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Pseudo code which I used:

for all V vertices: visited[n]=0

pick any vertex r from graph and set visited[r]=1

For all edges e incident to r

while(PQ is not empty)//line 1
  f=PQ.min()//f(r,s) is such that visited[s]=0
  for all edges e(s,t) incident to s//line 2
        PQ.insert(e);//line 3
        PQ.delete(e);//line 4
end while;

According to my understanding:

  • line 1 : executes V-1 times.
  • Line 2 : Sum of Degree of all the vertices times…..that is 2E times

For each line 2: Line 3 and line 4 take log E time because we’re adding/deleting all the edges to/from the PQ one by one.

So total time= V-1+2E.logE = E.log E

But the book says it is E.logV, could you explain why that is?

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2 Answers 2

up vote 3 down vote accepted

O(log(V)) and O(log(E)) are the same.

  • E is at most V2.
  • log(V2) = 2*log(V)
  • which is an O(log(V))
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+1: actually E is at most V(V-1)/2. Good answer. –  Nick Dandoulakis Aug 23 '09 at 8:30
@Nick D: right, but as I think in complexities, for me it's the same. E is at most O(V^2) :) –  yairchu Aug 23 '09 at 11:25

for all edges e(s,t) incident to s

How many edges a node s can have at most?
V-1 at most. So, PQ operations have O(logV) time complexity.

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True...got it. Thank u so much :) –  rajya vardhan Aug 22 '09 at 10:21

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