doc/1.3/testObject-benchmark_8cpp_source.html

#include <cmath>

#include <iostream>

#include <sstream>

#include "DGtal/base/Common.h"

#include "DGtal/kernel/SpaceND.h"

#include "DGtal/kernel/domains/DomainPredicate.h"

#include "DGtal/kernel/domains/HyperRectDomain.h"

#include "DGtal/kernel/sets/DigitalSetSelector.h"

#include "DGtal/kernel/sets/DigitalSetConverter.h"

#include "DGtal/topology/MetricAdjacency.h"

#include "DGtal/topology/DomainMetricAdjacency.h"

#include "DGtal/topology/DomainAdjacency.h"

#include "DGtal/topology/DigitalTopology.h"

#include "DGtal/topology/Object.h"

#include "DGtal/graph/Expander.h"

#include "DGtal/io/boards/Board2D.h"


using namespace std;

using namespace DGtal;

using namespace LibBoard;


#define INBLOCK_TEST(x) \

  nbok += ( x ) ? 1 : 0; \

  nb++; \

  trace.info() << "(" << nbok << "/" << nb << ") " \

  << #x << std::endl;


#define INBLOCK_TEST2(x,y) \

  nbok += ( x ) ? 1 : 0; \

  nb++; \

  trace.info() << "(" << nbok << "/" << nb << ") " \

  << y << std::endl;


// Functions for testing class Object.


bool testObject()

{

  unsigned int nbok = 0;

  unsigned int nb = 0;


  typedef SpaceND< 2 > Z2;

  typedef Z2::Point Point;

  typedef Point::Coordinate Coordinate;

  typedef HyperRectDomain< Z2 > DomainType;

  Point p1(  -449, -449  );

  Point p2( 449, 449  );

  DomainType domain( p1, p2 );


  // typedef DomainMetricAdjacency< DomainType, 1 > Adj4;

  // typedef DomainMetricAdjacency< DomainType, 2 > Adj8;

  typedef MetricAdjacency< Z2, 1 > MetricAdj4;

  typedef MetricAdjacency< Z2, 2 > MetricAdj8;

  typedef DomainAdjacency< DomainType, MetricAdj4 > Adj4;

  typedef DomainAdjacency< DomainType, MetricAdj8 > Adj8;

  typedef DigitalTopology< Adj4, Adj8 > DT48;

  typedef DigitalSetSelector < DomainType, MEDIUM_DS + HIGH_BEL_DS >::Type

  MediumSet;

//   typedef DigitalSetSelector< DomainType, SMALL_DS >::Type

//     MediumSet;

  typedef Object<DT48, MediumSet> ObjectType;

  typedef ObjectType::SmallSet SmallSet;

  typedef Object<DT48, SmallSet> SmallObjectType;

  typedef ObjectType::Size Size;


  // Adj4 adj4( domain );

  // Adj8 adj8( domain );

  MetricAdj4 madj4;

  MetricAdj8 madj8;

  Adj4 adj4( domain, madj4 );

  Adj8 adj8( domain, madj8 );

  DT48 dt48( adj4, adj8, JORDAN_DT );


  Coordinate r = 449;

  double radius = (double) (r + 1);

  Point c(  0, 0  );

  Point l(  r, 0  );

  MediumSet disk( domain );

  ostringstream sstr;

  sstr << "Creating disk( r < " << radius << " ) ...";

  trace.beginBlock ( sstr.str() );

  for ( DomainType::ConstIterator it = domain.begin();

      it != domain.end();

      ++it )

  {

    if ( (*it - c ).norm() < radius ) // 450.0

      // insertNew is very important for vector container.

      disk.insertNew( *it );

  }

  trace.endBlock();


  trace.beginBlock ( "Testing Object instanciation and smart copy  ..." );

  ObjectType disk_object( dt48, disk );

  nbok += disk_object.size() == 636101 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Disk (r=450.0) " << disk_object << std::endl;

  trace.info() << "  size=" << disk_object.size() << std::endl;

