First of all we are talking about an open addressing (or closed hashing) approach. You need to handle collisions calculating a new hashcode if the previous one is already used by another one, this because every bucket of the hashamap can contain at most 1 element.
So you have an hashing function with two parameters:
v, the value of the object used to compute hashcode.
i, called stepsize, is what you add everytime to you hash function if a collision occur and
f is the number of collisions reached so far.
Starting from this you have two possible functions:
H(v, t) = (H(v) + t) % n
H(v, t) = (H(v) + c*t + d*t*t) % n
First one is a linear function, while second is a quadratic one (here it comes the names of this tecnique).. where you should know what
% n is,
d are chosen constants to have a better hashfunction..
Practically speaking for linear probing:
- you caculate
- if cell is free place the element there
- if cell is occupied calculate
- if cell is free place the element in the new address
- if cell is occupied then calculate
- continue until you find an empty cell
for the quadratic probing what you do is identical, you start from
H(x,i+i), what differs is the hashing function involved which will give a different weight to the step size.