Copyright | (c) Andy Gill 2001, (c) Oregon Graduate Institute of Science and Technology 2001, (c) Jeff Newbern 2003-2007, (c) Andriy Palamarchuk 2007 |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | libraries@haskell.org |
Stability | experimental |
Portability | non-portable (multi-param classes, functional dependencies) |
Safe Haskell | Safe |
Language | Haskell98 |
- Computation type:
- Computations which read values from a shared environment.
- Binding strategy:
- Monad values are functions from the environment to a value. The bound function is applied to the bound value, and both have access to the shared environment.
- Useful for:
- Maintaining variable bindings, or other shared environment.
- Zero and plus:
- None.
- Example type:
Reader
[(String,Value)] a
The Reader
monad (also called the Environment monad).
Represents a computation, which can read values from
a shared environment, pass values from function to function,
and execute sub-computations in a modified environment.
Using Reader
monad for such computations is often clearer and easier
than using the State
monad.
Inspired by the paper Functional Programming with Overloading and Higher-Order Polymorphism, Mark P Jones (http://web.cecs.pdx.edu/~mpj/) Advanced School of Functional Programming, 1995.
- class Monad m => MonadReader r m | m -> r where
- asks :: MonadReader r m => (r -> a) -> m a
- type Reader r = ReaderT r Identity
- runReader :: Reader r a -> r -> a
- mapReader :: (a -> b) -> Reader r a -> Reader r b
- withReader :: (r' -> r) -> Reader r a -> Reader r' a
- newtype ReaderT r m a :: * -> (* -> *) -> * -> * = ReaderT {
- runReaderT :: r -> m a
- runReaderT :: ReaderT r m a -> r -> m a
- mapReaderT :: (m a -> n b) -> ReaderT r m a -> ReaderT r n b
- withReaderT :: (r' -> r) -> ReaderT r m a -> ReaderT r' m a
- module Control.Monad
- module Control.Monad.Fix
- module Control.Monad.Trans
MonadReader class
class Monad m => MonadReader r m | m -> r where Source
See examples in Control.Monad.Reader.
Note, the partially applied function type (->) r
is a simple reader monad.
See the instance
declaration below.
Retrieves the monad environment.
:: (r -> r) | The function to modify the environment. |
-> m a |
|
-> m a |
Executes a computation in a modified environment.
:: (r -> a) | The selector function to apply to the environment. |
-> m a |
Retrieves a function of the current environment.
MonadReader r m => MonadReader r (MaybeT m) Source | |
MonadReader r m => MonadReader r (ListT m) Source | |
MonadReader r m => MonadReader r (IdentityT m) Source | |
MonadReader r ((->) r) Source | |
(Monoid w, MonadReader r m) => MonadReader r (WriterT w m) Source | |
(Monoid w, MonadReader r m) => MonadReader r (WriterT w m) Source | |
MonadReader r m => MonadReader r (StateT s m) Source | |
MonadReader r m => MonadReader r (StateT s m) Source | |
MonadReader r m => MonadReader r (ExceptT e m) Source | |
(Error e, MonadReader r m) => MonadReader r (ErrorT e m) Source | |
MonadReader r' m => MonadReader r' (ContT r m) Source | |
Monad m => MonadReader r (ReaderT r m) Source | |
(Monad m, Monoid w) => MonadReader r (RWST r w s m) Source | |
(Monad m, Monoid w) => MonadReader r (RWST r w s m) Source |
:: MonadReader r m | |
=> (r -> a) | The selector function to apply to the environment. |
-> m a |
Retrieves a function of the current environment.
The Reader monad
type Reader r = ReaderT r Identity
The parameterizable reader monad.
Computations are functions of a shared environment.
The return
function ignores the environment, while >>=
passes
the inherited environment to both subcomputations.
:: Reader r a | A |
-> r | An initial environment. |
-> a |
Runs a Reader
and extracts the final value from it.
(The inverse of reader
.)
