227 lines
8.1 KiB
C++
Executable file
227 lines
8.1 KiB
C++
Executable file
// FICHIER : Enum_matrice.cp
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// This file is part of the Herezh++ application.
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//
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// The finite element software Herezh++ is dedicated to the field
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// of mechanics for large transformations of solid structures.
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// It is developed by Gérard Rio (APP: IDDN.FR.010.0106078.000.R.P.2006.035.20600)
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// INSTITUT DE RECHERCHE DUPUY DE LÔME (IRDL) <https://www.irdl.fr/>.
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//
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// Herezh++ is distributed under GPL 3 license ou ultérieure.
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//
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// Copyright (C) 1997-2021 Université Bretagne Sud (France)
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// AUTHOR : Gérard Rio
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// E-MAIL : gerardrio56@free.fr
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License,
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// or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty
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// of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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// See the GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <https://www.gnu.org/licenses/>.
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//
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// For more information, please consult: <https://herezh.irdl.fr/>.
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#include "Enum_matrice.h"
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# include <iostream>
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using namespace std; //introduces namespace std
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#include <stdlib.h>
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#include "Sortie.h"
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//#ifdef SYSTEM_MAC_OS_X
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// #include <stringfwd.h> // a priori ce n'est pas portable
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//#el
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#if defined SYSTEM_MAC_OS_CARBON
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#include <stringfwd.h> // a priori ce n'est pas portable
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#else
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#include <string.h> // pour le flot en memoire centrale
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#endif
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#include <string>
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string Nom_matrice(Enum_matrice id_matrice)
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// Retourne le nom du type de matrice correspondant a l'identificateur
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// de type enumere id_matrice
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{
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string result;
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switch (id_matrice)
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{case RIEN_MATRICE : result="RIEN_MATRICE"; break;
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case CARREE : result="CARREE"; break;
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case CARREE_SYMETRIQUE : result="CARREE_SYMETRIQUE"; break;
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case RECTANGLE : result="RECTANGLE"; break;
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case BANDE_SYMETRIQUE : result="BANDE_SYMETRIQUE"; break;
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case BANDE_NON_SYMETRIQUE: result="BANDE_NON_SYMETRIQUE"; break;
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case CARREE_LAPACK : result="CARREE_LAPACK"; break;
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case CARREE_SYMETRIQUE_LAPACK : result="CARREE_SYMETRIQUE_LAPACK"; break;
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case RECTANGLE_LAPACK : result="RECTANGLE_LAPACK"; break;
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case BANDE_SYMETRIQUE_LAPACK : result="BANDE_SYMETRIQUE_LAPACK"; break;
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case BANDE_NON_SYMETRIQUE_LAPACK : result="BANDE_NON_SYMETRIQUE_LAPACK"; break;
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case TRIDIAGONALE_GENE_LAPACK : result="TRIDIAGONALE_GENE_LAPACK"; break;
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case TRIDIAGONALE_DEF_POSITIVE_LAPACK : result="TRIDIAGONALE_DEF_POSITIVE_LAPACK"; break;
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case CREUSE_NON_COMPRESSEE : result="CREUSE_NON_COMPRESSEE"; break;
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case CREUSE_COMPRESSEE_COLONNE : result="CREUSE_COMPRESSEE_COLONNE"; break;
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case CREUSE_COMPRESSEE_LIGNE : result="CREUSE_COMPRESSEE_LIGNE"; break;
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case DIAGONALE : result="DIAGONALE"; break;
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default :
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cout << "\nErreur : valeur incorrecte du type Enum_matrice !\n";
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cout << "Nom_matrice(Enum_matrice ) \n";
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Sortie(1);
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};
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return result;
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};
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Enum_matrice Id_nom_matrice(const string& nom_matrice)
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// Retourne la variable de type enumere associe au nom
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// de matrice nom_matrice
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{
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Enum_matrice result;
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if ( nom_matrice == "RIEN_MATRICE" )
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result=RIEN_MATRICE;
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else if ( nom_matrice == "CARREE" )
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result=CARREE;
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else if ( nom_matrice == "CARREE_SYMETRIQUE" )
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result=CARREE_SYMETRIQUE;
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else if ( nom_matrice == "RECTANGLE" )
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result=RECTANGLE;
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else if ( nom_matrice == "BANDE_SYMETRIQUE" )
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result=BANDE_SYMETRIQUE;
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else if ( nom_matrice == "BANDE_NON_SYMETRIQUE" )
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result=BANDE_NON_SYMETRIQUE;
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else if ( nom_matrice == "CARREE_LAPACK" )
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result=CARREE_LAPACK;
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else if ( nom_matrice == "CARREE_SYMETRIQUE_LAPACK" )
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result=CARREE_SYMETRIQUE_LAPACK;
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else if ( nom_matrice == "RECTANGLE_LAPACK" )
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result=RECTANGLE_LAPACK;
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else if ( nom_matrice == "BANDE_SYMETRIQUE_LAPACK" )
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result=BANDE_SYMETRIQUE_LAPACK;
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else if ( nom_matrice == "BANDE_NON_SYMETRIQUE_LAPACK" )
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result=BANDE_NON_SYMETRIQUE_LAPACK;
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else if ( nom_matrice == "TRIDIAGONALE_GENE_LAPACK" )
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result=TRIDIAGONALE_GENE_LAPACK;
