X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=doc%2Fsalome%2Fexamples%2Fh016_pilesPontManualMesh.py;h=33b1e29e83ea8151c4cf356a42aaf297f7875cd6;hb=8f433a58abdb4526084746cde5f6479d7c62104b;hp=2ecaf99bd020ec2521a0c0de8a424fc743c75ee1;hpb=cf1e49c500cefe521f4a181d591771123713325e;p=modules%2Fhydro.git diff --git a/doc/salome/examples/h016_pilesPontManualMesh.py b/doc/salome/examples/h016_pilesPontManualMesh.py index 2ecaf99b..33b1e29e 100644 --- a/doc/salome/examples/h016_pilesPontManualMesh.py +++ b/doc/salome/examples/h016_pilesPontManualMesh.py @@ -21,7 +21,7 @@ from HYDROPy import * from PyQt5.QtCore import * from PyQt5.QtGui import * -hydro_doc = HYDROData_Document.Document( theStudy._get_StudyId() ) +hydro_doc = HYDROData_Document.Document() hydro_doc.SetLocalCS( 430000.000, 6350000.000 ) @@ -68,181 +68,181 @@ Strickler_table_1.SetName( "Strickler table_1" ) Strickler_table_1.SetAttrName( "CODE_06" ) -Strickler_table_1.Set( u"Pelouses et pâturages naturels", 1.0321 ) -Strickler_table_1.SetAttrValue( u"Pelouses et pâturages naturels", "321" ) -Strickler_table_1.SetColor( u"Pelouses et pâturages naturels", QColor( 204, 242, 77 ) ) +Strickler_table_1.Set( "Pelouses et pâturages naturels", 1.0321 ) +Strickler_table_1.SetAttrValue( "Pelouses et pâturages naturels", "321" ) +Strickler_table_1.SetColor( "Pelouses et pâturages naturels", QColor( 204, 242, 77 ) ) -Strickler_table_1.Set( u"Aéroports", 1.0124 ) -Strickler_table_1.SetAttrValue( u"Aéroports", "124" ) -Strickler_table_1.SetColor( u"Aéroports", QColor( 230, 204, 230 ) ) +Strickler_table_1.Set( "Aéroports", 1.0124 ) +Strickler_table_1.SetAttrValue( "Aéroports", "124" ) +Strickler_table_1.SetColor( "Aéroports", QColor( 230, 204, 230 ) ) -Strickler_table_1.Set( u"Systèmes culturaux et parcellaires complexes", 1.0242 ) -Strickler_table_1.SetAttrValue( u"Systèmes culturaux et parcellaires complexes", "242" ) -Strickler_table_1.SetColor( u"Systèmes culturaux et parcellaires complexes", QColor( 255, 230, 77 ) ) +Strickler_table_1.Set( "Systèmes culturaux et parcellaires complexes", 1.0242 ) +Strickler_table_1.SetAttrValue( "Systèmes culturaux et parcellaires complexes", "242" ) +Strickler_table_1.SetColor( "Systèmes culturaux et parcellaires complexes", QColor( 255, 230, 77 ) ) -Strickler_table_1.Set( u"Cultures annuelles associées à des cultures permanentes", 1.0241 ) -Strickler_table_1.SetAttrValue( u"Cultures annuelles associées à des cultures permanentes", "241" ) -Strickler_table_1.SetColor( u"Cultures annuelles associées à des cultures permanentes", QColor( 255, 230, 166 ) ) +Strickler_table_1.Set( "Cultures annuelles associées à des cultures permanentes", 1.0241 ) +Strickler_table_1.SetAttrValue( "Cultures annuelles associées à des cultures permanentes", "241" ) +Strickler_table_1.SetColor( "Cultures annuelles associées à des cultures permanentes", QColor( 255, 230, 166 ) ) -Strickler_table_1.Set( u"Forêt et végétation arbustive en mutation", 1.0324 ) -Strickler_table_1.SetAttrValue( u"Forêt et végétation arbustive en mutation", "324" ) -Strickler_table_1.SetColor( u"Forêt et végétation arbustive en mutation", QColor( 166, 242, 0 ) ) +Strickler_table_1.Set( "Forêt et végétation arbustive en mutation", 1.0324 ) +Strickler_table_1.SetAttrValue( "Forêt