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1 {-# LANGUAGE AllowAmbiguousTypes #-}
2 {-# LANGUAGE StandaloneDeriving #-} -- For Show (ParsingError inp)
3 {-# LANGUAGE ConstraintKinds #-} -- For Dict
4 {-# LANGUAGE TemplateHaskell #-}
5 {-# LANGUAGE TupleSections #-}
6 {-# LANGUAGE UnboxedTuples #-} -- For nextInput
7 {-# LANGUAGE UndecidableInstances #-} -- For Show (ParsingError inp)
8 {-# OPTIONS_GHC -fno-warn-orphans #-}
9 module Symantic.Parser.Machine.Generate where
10
11 import Control.Monad (Monad(..))
12 import Data.Bool (Bool)
13 import Data.Char (Char)
14 import Data.Either (Either(..), either)
15 import Data.Function (($), (.), id, const, on)
16 import Data.Functor (Functor, (<$>), (<$))
17 import Data.Foldable (foldMap', toList, null)
18 import Data.Int (Int)
19 import Data.List.NonEmpty (NonEmpty(..))
20 import Data.Map (Map)
21 import Data.Maybe (Maybe(..))
22 import Data.Eq (Eq(..))
23 import Data.Ord (Ord(..), Ordering(..))
24 import Data.Proxy (Proxy(..))
25 import Data.Semigroup (Semigroup(..))
26 import Data.Set (Set)
27 import Data.String (String)
28 import Data.Traversable (Traversable(..))
29 import Data.Typeable (Typeable)
30 import Language.Haskell.TH (CodeQ)
31 import Prelude ((+), (-), error)
32 import Text.Show (Show(..))
33 -- import qualified Control.Monad.Trans.State.Strict as MT
34 import qualified Data.HashMap.Strict as HM
35 import qualified Data.List as List
36 import qualified Data.List.NonEmpty as NE
37 import qualified Data.Map.Internal as Map_
38 import qualified Data.Set.Internal as Set_
39 import qualified Data.Map.Strict as Map
40 import qualified Data.Set as Set
41 import qualified Language.Haskell.TH as TH
42 import qualified Language.Haskell.TH.Syntax as TH
43
44 import Symantic.Univariant.Letable
45 import Symantic.Univariant.Trans
46 import Symantic.Parser.Grammar.Combinators (Exception(..), Failure(..), SomeFailure(..), inputTokenProxy)
47 import Symantic.Parser.Machine.Input
48 import Symantic.Parser.Machine.Instructions
49 import qualified Language.Haskell.TH.HideName as TH
50 import qualified Symantic.Parser.Haskell as H
51
52 --import Debug.Trace
53
54 genCode :: TermInstr a -> CodeQ a
55 genCode = trans
56
57 -- * Type 'Gen'
58 -- | Generate the 'CodeQ' parsing the input.
59 data Gen inp vs a = Gen
60 { genAnalysisByLet :: LetMapFix (CallTrace -> GenAnalysis)
61 -- ^ 'genAnalysis' for each 'defLet' and 'defJoin' of the 'Machine'.
62 , genAnalysis :: LetMapTo (CallTrace -> GenAnalysis)
63 -- ^ Synthetized (bottom-up) static genAnalysis of the 'Machine'.
64 , unGen ::
65 GenCtx inp vs a ->
66 CodeQ (Either (ParsingError inp) a)
67 }
68
69 -- | @('generateCode' input mach)@ generates @TemplateHaskell@ code
70 -- parsing the given 'input' according to the given 'Machine'.
71 generateCode ::
72 Ord (InputToken inp) =>
73 Show (InputToken inp) =>
74 Typeable (InputToken inp) =>
75 TH.Lift (InputToken inp) =>
76 -- InputToken inp ~ Char =>
77 Input inp =>
78 Show (Cursor inp) =>
79 Gen inp '[] a ->
80 CodeQ (inp -> Either (ParsingError inp) a)
81 generateCode k = [|| \(input :: inp) ->
82 -- Pattern bindings containing unlifted types
83 -- should use an outermost bang pattern.
