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* Mon
** TypeAlias, Maybe and Result for Java.
2018-09-30 17:36:29 +01:00
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- [Maven Usage]
- [TypeAlias]
- [Maybe]
- [Result]
- [Tree]
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- [Lazy]
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- [Either]
2018-09-30 19:24:07 +01:00
2018-09-30 17:36:29 +01:00
** Maven Usage
#+BEGIN_SRC xml
<dependency>
<groupId>net.kemitix</groupId>
<artifactId>mon</artifactId>
<version>RELEASE</version>
</dependency>
#+END_SRC
The latest version should be shown above with the nexus and maven-central
badges or can be found on [[https://search.maven.org/#search%7Cga%7C1%7Cg%3A%22net.kemitix%22%20AND%20a%3A%22mon%22][Maven Central]].
2018-07-16 18:52:33 +01:00
** TypeAlias
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In Haskell it is possible to create an alias for a Type, and to then use
that alias with the same behaviour as the original, except that the compiler
doesn't treat the alias as the same Type and will generate compiler errors
if you try and use them together. e.g.:
#+BEGIN_SRC haskell
type PhoneNumber = String
type Name = String
type PhoneBook = [(Name,PhoneNumber)]
#+END_SRC
In Java we don't have the ability to have that true alias, so TypeAlias is
more of a type-wrapper. It's as close as I could get to a Haskell type alias
in Java.
The benefits of using TypeAlias are:
- encapsulation of the wrapped type when passing references through code
that doesn't need to access the actual value, but only to pass it on
- type-safe parameters where you would otherwise be passing Strings,
Integers, Lists, or other general classes
- equality and hashcode
- less verbose than implementing your own
*TypeAlias Example:*
#+BEGIN_SRC java
class PhoneNumber extends TypeAlias<String> {
private PhoneNumber(final String value) {
super(value);
}
public static PhoneNumber of(final String phoneNumber) {
return new PhoneNumber(phoneNumber);
}
}
#+END_SRC
*Roll your own:*
#+BEGIN_SRC java
class PhoneNumber {
private final String value;
private PhoneNumber(final String value) {
this.value = value;
}
public static PhoneNumber of(final String phoneNumber) {
return new PhoneNumber(phoneNumber);
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
PhoneNumber that = (PhoneNumber) o;
return Objects.equals(value, that.value);
}
@Override
public int hashCode() {
return Objects.hash(value);
}
public String getValue() {
return value;
}
}
#+END_SRC
*Lombok:*
Although, if you are using Lombok, that can be equally terse, both it and
TypeAlias<String> coming in at 8 lines each, compared to 24 for rolling your
own:
#+BEGIN_SRC java
@Value
@RequiredArgsConstructor(access = AccessLevel.PRIVATE)
class PhoneNumber {
private final String value;
public static PhoneNumber of(final String phoneNumber) {
return new PhoneNumber(phoneNumber);
}
}
#+END_SRC
*** =TypeAlias= *can* be a Monad
#+BEGIN_SRC java
package net.kemitix.mon;
import org.assertj.core.api.WithAssertions;
import org.junit.Test;
import java.util.function.Function;
public class TypeAliasMonadTest implements WithAssertions {
private final int v = 1;
private final Function<Integer, AnAlias<Integer>> f = i -> a(i * 2);
private final Function<Integer, AnAlias<Integer>> g = i -> a(i + 6);
private static AnAlias<Integer> a(Integer v) {
return AnAlias.of(v);
}
@Test
public void leftIdentity() {
assertThat(
a(v).flatMap(f)
).isEqualTo(
f.apply(v)
);
}
@Test
public void rightIdentity_inline() {
// java isn't able to properly infer the correct types when used in-line
assertThat(
a(v).<Integer, AnAlias<Integer>>flatMap(x -> a(x))
).isEqualTo(
a(v)
);
}
@Test
public void rightIdentity_explicitValue() {
final AnAlias<Integer> integerAnAlias = a(v).flatMap(x -> a(x));
assertThat(
integerAnAlias
).isEqualTo(
a(v)
);
}
@Test
public void associativity() {
assertThat(
a(v).flatMap(f).flatMap(g)
).isEqualTo(
a(v).flatMap(x -> f.apply(x).flatMap(g))
);
}
static class AnAlias<T> extends TypeAlias<T> {
private AnAlias(T value) {
super(value);
}
static <T> AnAlias<T> of(T value) {
return new AnAlias<>(value);
}
}
}
#+END_SRC
*** Instance Methods
**** =final <R> R map(final Function<T, R> f)=
Map the TypeAlias into another value.
