Mercurial > hg > svcore
view data/fileio/CodedAudioFileReader.cpp @ 406:d095214ffbaf
* Fix deadlock in Serialiser
| author | Chris Cannam |
|---|---|
| date | Tue, 29 Apr 2008 10:59:19 +0000 |
| parents | 3012af787e4a |
| children | 76f6971c8433 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006-2007 Chris Cannam and QMUL. 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 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "CodedAudioFileReader.h" #include "WavFileReader.h" #include "base/TempDirectory.h" #include "base/Exceptions.h" #include "base/Profiler.h" #include "base/Serialiser.h" #include "base/Resampler.h" #include <iostream> #include <QDir> #include <QMutexLocker> CodedAudioFileReader::CodedAudioFileReader(CacheMode cacheMode, size_t targetRate) : m_cacheMode(cacheMode), m_initialised(false), m_serialiser(0), m_fileRate(0), m_cacheFileWritePtr(0), m_cacheFileReader(0), m_cacheWriteBuffer(0), m_cacheWriteBufferIndex(0), m_cacheWriteBufferSize(16384), m_resampler(0), m_resampleBuffer(0) { // std::cerr << "CodedAudioFileReader::CodedAudioFileReader: rate " << targetRate << std::endl; m_frameCount = 0; m_sampleRate = targetRate; } CodedAudioFileReader::~CodedAudioFileReader() { QMutexLocker locker(&m_cacheMutex); endSerialised(); if (m_cacheFileWritePtr) sf_close(m_cacheFileWritePtr); delete m_cacheFileReader; delete[] m_cacheWriteBuffer; if (m_cacheFileName != "") { if (!QFile(m_cacheFileName).remove()) { std::cerr << "WARNING: CodedAudioFileReader::~CodedAudioFileReader: Failed to delete cache file \"" << m_cacheFileName.toStdString() << "\"" << std::endl; } } delete m_resampler; delete[] m_resampleBuffer; } void CodedAudioFileReader::startSerialised(QString id) { // std::cerr << "CodedAudioFileReader::startSerialised(" << id.toStdString() << ")" << std::endl; delete m_serialiser; m_serialiser = new Serialiser(id); } void CodedAudioFileReader::endSerialised() { // std::cerr << "CodedAudioFileReader(" << this << ")::endSerialised: id = " << (m_serialiser ? m_serialiser->getId().toStdString() : "(none)") << std::endl; delete m_serialiser; m_serialiser = 0; } void CodedAudioFileReader::initialiseDecodeCache() { QMutexLocker locker(&m_cacheMutex); std::cerr << "CodedAudioFileReader::initialiseDecodeCache: file rate = " << m_fileRate << std::endl; if (m_fileRate == 0) { std::cerr << "CodedAudioFileReader::initialiseDecodeCache: ERROR: File sample rate unknown (bug in subclass implementation?)" << std::endl; m_fileRate = 48000; // got to have something } if (m_sampleRate == 0) { m_sampleRate = m_fileRate; std::cerr << "CodedAudioFileReader::initialiseDecodeCache: rate (from file) = " << m_fileRate << std::endl; } if (m_fileRate != m_sampleRate) { std::cerr << "CodedAudioFileReader: resampling " << m_fileRate << " -> " << m_sampleRate << std::endl; m_resampler = new Resampler(Resampler::FastestTolerable, m_channelCount, m_cacheWriteBufferSize); float ratio = float(m_sampleRate) / float(m_fileRate); m_resampleBuffer = new float [lrintf(ceilf(m_cacheWriteBufferSize * m_channelCount * ratio + 1))]; } m_cacheWriteBuffer = new float[m_cacheWriteBufferSize * m_channelCount]; m_cacheWriteBufferIndex = 0; if (m_cacheMode == CacheInTemporaryFile) { try { QDir dir(TempDirectory::getInstance()->getPath()); m_cacheFileName = dir.filePath(QString("decoded_%1.wav") .arg((intptr_t)this)); SF_INFO fileInfo; fileInfo.samplerate = m_sampleRate; fileInfo.channels = m_channelCount; // No point in writing 24-bit or float; generally this // class is used for decoding files that have come from a // 16 bit source or that decode to only 16 bits anyway. fileInfo.format = SF_FORMAT_WAV | SF_FORMAT_PCM_16; m_cacheFileWritePtr = sf_open(m_cacheFileName.toLocal8Bit(), SFM_WRITE, &fileInfo); if (m_cacheFileWritePtr) { // Ideally we would do this now only if we were in a // threaded mode -- creating the reader later if we're // not threaded -- but we don't have access to that // information here m_cacheFileReader = new WavFileReader(m_cacheFileName); if (!m_cacheFileReader->isOK()) { std::cerr << "ERROR: CodedAudioFileReader::initialiseDecodeCache: Failed to construct WAV file reader for temporary file: " << m_cacheFileReader->getError().toStdString() << std::endl; delete m_cacheFileReader; m_cacheFileReader = 0; m_cacheMode = CacheInMemory; sf_close(m_cacheFileWritePtr); } } else { std::cerr << "CodedAudioFileReader::initialiseDecodeCache: failed to open cache file \"" << m_cacheFileName.toStdString() << "\" (" << m_channelCount << " channels, sample rate " << m_sampleRate << " for writing, falling back to