úÎ!! –     Safe opLTR function application.Same as  with a consistent fixity. Also same as the ocaml function Lhttps://caml.inria.fr/pub/docs/manual-ocaml/libref/Pervasives.html#VAL(|%3E)(|>)opRTL function application.Same as  with a consistent fixity.opLTR function composition.Same as   with a consistent fixity.opRTL function composition.Same as  with a consistent fixity.opLTR category composition.This is  ( but with a redefined consistent fixity.opRTL category composition.This is  . opLTR functor application.Same as   with a consistent fixity. opRTL functor application.Same as   with a consistent fixity. opLTR functor replacement.Same as   with a consistent fixity. opRTL functor replacement.Same as   with a consistent fixity. opLTR applicative replacement.Same as  with a consistent fixity.opRTL applicative replacement.Same as  with a consistent fixity.opLTR applicative fold.Same as ) as an operator with a consistent fixity.opRTL applicative fold.Same as ) as an operator with a consistent fixity.opLTR applicative traversal.Same as ) as an operator with a consistent fixity.opRTL applicative traversal.Same as ) as an operator with a consistent fixity.op4RTL applicative replacement, constrained to a monad.8Surprisingly, this is not defined in the base libraries.opLTR monad composition.This is ( but with a redefined consistent fixity.opRTL monad composition.This is .opLTR function-arrow composition.This is ( but with a redefined consistent fixity.opRTL function-arrow composition.This is .opLTR arrow-function composition.This is ( but with a redefined consistent fixity.opRTL arrow-function composition.This is  .  111111 1 1 1 1 1111111111111!"!#!$%&'(  )*+,-./0123 4!op-0.4.0.0-6hAwinEVCeT1O8sRZM7C1t Control.Op Data.Function&GHC.Base$flip.Control.Category>>><<< Data.Functor<&><$>$><$Control.Applicative*><* Data.Foldablefor_ traverse_Data.Traversablefortraverse Control.Monad>=><=< Control.Arrow^>><<^>>^^<<base>>=>>=<<|><|.><.>$><$<>$==$<>*==*<>$>--<$<>$>==<$<<<