annotate src/sqlcache.sml @ 2256:6f2ea4ed573a

Pure caching sort of works.
author Ziv Scully <ziv@mit.edu>
date Sun, 27 Sep 2015 03:52:14 -0400
parents 8428c534913a
children 28a541bd2d23
rev   line source
ziv@2250 1 structure Sqlcache :> SQLCACHE = struct
ziv@2209 2
ziv@2209 3 open Mono
ziv@2209 4
ziv@2209 5 structure IS = IntBinarySet
ziv@2209 6 structure IM = IntBinaryMap
ziv@2213 7 structure SK = struct type ord_key = string val compare = String.compare end
ziv@2213 8 structure SS = BinarySetFn(SK)
ziv@2213 9 structure SM = BinaryMapFn(SK)
ziv@2213 10 structure SIMM = MultimapFn(structure KeyMap = SM structure ValSet = IS)
ziv@2209 11
ziv@2250 12 fun iterate f n x = if n < 0
ziv@2250 13 then raise Fail "Can't iterate function negative number of times."
ziv@2250 14 else if n = 0
ziv@2250 15 then x
ziv@2250 16 else iterate f (n-1) (f x)
ziv@2250 17
ziv@2216 18 (* Filled in by [cacheWrap] during [Sqlcache]. *)
ziv@2213 19 val ffiInfo : {index : int, params : int} list ref = ref []
ziv@2209 20
ziv@2227 21 fun resetFfiInfo () = ffiInfo := []
ziv@2227 22
ziv@2213 23 fun getFfiInfo () = !ffiInfo
ziv@2213 24
ziv@2215 25 (* Some FFIs have writing as their only effect, which the caching records. *)
ziv@2215 26 val ffiEffectful =
ziv@2223 27 (* ASK: how can this be less hard-coded? *)
ziv@2215 28 let
ziv@2215 29 val fs = SS.fromList ["htmlifyInt_w",
ziv@2215 30 "htmlifyFloat_w",
ziv@2215 31 "htmlifyString_w",
ziv@2215 32 "htmlifyBool_w",
ziv@2215 33 "htmlifyTime_w",
ziv@2215 34 "attrifyInt_w",
ziv@2215 35 "attrifyFloat_w",
ziv@2215 36 "attrifyString_w",
ziv@2215 37 "attrifyChar_w",
ziv@2215 38 "urlifyInt_w",
ziv@2215 39 "urlifyFloat_w",
ziv@2215 40 "urlifyString_w",
ziv@2215 41 "urlifyBool_w",
ziv@2215 42 "urlifyChannel_w"]
ziv@2215 43 in
ziv@2215 44 fn (m, f) => Settings.isEffectful (m, f)
ziv@2250 45 orelse not (m = "Basis" andalso SS.member (fs, f))
ziv@2215 46 end
ziv@2215 47
ziv@2234 48 val cache = ref LruCache.cache
ziv@2233 49 fun setCache c = cache := c
ziv@2233 50 fun getCache () = !cache
ziv@2233 51
ziv@2248 52 (* Used to have type context for local variables in MonoUtil functions. *)
ziv@2248 53 val doBind =
ziv@2250 54 fn (env, MonoUtil.Exp.RelE (s, t)) => MonoEnv.pushERel env s t NONE
ziv@2250 55 | (env, _) => env
ziv@2215 56
ziv@2248 57
ziv@2248 58 (*******************)
ziv@2248 59 (* Effect Analysis *)
ziv@2248 60 (*******************)
ziv@2215 61
ziv@2216 62 (* Makes an exception for [EWrite] (which is recorded when caching). *)
ziv@2248 63 fun effectful (effs : IS.set) =
ziv@2215 64 let
ziv@2248 65 val isFunction =
ziv@2248 66 fn (TFun _, _) => true
ziv@2248 67 | _ => false
ziv@2250 68 fun doExp (env, e) =
ziv@2248 69 case e of
ziv@2248 70 EPrim _ => false
ziv@2248 71 (* For now: variables of function type might be effectful, but
ziv@2248 72 others are fully evaluated and are therefore not effectful. *)
ziv@2250 73 | ERel n => isFunction (#2 (MonoEnv.lookupERel env n))
ziv@2248 74 | ENamed n => IS.member (effs, n)
ziv@2248 75 | EFfi (m, f) => ffiEffectful (m, f)
ziv@2248 76 | EFfiApp (m, f, _) => ffiEffectful (m, f)
ziv@2248 77 (* These aren't effectful unless a subexpression is. *)
ziv@2248 78 | ECon _ => false
ziv@2248 79 | ENone _ => false
ziv@2248 80 | ESome _ => false
ziv@2248 81 | EApp _ => false
ziv@2248 82 | EAbs _ => false
ziv@2248 83 | EUnop _ => false
ziv@2248 84 | EBinop _ => false
ziv@2248 85 | ERecord _ => false
ziv@2248 86 | EField _ => false
ziv@2248 87 | ECase _ => false
ziv@2248 88 | EStrcat _ => false
ziv@2248 89 (* EWrite is a special exception because we record writes when caching. *)
ziv@2248 90 | EWrite _ => false
ziv@2248 91 | ESeq _ => false
ziv@2248 92 | ELet _ => false
ziv@2250 93 | EUnurlify _ => false
ziv@2248 94 (* ASK: what should we do about closures? *)
ziv@2248 95 (* Everything else is some sort of effect. We could flip this and
ziv@2248 96 explicitly list bits of Mono that are effectful, but this is
ziv@2248 97 conservatively robust to future changes (however unlikely). *)
ziv@2248 98 | _ => true
ziv@2215 99 in
ziv@2248 100 MonoUtil.Exp.existsB {typ = fn _ => false, exp = doExp, bind = doBind}
ziv@2215 101 end
ziv@2215 102
ziv@2215 103 (* TODO: test this. *)
ziv@2252 104 fun effectfulDecls (decls, _) =
ziv@2215 105 let
ziv@2248 106 fun doVal ((_, name, _, e, _), effs) =
ziv@2250 107 if effectful effs MonoEnv.empty e
ziv@2248 108 then IS.add (effs, name)
ziv@2248 109 else effs
ziv@2215 110 val doDecl =
ziv@2248 111 fn ((DVal v, _), effs) => doVal (v, effs)
ziv@2248 112 (* Repeat the list of declarations a number of times equal to its size,
ziv@2248 113 making sure effectfulness propagates everywhere it should. This is
ziv@2248 114 analagous to the Bellman-Ford algorithm. *)
ziv@2248 115 | ((DValRec vs, _), effs) =>
