A Hash (aka Hash Table) implies more than a Map (or Associative Array).

In particular, a Map (or Associative Array) is an Abstract Data Type:

...an associative array (also called a map or a dictionary) is *an abstract data type composed of a collection of (key,value) pairs, such that each possible key appears at most once* in the collection.

While a Hash table is *an implementation* of a Map (although it could also be considered an ADT that includes a "cost"):

...a hash table or hash map is a data structure that **uses a hash function to map identifying values, known as keys [...], to their associated values** [...]. Thus, *a hash table implements an associative array [or, map].*

Thus it is an implementation-detail leaking out: a `HashMap`

is a `Map`

that uses a Hash-table algorithm and thus provides the expected performance characteristics of such an algorithm. The "leaking" of the implementation detail is good in this case because it provides some basic [expected] bound guarantees, such as an [expected] `O(1)`

-- or constant time -- `get`

.

Hint: a hash function is important part of a hash-table algorithm and sets a `HashMap`

apart from other `Map`

implementations such as a `TreeMap`

(that uses a red-black tree) or a `ConcurrentSkipListMap`

(that uses a skip list).

Another form of a Map is an Association List (or "alist", which is common in LISP programming). While association lists are `O(n)`

for `get`

, they can have much less overhead for small `n`

, which brings up another point: Big-Oh *describes limiting behavior* (as `n -> infinity`

) and does not address the relative performance for a *particular [smallish] *`n`

:

A description of a function in terms of big O notation usually **only provides an upper bound on the growth rate of the function.**

*Please refer to the links above (including the javadoc) for the basic characteristics and different implementation strategies* -- anything else I say here is already said there (or in other SO answers). If there are specific questions, open a new SO post if warranted :-)

Happy coding.

Here is the source for the `HashMap`

implementation that is in OpenJDK 7. Looking at the `put`

method shows that it a simple *chaining* as a collision-resolution method and that the underlying "bucket array" will grow by a factor of 2 each resize (which is triggered when the load factor is reached). The load factor and amortized performance expectations -- including those of the hashing function used -- are covered in the class documentation.