#+BEGIN_SRC java
final StudentId studentId = StudentId.of(123);
final String idString = studentId.map(id -> String.valueOf(id));
class StudentId extends TypeAlias<Integer> {
private StudentId(Integer value) {
super(value);
}
static StudentId of(Integer id) {
return new StudentId(id);
}
}
#+END_SRC
**** =final <R, U extends TypeAlias<R>> U flatMap(final Function<T, U> f)=
Map the TypeAlias into another TypeAlias.
#+BEGIN_SRC java
final StudentId studentId = StudentId.of(123);
final StudentName studentName = studentId.flatMap(id -> getStudentName(id));
class StudentName extends TypeAlias<String> {
private StudentName(String value) {
super(value);
}
static StudentName of(final String name) {
return new StudentName(name);
}
}
#+END_SRC
**** =T getValue()=
Get the value of the TypeAlias.
#+BEGIN_SRC java
final String name = studentName.getValue();
#+END_SRC
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** Maybe
Allows specifying that a value may or may not be present. Similar to
=Optional=. =Maybe= provides additional methods that =Optional= doesn't:
=isNothing()=, =stream()=, =ifNothing()= and =match()=. =Maybe= does not
have a =get()= method.
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Unlike =Optional=, when a =map()= results in a =null=, the =Maybe= will
continue to be a =Just=. =Optional= would switch to being empty. [[http://blog.vavr.io/the-agonizing-death-of-an-astronaut/][vavi.io
follows the same behaviour as =Maybe=]].
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#+BEGIN_SRC java
import net.kemitix.mon.maybe.Maybe;
import java.util.function.Function;
import java.util.function.Predicate;
class MaybeExample {
public static void main(String[] args) {
Maybe.just(countArgs(args))
.filter(isEven())
.map(validMessage())
.match(
just -> System.out.println(just),
() -> System.out.println("Not an valid value")
);
}
private static Function<Integer, String> validMessage() {
return v -> String.format("Value %d is even", v);
}
private static Predicate<Integer> isEven() {
return v -> v % 2 == 0;
}
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private static Integer countArgs(String[] args) {
return args.length;
}
}
#+END_SRC
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In the above example, the number of command line arguments are counted, if
there are an even number of them then a message is created and printed by
the Consumer parameter in the =match= call. If there is an odd number of
arguments, then the filter will return =Maybe.nothing()=, meaning that the
=nothing= drops straight through the map and triggers the Runnable parameter
in the =match= call.
*** =Maybe= is a Monad:
#+BEGIN_SRC java
package net.kemitix.mon;
import net.kemitix.mon.maybe.Maybe;
import org.assertj.core.api.WithAssertions;
import org.junit.Test;
import java.util.function.Function;
public class MaybeMonadTest implements WithAssertions {
private final int v = 1;
private final Function<Integer, Maybe<Integer>> f = i -> m(i * 2);
private final Function<Integer, Maybe<Integer>> g = i -> m(i + 6);
private static Maybe<Integer> m(int value) {
return Maybe.maybe(value);
}
@Test
public void leftIdentity() {
assertThat(
m(v).flatMap(f)
).isEqualTo(
f.apply(v)
);
}
@Test
public void rightIdentity() {
assertThat(
m(v).flatMap(x -> m(x))
).isEqualTo(
m(v)
);
}
@Test
public void associativity() {
assertThat(
m(v).flatMap(f).flatMap(g)
).isEqualTo(
m(v).flatMap(x -> f.apply(x).flatMap(g))
);
}
}
#+END_SRC
*** Static Constructors
**** =static <T> Maybe<T> maybe(T value)=
Create a Maybe for the value that may or may not be present.
