OfxRectD CropPlugin::getCropRect( const OfxRectD& rod, const double par ) { OfxRectD rect; OFX::IntParam* upBand = fetchIntParam( kParamUp ); OFX::IntParam* downBand = fetchIntParam( kParamDown ); OFX::IntParam* leftBand = fetchIntParam( kParamLeft ); OFX::IntParam* rightBand = fetchIntParam( kParamRight ); rect.x1 = par * leftBand->getValue(); rect.x2 = rod.x2 - par* rightBand->getValue(); rect.y1 = downBand->getValue(); rect.y2 = rod.y2 - upBand->getValue(); return rect; }
void WriteOIIOPlugin::encode(const std::string& filename, OfxTime time, const float *pixelData, const OfxRectI& bounds, OFX::PixelComponentEnum pixelComponents, int rowBytes) { if (pixelComponents != OFX::ePixelComponentRGBA && pixelComponents != OFX::ePixelComponentRGB && pixelComponents != OFX::ePixelComponentAlpha) { setPersistentMessage(OFX::Message::eMessageError, "", "OIIO: can only write RGBA, RGB or Alpha components images"); OFX::throwSuiteStatusException(kOfxStatErrFormat); } int numChannels; switch(pixelComponents) { case OFX::ePixelComponentRGBA: numChannels = 4; break; case OFX::ePixelComponentRGB: numChannels = 3; break; case OFX::ePixelComponentAlpha: numChannels = 1; break; default: OFX::throwSuiteStatusException(kOfxStatErrFormat); } std::auto_ptr<ImageOutput> output(ImageOutput::create(filename)); if (!output.get()) { // output is NULL setPersistentMessage(OFX::Message::eMessageError, "", std::string("Cannot create output file ")+filename); return; } OpenImageIO::TypeDesc oiioBitDepth; //size_t sizeOfChannel = 0; int bitsPerSample = 0; int finalBitDepth_i; _bitDepth->getValue(finalBitDepth_i); ETuttlePluginBitDepth finalBitDepth = getDefaultBitDepth(filename,(ETuttlePluginBitDepth)finalBitDepth_i); switch (finalBitDepth) { case eTuttlePluginBitDepthAuto: OFX::throwSuiteStatusException(kOfxStatErrUnknown); case eTuttlePluginBitDepth8: oiioBitDepth = TypeDesc::UINT8; bitsPerSample = 8; //sizeOfChannel = 1; break; case eTuttlePluginBitDepth10: oiioBitDepth = TypeDesc::UINT16; bitsPerSample = 10; //sizeOfChannel = 2; break; case eTuttlePluginBitDepth12: oiioBitDepth = TypeDesc::UINT16; bitsPerSample = 12; //sizeOfChannel = 2; break; case eTuttlePluginBitDepth16: oiioBitDepth = TypeDesc::UINT16; bitsPerSample = 16; //sizeOfChannel = 2; break; case eTuttlePluginBitDepth16f: oiioBitDepth = TypeDesc::HALF; bitsPerSample = 16; //sizeOfChannel = 2; break; case eTuttlePluginBitDepth32: oiioBitDepth = TypeDesc::UINT32; bitsPerSample = 32; //sizeOfChannel = 4; break; case eTuttlePluginBitDepth32f: oiioBitDepth = TypeDesc::FLOAT; bitsPerSample = 32; //sizeOfChannel = 4; break; case eTuttlePluginBitDepth64: oiioBitDepth = TypeDesc::UINT64; bitsPerSample = 64; //sizeOfChannel = 8; break; case eTuttlePluginBitDepth64f: oiioBitDepth = TypeDesc::DOUBLE; bitsPerSample = 64; //sizeOfChannel = 8; break; } ImageSpec spec (bounds.x2 - bounds.x1, bounds.y2 - bounds.y1, numChannels, oiioBitDepth); bool premultiply; _premult->getValue(premultiply); int quality; _quality->getValue(quality); int orientation; _orientation->getValue(orientation); int compression_i; _compression->getValue(compression_i); std::string compression; switch ((EParamCompression)compression_i) { case eParamCompressionAuto: break; case eParamCompressionNone: // EXR, TIFF, IFF compression = "none"; break; case eParamCompressionZip: // EXR, TIFF, Zfile compression = "zip"; break; case eParamCompressionZips: // EXR compression = "zips"; break; case eParamCompressionRle: // DPX, IFF, EXR, TGA, RLA compression = "rle"; case