/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void TimeShiftPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); switch( context ) { case OFX::eContextRetimer: { OFX::DoubleParamDescriptor* retimerParam = desc.defineDoubleParam( kOfxImageEffectRetimerParamName ); retimerParam->setLabel( "Source Time" ); retimerParam->setDefault( 0.0 ); break; } default: { OFX::DoubleParamDescriptor* offset = desc.defineDoubleParam( kParamOffset ); offset->setLabel( "Offset" ); offset->setDefault( 0.0 ); offset->setDisplayRange( -10, 10 ); break; } } }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void TextPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::StringParamDescriptor* text = desc.defineStringParam( kText ); text->setLabel( "Text" ); text->setStringType( OFX::eStringTypeMultiLine ); OFX::StringParamDescriptor* font = desc.defineStringParam( kFont ); font->setLabel( "Font file" ); font->setStringType( OFX::eStringTypeFilePath ); font->setDefault( "/usr/share/fonts/truetype/msttcorefonts/arial.ttf" ); OFX::IntParamDescriptor* size = desc.defineIntParam( kSize ); size->setLabel( "Size" ); size->setDefault( 18 ); size->setRange( 0, std::numeric_limits<int>::max() ); size->setDisplayRange( 0, 60 ); OFX::DoubleParamDescriptor* ratio = desc.defineDoubleParam( kRatio ); ratio->setLabel( "Ratio" ); ratio->setRange( 0.0, std::numeric_limits<double>::max() ); ratio->setDisplayRange( 0.0, 2.0 ); ratio->setDefault( 1.0 ); OFX::RGBAParamDescriptor* color = desc.defineRGBAParam( kColor ); color->setLabel( "Color" ); color->setDefault( 1.0, 1.0, 1.0, 1.0 ); OFX::Double2DParamDescriptor* position = desc.defineDouble2DParam( kPosition ); position->setLabel( "Position" ); position->setDefault( 0.0, 0.0 ); OFX::DoubleParamDescriptor* letterSpacing = desc.defineDoubleParam( kLetterSpacing ); letterSpacing->setLabel( "Letter spacing" ); letterSpacing->setDisplayRange( -10.0, 10.0 ); letterSpacing->setDefault( 0.0 ); OFX::BooleanParamDescriptor* verticalFlip = desc.defineBooleanParam( kVerticalFlip ); verticalFlip->setLabel( "Vertical flip" ); verticalFlip->setDefault( false ); verticalFlip->setAnimates( false ); verticalFlip->setHint( "Some hosts use inverted images, so you can correct this problem using this flag." ); }
void OFX::shutterDescribeInContext(OFX::ImageEffectDescriptor &desc, OFX::ContextEnum /*context*/, OFX::PageParamDescriptor* page) { // shutter { DoubleParamDescriptor* param = desc.defineDoubleParam(kParamShutter); param->setLabel(kParamShutterLabel); param->setHint(kParamShutterHint); param->setDefault(0.5); param->setRange(0., 2.); param->setIncrement(0.01); param->setDisplayRange(0., 2.); if (page) { page->addChild(*param); } } // shutteroffset { ChoiceParamDescriptor* param = desc.defineChoiceParam(kParamShutterOffset); param->setLabel(kParamShutterOffsetLabel); param->setHint(kParamShutterOffsetHint); assert(param->getNOptions() == eShutterOffsetCentered); param->appendOption(kParamShutterOffsetOptionCentered, kParamShutterOffsetOptionCenteredHint); assert(param->getNOptions() == eShutterOffsetStart); param->appendOption(kParamShutterOffsetOptionStart, kParamShutterOffsetOptionStartHint); assert(param->getNOptions() == eShutterOffsetEnd); param->appendOption(kParamShutterOffsetOptionEnd, kParamShutterOffsetOptionEndHint); assert(param->getNOptions() == eShutterOffsetCustom); param->appendOption(kParamShutterOffsetOptionCustom, kParamShutterOffsetOptionCustomHint); param->setAnimates(true); param->setDefault(eShutterOffsetStart); if (page) { page->addChild(*param); } } // shuttercustomoffset { DoubleParamDescriptor* param = desc.defineDoubleParam(kParamShutterCustomOffset); param->setLabel(kParamShutterCustomOffsetLabel); param->setHint(kParamShutterCustomOffsetHint); param->setDefault(0.); param->setRange(-1., 1.); param->setIncrement(0.1); param->setDisplayRange(-1., 1.); if (page) { page->addChild(*param); } } } // shutterDescribeInContext
void CrossFadeExamplePluginFactory::describeInContext(OFX::ImageEffectDescriptor &desc, ContextEnum /*context*/) { // we are a transition, so define the sourceFrom input clip ClipDescriptor *fromClip = desc.defineClip(kOfxImageEffectTransitionSourceFromClipName); fromClip->addSupportedComponent(ePixelComponentRGBA); fromClip->addSupportedComponent(ePixelComponentAlpha); fromClip->setTemporalClipAccess(false); fromClip->setSupportsTiles(true); // we are a transition, so define the sourceTo input clip ClipDescriptor *toClip = desc.defineClip(kOfxImageEffectTransitionSourceToClipName); toClip->addSupportedComponent(ePixelComponentRGBA); toClip->addSupportedComponent(ePixelComponentAlpha); toClip->setTemporalClipAccess(false); toClip->setSupportsTiles(true); // create the mandated output clip ClipDescriptor *dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(ePixelComponentRGBA); dstClip->addSupportedComponent(ePixelComponentAlpha); dstClip->setSupportsTiles(true); // Define the mandated "Transition" param, note that we don't do anything with this other than. // describe it. It is not a true param but how the host indicates to the plug-in how far through // the transition it is. It appears on no plug-in side UI, it is purely the hosts to manage. DoubleParamDescriptor *param = desc.defineDoubleParam("Transition"); (void)param; }
/** @brief describe a double param */ void describeDoubleParam(OFX::ImageEffectDescriptor &desc, const std::string &name, DoubleTypeEnum doubleType, double min, double max, PageParamDescriptor *page) { DoubleParamDescriptor *param = desc.defineDoubleParam(name); param->setLabels(name, name, name); param->setScriptName(name); param->setHint("A double parameter"); param->setDefault(0); param->setRange(min, max); param->setDisplayRange(min, max); param->setDoubleType(doubleType); page->addChild(*param); }
void NoiseExamplePluginFactory::describeInContext(OFX::ImageEffectDescriptor &desc, ContextEnum context) { ClipDescriptor *dstClip = desc.defineClip("Output"); dstClip->addSupportedComponent(ePixelComponentRGBA); dstClip->addSupportedComponent(ePixelComponentAlpha); dstClip->setSupportsTiles(true); dstClip->setFieldExtraction(eFieldExtractSingle); DoubleParamDescriptor *param = desc.defineDoubleParam("Noise"); param->setLabels("noise", "noise", "noise"); param->setScriptName("noise"); param->setHint("How much noise to make."); param->setDefault(0.2); param->setRange(0, 10); param->setIncrement(0.1); param->setDisplayRange(0, 1); param->setAnimates(true); // can animate param->setDoubleType(eDoubleTypeScale); PageParamDescriptor *page = desc.definePageParam("Controls"); page->addChild(*param); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void ConvolutionPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::Int2DParamDescriptor* size = desc.defineInt2DParam( kParamSize ); size->setLabel( "Size" ); size->setDefault( 3, 3 ); // size->setIncrement( 2, 2 ); size->setRange( 3, 3, kParamSizeMax, kParamSizeMax ); OFX::ChoiceParamDescriptor* border = desc.defineChoiceParam( kParamBorder ); border->setLabel( "Border" ); border->appendOption( kParamBorderMirror ); border->appendOption( kParamBorderConstant ); border->appendOption( kParamBorderBlack ); border->appendOption( kParamBorderPadded ); for( unsigned int y = 0; y < kParamSizeMax; ++y ) { for( unsigned int x = 0; x < kParamSizeMax; ++x ) { const std::string name( getCoefName( y, x ) ); OFX::DoubleParamDescriptor* coef = desc.defineDoubleParam( name ); coef->setLabel( name ); coef->setDisplayRange( -10.0, 10.0 ); coef->setDefault( 0.0 ); } } }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void ColorTransferPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); // srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( true ); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); // dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( true ); OFX::ClipDescriptor* srcRefClip = desc.defineClip( kClipSrcRef ); srcRefClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcRefClip->addSupportedComponent( OFX::ePixelComponentRGB ); // srcRefClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcRefClip->setSupportsTiles( false ); srcRefClip->setOptional( true ); OFX::ClipDescriptor* dstRefClip = desc.defineClip( kClipDstRef ); dstRefClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstRefClip->addSupportedComponent( OFX::ePixelComponentRGB ); // dstRefClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstRefClip->setSupportsTiles( false ); OFX::ChoiceParamDescriptor* colorspace = desc.defineChoiceParam( kParamColorspace ); colorspace->setLabel( "Transformation colorspace" ); colorspace->setHint( "Select colorspace in which to apply the transformation" ); colorspace->appendOption( kParamColorspaceNone, "without colorspace transformation" ); colorspace->appendOption( kParamColorspaceLMS, "apply correction in LMS colorspace" ); colorspace->appendOption( kParamColorspaceLab, "apply correction in L(alpha)(beta) colorspace" ); colorspace->setDefault( eColorspaceLab ); OFX::DoubleParamDescriptor* averageCoef = desc.defineDoubleParam( kParamAverageCoef ); averageCoef->setLabel( "Average color coef" ); averageCoef->setDisplayRange( 0.0, 1.0 ); averageCoef->setDefault( 0.8 ); averageCoef->setHint( "Percentage of correction of the average color.\n" "It is often advantageous to reduce this ratio, " "especially if the two images are very different. " "Typical values are between 0.5 and 0.8." ); OFX::DoubleParamDescriptor* dynamicCoef = desc.defineDoubleParam( kParamDynamicCoef ); dynamicCoef->setLabel( "Dynamic coef" ); dynamicCoef->setDisplayRange( 0.0, 1.0 ); dynamicCoef->setDefault( 1.0 ); dynamicCoef->setHint( "Percentage of correction of the standard deviation." ); // // output region // OFX::Double2DParamDescriptor* regionA = desc.defineDouble2DParam( kParamRegionA ); // regionA->setLabel( "Region" ); // regionA->setDefault( -0.5, -0.5 ); // regionA->setIsSecret( true ); ///< @todo // OFX::Double2DParamDescriptor* regionB = desc.defineDouble2DParam( kParamRegionB ); // regionB->setLabel( "" ); // regionB->setDefault( 0.5, 0.5 ); // regionB->setIsSecret( true ); ///< @todo // // // same region // OFX::BooleanParamDescriptor* sameRegion = desc.defineBooleanParam( kParamSameRegion ); // sameRegion->setDefault( true ); // sameRegion->setIsSecret( true ); ///< @todo // // // input region // OFX::Double2DParamDescriptor* inputRegionA = desc.defineDouble2DParam( kParamInputRegionA ); // inputRegionA->setLabel( "Input region" ); // inputRegionA->setDefault( -0.5, -0.5 ); // inputRegionA->setIsSecret( true ); ///< @todo // OFX::Double2DParamDescriptor* inputRegionB = desc.defineDouble2DParam( kParamInputRegionB ); // inputRegionB->setLabel( "" ); // inputRegionB->setDefault( 0.5, 0.5 ); // inputRegionB->setIsSecret( true ); ///< @todo }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void TextPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); srcClip->setOptional(true); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::StringParamDescriptor* text = desc.defineStringParam( kParamText ); text->setLabel( "Text" ); text->setStringType( OFX::eStringTypeMultiLine ); OFX::BooleanParamDescriptor* isExpression = desc.defineBooleanParam( kParamIsExpression ); isExpression->setLabel( "Expression" ); isExpression->setHint( "If you check this parameter the text must be a python code.\n" "The final result must be in a variable with the name of the parameter.