/* AudioTrack.cs $ This file is part of the HandBrake source code. Homepage: . It may be used under the terms of the GNU General Public License. */ using System; using System.Collections.Generic; using System.IO; using System.Text.RegularExpressions; namespace Handbrake.Parsing { /// /// An object represending an AudioTrack associated with a Title, in a DVD /// public class AudioTrack { private int m_bitrate; private string m_format; private int m_frequency; private string m_language; private string m_subFormat; private int m_trackNumber; private string m_iso639_2; /// /// The track number of this Audio Track /// public int TrackNumber { get { return m_trackNumber; } } /// /// The language (if detected) of this Audio Track /// public string Language { get { return m_language; } } /// /// The primary format of this Audio Track /// public string Format { get { return m_format; } } /// /// Additional format info for this Audio Track /// public string SubFormat { get { return m_subFormat; } } /// /// The frequency (in MHz) of this Audio Track /// public int Frequency { get { return m_frequency; } } /// /// The bitrate (in kbps) of this Audio Track /// public int Bitrate { get { return m_bitrate; } } public string ISO639_2 { get { return m_iso639_2; } } /// /// Override of the ToString method to make this object easier to use in the UI /// /// A string formatted as: {track #} {language} ({format}) ({sub-format}) public override string ToString() { if (m_subFormat == null) return string.Format("{0} {1} ({2})", m_trackNumber, m_language, m_format); return string.Format("{0} {1} ({2}) ({3})", m_trackNumber, m_language, m_format, m_subFormat); } public static AudioTrack Parse(StringReader output) { String audio_track = output.ReadLine(); Match m = Regex.Match(audio_track, @"^ \+ ([0-9]*), ([A-Za-z0-9]*) \((.*)\) \((.*)\)"); Match track = Regex.Match(audio_track, @"^ \+ ([0-9]*), ([A-Za-z0-9]*) \((.*)\)"); // ID and Language Match iso639_2 = Regex.Match(audio_track, @"iso639-2: ([a-zA-Z]*)\)"); Match samplerate = Regex.Match(audio_track, @"([0-9]*)Hz"); Match bitrate = Regex.Match(audio_track, @"([0-9]*)bps"); string subformat = m.Groups[4].Value.Trim().Contains("iso639") ? null : m.Groups[4].Value; string samplerateVal = samplerate.Success ? samplerate.Groups[0].Value.Replace("Hz", "").Trim() : "0"; string bitrateVal = bitrate.Success ? bitrate.Groups[0].Value.Replace("bps", "").Trim() : "0"; if (track.Success) { var thisTrack = new AudioTrack { m_trackNumber = int.Parse(track.Groups[1].Value.Trim()), m_language = track.Groups[2].Value, m_format = m.Groups[3].Value, m_subFormat = subformat, m_frequency = int.Parse(samplerateVal), m_bitrate = int.Parse(bitrateVal), m_iso639_2 = iso639_2.Value.Replace("iso639-2: ", "").Replace(")", "") }; return thisTrack; } return null; } public static AudioTrack[] ParseList(StringReader output) { var tracks = new List(); while (true) { AudioTrack thisTrack = Parse(output); if (thisTrack != null) tracks.Add(thisTrack); else break; } return tracks.ToArray(); } } }