Magick++/lib/STL.cpp - platform/external/ImageMagick - Git at Google

 // This may look like C code, but it is really -*- C++ -*-
 //
 // Copyright Bob Friesenhahn, 1999, 2002
 // Copyright Dirk Lemstra 2013-2017
 //
 // Implementation of STL classes and functions
 //

 #define MAGICKCORE_IMPLEMENTATION  1
 #define MAGICK_PLUSPLUS_IMPLEMENTATION 1

 #include <Magick++/Functions.h>
 #include <Magick++/Image.h>
 #include <Magick++/STL.h>

 // Adaptive-blur image with specified blur factor
 Magick::adaptiveBlurImage::adaptiveBlurImage( const double radius_,
       const double sigma_  )
       : _radius( radius_ ),
         _sigma( sigma_ )
 {
 }
 void Magick::adaptiveBlurImage::operator()( Magick::Image &image_ ) const
 {
   image_.adaptiveBlur( _radius, _sigma );
 }

 // Local adaptive threshold image
 Magick::adaptiveThresholdImage::adaptiveThresholdImage( const size_t width_,
                                                         const size_t height_,
                                                         const ssize_t offset_ )
       : _width(width_),
         _height(height_),
         _offset(offset_)
 {
 }
 void Magick::adaptiveThresholdImage::operator()( Magick::Image &image_ ) const
 {
   image_.adaptiveThreshold( _width, _height, _offset );
 }

 // Add noise to image with specified noise type
 Magick::addNoiseImage::addNoiseImage(const Magick::NoiseType noiseType_,
   const double attenuate_)
   : _noiseType(noiseType_),
     _attenuate(attenuate_)
 {
 }

 void Magick::addNoiseImage::operator()(Magick::Image &image_) const
 {
   image_.addNoise(_noiseType,_attenuate);
 }

 // Transform image by specified affine (or free transform) matrix.
 Magick::affineTransformImage::affineTransformImage( const DrawableAffine &affine_  )
   : _affine( affine_ )
 {
 }
 void Magick::affineTransformImage::operator()( Magick::Image &image_ ) const
 {
   image_.affineTransform( _affine );
 }

 // Annotate image (draw text on image)

 // Annotate using specified text, and placement location
 Magick::annotateImage::annotateImage ( const std::string &text_,
                                        const Magick::Geometry &geometry_ )
       : _text( text_ ),
 	_geometry( geometry_ ),
 	_gravity( Magick::NorthWestGravity ),
         _degrees( 0 )
 {
 }
 // Annotate using specified text, bounding area, and placement gravity
 Magick::annotateImage::annotateImage ( const std::string &text_,
                                        const Magick::Geometry &geometry_,
                                        const Magick::GravityType gravity_ )
   : _text( text_ ),
     _geometry( geometry_ ),
     _gravity( gravity_ ),
     _degrees( 0 )
 {
 }
 // Annotate with text using specified text, bounding area, placement
 // gravity, and rotation.
 Magick::annotateImage::annotateImage ( const std::string &text_,
                     const Magick::Geometry &geometry_,
                     const Magick::GravityType gravity_,
                     const double degrees_ )
       : _text( text_ ),
         _geometry( geometry_ ),
         _gravity( gravity_ ),
         _degrees( degrees_ )
 {
 }
 // Annotate with text (bounding area is entire image) and placement
 // gravity.
 Magick::annotateImage::annotateImage ( const std::string &text_,
                                        const Magick::GravityType gravity_ )
   : _text( text_ ),
     _geometry( ),
     _gravity( gravity_ ),
     _degrees( 0 )
 {
 }
 void Magick::annotateImage::operator()( Magick::Image &image_ ) const
 {
   image_.annotate( _text, _geometry, _gravity, _degrees );
 }

 // Blur image with specified blur factor
 Magick::blurImage::blurImage( const double radius_, const double sigma_  )
       : _radius( radius_ ),
         _sigma( sigma_ )
 {
 }
 void Magick::blurImage::operator()( Magick::Image &image_ ) const
 {
   image_.blur( _radius, _sigma );
 }

 // Border image (add border to image)
 Magick::borderImage::borderImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::borderImage::operator()( Magick::Image &image_ ) const
 {
   image_.border( _geometry );
 }

 // Extract channel from image
 Magick::channelImage::channelImage( const Magick::ChannelType channel_ )
   : _channel( channel_ )
 {
 }
 void Magick::channelImage::operator()( Magick::Image &image_ ) const
 {
   image_.channel( _channel );
 }

 // Charcoal effect image (looks like charcoal sketch)
 Magick::charcoalImage::charcoalImage( const double radius_, const double sigma_ )
       : _radius( radius_ ),
         _sigma( sigma_ )
 {
 }
 void Magick::charcoalImage::operator()( Magick::Image &image_ ) const
 {
   image_.charcoal( _radius, _sigma );
 }

 // Chop image (remove vertical or horizontal subregion of image)
 Magick::chopImage::chopImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::chopImage::operator()( Magick::Image &image_ ) const
 {
   image_.chop( _geometry );
 }

 // accepts a lightweight Color Correction Collection (CCC) file which solely
 // contains one or more color corrections and applies the correction to the
 // image.
 Magick::cdlImage::cdlImage( const std::string &cdl_ )
   : _cdl ( cdl_ )
 {
 }
 void Magick::cdlImage::operator()( Image &image_ ) const
 {
   image_.cdl( _cdl.c_str() );
 }

 // Colorize image using pen color at specified percent alpha
 Magick::colorizeImage::colorizeImage( const unsigned int alphaRed_,
                                       const unsigned int alphaGreen_,
                                       const unsigned int alphaBlue_,
                                       const Magick::Color &penColor_ )
   : _alphaRed ( alphaRed_ ),
     _alphaGreen ( alphaGreen_ ),
     _alphaBlue ( alphaBlue_ ),
     _penColor( penColor_ )
 {
 }
 Magick::colorizeImage::colorizeImage( const unsigned int alpha_,
                                       const Magick::Color &penColor_ )
   : _alphaRed ( alpha_ ),
     _alphaGreen ( alpha_ ),
     _alphaBlue ( alpha_ ),
     _penColor( penColor_ )
 {
 }
 void Magick::colorizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.colorize( _alphaRed, _alphaGreen, _alphaBlue, _penColor );
 }