  ObjectType disk_object2( disk_object );

  nbok += disk_object2.size() == 636101 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Disk2 (r=450.0) " << disk_object2 << std::endl;

  trace.info() << "  size=" << disk_object2.size() << std::endl;

  trace.endBlock();


  trace.beginBlock ( "Testing copy on write system ..." );

  trace.info() << "Removing center point in Disk." << std::endl;

  disk_object.pointSet().erase( c );

  disk_object2.pointSet().insert( c );

  nbok += disk_object.size() == 636100 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Disk - c (r=450.0) " << disk_object << std::endl;

  trace.info() << "  size=" << disk_object.size() << std::endl;

  nbok += disk_object2.size() == 636101 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Disk2 + c (r=450.0) " << disk_object2 << std::endl;

  trace.info() << "  size=" << disk_object2.size() << std::endl;

  trace.endBlock();


  trace.beginBlock ( "Testing neighborhoods ..." );

  Object<DT48, SmallSet> neigh = disk_object.neighborhood( c );

  nbok += neigh.size() == 4 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "N_4(Disk, c).size() = " << neigh.size()

  << " == 4" << std::endl;

  neigh = disk_object.properNeighborhood( l );

  nbok += neigh.size() == 3 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "N*_4(Disk, " << l << ").size() = " << neigh.size()

  << " == 3" << std::endl;

  Size size = disk_object.properNeighborhoodSize( l );

  nbok += size == 3 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "#N*_4(Disk, " << l << ") = " << size

  << " == 3" << std::endl;


  neigh = disk_object2.neighborhood( c );

  nbok += neigh.size() == 5 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "N_4(Disk2, c).size() = " << neigh.size()

  << " == 5" << std::endl;

  trace.endBlock();


  trace.beginBlock ( "Testing set converters ..." );

  DigitalSetConverter<SmallSet>::assign

  ( neigh.pointSet(), disk_object.pointSet() );

  nbok += neigh.size() == 636100 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "neigh = disk_object, size() = " << neigh.size()

  << " == 636100" << std::endl;

  SmallObjectType neigh2 = disk_object2.neighborhood( c );

  DigitalSetConverter<SmallSet>::assign

  ( neigh.pointSet(), neigh2.pointSet() );

  nbok += neigh.size() == 5 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "neigh = N_4(Disk2, c), size() = " << neigh.size()

  << " == 5" << std::endl;

  trace.endBlock();


  trace.beginBlock ( "Testing border extraction ..." );

  ObjectType bdisk = disk_object.border();

  nbok += bdisk.size() == 3372 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Border(Disk, c), size() = " << bdisk.size()

  << " == 3372" << std::endl;

  ObjectType bdisk2 = disk_object2.border();

  nbok += bdisk2.size() == 3364 ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "Border(Disk2, c), size() = " << bdisk2.size()

  << " == 3364" << std::endl;

  trace.endBlock();


  trace.beginBlock ( "Testing expansion by layers on the boundary ..." );

  typedef Expander< ObjectType > ObjectExpander;

  ObjectExpander expander( bdisk, *(bdisk.pointSet().begin()) );

  while ( ! expander.finished() )

  {

    nbok += expander.layer().size() <= 2 ? 1 : 0;

    nb++;

    trace.info() << "(" << nbok << "/" << nb << ") "

    << "expander.layer.size() <= 2 "

    << expander << std::endl;

    expander.nextLayer();

  }

  trace.endBlock();


  trace.beginBlock ( "Testing expansion by layers on the disk from center..." );

  ObjectExpander expander2( disk_object2, c );

  while ( ! expander2.finished() )

  {

    trace.info() << expander2 << std::endl;

    expander2.nextLayer();

  }

  nbok += expander2.distance() <= sqrt(2.0) * radius ? 1 : 0;

  nb++;

  trace.info() << "(" << nbok << "/" << nb << ") "

  << "expander.distance() = " << expander2.distance()

  << " <= " << sqrt(2.0)*radius << std::endl;

  trace.endBlock();


  return nbok == nb;

}


bool testObject3D()

