#include <TestShape.h>
#include <TopTools_ListOfShape.hxx>
#include <AIS_DisplayMode.hxx>
-#include <Aspect_ColorScale.hxx>
#include <BRepMesh_IncrementalMesh.hxx>
#include <QString>
#include <QColor>
#include <BRepTools.hxx>
#include <BRep_Builder.hxx>
#include <BRepCheck_Analyzer.hxx>
+#include <OSD_Timer.hxx>
+#include <TopTools_ListIteratorOfListOfShape.hxx>
#define _DEVDEBUG_
#include "HYDRO_trace.hxx"
-const QString REF_DATA_PATH = qgetenv( "HYDRO_ROOT_DIR" ) + "/bin/salome/test/HYDRO";
-const QString DEF_STR_PATH = qgetenv( "HYDRO_ROOT_DIR" ) + "/share/salome/resources/hydro/def_strickler_table.txt";
+extern QString REF_DATA_PATH;
+const QString DEF_STR_PATH = qgetenv( "HYDRO_ROOT_DIR" ) + "/share/salome/resources/hydro/def_strickler_table_06.txt";
void test_HYDROData_LandCoverMap::test_add_2_objects()
{
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC1 = Face( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
//DEBTRACE("--- ajout test1 " << aLC1);
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) );
- TopoDS_Face aLC2 = Face( QList<double>() << 30 << 20 << 60 << 10 << 70 << 35 << 40 << 40 );
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 30 << 20 << 60 << 10 << 70 << 35 << 40 << 40 );
//DEBTRACE("--- ajout test2 " << aLC2);
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, "test2" ) );
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC = Face( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
+ TopoDS_Face aLC = Face2d( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC, "test1" ) );
Handle(HYDROData_PolylineXY) aPolyline =
Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) );
- TopoDS_Wire aWire = Wire( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10, false );
+ TopoDS_Wire aWire = Wire2d( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10, false );
aPolyline->SetShape( aWire );
CPPUNIT_ASSERT_EQUAL( true, aMap->Split( aPolyline ) );
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC = Face( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
+ TopoDS_Face aLC = Face2d( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC, "test1" ) );
Handle(HYDROData_PolylineXY) aPolyline =
Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) );
- TopoDS_Wire aWire = Wire( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10, false );
+ TopoDS_Wire aWire = Wire2d( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10, false );
aPolyline->SetShape( aWire );
CPPUNIT_ASSERT_EQUAL( false, aMap->Split( aPolyline ) );
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, "test2" ) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) );
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, "test2" ) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) );
// aST.size() == aDBFV.size()!!
Handle(HYDROData_PolylineXY) aPolyline =
Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) );
- TopoDS_Wire aWire = Wire( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10 );
+ TopoDS_Wire aWire = Wire2d( QList<double>() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10 );
aPolyline->SetShape( aWire );
for (int i = 0; i < 3; i++)
aMap->Add(aPolyline, "");
- TopoDS_Face aLC1 = Face( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) );
CPPUNIT_ASSERT_EQUAL( true, aMap->Split( aPolyline ) );
Handle(HYDROData_LandCoverMap) aMap =
Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, QString::fromUtf8("Zones de champs cultivé à végétation basse")) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, QString::fromUtf8("Zones de champs cultivé à végétation haute")) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, QString::fromUtf8("Zones de champs, prairies, sans cultures")) );
TestViewer::show( aPrs, AIS_Shaded, 4, true, "LandCoverMap_PrsByTypes" );
// select one of faces (first)
TestViewer::select( 200, 300 );
- CPPUNIT_ASSERT_IMAGES
+ // CPPUNIT_ASSERT_IMAGES
aDoc->Close();
}
Handle(HYDROData_LandCoverMap) aMap =
Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, QString::fromUtf8("Zones de champs cultivé à végétation basse")) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, QString::fromUtf8("Zones de champs cultivé à végétation haute")) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, QString::fromUtf8("Zones de champs, prairies, sans cultures")) );
CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, "test2" ) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) );
Handle(HYDROData_LandCoverMap) aMap =
Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
- aMap->LocalPartition( Face( QList<double>() << 1 << 1 << 10 << 10 << 10 << 20 ), QString::fromUtf8("Zones de champs cultivé à végétation haute"));
- aMap->LocalPartition( Face( QList<double>() << 5 << 5 << 10 << 5 << 10 << 8 << 5 << 12 << 5 << 8 ), QString::fromUtf8("Zones de champs cultivé à végétation haute"));
+ aMap->LocalPartition( Face2d( QList<double>() << 1 << 1 << 10 << 10 << 10 << 20 ), QString::fromUtf8("Zones de champs cultivé à végétation haute"));
+ aMap->LocalPartition( Face2d( QList<double>() << 5 << 5 << 10 << 5 << 10 << 8 << 5 << 12 << 5 << 8 ), QString::fromUtf8("Zones de champs cultivé à végétation haute"));
aMap->SetName( "test_LCM" );
TestViewer::show( aZone->GetTopShape(), AIS_Shaded, true, "LandCoverMap_TransparentPrs" );
aDoc->Close();
}
-
+#include <QTest>
void test_HYDROData_LandCoverMap::test_shp_import_cyp()
{
Handle(HYDROData_Document) aDoc = HYDROData_Document::Document(1);
LCM->StoreLandCovers(aMapFace2ST);
TestViewer::show( LCM->GetShape(), AIS_Shaded, true, "cyprus_natural_all" );
+ QTest::qWait(100000);
CPPUNIT_ASSERT_IMAGES
aDoc->Close();
}
Handle(HYDROData_LandCoverMap) aMap =
Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
- TopoDS_Face aLC1 = Face( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, QString::fromUtf8("Forêt et végétation arbustive en mutation")) );
- TopoDS_Face aLC2 = Face( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 <<
44 << 95 << 85 << 100 << 104 << 66 << 107 << 33 <<
128 << 18 << 140 << 50 << 131 << 89 << 104 << 111 <<
31 << 114 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, QString::fromUtf8("Forêts de conifères")) );
- TopoDS_Face aLC3 = Face( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
+ TopoDS_Face aLC3 = Face2d( QList<double>() << 4 << 54 << 1 << 47 << 51 << 45 <<
127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, QString::fromUtf8("Forêts de feuillus")) );
QString aTmpFileName = "test.telemac";
QString aTmpPath = QDir::tempPath() + "/" + aTmpFileName;
- CPPUNIT_ASSERT_EQUAL( true, aMap->ExportTelemac( aTmpPath, 1E-4, aTable ) );
+ QString messStat;
+ CPPUNIT_ASSERT_EQUAL( true, aMap->ExportTelemac( aTmpPath, 1E-4, aTable, messStat ) );
CPPUNIT_ASSERT_SCRIPTS_EQUAL( aTmpFileName, true, true, 0 );
aDoc->Close();
Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
aMap->SetName( "map_1" );
- TopoDS_Face aLC1 = Face( QList<double>() << 10 << 10 << 30 << 10 << 20 << 20 );
+ TopoDS_Face aLC1 = Face2d( QList<double>() << 10 << 10 << 30 << 10 << 20 << 20 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, QString::fromUtf8("Forêts de conifères")) );
- TopoDS_Face aLC2 = Face( QList<double>() << 110 << 10 << 130 << 10 << 120 << 20 );
+ TopoDS_Face aLC2 = Face2d( QList<double>() << 110 << 10 << 130 << 10 << 120 << 20 );
CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, QString::fromUtf8("Forêts de feuillus")) );
Handle(HYDROData_LandCoverMap) aMap2 =
aDoc->Close();
}
+
+void test_HYDROData_LandCoverMap::test_shp_clc_classification_perf()
+{
+ Handle(HYDROData_Document) aDoc = HYDROData_Document::Document(1);
+ QString aFileName = REF_DATA_PATH + "/CLC_decoupe.shp";
+ HYDROData_ShapeFile anImporter;
+ QStringList PolygonList;
+ TopTools_SequenceOfShape PolygonFaces;
+ int Type = -1;
+ int aStat = anImporter.ImportPolygons(aDoc, aFileName, PolygonList, PolygonFaces, Type);
+ CPPUNIT_ASSERT(aStat == 1);
+ CPPUNIT_ASSERT_EQUAL(5, Type);
+ CPPUNIT_ASSERT_EQUAL(625, PolygonFaces.Length());
