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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2008 by Sun Microsystems, Inc.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
#include <sal/types.h>
#include <memory>
#include <com/sun/star/beans/XFastPropertySet.hpp>
#include <com/sun/star/rendering/IntegerBitmapLayout.hpp>
#include <com/sun/star/rendering/ColorComponentTag.hpp>
#include <com/sun/star/rendering/ColorSpaceType.hpp>
#include <com/sun/star/rendering/RenderingIntent.hpp>
#include <com/sun/star/util/Endianness.hpp>
#include <com/sun/star/animations/TransitionType.hpp>
#undef IN
#undef OUT
#include <com/sun/star/animations/TransitionSubType.hpp>
#include <com/sun/star/presentation/XTransitionFactory.hpp>
#include <com/sun/star/presentation/XTransition.hpp>
#include <com/sun/star/presentation/XSlideShowView.hpp>
#include <com/sun/star/uno/XComponentContext.hpp>
#include <com/sun/star/rendering/XIntegerBitmap.hpp>
#include <com/sun/star/geometry/IntegerSize2D.hpp>
#include <com/sun/star/lang/XServiceInfo.hpp>
#include <cppuhelper/compbase.hxx>
#include <cppuhelper/basemutex.hxx>
#include <cppuhelper/supportsservice.hxx>
#include <rtl/ref.hxx>
#include <sal/log.hxx>
#include <canvas/canvastools.hxx>
#include <tools/diagnose_ex.h>
#include <vcl/canvastools.hxx>
#include <vcl/opengl/OpenGLContext.hxx>
#include <vcl/opengl/OpenGLHelper.hxx>
#include <vcl/syschild.hxx>
#include <vcl/window.hxx>
#include "TransitionImpl.hxx"
#if OSL_DEBUG_LEVEL > 0
#include <chrono>
#endif
using namespace ::com::sun::star;
using ::com::sun::star::beans::XFastPropertySet;
using ::com::sun::star::uno::Any;
using ::com::sun::star::uno::Reference;
using ::com::sun::star::uno::Sequence;
using ::com::sun::star::uno::UNO_QUERY;
using ::com::sun::star::uno::UNO_QUERY_THROW;
namespace
{
typedef cppu::WeakComponentImplHelper<presentation::XTransition> OGLTransitionerImplBase;
#if OSL_DEBUG_LEVEL > 0
class TimerContext
{
public:
explicit TimerContext(OUString const& rWhat)
: m_aWhat(rWhat)
, m_StartTime(std::chrono::steady_clock::now())
{
}
~TimerContext()
{
auto const aDuration(std::chrono::steady_clock::now() - m_StartTime);
SAL_INFO("slideshow.opengl", m_aWhat << " took: " << std::chrono::duration_cast<std::chrono::microseconds>(aDuration).count());
}
private:
OUString const m_aWhat;
std::chrono::steady_clock::time_point const m_StartTime;
};
#endif
struct OGLFormat
{
GLint nInternalFormat;
GLenum eFormat;
GLenum eType;
};
/* channel ordering: (0:rgba, 1:bgra, 2:argb, 3:abgr)
*/
int calcComponentOrderIndex(const uno::Sequence<sal_Int8>& rTags)
{
using namespace rendering::ColorComponentTag;
static const sal_Int8 aOrderTable[] =
{
RGB_RED, RGB_GREEN, RGB_BLUE, ALPHA,
RGB_BLUE, RGB_GREEN, RGB_RED, ALPHA,
ALPHA, RGB_RED, RGB_GREEN, RGB_BLUE,
ALPHA, RGB_BLUE, RGB_GREEN, RGB_RED,
};
const sal_Int32 nNumComps(rTags.getLength());
const sal_Int8* pLine=aOrderTable;
for(int i=0; i<4; ++i)
{
int j=0;
while( j<4 && j<nNumComps && pLine[j] == rTags[j] )
++j;
// all of the line passed, this is a match!
if( j==nNumComps )
return i;
pLine+=4;
}
return -1;
}
/** This is the Transitioner class for OpenGL 3D transitions in
* slideshow. This class is implicitly
* constructed from XTransitionFactory.
*/
class OGLTransitionerImpl : private cppu::BaseMutex, public OGLTransitionerImplBase
{
public:
OGLTransitionerImpl();
OGLTransitionerImpl(const OGLTransitionerImpl&) = delete;
OGLTransitionerImpl& operator=(const OGLTransitionerImpl&) = delete;
bool setTransition( const std::shared_ptr<OGLTransitionImpl>& pOGLTransition );
bool initialize( const Reference< presentation::XSlideShowView >& xView,
const Reference< rendering::XBitmap >& xLeavingSlide,
const Reference< rendering::XBitmap >& xEnteringSlide );
// XTransition
virtual void SAL_CALL update( double nTime ) override;
virtual void SAL_CALL viewChanged( const Reference< presentation::XSlideShowView >& rView,
const Reference< rendering::XBitmap >& rLeavingBitmap,
const Reference< rendering::XBitmap >& rEnteringBitmap ) override;
protected:
void disposeTextures();
// WeakComponentImplHelperBase
virtual void SAL_CALL disposing() override;
bool isDisposed() const
{
return (rBHelper.bDisposed || rBHelper.bInDispose);
}
void createTexture( GLuint* texID,
bool useMipmap,
const uno::Sequence<sal_Int8>& data,
const OGLFormat* pFormat );
const OGLFormat* chooseFormats();
private:
void impl_initializeFlags( bool const bGLXPresent );
void impl_dispose();
void setSlides( const Reference< rendering::XBitmap >& xLeavingSlide , const uno::Reference< rendering::XBitmap >& xEnteringSlide );
void impl_prepareSlides();
void impl_createTexture( bool useMipmap, const uno::Sequence<sal_Int8>& data, const OGLFormat* pFormat );
bool initWindowFromSlideShowView( const uno::Reference< presentation::XSlideShowView >& xView );
/** After the window has been created, and the slides have been set, we'll initialize the slides with OpenGL.
