38 lines
1.3 KiB
Plaintext
38 lines
1.3 KiB
Plaintext
load donnees;
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% Calcul des faces du maillage à garder
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% nope = [];
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% for i = 1:nb_barycentres
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% tetra_i = T.Points(triBis(i, :), :);
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% for j = i+1:nb_barycentres
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% tetra_j = T.Points(triBis(j, :), :);
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% if size(unique([tetra_i; tetra_j], 'rows'), 1) < 6
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% for ki = 1:4
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% tri_ki = sort(triBis(i,[1:ki - 1 ki + 1:4]));
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% for kj = 1:4
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% tri_kj = sort(triBis(j,[1:kj - 1 kj + 1:4]));
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% if tri_ki == tri_kj
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% nope = [nope; i ki; j kj];
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% end
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% end
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% end
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% end
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% end
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% i
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% size(nope)
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% end
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FACES = [triBis(:, [2 3 4]); triBis(:, [1 3 4]); triBis(:, [1 2 4]); triBis(:, [1 2 3])];
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FACES = sortrows(FACES);
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FACESFACES(1:end-1, :) == FACES(2:end, :)
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fprintf('Calcul du maillage final termine : %d faces. \n',size(FACES,1));
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% Affichage du maillage final
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figure;
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hold on
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for i = 1:size(FACES,1)
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plot3([X(1,FACES(i,1)) X(1,FACES(i,2))],[X(2,FACES(i,1)) X(2,FACES(i,2))],[X(3,FACES(i,1)) X(3,FACES(i,2))],'r');
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plot3([X(1,FACES(i,1)) X(1,FACES(i,3))],[X(2,FACES(i,1)) X(2,FACES(i,3))],[X(3,FACES(i,1)) X(3,FACES(i,3))],'r');
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plot3([X(1,FACES(i,3)) X(1,FACES(i,2))],[X(2,FACES(i,3)) X(2,FACES(i,2))],[X(3,FACES(i,3)) X(3,FACES(i,2))],'r');
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end;
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