From: prascle Date: Wed, 4 May 2011 14:58:40 +0000 (+0000) Subject: PR: english messages X-Git-Tag: V6_3_0b1~7 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=dee22ad52242ab4ec24f1a53cff4246aff255853;p=modules%2Fsmesh.git PR: english messages --- diff --git a/src/Tools/MeshCut/MeshCutDialog.ui b/src/Tools/MeshCut/MeshCutDialog.ui index 1ec542285..a7f29b453 100644 --- a/src/Tools/MeshCut/MeshCutDialog.ui +++ b/src/Tools/MeshCut/MeshCutDialog.ui @@ -13,6 +13,9 @@ cut a mesh by a plane + + false + diff --git a/src/Tools/MeshCut/MeshCut_Cas.cxx b/src/Tools/MeshCut/MeshCut_Cas.cxx index 09e278489..93cf55168 100644 --- a/src/Tools/MeshCut/MeshCut_Cas.cxx +++ b/src/Tools/MeshCut/MeshCut_Cas.cxx @@ -212,7 +212,7 @@ void MESHCUT::cas1(int VN[6], int it4) } else - ERREUR(" Configuration intersections non reconnue (cas cptPI=1) "); + ERREUR(" Intersections configuration not taken into account (case cptPI=1) "); //int nl1 = MAILLAGE1->EFFECTIFS_TYPES[TETRA4] + i1; //int nl2 = MAILLAGE1->EFFECTIFS_TYPES[TETRA4] + i2; @@ -358,7 +358,7 @@ void MESHCUT::cas2(int VN[6], int it4) } else if (VN[0] != -1 && VN[5] != -1) - ERREUR("Cas 2/05 interdit"); + ERREUR("Case 2/05 forbidden"); else if (VN[1] != -1 && VN[2] != -1) { @@ -420,7 +420,7 @@ void MESHCUT::cas2(int VN[6], int it4) } else if (VN[1] != -1 && VN[4] != -1) - ERREUR("Cas 2/14 exclu"); + ERREUR("Case 2/14 excluded"); else if (VN[1] != -1 && VN[5] != -1) { @@ -453,7 +453,7 @@ void MESHCUT::cas2(int VN[6], int it4) } else if (VN[2] != -1 && VN[3] != -1) - ERREUR("Cas 2/23 exclu"); + ERREUR("Case 2/23 excluded"); else if (VN[2] != -1 && VN[4] != -1) { @@ -606,7 +606,7 @@ void MESHCUT::cas2(int VN[6], int it4) } else - ERREUR(" Configuration intersections non reconnue (cas cptPI=2) "); + ERREUR(" Intersections configuration not taken into account (case cptPI=2) "); // int ngT4 = MAILLAGE1->EFFECTIFS_TYPES[TETRA4] + cptNouvellesMailles[TETRA4] - 1; // int ngP5 = MAILLAGE1->EFFECTIFS_TYPES[PYRAM5] + cptNouvellesMailles[PYRAM5] - 1; @@ -784,7 +784,7 @@ void MESHCUT::cas3(int VN[6], int it4) // cout << x2 << " " << y2 << " " << z2 << " " << endl; // cout << x3 << " " << y3 << " " << z3 << " " << endl; - ERREUR(" Configuration intersections non reconnue (cas cptPI=3) "); + ERREUR(" Intersections configuration not taken into account (case cptPI=3) "); } // int ngT4 = MAILLAGE1->EFFECTIFS_TYPES[TETRA4] + cptNouvellesMailles[TETRA4] - 1; @@ -918,7 +918,7 @@ void MESHCUT::cas4(int VN[6], int it4) } } else - ERREUR(" Configuration intersections non reconnue (cas cptPI=4) "); + ERREUR(" Intersection configuration not taken into account (case cptPI=4) "); // int nl1 = MAILLAGE1->EFFECTIFS_TYPES[PENTA6] + i1; // int nl2 = MAILLAGE1->EFFECTIFS_TYPES[PENTA6] + i2; diff --git a/src/Tools/MeshCut/MeshCut_DC.cxx b/src/Tools/MeshCut/MeshCut_DC.cxx index 6086a1746..c85496a6f 100644 --- a/src/Tools/MeshCut/MeshCut_DC.cxx +++ b/src/Tools/MeshCut/MeshCut_DC.cxx @@ -117,24 +117,24 @@ int main(int argc, char *argv[]) ERREUR("--> check arguments!"); } - cout << "Découpe plane :" << endl; - cout << "\t" << "Maillage source: " << ficMEDin << endl; - cout << "\t" << "Maillage cible: " << ficMEDout << endl; - cout << "\t" << "ID nouveau maillage: " << str_id_maillagenew << endl; - cout << "\t" << "Nom GMplus: " << str_id_GMplus << endl; - cout << "\t" << "Nom GMmoins: " << str_id_GMmoins << endl; - cout << "\t" << "Vecteur normal du plan de coupe: xn=" << xNormal << " yn=" << yNormal << " zn=" << zNormal << endl; - cout << "\t" << "Point du plan de coupe: xm=" << xm << " ym=" << ym << " zm=" << zm << endl; - cout << "\t" << "Tolérance: " << tolerance << endl; + cout << "Cut by a plane :" << endl; + cout << " source mesh: " << ficMEDin << endl; + cout << " result mesh: " << ficMEDout << endl; + cout << " mesh name: " << str_id_maillagenew << endl; + cout << " group above plane: " << str_id_GMplus << endl; + cout << " group below plane: " << str_id_GMmoins << endl; + cout << " vector normal to the cut plane: xn=" << xNormal << " yn=" << yNormal << " zn=" << zNormal << endl; + cout << " point in the cut plane: xm=" << xm << " ym=" << ym << " zm=" << zm << endl; + cout << " tolerance: " << tolerance << endl; cout << endl; if (tolerance <= 0.0) - ERREUR("L'argument tolérance doit être strictement positif"); + ERREUR("Tolerance must not be negative or null"); // Il faut normer la normale float normeNormal = sqrt(xNormal * xNormal + yNormal * yNormal + zNormal * zNormal); if (normeNormal == 0.0) - ERREUR("Vecteur normal nul"); + ERREUR("null normal vector"); normale[0] = xNormal / normeNormal; normale[1] = yNormal / normeNormal; normale[2] = zNormal / normeNormal; @@ -163,16 +163,16 @@ int main(int argc, char *argv[]) //cout << chrono() << " - Acquisition du maillage initial" << endl; MAILLAGE1 = new Maillage((string) "TEMP"); MAILLAGE1->inputMED(ficMEDin); - cout << chrono() << " - Fin d'acquisition maillage" << endl; + cout << chrono() << " - End of mesh read" << endl; indexNouveauxNoeuds = MAILLAGE1->nombreNoeudsMaillage; // Le maillage ne contient aucun TETRA4 : on rend le maillage initial sans modification if (!MAILLAGE1->EFFECTIFS_TYPES[TETRA4]) { - cout << "WARNING : le maillage ne contient aucun élément TETRA4, il ne sera donc pas modifié" << endl; + cout << "WARNING: mesh does not contain tetra4 elements, it will not be modified" << endl; MAILLAGE1->ID = str_id_maillagenew; MAILLAGE1->outputMED(ficMEDout); - cout << chrono() << " - Terminé" << endl << endl; + cout << chrono() << " - Finished!" << endl << endl; exit(0); } // A partir de cet instant le maillage contient forcément des TETRA4 @@ -182,7 +182,7 @@ int main(int argc, char *argv[]) DNP = (float*) malloc(sizeof(float) * MAILLAGE1->nombreNoeudsMaillage); for (int k = 0; k < MAILLAGE1->nombreNoeudsMaillage; k++) DNP[k] = distanceNoeudPlan(k + 1); - cout << chrono() << " - Fin de chargement des distances noeud-plan" << endl; + cout << chrono() << " - End of computation of distances between nodes and plane" << endl; // Longueur d'arête moyenne des T4 intersectant le plan de coupe float LONGUEURS = 0.0; @@ -222,11 +222,11 @@ int main(int argc, char *argv[]) if (cptLONGUEURS == 0) { cout - << "WARNING : le plan de coupe n'intersecte aucun élément TETRA4, le maillage initial ne sera donc pas modifié" + << "WARNING: the cut plane does not cut any tetra4 element, initial mesh will not be modified" << endl; MAILLAGE1->ID = str_id_maillagenew; MAILLAGE1->outputMED(ficMEDout); - cout << chrono() << " - Terminé" << endl << endl; + cout << chrono() << " - Finished!" << endl << endl; exit(0); } // A partir de cet instant le maillage contient forcément des TETRA4 intersectant le plan de coupe @@ -236,11 +236,11 @@ int main(int argc, char *argv[]) epsilon = tolerance * longueurMoyenne; int nT4coupe = cptLONGUEURS / 6; - cout << chrono() << " - Fin du calcul de la longueur moyenne des arêtes TETRA4 au voisinage du plan de coupe" << endl; + cout << chrono() << " - End of computation of mean