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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.
*)
structure ElabUtil :> ELAB_UTIL = struct
open Elab
fun classifyDatatype xncs =
case xncs of
[(_, _, NONE), (_, _, SOME _)] => Option
| [(_, _, SOME _), (_, _, NONE)] => Option
| _ =>
if List.all (fn (_, _, NONE) => true | _ => false) xncs then
Enum
else
Default
structure S = Search
structure Kind = struct
fun mapfold f =
let
fun mfk k acc =
S.bindP (mfk' k acc, f)
and mfk' (kAll as (k, loc)) =
case k of
KType => S.return2 kAll
| KArrow (k1, k2) =>
S.bind2 (mfk k1,
fn k1' =>
S.map2 (mfk k2,
fn k2' =>
(KArrow (k1', k2'), loc)))
| KName => S.return2 kAll
| KRecord k =>
S.map2 (mfk k,
fn k' =>
(KRecord k', loc))
| KUnit => S.return2 kAll
| KTuple ks =>
S.map2 (ListUtil.mapfold mfk ks,
fn ks' =>
(KTuple ks', loc))
| KError => S.return2 kAll
| KUnif (_, _, ref (SOME k)) => mfk' k
| KUnif _ => S.return2 kAll
in
mfk
end
fun exists f k =
case mapfold (fn k => fn () =>
if f k then
S.Return ()
else
S.Continue (k, ())) k () of
S.Return _ => true
| S.Continue _ => false
end
structure Con = struct
datatype binder =
Rel of string * Elab.kind
| Named of string * int * Elab.kind
fun mapfoldB {kind = fk, con = fc, bind} =
let
val mfk = Kind.mapfold fk
fun mfc ctx c acc =
S.bindP (mfc' ctx c acc, fc ctx)
and mfc' ctx (cAll as (c, loc)) =
case c of
TFun (c1, c2) =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.map2 (mfc ctx c2,
fn c2' =>
(TFun (c1', c2'), loc)))
| TCFun (e, x, k, c) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (mfc (bind (ctx, Rel (x, k))) c,
fn c' =>
(TCFun (e, x, k', c'), loc)))
| CDisjoint (ai, c1, c2, c3) =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.bind2 (mfc ctx c2,
fn c2' =>
S.map2 (mfc ctx c3,
fn c3' =>
(CDisjoint (ai, c1', c2', c3'), loc))))
| TRecord c =>
S.map2 (mfc ctx c,
fn c' =>
(TRecord c', loc))
| CRel _ => S.return2 cAll
| CNamed _ => S.return2 cAll
| CModProj _ => S.return2 cAll
| CApp (c1, c2) =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.map2 (mfc ctx c2,
fn c2' =>
(CApp (c1', c2'), loc)))
| CAbs (x, k, c) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (mfc (bind (ctx, Rel (x, k))) c,
fn c' =>
(CAbs (x, k', c'), loc)))
| CName _ => S.return2 cAll
| CRecord (k, xcs) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (ListUtil.mapfold (fn (x, c) =>
S.bind2 (mfc ctx x,
fn x' =>
S.map2 (mfc ctx c,
fn c' =>
(x', c'))))
xcs,
fn xcs' =>
(CRecord (k', xcs'), loc)))
| CConcat (c1, c2) =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.map2 (mfc ctx c2,
fn c2' =>
(CConcat (c1', c2'), loc)))
| CMap (k1, k2) =>
S.bind2 (mfk k1,
fn k1' =>
S.map2 (mfk k2,
fn k2' =>