 // Apply a color matrix to the image channels.  The user supplied
 // matrix may be of order 1 to 5 (1x1 through 5x5).
 Magick::colorMatrixImage::colorMatrixImage( const size_t order_,
               const double *color_matrix_ )
   : _order( order_ ),
     _color_matrix( color_matrix_ )
 {
 }
 void Magick::colorMatrixImage::operator()( Image &image_ ) const
 {
   image_.colorMatrix( _order, _color_matrix );
 }

 // Convert the image colorspace representation
 Magick::colorSpaceImage::colorSpaceImage( Magick::ColorspaceType colorSpace_ )
   : _colorSpace( colorSpace_ )
 {
 }
 void Magick::colorSpaceImage::operator()( Magick::Image &image_ ) const
 {
   image_.colorSpace( _colorSpace );
 }

 // Comment image (add comment string to image)
 Magick::commentImage::commentImage( const std::string &comment_ )
   : _comment( comment_ )
 {
 }
 void Magick::commentImage::operator()( Magick::Image &image_ ) const
 {
   image_.comment( _comment );
 }

 // Compose an image onto another at specified offset and using
 // specified algorithm
 Magick::compositeImage::compositeImage( const Magick::Image &compositeImage_,
                                         ssize_t xOffset_,
                                         ssize_t yOffset_,
                                         Magick::CompositeOperator compose_  )
   : _compositeImage( compositeImage_ ),
     _xOffset ( xOffset_ ),
     _yOffset ( yOffset_ ),
     _compose ( compose_ )
 {
 }
 Magick::compositeImage::compositeImage( const Magick::Image &compositeImage_,
                                         const Magick::Geometry &offset_,
                                         Magick::CompositeOperator compose_  )
   : _compositeImage( compositeImage_ ),
     _xOffset ( offset_.xOff() ),
     _yOffset ( offset_.yOff() ),
     _compose ( compose_ )
 {
 }
 void Magick::compositeImage::operator()( Image &image_ ) const
 {
   image_.composite( _compositeImage, _xOffset, _yOffset, _compose );
 }

 // Contrast image (enhance intensity differences in image)
 Magick::contrastImage::contrastImage( const size_t sharpen_ )
   : _sharpen( sharpen_ )
 {
 }
 void Magick::contrastImage::operator()( Magick::Image &image_ ) const
 {
   image_.contrast( _sharpen );
 }

 // Crop image (subregion of original image)
 Magick::cropImage::cropImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::cropImage::operator()( Magick::Image &image_ ) const
 {
   image_.crop( _geometry );
 }

 // Cycle image colormap
 Magick::cycleColormapImage::cycleColormapImage( const ssize_t amount_ )
   : _amount( amount_ )
 {
 }
 void Magick::cycleColormapImage::operator()( Magick::Image &image_ ) const
 {
   image_.cycleColormap( _amount );
 }

 // Despeckle image (reduce speckle noise)
 Magick::despeckleImage::despeckleImage( void )
 {
 }
 void Magick::despeckleImage::operator()( Magick::Image &image_ ) const
 {
   image_.despeckle( );
 }

 // Distort image.  distorts an image using various distortion methods, by
 // mapping color lookups of the source image to a new destination image
 // usally of the same size as the source image, unless 'bestfit' is set to
 // true.
 Magick::distortImage::distortImage( const Magick::DistortMethod method_,
                                     const size_t number_arguments_,
                                     const double *arguments_,
                                     const bool bestfit_ )
   : _method ( method_ ),
     _number_arguments ( number_arguments_ ),
     _arguments ( arguments_ ),
     _bestfit( bestfit_ )
 {
 }
 Magick::distortImage::distortImage( const Magick::DistortMethod method_,
                                     const size_t number_arguments_,
                                     const double *arguments_ )
   : _method ( method_ ),
     _number_arguments ( number_arguments_ ),
     _arguments ( arguments_ ),
     _bestfit( false )
 {
 }
 void Magick::distortImage::operator()( Magick::Image &image_ ) const
 {
   image_.distort( _method, _number_arguments, _arguments, _bestfit );
 }

 // Draw on image
 Magick::drawImage::drawImage( const Magick::Drawable &drawable_ )
   : _drawableList()
 {
   _drawableList.push_back( drawable_ );
 }
 Magick::drawImage::drawImage( const std::vector<Magick::Drawable> &drawable_ )
   : _drawableList( drawable_ )
 {
 }
 void Magick::drawImage::operator()( Magick::Image &image_ ) const
 {
   image_.draw( _drawableList );
 }

 // Edge image (hilight edges in image)
 Magick::edgeImage::edgeImage( const double radius_ )
   : _radius( radius_ )
 {
 }
 void Magick::edgeImage::operator()( Magick::Image &image_ ) const
 {
   image_.edge( _radius );
 }

 // Emboss image (hilight edges with 3D effect)
 Magick::embossImage::embossImage( void )
   : _radius( 1 ),
     _sigma( 0.5 )
 {
 }
 Magick::embossImage::embossImage( const double radius_, const double sigma_ )
   : _radius( radius_ ),
     _sigma( sigma_ )
 {
 }
 void Magick::embossImage::operator()( Magick::Image &image_ ) const
 {
   image_.emboss( _radius, _sigma );
 }

 // Enhance image (minimize noise)
 Magick::enhanceImage::enhanceImage( void )
 {
 }
 void Magick::enhanceImage::operator()( Magick::Image &image_ ) const
 {
   image_.enhance( );
 }

 // Equalize image (histogram equalization)
 Magick::equalizeImage::equalizeImage( void )
 {
 }
 void Magick::equalizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.equalize( );
 }

 // Color to use when filling drawn objects
 Magick::fillColorImage::fillColorImage( const Magick::Color &fillColor_ )
   : _fillColor( fillColor_ )
 {
 }
 void Magick::fillColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.fillColor( _fillColor );
 }

