/*! \page bindings Bindings
-\section bindings_binding_Ruby Ruby Binding
+\section MSG_Ruby Ruby Binding
Check online for our specific [Simgrid-Ruby documentation](http://simgrid.gforge.inria.fr/documentation.html).
-\section bindings_binding_Java Java Binding
+\section MSG_Java Java Binding
Simgrid-java is a java API that let you use [Simgrid](http://simgrid.gforge.inria.fr/)
MSG API in your favorite language (java). Without it, you would be forced to
use C or one of the other bindings provided.
\subsubsection bindings_binding_java_use How to use Simgrid-java
To execute the examples you need to add the path where you installed
-the generated `libSG_java` and `libsimgrid` libraries
+the generated `libsimgrid-java` and `libsimgrid` libraries
into the `LD_LIBRARY_PATH`.
Be careful on Mac, this variable is called `DYLD_LIBRARY_PATH` and not
$ export SIMGRID_ROOT="$HOME/Install/simgrid/" # change it to the path where you installed the SimGrid library
$ export LD_LIBRARY_PATH=${LD_LIBRARY_PATH:+$LD_LIBRARY_PATH:}$SIMGRID_ROOT/lib
$ cd examples
-$ java -cp .:../simgrid.jar basic/BasicTest platform.xml basic/basicDeployment.xml
+$ java -classpath .:../simgrid.jar basic/BasicTest platform.xml basic/basicDeployment.xml
~~~~
If you want to make these settings permanent even after a reboot, you
~~~~{.sh}
sudo apt-get install mercurial ksh libfreetype6-dev libcups2-dev libasound2-dev gawk openjdk-7-jdk libxext-dev libxrender-dev libxtst-dev
# Grab the forest extension: we need to source-install it
-hg clone https://bitbucket.org/gxti/hgforest hgforest \endverbatim
+hg clone https://bitbucket.org/gxti/hgforest hgforest
~~~~
-# Configure the mercurial extensions: Edit ~/.hgrc and paste the
following lines. Don't forget to change the /path/to/forest.py to
# 9707849 patches/hotspot/series
# 9707849 sources/hotspot/.hg/patches/series
-
# Specify what to compile.
-export davinci=$(pwd) guards="buildable testable coro-simple"
+export davinci=${pwd} guards="buildable testable coro-simple"
# Apply the patches
-sh patches/make/each-patch-repo.sh hg qselect --reapply $guards '$(sh $davinci/patches/make/current-release.sh)'
+sh patches/make/each-patch-repo.sh hg qselect --reapply $guards `sh $davinci/patches/make/current-release.sh`
# Check that it understood that you want the patch applied:
-grep GLOBAL_GUARDS patches/make/* -r
+grep -r GLOBAL_GUARDS patches/make/
# this should display something like the following (maybe amonst other unrelated lines)
# GLOBAL_GUARDS=buildable testable coro-simple
# If this does not work, edit patches/make/Makefile,
# Finish the setup
-(cd patches/make; make setup && make force && make && make FORCE_VERSIONS=1 && echo "Sources are properly setup")
-# If this last command failed, check your mercurial config within ~/.hgrc (see above)
-~~~~
+cd patches/make;
+make setup && make force && make && make FORCE_VERSIONS=1 && echo "Sources are properly setup"
+# If this last command failed, check your mercurial config within ~/.hgrc (see above)
+~~~~
-# Compile it all
~~~~{.sh}
unset LD_LIBRARY_PATH
simulation with the correct JVM. The selected context factory gets
displayed automatically.
~~~~{.sh}
-export LD_LIBRARY_PATH=/path/to/simgrid.so:/path/to/libSG_java.so
+export LD_LIBRARY_PATH=/path/to/simgrid.so:/path/to/libsimgrid-java.so
cd examples
-$PATH_TO_COROUTINE_JVM/java -cp .:../simgrid.jar masterslave.Masterslave masterslave/ masterslaveDeployment.xml platform.xml
+$PATH_TO_COROUTINE_JVM/java -classpath .:../simgrid.jar masterslave.Masterslave masterslave/ masterslaveDeployment.xml platform.xml
~~~~
Note that you may have to adjust the "coro.stacksPerThread"
configuration option to run large simulations. The default is 100 and
you want to increase it to run more processes.
~~~~{.sh}
-$ $PATH_TO_COROUTINE_JVM/java -Dcoro.stacksPerThread=$STACKS_NUMBER -cp .:../simgrid.jar basic/BasicTest platform.xml basic/basicDeployment.xml
+$ $PATH_TO_COROUTINE_JVM/java -Dcoro.stacksPerThread=$STACKS_NUMBER -classpath .:../simgrid.jar basic/BasicTest platform.xml basic/basicDeployment.xml
~~~~
If you reach the point where the creation of new simulated processes