Manifold is a Java compiler plugin. It supplements Java with:
- Direct, type-safe access to:
- GraphQL
- JSON & JSON Schema, YAML, XML
- CSV
- JavaScript
- etc.
- Extension methods
- Delegation
- Properties
- Tuple expressions
- Operator overloading
- Unit expressions
- A Java template engine
- A preprocessor
- ...and more
All fully supported in JDK LTS releases 8 - 19 + latest with comprehensive IDE support in IntelliJ IDEA and Android Studio. Manifold consists of a set of modules, one for each feature. Simply add the Manifold dependencies of your choosing to your existing project and begin taking advantage of them.
Favor composition over inheritance. Use
@link
and@part
for automatic interface implementation forwarding and delegation.class MyClass implements MyInterface { @link MyInterface myInterface; // transfers calls on MyInterface to myInterface public MyClass(MyInterface myInterface) { this.myInterface = myInterface; // dynamically configure behavior } // No need to implement MyInterface here, but you can override myInterface as needed }
Use the framework to gain direct, type-safe access to any type of resource, such as GraphQL, JSON, XML, YAML, CSV, and even other languages such as JavaScript. Remove the code gen step in your build process. ▶ Check it out!
GraphQL: Use types defined in .graphql files directly, no code gen steps! Make GraphQL changes and immediately use them with code completion.
var query = MovieQuery.builder(Action).build();
var result = query.request("http://com.example/graphql").post();
var actionMovies = result.getMovies();
for (var movie : actionMovies) {
out.println(
"Title: " + movie.getTitle() + "\n" +
"Genre: " + movie.getGenre() + "\n" +
"Year: " + movie.getReleaseDate().getYear() + "\n");
}
JSON: Use .json schema files directly and type-safely, no code gen steps! Find usages of .json properties in your Java code.
// From User.json
User user = User.builder("myid", "mypassword", "Scott")
.withGender(male)
.withDob(LocalDate.of(1987, 6, 15))
.build();
User.request("http://api.example.com/users").postOne(user);
Add your own methods to existing Java classes, even String, List, and File. Eliminate boilerplate code. ▶ Check it out!
String greeting = "hello";
greeting.myMethod(); // Add your own methods to String!
Favor composition over inheritance. Use @link
and @part
for automatic interface implementation forwarding and delegation.
class MyClass implements MyInterface { @link MyInterface myInterface; // transfers calls on MyInterface to myInterface public MyClass(MyInterface myInterface) { this.myInterface = myInterface; // dynamically configure behavior } // No need to implement MyInterface here, but you can override myInterface as needed }
Eliminate boilerplate getter/setter code, improve your overall dev experience with properties.
public interface Book {
@var String title; // no more boilerplate code!
}
// refer to it directly by name
book.title = "Daisy"; // calls setter
String name = book.title; // calls getter
book.title += " chain"; // calls getter & setter
Additionally, the feature automatically infers properties, both from your existing source files and from compiled classes your project uses. Reduce property use from this:
Actor person = result.getMovie().getLeadingRole().getActor();
Likes likes = person.getLikes();
likes.setCount(likes.getCount() + 1);
to this:
result.movie.leadingRole.actor.likes.count++;
Implement operator methods on any type to directly support arithmetic, relational, index, and unit operators.
// BigDecimal expressions
if (bigDec1 > bigDec2) {
BigDecimal result = bigDec1 + bigDec2;
...
}
// Implement operators for any type
MyType value = myType1 + myType2;
Tuple expressions provide concise syntax to group named data items in a lightweight structure.
var t = (name: "Bob", age: "35");
System.out.println("Name: " + t.name + " Age: " + t.age);
var t = (person.name, person.age);
System.out.println("Name: " + t.name + " Age: " + t.age);
You can also use tuples with new auto
type inference to enable multiple return values from a method.
Unit or binding operations are unique to the Manifold framework. They provide a powerfully concise syntax and can be applied to a wide range of applications.
import static manifold.science.util.UnitConstants.*; // kg, m, s, ft, etc
...