84 let !(# init, readMore, readNext #) = $$(cursorOf [||input||])
85 finalRet = \_farInp _farExp v _inp -> Right v
86 finalRaise :: forall b. (Catcher inp b)
87 = \ !exn _failInp !farInp !farExp ->
88 Left ParsingErrorStandard
89 { parsingErrorOffset = offset farInp
90 , parsingErrorException = exn
91 , parsingErrorUnexpected =
92 if readMore farInp
93 then Just (let (# c, _ #) = readNext farInp in c)
94 else Nothing
95 , parsingErrorExpecting = farExp
96 }
97 in
98 $$(
99 let defInputTokenProxy exprCode =
100 TH.unsafeCodeCoerce $ do
101 value <- TH.unTypeQ $ TH.examineCode [||Proxy :: Proxy (InputToken inp)||]
102 expr <- TH.unTypeQ (TH.examineCode exprCode)
103 return $ TH.LetE [
104 TH.FunD inputTokenProxy [TH.Clause [] (TH.NormalB value) []]
105 ] expr
106 in defInputTokenProxy $
107 unGen k GenCtx
108 { valueStack = ValueStackEmpty
109 , catchStackByLabel = Map.empty
110 , defaultCatch = [||finalRaise||]
111 , callStack = []
112 , retCode = [||finalRet||]
113 , input = [||init||]
114 , nextInput = [||readNext||]
115 , moreInput = [||readMore||]
116 -- , farthestError = [||Nothing||]
117 , farthestInput = [||init||]
118 , farthestExpecting = [||Set.empty||]
119 , checkedHorizon = 0
120 , horizonStack = []
121 , finalGenAnalysisByLet = runGenAnalysis (genAnalysisByLet k)
122 }
123 )
124 ||]
125 where
126
127 -- ** Type 'ParsingError'
128 data ParsingError inp
129 = ParsingErrorStandard
130 { parsingErrorOffset :: Offset
131 , parsingErrorException :: Exception
132 -- | Note that if an 'FailureHorizon' greater than 1
133 -- is amongst the 'parsingErrorExpecting'
134 -- then this is only the 'InputToken'
135 -- at the begining of the expected 'Horizon'.
136 , parsingErrorUnexpected :: Maybe (InputToken inp)
137 , parsingErrorExpecting :: Set SomeFailure
138 }
139 deriving instance Show (InputToken inp) => Show (ParsingError inp)
140
141 -- ** Type 'ErrorLabel'
142 type ErrorLabel = String
143
144 -- * Type 'GenAnalysis'
145 data GenAnalysis = GenAnalysis
146 { minReads :: Either Exception Horizon
147 , mayRaise :: Map Exception ()
148 } deriving (Show)
149
150 -- | Tie the knot between mutually recursive 'TH.Name's
151 -- introduced by 'defLet' and 'defJoin'.
152 -- and provide the empty initial 'CallTrace' stack
153 runGenAnalysis ::
154 LetMapFix (CallTrace -> GenAnalysis) ->
155 LetMap GenAnalysis
156 runGenAnalysis ga = (($ []) <$>) $ polyfix ga
157
158 -- | Poly-variadic fixpoint combinator.
159 -- Used to express mutual recursion and to transparently introduce memoization,
160 -- more precisely to "tie the knot"
161 -- between observed sharing ('defLet', 'call', 'jump')
162 -- and also between join points ('defJoin', 'refJoin').
163 -- Because it's enough for its usage here,
164 -- all mutually dependent functions are restricted to the same polymorphic type @(a)@.
165 -- See http://okmij.org/ftp/Computation/fixed-point-combinators.html#Poly-variadic
166 polyfix :: Functor f => f (f a -> a) -> f a
167 polyfix fs = fix $ \finals -> ($ finals) <$> fs
168
169 fix :: (a -> a) -> a
170 fix f = final where final = f final
171
172 type LetMap = HM.HashMap TH.Name
173 type LetMapTo a = LetMap a -> a
174 type LetMapFix a = LetMap (LetMap a -> a)
175
176 -- | Call trace stack updated by 'call' and 'refJoin'.
177 -- Used to avoid infinite loops when tying the knot with 'polyfix'.
178 type CallTrace = [TH.Name]
179
180 -- ** Type 'Offset'
181 type Offset = Int
182 -- ** Type 'Horizon'
183 -- | Minimal input length required for a successful parsing.
184 type Horizon = Offset
185
186 -- altGenAnalysis = List.foldl' (\acc x -> either Left (\h -> Right (either (const h) (min h) acc)) x)
187 -- | Merge given 'GenAnalysis' as sequences.
188 seqGenAnalysis :: NonEmpty GenAnalysis -> GenAnalysis
189 seqGenAnalysis aas@(a:|as) = GenAnalysis
190 { minReads = List.foldl' (\acc x ->
191 acc >>= \r -> (r +) <$> minReads x
192 ) (minReads a) as
193 , mayRaise = sconcat (mayRaise <$> aas)
194 }
195 -- | Merge given 'GenAnalysis' as alternatives.