\n" "Example:\n" "from math import *\n" //+ kParamText + "text = 'At frame '+str(time)+', value is ' + str( sin(time) )\n" ); isExpression->setDefault( false ); OFX::StringParamDescriptor* font = desc.defineStringParam( kParamFont ); font->setLabel( "Font file" ); font->setStringType( OFX::eStringTypeFilePath ); font->setDefault( "/usr/share/fonts/truetype/msttcorefonts/arial.ttf" ); OFX::IntParamDescriptor* size = desc.defineIntParam( kParamSize ); size->setLabel( "Size" ); size->setDefault( 18 ); size->setRange( 0, std::numeric_limits<int>::max() ); size->setDisplayRange( 0, 60 ); OFX::DoubleParamDescriptor* ratio = desc.defineDoubleParam( kParamRatio ); ratio->setLabel( "Ratio" ); ratio->setRange( 0.0, std::numeric_limits<double>::max() ); ratio->setDisplayRange( 0.0, 2.0 ); ratio->setDefault( 1.0 ); OFX::RGBAParamDescriptor* color = desc.defineRGBAParam( kParamColor ); color->setLabel( "Color" ); color->setDefault( 1.0, 1.0, 1.0, 1.0 ); OFX::Double2DParamDescriptor* position = desc.defineDouble2DParam( kParamPosition ); position->setLabel( "Position" ); position->setDefault( 0.0, 0.0 ); OFX::DoubleParamDescriptor* letterSpacing = desc.defineDoubleParam( kParamLetterSpacing ); letterSpacing->setLabel( "Letter spacing" ); letterSpacing->setDisplayRange( -10.0, 10.0 ); letterSpacing->setDefault( 0.0 ); OFX::ChoiceParamDescriptor* vAlign = desc.defineChoiceParam( kParamVAlign ); vAlign->setLabel( "Vertically align" ); vAlign->appendOption( kParamVAlignTop ); vAlign->appendOption( kParamVAlignCenter ); vAlign->appendOption( kParamVAlignBottom ); vAlign->setDefault( eParamVAlignCenter ); OFX::ChoiceParamDescriptor* hAlign = desc.defineChoiceParam( kParamHAlign ); hAlign->setLabel( "Horizontally align" ); hAlign->appendOption( kParamHAlignLeft ); hAlign->appendOption( kParamHAlignCenter ); hAlign->appendOption( kParamHAlignRight ); hAlign->setDefault( eParamHAlignCenter ); OFX::BooleanParamDescriptor* verticalFlip = desc.defineBooleanParam( kParamVerticalFlip ); verticalFlip->setLabel( "Vertical flip" ); verticalFlip->setDefault( false ); verticalFlip->setAnimates( false ); verticalFlip->setHint( "Some hosts use inverted images, so you can correct this problem using this flag." ); }
void LensCalibrationPluginFactory::describeInContext(OFX::ImageEffectDescriptor& desc, OFX::ContextEnum context) { //Input Clip OFX::ClipDescriptor *srcClip = desc.defineClip(kOfxImageEffectSimpleSourceClipName); srcClip->addSupportedComponent(OFX::ePixelComponentRGBA); srcClip->setTemporalClipAccess(false); srcClip->setSupportsTiles(false); srcClip->setIsMask(false); srcClip->setOptional(false); //Output clip OFX::ClipDescriptor *dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(OFX::ePixelComponentRGBA); dstClip->setSupportsTiles(false); //Calibration Group { OFX::GroupParamDescriptor *groupCalibration = desc.defineGroupParam(kParamGroupCalibration); groupCalibration->setLabel("Calibration"); groupCalibration->setAsTab(); { OFX::Int2DParamDescriptor *param = desc.defineInt2DParam(kParamImageSize); param->setLabel("Image Size"); param->setHint("Input image size used to calibrate the optics. Obviously, all images should have the same size."); param->setDefault(0, 0); param->setDisplayRange(0, 0, 10000, 10000); param->setAnimates(false); param->setParent(*groupCalibration); param->setEnabled(false); // should not be edited by the user } { OFX::BooleanParamDescriptor *param = desc.defineBooleanParam(kParamInputImageIsGray); param->setLabel("Input image is gray"); param->setHint("Input image is gray"); param->setParent(*groupCalibration); } { OFX::ChoiceParamDescriptor *param = desc.defineChoiceParam(kParamPatternType); param->setLabel("Pattern Type"); param->setHint("Type of pattern to detect"); param->appendOptions(kStringParamPatternType); param->setDefault(eParamPatternTypeChessboard); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::Int2DParamDescriptor *param = desc.defineInt2DParam(kParamPatternSize); param->setLabel("Pattern Size"); param->setHint("Number of inner corners per one of board dimension Width Height"); param->setDefault(10, 7); param->setRange(2, 2, kOfxFlagInfiniteMax, kOfxFlagInfiniteMax); param->setDisplayRange(2, 2, 15, 15); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamSquareSize); param->setLabel("Square Size"); param->setHint("Define the size of the grid's square cells (mm)"); param->setDisplayRange(0, 100); param->setDefault(1); param->setAnimates(false); param->setParent(*groupCalibration); param->setLayoutHint(OFX::eLayoutHintDivider); } { OFX::IntParamDescriptor *param = desc.defineIntParam(kParamNbRadialCoef); param->setLabel("Nb Radial Coef"); param->setHint("Number of radial coefficient."); param->setRange(0, 6); param->setDisplayRange(0, 6); param->setDefault(3); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::IntParamDescriptor *param = desc.defineIntParam(kParamMaxFrames); param->setLabel("Max Frames"); param->setHint("Maximal number of frames to extract from the video file."); param->setRange(0, kOfxFlagInfiniteMax); param->setDisplayRange(0, 1000); param->setDefault(0); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::IntParamDescriptor *param = desc.defineIntParam(kParamMaxCalibFrames); param->setLabel("Max Calibration Frames"); param->setHint("Maximal number of frames to use to calibrate from the selected frames."); param->setRange(0, kOfxFlagInfiniteMax); param->setDisplayRange(0, 1000); param->setDefault(100); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::IntParamDescriptor *param = desc.defineIntParam(kParamCalibGridSize); param->setLabel("Max Calibration Grid Size"); param->setHint("Define the number of cells per edge."); param->setRange(0, kOfxFlagInfiniteMax); param->setDisplayRange(0, 100); param->setDefault(10); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::IntParamDescriptor *param = desc.defineIntParam(kParamMinInputFrames); param->setLabel("Min Input Frames"); param->setHint("Minimal number of frames to limit the calibration refinement loop."); param->setRange(0, kOfxFlagInfiniteMax); param->setDisplayRange(0, 1000); param->setDefault(10); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamMaxTotalAvgErr); param->setLabel("Max Total Average Error"); param->setHint("Maximal limit of the total average error"); param->setRange(0, 1); param->setDisplayRange(0, 1); param->setDefault(0.1); param->setAnimates(false); param->setParent(*groupCalibration); } { OFX::PushButtonParamDescriptor *param = desc.definePushButtonParam(kParamCalibrate); param->setLabel("Calibrate"); param->setHint("calibrate"); param->setParent(*groupCalibration); } } //Output Group { OFX::GroupParamDescriptor *groupOutput = desc.defineGroupParam(kParamGroupOutput); groupOutput->setLabel("Output"); groupOutput->setAsTab(); { OFX::BooleanParamDescriptor *param = desc.defineBooleanParam(kParamOutputIsCalibrated); param->setLabel("Is calibrated"); param->setHint("Is calibrated"); param->setParent(*groupOutput); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputAvgReprojErr); param->setLabel("Average Reprojection Error"); param->setDisplayRange(0, 10); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(true); param->setParent(*groupOutput); param->setLayoutHint(OFX::eLayoutHintDivider); } { OFX::GroupParamDescriptor *groupCamera = desc.defineGroupParam(kParamOutputCameraGroup); groupCamera->setLabel("Intrinsics Camera Parameters"); groupCamera->setParent(*groupOutput); groupCamera->setOpen(true); { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputFocalLenght); param->setLabel("Focal Length"); param->setDisplayRange(1, 100); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupCamera); } { OFX::Double2DParamDescriptor *param = desc.defineDouble2DParam(kParamOutputPrincipalPointOffset); param->setLabel("Principal Point"); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupCamera); } } { OFX::GroupParamDescriptor *groupLensDistortion = desc.defineGroupParam(kParamOutputLensDistortionGroup); groupLensDistortion->setLabel("Lens Distortion Coefficients"); groupLensDistortion->setParent(*groupOutput); groupLensDistortion->setOpen(true); { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputRadialCoef1); param->setLabel("Radial Coef1"); param->setDisplayRange(0, 10); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupLensDistortion); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputRadialCoef2); param->setLabel("Radial Coef2"); param->setDisplayRange(0, 10); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupLensDistortion); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputRadialCoef3); param->setLabel("Radial Coef3"); param->setDisplayRange(0, 10); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupLensDistortion); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputTangentialCoef1); param->setLabel("Tangential Coef1"); param->setDisplayRange(0, 10); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupLensDistortion); } { OFX::DoubleParamDescriptor *param = desc.defineDoubleParam(kParamOutputTangentialCoef2); param->setLabel("Tangential Coef2"); param->setDisplayRange(0, 10); param->setAnimates(true); param->setEvaluateOnChange(false); param->setEnabled(false); param->setAnimates(false); param->setParent(*groupLensDistortion); param->setLayoutHint(OFX::eLayoutHintDivider); } } { OFX::PushButtonParamDescriptor *param = desc.definePushButtonParam(kParamOutputClear); param->setLabel("Clear"); param->setHint("clear"); param->setEnabled(false); param->setParent(*groupOutput); } } //Debug Group { OFX::GroupParamDescriptor *groupDebug = desc.defineGroupParam(kParamGroupDebug); groupDebug->setLabel("Debug"); groupDebug->setAsTab(); { OFX::BooleanParamDescriptor *param = desc.defineBooleanParam(kParamDebugEnable); param->setLabel("Enable Debug"); param->setHint("Would you want to export undistorted images?"); param->setParent(*groupDebug); } { OFX::StringParamDescriptor *param = desc.defineStringParam(kParamDebugRejectedImgFolder); param->setLabel("Rejected Frames"); param->setHint("Folder to export delete images during the calibration refinement loop."); param->setStringType(OFX::eStringTypeDirectoryPath); param->setFilePathExists(true); param->setParent(*groupDebug); } { OFX::StringParamDescriptor *param = desc.defineStringParam(kParamDebugSelectedImgFolder); param->setLabel("Selected Frames"); param->setHint("Folder to export debug images."); param->setStringType(OFX::eStringTypeDirectoryPath); param->setFilePathExists(true); param->setParent(*groupDebug); } } }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void SobelPluginFactory::describeInContext(OFX::ImageEffectDescriptor& desc, OFX::EContext context) { OFX::ClipDescriptor* srcClip = desc.defineClip(kOfxImageEffectSimpleSourceClipName); srcClip->addSupportedComponent(OFX::ePixelComponentRGBA); srcClip->addSupportedComponent(OFX::ePixelComponentRGB); srcClip->addSupportedComponent(OFX::ePixelComponentAlpha); srcClip->setSupportsTiles(kSupportTiles); OFX::ClipDescriptor* dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(OFX::ePixelComponentRGBA); dstClip->addSupportedComponent(OFX::ePixelComponentRGB); dstClip->setSupportsTiles(kSupportTiles); OFX::Double2DParamDescriptor* size = desc.defineDouble2DParam(kParamSize); size->setLabel("Size"); size->setDefault(1.0, 1.0); size->setRange(0.0, 0.0, std::numeric_limits<double>::max(), std::numeric_limits<double>::max()); size->setDisplayRange(0, 0, 10, 10); size->setDoubleType(OFX::eDoubleTypeScale); OFX::GroupParamDescriptor* advanced = desc.defineGroupParam(kParamGroupAdvanced); advanced->setLabel("Advanced"); OFX::BooleanParamDescriptor* unidimensional = desc.defineBooleanParam(kParamUnidimensional); unidimensional->setLabel("Unidimensional"); unidimensional->setHint("Instead of using a square convolution matrix, use 1D kernels."); unidimensional->setDefault(false); unidimensional->setParent(advanced); OFX::BooleanParamDescriptor* reverseKernel = desc.defineBooleanParam(kParamReverseKernel); reverseKernel->setLabel("Reverse"); reverseKernel->setHint("Reverse the kernel (convolution or correlation)."); reverseKernel->setDefault(false); reverseKernel->setParent(advanced); OFX::BooleanParamDescriptor* normalizedKernel = desc.defineBooleanParam(kParamNormalizedKernel); normalizedKernel->setLabel("Normalized kernel"); normalizedKernel->setHint("Use a normalized kernel to compute the gradient."); normalizedKernel->setDefault(true); normalizedKernel->setParent(advanced); OFX::DoubleParamDescriptor* kernelEpsilon = desc.defineDoubleParam(kParamKernelEpsilon); kernelEpsilon->setLabel("Kernel espilon value"); kernelEpsilon->setHint("Threshold at which we no longer consider the values of the function."); kernelEpsilon->setDefault(0.01); kernelEpsilon->setRange(std::numeric_limits<double>::epsilon(), 1); kernelEpsilon->setDisplayRange(0, 0.01); kernelEpsilon->setParent(advanced); OFX::ChoiceParamDescriptor* pass = desc.defineChoiceParam(kParamPass); pass->setLabel("Pass"); pass->setHint("The sobel filter is computed using a 2D separable filter. So it consists in 2 passes.