 // Flip image (reflect each scanline in the vertical direction)
 Magick::flipImage::flipImage( void )
 {
 }
 void Magick::flipImage::operator()( Magick::Image &image_ ) const
 {
   image_.flip( );
 }

 Magick::floodFillAlphaImage::floodFillAlphaImage(const ssize_t x_,
   const ssize_t y_,const unsigned int alpha_,const Color &target_,
   const bool invert_)
   : _target(target_),
     _alpha(alpha_),
     _x(x_),
     _y(y_),
     _invert(invert_)
 {
 }

 void Magick::floodFillAlphaImage::operator()(Magick::Image &image_) const
 {
   image_.floodFillAlpha(_x,_y,_alpha,_target,_invert);
 }

 Magick::floodFillColorImage::floodFillColorImage(const ssize_t x_,
   const ssize_t y_,const Magick::Color &fillColor_,const bool invert_)
   : _x(x_),
     _y(y_),
     _fillColor(fillColor_),
     _borderColor(),
     _invert(invert_)
 {
 }

 Magick::floodFillColorImage::floodFillColorImage(
   const Magick::Geometry &point_,const Magick::Color &fillColor_,
   const bool invert_)
   : _x(point_.xOff()),
     _y(point_.yOff()),
     _fillColor(fillColor_),
     _borderColor(),
     _invert(invert_)
 {
 }

 Magick::floodFillColorImage::floodFillColorImage(const ssize_t x_,
   const ssize_t y_,const Magick::Color &fillColor_,
   const Magick::Color &borderColor_,const bool invert_)
   : _x(x_),
     _y(y_),
     _fillColor(fillColor_),
     _borderColor(borderColor_),
     _invert(invert_)
 {
 }

 Magick::floodFillColorImage::floodFillColorImage(const Geometry &point_,
   const Color &fillColor_,const Color &borderColor_,const bool invert_)
   : _x(point_.xOff()),
     _y(point_.yOff()),
     _fillColor(fillColor_),
     _borderColor(borderColor_),
     _invert(invert_)
 {
 }
 void Magick::floodFillColorImage::operator()(Magick::Image &image_) const
 {
   if (_borderColor.isValid())
     image_.floodFillColor(_x,_y,_fillColor,_borderColor,_invert);
   else
     image_.floodFillColor(_x,_y,_fillColor,_invert);
 }

 Magick::floodFillTextureImage::floodFillTextureImage(const ssize_t x_,
   const ssize_t y_,const Magick::Image &texture_,const bool invert_)
   : _x(x_),
     _y(y_),
     _texture(texture_),
     _borderColor(),
     _invert(invert_)
 {
 }

 Magick::floodFillTextureImage::floodFillTextureImage(
   const Magick::Geometry &point_,const Magick::Image &texture_,
   const bool invert_)
   : _x(point_.xOff()),
     _y(point_.yOff()),
     _texture(texture_),
     _borderColor(),
     _invert(invert_)
 {
 }

 Magick::floodFillTextureImage::floodFillTextureImage(const ssize_t x_,
   const ssize_t y_,const Magick::Image &texture_,
   const Magick::Color &borderColor_,const bool invert_)
   : _x(x_),
     _y(y_),
     _texture(texture_),
     _borderColor(borderColor_),
     _invert(invert_)
 {
 }

 Magick::floodFillTextureImage::floodFillTextureImage(
   const Magick::Geometry &point_,const Magick::Image &texture_,
   const Magick::Color &borderColor_,const bool invert_)
   : _x(point_.xOff()),
     _y(point_.yOff()),
     _texture(texture_),
     _borderColor(borderColor_),
     _invert(invert_)
 {
 }

 void Magick::floodFillTextureImage::operator()(Magick::Image &image_) const
 {
   if (_borderColor.isValid())
     image_.floodFillTexture(_x,_y,_texture,_borderColor,_invert);
   else
     image_.floodFillTexture(_x,_y,_texture,_invert);
 }

 // Flop image (reflect each scanline in the horizontal direction)
 Magick::flopImage::flopImage( void )
 {
 }
 void Magick::flopImage::operator()( Magick::Image &image_ ) const
 {
   image_.flop( );
 }

 // Frame image
 Magick::frameImage::frameImage( const Magick::Geometry &geometry_ )
   : _width( geometry_.width() ),
     _height( geometry_.height() ),
     _outerBevel( geometry_.xOff() ),
     _innerBevel( geometry_.yOff() )
 {
 }
 Magick::frameImage::frameImage( const size_t width_, const size_t height_,
                                 const ssize_t innerBevel_, const ssize_t outerBevel_ )
   : _width( width_ ),
     _height( height_ ),
     _outerBevel( outerBevel_ ),
     _innerBevel( innerBevel_ )
 {
 }
 void Magick::frameImage::operator()( Magick::Image &image_ ) const
 {
   image_.frame( _width, _height, _innerBevel, _outerBevel );
 }

 // Gamma correct image
 Magick::gammaImage::gammaImage( const double gamma_ )
   : _gammaRed( gamma_ ),
     _gammaGreen( gamma_ ),
     _gammaBlue( gamma_ )
 {
 }
 Magick::gammaImage::gammaImage ( const double gammaRed_,
                                  const double gammaGreen_,
                                  const double gammaBlue_ )
   : _gammaRed( gammaRed_ ),
     _gammaGreen( gammaGreen_ ),
     _gammaBlue( gammaBlue_ )
 {
 }
 void Magick::gammaImage::operator()( Magick::Image &image_ ) const
 {
   image_.gamma( _gammaRed, _gammaGreen, _gammaBlue );
 }

 // Gaussian blur image
 // The number of neighbor pixels to be included in the convolution
 // mask is specified by 'width_'. The standard deviation of the
 // gaussian bell curve is specified by 'sigma_'.
 Magick::gaussianBlurImage::gaussianBlurImage( const double width_,
                                               const double sigma_ )
   : _width( width_ ),
     _sigma( sigma_ )
 {
 }
 void Magick::gaussianBlurImage::operator()( Magick::Image &image_ ) const
 {
   image_.gaussianBlur( _width, _sigma );
 }

