Ur/Web: src/mono_opt.sml annotate

annotate src/mono_opt.sml @ 270:b9b02613c0c2

Parsing jobs

author	Adam Chlipala <adamc@hcoop.net>
date	Tue, 02 Sep 2008 10:31:16 -0400
parents	d1b679dbbc25
children	7d5860add50f

rev	line source
adamc@96	1 (* Copyright (c) 2008, Adam Chlipala
adamc@96	2 * All rights reserved.
adamc@96	3 *
adamc@96	4 * Redistribution and use in source and binary forms, with or without
adamc@96	5 * modification, are permitted provided that the following conditions are met:
adamc@96	6 *
adamc@96	7 * - Redistributions of source code must retain the above copyright notice,
adamc@96	8 * this list of conditions and the following disclaimer.
adamc@96	9 * - Redistributions in binary form must reproduce the above copyright notice,
adamc@96	10 * this list of conditions and the following disclaimer in the documentation
adamc@96	11 * and/or other materials provided with the distribution.
adamc@96	12 * - The names of contributors may not be used to endorse or promote products
adamc@96	13 * derived from this software without specific prior written permission.
adamc@96	14 *
adamc@96	15 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
adamc@96	16 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
adamc@96	17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
adamc@96	18 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
adamc@96	19 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
adamc@96	20 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
adamc@96	21 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
adamc@96	22 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
adamc@96	23 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
adamc@96	24 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
adamc@96	25 * POSSIBILITY OF SUCH DAMAGE.
adamc@96	26 *)
adamc@96	27
adamc@96	28 structure MonoOpt :> MONO_OPT = struct
adamc@96	29
adamc@96	30 open Mono
adamc@96	31 structure U = MonoUtil
adamc@96	32
adamc@96	33 fun typ t = t
adamc@96	34 fun decl d = d
adamc@96	35
adamc@107	36 fun attrifyInt n =
adamc@107	37 if n < 0 then
adamc@107	38 "-" ^ Int64.toString (Int64.~ n)
adamc@107	39 else
adamc@107	40 Int64.toString n
adamc@107	41
adamc@107	42 fun attrifyFloat n =
adamc@107	43 if n < 0.0 then
adamc@107	44 "-" ^ Real.toString (Real.~ n)
adamc@107	45 else
adamc@107	46 Real.toString n
adamc@107	47
adamc@107	48 val attrifyString = String.translate (fn #"\"" => """
adamc@135	49 \| #"&" => "&"
adamc@107	50 \| ch => if Char.isPrint ch then
adamc@107	51 str ch
adamc@107	52 else
adamc@107	53 "&#" ^ Int.toString (ord ch) ^ ";")
adamc@107	54
adamc@120	55 val urlifyInt = attrifyInt
adamc@120	56 val urlifyFloat = attrifyFloat
adamc@120	57
adamc@135	58 val htmlifyString = String.translate (fn ch => case ch of
adamc@135	59 #"<" => "<"
adamc@135	60 \| #"&" => "&"
adamc@135	61 \| _ =>
