Ur/Web: src/sqlcache.sml annotate

annotate src/sqlcache.sml @ 2235:0aae15c2a05a

Refactored a lot and fixed an and/or swap, but still not good on current test.

author	Ziv Scully <ziv@mit.edu>
date	Mon, 29 Jun 2015 01:33:47 -0700
parents	2f7ed04332a0
children	fab8c1f131a5

rev	line source
ziv@2235	1 structure Sqlcache (* DEBUG: add back :> 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@2216	12 (* Filled in by [cacheWrap] during [Sqlcache]. *)
ziv@2213	13 val ffiInfo : {index : int, params : int} list ref = ref []
ziv@2209	14
ziv@2227	15 fun resetFfiInfo () = ffiInfo := []
ziv@2227	16
ziv@2213	17 fun getFfiInfo () = !ffiInfo
ziv@2213	18
ziv@2215	19 (* Some FFIs have writing as their only effect, which the caching records. *)
ziv@2215	20 val ffiEffectful =
ziv@2223	21 (* ASK: how can this be less hard-coded? *)
ziv@2215	22 let
ziv@2215	23 val fs = SS.fromList ["htmlifyInt_w",
ziv@2215	24 "htmlifyFloat_w",
ziv@2215	25 "htmlifyString_w",
ziv@2215	26 "htmlifyBool_w",
ziv@2215	27 "htmlifyTime_w",
ziv@2215	28 "attrifyInt_w",
ziv@2215	29 "attrifyFloat_w",
ziv@2215	30 "attrifyString_w",
ziv@2215	31 "attrifyChar_w",
ziv@2215	32 "urlifyInt_w",
ziv@2215	33 "urlifyFloat_w",
ziv@2215	34 "urlifyString_w",
ziv@2215	35 "urlifyBool_w",
ziv@2215	36 "urlifyChannel_w"]
ziv@2215	37 in
ziv@2215	38 fn (m, f) => Settings.isEffectful (m, f)
ziv@2215	39 andalso not (m = "Basis" andalso SS.member (fs, f))
ziv@2215	40 end
ziv@2215	41
ziv@2234	42 val cache = ref LruCache.cache
ziv@2233	43 fun setCache c = cache := c
ziv@2233	44 fun getCache () = !cache
ziv@2233	45
ziv@2215	46
ziv@2215	47 (* Effect analysis. *)
ziv@2215	48
ziv@2216	49 (* Makes an exception for [EWrite] (which is recorded when caching). *)
ziv@2230	50 fun effectful doPrint (effs : IS.set) (inFunction : bool) (bound : int) : exp -> bool =
ziv@2215	51 (* If result is true, expression is definitely effectful. If result is
ziv@2215	52 false, then expression is definitely not effectful if effs is fully
ziv@2215	53 populated. The intended pattern is to use this a number of times equal
ziv@2215	54 to the number of declarations in a file, Bellman-Ford style. *)
ziv@2234	55 (* TODO: make incrementing of the number of bound variables cleaner,
ziv@2234	56 probably by using [MonoUtil] instead of all this. *)
ziv@2215	57 let
ziv@2215	58 (* DEBUG: remove printing when done. *)
ziv@2215	59 fun tru msg = if doPrint then (print (msg ^ "\n"); true) else true
ziv@2215	60 val rec eff' =
ziv@2215	61 (* ASK: is there a better way? *)
ziv@2215	62 fn EPrim _ => false
ziv@2215	63 (* We don't know if local functions have effects when applied. *)
ziv@2215	64 \| ERel idx => if inFunction andalso idx >= bound
ziv@2215	65 then tru ("rel" ^ Int.toString idx) else false
ziv@2215	66 \| ENamed name => if IS.member (effs, name) then tru "named" else false
ziv@2215	67 \| ECon (_, _, NONE) => false
ziv@2215	68 \| ECon (_, _, SOME e) => eff e
ziv@2215	69 \| ENone _ => false
ziv@2215	70 \| ESome (_, e) => eff e
ziv@2215	71 \| EFfi (m, f) => if ffiEffectful (m, f) then tru "ffi" else false
ziv@2215	72 \| EFfiApp (m, f, _) => if ffiEffectful (m, f) then tru "ffiapp" else false
ziv@2215	73 (* ASK: we're calling functions effectful if they have effects when
ziv@2215	74 applied or if the function expressions themselves have effects.