 // Apply a color lookup table (Hald CLUT) to the image.
 Magick::haldClutImage::haldClutImage( const Image &haldClutImage_ )
   : _haldClutImage ( haldClutImage_ )
 {
 }
 void Magick::haldClutImage::operator()( Image &image_ ) const
 {
   image_.haldClut( _haldClutImage );
 }

 // Implode image (special effect)
 Magick::implodeImage::implodeImage( const double factor_  )
   : _factor( factor_ )
 {
 }
 void Magick::implodeImage::operator()( Magick::Image &image_ ) const
 {
   image_.implode( _factor );
 }

 // Implements the inverse discrete Fourier transform (IFT) of the image
 // either as a magnitude / phase or real / imaginary image pair.
 Magick::inverseFourierTransformImage::inverseFourierTransformImage( const Magick::Image &phaseImage_ )
   : _phaseImage( phaseImage_ )
 {
 }
 void Magick::inverseFourierTransformImage::operator()( Magick::Image &image_ ) const
 {
   image_.inverseFourierTransform( _phaseImage );
 }

 // Set image validity. Valid images become empty (inValid) if argument
 // is false.
 Magick::isValidImage::isValidImage( const bool isValid_  )
   : _isValid( isValid_ )
 {
 }
 void Magick::isValidImage::operator()( Magick::Image &image_ ) const
 {
   image_.isValid( _isValid );
 }

 // Label image
 Magick::labelImage::labelImage( const std::string &label_ )
   : _label( label_ )
 {
 }
 void Magick::labelImage::operator()( Magick::Image &image_ ) const
 {
   image_.label( _label );
 }

 // Level image
 Magick::levelImage::levelImage( const double black_point,
                                 const double white_point,
                                 const double mid_point )
   : _black_point(black_point),
     _white_point(white_point),
     _mid_point(mid_point)
 {
 }
 void Magick::levelImage::operator()( Magick::Image &image_ ) const
 {
   image_.level( _black_point, _white_point, _mid_point );
 }

 // Magnify image by integral size
 Magick::magnifyImage::magnifyImage( void )
 {
 }
 void Magick::magnifyImage::operator()( Magick::Image &image_ ) const
 {
   image_.magnify( );
 }

 // Remap image colors with closest color from reference image
 Magick::mapImage::mapImage( const Magick::Image &mapImage_ ,
                             const bool dither_ )
   : _mapImage( mapImage_ ),
     _dither( dither_ )
 {
 }
 void Magick::mapImage::operator()( Magick::Image &image_ ) const
 {
   image_.map( _mapImage, _dither );
 }

 // Filter image by replacing each pixel component with the median
 // color in a circular neighborhood
 Magick::medianConvolveImage::medianConvolveImage( const double radius_  )
   : _radius( radius_ )
 {
 }
 void Magick::medianConvolveImage::operator()( Magick::Image &image_ ) const
 {
   image_.medianFilter( _radius );
 }

 // Reduce image by integral size
 Magick::minifyImage::minifyImage( void )
 {
 }
 void Magick::minifyImage::operator()( Magick::Image &image_ ) const
 {
   image_.minify( );
 }

 // Modulate percent hue, saturation, and brightness of an image
 Magick::modulateImage::modulateImage( const double brightness_,
                                       const double saturation_,
                                       const double hue_ )
   : _brightness( brightness_ ),
     _saturation( saturation_ ),
     _hue( hue_ )
 {
 }
 void Magick::modulateImage::operator()( Magick::Image &image_ ) const
 {
   image_.modulate( _brightness, _saturation, _hue );
 }

 // Negate colors in image.  Set grayscale to only negate grayscale
 // values in image.
 Magick::negateImage::negateImage( const bool grayscale_  )
   : _grayscale( grayscale_ )
 {
 }
 void Magick::negateImage::operator()( Magick::Image &image_ ) const
 {
   image_.negate( _grayscale );
 }

 // Normalize image (increase contrast by normalizing the pixel values
 // to span the full range of color values)
 Magick::normalizeImage::normalizeImage( void )
 {
 }
 void Magick::normalizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.normalize( );
 }

 // Oilpaint image (image looks like oil painting)
 Magick::oilPaintImage::oilPaintImage( const double radius_ )
   : _radius( radius_ )
 {
 }
 void Magick::oilPaintImage::operator()( Magick::Image &image_ ) const
 {
   image_.oilPaint( _radius );
 }

 // Set or attenuate the image alpha channel. If the image pixels are
 // opaque then they are set to the specified alpha value, otherwise
 // they are blended with the supplied alpha value.  The value of
 // alpha_ ranges from 0 (completely opaque) to QuantumRange. The defines
 // OpaqueAlpha and TransparentAlpha are available to specify
 // completely opaque or completely transparent, respectively.
 Magick::alphaImage::alphaImage( const unsigned int alpha_ )
   : _alpha( alpha_ )
 {
 }
 void Magick::alphaImage::operator()( Magick::Image &image_ ) const
 {
   image_.alpha( _alpha );
 }

 // Change color of opaque pixel to specified pen color.
 Magick::opaqueImage::opaqueImage( const Magick::Color &opaqueColor_,
                                   const Magick::Color &penColor_ )
   : _opaqueColor( opaqueColor_ ),
     _penColor( penColor_ )
 {
 }
 void Magick::opaqueImage::operator()( Magick::Image &image_ ) const
 {
   image_.opaque( _opaqueColor, _penColor );
 }

 // Quantize image (reduce number of colors)
 Magick::quantizeImage::quantizeImage( const bool measureError_  )
   : _measureError( measureError_ )
 {
 }
 void Magick::quantizeImage::operator()( Image &image_ ) const
 {
   image_.quantize( _measureError );
 }

 // Raise image (lighten or darken the edges of an image to give a 3-D
 // raised or lowered effect)
 Magick::raiseImage::raiseImage( const Magick::Geometry &geometry_ ,
                                 const bool raisedFlag_  )
   : _geometry( geometry_ ),
     _raisedFlag( raisedFlag_ )
 {
 }
 void Magick::raiseImage::operator()( Magick::Image &image_ ) const
 {
   image_.raise( _geometry, _raisedFlag );
 }