et végétation arbustive en mutation", "324" ) +Strickler_table_1.SetColor( "Forêt et végétation arbustive en mutation", QColor( 166, 242, 0 ) ) -Strickler_table_1.Set( u"Décharges", 1.0132 ) -Strickler_table_1.SetAttrValue( u"Décharges", "132" ) -Strickler_table_1.SetColor( u"Décharges", QColor( 166, 77, 0 ) ) +Strickler_table_1.Set( "Décharges", 1.0132 ) +Strickler_table_1.SetAttrValue( "Décharges", "132" ) +Strickler_table_1.SetColor( "Décharges", QColor( 166, 77, 0 ) ) -Strickler_table_1.Set( u"Végétation clairsemée", 1.0333 ) -Strickler_table_1.SetAttrValue( u"Végétation clairsemée", "333" ) -Strickler_table_1.SetColor( u"Végétation clairsemée", QColor( 204, 255, 204 ) ) +Strickler_table_1.Set( "Végétation clairsemée", 1.0333 ) +Strickler_table_1.SetAttrValue( "Végétation clairsemée", "333" ) +Strickler_table_1.SetColor( "Végétation clairsemée", QColor( 204, 255, 204 ) ) -Strickler_table_1.Set( u"Prairies et autres surfaces toujours en herbe à usage agricole", 1.0231 ) -Strickler_table_1.SetAttrValue( u"Prairies et autres surfaces toujours en herbe à usage agricole", "231" ) -Strickler_table_1.SetColor( u"Prairies et autres surfaces toujours en herbe à usage agricole", QColor( 230, 230, 77 ) ) +Strickler_table_1.Set( "Prairies et autres surfaces toujours en herbe à usage agricole", 1.0231 ) +Strickler_table_1.SetAttrValue( "Prairies et autres surfaces toujours en herbe à usage agricole", "231" ) +Strickler_table_1.SetColor( "Prairies et autres surfaces toujours en herbe à usage agricole", QColor( 230, 230, 77 ) ) -Strickler_table_1.Set( u"Périmètres irrigués en permanence", 1.0212 ) -Strickler_table_1.SetAttrValue( u"Périmètres irrigués en permanence", "212" ) -Strickler_table_1.SetColor( u"Périmètres irrigués en permanence", QColor( 255, 255, 0 ) ) +Strickler_table_1.Set( "Périmètres irrigués en permanence", 1.0212 ) +Strickler_table_1.SetAttrValue( "Périmètres irrigués en permanence", "212" ) +Strickler_table_1.SetColor( "Périmètres irrigués en permanence", QColor( 255, 255, 0 ) ) -Strickler_table_1.Set( u"Plans d'eau", 1.0512 ) -Strickler_table_1.SetAttrValue( u"Plans d'eau", "512" ) -Strickler_table_1.SetColor( u"Plans d'eau", QColor( 128, 242, 230 ) ) +Strickler_table_1.Set( "Plans d'eau", 1.0512 ) +Strickler_table_1.SetAttrValue( "Plans d'eau", "512" ) +Strickler_table_1.SetColor( "Plans d'eau", QColor( 128, 242, 230 ) ) -Strickler_table_1.Set( u"Territoires agroforestiers", 1.0244 ) -Strickler_table_1.SetAttrValue( u"Territoires agroforestiers", "244" ) -Strickler_table_1.SetColor( u"Territoires agroforestiers", QColor( 242, 204, 166 ) ) +Strickler_table_1.Set( "Territoires agroforestiers", 1.0244 ) +Strickler_table_1.SetAttrValue( "Territoires agroforestiers", "244" ) +Strickler_table_1.SetColor( "Territoires agroforestiers", QColor( 242, 204, 166 ) ) -Strickler_table_1.Set( u"Forêts mélangées", 1.0313 ) -Strickler_table_1.SetAttrValue( u"Forêts mélangées", "313" ) -Strickler_table_1.SetColor( u"Forêts mélangées", QColor( 77, 255, 0 ) ) +Strickler_table_1.Set( "Forêts mélangées", 1.0313 ) +Strickler_table_1.SetAttrValue( "Forêts mélangées", "313" ) +Strickler_table_1.SetColor( "Forêts mélangées", QColor( 77, 255, 0 ) ) -Strickler_table_1.Set( u"Glaciers et neiges