Safe Haskell | Safe-Infered |
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Monadic and General Iteratees: incremental input parsers, processors and transformers
- type EnumerateeHandler eli elo m a = (Stream eli -> Iteratee eli m a) -> SomeException -> Iteratee elo m (Iteratee eli m a)
- throwErr :: Monad m => SomeException -> Iteratee s m a
- throwRecoverableErr :: Monad m => SomeException -> (Stream s -> Iteratee s m a) -> Iteratee s m a
- checkErr :: (Monad m, NullPoint s) => Iteratee s m a -> Iteratee s m (Either SomeException a)
- identity :: (Monad m, NullPoint s) => Iteratee s m ()
- skipToEof :: Monad m => Iteratee s m ()
- isStreamFinished :: (Monad m, Nullable s) => Iteratee s m (Maybe SomeException)
- mapChunksM_ :: (Monad m, Nullable s) => (s -> m b) -> Iteratee s m ()
- foldChunksM :: (Monad m, Nullable s) => (a -> s -> m a) -> a -> Iteratee s m a
- getChunk :: (Monad m, Nullable s, NullPoint s) => Iteratee s m s
- getChunks :: (Monad m, Nullable s) => Iteratee s m [s]
- mapChunks :: (Monad m, NullPoint s) => (s -> s') -> Enumeratee s s' m a
- mapChunksM :: (Monad m, NullPoint s, Nullable s) => (s -> m s') -> Enumeratee s s' m a
- convStream :: (Monad m, Nullable s) => Iteratee s m s' -> Enumeratee s s' m a
- unfoldConvStream :: (Monad m, Nullable s) => (acc -> Iteratee s m (acc, s')) -> acc -> Enumeratee s s' m a
- unfoldConvStreamCheck :: (Monad m, Nullable elo) => (((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a) -> (acc -> Iteratee elo m (acc, eli)) -> acc -> Enumeratee elo eli m a
- joinI :: (Monad m, Nullable s) => Iteratee s m (Iteratee s' m a) -> Iteratee s m a
- joinIM :: Monad m => m (Iteratee s m a) -> Iteratee s m a
- type Enumerator s m a = Iteratee s m a -> m (Iteratee s m a)
- type Enumeratee sFrom sTo m a = Iteratee sTo m a -> Iteratee sFrom m (Iteratee sTo m a)
- enumChunk :: Monad m => Stream s -> Enumerator s m a
- enumEof :: Monad m => Enumerator s m a
- enumErr :: (Exception e, Monad m) => e -> Enumerator s m a
- enumPure1Chunk :: Monad m => s -> Enumerator s m a
- enumList :: Monad m => [s] -> Enumerator s m a
- enumCheckIfDone :: Monad m => Iteratee s m a -> m (Bool, Iteratee s m a)
- enumFromCallback :: (Monad m, NullPoint s) => (st -> m (Either SomeException ((Bool, st), s))) -> st -> Enumerator s m a
- enumFromCallbackCatch :: (IException e, Monad m, NullPoint s) => (st -> m (Either SomeException ((Bool, st), s))) -> (e -> m (Maybe EnumException)) -> st -> Enumerator s m a
- (>>>) :: Monad m => Enumerator s m a -> Enumerator s m a -> Enumerator s m a
- eneeCheckIfDone :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a
- eneeCheckIfDoneHandle :: (Monad m, NullPoint elo) => EnumerateeHandler eli elo m a -> ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a
- eneeCheckIfDoneIgnore :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a
- eneeCheckIfDonePass :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a
- mergeEnums :: (Nullable s2, Nullable s1, Monad m) => Enumerator s1 m a -> Enumerator s2 (Iteratee s1 m) a -> Enumeratee s2 s1 (Iteratee s1 m) a -> Enumerator s1 m a
- ($=) :: (Nullable s, Nullable s', Monad m) => (forall a. Enumerator s m a) -> Enumeratee s s' m b -> Enumerator s' m b
- (=$) :: (Nullable s, Nullable s', Monad m) => Enumeratee s s' m a -> Iteratee s' m a -> Iteratee s m a
- (><>) :: (Nullable s1, Monad m) => (forall x. Enumeratee s1 s2 m x) -> Enumeratee s2 s3 m a -> Enumeratee s1 s3 m a
- (<><) :: (Nullable s1, Monad m) => Enumeratee s2 s3 m a -> (forall x. Enumeratee s1 s2 m x) -> Enumeratee s1 s3 m a
- seek :: (Monad m, NullPoint s) => FileOffset -> Iteratee s m ()
- type FileOffset = COff
- module Data.Iteratee.Base
Types
type EnumerateeHandler eli elo m a = (Stream eli -> Iteratee eli m a) -> SomeException -> Iteratee elo m (Iteratee eli m a)Source
Error handling
throwErr :: Monad m => SomeException -> Iteratee s m aSource
Report and propagate an unrecoverable error.
