/* Gnome-Streamer * Copyright (C) <1999> Erik Walthinsen * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include /* Element signals and args */ enum { STATE_CHANGE, NEW_PAD, NEW_GHOST_PAD, ERROR, LAST_SIGNAL }; enum { ARG_0, /* FILL ME */ }; static void gst_element_class_init (GstElementClass *klass); static void gst_element_init (GstElement *element); static void gst_element_real_destroy (GtkObject *object); static GstElementStateReturn gst_element_change_state(GstElement *element); static GstObjectClass *parent_class = NULL; static guint gst_element_signals[LAST_SIGNAL] = { 0 }; GtkType gst_element_get_type(void) { static GtkType element_type = 0; if (!element_type) { static const GtkTypeInfo element_info = { "GstElement", sizeof(GstElement), sizeof(GstElementClass), (GtkClassInitFunc)gst_element_class_init, (GtkObjectInitFunc)gst_element_init, (GtkArgSetFunc)NULL, (GtkArgGetFunc)NULL, (GtkClassInitFunc)NULL, }; element_type = gtk_type_unique(GST_TYPE_OBJECT,&element_info); } return element_type; } static void gst_element_class_init (GstElementClass *klass) { GtkObjectClass *gtkobject_class; gtkobject_class = (GtkObjectClass*)klass; parent_class = gtk_type_class(GST_TYPE_OBJECT); gst_element_signals[STATE_CHANGE] = gtk_signal_new ("state_change", GTK_RUN_LAST, gtkobject_class->type, GTK_SIGNAL_OFFSET (GstElementClass, state_change), gtk_marshal_NONE__INT, GTK_TYPE_NONE, 1, GTK_TYPE_INT); gst_element_signals[NEW_PAD] = gtk_signal_new ("new_pad", GTK_RUN_LAST, gtkobject_class->type, GTK_SIGNAL_OFFSET (GstElementClass, new_pad), gtk_marshal_NONE__POINTER, GTK_TYPE_NONE, 1, GST_TYPE_PAD); gst_element_signals[NEW_GHOST_PAD] = gtk_signal_new ("new_ghost_pad", GTK_RUN_LAST, gtkobject_class->type, GTK_SIGNAL_OFFSET (GstElementClass, new_ghost_pad), gtk_marshal_NONE__POINTER, GTK_TYPE_NONE, 1, GST_TYPE_PAD); gst_element_signals[ERROR] = gtk_signal_new ("error", GTK_RUN_LAST, gtkobject_class->type, GTK_SIGNAL_OFFSET (GstElementClass, error), gtk_marshal_NONE__STRING, GTK_TYPE_NONE,1, GTK_TYPE_STRING); gtk_object_class_add_signals (gtkobject_class, gst_element_signals, LAST_SIGNAL); klass->change_state = gst_element_change_state; gtkobject_class->destroy = gst_element_real_destroy; } static void gst_element_init (GstElement *element) { element->current_state = GST_STATE_NULL; element->pending_state = -1; element->numpads = 0; element->pads = NULL; element->loopfunc = NULL; } /** * gst_element_new: * * Create a new element. Should never be used, as it does no good. * * Returns: new element */ GstElement* gst_element_new(void) { return GST_ELEMENT (gtk_type_new (GST_TYPE_ELEMENT)); } /** * gst_element_add_pad: * @element: element to add pad to * @pad: pad to add * * Add a pad (connection point) to the element, setting the parent of the * pad to the element (and thus adding a reference). */ void gst_element_add_pad (GstElement *element, GstPad *pad) { g_return_if_fail (element != NULL); g_return_if_fail (GST_IS_ELEMENT (element)); g_return_if_fail (pad != NULL); g_return_if_fail (GST_IS_PAD (pad)); /* set the pad's parent */ gst_pad_set_parent (pad,GST_OBJECT (element)); /* add it to the list */ element->pads = g_list_append (element->pads, pad); element->numpads++; /* emit the NEW_PAD signal */ // g_print("emitting NEW_PAD signal, \"%s\"!