length of tetra4 edges near the cut plane" << endl; - cout << "Nombre de TETRA4 impliqués dans la coupe = " << nT4coupe << endl; - cout << "Longueur moyenne = " << longueurMoyenne << endl; - cout << "Tolérance = " << tolerance << endl; + cout << "Number of tetra4 to be cut = " << nT4coupe << endl; + cout << "Mean length = " << longueurMoyenne << endl; + cout << "Tolerance = " << tolerance << endl; cout << "Epsilon = " << epsilon << endl; // Détermination des positions de noeuds par rapport au plan de coupe - POSN @@ -254,8 +254,8 @@ int main(int argc, char *argv[]) else POSN[k] = 0; } - cout << chrono() << " - Fin du positionnement des points par rapport au plan de coupe" << endl; - cout << "Début de la boucle sur les TETRA4" << endl; + cout << chrono() << " - End of nodes classement above or below the cut plane" << endl; + cout << "Start of iteration on tetra4" << endl; for (int it4 = 0; it4 < MAILLAGE1->EFFECTIFS_TYPES[TETRA4]; it4++) { @@ -617,9 +617,9 @@ int main(int argc, char *argv[]) else if (S[0] == 0 && S[1] == 0 && S[2] == 0 && S[3] == 0) { - cout << "WARNING : TETRA4 numéro " << it4 - << " entièrement inclus dans la zone de tolérance autour du plan de coupe" << endl; - cout << " --> affecté au groupe " << str_id_GMmoins << endl; + cout << "WARNING: TETRA4 number " << it4 + << " entirely in the tolerance zone near the cut plane" << endl; + cout << " --> affected to group " << str_id_GMmoins << endl; GMmoins[TETRA4].push_back(it4); } @@ -970,10 +970,10 @@ int main(int argc, char *argv[]) GMplus[TETRA4].push_back(it4); else - ERREUR("Cas non prévu"); + ERREUR("Case not taken into account"); } - cout << chrono() << " - Fin de la boucle sur les TETRA4" << endl; + cout << chrono() << " - End of iteration on tetra4" << endl; // cout << "indexNouveauxNoeuds = " << indexNouveauxNoeuds << endl; newXX.resize(indexNouveauxNoeuds - MAILLAGE1->nombreNoeudsMaillage); @@ -991,7 +991,7 @@ int main(int argc, char *argv[]) // 2. Constitution du maillage final // ========================================================================================= - cout << chrono() << " - Constitution du maillage final" << endl; + cout << chrono() << " - Constitution of final mesh" << endl; MAILLAGE2 = new Maillage(str_id_maillagenew); MAILLAGE2->dimensionMaillage = MAILLAGE1->dimensionMaillage; @@ -1090,10 +1090,10 @@ int main(int argc, char *argv[]) MAILLAGE2->GN = MAILLAGE1->GN; - cout << chrono() << " - Ecriture du fichier MED" << endl; + cout << chrono() << " - MED file writing" << endl; MAILLAGE2->outputMED(ficMEDout); - cout << chrono() << " - Terminé" << endl << endl; + cout << chrono() << " - Finished!" << endl << endl; return 0; diff --git a/src/Tools/MeshCut/MeshCut_Fonctions.cxx b/src/Tools/MeshCut/MeshCut_Fonctions.cxx index 2ecbe064d..f119c47b4 100644 --- a/src/Tools/MeshCut/MeshCut_Fonctions.cxx +++ b/src/Tools/MeshCut/MeshCut_Fonctions.cxx @@ -102,7 +102,7 @@ int MESHCUT::intersectionSegmentPlan(int it4, int na) ngB = *(offset + 3); } else - ERREUR("Numéro d'arête supérieur à 6"); + ERREUR("Edge number superior to 6"); string cle1 = int2string(ngA) + (string) "_" + int2string(ngB); string cle2 = int2string(ngB) + (string) "_" + int2string(ngA); @@ -142,7 +142,7 @@ int MESHCUT::intersectionSegmentPlan(int it4, int na) } if (fabs(ps) == 0.0) - ERREUR("Erreur sur ps nul"); + ERREUR("Error on null scalar product"); // PS non nul: l'intersection AB/plan existe diff --git a/src/Tools/MeshCut/MeshCut_Maillage.cxx b/src/Tools/MeshCut/MeshCut_Maillage.cxx