(CMap (k1', k2'), loc)))
| CUnit => S.return2 cAll
| CTuple cs =>
S.map2 (ListUtil.mapfold (mfc ctx) cs,
fn cs' =>
(CTuple cs', loc))
| CProj (c, n) =>
S.map2 (mfc ctx c,
fn c' =>
(CProj (c', n), loc))
| CError => S.return2 cAll
| CUnif (_, _, _, ref (SOME c)) => mfc' ctx c
| CUnif _ => S.return2 cAll
in
mfc
end
fun mapfold {kind = fk, con = fc} =
mapfoldB {kind = fk,
con = fn () => fc,
bind = fn ((), _) => ()} ()
fun mapB {kind, con, bind} ctx c =
case mapfoldB {kind = fn k => fn () => S.Continue (kind k, ()),
con = fn ctx => fn c => fn () => S.Continue (con ctx c, ()),
bind = bind} ctx c () of
S.Continue (c, ()) => c
| S.Return _ => raise Fail "ElabUtil.Con.mapB: Impossible"
fun map {kind, con} s =
case mapfold {kind = fn k => fn () => S.Continue (kind k, ()),
con = fn c => fn () => S.Continue (con c, ())} s () of
S.Return () => raise Fail "ElabUtil.Con.map: Impossible"
| S.Continue (s, ()) => s
fun exists {kind, con} k =
case mapfold {kind = fn k => fn () =>
if kind k then
S.Return ()
else
S.Continue (k, ()),
con = fn c => fn () =>
if con c then
S.Return ()
else
S.Continue (c, ())} k () of
S.Return _ => true
| S.Continue _ => false
fun foldB {kind, con, bind} ctx st c =
case mapfoldB {kind = fn k => fn st => S.Continue (k, kind (k, st)),
con = fn ctx => fn c => fn st => S.Continue (c, con (ctx, c, st)),
bind = bind} ctx c st of
S.Continue (_, st) => st
| S.Return _ => raise Fail "ElabUtil.Con.foldB: Impossible"
end
structure Exp = struct
datatype binder =
RelC of string * Elab.kind
| NamedC of string * int * Elab.kind
| RelE of string * Elab.con
| NamedE of string * Elab.con
fun mapfoldB {kind = fk, con = fc, exp = fe, bind} =
let
val mfk = Kind.mapfold fk
fun bind' (ctx, b) =
let
val b' = case b of
Con.Rel x => RelC x
| Con.Named x => NamedC x
in
bind (ctx, b')
end
val mfc = Con.mapfoldB {kind = fk, con = fc, bind = bind'}
fun mfe ctx e acc =
S.bindP (mfe' ctx e acc, fe ctx)
and mfe' ctx (eAll as (e, loc)) =
case e of
EPrim _ => S.return2 eAll
| ERel _ => S.return2 eAll
| ENamed _ => S.return2 eAll
| EModProj _ => S.return2 eAll
| EApp (e1, e2) =>
S.bind2 (mfe ctx e1,
fn e1' =>
S.map2 (mfe ctx e2,
fn e2' =>
(EApp (e1', e2'), loc)))
| EAbs (x, dom, ran, e) =>
S.bind2 (mfc ctx dom,
fn dom' =>
S.bind2 (mfc ctx ran,
fn ran' =>
S.map2 (mfe (bind (ctx, RelE (x, dom'))) e,
fn e' =>
(EAbs (x, dom', ran', e'), loc))))
| ECApp (e, c) =>
S.bind2 (mfe ctx e,
fn e' =>
S.map2 (mfc ctx c,
fn c' =>
(ECApp (e', c'), loc)))
| ECAbs (expl, x, k, e) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (mfe (bind (ctx, RelC (x, k))) e,
fn e' =>
(ECAbs (expl, x, k', e'), loc)))
| ERecord xes =>
S.map2 (ListUtil.mapfold (fn (x, e, t) =>