\n",gst_pad_get_name(pad)); gtk_signal_emit (GTK_OBJECT (element), gst_element_signals[NEW_PAD], pad); } /** * gst_element_add_ghost_pad: * @element: element to add ghost pad to * @pad: ghost pad to add * * Add a ghost pad to the element, setting the ghost parent of the pad to * the element (and thus adding a reference). */ void gst_element_add_ghost_pad (GstElement *element, GstPad *pad) { g_return_if_fail (element != NULL); g_return_if_fail (GST_IS_ELEMENT (element)); g_return_if_fail (pad != NULL); g_return_if_fail (GST_IS_PAD (pad)); /* set the pad's parent */ gst_pad_add_ghost_parent (pad,GST_OBJECT (element)); /* add it to the list */ element->pads = g_list_append (element->pads, pad); element->numpads++; /* emit the NEW_PAD signal */ gtk_signal_emit (GTK_OBJECT (element), gst_element_signals[NEW_GHOST_PAD], pad); } /** * gst_element_get_pad: * @element: element to find pad of * @name: name of pad to retrieve * * Retrieve a pad from the element by name. * * Returns: requested pad if found, otherwise NULL. */ GstPad* gst_element_get_pad (GstElement *element, gchar *name) { GList *walk; g_return_val_if_fail (element != NULL, NULL); g_return_val_if_fail (GST_IS_ELEMENT (element), NULL); if (name == NULL) return NULL; if (!element->numpads) return NULL; /* look through the list, matching by name */ walk = element->pads; while (walk) { if (!strcmp (((GstPad *)(walk->data))->name, name)) return (GstPad *)(walk->data); walk = g_list_next (walk); } return NULL; } /** * gst_element_get_pad_list: * @element: element to get pads of * * Retrieve a list of the pads associated with the element. * * Returns: GList of pads */ GList* gst_element_get_pad_list (GstElement *element) { g_return_val_if_fail (element != NULL, NULL); g_return_val_if_fail (GST_IS_ELEMENT (element), NULL); /* return the list of pads */ return element->pads; } /** * gst_element_connect: * @src: element containing source pad * @srcpadname: name of pad in source element * @dest: element containing destination pad * @destpadname: name of pad in destination element * * Connect the two named pads of the source and destination elements. * Side effect is that if one of the pads has no parent, it becomes a * child of the parent of the other element. If they have different * parents, the connection fails. */ void gst_element_connect (GstElement *src, gchar *srcpadname, GstElement *dest, gchar *destpadname) { GstPad *srcpad,*destpad; GstObject *srcparent,*destparent; g_return_if_fail (src != NULL); g_return_if_fail (GST_IS_ELEMENT(src)); g_return_if_fail (srcpadname != NULL); g_return_if_fail (dest != NULL); g_return_if_fail (GST_IS_ELEMENT(dest)); g_return_if_fail (destpadname != NULL); /* obtain the pads requested */ srcpad = gst_element_get_pad (src, srcpadname); destpad = gst_element_get_pad (dest, destpadname); g_return_if_fail (srcpad != NULL); g_return_if_fail (destpad != NULL); /* find the parent elements of each element */ srcparent = gst_object_get_parent (GST_OBJECT (src)); destparent = gst_object_get_parent (GST_OBJECT (dest)); /* have to make sure that they have the same parents... */ if (srcparent != destparent) return; /* we're satisified they can be connected, let's do it */ gst_pad_connect(srcpad,destpad); } /** * gst_element_error: * @element: Element with the error * @error: String describing the error * * This function is used internally by elements to signal an error * condition. It results in the "error" signal. */ void gst_element_error (GstElement *element, gchar *error) { g_error("GstElement: error in element '%s': %s\n", element->name, error); /* FIXME: this is not finished!!! */ gtk_signal_emit (GTK_OBJECT (element), gst_element_signals[ERROR], error); } /** * gst_element_set_state: * @element: element to change state of * @state: new element state * * Sets the state of the element. This function will only set * the elements pending state. * * Returns: whether or not the state was successfully set. */ gint gst_element_set_state (GstElement *element, GstElementState state) { GstElementClass *oclass; GstElementState curpending; GstElementStateReturn return_val = GST_STATE_SUCCESS; // g_print("gst_element_set_state(\"%s\",%08lx)\n", // element->name,state); g_return_val_if_fail (element != NULL, GST_STATE_FAILURE); g_return_val_if_fail (GST_IS_ELEMENT (element), GST_STATE_FAILURE); /* start with the current state */ curpending = GST_STATE(element); /* loop until the final requested state is set */ while (GST_STATE(element) != state) { /* move the curpending state in the correct direction */ if (curpending < state) curpending++; else curpending--; /* set the pending state variable */ // FIXME: should probably check to see that we don't already have one GST_STATE_PENDING (element) = curpending; /* call the state change function so it can set the state */ oclass = GST_ELEMENT_CLASS (GTK_OBJECT (element)->klass); if (oclass->change_state) return_val = (oclass->change_state)(element); /* if that outright didn't work, we need to bail right away */ /* NOTE: this will bail on ASYNC as well! */ if (return_val != GST_STATE_SUCCESS) return return_val; } /* this is redundant, really, it will always return SUCCESS */ return return_val; } /** * gst_element_get_factory: * @element: element to request the factory * * Retrieves the factory that was used to create this element * * Returns: the factory used for creating this element */ GstElementFactory* gst_element_get_factory (GstElement *element) { GstElementClass *oclass; g_return_val_if_fail (element != NULL, NULL); g_return_val_if_fail (GST_IS_ELEMENT (element), NULL); oclass = GST_ELEMENT_CLASS (GTK_OBJECT (element)->klass); return oclass->elementfactory; } /** * gst_element_change_state: * @element: element to change state of * * Changes the state of the element, but more importantly fires off a signal * indicating the new state. * The element will have no pending states anymore. * * Returns: whether or not the state change was successfully set. */ GstElementStateReturn gst_element_change_state (GstElement *element) { g_return_val_if_fail (element != NULL, GST_STATE_FAILURE); g_return_val_if_fail (GST_IS_ELEMENT (element), GST_STATE_FAILURE); // g_print("gst_element_change_state(\"%s\",%d)\n", // element->name,state); GST_STATE (element) = GST_STATE_PENDING (element); GST_STATE_PENDING (element) = GST_STATE_NONE_PENDING; gtk_signal_emit (GTK_OBJECT (element), gst_element_signals[STATE_CHANGE], GST_STATE (element)); return TRUE; } /** * gst_element_set_name: * @element: GstElement to set name of * @name: new name of element * * Set the name of the element, getting rid of the old name if there was * one. */ void gst_element_set_name (GstElement *element, gchar *name) { g_return_if_fail (element != NULL); g_return_if_fail (GST_IS_ELEMENT (element)); g_return_if_fail (name != NULL); if (element->name != NULL) g_free(element->name); element->name = g_strdup (name); } /** * gst_element_get_name: * @element: GstElement to set name of * * Get the name of the element. * * Returns: name of the element */ const gchar* gst_element_get_name (GstElement *element) { g_return_val_if_fail (element != NULL, NULL); g_return_val_if_fail (GST_IS_ELEMENT (element), NULL); return element->name; } static void gst_element_real_destroy (GtkObject *object) { GstElement *element = GST_ELEMENT (object); GList *pads; GstPad *pad; // g_print("in gst_element_real_destroy()\n"); if (element->name) g_free (element->name); pads = element->pads; while (pads) { pad = GST_PAD (pads->data); gst_pad_destroy (pad); pads = g_list_next (pads); } g_list_free (element->pads); } /* static gchar *_gst_element_type_names[] = { "invalid", "none", "char", "uchar", "bool", "int", "uint", "long", "ulong", "float", "double", "string", }; */ /** * gst_element_save_thyself: * @element: GstElement to save * @parent: