using System; using System.IO; namespace Oni.Sound { internal class AifExporter : SoundExporter { #region Private data private bool do_pc_demo_test; private const int fcc_FORM = 0x464f524d; private const int fcc_AIFC = 0x41494643; private const int fcc_COMM = 0x434f4d4d; private const int fcc_ima4 = 0x696d6134; private const int fcc_SSND = 0x53534e44; private static readonly byte[] sampleRate = new byte[10] { 0x40, 0x0d, 0xac, 0x44, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; #endregion public AifExporter(InstanceFileManager fileManager, string outputDirPath, bool noDemo = false) : base(fileManager, outputDirPath) { do_pc_demo_test = !noDemo; } protected override void ExportInstance(InstanceDescriptor descriptor) { var sound = SoundData.Read(descriptor, do_pc_demo_test); using (var stream = File.Create(Path.Combine(OutputDirPath, descriptor.FullName + ".aif"))) using (var writer = new BinaryWriter(stream)) { if (!(sound.IsIMA4)) { throw new NotSupportedException("Transcoding from MS ADPCM (PC) to IMA4 ADPCM (Mac) not supported!"); } writer.Write(Utils.ByteSwap(fcc_FORM)); writer.Write(Utils.ByteSwap(50 + sound.Data.Length)); writer.Write(Utils.ByteSwap(fcc_AIFC)); // // write COMM chunk // writer.Write(Utils.ByteSwap(fcc_COMM)); writer.Write(Utils.ByteSwap(22)); // chunk size writer.Write(Utils.ByteSwap((short)sound.ChannelCount)); writer.Write(Utils.ByteSwap(sound.Data.Length / (sound.ChannelCount * 34))); // numSampleFrames writer.Write(Utils.ByteSwap((short)16)); // sampleSize writer.Write(sampleRate); // sampleRate writer.Write(Utils.ByteSwap(fcc_ima4)); // // write SSND chunk // writer.Write(Utils.ByteSwap(fcc_SSND)); writer.Write(Utils.ByteSwap(8 + sound.Data.Length)); // chunk size writer.Write(0); writer.Write(0); writer.Write(sound.Data); } } } }