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For a class I'm taking, it is preferred to use a one-pass algorithm to fix a certain task. Since this class is outside of my specialization (I'm Built Environment, the class is Computer Science), and it isn't discussed in class, I haven't got a clue what a one-pass algorithm is. Googling it gave made me think something like this:

Each input can only be accessed once, and everything should be processed in order.

For my code below, this suggests to me that the for loop would fit in a one-pass algorithm, but I'm unsure about the while loop.

Could you tell me, preferably in layman's terms, what a one-pass algorithm means / entails, and if my code below fits this description?

public int[] computeDepth(int tree[]) {
    int[] depth = new int[tree.length];

    depth[0] = 0;
    for (int index=1; index < tree.length; index++) {

        depth[index] = 1;

        int parentIndex = tree[index];
        while (parentIndex != 0) {

            parentIndex = tree[parentIndex];
            depth[index]++;
        }
    }

    return depth;
}
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  • Possible duplicate of What is a Single Pass Algorithm Sep 19, 2017 at 15:16
  • Have you read the Wikipedia article about it? What part confused you?
    – Michael
    Sep 19, 2017 at 15:17
  • I did, and I also read the post that this would be a possible duplicate of, but for me, those explanations are quite complicated, bringing more confusion than confirmation. I think that my code would be a one-pass, but I'm not sure, because of the while loop. What confuses me is the use of (I guess) professional terms, which I'm unfamiliar with.
    – Timmiej93
    Sep 19, 2017 at 15:22
  • Alright. Can you provide a sample tree? I'm having trouble working out what your algorithm is expecting.
    – Michael
    Sep 19, 2017 at 15:25
  • Sample input would be [0 0 0 1 2], output would be [0 1 1 2 2]. The assignment is about representing trees in arrays, this method specifically is about finding out how deep each node lies (how many lines between it and the root node)
    – Timmiej93
    Sep 19, 2017 at 15:28

3 Answers 3

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In computing, a one-pass algorithm is one which reads its input exactly once, in order, without unbounded buffering (you're not storing things elsewhere and counting that as one look). A one-pass algorithm generally requires O(n) (if you have n items, it takes n steps to finish) and less than O(n) storage (since you don't always need to use extra storage, it could be low as O(1)), where n is the size of the input.

(lifted straight from https://en.wikipedia.org/wiki/One-pass_algorithm, with some layman translation)

A for loop is a quintessential one-pass algorithm - you look at each value exactly once and move on. A while loop can work too, as long as it only looks at each value exactly once and does not repeat what the for loop looks at - but it's not in this case.

Your goal in this depth-first search is to look at each node exactly once, and move on, never repeating. The while loop traverses the tree multiple times, so no, it is not one-pass.

Hope that made sense.

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  • So, if I understand correctly: You can only access each input (or input array's variable in this case) once, and you can not store the input in an other, temporary variable?
    – Timmiej93
    Sep 19, 2017 at 15:30
  • Yes, no storing input somewhere else unrestrictedly. You can somewhat, but not in an unbounded fashion - if you need to store a variable in one box, that's okay, but you aren't allowed to just create more boxes for variable storage in an unlimited fashion. An example of bounded temporary storage is, say, if I'm summing a list of numbers, the intermediary result is a bounded buffer (it only ever uses one box, and doesn't grow or shrink). If you decide to store your entire data set in another box, that's not good, since it can be as big as your data set (it's considered unbounded).
    – Kwahn
    Sep 19, 2017 at 15:33
  • @Kwahn int[] depth = new int[tree.length]; ... return depth; - this looks like the result requires O(n) storage anyway. Sep 19, 2017 at 15:45
  • Right - if the output's O(n), you'll have to use O(n) storage. But that's also its bound, a predefined box that's not being dynamically expanded or shrunk with no limitations. I'm probably explaining bound vs. unbound really poorly. Sorry :(
    – Kwahn
    Sep 19, 2017 at 15:57
  • 1
    How does this type of algorithms (one-pass) relate to online algorithms? en.wikipedia.org/wiki/Online_algorithm E.g.: Are one-pass algorithms a subset of online algorithms? Thank you!
    – tonix
    Jul 21, 2020 at 10:27
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In layman terms, a one-pass algorithm is one which reads its input exactly once, in order.

Does your code fits the description: No.

You are traversing the input tree multiple times with the inside while loop:

tree[index] and tree[parentIndex]

which violates the basic criteria for the one-pass algorithm.

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  • So basically, I can only use 1 single loop that gets each value from the tree array in order, and I can not access the tree array in any other way?
    – Timmiej93
    Sep 19, 2017 at 15:35
  • Not the same index. Sep 20, 2017 at 5:33
  • How do one-pass algorithms relate to online algorithms? Quoting Wikipedia: en.wikipedia.org/wiki/Online_algorithm Thank you! An online algorithm is one that can process its input piece-by-piece in a serial fashion, i.e., in the order that the input is fed to the algorithm, without having the entire input available from the start. This definition seems to be pretty similar to that of one-pass algorithms... What do you think? Thank you!
    – tonix
    Jul 21, 2020 at 10:29
  • 1
    @tonix A one-pass algorithm just needs to go through each input once - an online algorithm is even more restrictive, in that the input is provided only one piece at a time, rather than providing the entire input at once. So a loop that counts how many inputs there are, then runs that many time, wouldn't work in an online algorithm, because it doesn't receive the entire input at once, so it doesn't know how many it will receive.
    – Kwahn
    Jul 27, 2020 at 3:35
  • Thank you for your clarification. I didn't understand this part though: So a loop that counts how many inputs there are, then runs that many time, wouldn't work in an online algorithm, because it doesn't receive the entire input at once, so it doesn't know how many it will receive. What do you mean by runs that many time and wouldn't work in an online algorithm, because it doesn't receive the entire input at once, so it doesn't know how many it will receive.? Thank you!
    – tonix
    Jul 27, 2020 at 9:04
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I think the algorithm in OP is not one-pass as tree indexes are accessed multiple times(once in for and once in while). It could be converted to one-pass with something like below

public int[] computeDepth(int tree[]) {
    int[] depth = new int[tree.length];
    depth[0] = 0;
    for (int index=1; index < tree.length; index++) {

        depth[index] = 1;
        int parentIndex = tree[index];
        if(parentIndex != 0){
          depth[index] += depth[parentIndex]
        }
   }
   return depth;
}

Here we are calculating depth of child from already calculated depth of it's parent.

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