\n'

        if not constructor.caller_owns_return:
            print >> out, "    g_object_ref(self->obj);\n"

        print >> out, \
              '    pygobject_register_wrapper((PyObject *)self);\n' \
              '    return 0;\n' \
              '}\n\n' % { 'typename': classname }
        return "_wrap_%s" % constructor.c_name


## TODO : Add GstMiniObjectWrapper(Wrapper)
class GstMiniObjectWrapper(Wrapper):
    constructor_tmpl = \
        'static int\n' \
        '_wrap_%(cname)s(PyGstMiniObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    self->obj = (GstMiniObject *)%(cname)s(%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '    if (!self->obj) {\n' \
        '        PyErr_SetString(PyExc_RuntimeError, "could not create %(typename)s miniobject");\n' \
        '        return -1;\n' \
        '    }\n' \
        '%(aftercreate)s' \
        '    pygstminiobject_register_wrapper((PyObject *)self);\n' \
        '    return 0;\n' \
        '}\n\n'
    method_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyGstMiniObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    %(setreturn)s%(cname)s(%(cast)s(self->obj)%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '}\n\n'


    def __init__(self, parser, objinfo, overrides, fp=FileOutput(sys.stdout)):
        Wrapper.__init__(self, parser, objinfo, overrides, fp)
        if self.objinfo:
            self.castmacro = string.replace(self.objinfo.typecode,
                                            '_TYPE_', '_', 1)

    def get_initial_class_substdict(self):
        return { 'tp_basicsize'      : 'PyGstMiniObject',
                 'tp_weaklistoffset' : 'offsetof(PyGstMiniObject, weakreflist)',
                 'tp_dictoffset'     : 'offsetof(PyGstMiniObject, inst_dict)' }
    
    def get_field_accessor(self, fieldname):
        castmacro = string.replace(self.objinfo.typecode, '_TYPE_', '_', 1)
        return '%s(pygstminiobject_get(self))->%s' % (castmacro, fieldname)

    def get_initial_constructor_substdict(self, constructor):
        substdict = Wrapper.get_initial_constructor_substdict(self, constructor)
        if not constructor.caller_owns_return:
            substdict['aftercreate'] = "    gst_mini_object_ref(self->obj);\n"
        else:
            substdict['aftercreate'] = ''
        return substdict

    def get_initial_method_substdict(self, method):
        substdict = Wrapper.get_initial_method_substdict(self, method)
        substdict['cast'] = string.replace(self.objinfo.typecode, '_TYPE_', '_', 1)
        return substdict
    

class GInterfaceWrapper(GObjectWrapper):
    def get_initial_class_substdict(self):
        return { 'tp_basicsize'      : 'PyObject',
                 'tp_weaklistoffset' : '0',
                 'tp_dictoffset'     : '0'}

    def write_constructor(self):
        # interfaces have no constructors ...
        return '0'
    def write_getsets(self):
        # interfaces have no fields ...
        return '0'

    def write_virtual_accessors(self):
        ## we don't want the 'chaining' functions for interfaces
        return []

    def write_virtuals(self):
        ## Now write reverse method wrappers, which let python code
        ## implement interface methods.
        # First, get methods from the defs files
        klass = self.objinfo.c_name
        proxies = []
        for meth in self.parser.find_virtuals(self.objinfo):
            method_name = self.objinfo.c_name + "__proxy_do_" + meth.name
            if self.overrides.is_ignored(method_name):
                continue
            try:
                if self.overrides.is_overriden(method_name):
                    if not self.overrides.is_already_included(method_name):
                        data = self.overrides.override(method_name)
                        self.write_function(method_name, data)
                else:
                    # write proxy ...
                    ret, props = argtypes.matcher.get_reverse_ret(meth.ret)
                    wrapper = reversewrapper.ReverseWrapper(
                        '_wrap_' + method_name, is_static=True)
                    wrapper.set_return_type(ret(wrapper, **props))
                    wrapper.add_parameter(reversewrapper.PyGObjectMethodParam(
                        wrapper, "self", method_name="do_" + meth.name,
                        c_type=(klass + ' *')))
                    for param in meth.params:
                        handler, props = argtypes.matcher.get_reverse(param.ptype)
                        wrapper.add_parameter(handler(wrapper, param.pname, **props))
                    buf = reversewrapper.MemoryCodeSink()
                    wrapper.generate(buf)
                    self.fp.write(buf.flush())
                proxies.append((fixname(meth.name), '_wrap_' + method_name))
                iproxies_coverage.declare_wrapped()
            except KeyError:
                iproxies_coverage.declare_not_wrapped()
                proxies.append((fixname(meth.name), None))
                sys.stderr.write('Could not write interface proxy %s.%s: %s\n'
                                % (klass, meth.name, exc_info()))
        if proxies:
            ## Write an interface init function for this object
            funcname = "__%s__interface_init" % klass
            vtable = self.objinfo.vtable
            self.fp.write(('\nstatic void\n'
                           '%(funcname)s(%(vtable)s *iface)\n'
                           '{\n') % vars())
            for name, cname in proxies:
                do_name = 'do_' + name
                if cname is not None:
                    self.fp.write('    iface->%s = %s;\n' % (name, cname))
            self.fp.write('}\n\n')
            interface_info = "__%s__iinfo" % klass
            self.fp.write('''
static const GInterfaceInfo %s = {
    (GInterfaceInitFunc) %s,
    NULL,
    NULL
};
''' % (interface_info, funcname))
            self.objinfo.interface_info = interface_info
            

