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Graph drawing algorithms, such as those described here, check all the vertices two-by-two and apply additional forces if two vertices are connected by an edge. If we have a very large graph, checking all pairs of vertices would be costly. Is there any graph drawing algorithm that draws a large graph using only existing edges, not by verifying all possible pairs?

EDIT
By drawing algorithm, I meant an algorithm that assigns a 2D or 3D position to each vertex such that rendering spheres or circles (or any other shape) as vertices at their assigned positions lead to a plausible visual representation of the whole graph.

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does the graph have to be planar? –  TMS Jan 11 '14 at 13:43
    
No not necessarily. –  Farzad Jan 11 '14 at 17:05
    
The problem with your question is in very unclear requirements on the drawing algorithm - "plausible visual representation" is not a clear objective criteria. I can easily create a very simple drawing algorithm for you, that will fulfill the condition but it will create ugly graphs. Who will decide what is ugly and what is not? –  TMS Jan 11 '14 at 17:44
    
I had been thinking there must be an algorithm out there in the literature that satisfies mentioned conditions. –  Farzad Jan 11 '14 at 18:33
    
Which conditions? You have specified no clear conditions. Go back and read my previous comment again. –  TMS Jan 11 '14 at 18:56

2 Answers 2

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Check this Spring-Electrical Embedding It is in O(nlog n).

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Thanks. That's what I had been thinking as a solution: confining the attractive force to nearby vertices. I think it adds the overhead of knowing neighbors but it's not something that cannot be solved. –  Farzad Jan 15 '14 at 4:03
    
Peng, what is n? You should always say what is n if you put expression like that. Right @Farzad? –  TMS Jan 15 '14 at 10:20
    
@Tomas, n is the number of nodes in the graph. This is the common notation from graph theory. :-) –  Peng Zhang Jan 15 '14 at 11:23
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And by the way, answers like this are discouraged, because they don't contain anything besides the link - which might stop working. –  TMS Jan 15 '14 at 12:51
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@Tomas what you're referring to is the worst case that doesn't happen for real-world large graphs. Have a look at SNAP large graph dataset. These large graphs are sparse, they may have millions of vertices but don't have hundreds of billions of edges. Plus this post has the answer I was looking for. A useful link is better than a long useless answer or no answer. –  Farzad Jan 15 '14 at 17:38

If you have sparse matrix you can consider about creating graph as list of neighbours or simplier like pair of vertices (e.g. (1, 3) and 1 and 3 are the numbers of vertices).

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Having the list of edges is a representation and storing format not a graph drawing format. I edit the question and add this. –  Farzad Jan 8 '14 at 17:21

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