*/
void GLInitSlides();
bool impl_prepareTransition();
private:
rtl::Reference<OpenGLContext> mpContext;
/** OpenGL handle to the leaving slide's texture
*/
GLuint maLeavingSlideGL;
/** OpenGL handle to the entering slide's texture
*/
GLuint maEnteringSlideGL;
Reference< presentation::XSlideShowView > mxView;
Reference< rendering::XIntegerBitmap > mxLeavingBitmap;
Reference< rendering::XIntegerBitmap > mxEnteringBitmap;
/** raw bytes of the entering bitmap
*/
uno::Sequence<sal_Int8> maEnteringBytes;
/** raw bytes of the leaving bitmap
*/
uno::Sequence<sal_Int8> maLeavingBytes;
bool mbRestoreSync;
/** the form the raw bytes are in for the bitmaps
*/
rendering::IntegerBitmapLayout maSlideBitmapLayout;
/** the size of the slides
*/
geometry::IntegerSize2D maSlideSize;
/** Our Transition to be used.
*/
std::shared_ptr<OGLTransitionImpl> mpTransition;
public:
/** whether we are running on ATI fglrx with bug related to textures
*/
bool mbBrokenTexturesATI;
/** GL version
*/
float mnGLVersion;
/**
Whether the display has GLX extension on X11, always true otherwise (?)
*/
bool mbValidOpenGLContext;
#if OSL_DEBUG_LEVEL > 0
std::chrono::steady_clock::time_point m_UpdateStartTime;
std::chrono::steady_clock::time_point m_UpdateEndTime;
std::chrono::steady_clock::time_point m_StartTime;
std::chrono::steady_clock::time_point m_EndTime;
std::chrono::steady_clock::duration m_TotalUpdateDuration;
int mnFrameCount;
#endif
};
bool OGLTransitionerImpl::initialize( const Reference< presentation::XSlideShowView >& xView,
const Reference< rendering::XBitmap >& xLeavingSlide,
const Reference< rendering::XBitmap >& xEnteringSlide )
{
bool const bValidContext( initWindowFromSlideShowView( xView ) );
impl_initializeFlags( bValidContext );
setSlides( xLeavingSlide, xEnteringSlide );
return mbValidOpenGLContext;
}
void OGLTransitionerImpl::impl_initializeFlags( bool const bValidContext )
{
mbValidOpenGLContext = bValidContext;
if ( bValidContext ) {
CHECK_GL_ERROR();
mnGLVersion = OpenGLHelper::getGLVersion();
SAL_INFO("slideshow.opengl", "GL version: " << mnGLVersion << "" );
#if defined( UNX ) && !defined( MACOSX )
const GLubyte* vendor = glGetString( GL_VENDOR );
/* TODO: check for version once the bug in fglrx driver is fixed */
mbBrokenTexturesATI = (vendor && strcmp( reinterpret_cast<const char *>(vendor), "ATI Technologies Inc." ) == 0 );
#endif
CHECK_GL_ERROR();
}
}
bool OGLTransitionerImpl::initWindowFromSlideShowView( const Reference< presentation::XSlideShowView >& xView )
{
osl::MutexGuard const guard( m_aMutex );
if (isDisposed())
return false;
mxView = xView;
if( !mxView.is() )
return false;
#if OSL_DEBUG_LEVEL > 0
TimerContext aTimerContext("initWindowFromSlideShowView");
#endif
/// take the XSlideShowView and extract the parent window from it. see viewmediashape.cxx
uno::Reference< rendering::XCanvas > xCanvas(mxView->getCanvas(), uno::UNO_QUERY_THROW);
uno::Sequence< uno::Any > aDeviceParams;
::canvas::tools::getDeviceInfo( xCanvas, aDeviceParams );
OUString aImplName;
aDeviceParams[ 0 ] >>= aImplName;
sal_Int64 aVal = 0;
aDeviceParams[1] >>= aVal;
mpContext = OpenGLContext::Create();
OutputDevice* pDevice = reinterpret_cast<OutputDevice*>(aVal);
vcl::Window* pWindow = pDevice ? pDevice->GetOwnerWindow() : nullptr;
if( !mpContext->init( pWindow) ) {
mpContext->requestLegacyContext();
if( !mpContext->init( pWindow ) )
return false;
}
SAL_INFO("slideshow.opengl", "created the context");
mpContext->makeCurrent();
CHECK_GL_ERROR();
awt::Rectangle aCanvasArea = mxView->getCanvasArea();
mpContext->setWinPosAndSize(Point(aCanvasArea.X, aCanvasArea.Y), Size(aCanvasArea.Width, aCanvasArea.Height));
SAL_INFO("slideshow.opengl", "canvas area: " << aCanvasArea.X << "," << aCanvasArea.Y << " - " << aCanvasArea.Width << "x" << aCanvasArea.Height);
CHECK_GL_ERROR();
glEnable(GL_CULL_FACE);
CHECK_GL_ERROR();
glCullFace(GL_BACK);
CHECK_GL_ERROR();
glClearColor (0, 0, 0, 0);
CHECK_GL_ERROR();
glClear(GL_COLOR_BUFFER_BIT);
CHECK_GL_ERROR();
mpContext->swapBuffers();
CHECK_GL_ERROR();
return true;
}
void OGLTransitionerImpl::setSlides( const uno::Reference< rendering::XBitmap >& xLeavingSlide,
const uno::Reference< rendering::XBitmap >& xEnteringSlide )
{
osl::MutexGuard const guard( m_aMutex );
if (isDisposed())
return;
mxLeavingBitmap.set( xLeavingSlide , UNO_QUERY_THROW );
mxEnteringBitmap.set( xEnteringSlide , UNO_QUERY_THROW );
maSlideSize = mxLeavingBitmap->getSize();
SAL_INFO("slideshow.opengl", "leaving bitmap area: " << maSlideSize.Width << "x" << maSlideSize.Height);
maSlideSize = mxEnteringBitmap->getSize();
SAL_INFO("slideshow.opengl", "entering bitmap area: " << maSlideSize.Width << "x" << maSlideSize.Height);