+
+ Handle(HYDROData_LandCoverMap) LCM = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
+ HYDROData_MapOfFaceToStricklerType aMapFace2ST;
+
+#ifdef NDEBUG
+ int SI = 100;
+ int EI = 300;
+#else
+ int SI = 150;
+ int EI = 200;
+#endif
+
+ for ( int i = SI; i <= EI; i++ )
+ {
+ TopoDS_Shape aShape = PolygonFaces(i);
+ if ( aShape.IsNull() )
+ continue;
+ aMapFace2ST.Add( TopoDS::Face( aShape ), "ST_" + QString::number(i) );
+ }
+
+ LCM->StoreLandCovers(aMapFace2ST);
+
+ std::vector<gp_XY> pnts;
+#ifdef NDEBUG
+ int N = 1000; //1000*1000 points; uniform distribution for release mode
+#else
+ int N = 100;
+#endif
+
+ pnts.reserve(N);
+ double x0 = 448646.91897505691;
+ double x1 = 487420.3990381231;
+ double y0 = 6373566.5122489957;
+ double y1 = 6392203.4117361344;
+ for (size_t i=0; i < N; i++)
+ {
+ for (size_t j=0; j < N; j++)
+ {
+ double px = x0 + (x1-x0)*((double)i/(double)N);
+ double py = y0 + (y1-y0)*((double)j/(double)N);
+ pnts.push_back(gp_XY(px,py));
+ }
+ }
+ OSD_Timer aTimer;
+ std::vector<std::set <QString> > TRes;
+ aTimer.Start();
+ LCM->ClassifyPoints(pnts, TRes);
+ aTimer.Stop();
+#ifdef NDEBUG
+ CPPUNIT_ASSERT( aTimer.ElapsedTime() < 1.4);
+ aTimer.Show();
+#endif
+}
+
+void test_HYDROData_LandCoverMap::test_shp_clc_classification_check()
+{
+ Handle(HYDROData_Document) aDoc = HYDROData_Document::Document(1);
+ QString aFileName = REF_DATA_PATH + "/CLC_decoupe.shp";
+ HYDROData_ShapeFile anImporter;
+ QStringList PolygonList;
+ TopTools_SequenceOfShape PolygonFaces;
+ int Type = -1;
+ int aStat = anImporter.ImportPolygons(aDoc, aFileName, PolygonList, PolygonFaces, Type);
+ CPPUNIT_ASSERT(aStat == 1);
+ Handle(HYDROData_LandCoverMap) LCM = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) );
+ HYDROData_MapOfFaceToStricklerType aMapFace2ST;
+
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(172) ), "Tissu urbain continu" );
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(179) ), "Aéroports" );
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(185) ), "Rizières" );
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(187) ), "Vignobles" );
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(190) ), "Oliveraies" );
+ aMapFace2ST.Add( TopoDS::Face( PolygonFaces(196) ), "Estuaires" );
+
+ LCM->StoreLandCovers(aMapFace2ST);
+
+ TopoDS_Shape Sh = LCM->GetShape();
+
+ std::vector<gp_XY> pnts;
+ pnts.push_back(gp_XY(0,0));
+
+ pnts.push_back(gp_XY(468380, 6382300));
+ pnts.push_back(gp_XY(468380, 6382900));
+ pnts.push_back(gp_XY(468380, 6383200));
+ pnts.push_back(gp_XY(468250, 6384700));
+ pnts.push_back(gp_XY(470350, 6384700));
+ pnts.push_back(gp_XY(469279.642874048, 6385132.45048612 ));
+
+ std::vector<std::set <QString> > TRes;
+ LCM->ClassifyPoints(pnts, TRes);
+
+ CPPUNIT_ASSERT (TRes[0].empty());
+ CPPUNIT_ASSERT (TRes[1].empty());
+ CPPUNIT_ASSERT (TRes[2].empty());
+ CPPUNIT_ASSERT_EQUAL (*TRes[3].begin(), QString("Estuaires"));
+ CPPUNIT_ASSERT_EQUAL (*TRes[4].begin(), QString("Oliveraies"));
+ CPPUNIT_ASSERT_EQUAL (*TRes[5].begin(), QString("Vignobles"));
+
+ //std::less comparator; so compare first and second elem safely
+ CPPUNIT_ASSERT_EQUAL (*TRes[6].begin(), QString("Estuaires"));
+ CPPUNIT_ASSERT_EQUAL (*(++TRes[6].begin()), QString("Tissu urbain continu"));
+
+ ///
+ Handle(HYDROData_StricklerTable) aTable = Handle(HYDROData_StricklerTable)::DownCast( aDoc->CreateObject( KIND_STRICKLER_TABLE ) );
+ CPPUNIT_ASSERT_EQUAL( true, aTable->Import( DEF_STR_PATH ) );
+ std::vector<double> coeffs;
+ LCM->ClassifyPoints(pnts, aTable, coeffs, 0.0, true);
+
+ CPPUNIT_ASSERT_EQUAL (coeffs[0], 0.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[1], 0.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[2], 0.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[3], 98.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[4], 26.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[5], 24.0);
+ CPPUNIT_ASSERT_EQUAL (coeffs[6], 98.0);
+
+}
+
