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author | Adam Chlipala <adam@chlipala.net> |
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date | Sun, 18 Oct 2015 10:50:59 -0400 |
parents | f463c773ed6a |
children | 18e6fb487880 |
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(* Copyright (c) 2008-2011, 2013, Adam Chlipala * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * - The names of contributors may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. *) (* Simplify a Core program algebraically *) structure Reduce :> REDUCE = struct open Core structure IS = IntBinarySet structure IM = IntBinaryMap structure E = CoreEnv fun multiLiftConInCon n c = if n = 0 then c else multiLiftConInCon (n - 1) (E.liftConInCon 0 c) fun multiLiftExpInExp n e = if n = 0 then e else multiLiftExpInExp (n - 1) (E.liftExpInExp 0 e) val count = CoreUtil.Exp.foldB {kind = fn (_, _, c) => c, con = fn (_, _, c) => c, exp = fn (x, e, c) => case e of ERel x' => if x = x' then c + 1 else c | _ => c, bind = fn (x, b) => case b of CoreUtil.Exp.RelE _ => x+1 | _ => x} 0 0 val dangling = CoreUtil.Exp.existsB {kind = fn _ => false, con = fn _ => false, exp = fn (n, e) => case e of ERel n' => n' >= n | _ => false, bind = fn (n, b) => case b of CoreUtil.Exp.RelE _ => n + 1 | _ => n} val cdangling = CoreUtil.Exp.existsB {kind = fn _ => false, con = fn (n, c) => case c of CRel n' => n' >= n | _ => false, exp = fn _ => false, bind = fn (n, b) => case b of CoreUtil.Exp.RelC _ => n + 1 | _ => n} datatype env_item = UnknownK | KnownK of kind | UnknownC | KnownC of con | UnknownE | KnownE of exp | Lift of int * int * int val edepth = foldl (fn (UnknownE, n) => n + 1 | (KnownE _, n) => n + 1 | (_, n) => n) 0 val edepth' = foldl (fn (UnknownE, n) => n + 1 | (KnownE _, n) => n + 1 | (Lift (_, _, n'), n) => n + n' | (_, n) => n) 0 val cdepth = foldl (fn (UnknownC, n) => n + 1 | (KnownC _, n) => n + 1 | (_, n) => n) 0 val cdepth' = foldl (fn (UnknownC, n) => n + 1 | (KnownC _, n) => n + 1 | (Lift (_, n', _), n) => n + n' | (_, n) => n) 0 type env = env_item list fun ei2s ei = case ei of UnknownK => "UK" | KnownK _ => "KK" | UnknownC => "UC" | KnownC _ => "KC" | UnknownE => "UE" | KnownE _ => "KE" | Lift (_, n1, n2) => "(" ^ Int.toString n1 ^ ", " ^ Int.toString n2 ^ ")" fun e2s env = String.concatWith " " (map ei2s env) (*val deKnown = List.filter (fn KnownC _ => false | KnownE _ => false | KnownK _ => false | _ => true)*) val deKnown = ListUtil.mapConcat (fn KnownC _ => [] | KnownE _ => [] | KnownK _ => [] | Lift (nk, nc, ne) => List.tabulate (nk, fn _ => UnknownK) @ List.tabulate (nc, fn _ => UnknownC) @ List.tabulate (ne, fn _ => UnknownE) | x => [x]) datatype result = Yes of env | No | Maybe fun match (env, p : pat, e : exp) = let val baseline = length env fun match (env, p, e) = case (#1 p, #1 e) of (PWild, _) => Yes env | (PVar (x, t), _) => Yes (KnownE (multiLiftExpInExp (length env - baseline) e) :: env) | (PPrim p, EPrim p') => if Prim.equal (p, p') then Yes env else No | (PCon (_, PConVar n1, _, NONE), ECon (_, PConVar n2, _, NONE)) => if n1 = n2 then Yes env else No | (PCon (_, PConVar n1, _, SOME p), ECon (_, PConVar n2, _, SOME e)) => if n1 = n2 then match (env, p, e) else No | (PCon (_, PConFfi {mod = m1, con = con1, ...