Where the value is =null=, that is taken as not being present.
#+BEGIN_SRC java
final Maybe<Integer> just = Maybe.maybe(1);
final Maybe<Integer> nothing = Maybe.maybe(null);
#+END_SRC
**** =static <T> Maybe<T> just(T value)=
Create a Maybe for the value that is present.
The =value= must not be =null= or a =NullPointerException= will be thrown.
If you can't prove that the value won't be =null= you should use
=Maybe.maybe(value)= instead.
#+BEGIN_SRC java
final Maybe<Integer> just = Maybe.just(1);
#+END_SRC
**** =static <T> Maybe<T> nothing()=
Create a Maybe for a lack of a value.
#+BEGIN_SRC java
final Maybe<Integer> nothing = Maybe.nothing();
#+END_SRC
*** Instance Methods
**** =Maybe<T> filter(Predicate<T> predicate)=
Filter a Maybe by the predicate, replacing with Nothing when it fails.
#+BEGIN_SRC java
final Maybe<Integer> maybe = Maybe.maybe(getValue())
.filter(v -> v % 2 == 0);
#+END_SRC
**** =<R> Maybe<R> map(Function<T,R> f)=
Applies the function to the value within the Maybe, returning the result within another Maybe.
#+BEGIN_SRC java
final Maybe<Integer> maybe = Maybe.maybe(getValue())
.map(v -> v * 100);
#+END_SRC
**** =<R> Maybe<R> flatMap(Function<T,Maybe<R>> f)=
Applies the function to the value within the =Maybe=, resulting in another =Maybe=, then flattens the resulting =Maybe<Maybe<T>>= into =Maybe<T>=.
Monad binder maps the Maybe into another Maybe using the binder method f
#+BEGIN_SRC java
final Maybe<Integer> maybe = Maybe.maybe(getValue())
.flatMap(v -> Maybe.maybe(getValueFor(v)));
#+END_SRC
**** =void match(Consumer<T> just, Runnable nothing)=
Matches the Maybe, either just or nothing, and performs either the Consumer, for Just, or Runnable for nothing.
#+BEGIN_SRC java
Maybe.maybe(getValue())
.match(
just -> workWithValue(just),
() -> nothingToWorkWith()
);
#+END_SRC
**** =T orElse(T otherValue)=
A value to use when Maybe is Nothing.
#+BEGIN_SRC java
final Integer value = Maybe.maybe(getValue())
.orElse(1);
#+END_SRC
**** =T orElseGet(Supplier<T> otherValueSupplier)=
Provide a value to use when Maybe is Nothing.
#+BEGIN_SRC java
final Integer value = Maybe.maybe(getValue())
.orElseGet(() -> getDefaultValue());
#+END_SRC
**** =T or(Supplier<Maybe<T> alternative)=
Provide an alternative Maybe to use when Maybe is Nothing.
#+BEGIN_SRC java
final Maybe<Integer> value = Maybe.maybe(getValue())
.or(() -> Maybe.just(defaultValue));
#+END_SRC
**** =void orElseThrow(Supplier<Exception> error)=
Throw the exception if the Maybe is a Nothing.
#+BEGIN_SRC java
final Integer value = Maybe.maybe(getValue())
.orElseThrow(() -> new RuntimeException("error"));
#+END_SRC
**** =Maybe<T> peek(Consumer<T> consumer)=
Provide the value within the Maybe, if it exists, to the Consumer, and returns this Maybe. Conceptually equivalent to the idea of =ifPresent(...)=.