ziv@2248 116 List.foldl doVal effs (List.concat (List.map (fn _ => vs) vs))
ziv@2215 117 (* ASK: any other cases? *)
ziv@2248 118 | (_, effs) => effs
ziv@2215 119 in
ziv@2248 120 List.foldl doDecl IS.empty decls
ziv@2215 121 end
ziv@2215 122
ziv@2215 123
ziv@2248 124 (*********************************)
ziv@2248 125 (* Boolean Formula Normalization *)
ziv@2248 126 (*********************************)
ziv@2216 127
ziv@2234 128 datatype junctionType = Conj | Disj
ziv@2216 129
ziv@2216 130 datatype 'atom formula =
ziv@2216 131 Atom of 'atom
ziv@2216 132 | Negate of 'atom formula
ziv@2234 133 | Combo of junctionType * 'atom formula list
ziv@2216 134
ziv@2243 135 (* Guaranteed to have all negation pushed to the atoms. *)
ziv@2243 136 datatype 'atom formula' =
ziv@2243 137 Atom' of 'atom
ziv@2243 138 | Combo' of junctionType * 'atom formula' list
ziv@2243 139
ziv@2234 140 val flipJt = fn Conj => Disj | Disj => Conj
ziv@2216 141
ziv@2236 142 fun concatMap f xs = List.concat (map f xs)
ziv@2216 143
ziv@2216 144 val rec cartesianProduct : 'a list list -> 'a list list =
ziv@2216 145 fn [] => [[]]
ziv@2236 146 | (xs :: xss) => concatMap (fn ys => concatMap (fn x => [x :: ys]) xs)
ziv@2236 147 (cartesianProduct xss)
ziv@2216 148
ziv@2218 149 (* Pushes all negation to the atoms.*)
ziv@2244 150 fun pushNegate (normalizeAtom : bool * 'atom -> 'atom) (negating : bool) =
ziv@2244 151 fn Atom x => Atom' (normalizeAtom (negating, x))
ziv@2244 152 | Negate f => pushNegate normalizeAtom (not negating) f
ziv@2244 153 | Combo (j, fs) => Combo' (if negating then flipJt j else j,
ziv@2244 154 map (pushNegate normalizeAtom negating) fs)
ziv@2218 155
ziv@2218 156 val rec flatten =
ziv@2243 157 fn Combo' (_, [f]) => flatten f
ziv@2243 158 | Combo' (j, fs) =>
ziv@2243 159 Combo' (j, List.foldr (fn (f, acc) =>
ziv@2243 160 case f of
ziv@2243 161 Combo' (j', fs') =>
ziv@2243 162 if j = j' orelse length fs' = 1
ziv@2243 163 then fs' @ acc
ziv@2243 164 else f :: acc
ziv@2243 165 | _ => f :: acc)
ziv@2243 166 []
ziv@2243 167 (map flatten fs))
ziv@2218 168 | f => f
ziv@2218 169
ziv@2243 170 (* [simplify] operates on the desired normal form. E.g., if [junc] is [Disj],
ziv@2243 171 consider the list of lists to be a disjunction of conjunctions. *)
ziv@2237 172 fun normalize' (simplify : 'a list list -> 'a list list)
ziv@2235 173 (junc : junctionType) =
ziv@2216 174 let
ziv@2235 175 fun norm junc =
ziv@2237 176 simplify
ziv@2243 177 o (fn Atom' x => [[x]]
ziv@2243 178 | Combo' (j, fs) =>
ziv@2235 179 let
ziv@2236 180 val fss = map (norm junc) fs
ziv@2235 181 in
ziv@2236 182 if j = junc
ziv@2236 183 then List.concat fss
ziv@2236 184 else map List.concat (cartesianProduct fss)
ziv@2235 185 end)
ziv@2216 186 in
ziv@2235 187 norm junc
ziv@2216 188 end
ziv@2216 189
ziv@2244 190 fun normalize simplify normalizeAtom junc =
ziv@2243 191 normalize' simplify junc
ziv@2235 192 o flatten
ziv@2244 193 o pushNegate normalizeAtom false
ziv@2216 194
ziv@2221 195 fun mapFormula mf =
ziv@2221 196 fn Atom x => Atom (mf x)
ziv@2221 197 | Negate f => Negate (mapFormula mf f)
ziv@2235 198 | Combo (j, fs) => Combo (j, map (mapFormula mf) fs)
ziv@2216 199
ziv@2230 200
ziv@2248 201 (****************)
ziv@2248 202 (* SQL Analysis *)
ziv@2248 203 (****************)
ziv@2213 204
ziv@2240 205 structure CmpKey = struct
ziv@2235 206
ziv@2235 207 type ord_key = Sql.cmp
ziv@2235 208
ziv@2235 209 val compare =
ziv@2235 210 fn (Sql.Eq, Sql.Eq) => EQUAL
ziv@2235 211 | (Sql.Eq, _) => LESS
ziv@2235 212 | (_, Sql.Eq) => GREATER
ziv@2235 213 | (Sql.Ne, Sql.Ne) => EQUAL
ziv@2235 214 | (Sql.Ne, _) => LESS
ziv@2235 215 | (_, Sql.Ne) => GREATER
ziv@2235 216 | (Sql.Lt, Sql.Lt) => EQUAL
ziv@2235 217 | (Sql.Lt, _) => LESS
ziv@2235 218 | (_, Sql.Lt) => GREATER
ziv@2235 219 | (Sql.Le, Sql.Le) => EQUAL
ziv@2235 220 | (Sql.Le, _) => LESS
ziv@2235 221 | (_, Sql.Le) => GREATER
ziv@2235 222 | (Sql.Gt, Sql.Gt) => EQUAL
ziv@2235 223 | (Sql.Gt, _) => LESS
ziv@2235 224 | (_, Sql.Gt) => GREATER
ziv@2235 225 | (Sql.Ge, Sql.Ge) => EQUAL
ziv@2235 226
ziv@2235 227 end
ziv@2235 228
ziv@2216 229 val rec chooseTwos : 'a list -> ('a * 'a) list =
ziv@2216 230 fn [] => []
ziv@2216 231 | x :: ys => map (fn y => (x, y)) ys @ chooseTwos ys
ziv@2213 232
ziv@2237 233 fun removeRedundant madeRedundantBy zs =
ziv@2237 234 let
ziv@2237 235 fun removeRedundant' (xs, ys) =
ziv@2237 236 case xs of
ziv@2237 237 [] => ys
ziv@2237 238 | x :: xs' =>
ziv@2237 239 removeRedundant' (xs',
ziv@2237 240 if List.exists (fn y => madeRedundantBy (x, y)) (xs' @ ys)
ziv@2237 241 then ys
ziv@2237 242 else x :: ys)
ziv@2237 243 in
ziv@2237 244 removeRedundant' (zs, [])
ziv@2237 245 end
ziv@2237 246
ziv@2216 247 datatype atomExp =
ziv@2216 248 QueryArg of int