196 altGenAnalysis :: NonEmpty GenAnalysis -> GenAnalysis
197 altGenAnalysis aas@(a:|as) = GenAnalysis
198 { minReads = List.foldl' (\acc x ->
199 either
200 (\l -> either (const (Left l)) Right)
201 (\r -> either (const (Right r)) (Right . min r))
202 acc (minReads x)
203 ) (minReads a) as
204 , mayRaise = sconcat (mayRaise <$> aas)
205 }
206
207
208 {-
209 -- *** Type 'FarthestError'
210 data FarthestError inp = FarthestError
211 { farthestInput :: Cursor inp
212 , farthestExpecting :: [Failure (InputToken inp)]
213 }
214 -}
215
216 -- ** Type 'GenCtx'
217 -- | This is an inherited (top-down) context
218 -- only present at compile-time, to build TemplateHaskell splices.
219 data GenCtx inp vs a =
220 ( TH.Lift (InputToken inp)
221 , Cursorable (Cursor inp)
222 , Show (InputToken inp)
223 ) => GenCtx
224 { valueStack :: ValueStack vs
225 , catchStackByLabel :: Map Exception (NonEmpty (CodeQ (Catcher inp a)))
226 -- | Default 'Catcher' defined at the begining of the generated 'CodeQ',
227 -- hence a constant within the 'Gen'eration.
228 , defaultCatch :: forall b. CodeQ (Catcher inp b)
229 -- | Used by 'checkToken' to get 'GenAnalysis' from 'genAnalysis'.
230 , callStack :: [TH.Name]
231 , retCode :: CodeQ (Cont inp a a)
232 , input :: CodeQ (Cursor inp)
233 , moreInput :: CodeQ (Cursor inp -> Bool)
234 , nextInput :: CodeQ (Cursor inp -> (# InputToken inp, Cursor inp #))
235 , farthestInput :: CodeQ (Cursor inp)
236 , farthestExpecting :: CodeQ (Set SomeFailure)
237 -- | Remaining horizon already checked.
238 -- Use to factorize 'input' length checks,
239 -- instead of checking the 'input' length
240 -- one 'InputToken' at a time at each 'read'.
241 -- Updated by 'checkHorizon'
242 -- and reset elsewhere when needed.
243 , checkedHorizon :: Horizon
244 -- | Used by 'pushInput' and 'loadInput'
245 -- to restore the 'Horizon' at the restored 'input'.
246 , horizonStack :: [Horizon]
247 -- | Output of 'runGenAnalysis'.
248 , finalGenAnalysisByLet :: LetMap GenAnalysis
249 }
250
251 -- ** Type 'ValueStack'
252 data ValueStack vs where
253 ValueStackEmpty :: ValueStack '[]
254 ValueStackCons ::
255 { valueStackHead :: TermInstr v
256 , valueStackTail :: ValueStack vs
257 } -> ValueStack (v ': vs)
258
259 instance InstrValuable Gen where
260 pushValue x k = k
261 { unGen = \ctx -> {-trace "unGen.pushValue" $-} unGen k ctx
262 { valueStack = ValueStackCons x (valueStack ctx) }
263 }
264 popValue k = k
265 { unGen = \ctx -> {-trace "unGen.popValue" $-} unGen k ctx
266 { valueStack = valueStackTail (valueStack ctx) }
267 }
268 lift2Value f k = k
269 { unGen = \ctx -> {-trace "unGen.lift2Value" $-} unGen k ctx
270 { valueStack =
271 let ValueStackCons y (ValueStackCons x vs) = valueStack ctx in
272 ValueStackCons (f H.:@ x H.:@ y) vs
273 }
274 }
275 swapValue k = k
276 { unGen = \ctx -> {-trace "unGen.swapValue" $-} unGen k ctx
277 { valueStack =
278 let ValueStackCons y (ValueStackCons x vs) = valueStack ctx in
279 ValueStackCons x (ValueStackCons y vs)
280 }
281 }
282 instance InstrBranchable Gen where
283 caseBranch kx ky = Gen
284 { genAnalysisByLet = genAnalysisByLet kx <> genAnalysisByLet ky
285 , genAnalysis = \final ct -> altGenAnalysis $ genAnalysis kx final ct :| [genAnalysis ky final ct]
