#!/usr/bin/python # glib-client-gen.py: "I Can't Believe It's Not dbus-binding-tool" # # Generate GLib client wrappers from the Telepathy specification. # The master copy of this program is in the telepathy-glib repository - # please make any changes there. # # Copyright (C) 2006-2008 Collabora Ltd. # # 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 2.1 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA import sys import os.path import xml.dom.minidom from getopt import gnu_getopt from libglibcodegen import Signature, type_to_gtype, cmp_by_name, \ camelcase_to_lower, get_docstring, xml_escape NS_TP = "http://telepathy.freedesktop.org/wiki/DbusSpec#extensions-v0" class Generator(object): def __init__(self, dom, prefix, basename, opts): self.dom = dom self.__header = [] self.__body = [] self.prefix_lc = prefix.lower() self.prefix_uc = prefix.upper() self.prefix_mc = prefix.replace('_', '') self.basename = basename self.group = opts.get('--group', None) self.iface_quark_prefix = opts.get('--iface-quark-prefix', None) self.tp_proxy_api = tuple(map(int, opts.get('--tp-proxy-api', '0').split('.'))) self.proxy_cls = opts.get('--subclass', 'TpProxy') + ' *' self.proxy_arg = opts.get('--subclass', 'void') + ' *' self.proxy_assert = opts.get('--subclass-assert', 'TP_IS_PROXY') self.proxy_doc = ('A #%s or subclass' % opts.get('--subclass', 'TpProxy')) if self.proxy_arg == 'void *': self.proxy_arg = 'gpointer ' def h(self, s): if isinstance(s, unicode): s = s.encode('utf-8') self.__header.append(s) def b(self, s): if isinstance(s, unicode): s = s.encode('utf-8') self.__body.append(s) def get_iface_quark(self): assert self.iface_dbus is not None assert self.iface_uc is not None if self.iface_quark_prefix is None: return 'g_quark_from_static_string (\"%s\")' % self.iface_dbus else: return '%s_%s' % (self.iface_quark_prefix, self.iface_uc) def do_signal(self, iface, signal): iface_lc = iface.lower() member = signal.getAttribute('name') member_lc = camelcase_to_lower(member) member_uc = member_lc.upper() arg_count = 0 args = [] out_args = [] for arg in signal.getElementsByTagName('arg'): name = arg.getAttribute('name') type = arg.getAttribute('type') tp_type = arg.getAttribute('tp:type') if not name: name = 'arg%u' % arg_count arg_count += 1 else: name = 'arg_%s' % name info = type_to_gtype(type) args.append((name, info, tp_type, arg)) callback_name = ('%s_%s_signal_callback_%s' % (self.prefix_lc, iface_lc, member_lc)) collect_name = ('_%s_%s_collect_args_of_%s' % (self.prefix_lc, iface_lc, member_lc)) invoke_name = ('_%s_%s_invoke_callback_for_%s' % (self.prefix_lc, iface_lc, member_lc)) # Example: # # typedef void (*tp_cli_connection_signal_callback_new_channel) # (TpConnection *proxy, const gchar *arg_object_path, # const gchar *arg_channel_type, guint arg_handle_type, # guint arg_handle, gboolean arg_suppress_handler, # gpointer user_data, GObject *weak_object); self.b('/**') self.b(' * %s:' % callback_name) self.b(' * @proxy: The proxy on which %s_%s_connect_to_%s ()' % (self.prefix_lc, iface_lc, member_lc)) self.b(' * was called') for arg in args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' * @%s: %s' % (name, xml_escape(get_docstring(elt) or '(Undocumented)'))) self.b(' * @user_data: User-supplied data') self.b(' * @weak_object: User-supplied weakly referenced object') self.b(' *') self.b(' * Represents the signature of a callback for the signal %s.' % member) self.b(' */') self.h('typedef void (*%s) (%sproxy,' % (callback_name, self.proxy_cls)) for arg in args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.h(' %s%s%s,' % (const, ctype, name)) self.h(' gpointer user_data, GObject *weak_object);') if args: self.b('static void') self.b('%s (DBusGProxy *proxy G_GNUC_UNUSED,' % collect_name) for