Stability | experimental |
---|---|

Maintainer | Alexey Khudyakov <alexey.skladnoy@gmail.com> |

Safe Haskell | Safe-Infered |

Stateful and pure (still stateful under the hood) accumulators.

- class HistBuilder h where
- (<<-) :: HistBuilder h => h a b -> (a' -> a) -> h a' b
- (<<-|) :: (HistBuilder h, Foldable f) => h a b -> (a' -> f a) -> h a' b
- (<<?) :: HistBuilder h => h a b -> (a -> Bool) -> h a b
- (<<-$) :: HistBuilder h => h a b -> (h a b -> h a' b) -> h a' b
- (-<<) :: HistBuilder h => (b -> b') -> h a b -> h a b'
- data HBuilderM m a b
- feedOne :: PrimMonad m => HBuilderM m a b -> a -> m ()
- freezeHBuilderM :: PrimMonad m => HBuilderM m a b -> m b
- joinHBuilderM :: (Traversable f, PrimMonad m) => f (HBuilderM m a b) -> HBuilderM m a (f b)
- treeHBuilderM :: (PrimMonad m, Traversable f) => f (HBuilderM m a b -> HBuilderM m a' b') -> HBuilderM m a b -> HBuilderM m a' (f b')
- data HBuilder a b
- toHBuilderST :: HBuilder a b -> forall s. ST s (HBuilderM (ST s) a b)
- toHBuilderIO :: HBuilder a b -> IO (HBuilderM IO a b)
- joinHBuilder :: Traversable f => f (HBuilder a b) -> HBuilder a (f b)
- treeHBuilder :: Traversable f => f (HBuilder a b -> HBuilder a' b') -> HBuilder a b -> HBuilder a' (f b')
- module Data.Histogram.Bin
- mkSimple :: (Bin bin, Unbox val, Num val) => bin -> HBuilder (BinValue bin) (Histogram bin val)
- mkWeighted :: (Bin bin, Unbox val, Num val) => bin -> HBuilder (BinValue bin, val) (Histogram bin val)
- mkMonoidal :: (Bin bin, Unbox val, Monoid val) => bin -> HBuilder (BinValue bin, val) (Histogram bin val)
- mkFolder :: b -> (a -> b -> b) -> HBuilder a b
- mkSimpleG :: (Bin bin, Vector v val, Num val) => bin -> HBuilder (BinValue bin) (Histogram v bin val)
- mkWeightedG :: (Bin bin, Vector v val, Num val) => bin -> HBuilder (BinValue bin, val) (Histogram v bin val)
- mkMonoidalG :: (Bin bin, Vector v val, Monoid val) => bin -> HBuilder (BinValue bin, val) (Histogram v bin val)
- fillBuilder :: Foldable f => HBuilder a b -> f a -> b
- fillBuilderVec :: Vector v a => HBuilder a b -> v a -> b
- forceInt :: Histogram v bin Int -> Histogram v bin Int
- forceDouble :: Histogram v bin Double -> Histogram v bin Double
- forceFloat :: Histogram v bin Float -> Histogram v bin Float

# Builder type class

class HistBuilder h whereSource

Type class for stateful accumulators. In this module they are called builders. Every builder is parametrized by two types. First one is type of values which are fed to accumulator and second one is type of values which could be extracted from it.

Every instance of `HBuilder`

should be instance of `Functor`

too
and satisfy `fmap`

== `modifyOut`

.

modifyOut :: (b -> b') -> h a b -> h a b'Source

Apply function to output of histogram.

modifyIn :: (a' -> a) -> h a b -> h a' bSource

Change input of builder by applying function to it.

fromContainer :: Foldable f => h a b -> h (f a) bSource

Put all values in container into builder

addCut :: (a -> Bool) -> h a b -> h a bSource

Add cut to histogram. Value would be putted into histogram only if condition is true.

HistBuilder HBuilder | |

PrimMonad m => HistBuilder (HBuilderM m) |

## Operators

(<<-) :: HistBuilder h => h a b -> (a' -> a) -> h a' bSource

Modify input of builder

(<<-|) :: (HistBuilder h, Foldable f) => h a b -> (a' -> f a) -> h a' bSource

Modify input of builder to use composite input

(<<?) :: HistBuilder h => h a b -> (a -> Bool) -> h a bSource

Add cut for input

(<<-$) :: HistBuilder h => h a b -> (h a b -> h a' b) -> h a' bSource

Apply function which modify builder

(-<<) :: HistBuilder h => (b -> b') -> h a b -> h a b'Source

Modify output of histogram. In fact it's same as `<$>`

but have opposite fixity

# Histogram builders

## Stateful

Stateful histogram builder. There is no direct way to construct
such builder. Only way to do it is to create `HBuilder`

and use
`toHBuilderST`

or `toHBuilderIO`

.