Length distance = 100 mph * 3 hr;
Force f = 5.2 kg m/s/s; // same as 5.2 N
Mass infant = 9 lb + 8.71 oz;
Easily work with the Range API using unit expressions. Simply import the RangeFun constants to create ranges.
// imports the `to`, `step`, and other "binding" constants
import static manifold.collections.api.range.RangeFun.*;
...
for (int i: 1 to 5) {
out.println(i);
}
for (Mass m: 0kg to 10kg step 22r unit g) {
out.println(m);
}
Use the manifold-science framework to type-safely incorporate units and precise measurements into your applications.
import static manifold.science.util.UnitConstants.*; // kg, m, s, ft, etc.
...
Velocity rate = 65mph;
Time time = 1min + 3.7sec;
Length distance = rate * time;
Use familiar directives such as #define and #if to conditionally compile your Java projects. The preprocessor offers a simple and convenient way to support multiple build targets with a single codebase. ▶ Check it out!
#if JAVA_8_OR_LATER
@Override
public void setTime(LocalDateTime time) {...}
#else
@Override
public void setTime(Calendar time) {...}
#endif
Unify disparate APIs. Bridge software components you do not control. Access maps through type-safe interfaces. ▶ Check it out!
Map<String, Object> map = new HashMap<>();
MyThingInterface thing = (MyThingInterface) map; // O_o
thing.setFoo(new Foo());
Foo foo = thing.getFoo();
out.println(thing.getClass()); // prints "java.util.HashMap"
Access private features with @Jailbreak to avoid the drudgery and vulnerability of Java reflection. ▶ Check it out!
@Jailbreak Foo foo = new Foo();
// Direct, *type-safe* access to *all* foo's members
foo.privateMethod(x, y, z);
foo.privateField = value;
You now have an option to make checked exceptions behave like unchecked exceptions! No more unintended exception swallowing. No more try/catch/wrap/rethrow boilerplate!
List<String> strings = ...;
List<URL> urls = strings.stream()
.map(URL::new) // No need to handle the MalformedURLException!
.collect(Collectors.toList());
Embed variables and expressions in String literals, no more clunky string concat! ▶ Check it out!
int hour = 15;
// Simple variable access with '$'
String result = "The hour is $hour"; // Yes!!!
// Use expressions with '${}'
result = "It is ${hour > 12 ? hour-12 : hour} o'clock";
Author template files with the full expressive power of Java, use your templates directly in your code as types. Supports type-safe inclusion of other templates, shared layouts, and more. ▶ Check it out!
List<User> users = ...;
String content = abc.example.UserSample.render(users);
A template file abc/example/UserSample.html.mtl
<%@ import java.util.List %>
<%@ import com.example.User %>
<%@ params(List<User> users) %>
<html lang="en">
<body>
<% for(User user: users) { %>
<% if(user.getDateOfBirth() != null) { %>
User: ${user.getName()} <br>
DOB: ${user.getDateOfBirth()} <br>
<% } %>
<% } %>
</body>
</html>
Use the Manifold plugin to fully leverage Manifold with IntelliJ IDEA and Android Studio. The plugin provides comprehensive support for Manifold including code completion, navigation, usage searching, refactoring, incremental compilation, hotswap debugging, full-featured template editing, integrated preprocessor, and more.
Get the plugin from JetBrains Marketplace
The Manifold project consists of the core Manifold framework and a collection of sub-projects implementing SPIs provided by the core framework. Each project consists of one or more dependencies you can easily add to your project:
Manifold : GraphQL
Manifold : JSON
Manifold : XML
Manifold : YAML
Manifold : CSV
Manifold : Property Files
Manifold : Image
Manifold : Dark Java
Manifold : JavaScript
Manifold : String Interpolation
Manifold : (Un)checked Exceptions
Manifold : Collections
Manifold : I/0
Manifold : Text
Experiment with sample projects:
Manifold supports:
Comprehensive IDE support is also available for IntelliJ IDEA and Android Studio.
Join our Slack Group to start a discussion, ask questions, provide feedback, etc. Someone is usually there to help.