Difference between revisions of "Sage"
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<br>For the optional packages, as most didn't change their version, I transferred them from the old install to /opt/sage-2.10.3/spkg/optional before installing them with <code>sage -i ''package''</code> |
<br>For the optional packages, as most didn't change their version, I transferred them from the old install to /opt/sage-2.10.3/spkg/optional before installing them with <code>sage -i ''package''</code> |
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<br>Note that this full installation relied on the scripts & setup I installed before, cf the initial installation described at the top of the page. |
<br>Note that this full installation relied on the scripts & setup I installed before, cf the initial installation described at the top of the page. |
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− | == |
+ | ===Install 2.11=== |
+ | To upgrade to 2.11 I simply took the full sources under /opt/sage-2.11, did <code>make</code> |
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⚫ | |||
+ | <br>and modified the path in /usr/local/bin/sage |
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+ | <br>I also ran <code>make test</code> and that was ok. |
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+ | <br>But on a second machine I got an error at compile time, g++ killed. That was due to exhaused memory so I stopped the Sage notebook during the compilation of the new version and it went fine. |
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+ | |||
+ | TODO: transfer the optional packages |
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+ | ===Install 3.0.3=== |
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+ | Same as usual, no special comment. |
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+ | ===Install 3.1.1=== |
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+ | This time I tried successfully the pre-compiled version at http://sage.apcocoa.org/linux/64bit/sage-3.1.1-debian64-opteron-x86_64-Linux.tar.gz |
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+ | and modified the path in /usr/local/bin/sage |
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+ | <br>Then run sage as the install user |
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+ | ---------------------------------------------------------------------- |
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+ | | SAGE Version 3.1.1, Release Date: 2008-08-17 | |
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+ | | Type notebook() for the GUI, and license() for information. | |
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+ | ---------------------------------------------------------------------- |
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+ | The SAGE install tree may have moved. |
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+ | Regenerating Python.pyo and .pyc files that hardcode the install PATH (please wait at most a few minutes)... |
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+ | Please do not interrupt this. |
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+ | ===Install 5.0.1=== |
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+ | root@sagemath:~# su -s /bin/bash - sage |
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+ | sage@sagemath:~$ cd /opt |
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+ | sage@sagemath:/opt$ tar -x --lzma -f sage-5.0.1-linux-64bit-ubuntu_10.04.3_lts-x86_64-Linux.tar.lzma |
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+ | sage@sagemath:/opt$ ln -s sage-5.0.1-linux-64bit-ubuntu_10.04.3_lts-x86_64-Linux sage |
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+ | sage@sagemath:~$ sage |
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+ | ====Gurobi backend==== |
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+ | cf http://www.sagemath.org/doc/thematic_tutorials/linear_programming.html |
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+ | <br>If no direct Internet connection is available: |
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+ | $ ssh -R8008:apps.gurobi.com:8008 root@sagemath |
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+ | root@sagemath:~# su -s /bin/bash - sage |
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+ | sage@sagemath:~$ /opt/gurobi500/linux64/bin/grbgetkey --server=127.0.0.1 --verbose abcdefgh-1234-1234-1234-123456789abc |
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+ | => /home/sage/gurobi.lic |
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+ | sage@sagemath:~$ ln -s /opt/gurobi500/linux64/include/gurobi_c.h /opt/sage/local/include |
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+ | sage@sagemath:~$ ln -s /opt/gurobi500/linux64/lib/libgurobi.so.5.0.0 /opt/sage/local/lib/libgurobi.so |
