futhark-0.25.22: An optimising compiler for a functional, array-oriented language.
Safe HaskellSafe-Inferred
LanguageGHC2021

Futhark.IR.MC

Description

A representation for multicore CPU parallelism.

Synopsis

Documentation

data MC Source #

Instances

Instances details
Analyse MC Source # 
Instance details

Defined in Futhark.Analysis.AccessPattern

Methods

analyseOp :: Op MC -> Context MC -> [VName] -> (Context MC, IndexTable MC)

PrimExpAnalysis MC Source # 
Instance details

Defined in Futhark.Analysis.PrimExp.Table

BuilderOps MC Source # 
Instance details

Defined in Futhark.IR.MC

Methods

mkExpDecB :: (MonadBuilder m, Rep m ~ MC) => Pat (LetDec MC) -> Exp MC -> m (ExpDec MC) Source #

mkBodyB :: (MonadBuilder m, Rep m ~ MC) => Stms MC -> Result -> m (Body MC) Source #

mkLetNamesB :: (MonadBuilder m, Rep m ~ MC) => [VName] -> Exp MC -> m (Stm MC) Source #

Buildable MC Source # 
Instance details

Defined in Futhark.IR.MC

PrettyRep MC Source # 
Instance details

Defined in Futhark.IR.MC

Methods

ppExpDec :: ExpDec MC -> Exp MC -> Maybe (Doc a) Source #

ASTRep MC Source # 
Instance details

Defined in Futhark.IR.MC

RepTypes MC Source # 
Instance details

Defined in Futhark.IR.MC

HasSegOp MC Source # 
Instance details

Defined in Futhark.IR.MC

Associated Types

type SegOpLevel MC Source #

Checkable MC Source # 
Instance details

Defined in Futhark.IR.MC

Transform MC Source # 
Instance details

Defined in Futhark.Optimise.ArrayLayout.Transform

Methods

onOp :: Monad m => SOACMapper MC MC m -> Op MC -> m (Op MC)

transformOp :: LayoutTable -> ExpMap MC -> Stm MC -> Op MC -> TransformM MC (LayoutTable, ExpMap MC)

Layout MC Source # 
Instance details

Defined in Futhark.Optimise.ArrayLayout.Layout

BuilderOps (Wise MC) Source # 
Instance details

Defined in Futhark.IR.MC

Methods

mkExpDecB :: (MonadBuilder m, Rep m ~ Wise MC) => Pat (LetDec (Wise MC)) -> Exp (Wise MC) -> m (ExpDec (Wise MC)) Source #

mkBodyB :: (MonadBuilder m, Rep m ~ Wise MC) => Stms (Wise MC) -> Result -> m (Body (Wise MC)) Source #

mkLetNamesB :: (MonadBuilder m, Rep m ~ Wise MC) => [VName] -> Exp (Wise MC) -> m (Stm (Wise MC)) Source #

HasSegOp (Wise MC) Source # 
Instance details

Defined in Futhark.IR.MC

Associated Types

type SegOpLevel (Wise MC) Source #

TraverseOpStms (Wise MC) Source # 
Instance details

Defined in Futhark.IR.MC

type BodyDec MC Source # 
Instance details

Defined in Futhark.IR.MC

type BodyDec MC = ()
type BranchType MC Source # 
Instance details

Defined in Futhark.IR.MC

type ExpDec MC Source # 
Instance details

Defined in Futhark.IR.MC

type ExpDec MC = ()
type FParamInfo MC Source # 
Instance details

Defined in Futhark.IR.MC

type LParamInfo MC Source # 
Instance details

Defined in Futhark.IR.MC

type LetDec MC Source # 
Instance details

Defined in Futhark.IR.MC

type LetDec MC = Type
type OpC MC Source # 
Instance details

Defined in Futhark.IR.MC

type OpC MC = MCOp SOAC
type RetType MC Source # 
Instance details

Defined in Futhark.IR.MC

type SegOpLevel MC Source # 
Instance details

Defined in Futhark.IR.MC

type SegOpLevel MC = ()
type SegOpLevel (Wise MC) Source # 
Instance details

Defined in Futhark.IR.MC

type SegOpLevel (Wise MC) = ()

Simplification

Module re-exports

data Scan rep Source #

How to compute a single scan result.

