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|
(* Copyright (c) 2008, 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.
*)
(* Remove nested function definitions *)
structure Unnest :> UNNEST = struct
open Elab
structure E = ElabEnv
structure U = ElabUtil
structure IS = IntBinarySet
fun liftExpInExp by =
U.Exp.mapB {kind = fn _ => fn k => k,
con = fn _ => fn c => c,
exp = fn bound => fn e =>
case e of
ERel xn =>
if xn < bound then
e
else
ERel (xn + by)
| _ => e,
bind = fn (bound, U.Exp.RelE _) => bound + 1
| (bound, _) => bound}
val subExpInExp =
U.Exp.mapB {kind = fn _ => fn k => k,
con = fn _ => fn c => c,
exp = fn (xn, rep) => fn e =>
case e of
ERel xn' =>
if xn' = xn then
#1 rep
else
e
| _ => e,
bind = fn ((xn, rep), U.Exp.RelE _) => (xn+1, E.liftExpInExp 0 rep)
| ((xn, rep), U.Exp.RelC _) => (xn, E.liftConInExp 0 rep)
| (ctx, _) => ctx}
val fvsCon = U.Con.foldB {kind = fn (_, _, st) => st,
con = fn (cb, c, cvs) =>
case c of
CRel n =>
if n >= cb then
IS.add (cvs, n - cb)
else
cvs
| _ => cvs,
bind = fn (cb, b) =>
case b of
U.Con.RelC _ => cb + 1
| _ => cb}
0 IS.empty
fun fvsExp nr = U.Exp.foldB {kind = fn (_, _, st) => st,
con = fn ((cb, eb), c, st as (cvs, evs)) =>
case c of
CRel n =>
if n >= cb then
(IS.add (cvs, n - cb), evs)
else
st
| _ => st,
exp = fn ((cb, eb), e, st as (cvs, evs)) =>
case e of
ERel n =>
if n >= eb then
(cvs, IS.add (evs, n - eb))
else
st
| _ => st,
bind = fn (ctx as (cb, eb), b) =>
case b of
U.Exp.RelC _ => (cb + 1, eb)
| U.Exp.RelE _ => (cb, eb + 1)
| _ => ctx}
(0, nr) (IS.empty, IS.empty)
fun positionOf (x : int) ls =
let
fun po n ls =
case ls of
[] => raise Fail "Unnest.positionOf"
| x' :: ls' =>
if x' = x then
n
else
po (n + 1) ls'
in
po 0 ls
handle Fail _ => raise Fail ("Unnest.positionOf("
^ Int.toString x
^ ", "
^ String.concatWith ";" (map Int.toString ls)
^ ")")
end
fun squishCon cfv =
U.Con.mapB {kind = fn _ => fn k => k,
con = fn cb => fn c =>
case c of
CRel n =>
if n >= cb then
CRel (positionOf (n - cb) cfv + cb)
else
c
| _ => c,
bind = fn (cb, b) =>
case b of
U.Con.RelC _ => cb + 1
| _ => cb}
0
fun squishExp (nr, cfv, efv) =
U.Exp.mapB {kind = fn _ => fn k => k,
con = fn (cb, eb) => fn c =>
case c of
CRel n =>
if n >= cb then
CRel (positionOf (n - cb) cfv + cb)
else
c
| _ => c,
exp = fn (cb, eb) => fn e =>
case e of
ERel n =>
if n >= eb then
ERel (positionOf (n - eb) efv + eb - nr)
else
e
| _ => e,
bind = fn (ctx as (cb, eb), b) =>
case b of
U.Exp.RelC _ => (cb + 1, eb)
| U.Exp.RelE _ => (cb, eb + 1)
| _ => ctx}
(0, nr)
type state = {
maxName : int,
decls : (string * int * con * exp) list
}
fun kind (_, k, st) = (k, st)
fun exp ((ks, ts), e as old, st : state) =
case e of
ELet (eds, e, t) =>
let
(*val () = Print.prefaces "Letto" [("e", ElabPrint.p_exp E.empty (old, ErrorMsg.dummySpan))]*)
fun doSubst' (e, subs) = foldl (fn (p, e) => subExpInExp p e) e subs
