Hello community,
here is the log from the commit of package HepMC2 for openSUSE:Factory checked
in at 2017-09-12 19:54:04
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Comparing /work/SRC/openSUSE:Factory/HepMC2 (Old)
and /work/SRC/openSUSE:Factory/.HepMC2.new (New)
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Package is "HepMC2"
Tue Sep 12 19:54:04 2017 rev:2 rq:522370 version:2.06.09
Changes:
--------
--- /work/SRC/openSUSE:Factory/HepMC2/HepMC2.changes 2017-09-07
22:14:44.638040198 +0200
+++ /work/SRC/openSUSE:Factory/.HepMC2.new/HepMC2.changes 2017-09-12
19:54:04.898156404 +0200
@@ -1,0 +2,6 @@
+Tue Sep 5 23:20:53 UTC 2017 - jeng...@inai.de
+
+- Trim description for size (like was already done for HepMC
+ 1st Generation).
+
+-------------------------------------------------------------------
++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
Other differences:
------------------
++++++ HepMC2.spec ++++++
--- /var/tmp/diff_new_pack.VZG4iR/_old 2017-09-12 19:54:05.542065868 +0200
+++ /var/tmp/diff_new_pack.VZG4iR/_new 2017-09-12 19:54:05.546065304 +0200
@@ -31,18 +31,7 @@
%description
The HepMC package is an object oriented event record written in C++
for High Energy Physics Monte Carlo Generators. Many extensions from
-HEPEVT, the Fortran HEP standard, are supported: the number of entries
-is unlimited, spin density matrices can be stored with each vertex,
-flow patterns (such as color) can be stored and traced, integers
-representing random number generator states can be stored, and an
-arbitrary number of event weights can be included. Particles and
-vertices are kept separate in a graph structure, physically similar to
-a physics event. The added information supports the modularisation of
-event generators. The package has been kept as simple as possible with
-minimal internal/external dependencies. Event information is accessed
-by means of iterators supplied with the package.
-Reference: M. Dobbs and J.B. Hansen, Comput. Phys. Commun. 134 (2001)
-41.
+HEPEVT, the Fortran HEP standard, are supported.
%package -n libHepMC4
Summary: Shared libraries for HepMC
@@ -58,11 +47,8 @@
arbitrary number of event weights can be included. Particles and
vertices are kept separate in a graph structure, physically similar to
a physics event. The added information supports the modularisation of
-event generators. The package has been kept as simple as possible with
-minimal internal/external dependencies. Event information is accessed
-by means of iterators supplied with the package.
-Reference: M. Dobbs and J.B. Hansen, Comput. Phys. Commun. 134 (2001)
-41.
+event generators. Event information is accessed by means of iterators
+supplied with the package.
This package provides the shared libraries for HepMC.
@@ -76,23 +62,11 @@
%description -n HepMC2-devel
The HepMC package is an object oriented event record written in C++
for High Energy Physics Monte Carlo Generators. Many extensions from
-HEPEVT, the Fortran HEP standard, are supported: the number of entries
-is unlimited, spin density matrices can be stored with each vertex,
-flow patterns (such as color) can be stored and traced, integers
-representing random number generator states can be stored, and an
-arbitrary number of event weights can be included. Particles and
-vertices are kept separate in a graph structure, physically similar to
-a physics event. The added information supports the modularisation of
-event generators. The package has been kept as simple as possible with
-minimal internal/external dependencies. Event information is accessed
-by means of iterators supplied with the package.
-Reference: M. Dobbs and J.B. Hansen, Comput. Phys. Commun. 134 (2001)
-41.
+HEPEVT, the Fortran HEP standard, are supported.
This package provides the source and header files required for
developng with HepMC.
-
%prep
%setup -q -n %{srcname}-%{version}
# CORRECT EXEC PERMISSIONS IN ChangeLog
