snap-core-0.9.4.1: Snap: A Haskell Web Framework (core interfaces and types)

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Snap.Iteratee

Contents

Description

Snap Framework type aliases and utilities for iteratees. Note that as a convenience, this module also exports everything from Data.Enumerator in the enumerator library.

Synopsis

Enumerators

enumBS :: Monad m => ByteString -> Enumerator ByteString m aSource

Enumerates a strict bytestring.

enumLBS :: Monad m => ByteString -> Enumerator ByteString m aSource

Enumerates a lazy bytestring.

enumBuilder :: Monad m => Builder -> Enumerator Builder m aSource

Enumerates a Builder.

Iteratee utilities

joinI' :: Monad m => Iteratee a m (Step a m b) -> Iteratee a m bSource

countBytes :: Monad m => forall a. Iteratee ByteString m a -> Iteratee ByteString m (a, Int64)Source

Wraps an Iteratee, counting the number of bytes consumed by it.

drop' :: Monad m => Int64 -> Iteratee ByteString m ()Source

Skip n elements of the stream, if there are that many

unsafeBufferIterateeWithBuffer :: ForeignPtr CChar -> Iteratee ByteString IO a -> Iteratee ByteString IO aSource

Buffers an iteratee, "unsafely". Here we use a fixed binary buffer which we'll re-use, meaning that if you hold on to any of the bytestring data passed into your iteratee (instead of, let's say, shoving it right out a socket) it'll get changed out from underneath you, breaking referential transparency. Use with caution!

This version accepts a buffer created by mkIterateeBuffer.

unsafeBufferIteratee :: Iteratee ByteString IO a -> IO (Iteratee ByteString IO a)Source

Buffers an iteratee, "unsafely". Here we use a fixed binary buffer which we'll re-use, meaning that if you hold on to any of the bytestring data passed into your iteratee (instead of, let's say, shoving it right out a socket) it'll get changed out from underneath you, breaking referential transparency. Use with caution!

drop :: Monad m => Int -> Iteratee ByteString m ()Source

Skip n elements of the stream, if there are that many

takeExactly :: Monad m => Int64 -> Enumeratee ByteString ByteString m aSource

Reads n bytes from a stream and applies the given iteratee to the stream of the read elements. Reads exactly n bytes, and if the stream is short propagates an error.

mapEnum :: Monad m => (aOut -> aIn) -> (aIn -> aOut) -> Enumerator aIn m a -> Enumerator aOut m aSource

mapIter :: Monad m => (aOut -> aIn) -> (aIn -> aOut) -> Iteratee aIn m a -> Iteratee aOut m aSource

killIfTooSlowSource

Arguments

:: MonadIO m 
=> m ()

action to bump timeout

-> Double

minimum data rate, in bytes per second

-> Int

minimum amount of time to let the iteratee run for

-> Iteratee ByteString m a

iteratee consumer to wrap

-> Iteratee ByteString m a 

Re-export types and functions from Data.Enumerator

data Stream a

A Stream is a sequence of chunks generated by an Enumerator.

(Chunks []) is used to indicate that a stream is still active, but currently has no available data. Iteratees should ignore empty chunks.

Constructors

Chunks [a] 
EOF 

Instances

Monad Stream 
Functor Stream 
Typeable1 Stream

Since: 0.4.8

Applicative Stream

Since: 0.4.5

Eq a => Eq (Stream a) 
Show a => Show (Stream a) 
Monoid (Stream a) 

data Step a m b

Constructors

Continue (Stream a -> Iteratee a m b)

The Iteratee is capable of accepting more input. Note that more input is not necessarily required; the Iteratee might be able to generate a value immediately if it receives EOF.

Yield b (Stream a)

The Iteratee cannot receive any more input, and has generated a result. Included in this value is left-over input, which can be passed to composed Iteratees.

Error SomeException

The Iteratee encountered an error which prevents it from proceeding further.

Instances

(Typeable a, Typeable1 m) => Typeable1 (Step a m)

Since: 0.4.8

newtype Iteratee a m b

The primary data type for this library; an iteratee consumes chunks of input from a stream until it either yields a value or encounters an error.

Compatibility note: Iteratee will become abstract in enumerator_0.5. If you depend on internal implementation details, please import Data.Enumerator.Internal.

