Safe Haskell | None |
---|---|
Language | Haskell98 |
Basically a reexport of Data.Iteratee less the names that clash with Prelude plus a handful of utilities.
- groupStreamBy :: (Monad m, ListLike l t, NullPoint l, Nullable l) => (t -> t -> Bool) -> m (Iteratee l m t2) -> Enumeratee l [t2] m a
- groupStreamOn :: (Monad m, ListLike l e, Eq t1, NullPoint l, Nullable l) => (e -> t1) -> (t1 -> m (Iteratee l m t2)) -> Enumeratee l [(t1, t2)] m a
- iGetString :: Monad m => Int -> Iteratee ByteString m ByteString
- iterGet :: Monad m => Get a -> Iteratee ByteString m a
- iterLoop :: (Nullable s, Monad m) => (a -> Iteratee s m a) -> a -> Iteratee s m a
- iLookAhead :: Monoid s => Iteratee s m a -> Iteratee s m a
- headStream :: ListLike s el => Iteratee s m el
- peekStream :: ListLike s el => Iteratee s m (Maybe el)
- takeStream :: (Monad m, Nullable s, ListLike s el) => Int -> Enumeratee s s m a
- dropStream :: (Nullable s, ListLike s el) => Int -> Iteratee s m ()
- mapStreamM :: (Monad m, ListLike (s el) el, ListLike (s el') el', NullPoint (s el), Nullable (s el), LooseMap s el el') => (el -> m el') -> Enumeratee (s el) (s el') m a
- mapStreamM_ :: (Monad m, Nullable s, ListLike s el) => (el -> m b) -> Iteratee s m ()
- filterStream :: (Monad m, ListLike s a, NullPoint s) => (a -> Bool) -> Enumeratee s s m r
- filterStreamM :: (Monad m, ListLike s a, Nullable s, NullPoint s) => (a -> m Bool) -> Enumeratee s s m r
- foldStream :: (Monad m, Nullable s, ListLike s a) => (b -> a -> b) -> b -> Iteratee s m b
- foldStreamM :: (Monad m, Nullable s, ListLike s a) => (b -> a -> m b) -> b -> Iteratee s m b
- zipStreams :: (Nullable s, ListLike s el, Monad m) => Iteratee s m a -> Iteratee s m b -> Iteratee s m (a, b)
- protectTerm :: (Nullable s, MonadIO m) => Iteratee s m a -> Iteratee s m a
- concatMapStream :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> t) -> Enumeratee s t m r
- concatMapStreamM :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> m t) -> Enumeratee s t m r
- mapMaybeStream :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> Maybe b) -> Enumeratee s t m r
- parMapChunksIO :: (MonadIO m, Nullable s) => Int -> (s -> IO t) -> Enumeratee s t m a
- progressNum :: (MonadIO m, Nullable s, NullPoint s, ListLike s a) => String -> (String -> IO ()) -> Enumeratee s s m b
- progressPos :: (MonadIO m, ListLike s a, NullPoint s) => (a -> (Refseq, Int)) -> String -> (String -> IO ()) -> Refs -> Enumeratee s s m b
- mapStream :: (ListLike (s el) el, ListLike (s el') el', NullPoint (s el), LooseMap s el el') => (el -> el') -> Enumeratee (s el) (s el') m a
- takeWhileE :: (ListLike s el, NullPoint s) => (el -> Bool) -> Enumeratee s s m a
- tryHead :: ListLike s el => Iteratee s m (Maybe el)
- isFinished :: Nullable s => Iteratee s m Bool
- heads :: (Monad m, Nullable s, ListLike s el, Eq el) => s -> Iteratee s m Int
- breakE :: (ListLike s el, NullPoint s) => (el -> Bool) -> Enumeratee s s m a
- ($==) :: Monad m => Enumerator' hdr input m (Iteratee output m result) -> Enumeratee input output m result -> Enumerator' hdr output m result
- mBind :: Monad m => m a -> (a -> Iteratee s m b) -> Iteratee s m b
- mBind_ :: Monad m => m a -> Iteratee s m b -> Iteratee s m b
- ioBind :: MonadIO m => IO a -> (a -> Iteratee s m b) -> Iteratee s m b
