open Pure
open Num
-let bomb = ref(`Var ~-1);;
+let bomb = ref(`Var(-1,-666));;
type problem =
{ freshno: int
; ps: i_n_var list (* the n-th inert must become n *)
; sigma: (int * nf) list (* the computed substitution *)
; deltas: (int * nf) list ref list (* collection of all branches *)
- ; steps: int (* how many steps the algorithm made until now *)
- }
-
-
-(* let heads = Util.sort_uniq (List.map hd_of_i_var p.ps) in
-for all head
- List.map (fun (_, bs) -> List.map (fun (x,_) -> List.nth p.ps x) !bs) p.deltas *)
-
-(* let ($) f x = f x;; *)
-
-let subterms tms freshno =
- let apply_var =
- let no = ref freshno in
- function t -> incr no; mk_app t (`Var !no) in
- let applicative hd args = snd (
- List.fold_left (fun (hd, acc) t -> let hd = mk_app hd t in hd, hd::acc) (hd, []) args) in
- let rec aux t = match t with
- | `Var _ -> []
- | `I(v,ts) ->
- (* applicative (`Var v) (Listx.to_list ts) @ *)
- Util.concat_map aux (Listx.to_list ts) @ List.map apply_var (Listx.to_list ts)
- | `Lam(_,t) -> aux (lift ~-1 t)
- | `Match(u,bs_lift,bs,args) ->
- aux (u :> nf) @
- (* applicative (`Match(u,bs_lift,bs,[])) args @ *)
- Util.concat_map aux args @ List.map apply_var args
- (* @ Util.concat_map (aux ++ (lift bs_lift) ++ snd) !bs *)
- | `N _ -> []
- in let tms' = (* Util.sort_uniq ~compare:eta_compare*) (Util.concat_map aux tms) in
- tms @ tms'
- (* List.map (fun (t, v) -> match t with `N _ -> t | _ -> mk_app t v) (List.combine tms (List.mapi (fun i _ -> `Var(freshno+i)) tms)) *)
-;;
+ ; initialSpecialK: int
+};;
let all_terms p =
-(match p.div with None -> [] | Some t -> [(t :> i_n_var)])
-@ p.conv
-@ p.ps
+ (match p.div with None -> [] | Some t -> [(t :> i_n_var)])
+ @ p.conv
+ @ p.ps
;;
-let problem_measure p =
- let l = Array.to_list (Array.init (p.freshno + 1) string_of_var) in
- let open Listx in
- (* aux |t1;t2| e' numero di step per portare la diff in testa
- INVARIANTE: t1 <eta> t2
- *)
- let rec aux t1 t2 =
- match t1, t2 with
- | `I(v1,nfs1), `I(v2,nfs2) ->
- if v1 <> v2
- then 0 else 1 + find_first_diff (to_list nfs1, to_list nfs2)
- | `Match (t1,bs_lift,bs,args), `Match (t2,bs_lift',bs',args') ->
- if bs != bs' then 0 (* TODO *)
- else if eta_eq (t1 :> nf) (t2 :> nf) then 1 + find_first_diff (args, args') else aux (t1 :> nf) (t2 :> nf) (* TODO *)
- | `Match _, _
- | _, `Match _ -> 0 (* FIXME!!! *)
- | `Lam(_,t1), `Lam(_,t2) -> aux t1 t2
- | _ -> 0
- and find_first_diff = function
- | [], [] -> assert false
- | [], t::_
- | t::_, [] -> 1
- | t1::ts1, t2::ts2 ->
- if eta_eq (t1 :> nf) (t2 :> nf) then 1 + find_first_diff (ts1, ts2) else aux t1 t2
- (* no. di step da fare per separare t1 e t2 *)
- in let diff t1 t2 = (
- let res = if eta_eq t1 t2 then 0 else aux t1 t2 in
- if res <> 0 then prerr_endline ("diff (" ^ print ~l t1 ^ ") (" ^ print ~l t2 ^ ") = " ^ string_of_int res);
- res
- )
- (* aux calcola la somma delle differenze tra i termini in una lista (quadratico) *)
- in let rec sum = function
- | [] -> 0
- | x::xs -> List.fold_right ((+) ++ (diff (x :> nf))) (xs :> nf list) (sum xs)
- in let subterms = subterms ((all_terms p) :> nf list) p.freshno
- (* let subterms = sort_uniq ~compare:eta_compare subterms in *)
- in let a = sum subterms
- in let b = List.fold_right (fun bs -> (+) (sum (List.map ((List.nth p.ps) ++ fst) !bs))) p.deltas 0
- in let _ = prerr_endline ("Computed measure: " ^ string_of_int a ^ "," ^ string_of_int b)
- in a + b
-;;
+let problem_measure p = 0 ;;
-let print_problem label ({freshno; div; conv; ps; deltas; steps} as p) =
