Create a new operation with a function that takes the result of this operation and returns a new operation.
Create a new operation with a function that takes the result of this operation and returns a new operation.
Create an operation that applies the function f to the result of this operation, but returns nothing.
Create an operation that applies the function f to the result of this operation, but returns nothing.
Create a new operation that returns the result of the provided function that takes this operation's result as its argument.
Create a new operation that returns the result of the provided function that takes this operation's result as its argument.
Return operation identified (class simple name).
Return operation identified (class simple name).
Execute this operation and return the result.
Execute this operation and return the result.
Create a new operation with a function that takes the result of this operation and returns a new operation.
Create a new operation with a function that takes the result of this operation and returns a new operation.
Same as flatMap.
(apply: Operation[Apply[A, Z]]).canEqual(that)
(apply: Operation[Apply[A, Z]]).debug
(apply: Operation[Apply[A, Z]]).dispatch(dispatcher)
(apply: Operation[Apply[A, Z]]).filter(f)
Create a new operation with a function that takes the result of this operation and returns a new operation.
Create a new operation with a function that takes the result of this operation and returns a new operation.
(apply: Operation[Apply[A, Z]]).flatMap(f)
Create an operation that applies the function f to the result of this operation, but returns nothing.
Create an operation that applies the function f to the result of this operation, but returns nothing.
(apply: Operation[Apply[A, Z]]).foreach(f)
Create a new operation that returns the result of the provided function that takes this operation's result as its argument.
Create a new operation that returns the result of the provided function that takes this operation's result as its argument.
(apply: Operation[Apply[A, Z]]).map(f)
Return operation identified (class simple name).
Return operation identified (class simple name).
(apply: Operation[Apply[A, Z]]).name
(apply: Operation[Apply[A, Z]]).nextSteps
(apply: Operation[Apply[A, Z]]).processNextSteps(args)
(apply: Operation[Apply[A, Z]]).productArity
(apply: Operation[Apply[A, Z]]).productElement(n)
Execute this operation and return the result.
Execute this operation and return the result.
(apply: Operation[Apply[A, Z]]).run(context)
(apply: Operation[Apply[A, Z]]).runAsync(args)
(apply: StringAdd).self
(apply: StringFormat).self
Create a new operation with a function that takes the result of this operation and returns a new operation.
Create a new operation with a function that takes the result of this operation and returns a new operation.
Same as flatMap.
(apply: Operation[Apply[A, Z]]).withResult(f)
(apply: ArrowAssoc[Apply[A, Z]]).x
(Since version 2.10.0) Use leftOfArrow
instead
(apply: Ensuring[Apply[A, Z]]).x
(Since version 2.10.0) Use resultOfEnsuring
instead
This corresponds to Haskell's "apply" (<*>) on Functor.