/* tsplib.h */ /* Written by Andrew Makhorin , October 2015. */ #ifndef TSPLIB_H #define TSPLIB_H typedef struct TSP TSP; struct TSP { /* TSP (or related problem) instance in the format described in * [G.Reinelt, TSPLIB 95] */ /*--------------------------------------------------------------*/ /* specification part */ char *name; /* identifies the data file */ int type; /* specifies the type of data: */ #define TSP_UNDEF 0 /* undefined */ #define TSP_TSP 1 /* symmetric TSP */ #define TSP_ATSP 2 /* asymmetric TSP */ #define TSP_TOUR 3 /* collection of tours */ char *comment; /* additional comments (usually the name of the contributor or * creator of the problem instance is given here) */ int dimension; /* for a TSP or ATSP, the dimension is the number of its nodes * for a TOUR it is the dimension of the corresponding problem */ int edge_weight_type; /* specifies how the edge weights (or distances) are given: */ #define TSP_UNDEF 0 /* undefined */ #define TSP_EXPLICIT 1 /* listed explicitly */ #define TSP_EUC_2D 2 /* Eucl. distances in 2-D */ #define TSP_CEIL_2D 3 /* Eucl. distances in 2-D rounded up */ #define TSP_GEO 4 /* geographical distances */ #define TSP_ATT 5 /* special distance function */ int edge_weight_format; /* describes the format of the edge weights if they are given * explicitly: */ #define TSP_UNDEF 0 /* undefined */ #define TSP_FUNCTION 1 /* given by a function */ #define TSP_FULL_MATRIX 2 /* given by a full matrix */ #define TSP_UPPER_ROW 3 /* upper triangulat matrix (row-wise * without diagonal entries) */ #define TSP_LOWER_DIAG_ROW 4 /* lower triangular matrix (row-wise * including diagonal entries) */ int display_data_type; /* specifies how a graphical display of the nodes can be * obtained: */ #define TSP_UNDEF 0 /* undefined */ #define TSP_COORD_DISPLAY 1 /* display is generated from the node * coordinates */ #define TSP_TWOD_DISPLAY 2 /* explicit coordinates in 2-D are * given */ /*--------------------------------------------------------------*/ /* data part */ /* NODE_COORD_SECTION: */ double *node_x_coord; /* double node_x_coord[1+dimension]; */ double *node_y_coord; /* double node_y_coord[1+dimension]; */ /* DISPLAY_DATA_SECTION: */ double *dply_x_coord; /* double dply_x_coord[1+dimension]; */ double *dply_y_coord; /* double dply_y_coord[1+dimension]; */ /* TOUR_SECTION: */ int *tour; /* int tour[1+dimension]; */ /* EDGE_WEIGHT_SECTION: */ int *edge_weight; /* int edge_weight[1+dimension*dimension]; */ }; TSP *tsp_read_data(const char *fname); /* read TSP instance data */ int tsp_distance(const TSP *tsp, int i, int j); /* compute distance between two nodes */ void tsp_free_data(TSP *tsp); /* free TSP instance data */ #endif /* eof */