Fixed eta_compare in the case Lam vs. Bot

[fireball-separation.git] / ocaml / sat.ml

(*\r
 Reductions from SAT and 3-colorability of graphs to separation\r
 of lambda-terms. Commented out the encoding from SAT.\r
*)\r
\r
open Util;;\r
\r
(* type cnf = int list list;;\r
\r
let (++) f g x = f (g x);;\r
\r
let maxvar : cnf -> int =\r
 let aux f = List.fold_left (fun acc x -> max acc (f x)) 0 in\r
 aux (aux abs)\r
;; *)\r
\r
type graph = (int * int) list;;\r
type color = int;;\r
\r
let arc x y = min x y, max x y;;\r
let mem g x y = List.mem (arc x y) g;;\r
\r
(* let reduction_sat_3col p =\r
 let triangle a0 a1 a2 = [arc a0 a1; arc a0 a2; arc a1 a2] in\r
 let init0 = triangle 0 1 2 in\r
 (* 0false; 1true; 2base*)\r
 let n = maxvar p in\r
 let init1 = Array.to_list (Array.mapi (fun i () -> triangle (2*i+1) (2*(i+1)) 2) (Array.make n ())) in\r
 let freshno = ref (2 * n + 3) in\r
 let mk_triangle () =\r
  let i = !freshno in\r
  freshno := i+3; i, i+1, i+2 in\r
 let rec translate = function\r
 | [] -> assert false\r
 | x::[] -> [triangle 0 2 x]\r
 | x::y::l ->\r
    let a,b,c = mk_triangle () in\r
    triangle a b c :: [arc x a; arc y b] :: translate (c::l) in\r
 let p = List.map (List.map (fun x ->\r
   if x = 0 then assert false\r
    else if x < 0 then 2 * (abs x + 1)\r
    else 2 * x + 1\r
  )) p in\r
 let init2 = List.map (List.concat ++ translate) p in\r
 !freshno, init0 @ List.concat (init1 @ init2)\r
;;\r
\r
let string_of_graph g =\r
 String.concat " " (List.map (fun (x,y) -> string_of_int x ^ "<>" ^ string_of_int y) g)\r
;; *)\r
\r
(* let main p =\r
 let mv = maxvar p in\r
 prerr_endline (string_of_int mv);\r
 let _, g = reduction_sat_3col p in\r
 prerr_endline (string_of_graph g);\r
 generate ;;\r
\r
prerr_endline (main[\r
 [1; -2; 3];\r
 [2; 4; -5]\r
]);; *)\r
\r
let p_ = "BOMB ";;\r
let x_ = "x ";;\r
(* y, z dummies *)\r
let y_ = "y ";;\r
let z_ = "z ";;\r
(* a, b endline separators *)\r
let a_ = "a ";;\r
let b_ = "b ";;\r
\r
let generate g n max =\r
 (* 0 <= n <= max+1 *)\r
 let three f sep =\r
  String.concat sep (List.map f [0;1;2]) in\r
 let rec aux' n m color =\r
  if m = -1 then x_\r
  else aux' n (m-1) color ^\r
   if n = m then\r
     (if List.mem (n,n) g then p_^p_^p_ (* cappio nel grafo *)\r
      else three (fun c -> if color = c then y_ else p_) "")\r
   else if n < m then y_^y_^y_\r
   else if List.mem (m,n) g then\r
    three (fun c -> if color = c then p_ else y_) ""\r
   else y_^y_^y_ in\r
 let rec aux m =\r
  if m = -1 then x_\r
   else aux (m-1) ^\r
    if n < m then p_^p_^p_\r
    else if n = m then\r
      "(_." ^ three (aux' n max) "b) (_." ^ "b) "\r
    else y_^y_^y_\r
 in aux max ^ a_\r
;;\r
\r
let generate2 g n max =\r
 let rec aux m =\r
  if m = -1 then x_\r
   else aux (m-1) ^\r
    if n < m then p_^p_^p_\r
    else if n = m\r
    then z_^z_^z_\r
    else y_^y_^y_\r
 in aux max ^ p_\r
;;\r
\r
\r
let encode_graph g =\r
 let g = List.map (fun (x,y) -> min x y, max x y) g in\r
 let mapi f a = Array.to_list (Array.mapi f a) in\r
 let nodex_no =\r
  List.fold_left (fun acc (a,b) -> Pervasives.max acc (Pervasives.max a b)) 0 in\r