\n" "By default we compute the 2 passes, but with this option you can separate each pass."); pass->appendOption(kParamPassFull); pass->appendOption(kParamPass1); pass->appendOption(kParamPass2); pass->setDefault(0); pass->setParent(advanced); OFX::ChoiceParamDescriptor* border = desc.defineChoiceParam(kParamBorder); border->setLabel("Gradient border"); border->setHint("Border method for gradient computation."); border->appendOption(kParamBorderMirror); border->appendOption(kParamBorderConstant); border->appendOption(kParamBorderBlack); border->appendOption(kParamBorderPadded); OFX::BooleanParamDescriptor* computeNorm = desc.defineBooleanParam(kParamComputeGradientNorm); computeNorm->setLabel("Compute norm"); computeNorm->setHint("To disable the norm computation, if you don't need it."); computeNorm->setDefault(true); OFX::BooleanParamDescriptor* normManhattan = desc.defineBooleanParam(kParamGradientNormManhattan); normManhattan->setLabel("Use the manhattan norm"); normManhattan->setHint("Use manhattan norm instead of standard one."); normManhattan->setDefault(false); OFX::BooleanParamDescriptor* computeGradientDirection = desc.defineBooleanParam(kParamComputeGradientDirection); computeGradientDirection->setLabel("Gradient direction"); computeGradientDirection->setHint("To disable the gradient direction computation, if you don't need it."); computeGradientDirection->setDefault(false); OFX::BooleanParamDescriptor* gradientDirectionAbs = desc.defineBooleanParam(kParamGradientDirectionAbs); gradientDirectionAbs->setLabel("Angle between 0 and PI"); gradientDirectionAbs->setHint("Limit gradient direction between 0 and PI."); gradientDirectionAbs->setDefault(true); OFX::PushButtonParamDescriptor* infosButton = desc.definePushButtonParam(kParamInfos); infosButton->setLabel("Infos"); OFX::ChoiceParamDescriptor* outputComponent = desc.defineChoiceParam(kParamOutputComponent); outputComponent->setLabel("Output component"); outputComponent->appendOption(OFX::getImageEffectHostDescription()->supportsPixelComponent(OFX::ePixelComponentRGB) ? kParamOutputComponentRGB : "---"); outputComponent->appendOption(OFX::getImageEffectHostDescription()->supportsPixelComponent(OFX::ePixelComponentRGBA) ? kParamOutputComponentRGBA : "---"); outputComponent->setDefault(0); outputComponent->setIsSecret(OFX::getImageEffectHostDescription()->_supportedComponents.size() == 1); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void ColorSpacePluginFactory::describeInContext(OFX::ImageEffectDescriptor& desc, OFX::EContext context) { OFX::ClipDescriptor* srcClip = desc.defineClip(kOfxImageEffectSimpleSourceClipName); srcClip->addSupportedComponent(OFX::ePixelComponentRGBA); srcClip->addSupportedComponent(OFX::ePixelComponentRGB); srcClip->addSupportedComponent(OFX::ePixelComponentAlpha); srcClip->setSupportsTiles(kSupportTiles); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(OFX::ePixelComponentRGBA); dstClip->addSupportedComponent(OFX::ePixelComponentRGB); dstClip->addSupportedComponent(OFX::ePixelComponentAlpha); dstClip->setSupportsTiles(kSupportTiles); /* ----------------------- INPUT PARAMETERS -------------------------- */ OFX::GroupParamDescriptor* inGroup = desc.defineGroupParam(kColorSpaceIn); inGroup->setLabel("Input configuration"); OFX::ChoiceParamDescriptor* inReferenceSpace = desc.defineChoiceParam(kColorSpaceReferenceSpaceIn); inReferenceSpace->setLabel("Reference Space"); inReferenceSpace->setParent(inGroup); OFX::GroupParamDescriptor* inCustom = desc.defineGroupParam(kColorSpaceCustomizedIn); inCustom->setLabel("Custom"); inCustom->setOpen(false); inCustom->setParent(inGroup); OFX::ChoiceParamDescriptor* inGradationLaw = desc.defineChoiceParam(kColorSpaceGradationLawIn); inGradationLaw->setLabel("Gradation Law"); inGradationLaw->setParent(inCustom); OFX::DoubleParamDescriptor* inGammaValue = desc.defineDoubleParam(kColorSpaceInGammaValue); inGammaValue->setLabel("Gamma"); inGammaValue->setDefault(1.0); inGammaValue->setRange(0.0, std::numeric_limits<double>::max()); inGammaValue->setDisplayRange(0.0, 5.0); inGammaValue->setHint("Adjust the Gamma."); inGammaValue->setParent(inCustom); OFX::DoubleParamDescriptor* inBlackPoint = desc.defineDoubleParam(kColorSpaceInBlackPoint); inBlackPoint->setLabel("Black Point"); inBlackPoint->setDefault(0.0); inBlackPoint->setRange(0.0, 1.0); inBlackPoint->setDisplayRange(0.0, 1.0); inBlackPoint->setHint("Adjust the Black Point."); inBlackPoint->setParent(inCustom); OFX::DoubleParamDescriptor* inWhitePoint = desc.defineDoubleParam(kColorSpaceInWhitePoint); inWhitePoint->setLabel("White Point"); inWhitePoint->setDefault(1.0); inWhitePoint->setRange(0.0, 1.0); inWhitePoint->setDisplayRange(0.0, 1.0); inWhitePoint->setHint("Adjust the White Point."); inWhitePoint->setParent(inCustom); OFX::DoubleParamDescriptor* inGammaSensito = desc.defineDoubleParam(kColorSpaceInGammaSensito); inGammaSensito->setLabel("Gamma Sensito"); inGammaSensito->setDefault(1.0); inGammaSensito->setRange(0.0, std::numeric_limits<double>::max()); inGammaSensito->setDisplayRange(0.0, 5.0); inGammaSensito->setHint("Adjust the Gamma Sensito."); inGammaSensito->setParent(inCustom); OFX::ChoiceParamDescriptor* inLayout = desc.defineChoiceParam(kColorSpaceLayoutIn); inLayout->setLabel("Layout"); inLayout->setParent(inCustom); OFX::ChoiceParamDescriptor* inTempColor = desc.defineChoiceParam(kColorSpaceTempColorIn); inTempColor->setLabel("Color Temperature"); inTempColor->setHint("Select the color temperature."); inTempColor->setParent(inCustom); OFX::GroupParamDescriptor* inPrimaries = desc.defineGroupParam(kColorSpacePrimariesIn); inPrimaries->setLabel("Primaries color"); inPrimaries->setOpen(false); inPrimaries->setParent(inCustom); OFX::DoubleParamDescriptor* inXr = desc.defineDoubleParam(kColorSpaceXrIn); inXr->setLabel("X red"); inXr->setDefault(1.0); inXr->setRange(0.0, 1.0); inXr->setDisplayRange(0.0, 1.0); inXr->setHint("Adjust the X red primary color."); inXr->setParent(inPrimaries); OFX::DoubleParamDescriptor* inYr = desc.defineDoubleParam(kColorSpaceYrIn); inYr->setLabel("Y red"); inYr->setDefault(1.0); inYr->setRange(0.0, 1.0); inYr->setDisplayRange(0.0, 1.0); inYr->setHint("Adjust the Y red primary color."); inYr->setParent(inPrimaries); OFX::DoubleParamDescriptor* inXg = desc.defineDoubleParam(kColorSpaceXgIn); inXg->setLabel("X green"); inXg->setDefault(1.0); inXg->setRange(0.0, 1.0); inXg->setDisplayRange(0.0, 1.0); inXg->setHint("Adjust the X green primary color."); inXg->setParent(inPrimaries); OFX::DoubleParamDescriptor* inYg = desc.defineDoubleParam(kColorSpaceYgIn); inYg->setLabel("Y green"); inYg->setDefault(1.0); inYg->setRange(0.0, 1.0); inYg->setDisplayRange(0.0, 1.0); inYg->setHint("Adjust the Y green primary color."); inYg->setParent(inPrimaries); OFX::DoubleParamDescriptor* inXb = desc.defineDoubleParam(kColorSpaceXbIn); inXb->setLabel("X blue"); inXb->setDefault(1.0); inXb->setRange(0.0, 1.0); inXb->setDisplayRange(0.0, 1.0); inXb->setHint("Adjust the X blue primary color."); inXb->setParent(inPrimaries); OFX::DoubleParamDescriptor* inYb = desc.defineDoubleParam(kColorSpaceYbIn); inYb->setLabel("Y blue"); inYb->setDefault(1.0); inYb->setRange(0.0, 1.0); inYb->setDisplayRange(0.0, 1.0); inYb->setHint("Adjust the Y blue primary color."); inYb->setParent(inPrimaries); /* ----------------------- OUTPUT PARAMETERS -------------------------- */ OFX::GroupParamDescriptor* outGroup = desc.defineGroupParam(kColorSpaceOut); outGroup->setLabel("Output configuration"); OFX::ChoiceParamDescriptor* outReferenceSpace = desc.defineChoiceParam(kColorSpaceReferenceSpaceOut); outReferenceSpace->setLabel("Reference Space"); outReferenceSpace->setParent(outGroup); OFX::GroupParamDescriptor* outCustom = desc.defineGroupParam(kColorSpaceCustomizedOut); outCustom->setLabel("Custom"); outCustom->setOpen(false); outCustom->setParent(outGroup); OFX::ChoiceParamDescriptor* outGradationLaw = desc.defineChoiceParam(kColorSpaceGradationLawOut); outGradationLaw->setLabel("Gradation Law"); outGradationLaw->setParent(outCustom); OFX::DoubleParamDescriptor* outGammaValue = desc.defineDoubleParam(kColorSpaceOutGammaValue); outGammaValue->setLabel("Gamma"); outGammaValue->setDefault(1.0); outGammaValue->setRange(0.0, std::numeric_limits<double>::max()); outGammaValue->setDisplayRange(0.0, 5.0); outGammaValue->setHint("Adjust the Gamma."); outGammaValue->setParent(outCustom); OFX::DoubleParamDescriptor* outBlackPoint = desc.defineDoubleParam(kColorSpaceOutBlackPoint); outBlackPoint->setLabel("Black Point"); outBlackPoint->setDefault(0.0); outBlackPoint->setRange(0.0, 1.0); outBlackPoint->setDisplayRange(0.0, 1.0); outBlackPoint->setHint("Adjust the Black Point."); outBlackPoint->setParent(outCustom); OFX::DoubleParamDescriptor* outWhitePoint = desc.defineDoubleParam(kColorSpaceOutWhitePoint); outWhitePoint->setLabel("White Point"); outWhitePoint->setDefault(1.0); outWhitePoint->setRange(0.0, 1.0); outWhitePoint->setDisplayRange(0.0, 1.0); outWhitePoint->setHint("Adjust the White Point."); outWhitePoint->setParent(outCustom); OFX::DoubleParamDescriptor* outGammaSensito = desc.defineDoubleParam(kColorSpaceOutGammaSensito); outGammaSensito->setLabel("Gamma Sensito"); outGammaSensito->setDefault(1.0); outGammaSensito->setRange(0.0, std::numeric_limits<double>::max()); outGammaSensito->setDisplayRange(0.0, 5.0); outGammaSensito->setHint("Adjust the Gamma Sensito."); outGammaSensito->setParent(outCustom); OFX::ChoiceParamDescriptor* outLayout = desc.defineChoiceParam(kColorSpaceLayoutOut); outLayout->setLabel("Layout"); outLayout->setParent(outCustom); OFX::ChoiceParamDescriptor* outTempColor = desc.defineChoiceParam(kColorSpaceTempColorOut); outTempColor->setLabel("Color Temperature"); outTempColor->setHint("Select the color temperature."); outTempColor->setParent(outCustom); OFX::GroupParamDescriptor* outPrimaries = desc.defineGroupParam(kColorSpacePrimariesOut); outPrimaries->setLabel("Primaries color"); outPrimaries->setOpen(false); outPrimaries->setParent(outCustom); OFX::DoubleParamDescriptor* outXr = desc.defineDoubleParam(kColorSpaceXrOut); outXr->setLabel("X red"); outXr->setDefault(1.0); outXr->setRange(0.0, 1.0); outXr->setDisplayRange(0.0, 1.0); outXr->setHint("Adjust the X red primary color."); outXr->setParent(outPrimaries); OFX::DoubleParamDescriptor* outYr = desc.defineDoubleParam(kColorSpaceYrOut); outYr->setLabel("Y