[PPL-devel] [GIT] ppl/ppl(master): Fixed ill-positioned \f$.

[Roberto Bagnara]

Module: ppl/ppl
Branch: master
Commit: 0b97d0055b7b169b8e958f87a6f1fe03f4b44b85
URL:    http://www.cs.unipr.it/git/gitweb.cgi?p=ppl/ppl.git;a=commit;h=0b97d0055b7b169b8e958f87a6f1fe03f4b44b85

Author: Roberto Bagnara <bagnara at cs.unipr.it>
Date:   Tue Mar 23 17:06:04 2010 +0400

Fixed ill-positioned \f$.

---

 doc/definitions.dox |    2 +-
 1 files changed, 1 insertions(+), 1 deletions(-)

diff --git a/doc/definitions.dox b/doc/definitions.dox
index 6725233..a0f8782 100644
--- a/doc/definitions.dox
+++ b/doc/definitions.dox
@@ -2199,7 +2199,7 @@ affine expression \f$\mathrm{rhs}\f$.
 \subsection Grid_Frequency Frequency Operator
 
 Let \f$\cL \in \Gset_n\f$ be any non-empty grid and
-\f$\mathrm{expr} = \bigl(\langle \vect{a}, \vect{x} \rangle + b\f$\bigr)
+\f$\mathrm{expr} = \bigl(\langle \vect{a}, \vect{x} \rangle + b\bigr)\f$
 be a linear expression. Then if, for
 some \f$b, f \in \Rset\f$, all the points in \f$\cL\f$ satisfy the
 congruence \f$\cg = ( \mathrm{expr} \equiv_f b )\f$, then the maximum