See: Description
| Interface | Description |
|---|---|
| XBiConsumer<T,U,X extends Exception> |
A kind of consumer that allows to throw a checked exception.
|
| XBiFunction<T,U,R,X extends Exception> |
A kind of function that allows to throw a checked exception.
|
| XBiPredicate<T,U,X extends Exception> |
A kind of predicate that allows to throw a checked exception.
|
| XConsumer<T,X extends Exception> |
A kind of consumer that allows to throw a checked exception.
|
| XFunction<T,R,X extends Exception> |
A kind of function that allows to throw a checked exception.
|
| XPredicate<T,X extends Exception> |
A kind of predicate that allows to throw a checked exception.
|
| XRunnable<X extends Exception> |
A kind of runnable that allows to throw a checked exception.
|
| XSupplier<T,X extends Exception> |
A kind of supplier that allows to throw a checked exception.
|
| Class | Description |
|---|---|
| Conversion |
A utility class that can convert certain functional constructs defined in this package (e.g.
|
| Converter |
A tool class that can convert certain functional constructs defined in this package (e.g.
|
| Revision<T extends Throwable> |
A tool that supports a revision and handling of an exception.
|
| Wrapping |
A utility class that provides wrapping methods for exceptions.
|
| Exception | Description |
|---|---|
| ExpectationException |
An unchecked exception that is used to signal an unexpected state, particularly an unexpected exception.
|
| WrappedException |
An unchecked exception dedicated to wrap checked exceptions.
|
XFunction as a variant of Function.
In addition, it contains tools and utilities that enable the functional constructs defined here to be converted
into their simple form. For example, an XFunction can be converted
into a Function, with any checked exception being wrapped in a specific
unchecked exception.
The reverse conversion is trivial and does not require any utilities.
Finally it contains tools and utilities for dealing with exceptions as well as exception types for occasional special cases.
Copyright © 2021 Andreas Kluge-Kaindl, Bremen (de). All rights reserved.