{

  unsigned int nbok = 0;

  unsigned int nb = 0;

  typedef SpaceND<  3 > Z3;

  typedef MetricAdjacency< Z3, 1 > Adj6;

  typedef MetricAdjacency< Z3, 2 > Adj18;

  typedef DigitalTopology< Adj6, Adj18 > DT6_18;

  typedef Z3::Point Point;

  typedef HyperRectDomain< Z3 > Domain;

  typedef Domain::ConstIterator DomainConstIterator;

  typedef DigitalSetSelector < Domain, BIG_DS + HIGH_BEL_DS >::Type DigitalSet;

  typedef Object<DT6_18, DigitalSet> ObjectType;

  Adj6 adj6;

  Adj18 adj18;

  DT6_18 dt6_18( adj6, adj18, JORDAN_DT );


  Point p1( -50, -50, -50 );

  Point p2( 50, 50, 50 );

  Domain domain( p1, p2 );

  Point c( 0, 0, 0 );

  Point d( 10, 2, 0 );


  trace.beginBlock ( "Testing 3D Object instanciation and smart copy  ..." );

  trace.info() << "Creating diamond (r=45)" << endl;

  // diamond of radius 30

  DigitalSet diamond_set( domain );

  for ( DomainConstIterator it = domain.begin(); it != domain.end(); ++it )

  {

    if ( (*it - c ).norm1() <= 45 )

      diamond_set.insertNew( *it );

  }

  ObjectType diamond( dt6_18, diamond_set );

  trace.info() << "Cloning diamond" << endl;

  // The following line takes almost no time.

  ObjectType diamond_clone( diamond );

  // Since one of the objects is modified, the set is duplicated at the following line

  trace.info() << "Removing two points " << c << " and " << d << endl;

  diamond_clone.pointSet().erase( c );

  diamond_clone.pointSet().erase( d );


  trace.info() << "Inserting into vector<Object>" << endl;

  vector<ObjectType> objects;

  back_insert_iterator< vector< ObjectType > > inserter( objects );

  *inserter++ = diamond;

  *inserter++ = diamond_clone;


  for (  vector<ObjectType>::const_iterator it = objects.begin();

      it != objects.end();

      ++it )

    trace.info() << "- objects[" << (it - objects.begin() ) << "]"

    << " = " << *it << endl;


  INBLOCK_TEST( objects[ 0 ].size() == ( objects[ 1 ].size() + 2 ) );

  INBLOCK_TEST( objects[ 0 ].size() == 125671 );

  trace.endBlock();


  trace.beginBlock ( "Testing connected component extraction  ..." );

  // JOL: do like this for output iterators pointing on the same

  // container as 'this'. Works fine and nearly as fast.

  //

  // ObjectType( objects[ 0 ] ).writeComponents( inserter );


  trace.beginBlock ( "Components of diamond.border()  ..." );

  vector<ObjectType> objects2;

  back_insert_iterator< vector< ObjectType > > inserter2( objects2 );

  unsigned int nbc0 = objects[ 0 ].border().writeComponents( inserter2 );

  INBLOCK_TEST( nbc0 == 1 );

  INBLOCK_TEST( objects[ 0 ].computeConnectedness() == CONNECTED );

  trace.endBlock();


  trace.beginBlock ( "Components of diamond_clone.border()  ..." );

  unsigned int nbc1 = objects[ 1 ].border().writeComponents( inserter2 );

  INBLOCK_TEST( nbc1 == 3 );

  trace.endBlock();

  for (  vector<ObjectType>::const_iterator it = objects2.begin();

      it != objects2.end();

      ++it )

    trace.info() << "- objects2[" << (it - objects2.begin() ) << "]"

    << " = " << *it << endl;

  INBLOCK_TEST( objects2[ 0 ].size() == objects2[ 1 ].size() );

  INBLOCK_TEST( objects2[ 2 ].size() == objects2[ 3 ].size() );

  INBLOCK_TEST( objects2[ 0 ].size() == 15848 );

  INBLOCK_TEST( objects2[ 2 ].size() == 18 );


  trace.endBlock();


  return nbok == nb;


}


bool testSimplePoints3D()

