input automata; verbatimtex % generic layout \documentclass{article} \usepackage[english]{babel} \usepackage[latin1]{inputenc} \selectlanguage{english} % additional packages \usepackage{amsmath} \begin{document} etex % EXAMPLE FOR THE PACKAGE automata.mp beginfig(0); % Setting of some global parameters. size := 15; incominglength := 25; loopsize := 22; % The following command defines a grid of nodes with 7 rows and 10 columns. % Instead of using "spacing := (36,29)" and thus change the global parameter for the ditance % between nodes, one can use `with spacing((36,29))' to temporarily change the value of this % parameter. with spacing((36,29)) matrix.a(7,10); % Next, one declares the shape of the nodes and possibly their labels. One can use the directives % "btex" and "etex" to include LaTeX-compiled labels in nodes, or just "" to leave them unlabeled. % Moreover, one can use several shapes for the nodes. There are some predefined shorhands for % modified styles of nodes and arrows (e.g., "node_double" is equivalent to "with border(double) node") node.a[4][0](btex $s_0$ etex); with shape(boxed) node.a[4][2](btex $s_1$ etex); with shape(fixedbox) node.a[4][4](btex $s_2$ etex); with size(18) with shape(diamond) node.a[4][6](btex $s_3$ etex); with size(22) with shape(utriangle) node.a[4][8](btex $s_4$ etex); node.a[2][2](btex $s_5$ etex); node.a[2][5](btex $s_6$ etex); node.a[1][6](btex $s_7$ etex); node_double.a[1][8](btex $s_8$ etex); % One can define arrows of different forms. Each arrow follow a path from an initial node to a % final node and this path must be explicitly given as a MetaPost path expression (e.g., point..point--point). % Note that labels of nodes and arrows can be rotated using the MetaPost directive "rotated". incoming(0, "") (a[4][0]) 120; loop.bot(.65, btex \small $a$ etex) (a[4][0]) -165; arrow_dash.bot(.5, btex \small $b$ etex) (a[4][0],a[4][2]) a[4][0].c..a[4][2].c; arrow.bot(.5, btex \small $a$ etex) (a[4][2],a[4][4]) a[4][2].c..a[4][4].c; arrow.bot(.5, btex \small $a$ etex) (a[4][4],a[4][6]) a[4][4].c..a[4][6].c; arrow.bot(.5, btex \small $a$ etex) (a[4][6],a[4][8]) a[4][6].c..a[4][8].c; arrow.bot(.5, btex \small $c$ etex) (a[4][8],a[4][0]) a[4][8].c..a[5][7].c---a[5][1].c..a[4][0].c; arrow_dash.rt(.5, btex \small $a$ etex rotated 90) (a[4][2],a[2][2]) a[4][2].c..a[2][2].c; arrow.bot(.5, btex \small $c$ etex rotated 39) (a[2][2],a[4][0]) a[2][2].c..a[4][0].c; arrow_dash.bot(.5, btex \small $a$ etex) (a[2][2],a[2][5]) a[2][2].c{dir-30}..a[2][5].c; arrow_dash.rt(.5, btex \small $a$ etex rotated 90) (a[4][6],a[1][6]) a[4][6].c..a[1][6].c; arrow.top(.5, btex \small $a$ etex) (a[1][6],a[1][8]) a[1][6].c..a[1][8].c; arrow.bot(.38, btex \small $c$ etex) (a[2][5],a[4][0]) a[2][5].c..a[1][4].c---a[1][2].c shifted(-10,0)..a[2][1].c shifted (-10,0)---a[4][0].c; arrow_bold.bot(.5, btex \small $c$ etex) (a[1][8],a[4][0]) a[1][8].c..a[2][9].c---a[5][9].c..a[6][8].c---a[6][1].c..a[5][0].c---a[4][0].c; arrow_bold.top(.38, btex \small $c$ etex) (a[1][8],a[4][0]) a[1][8].c..a[0][7].c---a[0][1].c..a[1][0].c---a[4][0].c; % Finally, one may want to highligh a given set of nodes. This can done using the macro % "enclose"/"enclosure", which draws/returns a path that goes around the given sequence % of vertices (it is always a good idea if the sequence is given in clockwise order and % if it defines a convex region!). with enclosuremargin(20) draw enclosure(a[4][4].c--a[2][5].c--a[1][6].c--a[4][6].c--cycle) withcolor light.light.green withpen pencircle scaled 3; endfig; end.