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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.
*)
(* 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,
profile : 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, profile} =
let
open Print.PD
open Print
in
box [if debug then
box [string "DEBUG", newline]
else
box [],
if profile then
box [string "PROFILE", 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, profile, 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,
profile = profile,
sources = sources}
fun read (prefix, database, exe, sql, debug, profile) =
case TextIO.inputLine inf of
NONE => finish (prefix, database, exe, sql, debug, profile, [])
| SOME "\n" => finish (prefix, database, exe, sql, debug, profile, 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, profile))
| "database" =>
(case database of
NONE => ()
| SOME _ => ErrorMsg.error "Duplicate 'database' directive";
read (prefix, SOME arg, exe, sql, debug, profile))
| "exe" =>
(case exe of
NONE => ()
| SOME _ => ErrorMsg.error "Duplicate 'exe' directive";
read (prefix, database, SOME (relify arg), sql, debug, profile))
| "sql" =>
(case sql of
NONE => ()
| SOME _ => ErrorMsg.error "Duplicate 'sql' directive";
read (prefix, database, exe, SOME (relify arg), debug, profile))
| "debug" => read (prefix, database, exe, sql, true, profile)
| "profile" => read (prefix, database, exe, sql, debug, true)
| _ => (ErrorMsg.error ("Unrecognized command '" ^ cmd ^ "'");
read (prefix, database, exe, sql, debug, profile))
end
val job = read (NONE, NONE, NONE, NONE, false, 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 unnest = {
func = Unnest.unnest,
print = ElabPrint.p_file ElabEnv.empty
}
val toUnnest = transform unnest "unnest" o toElaborate
val termination = {
func = (fn file => (Termination.check file; file)),
print = ElabPrint.p_file ElabEnv.empty
}
val toTermination = transform termination "termination" o toUnnest
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 reduce_local = {
func = ReduceLocal.reduce,
print = CorePrint.p_file CoreEnv.empty
}
val toReduce_local = transform reduce_local "reduce_local" o toCorify*)
val especialize = {
func = ESpecialize.specialize,
print = CorePrint.p_file CoreEnv.empty
}
val toEspecialize = transform especialize "especialize" o toCorify
val core_untangle = {
func = CoreUntangle.untangle,
print = CorePrint.p_file CoreEnv.empty
}
val toCore_untangle = transform core_untangle "core_untangle" o toEspecialize
val shake = {
func = Shake.shake,
print = CorePrint.p_file CoreEnv.empty
}
val toShake1 = transform shake "shake1" o toCore_untangle
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 jscomp = {
func = JsComp.process,
print = MonoPrint.p_file MonoEnv.empty
}
val toJscomp = transform jscomp "jscomp" o toMono_opt2
val toMono_opt3 = transform mono_opt "mono_opt3" o toJscomp
val fuse = {
func = Fuse.fuse,
print = MonoPrint.p_file MonoEnv.empty
}
val toFuse = transform fuse "fuse" o toMono_opt3
val toUntangle2 = transform untangle "untangle2" o toFuse
val toMono_shake2 = transform mono_shake "mono_shake2" o toUntangle2
val pathcheck = {
func = (fn file => (PathCheck.check file; file)),
print = MonoPrint.p_file MonoEnv.empty
}
val toPathcheck = transform pathcheck "pathcheck" o toMono_shake2
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, libs, profile} =
let
val urweb_o = clibFile "urweb.o"
val driver_o = clibFile "driver.o"
val compile = "gcc " ^ Config.gccArgs ^ " -Wstrict-prototypes -Werror -O3 -I include -c " ^ cname ^ " -o " ^ oname
val link = "gcc -Werror -O3 -lm -pthread " ^ libs ^ " " ^ urweb_o ^ " " ^ oname ^ " " ^ driver_o ^ " -o " ^ ename
val (compile, link) =
if profile then
(compile ^ " -pg", link ^ " -pg")
else
(compile, link)
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/webapp.c", "/tmp/webapp.o", fn () => ())
else
let
val dir = OS.FileSys.tmpName ()
val () = if OS.FileSys.access (dir, []) then
OS.FileSys.remove dir
else
()
val cname = OS.Path.joinDirFile {dir = dir, file = "webapp.c"}
val oname = OS.Path.joinDirFile {dir = dir, file = "webapp.o"}
in
OS.FileSys.mkDir dir;
(cname, oname,
fn () => (OS.FileSys.remove cname;
OS.FileSys.remove oname;
OS.FileSys.rmDir dir)
handle OS.SysErr _ => OS.FileSys.rmDir dir)
end
val ename = #exe job
in
let
val outf = TextIO.openOut cname
val s = TextIOPP.openOut {dst = outf, wid = 80}
val hasDb = List.exists (fn (Cjr.DDatabase _, _) => true | _ => false) (#1 file)
val libs =
if hasDb then
"-lpq"
else
""
in
Print.fprint s (CjrPrint.p_file CjrEnv.empty file);
TextIO.output1 (outf, #"\n");
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, libs = libs, profile = #profile job};
cleanup ()
end
handle ex => (((cleanup ()) handle _ => ()); raise ex)
end
end
|