Constructors

Scan 

Fields

Instances

Instances details
RepTypes rep => Show (Scan rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

showsPrec :: Int -> Scan rep -> ShowS #

show :: Scan rep -> String #

showList :: [Scan rep] -> ShowS #

ASTRep rep => FreeIn (Scan rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

freeIn' :: Scan rep -> FV Source #

RepTypes rep => Eq (Scan rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

(==) :: Scan rep -> Scan rep -> Bool #

(/=) :: Scan rep -> Scan rep -> Bool #

RepTypes rep => Ord (Scan rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

compare :: Scan rep -> Scan rep -> Ordering #

(<) :: Scan rep -> Scan rep -> Bool #

(<=) :: Scan rep -> Scan rep -> Bool #

(>) :: Scan rep -> Scan rep -> Bool #

(>=) :: Scan rep -> Scan rep -> Bool #

max :: Scan rep -> Scan rep -> Scan rep #

min :: Scan rep -> Scan rep -> Scan rep #

PrettyRep rep => Pretty (Scan rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

pretty :: Scan rep -> Doc ann #

prettyList :: [Scan rep] -> Doc ann #

data SOAC rep Source #

A second-order array combinator (SOAC).

Constructors

Stream SubExp [VName] [SubExp] (Lambda rep) 
Scatter SubExp [VName] (ScatterSpec VName) (Lambda rep)
Scatter length inputs lambda spec

Scatter maps values from a set of input arrays to indices and values of a set of output arrays. It is able to write multiple values to multiple outputs each of which may have multiple dimensions.

inputs is a list of input arrays, all having size length, elements of which are applied to the lambda function. For instance, if there are two arrays, lambda will get two values as input, one from each array.

spec specifies the result of the lambda and which arrays to write to.

lambda is a function that takes inputs from inputs and returns values according to spec. It returns values in the following manner:

index_0, index_1, ..., index_n, value_0, value_1, ..., value_m

For each output in spec, lambda returns i * j index values and j output values, where i is the number of dimensions (rank) of the given output, and j is the number of output values written to the given output.

For example, given the following scatter specification:

([x1, y1, z1
, 2, arr1), ([x2, y2], 1, arr2)]

lambda will produce 6 (3 * 2) index values and 2 output values for arr1, and 2 (2 * 1) index values and 1 output value for arr2. Additionally, the results are grouped, so the first 6 index values will correspond to the first two output values, and so on. For this example, lambda should return a total of 11 values, 8 index values and 3 output values. See also splitScatterResults.

Hist SubExp [VName] [HistOp rep] (Lambda rep)
Hist length arrays dest-arrays-and-ops fun

The final lambda produces indexes and values for the HistOps.

JVP (Lambda rep) [SubExp] [SubExp] 
VJP (Lambda rep) [SubExp] [SubExp] 
Screma SubExp [VName] (ScremaForm rep)

A combination of scan, reduction, and map. The first SubExp is the size of the input arrays.

Instances

Instances details
CanBeAliased SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

addOpAliases :: AliasableRep rep => AliasTable -> SOAC rep -> SOAC (Aliases rep) Source #

IsOp SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

safeOp :: ASTRep rep => SOAC rep -> Bool Source #

cheapOp :: ASTRep rep => SOAC rep -> Bool Source #

opDependencies :: ASTRep rep => SOAC rep -> [Names] Source #

AliasedOp SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

opAliases :: Aliased rep => SOAC rep -> [Names] Source #

consumedInOp :: Aliased rep => SOAC rep -> Names Source #

TypedOp SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

opType :: HasScope rep m => SOAC rep -> m [ExtType] Source #

RephraseOp SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

rephraseInOp :: Monad m => Rephraser m from to -> SOAC from -> m (SOAC to) Source #

CanBeWise SOAC Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

addOpWisdom :: Informing rep => SOAC rep -> SOAC (Wise rep) Source #

RepTypes rep => Show (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

showsPrec :: Int -> SOAC rep -> ShowS #

show :: SOAC rep -> String #

showList :: [SOAC rep] -> ShowS #

OpMetrics (Op rep) => OpMetrics (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

opMetrics :: SOAC rep -> MetricsM () Source #

RepTypes rep => IndexOp (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

indexOp :: (ASTRep rep0, IndexOp (Op rep0)) => SymbolTable rep0 -> Int -> SOAC rep -> [TPrimExp Int64 VName] -> Maybe Indexed Source #

ASTRep rep => FreeIn (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

freeIn' :: SOAC rep -> FV Source #

(AliasableRep rep, CSEInOp (Op (Aliases rep))) => CSEInOp (SOAC (Aliases rep)) Source # 
Instance details

Defined in Futhark.Optimise.CSE

Methods

cseInOp :: SOAC (Aliases rep) -> CSEM rep0 (SOAC (Aliases rep))

