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What does tail traversing means in Java Hashmap? Java reverses the (linked list) bucket having more than one elements. The reversal is done to avoid Tail Traversing and adding element at the head. I cannot understand this concept.

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What implementation of Hashmap are you talking about? –  Ted Hopp Apr 6 at 7:08
All the uses of the term "tail traversing" or "tail traversal" I can find seem to trace back to a few dubious blog posts. No official source uses the term. Nothing in the source or documentation says anything about it. I recommend not using the term. –  user2357112 Apr 6 at 7:29
TedHopp I am talking about the race condition that may occur when a hash map runs out of space, and tries to double its size. –  Dhananjayan Santhanakrishnan Apr 6 at 9:16
@user2357112 then what is the mechanism behind this? Is there any other working? –  Dhananjayan Santhanakrishnan Apr 6 at 9:21

3 Answers 3

up vote 6 down vote accepted

I came to this blog searching for an answer about what tail traversal is and now i had an Epiphany

Dhananjayan, what this basically means is that tail traversing is a concept in linked list. i will try to explain this with an example. lets say you want to add the following elements to a singly linked list


Ok fine now. you have added 5 elements. so after some time , you need to add a new element 10. so if our algorithm adds elements to end of linked list, it has to traverse through theese five elements to find the tail which can be quite expensive in case of lengthy linked lists. so one efficient way is to add new elements to head instead of tail and change the head pointer to point to new head.so in this case when you add a new element 10, linked list would look like following


As you can see, this is a very efficient approach.

I will answer your second question now(What do they mean by reversing?) So in hashmap when they resize/rehash, they pull up elements from linked list starting from head and make a new linked list and add subsequent elements in order so on each iteration the result will be

  • 10
  • 23 10
  • 65 23 10
  • 44 65 23 10
  • 12 44 65 23 10

  • 90 12 44 65 23 10

so this is the result of adding new elements to head In short this is a LIFO(Last in First out) structure.


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Philip can you explain why putting new element at head is a better optimization because I may need to access the value which is at the tail someday i.e. in 10 - 23 - 65 - 44 - 12 - 90 it is not necessary that I will always need to say get() the node with value 10. I will need 90 someday and this will mean I have to go till the tail anyway. Also, why is the reversing done? Does that add any efficiency? I can always copy from one linked list to another with same efficiency in the same order (and not reversed). –  Mustafa Oct 12 at 14:42
Mustafa, They are putting new elements in head because if we add element in the tail(like a queue) , we have to traverse the entire linklist to find the tail which is a waste of time when we can just put it in head and Go. In Algorothimic lingo the efficiency is O(n) for adding element to end and O(1) for adding to head. Yes, you may need to access the 90 someday and if you think adding to head would've saved you, what if we needed 10 or 12? So my point is , for searching an element in a linear list, you have to go through it all. its O(n). –  Philip George Oct 14 at 9:39
Mustaffa, Continued... So they can't save anything on search. so they thought 'what the hell, we may as well increase the efficiency of insertion'. also, you may know the temporal locality which says that the last used variables have a high chance of being used again . so there's a good chance that 10 will be used in near future(just a guess ok? no official docs says this). Copying a linklist won't work because. when we resize, HASH value has to be recomputed and most probably, these elements may scatter to different buckets. Huge Explanation for a short question I KNOW!... –  Philip George Oct 14 at 9:44
Thanks Philip - Your explanation and mailinator.blogspot.hu/2009/06/beautiful-race-condition.html made it very very clear. –  Mustafa Oct 14 at 18:22
Blog was very helpful for me also. thanks Mustaffa –  Philip George Oct 16 at 12:46

In HashMap we always need to traverse through linked list even if there is an existing linked list at particular index for checking against key.

for (Entry<K,V> e = table[i]; e != null; e = e.next) {

so even if add new entry at top , how will it avoid tail traversing , since we anyway need to traverse for key checking? where at last after checking if we dont find same key, we can add the new entry at last.

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To answer Sufian's question. Yes you are correct for traversal we need to traverse the whole linked list. But this thread is solely related to hash collision resolution. One of the the method to solve has collision is to restructure the whole linked list that is stored in a bucket. So hashmap creates a new linkedlist from the old one. and this TRAIL TRAVERSING happens only during that time of recreation.

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