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view src/specialize.sml @ 610:c41b2abf156b
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author | Adam Chlipala <adamc@hcoop.net> |
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date | Sun, 15 Feb 2009 10:54:00 -0500 |
parents | e21d0dddda09 |
children | d20d6afc1206 |
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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. *) (* Simplify a Core program by repeating polymorphic definitions of datatypes *) structure Specialize :> SPECIALIZE = struct open Core structure E = CoreEnv structure U = CoreUtil val liftConInCon = E.liftConInCon val subConInCon = E.subConInCon structure CK = struct type ord_key = con list val compare = Order.joinL U.Con.compare end structure CM = BinaryMapFn(CK) structure IM = IntBinaryMap type datatyp' = { name : int, constructors : int IM.map } type datatyp = { name : string, params : int, constructors : (string * int * con option) list, specializations : datatyp' CM.map } type state = { count : int, datatypes : datatyp IM.map, constructors : int IM.map, decls : decl list } fun kind (k, st) = (k, st) val isOpen = U.Con.exists {kind = fn _ => false, con = fn c => case c of CRel _ => true | _ => false} fun considerSpecialization (st : state, n, args, dt : datatyp) = case CM.find (#specializations dt, args) of SOME dt' => (#name dt', #constructors dt', st) | NONE => let (*val () = Print.prefaces "Args" [("args", Print.p_list (CorePrint.p_con CoreEnv.empty) args)]*) val n' = #count st val nxs = length args - 1 fun sub t = ListUtil.foldli (fn (i, arg, t) => subConInCon (nxs - i, arg) t) t args val (cons, (count, cmap)) = ListUtil.foldlMap (fn ((x, n, to), (count, cmap)) => let val to = Option.map sub to in ((x, count, to), (count + 1, IM.insert (cmap, n, count))) end) (n' + 1, IM.empty) (#constructors dt) val st = {count = count, datatypes = IM.insert (#datatypes st, n, {name = #name dt, params = #params dt, constructors = #constructors dt, specializations = CM.insert (#specializations dt, args, {name = n', constructors = cmap})}), constructors = #constructors st, decls = #decls st} val (cons, st) = ListUtil.foldlMap (fn ((x, n, NONE), st) => ((x, n, NONE), st) | ((x, n, SOME t), st) => let val (t, st) = specCon st t in ((x, n, SOME t), st) end) st cons val d = (DDatatype (#name dt ^ "_s", n', [], cons), #2 (List.hd args)) in (n', cmap, {count = #count st, datatypes = #datatypes st, constructors = #constructors st, decls = d :: #decls st}) end and con (c, st : state) = let fun findApp (c, args) = case c of CApp ((c', _), arg) => findApp (c', arg :: args) | CNamed n => SOME (n, args) | _ => NONE in case findApp (c, []) of SOME (n, args as (_ :: _)) => if List.exists isOpen args then (c, st) else (case IM.find (#datatypes st, n) of NONE => (c, st) | SOME dt => if length args <> #params dt then (c, st) else let val (n, _, st) = considerSpecialization (st, n, args, dt) in (CNamed n, st) end) | _ => (c, st) end and specCon st = U.Con.foldMap {kind = kind, con = con} st fun pat (p, st) = case #1 p of PWild => (p, st) | PVar _ => (p, st) | PPrim _ => (p, st) | PCon (dk, PConVar pn, args as (_ :: _), po) => let val (po, st) = case po of NONE => (NONE, st) | SOME p => let val (p, st) = pat (p, st) in (SOME p, st) end val p = (PCon (dk, PConVar pn, args, po), #2 p) in if List.exists isOpen args then (p, st) else case IM.find (#constructors st, pn) of NONE => (p, st) | SOME n => case IM.find (#datatypes st, n) of NONE => (p, st) | SOME dt => let val (n, cmap, st) = considerSpecialization (st, n, args, dt) in case IM.find (cmap, pn) of NONE => raise Fail "Specialize: Missing datatype constructor (pat)" | SOME pn' => ((PCon (dk, PConVar pn', [], po), #2 p), st) end end | PCon _ => (p, st) | PRecord xps => let val (xps, st) = ListUtil.foldlMap (fn ((x, p, t), st) => let val (p, st) = pat (p, st) in ((x, p, t), st) end) st xps in ((PRecord xps, #2 p), st) end fun exp (e, st) = case e of ECon (dk, PConVar pn, args as (_ :: _), eo) => if List.exists isOpen args then (e, st) else (case IM.find (#constructors st, pn) of NONE => (e, st) | SOME n => case IM.find (#datatypes st, n) of NONE => (e, st) | SOME dt => let val (n, cmap, st) = considerSpecialization (st, n, args, dt) in case IM.find (cmap, pn) of NONE => raise Fail "Specialize: Missing datatype constructor" | SOME pn' => (ECon (dk, PConVar pn', [], eo), st) end) | ECase (e, pes, r) => let val (pes, st) = ListUtil.foldlMap (fn ((p, e), st) => let val (p, st) = pat (p, st) in ((p, e), st) end) st pes in (ECase (e, pes, r), st) end | _ => (e, st) fun decl (d, st) = (d, st) val specDecl = U.Decl.foldMap {kind = kind, con = con, exp = exp, decl = decl} fun specialize file = let fun doDecl (all as (d, _), st : state) = let (*val () = Print.preface ("decl:", CorePrint.p_decl CoreEnv.empty all)*) in case d of DDatatype (x, n, xs, xnts) => ([all], {count = #count st, datatypes = IM.insert (#datatypes st, n, {name = x, params = length xs, constructors = xnts, specializations = CM.empty}), constructors = foldl (fn ((_, n', _), constructors) => IM.insert (constructors, n', n)) (#constructors st) xnts, decls = []}) | _ => let val (d, st) = specDecl st all in (rev (d :: #decls st), {count = #count st, datatypes = #datatypes st, constructors = #constructors st, decls = []}) end end val (ds, _) = ListUtil.foldlMapConcat doDecl {count = U.File.maxName file + 1, datatypes = IM.empty, constructors = IM.empty, decls = []} file in ds end end