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+ | sage@sagemath:~$ sage -b |
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+ | |||
⚫ | |||
+ | ===Client tuning=== |
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If you want to install the jsMath fonts locally on your client for a faster rendering: |
If you want to install the jsMath fonts locally on your client for a faster rendering: |
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<br>[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html Download TEX fonts] and install them either in ~/.fonts/ or C:\Windows\Fonts |
<br>[http://www.math.union.edu/~dpvc/jsMath/download/jsMath-fonts.html Download TEX fonts] and install them either in ~/.fonts/ or C:\Windows\Fonts |
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+ | ===Server tuning=== |
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+ | You can also install [http://www.sagemath.org:9002/sage_trac/ticket/1971 the fonts as images on the server] so that clients without the TeX fonts will still see a proper result. It's not part of the standard Sage install by default because of its size (80Mb). |
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+ | sage$ sage -i jsmath-image-fonts-1.3 |
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+ | |||
==SSH & X11 PortForwarding== |
==SSH & X11 PortForwarding== |
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===SAGE console via ssh=== |
===SAGE console via ssh=== |
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sage: singular.eval('plot(I(1));') |
sage: singular.eval('plot(I(1));') |
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"Press q to exit from 'surf'" |
"Press q to exit from 'surf'" |
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+ | |||
+ | ==Importing Python packages== |
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+ | ===System wide Python packages=== |
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+ | install the package |
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+ | # python setup.py install |
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+ | '''or''' add the --record option to make a list of files which where installed for easy removal later |
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+ | # python setup.py install --record install.log |
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+ | append the python path in sage |
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⚫ | |||
+ | sage: sys.path.append('/usr/lib/python2.5/site-packages') |
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+ | import the package, for example: |
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+ | sage: import M2Crypto |
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+ | removal of the package: |
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+ | cat install.log | xargs rm |
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+ | ====Alternative way to install python package==== |
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+ | On Red Hat/Fedora: |
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+ | $ python setup.py bdist_rpm |
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+ | On Debian/Ubuntu: |
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+ | <br>Same step then use alien to transform the .rpm into a .deb |
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+ | |||
+ | => easy removal of the python package is possible |
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+ | |||
+ | ===Import to local Sage Python path=== |
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+ | install the script to the Sage Python path |
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+ | $ sage-python setup.py install |
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+ | in sage: just import, that's it |
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+ | sage: import M2Crypto |
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+ | ===Import user Python modules=== |
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+ | It will be soon possible for a user without administrator privileges on the server to import the path to their module in a more elegant way than the sys.path.append(), cf [http://trac.sagemath.org/sage_trac/ticket/3784] |
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+ | <br><cite>I propose offering a workaround, e.g. SAGE_PYTHONPATH which *does* get appended to PYTHONPATH on startup.</cite> |
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+ | ==[[Python|Installing development Python packages]]== |
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==Interfaces to proprietary software== |
