haskell98-1.0.1.1: Compatibility with Haskell 98Source codeContentsIndex
Random
Synopsis
class RandomGen g where
next :: g -> (Int, g)
split :: g -> (g, g)
genRange :: g -> (Int, Int)
data StdGen
mkStdGen :: Int -> StdGen
class Random a where
randomR :: RandomGen g => (a, a) -> g -> (a, g)
random :: RandomGen g => g -> (a, g)
randomRs :: RandomGen g => (a, a) -> g -> [a]
randoms :: RandomGen g => g -> [a]
randomRIO :: (a, a) -> IO a
randomIO :: IO a
getStdRandom :: (StdGen -> (a, StdGen)) -> IO a
getStdGen :: IO StdGen
setStdGen :: StdGen -> IO ()
newStdGen :: IO StdGen
Documentation
class RandomGen g whereSource

The class RandomGen provides a common interface to random number generators.

Minimal complete definition: next and split.

Methods
next :: g -> (Int, g)Source
The next operation returns an Int that is uniformly distributed in the range returned by genRange (including both end points), and a new generator.
split :: g -> (g, g)Source
The split operation allows one to obtain two distinct random number generators. This is very useful in functional programs (for example, when passing a random number generator down to recursive calls), but very little work has been done on statistically robust implementations of split ([System.Random, System.Random] are the only examples we know of).
genRange :: g -> (Int, Int)Source

The genRange operation yields the range of values returned by the generator.

It is required that:

The second condition ensures that genRange cannot examine its argument, and hence the value it returns can be determined only by the instance of RandomGen. That in turn allows an implementation to make a single call to genRange to establish a generator's range, without being concerned that the generator returned by (say) next might have a different range to the generator passed to next.

The default definition spans the full range of Int.

show/hide Instances
data StdGen Source

The StdGen instance of RandomGen has a genRange of at least 30 bits.

The result of repeatedly using next should be at least as statistically robust as the Minimal Standard Random Number Generator described by [System.Random, System.Random]. Until more is known about implementations of split, all we require is that split deliver generators that are (a) not identical and (b) independently robust in the sense just given.

The Show and Read instances of StdGen provide a primitive way to save the state of a random number generator. It is required that read (show g) == g.

In addition, read may be used to map an arbitrary string (not necessarily one produced by show) onto a value of type StdGen. In general, the read instance of StdGen has the following properties:

  • It guarantees to succeed on any string.
  • It guarantees to consume only a finite portion of the string.
  • Different argument strings are likely to result in different results.
show/hide Instances
mkStdGen :: Int -> StdGenSource
The function mkStdGen provides an alternative way of producing an initial generator, by mapping an Int into a generator. Again, distinct arguments should be likely to produce distinct generators.
class Random a whereSource

With a source of random number supply in hand, the Random class allows the programmer to extract random values of a variety of types.

Minimal complete definition: randomR and random.

Methods
randomR :: RandomGen g => (a, a) -> g -> (a, g)Source
Takes a range (lo,hi) and a random number generator g, and returns a random value uniformly distributed in the closed interval [lo,hi], together with a new generator. It is unspecified what happens if lo>hi. For continuous types there is no requirement that the values lo and hi are ever produced, but they may be, depending on the implementation and the interval.
random :: RandomGen g => g -> (a, g)Source

The same as randomR, but using a default range determined by the type:

  • For bounded types (instances of Bounded, such as Char), the range is normally the whole type.
  • For fractional types, the range is normally the semi-closed interval [0,1).
  • For Integer, the range is (arbitrarily) the range of Int.
randomRs :: RandomGen g => (a, a) -> g -> [a]Source
Plural variant of randomR, producing an infinite list of random values instead of returning a new generator.
randoms :: RandomGen g => g -> [a]Source
Plural variant of random, producing an infinite list of random values instead of returning a new generator.
randomRIO :: (a, a) -> IO aSource
A variant of randomR that uses the global random number generator (see System.Random).
randomIO :: IO aSource
A variant of random that uses the global random number generator (see System.Random).
show/hide Instances
getStdRandom :: (StdGen -> (a, StdGen)) -> IO aSource

Uses the supplied function to get a value from the current global random generator, and updates the global generator with the new generator returned by the function. For example, rollDice gets a random integer between 1 and 6:

rollDice :: IO Int rollDice = getStdRandom (randomR (1,6))
getStdGen :: IO StdGenSource
Gets the global random number generator.
setStdGen :: StdGen -> IO ()Source
Sets the global random number generator.
newStdGen :: IO StdGenSource
Applies split to the current global random generator, updates it with one of the results, and returns the other.
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