red"); outYr->setDefault(1.0); outYr->setRange(0.0, 1.0); outYr->setDisplayRange(0.0, 1.0); outYr->setHint("Adjust the Y red primary color."); outYr->setParent(outPrimaries); OFX::DoubleParamDescriptor* outXg = desc.defineDoubleParam(kColorSpaceXgOut); outXg->setLabel("X green"); outXg->setDefault(1.0); outXg->setRange(0.0, 1.0); outXg->setDisplayRange(0.0, 1.0); outXg->setHint("Adjust the X green primary color."); outXg->setParent(outPrimaries); OFX::DoubleParamDescriptor* outYg = desc.defineDoubleParam(kColorSpaceYgOut); outYg->setLabel("Y green"); outYg->setDefault(1.0); outYg->setRange(0.0, 1.0); outYg->setDisplayRange(0.0, 1.0); outYg->setHint("Adjust the Y green primary color."); outYg->setParent(outPrimaries); OFX::DoubleParamDescriptor* outXb = desc.defineDoubleParam(kColorSpaceXbOut); outXb->setLabel("X blue"); outXb->setDefault(1.0); outXb->setRange(0.0, 1.0); outXb->setDisplayRange(0.0, 1.0); outXb->setHint("Adjust the X blue primary color."); outXb->setParent(outPrimaries); OFX::DoubleParamDescriptor* outYb = desc.defineDoubleParam(kColorSpaceYbOut); outYb->setLabel("Y blue"); outYb->setDefault(1.0); outYb->setRange(0.0, 1.0); outYb->setDisplayRange(0.0, 1.0); outYb->setHint("Adjust the Y blue primary color."); outYb->setParent(outPrimaries); /* -------------- ENUMS FILLING ----------------*/ ttlc::ColorSpaceMaps csMaps; ttlc::ColorSpaceMap mapReferenceSpace = csMaps.getMapReferenceSpaces(); ttlc::ColorSpaceMap mapGradationLaw = csMaps.getMapGradationLaw(); ttlc::ColorSpaceMap mapLayout = csMaps.getMapLayout(); ttlc::ColorSpaceMap mapColourTemp = csMaps.getMapColourTemp(); ttlc::ColorSpaceMap::iterator it; ttlc::ColorSpacePair highest; /* Reference Space */ highest = *mapReferenceSpace.rbegin(); // last element it = mapReferenceSpace.begin(); do { inReferenceSpace->appendOption((*it).second); outReferenceSpace->appendOption((*it).second); } while(mapReferenceSpace.value_comp()(*it++, highest)); it = mapReferenceSpace.begin(); inReferenceSpace->setDefault((*it).first); outReferenceSpace->setDefault((*it).first); /* Gradation */ highest = *mapGradationLaw.rbegin(); it = mapGradationLaw.begin(); do { inGradationLaw->appendOption((*it).second); outGradationLaw->appendOption((*it).second); } while(mapGradationLaw.value_comp()(*it++, highest)); it = mapGradationLaw.begin(); inGradationLaw->setDefault((*it).first); outGradationLaw->setDefault((*it).first); /* Layout */ highest = *mapLayout.rbegin(); it = mapLayout.begin(); do { inLayout->appendOption((*it).second); outLayout->appendOption((*it).second); } while(mapLayout.value_comp()(*it++, highest)); it = mapLayout.begin(); inLayout->setDefault((*it).first); outLayout->setDefault((*it).first); /* Colour temperature */ highest = *mapColourTemp.rbegin(); it = mapColourTemp.begin(); do { inTempColor->appendOption((*it).second); outTempColor->appendOption((*it).second); } while(mapColourTemp.value_comp()(*it++, highest)); it = mapColourTemp.begin(); inTempColor->setDefault((*it).first); outTempColor->setDefault((*it).first); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void CropPluginFactory::describeInContext(OFX::ImageEffectDescriptor& desc, OFX::EContext context) { OFX::ClipDescriptor* srcClip = desc.defineClip(kOfxImageEffectSimpleSourceClipName); srcClip->addSupportedComponent(OFX::ePixelComponentRGBA); srcClip->addSupportedComponent(OFX::ePixelComponentRGB); srcClip->addSupportedComponent(OFX::ePixelComponentAlpha); srcClip->setSupportsTiles(kSupportTiles); OFX::ClipDescriptor* dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(OFX::ePixelComponentRGBA); dstClip->addSupportedComponent(OFX::ePixelComponentRGB); dstClip->addSupportedComponent(OFX::ePixelComponentAlpha); dstClip->setSupportsTiles(kSupportTiles); OFX::ChoiceParamDescriptor* mode = desc.defineChoiceParam(kParamMode); mode->setLabel("Mode"); mode->appendOption(kParamModeCrop); mode->appendOption(kParamModeFillColor); // mode->appendOption( kParamModeResize ); // good idea or not? mode->setDefault(eParamModeCrop); OFX::RGBAParamDescriptor* fillColor = desc.defineRGBAParam(kParamFillColor); fillColor->setLabel("Color"); fillColor->setHint("Color to fill bands"); fillColor->setDefault(0.0, 0.0, 0.0, 1.0); OFX::ChoiceParamDescriptor* axis = desc.defineChoiceParam(kParamAxis); axis->setLabel("Axis"); axis->appendOption(kParamAxisXY); axis->appendOption(kParamAxisX); axis->appendOption(kParamAxisY); axis->setDefault(eParamAxisY); axis->setEvaluateOnChange(false); OFX::ChoiceParamDescriptor* symmetric = desc.defineChoiceParam(kParamSymmetric); symmetric->setLabel("Symmetric"); symmetric->appendOption(kParamSymmetricNone); symmetric->appendOption(kParamSymmetricXY); symmetric->appendOption(kParamSymmetricX); symmetric->appendOption(kParamSymmetricY); symmetric->setHint("Is the crop region symmetric around image center?"); symmetric->setDefault(true); symmetric->setEvaluateOnChange(false); OFX::BooleanParamDescriptor* fixedRatio = desc.defineBooleanParam(kParamFixedRatio); fixedRatio->setLabel("Fixed ratio"); fixedRatio->setHint("Constrain the cropped region to this ratio."); fixedRatio->setDefault(true); fixedRatio->setEvaluateOnChange(false); OFX::ChoiceParamDescriptor* preset = desc.defineChoiceParam(kParamPreset); preset->setLabel("Preset"); preset->appendOption(kParamPreset_custom); preset->appendOption(kParamPreset_1_33); preset->appendOption(kParamPreset_1_77); preset->appendOption(kParamPreset_1_85); preset->appendOption(kParamPreset_2_35); preset->appendOption(kParamPreset_2_40); preset->setDefault(0); preset->setEvaluateOnChange(false); OFX::DoubleParamDescriptor* ratio = desc.defineDoubleParam(kParamRatio); ratio->setLabel("Ratio"); ratio->setRange(0, std::numeric_limits<double>::max()); ratio->setDisplayRange(0, 3); ratio->setDefault(2.0); ratio->setHint("Ratio X/Y of the cropped region."); OFX::BooleanParamDescriptor* overlay = desc.defineBooleanParam(kParamOverlay); overlay->setLabel("Overlay"); overlay->setHint("Display overlay rectangle"); overlay->setDefault(false); overlay->setEvaluateOnChange(false); OFX::GroupParamDescriptor* cropRegion = desc.defineGroupParam(kParamGroupCropRegion); OFX::IntParamDescriptor* xMin = desc.defineIntParam(kParamXMin); xMin->setLabel("X min"); // xMin->setRange( 0, std::numeric_limits<int>::max() ); xMin->setDisplayRange(0, 3000); xMin->setDefault(0); xMin->setParent(*cropRegion); OFX::IntParamDescriptor* yMin = desc.defineIntParam(kParamYMin); yMin->setLabel("Y min"); // yMin->setRange( 0, std::numeric_limits<int>::max() ); yMin->setDisplayRange(0, 3000); yMin->setDefault(0); yMin->setParent(*cropRegion); OFX::IntParamDescriptor* xMax = desc.defineIntParam(kParamXMax); xMax->setLabel("X max"); // xMax->setRange( 0, std::numeric_limits<int>::max() ); xMax->setDisplayRange(0, 3000); xMax->setDefault(0); xMax->setParent(*cropRegion); OFX::IntParamDescriptor* yMax = desc.defineIntParam(kParamYMax); yMax->setLabel("Y max"); // yMax->setRange( 0, std::numeric_limits<int>::max() ); yMax->setDisplayRange(0, 3000); yMax->setDefault(0); yMax->setParent(*cropRegion); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void LensDistortPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( true ); // create the mandated source clip OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( true ); // declare an optional clip reference for RoD OFX::ClipDescriptor* srcRefClip = desc.defineClip( kClipOptionalSourceRef ); srcRefClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcRefClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcRefClip->setSupportsTiles( true ); srcRefClip->setOptional( true ); srcRefClip->setLabel( "ref" ); OFX::BooleanParamDescriptor* reverse = desc.defineBooleanParam( kParamReverse ); reverse->setLabel( "Reverse" ); reverse->setDefault( false ); reverse->setHint( "Invert the effect.\n" "Distort becomes undistort, and vice versa." ); // Controls OFX::BooleanParamDescriptor* displaySource = desc.defineBooleanParam( kParamDisplaySource ); displaySource->setLabel( "displaySource" ); displaySource->setDefault( false ); displaySource->setHint( "Display the image source (usefull to parameter the distortion with lines overlays on the source image)." ); OFX::ChoiceParamDescriptor* lensType = desc.defineChoiceParam( kParamLensType ); lensType->setLabel( "Lens type" ); lensType->appendOption( kParamLensTypeStandard ); #ifndef TUTTLE_PRODUCTION lensType->appendOption( kParamLensTypeFishEye ); // not implemented yet... lensType->appendOption( kParamLensTypeAdvanced ); // not implemented yet... lensType->setIsSecret( true ); #endif lensType->setDefault( 0 ); OFX::DoubleParamDescriptor* coef1 = desc.defineDoubleParam( kParamCoef1 ); coef1->setScriptName( "Main" ); coef1->setDefault( 0.1 ); coef1->setDisplayRange( -1.0, 1.0 ); coef1->setHint( "Main distortion coeffecient\n" ">0 : Barrel distortion\n" "<0 : Pincushion distortion\n" ); OFX::DoubleParamDescriptor* coef2 = desc.defineDoubleParam( kParamCoef2 ); coef2->setLabel( "Secondary" ); coef2->setDefault( 0.0 ); coef2->setDisplayRange( -1.0, 1.0 ); coef2->setHint( "Secondary distortion coeffecient (usefull for fisheyes only)\n" ">0 : Barrel distortion\n" "<0 : Pincushion distortion\n" ); #ifdef TUTTLE_PRODUCTION coef2->setIsSecret( true ); #endif OFX::DoubleParamDescriptor* squeeze = desc.defineDoubleParam( kParamSqueeze ); squeeze->setLabel( "Squeeze" ); #ifdef TUTTLE_PRODUCTION squeeze->setIsSecret( true ); #endif // squeeze->setDoubleType( eDoubleTypeNormalisedX ); squeeze->setDefault( 1.0 ); squeeze->setRange( 0.00001, 1.0 ); squeeze->setDisplayRange( 0.01, 1.0 ); squeeze->setHint( "Squeeze distortion coeffecient (usefull for bad quality lens...)" ); OFX::Double2DParamDescriptor* asymmetric = desc.defineDouble2DParam( kParamAsymmetric ); asymmetric->setLabel( "Asymmetric" ); #ifdef TUTTLE_PRODUCTION asymmetric->setIsSecret( true ); #endif // asymmetric->setDoubleType( eDoubleTypeNormalisedXY ); asymmetric->setDefault( 0.0, 0.0 ); asymmetric->setRange( 0.0, 0.0, 1.0, 1.0 ); asymmetric->setDisplayRange( 0.0, 0.0, 1.0, 1.0 ); asymmetric->setHint( "asymmetric distortion coeffecient (usefull for bad quality lens...)" ); OFX::Double2DParamDescriptor* center = desc.defineDouble2DParam( kParamCenter ); center->setLabel( "Center" ); center->setDoubleType( OFX::eDoubleTypePlain ); center->setDefault( 0.0, 0.0 ); center->setDisplayRange( -1.0, -1.0, 1.0, 1.0 ); center->setHint( "Center parameter allows you to shift the center of distortion." ); OFX::BooleanParamDescriptor* centerOverlay = desc.defineBooleanParam( kParamCenterOverlay ); centerOverlay->setLabel( "Display distortion center" ); centerOverlay->setDefault( false ); centerOverlay->setEvaluateOnChange( false ); centerOverlay->setHint( "Active distortion center point overlay." ); OFX::ChoiceParamDescriptor* centerType = desc.defineChoiceParam( kParamCenterType ); centerType->setLabel( "Center type" ); #ifdef TUTTLE_PRODUCTION centerType->setIsSecret( true ); #endif centerType->appendOption( kParamCenterTypeSource ); centerType->appendOption( kParamCenterTypeRoW ); centerType->setDefault( 0 ); centerType->setHint( "Centered on source or output image." ); OFX::DoubleParamDescriptor* preScale = desc.defineDoubleParam( kParamPreScale ); preScale->setLabel( "Pre-scale" ); // preScale->setDoubleType( eDoubleTypeNormalisedXY ); preScale->setDefault( 1.0 ); preScale->setRange( 0.00001, std::numeric_limits<double>::max() ); preScale->setDisplayRange( 0.0, 2.5 ); preScale->setHint( "If the transformation of optics is high, you may need to change the scale of the result to be globally closer to the source