 Magick::ReadOptions::ReadOptions(void)
   : _imageInfo(static_cast<ImageInfo*>(AcquireMagickMemory(
       sizeof(ImageInfo)))),
     _quiet(false)
 {
   GetImageInfo(_imageInfo);
 }

 Magick::ReadOptions::ReadOptions(const Magick::ReadOptions& options_)
   : _imageInfo(CloneImageInfo(options_._imageInfo)),
     _quiet(false)
 {
 }

 Magick::ReadOptions::~ReadOptions()
 {
   _imageInfo=DestroyImageInfo(_imageInfo);
 }

 void Magick::ReadOptions::density(const Magick::Geometry &density_)
 {
   if (!density_.isValid())
     _imageInfo->density=(char *) RelinquishMagickMemory(_imageInfo->density);
   else
     Magick::CloneString(&_imageInfo->density,density_);
 }

 Magick::Geometry Magick::ReadOptions::density(void) const
 {
   if (_imageInfo->density)
     return(Geometry(_imageInfo->density));

   return(Geometry());
 }

 void Magick::ReadOptions::depth(size_t depth_)
 {
   _imageInfo->depth=depth_;
 }

 size_t Magick::ReadOptions::depth(void) const
 {
   return(_imageInfo->depth);
 }

 void Magick::ReadOptions::ping(const bool flag_)
 {
   _imageInfo->ping=(MagickBooleanType) flag_;
 }

 bool Magick::ReadOptions::ping(void) const
 {
    return(static_cast<bool>(_imageInfo->ping));
 }

 void Magick::ReadOptions::quiet(const bool quiet_)
 {
   _quiet=quiet_;
 }

 bool Magick::ReadOptions::quiet(void) const
 {
    return(_quiet);
 }

 void Magick::ReadOptions::size(const Geometry &geometry_)
 {
   _imageInfo->size=(char *) RelinquishMagickMemory(_imageInfo->size);

   if ( geometry_.isValid() )
     Magick::CloneString(&_imageInfo->size,geometry_);
 }

 Magick::Geometry Magick::ReadOptions::size(void) const
 {
   if (_imageInfo->size)
     return(Geometry(_imageInfo->size));

   return(Geometry());
 }

 MagickCore::ImageInfo *Magick::ReadOptions::imageInfo(void)
 {
   return(_imageInfo);
 }

 // Reduce noise in image using a noise peak elimination filter
 Magick::reduceNoiseImage::reduceNoiseImage( void )
   : _order(3)
 {
 }
 Magick::reduceNoiseImage::reduceNoiseImage ( const size_t order_ )
       : _order(order_)
 {
 }
 void Magick::reduceNoiseImage::operator()( Image &image_ ) const
 {
   image_.reduceNoise( _order );
 }

 // Roll image (rolls image vertically and horizontally) by specified
 // number of columnms and rows)
 Magick::rollImage::rollImage( const Magick::Geometry &roll_ )
   : _columns( roll_.width() ),
     _rows( roll_.height() )
 {
 }
 Magick::rollImage::rollImage( const ssize_t columns_,
                               const ssize_t rows_ )
   : _columns( columns_ ),
     _rows( rows_ )
 {
 }
 void Magick::rollImage::operator()( Magick::Image &image_ ) const
 {
   image_.roll( _columns, _rows );
 }

 // Rotate image counter-clockwise by specified number of degrees.
 Magick::rotateImage::rotateImage( const double degrees_ )
   : _degrees( degrees_ )
 {
 }
 void Magick::rotateImage::operator()( Magick::Image &image_ ) const
 {
   image_.rotate( _degrees );
 }

 // Resize image by using pixel sampling algorithm
 Magick::sampleImage::sampleImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::sampleImage::operator()( Magick::Image &image_ ) const
 {
   image_.sample( _geometry );
 }

 // Resize image by using simple ratio algorithm
 Magick::scaleImage::scaleImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::scaleImage::operator()( Magick::Image &image_ ) const
 {
   image_.scale( _geometry );
 }

 // Segment (coalesce similar image components) by analyzing the
 // histograms of the color components and identifying units that are
 // homogeneous with the fuzzy c-means technique.  Also uses
 // QuantizeColorSpace and Verbose image attributes
 Magick::segmentImage::segmentImage( const double clusterThreshold_ ,
                                     const double smoothingThreshold_ )
   : _clusterThreshold( clusterThreshold_ ),
     _smoothingThreshold( smoothingThreshold_ )
 {
 }
 void Magick::segmentImage::operator()( Magick::Image &image_ ) const
 {
   image_.segment( _clusterThreshold, _smoothingThreshold );
 }

 // Shade image using distant light source
 Magick::shadeImage::shadeImage( const double azimuth_,
                                 const double elevation_,
         const bool colorShading_)
   : _azimuth( azimuth_ ),
     _elevation( elevation_ ),
     _colorShading (colorShading_)
 {
 }
 void Magick::shadeImage::operator()( Magick::Image &image_ ) const
 {
   image_.shade( _azimuth, _elevation, _colorShading );
 }

 // Simulate an image shadow
 Magick::shadowImage::shadowImage( const double percent_opacity_,
                                 const double sigma_,
         const ssize_t x_, const ssize_t y_ )
   : _percent_opacity( percent_opacity_ ),
     _sigma( sigma_ ),
     _x ( x_ ),
     _y ( y_ )
 {
 }
 void Magick::shadowImage::operator()( Magick::Image &image_ ) const
 {
   image_.shadow( _percent_opacity, _sigma, _x, _y );
 }

 // Sharpen pixels in image
 Magick::sharpenImage::sharpenImage( const double radius_, const double sigma_ )
   : _radius( radius_ ),
     _sigma( sigma_ )
 {
 }
 void Magick::sharpenImage::operator()( Magick::Image &image_ ) const
 {
   image_.sharpen( _radius, _sigma );
 }