S.bind2 (mfc ctx x,
fn x' =>
S.bind2 (mfe ctx e,
fn e' =>
S.map2 (mfc ctx t,
fn t' =>
(x', e', t')))))
xes,
fn xes' =>
(ERecord xes', loc))
| EField (e, c, {field, rest}) =>
S.bind2 (mfe ctx e,
fn e' =>
S.bind2 (mfc ctx c,
fn c' =>
S.bind2 (mfc ctx field,
fn field' =>
S.map2 (mfc ctx rest,
fn rest' =>
(EField (e', c', {field = field', rest = rest'}), loc)))))
| EConcat (e1, c1, e2, c2) =>
S.bind2 (mfe ctx e1,
fn e1' =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.bind2 (mfe ctx e2,
fn e2' =>
S.map2 (mfc ctx c2,
fn c2' =>
(EConcat (e1', c1', e2', c2'),
loc)))))
| ECut (e, c, {field, rest}) =>
S.bind2 (mfe ctx e,
fn e' =>
S.bind2 (mfc ctx c,
fn c' =>
S.bind2 (mfc ctx field,
fn field' =>
S.map2 (mfc ctx rest,
fn rest' =>
(ECut (e', c', {field = field', rest = rest'}), loc)))))
| ECutMulti (e, c, {rest}) =>
S.bind2 (mfe ctx e,
fn e' =>
S.bind2 (mfc ctx c,
fn c' =>
S.map2 (mfc ctx rest,
fn rest' =>
(ECutMulti (e', c', {rest = rest'}), loc))))
| EFold k =>
S.map2 (mfk k,
fn k' =>
(EFold k', loc))
| ECase (e, pes, {disc, result}) =>
S.bind2 (mfe ctx e,
fn e' =>
S.bind2 (ListUtil.mapfold (fn (p, e) =>
let
fun pb ((p, _), ctx) =
case p of
PWild => ctx
| PVar (x, t) => bind (ctx, RelE (x, t))
| PPrim _ => ctx
| PCon (_, _, _, NONE) => ctx
| PCon (_, _, _, SOME p) => pb (p, ctx)
| PRecord xps => foldl (fn ((_, p, _), ctx) =>
pb (p, ctx)) ctx xps
in
S.map2 (mfe (pb (p, ctx)) e,
fn e' => (p, e'))
end) pes,
fn pes' =>
S.bind2 (mfc ctx disc,
fn disc' =>
S.map2 (mfc ctx result,
fn result' =>
(ECase (e', pes', {disc = disc', result = result'}), loc)))))
| EError => S.return2 eAll
| EUnif (ref (SOME e)) => mfe ctx e
| EUnif _ => S.return2 eAll
| ELet (des, e) =>
let
val (des, ctx) = foldl (fn (ed, (des, ctx)) =>
let
val ctx' =
case #1 ed of
EDVal (x, t, _) => bind (ctx, RelE (x, t))
| EDValRec vis =>
foldl (fn ((x, t, _), ctx) => bind (ctx, RelE (x, t))) ctx vis
in
(S.bind2 (des,
fn des' =>
S.map2 (mfed ctx ed,
fn ed' => des' @ [ed'])),
ctx')
end)
(S.return2 [], ctx) des
in
S.bind2 (des,
fn des' =>
S.map2 (mfe ctx e,
fn e' =>
(ELet (des', e'), loc)))
end
and mfed ctx (dAll as (d, loc)) =
case d of
EDVal vi =>
S.map2 (mfvi ctx vi,
fn vi' =>
(EDVal vi', loc))
| EDValRec vis =>
let
val ctx = foldl (fn ((x, t, _), ctx) => bind (ctx, RelE (x, t))) ctx vis
in
S.map2 (ListUtil.mapfold (mfvi ctx) vis,
fn vis' =>
(EDValRec vis', loc))
end
and mfvi ctx (x, c, e) =
S.bind2 (mfc ctx c,
fn c' =>
S.map2 (mfe ctx e,
fn e' =>
(x, c', e')))
in
mfe
end
fun mapfold {kind = fk, con = fc, exp = fe} =
mapfoldB {kind = fk,
con = fn () => fc,
exp = fn () => fe,
bind = fn ((), _) => ()} ()
fun exists {kind, con, exp} k =
case mapfold {kind = fn k => fn () =>