ziv@2215	75 Is that okay? *)
ziv@2215	76 (* This is okay because the values we ultimately care about aren't
ziv@2215	77 functions, and this is a conservative approximation, anyway. *)
ziv@2215	78 \| EApp (eFun, eArg) => effectful doPrint effs true bound eFun orelse eff eArg
ziv@2215	79 \| EAbs (_, _, _, e) => effectful doPrint effs inFunction (bound+1) e
ziv@2215	80 \| EUnop (_, e) => eff e
ziv@2215	81 \| EBinop (_, _, e1, e2) => eff e1 orelse eff e2
ziv@2215	82 \| ERecord xs => List.exists (fn (_, e, _) => eff e) xs
ziv@2215	83 \| EField (e, _) => eff e
ziv@2215	84 (* If any case could be effectful, consider it effectful. *)
ziv@2215	85 \| ECase (e, xs, _) => eff e orelse List.exists (fn (_, e) => eff e) xs
ziv@2215	86 \| EStrcat (e1, e2) => eff e1 orelse eff e2
ziv@2215	87 (* ASK: how should we treat these three? *)
ziv@2215	88 \| EError _ => tru "error"
ziv@2215	89 \| EReturnBlob _ => tru "blob"
ziv@2215	90 \| ERedirect _ => tru "redirect"
ziv@2215	91 (* EWrite is a special exception because we record writes when caching. *)
ziv@2215	92 \| EWrite _ => false
ziv@2215	93 \| ESeq (e1, e2) => eff e1 orelse eff e2
ziv@2215	94 (* TODO: keep context of which local variables aren't effectful? Only
ziv@2215	95 makes a difference for function expressions, though. *)
ziv@2215	96 \| ELet (_, _, eBind, eBody) => eff eBind orelse
ziv@2215	97 effectful doPrint effs inFunction (bound+1) eBody
ziv@2215	98 \| EClosure (_, es) => List.exists eff es
ziv@2215	99 (* TODO: deal with EQuery. *)
ziv@2215	100 \| EQuery _ => tru "query"
ziv@2215	101 \| EDml _ => tru "dml"
ziv@2215	102 \| ENextval _ => tru "nextval"
ziv@2215	103 \| ESetval _ => tru "setval"
ziv@2215	104 \| EUnurlify (e, _, _) => eff e
ziv@2215	105 (* ASK: how should we treat this? *)
ziv@2215	106 \| EJavaScript _ => tru "javascript"
ziv@2215	107 (* ASK: these are all effectful, right? *)
ziv@2215	108 \| ESignalReturn _ => tru "signalreturn"
ziv@2215	109 \| ESignalBind _ => tru "signalbind"
ziv@2215	110 \| ESignalSource _ => tru "signalsource"
ziv@2215	111 \| EServerCall _ => tru "servercall"
ziv@2215	112 \| ERecv _ => tru "recv"
ziv@2215	113 \| ESleep _ => tru "sleep"
ziv@2215	114 \| ESpawn _ => tru "spawn"
ziv@2215	115 and eff = fn (e', _) => eff' e'
ziv@2215	116 in
ziv@2215	117 eff
ziv@2215	118 end
ziv@2215	119
ziv@2215	120 (* TODO: test this. *)
ziv@2215	121 val effectfulMap =
ziv@2215	122 let
ziv@2215	123 fun doVal ((_, name, _, e, _), effMap) =
ziv@2215	124 if effectful false effMap false 0 e
ziv@2215	125 then IS.add (effMap, name)
ziv@2215	126 else effMap
ziv@2215	127 val doDecl =
ziv@2215	128 fn (DVal v, effMap) => doVal (v, effMap)
ziv@2215	129 (* Repeat the list of declarations a number of times equal to its size. *)
ziv@2215	130 \| (DValRec vs, effMap) =>
ziv@2215	131 List.foldl doVal effMap (List.concat (List.map (fn _ => vs) vs))
ziv@2215	132 (* ASK: any other cases? *)
ziv@2215	133 \| (_, effMap) => effMap
ziv@2215	134 in
ziv@2215	135 MonoUtil.File.fold {typ = #2, exp = #2, decl = doDecl} IS.empty
ziv@2215	136 end
ziv@2215	137
ziv@2215	138
ziv@2216	139 (* Boolean formula normalization. *)
ziv@2216	140
ziv@2234	141 datatype junctionType = Conj \| Disj
ziv@2216	142
ziv@2216	143 datatype 'atom formula =
ziv@2216	144 Atom of 'atom
ziv@2216	145 \| Negate of 'atom formula
ziv@2234	146 \| Combo of junctionType * 'atom formula list
ziv@2216	147
ziv@2234	148 val flipJt = fn Conj => Disj \| Disj => Conj
ziv@2216	149
ziv@2235	150 fun listBind xs f = List.concat (map f xs)
ziv@2216	151
ziv@2216	152 val rec cartesianProduct : 'a list list -> 'a list list =
ziv@2216	153 fn [] => [[]]
ziv@2235	154 \| (xs :: xss) => listBind (cartesianProduct xss)
ziv@2235	155 (fn ys => listBind xs (fn x => [x :: ys]))
ziv@2216	156
ziv@2218	157 (* Pushes all negation to the atoms.*)
ziv@2218	158 fun pushNegate (negate : 'atom -> 'atom) (negating : bool) =
ziv@2218	159 fn Atom x => Atom (if negating then negate x else x)
ziv@2218	160 \| Negate f => pushNegate negate (not negating) f
ziv@2234	161 \| Combo (n, fs) => Combo (if negating then flipJt n else n, map (pushNegate negate negating) fs)