 // Shave pixels from image edges.
 Magick::shaveImage::shaveImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::shaveImage::operator()( Magick::Image &image_ ) const
 {
   image_.shave( _geometry );
 }

 // Shear image (create parallelogram by sliding image by X or Y axis)
 Magick::shearImage::shearImage( const double xShearAngle_,
                                 const double yShearAngle_ )
   : _xShearAngle( xShearAngle_ ),
     _yShearAngle( yShearAngle_ )
 {
 }
 void Magick::shearImage::operator()( Magick::Image &image_ ) const
 {
   image_.shear( _xShearAngle, _yShearAngle );
 }

 // Solarize image (similar to effect seen when exposing a photographic
 // film to light during the development process)
 Magick::solarizeImage::solarizeImage( const double factor_ )
   : _factor( factor_ )
 {
 }
 void Magick::solarizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.solarize( _factor );
 }

 // Spread pixels randomly within image by specified ammount
 Magick::spreadImage::spreadImage( const size_t amount_ )
   : _amount( amount_ )
 {
 }
 void Magick::spreadImage::operator()( Magick::Image &image_ ) const
 {
   image_.spread( _amount );
 }

 // Add a digital watermark to the image (based on second image)
 Magick::steganoImage::steganoImage( const Magick::Image &waterMark_ )
   : _waterMark( waterMark_ )
 {
 }
 void Magick::steganoImage::operator()( Magick::Image &image_ ) const
 {
   image_.stegano( _waterMark );
 }

 // Create an image which appears in stereo when viewed with red-blue
 // glasses (Red image on left, blue on right)
 Magick::stereoImage::stereoImage( const Magick::Image &rightImage_ )
   : _rightImage( rightImage_ )
 {
 }
 void Magick::stereoImage::operator()( Magick::Image &image_ ) const
 {
   image_.stereo( _rightImage );
 }

 // Color to use when drawing object outlines
 Magick::strokeColorImage::strokeColorImage( const Magick::Color &strokeColor_ )
   : _strokeColor( strokeColor_ )
 {
 }
 void Magick::strokeColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.strokeColor( _strokeColor );
 }

 // Swirl image (image pixels are rotated by degrees)
 Magick::swirlImage::swirlImage( const double degrees_ )
   : _degrees( degrees_ )
 {
 }
 void Magick::swirlImage::operator()( Magick::Image &image_ ) const
 {
   image_.swirl( _degrees );
 }

 // Channel a texture on image background
 Magick::textureImage::textureImage( const Magick::Image &texture_ )
   : _texture( texture_ )
 {
 }
 void Magick::textureImage::operator()( Magick::Image &image_ ) const
 {
   image_.texture( _texture );
 }

 // Threshold image
 Magick::thresholdImage::thresholdImage( const double threshold_ )
   : _threshold( threshold_ )
 {
 }
 void Magick::thresholdImage::operator()( Magick::Image &image_ ) const
 {
   image_.threshold( _threshold );
 }

 // Set image color to transparent
 Magick::transparentImage::transparentImage( const Magick::Color& color_ )
   : _color( color_ )
 {
 }
 void Magick::transparentImage::operator()( Magick::Image &image_ ) const
 {
   image_.transparent( _color );
 }

 // Trim edges that are the background color from the image
 Magick::trimImage::trimImage( void )
 {
 }
 void Magick::trimImage::operator()( Magick::Image &image_ ) const
 {
   image_.trim( );
 }

 // Map image pixels to a sine wave
 Magick::waveImage::waveImage( const double amplitude_,
                               const double wavelength_ )
   : _amplitude( amplitude_ ),
     _wavelength( wavelength_ )
 {
 }
 void Magick::waveImage::operator()( Magick::Image &image_ ) const
 {
   image_.wave( _amplitude, _wavelength );
 }

 // resize image to specified size.
 Magick::resizeImage::resizeImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::resizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.resize( _geometry );
 }

 // Zoom image to specified size.
 Magick::zoomImage::zoomImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::zoomImage::operator()( Magick::Image &image_ ) const
 {
   image_.zoom( _geometry );
 }

 //
 // Function object image attribute accessors
 //

 // Join images into a single multi-image file
 Magick::adjoinImage::adjoinImage( const bool flag_ )
   : _flag( flag_ )
 {
 }
 void Magick::adjoinImage::operator()( Magick::Image &image_ ) const
 {
   image_.adjoin( _flag );
 }

 // Time in 1/100ths of a second which must expire before displaying
 // the next image in an animated sequence.
 Magick::animationDelayImage::animationDelayImage( const size_t delay_ )
   : _delay( delay_ )
 {
 }
 void Magick::animationDelayImage::operator()( Magick::Image &image_ ) const
 {
   image_.animationDelay( _delay );
 }

 // Number of iterations to loop an animation (e.g. Netscape loop
 // extension) for.
 Magick::animationIterationsImage::animationIterationsImage( const size_t iterations_ )
   : _iterations( iterations_ )
 {
 }
 void Magick::animationIterationsImage::operator()( Magick::Image &image_ ) const
 {
   image_.animationIterations( _iterations );
 }

 // Image background color
 Magick::backgroundColorImage::backgroundColorImage( const Magick::Color &color_ )
   : _color( color_ )
 {
 }
 void Magick::backgroundColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.backgroundColor( _color );
 }

 // Name of texture image to tile onto the image background
 Magick::backgroundTextureImage::backgroundTextureImage( const std::string &backgroundTexture_ )
   : _backgroundTexture( backgroundTexture_ )
 {
 }
 void Magick::backgroundTextureImage::operator()( Magick::Image &image_ ) const
 {
   image_.backgroundTexture( _backgroundTexture );
 }

 // Image border color
 Magick::borderColorImage::borderColorImage( const Magick::Color &color_ )
   : _color( color_ )
 {
 }
 void Magick::borderColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.borderColor( _color );
 }

 // Text bounding-box base color (default none)
 Magick::boxColorImage::boxColorImage( const Magick::Color &boxColor_ )
   : _boxColor( boxColor_ ) { }

 void Magick::boxColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.boxColor( _boxColor );
 }