//to avoid annoying flashing under X entering and leaving slides with opengl effects set the leaving
//bitmap as the background pixmap of the opengl child window and the entering bitmap as the background
//pixmap of the non-opengl parent window. If any expose events occur around the start and end of
//the transition then those windows are default filled by X with the desired start/end image so there's
//no visible flash
SystemChildWindow* pChildWindow = mpContext->getChildWindow();
if (!pChildWindow)
return;
css::uno::Reference<css::beans::XFastPropertySet> xEnteringFastPropertySet(mxEnteringBitmap, css::uno::UNO_QUERY);
css::uno::Reference<css::beans::XFastPropertySet> xLeavingFastPropertySet(mxLeavingBitmap, css::uno::UNO_QUERY);
css::uno::Sequence<css::uno::Any> aEnteringBitmap;
css::uno::Sequence<css::uno::Any> aLeavingBitmap;
if (xEnteringFastPropertySet && xLeavingFastPropertySet)
{
xEnteringFastPropertySet->getFastPropertyValue(1) >>= aEnteringBitmap;
xLeavingFastPropertySet->getFastPropertyValue(1) >>= aLeavingBitmap;
}
if (aEnteringBitmap.getLength() == 3 && aLeavingBitmap.getLength() == 3)
pChildWindow->SetLeaveEnterBackgrounds(aLeavingBitmap, aEnteringBitmap);
}
void OGLTransitionerImpl::impl_prepareSlides()
{
geometry::IntegerRectangle2D aSlideRect;
aSlideRect.X1 = 0;
aSlideRect.X2 = maSlideSize.Width;
aSlideRect.Y1 = 0;
aSlideRect.Y2 = maSlideSize.Height;
CHECK_GL_ERROR();
mpContext->sync();
CHECK_GL_ERROR();
maLeavingBytes = mxLeavingBitmap->getData(maSlideBitmapLayout, aSlideRect);
maEnteringBytes = mxEnteringBitmap->getData(maSlideBitmapLayout, aSlideRect);
CHECK_GL_ERROR();
GLInitSlides();
SAL_WARN_IF(maSlideBitmapLayout.PlaneStride != 0, "slideshow.opengl","only handle no plane stride now");
mpContext->sync();
CHECK_GL_ERROR();
// synchronized X still gives us much smoother play
// I suspect some issues in above code in slideshow
// synchronize whole transition for now
const GLWindow& rGLWindow(mpContext->getOpenGLWindow());
mbRestoreSync = rGLWindow.Synchronize(true);
}
bool OGLTransitionerImpl::impl_prepareTransition()
{
if( mpTransition && mpTransition->getSettings().mnRequiredGLVersion <= mnGLVersion )
return mpTransition->prepare( maLeavingSlideGL, maEnteringSlideGL, mpContext.get() );
return false;
}
bool OGLTransitionerImpl::setTransition( const std::shared_ptr<OGLTransitionImpl>& pTransition )
{
if ( mpTransition ) // already initialized
return true;
mpTransition = pTransition;
mpContext->makeCurrent();
CHECK_GL_ERROR();
bool succeeded = impl_prepareTransition();
if (!succeeded) {
mpTransition = nullptr;
return false;
}
impl_prepareSlides();
// tdf#91456: When the OpenGL context is initialized but nothing has been rendered on it
// it can happen, that an "empty" screen is drawn. Therefore, drawing the content of time 0
// onto the context
update(0);
return true;
}
void OGLTransitionerImpl::createTexture( GLuint* texID,
bool useMipmap,
const uno::Sequence<sal_Int8>& data,
const OGLFormat* pFormat )
{
CHECK_GL_ERROR();
glDeleteTextures( 1, texID );
glGenTextures( 1, texID );
glBindTexture( GL_TEXTURE_2D, *texID );
glTexParameteri( GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_BORDER );
glTexParameteri( GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_BORDER );
CHECK_GL_ERROR();
impl_createTexture( useMipmap, data, pFormat );
SAL_WARN_IF(!glIsTexture(*texID), "slideshow.opengl", "Can't generate Leaving slide textures in OpenGL");
CHECK_GL_ERROR();
}
class OGLColorSpace : public cppu::WeakImplHelper< css::rendering::XIntegerBitmapColorSpace >
{
private:
uno::Sequence< sal_Int8 > maComponentTags;
uno::Sequence< sal_Int32 > maBitCounts;
virtual sal_Int8 SAL_CALL getType( ) override
{
return rendering::ColorSpaceType::RGB;
}
virtual uno::Sequence< sal_Int8 > SAL_CALL getComponentTags( ) override
{
return maComponentTags;
}
virtual sal_Int8 SAL_CALL getRenderingIntent( ) override
{
return rendering::RenderingIntent::PERCEPTUAL;
}
virtual uno::Sequence< beans::PropertyValue > SAL_CALL getProperties( ) override
{
return uno::Sequence< beans::PropertyValue >();
}
virtual uno::Sequence< double > SAL_CALL convertColorSpace( const uno::Sequence< double >& deviceColor,
const uno::Reference< rendering::XColorSpace >& targetColorSpace ) override
{
// TODO(P3): if we know anything about target
// colorspace, this can be greatly sped up
uno::Sequence<rendering::ARGBColor> aIntermediate(
convertToARGB(deviceColor));
return targetColorSpace->convertFromARGB(aIntermediate);
}
virtual uno::Sequence< rendering::RGBColor > SAL_CALL convertToRGB( const uno::Sequence< double >& deviceColor ) override
{
const double* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::RGBColor > aRes(nLen/4);
rendering::RGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::RGBColor(pIn[0],pIn[1],pIn[2]);