arg in args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.b(' %s%s%s,' % (const, ctype, name)) self.b(' TpProxySignalConnection *sc)') self.b('{') self.b(' GValueArray *args = g_value_array_new (%d);' % len(args)) self.b(' GValue blank = { 0 };') self.b(' guint i;') self.b('') self.b(' g_value_init (&blank, G_TYPE_INT);') self.b('') self.b(' for (i = 0; i < %d; i++)' % len(args)) self.b(' g_value_array_append (args, &blank);') self.b('') for i, arg in enumerate(args): name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' g_value_unset (args->values + %d);' % i) self.b(' g_value_init (args->values + %d, %s);' % (i, gtype)) if gtype == 'G_TYPE_STRING': self.b(' g_value_set_string (args->values + %d, %s);' % (i, name)) elif marshaller == 'BOXED': self.b(' g_value_set_boxed (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UCHAR': self.b(' g_value_set_uchar (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_BOOLEAN': self.b(' g_value_set_boolean (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_INT': self.b(' g_value_set_int (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UINT': self.b(' g_value_set_uint (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_INT64': self.b(' g_value_set_int (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UINT64': self.b(' g_value_set_uint (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_DOUBLE': self.b(' g_value_set_double (args->values + %d, %s);' % (i, name)) else: assert False, ("Don't know how to put %s in a GValue" % gtype) self.b('') self.b(' tp_proxy_signal_connection_v0_take_results (sc, args);') self.b('}') self.b('static void') self.b('%s (TpProxy *tpproxy,' % invoke_name) self.b(' GError *error G_GNUC_UNUSED,') self.b(' GValueArray *args,') self.b(' GCallback generic_callback,') self.b(' gpointer user_data,') self.b(' GObject *weak_object)') self.b('{') self.b(' %s callback =' % callback_name) self.b(' (%s) generic_callback;' % callback_name) self.b('') self.b(' if (callback != NULL)') self.b(' callback (g_object_ref (tpproxy),') # FIXME: factor out into a function for i, arg in enumerate(args): name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if marshaller == 'BOXED': self.b(' g_value_get_boxed (args->values + %d),' % i) elif gtype == 'G_TYPE_STRING': self.b(' g_value_get_string (args->values + %d),' % i) elif gtype == 'G_TYPE_UCHAR': self.b(' g_value_get_uchar (args->values + %d),' % i) elif gtype == 'G_TYPE_BOOLEAN': self.b(' g_value_get_boolean (args->values + %d),' % i) elif gtype == 'G_TYPE_UINT': self.b(' g_value_get_uint (args->values + %d),' % i) elif gtype == 'G_TYPE_INT': self.b(' g_value_get_int (args->values + %d),' % i) elif gtype == 'G_TYPE_UINT64': self.b(' g_value_get_uint64 (args->values + %d),' % i) elif gtype == 'G_TYPE_INT64': self.b(' g_value_get_int64 (args->values + %d),' % i) elif gtype == 'G_TYPE_DOUBLE': self.b(' g_value_get_double (args->values + %d),' % i) else: assert False, "Don't know how to get %s from a GValue" % gtype self.b(' user_data,') self.b(' weak_object);') self.b('') if len(args) > 0: self.b(' g_value_array_free (args);') else: self.b(' if (args != NULL)') self.b(' g_value_array_free (args);') self.b('') self.b(' g_object_unref (tpproxy);') self.b('}') # Example: # # TpProxySignalConnection * # tp_cli_connection_connect_to_new_channel # (TpConnection *proxy, # tp_cli_connection_signal_callback_new_channel callback, # gpointer user_data, # GDestroyNotify destroy); # # destroy is invoked when the signal becomes disconnected. This # is either because the signal has been disconnected explicitly # by the user, because the TpProxy has become invalid and # emitted the 'invalidated' signal, or because the weakly referenced # object has gone