egison-3.7.3: Programming language with non-linear pattern-matching against non-free data

CopyrightSatoshi Egi
LicenseMIT
Safe HaskellNone
LanguageHaskell98

Language.Egison.Types

Contents

Description

This module contains type definitions of Egison Data.

Synopsis

Egison expressions

data EgisonTopExpr Source #

Constructors

Define Var EgisonExpr 
Redefine Var EgisonExpr 
Test EgisonExpr 
Execute EgisonExpr 
LoadFile String 
Load String 

Instances

data EgisonExpr Source #

Constructors

CharExpr Char 
StringExpr Text 
BoolExpr Bool 
IntegerExpr Integer 
FloatExpr Double Double 
VarExpr String 
FreshVarExpr 
IndexedExpr Bool EgisonExpr [Index EgisonExpr] 
SubrefsExpr EgisonExpr EgisonExpr 
SuprefsExpr EgisonExpr EgisonExpr 
UserIndexedExpr EgisonExpr [UserIndex EgisonExpr] 
PowerExpr EgisonExpr EgisonExpr 
InductiveDataExpr String [EgisonExpr] 
TupleExpr [EgisonExpr] 
CollectionExpr [InnerExpr] 
ArrayExpr [EgisonExpr] 
HashExpr [(EgisonExpr, EgisonExpr)] 
VectorExpr [EgisonExpr] 
LambdaExpr [Arg] EgisonExpr 
MemoizedLambdaExpr [String] EgisonExpr 
MemoizeExpr [(EgisonExpr, EgisonExpr, EgisonExpr)] EgisonExpr 
CambdaExpr String EgisonExpr 
ProcedureExpr [String] EgisonExpr 
MacroExpr [String] EgisonExpr 
PatternFunctionExpr [String] EgisonPattern 
IfExpr EgisonExpr EgisonExpr EgisonExpr 
LetRecExpr [BindingExpr] EgisonExpr 
LetExpr [BindingExpr] EgisonExpr 
LetStarExpr [BindingExpr] EgisonExpr 
WithSymbolsExpr [String] EgisonExpr 
MatchExpr EgisonExpr EgisonExpr [MatchClause] 
MatchAllExpr EgisonExpr EgisonExpr MatchClause 
MatchLambdaExpr EgisonExpr [MatchClause] 
MatchAllLambdaExpr EgisonExpr MatchClause 
NextMatchExpr EgisonExpr EgisonExpr [MatchClause] 
NextMatchAllExpr EgisonExpr EgisonExpr MatchClause 
NextMatchLambdaExpr EgisonExpr [MatchClause] 
NextMatchAllLambdaExpr EgisonExpr MatchClause 
MatcherBFSExpr MatcherInfo 
MatcherDFSExpr MatcherInfo 
AlgebraicDataMatcherExpr [(String, [EgisonExpr])] 
QuoteExpr EgisonExpr 
QuoteFunctionExpr EgisonExpr 
WedgeExpr EgisonExpr 
WedgeApplyExpr EgisonExpr EgisonExpr 
DoExpr [BindingExpr] EgisonExpr 
IoExpr EgisonExpr 
SeqExpr EgisonExpr EgisonExpr 
ApplyExpr EgisonExpr EgisonExpr 
CApplyExpr EgisonExpr EgisonExpr 
PartialExpr Integer EgisonExpr 
PartialVarExpr Integer 
RecVarExpr 
GenerateArrayExpr EgisonExpr (EgisonExpr, EgisonExpr) 
ArrayBoundsExpr EgisonExpr 
ArrayRefExpr EgisonExpr EgisonExpr 
ParExpr EgisonExpr EgisonExpr 
PseqExpr EgisonExpr EgisonExpr 
PmapExpr EgisonExpr EgisonExpr 
GenerateTensorExpr EgisonExpr EgisonExpr 
TensorExpr EgisonExpr EgisonExpr EgisonExpr EgisonExpr 
TensorContractExpr EgisonExpr EgisonExpr 
TensorMapExpr EgisonExpr EgisonExpr 
TensorMap2Expr EgisonExpr EgisonExpr EgisonExpr 
TransposeExpr EgisonExpr EgisonExpr 
SomethingExpr 
UndefinedExpr 

