I am implementing a hash table for a project, using 3 different kinds of probing. Right now I'm working on linear.

For linear probing, I understand how the probing works, and my instructor implied he wanted the step size to be 1. The thing is, no duplicates are allowed. So I have to "search" for a value before I insert it, right? But what if the table is used to the point where all the cells are either "occupied" or "deleted"? Then in order to search for a specific key to make sure it isn't in the table, I'll have to search the entire table. That means a search operation (and by extension, an insert operation) is O(n).

That doesn't seem right, and I think I misunderstood something.

I know I won't have to run into the same issue with quadratic probing, since the table needs to be at least half empty, and it will only probe a determined number of elements. And for double hashing, I'm not sure how this will work, because I'll also need to search the table to prove that the key to be inserted isn't present. But how would I know how to stop the search if none of the cells are "never occupied?"

So: In open hashing, where every entry in the table has been occupied in the past, does it take O(n) probes to search for an element (and insert, if no duplicates are allowed)?