286 , unGen = \ctx -> {-trace "unGen.caseBranch" $-}
287 let ValueStackCons v vs = valueStack ctx in
288 [||
289 case $$(genCode v) of
290 Left x -> $$(unGen kx ctx{ valueStack = ValueStackCons (H.Term [||x||]) vs })
291 Right y -> $$(unGen ky ctx{ valueStack = ValueStackCons (H.Term [||y||]) vs })
292 ||]
293 }
294 choicesBranch fs ks kd = Gen
295 { genAnalysisByLet = sconcat $ genAnalysisByLet kd :| (genAnalysisByLet <$> ks)
296 , genAnalysis = \final ct -> altGenAnalysis $ (\k -> genAnalysis k final ct) <$> (kd:|ks)
297 , unGen = \ctx -> {-trace "unGen.choicesBranch" $-}
298 let ValueStackCons v vs = valueStack ctx in
299 go ctx{valueStack = vs} v fs ks
300 }
301 where
302 go ctx x (f:fs') (k:ks') = [||
303 if $$(genCode (H.optimizeTerm (f H.:@ x)))
304 then
305 let _ = "choicesBranch.then" in
306 $$({-trace "unGen.choicesBranch.k" $-} unGen k ctx)
307 else
308 let _ = "choicesBranch.else" in
309 $$(go ctx x fs' ks')
310 ||]
311 go ctx _ _ _ = unGen kd ctx
312 instance InstrExceptionable Gen where
313 raise exn = Gen
314 { genAnalysisByLet = HM.empty
315 , genAnalysis = \_final _ct -> GenAnalysis
316 { minReads = Left (ExceptionLabel exn)
317 , mayRaise = Map.singleton (ExceptionLabel exn) ()
318 }
319 , unGen = \ctx@GenCtx{} -> {-trace ("unGen.raise: "<>show exn) $-} [||
320 $$(raiseException ctx (ExceptionLabel exn))
321 (ExceptionLabel $$(TH.liftTyped exn))
322 {-failInp-}$$(input ctx)
323 {-farInp-}$$(input ctx)
324 $$(farthestExpecting ctx)
325 ||]
326 }
327 fail fs = Gen
328 { genAnalysisByLet = HM.empty
329 , genAnalysis = \_final _ct -> GenAnalysis
330 { minReads = Left ExceptionFailure
331 , mayRaise = Map.singleton ExceptionFailure ()
332 }
333 , unGen = \ctx@GenCtx{} -> {-trace ("unGen.fail: "<>show exn) $-}
334 if null fs
335 then [||
336 $$(raiseException ctx ExceptionFailure)
337 ExceptionFailure
338 {-failInp-}$$(input ctx)
339 $$(farthestInput ctx)
340 $$(farthestExpecting ctx)
341 ||]
342 else raiseFailure ctx [||fs||]
343 }
344 commit exn k = k
345 { unGen = \ctx -> {-trace ("unGen.commit: "<>show exn) $-}
346 unGen k ctx{catchStackByLabel =
347 Map.update (\case
348 _r0:|(r1:rs) -> Just (r1:|rs)
349 _ -> Nothing
350 )
351 exn (catchStackByLabel ctx)
352 }
353 }
354 catch exn ok ko = Gen
355 { genAnalysisByLet = genAnalysisByLet ok <> genAnalysisByLet ko
356 , genAnalysis = \final ct ->
357 let okGA = genAnalysis ok final ct in
358 altGenAnalysis $
359 okGA{ mayRaise = Map.delete exn (mayRaise okGA) } :|
360 [ genAnalysis ko final ct ]
361 , unGen = \ctx@GenCtx{} -> {-trace ("unGen.catch: "<>show exn) $-} [||
362 let _ = $$(liftTypedString ("catch "<>show exn)) in
363 let catchHandler !_exn !failInp !farInp !farExp =
364 let _ = $$(liftTypedString ("catch.ko "<>show exn)) in
365 $$({-trace ("unGen.catch.ko: "<>show exn) $-} unGen ko ctx
366 -- Push 'input' and 'checkedHorizon'
367 -- as they were when entering 'catch',
368 -- they will be available to 'loadInput', if any.
369 { valueStack =
370 ValueStackCons (H.Term (input ctx)) $
371 --ValueStackCons (H.Term [||exn||]) $
372 valueStack ctx
373 , horizonStack =
374 checkedHorizon ctx : horizonStack ctx
375 -- Note that 'catchStackByLabel' is reset.
376 -- Move the input to the failing position.
