(* ---------------------------------------------------------------------- *) (* Refs *) (* ---------------------------------------------------------------------- *) let (+=) a b = a := !a + b;; let (+.=) a b = a := !a +. b;; (* ---------------------------------------------------------------------- *) (* Timing *) (* ---------------------------------------------------------------------- *) let ptime f x = let start_time = Sys.time() in try let result = f x in let finish_time = Sys.time() in let total_time = finish_time -. start_time in (result,total_time) with e -> let finish_time = Sys.time() in let total_time = finish_time -. start_time in (print_string("Failed after (user) CPU time of "^ (string_of_float(total_time) ^": ")); raise e);; (* ---------------------------------------------------------------------- *) (* Lists *) (* ---------------------------------------------------------------------- *) let mappair f g l = let a,b = unzip l in let la = map f a in let lb = map g b in zip la lb;; let rec insertat i x l = if i = 0 then x::l else match l with [] -> failwith "insertat: list too short for position to exist" | h::t -> h::(insertat (i-1) x t);; let rec allcombs f l = match l with [] -> [] | h::t -> map (f h) t @ allcombs f t;; let rec assoc_list keys assl = match keys with [] -> [] | h::t -> assoc h assl::assoc_list t assl;; let add_to_list l1 l2 = l1 := !l1 @ l2;; let list x = [x];; let rec ith i l = if i = 0 then hd l else ith (i-1) (tl l);; let rev_ith i l = ith (length l - i - 1) l;; let get_index p l = let rec get_index p l n = match l with [] -> failwith "get_index" | h::t -> if p h then n else get_index p t (n + 1) in get_index p l 0;; (* get_index (fun x -> x > 5) [1;2;3;7;9] *) let bindex p l = let rec bindex p l i = match l with [] -> failwith "bindex: not found" | h::t -> if p h then i else bindex p t (i + 1) in bindex p l 0;; let cons x y = x :: y;; let rec swap_lists l store = match l with [] -> store | h::t -> let store' = map2 cons h store in swap_lists t store';; (* swap_lists [[1;2;3];[4;5;6];[7;8;9];[10;11;12]] --> [[1; 4; 7; 10]; [2; 5; 8; 11]; [3; 6; 9; 12]] *) let swap_lists l = let n = length (hd l) in let l' = swap_lists l (replicate [] n) in map rev l';; (* bindex (fun x -> x = 5) [1;2;5];; *) let fst3 (a,_,_) = a;; let snd3 (_,a,_) = a;; let thd3 (_,_,a) = a;; let odd n = (n mod 2 = 1);; let even n = (n mod 2 = 0);; (* ---------------------------------------------------------------------- *) (* Terms *) (* ---------------------------------------------------------------------- *) let dest_var_or_const t = match t with Var(s,ty) -> s,ty | Const(s,ty) -> s,ty | _ -> failwith "not a var or const";; let can_match t1 t2 = try let n1,_ = dest_var_or_const t1 in let n2,_ = dest_var_or_const t2 in n1 = n2 && can (term_match [] t1) t2 with Failure _ -> false;; let dest_quant tm = if is_forall tm then dest_forall tm else if is_exists tm then dest_exists tm else failwith "dest_quant: not a quantified term";; let get_binop tm = try let f,r = dest_comb tm in let xop,l = dest_comb f in xop,l,r with Failure _ -> failwith "get_binop";;