#region --- License --- /* Licensed under the MIT/X11 license. * Copyright (c) 2006-2008 the OpenTK Team. * This notice may not be removed from any source distribution. * See license.txt for licensing details. */ #endregion using System; using System.IO; using OpenTK.Audio; using System.Diagnostics; using System.Runtime.InteropServices; namespace OpenTK.Audio { internal sealed class WaveReader : SoundReader { SoundData decoded_data; //RIFF header string signature; int riff_chunck_size; string format; //WAVE header string format_signature; int format_chunk_size; short audio_format; short channels; int sample_rate; int byte_rate; short block_align; short bits_per_sample; //DATA header string data_signature; int data_chunk_size; BinaryReader reader; internal WaveReader() { } internal WaveReader(Stream s) { if (s == null) throw new ArgumentNullException(); if (!s.CanRead) throw new ArgumentException("Cannot read from specified Stream."); reader = new BinaryReader(s); this.Stream = s; } #if false /// /// Writes the WaveSound's data to the specified OpenAL buffer in the correct format. /// /// /// A /// public void WriteToBuffer(uint bid) { unsafe { //fix the array as a byte fixed (byte* p_Data = _Data) { if (Channels == 1) { if (BitsPerSample == 16) { Console.Write("Uploading 16 bit mono data to OpenAL..."); AL.BufferData(bid, ALFormat.Mono16, (IntPtr)p_Data, _Data.Length, SampleRate); } else { if (BitsPerSample == 8) { Console.Write("Uploading 8 bit mono data to OpenAL..."); AL.BufferData(bid, ALFormat.Mono8, (IntPtr)p_Data, _Data.Length, SampleRate); } } } else { if (Channels == 2) { if (BitsPerSample == 16) { Console.Write("Uploading 16 bit stereo data to OpenAL..."); AL.BufferData(bid, ALFormat.Stereo16, (IntPtr)p_Data, _Data.Length, SampleRate); } else { if (BitsPerSample == 8) { Console.Write("Uploading 8 bit stereo data to OpenAL..."); AL.BufferData(bid, ALFormat.Stereo8, (IntPtr)p_Data, _Data.Length, SampleRate); } } } } } } } /// /// Writes all relevent information about the WaveSound to the console window. /// public void DumpParamsToConsole() { Console.WriteLine("AudioFormat:" + AudioFormat); Console.WriteLine("Channels:" + Channels); Console.WriteLine("SampleRate:" + SampleRate); Console.WriteLine("ByteRate:" + ByteRate); Console.WriteLine("BlockAlign:" + BlockAlign); Console.WriteLine("BitsPerSample:" + BitsPerSample); } /// /// Returns the WaveSound's raw sound data as an array of bytes. /// public byte[] Data { get { return _Data; } } #endif #region --- Public Members --- #region public override bool Supports(Stream s) /// /// Checks whether the specified stream contains valid WAVE/RIFF buffer. /// /// The System.IO.Stream to check. /// True if the stream is a valid WAVE/RIFF file; false otherwise. public override bool Supports(Stream s) { BinaryReader reader = new BinaryReader(s); return this.ReadHeaders(reader); } #endregion #region public override SoundData ReadSamples(int samples) /// /// Reads and decodes the specified number of samples from the sound stream. /// /// The number of samples to read and decode. /// An OpenTK.Audio.SoundData object that contains the decoded buffer. public override SoundData ReadSamples(long samples) { if (samples > reader.BaseStream.Length - reader.BaseStream.Position) samples = reader.BaseStream.Length - reader.BaseStream.Position; //while (samples > decoded_data.Data.Length * (bits_per_sample / 8)) // Array.Resize(ref decoded_data.Data, decoded_data.Data.Length * 2); decoded_data = new SoundData(new SoundFormat(channels, bits_per_sample, sample_rate), reader.ReadBytes((int)samples)); return decoded_data; } #endregion #region public override SoundData ReadToEnd() /// /// Reads and decodes the sound stream. /// /// An OpenTK.Audio.SoundData object that contains the decoded buffer. public override SoundData ReadToEnd() { try { //read the buffer into a byte array, even if the format is 16 bit //decoded_data = new byte[data_chunk_size]; decoded_data = new SoundData(new SoundFormat(channels, bits_per_sample, sample_rate), reader.ReadBytes((int)reader.BaseStream.Length)); Debug.WriteLine("decoded!"); //return new SoundData(decoded_data, new SoundFormat(channels, bits_per_sample, sample_rate)); return decoded_data; } catch (SoundReaderException e) { reader.Close(); throw; } } #endregion #endregion #region --- Protected Members --- protected override Stream Stream { get { return base.Stream; } set { base.Stream = value; if (!ReadHeaders(reader)) throw new SoundReaderException("Invalid WAVE/RIFF file: invalid or corrupt signature."); Debug.Write(String.Format("Opened WAVE/RIFF file: ({0}, {1}, {2}, {3}) ", sample_rate.ToString(), bits_per_sample.ToString(), channels.ToString(), audio_format.ToString())); } } #endregion #region --- Private Members --- // Tries to read the WAVE/RIFF headers, and returns true if they are valid. bool ReadHeaders(BinaryReader reader) { // Don't explicitly call reader.Close()/.Dispose(), as that will close the inner stream. // There's no such danger if the BinaryReader isn't explicitly destroyed. // RIFF header signature = new string(reader.ReadChars(4)); if (signature != "RIFF") return false; riff_chunck_size = reader.ReadInt32(); format = new string(reader.ReadChars(4)); if (format != "WAVE") return false; // WAVE header format_signature = new string(reader.ReadChars(4)); if (format_signature != "fmt ") return false; format_chunk_size = reader.ReadInt32(); audio_format = reader.ReadInt16(); channels = reader.ReadInt16(); sample_rate = reader.ReadInt32(); byte_rate = reader.ReadInt32(); block_align = reader.ReadInt16(); bits_per_sample = reader.ReadInt16(); data_signature = new string(reader.ReadChars(4)); if (data_signature != "data") return false; data_chunk_size = reader.ReadInt32(); return true; } #endregion } }