image or preserve a good resolution." ); OFX::DoubleParamDescriptor* postScale = desc.defineDoubleParam( kParamPostScale ); postScale->setLabel( "Post-scale" ); // scale->setDoubleType( eDoubleTypeNormalisedXY ); postScale->setDefault( 1.0 ); postScale->setRange( 0.00001, std::numeric_limits<double>::max() ); postScale->setDisplayRange( 0.0, 2.5 ); postScale->setHint( "If the transformation of optics is high, you may need to change the scale of the result to be globally closer to the source image or preserve a good resolution." ); OFX::ChoiceParamDescriptor* interpolation = desc.defineChoiceParam( kParamInterpolation ); interpolation->setLabel( "Interpolation" ); interpolation->appendOption( kParamInterpolationNearest ); interpolation->appendOption( kParamInterpolationBilinear ); interpolation->setDefault( 1 ); interpolation->setHint( "Interpolation method" ); OFX::ChoiceParamDescriptor* resizeRod = desc.defineChoiceParam( kParamResizeRod ); resizeRod->setLabel( "Resize RoD" ); resizeRod->appendOption( kParamResizeRodNo ); resizeRod->appendOption( kParamResizeRodSourceRef ); resizeRod->appendOption( kParamResizeRodMin ); resizeRod->appendOption( kParamResizeRodMax ); resizeRod->appendOption( kParamResizeRodManual ); resizeRod->setDefault( 0 ); resizeRod->setHint( "Resize output RoD" ); OFX::DoubleParamDescriptor* scaleRod = desc.defineDoubleParam( kParamResizeRodManualScale ); scaleRod->setLabel( "Scale RoD" ); // scaleRod->setDoubleType( eDoubleTypeNormalisedXY ); // scaleRod->setIsSecret( true ); // scaleRod->setEnabled( false ); scaleRod->setDefault( 1.0 ); scaleRod->setRange( 0.0, std::numeric_limits<double>::max() ); scaleRod->setDisplayRange( 0, 2.5 ); scaleRod->setHint( "Adjust the output RoD." ); OFX::GroupParamDescriptor* displayOptions = desc.defineGroupParam( kParamDisplayOptions ); displayOptions->setLabel( "Display options" ); displayOptions->setHint( "Display options (change nothing on the image)" ); OFX::BooleanParamDescriptor* displayGrid = desc.defineBooleanParam( kParamGridOverlay ); displayGrid->setLabel( "Display grid" ); displayGrid->setParent( *displayOptions ); displayGrid->setDefault( false ); displayGrid->setEvaluateOnChange( false ); displayGrid->setHint( "Display the grid" ); OFX::Double2DParamDescriptor* gridCenter = desc.defineDouble2DParam( kParamGridCenter ); gridCenter->setLabel( "Grid center" ); gridCenter->setDoubleType( OFX::eDoubleTypePlain ); gridCenter->setParent( *displayOptions ); gridCenter->setDefault( 0.0, 0.0 ); gridCenter->setDisplayRange( -1.0, -1.0, 1.0, 1.0 ); gridCenter->setEvaluateOnChange( false ); gridCenter->setHint( "Allows you to shift the center of the display grid." ); OFX::BooleanParamDescriptor* gridCenterOverlay = desc.defineBooleanParam( kParamGridCenterOverlay ); gridCenterOverlay->setLabel( "Display grid center" ); gridCenterOverlay->setParent( *displayOptions ); gridCenterOverlay->setDefault( false ); gridCenterOverlay->setEvaluateOnChange( false ); gridCenterOverlay->setHint( "Active grid center point overlay." ); OFX::Double2DParamDescriptor* gridScale = desc.defineDouble2DParam( kParamGridScale ); gridScale->setLabel( "Grid scale" ); gridScale->setDoubleType( OFX::eDoubleTypePlain ); gridScale->setParent( *displayOptions ); gridScale->setDefault( 1.0, 1.0 ); gridScale->setDisplayRange( -10.0, -10.0, 10.0, 10.0 ); gridScale->setEvaluateOnChange( false ); gridScale->setHint( "Allows you to scale the display grid." ); OFX::GroupParamDescriptor* debugOptions = desc.defineGroupParam( kParamDebugOptions ); debugOptions->setLabel( "Debug options" ); debugOptions->setHint( "Debug options" ); debugOptions->setParent( *displayOptions ); #ifdef TUTTLE_PRODUCTION debugOptions->setIsSecret( true ); #endif OFX::BooleanParamDescriptor* debugDisplayRoi = desc.defineBooleanParam( kParamDebugDisplayRoi ); debugDisplayRoi->setLabel( "Display RoI" ); #ifdef TUTTLE_PRODUCTION debugDisplayRoi->setIsSecret( true ); #endif debugDisplayRoi->setParent( *debugOptions ); debugDisplayRoi->setDefault( false ); debugDisplayRoi->setEvaluateOnChange( false ); debugDisplayRoi->setHint( "Display RoI" ); OFX::PushButtonParamDescriptor* helpButton = desc.definePushButtonParam( kParamHelp ); helpButton->setLabel( "Help" ); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void HistogramKeyerPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc,OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); //global display OFX::BooleanParamDescriptor* boolGLOBAL = desc.defineBooleanParam(kGlobalDisplay); boolGLOBAL->setHint("Display global overlay on screen."); boolGLOBAL->setDefault(true); // if parametric parameters are supported if( OFX::getImageEffectHostDescription()->supportsParametricParameter ) { OFX::ParametricParamDescriptor* curvesRGB = desc.defineParametricParam( kParamRGBColorSelection ); OFX::ParametricParamDescriptor* curvesHSL = desc.defineParametricParam( kParamHSLColorSelection ); //Group Param (RGB & HSL) OFX::GroupParamDescriptor *groupRGB = desc.defineGroupParam(kGroupRGB); groupRGB->setLabel(kGroupRGBLabel); OFX::GroupParamDescriptor *groupHSL = desc.defineGroupParam(kGroupHSL); groupHSL->setLabel(kGroupHSLLabel); //define the graphic aspect curvesRGB->setRange( 0.0, 1.0 ); //set range on RGB curve curvesHSL->setRange( 0.0, 1.0 ); //set range on HSL curve curvesRGB->setDimension(nbCurvesRGB); //3 curves on RGB curvesHSL->setDimension(nbCurvesHSL); //3 curves on HSL //Add curves RGB curvesRGB->setDimensionLabel( kParamColorSelectionRed, 0 ); // 0 on RGB is red curvesRGB->setDimensionLabel( kParamColorSelectionGreen, 1 ); // 1 on RGB is green curvesRGB->setDimensionLabel( kParamColorSelectionBlue, 2 ); // 2 on RGB is blue //Add curves HSL curvesHSL->setDimensionLabel( kParamColorSelectionHue, 0 ); // 0 on HSL is hue curvesHSL->setDimensionLabel( kParamColorSelectionSaturation, 1 ); // 1 on HSL is saturation curvesHSL->setDimensionLabel( kParamColorSelectionLightness, 2 ); // 2 on HSK is lightness //define curves color RGB curvesRGB->setHint( "Color selection" ); static const OfxRGBColourD red = {1,0,0}; //set red color to red curve static const OfxRGBColourD green = {0,1,0}; //set green color to green curve static const OfxRGBColourD blue = {0,0,1}; //set blue color to blue curve curvesRGB->setUIColour( 0, red ); curvesRGB->setUIColour( 1, green ); curvesRGB->setUIColour( 2, blue ); //define curves color HSL curvesHSL->setHint( "Color selection" ); curvesHSL->setUIColour( 0, red ); //set red color on hue curve curvesHSL->setUIColour( 1, green ); //set green color on saturation curve curvesHSL->setUIColour( 2, blue ); //set lightness color on saturation curve curvesRGB->setInteractDescriptor( new OFX::DefaultParamInteractWrap<RGBParamOverlayDescriptor>() ); //attach parametric curve to RGBOverlay curvesHSL->setInteractDescriptor( new OFX::DefaultParamInteractWrap<HSLParamOverlayDescriptor>() ); //attach parametric curve to HSLOverlay //add curves to their groups curvesRGB->setParent(groupRGB); //add RGB curves to RGB group curvesHSL->setParent(groupHSL); //add HSL curves to HSL group //Set each curves to initial value curvesRGB->setIdentity(); curvesHSL->setIdentity(); //add 2 control points (0,1) and (1,1) for each channel for(unsigned int i=0; i< nbCurvesRGB; ++i) { //curvesRGB->addControlPoint( i, 0.0, 0.0, 1.0, false ); curvesRGB->addControlPoint( i, 0.0, 1.0, 1.0, false ); } for(unsigned int i=0; i< nbCurvesHSL; ++i) { //curvesHSL->addControlPoint( i, 0.0, 0.0, 1.0, false ); curvesHSL->addControlPoint( i, 0.0, 1.0, 1.0, false ); } //Channels checkboxes (RGB) OFX::BooleanParamDescriptor* boolR = desc.defineBooleanParam(kBoolRed); boolR->setDefault(false); //red channel is not selected by default boolR->setHint("Activate Red channel"); boolR->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolR->setParent(groupRGB); //red multiplier OFX::DoubleParamDescriptor* redMultiplier = desc.defineDoubleParam(kMultiplierRed); redMultiplier->setLabel(kMultiplierLabel); redMultiplier->setHint("Determinate curve from selection precision."); redMultiplier->setRange(1, 1000); redMultiplier->setDisplayRange(0,5); redMultiplier->setDefault(1); redMultiplier->setParent(groupRGB); OFX::BooleanParamDescriptor* boolG = desc.defineBooleanParam(kBoolGreen); boolG->setDefault(false); //green channel is not selected by default boolG->setHint("Activate Green channel"); boolG->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolG->setParent(groupRGB); //green multiplier OFX::DoubleParamDescriptor* greenMultiplier = desc.defineDoubleParam(kMultiplierGreen); greenMultiplier->setLabel(kMultiplierLabel); greenMultiplier->setHint("Determinate curve from selection precision."); greenMultiplier->setRange(1, 1000); greenMultiplier->setDisplayRange(0,5); greenMultiplier->setDefault(1); greenMultiplier->setParent(groupRGB); OFX::BooleanParamDescriptor* boolB = desc.defineBooleanParam(kBoolBlue); boolB->setHint("Activate Blue channel"); boolB->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolB->setDefault(false); //blue channel is not selected by default boolB->setParent(groupRGB); //blue multiplier OFX::DoubleParamDescriptor* blueMultiplier = desc.defineDoubleParam(kMultiplierBlue); blueMultiplier->setLabel(kMultiplierLabel); blueMultiplier->setHint("Determinate curve from selection precision."); blueMultiplier->setRange(1, 1000); blueMultiplier->setDisplayRange(0,5); blueMultiplier->setDefault(1); blueMultiplier->setParent(groupRGB); //Channels check box (HSL) OFX::BooleanParamDescriptor* boolH = desc.defineBooleanParam(kBoolHue); boolH->setDefault(false); boolH->setHint("Activate Hue channel"); boolH->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolH->setParent(groupHSL); //Hue multiplier OFX::DoubleParamDescriptor* hueMultiplier = desc.defineDoubleParam(kMultiplierHue); hueMultiplier->setLabel(kMultiplierLabel); hueMultiplier->setHint("Determinate curve from selection precision."); hueMultiplier->setRange(1, 1000); hueMultiplier->setDisplayRange(0,5); hueMultiplier->setDefault(1); hueMultiplier->setParent(groupHSL); OFX::BooleanParamDescriptor* boolS = desc.defineBooleanParam(kBoolSaturation); boolS->setDefault(false); boolS->setHint("Activate Saturation channel"); boolS->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolS->setParent(groupHSL); //Saturation multiplier OFX::DoubleParamDescriptor* saturationMultiplier = desc.defineDoubleParam(kMultiplierSaturation); saturationMultiplier->setLabel(kMultiplierLabel); saturationMultiplier->setHint("Determinate curve from selection precision."); saturationMultiplier->setRange(1, 1000); saturationMultiplier->setDisplayRange(0,5); saturationMultiplier->setDefault(1); saturationMultiplier->setParent(groupHSL); OFX::BooleanParamDescriptor* boolL = desc.defineBooleanParam(kBoolLightness); boolL->setHint("Activate Lightness channel"); boolL->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolL->setDefault(false); boolL->setParent(groupHSL); //Lightness multiplier OFX::DoubleParamDescriptor* lightnessMultiplier = desc.defineDoubleParam(kMultiplierLightness); lightnessMultiplier->setLabel(kMultiplierLabel); lightnessMultiplier->setHint("Determinate curve from selection precision."); lightnessMultiplier->setRange(1, 1000); lightnessMultiplier->setDisplayRange(0,5); lightnessMultiplier->setDefault(1); lightnessMultiplier->setParent(groupHSL); //Clean Button (RGB) OFX::PushButtonParamDescriptor* resetButtonRGB = desc.definePushButtonParam(kButtonResetRGB); resetButtonRGB->setLabel(kButtonResetRGBLabel); resetButtonRGB->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished resetButtonRGB->setHint("Reset the selected RGB