- ioBind_ :: MonadIO m => IO a -> Iteratee s m b -> Iteratee s m b
- class (FoldableLL full item, Monoid full) => ListLike full item | full -> item
- class Monad m => MonadIO m where
- class MonadCatch m => MonadMask m
- lift :: MonadTrans t => forall m a. Monad m => m a -> t m a
- liftIO :: MonadIO m => forall a. IO a -> m a
- (>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c
- (<=<) :: Monad m => (b -> m c) -> (a -> m b) -> a -> m c
- stdin :: Handle
- stdout :: Handle
- stderr :: Handle
- enumAuxFile :: (MonadIO m, MonadMask m) => FilePath -> Iteratee ByteString m a -> m a
- enumInputs :: (MonadIO m, MonadMask m) => [FilePath] -> Enumerator ByteString m a
- enumDefaultInputs :: (MonadIO m, MonadMask m) => Enumerator ByteString m a
- defaultBufSize :: Int
- data Ordering' a
- mergeSortStreams :: (Monad m, ListLike s a, Nullable s) => (a -> a -> Ordering' a) -> Enumeratee s s (Iteratee s m) b
- type Enumerator' h eo m b = (h -> Iteratee eo m b) -> m (Iteratee eo m b)
- type Enumeratee' h ei eo m b = (h -> Iteratee eo m b) -> Iteratee ei m (Iteratee eo m b)
- mergeEnums' :: (Nullable s2, Nullable s1, Monad m) => Enumerator' hi s1 m a -> Enumerator' ho s2 (Iteratee s1 m) a -> (ho -> Enumeratee s2 s1 (Iteratee s1 m) a) -> Enumerator' hi s1 m a
- data QQ a = QQ !Int [a] [a]
- emptyQ :: QQ a
- lengthQ :: QQ a -> Int
- pushQ :: a -> QQ a -> QQ a
- popQ :: QQ a -> Maybe (a, QQ a)
- cancelAll :: MonadIO m => QQ (Async a) -> m ()
- data ParseError = ParseError {
- errorContexts :: [String]
- errorMessage :: String
- parserToIteratee :: Monad m => Parser a -> Iteratee ByteString m a
- stream2vector :: (MonadIO m, ListLike s a, Nullable s, Vector v a) => Iteratee s m (v a)
- stream2vectorN :: (MonadIO m, ListLike s a, Nullable s, Vector v a) => Int -> Iteratee s m (v a)
- data Fd :: *
- withFileFd :: (MonadIO m, MonadMask m) => FilePath -> (Fd -> m a) -> m a
- module Data.Iteratee.Binary
- module Data.Iteratee.Char
- module Data.Iteratee.IO
- module Data.Iteratee.Iteratee
Documentation
groupStreamBy :: (Monad m, ListLike l t, NullPoint l, Nullable l) => (t -> t -> Bool) -> m (Iteratee l m t2) -> Enumeratee l [t2] m a Source
Grouping on Iteratee
s. groupStreamBy cmp inner outer
executes
inner
to obtain an Iteratee
i
, then passes elements e
to i
as long as cmp e0 e
, where e0
is some preceeding element, is
true. Else, the result of run i
is passed to outer
and
groupStreamBy
restarts. At end of input, the resulting outer
is
returned.
groupStreamOn :: (Monad m, ListLike l e, Eq t1, NullPoint l, Nullable l) => (e -> t1) -> (t1 -> m (Iteratee l m t2)) -> Enumeratee l [(t1, t2)] m a Source
Grouping on Iteratee
s. groupStreamOn proj inner outer
executes
inner (proj e)
, where e
is the first input element, to obtain an
Iteratee
i
, then passes elements e
to i
as long as proj e
produces the same result. If proj e
changes or the input ends, the
pair of proj e
and the result of run i
is passed to outer
. At
end of input, the resulting outer
is returned.
iGetString :: Monad m => Int -> Iteratee ByteString m ByteString Source
Collects a string of a given length. Don't use this for long
strings, use takeStream
instead.
iterLoop :: (Nullable s, Monad m) => (a -> Iteratee s m a) -> a -> Iteratee s m a Source
Repeatedly apply an Iteratee
to a value until end of stream.
