Mercurial > urweb
view src/compiler.sml @ 393:bc5a56ed0cd6
Fix XML detection in presence of comparison operators
author | Adam Chlipala <adamc@hcoop.net> |
---|---|
date | Tue, 21 Oct 2008 11:13:03 -0400 |
parents | 519366a76603 |
children | ab3177746c78 |
line wrap: on
line source
(* 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. *) (* Ur/Web language parser *) structure Compiler :> COMPILER = struct structure UrwebLrVals = UrwebLrValsFn(structure Token = LrParser.Token) structure Lex = UrwebLexFn(structure Tokens = UrwebLrVals.Tokens) structure UrwebP = Join(structure ParserData = UrwebLrVals.ParserData structure Lex = Lex structure LrParser = LrParser) type job = { prefix : string, database : string option, sources : string list, exe : string, sql : string option, debug : bool } type ('src, 'dst) phase = { func : 'src -> 'dst, print : 'dst -> Print.PD.pp_desc } type pmap = (string * Time.time) list type ('src, 'dst) transform = { func : 'src -> 'dst option, print : 'dst -> Print.PD.pp_desc, time : 'src * pmap -> 'dst option * pmap } fun transform (ph : ('src, 'dst) phase) name = { func = fn input => let val v = #func ph input in if ErrorMsg.anyErrors () then NONE else SOME v end, print = #print ph, time = fn (input, pmap) => let val befor = Time.now () val v = #func ph input val elapsed = Time.- (Time.now (), befor) in (if ErrorMsg.anyErrors () then NONE else SOME v, (name, elapsed) :: pmap) end } fun op o (tr2 : ('b, 'c) transform, tr1 : ('a, 'b) transform) = { func = fn input => case #func tr1 input of NONE => NONE | SOME v => #func tr2 v, print = #print tr2, time = fn (input, pmap) => let val (ro, pmap) = #time tr1 (input, pmap) in case ro of NONE => (NONE, pmap) | SOME v => #time tr2 (v, pmap) end } fun check (tr : ('src, 'dst) transform) x = (ErrorMsg.resetErrors (); ignore (#func tr x)) fun run (tr : ('src, 'dst) transform) x = (ErrorMsg.resetErrors (); #func tr x) fun runPrint (tr : ('src, 'dst) transform) input = (ErrorMsg.resetErrors (); case #func tr input of NONE => print "Failure\n" | SOME v => (print "Success\n"; Print.print (#print tr v); print "\n")) fun time (tr : ('src, 'dst) transform) input = let val (_, pmap) = #time tr (input, []) in app (fn (name, time) => print (name ^ ": " ^ LargeReal.toString (Time.toReal time) ^ "\n")) (rev pmap); print ("TOTAL: " ^ LargeReal.toString (Time.toReal (foldl Time.+ Time.zeroTime (map #2 pmap))) ^ "\n"); print "\n" end fun timePrint (tr : ('src, 'dst) transform) input = let val (ro, pmap) = #time tr (input, []) in app (fn (name, time) => print (name ^ ": " ^ LargeReal.toString (Time.toReal time) ^ "\n")) (rev pmap); print ("TOTAL: " ^ LargeReal.toString (Time.toReal (foldl Time.+ Time.zeroTime (map #2 pmap))) ^ "\n"); print "\n"; case ro of NONE => print "Failure\n" | SOME v => (print "Success\n"; Print.print (#print tr v); print "\n") end val parseUrs = {func = fn filename => let val fname = OS.FileSys.tmpName () val outf = TextIO.openOut fname val () = TextIO.output (outf, "sig\n") val inf = TextIO.openIn filename fun loop () = case TextIO.inputLine inf of NONE => () | SOME line => (TextIO.output (outf, line); loop ()) val () = loop () val () = TextIO.closeIn inf val () = TextIO.closeOut outf val () = (ErrorMsg.resetErrors (); ErrorMsg.resetPositioning filename; Lex.UserDeclarations.initialize ()) val file = TextIO.openIn fname fun get _ = TextIO.input file fun parseerror (s, p1, p2) = ErrorMsg.errorAt' (p1, p2) s val lexer = LrParser.Stream.streamify (Lex.makeLexer get) val (absyn, _) = UrwebP.parse (30, lexer, parseerror, ()) in TextIO.closeIn file; case absyn of [(Source.DSgn ("?", (Source.SgnConst sgis, _)), _)] => sgis | _ => (ErrorMsg.errorAt {file = filename, first = {line = 0, char = 0}, last = {line = 0, char = 0}} "Not a signature"; []) end handle LrParser.ParseError => [], print = Print.p_list_sep Print.PD.newline SourcePrint.p_sgn_item} (* The main parsing routine *) val parseUr = { func = fn filename => let val () = (ErrorMsg.resetErrors (); ErrorMsg.resetPositioning filename; Lex.UserDeclarations.initialize ()) val file = TextIO.openIn filename fun get _ = TextIO.input file fun parseerror (s, p1, p2) = ErrorMsg.errorAt' (p1, p2) s val lexer = LrParser.Stream.streamify (Lex.makeLexer get) val (absyn, _) = UrwebP.parse (30, lexer, parseerror, ()) in TextIO.closeIn file; case