index 856378d22..e41727f77 100644 --- a/src/Tools/MeshCut/MeshCut_Maillage.cxx +++ b/src/Tools/MeshCut/MeshCut_Maillage.cxx @@ -298,14 +298,14 @@ void Maillage::inputMED(std::string fichierMED) fid = MEDfileOpen(string2char(fichierMED), MED_ACC_RDONLY); if (fid < 0) { - ERREUR("Erreur a l'ouverture du fichier\n"); + ERREUR("Error file open\n"); } //cout << chrono() << " --- inputMED: MEDfileOpen: ouverture du maillage en lecture seule, OK" << endl; // Lecture des infos concernant le premier maillage if (MEDmeshInfo(fid, 1, maa, &spacedim, &mdim, &type, desc, dtunit, &sortingtype, &nPasTemps, &axistype, axisname, unitname) < 0) - ERREUR("Erreur a la lecture des informations sur le maillage "); + ERREUR("Error while reading mesh informations "); //cout << chrono() << " --- inputMED: MEDmeshInfo: OK" << endl; cerr << "maa=" << maa << endl; @@ -452,7 +452,7 @@ void Maillage::inputMED(std::string fichierMED) med_int nFamilles; char nomGroupeChar[MED_LNAME_SIZE + 1]; if ((nFamilles = MEDnFamily(fid, maa)) < 0) - ERREUR("ERREUR MEDnFamily"); + ERREUR("ERROR MEDnFamily"); // Initialisation des tailles: tailleFAMILLES et tailleGROUPES @@ -488,9 +488,9 @@ void Maillage::inputMED(std::string fichierMED) med_int numfam, *attide, *attval, natt, ngro; if ((ngro = MEDnFamilyGroup(fid, maa, i + 1)) < 0) - ERREUR("ERREUR MEDnFamilyGroup"); + ERREUR("ERROR MEDnFamilyGroup"); if ((natt = MEDnFamily23Attribute(fid, maa, i + 1)) < 0) - ERREUR("ERREUR MEDnFamily23Attribute"); + ERREUR("ERROR MEDnFamily23Attribute"); attide = (med_int *) malloc(sizeof(med_int) * natt); attval = (med_int *) malloc(sizeof(med_int) * natt); @@ -498,7 +498,7 @@ void Maillage::inputMED(std::string fichierMED) gro = (char *) malloc(MED_LNAME_SIZE * ngro + 1); if (MEDfamilyInfo(fid, maa, (med_int) (i + 1), nomfam, &numfam, gro) < 0) - ERREUR("ERREUR MEDfamilyInfo"); + ERREUR("ERROR MEDfamilyInfo"); for (int ig = 1; ig <= ngro; ig++) { @@ -556,7 +556,7 @@ void Maillage::inputMED(std::string fichierMED) &coordinatechangement, &geotransformation); if (nnoe < 0) - ERREUR("Erreur a la lecture du nombre de noeuds"); + ERREUR("Error while reading number of nodes"); nombreNoeudsMaillage = nnoe; @@ -565,7 +565,7 @@ void Maillage::inputMED(std::string fichierMED) if (nnoe > 0) { if (MEDmeshEntityFamilyNumberRd(fid, maa, MED_NO_DT, MED_NO_IT, MED_NODE, MED_NONE, famNoeuds) < 0) - ERREUR("Erreur a la lecture des familles de noeuds (MEDmeshEntityFamilyNumberRd)"); + ERREUR("Error while reading family node number (MEDmeshEntityFamilyNumberRd)"); } /* Allocations memoires */ @@ -583,7 +583,7 @@ void Maillage::inputMED(std::string fichierMED) // Lecture des composantes des coordonnees des noeuds if (nnoe > 0) if (MEDmeshNodeCoordinateRd(fid, maa, MED_NO_DT, MED_NO_IT, MED_FULL_INTERLACE, coo1) < 0) - ERREUR("Erreur a la lecture des coordonnees des noeuds"); + ERREUR("Error while reading nodes coordinates"); // // Les noeuds ont-ils un nom? un numéro? // if (nnoe > 0) @@ -856,7 +856,7 @@ void Maillage::acquisitionTYPE_inputMED(TYPE_MAILLE TYPE, int nTYPE, med_idt fid if (MEDmeshElementRd(fid, maa, MED_NO_DT, MED_NO_IT, MED_CELL, typeBanaliseMED, MED_NODAL, MED_FULL_INTERLACE, CNX[TYPE], &inomTYPE, nomTYPE, &inumTYPE, numTYPE, &ifamTYPE, famTYPE) < 0) - ERREUR("Erreur a la lecture des coordonnees des noeuds"); + ERREUR("Error while reading elements"); // Conversion HL conversionCNX(CNX[TYPE], TYPE, nTYPE); @@ -924,7 +924,7 @@ void Maillage::outputMED(std::string