éternelles", 1.0335 ) -Strickler_table_1.SetAttrValue( u"Glaciers et neiges éternelles", "335" ) -Strickler_table_1.SetColor( u"Glaciers et neiges éternelles", QColor( 166, 230, 204 ) ) +Strickler_table_1.Set( "Glaciers et neiges éternelles", 1.0335 ) +Strickler_table_1.SetAttrValue( "Glaciers et neiges éternelles", "335" ) +Strickler_table_1.SetColor( "Glaciers et neiges éternelles", QColor( 166, 230, 204 ) ) -Strickler_table_1.Set( u"Plages, dunes et sable", 1.0331 ) -Strickler_table_1.SetAttrValue( u"Plages, dunes et sable", "331" ) -Strickler_table_1.SetColor( u"Plages, dunes et sable", QColor( 230, 230, 230 ) ) +Strickler_table_1.Set( "Plages, dunes et sable", 1.0331 ) +Strickler_table_1.SetAttrValue( "Plages, dunes et sable", "331" ) +Strickler_table_1.SetColor( "Plages, dunes et sable", QColor( 230, 230, 230 ) ) -Strickler_table_1.Set( u"Zones incendiées", 1.0334 ) -Strickler_table_1.SetAttrValue( u"Zones incendiées", "334" ) -Strickler_table_1.SetColor( u"Zones incendiées", QColor( 0, 0, 0 ) ) +Strickler_table_1.Set( "Zones incendiées", 1.0334 ) +Strickler_table_1.SetAttrValue( "Zones incendiées", "334" ) +Strickler_table_1.SetColor( "Zones incendiées", QColor( 0, 0, 0 ) ) -Strickler_table_1.Set( u"Tissu urbain continu", 1.0111 ) -Strickler_table_1.SetAttrValue( u"Tissu urbain continu", "111" ) -Strickler_table_1.SetColor( u"Tissu urbain continu", QColor( 230, 0, 77 ) ) +Strickler_table_1.Set( "Tissu urbain continu", 1.0111 ) +Strickler_table_1.SetAttrValue( "Tissu urbain continu", "111" ) +Strickler_table_1.SetColor( "Tissu urbain continu", QColor( 230, 0, 77 ) ) -Strickler_table_1.Set( u"Chantiers", 1.0133 ) -Strickler_table_1.SetAttrValue( u"Chantiers", "133" ) -Strickler_table_1.SetColor( u"Chantiers", QColor( 255, 77, 255 ) ) +Strickler_table_1.Set( "Chantiers", 1.0133 ) +Strickler_table_1.SetAttrValue( "Chantiers", "133" ) +Strickler_table_1.SetColor( "Chantiers", QColor( 255, 77, 255 ) ) -Strickler_table_1.Set( u"Estuaires", 1.0522 ) -Strickler_table_1.SetAttrValue( u"Estuaires", "522" ) -Strickler_table_1.SetColor( u"Estuaires", QColor( 166, 255, 230 ) ) +Strickler_table_1.Set( "Estuaires", 1.0522 ) +Strickler_table_1.SetAttrValue( "Estuaires", "522" ) +Strickler_table_1.SetColor( "Estuaires", QColor( 166, 255, 230 ) ) -Strickler_table_1.Set( u"Marais maritimes", 1.0421 ) -Strickler_table_1.SetAttrValue( u"Marais maritimes", "421" ) -Strickler_table_1.SetColor( u"Marais maritimes", QColor( 204, 204, 255 ) ) +Strickler_table_1.Set( "Marais maritimes", 1.0421 ) +Strickler_table_1.SetAttrValue( "Marais maritimes", "421" ) +Strickler_table_1.SetColor( "Marais maritimes", QColor( 204, 204, 255 ) ) -Strickler_table_1.Set( u"Forêts de conifères", 1.0312 ) -Strickler_table_1.SetAttrValue( u"Forêts de conifères", "312" ) -Strickler_table_1.SetColor( u"Forêts de conifères", QColor( 0, 166, 0 ) ) +Strickler_table_1.Set( "Forêts de conifères", 1.0312 ) +Strickler_table_1.SetAttrValue( "Forêts de conifères", "312" ) +Strickler_table_1.SetColor( "Forêts de conifères", QColor( 0, 166, 0 ) ) -Strickler_table_1.Set( u"Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", 1.0243 ) -Strickler_table_1.SetAttrValue( u"Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", "243" ) -Strickler_table_1.SetColor( u"Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", QColor( 