Constructors

Iteratee 

Fields

runIteratee :: m (Step a m b)
 

Instances

MonadTrans (Iteratee a) 
Monad m => Monad (Iteratee a m) 
Monad m => Functor (Iteratee a m) 
(Typeable a, Typeable1 m) => Typeable1 (Iteratee a m)

Since: 0.4.6

Monad m => Applicative (Iteratee a m) 
(Functor m, MonadCatchIO m) => MonadCatchIO (Iteratee s m) 
MonadIO m => MonadIO (Iteratee a m) 

type Enumerator a m b = Step a m b -> Iteratee a m b

Enumerators are sources of data, to be consumed by iteratees. Enumerators typically read from an external source (parser, handle, random generator, etc), then feed chunks into an tteratee until:

  • The input source runs out of data.
  • The iteratee yields a result value.
  • The iteratee throws an exception.

type Enumeratee ao ai m b = Step ai m b -> Iteratee ao m (Step ai m b)

An enumeratee acts as a stream adapter; place one between an enumerator and an iteratee, and it changes the type or contents of the input stream.

Most users will want to combine enumerators, enumeratees, and iteratees using the stream combinators joinI and joinE, or their operator aliases (=$) and ($=). These combinators are used to manage how left-over input is passed between elements of the data processing pipeline.

Primitives

Combinators

These are common patterns which occur whenever iteratees are being defined.

returnI :: Monad m => Step a m b -> Iteratee a m b

returnI step = Iteratee (return step)

yield :: Monad m => b -> Stream a -> Iteratee a m b

yield x extra = returnI (Yield x extra)

WARNING: due to the current encoding of iteratees in this library, careless use of the yield primitive may violate the monad laws. To prevent this, always make sure that an iteratee never yields extra data unless it has received at least one input element.

More strictly, iteratees may not yield data that they did not receive as input. Don't use yield to “inject” elements into the stream.

continue :: Monad m => (Stream a -> Iteratee a m b) -> Iteratee a m b

throwError :: (Monad m, Exception e) => e -> Iteratee a m b

The moral equivalent of throwIO for iteratees.

catchError :: Monad m => Iteratee a m b -> (SomeException -> Iteratee a m b) -> Iteratee a m b

Runs the iteratee, and calls an exception handler if an Error is returned. By handling errors within the enumerator library, and requiring all errors to be represented by SomeException, libraries with varying error types can be easily composed.

WARNING: Within the error handler, it is difficult or impossible to know how much input the original iteratee has consumed. Users are strongly advised to wrap all uses of catchError with an appropriate isolation enumeratee, such as Data.Enumerator.List.isolate or Data.Enumerator.Binary.isolate, which will handle input framing even in the face of unexpected errors.

Since: 0.1.1

liftI :: Monad m => (Stream a -> Step a m b) -> Iteratee a m b

Deprecated in 0.4.5: use continue instead

(>>==) :: Monad m => Iteratee a m b -> (Step a m b -> Iteratee a' m b') -> Iteratee a' m b'

The most primitive stream operator. iter >>== enum returns a new iteratee which will read from enum before continuing.

(==<<) :: Monad m => (Step a m b -> Iteratee a' m b') -> Iteratee a m b -> Iteratee a' m b'

(==<<) = flip (>>==)

($$) :: Monad m => (Step a m b -> Iteratee a' m b') -> Iteratee a m b -> Iteratee a' m b'

($$) = (==<<)

This is somewhat easier to read when constructing an iteratee from many processing stages. You can treat it like ($), and read the data flow from left to right.

Since: 0.1.1

(>==>) :: Monad m => Enumerator a m b -> (Step a m b -> Iteratee a' m b') -> Step a m b -> Iteratee a' m b'

(>==>) enum1 enum2 step = enum1 step >>== enum2

The moral equivalent of (>=>) for iteratees.

Since: 0.1.1

(<==<) :: Monad m => (Step a m b -> Iteratee a' m b') -> Enumerator a m b -> Step a m b -> Iteratee a' m b'

(<==<) = flip (>==>)

Since: 0.1.1

($=) :: Monad m => Enumerator ao m (Step ai m b) -> Enumeratee ao ai m b -> Enumerator ai m b

“Wraps” an enumerator inner in an enumeratee wrapper. The resulting enumerator will generate wrapper’s output type.

As an example, consider an enumerator that yields line character counts for a text file (e.g. for source code readability checking):

 enumFileCounts :: FilePath -> Enumerator Int IO b

It could be written with either joinE or ($=):

 import Data.Text as T
 import Data.Enumerator.List as EL
 import Data.Enumerator.Text as ET

 enumFileCounts path = joinE (enumFile path) (EL.map T.length)
 enumFileCounts path = enumFile path $= EL.map T.length

Compatibility note: in version 0.4.15, the associativity of ($=) was changed from infixr 0 to infixl 1.

