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fix typos and links

This commit is contained in:
Andreas Fabri 2012-11-29 17:58:40 +01:00
parent 5ac65669eb
commit aa61332278
6 changed files with 13 additions and 12 deletions
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4
Envelope_2/doc/Envelope_2/Concepts/EnvelopeDiagramEdge.h
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@ -70,12 +70,12 @@ returns a representative \f$ x\f$-monotone curve associated with `e`.
const X_monotone_curve_2& curve () const; const X_monotone_curve_2& curve () const;
/*! /*!
return an iterator for the first \f$ x\f$-monotone curve associated with `e`. returns an iterator for the first \f$ x\f$-monotone curve associated with `e`.
*/ */
Curve_const_iterator curves_begin () const; Curve_const_iterator curves_begin () const;
/*! /*!
return a past-the-end iterator for the \f$ x\f$-monotone curves associated with `e`. returns a past-the-end iterator for the \f$ x\f$-monotone curves associated with `e`.
*/ */
Curve_const_iterator curves_end () const; Curve_const_iterator curves_end () const;

4
Envelope_2/doc/Envelope_2/Concepts/EnvelopeDiagramVertex.h
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@ -75,12 +75,12 @@ returns the number of \f$ x\f$-monotone curves associated with `v`.
Size number_of_curves () const; Size number_of_curves () const;
/*! /*!
return an iterator for the first \f$ x\f$-monotone curve associated with `v`. returns an iterator for the first \f$ x\f$-monotone curve associated with `v`.
*/ */
Curve_const_iterator curves_begin () const; Curve_const_iterator curves_begin () const;
/*! /*!
return a past-the-end iterator for the \f$ x\f$-monotone curves associated with `v`. returns a past-the-end iterator for the \f$ x\f$-monotone curves associated with `v`.
*/ */
Curve_const_iterator curves_end () const; Curve_const_iterator curves_end () const;

8
Envelope_2/doc/Envelope_2/Envelope_2.txt
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@ -76,11 +76,11 @@ traversing both diagrams in parallel.
\section env2_secenv_diag The Envelope Diagram \section env2_secenv_diag The Envelope Diagram
The package basically contains two sets of free functions: The package basically contains two sets of free functions:
`lower_envelope_x_monotone_2 (begin, end, diag)` (similarly \link lower_envelope_x_monotone_2() `lower_envelope_x_monotone_2(begin, end, diag)`\endlink
`upper_envelope_x_monotone_2()`) construct the envelope diagram (similarly `upper_envelope_x_monotone_2()`) construct the envelope diagram
for a given range of \f$ x\f$-monotone curves, while for a given range of \f$ x\f$-monotone curves, while
`lower_envelope_2 (begin, end, diag)` (similarly \link lower_envelope_x_monotone_2() `lower_envelope_2(begin, end, diag)`\endlink
`upper_envelope_2()`) construct the envelope diagram for a (similarly `upper_envelope_2()`) construct the envelope diagram for a
range of <I>arbitrary</I> (not necessarily \f$ x\f$-monotone) curves. range of <I>arbitrary</I> (not necessarily \f$ x\f$-monotone) curves.
In this section we explain more on the structure of the envelope In this section we explain more on the structure of the envelope
diagram these functions output. diagram these functions output.

3
Point_set_processing_3/doc/Point_set_processing_3/Point_set_processing_3.txt
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@ -57,6 +57,7 @@ from the \cgal 3D point, or as a `std::pair<Point_3<K>, Vector_3<K>>`,
or as a `boost::tuple<..,Point_3<K>, ..., Vector_3<K> >`. or as a `boost::tuple<..,Point_3<K>, ..., Vector_3<K> >`.
The following classes described in Chapter \ref chapterProperty_map The following classes described in Chapter \ref chapterProperty_map
"CGAL and Boost Property Maps"
provide property maps for the implementations of points with normals provide property maps for the implementations of points with normals
listed above: listed above:
@ -160,7 +161,7 @@ Point set simplification through grid-based clustering. Removed points are depic
\section Point_set_processing_3Smoothing Smoothing \section Point_set_processing_3Smoothing Smoothing
Function `jet_smooth_point_set` smooths the input point set by Function `jet_smooth_point_set()` smooths the input point set by
projecting each point onto a smooth parametric surface patch projecting each point onto a smooth parametric surface patch
(so-called jet surface) fitted over its `k` nearest neighbors. (so-called jet surface) fitted over its `k` nearest neighbors.

4
Ridges_3/doc/Ridges_3/Ridges_3.txt
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@ -115,7 +115,7 @@ by \f$ x\f$ (resp. \f$ y\f$) are:
\anchor eqtaylor_along_line \anchor eqtaylor_along_line
\f[ \f[
\begin{equation} \begin{equation}
k_1(x) = k_1 + b_0x + \frac{P_1}{2(k_1-k_2)}x^2 +\hot , \quad \quad \quad k_1(x) = k_1 + b_0x + \frac{P_1}{2(k_1-k_2)}x^2 + ... , \quad \quad \quad
P_1= 3b_1^2+(k_1-k_2)(c_0-3k_1^3). P_1= 3b_1^2+(k_1-k_2)(c_0-3k_1^3).
\end{equation} \end{equation}
\f] \f]
@ -123,7 +123,7 @@ P_1= 3b_1^2+(k_1-k_2)(c_0-3k_1^3).
\anchor eqtaylor_along_red_line \anchor eqtaylor_along_red_line
\f[ \f[
\begin{equation} \begin{equation}
k_2(y) = k_2 + b_3y + \frac{P_2}{2(k_2-k_1)}y^2 +\hot , \quad \quad \quad k_2(y) = k_2 + b_3y + \frac{P_2}{2(k_2-k_1)}y^2 + ... , \quad \quad \quad
P_2= 3b_2^2+(k_2-k_1)(c_4-3k_2^3). P_2= 3b_2^2+(k_2-k_1)(c_4-3k_2^3).
\end{equation} \end{equation}
\f] \f]

2
Snap_rounding_2/doc/Snap_rounding_2/CGAL/Snap_rounding_2.h
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@ -3,7 +3,7 @@ namespace CGAL {
/*! /*!
\ingroup PkgSnapRounding2 \ingroup PkgSnapRounding2
The first two parameters denote the first and after-the-last iterators The first two parameters denote the first and past-the-end iterators
of the input segments. The third parameter is a reference to a of the input segments. The third parameter is a reference to a
container of the output polylines. Since a polyline is composed of a container of the output polylines. Since a polyline is composed of a
sequence of points, a polyline is a container itself. The fifth sequence of points, a polyline is a container itself. The fifth