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qgsrasterrenderer.cpp
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qgsrasterrenderer.cpp
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/***************************************************************************
qgsrasterrenderer.cpp
---------------------
begin : December 2011
copyright : (C) 2011 by Marco Hugentobler
email : marco at sourcepole dot ch
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#include "qgsrasterrenderer.h"
#include "qgsrasterresampler.h"
#include "qgsrasterprojector.h"
#include "qgsrastertransparency.h"
#include "qgsrasterviewport.h"
#include "qgsmaptopixel.h"
//resamplers
#include "qgsbilinearrasterresampler.h"
#include "qgscubicrasterresampler.h"
#include <QDomDocument>
#include <QDomElement>
#include <QImage>
#include <QPainter>
QgsRasterRenderer::QgsRasterRenderer( QgsRasterDataProvider* provider, const QString& type ): mProvider( provider ),
mType( type ), mZoomedInResampler( 0 ), mZoomedOutResampler( 0 ), mOpacity( 1.0 ), mRasterTransparency( 0 ),
mAlphaBand( -1 ), mInvertColor( false ), mMaxOversampling( 2.0 )
{
}
QgsRasterRenderer::~QgsRasterRenderer()
{
//remove remaining memory in partinfos
QMap<int, RasterPartInfo>::iterator partIt = mRasterPartInfos.begin();
for ( ; partIt != mRasterPartInfos.end(); ++partIt )
{
CPLFree( partIt.value().data );
}
delete mZoomedInResampler;
delete mZoomedOutResampler;
delete mRasterTransparency;
}
void QgsRasterRenderer::setZoomedInResampler( QgsRasterResampler* r )
{
delete mZoomedInResampler;
mZoomedInResampler = r;
}
void QgsRasterRenderer::setZoomedOutResampler( QgsRasterResampler* r )
{
delete mZoomedOutResampler;
mZoomedOutResampler = r;
}
void QgsRasterRenderer::startRasterRead( int bandNumber, QgsRasterViewPort* viewPort, const QgsMapToPixel* mapToPixel, double& oversamplingX, double& oversamplingY )
{
if ( !viewPort || !mapToPixel || !mProvider )
{
return;
}
//remove any previous part on that band
removePartInfo( bandNumber );
//calculate oversampling factor
double oversampling = 1.0; //approximate global oversampling factor
if ( mZoomedInResampler || mZoomedOutResampler )
{
QgsRectangle providerExtent = mProvider->extent();
if ( viewPort->mSrcCRS.isValid() && viewPort->mDestCRS.isValid() && viewPort->mSrcCRS != viewPort->mDestCRS )
{
QgsCoordinateTransform t( viewPort->mSrcCRS, viewPort->mDestCRS );
providerExtent = t.transformBoundingBox( providerExtent );
}
double pixelRatio = mapToPixel->mapUnitsPerPixel() / ( providerExtent.width() / mProvider->xSize() );
oversampling = ( pixelRatio > mMaxOversampling ) ? mMaxOversampling : pixelRatio;
}
//set oversampling back to 1.0 if no resampler for zoomed in / zoomed out (nearest neighbour)
if (( oversampling < 1.0 && !mZoomedInResampler ) || ( oversampling > 1.0 && !mZoomedOutResampler ) )
{
oversampling = 1.0;
}
//split raster into small portions if necessary
RasterPartInfo pInfo;
pInfo.nCols = viewPort->drawableAreaXDim;
pInfo.nRows = viewPort->drawableAreaYDim;
//effective oversampling factors are different to global one because of rounding
oversamplingX = (( double )pInfo.nCols * oversampling ) / viewPort->drawableAreaXDim;
oversamplingY = (( double )pInfo.nRows * oversampling ) / viewPort->drawableAreaYDim;
int totalMemoryUsage = pInfo.nCols * oversamplingX * pInfo.nRows * oversamplingY * mProvider->dataTypeSize( bandNumber );
int parts = totalMemoryUsage / 100000000 + 1;
int nPartsPerDimension = sqrt( parts );
pInfo.nColsPerPart = pInfo.nCols / nPartsPerDimension;
pInfo.nRowsPerPart = pInfo.nRows / nPartsPerDimension;
pInfo.currentCol = 0;
pInfo.currentRow = 0;
pInfo.data = 0;
pInfo.prj = 0;
mRasterPartInfos.insert( bandNumber, pInfo );
}
bool QgsRasterRenderer::readNextRasterPart( int bandNumber, double oversamplingX, double oversamplingY, QgsRasterViewPort* viewPort,