fun doSubst (e, subs, by) =
let
val e = doSubst' (e, subs)
in
liftExpInExp (~by) (length subs) e
end
val (eds, (ts, maxName, ds, subs, by)) =
ListUtil.foldlMapConcat
(fn (ed, (ts, maxName, ds, subs, by)) =>
case #1 ed of
EDVal (p, t, e) =>
let
val e = doSubst (e, subs, by)
fun doVars ((p, _), ts) =
case p of
PWild => ts
| PVar xt => xt :: ts
| PPrim _ => ts
| PCon (_, _, _, NONE) => ts
| PCon (_, _, _, SOME p) => doVars (p, ts)
| PRecord xpcs =>
foldl (fn ((_, p, _), ts) => doVars (p, ts))
ts xpcs
in
([(EDVal (p, t, e), #2 ed)],
(doVars (p, ts),
maxName, ds,
((0, (ERel 0, #2 ed))
:: map (fn (n, e) => (n + 1, E.liftExpInExp 0 e)) subs),
by))
end
| EDValRec vis =>
let
val loc = #2 ed
val nr = length vis
val subsLocal = List.filter (fn (_, (ERel _, _)) => false
| _ => true) subs
val subsLocal = map (fn (n, e) => (n + nr, liftExpInExp nr 0 e))
subsLocal
val vis = map (fn (x, t, e) =>
(x, t, doSubst' (e, subsLocal))) vis
val (cfv, efv) = foldl (fn ((_, t, e), (cfv, efv)) =>
let
val (cfv', efv') = fvsExp nr e
(*val () = Print.prefaces "fvsExp"
[("e", ElabPrint.p_exp E.empty e),
("cfv", Print.PD.string
(Int.toString (IS.numItems cfv'))),
("efv", Print.PD.string
(Int.toString (IS.numItems efv')))]*)
val cfv'' = fvsCon t
in
(IS.union (cfv, IS.union (cfv', cfv'')),
IS.union (efv, efv'))
end)
(IS.empty, IS.empty) vis
(*val () = Print.prefaces "Letto" [("e", ElabPrint.p_exp E.empty (old, ErrorMsg.dummySpan))]*)
(*val () = print ("A: " ^ Int.toString (length ts) ^ ", " ^ Int.toString (length ks) ^ "\n")*)
(*val () = app (fn (x, t) =>
Print.prefaces "Var" [("x", Print.PD.string x),
("t", ElabPrint.p_con E.empty t)]) ts
val () = IS.app (fn n => print ("Free: " ^ Int.toString n ^ "\n")) efv*)
val cfv = IS.foldl (fn (x, cfv) =>
let
(*val () = print (Int.toString x ^ "\n")*)
val (_, t) = List.nth (ts, x)
in
IS.union (cfv, fvsCon t)
end)
cfv efv
(*val () = print "B\n"*)
val (vis, maxName) =
ListUtil.foldlMap (fn ((x, t, e), maxName) =>
((x, maxName, t, e),
maxName + 1))
maxName vis
val subs = map (fn (n, e) => (n + nr,
case e of
(ERel _, _) => e
| _ => liftExpInExp nr 0 e))
subs
val subs' = ListUtil.mapi (fn (i, (_, n, _, _)) =>
let
val e = (ENamed n, loc)
val e = IS.foldr (fn (x, e) =>
(ECApp (e, (CRel x, loc)), loc))
e cfv
val e = IS.foldr (fn (x, e) =>
(EApp (e, (ERel (nr + x), loc)),
loc))
e efv
in
(nr - i - 1, e)
end)
vis
val cfv = IS.listItems cfv
val efv = IS.listItems efv
val subs = subs' @ subs
val vis = map (fn (x, n, t, e) =>
let
(*val () = Print.prefaces "preSubst"
[("e", ElabPrint.p_exp E.empty e)]*)
val e = doSubst' (e, subs')
(*val () = Print.prefaces "squishCon"
[("t", ElabPrint.p_con E.empty t)]*)
val t = squishCon cfv t
(*val () = Print.prefaces "squishExp"
[("e", ElabPrint.p_exp E.empty e)]*)
val e = squishExp (nr, cfv, efv) e
(*val () = print ("Avail: " ^ Int.toString (length ts) ^ "\n")*)
