I have a graph:
a <-> b c <-> d
I define as a pair (string, string list)
let defined = ["a"; "b"; "c"; "d"] let entries = [("a", ["b"]);("b", ["a"]); ("c", ["d"]); ("d", ["c"])]
I build a boolean matrix to represent the relationship of this graph. where true mean they have connection, false mean they are not.
let matrix = [| [|false; true; false; false |]; [|true; false; false; false |]; [|false; false; false; true |]; [|false; false; true; false |]; |]
then I write a function that compute equivalence class
let eq_class m i = let column = m.(i) and set = ref  in Array.iteri begin fun j _ -> if j = i || column.(j) && m.(j).(i) then set := j :: !set end column; !set;;
(* this function returns all the equivalence classes as a list of lists, each equivalence class being an individual list *)
let eq_classes m = let classes = ref  in Array.iteri begin fun e _ -> if not (List.exists (List.mem e) !classes) then classes := eq_class m e :: !classes end m; !classes;;
then I write a compare function
(* computing transitive closure of the matrix *) let transClosure m = let n = Array.length m in for k = 0 to n - 1 do let mk = m.(k) in for i = 0 to n - 1 do let mi = m.(i) in for j = 0 to n - 1 do mi.(j) <- max mi.(j) (min mi.(k) mk.(j)) done; done; done; m;; (* change connection in boolean matrix: if in the case (false, false) -> (true, false) *) let rec linearize m = let b = ref true and n = Array.length m in for i = 0 to n - 1 do let mi = m.(i) in for j = 0 to n - 1 do if not (mi.(j) || m.(j).(i)) then (mi.(j) <- true; b := false) done; done; if !b then m else linearize (transClosure m) let cmp_classes_int m i j = match m.(i).(j), m.(j).(i) with (* same class: there is a path between i and j, and between j and i *) | true, true -> 0 (* there is a path between i and j *) | true, false -> 1 (* there is a path between j and i *) | false, true -> -1 (* i and j are not compareable *) | false, false -> assert false let sort_eq_classes_int m = List.sort (cmp_classes_int m);; let eq = eq_classes matrix;; let name_of_num xs k = List.nth xs k;; let string_of_int = List.map(List.map (name_of_num defined));; let sort_eq_int = sort_eq_classes_int matrix (List.flatten eq);; let sort_eq_string = string_of_int [sort_eq_int];;
I write a print function:
let def_entries label = try let (_, xs) = List.find (fun (l, ys) -> l = label) entries in String.concat "->" xs with Not_found -> "";; let print_defined_equivalence xs = match xs with |  -> () | _ -> let ys = String.concat "\nwith " (List.map (fun x -> Printf.sprintf "%s := %s" x (def_entries x)) xs) in Printf.printf "\nInductive %s." ys let print = List.iter (fun eqvclass -> print_defined_equivalence eqvclass) sort_eq_string
I get the output:
Inductive d := c with c := d with b := a with a := b.
Here is what I want: I want to write a new printing function, where if it is as a same equivalence class they will print for example:
Inductive d := c with c := d. Inductive b := a with a := b.
Thank you very much for your help.