X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FHYDRO_tests%2Ftest_HYDROData_LandCoverMap.cxx;h=43320fc973aaf49e440ba0819e6107a425e1b643;hb=b4e2289f57dded4b33e1aad8740ed1e400726614;hp=a66ae5ef73181787d0930d5deb528ff34b9e4aef;hpb=00aa7cf3ceb5291303342ce1ce84d5e0cb49319a;p=modules%2Fhydro.git diff --git a/src/HYDRO_tests/test_HYDROData_LandCoverMap.cxx b/src/HYDRO_tests/test_HYDROData_LandCoverMap.cxx index a66ae5ef..43320fc9 100644 --- a/src/HYDRO_tests/test_HYDROData_LandCoverMap.cxx +++ b/src/HYDRO_tests/test_HYDROData_LandCoverMap.cxx @@ -34,7 +34,6 @@ #include #include #include -#include #include #include #include @@ -49,8 +48,9 @@ #define _DEVDEBUG_ #include "HYDRO_trace.hxx" -const QString REF_DATA_PATH = qgetenv( "HYDRO_ROOT_DIR" ) + "/bin/salome/test"; -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"; +extern QString TMP_DIR; void test_HYDROData_LandCoverMap::test_add_2_objects() { @@ -61,11 +61,11 @@ void test_HYDROData_LandCoverMap::test_add_2_objects() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC1 = Face( QList() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 ); + TopoDS_Face aLC1 = Face2d( QList() << 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() << 30 << 20 << 60 << 10 << 70 << 35 << 40 << 40 ); + TopoDS_Face aLC2 = Face2d( QList() << 30 << 20 << 60 << 10 << 70 << 35 << 40 << 40 ); //DEBTRACE("--- ajout test2 " << aLC2); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, "test2" ) ); @@ -107,12 +107,12 @@ void test_HYDROData_LandCoverMap::test_split() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC = Face( QList() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 ); + TopoDS_Face aLC = Face2d( QList() << 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() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10, false ); + TopoDS_Wire aWire = Wire2d( QList() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10, false ); aPolyline->SetShape( aWire ); CPPUNIT_ASSERT_EQUAL( true, aMap->Split( aPolyline ) ); @@ -142,12 +142,12 @@ void test_HYDROData_LandCoverMap::test_incomplete_split() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC = Face( QList() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 ); + TopoDS_Face aLC = Face2d( QList() << 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() << 10 << 40 << 30 << 10 << 40 << 10, false ); + TopoDS_Wire aWire = Wire2d( QList() << 10 << 40 << 30 << 10 << 40 << 10, false ); aPolyline->SetShape( aWire ); CPPUNIT_ASSERT_EQUAL( false, aMap->Split( aPolyline ) ); @@ -174,17 +174,17 @@ void test_HYDROData_LandCoverMap::test_merge() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC1 = Face( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + TopoDS_Face aLC1 = Face2d( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) ); - TopoDS_Face aLC2 = Face( QList() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + TopoDS_Face aLC2 = Face2d( QList() << 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() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 4 << 54 << 1 << 47 << 51 << 45 << 127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) ); @@ -279,17 +279,17 @@ void test_HYDROData_LandCoverMap::test_remove() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC1 = Face( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + TopoDS_Face aLC1 = Face2d( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) ); - TopoDS_Face aLC2 = Face( QList() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + TopoDS_Face aLC2 = Face2d( QList() << 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() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 4 << 54 << 1 << 47 << 51 << 45 << 127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) ); @@ -552,11 +552,11 @@ void test_HYDROData_LandCoverMap::test_import_dbf() // aST.size() == aDBFV.size()!! Handle(HYDROData_PolylineXY) aPolyline = Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) ); - TopoDS_Wire aWire = Wire( QList() << 10 << 40 << 30 << 10 << 40 << 10 << 60 << 10 ); + TopoDS_Wire aWire = Wire2d( QList() << 