==Interfaces to proprietary software== |
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---------------------------------------------------------------------- |
---------------------------------------------------------------------- |
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sage: sh.eval("xmaple") |
sage: sh.eval("xmaple") |
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− | ==SAGE & cryptology== |
+ | ==[[SAGE & cryptology]]== |
− | ===Discussions=== |
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− | * http://groups.google.com/group/sage-devel/browse_thread/thread/9557f299b1ec2fab?hl=en |
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− | ===Available=== |
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− | * sage.crypto |
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− | * Sage ships [http://www.amk.ca/python/code/crypto PyCrypto]<br>which implements many standard cryptographic algorithms. <br>It is not really meant for research/education/playing around but for production code but maybe something could be done to have easier access to it from within Sage. <br>The docstring level documentation is horrible: |
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− | sage: Crypto.Cipher.IDEA? |
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− | x.__init__(...) initializes x; see x.__class__.__doc__ for signature |
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− | * [http://echidna.maths.usyd.edu.au/~kohel/tch/Crypto/index.html book written on Cryptography by David Kohel], using SAGE |
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− | * ? openssl & pyopenssl optional packages |
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− | |||
− | ===Wishes=== |
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− | * [http://www.sagemath.org:9002/sage_trac/report/1?sort=ticket&asc=0 General trac] |
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− | * sage.crypto: block ciphers |
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− | * Someone needs to replace FiniteField_ext_pari with the two NTL implementations (they are much faster). |
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− | * elliptic and hyperelliptic curves over finite fields support is rather poor |
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− | * algebraic aspects received some attention for the cryptanalysis of symmetric cryptographic algorithms, i.e. the cryptanalyst expresses the cipher as a large set of multivariate polynomials and attempts to solve the system. The most common case over GF(2) is handled by PolyBoRi. This library is the backbone of BooleanPolynomialRing and friends. This class needs testing, documentation, extension and bugfixes. Basically someone should sit down and add all the methods of MPolynomial[Ring]_libsingular to BooleanPolynomial[Ring] which make sense, add a ton of doctests and test the hell out of the library to make sure no SIGSEGVs surprise the user. |
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− | * the module sage.crypto.mq is also relevant for the above. |
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− | * Univariate polynomials over GF(2) are still implemented via NTL's ZZ_pX class rather than GF2X. This should be changed. Also [http://trac.sagemath.org/sage_trac/ticket/2114 this ticket] has a link to gf2x a very small drop in replacement C library which claimed to be 5x faster than NTL. Though, a formal vote is needed to get it into Sage. |
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− | * At the end of the day everything boils down to linear algebra. So if you improve that, everybody wins. Sparse linear algebra mod p is still too slow (Ralf-Phillip Weinmann did some work here wrapping code from eclib), there isn o special implementation for sparse linear algebra over GF(2) (both blackbox and e.g. reduced echelon forms), dense LA over GF(2) needs Strassen multiplication/reduction, dense LA over GF(2^n) should probably get implemented. |
Latest revision as of 09:47, 16 July 2012
Installations & upgrades
Initial installation 2.10
Some notes on the installation of Sage (v2.10) in a vserver:
Create a vserver, remove tmpfs /tmp in /etc/vservers/sage/fstab as 16M is too short for compilation
Create an account for the compilation
# adduser --disabled-password --shell /bin/false sage
Install packages needed for the compilation + some for runtime
# apt-get install gcc-4.1-base make m4 bison flex tar perl binutils \ libstdc++6-dev g++ openssh-client \ less screen imagemagick
Download and compile sources
# cd /opt # export http_proxy=http://proxy....:8080 # wget http://www.sagemath.org/dist/src/sage-2.10.tar # tar xf sage-2.10.tar # chown -R sage:sage * # su -s /bin/bash - sage sage$ cd /opt/sage-2.10/ sage$ make
Time for triple coffee...
