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Returns the value. double hex_aspect( int num_nodes, double coordinates[][3] ); double hex_skew( int num_nodes, double coordinates[][3] ); double hex_taper( int num_nodes, double coordinates[][3] ); double hex_volume( int num_nodes, double coordinates[][3] ); double hex_stretch( int num_nodes, double coordinates[][3] ); double hex_diagonal( int num_nodes, double coordinates[][3] ); double hex_dimension( int num_nodes, double coordinates[][3] ); double hex_oddy( int num_nodes, double coordinates[][3] ); double hex_condition( int num_nodes, double coordinates[][3] ); double hex_jacobian( int num_nodes, double coordinates[][3] ); double hex_scaled_jacobian( int num_nodes, double coordinates[][3] ); double hex_shear( int num_nodes, double coordinates[][3] ); double hex_shape( int num_nodes, double coordinates[][3] ); double hex_relative_size( int num_nodes, double coordinates[][3] ); double hex_shape_and_size( int num_nodes, double coordinates[][3] ); double tet_aspect( int num_nodes, double coordinates[][3] ); double tet_aspect_gamma( int num_nodes, double coordinates[][3] ); double tet_volume( int num_nodes, double coordinates[][3] ); double tet_condition( int num_nodes, double coordinates[][3] ); double tet_jacobian( int num_nodes, double coordinates[][3] ); double tet_scaled_jacobian( int num_nodes, double coordinates[][3] ); double tet_shear( int num_nodes, double coordinates[][3] ); double tet_shape( int num_nodes, double coordinates[][3] ); double tet_relative_size( int num_nodes, double coordinates[][3] ); double tet_shape_and_size( int num_nodes, double coordinates[][3] ); double pyramid_volume( int num_nodes, double coordinates[][3] ); double wedge_volume( int num_nodes, double coordinates[][3] ); double knife_volume( int num_nodes, double coordinates[][3] ); double edge_length( int num_nodes, double coordinates[][3] ); double quad_aspect( int num_num_nodes, double coordinates[][3] ); double quad_skew( int num_nodes, double coordinates[][3] ); double quad_taper( int num_nodes, double coordinates[][3] ); double quad_warpage( int num_nodes, double coordinates[][3] ); double quad_area( int num_nodes, double coordinates[][3] ); double quad_stretch( int num_nodes, double coordinates[][3] ); double quad_smallest_angle( int num_nodes, double coordinates[][3] ); double quad_largest_angle( int num_nodes, double coordinates[][3] ); double quad_oddy( int num_nodes, double coordinates[][3] ); double quad_condition( int num_nodes, double coordinates[][3] ); double quad_jacobian( int num_nodes, double coordinates[][3] ); double quad_normalized_jacobian( int num_nodes, double coordinates[][3] ); double quad_shear( int num_nodes, double coordinates[][3] ); double quad_shape( int num_nodes, double coordinates[][3] ); double quad_relative_size( int num_nodes, double coordinates[][3] ); double quad_shape_and_size( int num_nodes, double coordinates[][3] ); double tri_aspect( int num_nodes, double coordinates[][3] ); double tri_area( int num_nodes, double coordinates[][3] ); double tri_smallest_angle( int num_nodes, double coordinates[][3] ); double tri_largest_angle( int num_nodes, double coordinates[][3] ); double tri_condition( int num_nodes, double coordinates[][3] ); double tri_normalized_jacobian( int num_nodes, double coordinates[][3] ); double tri_shear( int num_nodes, double coordinates[][3] ); double tri_shape( int num_nodes, double coordinates[][3] ); double tri_relative_size( int num_nodes, double coordinates[][3] ); double tri_shape_and_size( int num_nodes, double coordinates[][3] ); Definitions of types Definition of metric_request_flags for each type of element: HEX_ASPECT, HEX_SKEW, HEX_STRETCH, HEX_TAPER, HEX_VOLUME, HEX_DIAGONAL, HEX_DIMENSION, HEX_ODDY, HEX_CONDITION, HEX_JACOBIAN, HEX_SCALED_JACOBIAN, HEX_SHEAR, HEX_SHAPE, HEX_RELATIVE_SIZE, HEX_SHAPE_AND_SIZE, HEX_ALL, HEX_TRADITIONAL, HEX_ROBINSON, HEX_ALGEBRAIC TET_ASPECT, TET_ASPECT_GAMMA, TET_VOLUME, TET_CONDITION, TET_JACOBIAN, TET_SCALED_JACOBIAN, TET_SHEAR, TET_SHAPE, TET_RELATIVE_SIZE, TET_SHAPE_AND_SIZE, TET_ALL, TET_TRADITIONAL, TET_ROBINSON, TET_ALGEBRAIC PYRAMID_VOLUME WEDGE_VOLUME KNIFE_VOLUME QUAD_ASPECT, QUAD_SKEW, QUAD_TAPER, QUAD_WARPAGE, QUAD_AREA, QUAD_STRETCH, QUAD_SMALLEST_ANGLE, QUAD_LARGEST_ANGLE, QUAD_ODDY, QUAD_CONDITION, QUAD_JACOBIAN, QUAD_NORMALIZED_JACOBIAN, QUAD_SHEAR, QUAD_SHAPE, QUAD_RELATIVE_SIZE, QUAD_SHAPE_AND_SIZE, QUAD_ALL, QUAD_TRADITIONAL, QUAD_ROBINSON, QUAD_ALGEBRAIC TRI_ASPECT, TRI_AREA, TRI_SMALLEST_ANGLE, TRI_LARGEST_ANGLE, TRI_CONDITION, TRI_NORMALIZED_JACOBIAN, TRI_SHEAR, TRI_SHAPE, TRI_RELATIVE_SIZE, TRI_SHAPE_AND_SIZE, TRI_ALL, TRI_TRADITIONAL, TRI_ROBINSON, TRI_ALGEBRAIC EDGE_LENGTH Definition of structs for holding all the metrics results struct hex_metrics { double aspect ; double condition ; double diagonal ; double dimension ; double distortion ; double jacobian ; double oddy ; double relative_size ; double scaled_jacobian ; double shape ; double shape_and_size ; double shear ; double shear_and_size ; double skew ; double stretch ; double taper ; double volume ; } struct edge_metrics { double length ; } struct knife_metrics { double volume ; } struct quad_metrics { double aspect ; double area ; double condition ; double distortion ; double jacobian ; double largest_angle ; double oddy ; double relative_size ; double scaled_jacobian ; double skew ; double smallest_angle ; double shape ; double shape_and_size ; double shear ; double shear_and_size ; double stretch ; double taper ; double warpage ; } struct pyramid_metrics { double volume ; } struct wedge_metrics { double volume ; } struct tet_metrics { double aspect ; double aspect_gamma ; double condition ; double distortion ; double jacobian ; double relative_size ; double scaled_jacobian ; double shape ; 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