## Hot answers tagged graph-visualization

22

Gephi is an amazingly good, open source graph visualization software. It uses dot language like GraphViz.

21

Kinda finished I guess.. code can be found here at github.
Documentation is included in the file.
The yellow/magenta color (for positive/negative correlation) is configurable, as well as the fontsize of the labels and the angles at which the labels are plotted, so you can get fancy if you want and not distribute them evenly along the perimeter/group ...

21

I finished and submitted my version to the FEX: schemaball and will update the link asap.
There are a some differences with Gunther Struyf's contribution:
You can return the handles to the graphic object for full manual customization
Labels are oriented to allow maximum left-to-rigth readability
The figure stretches to fit labels in, leaving the axes ...

19

What's there not to like?
I personally wouldn't use box3d, and my choice of colors probably hurts your eyes...
(full size image: http://i.stack.imgur.com/MTe6n.png )
EDIT:
Here's the modified dot code - I reorganized it a little bit:
digraph {
size="11,11";
layout=neato;
overlap=false;
splines=true;
pack=true;
start="random";
sep=0.1;
edge [len=2];
...

16

There are several solutions out there, but basically every one is using the same approach:
create layer on top of your source to let you query at high level
create a front end layer to talk with the level explained above
use the visualization tool you want
As miro marchi pointed, there are several solutions to achieve this goal, some of them locked to ...

14

Yes, you can use any NuGet charting library, or the built-in Windows Forms library in System.Windows.Forms.DataVisualization.Charting. Simply call Dump on the chart control after creating it, such as in this example.
Another option is to use the Google Chart API:
Util.Image ...

13

Here is one way you can do what you want. First, generate points on the circle that you are interested in
clear;
theta=linspace(0,2*pi,31);theta=theta(1:end-1);
[x,y]=pol2cart(theta,1);
Next, if you know the pairs of nodes that are connected, you can skip this step. But in many cases, you get a connectivity matrix from other computations, and you find the ...

13

It turns out that laying out/drawing hypergraphs is a difficult computational problem. You can see how it's equivalent to drawing Venn/Euler diagrams.
The Graphviz program (a well-known graph visualization package) recently added the gvmap command, which supposedly lets you draw Euler diagrams (you can then easily draw the points). I tried this, but I ...

12

Great question. To answer it, I implemented a D3 plugin for fisheye distortion. It's roughly based on previous work in Flare and Sigma.js, which are in turn based on the work of Sarkar and Brown, "Graphical Fisheye Views of Graphs", CHI'92.
Here's a quick demo with the Misérables dataset. View source for the code. I'll do a writeup later today when I have ...

12

The questions you'll need to ask and answer for a graph database are similar to any other database. How much data? In memory or persistent? How will you interface with it? Embedded or a server process? Distributed or localized? Licensing?
A couple of thousand nodes and relationships is small for a graph database and most any graph database solution will ...

12

Some Information
It is almost impossible to draw a graph with edge length proportional to edge weight, atleast its very unlikely that the weights allow a graph to be drawn this way, most will be impossible...
See:
P. Eades and N. C. Wormald. Fixed edge-length graph drawing is
NP-hard. Discrete Applied Mathematics, 28(2):111–134, 1990]
or to quote:
...

11

I advise you to use Gephi.
This soft is able to do all the things you want to, especially graph layouts !

11

The Graphviz tools appear to display distinct edges.
For example, giving this:
digraph G {
A -> B;
A -> B;
A -> B;
B -> C;
B -> A;
C -> B;
}
to dot produces:
Graphviz's input language is pretty simple so you can generate it on your own, though searching for "python graphviz" does turn up a couple of libraries.

11

digraph G
{
ranksep = 1.0; size = "10,10";
{
node [shape = plaintext, fontsize = 20];
0 -> 1 -> 2 -> 3 -> 4;
}
node [shape = box];
{
rank = same;
0->wy1->rf1->rc1->rz1->ry1->ra1->rb1->rx2 [color=white];
rankdir=LR;
}
{
rank = same;
1->wf1[color=white];
rankdir=LR
}
{
rank = same;
...