ziv@2216 249 | DmlRel of int
ziv@2216 250 | Prim of Prim.t
ziv@2216 251 | Field of string * string
ziv@2216 252
ziv@2216 253 structure AtomExpKey : ORD_KEY = struct
ziv@2216 254
ziv@2234 255 type ord_key = atomExp
ziv@2216 256
ziv@2234 257 val compare =
ziv@2234 258 fn (QueryArg n1, QueryArg n2) => Int.compare (n1, n2)
ziv@2234 259 | (QueryArg _, _) => LESS
ziv@2234 260 | (_, QueryArg _) => GREATER
ziv@2234 261 | (DmlRel n1, DmlRel n2) => Int.compare (n1, n2)
ziv@2234 262 | (DmlRel _, _) => LESS
ziv@2234 263 | (_, DmlRel _) => GREATER
ziv@2234 264 | (Prim p1, Prim p2) => Prim.compare (p1, p2)
ziv@2234 265 | (Prim _, _) => LESS
ziv@2234 266 | (_, Prim _) => GREATER
ziv@2234 267 | (Field (t1, f1), Field (t2, f2)) =>
ziv@2234 268 case String.compare (t1, t2) of
ziv@2234 269 EQUAL => String.compare (f1, f2)
ziv@2234 270 | ord => ord
ziv@2216 271
ziv@2216 272 end
ziv@2216 273
ziv@2244 274 structure AtomOptionKey = OptionKeyFn(AtomExpKey)
ziv@2244 275
ziv@2216 276 structure UF = UnionFindFn(AtomExpKey)
ziv@2234 277
ziv@2235 278 structure ConflictMaps = struct
ziv@2235 279
ziv@2235 280 structure TK = TripleKeyFn(structure I = CmpKey
ziv@2244 281 structure J = AtomOptionKey
ziv@2244 282 structure K = AtomOptionKey)
ziv@2244 283 structure TS : ORD_SET = BinarySetFn(TK)
ziv@2235 284
ziv@2235 285 val toKnownEquality =
ziv@2235 286 (* [NONE] here means unkown. Anything that isn't a comparison between two
ziv@2235 287 knowns shouldn't be used, and simply dropping unused terms is okay in
ziv@2235 288 disjunctive normal form. *)
ziv@2235 289 fn (Sql.Eq, SOME e1, SOME e2) => SOME (e1, e2)
ziv@2235 290 | _ => NONE
ziv@2235 291
ziv@2235 292 val equivClasses : (Sql.cmp * atomExp option * atomExp option) list -> atomExp list list =
ziv@2235 293 UF.classes
ziv@2235 294 o List.foldl UF.union' UF.empty
ziv@2235 295 o List.mapPartial toKnownEquality
ziv@2235 296
ziv@2235 297 fun addToEqs (eqs, n, e) =
ziv@2235 298 case IM.find (eqs, n) of
ziv@2235 299 (* Comparing to a constant is probably better than comparing to a
ziv@2235 300 variable? Checking that existing constants match a new ones is
ziv@2235 301 handled by [accumulateEqs]. *)
ziv@2235 302 SOME (Prim _) => eqs
ziv@2235 303 | _ => IM.insert (eqs, n, e)
ziv@2235 304
ziv@2235 305 val accumulateEqs =
ziv@2235 306 (* [NONE] means we have a contradiction. *)
ziv@2235 307 fn (_, NONE) => NONE
ziv@2235 308 | ((Prim p1, Prim p2), eqso) =>
ziv@2235 309 (case Prim.compare (p1, p2) of
ziv@2235 310 EQUAL => eqso
ziv@2235 311 | _ => NONE)
ziv@2235 312 | ((QueryArg n, Prim p), SOME eqs) => SOME (addToEqs (eqs, n, Prim p))
ziv@2235 313 | ((QueryArg n, DmlRel r), SOME eqs) => SOME (addToEqs (eqs, n, DmlRel r))
ziv@2235 314 | ((Prim p, QueryArg n), SOME eqs) => SOME (addToEqs (eqs, n, Prim p))
ziv@2235 315 | ((DmlRel r, QueryArg n), SOME eqs) => SOME (addToEqs (eqs, n, DmlRel r))
ziv@2235 316 (* TODO: deal with equalities between [DmlRel]s and [Prim]s.
ziv@2235 317 This would involve guarding the invalidation with a check for the
ziv@2235 318 relevant comparisons. *)
ziv@2235 319 | (_, eqso) => eqso
ziv@2235 320
ziv@2235 321 val eqsOfClass : atomExp list -> atomExp IM.map option =
ziv@2235 322 List.foldl accumulateEqs (SOME IM.empty)
ziv@2235 323 o chooseTwos
ziv@2235 324
ziv@2235 325 fun toAtomExps rel (cmp, e1, e2) =
ziv@2235 326 let
ziv@2235 327 val qa =
ziv@2235 328 (* Here [NONE] means unkown. *)
ziv@2235 329 fn Sql.SqConst p => SOME (Prim p)
ziv@2235 330 | Sql.Field tf => SOME (Field tf)
ziv@2235 331 | Sql.Inj (EPrim p, _) => SOME (Prim p)
ziv@2235 332 | Sql.Inj (ERel n, _) => SOME (rel n)
ziv@2235 333 (* We can't deal with anything else, e.g., CURRENT_TIMESTAMP
ziv@2235 334 becomes Sql.Unmodeled, which becomes NONE here. *)
ziv@2235 335 | _ => NONE
ziv@2235 336 in
ziv@2235 337 (cmp, qa e1, qa e2)
ziv@2235 338 end
ziv@2235 339
ziv@2244 340 val negateCmp =
ziv@2244 341 fn Sql.Eq => Sql.Ne
ziv@2244 342 | Sql.Ne => Sql.Eq
ziv@2244 343 | Sql.Lt => Sql.Ge
ziv@2244 344 | Sql.Le => Sql.Gt
ziv@2244 345 | Sql.Gt => Sql.Le
ziv@2244 346 | Sql.Ge => Sql.Lt
ziv@2244 347
ziv@2244 348 fun normalizeAtom (negating, (cmp, e1, e2)) =
ziv@2244 349 (* Restricting to Le/Lt and sorting the expressions in Eq/Ne helps with
ziv@2244 350 simplification, where we put the triples in sets. *)
ziv@2244 351 case (if negating then negateCmp cmp else cmp) of
ziv@2244 352 Sql.Eq => (case AtomOptionKey.compare (e1, e2) of
ziv@2244 353 LESS => (Sql.Eq, e2, e1)
ziv@2244 354 | _ => (Sql.Eq, e1, e2))
ziv@2244 355 | Sql.Ne => (case AtomOptionKey.compare (e1, e2) of
ziv@2244 356 LESS => (Sql.Ne, e2, e1)
ziv@2244 357 | _ => (Sql.Ne, e1, e2))
ziv@2244 358 | Sql.Lt => (Sql.Lt, e1, e2)
ziv@2244 359 | Sql.Le => (Sql.Le, e1, e2)
ziv@2244 360 | Sql.Gt => (Sql.Lt, e2, e1)
