/*! the shear and size of a quad product of shear and relative size */ C_FUNC_DEF VERDICT_REAL v_quad_shear_and_size( int num_nodes, VERDICT_REAL coordinates[][3] ) { double shear, size; shear = v_quad_shear( num_nodes, coordinates ); size = v_quad_relative_size_squared( num_nodes, coordinates ); double shear_and_size = shear * size; if( shear_and_size > 0 ) return (VERDICT_REAL) VERDICT_MIN( shear_and_size, VERDICT_DBL_MAX ); return (VERDICT_REAL) VERDICT_MAX( shear_and_size, -VERDICT_DBL_MAX ); }
double avtVMetricRelativeSize::Metric (double coords[][3], int type) { #ifdef HAVE_VERDICT switch (type) { case VTK_HEXAHEDRON: case VTK_VOXEL: return v_hex_relative_size_squared(8, coords); case VTK_TETRA: return v_tet_relative_size_squared(4,coords); case VTK_QUAD: return v_quad_relative_size_squared(4, coords); case VTK_TRIANGLE: return v_tri_relative_size_squared(3, coords); } #endif return -1; }