absyn of [(Source.DSgn ("?", _), _)] => (ErrorMsg.errorAt {file = filename, first = {line = 0, char = 0}, last = {line = 0, char = 0}} "File starts with 'sig'"; []) | _ => absyn end handle LrParser.ParseError => [], print = SourcePrint.p_file} fun p_job {prefix, database, exe, sql, sources, debug} = let open Print.PD open Print in box [if debug then box [string "DEBUG", newline] else box [], case database of NONE => string "No database." | SOME db => string ("Database: " ^ db), newline, string "Exe: ", string exe, newline, case sql of NONE => string "No SQL file." | SOME sql => string ("SQL fle: " ^ sql), string "Sources:", p_list string sources, newline] end fun trim s = let val (_, s) = Substring.splitl Char.isSpace s val (s, _) = Substring.splitr Char.isSpace s in s end val parseUrp = { func = fn filename => let val dir = OS.Path.dir filename val inf = TextIO.openIn (OS.Path.joinBaseExt {base = filename, ext = SOME "urp"}) fun relify fname = OS.Path.concat (dir, fname) handle OS.Path.Path => fname fun readSources acc = case TextIO.inputLine inf of NONE => rev acc | SOME line => let val acc = if CharVector.all Char.isSpace line then acc else let val fname = String.implode (List.filter (fn x => not (Char.isSpace x)) (String.explode line)) val fname = relify fname in fname :: acc end in readSources acc end fun finish (prefix, database, exe, sql, debug, sources) = {prefix = Option.getOpt (prefix, "/"), database = database, exe = Option.getOpt (exe, OS.Path.joinBaseExt {base = OS.Path.base filename, ext = SOME "exe"}), sql = sql, debug = debug, sources = sources} fun read (prefix, database, exe, sql, debug) = case TextIO.inputLine inf of NONE => finish (prefix, database, exe, sql, debug, []) | SOME "\n" => finish (prefix, database, exe, sql, debug, readSources []) | SOME line => let val (cmd, arg) = Substring.splitl (fn x => not (Char.isSpace x)) (Substring.full line) val cmd = Substring.string (trim cmd) val arg = Substring.string (trim arg) in case cmd of "prefix" => (case prefix of NONE => () | SOME _ => ErrorMsg.error "Duplicate 'prefix' directive"; read (SOME arg, database, exe, sql, debug)) | "database" => (case database of NONE => () | SOME _ => ErrorMsg.error "Duplicate 'database' directive"; read (prefix, SOME arg, exe, sql, debug)) | "exe" => (case exe of NONE => () | SOME _ => ErrorMsg.error "Duplicate 'exe' directive"; read (prefix, database, SOME (relify arg), sql, debug)) | "sql" => (case sql of NONE => () | SOME _ => ErrorMsg.error "Duplicate 'sql' directive"; read (prefix, database, exe, SOME (relify arg), debug)) | "debug" => read (prefix, database, exe, sql, true) | _ => (ErrorMsg.error ("Unrecognized command '" ^ cmd ^ "'"); read (prefix, database, exe, sql, debug)) end val job = read (NONE, NONE, NONE, NONE, false) in TextIO.closeIn inf; Monoize.urlPrefix := #prefix job; job end, print = p_job } val toParseJob = transform parseUrp "parseJob" fun capitalize "" = "" | capitalize s = str (Char.toUpper (String.sub (s, 0))) ^ String.extract (s, 1, NONE) val parse = { func = fn {database, sources = fnames, ...} : job => let fun nameOf fname = capitalize (OS.Path.file fname) fun parseOne fname = let val mname = nameOf fname val ur = OS.Path.joinBaseExt {base = fname, ext = SOME "ur"} val urs = OS.Path.joinBaseExt {base = fname, ext = SOME "urs"} val sgnO = if Posix.FileSys.access (urs, []) then SOME (Source.SgnConst (#func parseUrs urs), {file = urs, first = ErrorMsg.dummyPos, last = ErrorMsg.dummyPos}) else NONE val loc = {file = ur, first = ErrorMsg.dummyPos, last = ErrorMsg.dummyPos} val ds = #func parseUr ur in (Source.DStr (mname, sgnO, (Source.StrConst ds, loc)), loc) end val ds = map parseOne fnames in let val final = nameOf (List.last fnames) val ds = ds @ [(Source.DExport (Source.StrVar final, ErrorMsg.dummySpan), ErrorMsg.dummySpan)] in case database of NONE => ds | SOME s => (Source.DDatabase s, ErrorMsg.dummySpan) :: ds end handle Empty => ds end, print = SourcePrint.p_file } val toParse = transform parse "parse" o toParseJob fun libFile s = OS.Path.joinDirFile {dir = Config.libUr, file = s} fun clibFile s = OS.Path.joinDirFile {dir = Config.libC, file = s} val elaborate = { func = fn file => let val basis = #func parseUrs (libFile "basis.urs") val topSgn = #func parseUrs (libFile "top.urs") val topStr = #func parseUr (libFile "top.ur") in Elaborate.elabFile basis topStr topSgn ElabEnv.empty file end, print = ElabPrint.p_file ElabEnv.empty } val toElaborate = transform elaborate "elaborate" o toParse val termination = { func = (fn file => (Termination.check file; file)), print = ElabPrint.p_file ElabEnv.empty } val toTermination = transform termination "termination" o toElaborate val explify = { func = Explify.explify, print = ExplPrint.p_file ExplEnv.empty } val toExplify = transform explify "explify" o toTermination val corify = { func = Corify.corify, print = CorePrint.p_file CoreEnv.empty } val toCorify = transform corify "corify" o toExplify val shake = { func = Shake.shake, print = CorePrint.p_file CoreEnv.empty } val toShake1 = transform shake "shake1" o toCorify val tag = { func = Tag.tag, print = CorePrint.p_file CoreEnv.empty } val toTag = transform tag "tag" o toShake1 val reduce = { func = Reduce.reduce, print = CorePrint.p_file CoreEnv.empty } val toReduce = transform reduce "reduce" o toTag val unpoly = { func = Unpoly.unpoly, print = CorePrint.p_file CoreEnv.empty } val toUnpoly = transform unpoly "unpoly" o toReduce val specialize = { func = Specialize.specialize, print = CorePrint.p_file CoreEnv.empty } val toSpecialize = transform specialize "specialize" o toUnpoly val toShake2 = transform shake "shake2" o toSpecialize val monoize = { func = Monoize.monoize CoreEnv.empty, print = MonoPrint.p_file MonoEnv.empty } val toMonoize = transform monoize "monoize" o toShake2 val mono_opt = { func = MonoOpt.optimize, print = MonoPrint.p_file MonoEnv.empty } val toMono_opt1 = transform mono_opt "mono_opt1" o toMonoize val untangle = { func = Untangle.untangle, print = MonoPrint.p_file MonoEnv.empty } val toUntangle = transform untangle "untangle" o toMono_opt1 val mono_reduce = { func = MonoReduce.reduce, print = MonoPrint.p_file MonoEnv.empty } val toMono_reduce = transform mono_reduce "mono_reduce" o toUntangle val mono_shake = { func = MonoShake.shake, print = MonoPrint.p_file MonoEnv.empty } val toMono_shake = transform mono_shake "mono_shake1" o toMono_reduce val toMono_opt2 = transform mono_opt "mono_opt2" o toMono_shake val pathcheck = { func = (fn file => (PathCheck.check file; file)), print = MonoPrint.p_file MonoEnv.empty } val toPathcheck = transform pathcheck "pathcheck" o toMono_opt2 val cjrize = { func = Cjrize.cjrize, print = CjrPrint.p_file CjrEnv.empty } val toCjrize = transform cjrize "cjrize" o toPathcheck val prepare = { func = Prepare.prepare, print = CjrPrint.p_file CjrEnv.empty } val toPrepare = transform prepare "prepare" o toCjrize val sqlify = { func = Cjrize.cjrize, print = CjrPrint.p_sql CjrEnv.empty } val toSqlify = transform sqlify "sqlify" o toMono_opt2 fun compileC {cname, oname, ename} = let val urweb_o = clibFile "urweb.o" val driver_o = clibFile "driver.o" val compile = "gcc -Wstrict-prototypes -Werror -O3 -I include -c " ^ cname ^ " -o " ^ oname val link = "gcc -Werror -O3 -lm -pthread -lpq " ^ urweb_o ^ " " ^ oname ^ " " ^ driver_o ^ " -o " ^ ename in if not (OS.Process.isSuccess (OS.Process.system compile)) then print "C compilation failed\n" else if not (OS.Process.isSuccess (OS.Process.system link)) then print "C linking failed\n" else print "Success\n" end fun compile job = case run toPrepare job of NONE => print "Ur compilation failed\n" | SOME file => let val job = valOf (run (transform parseUrp "parseUrp") job) val (cname, oname, cleanup) = if #debug job then ("/tmp/urweb.c", "/tmp/urweb.o", fn () => ()) else let val dir = OS.FileSys.tmpName () val () = OS.FileSys.remove dir val cname = OS.Path.joinDirFile {dir = dir, file = "urweb.c"} val oname = OS.Path.joinDirFile {dir = dir, file = "urweb.o"} in OS.FileSys.mkDir dir; (cname, oname, fn () => (OS.FileSys.remove cname; OS.FileSys.remove oname; OS.FileSys.rmDir dir)) end val ename = #exe job in let val outf = TextIO.openOut cname val s = TextIOPP.openOut {dst = outf, wid = 80} in Print.fprint s (CjrPrint.p_file CjrEnv.empty file); TextIO.closeOut outf; case #sql job of NONE => () | SOME sql => let val outf = TextIO.openOut sql val s = TextIOPP.openOut {dst = outf, wid = 80} in Print.fprint s (CjrPrint.p_sql CjrEnv.empty file); TextIO.closeOut outf end; compileC {cname = cname, oname = oname, ename = ename}; cleanup () end handle ex => (((cleanup ()) handle _ => ()); raise ex) end end