377 , input = [||failInp||]
378 -- The 'checkedHorizon' at the 'raise's are not known here.
379 -- Nor whether 'failInp' is after 'checkedHorizon' or not.
380 -- Hence fallback to a safe value.
381 , checkedHorizon = 0
382 -- Set the farthestInput to the farthest computed in 'fail'.
383 , farthestInput = [||farInp||]
384 , farthestExpecting = [||farExp||]
385 })
386 in
387 $$({-trace ("unGen.catch.ok: "<>show es) $-} unGen ok ctx
388 { catchStackByLabel =
389 Map.insertWith (<>) exn
390 (NE.singleton [||catchHandler||])
391 (catchStackByLabel ctx)
392 }
393 ) ||]
394 }
395
396 -- ** Type 'Catcher'
397 type Catcher inp a =
398 Exception ->
399 {-failInp-}Cursor inp ->
400 {-farInp-}Cursor inp ->
401 {-farExp-}(Set SomeFailure) ->
402 Either (ParsingError inp) a
403 instance InstrInputable Gen where
404 pushInput k = k
405 { unGen = \ctx ->
406 {-trace "unGen.pushInput" $-}
407 unGen k ctx
408 { valueStack = H.Term (input ctx) `ValueStackCons` valueStack ctx
409 , horizonStack = checkedHorizon ctx : horizonStack ctx
410 }
411 }
412 loadInput k = k
413 { unGen = \ctx ->
414 {-trace "unGen.loadInput" $-}
415 let ValueStackCons input vs = valueStack ctx in
416 let (h, hs) = case horizonStack ctx of
417 [] -> (0, [])
418 x:xs -> (x, xs) in
419 unGen k ctx
420 { valueStack = vs
421 , horizonStack = hs
422 , input = genCode input
423 , checkedHorizon = h
424 }
425 , genAnalysis = \final ct -> GenAnalysis
426 { minReads = 0 <$ minReads (genAnalysis k final ct)
427 , mayRaise = mayRaise (genAnalysis k final ct)
428 }
429 }
430 instance InstrCallable Gen where
431 defLet defs k = k
432 { unGen = \ctx@GenCtx{} ->
433 {-trace ("unGen.defLet: defs="<>show (HM.keys defs)) $-}
434 TH.unsafeCodeCoerce $ do
435 decls <- traverse (makeDecl ctx) (HM.toList defs)
436 body <- TH.unTypeQ $ TH.examineCode $
437 {-trace "unGen.defLet.body" $-}
438 unGen k ctx
439 return $ TH.LetE (
440 -- | Try to output more deterministic code to be able to golden test it,
441 -- at the cost of more computations (at compile-time only though).
442 List.sortBy (compare `on` TH.hideName) $
443 toList decls
444 ) body
445 , genAnalysisByLet =
446 foldMap' (\(SomeLet sub) -> genAnalysisByLet sub) defs <>
447 ((\(SomeLet sub) -> genAnalysis sub) <$> defs) <>
448 genAnalysisByLet k
449 }
450 where
451 makeDecl ctx (n, SomeLet sub) = do
452 body <- TH.unTypeQ $ TH.examineCode $ [|| -- buildRec in Parsley
453 -- Called by 'call' or 'jump'.
454 \ !ok{-from generateSuspend or retCode-}
455 !inp
456 !koByLabel{- 'catchStackByLabel' from the 'call'-site -} ->
457 $$({-trace ("unGen.defLet.sub: "<>show n) $-} unGen sub ctx
458 { valueStack = ValueStackEmpty
459 -- Build a 'catchStackByLabel' from the one available at the 'call'-site.
460 -- Note that all the 'mayRaise' of the 'sub'routine may not be available,
461 -- hence 'Map.findWithDefault' is used instead of 'Map.!'.
462 , catchStackByLabel = Map.mapWithKey
463 (\lbl () -> NE.singleton [||Map.findWithDefault $$(defaultCatch ctx) lbl koByLabel||])
464 ({-trace ("mayRaise: "<>show n) $-}
465 mayRaise (finalGenAnalysisByLet ctx HM.! n))
466 , input = [||inp||]
467 , retCode = {-trace ("unGen.defLet.sub.retCode: "<>show n) $-} [||ok||]
468
469 -- These are passed by the caller via 'ok' or 'ko'
470 -- , farthestInput =
471 -- , farthestExpecting =
472
473 -- Some callers can call this 'defLet'
474 -- with zero 'checkedHorizon', hence use this minimum.