curves. \n Warning : the curves may not be refreshed click on overlay to refresh."); resetButtonRGB->setParent(groupRGB); //Selection To Curves Button (RGB) OFX::PushButtonParamDescriptor* selectionToCurveButtonRGB = desc.definePushButtonParam(kButtonSelectionToCurveRGB); selectionToCurveButtonRGB->setLabel(kButtonSelectionToCurveRGBLabel); selectionToCurveButtonRGB->setHint("Load selected RGB curves with selection data. \n Warning : the curves may not be refreshed click on overlay to refresh."); selectionToCurveButtonRGB->setParent(groupRGB); //Append selection to curves button (RGB) OFX::PushButtonParamDescriptor* appendSelectionToCurveRGB = desc.definePushButtonParam(kButtonAppendSelectionToCurveRGB); appendSelectionToCurveRGB->setLabel(kButtonAppendSelectionToCurveRGBLabel); //add label appendSelectionToCurveRGB->setHint("Append current selection to selected RGB channels");//help appendSelectionToCurveRGB->setParent(groupRGB); //add to RGB group //Clean Button (HSL) OFX::PushButtonParamDescriptor* resetButtonHSL = desc.definePushButtonParam(kButtonResetHSL); resetButtonHSL->setLabel(kButtonResetHSLLabel); resetButtonHSL->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished resetButtonHSL->setHint("Reset the selected HSL curves \n Warning : the curves may not be refreshed click on overlay to refresh."); resetButtonHSL->setParent(groupHSL); //Selection To Curves Button (HSL) OFX::PushButtonParamDescriptor* selectionToCurveButtonHSL = desc.definePushButtonParam(kButtonSelectionToCurveHSL); selectionToCurveButtonHSL->setLabel(kButtonSelectionToCurveHSLLabel); selectionToCurveButtonHSL->setHint("Load selected HSL curves with selection data. \n Warning : the curves may not be refreshed click on overlay to refresh."); selectionToCurveButtonHSL->setParent(groupHSL); //Append selection to curves button (HSL) OFX::PushButtonParamDescriptor* appendSelectionToCurveHSL = desc.definePushButtonParam(kButtonAppendSelectionToCurveHSL); appendSelectionToCurveHSL->setLabel(kButtonAppendSelectionToCurveHSLLabel); //add label appendSelectionToCurveHSL->setHint("Append current selection to selected HSL channels");//help appendSelectionToCurveHSL->setParent(groupHSL); //add to HSL group //Close RGB group (group states by default on screen) groupRGB->setOpen(false); groupHSL->setOpen(true); } //Selection group { OFX::GroupParamDescriptor *groupSelection = desc.defineGroupParam(kGroupSelection); groupSelection->setLabel(kGroupSelectionLabel); groupSelection->setOpen(false); groupSelection->setAsTab(); //display selection OFX::BooleanParamDescriptor* boolDisplaySelection = desc.defineBooleanParam(kBoolSelection); boolDisplaySelection->setDefault(true); boolDisplaySelection->setEvaluateOnChange(false);// don't need to recompute on change boolDisplaySelection->setHint("Display the selected zone on screen."); boolDisplaySelection->setParent(groupSelection); //clear selection OFX::PushButtonParamDescriptor* resetSelectionButton = desc.definePushButtonParam(kButtonResetSelection); resetSelectionButton->setLabel(kButtonResetSelectionLabel); resetSelectionButton->setHint("Reset user's selection."); resetSelectionButton->setParent(groupSelection); //selection mode OFX::ChoiceParamDescriptor* selectionMode = desc.defineChoiceParam(kSelectionModeListParamLabel); selectionMode->setLabel(kSelectionModeListParamLabel); selectionMode->setHint( "Selection mode \n - unique : reset past selection before selection \n - additive : add pixels to current selection \n -subtractive : remote pixel from current selection"); selectionMode->appendOption(kSelectionModeListParamOpt2); selectionMode->appendOption(kSelectionModeListParamOpt1); selectionMode->appendOption(kSelectionModeListParamOpt3); selectionMode->setParent(groupSelection); //Precision of selection to curve OFX::IntParamDescriptor* precisionSelectionToCurve = desc.defineIntParam(kprecisionCurveFromSelection); precisionSelectionToCurve->setLabel(kprecisionCurveFromSelectionLabel); precisionSelectionToCurve->setHint("Determinate curve from selection precision."); precisionSelectionToCurve->setRange(1, 1000); precisionSelectionToCurve->setDisplayRange(1, 300.0 ); precisionSelectionToCurve->setDefault(curveFromSelection); precisionSelectionToCurve->setEvaluateOnChange(false); // don't need to recompute on change precisionSelectionToCurve->setParent(groupSelection); } //Histogram overlay group { OFX::GroupParamDescriptor *groupHistogramOverlay = desc.defineGroupParam(kGroupHistogramOverlay); groupHistogramOverlay->setLabel(kGroupHistogramOverlayLabel); groupHistogramOverlay->setOpen(true); groupHistogramOverlay->setAsTab(); //Histogram display settings OFX::ChoiceParamDescriptor* gammaType = desc.defineChoiceParam(kHistoDisplayListParamLabel); gammaType->setLabel(kHistoDisplayListParamLabel); gammaType->setEvaluateOnChange(false); // don't need to recompute on change gammaType->setHint("Histogram display \n -global : normalize all of channels \n -by channel : keep proportions between channels"); gammaType->appendOption(kHistoDisplayListParamOpt2); gammaType->appendOption(kHistoDisplayListParamOpt1); gammaType->setParent(groupHistogramOverlay); //Clean all Button OFX::PushButtonParamDescriptor* resetButtonAll = desc.definePushButtonParam(kButtonResetAll); resetButtonAll->setLabel(kButtonResetAllLabel); resetButtonAll->setHint("Reset all curves. \n Waring : the curves may not be refreshed click on overlay to refresh."); resetButtonAll->setParent(groupHistogramOverlay); } ///Advanced group { OFX::GroupParamDescriptor *groupAdvanced = desc.defineGroupParam(kGroupAdvanced); groupAdvanced->setLabel(kGroupAdvancedLabel); groupAdvanced->setOpen(false); groupAdvanced->setAsTab(); //nbOfstep (advanced group) OFX::IntParamDescriptor* nbStepRange = desc.defineIntParam(knbStepRange); nbStepRange->setLabel(knbStepRangeLabel); nbStepRange->setHint("Determinate histogram overlay precision."); nbStepRange->setRange(1, 1000); nbStepRange->setDisplayRange(1, 600.0 ); nbStepRange->setDefault(255); nbStepRange->setEvaluateOnChange(false); // don't need to recompute on change nbStepRange->setParent(groupAdvanced); //selection multiplier (advanced group) OFX::DoubleParamDescriptor* selectionMultiplier = desc.defineDoubleParam(kselectionMultiplier); selectionMultiplier->setLabel(kselectionMultiplierLabel); selectionMultiplier->setHint("With high values, small selection are more visible."); selectionMultiplier->setRange(0.001,1000.0); selectionMultiplier->setDisplayRange(0.0, 100.0 ); selectionMultiplier->setDefault(2.0); selectionMultiplier->setEvaluateOnChange(false); // don't need to recompute on change selectionMultiplier->setParent(groupAdvanced); //Refresh histograms overlay Button OFX::PushButtonParamDescriptor* refreshOverlayButton = desc.definePushButtonParam(kButtonRefreshOverlay); refreshOverlayButton->setLabel(kButtonRefreshOverlayLabel); refreshOverlayButton->setHint("Refresh histogram overlay."); refreshOverlayButton->setParent(groupAdvanced); //clamp values to 0 and 1 OFX::BooleanParamDescriptor* clampCurveValues = desc.defineBooleanParam(kBoolClampValues); clampCurveValues->setHint("Clamp curve value : values superior to 1 or inferior to 0 will be clamp in process."); clampCurveValues->setDefault(true); clampCurveValues->setParent(groupAdvanced); } //Output settings OFX::ChoiceParamDescriptor* outputType = desc.defineChoiceParam(kOutputListParamLabel); outputType->setLabel(kOutputListParamLabel); outputType->setHint( "Output type \n Alpha channel or Black and White"); outputType->appendOption(kOutputListParamOpt1); outputType->appendOption(kOutputListParamOpt2); outputType->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished //Reverse mask OFX::BooleanParamDescriptor* boolReverseMask = desc.defineBooleanParam(kBoolReverseMask); boolReverseMask->setDefault(false); boolReverseMask->setHint("Revert alpha mask"); }
void describeGeneratorParamsInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { /* to activate this // Create the mandated optional input clip OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); srcClip->setOptional(true); */ // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::ChoiceParamDescriptor* explicitConversion = desc.defineChoiceParam( kParamGeneratorExplicitConversion ); explicitConversion->setLabel( "Explicit conversion" ); explicitConversion->appendOption( kTuttlePluginBitDepthAuto ); explicitConversion->appendOption( kTuttlePluginBitDepth8 ); explicitConversion->appendOption( kTuttlePluginBitDepth16 ); explicitConversion->appendOption( kTuttlePluginBitDepth32f ); explicitConversion->setCacheInvalidation( OFX::eCacheInvalidateValueAll ); explicitConversion->setAnimates( false ); desc.addClipPreferencesSlaveParam( *explicitConversion ); if( OFX::getImageEffectHostDescription()->supportsMultipleClipDepths ) { explicitConversion->setDefault( 0 ); } else { explicitConversion->setIsSecret( true ); explicitConversion->setDefault( static_cast<int>( OFX::getImageEffectHostDescription()->getPixelDepth() ) ); } OFX::ChoiceParamDescriptor* method = desc.defineChoiceParam( kParamMode ); method->setLabel ( "Mode" ); method->appendOption( kParamModeFormat ); method->appendOption( kParamModeSize ); method->setDefault ( eParamModeFormat ); OFX::ChoiceParamDescriptor* format = desc.defineChoiceParam( kParamFormat ); format->setLabel( "Format" ); format->appendOption( kParamFormatPCVideo ); format->appendOption( kParamFormatNTSC ); format->appendOption( kParamFormatPAL ); format->appendOption( kParamFormatHD ); format->appendOption( kParamFormatNTSC169 ); format->appendOption( kParamFormatPAL169 ); format->appendOption( kParamFormat1kSuper35 ); format->appendOption( kParamFormat1kCinemascope ); format->appendOption( kParamFormat2kSuper35 ); format->appendOption( kParamFormat2kCinemascope ); format->appendOption( kParamFormat4kSuper35 ); format->appendOption( kParamFormat4kCinemascope ); format->appendOption( kParamFormatSquare256 ); format->appendOption( kParamFormatSquare512 ); format->appendOption( kParamFormatSquare1k ); format->appendOption( kParamFormatSquare2k ); format->setDefault( eParamFormat2kCinemascope ); OFX::BooleanParamDescriptor* specificRatio = desc.defineBooleanParam( kParamSizeSpecificRatio ); specificRatio->setLabel( "Specific ratio" ); specificRatio->setDefault( false ); specificRatio->setHint( "Specific input image ratio." ); OFX::Int2DParamDescriptor* size = desc.defineInt2DParam( kParamSize ); size->setLabel( "Size" ); size->setDefault( 200, 200 ); size->setRange( 1, 1, std::numeric_limits<int>::max(), std::numeric_limits<int>::max() ); size->setHint( "Set the output size (width, height)." ); OFX::ChoiceParamDescriptor* direction = desc.defineChoiceParam( kParamSizeOrientation ); direction->setLabel( "Orientation" ); direction->appendOption( kParamSizeOrientationX ); direction->appendOption( kParamSizeOrientationY ); direction->setDefault( eParamSizeOrientationX ); OFX::DoubleParamDescriptor* ratioValue = desc.defineDoubleParam( kParamSizeRatioValue ); ratioValue->setLabel( "Ratio Value" ); ratioValue->setDefault( 1.0 ); ratioValue->setRange( 1, std::numeric_limits<int>::max() ); ratioValue->setDisplayRange( 0, 50 ); ratioValue->setHint( "Set the ratio." ); OFX::IntParamDescriptor* width = desc.defineIntParam( kParamSizeWidth ); width->setLabel( "Width" ); width->setDefault( 200 ); width->setRange( 1, std::numeric_limits<int>::max() ); width->setDisplayRange( 0, 3000 ); width->setHint( "Set the width in pixels and specify the ratio." ); OFX::IntParamDescriptor* height = desc.defineIntParam( kParamSizeHeight ); height->setLabel( "Height" ); height->setDefault( 