# What is the difference between iteration and traversing?

The past few weeks I have been learning about iterators. I still do not understand the main difference between iterating through a link list and traversing through one. I know that traversing means to go through (visiting every element) the link list, and when iterating you basically do the same thing, but what is different, and why cannot you iterate through everything (standard library data-structures)?

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An `iterator` is something that `traverses` a container. –  Arrieta May 1 at 22:44

“Traversal” just means walking through (all or some) elements of a data structure.

Historically, “iteration” in computer science is a special form of recursion for which no additional stack space is needed1 – in other words, tail recursion. This form is computationally exactly equivalent to what we now colloquially know as “iteration”, namely a finite loop (such as a `for` loop with a fixed lower and upper bound).

Now this makes iteration especially well suited (compared to general recursion) for traversing linear data structures2. Note that it does not work for all containers (e.g. general graphs) because here you need to remember the visited already nodes (e.g. using depth-first search, which is defined recursively in terms of adjacent nodes, rather than via the C++ concept of iterators).

It is in this context that the term “iteration” is used in C++ applied to containers.

In summary: not every traversal is an iteration but every iteration (over a data structure) is a traversal. However, it’s worth noting that many people make no such distinction and use the terms interchangeably.

1 In particular this is the usage of Gerald Sussman of SICP fame.

2 But seemingly non-linear data structures such as trees can be linearised for the purpose of iteration by applying the right-hand rule (wall-following algorithm) and can thus be traversed without a stack.

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`not every traversal is an iteration` Do you have an example for this? –  typ1232 May 1 at 22:49
@misteryeti Yes, and it’s in my answer: breadth-first search. However, depth-first search is a better example since it explicitly uses a stack (or recursion) while BFS often uses a queue instead (but that changes nothing). –  Konrad Rudolph May 1 at 22:51
@misteryeti Well you can actually iterate through trees because of their well-defined structure (not every graph is a tree!) but that requires some nontrivial operations. I have actually no idea how the standard library implements this … but due to the complexity requirements of the standard library I expect that the standard library tree iterators actually do iterate. –  Konrad Rudolph May 1 at 22:55
–  typ1232 May 1 at 23:00
+1, I like the idea that traversal is a more generic term while iteration is used for data structures that have a natural sequential view. –  Sebastian Redl May 1 at 23:00

Note: I just made this definition up, but it fits my mental model, so I'm going with it.

Iteration is discrete, traversal may or may not be. So, you can traverse the range of allowable volumes on the analog volume knob on your speaker, but you cannot iterate through them.

But iteration is a type of traversal. So every iteration is a traversal, but not every traversal is an iteration.

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AFAIK they are synonymous. What makes you think there is a difference?

I feel ;) that "traverse" is sometimes used to indicate that internal structure is exploited. You traverse a tree by going from parentnodes to childnodes or you traverse a list by following the next pointers.

An array on the other hand you iterate over. You have all the elements, just work through them one by one.

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what is AFAIK? and i'm pretty sure there is a difference.... –  FJam May 1 at 22:28
As far as I know –  Floris Velleman May 1 at 22:28
@FJam, I'm pretty sure there isn't a difference. –  Mooing Duck May 1 at 22:35

I would call `iterator` the "agent" and `traverse` the "action". Actually, it often confuses me when people refer to `traversing` over something as `iterating` over something (because to me `iteration` is related to numerical methods which are converging towards a mathematical point via iteration). On the other hand, even I use the words interchangeably.

You cannot `iterate` over containers for which there is no concept of `traversal`. At a minimum, in order to `traverse` something, you need to know at least whether you have a neighbor, and how to get to it.

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A iterator basically gives you the functionality to traverse through a datastructure - visiting every element. I would call `traversing` and `iterating` synonyms. There are `iterators`, but I don't know `traversers` in programming.

``````and why cannot you iterate through everything(STL datastructures)?
``````

Some datastructures do not have information that allows this. For example on a stack you should not be able to traverse though all the elements because you can only access the top of the stack.

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so they are basically the same? –  FJam May 1 at 22:32
An iterator is a object that helps you traverse something. I would call "traversing" and "iterating" synonyms. There are Iterators, but i don't know "Traversers" in programming :) –  typ1232 May 1 at 22:34