fichierMED) // Sortie sur erreur en cas de maillage sans noeuds if (nombreNoeudsMaillage <= 0) { - ERREUR("Ce maillage ne contient aucun noeud\n"); /* cout << "Maillage sans noeuds" << endl; */ + ERREUR("This mesh does not contain any node\n"); /* cout << "Maillage sans noeuds" << endl; */ } // ######################################################################## @@ -935,8 +935,8 @@ void Maillage::outputMED(std::string fichierMED) med_idt fid = MEDfileOpen(string2char(fichierMED), MED_ACC_CREAT); if (fid < 0) { - ERREUR("Erreur MEDfileOpen\n"); - cout << "Erreur MEDfileOpen" << endl; + ERREUR("Error MEDfileOpen\n"); + cout << "Error MEDfileOpen" << endl; } // Création du maillage @@ -967,8 +967,8 @@ void Maillage::outputMED(std::string fichierMED) cerr << "unitname=" << unitname << endl; if (MEDmeshCr(fid, maa, spacedim, mdim, type, desc, "s", MED_SORT_DTIT, MED_CARTESIAN, axisname, unitname) < 0) { - ERREUR("Erreur MEDmeshCr"); - cout << "Erreur MEDmeshCr" << endl; + ERREUR("Error MEDmeshCr"); + cout << "Error MEDmeshCr" << endl; } // ============================= CREATION FAMILLE ZERO @@ -982,7 +982,7 @@ void Maillage::outputMED(std::string fichierMED) strcpy(nomfam, "FAMILLE_0"); numfam = 0; if (MEDfamilyCr(fid, maa, nomfam, numfam, 0, MED_NO_GROUP) < 0) - ERREUR("Erreur MEDfamilyCr (creation famille 0)"); + ERREUR("Error MEDfamilyCr (create family 0)"); // ######################################################################## // GROUPES DE NOEUDS @@ -1101,7 +1101,7 @@ void Maillage::outputMED(std::string fichierMED) // Création de la famille if (MEDfamilyCr(fid, maa, nomfam, numfam, 0, MED_NO_GROUP) < 0) - ERREUR("Erreur MEDfamilyCr"); + ERREUR("Error MEDfamilyCr"); } @@ -1259,8 +1259,8 @@ void Maillage::outputMED(std::string fichierMED) if (MEDmeshNodeWr(fid, maa, MED_NO_DT, MED_NO_IT, MED_UNDEF_DT, MED_FULL_INTERLACE, nnoe, coo, inonoe, nomnoe, inunoe, numnoe, MED_TRUE, nufano) < 0) { - ERREUR("Erreur MEDmeshNodeWr"); - cout << "Erreur MEDmeshNodeWr" << endl; + ERREUR("Error MEDmeshNodeWr"); + cout << "Error MEDmeshNodeWr" << endl; } // ######################################################################## @@ -1416,7 +1416,7 @@ void Maillage::outputMED(std::string fichierMED) // Création de la famille if (MEDfamilyCr(fid, maa, nomfam, numfam, 1, gro) < 0) - ERREUR("Erreur MEDfamilyCr"); + ERREUR("Error MEDfamilyCr"); } } @@ -1510,14 +1510,14 @@ void Maillage::outputMED(std::string fichierMED) MED_FULL_INTERLACE, nTYPE, CNX[tm], inomTYPE, nomTYPE, inumTYPE, numTYPE, MED_FALSE, famTYPE) < 0) { - ERREUR("Erreur MEDmeshElementWr"); - cout << "Erreur MEDmeshElementWr, type " << stype << endl; + ERREUR("Error MEDmeshElementWr"); + cout << "Error MEDmeshElementWr, type " << stype << endl; } if (MEDmeshEntityFamilyNumberWr(fid, maa, MED_NO_DT, MED_NO_IT, MED_CELL, MGE, nTYPE, famTYPE) < 0) { - ERREUR("Erreur MEDmeshEntityFamilyNumberWr"); - cout << "Erreur MEDmeshEntityFamilyNumberWr, type " << stype << endl; + ERREUR("Error MEDmeshEntityFamilyNumberWr"); + cout << "Error MEDmeshEntityFamilyNumberWr, type " << stype << endl; } // free(nomTYPE); @@ -1534,8 +1534,8 @@ void Maillage::outputMED(std::string fichierMED) if (MEDfileClose(fid) < 0) { - ERREUR("Erreur a la fermeture du fichier MED\n"); - cout << "Erreur a la fermeture du fichier MED" << endl; + ERREUR("Error on close MED file\n"); + cout << "Error on close MED file" << endl; } // cout << endl << endl << "Fin procédure outputMED" << endl; @@ -1661,7 +1661,7 @@ int