200 ); height->setRange( 1, std::numeric_limits<int>::max() ); height->setDisplayRange( 0, 3000 ); height->setHint( "Set the height in pixels and specify the ratio." ); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void PushPixelPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); // no tiles on src clip, because it depends on the mask content so we can't // define the maximal bounding box needed... srcClip->setSupportsTiles( false ); OFX::ClipDescriptor* maskClip = desc.defineClip( kClipMask ); maskClip->addSupportedComponent( OFX::ePixelComponentRGBA ); maskClip->addSupportedComponent( OFX::ePixelComponentAlpha ); maskClip->setIsMask( true ); maskClip->setOptional( true ); maskClip->setSupportsTiles( true ); OFX::ChoiceParamDescriptor* output = desc.defineChoiceParam( kParamOutput ); output->setLabel( "Output" ); output->appendOption( kParamOutputMotionVectors ); output->appendOption( kParamOutputPushPixel ); output->setDefault( 1 ); OFX::DoubleParamDescriptor* size = desc.defineDoubleParam( kParamSize ); size->setLabel( "Size" ); size->setHint( "Size of the gradient window." ); size->setRange( 0.0, std::numeric_limits<double>::max() ); size->setDisplayRange( 1.0, 10.0 ); size->setDefault( 2.0 ); OFX::BooleanParamDescriptor* normalizedKernel = desc.defineBooleanParam( kParamNormalizedKernel ); normalizedKernel->setLabel( "Normalized kernel" ); normalizedKernel->setHint( "Use a normalized kernel to compute the gradient." ); normalizedKernel->setDefault( true ); //#ifndef TUTTLE_PRODUCTION normalizedKernel->setIsSecret( true ); //#endif OFX::DoubleParamDescriptor* intensity = desc.defineDoubleParam( kParamIntensity ); intensity->setLabel( "Intensity" ); intensity->setHint( "Scale motion vectors." ); intensity->setDisplayRange( 0.0, 2.0 ); intensity->setDefault( 0.75 ); OFX::DoubleParamDescriptor* angle = desc.defineDoubleParam( kParamAngle ); angle->setLabel( "Angle" ); angle->setHint( "Rotation on the gradient." ); angle->setDisplayRange(-180, 180); angle->setDoubleType( OFX::eDoubleTypeAngle ); angle->setDefault( 0.0 ); OFX::ChoiceParamDescriptor* interpolation = desc.defineChoiceParam( kParamInterpolation ); interpolation->setLabel( "Interpolation" ); interpolation->setHint( "Interpolation method." ); interpolation->appendOption( kParamInterpolationNearest ); interpolation->appendOption( kParamInterpolationBilinear ); interpolation->setDefault( 1 ); OFX::ChoiceParamDescriptor* border = desc.defineChoiceParam( kParamBorder ); border->setLabel( "Gradient border" ); border->setHint( "Border method for gradient computation." ); border->appendOption( kParamBorderMirror ); border->appendOption( kParamBorderConstant ); border->appendOption( kParamBorderBlack ); border->appendOption( kParamBorderPadded ); }
void GenericTestExamplePluginFactory::describeInContext(OFX::ImageEffectDescriptor &desc, OFX::ContextEnum /*context*/) { ClipDescriptor *srcClip = desc.defineClip(kOfxImageEffectSimpleSourceClipName); srcClip->addSupportedComponent(ePixelComponentRGBA); srcClip->addSupportedComponent(ePixelComponentAlpha); srcClip->setTemporalClipAccess(false); srcClip->setSupportsTiles(true); srcClip->setIsMask(false); ClipDescriptor *dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(ePixelComponentRGBA); dstClip->addSupportedComponent(ePixelComponentAlpha); dstClip->setSupportsTiles(true); DoubleParamDescriptor *param1 = desc.defineDoubleParam("MinMaxTest"); param1->setLabels("Min/Max Test", "Min/Max Test", "Min/Max Test"); param1->setScriptName("minMaxTest"); param1->setHint("A double parameter to illustrate visual min/max."); param1->setDefault(50.0); param1->setRange(-1000, 1000); param1->setDisplayRange(-1000, 1000); param1->setDoubleType(eDoubleTypePlain); ChoiceParamDescriptor* param2 = desc.defineChoiceParam("enableTest"); param2->setLabels("Enabler", "Enabler", "Enabler"); param2->appendOption("Enable parameter", "Enable parameter"); param2->appendOption("Disable parameter", "Disable parameter"); DoubleParamDescriptor *param3 = desc.defineDoubleParam("enableDbl"); param3->setLabels("Enabled by Enabler", "Enabled by Enabler", "Enabled by Enabler"); BooleanParamDescriptor* bparam = desc.defineBooleanParam("Insignificant"); bparam->setLabels("Insignificant", "Insignificant", "Insignificant"); bparam->setHint("Shouldn't cause a re-render."); bparam->setEvaluateOnChange(false); BooleanParamDescriptor* bparam2 = desc.defineBooleanParam("secretTest"); bparam2->setLabels("SECRET!", "SECRET!", "SECRET!"); bparam2->setIsSecret(true); bparam2->setHint("Shouldn't be shown in the user interface."); BooleanParamDescriptor* bparam3 = desc.defineBooleanParam("nonPersistent"); bparam3->setLabels("Non-persistent", "Non-persistent", "Non-persistent"); bparam3->setHint("Shouldn't be saved in the plugin description."); bparam3->setIsPersistent(false); DoubleParamDescriptor *param5 = desc.defineDoubleParam("animateDbl"); param5->setLabels("No Animation", "No Animation", "No Animation"); param5->setAnimates(false); DoubleParamDescriptor *param6 = desc.defineDoubleParam("angleTest"); param6->setLabels("Angle?", "Angle?", "Angle?"); param6->setRange(-180.0, 180.0); param6->setHint("An angle parameter."); param6->setDoubleType(eDoubleTypeAngle); PushButtonParamDescriptor* pb = desc.definePushButtonParam("pbButton"); pb->setLabels("Push Me", "Push Me", "Push Me"); PushButtonParamDescriptor* pb2 = desc.definePushButtonParam("analyseButton"); pb2->setLabels("Analyse", "Analyse", "Analyse"); DoubleParamDescriptor *param7 = desc.defineDoubleParam("analysisParam"); param7->setLabels("Analysis Slave", "Analysis Slave", "Analysis Slave"); Double2DParamDescriptor* widgetPos = desc.defineDouble2DParam("widgetPos"); widgetPos->setLabels("Widget Position", "Widget Position", "Widget Position"); widgetPos->setDoubleType(OFX::eDoubleTypeXYAbsolute); widgetPos->setDefaultCoordinateSystem(eCoordinatesNormalised); widgetPos->setDimensionLabels("X Position", "Y Position"); widgetPos->setDefault(0.5, 0.5); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void HistogramPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc,OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); //global display OFX::BooleanParamDescriptor* boolGLOBAL = desc.defineBooleanParam(kGlobalDisplay); boolGLOBAL->setHint("Display global overlay on screen."); boolGLOBAL->setDefault(true); // RGB / HSL { //Group Param (RGB & HSL) OFX::GroupParamDescriptor *groupRGB = desc.defineGroupParam(kGroupRGB); groupRGB->setLabel(kGroupRGBLabel); OFX::GroupParamDescriptor *groupHSL = desc.defineGroupParam(kGroupHSL); groupHSL->setLabel(kGroupHSLLabel); //Channels checkboxes (RGB) OFX::BooleanParamDescriptor* boolR = desc.defineBooleanParam(kBoolRed); boolR->setDefault(true); //red channel is not selected by default boolR->setHint("Activate Red channel"); boolR->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolR->setParent(groupRGB); //red multiplier OFX::DoubleParamDescriptor* redMultiplier = desc.defineDoubleParam(kMultiplierRed); redMultiplier->setLabel(kMultiplierLabel); redMultiplier->setHint("Determinate curve from selection precision."); redMultiplier->setRange(1, 1000); redMultiplier->setDisplayRange(0,5); redMultiplier->setDefault(1); redMultiplier->setParent(groupRGB); OFX::BooleanParamDescriptor* boolG = desc.defineBooleanParam(kBoolGreen); boolG->setDefault(true); //green channel is not selected by default boolG->setHint("Activate Green channel"); boolG->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolG->setParent(groupRGB); //green multiplier OFX::DoubleParamDescriptor* greenMultiplier = desc.defineDoubleParam(kMultiplierGreen); greenMultiplier->setLabel(kMultiplierLabel); greenMultiplier->setHint("Determinate curve from selection precision."); greenMultiplier->setRange(1, 1000); greenMultiplier->setDisplayRange(0,5); greenMultiplier->setDefault(1); greenMultiplier->setParent(groupRGB); OFX::BooleanParamDescriptor* boolB = desc.defineBooleanParam(kBoolBlue); boolB->setHint("Activate Blue channel"); boolB->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolB->setDefault(true); //blue channel is not selected by default boolB->setParent(groupRGB); //blue multiplier OFX::DoubleParamDescriptor* blueMultiplier = desc.defineDoubleParam(kMultiplierBlue); blueMultiplier->setLabel(kMultiplierLabel); blueMultiplier->setHint("Determinate curve from selection precision."); blueMultiplier->setRange(1, 1000); blueMultiplier->setDisplayRange(0,5); blueMultiplier->setDefault(1); blueMultiplier->setParent(groupRGB); //Channels check box (HSL) OFX::BooleanParamDescriptor* boolH = desc.defineBooleanParam(kBoolHue); boolH->setDefault(true); boolH->setHint("Activate Hue channel"); boolH->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolH->setParent(groupHSL); //Hue multiplier OFX::DoubleParamDescriptor* hueMultiplier = desc.defineDoubleParam(kMultiplierHue); hueMultiplier->setLabel(kMultiplierLabel); hueMultiplier->setHint("Determinate curve from selection precision."); hueMultiplier->setRange(1, 1000); hueMultiplier->setDisplayRange(0,5); hueMultiplier->setDefault(1); hueMultiplier->setParent(groupHSL); OFX::BooleanParamDescriptor* boolS = desc.defineBooleanParam(kBoolSaturation); boolS->setDefault(true); boolS->setHint("Activate Saturation channel"); boolS->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolS->setParent(groupHSL); //Saturation multiplier OFX::DoubleParamDescriptor* saturationMultiplier = desc.defineDoubleParam(kMultiplierSaturation); saturationMultiplier->setLabel(kMultiplierLabel); saturationMultiplier->setHint("Determinate curve from selection precision."); saturationMultiplier->setRange(1, 1000); saturationMultiplier->setDisplayRange(0,5); saturationMultiplier->setDefault(1); saturationMultiplier->setParent(groupHSL); OFX::BooleanParamDescriptor* boolL = desc.defineBooleanParam(kBoolLightness); boolL->setHint("Activate Lightness channel"); boolL->setLayoutHint( OFX::eLayoutHintNoNewLine ); //line is not finished boolL->setDefault(true); boolL->setParent(groupHSL); //Lightness multiplier OFX::DoubleParamDescriptor* lightnessMultiplier = desc.defineDoubleParam(kMultiplierLightness); lightnessMultiplier->setLabel(kMultiplierLabel); lightnessMultiplier->setHint("Determinate curve from selection precision."); lightnessMultiplier->setRange(1, 1000); lightnessMultiplier->setDisplayRange(0,5); lightnessMultiplier->setDefault(1); lightnessMultiplier->setParent(groupHSL); //Close RGB group (group states by default on screen) groupRGB->setOpen(true); groupHSL->setOpen(true); } //Histogram overlay group { OFX::GroupParamDescriptor *groupHistogramOverlay = desc.defineGroupParam(kGroupHistogramOverlay); groupHistogramOverlay->setLabel(kGroupHistogramOverlayLabel); groupHistogramOverlay->setOpen(true); // groupHistogramOverlay->setAsTab(); //Histogram display settings OFX::ChoiceParamDescriptor* gammaType = desc.defineChoiceParam(kHistoDisplayListParamLabel); gammaType->setLabel(kHistoDisplayListParamLabel); gammaType->setEvaluateOnChange(false); // don't need to recompute on change gammaType->setHint("Histogram display \n -global : normalize all of channels \n -by channel : keep proportions between channels"); gammaType->appendOption(kHistoDisplayListParamOpt2); gammaType->appendOption(kHistoDisplayListParamOpt1); gammaType->setParent(groupHistogramOverlay); //nbOfstep (advanced group) OFX::IntParamDescriptor* nbStepRange = desc.defineIntParam(knbStepRange); nbStepRange->setLabel(knbStepRangeLabel); nbStepRange->setHint("Determinate histogram overlay precision."); nbStepRange->setRange(1, 1000); nbStepRange->setDisplayRange(1, 