if kind k then
S.Return ()
else
S.Continue (k, ()),
con = fn c => fn () =>
if con c then
S.Return ()
else
S.Continue (c, ()),
exp = fn e => fn () =>
if exp e then
S.Return ()
else
S.Continue (e, ())} k () of
S.Return _ => true
| S.Continue _ => false
fun mapB {kind, con, exp, bind} ctx e =
case mapfoldB {kind = fn k => fn () => S.Continue (kind k, ()),
con = fn ctx => fn c => fn () => S.Continue (con ctx c, ()),
exp = fn ctx => fn e => fn () => S.Continue (exp ctx e, ()),
bind = bind} ctx e () of
S.Continue (e, ()) => e
| S.Return _ => raise Fail "ElabUtil.Exp.mapB: Impossible"
fun foldB {kind, con, exp, bind} ctx st e =
case mapfoldB {kind = fn k => fn st => S.Continue (k, kind (k, st)),
con = fn ctx => fn c => fn st => S.Continue (c, con (ctx, c, st)),
exp = fn ctx => fn e => fn st => S.Continue (e, exp (ctx, e, st)),
bind = bind} ctx e st of
S.Continue (_, st) => st
| S.Return _ => raise Fail "ElabUtil.Exp.foldB: Impossible"
end
structure Sgn = struct
datatype binder =
RelC of string * Elab.kind
| NamedC of string * int * Elab.kind
| Str of string * Elab.sgn
| Sgn of string * Elab.sgn
fun mapfoldB {kind, con, sgn_item, sgn, bind} =
let
fun bind' (ctx, b) =
let
val b' = case b of
Con.Rel x => RelC x
| Con.Named x => NamedC x
in
bind (ctx, b')
end
val con = Con.mapfoldB {kind = kind, con = con, bind = bind'}
val kind = Kind.mapfold kind
fun sgi ctx si acc =
S.bindP (sgi' ctx si acc, sgn_item ctx)
and sgi' ctx (siAll as (si, loc)) =
case si of
SgiConAbs (x, n, k) =>
S.map2 (kind k,
fn k' =>
(SgiConAbs (x, n, k'), loc))
| SgiCon (x, n, k, c) =>
S.bind2 (kind k,
fn k' =>
S.map2 (con ctx c,
fn c' =>
(SgiCon (x, n, k', c'), loc)))
| SgiDatatype (x, n, xs, xncs) =>
S.map2 (ListUtil.mapfold (fn (x, n, c) =>
case c of
NONE => S.return2 (x, n, c)
| SOME c =>
S.map2 (con ctx c,
fn c' => (x, n, SOME c'))) xncs,
fn xncs' =>
(SgiDatatype (x, n, xs, xncs'), loc))
| SgiDatatypeImp (x, n, m1, ms, s, xs, xncs) =>
S.map2 (ListUtil.mapfold (fn (x, n, c) =>
case c of
NONE => S.return2 (x, n, c)
| SOME c =>
S.map2 (con ctx c,
fn c' => (x, n, SOME c'))) xncs,
fn xncs' =>
(SgiDatatypeImp (x, n, m1, ms, s, xs, xncs'), loc))
| SgiVal (x, n, c) =>
S.map2 (con ctx c,
fn c' =>
(SgiVal (x, n, c'), loc))
| SgiStr (x, n, s) =>
S.map2 (sg ctx s,
fn s' =>
(SgiStr (x, n, s'), loc))
| SgiSgn (x, n, s) =>
S.map2 (sg ctx s,
fn s' =>
(SgiSgn (x, n, s'), loc))
| SgiConstraint (c1, c2) =>
S.bind2 (con ctx c1,
fn c1' =>
S.map2 (con ctx c2,
fn c2' =>
(SgiConstraint (c1', c2'), loc)))
| SgiClassAbs (x, n, k) =>
S.map2 (kind k,
fn k' =>
(SgiClassAbs (x, n, k'), loc))
| SgiClass (x, n, k, c) =>
S.bind2 (kind k,
fn k' =>
S.map2 (con ctx c,
fn c' =>
(SgiClass (x, n, k', c'), loc)))
