repa-3.4.1.3: High performance, regular, shape polymorphic parallel arrays.

Safe HaskellSafe
LanguageHaskell98

Data.Array.Repa.Shape

Description

Class of types that can be used as array shapes and indices.

Synopsis

Documentation

class Eq sh => Shape sh where Source #

Class of types that can be used as array shapes and indices.

Methods

rank :: sh -> Int Source #

Get the number of dimensions in a shape.

zeroDim :: sh Source #

The shape of an array of size zero, with a particular dimensionality.

unitDim :: sh Source #

The shape of an array with size one, with a particular dimensionality.

intersectDim :: sh -> sh -> sh Source #

Compute the intersection of two shapes.

addDim :: sh -> sh -> sh Source #

Add the coordinates of two shapes componentwise

size :: sh -> Int Source #

Get the total number of elements in an array with this shape.

sizeIsValid :: sh -> Bool Source #

Check whether this shape is small enough so that its flat indices an be represented as Int. If this returns False then your array is too big. Mostly used for writing QuickCheck tests.

toIndex :: sh -> sh -> Int Source #

Convert an index into its equivalent flat, linear, row-major version.

fromIndex :: sh -> Int -> sh Source #

Inverse of toIndex.

inShapeRange :: sh -> sh -> sh -> Bool Source #

Check whether an index is within a given shape.

listOfShape :: sh -> [Int] Source #

Convert a shape into its list of dimensions.

shapeOfList :: [Int] -> sh Source #

Convert a list of dimensions to a shape

deepSeq :: sh -> a -> a infixr 0 Source #

Ensure that a shape is completely evaluated.

Instances

Shape Z Source # 
Shape sh => Shape ((:.) sh Int) Source # 

Methods

rank :: (sh :. Int) -> Int Source #

zeroDim :: sh :. Int Source #

unitDim :: sh :. Int Source #

intersectDim :: (sh :. Int) -> (sh :. Int) -> sh :. Int Source #

addDim :: (sh :. Int) -> (sh :. Int) -> sh :. Int Source #

size :: (sh :. Int) -> Int Source #

sizeIsValid :: (sh :. Int) -> Bool Source #

toIndex :: (sh :. Int) -> (sh :. Int) -> Int Source #

fromIndex :: (sh :. Int) -> Int -> sh :. Int Source #

inShapeRange :: (sh :. Int) -> (sh :. Int) -> (sh :. Int) -> Bool Source #

listOfShape :: (sh :. Int) -> [Int] Source #

shapeOfList :: [Int] -> sh :. Int Source #

deepSeq :: (sh :. Int) -> a -> a Source #

inShape Source #

Arguments

:: Shape sh 
=> sh

Shape of the array.

-> sh

Index.

-> Bool 

Check whether an index is a part of a given shape.

showShape :: Shape sh => sh -> String Source #

Nicely format a shape as a string