the xml parent node * * saves the element * * Returns: the new xml node */ xmlNodePtr gst_element_save_thyself (GstElement *element, xmlNodePtr parent) { xmlNodePtr self; GList *pads; GstPad *pad; GstElementClass *oclass; GstElementFactory *factory; GtkType type; oclass = GST_ELEMENT_CLASS (GTK_OBJECT (element)->klass); self = xmlNewChild (parent, NULL, "element", NULL); xmlNewChild(self, NULL, "name", element->name); if (oclass->elementfactory != NULL) { factory = (GstElementFactory *)oclass->elementfactory; xmlNewChild (self, NULL, "type", factory->name); xmlNewChild (self, NULL, "version", factory->details->version); } pads = element->pads; while (pads) { xmlNodePtr padtag = xmlNewChild (self, NULL, "pad", NULL); pad = GST_PAD (pads->data); // figure out if it's a direct pad or a ghostpad if (GST_ELEMENT (pad->parent) == element) gst_pad_save_thyself (pad, padtag); pads = g_list_next (pads); } // output all args to the element type = GTK_OBJECT_TYPE (element); while (type != GTK_TYPE_INVALID) { GtkArg *args; guint32 *flags; guint num_args,i; args = gtk_object_query_args (type, &flags, &num_args); for (i=0; i GTK_TYPE_NONE) && //(args[i].type <= GTK_TYPE_STRING) && (flags[i] & GTK_ARG_READABLE)) { xmlNodePtr arg; gtk_object_getv (GTK_OBJECT (element), 1, &args[i]); arg = xmlNewChild (self, NULL, "arg", NULL); xmlNewChild (arg, NULL, "name", args[i].name); switch (args[i].type) { case GTK_TYPE_CHAR: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%c", GTK_VALUE_CHAR (args[i]))); break; case GTK_TYPE_UCHAR: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%d", GTK_VALUE_UCHAR (args[i]))); break; case GTK_TYPE_BOOL: xmlNewChild (arg, NULL, "value", GTK_VALUE_BOOL (args[i]) ? "true" : "false"); break; case GTK_TYPE_INT: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%d", GTK_VALUE_INT (args[i]))); break; case GTK_TYPE_LONG: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%ld", GTK_VALUE_LONG (args[i]))); break; case GTK_TYPE_ULONG: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%lu", GTK_VALUE_ULONG (args[i]))); break; case GTK_TYPE_FLOAT: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%f", GTK_VALUE_FLOAT (args[i]))); break; case GTK_TYPE_DOUBLE: xmlNewChild (arg, NULL, "value", g_strdup_printf ("%g", GTK_VALUE_DOUBLE (args[i]))); break; case GTK_TYPE_STRING: xmlNewChild (arg, NULL, "value", GTK_VALUE_STRING (args[i])); break; default: if (args[i].type == GST_TYPE_FILENAME) { xmlNewChild (arg, NULL, "value", GTK_VALUE_STRING (args[i])); } break; } } } type = gtk_type_parent (type); } if (oclass->save_thyself) (oclass->save_thyself)(element, self); return self; } /** * gst_element_load_thyself: * @parent: the xml parent node * @elements: a hashtable to store the elements in. This is used * to resolve inter element dependecies during the loading. * * load the element based on the XML description * * Returns: the new element */ GstElement* gst_element_load_thyself (xmlNodePtr parent, GHashTable *elements) { xmlNodePtr children = parent->childs; GstElement *element; GstElementClass *oclass; guchar *name = NULL; guchar *value = NULL; guchar *type = NULL; // first get the needed tags to cunstruct the element while (children) { if (!strcmp (children->name, "name")) { name = g_strdup (xmlNodeGetContent (children)); } else if (!strcmp (children->name, "type")) { type = g_strdup (xmlNodeGetContent (children)); } children = children->next; } g_assert (name != NULL); g_assert (type != NULL); g_print ("gstelement: loading \"%s\" of type \"%s\"\n", name, type); element = gst_elementfactory_make (type, name); g_assert (element != NULL); g_hash_table_insert (elements, g_strdup (gst_element_get_name (element)), element); // we