int& nCols, int& nRows, int& nColsRaster, int& nRowsRaster, void** rasterData, int& topLeftCol, int& topLeftRow )
{
if ( !viewPort )
{
return false;
}
//get partinfo
QMap<int, RasterPartInfo>::iterator partIt = mRasterPartInfos.find( bandNumber );
if ( partIt == mRasterPartInfos.end() )
{
return false;
}
RasterPartInfo& pInfo = partIt.value();
//remove last data block
CPLFree( pInfo.data );
pInfo.data = 0;
delete pInfo.prj;
pInfo.prj = 0;
//already at end
if ( pInfo.currentCol == pInfo.nCols && pInfo.currentRow == pInfo.nRows )
{
return false;
}
//read data block
nCols = qMin( pInfo.nColsPerPart, pInfo.nCols - pInfo.currentCol );
nRows = qMin( pInfo.nRowsPerPart, pInfo.nRows - pInfo.currentRow );
int typeSize = mProvider->dataTypeSize( bandNumber ) / 8;
//get subrectangle
QgsRectangle viewPortExtent = viewPort->mDrawnExtent;
double xmin = viewPortExtent.xMinimum() + pInfo.currentCol / ( double )pInfo.nCols * viewPortExtent.width();
double xmax = viewPortExtent.xMinimum() + ( pInfo.currentCol + nCols ) / ( double )pInfo.nCols * viewPortExtent.width();
double ymin = viewPortExtent.yMaximum() - ( pInfo.currentRow + nRows ) / ( double )pInfo.nRows * viewPortExtent.height();
double ymax = viewPortExtent.yMaximum() - pInfo.currentRow / ( double )pInfo.nRows * viewPortExtent.height();
QgsRectangle blockRect( xmin, ymin, xmax, ymax );
if ( viewPort->mSrcCRS.isValid() && viewPort->mDestCRS.isValid() && viewPort->mSrcCRS != viewPort->mDestCRS )
{
pInfo.prj = new QgsRasterProjector( viewPort->mSrcCRS,
viewPort->mDestCRS, blockRect, nRows, nCols, 0, 0, mProvider->extent() );
// If we zoom out too much, projector srcRows / srcCols maybe 0, which can cause problems in providers
if ( pInfo.prj->srcRows() <= 0 || pInfo.prj->srcCols() <= 0 )
{
delete pInfo.prj;
pInfo.prj = 0;
return false;
}
blockRect = pInfo.prj->srcExtent();
}
if ( pInfo.prj )
{
nColsRaster = pInfo.prj->srcCols() * oversamplingX;
nRowsRaster = pInfo.prj->srcRows() * oversamplingY;
}
else
{
nColsRaster = nCols * oversamplingX;
nRowsRaster = nRows * oversamplingY;
}
pInfo.data = VSIMalloc( typeSize * nColsRaster * nRowsRaster );
mProvider->readBlock( bandNumber, blockRect, nColsRaster, nRowsRaster, pInfo.data );
*rasterData = pInfo.data;
topLeftCol = pInfo.currentCol;
topLeftRow = pInfo.currentRow;
pInfo.currentCol += nCols;
if ( pInfo.currentCol == pInfo.nCols && pInfo.currentRow + nRows == pInfo.nRows ) //end of raster
{
pInfo.currentRow = pInfo.nRows;
}
else if ( pInfo.currentCol == pInfo.nCols ) //start new row
{
pInfo.currentCol = 0;
pInfo.currentRow += pInfo.nRowsPerPart;
}
return true;
}
void QgsRasterRenderer::stopRasterRead( int bandNumber )
{
removePartInfo( bandNumber );
}
void QgsRasterRenderer::removePartInfo( int bandNumber )
{
QMap<int, RasterPartInfo>::iterator partIt = mRasterPartInfos.find( bandNumber );
if ( partIt != mRasterPartInfos.end() )
{
RasterPartInfo& pInfo = partIt.value();
CPLFree( pInfo.data );
delete pInfo.prj;
mRasterPartInfos.remove( bandNumber );
}
}
bool QgsRasterRenderer::usesTransparency( QgsCoordinateReferenceSystem& srcSRS, QgsCoordinateReferenceSystem& dstSRS ) const
{
//transparency is always used if on-the-fly reprojection is enabled
bool reprojectionEnabled = ( srcSRS.isValid() && dstSRS.isValid() && srcSRS != dstSRS );
if ( !mProvider || reprojectionEnabled )
{
return true;
}
return ( mAlphaBand > 0 || ( mRasterTransparency && !mRasterTransparency->isEmpty( mProvider->noDataValue() ) ) || !doubleNear( mOpacity, 1.0 ) );
}
void QgsRasterRenderer::setRasterTransparency( QgsRasterTransparency* t )
{
delete mRasterTransparency;
mRasterTransparency = t;
}
void QgsRasterRenderer::drawImage( QPainter* p, QgsRasterViewPort* viewPort, const QImage& img, int topLeftCol, int topLeftRow,