#+BEGIN_SRC java
final Maybe<Integer> maybe = Maybe.maybe(getValue())
.peek(v -> v.foo());
#+END_SRC
**** =void ifNothing(Runnable runnable)=
Run the runnable if the Maybe is a Nothing, otherwise do nothing.
#+BEGIN_SRC java
Maybe.maybe(getValue())
.ifNothing(() -> doSomething());
#+END_SRC
**** =Stream<T> stream()=
Converts the Maybe into either a single value stream or an empty stream.
#+BEGIN_SRC java
final Stream<Integer> stream = Maybe.maybe(getValue())
.stream();
#+END_SRC
**** =boolean isJust()=
Checks if the Maybe is a Just.
#+BEGIN_SRC java
final boolean isJust = Maybe.maybe(getValue())
.isJust();
#+END_SRC
**** =boolean isNothing()=
Checks if the Maybe is Nothing.
#+BEGIN_SRC java
final boolean isNothing = Maybe.maybe(getValue())
.isNothing();
#+END_SRC
**** =Optional<T> toOptional()=
Convert the Maybe to an Optional.
#+BEGIN_SRC java
final Optional<Integer> optional = Maybe.maybe(getValue())
.toOptional();
#+END_SRC
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** Result
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Allows handling error conditions without the need to catch exceptions.
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When a =Result= is returned from a method it will contain one of two values.
Either the actual result, or an error in the form of an =Exception=. The
exception is returned within the =Result= and is not thrown.
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#+BEGIN_SRC java
import net.kemitix.mon.result.Result;
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import java.io.IOException;
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class ResultExample implements Runnable {
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public static void main(final String[] args) {
new ResultExample().run();
}
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@Override
public void run() {
Result.of(() -> callRiskyMethod())
.flatMap(state -> doSomething(state))
.match(
success -> System.out.println(success),
error -> error.printStackTrace()
);
}
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private String callRiskyMethod() throws IOException {
return "I'm fine";
}
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private Result<String> doSomething(final String state) {
return Result.of(() -> state + ", it's all good.");
}
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}
#+END_SRC
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In the above example the string ="I'm fine"= is returned by
=callRiskyMethod()= within a successful =Result=. The =.flatMap()= call,
unwraps that =Result= and, as it is a success, passes the contents to
=doSomething()=, which in turn returns a =Result= that the =.flatMap()= call
returns. =match()= is called on the =Result= and, being a success, will call
the success =Consumer=.
Had =callRiskyMethod()= thrown an exception it would have been caught by the
=Result.of()= method which would have then been an error =Result=. An error
Result would have ignored the =flatMap= and skipped to the =match()= when it
would have called the error =Consumer=.
*** =Result= is a Monad
#+BEGIN_SRC java
package net.kemitix.mon;
import net.kemitix.mon.result.Result;
import org.assertj.core.api.WithAssertions;
import org.junit.Test;
import java.util.function.Function;
public class ResultMonadTest implements WithAssertions {
private final int v = 1;
private final Function<Integer, Result<Integer>> f = i -> r(i * 2);
private final Function<Integer, Result<Integer>> g = i -> r(i + 6);
private static Result<Integer> r(int v) {
return Result.ok(v);
}
@Test
public void leftIdentity() {
assertThat(
r(v).flatMap(f)
).isEqualTo(
f.apply(v)
);
}
@Test
public void rightIdentity() {
assertThat(
r(v).flatMap(x -> r(x))
).isEqualTo(
r(v)
);
}
@Test
public void associativity() {
assertThat(
r(v).flatMap(f).flatMap(g)
).isEqualTo(
r(v).flatMap(x -> f.apply(x).flatMap(g))
);
}
}
#+END_SRC
*** Static Constructors
**** =static <T> Result<T> of(Callable<T> callable)=
Create a Result for a output of the Callable.
If the Callable throws and Exception, then the Result will be an error and
will contain that exception.
This will be the main starting point for most Results where the callable
could throw an =Exception=.
