first version of clock unification
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@ -77,3 +77,4 @@ type t_ck = base_ck list
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and base_ck =
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and base_ck =
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| Base
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| Base
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| On of base_ck * t_expression
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| On of base_ck * t_expression
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| Unknown
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@ -25,8 +25,6 @@ let exec_passes ast verbose debug passes f =
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| [] -> f ast
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| [] -> f ast
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| (n, p) :: passes ->
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| (n, p) :: passes ->
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verbose (Format.asprintf "Executing pass %s:\n" n);
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verbose (Format.asprintf "Executing pass %s:\n" n);
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try
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begin
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match p verbose debug ast with
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match p verbose debug ast with
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| None -> (exit_error ("Error while in the pass "^n^".\n"); exit 0)
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| None -> (exit_error ("Error while in the pass "^n^".\n"); exit 0)
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| Some ast -> (
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| Some ast -> (
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@ -34,8 +32,6 @@ let exec_passes ast verbose debug passes f =
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(Format.asprintf
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(Format.asprintf
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"Current AST (after %s):\n%a\n" n Lustre_pp.pp_ast ast);
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"Current AST (after %s):\n%a\n" n Lustre_pp.pp_ast ast);
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aux ast passes)
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aux ast passes)
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end with
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| _ -> failwith ("The pass "^n^" should have caught me!")
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in
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in
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aux ast passes
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aux ast passes
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@ -47,7 +43,7 @@ let _ =
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["linearization_reset"; "automata_translation"; "remove_if";
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["linearization_reset"; "automata_translation"; "remove_if";
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"linearization_pre"; "linearization_tuples"; "linearization_app";
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"linearization_pre"; "linearization_tuples"; "linearization_app";
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"ensure_assign_val";
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"ensure_assign_val";
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"equations_ordering"] in
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"equations_ordering"; "clock_unification"] in
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let sanity_passes = ["sanity_pass_assignment_unicity"; "check_typing"] in
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let sanity_passes = ["sanity_pass_assignment_unicity"; "check_typing"] in
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let usage_msg =
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let usage_msg =
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"Usage: main [-passes p1,...,pn] [-ast] [-verbose] [-debug] \
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"Usage: main [-passes p1,...,pn] [-ast] [-verbose] [-debug] \
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194
src/passes.ml
194
src/passes.ml
@ -933,101 +933,137 @@ let clock_unification_pass verbose debug ast =
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let failure str = raise (PassExn ("Failed to unify clocks: "^str)) in
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let failure str = raise (PassExn ("Failed to unify clocks: "^str)) in
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let known_clocks = Hashtbl.create 100 in
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let known_clocks = Hashtbl.create 100 in
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let used = Hashtbl.create 100 in (*keep track of variables that appear on right side of equation*)
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let changed = ref false in
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let find_clock_var var =
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let rec count_not e acc = match e with
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match Hashtbl.find_opt known_clocks var with
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| EVar([TBool], var) -> acc, e
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| None ->
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| EConst([TBool], cons) -> acc, e
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begin
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| EMonOp([TBool], MOp_not, e) -> count_not e (acc + 1)
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match var with
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| _ -> raise (PassExn "verify_when failure")
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| BVar(name)
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| IVar(name)
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| RVar(name) -> raise (PassExn ("Cannot find clock of variable "^name) )
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end
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| Some c -> c
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in
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in
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let rec compute_clock_exp exp = match exp with
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let verify_when e1 e2 =
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| EConst(_, _) -> [Base]
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let n1, var1 = count_not e1 0
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| EVar(_, var) -> find_clock_var var
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and n2, var2 = count_not e2 0 in
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| EMonOp(_, MOp_pre, _) -> [Base]
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if n1 mod 2 <> n2 mod 2 || var1 <> var2 then
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| EMonOp(_, _, e) -> compute_clock_exp e
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raise (PassExn "clock unification failure")
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in
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let get_var_name var = match var with
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| RVar(name)
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| BVar(name)
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| IVar(name) -> name
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in
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let rec clk_to_string clk = match clk with
