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third-party-mirror / orbit / refs/heads/master / . / qt-everywhere-src-5.15.1 / qtmultimedia / src / plugins / common / evr / evrvideowindowcontrol.cpp
blob: 95f63c2e7f75201f18176bb6eb1dada6f502674d [file] [log] [blame]
/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Contact: https://www.qt.io/licensing/
**
** This file is part of the Qt Toolkit.
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** ensure the GNU Lesser General Public License version 3 requirements
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#include "evrvideowindowcontrol.h"
#ifndef QT_NO_WIDGETS
#include <qwidget.h>
#endif
EvrVideoWindowControl::EvrVideoWindowControl(QObject *parent)
: QVideoWindowControl(parent)
, m_windowId(0)
, m_windowColor(RGB(0, 0, 0))
, m_dirtyValues(0)
, m_aspectRatioMode(Qt::KeepAspectRatio)
, m_brightness(0)
, m_contrast(0)
, m_hue(0)
, m_saturation(0)
, m_fullScreen(false)
, m_displayControl(0)
, m_processor(0)
{
}
EvrVideoWindowControl::~EvrVideoWindowControl()
{
clear();
}
bool EvrVideoWindowControl::setEvr(IUnknown *evr)
{
clear();
if (!evr)
return true;
IMFGetService *service = NULL;
if (SUCCEEDED(evr->QueryInterface(IID_PPV_ARGS(&service)))
&& SUCCEEDED(service->GetService(mr_VIDEO_RENDER_SERVICE, IID_PPV_ARGS(&m_displayControl)))) {
service->GetService(mr_VIDEO_MIXER_SERVICE, IID_PPV_ARGS(&m_processor));
setWinId(m_windowId);
setDisplayRect(m_displayRect);
setAspectRatioMode(m_aspectRatioMode);
m_dirtyValues = DXVA2_ProcAmp_Brightness | DXVA2_ProcAmp_Contrast | DXVA2_ProcAmp_Hue | DXVA2_ProcAmp_Saturation;
applyImageControls();
}
if (service)
service->Release();
return m_displayControl != NULL;
}
void EvrVideoWindowControl::clear()
{
if (m_displayControl)
m_displayControl->Release();
m_displayControl = NULL;
if (m_processor)
m_processor->Release();
m_processor = NULL;
}
WId EvrVideoWindowControl::winId() const
{
return m_windowId;
}
void EvrVideoWindowControl::setWinId(WId id)
{
m_windowId = id;
#ifndef QT_NO_WIDGETS
if (QWidget *widget = QWidget::find(m_windowId)) {
const QColor color = widget->palette().color(QPalette::Window);
m_windowColor = RGB(color.red(), color.green(), color.blue());
}
#endif
if (m_displayControl)
m_displayControl->SetVideoWindow(HWND(m_windowId));
}
QRect EvrVideoWindowControl::displayRect() const
{
return m_displayRect;
}
void EvrVideoWindowControl::setDisplayRect(const QRect &rect)
{
m_displayRect = rect;
if (m_displayControl) {
RECT displayRect = { rect.left(), rect.top(), rect.right() + 1, rect.bottom() + 1 };
QSize sourceSize = nativeSize();
RECT sourceRect = { 0, 0, sourceSize.width(), sourceSize.height() };
if (m_aspectRatioMode == Qt::KeepAspectRatioByExpanding) {
QSize clippedSize = rect.size();
clippedSize.scale(sourceRect.right, sourceRect.bottom, Qt::KeepAspectRatio);
sourceRect.left = (sourceRect.right - clippedSize.width()) / 2;
sourceRect.top = (sourceRect.bottom - clippedSize.height()) / 2;
sourceRect.right = sourceRect.left + clippedSize.width();
sourceRect.bottom = sourceRect.top + clippedSize.height();
}
if (sourceSize.width() > 0 && sourceSize.height() > 0) {
MFVideoNormalizedRect sourceNormRect;
sourceNormRect.left = float(sourceRect.left) / float(sourceRect.right);
sourceNormRect.top = float(sourceRect.top) / float(sourceRect.bottom);
sourceNormRect.right = float(sourceRect.right) / float(sourceRect.right);
sourceNormRect.bottom = float(sourceRect.bottom) / float(sourceRect.bottom);
m_displayControl->SetVideoPosition(&sourceNormRect, &displayRect);
} else {
m_displayControl->SetVideoPosition(NULL, &displayRect);
}
// To refresh content immediately.
