# Why Q.head = Q.tail + 1 represents the queue is full in CLRS

I was reading Elementary Data Structures from CLRS and while reading Queue ADT I came across this:

When Q.head = Q.tail + 1 , the queue is full, and if we attempt to enqueue an element, then the queue overflows.

Is it always true? because if Q.tail equals Q.length then we set Q.tail = 1 according to the text. Therefore if we completely fill the Queue then Q.tail and Q.head will be pointing to the same position (index 1) and the above condition shall not hold. What am I missing here? Please point out where am I misinterpreting the text. Thanks in advance.

Here Attribute Q.head indexes, or points to, queue's head. The attribute Q.tail indexes the next location at which a newly arriving element will be inserted into the queue.

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Wrap around feature of queue:

You need to understand the fact that location 1 in the array immediately follows location n in circular order. For example

Predecessor of element g at index 1 is f at index 11. tail pointer always points to the next empty location where new element will be inserted , in enqueue operation , before inserting element we check for overflow condition , if Q.tail +1 = Q.head , it mean tail is reached at head location , means no free space, mean queue is full.

NOTE: (n-1) length queue can be created with the array of length n.

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I had the same question on reading that line. I still do not understand why the algorithm checks for the overflow condition the way it does? Q.tail + 1 = Q.head means that Q.tail position is empty and available. –  Ketan Dec 4 '13 at 3:29

I don't have your book, but from how I would implement a cyclic buffer: The condition `head = tail + 1` means that if an element is inserted then tail is increased by one and then `tail = head`. But if head is equal to tail the queue is considered empty.

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Sorry I am not getting this point : "The condition means that if an element is inserted and tail is increased by one then tail = head." Could you please elaborate –  rishabh May 6 '13 at 10:17
When you insert an element, `tail` is incremented. So if you have `head = tail + 1`, you insert an element, you got `head = tail`, since this is supposed to be the empty state, you can't insert an element when `head = tail + 1`, so it means the queue is full. –  zakinster May 6 '13 at 13:10
@zakinster why not? queue can be full only when there are no empty slots left. That means, it is possible to enter an item into the tail position when head and tail are not in the same position. –  Ketan Dec 4 '13 at 3:32
Ok, I got it, the idea is to keep one slot empty to accommodate the fact that the head and tail should not point to the same location when queue is full: en.wikipedia.org/wiki/Circular_buffer –  Ketan Dec 4 '13 at 3:48

When the queue is implemented with an array of `Q[1..n]`, It can hold up to `n-1` elements. But the condition for `is_full` must be `[head == tail+1]` mod n not just `head == tail+1`.

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