11

I made a bunch of changes to edgebundleR. If you install my forked version, the following code should get you close to the desired result. live example
# devtools::install_github("garthtarr/edgebundleR")
library(edgebundleR)
library(igraph)
library(data.table)
d <- structure(list(ID = c("KP1009", "GP3040", "KP1757", "GP2243",
...

10

I found exactly what I was looking for in Cytoscape

9

Sure, here's the code to draw the graph in your Question (and which is shown rendered by dot, below).
digraph g {
rankdir = TB;
bgcolor = white;
edge[arrowsize=.7, color=black];
node[shape=box, color=black]
{rank=same; a, b, c};
{rank=same; d, e, f};
{rank=same; g, h};
{rank=same; i, j, k};
d[color=blue; shape=circle];
e[color=blue; shape=circle];
...

8

check out vivagraph which uses webgl for the rendering and scales really well also for larger networks. They have some nice examples for really large ones (FB, Amazon).
http://github.com/anvaka/VivaGraphJS

8

I finally found the solution to my problem, using a VisualizationImageServer.
Here is an example of how to create an image from a whole JUNG graph, for others struggling with it:
import edu.uci.ics.jung.visualization.VisualizationImageServer;
...
// Create the VisualizationImageServer
// vv is the VisualizationViewer containing my graph
...

8

Another way to visualize very large networks is with BioFabric (www.BioFabric.org), which uses horizontal lines instead of points to represent the nodes. Edges are then shown using vertical line segments. A quick D3 demo of this technique is shown at: http://www.biofabric.org/gallery/pages/SuperQuickBioFabric.html.
BioFabric is a Java application, but a ...

8

Since you are using Graphviz to do the drawing you need to use the attributes that Graphviz understands. See http://www.graphviz.org/content/attrs
import networkx as nx
G = nx.Graph()
G.add_node(1,color='red',style='filled',fillcolor='blue',shape='square')
G.add_node(2,color='blue',style='filled')
G.add_edge(1,2,color='green')
G.node[2]['shape']='circle'
...

7

You can set the vertex size to 0.
library(igraph)
g <- barabasi.game(100)
plot( g, vertex.size=0, vertex.label=NA, edge.arrow.size=0 )

7

This should work ;
nAttrs<-list()
nAttrs$color <- c(a = "blue", b = "blue", c = "red", d = "red")
plot(g1, nodeAttrs = nAttrs)
see also getDefaultAttrs() to get all the graph attributes with default values.

7

My understanding: Gephi doesn't do well with real-time updates; it's usually used on static data.
One major consideration - what is the visualization you wish to present? Is it a directed graph? Cyclic? Weighted? Additional labels?
Some toolkits are 'fixed' in what they can display, but make it easy to present a graph. Others (like d3) are very extensible, ...

7

Look at the Graphviz software collection. It contains several programs to render graphs.
The most simple way is to write your graph to disk, in one of Graphviz's text formats. Then execute one of the render programs, and load the resulting image into your application.

7

Here are two basic approaches for altering graphs in MMA 8.0. The first relies on HighlightGraph and in particular on GraphHighlightStyle -> "DehighlightHide". The second approach uses the VertexCoordinates of a graph in future variants of that graph.
We'll discuss deletion separately from addition because they involve slightly different methods.
...

6

Graphviz is definitely appropriate for what you are asking. The main graphviz.org site appears to be down for the moment, but someone has kindly mirrored the gallery examples (with source) to Flickr.
http://www.flickr.com/photos/kentbye/sets/72157601523153827/
As far as I am aware, you cannot create "templates", but you can do something like this for the ...

6

So I finally got the time to write this piece of code that I was looking for. My main problem was that I had understood the scales well. So after reading a bit I could define a time scale and map it to my data with the following code:
var xscale = d3.time.scale()
.domain([startDate, endDate])
.range([padding, w - ...

6

Using NetworkX, a possible workaround which avoids file I/O and uses dot via pydot for layout is:
import networkx as nx
import matplotlib.pyplot as plt
import matplotlib.image as mpimg
from cStringIO import StringIO
g = nx.dodecahedral_graph()
d = nx.to_pydot(g) # d is a pydot graph object, dot options can be easily set
# attributes get converted from ...

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