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertToARGB( const uno::Sequence< double >& deviceColor ) override
{
const double* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::ARGBColor > aRes(nLen/4);
rendering::ARGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::ARGBColor(pIn[3],pIn[0],pIn[1],pIn[2]);
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertToPARGB( const uno::Sequence< double >& deviceColor ) override
{
const double* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::ARGBColor > aRes(nLen/4);
rendering::ARGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::ARGBColor(pIn[3],pIn[3]*pIn[0],pIn[3]*pIn[1],pIn[3]*pIn[2]);
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< double > SAL_CALL convertFromRGB( const uno::Sequence< rendering::RGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< double > aRes(nLen*4);
double* pColors=aRes.getArray();
for( const rendering::RGBColor& rIn : rgbColor )
{
*pColors++ = rIn.Red;
*pColors++ = rIn.Green;
*pColors++ = rIn.Blue;
*pColors++ = 1.0;
}
return aRes;
}
virtual uno::Sequence< double > SAL_CALL convertFromARGB( const uno::Sequence< rendering::ARGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< double > aRes(nLen*4);
double* pColors=aRes.getArray();
for( const rendering::ARGBColor& rIn : rgbColor )
{
*pColors++ = rIn.Red;
*pColors++ = rIn.Green;
*pColors++ = rIn.Blue;
*pColors++ = rIn.Alpha;
}
return aRes;
}
virtual uno::Sequence< double > SAL_CALL convertFromPARGB( const uno::Sequence< rendering::ARGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< double > aRes(nLen*4);
double* pColors=aRes.getArray();
for( const rendering::ARGBColor& rIn : rgbColor )
{
*pColors++ = rIn.Red/rIn.Alpha;
*pColors++ = rIn.Green/rIn.Alpha;
*pColors++ = rIn.Blue/rIn.Alpha;
*pColors++ = rIn.Alpha;
}
return aRes;
}
// XIntegerBitmapColorSpace
virtual sal_Int32 SAL_CALL getBitsPerPixel( ) override
{
return 32;
}
virtual uno::Sequence< sal_Int32 > SAL_CALL getComponentBitCounts( ) override
{
return maBitCounts;
}
virtual sal_Int8 SAL_CALL getEndianness( ) override
{
return util::Endianness::LITTLE;
}
virtual uno::Sequence<double> SAL_CALL convertFromIntegerColorSpace( const uno::Sequence< sal_Int8 >& deviceColor,
const uno::Reference< rendering::XColorSpace >& targetColorSpace ) override
{
if( dynamic_cast<OGLColorSpace*>(targetColorSpace.get()) )
{
const sal_Int32 nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence<double> aRes(nLen);
std::transform(deviceColor.begin(), deviceColor.end(), aRes.getArray(),
vcl::unotools::toDoubleColor);
return aRes;
}
else
{
// TODO(P3): if we know anything about target
// colorspace, this can be greatly sped up
uno::Sequence<rendering::ARGBColor> aIntermediate(
convertIntegerToARGB(deviceColor));
return targetColorSpace->convertFromARGB(aIntermediate);
}
}
virtual uno::Sequence< sal_Int8 > SAL_CALL convertToIntegerColorSpace( const uno::Sequence< sal_Int8 >& deviceColor,
const uno::Reference< rendering::XIntegerBitmapColorSpace >& targetColorSpace ) override
{
if( dynamic_cast<OGLColorSpace*>(targetColorSpace.get()) )
{
// it's us, so simply pass-through the data
return deviceColor;
}
else
{
// TODO(P3): if we know anything about target
// colorspace, this can be greatly sped up
uno::Sequence<rendering::ARGBColor> aIntermediate(
convertIntegerToARGB(deviceColor));
return targetColorSpace->convertIntegerFromARGB(aIntermediate);
}
}
virtual uno::Sequence< rendering::RGBColor > SAL_CALL convertIntegerToRGB( const uno::Sequence< sal_Int8 >& deviceColor ) override
{
const sal_Int8* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::RGBColor > aRes(nLen/4);
rendering::RGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::RGBColor(
vcl::unotools::toDoubleColor(pIn[0]),
vcl::unotools::toDoubleColor(pIn[1]),
vcl::unotools::toDoubleColor(pIn[2]));
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertIntegerToARGB( const uno::Sequence< sal_Int8 >& deviceColor ) override
{
const sal_Int8* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::ARGBColor > aRes(nLen/4);
rendering::ARGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::ARGBColor(
vcl::unotools::toDoubleColor(pIn[3]),
vcl::unotools::toDoubleColor(pIn[0]),
vcl::unotools::toDoubleColor(pIn[1]),
vcl::unotools::toDoubleColor(pIn[2]));
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertIntegerToPARGB( const uno::Sequence< sal_Int8 >& deviceColor ) override
{
const sal_Int8* pIn( deviceColor.getConstArray() );
const std::size_t nLen( deviceColor.getLength() );
ENSURE_ARG_OR_THROW2(nLen%4==0,
"number of channels no multiple of 4",
static_cast<rendering::XColorSpace*>(this), 0);
uno::Sequence< rendering::ARGBColor > aRes(nLen/4);