Returns the final value.
iLookAhead :: Monoid s => Iteratee s m a -> Iteratee s m a Source
Run an Iteratee, collect the input. When it finishes, return the
result along with *all* input. Effectively allows lookahead. Be
careful, this will eat memory if the Iteratee
doesn't return
speedily.
headStream :: ListLike s el => Iteratee s m el Source
Take first element of a stream or fail.
peekStream :: ListLike s el => Iteratee s m (Maybe el) Source
takeStream :: (Monad m, Nullable s, ListLike s el) => Int -> Enumeratee s s m a Source
Take a prefix of a stream, the equivalent of take
.
mapStreamM :: (Monad m, ListLike (s el) el, ListLike (s el') el', NullPoint (s el), Nullable (s el), LooseMap s el el') => (el -> m el') -> Enumeratee (s el) (s el') m a Source
Map a monadic function over an Iteratee
.
mapStreamM_ :: (Monad m, Nullable s, ListLike s el) => (el -> m b) -> Iteratee s m () Source
Map a monadic function over an Iteratee
, discarding the results.
filterStream :: (Monad m, ListLike s a, NullPoint s) => (a -> Bool) -> Enumeratee s s m r Source
Apply a filter predicate to an Iteratee
.
filterStreamM :: (Monad m, ListLike s a, Nullable s, NullPoint s) => (a -> m Bool) -> Enumeratee s s m r Source
Apply a monadic filter predicate to an Iteratee
.
foldStream :: (Monad m, Nullable s, ListLike s a) => (b -> a -> b) -> b -> Iteratee s m b Source
Fold a function over an Iteratee
.
foldStreamM :: (Monad m, Nullable s, ListLike s a) => (b -> a -> m b) -> b -> Iteratee s m b Source
Fold a monadic function over an Iteratee
.
zipStreams :: (Nullable s, ListLike s el, Monad m) => Iteratee s m a -> Iteratee s m b -> Iteratee s m (a, b) Source
Apply two Iteratee
s to the same stream.
concatMapStream :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> t) -> Enumeratee s t m r Source
Apply a function to the elements of a stream, concatenate the results into a stream. No giant intermediate list is produced.
concatMapStreamM :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> m t) -> Enumeratee s t m r Source
Apply a monadic function to the elements of a stream, concatenate the results into a stream. No giant intermediate list is produced.
mapMaybeStream :: (Monad m, ListLike s a, NullPoint s, ListLike t b) => (a -> Maybe b) -> Enumeratee s t m r Source
parMapChunksIO :: (MonadIO m, Nullable s) => Int -> (s -> IO t) -> Enumeratee s t m a Source
Parallel map of an IO action over the elements of a stream
This Enumeratee
applies an IO
action to every chunk of the input
stream. These IO
actions are run asynchronously in a limited
parallel way. Don't forget to evaluate
progressNum :: (MonadIO m, Nullable s, NullPoint s, ListLike s a) => String -> (String -> IO ()) -> Enumeratee s s m b Source
A simple progress indicator that prints the number of records.
progressPos :: (MonadIO m, ListLike s a, NullPoint s) => (a -> (Refseq, Int)) -> String -> (String -> IO ()) -> Refs -> Enumeratee s s m b Source
A simple progress indicator that prints a position.
mapStream :: (ListLike (s el) el, ListLike (s el') el', NullPoint (s el), LooseMap s el el') => (el -> el') -> Enumeratee (s el) (s el') m a
Map the stream: another iteratee transformer
Given the stream of elements of the type el
and the function (el->el')
,
build a nested stream of elements of the type el'
and apply the
given iteratee to it.
The analog of List.map
takeWhileE :: (ListLike s el, NullPoint s) => (el -> Bool) -> Enumeratee s s m a
Takes an element predicate and an iteratee, running the iteratee on all elements of the stream while the predicate is met.
