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I make the question clearly in this question. I have a graph like this:

a <-> b -> e -> f
|          |
v          v
h <------- g 
|          |
v          v  
u          k  

There depend relation describe in the list entries

let entries = [
  ("a", ["b"; "h"]);
  ("b", ["a"; "e"]);
  ("e", ["f"; "g"]);
  ("g", ["h"; "k"]);
  ("h", ["u"]);

I extracted a list defined and undefined, the result like this:

let defined = ["a"; "b"; "e"; "g"; "h"; "u"]
let undefined = ["f"; "k"]

After computed I got a new list with their ordered:

let ordered = [["u"];["h"]; ["k"]; ["g"]; ["f"]; ["e"]; ["b"; "a"]]

I want to write a function that print the output of ordered in such conditions like this:

1) I want to have a function that will generate a new list in the list ordered if the element in undefined appear it'll remove it. I'm expecting a newordered like this:

newordered = [["u"]; ["h"]; ["g"]; ["e"]; ["b"; "a"]]

2) I want to print their depends with this conditions:

when it is just one type depend, it will print :

Definition name := type depend.

when it is a equivalance (a <-> b), it will print :

Inductive name1 := type depend 1
with name2 := type depend 2.

when it is a list of type depends, it will print:

Inductive name := type depend.

When it see the type in undefined list, and when it has not depend type, it will print:

Definition name := name. 

and with the order of of the order in the newordered list

The output I'm expecting like this:

Definition k := k.
Definition f := f.
Definition u := u.
Definition h := u.
Inductive g := h -> k.
Inductive e := f -> g.
Inductive b := a -> e
with a := b -> h.

I write these functions, first I print all the elements in undefined list:

let print_undfined =
List.iter (fun name -> Printf.printf "\nDefinition %s := %s." name name;
      print_string "\n")undefined

I have a function that print the right - hand side of the entries list:

let defn_of =
  List.iter (fun (_, xs) -> 
    List.iter (fun t -> Printf.printf "%s" t) xs)

I have another function that remove the duplicate in the ordered list with undefined list

let rec uniquify = function
| [] -> []
| x::xs -> x :: uniquify (List.filter ((<>) x) xs)

let new_sort = uniquify (undefined @ List.flatten ordered)

But this list is string list and it added the undefined list int the font. So if I print my last function it will duplicate undefined if I choose to print all the element in undefined first. And I don't want that.

And I am not figure how I can write the last function with print for me the output I want at the end.

share|improve this question
up vote 1 down vote accepted

First, I correct defn_of function to return string representation of relations of a label by looking up entries:

let defn_of label =
       let (_, xs) = List.find (fun (l, ys) -> l = label) entries in
       String.concat "->" xs
        Not_found -> ""

Second, what you returned in new_sort (which supposed to be newordered) is plainly wrong. What you really wanted is filtering out all lists with one element occuring in undefined:

let newordered = List.filter (function [x] -> List.for_all((<>) x) undefined
                                       | _ -> true) ordered

As usual, printing functions are based on functions in Printf module and String.concat. There are two cases in your printing task:

Case 1: for all labels in undefined, use your print_undfined function above.

Case 2: for any list xs in newordered, if xs has only one element, that means no equivalence class exists. If xs has at least two elements, equivalence classes should be printed:

let print_defined_equivalence xs = 
    match xs with
    | [] -> ()
    | [x] -> Printf.printf "\nInductive %s := %s." x (defn_of x)
    | _ ->
        let ys = String.concat "\nwith" 
                  ( (fun x -> 
                     Printf.sprintf "%s := %s" x (defn_of x)) 
                        xs) in
        Printf.printf "\nInductive %s." ys

As a side note, I chose to handle empty list as an element of newordered although it didn't occur in your test case. Another thing is entries is traversed many times to look up elements, it should be changed to Map datatype, especially when entries is big.

Given the fact that I have stated clearly a condition for each case, your should be able to plug these functions into your program.

share|improve this answer
Thanks for your help! Honestly, I am struggling with the function to show that it is an equivalence classes or not. – Quyen Jan 13 '12 at 10:00
Are you struggling with using newordered or creating newordered? Because two labels in a same list in newordered are equivalence classes. – pad Jan 13 '12 at 10:05
both! function 'new_sort' above is what I write for 'newordered', but I don't want it added type of undefined list in this new list. I just know to call when it is in equivalence classes, but how about when it has 1 element? I mean the condition that check it can call when it has 1 element, and when it is an equivalence classes. This is the function I call, let print = List.iter (fun eqvclass -> print_defined_equivalence eqvclass) new_sort – Quyen Jan 13 '12 at 10:33
Your new_sort is wrong. I have updated my answer to correct it. Your printing on new_sort should be fine now. – pad Jan 13 '12 at 10:58

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