230, 204, 77 ) ) +Strickler_table_1.Set( "Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", 1.0243 ) +Strickler_table_1.SetAttrValue( "Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", "243" ) +Strickler_table_1.SetColor( "Surfaces essentiellement agricoles, interrompues par des espaces naturels importants", QColor( 230, 204, 77 ) ) -Strickler_table_1.Set( u"Tourbières", 1.0412 ) -Strickler_table_1.SetAttrValue( u"Tourbières", "412" ) -Strickler_table_1.SetColor( u"Tourbières", QColor( 77, 77, 255 ) ) +Strickler_table_1.Set( "Tourbières", 1.0412 ) +Strickler_table_1.SetAttrValue( "Tourbières", "412" ) +Strickler_table_1.SetColor( "Tourbières", QColor( 77, 77, 255 ) ) -Strickler_table_1.Set( u"Extraction de matériaux", 1.0131 ) -Strickler_table_1.SetAttrValue( u"Extraction de matériaux", "131" ) -Strickler_table_1.SetColor( u"Extraction de matériaux", QColor( 166, 0, 204 ) ) +Strickler_table_1.Set( "Extraction de matériaux", 1.0131 ) +Strickler_table_1.SetAttrValue( "Extraction de matériaux", "131" ) +Strickler_table_1.SetColor( "Extraction de matériaux", QColor( 166, 0, 204 ) ) -Strickler_table_1.Set( u"Réseaux routier et ferroviaire et espaces associés", 1.0122 ) -Strickler_table_1.SetAttrValue( u"Réseaux routier et ferroviaire et espaces associés", "122" ) -Strickler_table_1.SetColor( u"Réseaux routier et ferroviaire et espaces associés", QColor( 204, 0, 0 ) ) +Strickler_table_1.Set( "Réseaux routier et ferroviaire et espaces associés", 1.0122 ) +Strickler_table_1.SetAttrValue( "Réseaux routier et ferroviaire et espaces associés", "122" ) +Strickler_table_1.SetColor( "Réseaux routier et ferroviaire et espaces associés", QColor( 204, 0, 0 ) ) -Strickler_table_1.Set( u"Mers et océans", 1.0523 ) -Strickler_table_1.SetAttrValue( u"Mers et océans", "523" ) -Strickler_table_1.SetColor( u"Mers et océans", QColor( 230, 242, 255 ) ) +Strickler_table_1.Set( "Mers et océans", 1.0523 ) +Strickler_table_1.SetAttrValue( "Mers et océans", "523" ) +Strickler_table_1.SetColor( "Mers et océans", QColor( 230, 242, 255 ) ) -Strickler_table_1.Set( u"Equipements sportifs et de loisirs", 1.0142 ) -Strickler_table_1.SetAttrValue( u"Equipements sportifs et de loisirs", "142" ) -Strickler_table_1.SetColor( u"Equipements sportifs et de loisirs", QColor( 255, 230, 255 ) ) +Strickler_table_1.Set( "Equipements sportifs et de loisirs", 1.0142 ) +Strickler_table_1.SetAttrValue( "Equipements sportifs et de loisirs", "142" ) +Strickler_table_1.SetColor( "Equipements sportifs et de loisirs", QColor( 255, 230, 255 ) ) -Strickler_table_1.Set( u"Forêts de feuillus", 1.0311 ) -Strickler_table_1.SetAttrValue( u"Forêts de feuillus", "311" ) -Strickler_table_1.SetColor( u"Forêts de feuillus", QColor( 128, 255, 0 ) ) +Strickler_table_1.Set( "Forêts de feuillus", 1.0311 ) +Strickler_table_1.SetAttrValue( "Forêts de feuillus", "311" ) +Strickler_table_1.SetColor( "Forêts de feuillus", QColor( 128, 255, 0 ) ) -Strickler_table_1.Set( u"Vergers et petits fruits", 1.0222 ) -Strickler_table_1.SetAttrValue( u"Vergers et petits fruits", "222" ) -Strickler_table_1.SetColor( u"Vergers et petits fruits", QColor( 242, 166, 77 ) ) +Strickler_table_1.Set( "Vergers et