ziv@2218	162
ziv@2218	163 val rec flatten =
ziv@2235	164 fn Combo (_, [f]) => flatten f
ziv@2235	165 \| Combo (j, fs) =>
ziv@2235	166 Combo (j, List.foldr (fn (f, acc) =>
ziv@2218	167 case f of
ziv@2235	168 Combo (j', fs') =>
ziv@2235	169 if j = j' orelse length fs' = 1
ziv@2235	170 then fs' @ acc
ziv@2235	171 else f :: acc
ziv@2218	172 \| _ => f :: acc)
ziv@2218	173 []
ziv@2218	174 (map flatten fs))
ziv@2218	175 \| f => f
ziv@2218	176
ziv@2235	177 fun normalize' ((simplifyLists, simplifyAtomsConj, simplifyAtomsDisj, negate)
ziv@2235	178 : ('a list list -> 'a list list)
ziv@2235	179 * ('a list -> 'a list)
ziv@2235	180 * ('a list -> 'a list)
ziv@2235	181 * ('a -> 'a))
ziv@2235	182 (junc : junctionType) =
ziv@2216	183 let
ziv@2235	184 fun simplify junc = simplifyLists o map (case junc of
ziv@2235	185 Conj => simplifyAtomsConj
ziv@2235	186 \| Disj => simplifyAtomsDisj)
ziv@2235	187 fun norm junc =
ziv@2235	188 simplify junc
ziv@2235	189 o (fn Atom x => [[x]]
ziv@2235	190 \| Negate f => map (map negate) (norm (flipJt junc) f)
ziv@2235	191 \| Combo (j, fs) =>
ziv@2235	192 let
ziv@2235	193 val fss = listBind fs (norm j)
ziv@2235	194 in
ziv@2235	195 if j = junc then fss else cartesianProduct fss
ziv@2235	196 end)
ziv@2216	197 in
ziv@2235	198 norm junc
ziv@2216	199 end
ziv@2216	200
ziv@2235	201 fun normalize (simplifyLists, simplifyAtomsConj, simplifyAtomsDisj, negate, junc) =
ziv@2235	202 (normalize' (simplifyLists, simplifyAtomsConj, simplifyAtomsDisj, negate) junc)
ziv@2235	203 o flatten
ziv@2235	204 o pushNegate negate false
ziv@2216	205
ziv@2221	206 fun mapFormula mf =
ziv@2221	207 fn Atom x => Atom (mf x)
ziv@2221	208 \| Negate f => Negate (mapFormula mf f)
ziv@2235	209 \| Combo (j, fs) => Combo (j, map (mapFormula mf) fs)
ziv@2216	210
ziv@2230	211
ziv@2215	212 (* SQL analysis. *)
ziv@2213	213
ziv@2235	214 structure CmpKey : ORD_KEY = struct
ziv@2235	215
ziv@2235	216 type ord_key = Sql.cmp
ziv@2235	217
ziv@2235	218 val compare =
ziv@2235	219 fn (Sql.Eq, Sql.Eq) => EQUAL
ziv@2235	220 \| (Sql.Eq, _) => LESS
ziv@2235	221 \| (_, Sql.Eq) => GREATER
ziv@2235	222 \| (Sql.Ne, Sql.Ne) => EQUAL
ziv@2235	223 \| (Sql.Ne, _) => LESS
ziv@2235	224 \| (_, Sql.Ne) => GREATER
ziv@2235	225 \| (Sql.Lt, Sql.Lt) => EQUAL
ziv@2235	226 \| (Sql.Lt, _) => LESS
ziv@2235	227 \| (_, Sql.Lt) => GREATER
ziv@2235	228 \| (Sql.Le, Sql.Le) => EQUAL
ziv@2235	229 \| (Sql.Le, _) => LESS
ziv@2235	230 \| (_, Sql.Le) => GREATER
ziv@2235	231 \| (Sql.Gt, Sql.Gt) => EQUAL
ziv@2235	232 \| (Sql.Gt, _) => LESS
ziv@2235	233 \| (_, Sql.Gt) => GREATER
ziv@2235	234 \| (Sql.Ge, Sql.Ge) => EQUAL
ziv@2235	235
ziv@2235	236 end
ziv@2235	237
ziv@2235	238
ziv@2235	239 functor ListKeyFn (K : ORD_KEY) : ORD_KEY = struct
ziv@2235	240
ziv@2235	241 type ord_key = K.ord_key list
ziv@2235	242
ziv@2235	243 val rec compare =
ziv@2235	244 fn ([], []) => EQUAL
ziv@2235	245 \| ([], _) => LESS
ziv@2235	246 \| (_, []) => GREATER
ziv@2235	247 \| (x :: xs, y :: ys) => (case K.compare (x, y) of
ziv@2235	248 EQUAL => compare (xs, ys)
ziv@2235	249 \| ord => ord)
ziv@2235	250
ziv@2235	251 end
ziv@2235	252
ziv@2235	253 functor OptionKeyFn (K : ORD_KEY) : ORD_KEY = struct
ziv@2235	254
ziv@2235	255 type ord_key = K.ord_key option
ziv@2235	256
ziv@2235	257 val compare =
ziv@2235	258 fn (NONE, NONE) => EQUAL
ziv@2235	259 \| (NONE, _) => LESS
ziv@2235	260 \| (_, NONE) => GREATER
ziv@2235	261 \| (SOME x, SOME y) => K.compare (x, y)
ziv@2235	262
ziv@2235	263 end
ziv@2235	264
ziv@2235	265 functor TripleKeyFn (structure I : ORD_KEY
ziv@2235	266 structure J : ORD_KEY
ziv@2235	267 structure K : ORD_KEY)
ziv@2235	268 : ORD_KEY where type ord_key = I.ord_key * J.ord_key * K.ord_key = struct
ziv@2235	269
ziv@2235	270 type ord_key = I.ord_key * J.ord_key * K.ord_key
ziv@2235	271
ziv@2235	272 fun compare ((i1, j1, k1), (i2, j2, k2)) =
ziv@2235	273 case I.compare (i1, i2) of
ziv@2235	274 EQUAL => (case J.compare (j1, j2) of
ziv@2235	275 EQUAL => K.compare (k1, k2)
ziv@2235	276 \| ord => ord)
ziv@2235	277 \| ord => ord
ziv@2235	278
ziv@2235	279 end
ziv@2235	280
ziv@2216	281 val rec chooseTwos : 'a list -> ('a * 'a) list =