This is preferred to takeWhile
.
tryHead :: ListLike s el => Iteratee s m (Maybe el)
Similar to head
, except it returns Nothing
if the stream
is terminated.
isFinished :: Nullable s => Iteratee s m Bool
Check if a stream has received EOF
.
heads :: (Monad m, Nullable s, ListLike s el, Eq el) => s -> Iteratee s m Int
Given a sequence of characters, attempt to match them against
the characters on the stream. Return the count of how many
characters matched. The matched characters are removed from the
stream.
For example, if the stream contains abd
, then (heads abc
)
will remove the characters ab
and return 2.
breakE :: (ListLike s el, NullPoint s) => (el -> Bool) -> Enumeratee s s m a
Takes an element predicate and an iteratee, running the iteratee on all elements of the stream until the predicate is met.
the following rule relates break
to breakE
break
pred === joinI
(breakE
pred stream2stream)
breakE
should be used in preference to break
whenever possible.
($==) :: Monad m => Enumerator' hdr input m (Iteratee output m result) -> Enumeratee input output m result -> Enumerator' hdr output m result infixl 1 Source
Compose an 'Enumerator\'' with an Enumeratee
, giving a new
'Enumerator\''.
mBind :: Monad m => m a -> (a -> Iteratee s m b) -> Iteratee s m b infixl 1 Source
Lifts a monadic action and combines it with a continuation.
mBind m f
is the same as lift m >>= f
, but does not require a
Nullable
constraint on the stream type.
mBind_ :: Monad m => m a -> Iteratee s m b -> Iteratee s m b infixl 1 Source
Lifts a monadic action, ignored the result and combines it with a
continuation. mBind_ m f
is the same as lift m >>= f
, but does
not require a Nullable
constraint on the stream type.
ioBind :: MonadIO m => IO a -> (a -> Iteratee s m b) -> Iteratee s m b infixl 1 Source
Lifts an IO action and combines it with a continuation.
ioBind m f
is the same as liftIO m >>= f
, but does not require a
Nullable
constraint on the stream type.
ioBind_ :: MonadIO m => IO a -> Iteratee s m b -> Iteratee s m b infixl 1 Source
Lifts an IO action, ignores its result, and combines it with a
continuation. ioBind_ m f
is the same as liftIO m >> f
, but does
not require a Nullable
constraint on the stream type.
class (FoldableLL full item, Monoid full) => ListLike full item | full -> item
The class implementing list-like functions.
It is worth noting that types such as Map
can be instances of
ListLike
. Due to their specific ways of operating, they may not behave
in the expected way in some cases. For instance, cons
may not increase
the size of a map if the key you have given is already in the map; it will
just replace the value already there.
Implementators must define at least:
- singleton
- head
- tail
- null or genericLength
ListLike [a] a |
class Monad m => MonadIO m where
Monads in which IO
computations may be embedded.
Any monad built by applying a sequence of monad transformers to the
IO
monad will be an instance of this class.
Instances should satisfy the following laws, which state that liftIO
is a transformer of monads:
MonadIO IO | |
MonadIO m => MonadIO (ListT m) | |
MonadIO m => MonadIO (MaybeT m) | |
MonadIO m => MonadIO (IdentityT m) | |
(MonadIO m, Nullable s, NullPoint s) => MonadIO (Iteratee s m) | |
MonadIO m => MonadIO (ContT r m) | |
MonadIO m => MonadIO (ReaderT r m) | |
MonadIO m => MonadIO (StateT s m) | |
MonadIO m => MonadIO (StateT s m) | |
MonadIO m => MonadIO (ExceptT e m) | |
(Error e, MonadIO m) => MonadIO (ErrorT e m) | |
(Monoid w, MonadIO m) => MonadIO (WriterT w m) | |
(Monoid w, MonadIO m) => MonadIO (WriterT w m) | |
(Monoid w, MonadIO m) => MonadIO (RWST r w s m) | |
(Monoid w, MonadIO m) => MonadIO (RWST r w s m) |
class MonadCatch m => MonadMask m
A class for monads which provide for the ability to account for all
possible exit points from a computation, and to mask asynchronous
exceptions. Continuation-based monads, and stacks such as ErrorT e IO
which provide for multiple failure modes, are invalid instances of this
class.