}, _, NONE), ECon (_, PConFfi {mod = m2, con = con2, ...}, _, NONE)) => if m1 = m2 andalso con1 = con2 then Yes env else No | (PCon (_, PConFfi {mod = m1, con = con1, ...}, _, SOME ep), ECon (_, PConFfi {mod = m2, con = con2, ...}, _, SOME e)) => if m1 = m2 andalso con1 = con2 then match (env, p, e) else No | (PRecord xps, ERecord xes) => if List.exists (fn ((CName _, _), _, _) => false | _ => true) xes then Maybe else let fun consider (xps, env) = case xps of [] => Yes env | (x, p, _) :: rest => case List.find (fn ((CName x', _), _, _) => x' = x | _ => false) xes of NONE => No | SOME (_, e, _) => case match (env, p, e) of No => No | Maybe => Maybe | Yes env => consider (rest, env) in consider (xps, env) end | _ => Maybe in match (env, p, e) end fun returnType m loc = (TCFun ("a", (KType, loc), (TFun ((CRel 0, loc), (CApp (multiLiftConInCon 1 m, (CRel 0, loc)), loc)), loc)), loc) fun bindType m loc = (TCFun ("a", (KType, loc), (TCFun ("b", (KType, loc), (TFun ((CApp (multiLiftConInCon 2 m, (CRel 1, loc)), loc), (TFun ((TFun ((CRel 1, loc), (CApp (multiLiftConInCon 2 m, (CRel 0, loc)), loc)), loc), (CApp (multiLiftConInCon 2 m, (CRel 0, loc)), loc)), loc)), loc)), loc)), loc) fun monadRecord m loc = (TRecord (CRecord ((KType, loc), [((CName "Return", loc), returnType m loc), ((CName "Bind", loc), bindType m loc)]), loc), loc) fun passive (e : exp) = case #1 e of EPrim _ => true | ERel _ => true | ENamed _ => true | ECon (_, _, _, NONE) => true | ECon (_, _, _, SOME e) => passive e | EFfi _ => true | EAbs _ => true | ECAbs _ => true | EKAbs _ => true | ERecord xes => List.all (passive o #2) xes | EField (e, _, _) => passive e | _ => false fun notFfi (t : con) = case #1 t of CFfi _ => false | _ => true fun kindConAndExp (namedC, namedE) = let fun kind env (all as (k, loc)) = case k of KType => all | KArrow (k1, k2) => (KArrow (kind env k1, kind env k2), loc) | KName => all | KRecord k => (KRecord (kind env k), loc) | KUnit => all | KTuple ks => (KTuple (map (kind env) ks), loc) | KRel n => let fun find (n', env, nudge, lift) = case env of [] => raise Fail "Reduce.kind: KRel" | UnknownC :: rest => find (n', rest, nudge, lift) | KnownC _ :: rest => find (n', rest, nudge, lift) | UnknownE :: rest => find (n', rest, nudge, lift) | KnownE _ :: rest => find (n', rest, nudge, lift) | Lift (lift', _, _) :: rest => find (n', rest, nudge + lift', lift + lift') | UnknownK :: rest => if n' = 0 then (KRel (n + nudge), loc) else find (n' - 1, rest, nudge, lift + 1) | KnownK k :: rest => if n' = 0 then kind (Lift (lift, 0, 0) :: rest) k else find (n' - 1, rest, nudge - 1, lift) in find (n, env, 0, 0) end | KFun (x, k) => (KFun (x, kind (UnknownK :: env) k), loc) fun con env (all as (c, loc)) = ((*Print.prefaces "con" [("c", CorePrint.p_con CoreEnv.empty all)];*) case c of TFun (c1, c2) => (TFun (con env c1, con env c2), loc) | TCFun (x, k, c2) => (TCFun (x, kind env k, con (UnknownC :: env) c2), loc) | TKFun (x, c2) => (TKFun (x, con (UnknownK :: env) c2), loc) | TRecord c => (TRecord (con env c), loc) | CRel n => let fun find (n', env, nudge, liftK, liftC) = case env of [] => raise Fail "Reduce.con: CRel" | UnknownK :: rest => find (n', rest, nudge, liftK + 1, liftC) | KnownK _ :: rest => find (n', rest, nudge, liftK, liftC) | UnknownE :: rest => find (n', rest, nudge, liftK, liftC) | KnownE _ :: rest => find (n', rest, nudge, liftK, liftC) | Lift (liftK', liftC', _) :: rest => find (n', rest, nudge + liftC', liftK + liftK', liftC + liftC') | UnknownC :: rest => if n' = 0 then (CRel (n + nudge), loc) else find (n' - 1, rest, nudge, liftK, liftC + 1) | KnownC c :: rest => if n' = 0 then con (Lift (liftK, liftC, 0) :: rest) c else find (n' - 1, rest, nudge - 1, liftK, liftC) in (*print (Int.toString n ^ ": " ^ e2s env ^ "\n");*) find (n, env, 0, 0, 0) end | CNamed n => (case IM.find (namedC, n) of NONE => all | SOME c => c) | CFfi ("Basis", "monad") => (CAbs ("m", (KArrow ((KType, loc), (KType, loc)), loc), monadRecord (CRel 0, loc) loc), loc) | CFfi _ => all | CApp (c1, c2) => let val c1 = con env c1 val c2 = con env c2 in case #1 c1 of CAbs (_, _, b) => con (KnownC c2 :: deKnown env) b | CApp ((CMap (dom, ran), _), f) => (case #1 c2 of CRecord (_, []) => (CRecord (kind env ran, []), loc) | CRecord (_, (x, c) :: rest) => con (deKnown env) (CConcat ((CRecord (ran, [(x, (CApp (f, c), loc))]), loc), (CApp (c1, (CRecord (kind env dom, rest), loc)), loc)), loc) | _ => (CApp (c1, c2), loc)) | _ => (CApp (c1, c2), loc) end | CAbs (x, k, b) => (CAbs (x, kind env k, con (UnknownC :: env) b), loc) | CKApp (c1, k) => let val c1 = con env c1 in case #1 c1 of CKAbs (_, b) => con (KnownK k :: deKnown env) b | _ => (CKApp (c1, kind env k), loc) end | CKAbs (x, b) => (CKAbs (x, con (UnknownK :: env) b), loc) | CName _ => all | CRecord (k, xcs) => (CRecord (kind env k, map (fn (x, c) => (con env x, con env c)) xcs), loc) | CConcat (c1, c2) => let val c1 = con env c1 val c2 = con env c2 in case (#1 c1, #1 c2) of (CRecord (k, xcs1), CRecord (_, xcs2)) => (CRecord (kind env k, xcs1 @ xcs2), loc) | (CRecord (_, []), _) => c2 | (_, CRecord (_, [])) => c1 | _ => (CConcat (c1, c2), loc) end | CMap (dom, ran) => (CMap (kind env dom, kind env ran), loc) | CUnit => all | CTuple cs => (CTuple (map (con env) cs), loc) | CProj (c, n) => let val c = con env c in case #1 c of CTuple cs => List.nth (cs, n - 1) | _ => (CProj (c, n), loc) end) fun patCon pc = case pc of PConVar _ => pc | PConFfi {mod = m, datatyp, params, con = c, arg, kind} => PConFfi {mod = m, datatyp = datatyp, params = params, con = c, arg = Option.map (con (map (fn _ => UnknownC) params)) arg, kind = kind} val k = (KType, ErrorMsg.dummySpan) fun doPart e (this as (x, t), rest) = ((x, (EField (e, x, {field = t, rest = (CRecord (k, rest), #2 t)}), #2 t), t), this :: rest) fun exp env (all as (e, loc)) = let (*val () = Print.prefaces "exp" [("e", CorePrint.p_exp CoreEnv.empty all), ("env", Print.PD.string (e2s env))]*) (*val () = if dangling (edepth env) all then (Print.prefaces "exp" [("e", CorePrint.p_exp CoreEnv.empty all), ("env", Print.PD.string (e2s env))]; raise Fail "!") else ()*) (*val () = if cdangling (cdepth env) all then Print.prefaces "Bad exp" [("e", CorePrint.p_exp CoreEnv.empty all), ("env", Print.PD.string (e2s env))] else ()*) fun patBinds (p, _) = case p of PWild => 0 | PVar _ => 1 | PPrim _ => 0 | PCon (_, _, _, NONE) => 0 | PCon (_, _, _, SOME p) => patBinds p | PRecord xpts => foldl (fn ((_, p, _), n) => n + patBinds p) 0 xpts val r = case e of