684 std::string ndist("disc"); |
684 std::string ndist("disc"); |
685 ap.refOption("n", "Number of nodes (default is 100)", N) |
685 ap.refOption("n", "Number of nodes (default is 100)", N) |
686 .intOption("g", "Girth parameter (default is 10)", 10) |
686 .intOption("g", "Girth parameter (default is 10)", 10) |
687 .refOption("cities", "Number of cities (default is 1)", num_of_cities) |
687 .refOption("cities", "Number of cities (default is 1)", num_of_cities) |
688 .refOption("area", "Full relative area of the cities (default is 1)", area) |
688 .refOption("area", "Full relative area of the cities (default is 1)", area) |
689 .refOption("disc", "Nodes are evenly distributed on a unit disc (default)",disc_d) |
689 .refOption("disc", "Nodes are evenly distributed on a unit disc (default)", |
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690 disc_d) |
690 .optionGroup("dist", "disc") |
691 .optionGroup("dist", "disc") |
691 .refOption("square", "Nodes are evenly distributed on a unit square", square_d) |
692 .refOption("square", "Nodes are evenly distributed on a unit square", |
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693 square_d) |
692 .optionGroup("dist", "square") |
694 .optionGroup("dist", "square") |
693 .refOption("gauss", |
695 .refOption("gauss", "Nodes are located according to a two-dim Gauss " |
694 "Nodes are located according to a two-dim gauss distribution", |
696 "distribution", gauss_d) |
695 gauss_d) |
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696 .optionGroup("dist", "gauss") |
697 .optionGroup("dist", "gauss") |
697 // .mandatoryGroup("dist") |
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698 .onlyOneGroup("dist") |
698 .onlyOneGroup("dist") |
699 .boolOption("eps", "Also generate .eps output (prefix.eps)") |
699 .boolOption("eps", "Also generate .eps output (<prefix>.eps)") |
700 .boolOption("nonodes", "Draw the edges only in the generated .eps") |
700 .boolOption("nonodes", "Draw only the edges in the generated .eps output") |
701 .boolOption("dir", "Directed digraph is generated (each arcs are replaced by two directed ones)") |
701 .boolOption("dir", "Directed graph is generated (each edge is replaced by " |
702 .boolOption("2con", "Create a two connected planar digraph") |
702 "two directed arcs)") |
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703 .boolOption("2con", "Create a two connected planar graph") |
703 .optionGroup("alg","2con") |
704 .optionGroup("alg","2con") |
704 .boolOption("tree", "Create a min. cost spanning tree") |
705 .boolOption("tree", "Create a min. cost spanning tree") |
705 .optionGroup("alg","tree") |
706 .optionGroup("alg","tree") |
706 .boolOption("tsp", "Create a TSP tour") |
707 .boolOption("tsp", "Create a TSP tour") |
707 .optionGroup("alg","tsp") |
708 .optionGroup("alg","tsp") |
708 .boolOption("tsp2", "Create a TSP tour (tree based)") |
709 .boolOption("tsp2", "Create a TSP tour (tree based)") |
709 .optionGroup("alg","tsp2") |
710 .optionGroup("alg","tsp2") |
710 .boolOption("dela", "Delaunay triangulation digraph") |
711 .boolOption("dela", "Delaunay triangulation graph") |
711 .optionGroup("alg","dela") |
712 .optionGroup("alg","dela") |
712 .onlyOneGroup("alg") |
713 .onlyOneGroup("alg") |
713 .boolOption("rand", "Use time seed for random number generator") |
714 .boolOption("rand", "Use time seed for random number generator") |
714 .optionGroup("rand", "rand") |
715 .optionGroup("rand", "rand") |
715 .intOption("seed", "Random seed", -1) |
716 .intOption("seed", "Random seed", -1) |