ziv@2216	282 fn [] => []
ziv@2216	283 \| x :: ys => map (fn y => (x, y)) ys @ chooseTwos ys
ziv@2213	284
ziv@2216	285 datatype atomExp =
ziv@2216	286 QueryArg of int
ziv@2216	287 \| DmlRel of int
ziv@2216	288 \| Prim of Prim.t
ziv@2216	289 \| Field of string * string
ziv@2216	290
ziv@2216	291 structure AtomExpKey : ORD_KEY = struct
ziv@2216	292
ziv@2234	293 type ord_key = atomExp
ziv@2216	294
ziv@2234	295 val compare =
ziv@2234	296 fn (QueryArg n1, QueryArg n2) => Int.compare (n1, n2)
ziv@2234	297 \| (QueryArg _, _) => LESS
ziv@2234	298 \| (_, QueryArg _) => GREATER
ziv@2234	299 \| (DmlRel n1, DmlRel n2) => Int.compare (n1, n2)
ziv@2234	300 \| (DmlRel _, _) => LESS
ziv@2234	301 \| (_, DmlRel _) => GREATER
ziv@2234	302 \| (Prim p1, Prim p2) => Prim.compare (p1, p2)
ziv@2234	303 \| (Prim _, _) => LESS
ziv@2234	304 \| (_, Prim _) => GREATER
ziv@2234	305 \| (Field (t1, f1), Field (t2, f2)) =>
ziv@2234	306 case String.compare (t1, t2) of
ziv@2234	307 EQUAL => String.compare (f1, f2)
ziv@2234	308 \| ord => ord
ziv@2216	309
ziv@2216	310 end
ziv@2216	311
ziv@2216	312 structure UF = UnionFindFn(AtomExpKey)
ziv@2234	313
ziv@2235	314 structure ConflictMaps = struct
ziv@2235	315
ziv@2235	316 structure TK = TripleKeyFn(structure I = CmpKey
ziv@2235	317 structure J = OptionKeyFn(AtomExpKey)
ziv@2235	318 structure K = OptionKeyFn(AtomExpKey))
ziv@2235	319 structure TS = BinarySetFn(TK)
ziv@2235	320 structure TLS = BinarySetFn(ListKeyFn(TK))
ziv@2235	321
ziv@2235	322 val toKnownEquality =
ziv@2235	323 (* [NONE] here means unkown. Anything that isn't a comparison between two
ziv@2235	324 knowns shouldn't be used, and simply dropping unused terms is okay in
ziv@2235	325 disjunctive normal form. *)
ziv@2235	326 fn (Sql.Eq, SOME e1, SOME e2) => SOME (e1, e2)
ziv@2235	327 \| _ => NONE
ziv@2235	328
ziv@2235	329 val equivClasses : (Sql.cmp * atomExp option * atomExp option) list -> atomExp list list =
ziv@2235	330 UF.classes
ziv@2235	331 o List.foldl UF.union' UF.empty
ziv@2235	332 o List.mapPartial toKnownEquality
ziv@2235	333
ziv@2235	334 fun addToEqs (eqs, n, e) =
ziv@2235	335 case IM.find (eqs, n) of
ziv@2235	336 (* Comparing to a constant is probably better than comparing to a
ziv@2235	337 variable? Checking that existing constants match a new ones is
ziv@2235	338 handled by [accumulateEqs]. *)
ziv@2235	339 SOME (Prim _) => eqs
ziv@2235	340 \| _ => IM.insert (eqs, n, e)
ziv@2235	341
ziv@2235	342 val accumulateEqs =
ziv@2235	343 (* [NONE] means we have a contradiction. *)
ziv@2235	344 fn (_, NONE) => NONE
ziv@2235	345 \| ((Prim p1, Prim p2), eqso) =>
ziv@2235	346 (case Prim.compare (p1, p2) of
ziv@2235	347 EQUAL => eqso
ziv@2235	348 \| _ => NONE)
ziv@2235	349 \| ((QueryArg n, Prim p), SOME eqs) => SOME (addToEqs (eqs, n, Prim p))
ziv@2235	350 \| ((QueryArg n, DmlRel r), SOME eqs) => SOME (addToEqs (eqs, n, DmlRel r))
ziv@2235	351 \| ((Prim p, QueryArg n), SOME eqs) => SOME (addToEqs (eqs, n, Prim p))
ziv@2235	352 \| ((DmlRel r, QueryArg n), SOME eqs) => SOME (addToEqs (eqs, n, DmlRel r))
ziv@2235	353 (* TODO: deal with equalities between [DmlRel]s and [Prim]s.
ziv@2235	354 This would involve guarding the invalidation with a check for the
ziv@2235	355 relevant comparisons. *)
ziv@2235	356 (* DEBUG: remove these print statements. *)
ziv@2235	357 (* \| ((DmlRel r, Prim p), eqso) => (print ("sadness " ^ Int.toString r ^ " = " ^ Prim.toString p ^ "\n"); eqso) *)
ziv@2235	358 (* \| ((Prim p, DmlRel r), eqso) => (print ("sadness " ^ Int.toString r ^ " = " ^ Prim.toString p ^ "\n"); eqso) *)
ziv@2235	359 \| (_, eqso) => eqso
ziv@2235	360
ziv@2235	361 val eqsOfClass : atomExp list -> atomExp IM.map option =
ziv@2235	362 List.foldl accumulateEqs (SOME IM.empty)
ziv@2235	363 o chooseTwos
ziv@2235	364
ziv@2235	365 fun toAtomExps rel (cmp, e1, e2) =
ziv@2235	366 let
ziv@2235	367 val qa =
ziv@2235	368 (* Here [NONE] means unkown. *)
ziv@2235	369 fn Sql.SqConst p => SOME (Prim p)
ziv@2235	370 \| Sql.Field tf => SOME (Field tf)
ziv@2235	371 \| Sql.Inj (EPrim p, _) => SOME (Prim p)
ziv@2235	372 \| Sql.Inj (ERel n, _) => SOME (rel n)