EPrim _ => all | ERel n => let fun find (n', env, nudge, liftK, liftC, liftE) = case env of [] => raise Fail ("Reduce.exp: ERel (" ^ ErrorMsg.spanToString loc ^ ")") | UnknownK :: rest => find (n', rest, nudge, liftK + 1, liftC, liftE) | KnownK _ :: rest => find (n', rest, nudge, liftK, liftC, liftE) | UnknownC :: rest => find (n', rest, nudge, liftK, liftC + 1, liftE) | KnownC _ :: rest => find (n', rest, nudge, liftK, liftC, liftE) | Lift (liftK', liftC', liftE') :: rest => find (n', rest, nudge + liftE', liftK + liftK', liftC + liftC', liftE + liftE') | UnknownE :: rest => if n' = 0 then (ERel (n + nudge), loc) else find (n' - 1, rest, nudge, liftK, liftC, liftE + 1) | KnownE e :: rest => if n' = 0 then ((*print "SUBSTITUTING\n";*) exp (Lift (liftK, liftC, liftE) :: rest) e) else find (n' - 1, rest, nudge - 1, liftK, liftC, liftE) in (*print (Int.toString n ^ ": " ^ e2s env ^ "\n");*) find (n, env, 0, 0, 0, 0) end | ENamed n => (case IM.find (namedE, n) of NONE => all | SOME e => e) | ECon (dk, pc, cs, eo) => (ECon (dk, patCon pc, map (con env) cs, Option.map (exp env) eo), loc) | EFfi ("Basis", "return") => (ECAbs ("m", (KArrow ((KType, loc), (KType, loc)), loc), (ECAbs ("a", (KType, loc), (EAbs ("m", monadRecord (CRel 1, loc) loc, returnType (CRel 1, loc) loc, (ECApp ((EField ((ERel 0, loc), (CName "Return", loc), {field = returnType (CRel 1, loc) loc, rest = (CRecord ((KType, loc), [((CName "Bind", loc), bindType (CRel 1, loc) loc)]), loc)}), loc), (CRel 0, loc)), loc)), loc)), loc)), loc) | EFfi ("Basis", "bind") => (ECAbs ("m", (KArrow ((KType, loc), (KType, loc)), loc), (ECAbs ("a", (KType, loc), (ECAbs ("b", (KType, loc), (EAbs ("m", monadRecord (CRel 2, loc) loc, bindType (CRel 2, loc) loc, (ECApp ((ECApp ((EField ((ERel 0, loc), (CName "Bind", loc), {field = bindType (CRel 2, loc) loc, rest = (CRecord ((KType, loc), [((CName "Return", loc), returnType (CRel 2, loc) loc)]), loc)}), loc), (CRel 1, loc)), loc), (CRel 0, loc)), loc)), loc)), loc)), loc)), loc) | EFfi ("Basis", "mkMonad") => (ECAbs ("m", (KArrow ((KType, loc), (KType, loc)), loc), (EAbs ("m", monadRecord (CRel 0, loc) loc, monadRecord (CRel 0, loc) loc, (ERel 0, loc)), loc)), loc) | EFfi ("Basis", "transaction_monad") => (ERecord [((CName "Return", loc), (EFfi ("Basis", "transaction_return"), loc), returnType (CFfi ("Basis", "transaction"), loc) loc), ((CName "Bind", loc), (EFfi ("Basis", "transaction_bind"), loc), bindType (CFfi ("Basis", "transaction"), loc) loc)], loc) | EFfi ("Basis", "signal_monad") => (ERecord [((CName "Return", loc), (EFfi ("Basis", "signal_return"), loc), returnType (CFfi ("Basis", "signal"), loc) loc), ((CName "Bind", loc), (EFfi ("Basis", "signal_bind"), loc), bindType (CFfi ("Basis", "signal"), loc) loc)], loc) | EFfi _ => all | EFfiApp (m, f, es) => (EFfiApp (m, f, map (fn (e, t) => (exp env e, con env t)) es), loc) (*| EApp ( (EApp ((EApp ((ECApp ((ECApp ((ECApp ((EFfi ("Basis", "bind"), loc), _), _), t1), _), t2), _), (EFfi ("Basis", "transaction_monad"), _)), _), (ECase (ed, pes, {disc, ...