away. self.b('/**') self.b(' * %s_%s_connect_to_%s:' % (self.prefix_lc, iface_lc, member_lc)) self.b(' * @proxy: %s' % self.proxy_doc) self.b(' * @callback: Callback to be called when the signal is') self.b(' * received') self.b(' * @user_data: User-supplied data for the callback') self.b(' * @destroy: Destructor for the user-supplied data, which') self.b(' * will be called when this signal is disconnected, or') self.b(' * before this function returns %NULL') self.b(' * @weak_object: A #GObject which will be weakly referenced; ') self.b(' * if it is destroyed, this callback will automatically be') self.b(' * disconnected') self.b(' * @error: If not %NULL, used to raise an error if %NULL is') self.b(' * returned') self.b(' *') self.b(' * Connect a handler to the signal %s.' % member) self.b(' *') self.b(' * %s' % xml_escape(get_docstring(signal) or '(Undocumented)')) self.b(' *') self.b(' * Returns: a #TpProxySignalConnection containing all of the') self.b(' * above, which can be used to disconnect the signal; or') self.b(' * %NULL if the proxy does not have the desired interface') self.b(' * or has become invalid.') self.b(' */') self.h('TpProxySignalConnection *%s_%s_connect_to_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.h(' %s callback,' % callback_name) self.h(' gpointer user_data,') self.h(' GDestroyNotify destroy,') self.h(' GObject *weak_object,') self.h(' GError **error);') self.b('TpProxySignalConnection *') self.b('%s_%s_connect_to_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.b(' %s callback,' % callback_name) self.b(' gpointer user_data,') self.b(' GDestroyNotify destroy,') self.b(' GObject *weak_object,') self.b(' GError **error)') self.b('{') self.b(' GType expected_types[%d] = {' % (len(args) + 1)) for arg in args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' %s,' % gtype) self.b(' G_TYPE_INVALID };') self.b('') self.b(' g_return_val_if_fail (%s (proxy), NULL);' % self.proxy_assert) self.b(' g_return_val_if_fail (callback != NULL, NULL);') self.b('') self.b(' return tp_proxy_signal_connection_v0_new ((TpProxy *) proxy,') self.b(' %s, \"%s\",' % (self.get_iface_quark(), member)) self.b(' expected_types,') if args: self.b(' G_CALLBACK (%s),' % collect_name) else: self.b(' NULL, /* no args => no collector function */') self.b(' %s,' % invoke_name) self.b(' G_CALLBACK (callback), user_data, destroy,') self.b(' weak_object, error);') self.b('}') self.b('') self.h('') def do_method(self, iface, method): iface_lc = iface.lower() member = method.getAttribute('name') member_lc = camelcase_to_lower(member) member_uc = member_lc.upper() in_count = 0 ret_count = 0 in_args = [] out_args = [] for arg in method.getElementsByTagName('arg'): name = arg.getAttribute('name') direction = arg.getAttribute('direction') type = arg.getAttribute('type') tp_type = arg.getAttribute('tp:type') if direction != 'out': if not name: name = 'in%u' % in_count in_count += 1 else: name = 'in_%s' % name else: if not name: name = 'out%u' % ret_count ret_count += 1 else: name = 'out_%s' % name info = type_to_gtype(type) if direction != 'out': in_args.append((name, info, tp_type, arg)) else: out_args.append((name, info, tp_type, arg)) # Async reply callback type # Example: # void (*tp_cli_properties_interface_callback_for_get_properties) # (TpProxy *proxy, # const GPtrArray *out0, # const GError *error, # gpointer user_data, # GObject *weak_object); self.b('/**') self.b(' * %s_%s_callback_for_%s:' % (self.prefix_lc, iface_lc, member_lc)) self.b(' * @proxy: the proxy on which the call was made') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' * @%s: Used to return an \'out\' argument if @error is ' '%%NULL: %s' % (name, xml_escape(get_docstring(elt) or '(Undocumented)'))) self.b(' * @error: %NULL