ziv@2244 361 | Sql.Ge => (Sql.Le, e2, e1)
ziv@2235 362
ziv@2235 363 val markQuery : (Sql.cmp * Sql.sqexp * Sql.sqexp) formula ->
ziv@2235 364 (Sql.cmp * atomExp option * atomExp option) formula =
ziv@2235 365 mapFormula (toAtomExps QueryArg)
ziv@2235 366
ziv@2235 367 val markDml : (Sql.cmp * Sql.sqexp * Sql.sqexp) formula ->
ziv@2235 368 (Sql.cmp * atomExp option * atomExp option) formula =
ziv@2235 369 mapFormula (toAtomExps DmlRel)
ziv@2250 370
ziv@2235 371 (* No eqs should have key conflicts because no variable is in two
ziv@2235 372 equivalence classes, so the [#1] could be [#2]. *)
ziv@2235 373 val mergeEqs : (atomExp IntBinaryMap.map option list
ziv@2235 374 -> atomExp IntBinaryMap.map option) =
ziv@2235 375 List.foldr (fn (SOME eqs, SOME acc) => SOME (IM.unionWith #1 (eqs, acc)) | _ => NONE)
ziv@2235 376 (SOME IM.empty)
ziv@2235 377
ziv@2239 378 val simplify =
ziv@2239 379 map TS.listItems
ziv@2239 380 o removeRedundant (fn (x, y) => TS.isSubset (y, x))
ziv@2239 381 o map (fn xs => TS.addList (TS.empty, xs))
ziv@2239 382
ziv@2235 383 fun dnf (fQuery, fDml) =
ziv@2244 384 normalize simplify normalizeAtom Disj (Combo (Conj, [markQuery fQuery, markDml fDml]))
ziv@2235 385
ziv@2235 386 val conflictMaps = List.mapPartial (mergeEqs o map eqsOfClass o equivClasses) o dnf
ziv@2235 387
ziv@2235 388 end
ziv@2235 389
ziv@2235 390 val conflictMaps = ConflictMaps.conflictMaps
ziv@2213 391
ziv@2216 392 val rec sqexpToFormula =
ziv@2234 393 fn Sql.SqTrue => Combo (Conj, [])
ziv@2234 394 | Sql.SqFalse => Combo (Disj, [])
ziv@2216 395 | Sql.SqNot e => Negate (sqexpToFormula e)
ziv@2216 396 | Sql.Binop (Sql.RCmp c, e1, e2) => Atom (c, e1, e2)
ziv@2234 397 | Sql.Binop (Sql.RLop l, p1, p2) => Combo (case l of Sql.And => Conj | Sql.Or => Disj,
ziv@2216 398 [sqexpToFormula p1, sqexpToFormula p2])
ziv@2216 399 (* ASK: any other sqexps that can be props? *)
ziv@2216 400 | _ => raise Match
ziv@2213 401
ziv@2218 402 fun renameTables tablePairs =
ziv@2216 403 let
ziv@2216 404 fun renameString table =
ziv@2216 405 case List.find (fn (_, t) => table = t) tablePairs of
ziv@2216 406 NONE => table
ziv@2216 407 | SOME (realTable, _) => realTable
ziv@2216 408 val renameSqexp =
ziv@2216 409 fn Sql.Field (table, field) => Sql.Field (renameString table, field)
ziv@2216 410 | e => e
ziv@2218 411 fun renameAtom (cmp, e1, e2) = (cmp, renameSqexp e1, renameSqexp e2)
ziv@2216 412 in
ziv@2218 413 mapFormula renameAtom
ziv@2216 414 end
ziv@2218 415
ziv@2218 416 val rec queryToFormula =
ziv@2234 417 fn Sql.Query1 {Where = NONE, ...} => Combo (Conj, [])
ziv@2218 418 | Sql.Query1 {From = tablePairs, Where = SOME e, ...} =>
ziv@2218 419 renameTables tablePairs (sqexpToFormula e)
ziv@2234 420 | Sql.Union (q1, q2) => Combo (Disj, [queryToFormula q1, queryToFormula q2])
ziv@2216 421
ziv@2218 422 fun valsToFormula (table, vals) =
ziv@2234 423 Combo (Conj, map (fn (field, v) => Atom (Sql.Eq, Sql.Field (table, field), v)) vals)
ziv@2218 424
ziv@2216 425 val rec dmlToFormula =
ziv@2221 426 fn Sql.Insert (table, vals) => valsToFormula (table, vals)
ziv@2218 427 | Sql.Delete (table, wher) => renameTables [(table, "T")] (sqexpToFormula wher)
ziv@2218 428 | Sql.Update (table, vals, wher) =>
ziv@2218 429 let
ziv@2221 430 val fWhere = sqexpToFormula wher
ziv@2221 431 val fVals = valsToFormula (table, vals)
ziv@2237 432 val modifiedFields = SS.addList (SS.empty, map #1 vals)
ziv@2221 433 (* TODO: don't use field name hack. *)
ziv@2221 434 val markField =
ziv@2237 435 fn e as Sql.Field (t, v) => if SS.member (modifiedFields, v)
ziv@2237 436 then Sql.Field (t, v ^ "'")
ziv@2237 437 else e
ziv@2221 438 | e => e
ziv@2221 439 val mark = mapFormula (fn (cmp, e1, e2) => (cmp, markField e1, markField e2))
ziv@2218 440 in
ziv@2218 441 renameTables [(table, "T")]
ziv@2234 442 (Combo (Disj, [Combo (Conj, [fVals, mark fWhere]),
ziv@2244 443 Combo (Conj, [mark fVals, fWhere])]))
ziv@2218 444 end
ziv@2213 445
ziv@2213 446 val rec tablesQuery =
ziv@2216 447 fn Sql.Query1 {From = tablePairs, ...} => SS.fromList (map #1 tablePairs)
ziv@2216 448 | Sql.Union (q1, q2) => SS.union (tablesQuery q1, tablesQuery q2)
ziv@2213 449
ziv@2213 450 val tableDml =
ziv@2216 451 fn Sql.Insert (tab, _) => tab
ziv@2216 452 | Sql.Delete (tab, _) => tab
ziv@2216 453 | Sql.Update (tab, _, _) => tab
ziv@2213 454
ziv@2213 455
ziv@2248 456 (***************************)
ziv@2248 457 (* Program Instrumentation *)
ziv@2248 458 (***************************)
ziv@2213 459
ziv@2234 460 val varName =
ziv@2234 461 let
ziv@2234 462 val varNumber = ref 0
ziv@2234 463 in
ziv@2234 464 fn s => (varNumber := !varNumber + 1; s ^ Int.toString (!varNumber))
ziv@2234 465 end
ziv@2234 466
ziv@2233 467 val {check, store, flush, ...} = getCache ()
ziv@2233 468