:: (r' -> r) | The function to modify the environment. |
-> Reader r a | Computation to run in the modified environment. |
-> Reader r' a |
Execute a computation in a modified environment
(a specialization of withReaderT
).
runReader
(withReader
f m) =runReader
m . f
The ReaderT monad transformer
newtype ReaderT r m a :: * -> (* -> *) -> * -> *
The reader monad transformer, which adds a read-only environment to the given monad.
The return
function ignores the environment, while >>=
passes
the inherited environment to both subcomputations.
ReaderT | |
|
MonadWriter w m => MonadWriter w (ReaderT r m) Source | |
MonadState s m => MonadState s (ReaderT r m) Source | |
Monad m => MonadReader r (ReaderT r m) Source | |
MonadError e m => MonadError e (ReaderT r m) Source | |
MonadTrans (ReaderT r) | |
Monad m => Monad (ReaderT r m) | |
Functor m => Functor (ReaderT r m) | |
MonadFix m => MonadFix (ReaderT r m) | |
Applicative m => Applicative (ReaderT r m) | |
Alternative m => Alternative (ReaderT r m) | |
MonadPlus m => MonadPlus (ReaderT r m) | |
MonadIO m => MonadIO (ReaderT r m) | |
MonadCont m => MonadCont (ReaderT r m) Source |
runReaderT :: ReaderT r m a -> r -> m a
mapReaderT :: (m a -> n b) -> ReaderT r m a -> ReaderT r n b
Transform the computation inside a ReaderT
.
runReaderT
(mapReaderT
f m) = f .runReaderT
m
:: forall (m :: * -> *). (r' -> r) | The function to modify the environment. |
-> ReaderT r m a | Computation to run in the modified environment. |
-> ReaderT r' m a |
Execute a computation in a modified environment
(a more general version of local
).
runReaderT
(withReaderT
f m) =runReaderT
m . f
module Control.Monad
module Control.Monad.Fix
module Control.Monad.Trans
Example 1: Simple Reader Usage
In this example the Reader
monad provides access to variable bindings.
Bindings are a Map
of integer variables.
The variable count
contains number of variables in the bindings.
You can see how to run a Reader monad and retrieve data from it
with runReader
, how to access the Reader data with ask
and asks
.
type Bindings = Map String Int; -- Returns True if the "count" variable contains correct bindings size. isCountCorrect :: Bindings -> Bool isCountCorrect bindings = runReader calc_isCountCorrect bindings -- The Reader monad, which implements this complicated check. calc_isCountCorrect :: Reader Bindings Bool calc_isCountCorrect = do count <- asks (lookupVar "count") bindings <- ask return (count == (Map.size bindings)) -- The selector function to use with 'asks'. -- Returns value of the variable with specified name. lookupVar :: String -> Bindings -> Int lookupVar name bindings = fromJust (Map.lookup name bindings) sampleBindings = Map.fromList [("count",3), ("1",1), ("b",2)] main = do putStr $ "Count is correct for bindings " ++ (show sampleBindings) ++ ": "; putStrLn $ show (isCountCorrect sampleBindings);
Example 2: Modifying Reader Content With local
Shows how to modify Reader content with local
.
calculateContentLen :: Reader String Int calculateContentLen = do content <- ask return (length content); -- Calls calculateContentLen after adding a prefix to the Reader content. calculateModifiedContentLen :: Reader String Int calculateModifiedContentLen = local ("Prefix " ++) calculateContentLen main = do let s = "12345"; let modifiedLen = runReader calculateModifiedContentLen s let len = runReader calculateContentLen s putStrLn $ "Modified 's' length: " ++ (show modifiedLen) putStrLn $ "Original 's' length: " ++ (show len)
Example 3: ReaderT
Monad Transformer
Now you are thinking: 'Wow, what a great monad! I wish I could use
Reader functionality in MyFavoriteComplexMonad!'. Don't worry.
This can be easy done with the ReaderT
monad transformer.
This example shows how to combine ReaderT
with the IO monad.
-- The Reader/IO combined monad, where Reader stores a string. printReaderContent :: ReaderT String IO () printReaderContent = do content <- ask liftIO $ putStrLn ("The Reader Content: " ++ content) main = do runReaderT printReaderContent "Some Content"