# Retrieving Array Elements from a 2D array

I want to store 256*256 entries in a 2D array. I am doing like this:

``````struct Data
{
int Serial_Number;
int NextIndex;
} ;

struct Data Index[256][256];

Data obj1;
obj1.Serial_Number=1;
obj1.NextIndex=5;

Index[3][240]=obj1;
``````

Now once I have stored all these values then How will I retrieve each value from an array element?

Like I want to retrieve a value stored at Index[3][240].

Secondly, Is this approach faster than unordered_map?

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What is the meaning of the last line of your code `Index[3][240]=obj1;` ??? I mean are you trying to store a struct obj in int – sumitb.mdi Mar 24 '14 at 5:43
`struct Date Index[256][256]`? – jfly Mar 24 '14 at 5:45
I made a mistake I have to make an array of Struct Data. – Zara Mar 24 '14 at 5:46

``````struct Data
{
int Serial_Number;
int NextIndex;
} ;

struct Data Index[256][256]; //should be this

Data obj1;
obj1.Serial_Number=1;
obj1.NextIndex=5;

Index[3][240]=obj1;
``````

retrive the data: `struct Data data = Index[3][240];`

acceess the struct's data: `data.Serial_Number;`

-

If you want to retrieve each value one by one, just use the index from Index[0][0] to Index [256-1][256-1]. but if you want to access specific element from the array, you need to loop the array to find it.

``````for(int i = 0; i < 256; ++i)
for(int j = 0; j < 256; ++j)
if(Index[i][j] == what you are looking for)
{
found!
}
``````

time complexity of this is O(m*n)(m is the length and n is width of the array) while `unordered_map::find()` runs in O(1) in the best case, O(n) in worst case (n is the number of elements, this may happen when the hash function is not good leading to too many hash collisions since `unordered_map` use hash table in its implementation).

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Which one should I prefer because I want searching/ retrieving elements to be fast? – Zara Mar 24 '14 at 5:52
even though `unordered_map` is better than array in the in big O notation aspect, but it's hard to judge which is faster. The elements in array are in contiguous region of memory so that less cache miss occurs if you access the array frequently. you'd better test it on your machine. – jfly Mar 24 '14 at 6:04