#+BEGIN_SRC java
final Result<Integer> okay = Result.of(() -> 1);
final Result<Integer> error = Result.of(() -> {throw new RuntimeException();});
#+END_SRC
**** =static <T> Result<T> ok(T value)=
Create a Result for a success.
Use this where you have a value that you want to place into the Result context.
#+BEGIN_SRC java
final Result<Integer> okay = Result.ok(1);
#+END_SRC
**** =static <T> Result<T> error(Throwable error)=
Create a Result for an error.
#+BEGIN_SRC java
final Result<Integer> error = Result.error(new RuntimeException());
#+END_SRC
*** Static Methods
These static methods provide integration with the =Maybe= class.
#+BEGIN_SRC java
#+END_SRC
**** =static <T> Maybe<T> toMaybe(Result<T> result)=
Creates a =Maybe= from the =Result=, where the =Result= is a success, then
the =Maybe= will contain the value. However, if the =Result= is an error
then the =Maybe= will be nothing.
#+BEGIN_SRC java
final Result<Integer> result = Result.of(() -> getValue());
final Maybe<Integer> maybe = Result.toMaybe(result);
#+END_SRC
**** =static <T> Result<T> fromMaybe(Maybe<T> maybe, Supplier<Throwable> error)=
Creates a =Result= from the =Maybe=, where the =Result= will be an error
if the =Maybe= is nothing. Where the =Maybe= is nothing, then the
=Supplier<Throwable>= will provide the error for the =Result=.
#+BEGIN_SRC java
final Maybe<Integer> maybe = Maybe.maybe(getValue());
final Result<Integer> result = Result.fromMaybe(maybe, () -> new NoSuchFileException("filename"));
#+END_SRC
**** =static <T> Result<Maybe<T>> invert(Maybe<Result<T>> maybeResult)=
Swaps the =Result= within a =Maybe=, so that =Result= contains a =Maybe=.
#+BEGIN_SRC java
final Maybe<Result<Integer>> maybe = Maybe.maybe(Result.of(() -> getValue()));
final Result<Maybe<Integer>> result = Result.invert(maybe);
#+END_SRC
**** =static <T,R> Result<Maybe<R>> flatMapMaybe(Result<Maybe<T>> maybeResult, Function<Maybe<T>,Result<Maybe<R>>> f)=
Applies the function to the contents of a Maybe within the Result.
#+BEGIN_SRC java
final Result<Maybe<Integer>> result = Result.of(() -> Maybe.maybe(getValue()));
final Result<Maybe<Integer>> maybeResult = Result.flatMapMaybe(result, maybe -> Result.of(() -> maybe.map(v -> v * 2)));
#+END_SRC
*** Instance Methods
**** =<R> Result<R> map(Function<T,R> f)=
Applies the function to the value within the Functor, returning the result
within a Functor.
#+BEGIN_SRC java
final Result<String> result = Result.of(() -> getValue())
.map(v -> String.valueOf(v));
#+END_SRC
**** =<R> Result<R> flatMap(Function<T,Result<R>> f)=
Returns a new Result consisting of the result of applying the function to
the contents of the Result.
#+BEGIN_SRC java
final Result<String> result = Result.of(() -> getValue())
.flatMap(v -> Result.of(() -> String.valueOf(v)));
#+END_SRC
**** =<R> Result<R> andThen(Function<T,Callable<R>> f)=
Maps a Success Result to another Result using a Callable that is able to
throw a checked exception.
#+BEGIN_SRC java
final Result<String> result = Result.of(() -> getValue())
.andThen(v -> () -> {throw new IOException();});
#+END_SRC
**** =void match(Consumer<T> onSuccess, Consumer<Throwable> onError)=
Matches the Result, either success or error, and supplies the appropriate
Consumer with the value or error.
#+BEGIN_SRC java
Result.of(() -> getValue())
.match(
success -> System.out.println(success),
error -> System.err.println("error")
);
#+END_SRC
**** =Result<T> recover(Function<Throwable,Result<T>> f)=
Provide a way to attempt to recover from an error state.
