In computer science, it is said that the insert, delete and searching operations for hash tables have a complexity of O(1), which is the best. So, I was wondering, why do we need to use other data structures since hashing operations are so fast? Why can't we just simply use hashing/hash tables for everything?
Hash tables, on average, do have excellent time complexity for insertion, retrieval, and deletion. BUT:
Big-O complexity isn't everything. The constant factor is also very important. You could use hashtables in place of arrays, with the array indexes as hash keys. In either case, the time complexity of retrieving an item is O(1). But the constant factor is way higher for the hash table as opposed to the array.
Memory consumption may be much higher. This is certainly true if you use hash tables to replace arrays. (Of course, if the array is sparse, then the hash table may take less memory.)
There are some operations which are not efficiently supported by hash tables, such as iterating over all the elements whose keys are within a certain range, finding the element with the largest key or smallest key, and so on.
All of that aside, you do still have a good point. Hashtables have an extraordinarily broad range of suitable use cases. That's why they are the primary built-in data structure in some scripting languages, like Lua.
HashTableis not answer for all. If your hash function does not distribute your key well than
hashMapmay turn into a
linkedListin worst case for which the insertion, deletion, search will take
O(N)in worst case.
HashMaphas significant memory footprint so there are some use cases where you memory is too precious than time complexity then you
HashMapmay not be the best choice.
HashMapis not an answer for range queries or prefix queries. So that is why most of the database vendor do implement indexing by
Btreerather than only by hashing for range or prefix queries.
HashTablein general exhibit poor locality of reference that is, the data to be accessed is distributed seemingly at random in memory.
For certain string processing applications, such as spellchecking, hash tables may be less efficient than tries, finite automata, or Judy arrays. Also, if each key is represented by a small enough number of bits, then, instead of a hash table, one may use the key directly as the index into an array of values. Note that there are no collisions in this case.