Instances

data EgisonPattern Source #

Constructors

WildCard 
PatVar String 
ValuePat EgisonExpr 
PredPat EgisonExpr 
IndexedPat EgisonPattern [EgisonExpr] 
LetPat [BindingExpr] EgisonPattern 
NotPat EgisonPattern 
AndPat [EgisonPattern] 
OrPat [EgisonPattern] 
OrderedOrPat [EgisonPattern] 
TuplePat [EgisonPattern] 
InductivePat String [EgisonPattern] 
LoopPat String LoopRange EgisonPattern EgisonPattern 
ContPat 
PApplyPat EgisonExpr [EgisonPattern] 
VarPat String 
DApplyPat EgisonPattern [EgisonPattern] 
DivPat EgisonPattern EgisonPattern 
PlusPat [EgisonPattern] 
MultPat [EgisonPattern] 
PowerPat EgisonPattern EgisonPattern 

Instances

data Arg Source #

Constructors

ScalarArg String 
TensorArg String 

Instances

Eq Arg Source # 

Methods

(==) :: Arg -> Arg -> Bool #

(/=) :: Arg -> Arg -> Bool #

Show Arg Source # 

Methods

showsPrec :: Int -> Arg -> ShowS #

show :: Arg -> String #

showList :: [Arg] -> ShowS #

data Index a Source #

Constructors

Subscript a 
Superscript a 
SupSubscript a 
DFscript Integer Integer 

Instances

data UserIndex a Source #

Constructors

Userscript a 

Instances

data InnerExpr Source #

Constructors

ElementExpr EgisonExpr 
SubCollectionExpr EgisonExpr 

Instances

type BindingExpr = ([String], EgisonExpr) Source #

type MatchClause = (EgisonPattern, EgisonExpr) Source #

type MatcherInfo = [(PrimitivePatPattern, EgisonExpr, [(PrimitiveDataPattern, EgisonExpr)])] Source #

data LoopRange Source #

Constructors

LoopRange EgisonExpr EgisonExpr EgisonPattern 

Instances

data PrimitivePatPattern Source #

Constructors

PPWildCard 
PPPatVar 
PPValuePat String 
PPInductivePat String [PrimitivePatPattern] 

Instances

data PrimitiveDataPattern Source #

Constructors

PDWildCard 
PDPatVar String 
PDInductivePat String [PrimitiveDataPattern] 
PDTuplePat [PrimitiveDataPattern] 
PDEmptyPat 
PDConsPat PrimitiveDataPattern PrimitiveDataPattern 
PDSnocPat PrimitiveDataPattern PrimitiveDataPattern 
PDConstantPat EgisonExpr 

Instances

type Matcher = EgisonValue Source #

type PrimitiveFunc = WHNFData -> EgisonM WHNFData Source #

class EgisonData a where Source #

Minimal complete definition

toEgison, fromEgison

Methods

toEgison :: a -> EgisonValue Source #

fromEgison :: EgisonValue -> EgisonM a Source #

Instances

EgisonData Bool Source # 
EgisonData Char Source # 
EgisonData Double Source # 
EgisonData Integer Source # 
EgisonData Rational Source # 
EgisonData () Source # 
EgisonData Handle Source # 
EgisonData Text Source # 
EgisonData a => EgisonData [a] Source # 
(EgisonData a, EgisonData b) => EgisonData (a, b) Source # 
(EgisonData a, EgisonData b, EgisonData c) => EgisonData (a, b, c) Source # 

Methods

toEgison :: (a, b, c) -> EgisonValue Source #

fromEgison :: EgisonValue -> EgisonM (a, b, c) Source #

(EgisonData a, EgisonData b, EgisonData c, EgisonData d) => EgisonData (a, b, c, d) Source # 

Methods

toEgison :: (a, b, c, d) -> EgisonValue Source #

fromEgison :: EgisonValue -> EgisonM (a, b, c, d) Source #

showTSV :: EgisonValue -> String Source #

Egison values

data EgisonValue Source #

Constructors

World 
Char Char 
String Text 
Bool Bool 
ScalarData ScalarData 
TensorData (Tensor EgisonValue) 
UserIndexedData EgisonValue [UserIndex EgisonValue] 
Float Double Double 
InductiveData String [EgisonValue] 
Tuple [EgisonValue] 
Collection (Seq EgisonValue) 
Array (Array Integer EgisonValue) 
IntHash (HashMap Integer EgisonValue) 
CharHash (HashMap Char EgisonValue) 
StrHash (HashMap Text EgisonValue) 
UserMatcher Env PMMode MatcherInfo 
Func (Maybe String) Env [String] EgisonExpr 
PartialFunc Env Integer EgisonExpr 
CFunc (Maybe String) Env String EgisonExpr 
MemoizedFunc (Maybe String) ObjectRef (IORef (HashMap [Integer] ObjectRef)) Env [String] EgisonExpr 
Proc (Maybe String) Env [String] EgisonExpr 
Macro [String] EgisonExpr 
PatternFunc Env [String] EgisonPattern 
PrimitiveFunc String PrimitiveFunc 
IOFunc (EgisonM WHNFData) 
QuotedFunc EgisonValue 
Port Handle 
Something 
Undefined 
EOF 

