This project provides the R server connector for Spotfire® Data Science.
To get the project running:
(1) Create a new build by executing: ./sbt assembly (2) cd to ./scripts (3) make a symlink to the assembled R Connector for Spotfire Data Science: ln -s ../server/target/scala-2.10/alpine-r-connector.jar (4) start the server by executing: ./start_services.sh
For licensing reasons, the master project was broken up into subprojects, each of which may have independent licensing. Specifically:
- The server depends on the Rserve/RserveEngine jar files, which are licensed under GPL (probably v3, but not specified by the project's author). The server also depends on Akka, which is licensed under ASF 2.0. With GPL being the more commerically restrictive license, and with the Apache-licensed software being OK to include in GPL-licensed projects, the server is licensed as GPL v3. The source files under GPL include the GPL text in the header. The license itself is provided under the server project's root directory.
- The Akka message case classes messages/ subproject have no dependencies at all, they are licensed under Apache 2.0 License.
- The client is provided for demonstration purposes only - it does not serve any particular purpose. Since it depends on Akka and the previously mentioned message case classes, it is licensed under the Apache 2.0 License.
- The master build file and related files in the project/ directory do not depend on the software it is meant to build. They can be used to build any Java/Scala code, therefore they are not bound by any license. However, since the build file currently lists the Akka dependencies in the build definition (but not the GPL Rserve jars, which are unmanaged), the build files are licensed under the Apache 2.0 License.
You do not need to use the master build file if you do not want to - particularly if you don't care about the sample client demo. However, for a quick demo, do the following:
- Install R. This can be done in many ways, e.g.:
- CentOS/RHEL:
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install EPEL, e.g.
$rpm -ivh http://mirror.chpc.utah.edu/pub/epel/6Server/x86_64/2ping-2.0-2.el6.noarch.rpm
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install R
$yum install R
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- Fedora:
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install R
$yum install R
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- Ubuntu:
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install R
$sudo apt-get install R
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- In general, you can simply wget the existing RHEL/Debian and other packages from here
- For other options, see here.
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Run the R script found here. It will install the Rserve package from CRAN if it's not already installed, start the Rserve TCP listener, and keep R running until the master R process terminates. For extra protection, use nohup as follows:
$nohup R CMD BATCH server/scripts/RunRserve.R ./r_log.txt &
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Check the log file ("r_log.txt" in the above example for failures).
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Get SBT 0.13.2 or later (warning, the build was only tested with this specific version). You can find all the information for your OS here.
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Start SBT at the root of the project, i.e. here. Use the interactive mode the first time to get feedback about each step, instead of having SBT fail one task and shutting down.
$sbt // in case you need to reload the build definition > reload // update dependencies > update // clean target directory > clean // compile all projects > compile // run main class in the sample_client subproject > sample_client/run // run unit tests (currently only for the server) > test // package jars without dependencies (will need to be on the classpath) > package // assemble "uber jar" file with all dependencies // (Scala, Akka, Rserve, message beans, etc.) > assembly // assemble just the server (with Scala/Akka/Rserve/messages) // but without the sample_client code > server/assembly
After running package/assembly, pick up the jars from their respective directories. For example, the messages jar shouldn't contain dependencies unless the client code doesn't have scala-library.jar on the path. If it does, then you can build the messages jar for your own client code as follows on the sbt shell:
$sbt messages/package
and then you can pick up the jar from messages/target/scala-2.10/messages_2.10-0.1.jar. If your client does not have scala-library.jar on its claspath, you can make an assembly file instead
$sbt messages/assembly
and you can pick up the jar from messages/target/scala-2.10/messages-assembly-0.1.jar. The server should be amost surely built using assembly as opposed to package, so you can do
$sbt server/assembly
and you can then pick up the jar from server/target/scala-2.10/server-assembly-0.1.jar. 6. The Typesafe config file found in the config subdirectory of this project can be used as a set of defaults for the server. Once you have the server assembly jar and the config file, copy them to any directory you wish. Here I assume that the jar and the config are in the same directory, but they can be different if the config's path is correctly specified as either relative or absolute. For example, for the jar and the config in the same directory, you can start the server as follows:
$java -Dconfig.file=./application.conf -jar ./server-assembly-0.1.jar
If the conf file is in a different directory, simply specify the desired path. 7. Note that you can change certain parameters of the Akka R server in the config file. For example, you can choose the server to run on a port different than 2553, and the client to run on a port different than 2552. In fact, you could remove the client section altogether. The minimal server configuration serves as the default. 8. For your own client code builds, you will need the message jar and the Akka library. The code found in the client/ subproject shows an example. You can publish the messages jar in your local SBT/ivy2 repository using sbt
$sbt messages/publish-local
or you can publish it in your favorite repository management system. You will also need to add the correct Akka and Scala library versions to your client project. Currently, the project uses Scala 2.11.8 and Akka 2.3.11.
After ensuring that R is installed, execute the prepare_services.sh script within the scripts/ directory to install essential packages for the R server.
The processes can be started using the start_services.sh and stop_services.sh shell scripts. Also see this page .
The R Connector for Spotfire Data Science was shown to work on CentOS 5 and 6, with Oracle and OpenJDK 6 , SBT 0.13.2, Scala 2.11.8, Akka 2.3.11 and R 3.0.3 ("Warm Puppy").