ASTRep rep => Rename (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

rename :: SOAC rep -> RenameM (SOAC rep) Source #

ASTRep rep => Substitute (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

substituteNames :: Map VName VName -> SOAC rep -> SOAC rep Source #

RepTypes rep => Eq (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

(==) :: SOAC rep -> SOAC rep -> Bool #

(/=) :: SOAC rep -> SOAC rep -> Bool #

RepTypes rep => Ord (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

compare :: SOAC rep -> SOAC rep -> Ordering #

(<) :: SOAC rep -> SOAC rep -> Bool #

(<=) :: SOAC rep -> SOAC rep -> Bool #

(>) :: SOAC rep -> SOAC rep -> Bool #

(>=) :: SOAC rep -> SOAC rep -> Bool #

max :: SOAC rep -> SOAC rep -> SOAC rep #

min :: SOAC rep -> SOAC rep -> SOAC rep #

PrettyRep rep => Pretty (SOAC rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

pretty :: SOAC rep -> Doc ann #

prettyList :: [SOAC rep] -> Doc ann #

data Reduce rep Source #

How to compute a single reduction result.

Constructors

Reduce 

Instances

Instances details
RepTypes rep => Show (Reduce rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

showsPrec :: Int -> Reduce rep -> ShowS #

show :: Reduce rep -> String #

showList :: [Reduce rep] -> ShowS #

ASTRep rep => FreeIn (Reduce rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

freeIn' :: Reduce rep -> FV Source #

RepTypes rep => Eq (Reduce rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

(==) :: Reduce rep -> Reduce rep -> Bool #

(/=) :: Reduce rep -> Reduce rep -> Bool #

RepTypes rep => Ord (Reduce rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

compare :: Reduce rep -> Reduce rep -> Ordering #

(<) :: Reduce rep -> Reduce rep -> Bool #

(<=) :: Reduce rep -> Reduce rep -> Bool #

(>) :: Reduce rep -> Reduce rep -> Bool #

(>=) :: Reduce rep -> Reduce rep -> Bool #

max :: Reduce rep -> Reduce rep -> Reduce rep #

min :: Reduce rep -> Reduce rep -> Reduce rep #

PrettyRep rep => Pretty (Reduce rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

pretty :: Reduce rep -> Doc ann #

prettyList :: [Reduce rep] -> Doc ann #

data ScremaForm rep Source #

The essential parts of a Screma factored out (everything except the input arrays).

Constructors

ScremaForm 

Fields

  • scremaScans :: [Scan rep]
     
  • scremaReduces :: [Reduce rep]
     
  • scremaLambda :: Lambda rep

    The "main" lambda of the Screma. For a map, this is equivalent to isMapSOAC. Note that the meaning of the return value of this lambda depends crucially on exactly which Screma this is. The parameters will correspond exactly to elements of the input arrays, however.

Instances

Instances details
RepTypes rep => Show (ScremaForm rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

showsPrec :: Int -> ScremaForm rep -> ShowS #

show :: ScremaForm rep -> String #

showList :: [ScremaForm rep] -> ShowS #

ASTRep rep => FreeIn (ScremaForm rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

freeIn' :: ScremaForm rep -> FV Source #

RepTypes rep => Eq (ScremaForm rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

(==) :: ScremaForm rep -> ScremaForm rep -> Bool #

(/=) :: ScremaForm rep -> ScremaForm rep -> Bool #

RepTypes rep => Ord (ScremaForm rep) Source # 
Instance details

Defined in Futhark.IR.SOACS.SOAC

Methods

compare :: ScremaForm rep -> ScremaForm rep -> Ordering #

(<) :: ScremaForm rep -> ScremaForm rep -> Bool #

(<=) :: ScremaForm rep -> ScremaForm rep -> Bool #

(>) :: ScremaForm rep -> ScremaForm rep -> Bool #

(>=) :: ScremaForm rep -> ScremaForm rep -> Bool #

max :: ScremaForm rep -> ScremaForm rep -> ScremaForm rep #

min :: ScremaForm rep -> ScremaForm rep -> ScremaForm rep #

type ScatterSpec v = [(Shape, Int, v)] Source #

How the results of a scatter operation should be written. Each element of the list consists of a v (often a VName) specifying which array to scatter to, a ShapeBase describing the shape of that array, and an Int describing how many elements should be written to that array for each invocation of the scatter.

data SOACMapper frep trep m Source #

Like Mapper, but just for SOACs.