Instances

data ScalarData Source #

Constructors

Div PolyExpr PolyExpr 

Instances

data PolyExpr Source #

Constructors

Plus [TermExpr] 

Instances

data TermExpr Source #

Constructors

Term Integer [(SymbolExpr, Integer)] 

Instances

data SymbolExpr Source #

Constructors

Symbol String String [Index ScalarData] 
Apply EgisonValue [ScalarData] 
Quote ScalarData 

Instances

data Tensor a Source #

Constructors

Tensor [Integer] (Vector a) [Index EgisonValue] 
Scalar a 

Instances

Show a => Show (Tensor a) Source # 

Methods

showsPrec :: Int -> Tensor a -> ShowS #

show :: Tensor a -> String #

showList :: [Tensor a] -> ShowS #

class HasTensor a where Source #

Minimal complete definition

tensorElems, tensorSize, tensorIndices, fromTensor, toTensor, undef

Methods

tensorElems :: a -> Vector a Source #

tensorSize :: a -> [Integer] Source #

tensorIndices :: a -> [Index EgisonValue] Source #

fromTensor :: Tensor a -> EgisonM a Source #

toTensor :: a -> EgisonM (Tensor a) Source #

undef :: a Source #

Instances

Tensor

initTensor :: [Integer] -> [a] -> [EgisonValue] -> [EgisonValue] -> Tensor a Source #

tSize :: Tensor a -> [Integer] Source #

tToList :: Tensor a -> [a] Source #

tIndex :: Tensor a -> [Index EgisonValue] Source #

tref :: HasTensor a => [Index EgisonValue] -> Tensor a -> EgisonM a Source #

enumTensorIndices :: [Integer] -> [[Integer]] Source #

tTranspose' :: HasTensor a => [EgisonValue] -> Tensor a -> EgisonM (Tensor a) Source #

appendDFscripts :: Integer -> WHNFData -> EgisonM WHNFData Source #

removeDFscripts :: WHNFData -> EgisonM WHNFData Source #

tMap :: HasTensor a => (a -> EgisonM a) -> Tensor a -> EgisonM (Tensor a) Source #

tMap2 :: HasTensor a => (a -> a -> EgisonM a) -> Tensor a -> Tensor a -> EgisonM (Tensor a) Source #

tMapN :: HasTensor a => ([a] -> EgisonM a) -> [Tensor a] -> EgisonM (Tensor a) Source #

tSum :: HasTensor a => (a -> a -> EgisonM a) -> Tensor a -> Tensor a -> EgisonM (Tensor a) Source #

tProduct :: HasTensor a => (a -> a -> EgisonM a) -> Tensor a -> Tensor a -> EgisonM (Tensor a) Source #

tContract :: HasTensor a => Tensor a -> EgisonM [Tensor a] Source #

tContract' :: HasTensor a => Tensor a -> EgisonM (Tensor a) Source #

tConcat :: HasTensor a => Index EgisonValue -> [Tensor a] -> EgisonM (Tensor a) Source #

