# Why does Dijkstra's algorithm need to use the deleteMin() and decreaseKey()?

In most pieces of pseudocode, I usually find the following:

• DeleteMin (Return the element with the smallest key and delete it from the set.)

• DecreaseKey (Accomodate the decrease in key value of a particular element)

• Why is DeleteMin being used to retrieve the smallest element- why not a random one?
• What is the purpose of DecreaseKey? In pseudocode it's always called after the value of an element is changed. What is it doing?
-
Are you talking about a heap, rather than Dijkstra's algorithm? –  Oli Charlesworth Jun 21 '12 at 11:49
possible duplicate of Why does Dijkstra's algorithm use decrease-key? –  Petar Minchev Jun 21 '12 at 11:50
If you take a random next node(not with the smallest distance) the algorithm is incorrect. –  Petar Minchev Jun 21 '12 at 11:50
No, Dijkstra's algorithm uses a priority que, which is often confused with a heap. I am asking specifically about the function of the above instructions in the context of Dijkstra's algorithm. –  fdh Jun 21 '12 at 11:50
@PetarMinchev: I disagree it is a dupe. The other question specifically asks: why don't we re-add v, while this question asks - why modify in the first place? It also asks about the deleteMin() step, which is happening much before the modification. –  amit Jun 21 '12 at 11:58

Why is DeleteMin being used to retrieve the smallest element- why not a random one?

We retrieve and delete the min elements from `Q` the set of open vertices because it ensures minimality (later used in the proof). Without it - the minimality feature is not guaranteed, and the solution will not be optimal (won't be the shortest path). Remember that once we found a path to `v`, we remove it from `Q`, and will never re-open it, so the edge we take out must have the one with the smallest path available.

Note that for this (the minimal) vertex, let it be `v`: for each `u` in `Q` `d(u) + x <= d(v)` - since dijkstra's algorithm is used when there are no negative edges, x >=0.
For any other vertex - which is not minimal - we cannot guarantee that there is no shorter path yet to be discovered.

What is the purpose of DecreaseKey? In pseudocode it's always called after the value of an element is changed. What is it doing?

The decrease is used because we might have found a new, better path to vertices that are connected to the last vertex we found. This step is the relaxation step dijkstra's algorithm is making. Remember that dijkstra's algorithm is always maintaining the shortest path found so far to each vertex, since the last step might have found a new shortest path to some vertex - this step is updating the shortest path found so far.

-
Thanks, that helped a lot! –  fdh Jun 21 '12 at 16:55