Exemple #1
0
// make sure components are sane
static void
checkComponents(const OFX::Image &src,
                OFX::BitDepthEnum dstBitDepth,
                OFX::PixelComponentEnum dstComponents)
{
  OFX::BitDepthEnum      srcBitDepth     = src.getPixelDepth();
  OFX::PixelComponentEnum srcComponents  = src.getPixelComponents();

  // see if they have the same depths and bytes and all
  if(srcBitDepth != dstBitDepth || srcComponents != dstComponents)
    throw int(1); // HACK!! need to throw an sensible exception here!        
}
Exemple #2
0
        /** @brief called to process everything */
        virtual void process(void)
        {
            // If _dstImg was set, check that the _renderWindow is lying into dstBounds
            if (_dstImg) {
                const OfxRectI& dstBounds = _dstImg->getBounds();
                // is the renderWindow within dstBounds ?
                assert(dstBounds.x1 <= _renderWindow.x1 && _renderWindow.x2 <= dstBounds.x2 &&
                       dstBounds.y1 <= _renderWindow.y1 && _renderWindow.y2 <= dstBounds.y2);
                // exit gracefully in case of error
                if (!(dstBounds.x1 <= _renderWindow.x1 && _renderWindow.x2 <= dstBounds.x2 &&
                      dstBounds.y1 <= _renderWindow.y1 && _renderWindow.y2 <= dstBounds.y2) ||
                    (_renderWindow.x1 >= _renderWindow.x2) ||
                    (_renderWindow.y1 >= _renderWindow.y2)) {
                    return;
                }
            }

            // call the pre MP pass
            preProcess();

            // make sure there are at least 4096 pixels per CPU and at least 1 line par CPU
            unsigned int nCPUs = ((std::min)(_renderWindow.x2 - _renderWindow.x1, 4096) *
                                  (_renderWindow.y2 - _renderWindow.y1)) / 4096;
            // make sure the number of CPUs is valid (and use at least 1 CPU)
            nCPUs = std::max(1u, (std::min)(nCPUs, OFX::MultiThread::getNumCPUs()));

            // call the base multi threading code, should put a pre & post thread calls in too
            multiThread(nCPUs);

            // call the post MP pass
            postProcess();
        }
Exemple #3
0
    // and do some processing
    void multiThreadProcessImages(OfxRectI procWindow)
    {
        OFX::Image *srcRedImg = _srcLeftImg;
        OFX::Image *srcCyanImg = _srcRightImg;
        if (_swap) {
            std::swap(srcRedImg, srcCyanImg);
        }
        OfxRectI srcRedBounds = srcRedImg->getBounds();
        OfxRectI srcCyanBounds = srcCyanImg->getBounds();


        for (int y = procWindow.y1; y < procWindow.y2; y++) {
            if (_effect.abort()) {
                break;
            }

            PIX *dstPix = (PIX *) _dstImg->getPixelAddress(procWindow.x1, y);

            for (int x = procWindow.x1; x < procWindow.x2; x++) {
                // clamp x to avoid black borders
                int xRed = std::min(std::max(srcRedBounds.x1,x+(_offset+1)/2),srcRedBounds.x2-1);
                int xCyan = std::min(std::max(srcCyanBounds.x1,x-_offset/2),srcCyanBounds.x2-1);

                const PIX *srcRedPix = (const PIX *)(srcRedImg ? srcRedImg->getPixelAddress(xRed, y) : 0);
                const PIX *srcCyanPix = (const PIX *)(srcCyanImg ? srcCyanImg->getPixelAddress(xCyan, y) : 0);

                dstPix[3] = 0; // start with transparent
                if (srcRedPix) {
                    PIX srcLuminance = luminance(srcRedPix[0],srcRedPix[1],srcRedPix[2]);
                    dstPix[0] = srcLuminance*(1.-_amtcolour) + srcRedPix[0]*_amtcolour;
                    dstPix[3] += 0.5*srcRedPix[3];
                } else {
                    // no src pixel here, be black and transparent
                    dstPix[0] = 0;
                }
                if (srcCyanPix) {
                    PIX srcLuminance = luminance(srcCyanPix[0],srcCyanPix[1],srcCyanPix[2]);
                    dstPix[1] = srcLuminance*(1.-_amtcolour) + srcCyanPix[1]*_amtcolour;
                    dstPix[2] = srcLuminance*(1.-_amtcolour) + srcCyanPix[2]*_amtcolour;
                    dstPix[3] += 0.5*srcCyanPix[3];
                } else {
                    // no src pixel here, be black and transparent
                    dstPix[1] = 0;
                    dstPix[2] = 0;
                }

                // increment the dst pixel
                dstPix += 4;
            }
        }
    }