adamc@135	62 if Char.isPrint ch orelse Char.isSpace ch then
adamc@135	63 str ch
adamc@135	64 else
adamc@135	65 "&#" ^ Int.toString (ord ch) ^ ";")
adamc@135	66
adamc@120	67 fun hexIt ch =
adamc@120	68 let
adamc@120	69 val s = Int.fmt StringCvt.HEX (ord ch)
adamc@120	70 in
adamc@120	71 case size s of
adamc@120	72 0 => "00"
adamc@120	73 \| 1 => "0" ^ s
adamc@120	74 \| _ => s
adamc@120	75 end
adamc@120	76
adamc@120	77 val urlifyString = String.translate (fn #" " => "+"
adamc@120	78 \| ch => if Char.isAlphaNum ch then
adamc@120	79 str ch
adamc@120	80 else
adamc@120	81 "%" ^ hexIt ch)
adamc@253	82
adamc@253	83
adamc@253	84 val sqlifyInt = attrifyInt
adamc@253	85 val sqlifyFloat = attrifyFloat
adamc@253	86
adamc@259	87 fun sqlifyString s = "E'" ^ String.translate (fn #"'" => "\\'"
adamc@259	88 \| ch => str ch)
adamc@259	89 (String.toString s) ^ "'"
adamc@183	90
adamc@96	91 fun exp e =
adamc@96	92 case e of
adamc@96	93 EPrim (Prim.String s) =>
adamc@96	94 let
adamc@96	95 val (_, chs) =
adamc@96	96 CharVector.foldl (fn (ch, (lastSpace, chs)) =>
adamc@96	97 let
adamc@96	98 val isSpace = Char.isSpace ch
adamc@96	99 in
adamc@96	100 if isSpace andalso lastSpace then
adamc@96	101 (true, chs)
adamc@96	102 else
adamc@96	103 (isSpace, ch :: chs)
adamc@96	104 end)
adamc@96	105 (false, []) s
adamc@96	106 in
adamc@96	107 EPrim (Prim.String (String.implode (rev chs)))
adamc@96	108 end
adamc@96	109
adamc@96	110 \| EStrcat ((EPrim (Prim.String s1), loc), (EPrim (Prim.String s2), _)) =>
adamc@96	111 let
adamc@96	112 val s =
adamc@96	113 if size s1 > 0 andalso size s2 > 0
adamc@96	114 andalso Char.isSpace (String.sub (s1, size s1 - 1))
adamc@96	115 andalso Char.isSpace (String.sub (s2, 0)) then
adamc@96	116 s1 ^ String.extract (s2, 1, NONE)
adamc@96	117 else
adamc@96	118 s1 ^ s2
adamc@96	119 in
adamc@96	120 EPrim (Prim.String s)
adamc@96	121 end
adamc@105	122
adamc@105	123 \| EStrcat ((EPrim (Prim.String s1), loc), (EStrcat ((EPrim (Prim.String s2), _), rest), _)) =>
adamc@105	124 let
adamc@105	125 val s =
adamc@105	126 if size s1 > 0 andalso size s2 > 0
adamc@105	127 andalso Char.isSpace (String.sub (s1, size s1 - 1))
adamc@105	128 andalso Char.isSpace (String.sub (s2, 0)) then
adamc@105	129 s1 ^ String.extract (s2, 1, NONE)
adamc@105	130 else
adamc@105	131 s1 ^ s2
adamc@105	132 in
adamc@105	133 EStrcat ((EPrim (Prim.String s), loc), rest)
adamc@105	134 end
adamc@105	135
adamc@105	136 \| EStrcat ((EStrcat (e1, e2), loc), e3) =>
adamc@105	137 optExp (EStrcat (e1, (EStrcat (e2, e3), loc)), loc)
adamc@105	138
adamc@106	139 \| EWrite (EStrcat (e1, e2), loc) =>
adamc@106	140 ESeq ((optExp (EWrite e1, loc), loc),
adamc@106	141 (optExp (EWrite e2, loc), loc))
adamc@106	142
adamc@183	143 \| ESeq ((EWrite (EPrim (Prim.String s1), _), loc),
adamc@183	144 (EWrite (EPrim (Prim.String s2), _), _)) =>
adamc@183	145 EWrite (EPrim (Prim.String (s1 ^ s2)), loc)
