- switch( aType ) {
- case SMDSAbs_Volume:
- if( len == 4 ) { // tetras
- double L1 = getDistance(P( 1 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 1 ));
- double L4 = getDistance(P( 1 ),P( 4 ));
- double L5 = getDistance(P( 2 ),P( 4 ));
- double L6 = getDistance(P( 3 ),P( 4 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- break;
- }
- else if( len == 5 ) { // pyramids
- double L1 = getDistance(P( 1 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 4 ));
- double L4 = getDistance(P( 4 ),P( 1 ));
- double L5 = getDistance(P( 1 ),P( 5 ));
- double L6 = getDistance(P( 2 ),P( 5 ));
- double L7 = getDistance(P( 3 ),P( 5 ));
- double L8 = getDistance(P( 4 ),P( 5 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(L7,L8));
- break;
- }
- else if( len == 6 ) { // pentas
- double L1 = getDistance(P( 1 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 1 ));
- double L4 = getDistance(P( 4 ),P( 5 ));
- double L5 = getDistance(P( 5 ),P( 6 ));
- double L6 = getDistance(P( 6 ),P( 4 ));
- double L7 = getDistance(P( 1 ),P( 4 ));
- double L8 = getDistance(P( 2 ),P( 5 ));
- double L9 = getDistance(P( 3 ),P( 6 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(Max(L7,L8),L9));
- break;
- }
- else if( len == 8 ) { // hexas
- double L1 = getDistance(P( 1 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 4 ));
- double L4 = getDistance(P( 4 ),P( 1 ));
- double L5 = getDistance(P( 5 ),P( 6 ));
- double L6 = getDistance(P( 6 ),P( 7 ));
- double L7 = getDistance(P( 7 ),P( 8 ));
- double L8 = getDistance(P( 8 ),P( 5 ));
- double L9 = getDistance(P( 1 ),P( 5 ));
- double L10= getDistance(P( 2 ),P( 6 ));
- double L11= getDistance(P( 3 ),P( 7 ));
- double L12= getDistance(P( 4 ),P( 8 ));
- double D1 = getDistance(P( 1 ),P( 7 ));
- double D2 = getDistance(P( 2 ),P( 8 ));
- double D3 = getDistance(P( 3 ),P( 5 ));
- double D4 = getDistance(P( 4 ),P( 6 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(Max(L7,L8),Max(L9,L10)));
- aVal = Max(aVal,Max(L11,L12));
- aVal = Max(aVal,Max(Max(D1,D2),Max(D3,D4)));
- break;
- }
- else if( len == 12 ) { // hexagonal prism
- for ( int i1 = 1; i1 < 12; ++i1 )
- for ( int i2 = i1+1; i1 <= 12; ++i1 )
- aVal = Max( aVal, getDistance(P( i1 ),P( i2 )));
- break;
- }
- else if( len == 10 ) { // quadratic tetras
- double L1 = getDistance(P( 1 ),P( 5 )) + getDistance(P( 5 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 6 )) + getDistance(P( 6 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 7 )) + getDistance(P( 7 ),P( 1 ));
- double L4 = getDistance(P( 1 ),P( 8 )) + getDistance(P( 8 ),P( 4 ));
- double L5 = getDistance(P( 2 ),P( 9 )) + getDistance(P( 9 ),P( 4 ));
- double L6 = getDistance(P( 3 ),P( 10 )) + getDistance(P( 10 ),P( 4 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- break;
- }
- else if( len == 13 ) { // quadratic pyramids
- double L1 = getDistance(P( 1 ),P( 6 )) + getDistance(P( 6 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 7 )) + getDistance(P( 7 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 8 )) + getDistance(P( 8 ),P( 4 ));