Note that this package does provide a MonadMask
instance for CatchT
.
This instance is only valid if the base monad provides no ability to
provide multiple exit. For example, IO
or Either
would be invalid base
monads, but Reader
or State
would be acceptable.
Instances should ensure that, in the following code:
f `finally` g
The action g
is called regardless of what occurs within f
, including
async exceptions.
MonadMask IO | |
MonadMask m => MonadMask (IdentityT m) | |
(MonadMask m, Nullable s, NullPoint s) => MonadMask (Iteratee s m) | |
MonadMask m => MonadMask (ReaderT r m) | |
MonadMask m => MonadMask (StateT s m) | |
MonadMask m => MonadMask (StateT s m) | |
(MonadMask m, Monoid w) => MonadMask (WriterT w m) | |
(MonadMask m, Monoid w) => MonadMask (WriterT w m) | |
(MonadMask m, Monoid w) => MonadMask (RWST r w s m) | |
(MonadMask m, Monoid w) => MonadMask (RWST r w s m) |
lift :: MonadTrans t => forall m a. Monad m => m a -> t m a
Lift a computation from the argument monad to the constructed monad.
(>=>) :: Monad m => (a -> m b) -> (b -> m c) -> a -> m c infixr 1
Left-to-right Kleisli composition of monads.
(<=<) :: Monad m => (b -> m c) -> (a -> m b) -> a -> m c infixr 1
Right-to-left Kleisli composition of monads. (
, with the arguments flipped>=>
)
enumAuxFile :: (MonadIO m, MonadMask m) => FilePath -> Iteratee ByteString m a -> m a Source
enumInputs :: (MonadIO m, MonadMask m) => [FilePath] -> Enumerator ByteString m a Source
enumDefaultInputs :: (MonadIO m, MonadMask m) => Enumerator ByteString m a Source
Default buffer size in elements. This is 1024 in Data.Iteratee, which is obviously too small. Since we want to merge many files, a read should take more time than a seek. This sets the sensible buffer size to more than about one MB.
mergeSortStreams :: (Monad m, ListLike s a, Nullable s) => (a -> a -> Ordering' a) -> Enumeratee s s (Iteratee s m) b Source
type Enumerator' h eo m b = (h -> Iteratee eo m b) -> m (Iteratee eo m b) Source
type Enumeratee' h ei eo m b = (h -> Iteratee eo m b) -> Iteratee ei m (Iteratee eo m b) Source
:: (Nullable s2, Nullable s1, Monad m) | |
=> Enumerator' hi s1 m a | inner enumerator |
-> Enumerator' ho s2 (Iteratee s1 m) a | outer enumerator |
-> (ho -> Enumeratee s2 s1 (Iteratee s1 m) a) | merging enumeratee |
-> Enumerator' hi s1 m a |
Merge two 'Enumerator\''s into one. The header provided by the inner 'Enumerator\'' is passed to the output iterator, the header provided by the outer 'Enumerator\'' is passed to the merging iteratee
XXX Something about those headers is unsatisfactory... there should be an unobtrusive way to combine headers.
data ParseError Source
ParseError | |
|
parserToIteratee :: Monad m => Parser a -> Iteratee ByteString m a Source
A function to convert attoparsec Parser
s into Iteratee
s.
stream2vector :: (MonadIO m, ListLike s a, Nullable s, Vector v a) => Iteratee s m (v a) Source
Reads the whole stream into a Vector
.
stream2vectorN :: (MonadIO m, ListLike s a, Nullable s, Vector v a) => Int -> Iteratee s m (v a) Source
Equivalent to joinI $ takeStream n $ stream2vector
, but more
efficient.
data Fd :: *
module Data.Iteratee.Binary
module Data.Iteratee.Char
module Data.Iteratee.IO
module Data.Iteratee.Iteratee