It's useful when result should be extracted many times from the same accumulator.

freezeHBuilderM :: PrimMonad m => HBuilderM m a b -> m bSource

Create stateful histogram from instructions. Histograms could be filled either in the ST monad or with createHistograms

joinHBuilderM :: (Traversable f, PrimMonad m) => f (HBuilderM m a b) -> HBuilderM m a (f b)Source

Join histogram builders in container

treeHBuilderM :: (PrimMonad m, Traversable f) => f (HBuilderM m a b -> HBuilderM m a' b') -> HBuilderM m a b -> HBuilderM m a' (f b')Source

Apply functions to builder

## Stateless

Stateless histogram builder

HistBuilder HBuilder | |

Functor (HBuilder a) | |

Applicative (HBuilder a) | |

Monoid b => Monoid (HBuilder a b) |

toHBuilderST :: HBuilder a b -> forall s. ST s (HBuilderM (ST s) a b)Source

Convert builder to stateful builder in ST monad

joinHBuilder :: Traversable f => f (HBuilder a b) -> HBuilder a (f b)Source

Join hitogram builders in container.

treeHBuilder :: Traversable f => f (HBuilder a b -> HBuilder a' b') -> HBuilder a b -> HBuilder a' (f b')Source

Apply function to builder

# Histogram constructors

module Data.Histogram.Bin

mkSimple :: (Bin bin, Unbox val, Num val) => bin -> HBuilder (BinValue bin) (Histogram bin val)Source

Create builder. Bin content will be incremented by 1 for each item put into histogram

mkWeighted :: (Bin bin, Unbox val, Num val) => bin -> HBuilder (BinValue bin, val) (Histogram bin val)Source

Create builder. Bin content will incremented by weight supplied for each item put into histogram

mkMonoidal :: (Bin bin, Unbox val, Monoid val) => bin -> HBuilder (BinValue bin, val) (Histogram bin val)Source

Create builder. New value wil be mappended to current content of a bin for each item put into histogram

mkFolder :: b -> (a -> b -> b) -> HBuilder a bSource

Create histogram builder which just does ordinary pure fold. It is intended for use when some fold should be performed together with histogram filling

## Generic versions

mkSimpleG :: (Bin bin, Vector v val, Num val) => bin -> HBuilder (BinValue bin) (Histogram v bin val)Source

Create builder. Bin content will be incremented by 1 for each item put into histogram

mkWeightedG :: (Bin bin, Vector v val, Num val) => bin -> HBuilder (BinValue bin, val) (Histogram v bin val)Source

Create builder. Bin content will incremented by weight supplied for each item put into histogram

mkMonoidalG :: (Bin bin, Vector v val, Monoid val) => bin -> HBuilder (BinValue bin, val) (Histogram v bin val)Source

Create builder. New value wil be mappended to current content of a bin for each item put into histogram

# Fill histograms

fillBuilder :: Foldable f => HBuilder a b -> f a -> bSource

Fill histogram builder.

fillBuilderVec :: Vector v a => HBuilder a b -> v a -> bSource

Fill histogram builder.

# Auxillary functions

In some cases builder constructors do not constrain output type
enough. Output type is still parametric in value type of histogram.
Functions below are just `id`

function with more restrictive
signature.

In example below `forceInt`

used to fix type of histogram to
'Histogram BinI Int'. Without it compiler cannot infer type of
intermediate histogram.

show . forceInt -<< mkSimple (BinI 1 10)

# Examples

All examples will make use of operators to create builders. It's
possible to avoid their use but operators offer clear notation and
compose nicely in pipeline. Also note that data flows from right to
left as with `.`

operator.

First example just counts ints in in [0..4] inclusive range.
`fillBuilder`

is used to put all values into accumulator.

ghci> let h = forceInt -<< mkSimple (BinI 0 4) ghci> fillBuilder h [0,0,0,1,1,2,3,4,4,4] # Histogram # Underflows = 0 # Overflows = 0 # BinI # Low = 0 # High = 4 0 3 1 2 2 1 3 1 4 3

More involved example only accept even numbers. Filtering could be
achieved with either `addCut`

or `<<?`

operator.

forceInt -<< mkSimple (BinI 0 4) <<? even

Although for example above same result could be acheved by filtering of input it doesn't work when multiple histograms with different cuts are filled simultaneously.

Next example illustrate use of applicative interface. Here two histograms are filled at the same time. First accept only even numbers and second only odd ones. Results are put into the tuple.

(,) <$> (forceInt -<< mkSimple (BinI 0 4) <<? even) (forceInt -<< mkSimple (BinI 0 4) <<? odd)

Another approach is to use `joinHBuilder`

to simultaneously fill
list (or any other `Travesable`

).

joinHBuilder [ forceInt -<< mkSimple (BinI 0 4) <<? even , forceInt -<< mkSimple (BinI 0 4) <<? odd ]

If one wants to collect result from many histograms he can take an
advantage of `Monoid`

instance of `HBuilder`

. Example below
concatenates string outputs of individual histograms.

mconcat [ show . forceInt -<< mkSimple (BinI 0 4) <<? even , show . forceInt -<< mkSimple (BinI 0 4) <<? odd ]