on success, or an error on failure') self.b(' * @user_data: user-supplied data') self.b(' * @weak_object: user-supplied object') self.b(' *') self.b(' * Signature of the callback called when a %s method call' % member) self.b(' * succeeds or fails.') self.b(' */') callback_name = '%s_%s_callback_for_%s' % (self.prefix_lc, iface_lc, member_lc) self.h('typedef void (*%s) (%sproxy,' % (callback_name, self.proxy_cls)) for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.h(' %s%s%s,' % (const, ctype, name)) self.h(' const GError *error, gpointer user_data,') self.h(' GObject *weak_object);') self.h('') # Async callback implementation invoke_callback = '_%s_%s_invoke_callback_%s' % (self.prefix_lc, iface_lc, member_lc) collect_callback = '_%s_%s_collect_callback_%s' % (self.prefix_lc, iface_lc, member_lc) # The callback called by dbus-glib; this ends the call and collects # the results into a GValueArray. self.b('static void') self.b('%s (DBusGProxy *proxy,' % collect_callback) self.b(' DBusGProxyCall *call,') self.b(' gpointer user_data)') self.b('{') self.b(' GError *error = NULL;') if len(out_args) > 0: self.b(' GValueArray *args;') self.b(' GValue blank = { 0 };') self.b(' guint i;') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info # "We handle variants specially; the caller is expected to # have already allocated storage for them". Thanks, # dbus-glib... if gtype == 'G_TYPE_VALUE': self.b(' GValue *%s = g_new0 (GValue, 1);' % name) else: self.b(' %s%s;' % (ctype, name)) self.b('') self.b(' dbus_g_proxy_end_call (proxy, call, &error,') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if gtype == 'G_TYPE_VALUE': self.b(' %s, %s,' % (gtype, name)) else: self.b(' %s, &%s,' % (gtype, name)) self.b(' G_TYPE_INVALID);') if len(out_args) == 0: self.b(' tp_proxy_pending_call_v0_take_results (user_data, error,' 'NULL);') else: self.b('') self.b(' if (error != NULL)') self.b(' {') self.b(' tp_proxy_pending_call_v0_take_results (user_data, error,') self.b(' NULL);') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if gtype == 'G_TYPE_VALUE': self.b(' g_free (%s);' % name) self.b(' return;') self.b(' }') self.b('') self.b(' args = g_value_array_new (%d);' % len(out_args)) self.b(' g_value_init (&blank, G_TYPE_INT);') self.b('') self.b(' for (i = 0; i < %d; i++)' % len(out_args)) self.b(' g_value_array_append (args, &blank);') for i, arg in enumerate(out_args): name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b('') self.b(' g_value_unset (args->values + %d);' % i) self.b(' g_value_init (args->values + %d, %s);' % (i, gtype)) if gtype == 'G_TYPE_STRING': self.b(' g_value_take_string (args->values + %d, %s);' % (i, name)) elif marshaller == 'BOXED': self.b(' g_value_take_boxed (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UCHAR': self.b(' g_value_set_uchar (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_BOOLEAN': self.b(' g_value_set_boolean (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_INT': self.b(' g_value_set_int (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UINT': self.b(' g_value_set_uint (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_INT64': self.b(' g_value_set_int (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_UINT64': self.b(' g_value_set_uint (args->values + %d, %s);' % (i, name)) elif gtype == 'G_TYPE_DOUBLE': self.b(' g_value_set_double (args->values + %d, %s);' % (i, name)) else: assert False, ("Don't know how to put %s in a GValue" % gtype) self.b(' tp_proxy_pending_call_v0_take_results (user_data, ' 'NULL, args);') self.b('}') self.b('static void') self.b('%s (TpProxy *self,' % invoke_callback) self.b(' GError *error,') self.b(' GValueArray *args,') self.b(' GCallback generic_callback,') self.b(' gpointer user_data,') self.b(' GObject *weak_object)') self.b('{') self.b(' %s callback = (%s) generic_callback;' % (callback_name, callback_name)) self.b('') self.b(' if (error != NULL)') self.b(' {') self.b(' callback ((%s) self,' % self.proxy_cls) for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if marshaller == 'BOXED' or pointer: self.b(' NULL,') elif gtype == 'G_TYPE_DOUBLE': self.b(' 0.0,') else: self.b(' 0,') self.b(' error, user_data, weak_object);') self.b(' g_error_free (error);') self.b(' return;') self.b(' }') self.b(' callback ((%s) self,' % self.proxy_cls) # FIXME: factor out into a function for i, arg in enumerate(out_args): name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if marshaller == 'BOXED': self.b(' g_value_get_boxed (args->values + %d),' % i) elif gtype == 'G_TYPE_STRING': self.b(' g_value_get_string (args->values + %d),' % i) elif gtype == 'G_TYPE_UCHAR': self.b(' g_value_get_uchar (args->values + %d),' % i) elif gtype == 'G_TYPE_BOOLEAN': self.b(' g_value_get_boolean (args->values + %d),' % i) elif gtype == 'G_TYPE_UINT': self.b(' g_value_get_uint (args->values + %d),' % i) elif gtype == 'G_TYPE_INT': self.b(' g_value_get_int (args->values + %d),' % i) elif gtype == 'G_TYPE_UINT64': self.b(' g_value_get_uint64 (args->values + %d),' % i) elif gtype == 'G_TYPE_INT64': self.b(' g_value_get_int64 (args->values + %d),' % i) elif gtype == 'G_TYPE_DOUBLE': self.b(' g_value_get_double (args->values + %d),' % i) else: assert False, "Don't know how to get %s from a GValue" % gtype self.b(' error, user_data, weak_object);') self.b('') if len(out_args) > 0: self.b(' g_value_array_free (args);') else: self.b(' if (args != NULL)') self.b(' g_value_array_free (args);') self.b('}') self.b('') # Async stub # Example: # TpProxyPendingCall * # tp_cli_properties_interface_call_get_properties # (gpointer proxy, # gint timeout_ms, # const GArray *in_properties, # tp_cli_properties_interface_callback_for_get_properties callback, # gpointer user_data, # GDestroyNotify *destructor); self.h('TpProxyPendingCall *%s_%s_call_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.h(' gint timeout_ms,') self.b('/**') self.b(' * %s_%s_call_%s:' % (self.prefix_lc, iface_lc, member_lc)) self.b(' * @proxy: the #TpProxy') self.b(' * @timeout_ms: the timeout in milliseconds, or -1 to use the') self.b(' * default') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' * @%s: Used to pass an \'in\' argument: %s' % (name, xml_escape(get_docstring(elt) or '(Undocumented)'))) self.b(' * @callback: called when the method call succeeds or fails') self.b(' * @user_data: user-supplied data passed to the callback') self.b(' * @destroy: called with the user_data as argument, after the') self.b(' * call has succeeded, failed or been cancelled') self.b(' * @weak_object: A #GObject which will be weakly referenced; ') self.b(' * if it is destroyed, this callback will automatically be') self.b(' * disconnected') self.b(' *') self.b(' * Start a %s method call.' % member) self.b(' *') self.b(' * %s' % xml_escape(get_docstring(method) or '(Undocumented)')) self.b(' *') self.b(' * Returns: a #TpProxyPendingCall representing the call in') self.b(' * progress. It is borrowed from the object, and will become') self.b(' * invalid when the callback is called, the call is') self.b(' * cancelled or the #TpProxy becomes invalid.') self.b(' */') self.b('TpProxyPendingCall *\n%s_%s_call_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.b(' gint timeout_ms,') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.h(' %s%s%s,' % (const, ctype, name)) self.b(' %s%s%s,' % (const, ctype, name)) self.h(' %s callback,' % callback_name) self.h(' gpointer user_data,') self.h(' GDestroyNotify destroy,') self.h(' GObject *weak_object);') self.h('') self.b(' %s