// override the roi call
void
BasicPlugin::getRegionsOfInterest(const OFX::RegionsOfInterestArguments &args, OFX::RegionOfInterestSetter &rois)
{
// we don't actually need to do this as this is the default, but do it for examples sake
rois.setRegionOfInterest(*srcClip_, args.regionOfInterest);
// set it on the mask only if we are in an interesting context
if(getContext() != OFX::eContextFilter)
rois.setRegionOfInterest(*maskClip_, args.regionOfInterest);
}
void ImageStatisticsPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
ImageStatisticsProcessParams params = getProcessParams( args.time, args.renderScale );
if( params._chooseOutput == eParamChooseOutputSource )
{
// In that case we need the full image input...
// Not to compute statistics, but to copy the image.
return;
}
OfxRectI inputRoi = params._rect; // we need the selected rectangle
OfxRectD inputRoi_d = rectIntToDouble( inputRoi );
rois.setRegionOfInterest( *_clipSrc, inputRoi_d );
rois.setRegionOfInterest( *_clipMask, inputRoi_d );
}
void ThinningPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
const OfxRectD srcRod = _clipSrc->getCanonicalRod( args.time );
const OfxRectD srcRoi = rectangleGrow( srcRod, 2 );
rois.setRegionOfInterest( *_clipSrc, srcRoi );
}
void ColorTransferPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
if( _clipSrcRef->isConnected() )
{
OfxRectD srcRod = args.regionOfInterest;
rois.setRegionOfInterest( *this->_clipSrc, srcRod );
}
else
{
OfxRectD srcRod = _clipSrc->getCanonicalRod( args.time );
rois.setRegionOfInterest( *this->_clipSrc, srcRod );
}
OfxRectD srcRefRod = _clipSrcRef->getCanonicalRod( args.time );
rois.setRegionOfInterest( *_clipSrcRef, srcRefRod );
OfxRectD dstRefRod = _clipDstRef->getCanonicalRod( args.time );
rois.setRegionOfInterest( *_clipDstRef, dstRefRod );
}
void NormalizePlugin::getRegionsOfInterest(const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois)
{
NormalizeProcessParams<Scalar> params = getProcessParams();
OfxRectD srcRod = _clipSrc->getCanonicalRod(args.time);
switch(params._mode)
{
case eParamModeAnalyse:
{
// in this case, we need the full input image to do the analyse.
rois.setRegionOfInterest(*_clipSrc, srcRod);
break;
}
case eParamModeCustom:
{
rois.setRegionOfInterest(*_clipSrc, args.regionOfInterest);
break;
}
}
}
void ImageStatisticsPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
OfxRectI srcRealRoi = getProcessParams( _clipSrc->getPixelRod( args.time ) )._rect; // we need the selected rectangle
OfxRectD srcRealRoiD;
srcRealRoiD.x1 = srcRealRoi.x1;
srcRealRoiD.y1 = srcRealRoi.y1;
srcRealRoiD.x2 = srcRealRoi.x2;
srcRealRoiD.y2 = srcRealRoi.y2;
// TUTTLE_COUT_VAR( srcRealRoiD );
rois.setRegionOfInterest( *_clipSrc, srcRealRoiD );
}
void ConvolutionPlugin::getRegionsOfInterest(const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois)
{
OfxRectD srcRoi = args.regionOfInterest;
const OfxPointI size = _paramSize->getValue();
OfxPointD halfSize;
halfSize.x = size.x * 0.5;
halfSize.y = size.y * 0.5;
srcRoi.x1 -= halfSize.x;
srcRoi.x2 += halfSize.x;
srcRoi.y1 -= halfSize.y;
srcRoi.y2 += halfSize.y;
rois.setRegionOfInterest(*_clipSrc, srcRoi);
}
void FlipPlugin::getRegionsOfInterest(const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois)
{
// FlipProcessParams params = getProcessParams( args.time, args.renderScale );
// if( params.flip )
// {
// /// @todo needs to transform args.regionOfInterest, like in the compute function
// }
// if( params.flop )
// {
// /// @todo needs to transform args.regionOfInterest, like in the compute function
// }
OfxRectD srcRod = _clipSrc->getCanonicalRod(args.time);
rois.setRegionOfInterest(*this->_clipSrc, srcRod);
}
void PushPixelPlugin::getRegionsOfInterest(const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois)
{
OfxRectD srcRod = _clipSrc->getCanonicalRod(args.time);
// OfxRectD dstRod = _clipDst->getCanonicalRod( args.time );
if(_clipMask->isConnected())
{
PushPixelProcessParams<Scalar> params(getProcessParams());
// OfxRectD maskRod = _clipMask->getCanonicalRod( args.time );
double maxKernelTL = std::max(params._kernelGaussian.left_size(), params._kernelGaussianDerivative.left_size());
double maxKernelBR = std::max(params._kernelGaussian.right_size(), params._kernelGaussianDerivative.right_size());
OfxRectD maskRoi;
maskRoi.x1 = args.regionOfInterest.x1 - (maxKernelTL * _clipMask->getPixelAspectRatio());
maskRoi.y1 = args.regionOfInterest.y1 - maxKernelTL;
maskRoi.x2 = args.regionOfInterest.x2 + (maxKernelBR * _clipMask->getPixelAspectRatio());
maskRoi.y2 = args.regionOfInterest.y2 + maxKernelBR;
rois.setRegionOfInterest(*_clipMask, maskRoi);
}
// no tiles on src clip, because it depends on the mask content so we can't
// define the maximal bounding box needed...