rendering::ARGBColor* pOut( aRes.getArray() );
for( std::size_t i=0; i<nLen; i+=4 )
{
const sal_Int8 nAlpha( pIn[3] );
*pOut++ = rendering::ARGBColor(
vcl::unotools::toDoubleColor(nAlpha),
vcl::unotools::toDoubleColor(nAlpha*pIn[0]),
vcl::unotools::toDoubleColor(nAlpha*pIn[1]),
vcl::unotools::toDoubleColor(nAlpha*pIn[2]));
pIn += 4;
}
return aRes;
}
virtual uno::Sequence< sal_Int8 > SAL_CALL convertIntegerFromRGB( const uno::Sequence< rendering::RGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< sal_Int8 > aRes(nLen*4);
sal_Int8* pColors=aRes.getArray();
for( const rendering::RGBColor& rIn : rgbColor )
{
*pColors++ = vcl::unotools::toByteColor(rIn.Red);
*pColors++ = vcl::unotools::toByteColor(rIn.Green);
*pColors++ = vcl::unotools::toByteColor(rIn.Blue);
*pColors++ = -1;
}
return aRes;
}
virtual uno::Sequence< sal_Int8 > SAL_CALL convertIntegerFromARGB( const uno::Sequence< rendering::ARGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< sal_Int8 > aRes(nLen*4);
sal_Int8* pColors=aRes.getArray();
for( const rendering::ARGBColor& rIn : rgbColor )
{
*pColors++ = vcl::unotools::toByteColor(rIn.Red);
*pColors++ = vcl::unotools::toByteColor(rIn.Green);
*pColors++ = vcl::unotools::toByteColor(rIn.Blue);
*pColors++ = vcl::unotools::toByteColor(rIn.Alpha);
}
return aRes;
}
virtual uno::Sequence< sal_Int8 > SAL_CALL convertIntegerFromPARGB( const uno::Sequence< rendering::ARGBColor >& rgbColor ) override
{
const sal_Int32 nLen( rgbColor.getLength() );
uno::Sequence< sal_Int8 > aRes(nLen*4);
sal_Int8* pColors=aRes.getArray();
for( const rendering::ARGBColor& rIn : rgbColor )
{
*pColors++ = vcl::unotools::toByteColor(rIn.Red/rIn.Alpha);
*pColors++ = vcl::unotools::toByteColor(rIn.Green/rIn.Alpha);
*pColors++ = vcl::unotools::toByteColor(rIn.Blue/rIn.Alpha);
*pColors++ = vcl::unotools::toByteColor(rIn.Alpha);
}
return aRes;
}
public:
OGLColorSpace() :
maComponentTags(4),
maBitCounts(4)
{
sal_Int8* pTags = maComponentTags.getArray();
sal_Int32* pBitCounts = maBitCounts.getArray();
pTags[0] = rendering::ColorComponentTag::RGB_RED;
pTags[1] = rendering::ColorComponentTag::RGB_GREEN;
pTags[2] = rendering::ColorComponentTag::RGB_BLUE;
pTags[3] = rendering::ColorComponentTag::ALPHA;
pBitCounts[0] =
pBitCounts[1] =
pBitCounts[2] =
pBitCounts[3] = 8;
}
};
struct OGLColorSpaceHolder : public rtl::StaticWithInit<uno::Reference<rendering::XIntegerBitmapColorSpace>, OGLColorSpaceHolder>
{
uno::Reference<rendering::XIntegerBitmapColorSpace> operator()()
{
return new OGLColorSpace();
}
};
uno::Reference<rendering::XIntegerBitmapColorSpace> const &
getOGLColorSpace()
{
return OGLColorSpaceHolder::get();
}
void buildMipmaps(
GLint internalFormat, GLsizei width, GLsizei height, GLenum format,
GLenum type, const void * data)
{
if (epoxy_has_gl_extension("GL_ARB_framebuffer_object")) {
glTexImage2D(
GL_TEXTURE_2D, 0, internalFormat, width, height, 0, format, type,
data);
glGenerateMipmap(GL_TEXTURE_2D);
} else {
glTexParameteri(GL_TEXTURE_2D, GL_GENERATE_MIPMAP, GL_TRUE);
glTexImage2D(
GL_TEXTURE_2D, 0, internalFormat, width, height, 0, format, type,
data);
glTexParameteri(GL_TEXTURE_2D, GL_GENERATE_MIPMAP, GL_FALSE);
}
glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
glTexParameteri(
GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR);
}
void OGLTransitionerImpl::impl_createTexture(
bool useMipmap,
const uno::Sequence<sal_Int8>& data,
const OGLFormat* pFormat )
{
if( !pFormat )
{
CHECK_GL_ERROR();
// force-convert color to ARGB8888 int color space
uno::Sequence<sal_Int8> tempBytes(
maSlideBitmapLayout.ColorSpace->convertToIntegerColorSpace(
data,
getOGLColorSpace()));
buildMipmaps( GL_RGBA,
maSlideSize.Width,
maSlideSize.Height,
GL_RGBA,
GL_UNSIGNED_BYTE,
&tempBytes[0]);
if (epoxy_has_gl_extension("GL_EXT_texture_filter_anisotropic"))
{
//anistropic filtering (to make texturing not suck when looking at polygons from oblique angles)
GLfloat largest_supported_anisotropy;
glGetFloatv(GL_MAX_TEXTURE_MAX_ANISOTROPY_EXT, &largest_supported_anisotropy);
glTexParameterf(GL_TEXTURE_2D, GL_TEXTURE_MAX_ANISOTROPY_EXT, largest_supported_anisotropy);
}
} else {
if( mpTransition && !mbBrokenTexturesATI && !useMipmap) {
glTexImage2D( GL_TEXTURE_2D, 0, pFormat->nInternalFormat, maSlideSize.Width, maSlideSize.Height, 0, pFormat->eFormat, pFormat->eType, &data[0] );
glTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_MAG_FILTER,GL_NEAREST);
glTexParameteri(GL_TEXTURE_2D,GL_TEXTURE_MIN_FILTER,GL_NEAREST);
} else {
buildMipmaps( pFormat->nInternalFormat, maSlideSize.Width, maSlideSize.Height, pFormat->eFormat, pFormat->eType, &data[0] );
if (epoxy_has_gl_extension("GL_EXT_texture_filter_anisotropic"))
{
//anistropic filtering (to make texturing not suck when looking at polygons from oblique angles)
