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DOT(1)			    General Commands Manual			DOT(1)

NAME
       dot - filter for	drawing	directed graphs
       neato - filter for drawing undirected graphs
       twopi - filter for radial layouts of graphs
       circo - filter for circular layout of graphs
       fdp - filter for	drawing	undirected graphs
       sfdp - filter for drawing large undirected graphs
       patchwork - filter for squarified tree maps
       osage - filter for array-based layouts

SYNOPSIS
       dot [options] [files]
       neato [options] [files]
       twopi [options] [files]
       circo [options] [files]
       fdp [options] [files]
       sfdp [options] [files]
       patchwork [options] [files]
       osage [options] [files]

DESCRIPTION
       These  are a collection of programs for drawing graphs.	There is actu-
       ally only one main program; the specific	layout algorithms  are	imple-
       mented  as  plugins.  Thus, they	largely	share all of the same command-
       line options.

       dot draws directed graphs.  It works well on  directed  acyclic	graphs
       and  other  graphs  that	 can be	drawn as hierarchies or	have a natural
       ``flow.''

       neato draws undirected graphs using a ``spring''	model and reducing the
       related energy (see Kamada and Kawai,  Information  Processing  Letters
       31:1, April 1989).

       twopi  draws  graphs  using a radial layout (see	G. Wills, Symposium on
       Graph Drawing GD'97, September, 1997).  Basically, one node  is	chosen
       as the center and put at	the origin.  The remaining nodes are placed on
       a  sequence  of	concentric  circles  centered about the	origin,	each a
       fixed radial distance from the previous circle.	All nodes  distance  1
       from  the  center  are placed on	the first circle; all nodes distance 1
       from a node on the first	circle are placed on the second	circle;	and so
       forth.

       circo draws graphs using	a circular layout (see Six and Tollis, GD  '99
       and  ALENEX  '99, and Kaufmann and Wiese, GD '02.)  The tool identifies
       biconnected components and draws	the nodes of the component on  a  cir-
       cle.  The block-cutpoint	tree is	then laid out using a recursive	radial
       algorithm. Edge crossings within	a circle are minimized by  placing  as
       many  edges  on	the circle's perimeter as possible.  In	particular, if
       the component is	outerplanar, the component will	have a planar  layout.
       If  a  node belongs to multiple non-trivial biconnected components, the
       layout puts the node in one of them. By default,	this is	the first non-
       trivial component found in the search from the root component.

       fdp draws undirected graphs using a ``spring'' model. It	 relies	 on  a
       force-directed  approach	in the spirit of Fruchterman and Reingold (cf.
       Software-Practice & Experience 21(11), 1991, pp.	1129-1164).

       sfdp also draws undirected graphs using the ``spring'' model  described
       above,  but  it uses a multi-scale approach to produce layouts of large
       graphs in a reasonably short time.

       patchwork draws the graph as a squarified treemap (see M. Bruls et al.,
       ``Squarified treemaps'',	Proc. Joint Eurographics and IEEE  TCVG	 Symp.
       on  Visualization, 2000,	pp. 33-42). The	clusters of the	graph are used
       to specify the tree.

       osage draws the graph using its cluster structure. For a	given cluster,
       each of its subclusters is laid out internally.	Then the  subclusters,
       plus  any remaining nodes, are repositioned based on the	cluster's pack
       and packmode attributes.

OUTPUT FORMATS
       Graphviz	uses an	extensible plugin mechanism for	its output  renderers,
       so to see what output formats your installation of dot supports you can
       use ``dot -T:'' and check the warning message.  Also, The plugin	mecha-
       nism  supports multiple implementations of the output formats, allowing
       variations in the renderers and formatters.  To see what	 variants  are
       available  for  a  particular  output  format,  use, for	example: ``dot
       -Tpng:''	and to force a particular variant,  use,  for  example:	 ``dot
       -Tpng:gd''

       Traditionally, Graphviz supports	the following:
       -Tdot (Dot format containing layout information),
       -Txdot (Dot format containing complete layout information),
       -Tps (PostScript),
       -Tpdf (PDF),
       -Tsvg -Tsvgz (Structured	Vector Graphics),
       -Tfig (XFIG graphics),
       -Tpng (png bitmap graphics),
       -Tgif (gif bitmap graphics),
       -Tjpg -Tjpeg (jpeg bitmap graphics),
       -Tjson (xdot information	encoded	in JSON),
       -Timap (imagemap	files for httpd	servers	for each node or edge that has
       a non-null href attribute.),
       -Tcmapx (client-side imagemap for use in	html and xhtml).
       Additional  less	 common	 or more special-purpose output	formats	can be
       found at	https://www.graphviz.org/doc/info/output.html.

       Alternative plugins providing support for a given output	format can  be
       found from the error message resulting from appending a ':' to the for-
       mat. e.g. -Tpng:	The first plugin listed	is always the default.

       The  -P	switch	can  be	used to	produce	a graph	of all output variants
       supported by plugins in the local installation of graphviz.

GRAPH FILE LANGUAGE
       Here is a synopsis of the graph file language, normally using  the  ex-
       tension .gv, for	graphs:

       [strict]	(graph|digraph)	name { statement-list }
       is the top-level	graph. If the graph is strict, then multiple edges are
       not  allowed  between  the  same	 pairs	of nodes.  If it is a directed
       graph, indicated	by digraph, then the edgeop must be "->". If it	is  an
       undirected graph	then the edgeop	must be	"--".

       Statements may be:

       name=val;
       node [name=val];
       edge [name=val];
       Set  default graph, node, or edge attribute name	to val.	 Any subgraph,
       node, or	edge appearing after this inherits the new default attributes.

       n0 [name0=val0,name1=val1,...];
       Creates node n0 (if it does not already exist) and sets its  attributes
       according to the	optional list.

       n0 edgeop n1 edgeop ... edgeop nn [name0=val0,name1=val1,...];
       Creates	edges  between nodes n0, n1, ..., nn and sets their attributes
       according to the	optional list.	Creates	nodes as necessary.

       [subgraph name] { statement-list	}
       Creates a subgraph.  Subgraphs may be used in place of n0, ...,	nn  in
       the  above statements to	create edges.  [subgraph name] is optional; if
       missing,	the subgraph is	assigned an internal name.

       The language accepts both C-style comments /*C...*/ or //...

       Attribute names and values are ordinary (C-style) strings.  The follow-
       ing sections describe attributes	that control graph layout.

       A  more	complete  description  of  the	language  can  be   found   at
       https://www.graphviz.org/doc/info/lang.html.

GRAPH, NODE AND	EDGE ATTRIBUTES
       Graphviz	uses the name=value attributes,	attached to graphs, subgraphs,
       nodes  and  edges, to tailor the	layout and rendering. We list the more
       prominent  attributes  below.  The  complete  list  is	available   at
       https://www.graphviz.org/doc/info/attrs.html.

Attributes Common to Nodes, Edges, Clusters and	Graphs
       href=url	 the default url for image map files; in PostScript files, the
       base URL	for all	relative URLs, as recognized by	Acrobat	Distiller  3.0
       and up.

       URL=url (``URL''	is a synonym for ``href.'')

       fontcolor=colorvalue sets the label text	color.

       A  colorvalue  may  be  "h,s,v"	(hue, saturation, brightness) floating
       point numbers between 0 and 1, or an X11	 color	name  such  as	white,
       black, red, green, blue,	yellow,	magenta, or cyan, or a "#rrggbb" (red,
       green,	  blue,	    2	  hex	 characters    each)	value.	   See
       https://www.graphviz.org/doc/info/attrs.html#k:color		   and
       https://www.graphviz.org/doc/info/colors.html for further details.

       fontsize=n sets the label type size to n	points.

       fontname=name sets the label font family	name.

       label=text  where  text	may include escaped newlines \n, \l, or	\r for
       center, left, and right justified lines.	 The string '\G' value will be
       replaced	by the graph name.  For	node labels,  the  string  '\N'	 value
       will be replaced	by the node name.  For edges, if the substring '\T' is
       found  in a label, it will be replaced by the name of the tail node; if
       the substring '\H' is found in a	label, it will be replaced by the name
       of the head node; if the	substring '\E' value is	found in  a  label  it
       will    be   replaced   by:   tail_node_name->head_node_name   or   by:
       tail_node_name--head_node_name for undirected graphs.

       Graphviz	also supports special HTML-like	labels for  constructing  com-
       plex   node   content.	A   full-description  of  these	 is  given  at
       https://www.graphviz.org/doc/info/shapes.html#html.

       If a node has shape=record, the label may contain recursive  box	 lists
       delimited  by  {	 | }.  Port identifiers	in labels are set off by angle
       brackets	< >.

Graph Attributes
       size="x,y" specifies the	maximum	bounding box of	drawing	in inches.

       ratio=f sets the	aspect ratio to	f which	may be a floating  point  num-
       ber, or one of the keywords fill, compress, or auto.

       layout=engine  indicates	 the preferred layout engine (dot, neato, fdp,
       etc.) overriding	the default from the basename of the command or	the -K
       commandline option.

       margin=f	sets the page margin (included in the page size).

       ordering=out constrains order of	out-edges in a subgraph	 according  to
       their file sequence.

       rotate=90  sets landscape mode.	(orientation=land is backward compati-
       ble but obsolete.)

       center=n	a non-zero value centers the drawing on	the page.

       color=colorvalue	sets foreground	color (bgcolor for background).

       overlap=mode. This specifies what algorithm  should  do	if  any	 nodes
       overlap.	 If mode is false, the program uses the	Prism algorithm	to ad-
       just the	nodes to eliminate overlaps. If	mode is	scale, the  layout  is
       uniformly scaled	up, preserving node sizes, until nodes no longer over-
       lap.  The  latter  technique removes overlaps while preserving symmetry
       and structure, while the	former removes overlaps	more compactly but de-
       stroys symmetries.  If mode is true (the	default), no repositioning  is
       done.   Since  the  dot algorithm always	produces a layout with no node
       overlaps, this attribute	is only	useful with other layouts.

       stylesheet="file.css" includes a	reference to a stylesheet in -Tsvg and
       -Tsvgz outputs.	Ignored	by other formats.

       splines If set to true, edges are drawn as splines.  If	set  to	 poly-
       line,  edges  are drawn as polylines.  If set to	ortho, edges are drawn
       as orthogonal polylines.	 In all	of these cases,	 the  nodes  must  not
       overlap.	  If  splines=false  or	 splines=line, edges are drawn as line
       segments.  The default is true for dot, and false for  all  other  lay-
       outs.

       (dot-specific attributes)

       nodesep=f sets the minimum separation between nodes.

       ranksep=f sets the minimum separation between ranks.

       rankdir=LR|RL|BT	requests a left-to-right, right-to-left, or bottom-to-
       top, drawing.

       rank=same  (or min or max) in a subgraph	constrains the rank assignment
       of its nodes.   If a subgraph's name has	the prefix cluster, its	 nodes
       are  drawn  in  a  distinct  rectangle  of the layout.  Clusters	may be
       nested.

       (neato-specific attributes)
       mode=val.  Algorithm for	minimizing energy in the layout.  By  default,
       neato uses stress majorization. If mode=KK, it uses a version of	gradi-
       ent descent.

       model=val.   The	neato model computes the desired distances between all
       pairs of	vertices. By default, it uses the length of the	shortest path.
       If model	is set to circuit, a circuit-resistance	 model	is  used.   If
       model  is set to	subset,	it uses	a model	whereby	the edge length	is the
       number of nodes that are	neighbors of exactly one of  the  edge's  ver-
       tices.

       start=val.  Requests random initial placement and seeds the random num-
       ber  generator.	 If  val  is not an integer, the process ID or current
       time is used as the seed.

       epsilon=n.  Sets	the cutoff for the solver.  The	default	is 0.1.

       (twopi-specific attributes)
       root=ctr. This specifies	the node to be used as the center of the  lay-
       out.  If	 not specified,	twopi will randomly pick one of	the nodes that
       are furthest from a leaf	node, where a leaf node	is a node of degree 1.
       If no leaf nodes	exists,	an arbitrary node is picked as center.

       ranksep=val. Specifies the radial distance in inches  between  the  se-
       quence of rings.	The default is 0.75.

       (circo-specific attributes)
       root=nodename.  Specifies  the  name  of	 a  node occurring in the root
       block. If the graph is disconnected, the	root  node  attribute  can  be
       used to specify additional root blocks.

       mindist=value.  Sets  the  minimum separation between all nodes.	If not
       specified then circo uses a default value of 1.0.

       (fdp-specific attributes)
       K=val. Sets the default ideal node separation in	the layout.

       maxiter=val. Sets the maximum number of iterations used to  layout  the
       graph.

       start=val. Adjusts the random initial placement of nodes	with no	speci-
       fied  position.	 If  val is an integer,	it is used as the seed for the
       random number generator.	 If val	is not an integer,  a  random  system-
       generated  integer,  such as the	process	ID or current time, is used as
       the seed.

Node Attributes
       height=d	or width=d  sets  minimum  height  or  width.	Adding	fixed-
       size=true forces	these to be the	actual size (text labels are ignored).

       shape=builtin_polygon record epsf
       builtin_polygon can be such values as plaintext,	ellipse, oval, circle,
       egg,  triangle, box, diamond, trapezium,	parallelogram, house, hexagon,
       octagon,	note, tab, box3d, or component,, among others.	(Polygons  are
       defined	or modified by the following node attributes: regular, periph-
       eries, sides, orientation, distortion and skew.)	 epsf uses the	node's
       shapefile attribute as the path name of an external EPSF	file to	be au-
       tomatically loaded for the node shape.

       See  https://www.graphviz.org/doc/info/shapes.html  for	a complete de-
       scription of node shapes.

       color=colorvalue	sets the outline color,	and the	default	fill color  if
       style=filled and	fillcolor is not specified.

       fillcolor=colorvalue  sets  the	fill  color when style=filled.	If not
       specified, the fillcolor	when style=filled defaults to be the  same  as
       the outline color.

       style=filled solid dashed dotted	bold invis

       xlabel="text"  specifies	 a label that will be place near, but outside,
       of a node. The normal label string is placed within the node shape.

       target="target" is a target string for client-side imagemaps  and  SVG,
       effective  when	nodes have a URL.  The target string is	used to	deter-
       mine which window of the	browser	is used	for the	URL.   Setting	it  to
       "_graphviz"  will  open	a  new	window if it doesn't already exist, or
       reuse it	if it does.  If	the target string is empty, the	default,  then
       no target attribute is included in the output.  The substrings '\N' and
       '\G'  are  substituted  in  the	same  manner as	for the	node label at-
       tribute.	 Additionally the substring '\L' is substituted	with the  node
       label string.

       tooltip="text"  is  a tooltip string for	client-side imagemaps and SVG,
       effective when nodes have a URL.	 The tooltip string defaults to	be the
       same as the label string, but this attribute permits nodes without  la-
       bels  to	 still	have tooltips thus permitting denser graphs.  The sub-
       strings '\N' and	'\G' are substituted in	the same  manner  as  for  the
       node  label  attribute.	Additionally the substring '\L'	is substituted
       with the	node label string.

       The following attributes	apply only to polygon shape nodes:

       regular=n if n is non-zero then the polygon is made regular, i.e.  sym-
       metric  about  the x and	y axis,	otherwise the polygon takes on the as-
       pect ratio of the label.	 builtin_polygons that are not already regular
       are made	regular	by this	attribute.  builtin_polygons that are  already
       regular are not affected	(i.e.  they cannot be made asymmetric).

       peripheries=n sets the number of	periphery lines	drawn around the poly-
       gon.    This   value  supersedes	 the  number  of  periphery  lines  of
       builtin_polygons.

       sides=n sets the	number of sides	to the polygon.	n<3 results in an  el-
       lipse.  This attribute is ignored by builtin_polygons.

       orientation=f  sets  the	 orientation  of the first apex	of the polygon
       counterclockwise	from the vertical, in degrees.	f may  be  a  floating
       point  number.	The  orientation of labels is not affected by this at-
       tribute.	 This  attribute  is  added  to	 the  initial  orientation  of
       builtin_polygons.

       distortion=f  sets the amount of	broadening of the top and narrowing of
       the bottom of the polygon  (relative  to	 its  orientation).   Floating
       point  values  between  -1 and +1 are suggested.	 This attribute	is ig-
       nored by	builtin_polygons.

       skew=f sets the amount of right-displacement of the top	and  left-dis-
       placement  of  the bottom of the	polygon	(relative to its orientation).
       Floating	point values between -1	and +1 are suggested.  This  attribute
       is ignored by builtin_polygons.

       (circo-specific attributes)
       root=true/false.	 This  specifies  that	the block containing the given
       node be treated as the root of the spanning tree	in the layout.

       (neato- and fdp-specific	attributes)
       pin=val.	If val is true,	the node will remain at	its initial position.

Edge Attributes
       weight=val where	val is the cost	of the edge.  For dot, weights must be
       non-negative integers.  Values greater than 1 tend to shorten the edge;
       weight 0	flat edges are ignored for ordering nodes.  In twopi, a	weight
       of 0 will cause the edge	to be ignored in constructing  the  underlying
       spanning	tree. For neato	and fdp, a heavier weight will put more	empha-
       sis  on the algorithm achieving an edge length closer to	that specified
       by the edge's len attribute.

       style=solid dashed dotted bold invis

       color=colorvalue	sets the line color for	edges.

       color=colorvaluelist a ':' separated list of colorvalue creates	paral-
       lel edges, one edge for each color.

       dir=forward back	both none controls arrow direction.

       tailclip,headclip=false disables	endpoint shape clipping.

       target="text" is	a target string	for client-side	imagemaps and SVG, ef-
       fective	when edges have	a URL.	If the target string is	empty, the de-
       fault, then no target attribute is included in the  output.   The  sub-
       strings '\T', '\H', '\E'	and '\G' are substituted in the	same manner as
       for  the	edge label attribute.  Additionally the	substring '\L' is sub-
       stituted	with the edge label string.

       tooltip="text" is a tooltip string for client-side imagemaps  effective
       when  edges  have a URL.	 The tooltip string defaults to	be the same as
       the edge	label string.  The substrings '\T', '\H', '\E'	and  '\G'  are
       substituted  in the same	manner as for the edge label attribute.	 Addi-
       tionally	the substring '\L' is substituted with the edge	label string.

       arrowhead,arrowtail=none, normal, inv, dot, odot, invdot, invodot, tee,
       empty, invempty,	open, halfopen,	diamond, odiamond,  box,  obox,	 crow.
       Specifies  the  shape of	the glyph occurring where the edge touches the
       head or tail node, respectively.	Note  that  this  only	specifies  the
       shape. The dir attribute	determines whether or not the glyph is drawn.

       arrowsize=val  specifies	 a multiplicative scale	factor for the size of
       the arrowhead.  inv_length=6,inv_width=7,dot_radius=2)

       headlabel,taillabel=text	for labels appearing near the  head  and  tail
       nodes  of  an  edge.   labelfontcolor, labelfontname, labelfontsize for
       head and	tail labels.  The substrings '\T', '\H',  '\E'	and  '\G'  are
       substituted  in the same	manner as for the edge label attribute.	 Addi-
       tionally	the substring '\L' is substituted with the edge	label string.

       headhref="url" sets the url for the head	port in	 imagemap,  PostScript
       and  SVG	 files.	  The substrings '\T', '\H', '\E' and '\G' are substi-
       tuted in	the same manner	as for the edge	label attribute.  Additionally
       the substring '\L' is substituted with the edge label string.

       headURL="url" (headURL is a synonym for headhref.)

       headtarget="headtarget" is a target string  for	client-side  imagemaps
       and  SVG,  effective when edge heads have a URL.	 The headtarget	string
       is used to determine which window of the	browser	is used	for  the  URL.
       If  the	headtarget  string  is empty, the default, then	headtarget de-
       faults to the same value	as target for the edge.	 The substrings	 '\T',
       '\H',  '\E' and '\G' are	substituted in the same	manner as for the edge
       label attribute.	 Additionally the substring '\L' is  substituted  with
       the edge	label string.

       headtooltip="tooltip" is	a tooltip string for client-side imagemaps ef-
       fective	when head ports	have a URL.  The tooltip string	defaults to be
       the same	as the headlabel string.  The substrings '\T', '\H', and  '\E'
       are  substituted	 in  the  same manner as for the edge label attribute.
       Additionally the	substring '\L' is  substituted	with  the  edge	 label
       string.

       tailhref="url"  sets  the url for the tail port in imagemap, PostScript
       and SVG files.  The substrings '\T', '\H', '\E' and  '\G'  are  substi-
       tuted in	the same manner	as for the edge	label attribute.  Additionally
       the substring '\L' is substituted with the edge label string.

       tailURL="url" (tailURL is a synonym for tailhref.)

       tailtarget="tailtarget"	is  a  target string for client-side imagemaps
       and SVG,	effective when edge tails have a URL.  The  tailtarget	string
       is  used	 to determine which window of the browser is used for the URL.
       If the tailtarget string	is empty, the  default,	 then  tailtarget  de-
       faults  to the same value as target for the edge.  The substrings '\T',
       '\H', '\E' and '\G' are substituted in the same manner as for the  edge
       label  attribute.   Additionally	the substring '\L' is substituted with
       the edge	label string.

       tailtooltip="tooltip" is	a tooltip string for client-side imagemaps ef-
       fective when tail ports have a URL.  The	tooltip	string defaults	to  be
       the  same as the	taillabel string.  The substrings '\T',	'\H', '\E' and
       '\G' are	substituted in the same	manner	as  for	 the  edge  label  at-
       tribute.	  Additionally the substring '\L' is substituted with the edge
       label string.

       labeldistance and labelangle (in	degrees	CCW) specify the placement  of
       head and	tail labels.

       decorate	draws line from	edge to	label.

       samehead,sametail aim edges having the same value to the	same port, us-
       ing the average landing point.

       (dot-specific attributes)
       constraint=false	causes an edge to be ignored for rank assignment.

       minlen=n	 where	n is an	integer	factor that applies to the edge	length
       (ranks for normal edges,	or minimum node	separation for flat edges).

       xlabel="text" Edge labels in dot	are treated as special types of	nodes,
       with space allocated for	them during node layout.  This	can  sometimes
       deform  the  edge  routing.  If an xlabel is used instead, the label is
       placed after all	nodes and edges	have been positioned.  In  turn,  this
       may mean	that there is some overlap among the labels.

       (neato and fdp-specific attributes)
       len=f sets the optimal length of	an edge.  The default is 1.0.

COMMAND-LINE OPTIONS
       -G sets a default graph attribute.
       -N sets a default node attribute.
       -E  sets	 a  default edge attribute.  Example: -Gsize="7,8" -Nshape=box
       -Efontsize=8

       --filepath=path uses path as a prefix for  locating  externally	refer-
       enced  files. For example, using	--filepath=bar/baz would cause foo.png
       in image="foo.png" to be	looked for on disk  as	bar/baz/foo.png.  This
       overrides  any  imagepath  set  either on the command line or as	an at-
       tribute within the input	graph source.

       -lfile loads custom PostScript library  files.	Usually	 these	define
       custom  shapes  or  styles.  If -l is given by itself, the standard li-
       brary is	omitted.

       -Tlang sets the output language as described above.

       -n[1|2] (no-op) If set, neato assumes nodes  have  already  been	 posi-
       tioned  and  all	 nodes	have a pos attribute giving the	positions.  It
       then performs an	optional adjustment to remove node-node	 overlap,  de-
       pending	on  the	value of the overlap attribute,	computes the edge lay-
       outs, depending on the value of the splines attribute,  and  emits  the
       graph in	the appropriate	format.	 If num	is supplied, the following ac-
       tions occur:
	   num = 1
       Equivalent to -n.
	   num > 1
       Use node	positions as specified,	with no	adjustment to remove node-node
       overlaps,  and  use  any	 edge layouts already specified	by the pos at-
       tribute.	 neato computes	an edge	layout for any edge that does not have
       a pos attribute.	 As usual, edge	layout is guided by  the  splines  at-
       tribute.

       -Klayout	 override  the	default	 layout	 engine	implied	by the command
       name.

       -O automatically	generate output	filenames based	on the input  filename
       and the -T format.

       -P generate a graph of the currently available plugins.

       -v (verbose) prints various information useful for debugging.

       -c configure plugins.

       -qlevel set level of message suppression. The default is	1.

       -sfscale	scale input by fscale, the default is 72.

       -y invert y coordinate in output.

       -ofile write output to file.

       -x reduce graph.

       -Lg don't use grid.

       -LO use old attractive force.

       -Lni set	number of iterations to	i.

       -LUi set	unscaled factor	to i.

       -LCv set	overlap	expansion factor to v.

       -LT[*]v set temperature (temperature factor) to v.

       -V (version) prints version information and exits.

       -? prints the usage and exits.

       A  complete  description	 of  the available command-line	options	can be
       found at	https://www.graphviz.org/doc/info/command.html.

EXAMPLES
       digraph test123 {
	       a -> b -> c;
	       a -> {x y};
	       b [shape=box];
	       c [label="hello\nworld",color=blue,fontsize=24,
		    fontname="Palatino-Italic",fontcolor=red,style=filled];
	       a -> z [label="hi", weight=100];
	       x -> z [label="multi-line\nlabel"];
	       edge [style=dashed,color=red];
	       b -> x;
	       {rank=same; b x}
       }

       graph test123 {
	       a -- b -- c;
	       a -- {x y};
	       x -- c [w=10.0];
	       x -- y [w=5.0,len=3];
       }

CAVEATS
       Edge splines can	overlap	unintentionally.

       Flat edge labels	are slightly broken.  Intercluster edge	labels are to-
       tally broken.

       Because unconstrained optimization is employed, node boxes can possibly
       overlap or touch	unrelated edges.  All existing spring  embedders  seem
       to have this limitation.

       Apparently  reasonable attempts to pin nodes or adjust edge lengths and
       weights can cause instability.

AUTHORS
       Stephen C. North	<north@research.att.com>
       Emden R.	Gansner	<erg@graphviz.org>
       John C. Ellson <ellson@research.att.com>
       Yifan Hu	<yifanhu@yahoo.com>

       The  bitmap   driver   (PNG,   GIF   etc)   is	by   Thomas   Boutell,
       <http://www.boutell.com/gd>

       The  Truetype font renderer is from the Freetype	Project	(David Turner,
       Robert  Wilhelm,	 and  Werner  Lemberg)	(who  can  be	contacted   at
       freetype-devel@lists.lrz-muenchen.de).

SEE ALSO
       This  man  page contains	only a small amount of the information related
       to the Graphviz layout programs.	The most complete information  can  be
       found at	https://www.graphviz.org/documentation/, especially in the on-
       line reference pages. Most of these documents are also available	in the
       doc and doc/info	subtrees in the	source and binary distributions.

       tcldot(n),xcolors(1),libcgraph(3).

       E.  R.  Gansner,	 S.  C.	North,	K. P. Vo, "DAG - A Program to Draw Di-
       rected Graphs", Software	- Practice and	Experience  17(1),  1988,  pp.
       1047-1062.
       E.  R. Gansner, E. Koutsofios, S. C. North,  K. P. Vo, "A Technique for
       Drawing Directed	Graphs," IEEE Trans. on	Soft. Eng.  19(3),  1993,  pp.
       214-230.
       S.  North  and  E.  Koutsofios,	"Applications of graph visualization",
       Graphics	Interface 94, pp. 234-245.
       E. R. Gansner and E. Koutsofios and S. C. North,	"Drawing  Graphs  with
       dot," Available at https://www.graphviz.org/pdf/dotguide.pdf.
       S.      C.     North,	 "NEATO	    User's     Manual".	     Available
       https://www.graphviz.org/pdf/neatoguide.pdf.
       E. R. Gansner and Y. Hu,	"Efficient, Proximity-Preserving Node  Overlap
       Removal", J. Graph Algorithms Appl., 14(1) pp. 53-74, 2010.

NOTES
       On  non-Windows	platforms,  sending SIGUSR1 to Graphviz	can be used to
       toggle on and off some extra points reporting in	the neatogen code.

				12 January 2015				DOT(1)

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