{-# LANGUAGE CPP #-} -- | -- Module : Streamly.Data.ParserK -- Copyright : (c) 2023 Composewell Technologies -- License : BSD-3-Clause -- Maintainer : streamly@composewell.com -- Stability : pre-release -- Portability : GHC -- -- See the general notes about parsing in the "Streamly.Data.Parser" module. -- This module implements a using Continuation Passing Style (CPS) wrapper over -- the "Streamly.Data.Parser" module. It is as fast or faster than attoparsec. -- -- == Parser vs ParserK -- -- 'ParserK' is preferred over 'Streamly.Data.Parser.Parser' when extensive -- applicative, alternative and monadic composition is required, or when -- recursive or dynamic composition of parsers is required. The -- 'Streamly.Data.Parser.Parser' type fuses statically and creates efficient -- loops whereas 'ParserK' uses function call based composition and has -- comparatively larger runtime overhead but it is better suited to the -- specific use cases mentioned above. 'ParserK' also allows to efficient parse -- a stream of arrays, it can also break the input stream into a parse result -- and remaining stream so that the stream can be parsed independently in -- segments. -- -- == Using ParserK -- -- All the parsers from the "Streamly.Data.Parser" module can be adapted to -- ParserK using the 'Streamly.Data.ParserK.adaptC', -- 'Streamly.Internal.Data.ParserK.adapt', and -- 'Streamly.Internal.Data.ParserK.adaptCG' combinators. -- -- 'Streamly.Data.StreamK.parseChunks' runs a parser on a stream of unboxed -- arrays, this is the preferred and most efficient way to parse chunked input. -- The more general 'Streamly.Data.StreamK.parseBreakChunks' function returns -- the remaining stream as well along with the parse result. There are -- 'Streamly.Internal.Data.StreamK.parseChunksGeneric', -- 'Streamly.Internal.Data.StreamK.parseBreakChunksGeneric' as well to run -- parsers on boxed arrays. 'Streamly.Internal.Data.StreamK.parse', -- 'Streamly.Internal.Data.StreamK.parseBreak' run parsers on a stream of -- individual elements instead of stream of arrays. -- -- == Monadic Composition -- -- Monad composition can be used for lookbehind parsers, we can dynamically -- compose new parsers based on the results of the previously parsed values. -- -- If we have to parse "a9" or "9a" but not "99" or "aa" we can use the -- following non-monadic, backtracking parser: -- -- >>> digits p1 p2 = ((:) <$> p1 <*> ((:) <$> p2 <*> pure [])) -- >>> :{ -- backtracking :: Monad m => ParserK Char m String -- backtracking = ParserK.adapt $ -- digits (Parser.satisfy isDigit) (Parser.satisfy isAlpha) -- <|> -- digits (Parser.satisfy isAlpha) (Parser.satisfy isDigit) -- :} -- -- We know that if the first parse resulted in a digit at the first place then -- the second parse is going to fail. However, we waste that information and -- parse the first character again in the second parse only to know that it is -- not an alphabetic char. By using lookbehind in a 'Monad' composition we can -- avoid redundant work: -- -- >>> data DigitOrAlpha = Digit Char | Alpha Char -- -- >>> :{ -- lookbehind :: Monad m => ParserK Char m String -- lookbehind = do -- x1 <- ParserK.adapt $ -- Digit <$> Parser.satisfy isDigit -- <|> Alpha <$> Parser.satisfy isAlpha -- -- Note: the parse depends on what we parsed already -- x2 <- ParserK.adapt $ -- case x1 of -- Digit _ -> Parser.satisfy isAlpha -- Alpha _ -> Parser.satisfy isDigit -- return $ case x1 of -- Digit x -> [x,x2] -- Alpha x -> [x,x2] -- :} -- -- == Experimental APIs -- -- Please refer to "Streamly.Internal.Data.ParserK" for functions that have -- not yet been released. -- module Streamly.Data.ParserK ( -- * Setup -- | To execute the code examples provided in this module in ghci, please -- run the following commands first. -- -- $setup -- * Parser Type ParserK -- * Parsers -- ** Conversions , adapt , adaptC , adaptCG -- , toParser -- ** Without Input , fromPure , fromEffect , die -- * Deprecated , fromFold , fromParser ) where import Control.Monad.IO.Class (MonadIO) import Streamly.Internal.Data.Fold (Fold) import Streamly.Internal.Data.Unbox (Unbox) import Streamly.Internal.Data.Array (Array) import qualified Streamly.Internal.Data.Parser as ParserD import Streamly.Internal.Data.ParserK.Type #include "DocTestDataParserK.hs" {-# DEPRECATED fromFold "Please use \"ParserK.adaptC . Parser.fromFold\" instead." #-} {-# INLINE fromFold #-} fromFold :: (MonadIO m, Unbox a) => Fold m a b -> ParserK (Array a) m b fromFold :: forall (m :: * -> *) a b. (MonadIO m, Unbox a) => Fold m a b -> ParserK (Array a) m b fromFold = Parser a m b -> ParserK (Array a) m b forall (m :: * -> *) a b. (Monad m, Unbox a) => Parser a m b -> ParserK (Array a) m b adaptC (Parser a m b -> ParserK (Array a) m b) -> (Fold m a b -> Parser a m b) -> Fold m a b -> ParserK (Array a) m b forall b c a. (b -> c) -> (a -> b) -> a -> c . Fold m a b -> Parser a m b forall (m :: * -> *) a b. Monad m => Fold m a b -> Parser a m b ParserD.fromFold {-# DEPRECATED fromParser "Please use \"adaptC\" instead." #-} {-# INLINE fromParser #-} fromParser :: (MonadIO m, Unbox a) => ParserD.Parser a m b -> ParserK (Array a) m b fromParser :: forall (m :: * -> *) a b. (MonadIO m, Unbox a) => Parser a m b -> ParserK (Array a) m b fromParser = Parser a m b -> ParserK (Array a) m b forall (m :: * -> *) a b. (Monad m, Unbox a) => Parser a m b -> ParserK (Array a) m b adaptC