- double L4 = getDistance(P( 4 ),P( 9 )) + getDistance(P( 9 ),P( 1 ));
- double L5 = getDistance(P( 1 ),P( 10 )) + getDistance(P( 10 ),P( 5 ));
- double L6 = getDistance(P( 2 ),P( 11 )) + getDistance(P( 11 ),P( 5 ));
- double L7 = getDistance(P( 3 ),P( 12 )) + getDistance(P( 12 ),P( 5 ));
- double L8 = getDistance(P( 4 ),P( 13 )) + getDistance(P( 13 ),P( 5 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(L7,L8));
- break;
- }
- else if( len == 15 ) { // quadratic pentas
- double L1 = getDistance(P( 1 ),P( 7 )) + getDistance(P( 7 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 8 )) + getDistance(P( 8 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 9 )) + getDistance(P( 9 ),P( 1 ));
- double L4 = getDistance(P( 4 ),P( 10 )) + getDistance(P( 10 ),P( 5 ));
- double L5 = getDistance(P( 5 ),P( 11 )) + getDistance(P( 11 ),P( 6 ));
- double L6 = getDistance(P( 6 ),P( 12 )) + getDistance(P( 12 ),P( 4 ));
- double L7 = getDistance(P( 1 ),P( 13 )) + getDistance(P( 13 ),P( 4 ));
- double L8 = getDistance(P( 2 ),P( 14 )) + getDistance(P( 14 ),P( 5 ));
- double L9 = getDistance(P( 3 ),P( 15 )) + getDistance(P( 15 ),P( 6 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(Max(L7,L8),L9));
- break;
- }
- else if( len == 20 || len == 27 ) { // quadratic hexas
- double L1 = getDistance(P( 1 ),P( 9 )) + getDistance(P( 9 ),P( 2 ));
- double L2 = getDistance(P( 2 ),P( 10 )) + getDistance(P( 10 ),P( 3 ));
- double L3 = getDistance(P( 3 ),P( 11 )) + getDistance(P( 11 ),P( 4 ));
- double L4 = getDistance(P( 4 ),P( 12 )) + getDistance(P( 12 ),P( 1 ));
- double L5 = getDistance(P( 5 ),P( 13 )) + getDistance(P( 13 ),P( 6 ));
- double L6 = getDistance(P( 6 ),P( 14 )) + getDistance(P( 14 ),P( 7 ));
- double L7 = getDistance(P( 7 ),P( 15 )) + getDistance(P( 15 ),P( 8 ));
- double L8 = getDistance(P( 8 ),P( 16 )) + getDistance(P( 16 ),P( 5 ));
- double L9 = getDistance(P( 1 ),P( 17 )) + getDistance(P( 17 ),P( 5 ));
- double L10= getDistance(P( 2 ),P( 18 )) + getDistance(P( 18 ),P( 6 ));
- double L11= getDistance(P( 3 ),P( 19 )) + getDistance(P( 19 ),P( 7 ));
- double L12= getDistance(P( 4 ),P( 20 )) + getDistance(P( 20 ),P( 8 ));
- double D1 = getDistance(P( 1 ),P( 7 ));
- double D2 = getDistance(P( 2 ),P( 8 ));
- double D3 = getDistance(P( 3 ),P( 5 ));
- double D4 = getDistance(P( 4 ),P( 6 ));
- aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
- aVal = Max(aVal,Max(Max(L7,L8),Max(L9,L10)));
- aVal = Max(aVal,Max(L11,L12));
- aVal = Max(aVal,Max(Max(D1,D2),Max(D3,D4)));
- break;
- }
- else if( len > 1 && aElem->IsPoly() ) { // polys
- // get the maximum distance between all pairs of nodes
- for( int i = 1; i <= len; i++ ) {
- for( int j = 1; j <= len; j++ ) {
- if( j > i ) { // optimization of the loop
- double D = getDistance( P(i), P(j) );
- aVal = Max( aVal, D );
- }
+ switch ( aType ) {
+ case SMDSEntity_Tetra: { // tetras
