Given A Tree. How to find distance between every pair of nodes in tree without using 2D matrix of size n*n. I know solution of O(n^2) complexity .

8If the output is (v1,v2,distance) for each v1,v2  you cannot do better then O(n^2), since the output size itself is O(n^2). Please elaborate what the expected output should be. A simple example will be also great. – amit Aug 6 '13 at 12:59

This might be useful All pair shortest path in Trees – sg08 Nov 6 '16 at 14:04
As I already mentioned in comment, assuming that the output should be (v1,v2,distance)
for every pair of vertices v1,v2
in your tree  note that there are n*(n1)
pairs of such vertices. Since n*(n1)
is in O(n^2)
 and it is the size of the output, it cannot be done better then O(n^2)
, so your algorithm is optimal, in terms of big O notation.

What about space complexity?.. can you do it in less than O(n^2) Space? – Vineet Setia Aug 7 '13 at 16:02
If you want to be able to answer queries of form distance(u, v)
fast enough with fast preprocessing, you may use LCA. LCA, or lowest common ancestor, of two vertices in a rooted tree is a vertex which is an ancestor of both of them and which is the lowest among all of theirs common ancestors. There is a not very complex algorithm to find LCA(u, v)
in logarithmic time with n log n
preprocessing time. I can describe it if it is needed.
So, your problem may be solved as following. First, fix a root of your tree. Then make an above mentioned preprocessing to be able to find LCA. Then, supposing h[v]
is a distance from v
to the root (can be precomputed in linear time for all vertices) then distance(u, v) = h[u] + h[v]  2 * h[LCA(u, v)]
.

could u please provide link or explain with pseudo code explaining above concept – Tushar Saha Jul 11 '17 at 5:39

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