475 -- TODO: maybe it could be improved a bit
476 -- by taking the minimum of the checked horizons
477 -- before all the 'call's and 'jump's to this 'defLet'.
478 , checkedHorizon = 0
479 })
480 ||]
481 let decl = TH.FunD n [TH.Clause [] (TH.NormalB body) []]
482 return decl
483 jump (LetName n) = Gen
484 { genAnalysisByLet = HM.empty
485 , genAnalysis = \final ct ->
486 if n`List.elem`ct
487 then GenAnalysis
488 { minReads = Right 0
489 , mayRaise = Map.empty
490 }
491 else (final HM.! n) (n:ct)
492 , unGen = \ctx -> {-trace ("unGen.jump: "<>show n) $-} [||
493 let _ = "jump" in
494 $$(TH.unsafeCodeCoerce (return (TH.VarE n)))
495 {-ok-}$$(retCode ctx)
496 $$(input ctx)
497 $$(liftTypedRaiseByLabel $
498 catchStackByLabel ctx
499 -- Pass only the labels raised by the 'defLet'.
500 `Map.intersection`
501 (mayRaise $ finalGenAnalysisByLet ctx HM.! n)
502 )
503 ||]
504 }
505 call (LetName n) k = k
506 { genAnalysis = \final ct ->
507 if n`List.elem`ct
508 then GenAnalysis
509 { minReads = Right 0
510 , mayRaise = Map.empty
511 }
512 else seqGenAnalysis $
513 (final HM.! n) (n:ct) :|
514 [ genAnalysis k final ct ]
515 , unGen = {-trace ("unGen.call: "<>show n) $-} \ctx ->
516 -- let ks = (Map.keys (catchStackByLabel ctx)) in
517 [||
518 -- let _ = $$(liftTypedString $ "call exceptByLet("<>show n<>")="<>show (Map.keys (Map.findWithDefault Map.empty n (exceptByLet ctx))) <> " catchStackByLabel(ctx)="<> show ks) in
519 $$(TH.unsafeCodeCoerce (return (TH.VarE n)))
520 {-ok-}$$(generateSuspend k ctx{callStack = n : callStack ctx})
521 $$(input ctx)
522 $$(liftTypedRaiseByLabel $
523 catchStackByLabel ctx
524 -- Pass only the labels raised by the 'defLet'.
525 `Map.intersection`
526 (mayRaise $ finalGenAnalysisByLet ctx HM.! n)
527 )
528 ||]
529 }
530 ret = Gen
531 { genAnalysisByLet = HM.empty
532 , genAnalysis = \_final _ct -> GenAnalysis
533 { minReads = Right 0
534 , mayRaise = Map.empty
535 }
536 , unGen = \ctx -> {-trace "unGen.ret" $-} unGen ({-trace "unGen.ret.generateResume" $-} generateResume ({-trace "unGen.ret.retCode" $-} retCode ctx)) ctx
537 }
538
539 -- | Like 'TH.liftString' but on 'TH.Code'.
540 -- Useful to get a 'TH.StringL' instead of a 'TH.ListE'.
541 liftTypedString :: String -> TH.Code TH.Q a
542 liftTypedString = TH.unsafeCodeCoerce . TH.liftString
543
544 -- | Like 'TH.liftTyped' but adjusted to work on 'catchStackByLabel'
545 -- which already contains 'CodeQ' terms.
546 -- Moreover, only the 'Catcher' at the top of the stack
547 -- is needed and thus generated in the resulting 'CodeQ'.
548 --
549 -- TODO: Use an 'Array' instead of a 'Map'?
550 liftTypedRaiseByLabel :: TH.Lift k => Map k (NonEmpty (CodeQ a)) -> CodeQ (Map k a)
551 liftTypedRaiseByLabel Map_.Tip = [|| Map_.Tip ||]
552 liftTypedRaiseByLabel (Map_.Bin s k (h:|_hs) l r) =
553 [|| Map_.Bin s k $$h $$(liftTypedRaiseByLabel l) $$(liftTypedRaiseByLabel r) ||]
554
555 instance TH.Lift a => TH.Lift (Set a) where
556 liftTyped Set_.Tip = [|| Set_.Tip ||]
557 liftTyped (Set_.Bin s a l r) = [|| Set_.Bin $$(TH.liftTyped s) $$(TH.liftTyped a) $$(TH.liftTyped l) $$(TH.liftTyped r) ||]
558
559 -- ** Type 'Cont'
560 type Cont inp v a =
561 {-farthestInput-}Cursor inp ->
562 {-farthestExpecting-}(Set SomeFailure) ->
563 v ->
564 Cursor inp ->
565 Either (ParsingError inp) a
566
567 -- | Generate a 'retCode' 'Cont'inuation to be called with 'generateResume'.
