doc/1.0/testParDirCollapse_8cpp_source.html

 #include <iostream>
 #include "DGtal/base/Common.h"
 #include "ConfigTest.h"
 #include "DGtalCatch.h"
 #include "DGtal/helpers/StdDefs.h"
 // Cellular grid
 #include "DGtal/topology/CubicalComplex.h"
 #include "DGtal/topology/ParDirCollapse.h"
 // Shape construction
 #include "DGtal/shapes/GaussDigitizer.h"
 #include "DGtal/shapes/Shapes.h"
 #include "DGtal/shapes/EuclideanShapesDecorator.h"
 #include "DGtal/shapes/parametric/Flower2D.h"

 using namespace std;
 using namespace DGtal;
 using namespace Z2i;

 // Functions for testing class ParDirCollapse.

 template <typename CC, typename KSpace>
 void getComplex ( CC & complex, KSpace & K )
 {
   typedef Flower2D< Space > MyEuclideanShape;
   MyEuclideanShape shape( RealPoint( 0.0, 0.0 ), 16, 5, 5, M_PI_2/2. );

   typedef GaussDigitizer< Space, MyEuclideanShape > MyGaussDigitizer;
   MyGaussDigitizer digShape;
   digShape.attach( shape );
   digShape.init ( shape.getLowerBound(), shape.getUpperBound(), 1.0 );
   Domain domainShape = digShape.getDomain();
   DigitalSet aSet( domainShape );
   Shapes<Domain>::digitalShaper( aSet, digShape );

   K.init ( domainShape.lowerBound(), domainShape.upperBound(), true );
   complex.clear();
   complex.construct ( aSet );
 }

 TEST_CASE( "Testing ParDirCollapse" )
 {
   typedef map<Cell, CubicalCellData>   Map;
   typedef CubicalComplex< KSpace, Map >     CC;
   KSpace K;
   CC complex ( K );
   ParDirCollapse < CC > thinning ( K );

   SECTION("Testing the basic algorithm of ParDirCollapse")
     {
       getComplex< CC, KSpace > ( complex, K );
       int eulerBefore = complex.euler();
       thinning.attach ( &complex );
       REQUIRE( ( thinning.eval ( 2 ) != 0 ) );
       REQUIRE( (eulerBefore == complex.euler()) );
     }

   SECTION("Testing ParDirCollapse::collapseSurface")
     {
       getComplex< CC, KSpace > ( complex, K );
       int eulerBefore = complex.euler();
       thinning.attach ( &complex );
       thinning.collapseSurface ();
       REQUIRE( (eulerBefore == complex.euler()) );
     }
   SECTION("Testing ParDirCollapse::collapseIsthmus")
     {
       getComplex< CC, KSpace > ( complex, K );
       int eulerBefore = complex.euler();
       thinning.attach ( &complex );
       thinning.collapseIsthmus ();
       REQUIRE( (eulerBefore == complex.euler()) );
     }
 }

DGtal::CubicalComplex::euler
Integer euler() const

Map
std::unordered_map< Cell, CubicalCellData > Map
Definition: testCubicalComplex.cpp:57

getComplex
void getComplex(CC &complex, KSpace &K)
Definition: testParDirCollapse.cpp:55

DGtal::GaussDigitizer::attach
void attach(ConstAlias< EuclideanShape > shape)

DGtal::HyperRectDomain< Space >

DGtal::HyperRectDomain::upperBound
const Point & upperBound() const

DGtal::CubicalComplex::construct
void construct(const TDigitalSet &set)

RealPoint
PointVector< 3, double > RealPoint
Definition: testTriangulatedSurface.cpp:51

DGtal::Flower2D
Aim: Model of the concept StarShaped represents any flower with k-petals in the plane.
Definition: Flower2D.h:64

DGtal::ParDirCollapse::collapseSurface
void collapseSurface()

DGtal::ParDirCollapse::attach
void attach(Alias< CC > pComplex)

REQUIRE
REQUIRE(domain.isInside(aPoint))

DGtal::ParDirCollapse::collapseIsthmus
void collapseIsthmus()

DGtal::KhalimskySpaceND::init
bool init(const Point &lower, const Point &upper, bool isClosed)
Specifies the upper and lower bounds for the maximal cells in this space.

DGtal::GaussDigitizer< Space, MyEuclideanShape >

DGtal::CubicalComplex
Aim: This class represents an arbitrary cubical complex living in some Khalimsky space....
Definition: CubicalComplex.h:84

TEST_CASE
TEST_CASE("Testing ParDirCollapse")
Definition: testParDirCollapse.cpp:73

DGtal
DGtal is the top-level namespace which contains all DGtal functions and types.
Definition: ClosedIntegerHalfPlane.h:48

DGtal::ParDirCollapse
Aim: Implements thinning algorithms in cubical complexes. The implementation supports any model of cu...
Definition: ParDirCollapse.h:77

DGtal::ParDirCollapse::eval
unsigned int eval(unsigned int iterations)

CC
CubicalComplex< KSpace, Map > CC
Definition: testCubicalComplex.cpp:58

DGtal::HyperRectDomain::lowerBound
const Point & lowerBound() const

K
KSpace K
Definition: testCubicalComplex.cpp:62

DGtal::Shapes
Aim: A utility class for constructing different shapes (balls, diamonds, and others).
Definition: DGtal/shapes/Shapes.h:71

SECTION
SECTION("Testing constant forward iterators")
Definition: testSimpleRandomAccessRangeFromPoint.cpp:66

DGtal::KhalimskySpaceND
Aim: This class is a model of CCellularGridSpaceND. It represents the cubical grid as a cell complex,...
Definition: KhalimskySpaceND.h:64

DGtal::CubicalComplex::clear
void clear()