+ double L1 = getDistance(P( 1 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 1 ));
+ double L4 = getDistance(P( 1 ),P( 4 ));
+ double L5 = getDistance(P( 2 ),P( 4 ));
+ double L6 = getDistance(P( 3 ),P( 4 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ break;
+ }
+ case SMDSEntity_Pyramid: { // pyramids
+ double L1 = getDistance(P( 1 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 4 ));
+ double L4 = getDistance(P( 4 ),P( 1 ));
+ double L5 = getDistance(P( 1 ),P( 5 ));
+ double L6 = getDistance(P( 2 ),P( 5 ));
+ double L7 = getDistance(P( 3 ),P( 5 ));
+ double L8 = getDistance(P( 4 ),P( 5 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(L7,L8));
+ break;
+ }
+ case SMDSEntity_Penta: { // pentas
+ double L1 = getDistance(P( 1 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 1 ));
+ double L4 = getDistance(P( 4 ),P( 5 ));
+ double L5 = getDistance(P( 5 ),P( 6 ));
+ double L6 = getDistance(P( 6 ),P( 4 ));
+ double L7 = getDistance(P( 1 ),P( 4 ));
+ double L8 = getDistance(P( 2 ),P( 5 ));
+ double L9 = getDistance(P( 3 ),P( 6 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(Max(L7,L8),L9));
+ break;
+ }
+ case SMDSEntity_Hexa: { // hexas
+ double L1 = getDistance(P( 1 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 4 ));
+ double L4 = getDistance(P( 4 ),P( 1 ));
+ double L5 = getDistance(P( 5 ),P( 6 ));
+ double L6 = getDistance(P( 6 ),P( 7 ));
+ double L7 = getDistance(P( 7 ),P( 8 ));
+ double L8 = getDistance(P( 8 ),P( 5 ));
+ double L9 = getDistance(P( 1 ),P( 5 ));
+ double L10= getDistance(P( 2 ),P( 6 ));
+ double L11= getDistance(P( 3 ),P( 7 ));
+ double L12= getDistance(P( 4 ),P( 8 ));
+ double D1 = getDistance(P( 1 ),P( 7 ));
+ double D2 = getDistance(P( 2 ),P( 8 ));
+ double D3 = getDistance(P( 3 ),P( 5 ));
+ double D4 = getDistance(P( 4 ),P( 6 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(Max(L7,L8),Max(L9,L10)));
+ aVal = Max(aVal,Max(L11,L12));
+ aVal = Max(aVal,Max(Max(D1,D2),Max(D3,D4)));
+ break;
+ }
+ case SMDSEntity_Hexagonal_Prism: { // hexagonal prism
+ for ( int i1 = 1; i1 < 12; ++i1 )
+ for ( int i2 = i1+1; i1 <= 12; ++i1 )
+ aVal = Max( aVal, getDistance(P( i1 ),P( i2 )));
+ break;
+ }
+ case SMDSEntity_Quad_Tetra: { // quadratic tetras
+ double L1 = getDistance(P( 1 ),P( 5 )) + getDistance(P( 5 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 6 )) + getDistance(P( 6 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 7 )) + getDistance(P( 7 ),P( 1 ));
+ double L4 = getDistance(P( 1 ),P( 8 )) + getDistance(P( 8 ),P( 4 ));
+ double L5 = getDistance(P( 2 ),P( 9 )) + getDistance(P( 9 ),P( 4 ));
+ double L6 = getDistance(P( 3 ),P( 10 )) + getDistance(P( 10 ),P( 4 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ break;
+ }
+ case SMDSEntity_Quad_Pyramid: { // quadratic pyramids
+ double L1 = getDistance(P( 1 ),P( 6 )) + getDistance(P( 6 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 7 )) + getDistance(P( 7 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 8 )) + getDistance(P( 8 ),P( 4 ));