ziv@2235	373 (* We can't deal with anything else, e.g., CURRENT_TIMESTAMP
ziv@2235	374 becomes Sql.Unmodeled, which becomes NONE here. *)
ziv@2235	375 \| _ => NONE
ziv@2235	376 in
ziv@2235	377 (cmp, qa e1, qa e2)
ziv@2235	378 end
ziv@2235	379
ziv@2235	380 fun negateCmp (cmp, e1, e2) =
ziv@2235	381 (case cmp of
ziv@2235	382 Sql.Eq => Sql.Ne
ziv@2235	383 \| Sql.Ne => Sql.Eq
ziv@2235	384 \| Sql.Lt => Sql.Ge
ziv@2235	385 \| Sql.Le => Sql.Gt
ziv@2235	386 \| Sql.Gt => Sql.Le
ziv@2235	387 \| Sql.Ge => Sql.Lt,
ziv@2235	388 e1, e2)
ziv@2235	389
ziv@2235	390 val markQuery : (Sql.cmp * Sql.sqexp * Sql.sqexp) formula ->
ziv@2235	391 (Sql.cmp * atomExp option * atomExp option) formula =
ziv@2235	392 mapFormula (toAtomExps QueryArg)
ziv@2235	393
ziv@2235	394 val markDml : (Sql.cmp * Sql.sqexp * Sql.sqexp) formula ->
ziv@2235	395 (Sql.cmp * atomExp option * atomExp option) formula =
ziv@2235	396 mapFormula (toAtomExps DmlRel)
ziv@2235	397 (* No eqs should have key conflicts because no variable is in two
ziv@2235	398 equivalence classes, so the [#1] could be [#2]. *)
ziv@2235	399
ziv@2235	400 val mergeEqs : (atomExp IntBinaryMap.map option list
ziv@2235	401 -> atomExp IntBinaryMap.map option) =
ziv@2235	402 List.foldr (fn (SOME eqs, SOME acc) => SOME (IM.unionWith #1 (eqs, acc)) \| _ => NONE)
ziv@2235	403 (SOME IM.empty)
ziv@2235	404
ziv@2235	405 fun dnf (fQuery, fDml) =
ziv@2235	406 let
ziv@2235	407 val isStar =
ziv@2235	408 (* TODO: decide if this is okay and, if so, factor out magic
ziv@2235	409 string "" to a common location. )
ziv@2235	410 (* First guess: definitely okay for conservative approximation,
ziv@2235	411 though information lost might be useful even in current
ziv@2235	412 implementation for finding an extra equality. *)
ziv@2235	413 fn SOME (Field (_, field)) => String.isSuffix "*" field
ziv@2235	414 \| _ => false
ziv@2235	415 fun canIgnore (_, a1, a2) = isStar a1 orelse isStar a2
ziv@2235	416 fun simplifyLists xs = TLS.listItems (TLS.addList (TLS.empty, xs))
ziv@2235	417 fun simplifyAtomsConj xs = TS.listItems (TS.addList (TS.empty, xs))
ziv@2235	418 val simplifyAtomsDisj = simplifyAtomsConj o List.filter canIgnore
ziv@2235	419 in
ziv@2235	420 normalize (simplifyLists, simplifyAtomsConj, simplifyAtomsDisj, negateCmp, Disj)
ziv@2235	421 (Combo (Conj, [markQuery fQuery, markDml fDml]))
ziv@2235	422 end
ziv@2235	423
ziv@2235	424 val conflictMaps = List.mapPartial (mergeEqs o map eqsOfClass o equivClasses) o dnf
ziv@2235	425
ziv@2235	426 end
ziv@2235	427
ziv@2235	428 val conflictMaps = ConflictMaps.conflictMaps
ziv@2213	429
ziv@2216	430 val rec sqexpToFormula =
ziv@2234	431 fn Sql.SqTrue => Combo (Conj, [])
ziv@2234	432 \| Sql.SqFalse => Combo (Disj, [])
ziv@2216	433 \| Sql.SqNot e => Negate (sqexpToFormula e)
ziv@2216	434 \| Sql.Binop (Sql.RCmp c, e1, e2) => Atom (c, e1, e2)
ziv@2234	435 \| Sql.Binop (Sql.RLop l, p1, p2) => Combo (case l of Sql.And => Conj \| Sql.Or => Disj,
ziv@2216	436 [sqexpToFormula p1, sqexpToFormula p2])
ziv@2216	437 (* ASK: any other sqexps that can be props? *)
ziv@2216	438 \| _ => raise Match
ziv@2213	439
ziv@2218	440 fun renameTables tablePairs =
ziv@2216	441 let
ziv@2216	442 fun renameString table =
ziv@2216	443 case List.find (fn (_, t) => table = t) tablePairs of
ziv@2216	444 NONE => table
ziv@2216	445 \| SOME (realTable, _) => realTable
ziv@2216	446 val renameSqexp =
ziv@2216	447 fn Sql.Field (table, field) => Sql.Field (renameString table, field)
ziv@2216	448 \| e => e
ziv@2218	449 fun renameAtom (cmp, e1, e2) = (cmp, renameSqexp e1, renameSqexp e2)
ziv@2216	450 in
ziv@2218	451 mapFormula renameAtom
ziv@2216	452 end
ziv@2218	453
ziv@2218	454 val rec queryToFormula =
ziv@2234	455 fn Sql.Query1 {Where = NONE, ...} => Combo (Conj, [])
ziv@2218	456 \| Sql.Query1 {From = tablePairs, Where = SOME e, ...} =>
ziv@2218	457 renameTables tablePairs (sqexpToFormula e)
ziv@2234	458 \| Sql.Union (q1, q2) => Combo (Disj, [queryToFormula q1, queryToFormula q2])
ziv@2216	459
ziv@2218	460 fun valsToFormula (table, vals) =
ziv@2234	461 Combo (Conj, map (fn (field, v) => Atom (Sql.Eq, Sql.Field (table, field), v)) vals)