and sg ctx s acc =
S.bindP (sg' ctx s acc, sgn ctx)
and sg' ctx (sAll as (s, loc)) =
case s of
SgnConst sgis =>
S.map2 (ListUtil.mapfoldB (fn (ctx, si) =>
(case #1 si of
SgiConAbs (x, n, k) =>
bind (ctx, NamedC (x, n, k))
| SgiCon (x, n, k, _) =>
bind (ctx, NamedC (x, n, k))
| SgiDatatype (x, n, _, xncs) =>
bind (ctx, NamedC (x, n, (KType, loc)))
| SgiDatatypeImp (x, n, _, _, _, _, _) =>
bind (ctx, NamedC (x, n, (KType, loc)))
| SgiVal _ => ctx
| SgiStr (x, _, sgn) =>
bind (ctx, Str (x, sgn))
| SgiSgn (x, _, sgn) =>
bind (ctx, Sgn (x, sgn))
| SgiConstraint _ => ctx
| SgiClassAbs (x, n, k) =>
bind (ctx, NamedC (x, n, (KArrow (k, (KType, loc)), loc)))
| SgiClass (x, n, k, _) =>
bind (ctx, NamedC (x, n, (KArrow (k, (KType, loc)), loc))),
sgi ctx si)) ctx sgis,
fn sgis' =>
(SgnConst sgis', loc))
| SgnVar _ => S.return2 sAll
| SgnFun (m, n, s1, s2) =>
S.bind2 (sg ctx s1,
fn s1' =>
S.map2 (sg (bind (ctx, Str (m, s1'))) s2,
fn s2' =>
(SgnFun (m, n, s1', s2'), loc)))
| SgnProj _ => S.return2 sAll
| SgnWhere (sgn, x, c) =>
S.bind2 (sg ctx sgn,
fn sgn' =>
S.map2 (con ctx c,
fn c' =>
(SgnWhere (sgn', x, c'), loc)))
| SgnError => S.return2 sAll
in
sg
end
fun mapfold {kind, con, sgn_item, sgn} =
mapfoldB {kind = kind,
con = fn () => con,
sgn_item = fn () => sgn_item,
sgn = fn () => sgn,
bind = fn ((), _) => ()} ()
fun map {kind, con, sgn_item, sgn} s =
case mapfold {kind = fn k => fn () => S.Continue (kind k, ()),
con = fn c => fn () => S.Continue (con c, ()),
sgn_item = fn si => fn () => S.Continue (sgn_item si, ()),
sgn = fn s => fn () => S.Continue (sgn s, ())} s () of
S.Return () => raise Fail "Elab_util.Sgn.map"
| S.Continue (s, ()) => s
end
structure Decl = struct
datatype binder =
RelC of string * Elab.kind
| NamedC of string * int * Elab.kind
| RelE of string * Elab.con
| NamedE of string * Elab.con
| Str of string * Elab.sgn
| Sgn of string * Elab.sgn
fun mapfoldB {kind = fk, con = fc, exp = fe, sgn_item = fsgi, sgn = fsg, str = fst, decl = fd, bind} =
let
val mfk = Kind.mapfold fk
fun bind' (ctx, b) =
let
val b' = case b of
Con.Rel x => RelC x
| Con.Named x => NamedC x
in
bind (ctx, b')
end
val mfc = Con.mapfoldB {kind = fk, con = fc, bind = bind'}
fun bind' (ctx, b) =
let
val b' = case b of
Exp.RelC x => RelC x
| Exp.NamedC x => NamedC x
| Exp.RelE x => RelE x
| Exp.NamedE x => NamedE x
in
bind (ctx, b')
end
val mfe = Exp.mapfoldB {kind = fk, con = fc, exp = fe, bind = bind'}
fun bind' (ctx, b) =
let
val b' = case b of
Sgn.RelC x => RelC x
| Sgn.NamedC x => NamedC x
| Sgn.Sgn x => Sgn x
| Sgn.Str x => Str x
in
bind (ctx, b')
end
val mfsg = Sgn.mapfoldB {kind = fk, con = fc, sgn_item = fsgi, sgn = fsg, bind = bind'}