Constructors

SOACMapper 

Fields

scremaType :: SubExp -> ScremaForm rep -> [Type] Source #

The types produced by a single Screma, given the size of the input array.

scanResults :: [Scan rep] -> Int Source #

How many reduction results are produced by these Scans?

singleScan :: Buildable rep => [Scan rep] -> Scan rep Source #

Combine multiple scan operators to a single operator.

redResults :: [Reduce rep] -> Int Source #

How many reduction results are produced by these Reduces?

singleReduce :: Buildable rep => [Reduce rep] -> Reduce rep Source #

Combine multiple reduction operators to a single operator.

soacType :: Typed (LParamInfo rep) => SOAC rep -> [Type] Source #

The type of a SOAC.

typeCheckSOAC :: Checkable rep => SOAC (Aliases rep) -> TypeM rep () Source #

Type-check a SOAC.

mkIdentityLambda :: (Buildable rep, MonadFreshNames m) => [Type] -> m (Lambda rep) Source #

Construct a lambda that takes parameters of the given types and simply returns them unchanged.

isIdentityLambda :: Lambda rep -> Bool Source #

Is the given lambda an identity lambda?

nilFn :: Buildable rep => Lambda rep Source #

A lambda with no parameters that returns no values.

scanomapSOAC :: [Scan rep] -> Lambda rep -> ScremaForm rep Source #

Construct a Screma with possibly multiple scans, and the given map function.

redomapSOAC :: [Reduce rep] -> Lambda rep -> ScremaForm rep Source #

Construct a Screma with possibly multiple reductions, and the given map function.

scanSOAC :: (Buildable rep, MonadFreshNames m) => [Scan rep] -> m (ScremaForm rep) Source #

Construct a Screma with possibly multiple scans, and identity map function.

reduceSOAC :: (Buildable rep, MonadFreshNames m) => [Reduce rep] -> m (ScremaForm rep) Source #

Construct a Screma with possibly multiple reductions, and identity map function.

mapSOAC :: Lambda rep -> ScremaForm rep Source #

Construct a Screma corresponding to a map.

isScanomapSOAC :: ScremaForm rep -> Maybe ([Scan rep], Lambda rep) Source #

Does this Screma correspond to a scan-map composition?

isRedomapSOAC :: ScremaForm rep -> Maybe ([Reduce rep], Lambda rep) Source #

Does this Screma correspond to a reduce-map composition?

isScanSOAC :: ScremaForm rep -> Maybe [Scan rep] Source #

Does this Screma correspond to pure scan?

isReduceSOAC :: ScremaForm rep -> Maybe [Reduce rep] Source #

Does this Screma correspond to a pure reduce?

isMapSOAC :: ScremaForm rep -> Maybe (Lambda rep) Source #

Does this Screma correspond to a simple map, without any reduction or scan results?

ppScrema :: (PrettyRep rep, Pretty inp) => SubExp -> [inp] -> ScremaForm rep -> Doc ann Source #

Prettyprint the given Screma.

ppHist :: (PrettyRep rep, Pretty inp) => SubExp -> [inp] -> [HistOp rep] -> Lambda rep -> Doc ann Source #

Prettyprint the given histogram operation.

ppStream :: (PrettyRep rep, Pretty inp) => SubExp -> [inp] -> [SubExp] -> Lambda rep -> Doc ann Source #

Prettyprint the given Stream.

ppScatter :: (PrettyRep rep, Pretty inp) => SubExp -> [inp] -> [(Shape, Int, VName)] -> Lambda rep -> Doc ann Source #

Prettyprint the given Scatter.

groupScatterResults :: ScatterSpec array -> [a] -> [(Shape, array, [([a], a)])] Source #

groupScatterResults specification results

Blocks the index values and result values of results according to the specification.

This function is used for extracting and grouping the results of a scatter. In the SOACS representation, the lambda inside a Scatter returns all indices and values as one big list. This function groups each value with its corresponding indices (as determined by the Shape of the output array).

The elements of the resulting list correspond to the shape and name of the output parameters, in addition to a list of values written to that output parameter, along with the array indices marking where to write them to.

See Scatter for more information.

groupScatterResults' :: [(Shape, Int, array)] -> [a] -> [([a], a)] Source #

groupScatterResults' specification results

Blocks the index values and result values of results according to the specification. This is the simpler version of groupScatterResults, which doesn't return any information about shapes or output arrays.

See groupScatterResults for more information,

splitScatterResults :: [(Shape, Int, array)] -> [a] -> ([a], [a]) Source #

splitScatterResults specification results

Splits the results array into indices and values according to the specification.

See groupScatterResults for more information.

identitySOACMapper :: forall rep m. Monad m => SOACMapper rep rep m Source #

A mapper that simply returns the SOAC verbatim.

mapSOACM :: Monad m => SOACMapper frep trep m -> SOAC frep -> m (SOAC trep) Source #

Map a monadic action across the immediate children of a SOAC. The mapping does not descend recursively into subexpressions and is done left-to-right.

traverseSOACStms :: Monad m => OpStmsTraverser m (SOAC rep) rep Source #

A helper for defining TraverseOpStms.