{

  unsigned int nbok = 0;

  unsigned int nb = 0;

  typedef SpaceND< 3 > Z3;

  typedef MetricAdjacency< Z3, 1 > Adj6;

  typedef MetricAdjacency< Z3, 2 > Adj18;

  typedef DigitalTopology< Adj6, Adj18 > DT6_18;

  typedef Z3::Point Point;

  typedef HyperRectDomain< Z3 > Domain;

  typedef Domain::ConstIterator DomainConstIterator;

  typedef DigitalSetSelector < Domain, BIG_DS + HIGH_BEL_DS >::Type DigitalSet;

  typedef Object<DT6_18, DigitalSet> ObjectType;

  typedef Object<DT6_18, DigitalSet>::SmallObject SmallObjectType;

  typedef Object<DT6_18, DigitalSet>::SmallComplementObject SmallComplementObjectType;

  Adj6 adj6;

  Adj18 adj18;

  DT6_18 dt6_18( adj6, adj18, JORDAN_DT );


  Point p1( -10, -10, -10 );

  Point p2( 10, 10, 10 );

  Domain domain( p1, p2 );

  Point c( 0, 0, 0 );

  Point r( 3, 0, 0 );


  trace.beginBlock ( "Creating Diamond (r=4)" );

  // diamond of radius 4

  DigitalSet diamond_set( domain );

  for ( DomainConstIterator it = domain.begin(); it != domain.end(); ++it )

  {

    if ( (*it - c ).norm1() <= 3 )

      diamond_set.insertNew( *it );

  }

  diamond_set.erase( c );

  ObjectType diamond( dt6_18, diamond_set );

  trace.endBlock();


  trace.beginBlock ( "Geodesic neighborhoods ..." );

  SmallObjectType geoN6_3 = diamond.geodesicNeighborhood( adj6, r, 3 );

  SmallObjectType geoN18_2 = diamond.geodesicNeighborhood( adj18, r, 2 );

  trace.info() << "geoN6_3  = " << geoN6_3 << endl;

  trace.info() << "geoN18_2 = " << geoN18_2 << endl;

  SmallComplementObjectType cgeoN6_3 = diamond.geodesicNeighborhoodInComplement( adj6, r, 3 );

  SmallComplementObjectType cgeoN18_2 = diamond.geodesicNeighborhoodInComplement( adj18, r, 2 );

  trace.info() << "cgeoN6_3  = " << cgeoN6_3 << endl;

  trace.info() << "cgeoN18_2 = " << cgeoN18_2 << endl;

  trace.endBlock();


  trace.beginBlock ( "Simple points ..." );

  for ( DigitalSet::ConstIterator it = diamond.pointSet().begin();

      it != diamond.pointSet().end();

      ++it )

    trace.info() << "- " << *it

    << " " << ( diamond.isSimple( *it ) ? "Simple" : "Not simple" )

    << endl;

  trace.endBlock();


  return nbok == nb;

}


bool testDraw()

{

  unsigned int nbok = 0;

  unsigned int nb = 0;


  trace.beginBlock ( "testDraw(): testing drawing commands." );


  typedef SpaceND<  2 > Z2;

  typedef Z2::Point Point;

  typedef Point::Coordinate Coordinate;

  typedef HyperRectDomain< Z2 > DomainType;

  Point p1(  -10, -10  );

  Point p2( 10, 10  );

  DomainType domain( p1, p2 );


  // typedef DomainMetricAdjacency< DomainType, 1 > Adj4;

  // typedef DomainMetricAdjacency< DomainType, 2 > Adj8;

  typedef MetricAdjacency< Z2, 1 > MetricAdj4;

  typedef MetricAdjacency< Z2, 2 > MetricAdj8;

  typedef DomainAdjacency< DomainType, MetricAdj4 > Adj4;

  typedef DomainAdjacency< DomainType, MetricAdj8 > Adj8;

  typedef DigitalTopology< Adj4, Adj8 > DT48;

  typedef DigitalTopology< Adj8, Adj4 > DT84;

  typedef DigitalSetSelector < DomainType, MEDIUM_DS + HIGH_BEL_DS >::Type

  MediumSet;