To maintain the installation and install optional packages:
sage$ export http_proxy=http://proxy....:8080 sage$ ./sage -upgrade sage$ ./sage -optional sage$ ./sage -i extra_docs- sage$ ./sage -i openssl-0.9.8d.p1 sage$ ./sage -i pyopenssl-0.6 sage$ ./sage -i gap_packages-4.4.10_3 sage$ ./sage -i database_gap-4.4.10 ...
Create an account to run sage as webserver
# adduser --disabled-password --shell /bin/false saged # cp /opt/sage-2.10/sage /home/install
Edit the launch script /home/install/sage to point to the right directory:
SAGE_ROOT="/opt/sage-2.10" # ln -s /home/install/sage /usr/local/bin
To start & stop the webserver as a real daemon, in a screen session, save the following script as /home/install/saged:
#! /bin/sh # Author: Philippe Teuwen # Do NOT "set -e" PATH=/usr/sbin:/usr/bin:/sbin:/bin DESC="Launching SAGE webserver" NAME=sage PIDFILE=/var/run/$NAME.pid SCRIPTNAME=/etc/init.d/$NAME DAEMON=/usr/local/bin/sage HOST="fqdn.of.the.server" PORT="8000" ARGS="-c \"notebook(address=\\\"$HOST\\\",port=$PORT,accounts=true)\"" USER=saged # Exit if mysql client is not installed [ -x "$DAEMON" ] || exit 0 # Load the VERBOSE setting and other rcS variables [ -f /etc/default/rcS ] && . /etc/default/rcS # Define LSB log_* functions. # Depend on lsb-base (>= 3.0-6) to ensure that this file is present. . /lib/lsb/init-functions # # Function that starts the daemon/service # do_start() { if [ -e $PIDFILE ]; then if ps -p $(cat $PIDFILE) >/dev/null; then echo -n -e "\nError: $NAME seems to be already running!" return 1 else rm -f $PIDFILE fi fi screen -d -m -S sage su -s /bin/bash - $USER -c "$DAEMON $ARGS" sleep 1 # PID of screen PID=$(screen -ls sage|grep sage|sed 's/[[:space:]]*\([0-9]\+\)\..*/\1/') # PID of su PID=$(ps --ppid $PID -o pid --no-headers) # PID of sage PID=$(ps --ppid $PID -o pid --no-headers) echo $PID > $PIDFILE } # # Function that stops the daemon/service # do_stop() { if [ -e $PIDFILE ]; then PID=$(cat $PIDFILE) if ps -p $PID > /dev/null; then # kill script kill $PID rm -f $PIDFILE return 0 else echo -e "\nWarning: $NAME was not running." echo -n -e "\nCleaning PID file" rm -f $PIDFILE return 1 fi else echo -n -e "\nWarning: $NAME was not running" return 1 fi } case "$1" in start) [ "$VERBOSE" != no ] && log_daemon_msg "Starting $DESC" "$NAME" do_start case "$?" in 0|1) [ "$VERBOSE" != no ] && log_end_msg 0 ;; 2) [ "$VERBOSE" != no ] && log_end_msg 1 ;; esac ;; stop) [ "$VERBOSE" != no ] && log_daemon_msg "Stopping $DESC" "$NAME" do_stop case "$?" in 0|1) [ "$VERBOSE" != no ] && log_end_msg 0 ;; 2) [ "$VERBOSE" != no ] && log_end_msg 1 ;; esac ;; restart|force-reload) # # If the "reload" option is implemented then remove the # 'force-reload' alias # log_daemon_msg "Restarting $DESC" "$NAME" do_stop case "$?" in 0|1) do_start case "$?" in 0) log_end_msg 0 ;; 1) log_end_msg 1 ;; # Old process is still running *) log_end_msg 1 ;; # Failed to start esac ;; *) # Failed to stop log_end_msg 1 ;; esac ;; *) echo "Usage: $SCRIPTNAME {start|stop|restart|force-reload}" >&2 exit 3 ;; esac :
If you don want anybody to be able to create an account (which gives access to bash!!), remove ",accounts=true" from ARGS.
Install the script:
# ln -s /home/install/saged /etc/init.d # update-rc.d saged defaults 99 01
Upgrade to 2.10.1
I had many troubles because of a caching proxy
A ticket was filled for this issue: http://trac.sagemath.org/sage_trac/ticket/2043
Meanwhile I tried to get around so I copied manually
http://www.sagemath.org/packages/standard/list -> /opt/sage-2.10/spkg/standard http://www.sagemath.org/packages/standard/deps -> /opt/sage-2.10/spkg/standard http://www.sagemath.org/packages/standard/newest_version -> /opt/sage-2.10/spkg/standard http://www.sagemath.org/packages/standard/README -> /opt/sage-2.10/spkg/standard http://www.sagemath.org/packages/install -> /opt/sage-2.10/spkg
then I had to avoid that download happens during sage -upgrade:
/opt/sage-2.10/local/bin/sage-update lines download_file("standard/list") etc
During sage -upgrade the version control system prompted me, I guess for the sage-update script, I simply quitted the changelog editor and it continued.
But now I see that the upgrade of sage_scripts-2.10.1 was not complete.
The solution to ignore local changes is to delete the directory local/bin/.hg and install again the scripts package:
sage -f sage_scripts-2.10.1
I had also to install a zlib headers package because libpng compilation failed using the local zlib headers.
apt-get install zlib1g-dev
A ticket was filled for this issue: http://trac.sagemath.org/sage_trac/ticket/2043
I tested it:
apt-get remove zlib1g-dev cd /opt/sage-2.10/spkg/standard wget http://sage.math.washington.edu/home/mabshoff/SPKG/libpng-1.2.22.p5.spkg sage -i libpng-1.2.22.p5
But still the same error, ongoing...
