Mercurial > hg > svcore
view data/fileio/test/AudioFileReaderTest.h @ 795:dc20458f6f85 qt5
Don't need to check for Dataquay, and in fact we can pick up the wrong version if we do. Just assume it is available (building in e.g. sv subdir configuration)
| author | Chris Cannam |
|---|---|
| date | Tue, 07 May 2013 15:41:58 +0100 |
| parents | 2b3a8ae04597 |
| children | bb7ea947c60d |
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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 2013 Chris Cannam. 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. */ #ifndef TEST_AUDIO_FILE_READER_H #define TEST_AUDIO_FILE_READER_H #include "../AudioFileReaderFactory.h" #include "../AudioFileReader.h" #include "AudioTestData.h" #include <cmath> #include <QObject> #include <QtTest> #include <QDir> #include <iostream> using namespace std; static QString audioDir = "testfiles"; class AudioFileReaderTest : public QObject { Q_OBJECT const char *strOf(QString s) { return strdup(s.toLocal8Bit().data()); } private slots: void init() { if (!QDir(audioDir).exists()) { cerr << "ERROR: Audio test file directory \"" << audioDir << "\" does not exist" << endl; QVERIFY2(QDir(audioDir).exists(), "Audio test file directory not found"); } } void read_data() { QTest::addColumn<QString>("audiofile"); QStringList files = QDir(audioDir).entryList(QDir::Files); foreach (QString filename, files) { QTest::newRow(strOf(filename)) << filename; } } void read() { QFETCH(QString, audiofile); int readRate = 48000; AudioFileReader *reader = AudioFileReaderFactory::createReader (audioDir + "/" + audiofile, readRate); QStringList fileAndExt = audiofile.split("."); QStringList bits = fileAndExt[0].split("-"); QString extension = fileAndExt[1]; int nominalRate = bits[0].toInt(); int nominalChannels = bits[1].toInt(); int nominalDepth = 16; if (bits.length() > 2) nominalDepth = bits[2].toInt(); if (!reader) { QSKIP("Unsupported file, skipping"); } QCOMPARE((int)reader->getChannelCount(), nominalChannels); QCOMPARE((int)reader->getNativeRate(), nominalRate); QCOMPARE((int)reader->getSampleRate(), readRate); int channels = reader->getChannelCount(); AudioTestData tdata(readRate, channels); float *reference = tdata.getInterleavedData(); int refFrames = tdata.getFrameCount(); int refsize = refFrames * channels; vector<float> test; // The reader should give us exactly the expected number of // frames, except for mp3/aac files. We ask for quite a lot // more, though, so we can (a) check that we only get the // expected number back (if this is not mp3/aac) or (b) take // into account silence at beginning and end (if it is). reader->getInterleavedFrames(0, refFrames + 5000, test); int read = test.size() / channels; if (extension == "mp3" || extension == "aac" || extension == "m4a") { // mp3s and aacs can have silence at start and end QVERIFY(read >= refFrames); } else { QCOMPARE(read, refFrames); } // Our limits are pretty relaxed -- we're not testing decoder // or resampler quality here, just whether the results are // plainly wrong (e.g. at wrong samplerate or with an offset) float limit = 0.01; float edgeLimit = limit * 10; // in first or final edgeSize frames int edgeSize = 100; if (nominalDepth < 16) { limit = 0.02; } if (extension == "ogg" || extension == "mp3" || extension == "aac" || extension == "m4a") { limit = 0.2; edgeLimit = limit * 3; } // And we ignore completely the last few frames when upsampling int discard = 1 + readRate / nominalRate; int offset = 0; if (extension == "aac" || extension == "m4a") { // our m4a file appears to have a fixed offset of 1024 (at // file sample rate) offset = (1024 / float(nominalRate)) * readRate; } if (extension == "mp3") { // while mp3s appear to vary for (int i = 0; i < read; ++i) { bool any = false; float thresh = 0.01; for (int c = 0; c < channels; ++c) { if (fabsf(test[i * channels + c]) > thresh) { any = true; break; } } if (any) { offset = i; break; } } // std::cerr << "offset = " << offset << std::endl; } for (int c = 0; c < channels; ++c) { float maxdiff = 0.f; int maxAt = 0; float totdiff = 0.f; for (int i = 0; i < read - offset - discard && i < refFrames; ++i) { float diff = fabsf(test[(i + offset) * channels + c] - reference[i * channels + c]); totdiff += diff; // in edge areas, record this only if it exceeds edgeLimit if (i < edgeSize || i + edgeSize >= read - offset) { if (diff > edgeLimit) { maxdiff = diff; maxAt = i; } } else { if (diff > maxdiff) { maxdiff = diff; maxAt = i; } } } float meandiff = totdiff / read; // cerr << "meandiff on channel " << c << ": " << meandiff << endl; // cerr << "maxdiff on channel " << c << ": " << maxdiff << " at " << maxAt << endl; if (meandiff >= limit) { cerr << "ERROR: for audiofile " << audiofile << ": mean diff = " << meandiff << " for channel " << c << endl; QVERIFY(meandiff < limit); } if (maxdiff >= limit) { cerr << "ERROR: for audiofile " << audiofile << ": max diff = " << maxdiff << " at frame " << maxAt << " of " << read << " on channel " << c << " (mean diff = " << meandiff << ")" << endl; QVERIFY(maxdiff < limit); } } } }; #endif