petits fruits", 1.0222 ) +Strickler_table_1.SetAttrValue( "Vergers et petits fruits", "222" ) +Strickler_table_1.SetColor( "Vergers et petits fruits", QColor( 242, 166, 77 ) ) -Strickler_table_1.Set( u"Végétation sclérophylle", 1.0323 ) -Strickler_table_1.SetAttrValue( u"Végétation sclérophylle", "323" ) -Strickler_table_1.SetColor( u"Végétation sclérophylle", QColor( 166, 230, 77 ) ) +Strickler_table_1.Set( "Végétation sclérophylle", 1.0323 ) +Strickler_table_1.SetAttrValue( "Végétation sclérophylle", "323" ) +Strickler_table_1.SetColor( "Végétation sclérophylle", QColor( 166, 230, 77 ) ) -Strickler_table_1.Set( u"Landes et broussailles", 1.0322 ) -Strickler_table_1.SetAttrValue( u"Landes et broussailles", "322" ) -Strickler_table_1.SetColor( u"Landes et broussailles", QColor( 166, 255, 128 ) ) +Strickler_table_1.Set( "Landes et broussailles", 1.0322 ) +Strickler_table_1.SetAttrValue( "Landes et broussailles", "322" ) +Strickler_table_1.SetColor( "Landes et broussailles", QColor( 166, 255, 128 ) ) -Strickler_table_1.Set( u"Tissu urbain discontinu", 1.0112 ) -Strickler_table_1.SetAttrValue( u"Tissu urbain discontinu", "112" ) -Strickler_table_1.SetColor( u"Tissu urbain discontinu", QColor( 255, 0, 0 ) ) +Strickler_table_1.Set( "Tissu urbain discontinu", 1.0112 ) +Strickler_table_1.SetAttrValue( "Tissu urbain discontinu", "112" ) +Strickler_table_1.SetColor( "Tissu urbain discontinu", QColor( 255, 0, 0 ) ) -Strickler_table_1.Set( u"Cours et voies d'eau", 1.0511 ) -Strickler_table_1.SetAttrValue( u"Cours et voies d'eau", "511" ) -Strickler_table_1.SetColor( u"Cours et voies d'eau", QColor( 0, 204, 242 ) ) +Strickler_table_1.Set( "Cours et voies d'eau", 1.0511 ) +Strickler_table_1.SetAttrValue( "Cours et voies d'eau", "511" ) +Strickler_table_1.SetColor( "Cours et voies d'eau", QColor( 0, 204, 242 ) ) -Strickler_table_1.Set( u"Oliveraies", 1.0223 ) -Strickler_table_1.SetAttrValue( u"Oliveraies", "223" ) -Strickler_table_1.SetColor( u"Oliveraies", QColor( 230, 166, 0 ) ) +Strickler_table_1.Set( "Oliveraies", 1.0223 ) +Strickler_table_1.SetAttrValue( "Oliveraies", "223" ) +Strickler_table_1.SetColor( "Oliveraies", QColor( 230, 166, 0 ) ) -Strickler_table_1.Set( u"Vignobles", 1.0221 ) -Strickler_table_1.SetAttrValue( u"Vignobles", "221" ) -Strickler_table_1.SetColor( u"Vignobles", QColor( 230, 128, 0 ) ) +Strickler_table_1.Set( "Vignobles", 1.0221 ) +Strickler_table_1.SetAttrValue( "Vignobles", "221" ) +Strickler_table_1.SetColor( "Vignobles", QColor( 230, 128, 0 ) ) -Strickler_table_1.Set( u"Rizières", 1.0213 ) -Strickler_table_1.SetAttrValue( u"Rizières", "213" ) -Strickler_table_1.SetColor( u"Rizières", QColor( 230, 230, 0 ) ) +Strickler_table_1.Set( "Rizières", 1.0213 ) +Strickler_table_1.SetAttrValue( "Rizières", "213" ) +Strickler_table_1.SetColor( "Rizières", QColor( 230, 230, 0 ) ) -Strickler_table_1.Set( u"Zones portuaires", 1.0123 ) -Strickler_table_1.SetAttrValue( u"Zones portuaires", "123" ) -Strickler_table_1.SetColor( u"Zones portuaires", QColor( 230, 204, 204 ) ) +Strickler_table_1.Set( "Zones portuaires", 1.0123 ) +Strickler_table_1.SetAttrValue( "Zones portuaires", "123" ) +Strickler_table_1.SetColor( "Zones portuaires", QColor( 230, 204, 204 ) ) -Strickler_table_1.Set( u"Zones industrielles