private void CreateMidi(string trackName, int[] notes, int tempo, int[] instruments, int[] durations, string fileName) { MIDISong song = new MIDISong(); song.AddTrack(trackName); song.SetTimeSignature(0, 4, 4); song.SetTempo(0, m_nBeats[tempo]); for (int channel = 0; channel < instruments.Length; channel++) { song.SetChannelInstrument(0, channel, instruments[channel]); foreach (int duration in durations) { for (int i = 0; i < notes.Length; i++) { int noteNumber = notes[i]; noteNumber += 12 * (6 + (channel % 2)); song.AddNote(0, channel, noteNumber, duration); } } } try { MemoryStream ms = new MemoryStream(); song.Save(ms); ms.Seek(0, SeekOrigin.Begin); byte[] src = ms.GetBuffer(); byte[] dst = new byte[src.Length]; for (int i = 0; i < src.Length; i++) { dst[i] = src[i]; } ms.Close(); FileInfo FI = new FileInfo(fileName + ".mid"); if (!FI.Directory.Exists) { FI.Directory.Create(); } FileStream objWriter = File.Create(FI.FullName); objWriter.Write(dst, 0, dst.Length); objWriter.Close(); objWriter.Dispose(); objWriter = null; } catch (Exception e) { throw e; } }
// Ecriture musique dans fichier temporaire private void WriteMusic(Individu individu, int numeroPiste) { // 1) Créer le fichier MIDI // a. Créer un fichier et une piste audio ainsi que les informations de tempo MIDISong song = new MIDISong(); song.AddTrack("Piste1"); song.SetTimeSignature(0, 4, 4); song.SetTempo(0, tempo); // Récupération du tableau contenant les notes de musique int[] tabMusique = individu.GetNotesDeMusique(); // Récupération du type d'instrument dans l'individu présent dans la population int instrument = individu.GetTypeInstrument(); song.SetChannelInstrument(0, 0, instrument); // Ajout des notes une à une dans la piste son for (int i = 0; i < numberIndividu; i++) { song.AddNote(0, 0, tabMusique[i], lengthNote); } // d. Enregistrer le fichier .mid (lisible dans un lecteur externe par exemple) // on prépare le flux de sortie MemoryStream ms = new MemoryStream(); song.Save(ms); ms.Seek(0, SeekOrigin.Begin); byte[] src = ms.GetBuffer(); ms.Close(); FileStream objWriter = File.Create(directory + "/piste" + numeroPiste + ".midi"); objWriter.Write(src, 0, src.Length); objWriter.Close(); objWriter.Dispose(); objWriter = null; }
public static void Main(string[] args) { /*var hip = new JHPlayer(); * using(var stream = new FileStream("hipc.Title", FileMode.Open)) * { * hip.loader(stream); * var mid = new MIDISong(); * for(int i = 0; i < 4; i++) mid.AddTrack(); * * }*/ var hip = HippelCosoFile.Open("hipc.City_Walk", null); var song = new MIDISong(); for (int i = 0; i < 4; i++) { var track = song.AddTrack(null); song.SetTempo(track, 3000 / hip.Songs[0].Speed); song.SetTimeSignature(track, 4, 4); } /*for(int i = 0; i < hip.Voices.Length/4; i++) * { * for(int j = 0; j < 4; j++) * { * var voice = hip.Voices[i*4+j]; * int vsize = 12; * for(int k = 0; k < vsize; k++) * { * int note = hip.Patterns[voice.PatternAddress*vsize+k].Note*2; * //if(note <= 5) note = 0; * song.AddNote(j, 0, note-1, 12); * } * } * }*/ for (int i = 0; i < hip.Patterns.Length; i++) { int note = hip.Patterns[i].Note; song.AddNote(0, 0, note * 2 - 1, 12); } using (var stream = new FileStream("hip.mid", FileMode.Create)) { song.Save(stream); } return; var cfg = ReadConfig(); Console.WriteLine("AmiMus v" + Assembly.GetExecutingAssembly().GetName().Version.ToString(2)); Console.WriteLine("Created by [email protected]"); if (args.Length != 2) { Console.WriteLine("Usage:"); Console.WriteLine(" amimus [input] [output]"); Console.WriteLine("Example:"); Console.WriteLine(" amimus [sa.Song1] [Song1.mid]"); Console.WriteLine("Currently supported formats:"); Console.WriteLine("Input - Sonic Arranger (classic or with replayer)"); Console.WriteLine("Output - MIDI"); } else { SA2MIDI(args[0], args[1]); Console.WriteLine("Song converted."); } }