callback,' % callback_name) self.b(' gpointer user_data,') self.b(' GDestroyNotify destroy,') self.b(' GObject *weak_object)') self.b('{') self.b(' GError *error = NULL;') self.b(' GQuark interface = %s;' % self.get_iface_quark()) self.b(' DBusGProxy *iface;') self.b('') self.b(' g_return_val_if_fail (%s (proxy), NULL);' % self.proxy_assert) self.b('') self.b(' iface = tp_proxy_borrow_interface_by_id (') self.b(' (TpProxy *) proxy,') self.b(' interface, &error);') self.b('') self.b(' if (iface == NULL)') self.b(' {') self.b(' if (callback != NULL)') self.b(' callback (proxy,') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info if pointer: self.b(' NULL,') else: self.b(' 0,') self.b(' error, user_data, weak_object);') self.b(' g_error_free (error);') self.b(' return NULL;') self.b(' }') self.b('') self.b(' if (callback == NULL)') self.b(' {') self.b(' dbus_g_proxy_call_no_reply (iface, "%s",' % member) for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.b(' %s, %s,' % (gtype, name)) self.b(' G_TYPE_INVALID);') self.b(' return NULL;') self.b(' }') self.b(' else') self.b(' {') self.b(' TpProxyPendingCall *data;') self.b('') self.b(' data = tp_proxy_pending_call_v0_new ((TpProxy *) proxy,') self.b(' interface, "%s", iface,' % member) self.b(' %s,' % invoke_callback) self.b(' G_CALLBACK (callback), user_data, destroy,') self.b(' weak_object, FALSE);') self.b(' tp_proxy_pending_call_v0_take_pending_call (data,') self.b(' dbus_g_proxy_begin_call_with_timeout (iface,') self.b(' "%s",' % member) self.b(' %s,' % collect_callback) self.b(' data,') self.b(' tp_proxy_pending_call_v0_completed,') self.b(' timeout_ms,') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.b(' %s, %s,' % (gtype, name)) self.b(' G_TYPE_INVALID));') self.b('') self.b(' return data;') self.b(' }') self.b('}') self.b('') # Reentrant blocking calls # Example: # gboolean tp_cli_properties_interface_run_get_properties # (gpointer proxy, # gint timeout_ms, # const GArray *in_properties, # GPtrArray **out0, # GError **error, # GMainLoop **loop); self.b('typedef struct {') self.b(' GMainLoop *loop;') self.b(' GError **error;') for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' %s*%s;' % (ctype, name)) self.b(' gboolean success:1;') self.b(' gboolean completed:1;') self.b('} _%s_%s_run_state_%s;' % (self.prefix_lc, iface_lc, member_lc)) reentrant_invoke = '_%s_%s_finish_running_%s' % (self.prefix_lc, iface_lc, member_lc) self.b('static void') self.b('%s (TpProxy *self G_GNUC_UNUSED,' % reentrant_invoke) self.b(' GError *error,') self.b(' GValueArray *args,') self.b(' GCallback unused G_GNUC_UNUSED,') self.b(' gpointer user_data G_GNUC_UNUSED,') self.b(' GObject *unused2 G_GNUC_UNUSED)') self.b('{') self.b(' _%s_%s_run_state_%s *state = user_data;' % (self.prefix_lc, iface_lc, member_lc)) self.b('') self.b(' state->success = (error == NULL);') self.b(' state->completed = TRUE;') self.b(' g_main_loop_quit (state->loop);') self.b('') self.b(' if (error != NULL)') self.b(' {') self.b(' if (state->error != NULL)') self.b(' *state->error = error;') self.b(' else') self.b(' g_error_free (error);') self.b('') self.b(' return;') self.b(' }') self.b('') for i, arg in enumerate(out_args): name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' if (state->%s != NULL)' % name) if marshaller == 'BOXED': self.b(' *state->%s = g_value_dup_boxed (' 'args->values + %d);' % (name, i)) elif marshaller == 'STRING': self.b(' *state->%s = g_value_dup_string ' '(args->values + %d);' % (name, i)) elif marshaller in ('UCHAR', 'BOOLEAN', 'INT', 'UINT', 'INT64', 'UINT64', 'DOUBLE'): self.b(' *state->%s = g_value_get_%s (args->values + %d);' % (name, marshaller.lower(), i)) else: assert False, "Don't know how to copy %s" % gtype