+let print_problem label ({freshno; div; conv; ps; deltas} as p) =
Console.print_hline ();
prerr_endline ("\n||||| Displaying problem: " ^ label ^ " |||||");
let nl = "\n| " in
let deltas = String.concat nl (List.map (fun r -> String.concat " <> " (List.map (fun (i,_) -> string_of_int i) !r)) deltas) in
let l = Array.to_list (Array.init (freshno + 1) string_of_var) in
- nl ^ string_of_int steps ^ " steps left; measure="^string_of_int(problem_measure p)^" freshno = " ^ string_of_int freshno
+ nl ^ "measure="^string_of_int(problem_measure p)^" freshno = " ^ string_of_int freshno
^ nl ^ "\b> DISCRIMINATING SETS (deltas)"
^ nl ^ deltas ^ (if deltas = "" then "" else nl)
^ "\b> DIVERGENT" ^ nl
failwith reason
;;
-let make_fresh_var p =
+let make_fresh_var p arity =
let freshno = p.freshno + 1 in
- {p with freshno}, `Var freshno
+ {p with freshno}, `Var(freshno,arity)
;;
-let make_fresh_vars p m =
- Array.fold_left
- (* fold_left vs. fold_right hides/shows the bug in problem q7 *)
- (fun (p, vars) _ -> let p, var = make_fresh_var p in p, var::vars)
+let make_fresh_vars p arities =
+ List.fold_right
+ (fun arity (p, vars) -> let p, var = make_fresh_var p arity in p, var::vars)
+ arities
(p, [])
- (Array.make m ())
;;
let simple_expand_match ps =
- let rec aux level = function
+ let rec aux level = function
| #i_num_var as t -> aux_i_num_var level t
- | `Lam(b,t) -> `Lam(b, aux (level+1) t)
- and aux_i_num_var level = function
- | `Match(u,bs_lift,bs,args) as torig ->
+ | `Lam(b,t) -> `Lam(b,aux (level+1) t)
+ and aux_i_num_var level = function
+ | `Match(u,v,bs_lift,bs,args) as torig ->
let u = aux_i_num_var level u in
bs := List.map (fun (n, x) -> n, aux 0 x) !bs;
(try
(match u with
| #i_n_var as u ->
let i = index_of (lift (-level) u) (ps :> nf list) (* can raise Not_found *)
- in let t = mk_match (`N i) bs_lift bs args in
+ in let t = mk_match (`N i) v bs_lift bs args in
if t <> torig then
aux level (t :> nf)
else raise Not_found
| _ -> raise Not_found)
with Not_found ->
- `Match(cast_to_i_num_var u,bs_lift,bs,List.map (aux level) args))
- | `I(k,args) -> `I(k,Listx.map (aux level) args)
+ `Match(cast_to_i_num_var u,v,bs_lift,bs,List.map (aux level) args))
+ | `I(v,args) -> `I(v,Listx.map (aux level) args)
| `N _ | `Var _ as t -> t
-in aux_i_num_var 0;;
+ in aux_i_num_var 0
+;;
let fixpoint f =
let rec aux x = let x' = f x in if x <> x' then aux x' else x in aux
| [] -> acc
| t::todo_ps ->
(*prerr_endline ("EXPAND t:" ^ print (t :> nf));*)
- let t = subst false x inst (t :> nf) in
+ let t = subst false false x inst (t :> nf) in
(*prerr_endline ("SUBSTITUTED t:" ^ print (t :> nf));*)
let freshno,new_t,acc_new_ps =
- expand_match (freshno,acc_ps@`Var(max_int/3)::todo_ps,acc_new_ps) t
+ expand_match (freshno,acc_ps@`Var(max_int/3,-666)::todo_ps,acc_new_ps) t
in
aux (freshno,acc_ps@[new_t],acc_new_ps) todo_ps
| t::todo_conv ->
(*prerr_endline ("EXPAND t:" ^ print (t :> nf));*)
(* try *)
- let t = subst false x inst (t :> nf) in
+ let t = subst false false x inst (t :> nf) in
(*prerr_endline ("SUBSTITUTED t:" ^ print (t :> nf));*)
let freshno,new_t,acc_new_ps =
expand_match (freshno,ps,acc_new_ps) t
function
| None -> freshno, None, acc_new_ps
| Some t ->
- let t = subst false x inst (t :> nf) in
+ let t = subst false false x inst (t :> nf) in
let freshno,new_t,acc_new_ps =
expand_match (freshno,ps,acc_new_ps) t
in
and expand_match ((freshno,acc_ps,acc_new_ps) as acc) t =
match t with
- | `Match(u',bs_lift,bs,args) ->