}), _)), _), trans2) => let val e' = (EFfi ("Basis", "bind"), loc) val e' = (ECApp (e', (CFfi ("Basis", "transaction"), loc)), loc) val e' = (ECApp (e', t1), loc) val e' = (ECApp (e', t2), loc) val e' = (EApp (e', (EFfi ("Basis", "transaction_monad"), loc)), loc) val pes = map (fn (p, e) => let val e' = (EApp (e', e), loc) val e' = (EApp (e', multiLiftExpInExp (E.patBindsN p) trans2), loc) val e' = exp env e' in (p, e') end) pes in (ECase (exp env ed, pes, {disc = con env disc, result = (CApp ((CFfi ("Basis", "transaction"), loc), con env t2), loc)}), loc) end*) | EApp (e1, e2) => let val env' = deKnown env val e1 = exp env e1 val e2 = exp env e2 in case #1 e1 of ELet (x, t, e1', e2') => (ELet (x, t, e1', exp (UnknownE :: env') (EApp (e2', E.liftExpInExp 0 e2), loc)), loc) | EAbs (x, dom, _, b) => if count b <= 1 orelse passive e2 orelse ESpecialize.functionInside IS.empty dom then let val r = exp (KnownE e2 :: env') b in (*Print.prefaces "eapp" [("b", CorePrint.p_exp CoreEnv.empty b), ("env", Print.PD.string (e2s env')), ("e2", CorePrint.p_exp CoreEnv.empty e2), ("r", CorePrint.p_exp CoreEnv.empty r)];*) r end else let val dom = con env' dom val r = exp (UnknownE :: env') b in (*Print.prefaces "El skippo" [("x", Print.PD.string x), ("e2", CorePrint.p_exp CoreEnv.empty e2)];*) (ELet (x, dom, e2, r), loc) end | ECase (e, pes, cc as {disc, result = res as (TFun (_, c2), _)}) => let val pes' = map (fn (p, body) => let val env' = List.tabulate (patBinds p, fn _ => UnknownE) @ deKnown env val body' = exp env' (EApp (body, multiLiftExpInExp (patBinds p) e2), #2 body) in (p, body') end) pes val cc' = {disc = disc, result = c2} in (ECase (e, pes', cc'), loc) end | _ => (EApp (e1, e2), loc) end | EAbs (x, dom, ran, e) => (EAbs (x, con env dom, con env ran, exp (UnknownE :: env) e), loc) | ECApp (e, c) => let val e = exp env e val c = con env c in case #1 e of ECAbs (_, _, b) => let val r = exp (KnownC c :: deKnown env) b in (*Print.prefaces "csub" [("l", Print.PD.string (ErrorMsg.spanToString loc)), ("env", Print.PD.string (e2s (deKnown env))), ("b", CorePrint.p_exp CoreEnv.empty b), ("c", CorePrint.p_con CoreEnv.empty c), ("r", CorePrint.p_exp CoreEnv.empty r)];*) r end | ECase (e, pes, cc as {disc, result = res as (TCFun (_, _, c'), _)}) => let val pes' = map (fn (p, body) => let val env' = List.tabulate (patBinds p, fn _ => UnknownE) @ deKnown env val body' = exp env' (ECApp (body, c), #2 body) in (p, body') end) pes val c' = E.subConInCon (0, c) c' val cc' = {disc = disc, result = c'} in (ECase (e, pes', cc'), loc) end | _ => (ECApp (e, c), loc) end | ECAbs (x, k, e) => (ECAbs (x, kind env k, exp (UnknownC :: env) e), loc) | EKApp (e, k) => let val e = exp env e in case #1 e of EKAbs (_, b) => let val r = exp (KnownK k :: deKnown env) b in (*Print.prefaces "ksub" [("l", Print.PD.string (ErrorMsg.spanToString loc)), ("b", CorePrint.p_exp CoreEnv.empty b), ("k", CorePrint.p_kind CoreEnv.empty k), ("r", CorePrint.p_exp CoreEnv.empty r)];*) r end | _ => (EKApp (e, kind env k), loc) end | EKAbs (x, e) => (EKAbs (x, exp (UnknownK :: env) e), loc) | ERecord xcs => (ERecord (map (fn (x, e, t) => (con env x, exp env e, con env t)) xcs), loc) | EField (e, c, {field, rest}) => let val e = exp env e val c = con env c fun default () = (EField (e, c, {field = con env field, rest = con env rest}), loc) in case (#1 e, #1 c) of (ERecord xcs, CName x) => (case List.find (fn ((CName x', _), _, _) => x' = x | _ => false) xcs of NONE => default () | SOME (_, e, _) => e) | _ => default () end | EConcat (e1, c1, e2, c2) => let val e1 = exp env e1 val e2 = exp env e2 in case (#1 e1, #1 e2) of (ERecord xes1, ERecord xes2) => (ERecord (xes1 @ xes2), loc) | _ => let val c1 = con env c1 val c2 = con env c2 in case (#1 c1, #1 c2) of (CRecord (k, xcs1), CRecord (_, xcs2)) => let val (xes1, rest) = ListUtil.foldlMap (doPart e1) [] xcs1 val (xes2, _) = ListUtil.foldlMap (doPart e2) rest xcs2 in exp (deKnown env) (ERecord (xes1 @ xes2), loc) end | _ => (EConcat (e1, c1, e2, c2), loc) end end | ECut (e, c, {field, rest}) => let val e = exp env e val c = con env c fun default () = let val rest = con env rest in case #1 rest of CRecord (k, xcs) => let val (xes, _) = ListUtil.foldlMap (doPart e) [] xcs in exp (deKnown env) (ERecord xes, loc) end | _ => (ECut (e, c, {field = con env field, rest = rest}), loc) end in case (#1 e, #1 c) of (ERecord xes, CName x) => if List.all (fn ((CName _, _), _, _) => true | _ => false) xes then (ERecord (List.filter (fn ((CName x', _), _, _) => x' <> x | _ => raise Fail "Reduce: ECut") xes), loc) else default () | _ => default () end | ECutMulti (e, c, {rest}) => let val e = exp env e val c = con env c fun default () = let val rest = con env rest in case #1 rest of CRecord (k, xcs) => let val (xes, _) = ListUtil.foldlMap (doPart e) [] xcs in exp (deKnown env) (ERecord xes, loc) end | _ => (ECutMulti (e, c, {rest = rest}), loc) end in case (#1 e, #1 c) of (ERecord xes, CRecord (_, xcs)) => if List.all (fn ((CName _, _), _, _) => true | _ => false) xes andalso List.all (fn ((CName _, _), _) => true | _ => false) xcs then (ERecord (List.filter (fn ((CName x', _), _, _) => List.all (fn ((CName x, _), _) => x' <> x | _ => raise Fail "Reduce: ECutMulti [1]") xcs | _ => raise Fail "Reduce: ECutMulti [2]") xes), loc) else default () | _ => default () end | ECase (_, [((PRecord [], _), e)], _) => exp env e | ECase (_, [((PWild, _), e)], _) => exp env e | ECase (e, pes, {disc, result}) => let fun pat (all as (p, loc)) = case p of PWild => all | PVar (x, t) => (PVar (x, con env t), loc) | PPrim _ => all | PCon (dk, pc, cs, po) => (PCon (dk, patCon pc, map (con env) cs, Option.map pat po), loc) | PRecord xpts => (PRecord (map (fn (x, p, t) => (x, pat p, con env t)) xpts), loc) fun push () = (ECase (exp env e, map (fn (p, e) => (pat p, exp (List.tabulate (patBinds p, fn _ => UnknownE) @ env) e)) pes, {disc = con env disc, result = con env result}), loc) fun search pes = case pes of [] => push () | (p, body) :: pes => case match (env, p, e) of No => search pes | Maybe => push () | Yes env' => exp env' body in search pes end | EWrite e => (EWrite (exp env e), loc) | EClosure (n, es) => (EClosure (n, map (exp env) es), loc) | ELet (x, t, e1, e2) => let val e1' = exp env e1 val t = con env t in if notFfi t andalso (passive e1' orelse count e2 <= 1 orelse ESpecialize.functionInside IS.empty t) then exp (KnownE e1 :: env) e2 else (ELet (x, t, e1', exp (UnknownE :: env) e2), loc) end | EServerCall (n, es, t, fm) => (EServerCall (n, map (exp env) es, con env t, fm), loc) in (*if dangling (edepth' (deKnown env)) r then (Print.prefaces "exp" [("e", CorePrint.p_exp CoreEnv.empty all), ("r", CorePrint.p_exp CoreEnv.empty r)]; raise Fail "!!") else ();*) (*if cdangling (cdepth' (deKnown env)) r then (Print.prefaces "exp" [("e", CorePrint.p_exp CoreEnv.empty all), ("r", CorePrint.p_exp CoreEnv.empty r)]; raise Fail "!!") else ();*) r end in {kind = kind, con = con, exp = exp} end fun kind namedC env k = #kind (kindConAndExp (namedC, IM.empty)) env k fun con namedC env c = #con (kindConAndExp (namedC, IM.empty)) env c fun exp (namedC, namedE) env e = #exp (kindConAndExp (namedC, namedE)) env e fun reduce file = let val uses = CoreUtil.File.fold {kind = fn (_, m) => m, con = fn (_, m) => m, exp = fn (e, m) => case e of ENamed n => IM.insert (m, n, 1 + Option.getOpt (IM.find (m, n), 0)) | _ => m, decl = fn (_, m) => m} IM.empty file fun isPoly names = CoreUtil.Con.exists {kind = fn _ => false, con = fn TCFun _ => true | TKFun _ => true | CNamed n => IS.member (names, n) | _ => false} val size = CoreUtil.Exp.fold {kind = fn (_, n) => n, con = fn (_, n) => n, exp = fn (_, n) => n + 1} 0 fun mayInline (polyC, n, t, e, s) = let fun isPolicy t = case #1 t of CFfi ("Basis", "sql_policy") => true | TFun (_, t) => isPolicy t | _ => false in not (Settings.checkNeverInline s) andalso case IM.find (uses, n) of NONE => false | SOME count => count <= 1 orelse (case #1 e of ERecord _ => true | _ => false) orelse isPolicy t orelse isPoly polyC t orelse size e <= Settings.getCoreInline () end fun doDecl (d as (_, loc), st as (polyC, namedC, namedE)) = case #1 d of DCon (x, n, k, c) => let val k = kind namedC [] k val c = con namedC [] c in ((DCon (x, n, k, c), loc), (if isPoly polyC c then IS.add (polyC, n) else polyC, IM.insert (namedC, n, c), namedE)) end | DDatatype dts => ((DDatatype (map (fn (x, n, ps, cs) => let val env = map (fn _ => UnknownC) ps in (x, n, ps, map (fn (x, n, co) => (x, n, Option.map (con namedC env) co)) cs) end) dts), loc), (if List.exists (fn (_, _, _, cs) => List.exists (fn (_, _, co) => case co of NONE => false | SOME c => isPoly polyC c) cs) dts then foldl (fn ((_, n, _, _), polyC) => IS.add (polyC, n)) polyC dts else polyC, namedC, namedE)) | DVal (x, n, t, e, s) => let val t = con namedC [] t val e = exp (namedC, namedE) [] e in ((DVal (x, n, t, e, s), loc), (polyC, namedC, if mayInline (polyC, n, t, e, s) then IM.insert (namedE, n, e) else namedE)) end | DValRec vis => ((DValRec (map (fn (x, n, t, e, s) => (x, n, con namedC [] t, exp (namedC, namedE) [] e, s)) vis), loc), st) | DExport _ => (d, st) | DTable (s, n, c, s', pe, pc, ce, cc) => ((DTable (s, n, con namedC [] c, s', exp (namedC, namedE) [] pe, con namedC [] pc, exp (namedC, namedE) [] ce, con namedC [] cc), loc), st) | DSequence _ => (d, st) | DView (s, n, s', e, c) => ((DView (s, n, s', exp (namedC, namedE) [] e, con namedC [] c), loc), st) | DDatabase _ => (d, st) | DCookie (s, n, c, s') => ((DCookie (s, n, con namedC [] c, s'), loc), st) | DStyle (s, n, s') => ((DStyle (s, n, s'), loc), st) | DTask (e1, e2) => let val e1 = exp (namedC, namedE) [] e1 val e2 = exp (namedC, namedE) [] e2 in ((DTask (e1, e2), loc), (polyC, namedC, namedE)) end | DPolicy e1 => let val e1 = exp (namedC, namedE) [] e1 in ((DPolicy e1, loc), (polyC, namedC, namedE)) end | DOnError _ => (d, st) val (file, _) = ListUtil.foldlMap doDecl (IS.empty, IM.empty, IM.empty) file in file end end