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(* Copyright (c) 2008-2010, 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 main compiler interface *)
signature COMPILER = sig
type job = {
prefix : string,
database : string option,
sources : string list,
exe : string,
sql : string option,
debug : bool,
profile : bool,
timeout : int,
ffi : string list,
link : string list,
headers : string list,
scripts : string list,
clientToServer : Settings.ffi list,
effectful : Settings.ffi list,
benignEffectful : Settings.ffi list,
clientOnly : Settings.ffi list,
serverOnly : Settings.ffi list,
jsFuncs : (Settings.ffi * string) list,
rewrites : Settings.rewrite list,
filterUrl : Settings.rule list,
filterMime : Settings.rule list,
filterRequest : Settings.rule list,
filterResponse : Settings.rule list,
protocol : string option,
dbms : string option,
sigFile : string option,
safeGets : string list,
onError : (string * string list * string) option,
minHeap : int
}
val compile : string -> bool
val compiler : string -> unit
val compileC : {cname : string, oname : string, ename : string, libs : string,
profile : bool, debug : bool, link : string list} -> bool
val beforeC : (unit -> unit) ref
(* This function is called before beginning C compilation.
* The current use is for MLton to compact its heap here, to avoid hogging
* space after all the interesting ML code is done. *)
type ('src, 'dst) phase
type ('src, 'dst) transform
val transform : ('src, 'dst) phase -> string -> ('src, 'dst) transform
val o : ('b, 'c) transform * ('a, 'b) transform -> ('a, 'c) transform
val check : ('src, 'dst) transform -> 'src -> unit
val run : ('src, 'dst) transform -> 'src -> 'dst option
val runPrint : ('src, 'dst) transform -> 'src -> unit
val runPrintToFile : ('src, 'dst) transform -> 'src -> string -> unit
val time : ('src, 'dst) transform -> 'src -> unit
val timePrint : ('src, 'dst) transform -> 'src -> unit
val runPrintCoreFuncs : ('src, Core.file) transform -> 'src -> unit
val parseUr : (string, Source.file) phase
val parseUrs : (string, Source.sgn_item list) phase
val parseUrp : (string, job) phase
val parseUrp' : (string, {Job : job, Libs : string list}) phase
val parse : (job, Source.file) phase
val elaborate : (Source.file, Elab.file) phase
val unnest : (Elab.file, Elab.file) phase
val termination : (Elab.file, Elab.file) phase
val explify : (Elab.file, Expl.file) phase
val corify : (Expl.file, Core.file) phase
val core_untangle : (Core.file, Core.file) phase
val shake : (Core.file, Core.file) phase
val rpcify : (Core.file, Core.file) phase
val tag : (Core.file, Core.file) phase
val reduce : (Core.file, Core.file) phase
val unpoly : (Core.file, Core.file) phase
val especialize : (Core.file, Core.file) phase
val specialize : (Core.file, Core.file) phase
val marshalcheck : (Core.file, Core.file) phase
val effectize : (Core.file, Core.file) phase
val css : (Core.file, Css.report) phase
val monoize : (Core.file, Mono.file) phase
val mono_opt : (Mono.file, Mono.file) phase
val untangle : (Mono.file, Mono.file) phase
val mono_reduce : (Mono.file, Mono.file) phase
val mono_shake : (Mono.file, Mono.file) phase
val iflow : (Mono.file, Mono.file) phase
val jscomp : (Mono.file, Mono.file) phase
val fuse : (Mono.file, Mono.file) phase
val pathcheck : (Mono.file, Mono.file) phase
val sidecheck : (Mono.file, Mono.file) phase
val cjrize : (Mono.file, Cjr.file) phase
val scriptcheck : (Cjr.file, Cjr.file) phase
val prepare : (Cjr.file, Cjr.file) phase
val checknest : (Cjr.file, Cjr.file) phase
val sqlify : (Mono.file, Cjr.file) phase
val toParseJob : (string, job) transform
val toParseJob' : (string, {Job : job, Libs : string list}) transform
val toParse : (string, Source.file) transform
val toElaborate : (string, Elab.file) transform
val toUnnest : (string, Elab.file) transform
val toTermination : (string, Elab.file) transform
val toExplify : (string, Expl.file) transform
val toCorify : (string, Core.file) transform
val toCore_untangle : (string, Core.file) transform
val toShake1 : (string, Core.file) transform
val toEspecialize1' : (string, Core.file) transform
val toShake1' : (string, Core.file) transform
val toRpcify : (string, Core.file) transform
val toCore_untangle2 : (string, Core.file) transform
val toShake2 : (string, Core.file) transform
val toEspecialize1 : (string, Core.file) transform
val toCore_untangle3 : (string, Core.file) transform
val toShake3 : (string, Core.file) transform
val toTag : (string, Core.file) transform
val toReduce : (string, Core.file) transform
val toShakey : (string, Core.file) transform
val toUnpoly : (string, Core.file) transform
val toSpecialize : (string, Core.file) transform
val toShake4 : (string, Core.file) transform
val toEspecialize2 : (string, Core.file) transform
val toShake4' : (string, Core.file) transform
val toSpecialize2 : (string, Core.file) transform
val toUnpoly2 : (string, Core.file) transform
val toShake4'' : (string, Core.file) transform
val toEspecialize3 : (string, Core.file) transform
val toReduce2 : (string, Core.file) transform
val toShake5 : (string, Core.file) transform
val toMarshalcheck : (string, Core.file) transform
val toEffectize : (string, Core.file) transform
val toCss : (string, Css.report) transform
val toMonoize : (string, Mono.file) transform
val toMono_opt1 : (string, Mono.file) transform
val toUntangle : (string, Mono.file) transform
val toMono_reduce : (string, Mono.file) transform
val toMono_shake : (string, Mono.file) transform
val toMono_opt2 : (string, Mono.file) transform
val toIflow : (string, Mono.file) transform
val toJscomp : (string, Mono.file) transform
val toMono_opt3 : (string, Mono.file) transform
val toFuse : (string, Mono.file) transform
val toUntangle2 : (string, Mono.file) transform
val toMono_reduce2 : (string, Mono.file) transform
val toMono_shake2 : (string, Mono.file) transform
val toMono_opt4 : (string, Mono.file) transform
val toMono_reduce3 : (string, Mono.file) transform
val toFuse2 : (string, Mono.file) transform
val toUntangle3 : (string, Mono.file) transform
val toMono_shake3 : (string, Mono.file) transform
val toPathcheck : (string, Mono.file) transform
val toSidecheck : (string, Mono.file) transform
val toCjrize : (string, Cjr.file) transform
val toScriptcheck : (string, Cjr.file) transform
val toPrepare : (string, Cjr.file) transform
val toChecknest : (string, Cjr.file) transform
val toSqlify : (string, Cjr.file) transform
val debug : bool ref
val doIflow : bool ref
val addPath : string * string -> unit
val addModuleRoot : string * string -> unit
val moduleOf : string -> string
end
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