# Numeric Haskell: A Vector Tutorial

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− | = Quick Tour = |
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[http://hackage.haskell.org/package/vector Vector] is a Haskell library for working with arrays, with an emphasis on raw performance, whilst retaining a rich interface. The main data types are boxed and unboxed arrays, and arrays may be immutable (pure), or mutable. Arrays are indexed by non-negative <hask>Int</hask> values. |
[http://hackage.haskell.org/package/vector Vector] is a Haskell library for working with arrays, with an emphasis on raw performance, whilst retaining a rich interface. The main data types are boxed and unboxed arrays, and arrays may be immutable (pure), or mutable. Arrays are indexed by non-negative <hask>Int</hask> values. |
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The vector library has an API similar to the famous Haskell list library, with many of the same names. |
The vector library has an API similar to the famous Haskell list library, with many of the same names. |
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+ | This tutorial is modelled on [http://www.scipy.org/Tentative_NumPy_Tutorial the NumPy tutorial]. |
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__TOC__ |
__TOC__ |
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+ | |||

+ | = Quick Tour = |
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+ | |||

+ | Here is a quick overview to get you started. |
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== Importing the library == |
== Importing the library == |
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fromList [(0,0),(1,1),(2,2),(3,3),(4,4),(5,5),(6,6),(7,7),(8,8),(9,9),(10,10),(11,11)] :: Data.Vector.Vector |
fromList [(0,0),(1,1),(2,2),(3,3),(4,4),(5,5),(6,6),(7,7),(8,8),(9,9),(10,10),(11,11)] :: Data.Vector.Vector |
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</haskell> |
</haskell> |
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+ | == Indexing vectors == |
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And like all good arrays, you can index them in various ways: |
And like all good arrays, you can index them in various ways: |
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4 |
4 |
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</haskell> |
</haskell> |
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+ | == Array Types == |
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+ | === Boxed Arrays === |
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+ | === Unboxed Arrays === |
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+ | === Pure Arrays === |
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+ | === Impure Arrays === |
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+ | === Some examples === |
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+ | == Array Creation == |
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+ | == Basic Operations == |
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+ | == Indexing, Slicing and Iterating == |
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+ | == Bulk operations == |
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+ | == Stacking together different arrays == |
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+ | == Splitting one array into several smaller ones == |
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+ | == Copies and Views == |
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+ | == No Copy at All == |
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+ | == Indexing with Arrays of Indices == |
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+ | == Indexing with Boolean Arrays == |
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+ | == Permutations == |
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+ | == Randoms == |
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+ | == IO == |
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+ | == References == |

## Revision as of 05:07, 16 February 2010

Vector is a Haskell library for working with arrays, with an emphasis on raw performance, whilst retaining a rich interface. The main data types are boxed and unboxed arrays, and arrays may be immutable (pure), or mutable. Arrays are indexed by non-negativeThe vector library has an API similar to the famous Haskell list library, with many of the same names.

This tutorial is modelled on the NumPy tutorial.

# 1 Quick Tour

Here is a quick overview to get you started.

## 1.1 Importing the library

Download the vector package:

$ cabal install vector

and import it as, for boxed arrays:

import qualified Data.Vector as V

or:

import qualified Data.Vector.Unboxed as V

for unboxed arrays. The library needs to be imported qualified as it shares the same function names as list operations in the Prelude.

## 1.2 Generating Vectors

New vectors can be generated in many ways:

$ ghci GHCi, version 6.12.1: http://www.haskell.org/ghc/ :? for help Loading package ghc-prim ... linking ... done. Loading package integer-gmp ... linking ... done. Loading package base ... linking ... done. Loading package ffi-1.0 ... linking ... done. Prelude> :m + Data.Vector -- Generating a vector from a list: Prelude Data.Vector> let a = fromList [10, 20, 30, 40] Prelude Data.Vector> a fromList [10,20,30,40] :: Data.Vector.Vector -- Or filled from a sequence Prelude Data.Vector> enumFromStepN 10 10 4 fromList [10,20,30,40] :: Data.Vector.Vector -- A vector created from four consecutive values Prelude Data.Vector> enumFromN 10 4 fromList [10,11,12,13] :: Data.Vector.Vector

You can also build vectors using operations similar to lists:

-- The empty vector Prelude Data.Vector> empty fromList [] :: Data.Vector.Vector -- A vector of length one Prelude Data.Vector> singleton 2 fromList [2] :: Data.Vector.Vector -- A vector of length 10, filled with the value '2' -- Note that to disambiguate names, -- and avoid a clash with the Prelude, -- with use the full path to the Vector module Prelude Data.Vector> Data.Vector.replicate 10 2 fromList [2,2,2,2,2,2,2,2,2,2] :: Data.Vector.Vector

In general, you may construct new vectors by applying a function to the index space:

Prelude Data.Vector> generate 10 (^2) fromList [0,1,4,9,16,25,36,49,64,81] :: Data.Vector.Vector

Vectors may have more than one dimension:

-- Here we create a two dimensional vector, 10 columns, -- each row filled with the row index. Prelude Data.Vector> let x = generate 10 (\n -> Data.Vector.replicate 10 n) -- The type is "Vector of Vector of Ints" Prelude Data.Vector> :t x x :: Vector (Vector Int)

Vectors may be grown or shrunk arbitrarily:

Prelude Data.Vector> let y = Data.Vector.enumFromTo 0 11 Prelude Data.Vector> y fromList [0,1,2,3,4,5,6,7,8,9,10,11] :: Data.Vector.Vector -- Take the first 3 elements as a new vector Prelude Data.Vector> Data.Vector.take 3 y fromList [0,1,2] :: Data.Vector.Vector -- Duplicate and join the vector Prelude Data.Vector> y Data.Vector.++ y fromList [0,1,2,3,4,5,6,7,8,9,10,11,0,1,2,3,4,5,6,7,8,9,10,11] :: Data.Vector.Vector

## 1.3 Modifying vectors

Just as with lists, you can iterate (map) over arrays, reduce them (fold), filter them, or join them in various ways:

-- mapping a function over the elements of a vector Prelude Data.Vector> Data.Vector.map (^2) y fromList [0,1,4,9,16,25,36,49,64,81,100,121] :: Data.Vector.Vector -- Extract only the odd elements from a vector Prelude Data.Vector> Data.Vector.filter odd y fromList [1,3,5,7,9,11] :: Data.Vector.Vector -- Reduce a vector Prelude Data.Vector> Data.Vector.foldl (+) 0 y 66 -- Take a scan (partial results from a reduction): Prelude Data.Vector> Data.Vector.scanl (+) 0 y fromList [0,0,1,3,6,10,15,21,28,36,45,55,66] :: Data.Vector.Vector -- Zip two arrays pairwise, into an array of pairs Prelude Data.Vector> Data.Vector.zip y y fromList [(0,0),(1,1),(2,2),(3,3),(4,4),(5,5),(6,6),(7,7),(8,8),(9,9),(10,10),(11,11)] :: Data.Vector.Vector

## 1.4 Indexing vectors

And like all good arrays, you can index them in various ways:

-- Take the first element Prelude Data.Vector> Data.Vector.head y 0 -- Take the last element Prelude Data.Vector> Data.Vector.tail y fromList [1,2,3,4,5,6,7,8,9,10,11] :: Data.Vector.Vector -- Take an arbitrary element Prelude Data.Vector> y ! 4 4