// Authors // Copyright (C) 2014 Stephan Sundermann using System; using Gst; using System.Runtime.InteropServices; using System.Text; namespace GstreamerSharp { class Playback { const int GraphLength = 78; static uint PlayFlagDownload = (1 << 7); // Enable progressive download (on selected formats) static bool IsLive; static Element Pipeline; static GLib.MainLoop MainLoop; static int BufferingLevel; static void GotLocation (object sender, GLib.SignalArgs args) { var propObject = (Gst.Object)args.Args [0]; var location = (string) propObject["temp-location"]; Console.WriteLine ("Temporary file: {0}", location); // Uncomment this line to keep the temporary file after the program exits // g_object_set (G_OBJECT (prop_object), "temp-remove", FALSE, NULL); } public static void Main (string[] args) { // Initialize GStreamer Application.Init (ref args); BufferingLevel = 100; // Build the pipeline Pipeline = Parse.Launch ("playbin uri=http://freedesktop.org/software/gstreamer-sdk/data/media/sintel_trailer-480p.webm"); var bus = Pipeline.Bus; // Set the download flag var flags = (uint)Pipeline ["flags"]; flags |= PlayFlagDownload; Pipeline ["flags"] = flags; // Uncomment this line to limit the amount of downloaded data // g_object_set (pipeline, "ring-buffer-max-size", (guint64)4000000, NULL); // Start playing var ret = Pipeline.SetState (State.Playing); if (ret == StateChangeReturn.Failure) { Console.WriteLine ("Unable to set the pipeline to the playing state."); return; } else if (ret == StateChangeReturn.NoPreroll) { IsLive = true; } MainLoop = new GLib.MainLoop (); bus.AddSignalWatch (); bus.Message += HandleMessage; Pipeline.Connect ("deep-notify::temp-location", GotLocation); // Register a function that GLib will call every second GLib.Timeout.AddSeconds (1, RefreshUI); MainLoop.Run (); // Free resources Pipeline.SetState (State.Null); } static void HandleMessage (object o, MessageArgs args) { var msg = args.Message; switch (msg.Type) { case MessageType.Error: { GLib.GException err; string debug; msg.ParseError (out err, out debug); Console.WriteLine ("Error: {0}", err.Message); Pipeline.SetState (State.Ready); MainLoop.Quit (); break; } case MessageType.Eos: // end-of-stream Pipeline.SetState (State.Ready); MainLoop.Quit (); break; case MessageType.Buffering: { int percent = 0; // If the stream is live, we do not care about buffering. if (IsLive) break; percent = msg.ParseBuffering (); // Wait until buffering is complete before start/resume playing if (percent < 100) Pipeline.SetState (State.Paused); else Pipeline.SetState (State.Playing); break; } case MessageType.ClockLost: // Get a new clock Pipeline.SetState (State.Paused); Pipeline.SetState (State.Playing); break; default: // Unhandled message break; } } static bool RefreshUI () { var query = new Query (Format.Percent); if (Pipeline.Query (query)) { var graph = new StringBuilder (GraphLength); long position = 0, duration = 0; var nRanges = query.NBufferingRanges; for (uint range = 0; range < nRanges; range++) { long start, stop; query.ParseNthBufferingRange (range, out start, out stop); start = start * GraphLength / (stop - start); stop = stop * GraphLength / (stop - start); for (int i = (int)start; i < stop; i++) graph.Insert (i, '-'); } if (Pipeline.QueryPosition (Format.Time, out position) && position >= 0 && Pipeline.QueryDuration (Format.Time, out duration) && duration >= 0) { var i = (int)(GraphLength * (double)position / (double)(duration + 1)); graph [i] = BufferingLevel < 100 ? 'X' : '>'; } Console.WriteLine ("[{0}]", graph); if (BufferingLevel < 100) { Console.WriteLine (" Buffering: {0}", BufferingLevel); } else { Console.WriteLine (" "); } Console.WriteLine (); } return true; } } }