have the element now, set the arguments and pads children = parent->childs; while (children) { if (!strcmp (children->name, "pad")) { gst_pad_load_and_connect (children, GST_OBJECT(element), elements); } else if (!strcmp (children->name, "arg")) { xmlNodePtr child = children->childs; while (child) { if (!strcmp (child->name, "name")) { name = g_strdup (xmlNodeGetContent (child)); } else if (!strcmp (child->name, "value")) { value = g_strdup (xmlNodeGetContent (child)); } child = child->next; } if (name && value) { GtkType type = GTK_OBJECT_TYPE (element); GtkArgInfo *info; gchar *result; result = gtk_object_arg_get_info (type, name, &info); if (result) { g_print("gstelement: %s\n", result); } else if (info->arg_flags & GTK_ARG_WRITABLE) { switch (info->type) { case GTK_TYPE_STRING: gtk_object_set (GTK_OBJECT (element), name, value, NULL); break; case GTK_TYPE_INT: { gint i; sscanf (value, "%d", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_LONG: { glong i; sscanf (value, "%ld", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_ULONG: { gulong i; sscanf (value, "%lu", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_BOOL: { gboolean i = FALSE; if (!strcmp ("true", value)) i = TRUE; gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_CHAR: { gchar i; sscanf (value, "%c", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_UCHAR: { guchar i; sscanf (value, "%c", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_FLOAT: { gfloat i; sscanf (value, "%f", &i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } case GTK_TYPE_DOUBLE: { gdouble i; sscanf (value, "%g", (float *)&i); gtk_object_set (GTK_OBJECT (element), name, i, NULL); break; } default: if (info->type == GST_TYPE_FILENAME) { gtk_object_set (GTK_OBJECT (element), name, value, NULL); } break; } } } } children = children->next; } oclass = GST_ELEMENT_CLASS (GTK_OBJECT (element)->klass); if (oclass->restore_thyself) (oclass->restore_thyself) (element, parent, elements); return element; } /** * gst_element_set_manager: * @element: Element to set manager of. * @manager: Element to be the manager. * * Sets the manager of the element. For internal use only, unless you're * writing a new bin subclass. */ void gst_element_set_manager (GstElement *element, GstElement *manager) { element->manager = manager; } /** * gst_element_get_manager: * @element: Element to get manager of. * * Returns the manager of the element. * * Returns: Element's manager */ GstElement* gst_element_get_manager (GstElement *element) { return element->manager; } // note that this casts a char ** to a GstElement *. Ick. int gst_element_loopfunc_wrapper (int argc, char **argv) { GstElement *element = GST_ELEMENT (argv); while (1) { /* if NEW_LOOPFUNC is set, clear it, we're implicitly updating */ if (GST_FLAG_IS_SET(element,GST_ELEMENT_NEW_LOOPFUNC)) GST_FLAG_UNSET(element,GST_ELEMENT_NEW_LOOPFUNC); /* start up the loop function */ element->loopfunc (element); } return 0; } /** * gst_element_set_loop_function: * @element: Element to set loop function of. * @loop: Pointer to loop function. * * This sets the loop function for the element. The function pointed to * can deviate from the GstElementLoopFunction definition in type of * pointer only. * * NOTE: in order for this to take effect, the current loop function *must* * exit. Assuming the loop function itself is the only one who will cause * a new loopfunc to be assigned, this should be no problem. */ void gst_element_set_loop_function(GstElement *element, GstElementLoopFunction loop) { /* set the loop function */ element->loopfunc = loop; /* set the NEW_LOOPFUNC flag so everyone knows to go try again */ GST_FLAG_SET(element,GST_ELEMENT_NEW_LOOPFUNC); }