GLfloat largest_supported_anisotropy;
glGetFloatv( GL_MAX_TEXTURE_MAX_ANISOTROPY_EXT, &largest_supported_anisotropy );
glTexParameterf( GL_TEXTURE_2D, GL_TEXTURE_MAX_ANISOTROPY_EXT, largest_supported_anisotropy );
}
}
}
CHECK_GL_ERROR();
}
const OGLFormat* OGLTransitionerImpl::chooseFormats()
{
const OGLFormat* pDetectedFormat=nullptr;
uno::Reference<rendering::XIntegerBitmapColorSpace> xIntColorSpace(
maSlideBitmapLayout.ColorSpace);
if( xIntColorSpace->getType() == rendering::ColorSpaceType::RGB ||
xIntColorSpace->getType() == rendering::ColorSpaceType::SRGB )
{
/* table for canvas->OGL format mapping. outer index is number
of color components (0:3, 1:4), then comes bits per pixel
(0:16, 1:24, 2:32), then channel ordering: (0:rgba, 1:bgra,
2:argb, 3:abgr)
*/
static const OGLFormat lcl_RGB24[] =
{
// 24 bit RGB
{3, GL_BGR, GL_UNSIGNED_BYTE},
{3, GL_RGB, GL_UNSIGNED_BYTE},
{3, GL_BGR, GL_UNSIGNED_BYTE},
{3, GL_RGB, GL_UNSIGNED_BYTE}
};
#if defined(GL_VERSION_1_2) && defined(GLU_VERSION_1_3)
// more format constants available
static const OGLFormat lcl_RGB16[] =
{
// 16 bit RGB
{3, GL_RGB, GL_UNSIGNED_SHORT_5_6_5_REV},
{3, GL_RGB, GL_UNSIGNED_SHORT_5_6_5},
{3, GL_RGB, GL_UNSIGNED_SHORT_5_6_5_REV},
{3, GL_RGB, GL_UNSIGNED_SHORT_5_6_5}
};
static const OGLFormat lcl_ARGB16_4[] =
{
// 16 bit ARGB
{4, GL_RGBA, GL_UNSIGNED_SHORT_4_4_4_4_REV},
{4, GL_BGRA, GL_UNSIGNED_SHORT_4_4_4_4_REV},
{4, GL_BGRA, GL_UNSIGNED_SHORT_4_4_4_4},
{4, GL_RGBA, GL_UNSIGNED_SHORT_4_4_4_4}
};
static const OGLFormat lcl_ARGB16_5[] =
{
// 16 bit ARGB
{4, GL_RGBA, GL_UNSIGNED_SHORT_1_5_5_5_REV},
{4, GL_BGRA, GL_UNSIGNED_SHORT_1_5_5_5_REV},
{4, GL_BGRA, GL_UNSIGNED_SHORT_5_5_5_1},
{4, GL_RGBA, GL_UNSIGNED_SHORT_5_5_5_1}
};
static const OGLFormat lcl_ARGB32[] =
{
// 32 bit ARGB
{4, GL_RGBA, GL_UNSIGNED_INT_8_8_8_8_REV},
{4, GL_BGRA, GL_UNSIGNED_INT_8_8_8_8_REV},
{4, GL_BGRA, GL_UNSIGNED_INT_8_8_8_8},
{4, GL_RGBA, GL_UNSIGNED_INT_8_8_8_8}
};
const uno::Sequence<sal_Int8> aComponentTags(
xIntColorSpace->getComponentTags());
const uno::Sequence<sal_Int32> aComponentBitcounts(
xIntColorSpace->getComponentBitCounts());
const sal_Int32 nNumComponents( aComponentBitcounts.getLength() );
const sal_Int32 nBitsPerPixel( xIntColorSpace->getBitsPerPixel() );
// supported component ordering?
const int nComponentOrderIndex(
calcComponentOrderIndex(aComponentTags));
if( nComponentOrderIndex != -1 )
{
switch( nBitsPerPixel )
{
case 16:
if( nNumComponents == 3 )
{
pDetectedFormat = &lcl_RGB16[nComponentOrderIndex];
}
else if( nNumComponents == 4 )
{
if( aComponentBitcounts[1] == 4 )
{
pDetectedFormat = &lcl_ARGB16_4[nComponentOrderIndex];
}
else if( aComponentBitcounts[1] == 5 )
{
pDetectedFormat = &lcl_ARGB16_5[nComponentOrderIndex];
}
}
break;
case 24:
if( nNumComponents == 3 )
{
pDetectedFormat = &lcl_RGB24[nComponentOrderIndex];
}
break;
case 32:
if ( nNumComponents == 4 )
{
pDetectedFormat = &lcl_ARGB32[nComponentOrderIndex];
}
break;
}
}
#else
const uno::Sequence<sal_Int8> aComponentTags(
xIntColorSpace->getComponentTags());
const int nComponentOrderIndex(calcComponentOrderIndex(aComponentTags));
if( aComponentTags.getLength() == 3 &&
nComponentOrderIndex != -1 &&
xIntColorSpace->getBitsPerPixel() == 24 )
{
pDetectedFormat = &lcl_RGB24[nComponentOrderIndex];
}
#endif
}
return pDetectedFormat;
}
void OGLTransitionerImpl::GLInitSlides()
{
osl::MutexGuard const guard( m_aMutex );
if (isDisposed() || !mpTransition || mpTransition->getSettings().mnRequiredGLVersion > mnGLVersion)
return;
#if OSL_DEBUG_LEVEL > 0
TimerContext aTimerContext("texture creation");
#endif
mpContext->makeCurrent();
const OGLFormat* pFormat = chooseFormats();
CHECK_GL_ERROR();
createTexture( &maLeavingSlideGL,
mpTransition->getSettings().mbUseMipMapLeaving,
maLeavingBytes,
pFormat );
createTexture( &maEnteringSlideGL,
mpTransition->getSettings().mbUseMipMapEntering,
maEnteringBytes,
pFormat );
CHECK_GL_ERROR();
mpContext->sync();
CHECK_GL_ERROR();
}
void SAL_CALL OGLTransitionerImpl::update( double nTime )
{
#if OSL_DEBUG_LEVEL > 0
mnFrameCount ++;
m_UpdateStartTime = std::chrono::steady_clock::now();
if( mnFrameCount == 1 ) {
m_StartTime = m_UpdateStartTime;
m_TotalUpdateDuration = std::chrono::seconds(0);
}
#endif
osl::MutexGuard const guard( m_aMutex );
if (isDisposed() || !mbValidOpenGLContext || !mpTransition || mpTransition->getSettings().mnRequiredGLVersion > mnGLVersion)
return;
mpContext->makeCurrent();
CHECK_GL_ERROR();
glEnable(GL_DEPTH_TEST);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
CHECK_GL_ERROR();
const GLWindow& rGLWindow(mpContext->getOpenGLWindow());
mpTransition->display(nTime, maLeavingSlideGL, maEnteringSlideGL,
maSlideSize.Width, maSlideSize.Height,