600.0 ); nbStepRange->setDefault(255); nbStepRange->setEvaluateOnChange(false); // don't need to recompute on change nbStepRange->setParent(groupHistogramOverlay); //selection multiplier (advanced group) OFX::DoubleParamDescriptor* selectionMultiplier = desc.defineDoubleParam(kselectionMultiplier); selectionMultiplier->setLabel(kselectionMultiplierLabel); selectionMultiplier->setHint("With high values, small selection are more visible."); selectionMultiplier->setRange(0.001,1000.0); selectionMultiplier->setDisplayRange(0.0, 100.0 ); selectionMultiplier->setDefault(2.0); selectionMultiplier->setEvaluateOnChange(false); // don't need to recompute on change selectionMultiplier->setParent(groupHistogramOverlay); //Refresh histograms overlay Button OFX::PushButtonParamDescriptor* refreshOverlayButton = desc.definePushButtonParam(kButtonRefreshOverlay); refreshOverlayButton->setLabel(kButtonRefreshOverlayLabel); refreshOverlayButton->setHint("Refresh histogram overlay."); refreshOverlayButton->setParent(groupHistogramOverlay); } //Selection group { OFX::GroupParamDescriptor *groupSelection = desc.defineGroupParam(kGroupSelection); groupSelection->setLabel(kGroupSelectionLabel); groupSelection->setOpen(false); // groupSelection->setAsTab(); //display selection OFX::BooleanParamDescriptor* boolDisplaySelection = desc.defineBooleanParam(kBoolSelection); boolDisplaySelection->setDefault(true); boolDisplaySelection->setEvaluateOnChange(false);// don't need to recompute on change boolDisplaySelection->setHint("Display the selected zone on screen."); boolDisplaySelection->setParent(groupSelection); //clear selection OFX::PushButtonParamDescriptor* resetSelectionButton = desc.definePushButtonParam(kButtonResetSelection); resetSelectionButton->setLabel(kButtonResetSelectionLabel); resetSelectionButton->setHint("Reset user's selection."); resetSelectionButton->setParent(groupSelection); //selection mode OFX::ChoiceParamDescriptor* selectionMode = desc.defineChoiceParam(kSelectionModeListParamLabel); selectionMode->setLabel(kSelectionModeListParamLabel); selectionMode->setHint( "Selection mode \n - unique : reset past selection before selection \n - additive : add pixels to current selection \n -subtractive : remote pixel from current selection"); selectionMode->appendOption(kSelectionModeListParamOpt2); selectionMode->appendOption(kSelectionModeListParamOpt1); selectionMode->appendOption(kSelectionModeListParamOpt3); selectionMode->setParent(groupSelection); } }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void AVReaderPluginFactory::describeInContext(OFX::ImageEffectDescriptor& desc, OFX::EContext context) { // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip(kOfxImageEffectOutputClipName); dstClip->addSupportedComponent(OFX::ePixelComponentRGBA); dstClip->addSupportedComponent(OFX::ePixelComponentRGB); dstClip->addSupportedComponent(OFX::ePixelComponentAlpha); dstClip->setSupportsTiles(kSupportTiles); describeReaderParamsInContext(desc, context); // Groups OFX::GroupParamDescriptor* formatGroup = desc.defineGroupParam(kParamFormatGroup); OFX::GroupParamDescriptor* videoGroup = desc.defineGroupParam(kParamVideoGroup); OFX::GroupParamDescriptor* metaGroup = desc.defineGroupParam(kParamMetaGroup); formatGroup->setLabel("Format"); videoGroup->setLabel("Video"); metaGroup->setLabel("Metadata"); formatGroup->setAsTab(); videoGroup->setAsTab(); metaGroup->setAsTab(); /// FORMAT PARAMETERS avtranscoder::FormatContext formatContext(AV_OPT_FLAG_DECODING_PARAM); avtranscoder::OptionArray formatOptions = formatContext.getOptions(); common::addOptionsToGroup(desc, formatGroup, formatOptions, common::kPrefixFormat); OFX::GroupParamDescriptor* formatDetailedGroup = desc.defineGroupParam(kParamFormatDetailedGroup); formatDetailedGroup->setLabel("Detailed"); formatDetailedGroup->setAsTab(); formatDetailedGroup->setParent(formatGroup); avtranscoder::OptionArrayMap formatDetailedGroupOptions = avtranscoder::getAvailableOptionsPerOutputFormat(); common::addOptionsToGroup(desc, formatDetailedGroup, formatDetailedGroupOptions, common::kPrefixFormat); /// VIDEO PARAMETERS AVCodecContext* videoContext = avcodec_alloc_context3(NULL); avtranscoder::OptionArray videoOptions; avtranscoder::loadOptions(videoOptions, videoContext, AV_OPT_FLAG_DECODING_PARAM | AV_OPT_FLAG_VIDEO_PARAM); common::addOptionsToGroup(desc, videoGroup, videoOptions, common::kPrefixVideo); av_free(videoContext); OFX::BooleanParamDescriptor* useCustomSAR = desc.defineBooleanParam(kParamUseCustomSAR); useCustomSAR->setLabel("Override SAR"); useCustomSAR->setDefault(false); useCustomSAR->setHint("Override the file SAR (Storage Aspect Ratio) with a custom SAR value."); useCustomSAR->setParent(videoGroup); OFX::DoubleParamDescriptor* customSAR = desc.defineDoubleParam(kParamCustomSAR); customSAR->setLabel("Custom SAR"); customSAR->setDefault(1.0); customSAR->setDisplayRange(0., 3.); customSAR->setRange(0., 10.); customSAR->setHint("Choose a custom value to override the file SAR (Storage Aspect Ratio). Maximum value: 10."); customSAR->setParent(videoGroup); OFX::IntParamDescriptor* streamIndex = desc.defineIntParam(kParamVideoStreamIndex); streamIndex->setLabel(kParamVideoStreamIndexLabel); streamIndex->setDefault(0); streamIndex->setDisplayRange(0., 16.); streamIndex->setRange(0., 100.); streamIndex->setHint("Choose a custom value to decode the video stream you want. Maximum value: 100."); streamIndex->setParent(videoGroup); OFX::GroupParamDescriptor* videoDetailedGroup = desc.defineGroupParam(kParamVideoDetailedGroup); videoDetailedGroup->setLabel("Detailed"); videoDetailedGroup->setAsTab(); videoDetailedGroup->setParent(videoGroup); avtranscoder::OptionArrayMap videoDetailedGroupOptions = avtranscoder::getAvailableOptionsPerVideoCodec(); common::addOptionsToGroup(desc, videoDetailedGroup, videoDetailedGroupOptions, common::kPrefixVideo); /// METADATA PARAMETERS AVCodecContext* metaDataContext = avcodec_alloc_context3(NULL); avtranscoder::OptionArray metaDataOptions; avtranscoder::loadOptions(metaDataOptions, metaDataContext, AV_OPT_FLAG_DECODING_PARAM | AV_OPT_FLAG_METADATA); common::addOptionsToGroup(desc, metaGroup, metaDataOptions, common::kPrefixMetaData); av_free(metaDataContext); OFX::StringParamDescriptor* metaDataWrapper = desc.defineStringParam(kParamMetaDataWrapper); metaDataWrapper->setLabel(kParamMetaDataWrapperLabel); metaDataWrapper->setEnabled(false); metaDataWrapper->setStringType(OFX::eStringTypeMultiLine); metaDataWrapper->setParent(metaGroup); OFX::StringParamDescriptor* metaDataVideo = desc.defineStringParam(kParamMetaDataVideo); metaDataVideo->setLabel(kParamMetaDataVideoLabel); metaDataVideo->setEnabled(false); metaDataVideo->setStringType(OFX::eStringTypeMultiLine); metaDataVideo->setParent(metaGroup); OFX::StringParamDescriptor* metaDataAudio = desc.defineStringParam(kParamMetaDataAudio); metaDataAudio->setLabel(kParamMetaDataAudioLabel); metaDataAudio->setEnabled(false); metaDataAudio->setStringType(OFX::eStringTypeMultiLine); metaDataAudio->setParent(metaGroup); OFX::StringParamDescriptor* metaDataData = desc.defineStringParam(kParamMetaDataData); metaDataData->setLabel(kParamMetaDataDataLabel); metaDataData->setEnabled(false); metaDataData->setStringType(OFX::eStringTypeMultiLine); metaDataData->setParent(metaGroup); OFX::StringParamDescriptor* metaDataSubtitle = desc.defineStringParam(kParamMetaDataSubtitle); metaDataSubtitle->setLabel(kParamMetaDataSubtitleLabel); metaDataSubtitle->setEnabled(false); metaDataSubtitle->setStringType(OFX::eStringTypeMultiLine); metaDataSubtitle->setParent(metaGroup); OFX::StringParamDescriptor* metaDataAttachement = desc.defineStringParam(kParamMetaDataAttachement); metaDataAttachement->setLabel(kParamMetaDataAttachementLabel); metaDataAttachement->setEnabled(false); metaDataAttachement->setStringType(OFX::eStringTypeMultiLine); metaDataAttachement->setParent(metaGroup); OFX::StringParamDescriptor* metaDataUnknown = desc.defineStringParam(kParamMetaDataUnknown); metaDataUnknown->setLabel(kParamMetaDataUnknownLabel); metaDataUnknown->setEnabled(false); metaDataUnknown->setStringType(OFX::eStringTypeMultiLine); metaDataUnknown->setParent(metaGroup); /// VERBOSE OFX::BooleanParamDescriptor* useVerbose = desc.defineBooleanParam(kParamVerbose); useVerbose->setLabel("Set to verbose"); useVerbose->setDefault(false); useVerbose->setHint("Set plugin to verbose to get debug informations."); }
/** * @brief Function called to describe the plugin controls and features. * @param[in, out] desc Effect descriptor * @param[in] context Application context */ void ColorTransformPluginFactory::describeInContext( OFX::ImageEffectDescriptor& desc, OFX::EContext context ) { OFX::ClipDescriptor* srcClip = desc.defineClip( kOfxImageEffectSimpleSourceClipName ); srcClip->addSupportedComponent( OFX::ePixelComponentRGBA ); srcClip->addSupportedComponent( OFX::ePixelComponentRGB ); srcClip->addSupportedComponent( OFX::ePixelComponentAlpha ); srcClip->setSupportsTiles( kSupportTiles ); // Create the mandated output clip OFX::ClipDescriptor* dstClip = desc.defineClip( kOfxImageEffectOutputClipName ); dstClip->addSupportedComponent( OFX::ePixelComponentRGBA ); dstClip->addSupportedComponent( OFX::ePixelComponentRGB ); dstClip->addSupportedComponent( OFX::ePixelComponentAlpha ); dstClip->setSupportsTiles( kSupportTiles ); OFX::DoubleParamDescriptor* paramHueShift = desc.defineDoubleParam( kParamHueShift ); paramHueShift->setLabel( "Hue Shift" ); paramHueShift->setDefault( 0.0 ); paramHueShift->setDisplayRange( 0.0, 1.0 ); OFX::DoubleParamDescriptor* paramSaturation = desc.defineDoubleParam( kParamSaturation ); paramSaturation->setLabel( "Saturation" ); paramSaturation->setDefault( 0.0 ); paramSaturation->setDisplayRange( 0.0, 1.0 ); OFX::DoubleParamDescriptor* paramBrightnessRGB = desc.defineDoubleParam( kParamBrightnessRGB ); paramBrightnessRGB->setLabel( "Global Brightness RGB" ); paramBrightnessRGB->setHint( "Global manipulation of RGB brightness." ); paramBrightnessRGB->setDefault( 1.0 ); paramBrightnessRGB->setDisplayRange( 0.0, 1.0 ); OFX::RGBAParamDescriptor* paramBrightness = desc.defineRGBAParam( kParamBrightness ); paramBrightness->setLabel( "Brightness" ); paramBrightness->setDefault( 1.0, 1.0, 1.0, 1.0 ); OFX::DoubleParamDescriptor* paramPivotRGB = desc.defineDoubleParam( kParamPivotRGB ); paramPivotRGB->setLabel( "Global Pivot RGB" ); paramPivotRGB->setHint( "Global manipulation of RGB pivot." ); paramPivotRGB->setDefault( 0.0 ); paramPivotRGB->setDisplayRange( 0.0, 1.0 ); OFX::RGBAParamDescriptor* paramPivot = desc.defineRGBAParam( kParamPivot ); paramPivot->setLabel( "Pivot" ); paramPivot->setDefault( 0.0, 0.0, 0.0, 0.0 ); OFX::DoubleParamDescriptor* paramContrastRGB = desc.defineDoubleParam( kParamContrastRGB ); paramContrastRGB->setLabel( "Global Contrast RGB" ); paramContrastRGB->setHint( "Global manipulation of RGB contrast." ); paramContrastRGB->setDefault( 1.0 ); paramContrastRGB->setDisplayRange( 0.0, 1.0 ); OFX::RGBAParamDescriptor* paramContrast = desc.defineRGBAParam( kParamContrast ); paramContrast->setLabel( "Contrast" ); paramContrast->setDefault( 1.0, 1.0, 1.0, 1.0 ); OFX::DoubleParamDescriptor* paramOffsetRGB = desc.defineDoubleParam( kParamOffsetRGB ); paramOffsetRGB->setLabel( "Global Offset RGB" ); paramOffsetRGB->setHint( "Global manipulation of RGB offset." ); paramOffsetRGB->setDefault( 0.0 ); paramOffsetRGB->setDisplayRange( 0.0, 1.0 ); OFX::RGBAParamDescriptor* paramOffset = desc.defineRGBAParam( kParamOffset ); paramOffset->setLabel( "Offset" ); paramOffset->setDefault( 0.0, 0.0, 0.0, 0.0 ); }