fun mfst ctx str acc =
S.bindP (mfst' ctx str acc, fst ctx)
and mfst' ctx (strAll as (str, loc)) =
case str of
StrConst ds =>
S.map2 (ListUtil.mapfoldB (fn (ctx, d) =>
(case #1 d of
DCon (x, n, k, _) =>
bind (ctx, NamedC (x, n, k))
| DDatatype (x, n, xs, xncs) =>
let
val ctx = bind (ctx, NamedC (x, n, (KType, loc)))
in
foldl (fn ((x, _, co), ctx) =>
let
val t =
case co of
NONE => CNamed n
| SOME t => TFun (t, (CNamed n, loc))
val k = (KType, loc)
val t = (t, loc)
val t = foldr (fn (x, t) =>
(TCFun (Explicit,
x,
k,
t), loc))
t xs
in
bind (ctx, NamedE (x, t))
end)
ctx xncs
end
| DDatatypeImp (x, n, m, ms, x', _, _) =>
bind (ctx, NamedC (x, n, (KType, loc)))
| DVal (x, _, c, _) =>
bind (ctx, NamedE (x, c))
| DValRec vis =>
foldl (fn ((x, _, c, _), ctx) => bind (ctx, NamedE (x, c))) ctx vis
| DSgn (x, _, sgn) =>
bind (ctx, Sgn (x, sgn))
| DStr (x, _, sgn, _) =>
bind (ctx, Str (x, sgn))
| DFfiStr (x, _, sgn) =>
bind (ctx, Str (x, sgn))
| DConstraint _ => ctx
| DExport _ => ctx
| DTable (tn, x, n, c) =>
bind (ctx, NamedE (x, (CApp ((CModProj (n, [], "sql_table"), loc),
c), loc)))
| DSequence (tn, x, n) =>
bind (ctx, NamedE (x, (CModProj (n, [], "sql_sequence"), loc)))
| DClass (x, n, k, _) =>
bind (ctx, NamedC (x, n, (KArrow (k, (KType, loc)), loc)))
| DDatabase _ => ctx
| DCookie (tn, x, n, c) =>
bind (ctx, NamedE (x, (CApp ((CModProj (n, [], "cookie"), loc),
c), loc))),
mfd ctx d)) ctx ds,
fn ds' => (StrConst ds', loc))
| StrVar _ => S.return2 strAll
| StrProj (str, x) =>
S.map2 (mfst ctx str,
fn str' =>
(StrProj (str', x), loc))
| StrFun (x, n, sgn1, sgn2, str) =>
S.bind2 (mfsg ctx sgn1,
fn sgn1' =>
S.bind2 (mfsg ctx sgn2,
fn sgn2' =>
S.map2 (mfst ctx str,
fn str' =>
(StrFun (x, n, sgn1', sgn2', str'), loc))))
| StrApp (str1, str2) =>
S.bind2 (mfst ctx str1,
fn str1' =>
S.map2 (mfst ctx str2,
fn str2' =>
(StrApp (str1', str2'), loc)))
| StrError => S.return2 strAll
and mfd ctx d acc =
S.bindP (mfd' ctx d acc, fd ctx)
and mfd' ctx (dAll as (d, loc)) =
case d of
DCon (x, n, k, c) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (mfc ctx c,
fn c' =>
(DCon (x, n, k', c'), loc)))
| DDatatype (x, n, xs, xncs) =>
S.map2 (ListUtil.mapfold (fn (x, n, c) =>
case c of
NONE => S.return2 (x, n, c)
| SOME c =>
S.map2 (mfc ctx c,
fn c' => (x, n, SOME c'))) xncs,
fn xncs' =>
(DDatatype (x, n, xs, xncs'), loc))
| DDatatypeImp (x, n, m1, ms, s, xs, xncs) =>
S.map2 (ListUtil.mapfold (fn (x, n, c) =>
case c of
NONE => S.return2 (x, n, c)
| SOME c =>
S.map2 (mfc ctx c,
fn c' => (x, n, SOME c'))) xncs,
fn xncs' =>
(DDatatypeImp (x, n, m1, ms, s, xs, xncs'), loc))
| DVal vi =>
S.map2 (mfvi ctx vi,
fn vi' =>
(DVal vi', loc))
| DValRec vis =>
