# How do I make a dot graph representing a binary tree more symmetric?

While trying to use Graphviz to create graphs for binary trees I've encountered many times a problem; apparently, with a high enough tree and a large enough `nodesep` the resulting graph tends not to be symmetric. As an example, here's a dot source

``````digraph G {
nodesep=0.8;
ranksep=0.5;

{node[style=invis,label=""]; cx_30;
}

{rank=same; 20; 45; cx_30}
{rank=same; 10; 25;}
{rank=same; 40; 50}

30 -> 20;
30 -> 45;
20 -> 10;
20 -> 25;

45 -> 40;
45 -> 50;

{edge[style=invis];
//Distantiate nodes
30 -> cx_30;
20 -> cx_30 -> 45;

//Force ordering between childs
10:e -> 25:w;
40:e -> 50:w;
}
}
``````

with the corresponding output (compiled with `dot -Tpng file.dot > file.png`)

As you can see, `45` isn't placed in the middle between `40` and `50`. I could use invisible nodes between `40` and `50` to correct the situation, but the resulting spacing would be too wide.

Am I doing something wrong? Is there a way to correct the situation?

• Check the suggestions here, some of them might be useful - stackoverflow.com/questions/10902745/… May 2, 2014 at 14:01
• Thank you, I don't know why I didn't find it while searching. I'm trying to see if I can solve my problem this way right now. May 2, 2014 at 14:14

Even though it didn't directly work for me, I'm passing the advice of Tom Ron to look at this answer about binary trees; the provided script didn't work for me, but the faq entry linked there helped me solve the problem; I didn't want to add an invisibile node for spacing reasons, but specifying a correct `width` attribute for the invisible nodes and scaling `nodesep` consequently works just fine.

Here's a corrected source:

``````digraph G {
nodesep=0.4; //was 0.8
ranksep=0.5;

{node[style=invis,label=""]; cx_30;
}
{node[style=invis, label="", width=.1]; ocx_45; ocx_20;
}

{rank=same; 20; 45; cx_30}
{rank=same; 10; 25; ocx_20}
{rank=same; 40; 50; ocx_45}

30 -> 20;
30 -> 45;
20 -> 10;
20 -> 25;

45 -> 40;
45 -> 50;

{edge[style=invis];
//Distantiate nodes
30 -> cx_30;
20 -> cx_30 -> 45;

//Force ordering between children
45 -> ocx_45;
40 -> ocx_45 -> 50;
20 -> ocx_20;
10 -> ocx_20 -> 25;
}
}
``````

with the corresponding output