 Magick::chromaBluePrimaryImage::chromaBluePrimaryImage(const double x_,
   const double y_,const double z_)
   : _x(x_),
     _y(y_),
     _z(z_)
 {
 }

 void Magick::chromaBluePrimaryImage::operator()(Magick::Image &image_) const
 {
   image_.chromaBluePrimary(_x,_y,_z);
 }

 Magick::chromaGreenPrimaryImage::chromaGreenPrimaryImage(const double x_,
   const double y_,const double z_)
   : _x(x_),
     _y(y_),
     _z(z_)
 {
 }

 void Magick::chromaGreenPrimaryImage::operator()( Magick::Image &image_ ) const
 {
   image_.chromaGreenPrimary(_x,_y,_z);
 }

 Magick::chromaRedPrimaryImage::chromaRedPrimaryImage(const double x_,
   const double y_,const double z_)
   : _x(x_),
     _y(y_),
     _z(z_)
 {
 }

 void Magick::chromaRedPrimaryImage::operator()(Magick::Image &image_) const
 {
   image_.chromaRedPrimary(_x,_y,_z);
 }

 Magick::chromaWhitePointImage::chromaWhitePointImage(const double x_,
   const double y_,const double z_)
   : _x(x_),
     _y(y_),
     _z(z_)
 {
 }

 void Magick::chromaWhitePointImage::operator()(Magick::Image &image_) const
 {
   image_.chromaWhitePoint(_x,_y,_z);
 }

 // Colors within this distance are considered equal
 Magick::colorFuzzImage::colorFuzzImage( const double fuzz_ )
   : _fuzz( fuzz_ )
 {
 }
 void Magick::colorFuzzImage::operator()( Magick::Image &image_ ) const
 {
   image_.colorFuzz( _fuzz );
 }

 // Color at colormap position index_
 Magick::colorMapImage::colorMapImage( const size_t index_,
                                       const Color &color_ )
   : _index( index_ ),
     _color( color_ )
 {
 }
 void Magick::colorMapImage::operator()( Magick::Image &image_ ) const
 {
   image_.colorMap( _index, _color );
 }

 // Composition operator to be used when composition is implicitly used
 // (such as for image flattening).
 Magick::composeImage::composeImage( const CompositeOperator compose_ )
   : _compose( compose_ )
 {
 }
 void Magick::composeImage::operator()( Magick::Image &image_ ) const
 {
   image_.compose( _compose );
 }

 // Compression type
 Magick::compressTypeImage::compressTypeImage( const CompressionType compressType_ )
   : _compressType( compressType_ )
 {
 }
 void Magick::compressTypeImage::operator()( Magick::Image &image_ ) const
 {
   image_.compressType( _compressType );
 }

 // Vertical and horizontal resolution in pixels of the image
 Magick::densityImage::densityImage( const Point &point_ )
   : _point( point_ )
 {
 }
 void Magick::densityImage::operator()( Magick::Image &image_ ) const
 {
   image_.density( _point );
 }

 // Image depth (bits allocated to red/green/blue components)
 Magick::depthImage::depthImage( const size_t depth_ )
   : _depth( depth_ )
 {
 }
 void Magick::depthImage::operator()( Magick::Image &image_ ) const
 {
   image_.depth( _depth );
 }

 // Endianness (LSBEndian like Intel or MSBEndian like SPARC) for image
 // formats which support endian-specific options.
 Magick::endianImage::endianImage( const Magick::EndianType endian_ )
   : _endian( endian_ )
 {
 }
 void Magick::endianImage::operator()( Magick::Image &image_ ) const
 {
   image_.endian( _endian );
 }

 // Image file name
 Magick::fileNameImage::fileNameImage( const std::string &fileName_ )
   : _fileName( fileName_ )
 {
 }
 void Magick::fileNameImage::operator()( Magick::Image &image_ ) const
 {
   image_.fileName( _fileName );
 }

 // Filter to use when resizing image
 Magick::filterTypeImage::filterTypeImage( const FilterType filterType_ )
   : _filterType( filterType_ )
 {
 }
 void Magick::filterTypeImage::operator()( Magick::Image &image_ ) const
 {
   image_.filterType( _filterType );
 }

 // Text rendering font
 Magick::fontImage::fontImage( const std::string &font_ )
   : _font( font_ )
 {
 }
 void Magick::fontImage::operator()( Magick::Image &image_ ) const
 {
   image_.font( _font );
 }

 // Font point size
 Magick::fontPointsizeImage::fontPointsizeImage( const size_t pointsize_ )
   : _pointsize( pointsize_ )
 {
 }
 void Magick::fontPointsizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.fontPointsize( _pointsize );
 }

 // GIF disposal method
 Magick::gifDisposeMethodImage::gifDisposeMethodImage( const DisposeType disposeMethod_ )
   : _disposeMethod( disposeMethod_ )
 {
 }
 void Magick::gifDisposeMethodImage::operator()( Magick::Image &image_ ) const
 {
   image_.gifDisposeMethod( _disposeMethod );
 }

 // Type of interlacing to use
 Magick::interlaceTypeImage::interlaceTypeImage( const InterlaceType interlace_ )
   : _interlace( interlace_ )
 {
 }
 void Magick::interlaceTypeImage::operator()( Magick::Image &image_ ) const
 {
   image_.interlaceType( _interlace );
 }

 // File type magick identifier (.e.g "GIF")
 Magick::magickImage::magickImage( const std::string &magick_ )
   : _magick( magick_ )
 {
 }
 void Magick::magickImage::operator()( Magick::Image &image_ ) const
 {
   image_.magick( _magick );
 }

 // Image supports transparent color
 Magick::alphaFlagImage::alphaFlagImage( const bool alphaFlag_ )
   : _alphaFlag( alphaFlag_ )
 {
 }
 void Magick::alphaFlagImage::operator()( Magick::Image &image_ ) const
 {
   image_.alpha( _alphaFlag );
 }

 // Transparent color
 Magick::matteColorImage::matteColorImage( const Color &matteColor_ )
   : _matteColor( matteColor_ )
 {
 }
 void Magick::matteColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.matteColor( _matteColor );
 }