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| Base -> "Base"
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| Unknown -> "Unknown"
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| On(clk, exp) ->
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let n, var = count_not exp 0 in
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let s = if n mod 2 = 1 then "not " else "" in
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let v = match var with |EVar(_, var) -> get_var_name var | EConst(_, CBool(false)) -> "false" |_ -> "true" in
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(clk_to_string clk) ^ " on " ^ s ^ v
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in
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let add_clock var clock =
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match Hashtbl.find known_clocks var with
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| Unknown -> changed := true; (debug ("Found clock for "^(get_var_name var)^": "^(clk_to_string clock))); Hashtbl.replace known_clocks var clock
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| c when c = clock -> ()
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| c -> raise (PassExn ("Clock conflict "^(get_var_name var) ^" "^(clk_to_string c) ^ " " ^ (clk_to_string clock)))
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in
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let rec update_clock exp clk = match exp with
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| EConst(_, _) -> ()
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| EVar(_, var) -> add_clock var clk; Hashtbl.replace used var var
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| EMonOp(_, _, e) -> update_clock e clk
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| EComp(_, _, e1, e2)
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| EComp(_, _, e1, e2)
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| EReset(_, e1, e2)
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| EReset(_, e1, e2)
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| EBinOp(_, _, e1, e2) ->
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| EBinOp(_, _, e1, e2) -> update_clock e1 clk; update_clock e2 clk
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begin
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let c1 = compute_clock_exp e1
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and c2 = compute_clock_exp e2 in
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if c1 <> c2 then
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failure "Binop"
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else
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c1
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end
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| EWhen(_, e1, e2) ->
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begin
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match compute_clock_exp e1 with
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| [c1] -> [On (c1, e2)]
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| _ -> failure "When"
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end
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| ETriOp(_, TOp_merge, e1, e2, e3) ->
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| ETriOp(_, TOp_merge, e1, e2, e3) ->
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begin
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update_clock e1 clk;
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let c1 = compute_clock_exp e1
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update_clock e2 (On(clk, e1));
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and c2 = compute_clock_exp e2
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update_clock e3 (On(clk, EMonOp([TBool], MOp_not, e1)))
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and c3 = compute_clock_exp e3 in
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match c1, c2, c3 with
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| [c1], [On(cl2, e2)], [On(cl3, e3)] ->
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begin
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if cl2 <> c1 || cl3 <> c1 then
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failure "Triop clocks"
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else match e2, e3 with
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| EMonOp(_, MOp_not, e), _ when e = e3 -> [c1]
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| _, EMonOp(_, MOp_not, e) when e = e2 -> [c1]
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| _ -> failure "Triop condition"
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end
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| _ -> failure ("Merge format")
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end
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| ETriOp(_, TOp_if, e1, e2, e3) ->
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| ETriOp(_, TOp_if, e1, e2, e3) ->
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let (* Unused: c1 = compute_clock_exp e1
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(* The 3 expressions should have the same clock *)
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and*) c2 = compute_clock_exp e2
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begin
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and c3 = compute_clock_exp e3 in
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update_clock e1 clk;
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if c2 <> c3 then
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update_clock e2 clk;
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failure "If clocks"
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update_clock e3 clk
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else c2
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end
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| ETuple(_, explist) -> List.iter (fun e -> update_clock e clk) explist
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| ETuple(_, explist) -> List.concat_map compute_clock_exp explist
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| EApp(_, node, e) -> update_clock e clk
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| EApp(_, node, e) ->
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| EWhen(_, e1, e2) ->
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let rec aux_app clk_list = match clk_list with
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match clk with
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| [] -> raise (PassExn "Node called with no argument provided")
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| On(clk2, e) -> verify_when e e2; update_clock e1 clk2
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| [cl] -> cl
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| _ -> raise (PassExn "Clock unification failure: when")
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| t::q -> if t = (aux_app q) then t else failure "App diff clocks"
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and mult_clk cl out_list = match out_list with
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| [] -> []
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| t::q -> cl::(mult_clk cl q)
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in
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mult_clk (aux_app (compute_clock_exp e)) (snd node.n_outputs)
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in
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in
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let rec compute_eq_clock eq =
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let rec propagate_clock eqs =
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let rec step vars clks = match vars, clks with
