The Eclipse OMR project is a set of open source C and C++ components that can be used to build robust language runtimes that support many different hardware and operating system platforms.
Our current components are:
gc
: Garbage collection framework for managed heapscompiler
: Components for building compiler technology, such as JIT compilers.jitbuilder
: An easy to use high level abstraction on top of the compiler technology.port
: Platform porting librarythread
: A cross platform pthread-like threading libraryutil
: general utilities useful for building cross platform runtimesomrsigcompat
: Signal handling compatibility libraryomrtrace
: Tracing library for communication with IBM Health Center monitoring toolstool
: Code generation tools for the build systemvm
: APIs to manage per-interpreter and per-thread contextsexample
: Demonstration code to show how a language runtime might consume some Eclipse OMR componentsfvtest
: A language-independent test framework so that Eclipse OMR components can be tested outside of a language runtime
The long term goal for the Eclipse OMR project is to foster an open ecosystem of language runtime developers to collaborate and collectively innovate with hardware platform designers, operating system developers, as well as tool and framework developers and to provide a robust runtime technology platform so that language implementers can much more quickly and easily create more fully featured languages to enrich the options available to programmers.
It is our community's fervent goal to be one of active contribution, improvement, and continual consumption.
We will be operating under the Eclipse Code of Conduct to promote fairness, openness, and inclusion.
- The most comprehensive consumer of the Eclipse OMR technology is the Eclipse OpenJ9 Virtual Machine: a high performance, scalable, enterprise class Java Virtual Machine implementation representing hundreds of person years of effort, built on top of the core technologies provided by Eclipse OMR.
- The Ruby+OMR Technology Preview has used Eclipse OMR components to add a JIT compiler to the CRuby implementation, and to experiment with replacing the garbage collector in CRuby.
- A SOM++ Smalltalk runtime has also been modified to use Eclipse OMR componentry.
- An experimental version of CPython using Eclipse OMR components has also been created but is not yet available in the open. (Our focus has been dominated by getting this code out into the open!)
All Eclipse OMR project materials are made available under the Eclipse Public License 2.0 and the Apache 2.0 license. You can choose which license you wish to follow. Please see our LICENSE file for more details.
There are some active contribution projects underway right now:
- Documentation: code comments are great, but we need more overview documentation so we're writing that
- FAQ: Frequently Asked Questions from real people's questions (request: ask questions!)
- Beginner issues: relatively simple but useful work items meant for people new to the project.
diag
: more diagnostic support for language runtimes to aid developers and usershcagent
: the core code for the IBM Health Center agent for interfacing to a runtimegc
: adding generational and other GC policies
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Join the Eclipse OMR developer community mailing list. The community typically uses this list for project announcements and administrative discussions amongst committers. Questions are welcome here as well.
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Join the Eclipse OMR community Slack workspace. You can join channels that interest you, ask questions, and receive answers from subject matter experts.
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Ask a question or start a discussion via a GitHub issue.
The best way to get an initial understanding of the Eclipse OMR technology is to look at a 'standalone' build, which hooks Eclipse OMR up to the its testing system only.
To build standalone Eclipse OMR, run the following commands from the root of the source tree. For more detailed instructions please read BuildingWithCMake.md.
# Create a build directory and cd into it
mkdir build
cd build
#generate the build system using cmake
cmake ..
# Build (you can optionally compile in parallel by adding -j<N> to the make command)
make
# Run tests (note that no contribution should cause new test failures in testing).
# Use the `-V` option to see verbose output from the tests.
ctest [-V]
The following instructions below demonstrate the steps to build Eclipse OMR on Windows using Visual Studios. In the example Visual Studio 11 2012 Win64 is being used. You can easily switch this to the version of Visual Studio you would like to use.
# Create a build directory and cd into it
mkdir build
cd build
#generate the build system using cmake
cmake -G "Visual Studio 11 2012 Win64" ..
# Build
cmake --build .
# Run tests (note that no contribution should cause new test failures in "make test")
ctest
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Mark Stoodley's talk at the JVM Languages Summit in August, 2015: A VM is a VM is a VM: The Secret Path to High Performance Multi-Language Runtimes
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Daryl Maier's slides from Java One in October, 2015: Beyond the Coffee Cup: Leveraging Java Runtime Technologies for the Polyglot
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Charlie Gracie's slides from Java One in October, 2015: What's in an Object? Java Garbage Collection for the Polyglot
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Angela Lin, Robert Young, Craig Lehmann and Xiaoli Liang CASCON Workshop in November, 2015 Building Your Own Runtime
- Note: these slides have been modified since the original presentation to use the Eclipse OMR project name
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Charlie Gracie's talk from FOSDEM in February, 2016: Ruby and OMR: Experiments in utilizing OMR technologies in MRI
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Charlie Gracie's slides from jFokus in February, 2016 A JVMs Journey into Polyglot Runtimes
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Mark Stoodley's slides from EclipseCON in March, 2016 Eclipse OMR: a modern toolkit for building language runtimes
- Introducing Eclipse OMR: Building Language Runtimes
- JitBuilder Library and Eclipse OMR: Just-In-Time Compilers made easy
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