568 -- Used when 'call' 'ret'urns.
569 -- The return 'v'alue is 'pushValue'-ed on the 'valueStack'.
570 generateSuspend ::
571 {-k-}Gen inp (v ': vs) a ->
572 GenCtx inp vs a ->
573 CodeQ (Cont inp v a)
574 generateSuspend k ctx = [||
575 let _ = $$(liftTypedString $ "suspend") in
576 \farInp farExp v !inp ->
577 $$({-trace "unGen.generateSuspend" $-} unGen k ctx
578 { valueStack = ValueStackCons ({-trace "unGen.generateSuspend.value" $-} H.Term [||v||]) (valueStack ctx)
579 , input = [||inp||]
580 , farthestInput = [||farInp||]
581 , farthestExpecting = [||farExp||]
582 , checkedHorizon = 0
583 }
584 )
585 ||]
586
587 -- | Generate a call to the 'generateSuspend' continuation.
588 -- Used when 'call' 'ret'urns.
589 generateResume ::
590 CodeQ (Cont inp v a) ->
591 Gen inp (v ': vs) a
592 generateResume k = Gen
593 { genAnalysisByLet = HM.empty
594 , genAnalysis = \_final _ct -> GenAnalysis
595 { minReads = Right 0
596 , mayRaise = Map.empty
597 }
598 , unGen = \ctx -> {-trace "unGen.generateResume" $-} [||
599 let _ = "resume" in
600 $$k
601 $$(farthestInput ctx)
602 $$(farthestExpecting ctx)
603 (let _ = "resume.genCode" in $$({-trace "unGen.generateResume.genCode" $-} genCode $ H.optimizeTerm $
604 valueStackHead $ valueStack ctx))
605 $$(input ctx)
606 ||]
607 }
608
609 instance InstrJoinable Gen where
610 defJoin (LetName n) sub k = k
611 { unGen =
612 \ctx ->
613 {-trace ("unGen.defJoin: "<>show n) $-}
614 TH.unsafeCodeCoerce $ do
615 next <- TH.unTypeQ $ TH.examineCode $ [||
616 -- Called by 'generateResume'.
617 \farInp farExp v !inp ->
618 $$({-trace ("unGen.defJoin.next: "<>show n) $-} unGen sub ctx
619 { valueStack = ValueStackCons (H.Term [||v||]) (valueStack ctx)
620 , input = [||inp||]
621 , farthestInput = [||farInp||]
622 , farthestExpecting = [||farExp||]
623 , checkedHorizon = 0
624 {- FIXME:
625 , catchStackByLabel = Map.mapWithKey
626 (\lbl () -> NE.singleton [||koByLabel Map.! lbl||])
627 (mayRaise sub raiseLabelsByLetButSub)
628 -}
629 })
630 ||]
631 let decl = TH.FunD n [TH.Clause [] (TH.NormalB next) []]
632 expr <- TH.unTypeQ (TH.examineCode ({-trace ("unGen.defJoin.expr: "<>show n) $-} unGen k ctx))
633 return (TH.LetE [decl] expr)
634 , genAnalysisByLet =
635 (genAnalysisByLet sub <>) $
636 HM.insert n (genAnalysis sub) $
637 genAnalysisByLet k
638 }
639 refJoin (LetName n) = Gen
640 { unGen = \ctx ->
641 {-trace ("unGen.refJoin: "<>show n) $-}
642 unGen (generateResume
643 (TH.unsafeCodeCoerce (return (TH.VarE n)))) ctx
644 , genAnalysisByLet = HM.empty
645 , genAnalysis = \final ct ->
646 if n`List.elem`ct -- FIXME: useless
647 then GenAnalysis
648 { minReads = Right 0
649 , mayRaise = Map.empty
650 }
651 else HM.findWithDefault
652 (error (show (n,ct,HM.keys final)))
653 n final (n:ct)
654 }
655 instance InstrReadable Char Gen where
656 read fs p = checkHorizon . checkToken fs p
657
658 checkHorizon ::
659 forall inp vs a.
