/**************************************************************************** * Copyright (C) 2009-2013 Dimok * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . ****************************************************************************/ #include #include #include #include #include "SoundDecoder.hpp" static const u32 FixedPointShift = 15; static const u32 FixedPointScale = 1 << FixedPointShift; SoundDecoder::SoundDecoder() { file_fd = NULL; Init(); } SoundDecoder::SoundDecoder(const std::string & filepath) { file_fd = new CFile(filepath, CFile::ReadOnly); Init(); } SoundDecoder::SoundDecoder(const u8 * buffer, s32 size) { file_fd = new CFile(buffer, size); Init(); } SoundDecoder::~SoundDecoder() { ExitRequested = true; while(Decoding) os_usleep(1000); //! lock unlock once to make sure it's really not decoding Lock(); Unlock(); if(file_fd) delete file_fd; file_fd = NULL; if(ResampleBuffer) free(ResampleBuffer); } void SoundDecoder::Init() { SoundType = SOUND_RAW; SoundBlocks = 8; SoundBlockSize = 0x4000; ResampleTo48kHz = false; CurPos = 0; whichLoad = 0; Loop = false; EndOfFile = false; Decoding = false; ExitRequested = false; SoundBuffer.SetBufferBlockSize(SoundBlockSize); SoundBuffer.Resize(SoundBlocks); ResampleBuffer = NULL; ResampleRatio = 0; } s32 SoundDecoder::Rewind() { CurPos = 0; EndOfFile = false; file_fd->rewind(); return 0; } s32 SoundDecoder::Read(u8 * buffer, s32 buffer_size, s32 pos) { s32 ret = file_fd->read(buffer, buffer_size); CurPos += ret; return ret; } void SoundDecoder::EnableUpsample(void) { if( (ResampleBuffer == NULL) && IsStereo() && Is16Bit() && SampleRate != 32000 && SampleRate != 48000) { ResampleBuffer = (u8*)memalign(32, SoundBlockSize); ResampleRatio = ( FixedPointScale * SampleRate ) / 48000; SoundBlockSize = ( SoundBlockSize * ResampleRatio ) / FixedPointScale; SoundBlockSize &= ~0x03; // set new sample rate SampleRate = 48000; } } void SoundDecoder::Upsample(s16 *src, s16 *dst, u32 nr_src_samples, u32 nr_dst_samples) { s32 timer = 0; for(u32 i = 0, n = 0; i < nr_dst_samples; i += 2) { if((n+3) < nr_src_samples) { // simple fixed point linear interpolation dst[i] = src[n] + ( ((src[n+2] - src[n] ) * timer) >> FixedPointShift ); dst[i+1] = src[n+1] + ( ((src[n+3] - src[n+1]) * timer) >> FixedPointShift ); } else { dst[i] = src[n]; dst[i+1] = src[n+1]; } timer += ResampleRatio; if(timer >= (s32)FixedPointScale) { n += 2; timer -= FixedPointScale; } } } void SoundDecoder::Decode() { if(!file_fd || ExitRequested || EndOfFile) return; // check if we are not at the pre-last buffer (last buffer is playing) u16 whichPlaying = SoundBuffer.Which(); if( ((whichPlaying == 0) && (whichLoad == SoundBuffer.Size()-2)) || ((whichPlaying == 1) && (whichLoad == SoundBuffer.Size()-1)) || (whichLoad == (whichPlaying-2))) { return; } Decoding = true; s32 done = 0; u8 * write_buf = SoundBuffer.GetBuffer(whichLoad); if(!write_buf) { ExitRequested = true; Decoding = false; return; } if(ResampleTo48kHz && !ResampleBuffer) EnableUpsample(); while(done < SoundBlockSize) { s32 ret = Read(&write_buf[done], SoundBlockSize-done, Tell()); if(ret <= 0) { if(Loop) { Rewind(); continue; } else { EndOfFile = true; break; } } done += ret; } if(done > 0) { // check if we need to resample if(ResampleBuffer && ResampleRatio) { memcpy(ResampleBuffer, write_buf, done); s32 src_samples = done >> 1; s32 dest_samples = ( src_samples * FixedPointScale ) / ResampleRatio; dest_samples &= ~0x01; Upsample((s16*)ResampleBuffer, (s16*)write_buf, src_samples, dest_samples); done = dest_samples << 1; } //! TODO: remove this later and add STEREO support with two voices, for now we convert to MONO if(IsStereo()) { s16* monoBuf = (s16*)write_buf; done = done >> 1; for(s32 i = 0; i < done; i++) monoBuf[i] = monoBuf[i << 1]; } DCFlushRange(write_buf, done); SoundBuffer.SetBufferSize(whichLoad, done); SoundBuffer.SetBufferReady(whichLoad, true); if(++whichLoad >= SoundBuffer.Size()) whichLoad = 0; } // check if next in queue needs to be filled as well and do so if(!SoundBuffer.IsBufferReady(whichLoad)) Decode(); Decoding = false; }