Disregard the input first and then propagate the error. This error
cannot be handled by enumFromCallbackCatch
, although it can be cleared
by checkErr
.
throwRecoverableErr :: Monad m => SomeException -> (Stream s -> Iteratee s m a) -> Iteratee s m aSource
Report and propagate a recoverable error. This error can be handled by
both enumFromCallbackCatch
and checkErr
.
checkErr :: (Monad m, NullPoint s) => Iteratee s m a -> Iteratee s m (Either SomeException a)Source
Check if an iteratee produces an error.
Returns Right a
if it completes without errors, otherwise
Left SomeException
. checkErr
is useful for iteratees that may not
terminate, such as Data.Iteratee.head
with an empty stream.
Basic Iteratees
identity :: (Monad m, NullPoint s) => Iteratee s m ()Source
The identity iteratee. Doesn't do any processing of input.
isStreamFinished :: (Monad m, Nullable s) => Iteratee s m (Maybe SomeException)Source
Get the stream status of an iteratee.
Chunkwise Iteratees
mapChunksM_ :: (Monad m, Nullable s) => (s -> m b) -> Iteratee s m ()Source
Map a monadic function over the chunks of the stream and ignore the result. Useful for creating efficient monadic iteratee consumers, e.g.
logger = mapChunksM_ (liftIO . putStrLn)
these can be efficiently run in parallel with other iteratees via
Data.Iteratee.ListLike.zip
.
foldChunksM :: (Monad m, Nullable s) => (a -> s -> m a) -> a -> Iteratee s m aSource
A fold over chunks
getChunk :: (Monad m, Nullable s, NullPoint s) => Iteratee s m sSource
Get the current chunk from the stream.
getChunks :: (Monad m, Nullable s) => Iteratee s m [s]Source
Get a list of all chunks from the stream.
Nested iteratee combinators
mapChunks :: (Monad m, NullPoint s) => (s -> s') -> Enumeratee s s' m aSource
Convert one stream into another with the supplied mapping function.
This function operates on whole chunks at a time, contrasting to
mapStream
which operates on single elements.
unpacker :: Enumeratee B.ByteString [Word8] m a unpacker = mapChunks B.unpack
mapChunksM :: (Monad m, NullPoint s, Nullable s) => (s -> m s') -> Enumeratee s s' m aSource
Convert a stream of s
to a stream of s'
using the supplied function.
convStream :: (Monad m, Nullable s) => Iteratee s m s' -> Enumeratee s s' m aSource
Convert one stream into another, not necessarily in lockstep.
The transformer mapStream maps one element of the outer stream to one element of the nested stream. The transformer below is more general: it may take several elements of the outer stream to produce one element of the inner stream, or the other way around. The transformation from one stream to the other is specified as Iteratee s m s'.
unfoldConvStream :: (Monad m, Nullable s) => (acc -> Iteratee s m (acc, s')) -> acc -> Enumeratee s s' m aSource
The most general stream converter. Given a function to produce iteratee transformers and an initial state, convert the stream using iteratees generated by the function while continually updating the internal state.
unfoldConvStreamCheck :: (Monad m, Nullable elo) => (((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m a) -> (acc -> Iteratee elo m (acc, eli)) -> acc -> Enumeratee elo eli m aSource
joinI :: (Monad m, Nullable s) => Iteratee s m (Iteratee s' m a) -> Iteratee s m aSource
Collapse a nested iteratee. The inner iteratee is terminated by EOF
.
Errors are propagated through the result.
The stream resumes from the point of the outer iteratee; any remaining
input in the inner iteratee will be lost.
Differs from join
in that the inner iteratee is terminated,
and may have a different stream type than the result.
joinIM :: Monad m => m (Iteratee s m a) -> Iteratee s m aSource
Lift an iteratee inside a monad to an iteratee.
Enumerators
type Enumerator s m a = Iteratee s m a -> m (Iteratee s m a)Source
Each enumerator takes an iteratee and returns an iteratee
an Enumerator is an iteratee transformer. The enumerator normally stops when the stream is terminated or when the iteratee moves to the done state, whichever comes first. When to stop is of course up to the enumerator...
type Enumeratee sFrom sTo m a = Iteratee sTo m a -> Iteratee sFrom m (Iteratee sTo m a)Source
Basic enumerators
enumChunk :: Monad m => Stream s -> Enumerator s m aSource
Applies the iteratee to the given stream. This wraps enumEof
,
enumErr
, and enumPure1Chunk
, calling the appropriate enumerator
based upon Stream
.
enumEof :: Monad m => Enumerator s m aSource
The most primitive enumerator: applies the iteratee to the terminated stream. The result is the iteratee in the Done state. It is an error if the iteratee does not terminate on EOF.
enumErr :: (Exception e, Monad m) => e -> Enumerator s m aSource
Another primitive enumerator: tell the Iteratee the stream terminated with an error.
enumPure1Chunk :: Monad m => s -> Enumerator s m aSource
The pure 1-chunk enumerator
It passes a given list of elements to the iteratee in one chunk This enumerator does no IO and is useful for testing of base parsing
enumList :: Monad m => [s] -> Enumerator s m aSource
Enumerate chunks from a list
enumCheckIfDone :: Monad m => Iteratee s m a -> m (Bool, Iteratee s m a)Source
Checks if an iteratee has finished.
