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#include "histogramwidget.h"#include <QPainter>#include <QHBoxLayout>template<class T>staticQVector<qreal> getBufferLevels(const T *buffer,int frames,int channels);
classQAudioLevel : publicQWidget
{
Q_OBJECT
public:
explicitQAudioLevel(QWidget*parent =0);
// Using [0; 1.0] rangevoid setLevel(qreal level);
protected:
void paintEvent(QPaintEvent*event);
private:
qreal m_level;
};
QAudioLevel::QAudioLevel(QWidget*parent)
: QWidget(parent)
, m_level(0.0)
{
setMinimumHeight(15);
setMaximumHeight(50);
}
voidQAudioLevel::setLevel(qreal level)
{
if (m_level != level) {
m_level = level;
update();
}
}
voidQAudioLevel::paintEvent(QPaintEvent*event)
{
Q_UNUSED(event);
QPainter painter(this);
// draw levelqreal widthLevel = m_level * width();
painter.fillRect(0,0, widthLevel, height(),Qt::red);
// clear the rest of the control
painter.fillRect(widthLevel,0, width(), height(),Qt::black);
}
HistogramWidget::HistogramWidget(QWidget*parent)
: QWidget(parent)
, m_levels(128)
, m_isBusy(false)
{
m_processor.moveToThread(&m_processorThread);
qRegisterMetaType<QVector<qreal>>("QVector<qreal>");
connect(&m_processor, SIGNAL(histogramReady(QVector<qreal>)), SLOT(setHistogram(QVector<qreal>)));
m_processorThread.start(QThread::LowestPriority);
setLayout(newQHBoxLayout);
}
HistogramWidget::~HistogramWidget()
{
m_processorThread.quit();
m_processorThread.wait(10000);
}
void HistogramWidget::processFrame(QVideoFrame frame)
{
if (m_isBusy && frame.isValid())
return; //drop frame
m_isBusy =true;
QMetaObject::invokeMethod(&m_processor,"processFrame",Qt::QueuedConnection, Q_ARG(QVideoFrame, frame), Q_ARG(int, m_levels));
}
// This function returns the maximum possible sample value for a given audio formatqreal getPeakValue(constQAudioFormat& format)
{
// Note: Only the most common sample formats are supportedif (!format.isValid())
returnqreal(0);
if (format.codec() !="audio/pcm")
returnqreal(0);
switch (format.sampleType()) {
caseQAudioFormat::Unknown:
break;
caseQAudioFormat::Float:
if (format.sampleSize() !=32) // other sample formats are not supportedreturnqreal(0);
returnqreal(1.00003);
caseQAudioFormat::SignedInt:
if (format.sampleSize() ==32)
returnqreal(INT_MAX);
if (format.sampleSize() ==16)
returnqreal(SHRT_MAX);
if (format.sampleSize() ==8)
returnqreal(CHAR_MAX);
break;
caseQAudioFormat::UnSignedInt:
if (format.sampleSize() ==32)
returnqreal(UINT_MAX);
if (format.sampleSize() ==16)
returnqreal(USHRT_MAX);
if (format.sampleSize() ==8)
returnqreal(UCHAR_MAX);
break;
}
returnqreal(0);
}
// returns the audio level for each channelQVector<qreal> getBufferLevels(constQAudioBuffer& buffer)
{
QVector<qreal> values;
if (!buffer.isValid())
return values;
if (!buffer.format().isValid() || buffer.format().byteOrder() !=QAudioFormat::LittleEndian)
return values;
if (buffer.format().codec() !="audio/pcm")
return values;
int channelCount = buffer.format().channelCount();
values.fill(0, channelCount);
qreal peak_value = getPeakValue(buffer.format());
if (qFuzzyCompare(peak_value,qreal(0)))
return values;
switch (buffer.format().sampleType()) {
caseQAudioFormat::Unknown:
caseQAudioFormat::UnSignedInt:
if (buffer.format().sampleSize() ==32)
values = getBufferLevels(buffer.constData<quint32>(), buffer.frameCount(), channelCount);
if (buffer.format().sampleSize() ==16)
values = getBufferLevels(buffer.constData<quint16>(), buffer.frameCount(), channelCount);
if (buffer.format().sampleSize() ==8)
values = getBufferLevels(buffer.constData<quint8>(), buffer.frameCount(), channelCount);
for (int i =0; i < values.size(); ++i)
values[i]=qAbs(values.at(i) - peak_value /2) / (peak_value /2);
break;
