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It has suddenly occured into my mind.

Why do we use only 2 colors in BFS graphs traveral

and 3 are needed for DFS ?

for instance: from wikipedia:


procedure BFS(G,v):
2      create a queue Q
3      enqueue v onto Q
4      mark v
5      while Q is not empty:
6          t ← Q.dequeue()
7          if t is what we are looking for:
8              return t
9          for all edges e in G.adjacentEdges(t) do
12             u ← G.adjacentVertex(t,e)
13             if u is not marked:
14                  **mark u**
15                  enqueue u onto Q
16     return none


  procedure DFS(G,v):
2      label v **as explored**
3      for all edges e in G.adjacentEdges(v) do
4          if edge e is unexplored then
5              w ← G.adjacentVertex(v,e)
6              if vertex w is unexplored then
7                  label e as a **discovery edge**
8                  recursively call DFS(G,w)
9              else
10                 label e as a **back edge**

why are 2 colors not enough for DFS? why are 3 colors reduant for BFS?

here is another BFS (this time 3 colors):

enter image description here

share|improve this question
Can you provide a reference about this? What makes you say two colors are needed for BFS versus DFS? – templatetypedef Feb 3 '13 at 18:52
wikipedia. edited mt q – Elad Benda Feb 3 '13 at 19:52
up vote 2 down vote accepted

There are a different number of colors in each of the two algorithms because they are used to represent fundamentally different types of information.

In both BFS and DFS, nodes need to be marked as either unexplored nodes or explored nodes. Two colors are needed at a minimum to represent this information.

In the DFS implementation you have listed above, the implementation also uses colors to classify edges as either "discovery edges" (edges that form the depth-first search tree produced by the algorithm) or "back edges" (edges that move from a deeper part of the DFS tree to a shallower part of the DFS tree). These colors are used to color edges, not nodes. As a result, three colors are necessary for edges - unexplored edges, "discovery" edges, and back edges.

Hope this helps!

share|improve this answer
I have added example of BFS with 3 colors. Why is this needed? Why do we need to clasify edges? – Elad Benda Feb 3 '13 at 20:10
@EladBenda- All of this depends on the application. There is no fundamental reason why you must classify edges, and often you don't need to. Some implementations might use three colors in BFS to distinguish between unvisited, visited-but-not-yet-expanded, and visited-and-expanded. I honestly think this isn't worth worrying about. It purely depends on what you want to do with the search, and is not some fundamental characteristic of the algorithm. – templatetypedef Feb 3 '13 at 20:13

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