ziv@2218	462
ziv@2216	463 val rec dmlToFormula =
ziv@2221	464 fn Sql.Insert (table, vals) => valsToFormula (table, vals)
ziv@2218	465 \| Sql.Delete (table, wher) => renameTables [(table, "T")] (sqexpToFormula wher)
ziv@2218	466 \| Sql.Update (table, vals, wher) =>
ziv@2218	467 let
ziv@2221	468 val fWhere = sqexpToFormula wher
ziv@2221	469 val fVals = valsToFormula (table, vals)
ziv@2221	470 (* TODO: don't use field name hack. *)
ziv@2221	471 val markField =
ziv@2221	472 fn Sql.Field (t, v) => Sql.Field (t, v ^ "*")
ziv@2221	473 \| e => e
ziv@2221	474 val mark = mapFormula (fn (cmp, e1, e2) => (cmp, markField e1, markField e2))
ziv@2218	475 in
ziv@2218	476 renameTables [(table, "T")]
ziv@2234	477 (Combo (Disj, [Combo (Conj, [fVals, mark fWhere]),
ziv@2234	478 Combo (Conj, [mark fVals, fWhere])]))
ziv@2218	479 end
ziv@2213	480
ziv@2213	481 val rec tablesQuery =
ziv@2216	482 fn Sql.Query1 {From = tablePairs, ...} => SS.fromList (map #1 tablePairs)
ziv@2216	483 \| Sql.Union (q1, q2) => SS.union (tablesQuery q1, tablesQuery q2)
ziv@2213	484
ziv@2213	485 val tableDml =
ziv@2216	486 fn Sql.Insert (tab, _) => tab
ziv@2216	487 \| Sql.Delete (tab, _) => tab
ziv@2216	488 \| Sql.Update (tab, _, _) => tab
ziv@2213	489
ziv@2213	490
ziv@2213	491 (* Program instrumentation. *)
ziv@2213	492
ziv@2234	493 val varName =
ziv@2234	494 let
ziv@2234	495 val varNumber = ref 0
ziv@2234	496 in
ziv@2234	497 fn s => (varNumber := !varNumber + 1; s ^ Int.toString (!varNumber))
ziv@2234	498 end
ziv@2234	499
ziv@2233	500 val {check, store, flush, ...} = getCache ()
ziv@2233	501
ziv@2230	502 val dummyLoc = ErrorMsg.dummySpan
ziv@2216	503
ziv@2230	504 fun stringExp s = (EPrim (Prim.String (Prim.Normal, s)), dummyLoc)
ziv@2230	505
ziv@2230	506 val stringTyp = (TFfi ("Basis", "string"), dummyLoc)
ziv@2213	507
ziv@2213	508 val sequence =
ziv@2213	509 fn (exp :: exps) =>
ziv@2213	510 let
ziv@2230	511 val loc = dummyLoc
ziv@2213	512 in
ziv@2213	513 List.foldl (fn (e', seq) => ESeq ((seq, loc), (e', loc))) exp exps
ziv@2213	514 end
ziv@2213	515 \| _ => raise Match
ziv@2213	516
ziv@2215	517 (* Always increments negative indices because that's what we need later. *)
ziv@2215	518 fun incRelsBound bound inc =
ziv@2215	519 MonoUtil.Exp.mapB
ziv@2215	520 {typ = fn x => x,
ziv@2215	521 exp = fn level =>
ziv@2215	522 (fn ERel n => ERel (if n >= level orelse n < 0 then n + inc else n)
ziv@2215	523 \| x => x),
ziv@2215	524 bind = fn (level, MonoUtil.Exp.RelE _) => level + 1 \| (level, _) => level}
ziv@2215	525 bound
ziv@2215	526
ziv@2215	527 val incRels = incRelsBound 0
ziv@2213	528
ziv@2223	529 fun cacheWrap (query, i, urlifiedRel0, resultTyp, args) =
ziv@2213	530 let
ziv@2223	531 val () = ffiInfo := {index = i, params = length args} :: !ffiInfo
ziv@2230	532 val loc = dummyLoc
ziv@2223	533 (* We ensure before this step that all arguments aren't effectful.
ziv@2227	534 by turning them into local variables as needed. *)
ziv@2230	535 val argsInc = map (incRels 1) args
ziv@2233	536 val check = (check (i, args), dummyLoc)
ziv@2233	537 val store = (store (i, argsInc, urlifiedRel0), dummyLoc)
ziv@2223	538 val rel0 = (ERel 0, loc)
ziv@2213	539 in
ziv@2223	540 ECase (check,
ziv@2223	541 [((PNone stringTyp, loc),
ziv@2234	542 (ELet (varName "q", resultTyp, query, (ESeq (store, rel0), loc)), loc)),
ziv@2234	543 ((PSome (stringTyp, (PVar (varName "hit", stringTyp), loc)), loc),
ziv@2223	544 (* Boolean is false because we're not unurlifying from a cookie. *)
ziv@2223	545 (EUnurlify (rel0, resultTyp, false), loc))],
ziv@2223	546 {disc = stringTyp, result = resultTyp})
ziv@2213	547 end
ziv@2213	548
ziv@2213	549 fun fileMapfold doExp file start =
ziv@2213	550 case MonoUtil.File.mapfold {typ = Search.return2,
ziv@2213	551 exp = fn x => (fn s => Search.Continue (doExp x s)),
ziv@2213	552 decl = Search.return2} file start of
ziv@2213	553 Search.Continue x => x
ziv@2213	554 \| Search.Return _ => raise Match
ziv@2213	555
ziv@2213	556 fun fileMap doExp file = #1 (fileMapfold (fn x => fn _ => (doExp x, ())) file ())
ziv@2213	557
ziv@2221	558 fun factorOutNontrivial text =