self.b('') if len(out_args) > 0: self.b(' g_value_array_free (args);') else: self.b(' if (args != NULL)') self.b(' g_value_array_free (args);') self.b('}') self.b('') self.h('gboolean %s_%s_run_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.h(' gint timeout_ms,') self.b('/**') self.b(' * %s_%s_run_%s:' % (self.prefix_lc, iface_lc, member_lc)) self.b(' * @proxy: %s' % self.proxy_doc) self.b(' * @timeout_ms: Timeout in milliseconds, or -1 for default') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' * @%s: Used to pass an \'in\' argument: %s' % (name, xml_escape(get_docstring(elt) or '(Undocumented)'))) for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.b(' * @%s: Used to return an \'out\' argument if %%TRUE is ' 'returned: %s' % (name, xml_escape(get_docstring(elt) or '(Undocumented)'))) self.b(' * @error: If not %NULL, used to return errors if %FALSE ') self.b(' * is returned') self.b(' * @loop: If not %NULL, set before re-entering ') self.b(' * the main loop, to point to a #GMainLoop ') self.b(' * which can be used to cancel this call with ') self.b(' * g_main_loop_quit(), causing a return of ') self.b(' * %FALSE with @error set to %TP_DBUS_ERROR_CANCELLED') self.b(' *') self.b(' * Call the method %s and run the main loop' % member) self.b(' * until it returns. Before calling this method, you must') self.b(' * add a reference to any borrowed objects you need to keep,') self.b(' * and generally ensure that everything is in a consistent') self.b(' * state.') self.b(' *') self.b(' * %s' % xml_escape(get_docstring(method) or '(Undocumented)')) self.b(' *') self.b(' * Returns: TRUE on success, FALSE and sets @error on error') self.b(' */') self.b('gboolean\n%s_%s_run_%s (%sproxy,' % (self.prefix_lc, iface_lc, member_lc, self.proxy_arg)) self.b(' gint timeout_ms,') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.h(' %s%s%s,' % (const, ctype, name)) self.b(' %s%s%s,' % (const, ctype, name)) for arg in out_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info self.h(' %s*%s,' % (ctype, name)) self.b(' %s*%s,' % (ctype, name)) self.h(' GError **error,') self.h(' GMainLoop **loop);') self.h('') self.b(' GError **error,') self.b(' GMainLoop **loop)') self.b('{') self.b(' DBusGProxy *iface;') self.b(' GQuark interface = %s;' % self.get_iface_quark()) self.b(' TpProxyPendingCall *pc;') self.b(' _%s_%s_run_state_%s state = {' % (self.prefix_lc, iface_lc, member_lc)) self.b(' NULL /* loop */, error,') for arg in out_args: name, info, tp_type, elt = arg self.b(' %s,' % name) self.b(' FALSE /* completed */, FALSE /* success */ };') self.b('') self.b(' g_return_val_if_fail (%s (proxy), FALSE);' % self.proxy_assert) self.b('') self.b(' iface = tp_proxy_borrow_interface_by_id') self.b(' ((TpProxy *) proxy, interface, error);') self.b('') self.b(' if (iface == NULL)') self.b(' return FALSE;') self.b('') self.b(' state.loop = g_main_loop_new (NULL, FALSE);') self.b('') self.b(' pc = tp_proxy_pending_call_v0_new ((TpProxy *) proxy,') self.b(' interface, "%s", iface,' % member) self.b(' %s,' % reentrant_invoke) self.b(' NULL, &state, NULL, NULL, TRUE);') self.b('') self.b(' if (loop != NULL)') self.b(' *loop = state.loop;') self.b('') self.b(' tp_proxy_pending_call_v0_take_pending_call (pc,') self.b(' dbus_g_proxy_begin_call_with_timeout (iface,') self.b(' "%s",' % member) self.b(' %s,' % collect_callback) self.b(' pc,') self.b(' tp_proxy_pending_call_v0_completed,') self.b(' timeout_ms,') for arg in in_args: name, info, tp_type, elt = arg ctype, gtype, marshaller, pointer = info const = pointer and 'const ' or '' self.b(' %s, %s,' % (gtype, name)) self.b(' G_TYPE_INVALID));') self.b('') self.b(' if (!state.completed)') self.b(' g_main_loop_run (state.loop);') self.b('') self.b(' if (!state.completed)') self.b(' tp_proxy_pending_call_cancel (pc);') self.b('') self.b(' if (loop != NULL)') self.b(' *loop = NULL;') self.b('') self.b(' g_main_loop_unref (state.loop);') self.b('') self.b(' return state.success;') self.b('}') self.b('') # leave a gap for the end of the method self.b('') self.h('') def do_signal_add(self, signal): marshaller_items = [] gtypes = [] for i in signal.getElementsByTagName('arg'): name = i.getAttribute('name') type = i.getAttribute('type') info = type_to_gtype(type) # type, GType, STRING, is a pointer gtypes.append(info[1]) self.b(' dbus_g_proxy_add_signal (proxy, "%s",' % signal.getAttribute('name')) for gtype in gtypes: self.b(' %s,' % gtype) self.b(' G_TYPE_INVALID);') def do_interface(self, node): ifaces = node.getElementsByTagName('interface') assert len(ifaces) == 1 iface = ifaces[0] name = node.getAttribute('name').replace('/', '') self.iface = name self.iface_lc = name.lower() self.iface_uc = name.upper() self.iface_mc = name.replace('_', '') self.iface_dbus = iface.getAttribute('name') signals = node.getElementsByTagName('signal') methods = node.getElementsByTagName('method') if signals: self.b('static inline void') self.b('%s_add_signals_for_%s (DBusGProxy *proxy)' % (self.prefix_lc, name.lower())) self.b('{') if self.tp_proxy_api >= (0, 7, 6): self.b(' if (!tp_proxy_dbus_g_proxy_claim_for_signal_adding ' '(proxy))') self.b(' return;') for signal in signals: self.do_signal_add(signal) self.b('}') self.b('') self.b('') for signal in signals: self.do_signal(name, signal) for method in methods: self.do_method(name, method) self.iface_dbus = None def __call__(self): self.h('G_BEGIN_DECLS') self.h('') self.b('/* We don\'t want gtkdoc scanning this file, it\'ll get') self.b(' * confused by seeing function definitions, so mark it as: */') self.b('/**/') self.b('') nodes = self.dom.getElementsByTagName('node') nodes.sort(cmp_by_name) for node in nodes: self.do_interface(node) if self.group is not None: self.b('/*') self.b(' * %s_%s_add_signals:' % (self.prefix_lc, self.group)) self.b(' * @self: the #TpProxy') self.b(' * @quark: a quark whose string value is the interface') self.b(' * name whose signals should be added') self.b(' * @proxy: the D-Bus proxy to which to add the signals') self.b(' * @unused: not used for anything') self.b(' *') self.b(' * Tell dbus-glib that @proxy has the signatures of all') self.b(' * signals on the given interface, if it\'s one we') self.b(' * support.') self.b(' *') self.b(' * This function should be used as a signal handler for') self.b(' * #TpProxy::interface-added.') self.b(' */') self.b('static void') self.b('%s_%s_add_signals (TpProxy *self G_GNUC_UNUSED,' % (self.prefix_lc, self.group)) self.b(' guint quark,') self.b(' DBusGProxy *proxy,') self.b(' gpointer unused G_GNUC_UNUSED)') self.b('{') for node in nodes: iface = node.getElementsByTagName('interface')[0] self.iface_dbus = iface.getAttribute('name') signals = node.getElementsByTagName('signal') if not signals: continue name = node.getAttribute('name').replace('/', '').lower() self.iface_uc = name.upper() self.b(' if (quark == %s)' % self.get_iface_quark()) self.b(' %s_add_signals_for_%s (proxy);' % (self.prefix_lc, name)) self.b('}') self.b('') self.h('G_END_DECLS') self.h('') open(self.basename + '.h', 'w').write('\n'.join(self.__header)) open(self.basename + '-body.h', 'w').write('\n'.join(self.__body)) def types_to_gtypes(types): return [type_to_gtype(t)[1] for t in types] if __name__ == '__main__': options, argv = gnu_getopt(sys.argv[1:], '', ['group=', 'subclass=', 'subclass-assert=', 'iface-quark-prefix=', 'tp-proxy-api=']) opts = {} for option, value in options: opts[option] = value dom = xml.dom.minidom.parse(argv[0]) Generator(dom, argv[1], argv[2], opts)()