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#include "audiolevelsiodevice.h"#include <QtCore/QDebug>usingnamespaceQtDataVisualization;
staticconstint resolution =8;
staticconstint rowSize =800;
staticconstint rowCount =7; // Must be odd numberstaticconstint middleRow = rowCount /2;
AudioLevelsIODevice::AudioLevelsIODevice(QBarDataProxy*proxy,QObject*parent)
: QIODevice(parent),
m_proxy(proxy),
m_array(newQBarDataArray)
{
// We reuse the existing array for maximum performance, so construct the array here
m_array->reserve(rowCount);
for (int i =0; i < rowCount; i++)
m_array->append(newQBarDataRow(rowSize));
qDebug() <<"Total of"<< (rowSize * rowCount) <<"items in the array.";
}
// Implementation required for this pure virtual functionqint64 AudioLevelsIODevice::readData(char*data,qint64 maxSize)
{
Q_UNUSED(data)
Q_UNUSED(maxSize)
return-1;
}
qint64 AudioLevelsIODevice::writeData(constchar*data,qint64 maxSize)
{
// The amount of new data available.int newDataSize = maxSize / resolution;
// If we get more data than array size, we need to adjust the start index for new data.int newDataStartIndex =qMax(0, (newDataSize - rowSize));
// Move the old data ahead in the rows (only do first half of rows + middle one now).// If the amount of new data was larger than row size, skip copying.if (!newDataStartIndex) {
for (int i =0; i <= middleRow; i++) {
QBarDataItem*srcPos = m_array->at(i)->data();
QBarDataItem*dstPos = srcPos + newDataSize;
memmove((void*)dstPos, (void*)srcPos, (rowSize - newDataSize) *sizeof(QBarDataItem));
}
}
// Insert data in reverse order, so that newest data is always at the front of the row.int index =0;
for (int i = newDataSize -1; i >= newDataStartIndex; i--) {
// Add 0.01 to the value to avoid gaps in the graph (i.e. zero height bars).// Also, scale to 0...100float value =float(quint8(data[resolution * i]) -128) /1.28f+0.01f;
(*m_array->at(middleRow))[index].setValue(value);
// Insert a fractional value into front half of the rows.for (int j =1; j <= middleRow; j++) {
float fractionalValue = value /float(j +1);
(*m_array->at(middleRow - j))[index].setValue(fractionalValue);
}
index++;
}
// Copy the front half of rows to the back half for symmetry.
index =0;
for (int i = rowCount -1; i > middleRow; i--) {
QBarDataItem*srcPos = m_array->at(index++)->data();
QBarDataItem*dstPos = m_array->at(i)->data();
memcpy((void*)dstPos, (void*)srcPos, rowSize *sizeof(QBarDataItem));
}
// Reset the proxy array now that data has been updated to trigger a redraw.
m_proxy->resetArray(m_array);
return maxSize;
}
