clash-lib-1.4.5: Clash: a functional hardware description language - As a library
Copyright(C) 2015-2016 University of Twente
2016 Myrtle Software Ltd
LicenseBSD2 (see the file LICENSE)
MaintainerChristiaan Baaij <christiaan.baaij@gmail.com>
Safe HaskellNone
LanguageHaskell2010

Clash.Normalize.PrimitiveReductions

Description

Reductions of primitives

Currently, it contains reductions for:

  • Clash.Sized.Vector.map
  • Clash.Sized.Vector.zipWith
  • Clash.Sized.Vector.traverse#
  • Clash.Sized.Vector.foldr
  • Clash.Sized.Vector.fold
  • Clash.Sized.Vector.dfold
  • Clash.Sized.Vector.(++)
  • Clash.Sized.Vector.head
  • Clash.Sized.Vector.tail
  • Clash.Sized.Vector.unconcatBitVector#
  • Clash.Sized.Vector.replicate
  • Clash.Sized.Vector.imap
  • Clash.Sized.Vector.dtfold
  • Clash.Sized.RTree.tfold
  • Clash.Sized.Vector.reverse
  • Clash.Sized.Vector.unconcat

Partially handles:

  • Clash.Sized.Vector.transpose
Synopsis

Documentation

vecHeadPrim Source #

Arguments

:: TyConName

Vec TyCon name

-> Term 

vecLastPrim Source #

Arguments

:: TyConName

Vec TyCon name

-> Term 

vecHeadTy Source #

Arguments

:: TyConName

Vec TyCon name

-> Type 

vecTailPrim Source #

Arguments

:: TyConName

Vec TyCon name

-> Term 

vecInitPrim Source #

Arguments

:: TyConName

Vec TyCon name

-> Term 

vecTailTy Source #

Arguments

:: TyConName

Vec TyCon name

-> Type 

extractHeadTail Source #

Arguments

:: DataCon

The Cons (:>) constructor

-> Type

Element type

-> Integer

Length of the vector

-> Term

Vector to extract head from

-> (Term, Term)

(head of vector, tail of vector)

Makes two case statements: the first one extract the _head_ from the given vector, the latter the tail.

extractHead Source #

Arguments

:: DataCon

The Cons (:>) constructor

-> Type

Element type

-> Integer

Length of the vector

-> Term

Vector to extract head from

-> Term

Head of vector

extractTail Source #

Arguments

:: DataCon

The Cons (:>) constructor

-> Type

Element type

-> Integer

Length of the vector

-> Term

Vector to extract head from

-> Term

Tail of vector

mkVecCons Source #

Arguments

:: HasCallStack 
=> DataCon

The Cons (:>) constructor

-> Type

Element type

-> Integer

Length of the vector

-> Term

head of the vector

-> Term

tail of the vector

-> Term 

Create a vector of supplied elements

mkVecNil Source #

Arguments

:: DataCon

The Nil constructor

-> Type

The element type

-> Term 

Create an empty vector

reduceReverse Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element of type of the vector

-> Term

The vector to reverse

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.reverse primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.reverse

reduceZipWith Source #

Arguments

:: TransformContext 
-> PrimInfo

zipWith primitive info

-> Integer

Length of the vector(s)

-> Type

Element type of the lhs of the function

-> Type

Element type of the rhs of the function

-> Type

Element type of the result of the function

-> Term

The zipWith'd functions

-> Term

The 1st vector argument

-> Term

The 2nd vector argument

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.zipWith primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.zipWith

reduceMap Source #

Arguments

:: TransformContext 
-> PrimInfo

map primitive info

-> Integer

Length of the vector

-> Type

Argument type of the function

-> Type

Result type of the function

-> Term

The map'd function

-> Term

The map'd over vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.map primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.map

reduceImap Source #

Arguments

:: TransformContext 
-> Integer

Length of the vector

-> Type

Argument type of the function

-> Type

Result type of the function

-> Term

The imap'd function

-> Term

The imap'd over vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.imap primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.imap

reduceIterateI Source #

Arguments

:: TransformContext 
-> Integer

Length of vector

-> Type

Vector's element type

-> Type

Vector's type

-> Term

iterateI's HO-function argument

-> Term

iterateI's start value

-> RewriteMonad NormalizeState Term

Fully unrolled definition

Replace an application of the Clash.Sized.Vector.iterateI primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.iterateI

reduceTraverse Source #

Arguments

:: TransformContext 
-> Integer

Length of the vector

-> Type

Element type of the argument vector

-> Type

The type of the applicative

-> Type

Element type of the result vector

-> Term

The Applicative dictionary

-> Term

The function to traverse with

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.traverse# primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.traverse#

mkTravVec Source #

Arguments

:: TyConName

Vec tcon

-> DataCon

Nil con

-> DataCon

Cons con

-> Term

pure term

-> Term

<*> term

-> Term

fmap term

-> Type

b ty

-> Integer

Length of the vector

-> [Term]