S.map2 (ListUtil.mapfold (mfvi ctx) vis,
fn vis' =>
(DValRec vis', loc))
| DSgn (x, n, sgn) =>
S.map2 (mfsg ctx sgn,
fn sgn' =>
(DSgn (x, n, sgn'), loc))
| DStr (x, n, sgn, str) =>
S.bind2 (mfsg ctx sgn,
fn sgn' =>
S.map2 (mfst ctx str,
fn str' =>
(DStr (x, n, sgn', str'), loc)))
| DFfiStr (x, n, sgn) =>
S.map2 (mfsg ctx sgn,
fn sgn' =>
(DFfiStr (x, n, sgn'), loc))
| DConstraint (c1, c2) =>
S.bind2 (mfc ctx c1,
fn c1' =>
S.map2 (mfc ctx c2,
fn c2' =>
(DConstraint (c1', c2'), loc)))
| DExport (en, sgn, str) =>
S.bind2 (mfsg ctx sgn,
fn sgn' =>
S.map2 (mfst ctx str,
fn str' =>
(DExport (en, sgn', str'), loc)))
| DTable (tn, x, n, c) =>
S.map2 (mfc ctx c,
fn c' =>
(DTable (tn, x, n, c'), loc))
| DSequence _ => S.return2 dAll
| DClass (x, n, k, c) =>
S.bind2 (mfk k,
fn k' =>
S.map2 (mfc ctx c,
fn c' =>
(DClass (x, n, k', c'), loc)))
| DDatabase _ => S.return2 dAll
| DCookie (tn, x, n, c) =>
S.map2 (mfc ctx c,
fn c' =>
(DCookie (tn, x, n, c'), loc))
and mfvi ctx (x, n, c, e) =
S.bind2 (mfc ctx c,
fn c' =>
S.map2 (mfe ctx e,
fn e' =>
(x, n, c', e')))
in
mfd
end
fun mapfold {kind, con, exp, sgn_item, sgn, str, decl} =
mapfoldB {kind = kind,
con = fn () => con,
exp = fn () => exp,
sgn_item = fn () => sgn_item,
sgn = fn () => sgn,
str = fn () => str,
decl = fn () => decl,
bind = fn ((), _) => ()} ()
fun exists {kind, con, exp, sgn_item, sgn, str, decl} k =
case mapfold {kind = fn k => fn () =>
if kind k then
S.Return ()
else
S.Continue (k, ()),
con = fn c => fn () =>
if con c then
S.Return ()
else
S.Continue (c, ()),
exp = fn e => fn () =>
if exp e then
S.Return ()
else
S.Continue (e, ()),
sgn_item = fn sgi => fn () =>
if sgn_item sgi then
S.Return ()
else
S.Continue (sgi, ()),
sgn = fn x => fn () =>
if sgn x then
S.Return ()
else
S.Continue (x, ()),
str = fn x => fn () =>
if str x then
S.Return ()
else
S.Continue (x, ()),
decl = fn x => fn () =>
if decl x then
S.Return ()
else
S.Continue (x, ())} k () of
S.Return _ => true
| S.Continue _ => false
fun search {kind, con, exp, sgn_item, sgn, str, decl} k =
case mapfold {kind = fn x => fn () =>
case kind x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
con = fn x => fn () =>
case con x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
exp = fn x => fn () =>
case exp x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
sgn_item = fn x => fn () =>
case sgn_item x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
sgn = fn x => fn () =>
case sgn x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
str = fn x => fn () =>
case str x of
NONE => S.Continue (x, ())
| SOME v => S.Return v,
decl = fn x => fn () =>
case decl x of
NONE => S.Continue (x, ())
| SOME v => S.Return v