ziv@2221	559 let
ziv@2230	560 val loc = dummyLoc
ziv@2221	561 fun strcat (e1, e2) = (EStrcat (e1, e2), loc)
ziv@2221	562 val chunks = Sql.chunkify text
ziv@2221	563 val (newText, newVariables) =
ziv@2221	564 (* Important that this is foldr (to oppose foldl below). *)
ziv@2221	565 List.foldr
ziv@2221	566 (fn (chunk, (qText, newVars)) =>
ziv@2221	567 (* Variable bound to the head of newBs will have the lowest index. *)
ziv@2221	568 case chunk of
ziv@2221	569 Sql.Exp (e as (EPrim _, _)) => (strcat (e, qText), newVars)
ziv@2221	570 \| Sql.Exp e =>
ziv@2221	571 let
ziv@2221	572 val n = length newVars
ziv@2221	573 in
ziv@2221	574 (* This is the (n + 1)th new variable, so there are
ziv@2221	575 already n new variables bound, so we increment
ziv@2221	576 indices by n. *)
ziv@2221	577 (strcat ((ERel (~(n+1)), loc), qText), incRels n e :: newVars)
ziv@2221	578 end
ziv@2221	579 \| Sql.String s => (strcat (stringExp s, qText), newVars))
ziv@2221	580 (stringExp "", [])
ziv@2221	581 chunks
ziv@2221	582 fun wrapLets e' =
ziv@2221	583 (* Important that this is foldl (to oppose foldr above). *)
ziv@2234	584 List.foldl (fn (v, e') => ELet (varName "sqlArg", stringTyp, v, (e', loc)))
ziv@2221	585 e'
ziv@2221	586 newVariables
ziv@2221	587 val numArgs = length newVariables
ziv@2221	588 in
ziv@2221	589 (newText, wrapLets, numArgs)
ziv@2221	590 end
ziv@2221	591
ziv@2215	592 fun addChecking file =
ziv@2213	593 let
ziv@2223	594 fun doExp (queryInfo as (tableToIndices, indexToQueryNumArgs, index)) =
ziv@2223	595 fn e' as EQuery {query = origQueryText,
ziv@2223	596 sqlcacheInfo = urlifiedRel0,
ziv@2223	597 state = resultTyp,
ziv@2223	598 initial, body, tables, exps} =>
ziv@2213	599 let
ziv@2221	600 val (newQueryText, wrapLets, numArgs) = factorOutNontrivial origQueryText
ziv@2215	601 (* Increment once for each new variable just made. *)
ziv@2221	602 val queryExp = incRels numArgs
ziv@2215	603 (EQuery {query = newQueryText,
ziv@2223	604 sqlcacheInfo = urlifiedRel0,
ziv@2223	605 state = resultTyp,
ziv@2215	606 initial = initial,
ziv@2215	607 body = body,
ziv@2215	608 tables = tables,
ziv@2223	609 exps = exps},
ziv@2230	610 dummyLoc)
ziv@2215	611 val (EQuery {query = queryText, ...}, _) = queryExp
ziv@2235	612 (* DEBUG *)
ziv@2221	613 val () = Print.preface ("sqlcache> ", (MonoPrint.p_exp MonoEnv.empty queryText))
ziv@2230	614 val args = List.tabulate (numArgs, fn n => (ERel n, dummyLoc))
ziv@2213	615 fun bind x f = Option.mapPartial f x
ziv@2215	616 fun guard b x = if b then x else NONE
ziv@2215	617 (* DEBUG: set first boolean argument to true to turn on printing. *)
ziv@2215	618 fun safe bound = not o effectful true (effectfulMap file) false bound
ziv@2213	619 val attempt =
ziv@2213	620 (* Ziv misses Haskell's do notation.... *)
ziv@2215	621 guard (safe 0 queryText andalso safe 0 initial andalso safe 2 body) (
ziv@2216	622 bind (Sql.parse Sql.query queryText) (fn queryParsed =>
ziv@2223	623 SOME (wrapLets (cacheWrap (queryExp, index, urlifiedRel0, resultTyp, args)),
ziv@2218	624 (SS.foldr (fn (tab, qi) => SIMM.insert (qi, tab, index))
ziv@2218	625 tableToIndices
ziv@2218	626 (tablesQuery queryParsed),
ziv@2223	627 IM.insert (indexToQueryNumArgs, index, (queryParsed, numArgs)),
ziv@2223	628 index + 1))))
ziv@2213	629 in
ziv@2213	630 case attempt of
ziv@2213	631 SOME pair => pair
ziv@2213	632 \| NONE => (e', queryInfo)
ziv@2213	633 end
ziv@2213	634 \| e' => (e', queryInfo)
ziv@2213	635 in
ziv@2223	636 fileMapfold (fn exp => fn state => doExp state exp) file (SIMM.empty, IM.empty, 0)
ziv@2213	637 end
ziv@2213	638
ziv@2235	639 structure Invalidations = struct
ziv@2235	640
ziv@2235	641 val loc = dummyLoc
ziv@2235	642
ziv@2235	643 val optionAtomExpToExp =
ziv@2235	644 fn NONE => (ENone stringTyp, loc)
ziv@2235	645 \| SOME e => (ESome (stringTyp,
ziv@2235	646 (case e of
ziv@2235	647 DmlRel n => ERel n
ziv@2235	648 \| Prim p => EPrim p
ziv@2235	649 (* TODO: make new type containing only these two. *)
ziv@2235	650 \| _ => raise Match,
ziv@2235	651 loc)),
ziv@2235	652 loc)
ziv@2235	653
ziv@2235	654 fun eqsToInvalidation numArgs eqs =
ziv@2235	655 let