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else if ( nom_matrice == "TRIDIAGONALE_DEF_POSITIVE_LAPACK" )
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result=TRIDIAGONALE_DEF_POSITIVE_LAPACK;
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else if ( nom_matrice == "CREUSE_NON_COMPRESSEE" )
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result=CREUSE_NON_COMPRESSEE;
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else if ( nom_matrice == "CREUSE_COMPRESSEE_COLONNE" )
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result=CREUSE_COMPRESSEE_COLONNE;
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else if ( nom_matrice == "CREUSE_COMPRESSEE_LIGNE" )
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result=CREUSE_COMPRESSEE_LIGNE;
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else if ( nom_matrice == "DIAGONALE" )
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result=DIAGONALE;
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else
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{
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cout << "\nErreur : nom de matrice inconnu !\n";
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cout << "Id_nom_interpol(string ) \n";
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Sortie(1);
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};
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return result;
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};
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// indique si le type existe ou pas, -> 1 ou 0
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int Existe_Enum_matrice(string& nom_matrice)
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{
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int result;
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if ( nom_matrice == "RIEN_MATRICE" )
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result=1;
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else if ( nom_matrice == "CARREE" )
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result=1;
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else if ( nom_matrice == "CARREE_SYMETRIQUE" )
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result=1;
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else if ( nom_matrice == "RECTANGLE" )
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result=1;
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else if ( nom_matrice == "BANDE_SYMETRIQUE" )
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result=1;
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else if ( nom_matrice == "BANDE_NON_SYMETRIQUE" )
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result=1;
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else if ( nom_matrice == "CARREE_LAPACK" )
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result=1;
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else if ( nom_matrice == "CARREE_SYMETRIQUE_LAPACK" )
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result=1;
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else if ( nom_matrice == "RECTANGLE_LAPACK" )
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result=1;
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else if ( nom_matrice == "BANDE_SYMETRIQUE_LAPACK" )
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result=1;
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else if ( nom_matrice == "BANDE_NON_SYMETRIQUE_LAPACK" )
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result=1;
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else if ( nom_matrice == "TRIDIAGONALE_GENE_LAPACK" )
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result=1;
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else if ( nom_matrice == "TRIDIAGONALE_DEF_POSITIVE_LAPACK" )
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result=1;
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else if ( nom_matrice == "CREUSE_NON_COMPRESSEE" )
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result=1;
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else if ( nom_matrice == "CREUSE_COMPRESSEE_COLONNE" )
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result=1;
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else if ( nom_matrice == "CREUSE_COMPRESSEE_LIGNE" )
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result=1;
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else if ( nom_matrice == "DIAGONALE" )
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result=1;
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else
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{result = 0;};
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return result;
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};
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// indique si la matrice est de part son type, symétrique ou pas
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bool Symetrique_Enum_matrice(Enum_matrice id_matrice)
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{
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bool result;
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switch (id_matrice)
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{case RIEN_MATRICE : result=false; break;
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case CARREE : result=false; break;
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case CARREE_SYMETRIQUE : result=true; break;
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case RECTANGLE : result=false; break;
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case BANDE_SYMETRIQUE : result=true; break;
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case BANDE_NON_SYMETRIQUE: result=false; break;
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case CARREE_LAPACK : result=false; break;
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case CARREE_SYMETRIQUE_LAPACK : result=true; break;
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case RECTANGLE_LAPACK : result=false; break;
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case BANDE_SYMETRIQUE_LAPACK : result=true; break;
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case BANDE_NON_SYMETRIQUE_LAPACK : result=false; break;
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case TRIDIAGONALE_GENE_LAPACK : result=false; break;
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case TRIDIAGONALE_DEF_POSITIVE_LAPACK : result=false; break;
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case CREUSE_NON_COMPRESSEE : result=false; break;
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case CREUSE_COMPRESSEE_COLONNE : result=false; break;
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case CREUSE_COMPRESSEE_LIGNE : result=false; break;
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case DIAGONALE : result=true; break;
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default :
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cout << "\nErreur : valeur incorrecte (id_matrice="<< id_matrice <<") du type Enum_matrice !\n";
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cout << "\n Symetrique(Enum_matrice id_matrice) \n";
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Sortie(1);
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};
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return result;
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};
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// surcharge de la lecture
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istream & operator >> (istream & entree, Enum_matrice & result)
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{ char nom_matrice[80];
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entree >> nom_matrice;
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result = Id_nom_matrice ( nom_matrice);
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return entree;
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};
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// surcharge de l'operator d'ecriture
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ostream & operator << (ostream & sort, const Enum_matrice& a)
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{ // on ecrit la forme caractère
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sort << Nom_matrice(a) << " ";
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return sort;
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};
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