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author | Alex AUVOLAT <alex.auvolat@ens.fr> | 2013-11-08 22:05:03 +0100 |
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committer | Alex AUVOLAT <alex.auvolat@ens.fr> | 2013-11-08 22:05:03 +0100 |
commit | 7a651609a8f40e8040cffa92f9965df02b0f52cd (patch) | |
tree | ad4ae986dcce89cfa12f2b516f44b35e7be98ce0 /sched | |
parent | 435042774cd03687297a8100e807c70dd7b1b3e4 (diff) | |
download | SystDigit-Projet-7a651609a8f40e8040cffa92f9965df02b0f52cd.tar.gz SystDigit-Projet-7a651609a8f40e8040cffa92f9965df02b0f52cd.zip |
Minor changes.
Diffstat (limited to 'sched')
-rw-r--r-- | sched/simplify.ml | 78 |
1 files changed, 48 insertions, 30 deletions
diff --git a/sched/simplify.ml b/sched/simplify.ml index 5ca4b99..4f2359e 100644 --- a/sched/simplify.ml +++ b/sched/simplify.ml @@ -20,6 +20,7 @@ module Smap = Map.Make(String) (* Simplify cascade slicing/selecting *) let cascade_slices p = + let usefull = ref false in let slices = Hashtbl.create 42 in let eqs_new = List.map (fun (n, eq) -> (n, match eq with @@ -31,10 +32,12 @@ let cascade_slices p = (0, x) in Hashtbl.add slices n (u + dec, nx); + if nx <> x || dec <> 0 then usefull := true; Eslice(u + dec, v + dec, Avar(nx)) | Eselect(u, Avar(x)) -> begin try let ku, kx = Hashtbl.find slices x in + usefull := true; Eselect(ku + u, Avar(kx)) with Not_found -> Eselect(u, Avar(x)) @@ -46,7 +49,7 @@ let cascade_slices p = p_inputs = p.p_inputs; p_outputs = p.p_outputs; p_vars = p.p_vars; - }, false + }, !usefull (* Simplifies some trivial arithmetic possibilites : a and 1 = a @@ -60,24 +63,26 @@ let cascade_slices p = select i const = const.[i] *) let arith_simplify p = + let usefull = ref false in { p_eqs = List.map - (fun (n, eq) -> match eq with - | Ebinop(Or, Aconst(VBit(false)), x) -> (n, Earg(x)) - | Ebinop(Or, Aconst(VBit(true)), x) -> (n, Earg(Aconst(VBit(true)))) - | Ebinop(Or, x, Aconst(VBit(false))) -> (n, Earg(x)) - | Ebinop(Or, x, Aconst(VBit(true))) -> (n, Earg(Aconst(VBit(true)))) + (fun (n, eq) -> + let useless = ref false in + let neq = match eq with + | Ebinop(Or, Aconst(VBit(false)), x) -> Earg(x) + | Ebinop(Or, Aconst(VBit(true)), x) -> Earg(Aconst(VBit(true))) + | Ebinop(Or, x, Aconst(VBit(false))) -> Earg(x) + | Ebinop(Or, x, Aconst(VBit(true))) -> Earg(Aconst(VBit(true))) - | Ebinop(And, Aconst(VBit(false)), x) -> (n, Earg(Aconst(VBit(false)))) - | Ebinop(And, Aconst(VBit(true)), x) -> (n, Earg(x)) - | Ebinop(And, x, Aconst(VBit(false))) -> (n, Earg(Aconst(VBit(false)))) - | Ebinop(And, x, Aconst(VBit(true))) -> (n, Earg(x)) + | Ebinop(And, Aconst(VBit(false)), x) -> Earg(Aconst(VBit(false))) + | Ebinop(And, Aconst(VBit(true)), x) -> Earg(x) + | Ebinop(And, x, Aconst(VBit(false))) -> Earg(Aconst(VBit(false))) + | Ebinop(And, x, Aconst(VBit(true))) -> Earg(x) - | Ebinop(Xor, Aconst(VBit(false)), x) -> (n, Earg(x)) - | Ebinop(Xor, x, Aconst(VBit(false))) -> (n, Earg(x)) + | Ebinop(Xor, Aconst(VBit(false)), x) -> Earg(x) + | Ebinop(Xor, x, Aconst(VBit(false))) -> Earg(x) - | Eslice(i, j, k) when