- D - Conditional Compilation
- D Programming - Contract
- D Programming - Exception Handling
- D Programming - Concurrency
- D Programming - File I/O
- D Programming - Immutables
- D Programming - Templates
- D Programming - Modules
- D Programming - Mixins
- D Programming - Aliases
- D Programming - Ranges
- D Programming - Unions
- D Programming - Structs
- D Programming - Tuples
- D Programming - Pointers
- D Programming - Associative Arrays
- D Programming - Arrays
- D Programming - Strings
- D Programming - Characters
- D Programming - Functions
- D Programming - Decisions
- D Programming - Loops
- D Programming - Operators
- D Programming - Literals
- D Programming - Enums
- D Programming - Data Types
- D Programming - Variables
- D Programming - Basic Syntax
- D Programming - Environment
- D Programming - Overview
- D Programming - Home
D Programming - Object Oriented
- D Programming - Abstract Classes
- D Programming - Interfaces
- D Programming - Encapsulation
- D Programming - Overloading
- D Programming - Inheritance
- D Programming - Classes & Objects
D Programming - Useful Resources
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D Programming - Associative Arrays
Associative arrays have an index that is not necessarily an integer, and can be sparsely populated. The index for an associative array is called the Key, and its type is called the KeyType.
Associative arrays are declared by placing the KeyType within the [ ] of an array declaration. A simple example for associative array is shown below.
import std.stdio; void main () { int[string] e; // associative array b of ints that are e["test"] = 3; writeln(e["test"]); string[string] f; f["test"] = "Tuts"; writeln(f["test"]); writeln(f); f.remove("test"); writeln(f); }
When the above code is compiled and executed, it produces the following result −
3 Tuts ["test":"Tuts"] []
Initiapzing Associative Array
A simple initiapzation of associative array is shown below.
import std.stdio; void main () { int[string] days = [ "Monday" : 0, "Tuesday" : 1, "Wednesday" : 2, "Thursday" : 3, "Friday" : 4, "Saturday" : 5, "Sunday" : 6 ]; writeln(days["Tuesday"]); }
When the above code is compiled and executed, it produces the following result −
1
Properties of Associative Array
Here are the properties of an associative array −
Sr.No. | Property & Description |
---|---|
1 | .sizeof Returns the size of the reference to the associative array; it is 4 in 32-bit builds and 8 on 64-bit builds. |
2 | .length Returns number of values in the associative array. Unpke for dynamic arrays, it is read-only. |
3 | .dup Create a new associative array of the same size and copy the contents of the associative array into it. |
4 | .keys Returns dynamic array, the elements of which are the keys in the associative array. |
5 | .values Returns dynamic array, the elements of which are the values in the associative array. |
6 | .rehash Reorganizes the associative array in place so that lookups are more efficient. rehash is effective when, for example, the program is done loading up a symbol table and now needs fast lookups in it. Returns a reference to the reorganized array. |
7 | .byKey() Returns a delegate suitable for use as an Aggregate to a ForeachStatement which will iterate over the keys of the associative array. |
8 | .byValue() Returns a delegate suitable for use as an Aggregate to a ForeachStatement which will iterate over the values of the associative array. |
9 | .get(Key key, lazy Value defVal) Looks up key; if it exists returns corresponding value else evaluates and returns defVal. |
10 | .remove(Key key) Removes an object for key. |
Example
An example for using the above properties is shown below.
import std.stdio; void main () { int[string] array1; array1["test"] = 3; array1["test2"] = 20; writeln("sizeof: ",array1.sizeof); writeln("length: ",array1.length); writeln("dup: ",array1.dup); array1.rehash; writeln("rehashed: ",array1); writeln("keys: ",array1.keys); writeln("values: ",array1.values); foreach (key; array1.byKey) { writeln("by key: ",key); } foreach (value; array1.byValue) { writeln("by value ",value); } writeln("get value for key test: ",array1.get("test",10)); writeln("get value for key test3: ",array1.get("test3",10)); array1.remove("test"); writeln(array1); }
When the above code is compiled and executed, it produces the following result −
sizeof: 8 length: 2 dup: ["test":3, "test2":20] rehashed: ["test":3, "test2":20] keys: ["test", "test2"] values: [3, 20] by key: test by key: test2 by value 3 by value 20 get value for key test: 3 get value for key test3: 10 ["test2":20]Advertisements