Maillage::NLOCAL(int nglobal, TYPE_MAILLE tm) - nPYRAM13 - nPENTA6 - nPENTA15 - nHEXA8 - 1; } else - ERREUR("Routine NLOCAL: type non reconnu"); + ERREUR("method NLOCAL: unknown type"); return 0; } @@ -1724,7 +1724,7 @@ void Maillage::eliminationMailles(TYPE_MAILLE tm, vector listeMaillesSuppr) // Contrôle if (offset != listeMaillesSuppr.size()) { - ERREUR("Incohérence offset, fonction eliminationMailles"); + ERREUR("Incoherent offset, method eliminationMailles"); exit(0); } @@ -1755,7 +1755,7 @@ void Maillage::eliminationMailles(TYPE_MAILLE tm, vector listeMaillesSuppr) cout << "mailles.size() = " << mailles.size() << endl; cout << "cptMailles = " << cptMailles << endl; cout << "delta = " << delta << endl; - ERREUR("Incohérence sur le nombre de mailles conservées, fonction eliminationMailles"); + ERREUR("Incoherent number of kept elements, method eliminationMailles"); exit(0); } diff --git a/src/Tools/MeshCut/MeshCut_Utils.cxx b/src/Tools/MeshCut/MeshCut_Utils.cxx index 2d71b598a..7e28f70d7 100644 --- a/src/Tools/MeshCut/MeshCut_Utils.cxx +++ b/src/Tools/MeshCut/MeshCut_Utils.cxx @@ -25,7 +25,7 @@ bool MESHCUT::estUnTypeMaille(std::string S) void MESHCUT::ERREUR(const char* msg) { - cout << endl << "====== ERREUR ====== " << msg << endl << endl; + cout << endl << "====== ERROR ====== " << msg << endl << endl; exit(-1); } @@ -111,7 +111,7 @@ std::string MESHCUT::strip(std::string S) std::string MESHCUT::entierSur10_g(int i) { if (i > 999999999) - ERREUR("Tentative d'ecriture sur 10 caracteres d'un entier plus grand que 999999999"); + ERREUR("trying to write a number superior to 999999999 on more than 10 chars"); if (i < 10) return int2string(i) + (string) " "; else if (i < 100) @@ -137,7 +137,7 @@ std::string MESHCUT::entierSur10_g(int i) std::string MESHCUT::entierSur10_d(int i) { if (i > 999999999) - ERREUR("Tentative d'ecriture sur 10 caracteres d'un entier plus grand que 999999999"); + ERREUR("trying to write a number superior to 999999999 on more than 10 chars"); if (i < 10) return (string) " " + int2string(i); else if (i < 100) @@ -177,7 +177,7 @@ std::string MESHCUT::typeEnsight(std::string type) else if (type == (string) "QUAD8") return (string) "quad4"; // ATTENTION, triche! else if (type == (string) "QUAD9") - ERREUR("Type QUAD9 non supporte par Ensight"); + ERREUR("Type QUAD9 not supported by Ensight"); else if (type == (string) "TETRA4") return (string) "tetra4"; else if (type == (string) "TETRA10") @@ -195,9 +195,9 @@ std::string MESHCUT::typeEnsight(std::string type) else if (type == (string) "HEXA20") return (string) "hexa8"; // ATTENTION, triche! else if (type == (string) "HEXA27") - ERREUR("Type HEXA27 non supporte par Ensight"); + ERREUR("Type HEXA27 not supported by Ensight"); else - ERREUR("Type maille non reconnu (routine \"typeEnsight\""); + ERREUR("Type of element not accepted (method \"typeEnsight\""); return (string) ""; } @@ -283,7 +283,7 @@ int MESHCUT::Nnoeuds(TYPE_MAILLE type) } //case HEXA27: { return 27; break; } default: - ERREUR("Type maille non reconnu (routine Nnoeuds)"); + ERREUR("Type of elem not accepted (method Nnoeuds)"); } return 0; } @@ -370,7 +370,7 @@ int MESHCUT::NnoeudsGeom(TYPE_MAILLE type) } //case HEXA27: { return 27; break; } default: - ERREUR("Type maille non reconnu (routine NnoeudsGeom)"); + ERREUR("Type of elem not accepted (method NnoeudsGeom)"); } return 0; } @@ -378,7 +378,7 @@ int MESHCUT::NnoeudsGeom(TYPE_MAILLE type) int MESHCUT::codeGMSH(std::string type) { if (type == (string) "POI1") - ERREUR("POI1 non pris en charge par GMSH"); + ERREUR("POI1 not taken into account by GMSH"); else if (type == (string) "SEG2") return 1; else if (type == (string) "SEG3") @@ -410,7 +410,7 @@ int MESHCUT::codeGMSH(std::string type) else if (type == (string) "HEXA27") return 12; else - ERREUR("Type maille non reconnu (routine codeGMSH)"); + ERREUR("Type of elem not accepted (method codeGMSH)"); return 0; } @@ -472,7 +472,7 @@ std::string MESHCUT::ASTER8(std::string s) else if (s.size() == 8) return (s); else - ERREUR("Depassement de la longueur max 8 pour une chaine ASTER"); + ERREUR("More than 8 char for an ASTER string"); return (s); } @@ -564,7 +564,7 @@ med_geometry_type MESHCUT::InstanceMGE(TYPE_MAILLE TYPE) typeBanaliseMED = MED_HEXA20; break; default: - ERREUR("Routine InstanceMGE, type inconnu "); + ERREUR("Method InstanceMGE, unknown type "); } return typeBanaliseMED; } @@ -607,7 +607,7 @@ TYPE_MAILLE MESHCUT::typeMaille(std::string type) else if (type == (string) "HEXA20") return HEXA20; else - ERREUR("ERREUR procédure typeMaille, type non reconnu"); + ERREUR("ERROR method typeMaille, unknown type"); return POI1; } @@ -646,7 +646,7 @@ std::string MESHCUT::MGE2string(med_geometry_type MGE) else if (MGE == MED_HEXA20) return (string) "HEXA20"; else - ERREUR("ERREUR procédure MGE2string, type non reconnu"); + ERREUR("ERROR method MGE2string, unknown type"); return (string) "NOEUD"; } @@ -683,7 +683,7 @@ std::string MESHCUT::TM2string(TYPE_MAILLE MGE) else if (MGE == HEXA20) return (string) "HEXA20"; else - ERREUR("ERREUR procédure TM2string, type non reconnu"); + ERREUR("ERROR method TM2string, unknown type"); return (string) "POI1"; } @@ -720,7 +720,7 @@ TYPE_MAILLE MESHCUT::string2TM(std::string stm) else if (stm == (string) "HEXA20") return HEXA20; else - ERREUR("ERREUR procédure string2TM, type non reconnu"); + ERREUR("ERROR method string2TM, unknown type"); return POI1; } @@ -822,8 +822,8 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type med_field_type fieldType; if (MEDfieldInfo(fid, ichamp, nomChamp, maa, &local, &fieldType, compChamp, unitChamp, dtunit, &nPasTemps) < 0) - ERREUR("Erreur MEDfieldInfo"); - cout << type << " : " << (int) nPasTemps << " pas de temps " << endl; + ERREUR("Error MEDfieldInfo"); + cout << type << " : " << (int) nPasTemps << " timestep " << endl; for (ipt = 1; ipt <= nPasTemps; ipt++) { @@ -833,11 +833,11 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type if (debug) cout << "************************************************************" << endl; if (debug) - cout << " CHAMP " << ichamp << endl; + cout << " FIELD " << ichamp << endl; if (debug) cout << " " << nomChamp << endl; if (debug) - cout << " " << type << " --- Pas de temps " << ipt << endl; + cout << " " << type << " --- Timestep " << ipt << endl; if (debug) cout << "************************************************************" << endl; if (debug) @@ -847,11 +847,11 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type { cout << endl; cout << endl << "####################################################################" << endl; - cout << " ERREUR MEDpasdetempsInfo " << endl; + cout << " ERROR MEDpasdetempsInfo " << endl; cout << endl << "####################################################################" << endl; - cout << " Champ: " << (string) nomChamp << endl; - cout << " Géométrie: " << MGE2string(MGE) << endl; - cout << " Pas de temps " << ipt << " ignoré" << endl; + cout << " Field: " << (string) nomChamp << endl; + cout << " Geometrie: " << MGE2string(MGE) << endl; + cout << " Timestep " << ipt << " ignored" << endl; continue; } @@ -860,30 +860,30 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type nval = MEDfieldnValueWithProfile(fid, nomChamp, numdt, numo, MEM, MGE, ipt, MED_COMPACT_PFLMODE, nomprofil, &profilesize, locname, &nintegrationpoint); if (debug) - cout << " Nombre de valeurs dans ce pas de temps : " << (int) nval << endl; + cout << " Number of values in this timestep: " << (int) nval << endl; if (typeChamp == MED_FLOAT64) valr = (med_float*) calloc(nCompChamp * nval, sizeof(med_float)); else - ERREUR("Type de champ non pris en compte"); + ERREUR("Type of field not taken into account"); if (MEDfieldValueWithProfileRd(fid, maa, numdt, numo, MEM, MGE, MED_COMPACT_PFLMODE, nomprofil, MED_FULL_INTERLACE, MED_ALL_CONSTITUENT, (unsigned char*) valr) < 0) { cout << endl; cout << endl << "####################################################################" << endl; - cout << " ERREUR MEDchampLire " << endl; + cout << " ERROR MEDchampLire " << endl; cout << endl << "####################################################################" << endl; cout << endl; - cout << " Champ: " << (string) nomChamp << endl; - cout << " Géométrie: " << MGE2string(MGE) << endl; - cout << " Pas de temps " << ipt << " ignoré" << endl; + cout << " Field: " << (string) nomChamp << endl; + cout << " Geometry: " << MGE2string(MGE) << endl; + cout << " Timestep " << ipt << " ignored" << endl; cout << endl << endl; continue; } if (debug) - cout << " profil = " << (string) nomprofil << endl; + cout << " profile = " << (string) nomprofil << endl; // Localisation du champ aux points de Gauss if (debug) cout << " locname = " << (string) locname << endl; @@ -892,7 +892,7 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type { ngauss = REFGAUSS[(string) locname]; if (debug) - cout << " " << ngauss << " points de Gauss par élément)" << endl; + cout << " " << ngauss << " Gauss points by element)" << endl; } else ngauss = 1; @@ -951,7 +951,7 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type cout << endl; cout << endl << "********************************************************************" << endl; cout << "******************** ***********************" << endl; - cout << "******************** ERREUR MEDchampEcr ***********************" << endl; + cout << "******************** ERROR MEDchampEcr ***********************" << endl; cout << "******************** ***********************" << endl; cout << "********************************************************************" << endl; cout << endl; @@ -963,7 +963,7 @@ void MESHCUT::champType(std::string type, med_entity_type MEM, med_geometry_type } if (debug) - cout << " Ecriture des valeurs moyennées dans le nouveau champ: OK " << endl; + cout << " Writing mean values in new field: OK " << endl; // Restitution du champ moyenné if (debug) diff --git a/src/Tools/MeshCut/meshcut_plugin.py b/src/Tools/MeshCut/meshcut_plugin.py index 578d3fae1..bbfd1a338 100644 --- a/src/Tools/MeshCut/meshcut_plugin.py +++ b/src/Tools/MeshCut/meshcut_plugin.py @@ -1,5 +1,5 @@ # if you already have plugins defined in a salome_plugins.py file, add this file at the end. -# if not, copy this file as ${HOME}/Plugins/salome_plugins.py or ${APPLI}/Plugins/salome_plugins.py +# if not, copy this file as ${HOME}/Plugins/smesh_plugins.py or ${APPLI}/Plugins/smesh_plugins.py import salome_pluginsmanager