/**
* @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 ResizePluginFactory::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::ChoiceParamDescriptor* method = desc.defineChoiceParam(kParamMode);
method->setLabel("Mode");
method->appendOption(kParamModeFormat);
method->appendOption(kParamModeSize);
method->appendOption(kParamModeScale);
method->setDefault(eParamModeFormat);
OFX::ChoiceParamDescriptor* format = desc.defineChoiceParam(kParamFormat);
format->setLabel("Format");
format->appendOption(kParamFormatPCVideo, kParamFormatPCVideoLabel);
format->appendOption(kParamFormatNTSC, kParamFormatNTSCLabel);
format->appendOption(kParamFormatPAL, kParamFormatPALLabel);
format->appendOption(kParamFormatHD, kParamFormatHDLabel);
format->appendOption(kParamFormatNTSC169, kParamFormatNTSC169Label);
format->appendOption(kParamFormatPAL169, kParamFormatPAL169Label);
format->appendOption(kParamFormat1kSuper35, kParamFormat1kSuper35Label);
format->appendOption(kParamFormat1kCinemascope, kParamFormat1kCinemascopeLabel);
format->appendOption(kParamFormat2kSuper35, kParamFormat2kSuper35Label);
format->appendOption(kParamFormat2kCinemascope, kParamFormat2kCinemascopeLabel);
format->appendOption(kParamFormat4kSuper35, kParamFormat4kSuper35Label);
format->appendOption(kParamFormat4kCinemascope, kParamFormat4kCinemascopeLabel);
format->appendOption(kParamFormatSquare256, kParamFormatSquare256Label);
format->appendOption(kParamFormatSquare512, kParamFormatSquare512Label);
format->appendOption(kParamFormatSquare1k, kParamFormatSquare1kLabel);
format->appendOption(kParamFormatSquare2k, kParamFormatSquare2kLabel);
format->setDefault(eParamFormat2kCinemascope);
OFX::Double2DParamDescriptor* scale = desc.defineDouble2DParam(kParamScale);
scale->setLabel("Scale");
scale->setDefault(1.0, 1.0);
scale->setRange(0.01, 0.01, std::numeric_limits<double>::max(), std::numeric_limits<double>::max());
scale->setDisplayRange(0.1, 0.1, 2.5, 2.5);
scale->setHint("Scale the input image [0, 0, width*scale, height*scale].");
OFX::BooleanParamDescriptor* keepRatio = desc.defineBooleanParam(kParamSizeKeepRatio);
keepRatio->setLabel("Keep ratio");
keepRatio->setDefault(false);
keepRatio->setHint("Keep 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::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 keep the input image 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 keep the input image ratio.");
#if(TUTTLE_EXPERIMENTAL)
OFX::BooleanParamDescriptor* center = desc.defineBooleanParam(kParamCenter);
center->setLabel("Center resizing");
center->setDefault(false);
center->setHint("Resize around the center point.");
OFX::Double2DParamDescriptor* centerPoint = desc.defineDouble2DParam(kParamCenterPoint);
centerPoint->setDefault(100, 100);
centerPoint->setLabel("Center point at");
centerPoint->setHint("Position of the center point.");
#endif
// sampler parameters //
describeSamplerParamsInContext(desc, context);
}
/**
* @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" );
}