in-memory cache" << std::endl; m_cacheMode = CacheInMemory; } } catch (DirectoryCreationFailed f) { std::cerr << "CodedAudioFileReader::initialiseDecodeCache: failed to create temporary directory! Falling back to in-memory cache" << std::endl; m_cacheMode = CacheInMemory; } } if (m_cacheMode == CacheInMemory) { m_data.clear(); } m_initialised = true; } void CodedAudioFileReader::addSamplesToDecodeCache(float **samples, size_t nframes) { QMutexLocker locker(&m_cacheMutex); if (!m_initialised) return; for (size_t i = 0; i < nframes; ++i) { for (size_t c = 0; c < m_channelCount; ++c) { float sample = samples[c][i]; m_cacheWriteBuffer[m_cacheWriteBufferIndex++] = sample; if (m_cacheWriteBufferIndex == m_cacheWriteBufferSize * m_channelCount) { pushBuffer(m_cacheWriteBuffer, m_cacheWriteBufferSize, false); m_cacheWriteBufferIndex = 0; } if (m_cacheWriteBufferIndex % 10240 == 0 && m_cacheFileReader) { m_cacheFileReader->updateFrameCount(); } } } } void CodedAudioFileReader::addSamplesToDecodeCache(float *samples, size_t nframes) { QMutexLocker locker(&m_cacheMutex); if (!m_initialised) return; for (size_t i = 0; i < nframes; ++i) { for (size_t c = 0; c < m_channelCount; ++c) { float sample = samples[i * m_channelCount + c]; m_cacheWriteBuffer[m_cacheWriteBufferIndex++] = sample; if (m_cacheWriteBufferIndex == m_cacheWriteBufferSize * m_channelCount) { pushBuffer(m_cacheWriteBuffer, m_cacheWriteBufferSize, false); m_cacheWriteBufferIndex = 0; } if (m_cacheWriteBufferIndex % 10240 == 0 && m_cacheFileReader) { m_cacheFileReader->updateFrameCount(); } } } } void CodedAudioFileReader::addSamplesToDecodeCache(const SampleBlock &samples) { QMutexLocker locker(&m_cacheMutex); if (!m_initialised) return; for (size_t i = 0; i < samples.size(); ++i) { float sample = samples[i]; m_cacheWriteBuffer[m_cacheWriteBufferIndex++] = sample; if (m_cacheWriteBufferIndex == m_cacheWriteBufferSize * m_channelCount) { pushBuffer(m_cacheWriteBuffer, m_cacheWriteBufferSize, false); m_cacheWriteBufferIndex = 0; } if (m_cacheWriteBufferIndex % 10240 == 0 && m_cacheFileReader) { m_cacheFileReader->updateFrameCount(); } } } void CodedAudioFileReader::finishDecodeCache() { QMutexLocker locker(&m_cacheMutex); Profiler profiler("CodedAudioFileReader::finishDecodeCache", true); if (!m_initialised) { std::cerr << "WARNING: CodedAudioFileReader::finishDecodeCache: Cache was never initialised!" << std::endl; return; } if (m_cacheWriteBufferIndex > 0) { //!!! check for return value! out of disk space, etc! pushBuffer(m_cacheWriteBuffer, m_cacheWriteBufferIndex / m_channelCount, true); } delete[] m_cacheWriteBuffer; m_cacheWriteBuffer = 0; delete[] m_resampleBuffer; m_resampleBuffer = 0; delete m_resampler; m_resampler = 0; if (m_cacheMode == CacheInTemporaryFile) { sf_close(m_cacheFileWritePtr); m_cacheFileWritePtr = 0; if (m_cacheFileReader) m_cacheFileReader->updateFrameCount(); } } void CodedAudioFileReader::pushBuffer(float *buffer, size_t sz, bool final) { float max = 1.0; size_t count = sz * m_channelCount; if (m_resampler && m_fileRate != 0) { float ratio = float(m_sampleRate) / float(m_fileRate); if (ratio != 1.f) { size_t out = m_resampler->resampleInterleaved (buffer, m_resampleBuffer, sz, ratio, final); buffer = m_resampleBuffer; sz = out; count = sz * m_channelCount; } } for (size_t i = 0; i < count; ++i) { if (buffer[i] > max) buffer[i] = max; } for (size_t i = 0; i < count; ++i) { if (buffer[i] < -max) buffer[i] = -max; } m_frameCount += sz; switch (m_cacheMode) { case CacheInTemporaryFile: //!!! check for return value! out of disk space, etc! sf_writef_float(m_cacheFileWritePtr, buffer, sz); break; case CacheInMemory: for (size_t s = 0; s < count; ++s) { m_data.push_back(buffer[count]); } MUNLOCK_SAMPLEBLOCK(m_data); break; } } void CodedAudioFileReader::getInterleavedFrames(size_t start, size_t count, SampleBlock &frames) const { //!!! we want to ensure this doesn't require a lock -- at the // moment it does need one, but it doesn't have one... if (!m_initialised) { std::cerr << "CodedAudioFileReader::getInterleavedFrames: not initialised" << std::endl; return; } switch (m_cacheMode) { case CacheInTemporaryFile: if (m_cacheFileReader) { m_cacheFileReader->getInterleavedFrames(start, count, frames); } break; case CacheInMemory: { frames.clear(); if (!isOK()) return; if (count == 0) return; // slownessabounds for (size_t i = start; i < start + count; ++i) { for (size_t ch = 0; ch < m_channelCount; ++ch) { size_t index = i * m_channelCount + ch; if (index >= m_data.size()) return; frames.push_back(m_data[index]); } } } } }