//   typedef DigitalSetSelector< DomainType, SMALL_DS >::Type

//     MediumSet;

  typedef Object<DT48, MediumSet> ObjectType;

  typedef Object<DT84, MediumSet> ObjectType84;


  //typedef ObjectType::SmallSet SmallSet;

  //typedef Object<DT48, SmallSet> SmallObjectType;

  //typedef ObjectType::Size Size;


  // Adj4 adj4( domain );

  // Adj8 adj8( domain );

  MetricAdj4 madj4;

  MetricAdj8 madj8;

  Adj4 adj4( domain, madj4 );

  Adj8 adj8( domain, madj8 );

  DT48 dt48( adj4, adj8, JORDAN_DT );

  DT84 dt84( adj8, adj4, JORDAN_DT );


  Coordinate r = 5;

  double radius = (double) (r + 1);

  Point c(  0, 0  );

  Point l(  r, 0  );

  MediumSet disk( domain );

  ostringstream sstr;

  sstr << "Creating disk( r < " << radius << " ) ...";

  trace.beginBlock ( sstr.str() );

  for ( DomainType::ConstIterator it = domain.begin();

      it != domain.end();

      ++it )

  {

    if ( (*it - c ).norm() < radius ) // 450.0

      // insertNew is very important for vector container.

      disk.insertNew( *it );

  }

  trace.endBlock();


  trace.beginBlock ( "Testing Object instanciation and smart copy  ..." );

  ObjectType disk_object( dt48, disk );

  ObjectType84 disk_object2( dt84, disk );

  trace.endBlock();


  trace.beginBlock ( "Testing export as SVG with libboard." );


  Board2D board;

  board.setUnit(Board::UCentimeter);


  board << SetMode( domain.className(), "Grid" ) << domain;

  board << disk_object;


  board.saveSVG("disk-object.svg");


  Board2D board2;

  board2.setUnit(Board::UCentimeter);


  board2 << SetMode( domain.className(), "Grid" ) << domain;

  board2 << SetMode( disk_object.className(), "DrawAdjacencies" ) << disk_object;


  board2.saveSVG("disk-object-adj.svg");


  Board2D board3;

  board3.setUnit( Board::UCentimeter );


  board3 << SetMode( domain.className(), "Grid" ) << domain;

  board3 << SetMode( disk_object2.className(), "DrawAdjacencies" ) << disk_object2;


  board3.saveSVG("disk-object-adj-bis.svg");

  trace.endBlock();


  trace.endBlock();


  return nbok == nb;


}


// Standard services - public :


int main( int argc, char** argv )

{

  trace.beginBlock ( "Testing class Object" );

  trace.info() << "Args:";

  for ( int i = 0; i < argc; ++i )

    trace.info() << " " << argv[ i ];

  trace.info() << endl;


  bool res = testObject() &&

      testObject3D() && testDraw()

      && testSimplePoints3D();


  trace.emphase() << ( res ? "Passed." : "Error." ) << endl;

  trace.endBlock();

  return res ? 0 : 1;

}

//                                                                           //

DGtal::Board2D
Aim: This class specializes a 'Board' class so as to display DGtal objects more naturally (with <<)....
Definition: Board2D.h:71

DGtal::DigitalSetByAssociativeContainer
Aim: A wrapper class around a STL associative container for storing sets of digital points within som...
Definition: DigitalSetByAssociativeContainer.h:90

DGtal::DigitalSetByAssociativeContainer::ConstIterator
Container::const_iterator ConstIterator
ConstIterator type of the container;.
Definition: DigitalSetByAssociativeContainer.h:108

DGtal::DigitalTopology
Aim: Represents a digital topology as a couple of adjacency relations.
Definition: DigitalTopology.h:96

DGtal::DomainAdjacency
Aim: Given a domain and an adjacency, limits the given adjacency to the specified domain for all adja...
Definition: DomainAdjacency.h:74

DGtal::Expander
Aim: This class is useful to visit an object by adjacencies, layer by layer.
Definition: Expander.h:98

DGtal::HyperRectDomain_Iterator
Iterator for HyperRectDomain.
Definition: HyperRectDomain_Iterator.h:154