 // Indicate that image is black and white
 Magick::monochromeImage::monochromeImage( const bool monochromeFlag_ )
   : _monochromeFlag( monochromeFlag_ )
 {
 }
 void Magick::monochromeImage::operator()( Magick::Image &image_ ) const
 {
   image_.monochrome( _monochromeFlag );
 }

 // Set pixel color at location x & y.
 Magick::pixelColorImage::pixelColorImage( const ssize_t x_,
                                           const ssize_t y_,
                                           const Color &color_)
   : _x( x_ ),
     _y( y_ ),
     _color( color_ ) { }

 void Magick::pixelColorImage::operator()( Magick::Image &image_ ) const
 {
   image_.pixelColor( _x, _y, _color );
 }

 // Postscript page size.
 Magick::pageImage::pageImage( const Geometry &pageSize_ )
   : _pageSize( pageSize_ )
 {
 }
 void Magick::pageImage::operator()( Magick::Image &image_ ) const
 {
   image_.page( _pageSize );
 }

 // JPEG/MIFF/PNG compression level (default 75).
 Magick::qualityImage::qualityImage( const size_t quality_ )
   : _quality( quality_ )
 {
 }
 void Magick::qualityImage::operator()( Magick::Image &image_ ) const
 {
   image_.quality( _quality );
 }

 // Maximum number of colors to quantize to
 Magick::quantizeColorsImage::quantizeColorsImage( const size_t colors_ )
   : _colors( colors_ )
 {
 }
 void Magick::quantizeColorsImage::operator()( Magick::Image &image_ ) const
 {
   image_.quantizeColors( _colors );
 }

 // Colorspace to quantize in.
 Magick::quantizeColorSpaceImage::quantizeColorSpaceImage( const ColorspaceType colorSpace_ )
   : _colorSpace( colorSpace_ )
 {
 }
 void Magick::quantizeColorSpaceImage::operator()( Magick::Image &image_ ) const
 {
   image_.quantizeColorSpace( _colorSpace );
 }

 // Dither image during quantization (default true).
 Magick::quantizeDitherImage::quantizeDitherImage( const bool ditherFlag_ )
   : _ditherFlag( ditherFlag_ )
 {
 }
 void Magick::quantizeDitherImage::operator()( Magick::Image &image_ ) const
 {
   image_.quantizeDither( _ditherFlag );
 }

 // Quantization tree-depth
 Magick::quantizeTreeDepthImage::quantizeTreeDepthImage( const size_t treeDepth_ )
   : _treeDepth( treeDepth_ ) { }

 void Magick::quantizeTreeDepthImage::operator()( Magick::Image &image_ ) const
 {
   image_.quantizeTreeDepth( _treeDepth );
 }

 // The type of rendering intent
 Magick::renderingIntentImage::renderingIntentImage( const Magick::RenderingIntent renderingIntent_ )
   : _renderingIntent( renderingIntent_ )
 {
 }
 void Magick::renderingIntentImage::operator()( Magick::Image &image_ ) const
 {
   image_.renderingIntent( _renderingIntent );
 }

 // Units of image resolution
 Magick::resolutionUnitsImage::resolutionUnitsImage( const Magick::ResolutionType resolutionUnits_ )
   : _resolutionUnits( resolutionUnits_ )
 {
 }
 void Magick::resolutionUnitsImage::operator()( Magick::Image &image_ ) const
 {
   image_.resolutionUnits( _resolutionUnits );
 }

 // Image scene number
 Magick::sceneImage::sceneImage( const size_t scene_ )
   : _scene( scene_ )
 {
 }
 void Magick::sceneImage::operator()( Magick::Image &image_ ) const
 {
   image_.scene( _scene );
 }

 // Width and height of a raw image
 Magick::sizeImage::sizeImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::sizeImage::operator()( Magick::Image &image_ ) const
 {
   image_.size( _geometry );
 }

 // Splice the background color into the image.
 Magick::spliceImage::spliceImage( const Magick::Geometry &geometry_ )
   : _geometry( geometry_ )
 {
 }
 void Magick::spliceImage::operator()( Magick::Image &image_ ) const
 {
   image_.splice( _geometry );
 }

 // stripImage strips an image of all profiles and comments.
 Magick::stripImage::stripImage( void )
 {
 }
 void Magick::stripImage::operator()( Magick::Image &image_ ) const
 {
   image_.strip( );
 }

 // Subimage of an image sequence
 Magick::subImageImage::subImageImage( const size_t subImage_ )
   : _subImage( subImage_ )
 {
 }
 void Magick::subImageImage::operator()( Magick::Image &image_ ) const
 {
   image_.subImage( _subImage );
 }

 // Number of images relative to the base image
 Magick::subRangeImage::subRangeImage( const size_t subRange_ )
   : _subRange( subRange_ )
 {
 }
 void Magick::subRangeImage::operator()( Magick::Image &image_ ) const
 {
   image_.subRange( _subRange );
 }

 // Anti-alias Postscript and TrueType fonts (default true)
 Magick::textAntiAliasImage::textAntiAliasImage( const bool flag_ )
   : _flag( flag_ )
 {
 }
 void Magick::textAntiAliasImage::operator()( Magick::Image &image_ ) const
 {
   image_.textAntiAlias( _flag );
 }

 // Image storage type
 Magick::typeImage::typeImage( const Magick::ImageType type_ )
   : _type( type_ )
 {
 }
 void Magick::typeImage::operator()( Magick::Image &image_ ) const
 {
   image_.type( _type );
 }

 // Print detailed information about the image
 Magick::verboseImage::verboseImage( const bool verbose_ )
   : _verbose( verbose_ )
 {
 }
 void Magick::verboseImage::operator()( Magick::Image &image_ ) const
 {
   image_.verbose( _verbose );
 }

 // X11 display to display to, obtain fonts from, or to capture image
 // from
 Magick::x11DisplayImage::x11DisplayImage( const std::string &display_ )
   : _display( display_ )
 {
 }
 void Magick::x11DisplayImage::operator()( Magick::Image &image_ ) const
 {
   image_.x11Display( _display );
 }