tConcat' :: HasTensor a => [Tensor a] -> EgisonM (Tensor a) Source #

tClearIndex :: HasTensor a => Tensor a -> Tensor a Source #

tClearIndex' :: [Index EgisonValue] -> [Index EgisonValue] Source #

Scalar

symbolScalarData :: String -> String -> EgisonValue Source #

mathExprToEgison :: ScalarData -> EgisonValue Source #

egisonToScalarData :: EgisonValue -> EgisonM ScalarData Source #

mathNormalize' :: ScalarData -> ScalarData Source #

mathFold :: ScalarData -> ScalarData Source #

mathSymbolFold :: ScalarData -> ScalarData Source #

mathTermFold :: ScalarData -> ScalarData Source #

mathRemoveZero :: ScalarData -> ScalarData Source #

mathDivide :: ScalarData -> ScalarData Source #

mathPlus :: ScalarData -> ScalarData -> ScalarData Source #

mathMult :: ScalarData -> ScalarData -> ScalarData Source #

mathNegate :: ScalarData -> ScalarData Source #

mathNumerator :: ScalarData -> ScalarData Source #

mathDenominator :: ScalarData -> ScalarData Source #

extractScalar :: EgisonValue -> EgisonM ScalarData Source #

extractScalar' :: WHNFData -> EgisonM ScalarData Source #

Internal data

data Object Source #

Constructors

Thunk (EgisonM WHNFData) 
WHNF WHNFData 

Instances

type ObjectRef = IORef Object Source #

For memoization

data WHNFData Source #

Constructors

Intermediate Intermediate 
Value EgisonValue 

Instances

data Intermediate Source #

Constructors

IInductiveData String [ObjectRef] 
ITuple [ObjectRef] 
ICollection (IORef (Seq Inner)) 
IArray (Array Integer ObjectRef) 
IIntHash (HashMap Integer ObjectRef) 
ICharHash (HashMap Char ObjectRef) 
IStrHash (HashMap Text ObjectRef) 
ITensor (Tensor WHNFData) 

data Inner Source #

Constructors

IElement ObjectRef 
ISubCollection ObjectRef 

class EgisonData a => EgisonWHNF a where Source #

Minimal complete definition

fromWHNF

Methods

toWHNF :: a -> WHNFData Source #

fromWHNF :: WHNFData -> EgisonM a Source #

Instances

Environment

data Env Source #

Constructors

Env [HashMap String ObjectRef] 

Instances

Show Env Source # 

Methods

showsPrec :: Int -> Env -> ShowS #

show :: Env -> String #

showList :: [Env] -> ShowS #

data Var Source #

Constructors

Var String [Index ()] 

Instances

Eq Var Source # 

Methods

(==) :: Var -> Var -> Bool #

(/=) :: Var -> Var -> Bool #

Show Var Source # 

Methods

showsPrec :: Int -> Var -> ShowS #

show :: Var -> String #

showList :: [Var] -> ShowS #

data VarWithIndices Source #

Constructors

VarWithIndices String [Index String] 

Instances

type Binding = (String, ObjectRef) Source #

nullEnv :: Env Source #

extendEnv :: Env -> [Binding] -> Env Source #

refVar :: Env -> String -> Maybe ObjectRef Source #

Pattern matching

type Match = [Binding] Source #

data PMMode Source #

Constructors

BFSMode 
DFSMode 

Instances

pmMode :: Matcher -> PMMode Source #

data MatchingState Source #

Constructors

MState Env [LoopPatContext] [Binding] [MatchingTree] 

Instances

data MatchingTree Source #

Constructors

MAtom EgisonPattern WHNFData Matcher 
MNode [PatternBinding] MatchingState 

Instances

type PatternBinding = (String, EgisonPattern) Source #

data LoopPatContext Source #

Constructors

LoopPatContext Binding ObjectRef EgisonPattern EgisonPattern EgisonPattern 

Instances

Errors

data EgisonError Source #

Constructors

UnboundVariable String 
TypeMismatch String WHNFData 
ArgumentsNumWithNames [String] Int Int 
ArgumentsNumPrimitive Int Int 
ArgumentsNum Int Int 
InconsistentTensorSize 
InconsistentTensorIndex 
TensorIndexOutOfBounds Integer Integer 
NotImplemented String 
Assertion String 
Match String 
Parser String 
Desugar String 
EgisonBug String 
Default String 