+ double L4 = getDistance(P( 4 ),P( 9 )) + getDistance(P( 9 ),P( 1 ));
+ double L5 = getDistance(P( 1 ),P( 10 )) + getDistance(P( 10 ),P( 5 ));
+ double L6 = getDistance(P( 2 ),P( 11 )) + getDistance(P( 11 ),P( 5 ));
+ double L7 = getDistance(P( 3 ),P( 12 )) + getDistance(P( 12 ),P( 5 ));
+ double L8 = getDistance(P( 4 ),P( 13 )) + getDistance(P( 13 ),P( 5 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(L7,L8));
+ break;
+ }
+ case SMDSEntity_Quad_Penta:
+ case SMDSEntity_BiQuad_Penta: { // quadratic pentas
+ double L1 = getDistance(P( 1 ),P( 7 )) + getDistance(P( 7 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 8 )) + getDistance(P( 8 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 9 )) + getDistance(P( 9 ),P( 1 ));
+ double L4 = getDistance(P( 4 ),P( 10 )) + getDistance(P( 10 ),P( 5 ));
+ double L5 = getDistance(P( 5 ),P( 11 )) + getDistance(P( 11 ),P( 6 ));
+ double L6 = getDistance(P( 6 ),P( 12 )) + getDistance(P( 12 ),P( 4 ));
+ double L7 = getDistance(P( 1 ),P( 13 )) + getDistance(P( 13 ),P( 4 ));
+ double L8 = getDistance(P( 2 ),P( 14 )) + getDistance(P( 14 ),P( 5 ));
+ double L9 = getDistance(P( 3 ),P( 15 )) + getDistance(P( 15 ),P( 6 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(Max(L7,L8),L9));
+ break;
+ }
+ case SMDSEntity_Quad_Hexa:
+ case SMDSEntity_TriQuad_Hexa: { // quadratic hexas
+ double L1 = getDistance(P( 1 ),P( 9 )) + getDistance(P( 9 ),P( 2 ));
+ double L2 = getDistance(P( 2 ),P( 10 )) + getDistance(P( 10 ),P( 3 ));
+ double L3 = getDistance(P( 3 ),P( 11 )) + getDistance(P( 11 ),P( 4 ));
+ double L4 = getDistance(P( 4 ),P( 12 )) + getDistance(P( 12 ),P( 1 ));
+ double L5 = getDistance(P( 5 ),P( 13 )) + getDistance(P( 13 ),P( 6 ));
+ double L6 = getDistance(P( 6 ),P( 14 )) + getDistance(P( 14 ),P( 7 ));
+ double L7 = getDistance(P( 7 ),P( 15 )) + getDistance(P( 15 ),P( 8 ));
+ double L8 = getDistance(P( 8 ),P( 16 )) + getDistance(P( 16 ),P( 5 ));
+ double L9 = getDistance(P( 1 ),P( 17 )) + getDistance(P( 17 ),P( 5 ));
+ double L10= getDistance(P( 2 ),P( 18 )) + getDistance(P( 18 ),P( 6 ));
+ double L11= getDistance(P( 3 ),P( 19 )) + getDistance(P( 19 ),P( 7 ));
+ double L12= getDistance(P( 4 ),P( 20 )) + getDistance(P( 20 ),P( 8 ));
+ double D1 = getDistance(P( 1 ),P( 7 ));
+ double D2 = getDistance(P( 2 ),P( 8 ));
+ double D3 = getDistance(P( 3 ),P( 5 ));
+ double D4 = getDistance(P( 4 ),P( 6 ));
+ aVal = Max(Max(Max(L1,L2),Max(L3,L4)),Max(L5,L6));
+ aVal = Max(aVal,Max(Max(L7,L8),Max(L9,L10)));
+ aVal = Max(aVal,Max(L11,L12));
+ aVal = Max(aVal,Max(Max(D1,D2),Max(D3,D4)));
+ break;
+ }
+ case SMDSEntity_Quad_Polyhedra:
+ case SMDSEntity_Polyhedra: { // polys
+ // get the maximum distance between all pairs of nodes
+ for( int i = 1; i <= len; i++ ) {
+ for( int j = 1; j <= len; j++ ) {
+ if( j > i ) { // optimization of the loop
+ double D = getDistance( P(i), P(j) );
+ aVal = Max( aVal, D );