\begin{ccRefFunction}{compare_x} Depending on which \cgal\ \ccHtmlNoLinksFrom{kernel} is used, different versions of this global function are available. This is described below. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \paragraph{With the basic 2D and 3D Kernel} (see Chapter~\ref{chapter-kernel-23}) \ccFunction{Comparison_result compare_x(const Point_2 &p, const Point_2 &q);} {compares the $x$-coordinates of $p$ and $q$.} \ccFunction{Comparison_result compare_x(const Point_3 &p, const Point_3 &q);} {compares the $x$-coordinates of $p$ and $q$.} \begin{ccTexOnly} \begin{figure}[hb] \centerline{\includegraphics{Kernel_23_ref/fig/compare1}} \caption{Comparison of the $x$ or $y$-coordinates of the (implicitly given) points in the boxes.\label{fig-compare}} \end{figure} \end{ccTexOnly} \ccFunction{Comparison_result compare_x(const Point_2 &p, const Line_2 &l1, const Line_2 &l2);} {compares the $x$-coordinates of $p$ and the \ccHtmlNoLinksFrom{intersection} of lines $l1$ and $l2$% \ccTexHtml{ (Figure~\ref{fig-compare} (a))}{, see (a) in the figure below}.} \ccFunction{Comparison_result compare_x(const Line_2 &l, const Line_2 &h1, const Line_2 &h2);} {compares the $x$-coordinates of the \ccHtmlNoLinksFrom{intersection} of line $l$ with line $h1$ and with line $h2$% \ccTexHtml{ (Figure~\ref{fig-compare} (b))}{, see (b) in the figure below}.} \ccFunction{Comparison_result compare_x(const Line_2 &l1, const Line_2 &l2, const Line_2 &h1, const Line_2 &h2);} {compares the $x$-coordinates of the \ccHtmlNoLinksFrom{intersection} of lines $l1$ and $l2$ and the \ccHtmlNoLinksFrom{intersection} of lines $h1$ and $h2$% \ccTexHtml{ (Figure~\ref{fig-compare} (c))}{, see (c) in the figure below}.} \begin{ccHtmlOnly} Comparison of the x or y coordinates of the (implicitly given) points in the boxes \end{ccHtmlOnly} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \paragraph{With the 2D Circular Kernel} (see Chapter~\ref{chapter-circular-kernel}) \ccInclude{CGAL/global_functions_circular_kernel_2.h} If this kernel is used, in addition to the function and the combination of 2D types described above, another version of the function is provided. \ccFunction{Comparison_result compare_x(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q);} {compares the $x$-coordinates of $p$ and $q$.} \ccFunction{Comparison_result compare_x(const Circular_arc_point_2 &p, const Point_2 &q);} {compares the $x$-coordinates of $p$ and $q$.} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \paragraph{With the 3D Spherical Kernel} (see Chapter~\ref{chapter-spherical-kernel}) \ccInclude{CGAL/global_functions_spherical_kernel_3.h} If this kernel is used, in addition to the function and the combination of 2D types described above, another version of the function is provided. \ccFunction{Comparison_result compare_x(const Circular_arc_point_3 &p, const Circular_arc_point_3 &q);} {compares the $x$-coordinates of $p$ and $q$.} \ccFunction{Comparison_result compare_x(const Circular_arc_point_3 &p, const Point_3 &q);} {compares the $x$-coordinates of $p$ and $q$.} %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \ccSeeAlso \ccRefIdfierPage{CGAL::compare_xy} \\ \ccRefIdfierPage{CGAL::compare_xyz} \\ \ccRefIdfierPage{CGAL::compare_x_at_y} \\ \ccRefIdfierPage{CGAL::compare_y} \\ \ccRefIdfierPage{CGAL::compare_yx} \\ \ccRefIdfierPage{CGAL::compare_y_at_x} \\ \ccRefIdfierPage{CGAL::compare_z} \\ \end{ccRefFunction}