--- layout: developer-doc title: Polyglot Java category: polyglot tags: [polyglot, java] order: 3 --- # Polyglot Java This document deals with the implementation of polyglot interoperation with Java in the runtime. Please familiarise yourself with the general operation of [polyglot bindings](./polyglot-bindings.md). - [Class Lookup](#class-lookup) - [Polyglot Library System](#polyglot-library-system) - [Polyglot Syntax System](#polyglot-syntax-system) ## Class Lookup In order for the Enso runtime to effectively find Java objects for working with in a polyglot fashion, it will look in the `polyglot/java` subdirectory of an Enso project. This directory has the following requirements placed on it. - The top level of the `java` directory should contain only `.jar` files and directories. - Each directory must provide a valid class-path structure, with `.class` files at the appropriate points. - Both `.jar` files and directories are added to the runtime class-path for Enso, and hence be made available to Enso programs. > The actionables for this section are: > > - In future, we want to expand this to support `.class` files directly, and > maybe even compiling Java code. ## Polyglot Library System The dynamic polyglot system is a dynamic runtime lookup for Java objects, allowing Enso code to work with them through a runtime reflection-style mechanism. It is comprised of the following components: - `Java.lookup_class : Class.Path -> Maybe Class`: A function that lets users look up a class by a given name on the runtime classpath. - `Polyglot.instantiate : Class -> Object`: A function that lets users instantiate a class into an object. - A whole host of functions on the polyglot type that let you dynamically work with object bindings. An example can be found below: ```ruby main = class = Java.lookup_class "org.enso.example.TestClass" instance = Polyglot.instantiate1 class (x -> x * 2) method = Polyglot.get_member instance "callFunctionAndIncrement" Polyglot.execute1 method 10 ``` > The actionables for this section are: > > - Expand on the detail when there is time. ## Polyglot Syntax System The static system, however, lets us do much better in terms of user experience. Instead of having to dynamically look things up at runtime, we can instead do the following: - Statically resolve imports of polyglot bindings within the project to make sure that they are available. - Create java-compatible object entities that dynamically look up and dispatch both static methods on classes (by name), and methods on objects (by name). This includes the constructor. - This invocation syntax is integrated into Enso as variadic methods, allowing us to deal with the inter-language impedance mismatch. An example can be found below: ```ruby polyglot java import com.example.MyClass as MyClassJava main = x = MyClassJava.foo [1, 2, 3] inst = MyClassJava.new [a, b, c] bar = inst.methodName [x, y] ``` > The actionables for this section are: > > - Expand on the detail as the implementation becomes clear.