class GBoxedWrapper(Wrapper):
    constructor_tmpl = \
        'static int\n' \
        '_wrap_%(cname)s(PyGBoxed *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    self->gtype = %(typecode)s;\n' \
        '    self->free_on_dealloc = FALSE;\n' \
        '    self->boxed = %(cname)s(%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '    if (!self->boxed) {\n' \
        '        PyErr_SetString(PyExc_RuntimeError, "could not create %(typename)s object");\n' \
        '        return -1;\n' \
        '    }\n' \
        '    self->free_on_dealloc = TRUE;\n' \
        '    return 0;\n' \
        '}\n\n'

    method_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    %(setreturn)s%(cname)s(pyg_boxed_get(self, %(typename)s)%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '}\n\n'

    def get_initial_class_substdict(self):
        return { 'tp_basicsize'      : 'PyGBoxed',
                 'tp_weaklistoffset' : '0',
                 'tp_dictoffset'     : '0' }

    def get_field_accessor(self, fieldname):
        return 'pyg_boxed_get(self, %s)->%s' % (self.objinfo.c_name, fieldname)

    def get_initial_constructor_substdict(self, constructor):
        substdict = Wrapper.get_initial_constructor_substdict(self, constructor)
        substdict['typecode'] = self.objinfo.typecode
        return substdict

class GPointerWrapper(GBoxedWrapper):
    constructor_tmpl = \
        'static int\n' \
        '_wrap_%(cname)s(PyGPointer *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    self->gtype = %(typecode)s;\n' \
        '    self->pointer = %(cname)s(%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '    if (!self->pointer) {\n' \
        '        PyErr_SetString(PyExc_RuntimeError, "could not create %(typename)s object");\n' \
        '        return -1;\n' \
        '    }\n' \
        '    return 0;\n' \
        '}\n\n'

    method_tmpl = \
        'static PyObject *\n' \
        '_wrap_%(cname)s(PyObject *self%(extraparams)s)\n' \
        '{\n' \
        '%(varlist)s' \
        '%(parseargs)s' \
        '%(codebefore)s' \
        '    %(setreturn)s%(cname)s(pyg_pointer_get(self, %(typename)s)%(arglist)s);\n' \
        '%(codeafter)s\n' \
        '}\n\n'

    def get_initial_class_substdict(self):
        return { 'tp_basicsize'      : 'PyGPointer',
                 'tp_weaklistoffset' : '0',
                 'tp_dictoffset'     : '0' }

    def get_field_accessor(self, fieldname):
        return 'pyg_pointer_get(self, %s)->%s' % (self.objinfo.c_name, fieldname)

    def get_initial_constructor_substdict(self, constructor):
        substdict = Wrapper.get_initial_constructor_substdict(self, constructor)
        substdict['typecode'] = self.objinfo.typecode
        return substdict

def write_headers(data, fp):
    fp.write('/* -- THIS FILE IS GENERATED - DO NOT EDIT */')
    fp.write('/* -*- Mode: C; c-basic-offset: 4 -*- */\n\n')
    fp.write('#include <Python.h>\n\n\n')
    fp.write(data)
    fp.resetline()
    fp.write('\n\n')
    
def write_imports(overrides, fp):
    fp.write('/* ---------- types from other modules ---------- */\n')
    for module, pyname, cname in overrides.get_imports():
        fp.write('static PyTypeObject *_%s;\n' % cname)
        fp.write('#define %s (*_%s)\n' % (cname, cname))
    fp.write('\n\n')
    
