Dart has a Map type, with implementations like HashMap, LinkedHashMap, and SplayTreeMap. What's the difference between those different Map implementations?
Dart has built-in support for collections like List, Set, and Map. Dart has different Map implementations. Understanding the pros and cons between implementations can help you make an informed decision.
(Note: this is written around the time of Dart M3, so what follows might not match the docs at this moment.)
What is a Map?
A Map is an associative container, mapping keys to values. Keys are unique, and can point to one and only one value. A key cannot be null, but a value can be null.
Dart supports Map literals, like this:
The spec says that map literals must maintain insertion order. This means that
The spec also says that Map literal keys must be Strings. This might be changed in the future.
Dart supports factory constructors, so you can create a new instance of Map like this:
Earlier versions of Dart created a new instance of
LinkedHashMap (or, InsertionOrderedMap)
Note: LinkedHashMap will probably be renamed to InsertionOrderedMap. Follow Dart bug 2349 for progress.
Here is an example:
Here is the source code for LinkedHashMap. (if this link stops working, it's probably because the class was renamed)
A HashMap has no guarantee of maintaining insertion order. When you iterate through a HashMap's keys or values, you cannot expect a certain order.
A HashMap is implemented using a hash table.
Here is an example of creating a new HashMap:
If you don't care about maintaining insertion order, use HashMap.
Here is the source code of HashMap.
A splay tree is a self-balancing binary search tree with the additional property that recently accessed elements are quick to access again. It performs basic operations such as insertion, look-up and removal in O(log(n)) amortized time.
A SplayTreeMap requires that all keys are of the same type.
A splay tree is a good choice for data that is stored and accessed frequently, like caches. The reason is that they use tree rotations to bring up an element to the root for better frequent accesses. The performance comes from the self-optimization of the tree. That is, frequently accessed elements are moved nearer to the top. If however, the tree is equally often accessed all around, then there's little point of using a splay tree map.
An example case is a modem router that receives network packets at very high rates. The modem has to decide which packet go in which wire. It can use a map implementation where the key is the IP and the value is the destination. A splay tree map is a good choice for this scenario, because most IP addresses will be used more than once and therefore those can be found from the root of the tree.