Elements of the vector

-> Term 

Create the traversable vector

e.g. for a length '2' input vector, we get

(:>) <$> x0 <*> ((:>) <$> x1 <*> pure Nil)

reduceFoldr Source #

Arguments

:: TransformContext 
-> PrimInfo

Primitive info for foldr blackbox

-> Integer

Length of the vector

-> Type

Element type of the argument vector

-> Term

The function to fold with

-> Term

The starting value

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.foldr primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.foldr

reduceFold Source #

Arguments

:: TransformContext 
-> Integer

Length of the vector

-> Type

Element type of the argument vector

-> Term

The function to fold with

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.fold primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.fold

reduceDFold Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element type of the argument vector

-> Term

Function to fold with

-> Term

Starting value

-> Term

The vector to fold

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.dfold primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.dfold

reduceHead Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element type of the vector

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.head primitive on vectors of a known length n, by a projection of the first element of a vector.

reduceTail Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element type of the vector

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.tail primitive on vectors of a known length n, by a projection of the tail of a vector.

reduceLast Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element type of the vector

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.last primitive on vectors of a known length n, by a projection of the last element of a vector.

reduceInit Source #

Arguments

:: InScopeSet 
-> PrimInfo

Primitive info for init

-> Integer

Length of the vector

-> Type

Element type of the vector

-> Term

The argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.init primitive on vectors of a known length n, by a projection of the init of a vector.

reduceAppend Source #

Arguments

:: InScopeSet 
-> Integer

Length of the LHS arg

-> Integer

Lenght of the RHS arg

-> Type

Element type of the vectors

-> Term

The LHS argument

-> Term

The RHS argument

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.(++) primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.(++)

reduceUnconcat Source #

Arguments

:: InScopeSet 
-> PrimInfo

Unconcat primitive info

-> Integer

Length of the result vector

-> Integer

Length of the elements of the result vector

-> Type

Element type

-> Term

SNat "Length of the elements of the result vector"

-> Term

Argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.unconcat primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.unconcat

reduceTranspose Source #

Arguments

:: Integer

Length of the result vector

-> Integer

Length of the elements of the result vector

-> Type

Element type

-> Term

Argument vector

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.transpose primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.transpose

reduceReplace_int Source #

Arguments

:: InScopeSet 
-> Integer

Size of vector

-> Type

Type of vector element

-> Type

Type of vector

-> Term

Vector

-> Term

Index

-> Term

Element

-> NormalizeSession Term 

reduceIndex_int Source #

Arguments

:: InScopeSet 
-> Integer

Size of vector

-> Type

Type of vector element

-> Term

Vector

-> Term

Index

-> NormalizeSession Term 

reduceDTFold Source #

Arguments

:: InScopeSet 
-> Integer

Length of the vector

-> Type

Element type of the argument vector

-> Term

Function to convert elements with

-> Term

Function to combine branches with

-> Term

The vector to fold

-> NormalizeSession Term 

Replace an application of the Clash.Sized.Vector.dtfold primitive on vectors of a known length n, by the fully unrolled recursive "definition" of Clash.Sized.Vector.dtfold

reduceTFold Source #

Arguments

:: InScopeSet 
-> Integer

Depth of the tree

-> Type

Element type of the argument tree

-> Term

Function to convert elements with

-> Term

Function to combine branches with

-> Term

The tree to fold

-> NormalizeSession Term 

Replace an application of the Clash.Sized.RTree.tdfold primitive on trees of a known depth n, by the fully unrolled recursive "definition" of Clash.Sized.RTree.tdfold

reduceTReplicate Source #

Arguments

:: Integer

Depth of the tree

-> Type

Element type

-> Type

Result type

-> Term

Element

-> NormalizeSession Term