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#include <QtTest/QtTest>
#include <QtCore/qlocale.h>
#include <qaudiooutput.h>
#include <qaudiodeviceinfo.h>
#include <qaudio.h>
#include <qaudioformat.h>
class tst_QAudioOutput : public QObject
{
Q_OBJECT
public:
tst_QAudioOutput(QObject* parent=0) : QObject(parent) {}
private slots:
void initTestCase();
void settings();
void buffers();
void notifyInterval();
void pullFile();
void pushFile();
private:
bool available;
QAudioFormat format;
QAudioOutput* audio;
};
void tst_QAudioOutput::initTestCase()
{
format.setFrequency(8000);
format.setChannels(1);
format.setSampleSize(8);
format.setCodec("audio/pcm");
format.setByteOrder(QAudioFormat::LittleEndian);
format.setSampleType(QAudioFormat::UnSignedInt);
// Only perform tests if audio output device exists!
QList<QAudioDeviceInfo> devices = QAudioDeviceInfo::deviceList(QAudio::AudioOutput);
if(devices.size() > 0)
available = true;
else {
qWarning()<<"NOTE: no audio output device found, no test will be performed";
available = false;
}
audio = new QAudioOutput(format, this);
}
void tst_QAudioOutput::settings()
{
if(available) {
// Confirm the setting we added in the init function.
QAudioFormat f = audio->format();
QVERIFY(format.channels() == f.channels());
QVERIFY(format.frequency() == f.frequency());
QVERIFY(format.sampleSize() == f.sampleSize());
QVERIFY(format.codec() == f.codec());
QVERIFY(format.byteOrder() == f.byteOrder());
QVERIFY(format.sampleType() == f.sampleType());
}
}
void tst_QAudioOutput::buffers()
{
if(available) {
// Should always have a buffer size greater than zero.
int store = audio->bufferSize();
audio->setBufferSize(4096);
QVERIFY(audio->bufferSize() > 0);
audio->setBufferSize(store);
QVERIFY(audio->bufferSize() == store);
}
}
void tst_QAudioOutput::notifyInterval()
{
if(available) {
QVERIFY(audio->notifyInterval() == 1000); // Default
audio->setNotifyInterval(500);
QVERIFY(audio->notifyInterval() == 500); // Custom
audio->setNotifyInterval(1000); // reset
}
}
void tst_QAudioOutput::pullFile()
{
if(available) {
QFile file(SRCDIR "4.wav");
QVERIFY(file.exists());
file.open(QIODevice::ReadOnly);
QSignalSpy readSignal(audio, SIGNAL(notify()));
QSignalSpy stateSignal(audio, SIGNAL(stateChanged(QAudio::State)));
audio->setNotifyInterval(100);
// Always have default states, before start
QVERIFY(audio->state() == QAudio::StopState);
QVERIFY(audio->error() == QAudio::NoError);
QVERIFY(audio->clock() == 0);
audio->start(&file);
QTest::qWait(20); // wait 20ms
// Check state, bytesFree() and periodSize() are valid non-zero values.
QVERIFY(audio->state() == QAudio::ActiveState);
QVERIFY(audio->error() == QAudio::NoError);
QVERIFY(audio->periodSize() > 0);
QVERIFY(audio->clock() > 10000 && audio->clock() < 800000);
QVERIFY(stateSignal.count() == 1); // State changed to QAudio::ActiveState
// Wait until finished...
QTestEventLoop::instance().enterLoop(1);
QCOMPARE(audio->totalTime(), qint64(692250));
#ifdef Q_OS_WINCE
// 4.wav is a little less than 700ms, so notify should fire 4 times on Wince!
QVERIFY(readSignal.count() >= 4);
#else
// 4.wav is a little less than 700ms, so notify should fire 6 times!
QVERIFY(readSignal.count() >= 6);
#endif
audio->stop();
QTest::qWait(20); // wait 20ms
QVERIFY(audio->state() == QAudio::StopState);
QVERIFY(audio->clock() == 0);
// Can only check to make sure we got at least 1 more signal, but can be more.
QVERIFY(stateSignal.count() > 1);
file.close();
}
}
void tst_QAudioOutput::pushFile()
{
if(available) {
QFile file(SRCDIR "4.wav");
QVERIFY(file.exists());
file.open(QIODevice::ReadOnly);
const qint64 fileSize = file.size();
QIODevice* feed = audio->start(0);
char* buffer = new char[fileSize];
file.read(buffer, fileSize);
qint64 counter=0;
qint64 written=0;
while(written < fileSize) {
written+=feed->write(buffer+written,fileSize-written);
QTest::qWait(20);
counter++;
}
QTestEventLoop::instance().enterLoop(1);
QVERIFY(written == fileSize);
QVERIFY(audio->totalTime() == 692250);
audio->stop();
file.close();
delete [] buffer;
delete audio;
}
}
QTEST_MAIN(tst_QAudioOutput)
#include "tst_qaudiooutput.moc"