Tk::Zinc - another Canvas which proposes many new functions, some based on openGL Tk::Zinc for Perl/Tk is available for Linux, Windows and MacOSX. the easiest way could be to use he CPAN. To build it you need: * On a Linux system, you need Perl (>= 5.6) and perl-tk (800 or 804) as well as perl-tk development packages. * On MacOSX you need: - fink with tk-pm package and its dependencies (http://fink.sf.net) tk-pm is available in unstable. You can add this binary unstable tree to you /sw/etc/apt/sources.list: deb http://fink.opendarwin.org/bbraun 10.3/unstable main crypto deb http://fink.opendarwin.org/bbraun 10.3/stable main crypto - X11 and X11 SDK from Apple (http://www.apple.com/macosx/x11/) * On WinXP you need: - ActivePerl (5.8.6.811 or higher) from activatestate.com or Strawberry Perl from strawberryperl.com - and - if you want to compile TkZinc by yourself: Visual C++ or the Free Visual C++ Command Line Tools Install: perl Makefile.PL # you can use the following options: --with-gl=yes|no --with-atc=yes|no --with-shape=yes|no # current defaults are --with-gl=yes --with-atc=yes --with-shape=yes make make test # to run demos before installing: perl -Iblib/arch -Iblib/lib demos/zinc-demos make install WATCH OUT! On Linux it is quite frequent to have both Mesa and proprietary openGL libraries installed. This may lead to big problems at runtime if the linker picks the wrong library. It is often the the case between the static (libGL.a) Mesa library and the dynamic (libGL.so) NVidia library. It is very important to assert that the link is done with the library matching the openGL driver loaded in the X server. In the case you need to use another version of perl-tk than the one installed in the system, you should use the following command as a template to adapt to follow your specific patches of the alternative perl-tk installation: env PERL5LIB=/usr/local/test/804_027/lib/perl5/site_perl/5.8.1/i386-linux-thread-multi perl Makefile.PL make env PERL5LIB=/usr/local/test/804_027/lib/perl5/5.8.1/i386-linux-thread-multi:/usr/local/test/804_027/lib/perl5/site_perl/5.8.1/i386-linux-thread-multi make test # to run demos before installing: env PERL5LIB=/usr/local/test/804_027/lib/perl5/5.8.1/i386-linux-thread-multi:/usr/local/test/804_027/lib/perl5/site_perl/5.8.1/i386-linux-thread-multi perl -Iblib/arch -Iblib/lib demos/zinc-demos # and finally make install # and to run your script: env PERL5LIB=/usr/local/test/804_027/lib/perl5/5.8.1/i386-linux-thread-multi:/usr/local/test/804_027/lib/perl5/site_perl/5.8.1/i386-linux-thread-multi perl documentation is also available at https://github.com/asb-capfan/TkZinc The source of the reference manual is available in the full source package, which also includes TkZinc for Tcl/Tk, for Perl/Tk, and for Python. After installation, we recommend you to launch the zinc-demos script, a front-end to more than 30 small demos. For more information on building Tk::Zinc, a README is available in the tkzinc-*tgz tar file (on Tkzinc web site) used for building all flavor of TkZinc (ie tcl, perl and python) This software is delivered under new BSD license. For the copyright, please, read the Copyright file. For any question on Tk::Zinc usage, build or installation, please file an inquiry here: https://github.com/asb-capfan/TkZinc/issues Authors and Contributors: Tk::Zinc main author is Patrick Lecoanet (CENA) Sub-Modules, demos and documentation have been developped by Daniel Etienne (CENA), Christophe Mertz (formerly CENA and now IntuiLab), Jean-Luc Vinot (CENA), with contributions from Stéphane Chatty (Intuilab), Céline Schlienger (IntuiLab), Alexandre Lemort (IntuiLab) Stéphane Conversy (CENA) contributed to the MacOSX port. Many others contributed with their bug reports!