static_cast<double>(rGLWindow.Width),
static_cast<double>(rGLWindow.Height),
mpContext.get());
mpContext->swapBuffers();
mpContext->show();
mpContext->sync();
CHECK_GL_ERROR();
#if OSL_DEBUG_LEVEL > 0
m_UpdateEndTime = std::chrono::steady_clock::now();
SAL_INFO("slideshow.opengl", "update time: " << nTime);
SAL_INFO("slideshow.opengl", "update took: " << std::chrono::duration_cast<std::chrono::milliseconds>(m_UpdateEndTime - m_UpdateStartTime).count());
m_TotalUpdateDuration += m_UpdateEndTime - m_UpdateStartTime;
#endif
}
void SAL_CALL OGLTransitionerImpl::viewChanged( const Reference< presentation::XSlideShowView >& rView,
const Reference< rendering::XBitmap >& rLeavingBitmap,
const Reference< rendering::XBitmap >& rEnteringBitmap )
{
SAL_INFO("slideshow.opengl", "transitioner: view changed");
impl_dispose();
initWindowFromSlideShowView( rView );
setSlides( rLeavingBitmap, rEnteringBitmap );
impl_prepareSlides();
impl_prepareTransition();
}
void OGLTransitionerImpl::disposeTextures()
{
if (!mbValidOpenGLContext)
return;
mpContext->makeCurrent();
CHECK_GL_ERROR();
glDeleteTextures(1,&maLeavingSlideGL);
maLeavingSlideGL = 0;
glDeleteTextures(1,&maEnteringSlideGL);
maEnteringSlideGL = 0;
CHECK_GL_ERROR();
}
void OGLTransitionerImpl::impl_dispose()
{
if (mbValidOpenGLContext)
{
mpContext->makeCurrent();
CHECK_GL_ERROR();
}
if( mpTransition && mpTransition->getSettings().mnRequiredGLVersion <= mnGLVersion )
mpTransition->finish();
disposeTextures();
if( mpContext.is() )
mpContext->dispose();
mpContext.clear();
}
// we are about to be disposed (someone call dispose() on us)
void OGLTransitionerImpl::disposing()
{
osl::MutexGuard const guard( m_aMutex );
#if OSL_DEBUG_LEVEL > 0
SAL_INFO("slideshow.opengl", "dispose " << this);
if( mnFrameCount ) {
m_EndTime = std::chrono::steady_clock::now();
auto const duration = m_EndTime - m_StartTime;
SAL_INFO("slideshow.opengl",
"whole transition (frames: " << mnFrameCount
<< ") took: " << std::chrono::duration_cast<std::chrono::microseconds>(duration).count()
<< " fps: "
<< ((static_cast<double>(mnFrameCount)*1000000000.0)/std::chrono::duration_cast<std::chrono::nanoseconds>(duration).count())
<< " time spent in updates: " << std::chrono::duration_cast<std::chrono::microseconds>(m_TotalUpdateDuration).count()
<< " percentage of transition time: "
<< (100*((static_cast<double>(std::chrono::duration_cast<std::chrono::nanoseconds>(m_TotalUpdateDuration).count()))/(static_cast<double>(std::chrono::duration_cast<std::chrono::nanoseconds>(duration).count()))))
<< '%'
);
}
#endif
if (mbRestoreSync && mpContext.is()) {
// try to reestablish synchronize state
const char* sal_synchronize = getenv("SAL_SYNCHRONIZE");
mpContext->getOpenGLWindow().Synchronize(sal_synchronize && *sal_synchronize == '1' );
}
impl_dispose();
mpTransition.reset();
mxLeavingBitmap.clear();
mxEnteringBitmap.clear();
mxView.clear();
}
OGLTransitionerImpl::OGLTransitionerImpl()
: OGLTransitionerImplBase(m_aMutex)
, mpContext()
, maLeavingSlideGL(0)
, maEnteringSlideGL(0)
, mxView()
, maEnteringBytes()
, maLeavingBytes()
, mbRestoreSync(false)
, maSlideBitmapLayout()
, maSlideSize()
, mbBrokenTexturesATI(false)
, mnGLVersion(0)
, mbValidOpenGLContext(false)
#if OSL_DEBUG_LEVEL > 0
, mnFrameCount(0)
#endif
{
}
typedef cppu::WeakComponentImplHelper<presentation::XTransitionFactory, lang::XServiceInfo> OGLTransitionFactoryImplBase;
class OGLTransitionFactoryImpl : private cppu::BaseMutex, public OGLTransitionFactoryImplBase
{
public:
explicit OGLTransitionFactoryImpl() :
OGLTransitionFactoryImplBase(m_aMutex)
{}
// XServiceInfo
virtual Sequence< OUString > SAL_CALL getSupportedServiceNames() override
{
return { "com.sun.star.presentation.TransitionFactory" };
}
virtual OUString SAL_CALL getImplementationName() override
{
return "com.sun.star.comp.presentation.OGLTransitionFactory";
}
virtual sal_Bool SAL_CALL supportsService(const OUString& aServiceName) override
{
return cppu::supportsService(this, aServiceName);
}
// XTransitionFactory
virtual sal_Bool SAL_CALL hasTransition( sal_Int16 transitionType, sal_Int16 transitionSubType ) override
{
if( !OpenGLHelper::supportsOpenGL())
return false;
// A set of css::animation::TransitionSubType that don't have any meaning (in the SMIL 2.0
// standard) for MISCSHAPEWIPE have been chosen to refer to some of these "fancy" optional
// transitions. (The only subtypes of 'miscShapeWipe' defined in the standard are 'heart'
// and 'keyhole'.) The set of subtypes used seems to be a bit random; it starts from the
// beginning of the list (in the order (numeric) in our TransitionSubType set of constants)
// but then jumps a bit randomly. The numeric values as such have no meaning, but still.
if( transitionType == animations::TransitionType::MISCSHAPEWIPE ) {
switch( transitionSubType )
{
case animations::TransitionSubType::LEFTTORIGHT: // 1
case animations::TransitionSubType::TOPTOBOTTOM: // 2
case animations::TransitionSubType::TOPLEFT: // 3
case animations::TransitionSubType::TOPRIGHT: // 4
case animations::TransitionSubType::BOTTOMRIGHT: // 5
case animations::TransitionSubType::BOTTOMLEFT: // 6
case animations::TransitionSubType::TOPCENTER: // 7
case animations::TransitionSubType::RIGHTCENTER: // 8
case animations::TransitionSubType::BOTTOMCENTER: // 9
case animations::TransitionSubType::CORNERSIN: // 11
case animations::TransitionSubType::CORNERSOUT: // 12
case animations::TransitionSubType::VERTICAL: // 13
case animations::TransitionSubType::HORIZONTAL: // 14
case animations::TransitionSubType::DIAMOND: // 26
case animations::TransitionSubType::CIRCLE: // 27
case animations::TransitionSubType::HEART: // 31
case animations::TransitionSubType::FANOUTHORIZONTAL: // 55
case animations::TransitionSubType::ACROSS: // 108
return true;
default:
return false;
}
} else if( transitionType == animations::TransitionType::FADE && transitionSubType == animations::TransitionSubType::CROSSFADE ) {
return true;
} else if( transitionType == animations::TransitionType::FADE && transitionSubType == animations::TransitionSubType::FADEOVERCOLOR ) {
return true;
} else if( transitionType == animations::TransitionType::IRISWIPE && transitionSubType == animations::TransitionSubType::DIAMOND ) {
return true;
} else if( transitionType == animations::TransitionType::ZOOM && transitionSubType == animations::TransitionSubType::ROTATEIN ) {
return true;
} else
return false;
}
virtual uno::Reference< presentation::XTransition > SAL_CALL createTransition(
sal_Int16 transitionType,
sal_Int16 transitionSubType,
sal_Int32 transitionFadeColor,
const uno::Reference< presentation::XSlideShowView >& view,
const uno::Reference< rendering::XBitmap >& leavingBitmap,
const uno::Reference< rendering::XBitmap >& enteringBitmap ) override
{
if( !hasTransition( transitionType, transitionSubType ) )
return uno::Reference< presentation::XTransition >();
rtl::Reference< OGLTransitionerImpl > xRes( new OGLTransitionerImpl() );
if ( !xRes->initialize( view, leavingBitmap, enteringBitmap ) )
return uno::Reference< presentation::XTransition >();
std::shared_ptr<OGLTransitionImpl> pTransition;
if( transitionType == animations::TransitionType::MISCSHAPEWIPE ) {
switch( transitionSubType )
{
case animations::TransitionSubType::LEFTTORIGHT:
pTransition = makeFallLeaving();
break;
case animations::TransitionSubType::TOPTOBOTTOM:
pTransition = makeTurnAround();
break;
case animations::TransitionSubType::TOPLEFT:
pTransition = makeIris();
break;
case animations::TransitionSubType::TOPRIGHT:
pTransition = makeTurnDown();
break;
case animations::TransitionSubType::BOTTOMRIGHT:
pTransition = makeRochade();
break;
case animations::TransitionSubType::BOTTOMLEFT:
pTransition = makeVenetianBlinds( true, 8 );
break;
case animations::TransitionSubType::TOPCENTER:
pTransition = makeVenetianBlinds( false, 6 );
break;
case animations::TransitionSubType::RIGHTCENTER:
pTransition = makeStatic();
break;
case animations::TransitionSubType::BOTTOMCENTER:
pTransition = makeDissolve();
break;
case animations::TransitionSubType::CORNERSIN:
pTransition = makeInsideCubeFaceToLeft();
break;
case animations::TransitionSubType::CORNERSOUT:
pTransition = makeOutsideCubeFaceToLeft();
break;
case animations::TransitionSubType::VERTICAL:
pTransition = makeVortex();
break;
case animations::TransitionSubType::HORIZONTAL:
pTransition = makeRipple();
break;
case animations::TransitionSubType::CIRCLE:
pTransition = makeRevolvingCircles(8,128);
break;
case animations::TransitionSubType::FANOUTHORIZONTAL:
pTransition = makeHelix(20);
break;
case animations::TransitionSubType::ACROSS:
pTransition = makeNByMTileFlip(8,6);
break;
case animations::TransitionSubType::DIAMOND:
pTransition = makeGlitter();
break;
case animations::TransitionSubType::HEART:
pTransition = makeHoneycomb();
break;
}
} else if( transitionType == animations::TransitionType::FADE && transitionSubType == animations::TransitionSubType::CROSSFADE ) {
pTransition = makeFadeSmoothly();
} else if( transitionType == animations::TransitionType::FADE && transitionSubType == animations::TransitionSubType::FADEOVERCOLOR ) {
pTransition = makeFadeThroughColor( transitionFadeColor == 0xffffff );
} else if( transitionType == animations::TransitionType::IRISWIPE && transitionSubType == animations::TransitionSubType::DIAMOND ) {
pTransition = makeDiamond();
} else if( transitionType == animations::TransitionType::ZOOM && transitionSubType == animations::TransitionSubType::ROTATEIN ) {
pTransition = makeNewsflash();
}
if ( !pTransition || !xRes->setTransition(pTransition) )
return uno::Reference< presentation::XTransition >();
return xRes;
}
};
}
extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface*
slideshow_OGLTransitionFactoryImpl_get_implementation(
css::uno::XComponentContext* , css::uno::Sequence<css::uno::Any> const&)
{
return cppu::acquire(new OGLTransitionFactoryImpl());
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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