repaint();
}
}
bool EvrVideoWindowControl::isFullScreen() const
{
return m_fullScreen;
}
void EvrVideoWindowControl::setFullScreen(bool fullScreen)
{
if (m_fullScreen == fullScreen)
return;
emit fullScreenChanged(m_fullScreen = fullScreen);
}
void EvrVideoWindowControl::repaint()
{
QSize size = nativeSize();
if (size.width() > 0 && size.height() > 0
&& m_displayControl
&& SUCCEEDED(m_displayControl->RepaintVideo())) {
return;
}
PAINTSTRUCT paint;
if (HDC dc = ::BeginPaint(HWND(m_windowId), &paint)) {
HPEN pen = ::CreatePen(PS_SOLID, 1, m_windowColor);
HBRUSH brush = ::CreateSolidBrush(m_windowColor);
::SelectObject(dc, pen);
::SelectObject(dc, brush);
::Rectangle(
dc,
m_displayRect.left(),
m_displayRect.top(),
m_displayRect.right() + 1,
m_displayRect.bottom() + 1);
::DeleteObject(pen);
::DeleteObject(brush);
::EndPaint(HWND(m_windowId), &paint);
}
}
QSize EvrVideoWindowControl::nativeSize() const
{
QSize size;
if (m_displayControl) {
SIZE sourceSize;
if (SUCCEEDED(m_displayControl->GetNativeVideoSize(&sourceSize, 0)))
size = QSize(sourceSize.cx, sourceSize.cy);
}
return size;
}
Qt::AspectRatioMode EvrVideoWindowControl::aspectRatioMode() const
{
return m_aspectRatioMode;
}
void EvrVideoWindowControl::setAspectRatioMode(Qt::AspectRatioMode mode)
{
m_aspectRatioMode = mode;
if (m_displayControl) {
switch (mode) {
case Qt::IgnoreAspectRatio:
//comment from MSDN: Do not maintain the aspect ratio of the video. Stretch the video to fit the output rectangle.
m_displayControl->SetAspectRatioMode(MFVideoARMode_None);
break;
case Qt::KeepAspectRatio:
//comment from MSDN: Preserve the aspect ratio of the video by letterboxing or within the output rectangle.
m_displayControl->SetAspectRatioMode(MFVideoARMode_PreservePicture);
break;
case Qt::KeepAspectRatioByExpanding:
//for this mode, more adjustment will be done in setDisplayRect
m_displayControl->SetAspectRatioMode(MFVideoARMode_PreservePicture);
break;
default:
break;
}
setDisplayRect(m_displayRect);
}
}
int EvrVideoWindowControl::brightness() const
{
return m_brightness;
}
void EvrVideoWindowControl::setBrightness(int brightness)
{
if (m_brightness == brightness)
return;
m_brightness = brightness;
m_dirtyValues |= DXVA2_ProcAmp_Brightness;
applyImageControls();
emit brightnessChanged(brightness);
}
int EvrVideoWindowControl::contrast() const
{
return m_contrast;
}
void EvrVideoWindowControl::setContrast(int contrast)
{
if (m_contrast == contrast)
return;
m_contrast = contrast;
m_dirtyValues |= DXVA2_ProcAmp_Contrast;
applyImageControls();
emit contrastChanged(contrast);
}
int EvrVideoWindowControl::hue() const
{
return m_hue;
}
void EvrVideoWindowControl::setHue(int hue)
{
if (m_hue == hue)
return;
m_hue = hue;
m_dirtyValues |= DXVA2_ProcAmp_Hue;
applyImageControls();
emit hueChanged(hue);
}
int EvrVideoWindowControl::saturation() const
{
return m_saturation;
}
void EvrVideoWindowControl::setSaturation(int saturation)
{
if (m_saturation == saturation)
return;
m_saturation = saturation;
m_dirtyValues |= DXVA2_ProcAmp_Saturation;
applyImageControls();
emit saturationChanged(saturation);
}
void EvrVideoWindowControl::applyImageControls()
{
if (m_processor) {
DXVA2_ProcAmpValues values;
if (m_dirtyValues & DXVA2_ProcAmp_Brightness) {
values.Brightness = scaleProcAmpValue(DXVA2_ProcAmp_Brightness, m_brightness);
}
if (m_dirtyValues & DXVA2_ProcAmp_Contrast) {
values.Contrast = scaleProcAmpValue(DXVA2_ProcAmp_Contrast, m_contrast);
}
if (m_dirtyValues & DXVA2_ProcAmp_Hue) {
values.Hue = scaleProcAmpValue(DXVA2_ProcAmp_Hue, m_hue);
}
if (m_dirtyValues & DXVA2_ProcAmp_Saturation) {
values.Saturation = scaleProcAmpValue(DXVA2_ProcAmp_Saturation, m_saturation);
}
if (SUCCEEDED(m_processor->SetProcAmpValues(m_dirtyValues, &values))) {
m_dirtyValues = 0;
}
}
}
DXVA2_Fixed32 EvrVideoWindowControl::scaleProcAmpValue(DWORD prop, int value) const
{
float scaledValue = 0.0;
DXVA2_ValueRange range;
if (SUCCEEDED(m_processor->GetProcAmpRange(prop, &range))) {
scaledValue = DXVA2FixedToFloat(range.DefaultValue);
if (value > 0)
scaledValue += float(value) * (DXVA2FixedToFloat(range.MaxValue) - DXVA2FixedToFloat(range.DefaultValue)) / 100;
else if (value < 0)
scaledValue -= float(value) * (DXVA2FixedToFloat(range.MinValue) - DXVA2FixedToFloat(range.DefaultValue)) / 100;
}
return DXVA2FloatToFixed(scaledValue);
}