ziv@2230 469 val dummyLoc = ErrorMsg.dummySpan
ziv@2216 470
ziv@2248 471 val dummyTyp = (TRecord [], dummyLoc)
ziv@2248 472
ziv@2230 473 fun stringExp s = (EPrim (Prim.String (Prim.Normal, s)), dummyLoc)
ziv@2230 474
ziv@2230 475 val stringTyp = (TFfi ("Basis", "string"), dummyLoc)
ziv@2213 476
ziv@2213 477 val sequence =
ziv@2213 478 fn (exp :: exps) =>
ziv@2213 479 let
ziv@2230 480 val loc = dummyLoc
ziv@2213 481 in
ziv@2213 482 List.foldl (fn (e', seq) => ESeq ((seq, loc), (e', loc))) exp exps
ziv@2213 483 end
ziv@2213 484 | _ => raise Match
ziv@2213 485
ziv@2248 486 (* Always increments negative indices as a hack we use later. *)
ziv@2248 487 fun incRels inc =
ziv@2215 488 MonoUtil.Exp.mapB
ziv@2248 489 {typ = fn t' => t',
ziv@2248 490 exp = fn bound =>
ziv@2248 491 (fn ERel n => ERel (if n >= bound orelse n < 0 then n + inc else n)
ziv@2248 492 | e' => e'),
ziv@2248 493 bind = fn (bound, MonoUtil.Exp.RelE _) => bound + 1 | (bound, _) => bound}
ziv@2248 494 0
ziv@2213 495
ziv@2256 496 fun cacheWrap (env, exp, resultTyp, args, i) =
ziv@2213 497 let
ziv@2230 498 val loc = dummyLoc
ziv@2255 499 val rel0 = (ERel 0, loc)
ziv@2213 500 in
ziv@2256 501 case MonoFooify.urlify env (rel0, resultTyp) of
ziv@2256 502 NONE => NONE
ziv@2256 503 | SOME urlified =>
ziv@2256 504 let
ziv@2256 505 val () = ffiInfo := {index = i, params = length args} :: !ffiInfo
ziv@2256 506 (* We ensure before this step that all arguments aren't effectful.
ziv@2256 507 by turning them into local variables as needed. *)
ziv@2256 508 val argsInc = map (incRels 1) args
ziv@2256 509 val check = (check (i, args), loc)
ziv@2256 510 val store = (store (i, argsInc, urlified), loc)
ziv@2256 511 in
ziv@2256 512 SOME (ECase
ziv@2256 513 (check,
ziv@2256 514 [((PNone stringTyp, loc),
ziv@2256 515 (ELet (varName "q", resultTyp, exp, (ESeq (store, rel0), loc)), loc)),
ziv@2256 516 ((PSome (stringTyp, (PVar (varName "hit", stringTyp), loc)), loc),
ziv@2256 517 (* Boolean is false because we're not unurlifying from a cookie. *)
ziv@2256 518 (EUnurlify (rel0, resultTyp, false), loc))],
ziv@2256 519 {disc = (TOption stringTyp, loc), result = resultTyp}))
ziv@2256 520 end
ziv@2213 521 end
ziv@2213 522
ziv@2256 523 fun fileMapfoldB doExp file start =
ziv@2248 524 case MonoUtil.File.mapfoldB
ziv@2248 525 {typ = Search.return2,
ziv@2250 526 exp = fn env => fn e' => fn s => Search.Continue (doExp env e' s),
ziv@2248 527 decl = fn _ => Search.return2,
ziv@2248 528 bind = doBind}
ziv@2250 529 MonoEnv.empty file start of
ziv@2213 530 Search.Continue x => x
ziv@2213 531 | Search.Return _ => raise Match
ziv@2213 532
ziv@2256 533 fun fileMap doExp file = #1 (fileMapfoldB (fn _ => fn e => fn _ => (doExp e, ())) file ())
ziv@2213 534
ziv@2221 535 fun factorOutNontrivial text =
ziv@2221 536 let
ziv@2230 537 val loc = dummyLoc
ziv@2221 538 fun strcat (e1, e2) = (EStrcat (e1, e2), loc)
ziv@2221 539 val chunks = Sql.chunkify text
ziv@2221 540 val (newText, newVariables) =
ziv@2221 541 (* Important that this is foldr (to oppose foldl below). *)
ziv@2221 542 List.foldr
ziv@2221 543 (fn (chunk, (qText, newVars)) =>
ziv@2221 544 (* Variable bound to the head of newBs will have the lowest index. *)
ziv@2221 545 case chunk of
ziv@2221 546 Sql.Exp (e as (EPrim _, _)) => (strcat (e, qText), newVars)
ziv@2221 547 | Sql.Exp e =>
ziv@2221 548 let
ziv@2221 549 val n = length newVars
ziv@2221 550 in
ziv@2221 551 (* This is the (n + 1)th new variable, so there are
ziv@2221 552 already n new variables bound, so we increment
ziv@2221 553 indices by n. *)
ziv@2221 554 (strcat ((ERel (~(n+1)), loc), qText), incRels n e :: newVars)
ziv@2221 555 end
ziv@2221 556 | Sql.String s => (strcat (stringExp s, qText), newVars))
ziv@2221 557 (stringExp "", [])
ziv@2221 558 chunks
ziv@2221 559 fun wrapLets e' =
ziv@2221 560 (* Important that this is foldl (to oppose foldr above). *)
ziv@2234 561 List.foldl (fn (v, e') => ELet (varName "sqlArg", stringTyp, v, (e', loc)))
ziv@2221 562 e'
ziv@2221 563 newVariables
ziv@2221 564 val numArgs = length newVariables
ziv@2221 565 in
ziv@2221 566 (newText, wrapLets, numArgs)
ziv@2221 567 end
ziv@2221 568
ziv@2215 569 fun addChecking file =
ziv@2213 570 let
ziv@2256 571 val effs = effectfulDecls file
ziv@2250 572 fun doExp env (queryInfo as (tableToIndices, indexToQueryNumArgs, index)) =
ziv@2223 573 fn e' as EQuery {query = origQueryText,
ziv@2223 574 state = resultTyp,
ziv@2223 575 initial, body, tables, exps} =>
ziv@2213 576 let
ziv@2221 577 val (newQueryText, wrapLets, numArgs) = factorOutNontrivial origQueryText
ziv@2215 578 (* Increment once for each new variable just made. *)
ziv@2221 579 val queryExp = incRels numArgs
ziv@2215 580 (EQuery {query = newQueryText,
ziv@2223 581 state = resultTyp,
