camfort-1.2.0: CamFort - Cambridge Fortran infrastructure
Safe HaskellSafe-Inferred
LanguageHaskell2010

Language.Fortran.Model.Op.Core.Core

Documentation

data OpSpec ok args result where Source #

Constructors

OSLit :: Prim p k a -> a -> OpSpec 'OKLit '[] (PrimS a) 
OSNum1 :: NumericBasicType k1 -> Prim p1 k1 a -> Prim p2 k2 b -> OpSpec 'OKNum '[PrimS a] (PrimS b) 
OSNum2 :: NumericBasicType k1 -> NumericBasicType k2 -> Prim p1 k1 a -> Prim p2 k2 b -> Prim (PrecMax p1 p2) (BasicTypeMax k1 k2) c -> OpSpec 'OKNum '[PrimS a, PrimS b] (PrimS c) 
OSLogical1 :: Prim p1 'BTLogical a -> Prim 'P8 'BTLogical b -> OpSpec 'OKLogical '[PrimS a] (PrimS b) 
OSLogical2 :: Prim p1 'BTLogical a -> Prim p2 'BTLogical b -> Prim 'P8 'BTLogical c -> OpSpec 'OKLogical '[PrimS a, PrimS b] (PrimS c) 
OSEq :: ComparableBasicTypes k1 k2 -> Prim p1 k1 a -> Prim p2 k2 b -> Prim 'P8 'BTLogical c -> OpSpec 'OKEq '[PrimS a, PrimS b] (PrimS c) 
OSRel :: ComparableBasicTypes k1 k2 -> Prim p1 k1 a -> Prim p2 k2 b -> Prim 'P8 'BTLogical c -> OpSpec 'OKRel '[PrimS a, PrimS b] (PrimS c) 
OSLookup :: D (Array i v) -> OpSpec 'OKLookup '[Array i v, i] v 
OSDeref :: RElem '(fname, a) fields i => D (Record rname fields) -> SSymbol fname -> OpSpec 'OKDeref '[Record rname fields] a 

data Op n ok where Source #

Constructors

OpLit :: Op 0 'OKLit 
OpNeg :: Op 1 'OKNum 
OpPos :: Op 1 'OKNum 
OpAdd :: Op 2 'OKNum 
OpSub :: Op 2 'OKNum 
OpMul :: Op 2 'OKNum 
OpDiv :: Op 2 'OKNum 
OpEq :: Op 2 'OKEq 
OpNE :: Op 2 'OKEq 
OpLT :: Op 2 'OKRel 
OpLE :: Op 2 'OKRel 
OpGT :: Op 2 'OKRel 
OpGE :: Op 2 'OKRel 
OpNot :: Op 1 'OKLogical 
OpAnd :: Op 2 'OKLogical 
OpOr :: Op 2 'OKLogical 
OpEquiv :: Op 2 'OKLogical 
OpNotEquiv :: Op 2 'OKLogical 
OpLookup :: Op 2 'OKLookup 
OpDeref :: Op 1 'OKDeref