ou commerciales et installations publiques", 1.0121 ) -Strickler_table_1.SetAttrValue( u"Zones industrielles ou commerciales et installations publiques", "121" ) -Strickler_table_1.SetColor( u"Zones industrielles ou commerciales et installations publiques", QColor( 204, 77, 242 ) ) +Strickler_table_1.Set( "Zones industrielles ou commerciales et installations publiques", 1.0121 ) +Strickler_table_1.SetAttrValue( "Zones industrielles ou commerciales et installations publiques", "121" ) +Strickler_table_1.SetColor( "Zones industrielles ou commerciales et installations publiques", QColor( 204, 77, 242 ) ) -Strickler_table_1.Set( u"Marais salants", 1.0422 ) -Strickler_table_1.SetAttrValue( u"Marais salants", "422" ) -Strickler_table_1.SetColor( u"Marais salants", QColor( 230, 230, 255 ) ) +Strickler_table_1.Set( "Marais salants", 1.0422 ) +Strickler_table_1.SetAttrValue( "Marais salants", "422" ) +Strickler_table_1.SetColor( "Marais salants", QColor( 230, 230, 255 ) ) -Strickler_table_1.Set( u"Marais intérieurs", 1.0411 ) -Strickler_table_1.SetAttrValue( u"Marais intérieurs", "411" ) -Strickler_table_1.SetColor( u"Marais intérieurs", QColor( 166, 166, 255 ) ) +Strickler_table_1.Set( "Marais intérieurs", 1.0411 ) +Strickler_table_1.SetAttrValue( "Marais intérieurs", "411" ) +Strickler_table_1.SetColor( "Marais intérieurs", QColor( 166, 166, 255 ) ) -Strickler_table_1.Set( u"Espaces verts urbains", 1.0141 ) -Strickler_table_1.SetAttrValue( u"Espaces verts urbains", "141" ) -Strickler_table_1.SetColor( u"Espaces verts urbains", QColor( 255, 166, 255 ) ) +Strickler_table_1.Set( "Espaces verts urbains", 1.0141 ) +Strickler_table_1.SetAttrValue( "Espaces verts urbains", "141" ) +Strickler_table_1.SetColor( "Espaces verts urbains", QColor( 255, 166, 255 ) ) -Strickler_table_1.Set( u"Lagunes littorales", 1.0521 ) -Strickler_table_1.SetAttrValue( u"Lagunes littorales", "521" ) -Strickler_table_1.SetColor( u"Lagunes littorales", QColor( 0, 255, 166 ) ) +Strickler_table_1.Set( "Lagunes littorales", 1.0521 ) +Strickler_table_1.SetAttrValue( "Lagunes littorales", "521" ) +Strickler_table_1.SetColor( "Lagunes littorales", QColor( 0, 255, 166 ) ) -Strickler_table_1.Set( u"Roches nues", 1.0332 ) -Strickler_table_1.SetAttrValue( u"Roches nues", "332" ) -Strickler_table_1.SetColor( u"Roches nues", QColor( 204, 204, 204 ) ) +Strickler_table_1.Set( "Roches nues", 1.0332 ) +Strickler_table_1.SetAttrValue( "Roches nues", "332" ) +Strickler_table_1.SetColor( "Roches nues", QColor( 204, 204, 204 ) ) -Strickler_table_1.Set( u"Terres arables hors périmètres d'irrigation", 1.0211 ) -Strickler_table_1.SetAttrValue( u"Terres arables hors périmètres d'irrigation", "211" ) -Strickler_table_1.SetColor( u"Terres arables hors périmètres d'irrigation", QColor( 255, 255, 168 ) ) +Strickler_table_1.Set( "Terres arables hors périmètres d'irrigation", 1.0211 ) +Strickler_table_1.SetAttrValue( "Terres arables hors périmètres d'irrigation", "211" ) +Strickler_table_1.SetColor( "Terres arables hors périmètres d'irrigation", QColor( 255, 255, 168 ) ) -Strickler_table_1.Set( u"Zones intertidales", 1.0423 ) -Strickler_table_1.SetAttrValue( u"Zones intertidales", "423" ) -Strickler_table_1.SetColor( u"Zones intertidales", QColor( 166, 166, 