Which one performs faster in Insert, Delete, Look-up? Which one takes less memory and less time to clear it from the memory. Any explanations are heartily welcomed !!!
For a specific use, you should try both and see which is actually faster... there are enough factors that it's dangerous to assume either will always "win".
implementation and characteristics of unordered maps / hash tables
That said, academically - as the number of elements increases towards infinity, those operations on an unordered map (which is the C++ library's name for what Computing Science terms a "hash map" or "hash table") will tend to continue to take the same amount of time O(1) (ignoring memory caching etc. issues), whereas with a map (a balanced binary tree) each time the number of elements doubles it will typically need to do an extra comparison operation, so it gets gradually slower O(log2n).
Regarding memory: another important consideration is whether the memory's contiguous and the typical access patterns (which affect caching/swapping). Unordered maps can be implemented in a variety of ways, with implications for the memory usage. The fundamental expectation is that there'll be a contiguous array of key/value "buckets", but in real-world implementations the basic design tradeoffs may involve:
- two or more contiguous regions to reduce the performance cost when growing the container capacity, and separately
- when there's a collision, an implementation may
- (A) use an algorithm to select a sequence of alternative buckets or
- (B) they may have each bucket be/point-to a resizable container of the key/value pairs.
Trying to make this latter choice more tangible: at its academic simplest, you can imagine:
- (A) - the hash table finding alternative "buckets" - as an array containing of key/value pairs, with empty/unused values scattered amongst the meaningful ones, akin to
- (B) - the hash table that instead uses containers is like a
vector<list<pair<key,value>>> where every vector element is populated, but getting from the vector elements to the lists involves extra pointers and discontiguous memory regions: this will be a little slower to deallocate as there are more distinct memory areas to
If the ratio of used to unused buckets is kept low, then there will be less collisions but more wasted memory.
implementation and characteristics of maps / balanced binary trees
map is a binary tree, and can be expected to employ pointers linking distinct heap memory regions returned by different calls to
new. There's usually some overhead in memory allocations (e.g. if you ask for 100 bytes you may get 128 or 256 or 512), the memory is not contiguous and may not work as well in caches.
Another consideration: as the size of key/value pairs increase, the memory allocation overheads and pointers become less significant in comparison, so maps tend to use less memory. But, you can often create a hash map of key/pointers-to-value which mitigates that problem.
So, there's the potential for a hash map to use less overall memory (particularly with small key/value types and a high used-to-unusued bucket ratio) and do less distinct allocations and deallocations as well as working better with caches, but it's far from guaranteed.