def write_type_declarations(parser, fp):
    fp.write('/* ---------- forward type declarations ---------- */\n')
    for obj in parser.boxes:
        fp.write('PyTypeObject Py' + obj.c_name + '_Type;\n')
    for obj in parser.objects:
        fp.write('PyTypeObject Py' + obj.c_name + '_Type;\n')
    for obj in parser.miniobjects:
        fp.write('PyTypeObject Py' + obj.c_name + '_Type;\n')
    for interface in parser.interfaces:
        fp.write('PyTypeObject Py' + interface.c_name + '_Type;\n')
    fp.write('\n')

def write_classes(parser, overrides, fp):
    for klass, items in ((GBoxedWrapper, parser.boxes),
                         (GPointerWrapper, parser.pointers),
                         (GObjectWrapper, parser.objects),
                         (GstMiniObjectWrapper, parser.miniobjects),
                         (GInterfaceWrapper, parser.interfaces)):
        for item in items:
            instance = klass(parser, item, overrides, fp)
            instance.write_class()
            fp.write('\n')

def write_enums(parser, prefix, fp=sys.stdout):
    if not parser.enums:
        return
    fp.write('\n/* ----------- enums and flags ----------- */\n\n')
    fp.write('void\n' + prefix + '_add_constants(PyObject *module, const gchar *strip_prefix)\n{\n')
    for enum in parser.enums:
        if enum.typecode is None:
            for nick, value in enum.values:
                fp.write('    PyModule_AddIntConstant(module, pyg_constant_strip_prefix("%s", strip_prefix), %s);\n'
                         % (value, value))
        else:
            if enum.deftype == 'enum':
                fp.write('  pyg_enum_add(module, "%s", strip_prefix, %s);\n' % (enum.name, enum.typecode))
            else:
                fp.write('  pyg_flags_add(module, "%s", strip_prefix, %s);\n' % (enum.name, enum.typecode))
            
    fp.write('\n')
    fp.write('  if (PyErr_Occurred())\n')
    fp.write('    PyErr_Print();\n') 
    fp.write('}\n\n')

def write_extension_init(overrides, prefix, fp): 
    fp.write('/* initialise stuff extension classes */\n')
    fp.write('void\n' + prefix + '_register_classes(PyObject *d)\n{\n')
    imports = overrides.get_imports()[:]
    if imports:
        bymod = {}
        for module, pyname, cname in imports:
            bymod.setdefault(module, []).append((pyname, cname))
        fp.write('    PyObject *module;\n\n')
        for module in bymod:
            fp.write('    if ((module = PyImport_ImportModule("%s")) != NULL) {\n' % module)
            fp.write('        PyObject *moddict = PyModule_GetDict(module);\n\n')
            for pyname, cname in bymod[module]:
                fp.write('        _%s = (PyTypeObject *)PyDict_GetItemString(moddict, "%s");\n' % (cname, pyname))
                fp.write('        if (_%s == NULL) {\n' % cname)
                fp.write('            PyErr_SetString(PyExc_ImportError,\n')
                fp.write('                "cannot import name %s from %s");\n'
                         % (pyname, module))
                fp.write('            return;\n')
                fp.write('        }\n')
            fp.write('    } else {\n')
            fp.write('        PyErr_SetString(PyExc_ImportError,\n')
            fp.write('            "could not import %s");\n' % module)
            fp.write('        return;\n')
            fp.write('    }\n')
        fp.write('\n')
    fp.write(overrides.get_init() + '\n')
    fp.resetline()

def write_registers(parser, fp):
    for boxed in parser.boxes:
        fp.write('    pyg_register_boxed(d, "' + boxed.name +
                 '", ' + boxed.typecode + ', &Py' + boxed.c_name + '_Type);\n')
    for pointer in parser.pointers:
        fp.write('    pyg_register_pointer(d, "' + pointer.name +
                 '", ' + pointer.typecode + ', &Py' + pointer.c_name + '_Type);\n')
    for interface in parser.interfaces:
        fp.write('    pyg_register_interface(d, "' + interface.name +
                 '", '+ interface.typecode + ', &Py' + interface.c_name +
                 '_Type);\n')
        if interface.interface_info is not None:
            fp.write('    pyg_register_interface_info(%s, &%s);\n' %
                     (interface.typecode, interface.interface_info))