Instances

liftError :: MonadError e m => Either e a -> m a Source #

Monads

newtype EgisonM a Source #

Constructors

EgisonM 

Fields

Instances

Monad EgisonM Source # 

Methods

(>>=) :: EgisonM a -> (a -> EgisonM b) -> EgisonM b #

(>>) :: EgisonM a -> EgisonM b -> EgisonM b #

return :: a -> EgisonM a #

fail :: String -> EgisonM a #

Functor EgisonM Source # 

Methods

fmap :: (a -> b) -> EgisonM a -> EgisonM b #

(<$) :: a -> EgisonM b -> EgisonM a #

Applicative EgisonM Source # 

Methods

pure :: a -> EgisonM a #

(<*>) :: EgisonM (a -> b) -> EgisonM a -> EgisonM b #

(*>) :: EgisonM a -> EgisonM b -> EgisonM b #

(<*) :: EgisonM a -> EgisonM b -> EgisonM a #

MonadIO EgisonM Source # 

Methods

liftIO :: IO a -> EgisonM a #

MonadFresh EgisonM Source # 
MonadError EgisonError EgisonM Source # 

parallelMapM :: (a -> EgisonM b) -> [a] -> EgisonM [b] Source #

runEgisonM :: EgisonM a -> FreshT IO (Either EgisonError a) Source #

liftEgisonM :: Fresh (Either EgisonError a) -> EgisonM a Source #

fromEgisonM :: EgisonM a -> IO (Either EgisonError a) Source #

newtype FreshT m a Source #

Constructors

FreshT 

Fields

Instances

MonadTrans FreshT Source # 

Methods

lift :: Monad m => m a -> FreshT m a #

MonadError e m => MonadError e (FreshT m) Source # 

Methods

throwError :: e -> FreshT m a #

catchError :: FreshT m a -> (e -> FreshT m a) -> FreshT m a #

MonadState s m => MonadState s (FreshT m) Source # 

Methods

get :: FreshT m s #

put :: s -> FreshT m () #

state :: (s -> (a, s)) -> FreshT m a #

Monad m => Monad (FreshT m) Source # 

Methods

(>>=) :: FreshT m a -> (a -> FreshT m b) -> FreshT m b #

(>>) :: FreshT m a -> FreshT m b -> FreshT m b #

return :: a -> FreshT m a #

fail :: String -> FreshT m a #

Functor m => Functor (FreshT m) Source # 

Methods

fmap :: (a -> b) -> FreshT m a -> FreshT m b #

(<$) :: a -> FreshT m b -> FreshT m a #

Monad m => Applicative (FreshT m) Source # 

Methods

pure :: a -> FreshT m a #

(<*>) :: FreshT m (a -> b) -> FreshT m a -> FreshT m b #

(*>) :: FreshT m a -> FreshT m b -> FreshT m b #

(<*) :: FreshT m a -> FreshT m b -> FreshT m a #

MonadIO (FreshT IO) Source # 

Methods

liftIO :: IO a -> FreshT IO a #

(Applicative m, Monad m) => MonadFresh (FreshT m) Source # 

Methods

fresh :: FreshT m String Source #

Monad m => MonadState (Int, Int) (FreshT m) Source # 

Methods

get :: FreshT m (Int, Int) #

put :: (Int, Int) -> FreshT m () #

state :: ((Int, Int) -> (a, (Int, Int))) -> FreshT m a #

type Fresh = FreshT Identity Source #

class (Applicative m, Monad m) => MonadFresh m where Source #

Minimal complete definition

fresh

Methods

fresh :: m String Source #

Instances

runFreshT :: Monad m => (Int, Int) -> FreshT m a -> m (a, (Int, Int)) Source #

type MatchM = MaybeT EgisonM Source #

matchFail :: MatchM a Source #

data MList m a Source #

Constructors

MNil 
MCons a (m (MList m a)) 

Instances

Show (MList m a) Source # 

Methods

showsPrec :: Int -> MList m a -> ShowS #

show :: MList m a -> String #

showList :: [MList m a] -> ShowS #

fromList :: Monad m => [a] -> MList m a Source #

fromSeq :: Monad m => Seq a -> MList m a Source #

fromMList :: Monad m => MList m a -> m [a] Source #

msingleton :: Monad m => a -> MList m a Source #

mfoldr :: Monad m => (a -> m b -> m b) -> m b -> MList m a -> m b Source #

mappend :: Monad m => MList m a -> m (MList m a) -> m (MList m a) Source #

mconcat :: Monad m => MList m (MList m a) -> m (MList m a) Source #

mmap :: Monad m => (a -> m b) -> MList m a -> m (MList m b) Source #

mfor :: Monad m => MList m a -> (a -> m b) -> m (MList m b) Source #

Typing

isBool :: EgisonValue -> Bool Source #

isInteger :: EgisonValue -> Bool Source #

isRational :: EgisonValue -> Bool Source #

isSymbol :: EgisonValue -> Bool Source #

isScalar :: EgisonValue -> Bool Source #

isTensor :: EgisonValue -> Bool Source #

isTensorWithIndex :: EgisonValue -> Bool Source #

isBool' :: PrimitiveFunc Source #

isInteger' :: PrimitiveFunc Source #

isRational' :: PrimitiveFunc Source #

isScalar' :: PrimitiveFunc Source #

isFloat' :: PrimitiveFunc Source #

isComplex' :: PrimitiveFunc Source #

isTensor' :: PrimitiveFunc Source #

isTensorWithIndex' :: PrimitiveFunc Source #

isChar' :: PrimitiveFunc Source #

isString' :: PrimitiveFunc Source #

isCollection' :: PrimitiveFunc Source #

isArray' :: PrimitiveFunc Source #

isHash' :: PrimitiveFunc Source #