ziv@2215 582 initial = initial,
ziv@2215 583 body = body,
ziv@2215 584 tables = tables,
ziv@2223 585 exps = exps},
ziv@2230 586 dummyLoc)
ziv@2215 587 val (EQuery {query = queryText, ...}, _) = queryExp
ziv@2235 588 (* DEBUG *)
ziv@2221 589 val () = Print.preface ("sqlcache> ", (MonoPrint.p_exp MonoEnv.empty queryText))
ziv@2230 590 val args = List.tabulate (numArgs, fn n => (ERel n, dummyLoc))
ziv@2213 591 fun bind x f = Option.mapPartial f x
ziv@2215 592 fun guard b x = if b then x else NONE
ziv@2248 593 (* We use dummyTyp here. I think this is okay because databases
ziv@2250 594 don't store (effectful) functions, but perhaps there's some
ziv@2250 595 pathalogical corner case missing.... *)
ziv@2248 596 fun safe bound =
ziv@2250 597 not
ziv@2250 598 o effectful effs
ziv@2250 599 (iterate (fn env => MonoEnv.pushERel env "_" dummyTyp NONE)
ziv@2250 600 bound
ziv@2250 601 env)
ziv@2213 602 val attempt =
ziv@2213 603 (* Ziv misses Haskell's do notation.... *)
ziv@2215 604 guard (safe 0 queryText andalso safe 0 initial andalso safe 2 body) (
ziv@2216 605 bind (Sql.parse Sql.query queryText) (fn queryParsed =>
ziv@2256 606 bind (cacheWrap (env, queryExp, resultTyp, args, index)) (fn cachedExp =>
ziv@2256 607 SOME (wrapLets cachedExp,
ziv@2218 608 (SS.foldr (fn (tab, qi) => SIMM.insert (qi, tab, index))
ziv@2218 609 tableToIndices
ziv@2218 610 (tablesQuery queryParsed),
ziv@2223 611 IM.insert (indexToQueryNumArgs, index, (queryParsed, numArgs)),
ziv@2256 612 index + 1)))))
ziv@2213 613 in
ziv@2213 614 case attempt of
ziv@2213 615 SOME pair => pair
ziv@2213 616 | NONE => (e', queryInfo)
ziv@2213 617 end
ziv@2213 618 | e' => (e', queryInfo)
ziv@2213 619 in
ziv@2256 620 (fileMapfoldB (fn env => fn exp => fn state => doExp env state exp)
ziv@2256 621 file
ziv@2256 622 (SIMM.empty, IM.empty, 0),
ziv@2256 623 effs)
ziv@2213 624 end
ziv@2213 625
ziv@2235 626 structure Invalidations = struct
ziv@2235 627
ziv@2235 628 val loc = dummyLoc
ziv@2235 629
ziv@2235 630 val optionAtomExpToExp =
ziv@2235 631 fn NONE => (ENone stringTyp, loc)
ziv@2235 632 | SOME e => (ESome (stringTyp,
ziv@2235 633 (case e of
ziv@2235 634 DmlRel n => ERel n
ziv@2235 635 | Prim p => EPrim p
ziv@2235 636 (* TODO: make new type containing only these two. *)
ziv@2235 637 | _ => raise Match,
ziv@2235 638 loc)),
ziv@2235 639 loc)
ziv@2235 640
ziv@2235 641 fun eqsToInvalidation numArgs eqs =
ziv@2235 642 let
ziv@2235 643 fun inv n = if n < 0 then [] else IM.find (eqs, n) :: inv (n - 1)
ziv@2235 644 in
ziv@2235 645 inv (numArgs - 1)
ziv@2235 646 end
ziv@2235 647
ziv@2235 648 (* Tests if [ys] makes [xs] a redundant cache invalidation. [NONE] here
ziv@2235 649 represents unknown, which means a wider invalidation. *)
ziv@2235 650 val rec madeRedundantBy : atomExp option list * atomExp option list -> bool =
ziv@2235 651 fn ([], []) => true
ziv@2237 652 | (_ :: xs, NONE :: ys) => madeRedundantBy (xs, ys)
ziv@2235 653 | (SOME x :: xs, SOME y :: ys) => (case AtomExpKey.compare (x, y) of
ziv@2235 654 EQUAL => madeRedundantBy (xs, ys)
ziv@2235 655 | _ => false)
ziv@2235 656 | _ => false
ziv@2235 657
ziv@2235 658 fun eqss (query, dml) = conflictMaps (queryToFormula query, dmlToFormula dml)
ziv@2235 659
ziv@2235 660 fun invalidations ((query, numArgs), dml) =
ziv@2235 661 (map (map optionAtomExpToExp)
ziv@2237 662 o removeRedundant madeRedundantBy
ziv@2235 663 o map (eqsToInvalidation numArgs)
ziv@2235 664 o eqss)
ziv@2235 665 (query, dml)
ziv@2235 666
ziv@2235 667 end
ziv@2235 668
ziv@2235 669 val invalidations = Invalidations.invalidations
ziv@2235 670
ziv@2235 671 (* DEBUG *)
ziv@2235 672 val gunk : ((Sql.query * int) * Sql.dml) list ref = ref []
ziv@2216 673
ziv@2256 674 fun addFlushing ((file, (tableToIndices, indexToQueryNumArgs, index)), effs) =
ziv@2213 675 let
ziv@2221 676 val flushes = List.concat o
ziv@2233 677 map (fn (i, argss) => map (fn args => flush (i, args)) argss)
ziv@2213 678 val doExp =
ziv@2221 679 fn EDml (origDmlText, failureMode) =>
ziv@2213 680 let
ziv@2221 681 val (newDmlText, wrapLets, numArgs) = factorOutNontrivial origDmlText
ziv@2221 682 val dmlText = incRels numArgs newDmlText
ziv@2221 683 val dmlExp = EDml (dmlText, failureMode)
ziv@2235 684 (* DEBUG *)
ziv@2221 685 val () = Print.preface ("sqlcache> ", (MonoPrint.p_exp MonoEnv.empty dmlText))
ziv@2221 686 val invs =
ziv@2216 687 case Sql.parse Sql.dml dmlText of
ziv@2218 688 SOME dmlParsed =>
ziv@2221 689 map (fn i => (case IM.find (indexToQueryNumArgs, i) of
ziv@2221 690 SOME queryNumArgs =>
ziv@2235 691 (* DEBUG *)
ziv@2235 692 (gunk := (queryNumArgs, dmlParsed) :: !gunk;
ziv@2235 693 (i, invalidations (queryNumArgs, dmlParsed)))
ziv@2221 694 (* TODO: fail more gracefully. *)
ziv@2221 695 | NONE => raise Match))