    objects = parser.objects[:]
    pos = 0
    while pos < len(objects):
        parent = objects[pos].parent
        for i in range(pos+1, len(objects)):
            if objects[i].c_name == parent:
                objects.insert(i+1, objects[pos])
                del objects[pos]
                break
        else:
            pos = pos + 1
    for obj in objects:
        bases = []
        if obj.parent != None:
            bases.append(obj.parent)
        bases = bases + obj.implements
        if bases:
            fp.write('    pygobject_register_class(d, "' + obj.c_name +
                     '", ' + obj.typecode + ', &Py' + obj.c_name +
                     '_Type, Py_BuildValue("(' + 'O' * len(bases) + ')", ' +
                     string.join(map(lambda s: '&Py'+s+'_Type', bases), ', ') +
                     '));\n')
        else:
            fp.write('    pygobject_register_class(d, "' + obj.c_name +
                     '", ' + obj.typecode + ', &Py' + obj.c_name +
                     '_Type, NULL);\n')
        if obj.class_init_func is not None:
            fp.write('    pyg_register_class_init(%s, %s);\n' %
                     (obj.typecode, obj.class_init_func))
    #TODO: register mini-objects
    miniobjects = parser.miniobjects[:]
    for obj in miniobjects:
        bases = []
        if obj.parent != None:
            bases.append(obj.parent)
        bases = bases + obj.implements
        if bases:
            fp.write('    pygstminiobject_register_class(d, "' + obj.c_name +
                     '", ' + obj.typecode + ', &Py' + obj.c_name +
                     '_Type, Py_BuildValue("(' + 'O' * len(bases) + ')", ' +
                     string.join(map(lambda s: '&Py'+s+'_Type', bases), ', ') +
                     '));\n')
        else:
            fp.write('    pygstminiobject_register_class(d, "' + obj.c_name +
                     '", ' + obj.typecode + ', &Py' + obj.c_name +
                     '_Type, NULL);\n')
       
    fp.write('}\n')

def write_source(parser, overrides, prefix, fp=FileOutput(sys.stdout)):
    write_headers(overrides.get_headers(), fp)
    write_imports(overrides, fp)
    write_type_declarations(parser, fp)
    write_classes(parser, overrides, fp)

    wrapper = Wrapper(parser, None, overrides, fp)
    wrapper.write_functions(prefix)

    write_enums(parser, prefix, fp)
    write_extension_init(overrides, prefix, fp)
    write_registers(parser, fp)

def register_types(parser):
    for boxed in parser.boxes:
        argtypes.matcher.register_boxed(boxed.c_name, boxed.typecode)
    for pointer in parser.pointers:
        argtypes.matcher.register_pointer(pointer.c_name, pointer.typecode)
    for obj in parser.objects:
        argtypes.matcher.register_object(obj.c_name, obj.parent, obj.typecode)
    for obj in parser.miniobjects:
        argtypes.matcher.register_miniobject(obj.c_name, obj.parent, obj.typecode)
    for obj in parser.interfaces:
        argtypes.matcher.register_object(obj.c_name, None, obj.typecode)
    for enum in parser.enums:
	if enum.deftype == 'flags':
	    argtypes.matcher.register_flag(enum.c_name, enum.typecode)
	else:
	    argtypes.matcher.register_enum(enum.c_name, enum.typecode)

usage = 'usage: codegen.py [-o overridesfile] [-p prefix] defsfile'
def main(argv):
    o = override.Overrides()
    prefix = 'pygtk'
    outfilename = None
    errorfilename = None
    opts, args = getopt.getopt(argv[1:], "o:p:r:t:D:",
                        ["override=", "prefix=", "register=", "outfilename=",
                         "load-types=", "errorfilename="])
    defines = {} # -Dkey[=val] options
    for opt, arg in opts:
        if opt in ('-o', '--override'):
            o = override.Overrides(arg)
        elif opt in ('-p', '--prefix'):
            prefix = arg
        elif opt in ('-r', '--register'):
	    # Warning: user has to make sure all -D options appear before -r
            p = defsparser.DefsParser(arg, defines)
            p.startParsing()
            register_types(p)
            del p
        elif opt == '--outfilename':
            outfilename = arg
        elif opt == '--errorfilename':
            errorfilename = arg
        elif opt in ('-t', '--load-types'):
            globals = {}
            execfile(arg, globals)
	elif opt == '-D':
	    nameval = arg.split('=')
	    try:
		defines[nameval[0]] = nameval[1]
	    except IndexError:
		defines[nameval[0]] = None
    if len(args) < 1:
        print >> sys.stderr, usage
        return 1
    if errorfilename:
        sys.stderr = open(errorfilename, "w")
    p = defsparser.DefsParser(args[0], defines)
    if not outfilename:
        outfilename = os.path.splitext(args[0])[0] + '.c'
        
    p.startParsing()
    
    register_types(p)
    write_source(p, o, prefix, FileOutput(sys.stdout, outfilename))

    functions_coverage.printstats()
    methods_coverage.printstats()
    vproxies_coverage.printstats()
    vaccessors_coverage.printstats()
    iproxies_coverage.printstats()

if __name__ == '__main__':
    sys.exit(main(sys.argv))