 String.concat "\n" ("\n$ problem from 3-colorability" ::\r
  let no = nodex_no g in\r
  mapi (fun i () ->\r
    (if i = no+1 then "D " else "C ") ^ generate g i no\r
  ) (Array.make (no+2) ()) @\r
  mapi (fun i () ->\r
    "C " ^ generate2 g i no\r
  ) (Array.make (no+1) ());\r
 )\r
;;\r
\r
print_endline "Three example encodings:";;\r
\r
(* easy one *)\r
prerr_endline (encode_graph [0,1;]);;\r
\r
(* two imopssible problems *)\r
prerr_endline (\r
 encode_graph [0,1; 1,1]\r
);;\r
prerr_endline (\r
 encode_graph [0,1; 0,2; 1,2; 0,3; 1,3; 2,3]\r
);;\r
\r
(******************************************************************************)\r
\r
print_endline "\nIt will now run some problems and decode the solutions";;\r
print_endline "Press ENTER to continue.";;\r
let _ = read_line ();;\r
\r
let strip_lambda_matches =\r
 let getvar = function\r
  | `Var(n,_) -> n\r
  | _ -> assert false in\r
 let rec aux n = function\r
  | `Lam(_,t) -> aux (n+1) t\r
  | `Match(_,_,_,bs,_) -> Some (n, List.map (getvar ++ snd) !bs)\r
  | _ -> None\r
 in aux 0\r
;;\r
\r
let next_candidates sigma cands =\r
 let sigma = Util.filter_map\r
  (fun x -> try Some (List.assoc x sigma) with Not_found -> None) cands in\r
 match Util.find_opt strip_lambda_matches sigma with\r
 | None -> -1, []\r
 | Some x -> x\r
;;\r
\r
let fix_numbers l =\r
 let rec aux n = function\r
 | [] -> []\r
 | x::xs -> (x - 2*n - 1) :: (aux (n+1) xs)\r
 in aux 0 l\r
;;\r
\r
let color (g:graph) =\r
 let p = encode_graph g in\r
 let (_, _, _, _, vars as p) = Parser.problem_of_string p in\r
 let _, result = Lambda4.solve (Lambda4.problem_of p) in\r
 match result with\r
 | `Unseparable _ -> prerr_endline "Graph not colorable"; None\r
 | `Separable sigma -> (\r
  (* start from variable x *)\r
  let x = Util.index_of "x" vars in\r
  (* List.iter (fun x -> prerr_endline (string_of_int (fst x) ^ ":" ^ Num.print ~l:vars (snd x))) sigma; *)\r
  let rec iter f x =\r
   let n, x = f x in if x = [] then [] else n :: iter f x in\r
  let numbers = iter (next_candidates sigma) [x] in\r
  let numbers = fix_numbers numbers in\r
  (* display solution *)\r
  let colors = ["r"; "g"; "b"] in\r
  prerr_endline ("\nSolution found:\n " ^ String.concat "\n "\r
   (List.mapi (fun i x ->\r
     string_of_int i ^ " := " ^ List.nth colors x) numbers));\r
  assert (List.for_all (fun (a,b) -> List.nth numbers a <> List.nth numbers b) g);\r
  Some numbers)\r
;;\r
\r
let bruteforce g =\r
 let nodes_no = 1+\r
  List.fold_left (fun acc (a,b) -> Pervasives.max acc (Pervasives.max a b)) 0 g in\r
 let check x = if List.for_all (fun (a,b) -> List.nth x a <> List.nth x b) g\r
  then failwith "bruteforce: sat" in\r
 let rec guess l = prerr_string "+";\r
  if List.length l = nodes_no\r
   then check l\r
    else (guess (0::l); guess (1::l); guess (2::l)) in\r
 guess [];\r
 prerr_endline "bruteforce: unsat"\r
;;\r
\r
assert (color [0,1;0,2;1,2;2,3;3,0] <> None);;\r
assert (color [0,1;0,2;1,2;2,3;3,0;0,4;4,2] <> None);;\r
\r
(* assert (color [\r
 1,2; 1,4; 1,7; 1,9; 2,3; 2,6; 2,8; 3,5;\r
 3,7; 3,0; 4,5; 4,6; 4,0; 5,8; 5,9; 6,11;\r
 7,11; 8,11; 9,11; 0,11;\r