+ | `Match(u',orig,bs_lift,bs,args) ->
let freshno,u,acc_new_ps = expand_match acc (u' :> nf) in
let acc_new_ps,i =
match u with
| `N i -> acc_new_ps,i
| _ ->
- let ps = List.map (fun t -> cast_to_i_num_var (subst false x inst (t:> nf))) (acc_ps@acc_new_ps) in
+ let ps = List.map (fun t -> cast_to_i_num_var (subst false false x inst (t:> nf))) (acc_ps@acc_new_ps) in
let super_simplified_ps = super_simplify_ps ps ps in
(*prerr_endline ("CERCO u:" ^ print (fst u :> nf));
List.iter (fun x -> prerr_endline ("IN: " ^ print (fst x :> nf))) ps;
if List.exists (fun (j,_) -> i=j) !bs then
freshno
else
- let freshno,v = freshno+1, `Var (freshno+1) in (* make_fresh_var freshno in *)
+ let freshno,v = freshno+1, `Var (freshno+1, snd orig - 1) in (* make_fresh_var freshno in *)
bs := !bs @ [i, v] ;
freshno in
(*prerr_endlie ("t DA RIDURRE:" ^ print (`Match(`N i,arity,bs_lift,bs,args) :> nf) ^ " more_args=" ^ string_of_int more_args);*)
- let t = mk_match (`N i) bs_lift bs args in
+ let t = mk_match (`N i) orig bs_lift bs args in
(*prerr_endline ("NUOVO t:" ^ print (fst t :> nf) ^ " more_args=" ^ string_of_int (snd t));*)
expand_match (freshno,acc_ps,acc_new_ps) t
| `Lam _ -> raise ExpandedToLambda
`N _
| `Var _
| `Lam _ -> ()
- | `Match(t,liftno,bs,args) ->
+ | `Match(t,_,liftno,bs,args) ->
(* CSC: XXX partial dependency on the encoding *)
(match t with
`N _ -> List.iter (dangerous arities showstoppers) args
| `Match _ as t -> dangerous arities showstoppers t ; List.iter (dangerous arities showstoppers) args
- | `Var x -> dangerous_inert arities showstoppers x args 2 (* 2 coming from Scott's encoding *)
- | `I(x,args') -> dangerous_inert arities showstoppers x (Listx.to_list args' @ args) 2 (* 2 coming from Scott's encoding *)
+ | `Var(x,_) -> dangerous_inert arities showstoppers x args 2 (* 2 coming from Scott's encoding *)
+ | `I((x,_),args') -> dangerous_inert arities showstoppers x (Listx.to_list args' @ args) 2 (* 2 coming from Scott's encoding *)
)
- | `I(k,args) -> dangerous_inert arities showstoppers k (Listx.to_list args) 0
+ | `I((k,_),args) -> dangerous_inert arities showstoppers k (Listx.to_list args) 0
and dangerous_inert arities showstoppers k args more_args =
List.iter (dangerous arities showstoppers) args ;
`N _
| `Var _
| `Lam _ -> []
- | `Match(t,liftno,bs,args) ->
+ | `Match(t,_,liftno,bs,args) ->
(* CSC: XXX partial dependency on the encoding *)
(match t with
`N _ -> concat_map (dangerous_conv arities showstoppers) args
| `Match _ as t -> dangerous_conv arities showstoppers t @ concat_map (dangerous_conv arities showstoppers) args
- | `Var x -> dangerous_inert_conv arities showstoppers x args 2 (* 2 coming from Scott's encoding *)
- | `I(x,args') -> dangerous_inert_conv arities showstoppers x (Listx.to_list args' @ args) 2 (* 2 coming from Scott's encoding *)
+ | `Var(x,_) -> dangerous_inert_conv arities showstoppers x args 2 (* 2 coming from Scott's encoding *)
+ | `I((x,_),args') -> dangerous_inert_conv arities showstoppers x (Listx.to_list args' @ args) 2 (* 2 coming from Scott's encoding *)
)
- | `I(k,args) -> dangerous_inert_conv arities showstoppers k (Listx.to_list args) 0
+ | `I((k,_),args) -> dangerous_inert_conv arities showstoppers k (Listx.to_list args) 0
and dangerous_inert_conv arities showstoppers k args more_args =
concat_map (dangerous_conv arities showstoppers) args @
let showstoppers_eat =
let heads_and_arities =
List.sort (fun (k,_) (h,_) -> compare k h)