eParamCompressionPiz: // EXR compression = "piz"; break; case eParamCompressionPxr24: // EXR compression = "pxr24"; break; case eParamCompressionB44: // EXR compression = "b44"; break; case eParamCompressionB44a: // EXR compression = "b44a"; break; case eParamCompressionLZW: // TIFF compression = "lzw"; break; case eParamCompressionCCITTRLE: // TIFF compression = "ccittrle"; break; case eParamCompressionPACKBITS: // TIFF compression = "packbits"; break; } spec.attribute("oiio:BitsPerSample", bitsPerSample); spec.attribute("oiio:UnassociatedAlpha", premultiply); #ifdef OFX_IO_USING_OCIO std::string ocioColorspace = _ocio->getOutputColorspace(time); float gamma = 0.; std::string colorSpaceStr; if (ocioColorspace == "Gamma1.8") { // Gamma1.8 in nuke-default colorSpaceStr = "GammaCorrected"; gamma = 1.8; } else if (ocioColorspace == "Gamma2.2" || ocioColorspace == "vd8" || ocioColorspace == "vd10" || ocioColorspace == "vd16") { // Gamma2.2 in nuke-default // vd8, vd10, vd16 in spi-anim and spi-vfx colorSpaceStr = "GammaCorrected"; gamma = 2.2; } else if (ocioColorspace == "sRGB" || ocioColorspace == "rrt_srgb" || ocioColorspace == "srgb8") { // sRGB in nuke-default // rrt_srgb in aces // srgb8 in spi-vfx colorSpaceStr = "sRGB"; } else if (ocioColorspace == "Rec709" || ocioColorspace == "rrt_rec709" || ocioColorspace == "hd10") { // Rec709 in nuke-default // rrt_rec709 in aces // hd10 in spi-anim and spi-vfx colorSpaceStr = "Rec709"; } else if(ocioColorspace == "KodakLog" || ocioColorspace == "Cineon" || ocioColorspace == "lg10") { // Cineon in nuke-default // lg10 in spi-vfx colorSpaceStr = "KodakLog"; } else if(ocioColorspace == "Linear" || ocioColorspace == "linear" || ocioColorspace == "aces" || ocioColorspace == "lnf" || ocioColorspace == "ln16") { // linear in nuke-default // aces in aces // lnf, ln16 in spi-anim and spi-vfx colorSpaceStr = "Linear"; } else if(ocioColorspace == "raw" || ocioColorspace == "ncf") { // raw in nuke-default // raw in aces // ncf in spi-anim and spi-vfx // leave empty } else { //unknown color-space, don't do anything } if (!colorSpaceStr.empty()) { spec.attribute("oiio:ColorSpace", colorSpaceStr); } if (gamma != 0.) { spec.attribute("oiio:Gamma", gamma); } #endif spec.attribute("CompressionQuality", quality); spec.attribute("Orientation", orientation + 1); if (!compression.empty()) { // some formats have a good value for the default compression spec.attribute("compression", compression); } // by default, the channel names are R, G, B, A, which is OK except for Alpha images if (pixelComponents == OFX::ePixelComponentAlpha) { spec.channelnames.clear(); spec.channelnames.push_back ("A"); spec.alpha_channel = 0; } bool supportsRectangles = output->supports("rectangles"); if (supportsRectangles) { spec.x = bounds.x1; spec.y = bounds.y1; spec.full_x = bounds.x1; spec.full_y = bounds.y1; } if (!output->open(filename, spec)) { setPersistentMessage(OFX::Message::eMessageError, "", output->geterror()); OFX::throwSuiteStatusException(kOfxStatFailed); } if (supportsRectangles) { output->write_rectangle(spec.x, //xmin spec.x + spec.width, //xmax spec.y, //ymin spec.y + spec.height, //ymax 0, //zmin 1, //zmax TypeDesc::FLOAT, //datatype (char*)pixelData + (spec.height - 1) * rowBytes, //invert y AutoStride, //xstride -rowBytes, //ystride AutoStride //zstride ); } else { output->write_image(TypeDesc::FLOAT, (char*)pixelData + (spec.height - 1) * rowBytes, //invert y AutoStride, //xstride -rowBytes, //ystride AutoStride //zstride ); } output->close(); }