i = j -> - (n, Eselect(i, k)) + | Eslice(i, j, k) when i = j -> Eselect(i, k) | Econcat(Aconst(a), Aconst(b)) -> let aa = match a with @@ -88,43 +93,48 @@ let arith_simplify p = | VBit(a) -> [| a |] | VBitArray(a) -> a in - (n, Earg(Aconst(VBitArray(Array.append aa ba)))) + Earg(Aconst(VBitArray(Array.append aa ba))) | Eslice(i, j, Aconst(VBitArray(a))) -> - (n, Earg(Aconst(VBitArray(Array.sub a i (j - i + 1))))) + Earg(Aconst(VBitArray(Array.sub a i (j - i + 1)))) | Eselect(i, Aconst(VBitArray(a))) -> - (n, Earg(Aconst(VBit(a.(i))))) + Earg(Aconst(VBit(a.(i)))) - | _ -> (n, eq)) + | _ -> useless := true; eq in + if not !useless then usefull := true; + (n, neq)) p.p_eqs; p_inputs = p.p_inputs; p_outputs = p.p_outputs; p_vars = p.p_vars; - }, false + }, !usefull (* if x is one bit, then : select 0 x = x *) let select_to_id p = + let usefull = ref false in { p_eqs = List.map (fun (n, eq) -> match eq with | Eselect(0, Avar(id)) when Env.find id p.p_vars = TBit || Env.find id p.p_vars = TBitArray(1) -> + usefull := true; (n, Earg(Avar(id))) | _ -> (n, eq)) p.p_eqs; p_inputs = p.p_inputs; p_outputs = p.p_outputs; p_vars = p.p_vars; - }, false + }, !usefull (* If a = eqn(v1, v2, ...) and b = eqn(v1, v2, ...) <- the same equation then say b = a *) let same_eq_simplify p = + let usefull = ref false in let id_outputs = (List.fold_left (fun x k -> Sset.add k x) Sset.empty p.p_outputs) in let eq_map = Hashtbl.create 42 in @@ -135,9 +145,10 @@ let same_eq_simplify p = let simplify_eq (n, eq) = if Sset.mem n id_outputs then (n, eq) - else if Hashtbl.mem eq_map eq then + else if Hashtbl.mem eq_map eq then begin + usefull := true; (n, Earg(Avar(Hashtbl.find eq_map eq))) - else begin + end else begin Hashtbl.add eq_map eq n; (n, eq) end @@ -148,7 +159,7 @@ let same_eq_simplify p = p_inputs = p.p_inputs; p_outputs = p.p_outputs; p_vars = p.p_vars; - }, false + }, !usefull (* Replace one specific variable by another argument in the arguments of all equations @@ -212,25 +223,32 @@ let rec eliminate_id p = | None -> p, false | Some(n, rep) -> fst (eliminate_id (eliminate_var n rep p)), true +(* Eliminate dead variables *) +let eliminate_dead p = + (p, false) + (* Topological sort *) let topo_sort p = (Scheduler.schedule p, false) + (* Apply all the simplification passes, in the order given in the header of this file *) let rec simplify p = let steps = [ - cascade_slices; - arith_simplify; - select_to_id; - same_eq_simplify; - eliminate_id; - topo_sort; + topo_sort, "topo_sort"; + cascade_slices, "cascade_slices"; + arith_simplify, "arith_simplify"; + select_to_id, "select_to_id"; + same_eq_simplify, "same_eq_simplify"; + eliminate_id, "eliminate_id"; ] in let pp, use = List.fold_left - (fun (x, u) f -> + (fun (x, u) (f, n) -> + print_string n; let xx, uu = f x in + print_string (if uu then "*\n" else "\n"); (xx, u || uu)) (p, false) steps in if use then simplify pp else pp |