rois.setRegionOfInterest(*_clipSrc, srcRod);
}
void LensDistortPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
OfxRectD srcRod = _clipSrc->getCanonicalRod( args.time );
OfxRectD dstRod = _clipDst->getCanonicalRod( args.time );
LensDistortProcessParams<Scalar> params;
if( _srcRefClip->isConnected() )
{
OfxRectD srcRefRod = _srcRefClip->getCanonicalRod( args.time );
params = getProcessParams( srcRod, dstRod, srcRefRod, _clipDst->getPixelAspectRatio() );
}
else
{
params = getProcessParams( srcRod, dstRod, _clipDst->getPixelAspectRatio() );
}
OfxRectD outputRoi = args.regionOfInterest;
outputRoi.x1 -= dstRod.x1; // to dest rod coordinates
outputRoi.y1 -= dstRod.y1;
outputRoi.x2 -= dstRod.x1;
outputRoi.y2 -= dstRod.y1;
OfxRectD srcRoi = transformValues( getLensType(), params, outputRoi );
srcRoi.x1 += srcRod.x1; // to RoW coordinates
srcRoi.y1 += srcRod.y1;
srcRoi.x2 += srcRod.x1;
srcRoi.y2 += srcRod.y1;
outputRoi.x1 += dstRod.x1; // to RoW coordinates
outputRoi.y1 += dstRod.y1;
outputRoi.x2 += dstRod.x1;
outputRoi.y2 += dstRod.y1;
// srcRoi.x1 += 2; // if we remove 2 pixels to the needed RoI the plugin crash, because it tries to access to this pixels
// srcRoi.y1 += 2; // so the calcul of the RoI has a precision of one pixel
// srcRoi.x2 -= 2;
// srcRoi.y2 -= 2;
OfxRectD srcRealRoi = rectanglesIntersection( srcRoi, srcRod );
srcRealRoi = srcRod;
rois.setRegionOfInterest( *_clipSrc, srcRealRoi );
if( _debugDisplayRoi->getValue() )
{
_srcRealRoi = srcRealRoi;
_srcRoi = srcRoi;
_dstRoi = outputRoi;
}
}
void SobelPlugin::getRegionsOfInterest( const OFX::RegionsOfInterestArguments& args, OFX::RegionOfInterestSetter& rois )
{
SobelProcessParams<Scalar> params = getProcessParams();
OfxRectD srcRod = _clipSrc->getCanonicalRod( args.time );
OfxRectD marge;
marge.x1 = std::max( params._xKernelGaussianDerivative.left_size(), params._yKernelGaussian.left_size() );
marge.y1 = std::max( params._xKernelGaussian.left_size(), params._yKernelGaussianDerivative.left_size() );
marge.x2 = std::max( params._xKernelGaussianDerivative.right_size(), params._yKernelGaussian.right_size() );
marge.y2 = std::max( params._xKernelGaussian.right_size(), params._yKernelGaussianDerivative.right_size() );
switch( params._pass )
{
case eParamPass1:
{
marge.y1 = 0;
marge.y2 = 0;
break;
}
case eParamPass2:
{
marge.x1 = 0;
marge.x2 = 0;
break;
}
case eParamPassFull:
{
break;
}
}
OfxRectD srcRoi;
srcRoi.x1 = srcRod.x1 - marge.x1;
srcRoi.y1 = srcRod.y1 - marge.y1;
srcRoi.x2 = srcRod.x2 + marge.x2;
srcRoi.y2 = srcRod.y2 + marge.y2;
rois.setRegionOfInterest( *_clipSrc, srcRoi );
}
