testSphereFitting.cpp

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#include <iostream>
#include "DGtal/base/Common.h"
#include "DGtal/helpers/StdDefs.h"
#include "DGtal/base/BasicFunctors.h"
#include "DGtal/graph/GraphVisitorRange.h"
#include "DGtal/io/boards/Board2D.h"
#include "DGtal/io/Color.h"
#include "DGtal/io/colormaps/GradientColorMap.h"
 
#include "DGtal/shapes/Shapes.h"
#include "DGtal/shapes/implicit/ImplicitBall.h"
#include "DGtal/shapes/GaussDigitizer.h"
 
#include "DGtal/topology/CanonicSCellEmbedder.h"
#include "DGtal/graph/DistanceBreadthFirstVisitor.h"
#include "DGtal/geometry/volumes/distance/ExactPredicateLpSeparableMetric.h"
#include "DGtal/geometry/surfaces/estimation/LocalEstimatorFromSurfelFunctorAdapter.h"
#include "DGtal/geometry/surfaces/estimation/estimationFunctors/BasicEstimatorFromSurfelsFunctors.h"
#include "DGtal/topology/LightImplicitDigitalSurface.h"
#include "DGtal/geometry/surfaces/estimation/estimationFunctors/SphereFittingEstimator.h"
#include "DGtal/geometry/surfaces/estimation/estimationFunctors/ElementaryConvolutionNormalVectorEstimator.h"
#include "DGtal/geometry/surfaces/estimation/EstimatorCache.h"
 
using namespace std;
using namespace DGtal;
 
// Functions for testing class LocalEstimatorFromFunctorAdapter.
 
 
bool testFitting()
{
  unsigned int nbok = 0;
  unsigned int nb = 0;
  trace.beginBlock ( "Testing init ..." );
 
  using namespace Z3i;
 
  trace.beginBlock("Creating Surface");
  Point p1( -20, -20, -20 );
  Point p2( 20, 20, 20 );
   
  ImplicitBall<Z3i::Space> shape( RealPoint(6.0,0,0), 4);
  typedef GaussDigitizer<Z3i::Space, ImplicitBall<Z3i::Space> > Gauss;
  Gauss gauss;
  gauss.attach(shape);
  gauss.init(p1, p2, 1);
  
  typedef LightImplicitDigitalSurface<KSpace,  Gauss > SurfaceContainer;
  typedef DigitalSurface<SurfaceContainer> Surface;
  typedef Surface::Surfel Surfel;
 
 
  KSpace K;
  nbok += K.init( p1, p2, true ) ? 1 : 0;
  nb++;
  trace.info() << "(" << nbok << "/" << nb << ") "
               << "K.init() is ok" << std::endl;
  Surfel bel = Surfaces<KSpace>::findABel( K, gauss, 10000 );
  SurfaceContainer* surfaceContainer = new SurfaceContainer
    ( K, gauss, SurfelAdjacency<KSpace::dimension>( true ), bel );
  Surface surface( surfaceContainer ); // acquired
  CanonicSCellEmbedder<KSpace> embedder(surface.container().space());
  trace.endBlock();
 
  trace.beginBlock("Normal vector field computation");
  typedef functors::ElementaryConvolutionNormalVectorEstimator<Surfel, CanonicSCellEmbedder<KSpace> > FunctorNormal;
  typedef LocalEstimatorFromSurfelFunctorAdapter<SurfaceContainer, Z3i::L2Metric,
                                                 FunctorNormal,
                                                 DGtal::functors::GaussianKernel> ReporterNormal;
  typedef EstimatorCache<ReporterNormal> NormalCache;
 
  //estimator
  DGtal::functors::GaussianKernel gaussKernelFunc(5.0);
  FunctorNormal functorNormal(embedder, 1.0);
  ReporterNormal reporterNormal;
  reporterNormal.attach(surface);
  reporterNormal.setParams(l2Metric, functorNormal, gaussKernelFunc, 5.0);
 
  //caching normal field
  NormalCache normalCache(reporterNormal);
  normalCache.init( 1, surface.begin(), surface.end());
  trace.info() << "Normal vector field cached... "<< normalCache << std::endl;
  trace.endBlock();
 
  trace.beginBlock("Creating  sphere fitting adapter from normal vector field");
  typedef functors::SphereFittingEstimator<Surfel, CanonicSCellEmbedder<KSpace> , NormalCache> Functor;
  typedef functors::ConstValue< double > ConvFunctor;
  typedef LocalEstimatorFromSurfelFunctorAdapter<SurfaceContainer, Z3i::L2Metric, Functor, ConvFunctor> Reporter;
 
  Functor fitter(embedder,1.0, 5.0, normalCache);
  ConvFunctor convFunc(1.0);
  Reporter reporter;
  reporter.attach(surface);
  reporter.setParams(l2Metric, fitter , convFunc, 15.0);
  
  reporter.init(1, surface.begin(), surface.end());
  for(Surface::ConstIterator it = surface.begin(), ite=surface.end(); it!=ite; ++it)
    {
      Functor::Quantity val = reporter.eval( it );
      trace.info() << "Fitting = "<<val.center <<" rad="<<val.radius<<std::endl;
    }
  trace.endBlock();
 
 
  trace.endBlock();
 
  nbok += true ? 1 : 0;
  nb++;
  trace.info() << "(" << nbok << "/" << nb << ") "
               << "true == true" << std::endl;
 
  return nbok == nb;
}
 
// Standard services - public :
 
int main( int argc, char** argv )
{
  trace.beginBlock ( "Testing class SphereFitting" );
  trace.info() << "Args:";
  for ( int i = 0; i < argc; ++i )
    trace.info() << " " << argv[ i ];
  trace.info() << endl;
 
  bool res = testFitting(); // && ... other tests
  trace.emphase() << ( res ? "Passed." : "Error." ) << endl;
  trace.endBlock();
  return res ? 0 : 1;
}
//                                                                           //