Package: libroot-roofit@libvers@
Architecture: any
Section: libs
Depends: ${shlibs:Depends}, libroot-math-minuit@libvers@ | root-fitter, ${misc:Depends}
Homepage: http://roofit.sourceforge.net/
Replaces: root-plugin-roofit  (<< 5.09.01-1)
Description: ROOT extension for modeling expected distribtions - libraries
 The ROOT system provides a set of OO frameworks with all the
 functionality needed to handle and analyze large amounts of data
 efficiently. 
 .
 The RooFit packages provide a toolkit for modeling the expected
 distribution of events in a physics analysis. Models can be used to
 perform likelihood fits, produce plots, and generate "toy Monte
 Carlo" samples for various studies. The RooFit tools are integrated
 with the object-oriented and interactive ROOT graphical environment.
 .
 RooFit has been developed for the BaBar collaboration, a high energy
 physics experiment at the Stanford Linear Accelerator Center, and is
 primarily targeted to the high-energy physicists using the ROOT
 analysis environment, but the general nature of the package make it
 suitable for adoption in different disciplines as well.

Package: libroot-roofit-dev
Architecture: any
Section: libdevel
Homepage: http://roofit.sourceforge.net/
Depends: libroot-roofit@libvers@ (= ${binary:Version}), libroot-graf2d-graf-dev, libroot-tree-dev, ${misc:Depends}
Description: ROOT extension for modeling expected distribtions - development
 The ROOT system provides a set of OO frameworks with all the
 functionality needed to handle and analyze large amounts of data
 efficiently. 
 .
 The RooFit packages provide a toolkit for modeling the expected
 distribution of events in a physics analysis. Models can be used to
 perform likelihood fits, produce plots, and generate "toy Monte
 Carlo" samples for various studies. The RooFit tools are integrated
 with the object-oriented and interactive ROOT graphical environment.
 .
 RooFit has been developed for the BaBar collaboration, a high energy
 physics experiment at the Stanford Linear Accelerator Center, and is
 primarily targeted to the high-energy physicists using the ROOT
 analysis environment, but the general nature of the package make it
 suitable for adoption in different disciplines as well.