Mercurial > hg > svcore
view data/model/WritableWaveFileModel.cpp @ 202:91fdc752e540
* Update copyright notes as appropriate.
author | Chris Cannam |
---|---|
date | Fri, 17 Nov 2006 16:27:39 +0000 |
parents | f86b74d1b143 |
children | 185454896a76 |
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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 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 "WritableWaveFileModel.h" #include "base/TempDirectory.h" #include "base/Exceptions.h" #include "fileio/WavFileWriter.h" #include "fileio/WavFileReader.h" #include <QDir> #include <cassert> #include <iostream> WritableWaveFileModel::WritableWaveFileModel(size_t sampleRate, size_t channels, QString path) : m_model(0), m_writer(0), m_reader(0), m_sampleRate(sampleRate), m_channels(channels), m_frameCount(0), m_completion(0) { if (path.isEmpty()) { try { QDir dir(TempDirectory::getInstance()->getPath()); path = dir.filePath(QString("written_%1.wav") .arg((intptr_t)this)); } catch (DirectoryCreationFailed f) { std::cerr << "WritableWaveFileModel: Failed to create temporary directory" << std::endl; return; } } m_writer = new WavFileWriter(path, sampleRate, channels); if (!m_writer->isOK()) { std::cerr << "WritableWaveFileModel: Error in creating WAV file writer: " << m_writer->getError().toStdString() << std::endl; delete m_writer; m_writer = 0; return; } m_reader = new WavFileReader(m_writer->getPath(), true); if (!m_reader->getError().isEmpty()) { std::cerr << "WritableWaveFileModel: Error in creating wave file reader" << std::endl; delete m_reader; m_reader = 0; return; } m_model = new WaveFileModel(m_writer->getPath(), m_reader); if (!m_model->isOK()) { std::cerr << "WritableWaveFileModel: Error in creating wave file model" << std::endl; delete m_model; m_model = 0; delete m_reader; m_reader = 0; return; } connect(m_model, SLOT(modelChanged()), this, SIGNAL(modelChanged())); connect(m_model, SLOT(modelChanged(size_t, size_t)), this, SIGNAL(modelChanged(size_t, size_t))); } WritableWaveFileModel::~WritableWaveFileModel() { delete m_model; delete m_writer; delete m_reader; } bool WritableWaveFileModel::addSamples(float **samples, size_t count) { if (!m_writer) return false; if (!m_writer->writeSamples(samples, count)) { std::cerr << "ERROR: WritableWaveFileModel::addSamples: writer failed: " << m_writer->getError().toStdString() << std::endl; return false; } m_frameCount += count; static int updateCounter = 0; if (m_reader && m_reader->getChannelCount() == 0) { m_reader->updateFrameCount(); } else if (++updateCounter == 100) { if (m_reader) m_reader->updateFrameCount(); updateCounter = 0; } return true; } bool WritableWaveFileModel::isOK() const { bool ok = (m_writer && m_writer->isOK()); // std::cerr << "WritableWaveFileModel::isOK(): ok = " << ok << std::endl; return ok; } bool WritableWaveFileModel::isReady(int *completion) const { if (completion) *completion = m_completion; return (m_completion == 100); } void WritableWaveFileModel::setCompletion(int completion) { m_completion = completion; if (completion == 100) { if (m_reader) m_reader->updateDone(); } } size_t WritableWaveFileModel::getFrameCount() const { // std::cerr << "WritableWaveFileModel::getFrameCount: count = " << m_frameCount << std::endl; return m_frameCount; } Model * WritableWaveFileModel::clone() const { assert(0); //!!! return 0; } size_t WritableWaveFileModel::getValues(int channel, size_t start, size_t end, float *buffer) const { if (!m_model || m_model->getChannelCount() == 0) return 0; return m_model->getValues(channel, start, end, buffer); } size_t WritableWaveFileModel::getValues(int channel, size_t start, size_t end, double *buffer) const { if (!m_model || m_model->getChannelCount() == 0) return 0; // std::cerr << "WritableWaveFileModel::getValues(" << channel << ", " // << start << ", " << end << "): calling model" << std::endl; return m_model->getValues(channel, start, end, buffer); } WritableWaveFileModel::RangeBlock WritableWaveFileModel::getRanges(size_t channel, size_t start, size_t end, size_t &blockSize) const { if (!m_model || m_model->getChannelCount() == 0) return RangeBlock(); return m_model->getRanges(channel, start, end, blockSize); } WritableWaveFileModel::Range WritableWaveFileModel::getRange(size_t channel, size_t start, size_t end) const { if (!m_model || m_model->getChannelCount() == 0) return Range(); return m_model->getRange(channel, start, end); } void WritableWaveFileModel::toXml(QTextStream &out, QString indent, QString extraAttributes) const { // We don't actually write the data to XML. We just write a brief // description of the model. Any code that uses this class is // going to need to be aware that it will have to make separate // arrangements for the audio file itself. Model::toXml (out, indent, QString("type=\"writablewavefile\" file=\"%1\" channels=\"%2\" %3") .arg(m_writer->getPath()).arg(m_model->getChannelCount()).arg(extraAttributes)); } QString WritableWaveFileModel::toXmlString(QString indent, QString extraAttributes) const { // As above. return Model::toXmlString (indent, QString("type=\"writablewavefile\" file=\"%1\" channels=\"%2\" %3") .arg(m_writer->getPath()).arg(m_model->getChannelCount()).arg(extraAttributes)); }