int nCols, int nRows, double oversamplingX, double oversamplingY ) const
{
if ( !p || !viewPort )
{
return;
}
//get QgsRasterProjector
QgsRasterProjector* prj;
QMap<int, RasterPartInfo>::const_iterator partInfoIt = mRasterPartInfos.constBegin();
if ( partInfoIt != mRasterPartInfos.constEnd() )
{
prj = partInfoIt->prj;
}
//top left position in device coords
QPoint tlPoint = QPoint( viewPort->topLeftPoint.x() + topLeftCol, viewPort->topLeftPoint.y() + topLeftRow );
//resample and draw image
if (( mZoomedInResampler || mZoomedOutResampler ) && !doubleNear( oversamplingX, 1.0 ) && !doubleNear( oversamplingY, 1.0 ) )
{
QImage dstImg;
if ( prj )
{
dstImg = QImage( prj->srcCols(), prj->srcRows(), QImage::Format_ARGB32_Premultiplied );
}
else
{
dstImg = QImage( nCols, nRows, QImage::Format_ARGB32_Premultiplied );
}
if ( mZoomedInResampler && oversamplingX < 1.0 )
{
mZoomedInResampler->resample( img, dstImg );
}
else if ( mZoomedOutResampler && oversamplingX > 1.0 )
{
mZoomedOutResampler->resample( img, dstImg );
}
if ( prj )
{
QImage projectedImg( nCols, nRows, QImage::Format_ARGB32_Premultiplied );
projectImage( dstImg, projectedImg, prj );
p->drawImage( tlPoint, projectedImg );
}
else
{
p->drawImage( tlPoint, dstImg );
}
}
else //use original image
{
if ( prj )
{
QImage projectedImg( nCols, nRows, QImage::Format_ARGB32_Premultiplied );
projectImage( img, projectedImg, prj );
p->drawImage( tlPoint, projectedImg );
}
else
{
p->drawImage( tlPoint, img );
}
}
}
void QgsRasterRenderer::projectImage( const QImage& srcImg, QImage& dstImage, QgsRasterProjector* prj ) const
{
int nRows = dstImage.height();
int nCols = dstImage.width();
int srcRow, srcCol;
for ( int i = 0; i < nRows; ++i )
{
for ( int j = 0; j < nCols; ++j )
{
prj->srcRowCol( i, j, &srcRow, &srcCol );
dstImage.setPixel( j, i, srcImg.pixel( srcCol, srcRow ) );
}
}
}
void QgsRasterRenderer::_writeXML( QDomDocument& doc, QDomElement& rasterRendererElem ) const
{
if ( rasterRendererElem.isNull() )
{
return;
}
rasterRendererElem.setAttribute( "type", mType );
rasterRendererElem.setAttribute( "opacity", mOpacity );
rasterRendererElem.setAttribute( "alphaBand", mAlphaBand );
rasterRendererElem.setAttribute( "maxOversampling", mMaxOversampling );
rasterRendererElem.setAttribute( "invertColor", mInvertColor );
if ( mZoomedInResampler )
{
rasterRendererElem.setAttribute( "zoomedInResampler", mZoomedInResampler->type() );
}
if ( mZoomedOutResampler )
{
rasterRendererElem.setAttribute( "zoomedOutResampler", mZoomedOutResampler->type() );
}
if ( mRasterTransparency )
{
mRasterTransparency->writeXML( doc, rasterRendererElem );
}
}
void QgsRasterRenderer::readXML( const QDomElement& rendererElem )
{
if ( rendererElem.isNull() )
{
return;
}
mType = rendererElem.attribute( "type" );
mOpacity = rendererElem.attribute( "opacity", "1.0" ).toDouble();
mAlphaBand = rendererElem.attribute( "alphaBand", "-1" ).toInt();
mMaxOversampling = rendererElem.attribute( "maxOversampling", "2.0" ).toDouble();
mInvertColor = rendererElem.attribute( "invertColor", "0" ).toInt();
QString zoomedInResamplerType = rendererElem.attribute( "zoomedInResampler" );
if ( zoomedInResamplerType == "bilinear" )
{
mZoomedInResampler = new QgsBilinearRasterResampler();
}
else if ( zoomedInResamplerType == "cubic" )
{
mZoomedInResampler = new QgsCubicRasterResampler();
}
QString zoomedOutResamplerType = rendererElem.attribute( "zoomedOutResampler" );
if ( zoomedOutResamplerType == "bilinear" )
{
mZoomedOutResampler = new QgsBilinearRasterResampler();
}
//todo: read mRasterTransparency
QDomElement rasterTransparencyElem = rendererElem.firstChildElement( "rasterTransparency" );
if ( !rasterTransparencyElem.isNull() )
{
delete mRasterTransparency;
mRasterTransparency = new QgsRasterTransparency();
mRasterTransparency->readXML( rasterTransparencyElem );
}
}