- (filter_map (function `Var k -> Some (k,0) | `I(k,args) -> Some (k,Listx.length args) | _ -> None ) p.ps) in
+ (filter_map (function `Var(k,_) -> Some (k,0) | `I((k,_),args) -> Some (k,Listx.length args) | _ -> None ) p.ps) in
let rec multiple_arities =
function
[]
then p
else
let n = match div with `I(_,args) -> Listx.length args | `Var _ -> 0 in
- let p, bomb' = make_fresh_var p in
- (if !bomb <> `Var (-1) then
+ let p, bomb' = make_fresh_var p (-666) in
+ (if !bomb <> `Var (-1,-666) then
failwithProblem p
("Bomb was duplicated! It was " ^ string_of_nf !bomb ^
", tried to change it to " ^ string_of_nf bomb'));
`Continue p
let instantiate p x n =
- (if `Var x = !bomb
+ (if hd_of_i_var (cast_to_i_var !bomb) = x
then failwithProblem p ("BOMB (" ^ string_of_nf !bomb ^ ") cannot be instantiated!"));
- let p,vars = make_fresh_vars p n in
- let p,zero = make_fresh_var p in
- let zero = Listx.Nil zero in
- let args = if n = 0 then zero else Listx.append zero (Listx.from_list vars) in
+ let arity_of_x = max_arity_tms x (all_terms p) in
+ (if arity_of_x = None then failwithProblem p "step on var non occurring in problem");
+ (if Util.option_get(arity_of_x) = min_int then failwithProblem p "step on fake variable");
+ (if Util.option_get(arity_of_x) <= 0 then failwithProblem p "step on var of non-positive arity");
+ let n = (prerr_endline "WARNING: using constant initialSpecialK"); p.initialSpecialK in
+ (* AC: Once upon a time, it was:
+ let arities = Num.compute_arities x (n+1) (all_terms p :> nf list) in *)
+ (* let arities = Array.to_list (Array.make (n+1) 0) in *)
+ let arities = Array.to_list (Array.make (n+1) min_int) in
+ let p,vars = make_fresh_vars p arities in
+ let args = Listx.from_list (vars :> nf list) in
let bs = ref [] in
- let inst = `Lam(false,`Match(`I(0,Listx.map (lift 1) args),1,bs,[])) in
+ (* 666, since it will be replaced anyway during subst: *)
+ let inst = `Lam(false,`Match(`I((0,n+2),Listx.map (lift 1) args),(x,666),1,bs,[])) in
let p = {p with deltas=bs::p.deltas} in
subst_in_problem x inst p
;;
let rec aux k (t: nf) = Pervasives.max k (match t with
| `Lam(b,t) -> aux (k + if b then 1 else 0) t
| `I(n, tms) -> Listx.max (Listx.map (aux 0) tms)
- | `Match(t, liftno, bs, args) ->
+ | `Match(t, _, liftno, bs, args) ->
List.fold_left max 0 (List.map (aux 0) ((t :> nf)::args@List.map snd !bs))
| `N _ -> 0
| `Var _ -> 0
| [], y::_ ->
prerr_endline ("INSTANTIATING CRITICAL TO EAT " ^ string_of_var y); y
| [], [] ->
- let heads = List.sort compare (filter_map (fun t -> match t with `Var _ -> None | x -> hd_of x) ((match p.div with Some t -> [(t :> i_n_var)] | _ -> []) @ p.ps)) in
+ let heads =
+ List.sort compare (filter_map (
+ fun t -> match t with `Var _ -> None | x -> if arity_of_hd x < 0 then None else hd_of x
+ ) ((match p.div with Some t -> [(t :> i_n_var)] | _ -> []) @ p.ps)) in
(match heads with
[] -> assert false
| x::_ ->
| x::_, _ ->
prerr_endline ("INSTANTIATING " ^ string_of_var x);
x in
-(* Strategy that decreases the special_k to 0 first (round robin)
+(* Strategy that decreases the special_k to 0 first (round robin)
1:11m42 2:14m5 3:11m16s 4:14m46s 5:12m7s 6:6m31s *)
let x =
try
- match hd_of (List.find (fun t -> compute_special_k (Listx.Nil (t :> nf)) > 0) (all_terms p)) with
+ match hd_of (List.find (fun t ->
+ compute_special_k (Listx.Nil (t :> nf)) > 0 && arity_of_hd t >= 0
+ ) (all_terms p)) with
None -> assert false
| Some x ->
prerr_endline ("INSTANTIATING AND HOPING " ^ string_of_var x);
prerr_endline