#+BEGIN_SRC java
final Result<Integer> result = Result.of(() -> getValue())
.recover(e -> Result.of(() -> getSafeValue(e)));
#+END_SRC
**** =Result<T> peek(Consumer<T> consumer)=
Provide the value within the Result, if it is a success, to the Consumer,
and returns this Result.
#+BEGIN_SRC java
final Result<Integer> result = Result.of(() -> getValue())
.peek(v -> System.out.println(v));
#+END_SRC
**** =Result<T> thenWith(Function<T,WithResultContinuation<T>> f)=
Perform the continuation with the current Result value then return the
current Result, assuming there was no error in the continuation.
#+BEGIN_SRC java
final Result<Integer> result = Result.of(() -> getValue())
.thenWith(v -> () -> System.out.println(v))
.thenWith(v -> () -> {throw new IOException();});
#+END_SRC
**** =Result<Maybe<T>> maybe(Predicate<T> predicate)=
Wraps the value within the Result in a Maybe, either a Just if the
predicate is true, or Nothing.
#+BEGIN_SRC java
final Result<Maybe<Integer>> result = Result.of(() -> getValue())
.maybe(v -> v % 2 == 0);
#+END_SRC
**** =T orElseThrow()=
Extracts the successful value from the result, or throws the error
within a =CheckedErrorResultException=.
#+BEGIN_SRC java
final Integer result = Result.of(() -> getValue())
.orElseThrow();
#+END_SRC
2018-10-04 07:39:38 +01:00
**** =<E extends Exception> T orElseThrow(Class<E> type) throws E=
Extracts the successful value from the result, or throws the error when it
is of the given type. Any other errors will be thrown inside an
=UnexpectedErrorResultException=.
#+BEGIN_SRC java
final Integer result = Result.of(() -> getValue())
.orElseThrow(IOException.class);
#+END_SRC
**** =T orElseThrowUnchecked()=
Extracts the successful value from the result, or throws the error within
an =ErrorResultException=.
#+BEGIN_SRC java
final Integer result = Result.of(() -> getValue())
.orElseThrowUnchecked();
#+END_SRC
**** =void onError(Consumer<Throwable> errorConsumer)=
A handler for error states.
#+BEGIN_SRC java
Result.of(() -> getValue())
.onError(e -> handleError(e));
#+END_SRC
**** =boolean isOkay()=
Checks if the Result is a success.
#+BEGIN_SRC java
final boolean isOkay = Result.of(() -> getValue())
.isOkay();
#+END_SRC
**** =boolean isError()=
Checks if the Result is an error.
#+BEGIN_SRC java
final boolean isError = Result.of(() -> getValue())
.isError();
#+END_SRC
2018-09-30 17:36:29 +01:00
** Tree
A Generalised tree, where each node may or may not have an item, and may have
any number of sub-trees. Leaf nodes are Trees with zero sub-trees.
*** Static Constructors
**** =static <R> Tree<R> leaf(R item)=
Create a leaf containing the item. The leaf has no sub-trees.
#+BEGIN_SRC java
final Tree<String> tree = Tree.leaf("item");
#+END_SRC
**** =static<R> Tree<R> of(R item, Collection<Tree<R>> subtrees)=
Create a tree containing the item and sub-trees.
#+BEGIN_SRC java
final Tree<String> tree = Tree.of("item", Collections.singletonList(Tree.leaf("leaf"));
#+END_SRC
*** Instance Methods
**** =<R> Tree<R> map(Function<T, R> f)=
Applies the function to the item within the Tree and to all sub-trees,
returning a new Tree.
#+BEGIN_SRC java
final Tree<UUID> tree = ...;
final Tree<String> result = tree.map(UUID::toString);
#+END_SRC
**** =Optional<T> item()=
Returns the contents of the Tree node within an Optional.