This enumerator runs the iteratee, performing any monadic actions. If the result is True, the returned iteratee is done.
enumFromCallback :: (Monad m, NullPoint s) => (st -> m (Either SomeException ((Bool, st), s))) -> st -> Enumerator s m aSource
Create an enumerator from a callback function
enumFromCallbackCatch :: (IException e, Monad m, NullPoint s) => (st -> m (Either SomeException ((Bool, st), s))) -> (e -> m (Maybe EnumException)) -> st -> Enumerator s m aSource
Create an enumerator from a callback function with an exception handler. The exception handler is called if an iteratee reports an exception.
Enumerator Combinators
(>>>) :: Monad m => Enumerator s m a -> Enumerator s m a -> Enumerator s m aSource
The composition of two enumerators: essentially the functional composition
It is convenient to flip the order of the arguments of the composition though: in e1 >>> e2, e1 is executed first
eneeCheckIfDone :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m aSource
Utility function for creating enumeratees. Typical usage is demonstrated
by the breakE
definition.
breakE :: (Monad m, LL.ListLike s el, NullPoint s) => (el -> Bool) -> Enumeratee s s m a breakE cpred = eneeCheckIfDone (liftI . step) where step k (Chunk s) | LL.null s = liftI (step k) | otherwise = case LL.break cpred s of (str', tail') | LL.null tail' -> eneeCheckIfDone (liftI . step) . k $ Chunk str' | otherwise -> idone (k $ Chunk str') (Chunk tail') step k stream = idone (k stream) stream
eneeCheckIfDoneHandle :: (Monad m, NullPoint elo) => EnumerateeHandler eli elo m a -> ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m aSource
The same as eneeCheckIfDonePass, with one extra argument: a handler which is used to process any exceptions in a separate method.
eneeCheckIfDoneIgnore :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m aSource
eneeCheckIfDonePass :: (Monad m, NullPoint elo) => ((Stream eli -> Iteratee eli m a) -> Maybe SomeException -> Iteratee elo m (Iteratee eli m a)) -> Enumeratee elo eli m aSource
:: (Nullable s2, Nullable s1, Monad m) | |
=> Enumerator s1 m a | inner enumerator |
-> Enumerator s2 (Iteratee s1 m) a | outer enumerator |
-> Enumeratee s2 s1 (Iteratee s1 m) a | merging enumeratee |
-> Enumerator s1 m a |
Combine enumeration over two streams. The merging enumeratee would
typically be the result of merge
or
mergeByChunks
(see merge
for example).
Enumeratee Combinators
($=) :: (Nullable s, Nullable s', Monad m) => (forall a. Enumerator s m a) -> Enumeratee s s' m b -> Enumerator s' m bSource
Combines Enumerator which produces stream of s
and Enumeratee
which transforms stream of s
to stream
of s'
to into Enumerator which produces stream of s'
(=$) :: (Nullable s, Nullable s', Monad m) => Enumeratee s s' m a -> Iteratee s' m a -> Iteratee s m aSource
Combines an Enumeratee from s
to s'
and an Iteratee that
consumes s'
into an Iteratee which consumes s
(><>) :: (Nullable s1, Monad m) => (forall x. Enumeratee s1 s2 m x) -> Enumeratee s2 s3 m a -> Enumeratee s1 s3 m aSource
Enumeratee composition Run the second enumeratee within the first. In this example, stream2list is run within the 'take 10', which is itself run within 'take 15', resulting in 15 elements being consumed
>>>
run =<< enumPure1Chunk [1..1000 :: Int] (joinI $ (I.take 15 ><> I.take 10) I.stream2list)
[1,2,3,4,5,6,7,8,9,10]
(<><) :: (Nullable s1, Monad m) => Enumeratee s2 s3 m a -> (forall x. Enumeratee s1 s2 m x) -> Enumeratee s1 s3 m aSource
enumeratee composition with the arguments flipped, see ><>
Misc.
seek :: (Monad m, NullPoint s) => FileOffset -> Iteratee s m ()Source
Seek to a position in the stream
type FileOffset = COff
Classes
module Data.Iteratee.Base