caseQAudioFormat::Float:
if (buffer.format().sampleSize() ==32) {
values = getBufferLevels(buffer.constData<float>(), buffer.frameCount(), channelCount);
for (int i =0; i < values.size(); ++i)
values[i]/= peak_value;
}
break;
caseQAudioFormat::SignedInt:
if (buffer.format().sampleSize() ==32)
values = getBufferLevels(buffer.constData<qint32>(), buffer.frameCount(), channelCount);
if (buffer.format().sampleSize() ==16)
values = getBufferLevels(buffer.constData<qint16>(), buffer.frameCount(), channelCount);
if (buffer.format().sampleSize() ==8)
values = getBufferLevels(buffer.constData<qint8>(), buffer.frameCount(), channelCount);
for (int i =0; i < values.size(); ++i)
values[i]/= peak_value;
break;
}
return values;
}
template<class T>QVector<qreal> getBufferLevels(const T *buffer,int frames,int channels)
{
QVector<qreal> max_values;
max_values.fill(0, channels);
for (int i =0; i < frames; ++i) {
for (int j =0; j < channels; ++j) {
qreal value =qAbs(qreal(buffer[i * channels + j]));
if (value > max_values.at(j))
max_values.replace(j, value);
}
}
return max_values;
}
void HistogramWidget::processBuffer(QAudioBuffer buffer)
{
if (audioLevels.count() != buffer.format().channelCount()) {
qDeleteAll(audioLevels);
audioLevels.clear();
for (int i =0; i < buffer.format().channelCount(); ++i) {
QAudioLevel*level =newQAudioLevel(this);
audioLevels.append(level);
layout()->addWidget(level);
}
}
QVector<qreal> levels = getBufferLevels(buffer);
for (int i =0; i < levels.count(); ++i)
audioLevels.at(i)->setLevel(levels.at(i));
}
void HistogramWidget::setHistogram(QVector<qreal> histogram)
{
m_isBusy =false;
m_histogram = histogram;
update();
}
void HistogramWidget::paintEvent(QPaintEvent*event)
{
Q_UNUSED(event);
if (!audioLevels.isEmpty())
return;
QPainter painter(this);
if (m_histogram.isEmpty()) {
painter.fillRect(0,0, width(), height(),QColor::fromRgb(0,0,0));
return;
}
qreal barWidth = width() / (qreal)m_histogram.size();
for (int i =0; i < m_histogram.size(); i++) {
qreal h = m_histogram[i]* height();
// draw level
painter.fillRect(barWidth * i, height() - h, barWidth * (i +1), height(),Qt::red);
// clear the rest of the control
painter.fillRect(barWidth * i,0, barWidth * (i +1), height() - h,Qt::black);
}
}
void FrameProcessor::processFrame(QVideoFrame frame,int levels)
{
QVector<qreal> histogram(levels);
do {
if (!levels)
break;
if (!frame.map(QAbstractVideoBuffer::ReadOnly))
break;
if (frame.pixelFormat() ==QVideoFrame::Format_YUV420P ||
frame.pixelFormat() ==QVideoFrame::Format_NV12) {
// Process YUV datauchar*b = frame.bits();
for (int y =0; y < frame.height(); y++) {
uchar*lastPixel = b + frame.width();
for (uchar*curPixel = b; curPixel < lastPixel; curPixel++)
histogram[(*curPixel * levels) >>8]+=1.0;
b += frame.bytesPerLine();
}
} else {
QImage::Format imageFormat =QVideoFrame::imageFormatFromPixelFormat(frame.pixelFormat());
if (imageFormat !=QImage::Format_Invalid) {
// Process RGB dataQImage image(frame.bits(), frame.width(), frame.height(), imageFormat);
image = image.convertToFormat(QImage::Format_RGB32);
constQRgb* b = (constQRgb*)image.bits();
for (int y =0; y < image.height(); y++) {
constQRgb*lastPixel = b + frame.width();
for (constQRgb*curPixel = b; curPixel < lastPixel; curPixel++)
histogram[(qGray(*curPixel) * levels) >>8]+=1.0;
b = (constQRgb*)((uchar*)b + image.bytesPerLine());
}
}
}
// find maximum valueqreal maxValue =0.0;
for (int i =0; i < histogram.size(); i++) {
if (histogram[i]> maxValue)
maxValue = histogram[i];
}
if (maxValue >0.0) {
for (int i =0; i < histogram.size(); i++)
histogram[i]/= maxValue;
}
frame.unmap();
} while (false);
emit histogramReady(histogram);
}
#include "histogramwidget.moc"