Since: 0.4.9

(=$) :: Monad m => Enumeratee ao ai m b -> Iteratee ai m b -> Iteratee ao m b

“Wraps” an iteratee inner in an enumeratee wrapper. The resulting iteratee will consume wrapper’s input type and yield inner’s output type.

Note: if the inner iteratee yields leftover input when it finishes, that extra will be discarded.

As an example, consider an iteratee that converts a stream of UTF8-encoded bytes into a single Text:

 consumeUTF8 :: Monad m => Iteratee ByteString m Text

It could be written with either joinI or (=$):

 import Data.Enumerator.Text as ET

 consumeUTF8 = joinI (decode utf8 $$ ET.consume)
 consumeUTF8 = decode utf8 =$ ET.consume

Since: 0.4.9

Iteratees

run :: Monad m => Iteratee a m b -> m (Either SomeException b)

Run an iteratee until it finishes, and return either the final value (if it succeeded) or the error (if it failed).

 import Data.Enumerator
 import Data.Enumerator.List as EL

 main = do
     result <- run (EL.iterate succ 'A' $$ EL.take 5)
     case result of
         Left exc -> putStrLn ("Got an exception: " ++ show exc)
         Right chars -> putStrLn ("Got characters: " ++ show chars)

run_ :: Monad m => Iteratee a m b -> m b

Like run, except errors are converted to exceptions and thrown. Primarily useful for small scripts or other simple cases.

 import Data.Enumerator
 import Data.Enumerator.List as EL

 main = do
     chars <- run_ (EL.iterate succ 'A' $$ EL.take 5)
     putStrLn ("Got characters: " ++ show chars)

Since: 0.4.1

consume :: Monad m => Iteratee a m [a]

consume = takeWhile (const True)

Since: 0.4.5

isEOF :: Monad m => Iteratee a m Bool

Check whether a stream has reached EOF. Note that if the stream is not at EOF, isEOF may cause data to be read from the enumerator.

liftTrans :: (Monad m, MonadTrans t, Monad (t m)) => Iteratee a m b -> Iteratee a (t m) b

Lift an Iteratee onto a monad transformer, re-wrapping its inner monadic values.

Since: 0.1.1

liftFoldL :: Monad m => (b -> a -> b) -> b -> Iteratee a m b

Deprecated in 0.4.5: use fold instead

Since: 0.1.1

liftFoldL' :: Monad m => (b -> a -> b) -> b -> Iteratee a m b

Deprecated in 0.4.5: use fold instead

Since: 0.1.1

liftFoldM :: Monad m => (b -> a -> m b) -> b -> Iteratee a m b

Deprecated in 0.4.5: use foldM instead

Since: 0.1.1

printChunks

Arguments

:: (MonadIO m, Show a) 
=> Bool

Print empty chunks

-> Iteratee a m () 

Print chunks as they're received from the enumerator, optionally printing empty chunks.

head :: Monad m => Iteratee a m (Maybe a)

Get the next element from the stream, or Nothing if the stream has ended.

Since: 0.4.5

peek :: Monad m => Iteratee a m (Maybe a)

Peek at the next element in the stream, or Nothing if the stream has ended.

Enumerators

enumEOF :: Monad m => Enumerator a m b

Sends EOF to its iteratee. Most clients should use run or run_ instead.

enumList :: Monad m => Integer -> [a] -> Enumerator a m b

enumList n xs enumerates xs as a stream, passing n inputs per chunk. This is primarily useful for testing, debugging, and REPL exploration.

Compatibility note: In version 0.5, enumList will be changed to the type:

 enumList :: Monad m => [a] -> Enumerator a m b

concatEnums :: Monad m => [Enumerator a m b] -> Enumerator a m b

Compose a list of Enumerators using (>==>).

Enumeratees

checkDone :: Monad m => ((Stream a -> Iteratee a m b) -> Iteratee a' m (Step a m b)) -> Enumeratee a' a m b

checkDone = checkDoneEx (Chunks [])

Use this for enumeratees which do not have an input buffer.

map :: Monad m => (ao -> ai) -> Enumeratee ao ai m b

map f applies f to each input element and feeds the resulting outputs to the inner iteratee.

Since: 0.4.8

sequence :: Monad m => Iteratee ao m ai -> Enumeratee ao ai m b

Feeds outer input elements into the provided iteratee until it yields an inner input, passes that to the inner iteratee, and then loops.

joinI :: Monad m => Iteratee a m (Step a' m b) -> Iteratee a m b

“Wraps” an iteratee inner in an enumeratee wrapper. The resulting iteratee will consume wrapper’s input type and yield inner’s output type.

See the documentation for (=$).

joinI (enum $$ iter) = enum =$ iter