Install 2.10.3
To upgrade to 2.10.3 I simply took the full sources under /opt/sage-2.10.3, did make
and modified the path in /usr/local/bin/sage
For the optional packages, as most didn't change their version, I transferred them from the old install to /opt/sage-2.10.3/spkg/optional before installing them with sage -i package
Note that this full installation relied on the scripts & setup I installed before, cf the initial installation described at the top of the page.
Install 2.11
To upgrade to 2.11 I simply took the full sources under /opt/sage-2.11, did make
and modified the path in /usr/local/bin/sage
I also ran make test
and that was ok.
But on a second machine I got an error at compile time, g++ killed. That was due to exhaused memory so I stopped the Sage notebook during the compilation of the new version and it went fine.
TODO: transfer the optional packages
Install 3.0.3
Same as usual, no special comment.
Install 3.1.1
This time I tried successfully the pre-compiled version at http://sage.apcocoa.org/linux/64bit/sage-3.1.1-debian64-opteron-x86_64-Linux.tar.gz
and modified the path in /usr/local/bin/sage
Then run sage as the install user
---------------------------------------------------------------------- | SAGE Version 3.1.1, Release Date: 2008-08-17 | | Type notebook() for the GUI, and license() for information. | ---------------------------------------------------------------------- The SAGE install tree may have moved. Regenerating Python.pyo and .pyc files that hardcode the install PATH (please wait at most a few minutes)... Please do not interrupt this.
Install 5.0.1
root@sagemath:~# su -s /bin/bash - sage sage@sagemath:~$ cd /opt sage@sagemath:/opt$ tar -x --lzma -f sage-5.0.1-linux-64bit-ubuntu_10.04.3_lts-x86_64-Linux.tar.lzma sage@sagemath:/opt$ ln -s sage-5.0.1-linux-64bit-ubuntu_10.04.3_lts-x86_64-Linux sage sage@sagemath:~$ sage
Gurobi backend
cf http://www.sagemath.org/doc/thematic_tutorials/linear_programming.html
If no direct Internet connection is available:
$ ssh -R8008:apps.gurobi.com:8008 root@sagemath root@sagemath:~# su -s /bin/bash - sage sage@sagemath:~$ /opt/gurobi500/linux64/bin/grbgetkey --server=127.0.0.1 --verbose abcdefgh-1234-1234-1234-123456789abc => /home/sage/gurobi.lic sage@sagemath:~$ ln -s /opt/gurobi500/linux64/include/gurobi_c.h /opt/sage/local/include sage@sagemath:~$ ln -s /opt/gurobi500/linux64/lib/libgurobi.so.5.0.0 /opt/sage/local/lib/libgurobi.so sage@sagemath:~$ sage -b
jsMath fonts
Client tuning
If you want to install the jsMath fonts locally on your client for a faster rendering:
Download TEX fonts and install them either in ~/.fonts/ or C:\Windows\Fonts
Server tuning
You can also install the fonts as images on the server so that clients without the TeX fonts will still see a proper result. It's not part of the standard Sage install by default because of its size (80Mb).