660 Eq (InputToken inp) =>
661 Ord (InputToken inp) =>
662 Typeable (InputToken inp) =>
663 TH.Lift (InputToken inp) =>
664 {-ok-}Gen inp vs a ->
665 Gen inp vs a
666 checkHorizon ok = ok
667 { genAnalysis = \final ct -> seqGenAnalysis $
668 GenAnalysis { minReads = Right 1
669 , mayRaise = Map.singleton ExceptionFailure ()
670 } :|
671 [ genAnalysis ok final ct ]
672 , unGen = \ctx0@GenCtx{} ->
673 {-trace "unGen.checkHorizon" $-}
674 let raiseFail = raiseException ctx0 ExceptionFailure in
675 [||
676 -- Factorize generated code for raising the "fail".
677 let readFail = $$(raiseFail) in
678 $$(
679 let ctx = ctx0{catchStackByLabel =
680 Map.adjust (\(_r:|rs) -> [||readFail||] :| rs)
681 ExceptionFailure (catchStackByLabel ctx0)} in
682 if checkedHorizon ctx >= 1
683 then unGen ok ctx0{checkedHorizon = checkedHorizon ctx - 1}
684 else let minHoriz =
685 either (\err -> 0) id $
686 minReads $ finalGenAnalysis ctx ok in
687 [||
688 if $$(moreInput ctx)
689 $$(if minHoriz > 0
690 then [||$$shiftRight minHoriz $$(input ctx)||]
691 else input ctx)
692 then $$(unGen ok ctx{checkedHorizon = minHoriz})
693 else let _ = "checkHorizon.else" in
694 -- TODO: return a resuming continuation (eg. Partial)
695 $$(unGen (fail (Set.singleton $ SomeFailure $ FailureHorizon @(InputToken inp) (minHoriz + 1))) ctx)
696 ||]
697 )
698 ||]
699 }
700
701 -- | @('raiseFailure' ctx fs)@ raises 'ExceptionFailure'
702 -- with farthest parameters set to or updated with @(fs)@
703 -- according to the relative position of 'input' wrt. 'farthestInput'.
704 raiseFailure ::
705 Cursorable (Cursor inp) =>
706 GenCtx inp cs a ->
707 TH.CodeQ (Set SomeFailure) ->
708 TH.CodeQ (Either (ParsingError inp) a)
709 raiseFailure ctx fs = [||
710 let failExp = $$fs in
711 let (# farInp, farExp #) =
712 case $$compareOffset $$(farthestInput ctx) $$(input ctx) of
713 LT -> (# $$(input ctx), failExp #)
714 EQ -> (# $$(farthestInput ctx), failExp <> $$(farthestExpecting ctx) #)
715 GT -> (# $$(farthestInput ctx), $$(farthestExpecting ctx) #)
716 in $$(raiseException ctx ExceptionFailure)
717 ExceptionFailure
718 {-failInp-}$$(input ctx) farInp farExp
719 ||]
720 -- | @('raiseException' ctx exn)@ raises exception @(exn)@
721 -- using any entry in 'catchStackByLabel', or 'defaultCatch' if none.
722 raiseException ::
723 GenCtx inp vs a -> Exception ->
724 CodeQ (Exception -> Cursor inp -> Cursor inp -> Set SomeFailure -> Either (ParsingError inp) a)
725 raiseException ctx exn =
726 NE.head $ Map.findWithDefault
727 (NE.singleton (defaultCatch ctx))
728 exn (catchStackByLabel ctx)
729
730 finalGenAnalysis :: GenCtx inp vs a -> Gen inp cs a -> GenAnalysis
731 finalGenAnalysis ctx k =
732 --(\f -> f (error "callTrace")) $
733 (\f -> f (callStack ctx)) $
734 genAnalysis k $
735 ((\f _ct -> f) <$>) $
736 finalGenAnalysisByLet ctx
737
738 checkToken ::
739 Ord (InputToken inp) =>
740 TH.Lift (InputToken inp) =>
741 Set SomeFailure ->
742 {-predicate-}TermInstr (InputToken inp -> Bool) ->
743 {-ok-}Gen inp (InputToken inp ': vs) a ->
744 Gen inp vs a
745 checkToken fs p ok = ok
746 { unGen = \ctx -> {-trace "unGen.read" $-} [||
747 let !(# c, cs #) = $$(nextInput ctx) $$(input ctx) in
748 if $$(genCode p) c
749 then $$(unGen ok ctx
750 { valueStack = ValueStackCons (H.Term [||c||]) (valueStack ctx)
751 , input = [||cs||]
752 })
753 else let _ = "checkToken.else" in
754 $$(unGen (fail fs) ctx)
755 ||]
756 }