Proposals
Eclipse Ceylon consists in a number of components:
-
The Ceylon distribution, which is composed of the following modules:
-
ceylon-typechecker (compiler front-end), which includes the parser, AST and type-checker
-
ceylon-model: describes a type-checked Ceylon program (this is what the type-checker outputs), and provides a facility for turning a JVM class into a Ceylon model
-
The Eclipse GEMOC Studio offers a framework for designing and integrating EMF-based modeling languages. The framework provides a generic interface to plug in different execution engines associated to their specific metalanguages used to define the discrete-event operational semantics, and the behavioral coordination, of DSLs. It also integrates generic runtime services that are shared among the approaches used to implement the execution semantics, such as graphical animation or omniscient debugging.
The Eclipse sensiNact project consists of a software platform enabling the collection, processing and redistribution of any data relevant to improving the quality of life of urban citizens, programming interfaces allowing different modes of access to data (on-demand, periodic, historic, etc.) and application development and deployment to easily and rapidly build innovative applications on top of the platform.
The project includes the necessary code to easily set up syntax highlighting for a wide diversity of languages in the Eclipse IDE, but reusing TextMate grammars.
The default integration is to provide features into the Platform's Generic and Extensible editor, but some code may be used as API to let integration be done with other Eclipse-based editors.
The JNoSQL is a several tools to make easy an integration between the Java Application with the NoSQL. To solve this problem the project have two layers:
- Communication API: An API just to communicate with the database, exactly what JDBC does to SQL. This API has four specializations, one for each kind of database.
Software embedded in cars, planes, or industrial robots (so-called "cyber-physical" systems) is very different than desktop or web applications: they intrinsically have tight interactions with the physical world and with humans. Consequently, bugs can have dramatic consequences and it is, therefore, essential for such software to be extremely reliable. At the same time, this software is in charge of many different functions, is generally distributed across the physical system, and has strong real-time constraints.
The project includes the necessary code to integrate any language server in the Eclipse IDE, interacting with the language server: it orchestrates the request to the language servers and presents the response in the usual IDE metaphors so users can manipulate them.
The default integration is to provide features into the Platform's Generic and Extensible editor, but some code may be used as API to let integration be done with other Eclipse-based editors.
Some examples of integration are:
The Eclipse MicroProfile project is aimed at optimizing Enterprise Java for the microservices architecture.
Many innovative "microservice" Enterprise Java environments already exist in the Java ecosystem, including but not limited to:
- Wildfly Swarm
- WebSphere Liberty
- Payara
- TomEE
- ...
These projects are creating new features and capabilities to address microservice architectures -- leveraging both Java EE and non-Java EE technologies.
This project provides a Java API for JSON Binding; it is designed to provide a standard binding layer between Java classes and JSON documents.
See projects page on JCP.org for more information.
This proposal is created for JSONB API reference implementation.
The Eclipse Agail is a language-agnostic, modular software gateway framework for the Internet of Things with support for protocol interoperability, device and data management, IoT apps execution, and external Cloud communication.
A framework both for developers who wish to quickly prototype IoT solutions but also for end users who want to easily customise their gateway based on their context and have full control of their data and devices.
The following image visualises the AGAIL structure: