You could follow the usual approach of adding invisible nodes and invisible edges, and playing with edge weight etc. as proposed on the graphviz FAQ about balanced trees. In some simple cases, this is enough.

But there is a better solution: Graphviz comes with a tool called **gvpr** (*graph pattern scanning and processing language*) which allows to

copy input graphs to its output, possibly transforming their structure and attributes, creating new graphs, or printing arbitrary information

And since Emden R. Gansner did all the work already by creating a script which does layout nicely binary trees, heres how to to that (all credit goes to ERG):

Save the following gvpr script into a file called `tree.gv`

:

```
BEGIN {
double tw[node_t]; // width of tree rooted at node
double nw[node_t]; // width of node
double xoff[node_t]; // x offset of root from left side of its tree
double sp = 36; // extra space between left and right subtrees
double wd, w, w1, w2;
double x, y, z;
edge_t e1, e2;
node_t n;
}
BEG_G {
$.bb = "";
$tvtype=TV_postfwd; // visit root after all children visited
}
N {
sscanf ($.width, "%f", &w);
w *= 72; // convert inches to points
nw[$] = w;
if ($.outdegree == 0) {
tw[$] = w;
xoff[$] = w/2.0;
}
else if ($.outdegree == 1) {
e1 = fstout($);
w1 = tw[e1.head];
tw[$] = w1 + (sp+w)/2.0;
if (e1.side == "left")
xoff[$] = tw[$] - w/2.0;
else
xoff[$] = w/2.0;
}
else {
e1 = fstout($);
w1 = tw[e1.head];
e2 = nxtout(e1);
w2 = tw[e2.head];
wd = w1 + w2 + sp;
if (w > wd)
wd = w;
tw[$] = wd;
xoff[$] = w1 + sp/2.0;
}
}
BEG_G {
$tvtype=TV_fwd; // visit root first, then children
}
N {
if ($.indegree == 0) {
sscanf ($.pos, "%f,%f", &x, &y);
$.pos = sprintf("0,%f", y);
}
if ($.outdegree == 0) return;
sscanf ($.pos, "%f,%f", &x, &y);
wd = tw[$];
e1 = fstout($);
n = e1.head;
sscanf (n.pos, "%f,%f", &z, &y);
if ($.outdegree == 1) {
if (e1.side == "left")
n.pos = sprintf("%f,%f", x - tw[n] - sp/2.0 + xoff[n], y);
else
n.pos = sprintf("%f,%f", x + sp/2.0 + xoff[n], y);
}
else {
n.pos = sprintf("%f,%f", x - tw[n] - sp/2.0 + xoff[n], y);
e2 = nxtout(e1);
n = e2.head;
sscanf (n.pos, "%f,%f", &z, &y);
n.pos = sprintf("%f,%f", x + sp/2.0 + xoff[n], y);
}
}
```

Assuming your dot file containing the graph is called `binarytree.gv`

, you may execute the following line:

```
dot binarytree.gv | gvpr -c -ftree.gv | neato -n -Tpng -o binarytree.png
```

The result is:

By switching around a line or two in the script, you'll even get to have the single child nodes go to the left instead of the right side.