] = None);; *)\r
\r
(* https://turing.cs.hbg.psu.edu/txn131/file_instances/coloring/graph_color/queen5_5.col *)\r
color [1,7\r
; 1,13\r
; 1,19\r
; 1,25\r
; 1,2\r
; 1,3\r
; 1,4\r
; 1,5\r
; 1,6\r
; 1,11\r
; 1,16\r
; 1,21\r
; 2,8\r
; 2,14\r
; 2,20\r
; 2,6\r
; 2,3\r
; 2,4\r
; 2,5\r
; 2,7\r
; 2,12\r
; 2,17\r
; 2,22\r
; 2,1\r
; 3,9\r
; 3,15\r
; 3,7\r
; 3,11\r
; 3,4\r
; 3,5\r
; 3,8\r
; 3,13\r
; 3,18\r
; 3,23\r
; 3,2\r
; 3,1\r
; 4,10\r
; 4,8\r
; 4,12\r
; 4,16\r
; 4,5\r
; 4,9\r
; 4,14\r
; 4,19\r
; 4,24\r
; 4,3\r
; 4,2\r
; 4,1\r
; 5,9\r
; 5,13\r
; 5,17\r
; 5,21\r
; 5,10\r
; 5,15\r
; 5,20\r
; 5,25\r
; 5,4\r
; 5,3\r
; 5,2\r
; 5,1\r
; 6,12\r
; 6,18\r
; 6,24\r
; 6,7\r
; 6,8\r
; 6,9\r
; 6,10\r
; 6,11\r
; 6,16\r
; 6,21\r
; 6,2\r
; 6,1\r
; 7,13\r
; 7,19\r
; 7,25\r
; 7,11\r
; 7,8\r
; 7,9\r
; 7,10\r
; 7,12\r
; 7,17\r
; 7,22\r
; 7,6\r
; 7,3\r
; 7,2\r
; 7,1\r
; 8,14\r
; 8,20\r
; 8,12\r
; 8,16\r
; 8,9\r
; 8,10\r
; 8,13\r
; 8,18\r
; 8,23\r
; 8,7\r
; 8,6\r
; 8,4\r
; 8,3\r
; 8,2\r
; 9,15\r
; 9,13\r
; 9,17\r
; 9,21\r
; 9,10\r
; 9,14\r
; 9,19\r
; 9,24\r
; 9,8\r
; 9,7\r
; 9,6\r
; 9,5\r
; 9,4\r
; 9,3\r
; 10,14\r
; 10,18\r
; 10,22\r
; 10,15\r
; 10,20\r
; 10,25\r
; 10,9\r
; 10,8\r
; 10,7\r
; 10,6\r
; 10,5\r
; 10,4\r
; 11,17\r
; 11,23\r
; 11,12\r
; 11,13\r
; 11,14\r
; 11,15\r
; 11,16\r
; 11,21\r
; 11,7\r
; 11,6\r
; 11,3\r
; 11,1\r
; 12,18\r
; 12,24\r
; 12,16\r
; 12,13\r
; 12,14\r
; 12,15\r
; 12,17\r
; 12,22\r
; 12,11\r
; 12,8\r
; 12,7\r
; 12,6\r
; 12,4\r
; 12,2\r
; 13,19\r
; 13,25\r
; 13,17\r
; 13,21\r
; 13,14\r
; 13,15\r
; 13,18\r
; 13,23\r
; 13,12\r
; 13,11\r
; 13,9\r
; 13,8\r
; 13,7\r
; 13,5\r
; 13,3\r
; 13,1\r
; 14,20\r
; 14,18\r
; 14,22\r
; 14,15\r
; 14,19\r
; 14,24\r
; 14,13\r
; 14,12\r
; 14,11\r
; 14,10\r
; 14,9\r
; 14,8\r
; 14,4\r
; 14,2\r
; 15,19\r
; 15,23\r
; 15,20\r
; 15,25\r
; 15,14\r
; 15,13\r
; 15,12\r
; 15,11\r
; 15,10\r
; 15,9\r
; 15,5\r
; 15,3\r
; 16,22\r
; 16,17\r
; 16,18\r
; 16,19\r
; 16,20\r
; 16,21\r
; 16,12\r
; 16,11\r
; 16,8\r
; 16,6\r
; 16,4\r
; 16,1\r
; 17,23\r
; 17,21\r
; 17,18\r
; 17,19\r
; 17,20\r
; 17,22\r
; 17,16\r
; 17,13\r
; 17,12\r
; 17,11\r
; 17,9\r
; 17,7\r
; 17,5\r
; 17,2\r
; 18,24\r
; 18,22\r
; 18,19\r
; 18,20\r
; 18,23\r
; 18,17\r
; 18,16\r
; 18,14\r
; 18,13\r
; 18,12\r
; 18,10\r
; 18,8\r
; 18,6\r
; 18,3\r
; 19,25\r
; 19,23\r
; 19,20\r
; 19,24\r
; 19,18\r
; 19,17\r
; 19,16\r
; 19,15\r
; 19,14\r
; 19,13\r
; 19,9\r
; 19,7\r
; 19,4\r
; 19,1\r
; 20,24\r
; 20,25\r
; 20,19\r
; 20,18\r
; 20,17\r
; 20,16\r
; 20,15\r
; 20,14\r
; 20,10\r
; 20,8\r
; 20,5\r
; 20,2\r
; 21,22\r
; 21,23\r
; 21,24\r
; 21,25\r
; 21,17\r
; 21,16\r
; 21,13\r
; 21,11\r
; 21,9\r
; 21,6\r
; 21,5\r
; 21,1\r
; 22,23\r
; 22,24\r
; 22,25\r
; 22,21\r
; 22,18\r
; 22,17\r
; 22,16\r
; 22,14\r
; 22,12\r
; 22,10\r
; 22,7\r
; 22,2\r
; 23,24\r
; 23,25\r
; 23,22\r
; 23,21\r
; 23,19\r
; 23,18\r
; 23,17\r
; 23,15\r
; 23,13\r
; 23,11\r
; 23,8\r
; 23,3\r
; 24,25\r
; 24,23\r
; 24,22\r
; 24,21\r
; 24,20\r
; 24,19\r
; 24,18\r
; 24,14\r
; 24,12\r
; 24,9\r
; 24,6\r
; 24,4\r
; 25,24\r
; 25,23\r
; 25,22\r
; 25,21\r
; 25,20\r
; 25,19\r
; 25,15\r
; 25,13\r
; 25,10\r
; 25,7\r
; 25,5\r
; 25,1];;\r