adamc@196	146 \| ESeq ((EWrite (EPrim (Prim.String s1), _), loc),
adamc@196	147 (ESeq ((EWrite (EPrim (Prim.String s2), _), _),
adamc@196	148 e), _)) =>
adamc@196	149 ESeq ((EWrite (EPrim (Prim.String (s1 ^ s2)), loc), loc),
adamc@196	150 e)
adamc@183	151
adamc@135	152 \| EFfiApp ("Basis", "htmlifyString", [(EPrim (Prim.String s), _)]) =>
adamc@135	153 EPrim (Prim.String (htmlifyString s))
adamc@135	154 \| EWrite (EFfiApp ("Basis", "htmlifyString", [(EPrim (Prim.String s), _)]), loc) =>
adamc@135	155 EWrite (EPrim (Prim.String (htmlifyString s)), loc)
adamc@135	156 \| EWrite (EFfiApp ("Basis", "htmlifyString", [e]), _) =>
adamc@135	157 EFfiApp ("Basis", "htmlifyString_w", [e])
adamc@196	158 \| EFfiApp ("Basis", "htmlifyString_w", [(EPrim (Prim.String s), loc)]) =>
adamc@196	159 EWrite (EPrim (Prim.String (htmlifyString s)), loc)
adamc@135	160
adamc@107	161 \| EFfiApp ("Basis", "attrifyInt", [(EPrim (Prim.Int n), _)]) =>
adamc@107	162 EPrim (Prim.String (attrifyInt n))
adamc@107	163 \| EWrite (EFfiApp ("Basis", "attrifyInt", [(EPrim (Prim.Int n), _)]), loc) =>
adamc@107	164 EWrite (EPrim (Prim.String (attrifyInt n)), loc)
adamc@106	165 \| EWrite (EFfiApp ("Basis", "attrifyInt", [e]), _) =>
adamc@106	166 EFfiApp ("Basis", "attrifyInt_w", [e])
adamc@107	167
adamc@107	168 \| EFfiApp ("Basis", "attrifyFloat", [(EPrim (Prim.Float n), _)]) =>
adamc@107	169 EPrim (Prim.String (attrifyFloat n))
adamc@107	170 \| EWrite (EFfiApp ("Basis", "attrifyFloat", [(EPrim (Prim.Float n), _)]), loc) =>
adamc@107	171 EWrite (EPrim (Prim.String (attrifyFloat n)), loc)
adamc@106	172 \| EWrite (EFfiApp ("Basis", "attrifyFloat", [e]), _) =>
adamc@106	173 EFfiApp ("Basis", "attrifyFloat_w", [e])
adamc@107	174
adamc@107	175 \| EFfiApp ("Basis", "attrifyString", [(EPrim (Prim.String s), _)]) =>
adamc@107	176 EPrim (Prim.String (attrifyString s))
adamc@107	177 \| EWrite (EFfiApp ("Basis", "attrifyString", [(EPrim (Prim.String s), _)]), loc) =>
adamc@107	178 EWrite (EPrim (Prim.String (attrifyString s)), loc)
adamc@106	179 \| EWrite (EFfiApp ("Basis", "attrifyString", [e]), _) =>
adamc@106	180 EFfiApp ("Basis", "attrifyString_w", [e])
adamc@106	181
adamc@120	182 \| EFfiApp ("Basis", "urlifyInt", [(EPrim (Prim.Int n), _)]) =>
adamc@120	183 EPrim (Prim.String (urlifyInt n))
adamc@120	184 \| EWrite (EFfiApp ("Basis", "urlifyInt", [(EPrim (Prim.Int n), _)]), loc) =>
adamc@120	185 EWrite (EPrim (Prim.String (urlifyInt n)), loc)
adamc@120	186 \| EWrite (EFfiApp ("Basis", "urlifyInt", [e]), _) =>
adamc@120	187 EFfiApp ("Basis", "urlifyInt_w", [e])
adamc@120	188
adamc@120	189 \| EFfiApp ("Basis", "urlifyFloat", [(EPrim (Prim.Float n), _)]) =>
adamc@120	190 EPrim (Prim.String (urlifyFloat n))
adamc@120	191 \| EWrite (EFfiApp ("Basis", "urlifyFloat", [(EPrim (Prim.Float n), _)]), loc) =>
adamc@120	192 EWrite (EPrim (Prim.String (urlifyFloat n)), loc)
