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Algorithms to Transform Images | ![]() |
Functions | |
template<... > | |
void | gradientBasedTransform (...) |
Calculate a function of the image gradient. | |
template<... > | |
void | transformImage (...) |
Apply unary point transformation to each pixel. | |
template<... > | |
void | transformImageIf (...) |
Apply unary point transformation to each pixel within the ROI (i.e., where the mask is non-zero). |
Apply functor to calculate a pixelwise transformation of one image
void vigra::transformImage | ( | ... | ) |
Apply unary point transformation to each pixel.
The transformation given by the functor is applied to every source pixel and the result written into the corresponding destination pixel. The function uses accessors to access the pixel data. Note that the unary functors of the STL can be used in addition to the functors specifically defined in Functors to Transform Images. Creation of new functors is easiest by using Functor Expressions.
Declarations:
pass arguments explicitly:
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class DestImageIterator, class DestAccessor, class Functor> void transformImage(SrcImageIterator src_upperleft, SrcImageIterator src_lowerright, SrcAccessor sa, DestImageIterator dest_upperleft, DestAccessor da, Functor const & f) }
use argument objects in conjunction with Argument Object Factories :
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class DestImageIterator, class DestAccessor, class Functor> void transformImage(triple<SrcImageIterator, SrcImageIterator, SrcAccessor> src, pair<DestImageIterator, DestAccessor> dest, Functor const & f) }
Usage:
#include <vigra/transformimage.hxx>
Namespace: vigra
#include <cmath> // for sqrt() vigra::transformImage(srcImageRange(src), destImage(dest), (double(*)(double))&std::sqrt );
Required Interface:
SrcImageIterator src_upperleft, src_lowerright; DestImageIterator dest_upperleft; SrcImageIterator::row_iterator sx = src_upperleft.rowIterator(); DestImageIterator::row_iterator dx = dest_upperleft.rowIterator(); SrcAccessor src_accessor; DestAccessor dest_accessor; Functor functor; dest_accessor.set(functor(src_accessor(sx)), dx);
void vigra::transformImageIf | ( | ... | ) |
Apply unary point transformation to each pixel within the ROI (i.e., where the mask is non-zero).
The transformation given by the functor is applied to every source pixel in the ROI (i.e. when the return value of the mask's accessor is not zero) and the result is written into the corresponding destination pixel. The function uses accessors to access the pixel data. Note that the unary functors of the STL can be used in addition to the functors specifically defined in Functors to Transform Images. Creation of new functors is easiest by using Functor Expressions.
Declarations:
pass arguments explicitly:
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class MaskImageIterator, class MaskAccessor, class DestImageIterator, clas DestAccessor, class Functor> void transformImageIf(SrcImageIterator src_upperleft, SrcImageIterator src_lowerright, SrcAccessor sa, MaskImageIterator mask_upperleft, MaskAccessor ma, DestImageIterator dest_upperleft, DestAccessor da, Functor const & f) }
use argument objects in conjunction with Argument Object Factories :
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class MaskImageIterator, class MaskAccessor, class DestImageIterator, clas DestAccessor, class Functor> void transformImageIf(triple<SrcImageIterator, SrcImageIterator, SrcAccessor> src, pair<MaskImageIterator, MaskAccessor> mask, pair<DestImageIterator, DestAccessor> dest, Functor const & f) }
Usage:
#include <vigra/transformimage.hxx>
Namespace: vigra
#include <cmath> // for sqrt() vigra::transformImageIf(srcImageRange(src), maskImage(mask), destImage(dest), (double(*)(double))&std::sqrt );
Required Interface:
SrcImageIterator src_upperleft, src_lowerright;
DestImageIterator dest_upperleft;
MaskImageIterator mask_upperleft;
SrcImageIterator::row_iterator sx = src_upperleft.rowIterator();
MaskImageIterator::row_iterator mx = mask_upperleft.rowIterator();
DestImageIterator::row_iterator dx = dest_upperleft.rowIterator();
SrcAccessor src_accessor;
DestAccessor dest_accessor;
MaskAccessor mask_accessor;
Functor functor;
if(mask_accessor(mx))
dest_accessor.set(functor(src_accessor(sx)), dx);
void vigra::gradientBasedTransform | ( | ... | ) |
Calculate a function of the image gradient.
The gradient and the function represented by Functor f
are calculated in one go: for each location, the symmetric difference in x- and y-directions (asymmetric difference at the image borders) are passed to the given functor, and the result is written the destination image. Functors to be used with this function include MagnitudeFunctor and RGBGradientMagnitudeFunctor.
Declarations:
pass arguments explicitly:
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class DestImageIterator, class DestAccessor, class Functor> void gradientBasedTransform(SrcImageIterator srcul, SrcImageIterator srclr, SrcAccessor sa, DestImageIterator destul, DestAccessor da, Functor const & f) }
use argument objects in conjunction with Argument Object Factories :
namespace vigra { template <class SrcImageIterator, class SrcAccessor, class DestImageIterator, class DestAccessor, class Functor> void gradientBasedTransform(triple<SrcImageIterator, SrcImageIterator, SrcAccessor> src, pair<DestImageIterator, DestAccessor> dest, Functor const & const & f) }
Usage:
#include <vigra/transformimage.hxx>
vigra::FImage src(w,h), magnitude(w,h); ... gradientBasedTransform(srcImageRange(src), destImage(magnitude), vigra::MagnitudeFunctor<float>());
Required Interface:
SrcImageIterator is, isend; DestImageIterator id; SrcAccessor src_accessor; DestAccessor dest_accessor; typename NumericTraits<typename SrcAccessor::value_type>::RealPromote diffx, diffy; diffx = src_accessor(is, Diff2D(-1,0)) - src_accessor(is, Diff2D(1,0)); diffy = src_accessor(is, Diff2D(0,-1)) - src_accessor(is, Diff2D(0,1)); Functor f; dest_accessor.set(f(diffx, diffy), id);
© Ullrich Köthe (ullrich.koethe@iwr.uni-heidelberg.de) |
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