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() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 ); + TopoDS_Face aLC1 = Face2d( QList() << 10 << 10 << 50 << 20 << 30 << 50 << 15 << 30 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) ); CPPUNIT_ASSERT_EQUAL( true, aMap->Split( aPolyline ) ); @@ -581,16 +581,16 @@ void test_HYDROData_LandCoverMap::test_land_cover_prs_by_types() Handle(HYDROData_LandCoverMap) aMap = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); - TopoDS_Face aLC1 = Face( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + TopoDS_Face aLC1 = Face2d( QList() << 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() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + TopoDS_Face aLC2 = Face2d( QList() << 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() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 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")) ); @@ -602,7 +602,7 @@ void test_HYDROData_LandCoverMap::test_land_cover_prs_by_types() // select one of faces (first) TestViewer::select( 200, 300 ); CPPUNIT_ASSERT_IMAGES - + TestViewer::eraseAll(true, true); aDoc->Close(); } @@ -617,16 +617,16 @@ void test_HYDROData_LandCoverMap::test_land_cover_prs_by_coeff() Handle(HYDROData_LandCoverMap) aMap = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); - TopoDS_Face aLC1 = Face( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + TopoDS_Face aLC1 = Face2d( QList() << 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() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + TopoDS_Face aLC2 = Face2d( QList() << 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() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 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")) ); @@ -656,24 +656,24 @@ void test_HYDROData_LandCoverMap::test_dump_python() CPPUNIT_ASSERT_EQUAL( KIND_LAND_COVER_MAP, aMap->GetKind() ); - TopoDS_Face aLC1 = Face( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + TopoDS_Face aLC1 = Face2d( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, "test1" ) ); - TopoDS_Face aLC2 = Face( QList() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + TopoDS_Face aLC2 = Face2d( QList() << 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() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 4 << 54 << 1 << 47 << 51 << 45 << 127 << 42 << 145 << 43 << 148 << 60 << 90 << 65 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, "test3" ) ); QString aBaseName = "lc_dump.py"; QString aBaseShp = "lc_dump.shp"; QString aBaseDbf = "lc_dump.dbf"; - QString aTmpPath = QDir::tempPath() + "/" + aBaseName; + QString aTmpPath = TMP_DIR + "/" + aBaseName; CPPUNIT_ASSERT_EQUAL( true, aDoc->DumpToPython( aTmpPath, false ) ); //TODO: CPPUNIT_ASSERT_SCRIPTS_EQUAL( aBaseName, true, false, 20 ); @@ -706,8 +706,8 @@ void test_HYDROData_LandCoverMap::test_transparent_prs() Handle(HYDROData_LandCoverMap) aMap = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); - aMap->LocalPartition( Face( QList() << 1 << 1 << 10 << 10 << 10 << 20 ), QString::fromUtf8("Zones de champs cultivé à végétation haute")); - aMap->LocalPartition( Face( QList() << 5 << 5 << 10 << 5 << 10 << 8 << 5 << 12 << 5 << 8 ), QString::fromUtf8("Zones de champs cultivé à végétation haute")); + aMap->LocalPartition( Face2d( QList() << 1 << 1 << 10 << 10 << 10 << 20 ), QString::fromUtf8("Zones de champs cultivé à végétation haute")); + aMap->LocalPartition( Face2d( QList() << 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" ); @@ -811,6 +811,8 @@ void test_HYDROData_LandCoverMap::test_assign_to_calc_case() void test_HYDROData_LandCoverMap::test_shp_import_cyp() { + //TestViewer::eraseAll(true); + Handle(HYDROData_Document) aDoc = HYDROData_Document::Document(1); QString aFileName = REF_DATA_PATH + "/cyprus_natural.shp"; HYDROData_ShapeFile anImporter; @@ -825,7 +827,7 @@ void test_HYDROData_LandCoverMap::test_shp_import_cyp() Handle(HYDROData_LandCoverMap) LCM = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); HYDROData_MapOfFaceToStricklerType aMapFace2ST; - for ( int i = 1; i <= PolygonFaces.Length(); i++ ) + for ( int i = 1; i <= 20; i++ ) { TopoDS_Shape aShape = PolygonFaces(i); if ( aShape.IsNull() ) @@ -855,7 +857,7 @@ void test_HYDROData_LandCoverMap::test_shp_import_clc_dec() Handle(HYDROData_LandCoverMap) LCM = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); HYDROData_MapOfFaceToStricklerType aMapFace2ST; - for ( int i = 150; i <= 350; i++ ) + for ( int i = 150; i <= 160; i++ ) { TopoDS_Shape aShape = PolygonFaces(i); if ( aShape.IsNull() ) @@ -1085,22 +1087,31 @@ void test_HYDROData_LandCoverMap::test_export_telemac() Handle(HYDROData_LandCoverMap) aMap = Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); - TopoDS_Face aLC1 = Face( QList() << 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")) ); + QStringList types = aTable->GetTypes(); + //foreach( QString type, types ) + // std::cout << type.toStdString() << std::endl; - TopoDS_Face aLC2 = Face( QList() << 21 << 34 << 24 << 25 << 37 << 37 << 40 << 61 << + QString type7 = types[7]; + QString type8 = types[8]; + QString type9 = types[9]; + + TopoDS_Face aLC1 = Face2d( QList() << 12 << 19 << 82 << 9 << 126 << 53 << 107 << 80 << 29 << 75 ); + CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, type7 ) ); + + TopoDS_Face aLC2 = Face2d( QList() << 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")) ); + CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, type8 ) ); - TopoDS_Face aLC3 = Face( QList() << 4 << 54 << 1 << 47 << 51 << 45 << + TopoDS_Face aLC3 = Face2d( QList() << 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")) ); + CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC3, type9 ) ); QString aTmpFileName = "test.telemac"; - QString aTmpPath = QDir::tempPath() + "/" + aTmpFileName; - CPPUNIT_ASSERT_EQUAL( true, aMap->ExportTelemac( aTmpPath, 1E-4, aTable ) ); + QString aTmpPath = TMP_DIR + "/" + aTmpFileName; + QString messStat; + CPPUNIT_ASSERT_EQUAL( true, aMap->ExportTelemac( aTmpPath, 1E-4, aTable, messStat ) ); CPPUNIT_ASSERT_SCRIPTS_EQUAL( aTmpFileName, true, true, 0 ); aDoc->Close(); @@ -1114,10 +1125,10 @@ void test_HYDROData_LandCoverMap::test_copy() Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); aMap->SetName( "map_1" ); - TopoDS_Face aLC1 = Face( QList() << 10 << 10 << 30 << 10 << 20 << 20 ); + TopoDS_Face aLC1 = Face2d( QList() << 10 << 10 << 30 << 10 << 20 << 20 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC1, QString::fromUtf8("Forêts de conifères")) ); - TopoDS_Face aLC2 = Face( QList() << 110 << 10 << 130 << 10 << 120 << 20 ); + TopoDS_Face aLC2 = Face2d( QList() << 110 << 10 << 130 << 10 << 120 << 20 ); CPPUNIT_ASSERT_EQUAL( true, aMap->LocalPartition( aLC2, QString::fromUtf8("Forêts de feuillus")) ); Handle(HYDROData_LandCoverMap) aMap2 = @@ -1166,10 +1177,10 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_perf() #ifdef NDEBUG int SI = 100; - int EI = 300; + int EI = 110; #else - int SI = 150; - int EI = 200; + int SI = 100; + int EI = 110; #endif for ( int i = SI; i <= EI; i++ ) @@ -1182,7 +1193,7 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_perf() LCM->StoreLandCovers(aMapFace2ST); - std::vector pnts; + std::vector pnts; #ifdef NDEBUG int N = 1000; //1000*1000 points; uniform distribution for release mode #else @@ -1200,7 +1211,7 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_perf() { double px = x0 + (x1-x0)*((double)i/(double)N); double py = y0 + (y1-y0)*((double)j/(double)N); - pnts.push_back(gp_Pnt2d(px,py)); + pnts.push_back(gp_XY(px,py)); } } OSD_Timer aTimer; @@ -1209,7 +1220,8 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_perf() LCM->ClassifyPoints(pnts, TRes); aTimer.Stop(); #ifdef NDEBUG - CPPUNIT_ASSERT( aTimer.ElapsedTime() < 1.4); + std::cout << "Time: " << aTimer.ElapsedTime() << std::endl; + CPPUNIT_ASSERT( aTimer.ElapsedTime() < 6.0); aTimer.Show(); #endif } @@ -1238,7 +1250,7 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_check() TopoDS_Shape Sh = LCM->GetShape(); - std::vector pnts; + std::vector pnts; pnts.push_back(gp_XY(0,0)); pnts.push_back(gp_XY(468380, 6382300)); @@ -1271,31 +1283,79 @@ void