sage$ sage -i jsmath-image-fonts-1.3
SSH & X11 PortForwarding
SAGE console via ssh
Some notes to give a console access with python autocompletion:
Put ssh keys in /home/saged/.ssh/authorized_keys
Set /usr/local/bin/sage as shell of user saged in /etc/passwd
Then on the client side:
Host sage Hostname blabla User saged
SAGE console via ssh with X11 forwarding
Some notes to enable X11 forwarding with the sage console:
apt-get install xbase-clients vi /etc/ssh/sshd_config X11Forwarding yes #if you're in a vserver: X11UseLocalhost no /etc/init.d/ssh restart
Then on the client side:
Host sage Hostname blabla User saged ForwardX11 yes
Maxima plot via X11
Some notes to enable tcl/tk interactive plotting with maxima:
You need X11 forwarding, cf above
apt-get install tk8.4
Test:
ssh sage Last login: blabla ---------------------------------------------------------------------- | SAGE Version 2.10, Release Date: 2008-01-18 | | Type notebook() for the GUI, and license() for information. | ---------------------------------------------------------------------- sage: maxima.plot2d('cos(2*x) + 2*cos(x)','[x,0,1]','[plot_format,openmath]')
or
sage: maxima.eval('load("plotdf")') sage: maxima.eval('plotdf(x+y,[trajectory_at,2,-0.1]);')
or
sage: maxima.plot3d("sin(x^2+y^2)","[x,-3,3]","[y,-3,3]",'[plot_format,openmath]')
octave & gnuplot via X11
Some notes to enable octave and gnuplot:
You need X11 forwarding, cf above
apt-get install octave gnuplot
Test:
ssh sage Last login: blabla ---------------------------------------------------------------------- | SAGE Version 2.10, Release Date: 2008-01-18 | | Type notebook() for the GUI, and license() for information. | ---------------------------------------------------------------------- sage: octave.de_system_plot(['x+y', 'x-y'], [1, -1], [0,2])
singular & surf via X11
Some notes to enable surf for singular:
You need X11 forwarding, cf above
We need to compile surf from the sources:
apt-get install zlib1g-dev libjpeg62-dev libtiff4-dev flex \ libgmp3-dev libgtk1.2-dev libx11-dev libxmu-headers libxmu-dev cd /opt wget "http://downloads.sourceforge.net/surf/surf-1.0.5.tar.gz" tar xzf surf-1.0.5.tar.gz cd surf-1.0.5/ ./configure make ln -s /opt/surf-1.0.5/surf /usr/local/bin
To run the binary, you don't need all the header packages but you still need some libraries (if you compiled from sources you already have it)
apt-get install libgmp3c2 libgtk1.2
Test:
ssh sage Last login: blabla ---------------------------------------------------------------------- | SAGE Version 2.10, Release Date: 2008-01-18 | | Type notebook() for the GUI, and license() for information. | ---------------------------------------------------------------------- sage: s = singular.eval sage: s('LIB "surf.lib";') '// ** loaded /opt/sage-2.10/local/LIB/surf.lib (1.28,2007/07/13)' sage: s("ring rr0 = 0, (x1,x2),dp;") sage: s("ideal I = x1^3 - x2^2;") sage: s("plot(I);") "Press q to exit from 'surf'"
or
sage: singular.eval('ring rr1 = 0,(x,y,z),dp;') sage: singular.eval('ideal I(1) = 2x2-1/2x3 +1-y+1;') sage: singular.eval('plot(I(1));') "Press q to exit from 'surf'"
Importing Python packages
System wide Python packages
install the package
# python setup.py install
or add the --record option to make a list of files which where installed for easy removal later
# python setup.py install --record install.log
append the python path in sage
sage: import sys sage: sys.path.append('/usr/lib/python2.5/site-packages')
import the package, for example:
sage: import M2Crypto
removal of the package:
cat install.log | xargs rm
Alternative way to install python package
On Red Hat/Fedora:
$ python setup.py bdist_rpm
On Debian/Ubuntu:
Same step then use alien to transform the .rpm into a .deb
=> easy removal of the python package is possible
Import to local Sage Python path
install the script to the Sage Python path
$ sage-python setup.py install
in sage: just import, that's it
sage: import M2Crypto
Import user Python modules
It will be soon possible for a user without administrator privileges on the server to import the path to their module in a more elegant way than the sys.path.append(), cf [1]
I propose offering a workaround, e.g. SAGE_PYTHONPATH which *does* get appended to PYTHONPATH on startup.
Installing development Python packages
Interfaces to proprietary software
Maple
Some notes if you want to use your Maple 32-bit on a 64-bit arch:
apt-get install ia32-libs /bin/maple -binary IBM_INTEL_LINUX
Or from Sage:
maple.fsolve('x^2=cos(x)+4', 'x=0..5')
Maple via X11
You need X11 forwarding, cf above
Test:
ssh sage Last login: blabla ---------------------------------------------------------------------- | SAGE Version 2.10, Release Date: 2008-01-18 | | Type notebook() for the GUI, and license() for information. | ---------------------------------------------------------------------- sage: sh.eval("xmaple")