230 ) ) +Strickler_table_1.Set( "Zones intertidales", 1.0423 ) +Strickler_table_1.SetAttrValue( "Zones intertidales", "423" ) +Strickler_table_1.SetColor( "Zones intertidales", QColor( 166, 166, 230 ) ) Strickler_table_1.Update() @@ -1032,14 +1032,14 @@ garonne_1_pile3.SetName( "garonne_1_pile3" ) garonne_1_pile4.SetName( "garonne_1_pile4" ) # Export of the calculation case -garonne_1_entry = garonne_1.Export( theStudy._get_StudyId() ) +garonne_1_entry = garonne_1.Export() # Get geometry shape and print debug information import GEOM -print "Entry:", garonne_1_entry +print("Entry:", garonne_1_entry) HYDRO_garonne_1 = salome.IDToObject( str( garonne_1_entry ) ) -print "Geom shape:", HYDRO_garonne_1 -print "Geom shape name:", HYDRO_garonne_1.GetName() +print("Geom shape:", HYDRO_garonne_1) +print("Geom shape name:", HYDRO_garonne_1.GetName()) ### @@ -1052,7 +1052,7 @@ import math import SALOMEDS from salome.hydrotools.controls import controlGeomProps -geompy = geomBuilder.New(theStudy) +geompy = geomBuilder.New() [garonne_riveDroite,garonne_aval,garonne_riveGauche,garonne_pont,garonne_amont] = geompy.SubShapeAll(HYDRO_garonne_1, geompy.ShapeType["FACE"]) @@ -1066,7 +1066,7 @@ controlGeomProps(geompy, garonne_riveDroite, 32012.2241814, 25998085.6892) # --- manual identification of all useful edge groups (boundary conditions) allEdgesIds = geompy.SubShapeAllIDs(HYDRO_garonne_1, geompy.ShapeType["EDGE"]) -print "allEdgesIds", allEdgesIds +print("allEdgesIds", allEdgesIds) (isDone, ClosedFreeBoundary, OpenFreeBoundary) = geompy.GetFreeBoundary(HYDRO_garonne_1) geompy.addToStudyInFather(HYDRO_garonne_1, ClosedFreeBoundary[0], "OuterFreeBoundary") @@ -1077,7 +1077,7 @@ geompy.addToStudyInFather(HYDRO_garonne_1, ClosedFreeBoundary[4], "pilesPont4") freeBoundary = geompy.ExtractShapes(ClosedFreeBoundary[0], geompy.ShapeType["EDGE"], True) freeBoundaryIds = [ geompy.GetSubShapeID(HYDRO_garonne_1, freeBoundary[i]) for i in range(len(freeBoundary)) ] -print "freeBoundaryIds", freeBoundaryIds +print("freeBoundaryIds", freeBoundaryIds) edgesPile1 = geompy.ExtractShapes(ClosedFreeBoundary[1], geompy.ShapeType["EDGE"], True) edgesPile2 = geompy.ExtractShapes(ClosedFreeBoundary[2], geompy.ShapeType["EDGE"], True) @@ -1088,7 +1088,7 @@ pilesPont2Ids = [ geompy.GetSubShapeID(HYDRO_garonne_1, edgesPile2[i]) for i in pilesPont3Ids = [ geompy.GetSubShapeID(HYDRO_garonne_1, edgesPile3[i]) for i in range(len(edgesPile3)) ] pilesPont4Ids = [ geompy.GetSubShapeID(HYDRO_garonne_1, edgesPile4[i]) for i in range(len(edgesPile4)) ] pilesPontIds = pilesPont1Ids + pilesPont2Ids + pilesPont3Ids + pilesPont4Ids -print "pilesPontIds", pilesPontIds +print("pilesPontIds", pilesPontIds) [garonne_aval_droite] = geompy.GetSharedShapesMulti([garonne_riveDroite, garonne_aval], geompy.ShapeType["EDGE"], True) [garonne_aval_gauche] = geompy.GetSharedShapesMulti([garonne_riveGauche, garonne_aval], geompy.ShapeType["EDGE"], True) @@ -1104,7 +1104,7 @@ geompy.addToStudyInFather(HYDRO_garonne_1, garonne_pont_droite, "garonne_pont_dr geompy.addToStudyInFather(HYDRO_garonne_1, garonne_pont_gauche, "garonne_pont_gauche") rives = [garonne_aval_droite, garonne_aval_gauche, garonne_amont_droite, garonne_amont_gauche, garonne_pont_droite, garonne_pont_gauche] rivesIds = [ geompy.GetSubShapeID(HYDRO_garonne_1, rives[i]) for i in range(len(rives)) ] -print "rivesIds", rivesIds +print("rivesIds", rivesIds) edges_garonne_aval = geompy.GetSharedShapesMulti([HYDRO_garonne_1, garonne_aval], geompy.ShapeType["EDGE"], True) edges_garonne_amont = geompy.GetSharedShapesMulti([HYDRO_garonne_1, garonne_amont], geompy.ShapeType["EDGE"], True) @@ -1117,11 +1117,11 @@ edges_garonne_pontIds = [ geompy.GetSubShapeID(HYDRO_garonne_1, edges_garonne_po edges_riveGaucheIds = [ geompy.GetSubShapeID(HYDRO_garonne_1, edges_riveGauche[i]) for i in range(len(edges_riveGauche)) ] edges_riveDroiteIds = [ geompy.GetSubShapeID(HYDRO_garonne_1, edges_riveDroite[i]) for i in range(len(edges_riveDroite)) ] -print "edges_garonne_amontIds", edges_garonne_amontIds -print "edges_garonne_avalIds", edges_garonne_avalIds -print "edges_garonne_pontIds", edges_garonne_pontIds -print "edges_riveGaucheIds", edges_riveGaucheIds -print "edges_riveDroiteIds", edges_riveDroiteIds +print("edges_garonne_amontIds", edges_garonne_amontIds) +print("edges_garonne_avalIds", edges_garonne_avalIds) +print("edges_garonne_pontIds", edges_garonne_pontIds) +print("edges_riveGaucheIds", edges_riveGaucheIds) +print("edges_riveDroiteIds", edges_riveDroiteIds) edges_litMineurIds = edges_garonne_amontIds for edge in edges_garonne_avalIds: @@ -1131,15 +1131,15 @@ for edge in edges_garonne_pontIds: edges_litMineurIds.append(edge) sectionsIds = [Id for Id in edges_litMineurIds if Id not in rivesIds] -print "sectionsIds", sectionsIds +print("sectionsIds", sectionsIds) SectionsGaronne = geompy.CreateGroup(HYDRO_garonne_1, geompy.ShapeType["EDGE"]) geompy.UnionIDs(SectionsGaronne, sectionsIds) geompy.addToStudyInFather(HYDRO_garonne_1, SectionsGaronne, "SectionsGaronne") bordGaucheDomaineIds = [Id for Id in freeBoundaryIds if Id in edges_riveGaucheIds] bordDroiteDomaineIds = [Id for Id in freeBoundaryIds if Id in edges_riveDroiteIds] -print "bordGaucheDomaineIds", bordGaucheDomaineIds -print "bordDroiteDomaineIds", bordDroiteDomaineIds +print("bordGaucheDomaineIds", bordGaucheDomaineIds) +print("bordDroiteDomaineIds", bordDroiteDomaineIds) bordGaucheDomaine = geompy.CreateGroup(HYDRO_garonne_1, geompy.ShapeType["EDGE"]) geompy.UnionIDs(bordGaucheDomaine, bordGaucheDomaineIds) geompy.addToStudyInFather(HYDRO_garonne_1, bordGaucheDomaine, "bordGaucheDomaine") @@ -1160,7 +1160,7 @@ from salome.smesh import smeshBuilder from salome.hydrotools.controls import controlMeshStats, controlSubMeshStats import tempfile -smesh = smeshBuilder.New(theStudy) +smesh = smeshBuilder.New() garonne_1 = smesh.Mesh(HYDRO_garonne_1) NETGEN_1D_2D = garonne_1.Triangle(algo=smeshBuilder.NETGEN_1D2D) NETGEN_2D_Parameters_1 = NETGEN_1D_2D.Parameters() @@ -1269,7 +1269,7 @@ smesh.SetName(sections, 'submesh_sections') garonne_1.SetAutoColor( 1 ) tmpdir = tempfile.mkdtemp() -print "tmpdir=",tmpdir +print("tmpdir=",tmpdir) fichierMaillage = os.path.join(tmpdir, 'garonne_1.med') garonne_1.ExportMED(fichierMaillage, 0, SMESH.MED_V2_2, 1, None ,1) @@ -1281,4 +1281,4 @@ controlSubMeshStats(garonne_riveDroite_2, 3941) controlSubMeshStats(garonne_riveGauche_2, 4635) if salome.sg.hasDesktop(): - salome.sg.updateObjBrowser(1) + salome.sg.updateObjBrowser()