test_HYDROData_LandCoverMap::test_shp_clc_classification_check() 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], 1.0522); - CPPUNIT_ASSERT_EQUAL (coeffs[4], 1.0223); - CPPUNIT_ASSERT_EQUAL (coeffs[5], 1.0221); - CPPUNIT_ASSERT_EQUAL (coeffs[6], 1.0522); + 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); } -void test_HYDROData_LandCoverMap::test_add_int_edges_1() +void test_HYDROData_LandCoverMap::test_lcm_classification() { - TopoDS_Shape out; - TopTools_ListOfShape Wires; - - BRep_Builder B; - TopoDS_Shape InF; - TopoDS_Shape InP; - BRepTools::Read(InP, "d:/p2.brep", B); //TODO - BRepTools::Read(InF, "d:/r2.brep", B); - Wires.Append(InP); - - TopTools_ListOfShape OutSh; - HYDROData_SplitToZonesTool::CutByEdges(InF, Wires, OutSh); - TopTools_ListIteratorOfListOfShape it(OutSh); - for (;it.More();it.Next()) - { - TopoDS_Shape Sh = it.Value(); - } + Handle(HYDROData_Document) aDoc = HYDROData_Document::Document(1); + + Handle(HYDROData_StricklerTable) aTable = + Handle(HYDROData_StricklerTable)::DownCast( aDoc->CreateObject( KIND_STRICKLER_TABLE ) ); + CPPUNIT_ASSERT_EQUAL( true, aTable->Import( DEF_STR_PATH ) ); + + Handle(HYDROData_PolylineXY) ContourP = Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) ); + ContourP->SetName( "Contour" ); + ContourP->AddSection( "Section_1", HYDROData_PolylineXY::SECTION_POLYLINE, true ); + ContourP->AddPoint( 0, gp_XY( 89.57, 81.63 ) ); + ContourP->AddPoint( 0, gp_XY( 479.59, 81.63 ) ); + ContourP->AddPoint( 0, gp_XY( 472.79, 671.20 ) ); + ContourP->AddPoint( 0, gp_XY( 69.16, 696.15 ) ); + ContourP->Update(); + + Handle(HYDROData_PolylineXY) Poly_Sens_TrigoP = + Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) ); + Poly_Sens_TrigoP->SetName( "Poly_Sens_Trigo" ); + Poly_Sens_TrigoP->SetZLevel( 3 ); + Poly_Sens_TrigoP->AddSection( "Section_1", HYDROData_PolylineXY::SECTION_POLYLINE, 1 ); + Poly_Sens_TrigoP->AddPoint( 0, gp_XY( 130.46, 223.57 ) ); + Poly_Sens_TrigoP->AddPoint( 0, gp_XY( 252.16, 239.58 ) ); + Poly_Sens_TrigoP->AddPoint( 0, gp_XY( 240.95, 498.99 ) ); + Poly_Sens_TrigoP->AddPoint( 0, gp_XY( 119.26, 510.20 ) ); + Poly_Sens_TrigoP->AddPoint( 0, gp_XY( 141.67, 378.89 ) ); + Poly_Sens_TrigoP->Update(); + + Handle(HYDROData_PolylineXY) Polyline_Sens_HoraireP = + Handle(HYDROData_PolylineXY)::DownCast( aDoc->CreateObject( KIND_POLYLINEXY ) ); + Polyline_Sens_HoraireP->SetName( "Polyline_Sens_Horaire" ); + Polyline_Sens_HoraireP->SetZLevel( 4 ); + Polyline_Sens_HoraireP->AddSection( "Section_1", HYDROData_PolylineXY::SECTION_POLYLINE, 1 ); + Polyline_Sens_HoraireP->AddPoint( 0, gp_XY( 313.01, 470.16 ) ); + Polyline_Sens_HoraireP->AddPoint( 0, gp_XY( 313.01, 627.09 ) ); + Polyline_Sens_HoraireP->AddPoint( 0, gp_XY( 426.70, 633.49 ) ); + Polyline_Sens_HoraireP->AddPoint( 0, gp_XY( 442.71, 398.11 ) ); + Polyline_Sens_HoraireP->Update(); + + + Handle(HYDROData_LandCoverMap) Land_cover_map_1 = + Handle(HYDROData_LandCoverMap)::DownCast( aDoc->CreateObject( KIND_LAND_COVER_MAP ) ); + Land_cover_map_1->SetName( "Land cover map_1" ); + Land_cover_map_1->SetZLevel( 2 ); + CPPUNIT_ASSERT_EQUAL( true, Land_cover_map_1->Add( ContourP, "Vignobles" ) ); + CPPUNIT_ASSERT_EQUAL( true, Land_cover_map_1->Add( Poly_Sens_TrigoP, "Oliveraies" ) ); + CPPUNIT_ASSERT_EQUAL( true, Land_cover_map_1->Add( Polyline_Sens_HoraireP, "Estuaires" ) ); + + Handle(HYDROGUI_LandCoverMapPrs) aPrs = new HYDROGUI_LandCoverMapPrs( Land_cover_map_1 ); + TopoDS_Shape aSh = Land_cover_map_1->GetShape(); + TestViewer::show( aPrs, AIS_Shaded, 0, true, "Land_cover_map_1" ); + + std::vector pnts; + pnts.push_back(gp_XY(90, 90)); + pnts.push_back(gp_XY(300, 90)); + pnts.push_back(gp_XY(200, 350)); + pnts.push_back(gp_XY(400, 500)); + std::vector theCoeffs; + Land_cover_map_1->ClassifyPoints(pnts, aTable, theCoeffs, -1, true ); + CPPUNIT_ASSERT_EQUAL((int)theCoeffs.size(), 4); + CPPUNIT_ASSERT_DOUBLES_EQUAL(theCoeffs[0], 24, 0.0001); + CPPUNIT_ASSERT_DOUBLES_EQUAL(theCoeffs[1], 24, 0.0001); + CPPUNIT_ASSERT_DOUBLES_EQUAL(theCoeffs[2], 26, 0.0001); + CPPUNIT_ASSERT_DOUBLES_EQUAL(theCoeffs[3], 98, 0.0001); + + aDoc->Close(); }