val (e, t) = foldl (fn (ex, (e, t)) =>
let
(*val () = print (Int.toString ex ^ "\n")*)
val (name, t') = List.nth (ts, ex)
in
((EAbs (name,
t',
t,
e), loc),
(TFun (t',
t), loc))
end)
(e, t) efv
(*val () = print "Done\n"*)
val (e, t) = foldl (fn (cx, (e, t)) =>
let
val (name, k) = List.nth (ks, cx)
in
((ECAbs (Explicit,
name,
k,
e), loc),
(TCFun (Explicit,
name,
k,
t), loc))
end)
(e, t) cfv
in
(*Print.prefaces "Have a vi"
[("x", Print.PD.string x),
("e", ElabPrint.p_exp ElabEnv.empty e)];*)
("$" ^ x, n, t, e)
end)
vis
val ts = List.revAppend (map (fn (x, _, t, _) => (x, t)) vis, ts)
in
([], (ts, maxName, vis @ ds, subs, by + nr))
end)
(ts, #maxName st, #decls st, [], 0) eds
val e' = doSubst (e, subs, by)
in
(*Print.prefaces "Before" [("e", ElabPrint.p_exp ElabEnv.empty e),
("se", ElabPrint.p_exp ElabEnv.empty (doSubst' (e, subs))),
("e'", ElabPrint.p_exp ElabEnv.empty e')];*)
(ELet (eds, e', t),
{maxName = maxName,
decls = ds})
(*(ELet (eds, doSubst (liftExpInExp (~(length subs - numRemaining)) (length subs) e) subs),*)
end
| _ => (e, st)
fun default (ctx, d, st) = (d, st)
fun bind ((ks, ts), b) =
case b of
U.Decl.RelC p => (p :: ks, map (fn (name, t) => (name, E.liftConInCon 0 t)) ts)
| U.Decl.RelE p => (ks, p :: ts)
| _ => (ks, ts)
val unnestDecl = U.Decl.foldMapB {kind = kind,
con = default,
exp = exp,
sgn_item = default,
sgn = default,
str = default,
decl = default,
bind = bind}
([], [])
fun unnest file =
let
fun doDecl (all as (d, loc), st : state) =
let
fun default () = ([all], st)
fun explore () =
let
val (d, st) = unnestDecl st all
val ds =
case #1 d of
DValRec vis => [(DValRec (vis @ #decls st), #2 d)]
| _ => [(DValRec (#decls st), #2 d), d]
in
(ds,
{maxName = #maxName st,
decls = []})
end
in
case d of
DCon _ => default ()
| DDatatype _ => default ()
| DDatatypeImp _ => default ()
| DVal _ => explore ()
| DValRec _ => explore ()
| DSgn _ => default ()
| DStr (x, n, sgn, str) =>
let
val (str, st) = doStr (str, st)
in
([(DStr (x, n, sgn, str), loc)], st)
end
| DFfiStr _ => default ()
| DConstraint _ => default ()
| DExport _ => default ()
| DTable _ => default ()
| DSequence _ => default ()
| DView _ => default ()
| DClass _ => default ()
| DDatabase _ => default ()
| DCookie _ => default ()
| DStyle _ => default ()
| DTask _ => explore ()
| DPolicy _ => explore ()
end
and doStr (all as (str, loc), st) =
let
fun default () = (all, st)
in
case str of
StrConst ds =>
let
val (ds, st) = ListUtil.foldlMapConcat doDecl st ds
in
((StrConst ds, loc), st)
end
| StrVar _ => default ()
| StrProj _ => default ()
| StrFun (x, n, dom, ran, str) =>
let
val (str, st) = doStr (str, st)
in
((StrFun (x, n, dom, ran, str), loc), st)
end
| StrApp _ => default ()
| StrError => raise Fail "Unnest: StrError"
end
val (ds, _) = ListUtil.foldlMapConcat doDecl
{maxName = U.File.maxName file + 1,
decls = []} file
in
ds
end
end
|