#+BEGIN_SRC java
final Tree<Item> tree = ...;
final Optional<Item> result = tree.item();
#+END_SRC
**** =int count()=
Returns the total number of items in the tree, including sub-trees. Null
items don't count.
#+BEGIN_SRC java
final Tree<Item> tree = ...;
final int result = tree.count();
#+END_SRC
**** =List<Tree<T> subTrees()=
Returns a list of sub-trees within the tree.
#+BEGIN_SRC java
final Tree<Item> tree = ...;
final List<Tree<Item>> result = tree.subTrees();
#+END_SRC
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** Lazy
A Lazy evaluated expression. Using a Supplier to provide the value, only
evaluates the value when required, and never more than once.
*** Static Constructors
**** =static <R> Lazy<R> of(Supplier<R> supplier)=
Create a new Lazy value from the supplier.
#+BEGIN_SRC java
final Suppler<UUID> supplier = ...;
final Lazy<UUID> lazy = Lazy.of(supplier);
#+END_SRC
*** Instance Methods
**** =boolean isEvaluated()=
Checks if the value has been evaluated.
#+BEGIN_SRC java
final Lazy<UUID> lazy = ...;
final boolean isEvaluated = lazy.isEvaluated();
#+END_SRC
**** =T value()=
The value, evaluating it if necessary.
#+BEGIN_SRC java
final Lazy<UUID> lazy = ...;
final UUID value = lazy.value();
#+END_SRC
**** =<R> Lazy<R> map(Function<T, R> f)=
Maps the Lazy instance into a new Lazy instance using the function.
#+BEGIN_SRC java
final Lazy<UUID> uuidLazy = ...;
final Lazy<String> stringLazy = uuidLazy.map(v -> v.toString());
#+END_SRC
** Either
Allows handling a value that can be one of two types, a left value/type or a
right value/type.
When an =Either= is returned from a method it will contain either a left or a
right.
Where the =Either= is used to represent success/failure, the left case is, by
convention, used to indicate the error, and right the success. An alternative
is to use the =Result= which more clearly distinguishes success from failure.
*** =Either= *is not* a Monad.
*** Static Constructors
**** =static <L, R> Either<L, R> left(final L l)=
Create a new Either holding a left value.
#+BEGIN_SRC java
final Either<Integer, String> left = Either.left(getIntegerValue());
#+END_SRC
**** =static <L, R> Either<L, R> right(final R r)=
Create a new Either holding a right value.
#+BEGIN_SRC java
final Either<Integer, String> right = Either.right(getStringValue());
#+END_SRC
*** Instance Methods
**** =boolean isLeft()=
Checks if the Either holds a left value.
#+BEGIN_SRC java
final boolean leftIsLeft = Either.<Integer, String>left(getIntegerValue()).isLeft();
final boolean rightIsLeft = Either.<Integer, String>right(getStringValue()).isLeft();
#+END_SRC
**** =boolean isRight()=
Checks if the Either holds a right value.
#+BEGIN_SRC java
final boolean leftIsRight = Either.<Integer, String>left(getIntegerValue()).isRight();
final boolean rightIsRight = Either.<Integer, String>right(getStringValue()).isRight();
#+END_SRC
**** =void match(Consumer<L> onLeft, Consumer<R> onRight)=
Matches the Either, invoking the correct Consumer.
#+BEGIN_SRC java
Either.<Integer, String>left(getIntegerValue())
.match(
left -> handleIntegerValue(left),
right -> handleStringValue(right)
);
#+END_SRC
**** =<T> Either<T, R> mapLeft(Function<L, T> f)=
Map the function across the left value.
#+BEGIN_SRC java
final Either<Double, String> either = Either.<Integer, String>left(getIntegerValue())
.mapLeft(i -> i.doubleValue());
#+END_SRC
**** =<T> Either<L, T> mapRight(Function<R, T> f)=
Map the function across the right value.
#+BEGIN_SRC java
final Either<Integer, String> either = Either.<Integer, String>left(getIntegerValue())
.mapRight(s -> s + "x");
#+END_SRC