ziv@2221 696 (SIMM.findList (tableToIndices, tableDml dmlParsed))
ziv@2221 697 (* TODO: fail more gracefully. *)
ziv@2221 698 | NONE => raise Match
ziv@2213 699 in
ziv@2221 700 wrapLets (sequence (flushes invs @ [dmlExp]))
ziv@2213 701 end
ziv@2213 702 | e' => e'
ziv@2213 703 in
ziv@2235 704 (* DEBUG *)
ziv@2235 705 gunk := [];
ziv@2256 706 (fileMap doExp file, index, effs)
ziv@2213 707 end
ziv@2213 708
ziv@2221 709 val inlineSql =
ziv@2221 710 let
ziv@2221 711 val doExp =
ziv@2221 712 (* TODO: EQuery, too? *)
ziv@2221 713 (* ASK: should this live in [MonoOpt]? *)
ziv@2221 714 fn EDml ((ECase (disc, cases, {disc = dTyp, ...}), loc), failureMode) =>
ziv@2221 715 let
ziv@2221 716 val newCases = map (fn (p, e) => (p, (EDml (e, failureMode), loc))) cases
ziv@2221 717 in
ziv@2221 718 ECase (disc, newCases, {disc = dTyp, result = (TRecord [], loc)})
ziv@2221 719 end
ziv@2221 720 | e => e
ziv@2221 721 in
ziv@2221 722 fileMap doExp
ziv@2221 723 end
ziv@2221 724
ziv@2250 725
ziv@2250 726 (**********************)
ziv@2250 727 (* Mono Type Checking *)
ziv@2250 728 (**********************)
ziv@2250 729
ziv@2250 730 fun typOfExp' (env : MonoEnv.env) : exp' -> typ option =
ziv@2250 731 fn EPrim p => SOME (TFfi ("Basis", case p of
ziv@2250 732 Prim.Int _ => "int"
ziv@2250 733 | Prim.Float _ => "double"
ziv@2250 734 | Prim.String _ => "string"
ziv@2250 735 | Prim.Char _ => "char"),
ziv@2250 736 dummyLoc)
ziv@2250 737 | ERel n => SOME (#2 (MonoEnv.lookupERel env n))
ziv@2250 738 | ENamed n => SOME (#2 (MonoEnv.lookupENamed env n))
ziv@2250 739 (* ASK: okay to make a new [ref] each time? *)
ziv@2250 740 | ECon (dk, PConVar nCon, _) =>
ziv@2250 741 let
ziv@2250 742 val (_, _, nData) = MonoEnv.lookupConstructor env nCon
ziv@2250 743 val (_, cs) = MonoEnv.lookupDatatype env nData
ziv@2250 744 in
ziv@2250 745 SOME (TDatatype (nData, ref (dk, cs)), dummyLoc)
ziv@2250 746 end
ziv@2250 747 | ECon (_, PConFfi {mod = s, datatyp, ...}, _) => SOME (TFfi (s, datatyp), dummyLoc)
ziv@2250 748 | ENone t => SOME (TOption t, dummyLoc)
ziv@2250 749 | ESome (t, _) => SOME (TOption t, dummyLoc)
ziv@2250 750 | EFfi _ => NONE
ziv@2250 751 | EFfiApp _ => NONE
ziv@2250 752 | EApp (e1, e2) => (case typOfExp env e1 of
ziv@2250 753 SOME (TFun (_, t), _) => SOME t
ziv@2250 754 | _ => NONE)
ziv@2250 755 | EAbs (_, t1, t2, _) => SOME (TFun (t1, t2), dummyLoc)
ziv@2250 756 (* ASK: is this right? *)
ziv@2250 757 | EUnop (unop, e) => (case unop of
ziv@2250 758 "!" => SOME (TFfi ("Basis", "bool"), dummyLoc)
ziv@2250 759 | "-" => typOfExp env e
ziv@2250 760 | _ => NONE)
ziv@2250 761 (* ASK: how should this (and other "=> NONE" cases) work? *)
ziv@2250 762 | EBinop _ => NONE
ziv@2250 763 | ERecord fields => SOME (TRecord (map (fn (s, _, t) => (s, t)) fields), dummyLoc)
ziv@2250 764 | EField (e, s) => (case typOfExp env e of
ziv@2250 765 SOME (TRecord fields, _) =>
ziv@2250 766 (case List.find (fn (s', _) => s = s') fields of
ziv@2250 767 SOME (_, t) => SOME t
ziv@2250 768 | _ => NONE)
ziv@2250 769 | _ => NONE)
ziv@2250 770 | ECase (_, _, {result, ...}) => SOME result
ziv@2250 771 | EStrcat _ => SOME (TFfi ("Basis", "string"), dummyLoc)
ziv@2250 772 | EWrite _ => SOME (TRecord [], dummyLoc)
ziv@2250 773 | ESeq (_, e) => typOfExp env e
ziv@2250 774 | ELet (s, t, e1, e2) => typOfExp (MonoEnv.pushERel env s t (SOME e1)) e2
ziv@2250 775 | EClosure _ => NONE
ziv@2250 776 | EUnurlify (_, t, _) => SOME t
ziv@2256 777 | _ => NONE
ziv@2250 778
ziv@2250 779 and typOfExp env (e', loc) = typOfExp' env e'
ziv@2250 780
ziv@2250 781
ziv@2250 782 (*******************************)
ziv@2250 783 (* Caching Pure Subexpressions *)
ziv@2250 784 (*******************************)
ziv@2250 785
ziv@2250 786 datatype subexp = Pure of unit -> exp | Impure of exp
ziv@2250 787
ziv@2250 788 val isImpure =
ziv@2250 789 fn Pure _ => false
ziv@2250 790 | Impure _ => true
ziv@2250 791
ziv@2250 792 val expOfSubexp =
ziv@2250 793 fn Pure f => f ()
ziv@2250 794 | Impure e => e
ziv@2250 795
ziv@2256 796 fun makeCache (env, exp', index) =
ziv@2256 797 case typOfExp' env exp' of
ziv@2256 798 NONE => NONE
ziv@2256 799 | SOME (TFun _, _) => NONE
ziv@2256 800 | SOME typ =>
ziv@2256 801 case ListUtil.foldri (fn (_, _, NONE) => NONE
ziv@2256 802 | (n, typ, SOME args) =>
ziv@2256 803 case MonoFooify.urlify env ((ERel n, dummyLoc), typ) of
ziv@2256 804 NONE => NONE
ziv@2256 805 | SOME arg => SOME (arg :: args))
ziv@2256 806 (SOME [])
ziv@2256 807 (MonoEnv.typeContext env) of
ziv@2256 808 NONE => NONE
ziv@2256 809 | SOME args => cacheWrap (env, (exp', dummyLoc), typ, args, index)
ziv@2250 810
ziv@2256 811 fun pureCache (effs : IS.set) ((env, exp as (exp', loc)), index) : subexp * int =
ziv@2250 812 let
ziv@2250 813 fun wrapBindN f (args : (MonoEnv.env * exp) list) =