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let rec step ((ty, vars), exp)= match vars with
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| [], [] -> ()
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| [] -> ()
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| [], c::q -> raise (PassExn "Mismatch between clock size")
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| v::t -> let clk = Hashtbl.find known_clocks v in
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| v::t, c::q -> Hashtbl.replace known_clocks v [c]; step t q
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begin
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| l, [] -> raise (PassExn "Mismatch between clock size")
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if clk <> Unknown then update_clock exp clk
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else ();
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step ((ty, t), exp)
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end
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in
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in
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let (_, vars), exp = eq in
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List.iter step eqs
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let clk = compute_clock_exp exp in
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step vars clk
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in
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in
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let rec iter_til_stable eqs =
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changed := false;
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propagate_clock eqs;
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if !changed then
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iter_til_stable eqs
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in
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let check_unification node =
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let (_, node_inputs) = node.n_inputs in
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let rec check_vars_aux acc = match acc with
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| [(v, c)] -> if c = Unknown && (Hashtbl.mem used v) then raise (PassExn ("Clock unification failure: Unkwown clock for "^(get_var_name v))) else c
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| (v, t)::q -> let c = check_vars_aux q in
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if c <> t then raise (PassExn "Clock unification failure: Non homogeneous equation") else c
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| [] -> raise (PassExn "Clock unification failure: empty equation")
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in
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let rec check_vars ((ty, vars), exp) acc = match vars with
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| [] -> let _ = check_vars_aux acc in ()
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| v::t -> check_vars ((ty, t), exp) ((v, Hashtbl.find known_clocks v)::acc)
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in
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let rec check_inputs inputs = match inputs with
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| [] -> ()
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| i::q -> let c = Hashtbl.find known_clocks i in
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match c with
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| On(_, e) -> let _, var = count_not e 0 in
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begin
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match var with
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| EConst(_, _) -> ()
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| EVar(_, var) -> if not (List.mem var node_inputs) then raise (PassExn "Clock unification failure: input clock depends on non input clock")
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else check_inputs q
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end
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| _ -> check_inputs q
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in
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(*Check that all variables used have a clock
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and that inputs clocks do not depend on local vars or outputs*)
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List.iter (fun eq -> check_vars eq []) node.n_equations;
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check_inputs node_inputs;
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in
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let compute_clock_node n =
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let compute_clock_node n =
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begin
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begin
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Hashtbl.clear known_clocks;
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Hashtbl.clear known_clocks;
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List.iter (fun v -> Hashtbl.replace known_clocks v [Base]) (
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List.iter (fun v -> Hashtbl.replace known_clocks v Unknown) (
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snd n.n_inputs); (* Initializing inputs to base clock *)
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snd n.n_inputs); (* Initializing inputs to Unknown clock *)
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List.iter compute_eq_clock n.n_equations;
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List.iter (fun v -> Hashtbl.replace known_clocks v Unknown) (
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if not (List.for_all (fun v -> (Hashtbl.find known_clocks v) = [Base]) (
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snd n.n_local_vars); (* Initializing local variables to Unknown clock *)
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snd n.n_outputs)) then failure "Outputs" (*Checking that the node's output are on base clock *)
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List.iter (fun v -> Hashtbl.replace known_clocks v Base) (
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else
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snd n.n_outputs); (* Initializing outputs to base clock *)
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iter_til_stable n.n_equations;
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(* catch potential errors and test for unification *)
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check_unification n;
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Some n
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Some n
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end
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end
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in node_pass compute_clock_node ast
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in node_pass compute_clock_node ast
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@ -16,3 +16,9 @@ let
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tmp = aux (a+b, i);
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tmp = aux (a+b, i);
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tel
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tel
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node test (u, v: int; c: bool) returns (o: int);
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var x, y: int; b: bool;
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let
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o = 2 * (merge c u v);
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tel
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