DGtal::HyperRectDomain
Aim: Parallelepidec region of a digital space, model of a 'CDomain'.
Definition: HyperRectDomain.h:100

DGtal::HyperRectDomain::begin
const ConstIterator & begin() const
Definition: HyperRectDomain.h:176

DGtal::HyperRectDomain::className
std::string className() const

DGtal::HyperRectDomain::end
const ConstIterator & end() const
Definition: HyperRectDomain.h:201

DGtal::MetricAdjacency
Aim: Describes digital adjacencies in digital spaces that are defined with the 1-norm and the infinit...
Definition: MetricAdjacency.h:80

DGtal::Object
Aim: An object (or digital object) represents a set in some digital space associated with a digital t...
Definition: Object.h:120

DGtal::Object::size
Size size() const

DGtal::Object::pointSet
const DigitalSet & pointSet() const

DGtal::Object::properNeighborhood
SmallObject properNeighborhood(const Point &p) const

DGtal::Object::neighborhood
SmallObject neighborhood(const Point &p) const

DGtal::SpaceND
Definition: SpaceND.h:96

DGtal::Trace::beginBlock
void beginBlock(const std::string &keyword="")

DGtal::Trace::emphase
std::ostream & emphase()

DGtal::Trace::info
std::ostream & info()

DGtal::Trace::endBlock
double endBlock()

LibBoard::Board::UCentimeter
@ UCentimeter
Definition: Board.h:43

LibBoard::Board::saveSVG
void saveSVG(const char *filename, PageSize size=Board::BoundingBox, double margin=10.0) const
Definition: Board.cpp:1012

LibBoard::Board::setUnit
void setUnit(Unit unit)
Definition: Board.cpp:240

DGtal::Z2i::Adj4
MetricAdjacency< Space, 1 > Adj4
Definition: StdDefs.h:90

DGtal::Z2i::Adj8
MetricAdjacency< Space, 2 > Adj8
Definition: StdDefs.h:92

DGtal::Z2i::Z2
Space Z2
Definition: StdDefs.h:76

DGtal::Z3i::Adj18
MetricAdjacency< Space, 2 > Adj18
Definition: StdDefs.h:161

DGtal::Z3i::Z3
Space Z3
Definition: StdDefs.h:145

DGtal::Z3i::Adj6
MetricAdjacency< Space, 1 > Adj6
Definition: StdDefs.h:159

DGtal::Z3i::DT6_18
DigitalTopology< Adj6, Adj18 > DT6_18
Definition: StdDefs.h:164

DGtal
DGtal is the top-level namespace which contains all DGtal functions and types.
Definition: ClosedIntegerHalfPlane.h:49

DGtal::CONNECTED
@ CONNECTED
Definition: Topology.h:52

DGtal::trace
Trace trace
Definition: Common.h:154

DGtal::JORDAN_DT
@ JORDAN_DT
Definition: DigitalTopology.h:57

LibBoard
Definition: Board.cpp:87

std
STL namespace.

DGtal::DigitalSetConverter::assign
static void assign(OutputDigitalSet &output, const InputDigitalSet &input)

DGtal::DigitalSetSelector::Type
DigitalSetByAssociativeContainer< Domain, std::unordered_set< typename Domain::Point > > Type
Definition: DigitalSetSelector.h:94

DGtal::SetMode
Modifier class in a Board2D stream. Useful to choose your own mode for a given class....
Definition: Board2D.h:247

LibBoard::Point
Struct representing a 2D point.
Definition: Point.h:27

INBLOCK_TEST
#define INBLOCK_TEST(x)
Definition: testBasicBoolFunctors.cpp:40

main
int main()
Definition: testBits.cpp:56

Size
HalfEdgeDataStructure::Size Size
Definition: testHalfEdgeDataStructure.cpp:50

domain
Domain domain
Definition: testProjection.cpp:88

Domain
HyperRectDomain< Space > Domain
Definition: testSimpleRandomAccessRangeFromPoint.cpp:44

DigitalSet
Z2i::DigitalSet DigitalSet
Definition: testVoronoiMapComplete.cpp:41