("Measure did not decrease (delta=" ^ string_of_int delta ^ ")"))
else prerr_endline ("$ Measure decreased by " ^ string_of_int delta);
- let p' = {p' with steps=(p'.steps - 1)} in
- (if p'.steps < 0 then prerr_endline ">>>>>>>>>> STEPS ARE OVER <<<<<<<<<"
- (*failwithProblem p' "steps are over. sorry."*) );
auto_eat (n,p)
;;
| `I _ -> assert false
| `Var _ as t -> t
| `Lam(v,t) -> `Lam(v, aux t)
- | `Match(_,_,bs,_) as t -> (bs := List.map (fun (n,t) -> (List.nth perm n, t)) !bs); t
+ | `Match(_,_,_,bs,_) as t -> (bs := List.map (fun (n,t) -> (List.nth perm n, t)) !bs); t
in List.map (fun (n,t) -> (n,aux t))
in
let deltas' = List.mapi (fun n d -> (n, List.map fst !d)) p.deltas in
e,Pure.lift (-n-1) (snd (List.find (fun (i,_) -> i = n) sigma)),[]
with
Not_found ->
- if should_explode && `Var n = !bomb
+ if should_explode && n = hd_of_i_var (cast_to_i_var !bomb)
then ([], (let f t = Pure.A(t,t) in f (Pure.L (f (Pure.V 0)))), [])
else ([],Pure.V n,[]))::e
in aux 0
List.iter
(fun (p,n,cmds) ->
Console.print_hline();
- bomb := `Var (-1);
+ bomb := `Var (-1,-666);
let p_finale = aux p n cmds in
let freshno,sigma = p_finale.freshno, p_finale.sigma in
- prerr_endline ("------- <DONE> ------\n " ^ (string_of_int (p.steps - p_finale.steps)) ^ " steps of "^ (string_of_int p.steps) ^".");
+ prerr_endline ("------- <DONE> ------\n ");
(* prerr_endline (print_problem "Original problem" p); *)
prerr_endline "---------------------";
let l = Array.to_list (Array.init (freshno + 1) string_of_var) in
(********************** problems *******************)
-let zero = `Var 0;;
+let zero = `Var(0,0);;
let append_zero =
function
| _ -> assert false
;;
-let bounds_on_steps all_tms =
- let rec aux = function
- | `I(k,args) -> Listx.fold_left (fun acc t -> 1 + acc + (aux t)) 0 args
- | `Var _ -> 1
- | `Lam (_, t) -> 1 + aux t
- | _ -> assert false
- in List.fold_right ((+) ++ aux) all_tms 0
-;;
-
type t = problem * int * string list;;
let magic_conv ~div ~conv ~nums cmds =
let all_tms = (match div with None -> [] | Some div -> [div]) @ nums @ conv in
let all_tms, var_names = parse' all_tms in
- let steps = bounds_on_steps all_tms in
let div, (tms, conv) = match div with
| None -> None, list_cut (List.length nums, all_tms)
| Some _ -> Some (List.hd all_tms), list_cut (List.length nums, List.tl all_tms) in
if match div with None -> false | Some div -> List.exists (eta_subterm div) (tms@conv)
then (
prerr_endline "--- TEST SKIPPED ---";
- {freshno=0; div=None; conv=[]; ps=[]; sigma=[]; deltas=[]; steps=(-1)}, 0, []
+ {freshno=0; div=None; conv=[]; ps=[]; sigma=[]; deltas=[]; initialSpecialK=0}, 0, []
) else
let tms = sort_uniq ~compare:eta_compare tms in
let special_k = compute_special_k (Listx.from_list all_tms) in (* compute initial special K *)
(* casts *)
let div = option_map cast_to_i_var div in
- let conv = List.map cast_to_i_n_var conv in
+ let conv = Util.filter_map (function #i_n_var as t -> Some (cast_to_i_n_var t) | _ -> None) conv in
let tms = List.map cast_to_i_n_var tms in
let ps = List.map append_zero tms in (* crea lista applicando zeri o dummies *)
let freshno = List.length var_names in
let deltas =
- let dummy = `Var (max_int / 2) in
+ let dummy = `Var (max_int / 2, -666) in
[ ref (Array.to_list (Array.init (List.length ps) (fun i -> i, dummy))) ] in
- {freshno; div; conv; ps; sigma=[] ; deltas; steps}, special_k, cmds
+ {freshno; div; conv; ps; sigma=[] ; deltas; initialSpecialK=special_k}, special_k, cmds
;;
let magic strings cmds = magic_conv None [] strings cmds;;