ziv@2235	656 fun inv n = if n < 0 then [] else IM.find (eqs, n) :: inv (n - 1)
ziv@2235	657 in
ziv@2235	658 inv (numArgs - 1)
ziv@2235	659 end
ziv@2235	660
ziv@2235	661 (* Tests if [ys] makes [xs] a redundant cache invalidation. [NONE] here
ziv@2235	662 represents unknown, which means a wider invalidation. *)
ziv@2235	663 val rec madeRedundantBy : atomExp option list * atomExp option list -> bool =
ziv@2235	664 fn ([], []) => true
ziv@2235	665 \| (NONE :: xs, _ :: ys) => madeRedundantBy (xs, ys)
ziv@2235	666 \| (SOME x :: xs, SOME y :: ys) => (case AtomExpKey.compare (x, y) of
ziv@2235	667 EQUAL => madeRedundantBy (xs, ys)
ziv@2235	668 \| _ => false)
ziv@2235	669 \| _ => false
ziv@2235	670
ziv@2235	671 fun removeRedundant' (xss, yss) =
ziv@2235	672 case xss of
ziv@2235	673 [] => yss
ziv@2235	674 \| xs :: xss' =>
ziv@2235	675 removeRedundant' (xss',
ziv@2235	676 if List.exists (fn ys => madeRedundantBy (xs, ys)) (xss' @ yss)
ziv@2235	677 then yss
ziv@2235	678 else xs :: yss)
ziv@2235	679
ziv@2235	680 fun removeRedundant xss = removeRedundant' (xss, [])
ziv@2235	681
ziv@2235	682 fun eqss (query, dml) = conflictMaps (queryToFormula query, dmlToFormula dml)
ziv@2235	683
ziv@2235	684 fun invalidations ((query, numArgs), dml) =
ziv@2235	685 (map (map optionAtomExpToExp)
ziv@2235	686 o removeRedundant
ziv@2235	687 o map (eqsToInvalidation numArgs)
ziv@2235	688 o eqss)
ziv@2235	689 (query, dml)
ziv@2235	690
ziv@2235	691 end
ziv@2235	692
ziv@2235	693 val invalidations = Invalidations.invalidations
ziv@2235	694
ziv@2235	695 (* DEBUG *)
ziv@2235	696 val gunk : ((Sql.query * int) * Sql.dml) list ref = ref []
ziv@2216	697
ziv@2223	698 fun addFlushing (file, (tableToIndices, indexToQueryNumArgs, _)) =
ziv@2213	699 let
ziv@2221	700 val flushes = List.concat o
ziv@2233	701 map (fn (i, argss) => map (fn args => flush (i, args)) argss)
ziv@2213	702 val doExp =
ziv@2221	703 fn EDml (origDmlText, failureMode) =>
ziv@2213	704 let
ziv@2221	705 val (newDmlText, wrapLets, numArgs) = factorOutNontrivial origDmlText
ziv@2221	706 val dmlText = incRels numArgs newDmlText
ziv@2221	707 val dmlExp = EDml (dmlText, failureMode)
ziv@2235	708 (* DEBUG *)
ziv@2221	709 val () = Print.preface ("sqlcache> ", (MonoPrint.p_exp MonoEnv.empty dmlText))
ziv@2221	710 val invs =
ziv@2216	711 case Sql.parse Sql.dml dmlText of
ziv@2218	712 SOME dmlParsed =>
ziv@2221	713 map (fn i => (case IM.find (indexToQueryNumArgs, i) of
ziv@2221	714 SOME queryNumArgs =>
ziv@2235	715 (* DEBUG *)
ziv@2235	716 (gunk := (queryNumArgs, dmlParsed) :: !gunk;
ziv@2235	717 (i, invalidations (queryNumArgs, dmlParsed)))
ziv@2221	718 (* TODO: fail more gracefully. *)
ziv@2221	719 \| NONE => raise Match))
ziv@2221	720 (SIMM.findList (tableToIndices, tableDml dmlParsed))
ziv@2221	721 (* TODO: fail more gracefully. *)
ziv@2221	722 \| NONE => raise Match
ziv@2213	723 in
ziv@2221	724 wrapLets (sequence (flushes invs @ [dmlExp]))
ziv@2213	725 end
ziv@2213	726 \| e' => e'
ziv@2213	727 in
ziv@2235	728 (* DEBUG *)
ziv@2235	729 gunk := [];
ziv@2213	730 fileMap doExp file
ziv@2213	731 end
ziv@2213	732
ziv@2221	733 val inlineSql =
ziv@2221	734 let
ziv@2221	735 val doExp =
ziv@2221	736 (* TODO: EQuery, too? *)
ziv@2221	737 (* ASK: should this live in [MonoOpt]? *)
ziv@2221	738 fn EDml ((ECase (disc, cases, {disc = dTyp, ...}), loc), failureMode) =>
ziv@2221	739 let
ziv@2221	740 val newCases = map (fn (p, e) => (p, (EDml (e, failureMode), loc))) cases
ziv@2221	741 in
ziv@2221	742 ECase (disc, newCases, {disc = dTyp, result = (TRecord [], loc)})
ziv@2221	743 end
ziv@2221	744 \| e => e
ziv@2221	745 in
ziv@2221	746 fileMap doExp
ziv@2221	747 end
ziv@2221	748
ziv@2213	749 fun go file =
ziv@2213	750 let
ziv@2235	751 (* TODO: do something nicer than [Sql] being in one of two modes. *)
ziv@2227	752 val () = (resetFfiInfo (); Sql.sqlcacheMode := true)
ziv@2221	753 val file' = addFlushing (addChecking (inlineSql file))
ziv@2215	754 val () = Sql.sqlcacheMode := false
ziv@2213	755 in
ziv@2221	756 file'
ziv@2213	757 end
ziv@2213	758
ziv@2209	759 end

Mercurial > urweb

annotate src/sqlcache.sml @ 2235:0aae15c2a05a