} k () of
S.Return x => SOME x
| S.Continue _ => NONE
fun foldMapB {kind, con, exp, sgn_item, sgn, str, decl, bind} ctx st d =
case mapfoldB {kind = fn x => fn st => S.Continue (kind (x, st)),
con = fn ctx => fn x => fn st => S.Continue (con (ctx, x, st)),
exp = fn ctx => fn x => fn st => S.Continue (exp (ctx, x, st)),
sgn_item = fn ctx => fn x => fn st => S.Continue (sgn_item (ctx, x, st)),
sgn = fn ctx => fn x => fn st => S.Continue (sgn (ctx, x, st)),
str = fn ctx => fn x => fn st => S.Continue (str (ctx, x, st)),
decl = fn ctx => fn x => fn st => S.Continue (decl (ctx, x, st)),
bind = bind} ctx d st of
S.Continue x => x
| S.Return _ => raise Fail "ElabUtil.Decl.foldMapB: Impossible"
end
structure File = struct
fun maxName ds = foldl (fn (d, count) => Int.max (maxNameDecl d, count)) 0 ds
and maxNameDecl (d, _) =
case d of
DCon (_, n, _, _) => n
| DDatatype (_, n, _, ns) =>
foldl (fn ((_, n', _), m) => Int.max (n', m))
n ns
| DDatatypeImp (_, n1, n2, _, _, _, ns) =>
foldl (fn ((_, n', _), m) => Int.max (n', m))
(Int.max (n1, n2)) ns
| DVal (_, n, _, _) => n
| DValRec vis => foldl (fn ((_, n, _, _), count) => Int.max (n, count)) 0 vis
| DStr (_, n, sgn, str) => Int.max (n, Int.max (maxNameSgn sgn, maxNameStr str))
| DSgn (_, n, sgn) => Int.max (n, maxNameSgn sgn)
| DFfiStr (_, n, sgn) => Int.max (n, maxNameSgn sgn)
| DConstraint _ => 0
| DClass (_, n, _, _) => n
| DExport _ => 0
| DTable (n1, _, n2, _) => Int.max (n1, n2)
| DSequence (n1, _, n2) => Int.max (n1, n2)
| DDatabase _ => 0
| DCookie (n1, _, n2, _) => Int.max (n1, n2)
and maxNameStr (str, _) =
case str of
StrConst ds => maxName ds
| StrVar n => n
| StrProj (str, _) => maxNameStr str
| StrFun (_, n, dom, ran, str) => foldl Int.max n [maxNameSgn dom, maxNameSgn ran, maxNameStr str]
| StrApp (str1, str2) => Int.max (maxNameStr str1, maxNameStr str2)
| StrError => 0
and maxNameSgn (sgn, _) =
case sgn of
SgnConst sgis => foldl (fn (sgi, count) => Int.max (maxNameSgi sgi, count)) 0 sgis
| SgnVar n => n
| SgnFun (_, n, dom, ran) => Int.max (n, Int.max (maxNameSgn dom, maxNameSgn ran))
| SgnWhere (sgn, _, _) => maxNameSgn sgn
| SgnProj (n, _, _) => n
| SgnError => 0
and maxNameSgi (sgi, _) =
case sgi of
SgiConAbs (_, n, _) => n
| SgiCon (_, n, _, _) => n
| SgiDatatype (_, n, _, ns) =>
foldl (fn ((_, n', _), m) => Int.max (n', m))
n ns
| SgiDatatypeImp (_, n1, n2, _, _, _, ns) =>
foldl (fn ((_, n', _), m) => Int.max (n', m))
(Int.max (n1, n2)) ns
| SgiVal (_, n, _) => n
| SgiStr (_, n, sgn) => Int.max (n, maxNameSgn sgn)
| SgiSgn (_, n, sgn) => Int.max (n, maxNameSgn sgn)
| SgiConstraint _ => 0
| SgiClassAbs (_, n, _) => n
| SgiClass (_, n, _, _) => n
end
end
|