adamc@120	193 \| EWrite (EFfiApp ("Basis", "urlifyFloat", [e]), _) =>
adamc@120	194 EFfiApp ("Basis", "urlifyFloat_w", [e])
adamc@120	195
adamc@120	196 \| EFfiApp ("Basis", "urlifyString", [(EPrim (Prim.String s), _)]) =>
adamc@120	197 EPrim (Prim.String (urlifyString s))
adamc@120	198 \| EWrite (EFfiApp ("Basis", "urlifyString", [(EPrim (Prim.String s), _)]), loc) =>
adamc@120	199 EWrite (EPrim (Prim.String (urlifyString s)), loc)
adamc@120	200 \| EWrite (EFfiApp ("Basis", "urlifyString", [e]), _) =>
adamc@120	201 EFfiApp ("Basis", "urlifyString_w", [e])
adamc@120	202
adamc@188	203 \| EFfiApp ("Basis", "urlifyBool", [(ECon (Enum, PConFfi {con = "True", ...}, NONE), _)]) =>
adamc@187	204 EPrim (Prim.String "1")
adamc@188	205 \| EFfiApp ("Basis", "urlifyBool", [(ECon (Enum, PConFfi {con = "False", ...}, NONE), _)]) =>
adamc@187	206 EPrim (Prim.String "0")
adamc@188	207 \| EWrite (EFfiApp ("Basis", "urlifyBool", [(ECon (Enum, PConFfi {con = "True", ...}, NONE), _)]), loc) =>
adamc@187	208 EWrite (EPrim (Prim.String "1"), loc)
adamc@188	209 \| EWrite (EFfiApp ("Basis", "urlifyBool", [(ECon (Enum, PConFfi {con = "False", ...}, NONE), _)]), loc) =>
adamc@187	210 EWrite (EPrim (Prim.String "0"), loc)
adamc@187	211 \| EWrite (EFfiApp ("Basis", "urlifyBool", [e]), _) =>
adamc@187	212 EFfiApp ("Basis", "urlifyBool_w", [e])
adamc@187	213
adamc@253	214 \| EFfiApp ("Basis", "sqlifyInt", [(EPrim (Prim.Int n), _)]) =>
adamc@253	215 EPrim (Prim.String (sqlifyInt n))
adamc@253	216 \| EFfiApp ("Basis", "sqlifyFloat", [(EPrim (Prim.Float n), _)]) =>
adamc@253	217 EPrim (Prim.String (sqlifyFloat n))
adamc@253	218 \| EFfiApp ("Basis", "sqlifyBool", [b as (_, loc)]) =>
adamc@253	219 optExp (ECase (b,
adamc@253	220 [((PCon (Enum, PConFfi {mod = "Basis", datatyp = "bool", con = "True", arg = NONE}, NONE), loc),
adamc@253	221 (EPrim (Prim.String "TRUE"), loc)),
adamc@253	222 ((PCon (Enum, PConFfi {mod = "Basis", datatyp = "bool", con = "False", arg = NONE}, NONE), loc),
adamc@253	223 (EPrim (Prim.String "FALSE"), loc))],
adamc@253	224 {disc = (TFfi ("Basis", "bool"), loc),
adamc@253	225 result = (TFfi ("Basis", "string"), loc)}), loc)
adamc@253	226 \| EFfiApp ("Basis", "sqlifyString", [(EPrim (Prim.String n), _)]) =>
adamc@253	227 EPrim (Prim.String (sqlifyString n))
adamc@253	228
adamc@184	229 \| EWrite (ECase (discE, pes, {disc, ...}), loc) =>
adamc@184	230 optExp (ECase (discE,
adamc@184	231 map (fn (p, e) => (p, (EWrite e, loc))) pes,
adamc@184	232 {disc = disc,
adamc@184	233 result = (TRecord [], loc)}), loc)
adamc@184	234
adamc@96	235 \| _ => e
adamc@96	236
adamc@105	237 and optExp e = #1 (U.Exp.map {typ = typ, exp = exp} e)
adamc@105	238
adamc@96	239 val optimize = U.File.map {typ = typ, exp = exp, decl = decl}
adamc@96	240
adamc@96	241 end

Mercurial > urweb

annotate src/mono_opt.sml @ 270:b9b02613c0c2