ziv@2250 814 let
ziv@2256 815 val (subexps, index) = ListUtil.foldlMap (pureCache effs) index args
ziv@2256 816 fun mkExp () = (f (map expOfSubexp subexps), loc)
ziv@2250 817 in
ziv@2250 818 if List.exists isImpure subexps
ziv@2256 819 then (Impure (mkExp ()), index)
ziv@2256 820 else (Pure (fn () => case makeCache (env, f (map #2 args), index) of
ziv@2256 821 NONE => mkExp ()
ziv@2256 822 | SOME e' => (e', loc)),
ziv@2256 823 (* Conservatively increment index. *)
ziv@2256 824 index + 1)
ziv@2250 825 end
ziv@2250 826 fun wrapBind1 f arg =
ziv@2250 827 wrapBindN (fn [arg] => f arg | _ => raise Match) [arg]
ziv@2250 828 fun wrapBind2 f (arg1, arg2) =
ziv@2250 829 wrapBindN (fn [arg1, arg2] => f (arg1, arg2) | _ => raise Match) [arg1, arg2]
ziv@2250 830 fun wrapN f es = wrapBindN f (map (fn e => (env, e)) es)
ziv@2250 831 fun wrap1 f e = wrapBind1 f (env, e)
ziv@2250 832 fun wrap2 f (e1, e2) = wrapBind2 f ((env, e1), (env, e2))
ziv@2250 833 in
ziv@2250 834 case exp' of
ziv@2250 835 ECon (dk, pc, SOME e) => wrap1 (fn e => ECon (dk, pc, SOME e)) e
ziv@2250 836 | ESome (t, e) => wrap1 (fn e => ESome (t, e)) e
ziv@2250 837 | EFfiApp (s1, s2, args) =>
ziv@2250 838 wrapN (fn es => EFfiApp (s1, s2, ListPair.map (fn (e, (_, t)) => (e, t)) (es, args)))
ziv@2250 839 (map #1 args)
ziv@2250 840 | EApp (e1, e2) => wrap2 EApp (e1, e2)
ziv@2250 841 | EAbs (s, t1, t2, e) =>
ziv@2250 842 wrapBind1 (fn e => EAbs (s, t1, t2, e))
ziv@2250 843 (MonoEnv.pushERel env s t1 NONE, e)
ziv@2250 844 | EUnop (s, e) => wrap1 (fn e => EUnop (s, e)) e
ziv@2250 845 | EBinop (bi, s, e1, e2) => wrap2 (fn (e1, e2) => EBinop (bi, s, e1, e2)) (e1, e2)
ziv@2250 846 | ERecord fields =>
ziv@2250 847 wrapN (fn es => ERecord (ListPair.map (fn (e, (s, _, t)) => (s, e, t)) (es, fields)))
ziv@2250 848 (map #2 fields)
ziv@2250 849 | EField (e, s) => wrap1 (fn e => EField (e, s)) e
ziv@2250 850 | ECase (e, cases, {disc, result}) =>
ziv@2250 851 wrapBindN (fn (e::es) =>
ziv@2250 852 ECase (e,
ziv@2250 853 (ListPair.map (fn (e, (p, _)) => (p, e)) (es, cases)),
ziv@2256 854 {disc = disc, result = result})
ziv@2256 855 | _ => raise Match)
ziv@2250 856 ((env, e) :: map (fn (p, e) => (MonoEnv.patBinds env p, e)) cases)
ziv@2250 857 | EStrcat (e1, e2) => wrap2 EStrcat (e1, e2)
ziv@2250 858 (* We record page writes, so they're cachable. *)
ziv@2250 859 | EWrite e => wrap1 EWrite e
ziv@2250 860 | ESeq (e1, e2) => wrap2 ESeq (e1, e2)
ziv@2250 861 | ELet (s, t, e1, e2) =>
ziv@2250 862 wrapBind2 (fn (e1, e2) => ELet (s, t, e1, e2))
ziv@2250 863 ((env, e1), (MonoEnv.pushERel env s t (SOME e1), e2))
ziv@2250 864 (* ASK: | EClosure (n, es) => ? *)
ziv@2250 865 | EUnurlify (e, t, b) => wrap1 (fn e => EUnurlify (e, t, b)) e
ziv@2250 866 | _ => if effectful effs env exp
ziv@2256 867 then (Impure exp, index)
ziv@2256 868 else (Pure (fn () => (case makeCache (env, exp', index) of
ziv@2256 869 NONE => exp'
ziv@2256 870 | SOME e' => e',
ziv@2256 871 loc)),
ziv@2256 872 index + 1)
ziv@2256 873 end
ziv@2256 874
ziv@2256 875 fun addPure ((decls, sideInfo), index, effs) =
ziv@2256 876 let
ziv@2256 877 fun doVal ((x, n, t, exp, s), index) =
ziv@2256 878 let
ziv@2256 879 val (subexp, index) = pureCache effs ((MonoEnv.empty, exp), index)
ziv@2256 880 in
ziv@2256 881 ((x, n, t, expOfSubexp subexp, s), index)
ziv@2256 882 end
ziv@2256 883 fun doDecl' (decl', index) =
ziv@2256 884 case decl' of
ziv@2256 885 DVal v =>
ziv@2256 886 let
ziv@2256 887 val (v, index) = (doVal (v, index))
ziv@2256 888 in
ziv@2256 889 (DVal v, index)
ziv@2256 890 end
ziv@2256 891 | DValRec vs =>
ziv@2256 892 let
ziv@2256 893 val (vs, index) = ListUtil.foldlMap doVal index vs
ziv@2256 894 in
ziv@2256 895 (DValRec vs, index)
ziv@2256 896 end
ziv@2256 897 | _ => (decl', index)
ziv@2256 898 fun doDecl ((decl', loc), index) =
ziv@2256 899 let
ziv@2256 900 val (decl', index) = doDecl' (decl', index)
ziv@2256 901 in
ziv@2256 902 ((decl', loc), index)
ziv@2256 903 end
ziv@2256 904 val decls = #1 (ListUtil.foldlMap doDecl index decls)
ziv@2256 905 (* Important that this happens after the MonoFooify.urlify calls! *)
ziv@2256 906 val fmDecls = MonoFooify.getNewFmDecls ()
ziv@2256 907 in
ziv@2256 908 print (Int.toString (length fmDecls));
ziv@2256 909 (decls @ fmDecls, sideInfo)
ziv@2256 910 end
ziv@2256 911
ziv@2256 912 val go' = addPure o addFlushing o addChecking o inlineSql
ziv@2256 913
ziv@2256 914 fun go file =
ziv@2256 915 let
ziv@2256 916 (* TODO: do something nicer than [Sql] being in one of two modes. *)
ziv@2256 917 val () = (resetFfiInfo (); Sql.sqlcacheMode := true)
ziv@2256 918 val file' = go' file
ziv@2256 919 val () = Sql.sqlcacheMode := false
ziv@2256 920 in
ziv@2256 921 file'
ziv@2250 922 end
ziv@2250 923
ziv@2209 924 end