Here's an approach you can follow.
Suppose you are given
Range as [1 to N], where N can be variable(input from user)/constant(fixed already).
Subsets as Ai[ai, bi], where 1<=i<=k. ie you have k subsets with ai being the lower boundary and bi being the upper boundary.
Now start creating tree with first node as [1,N]. At a given time during the execution of the algorithm, In the tree, each leaf node represent the range of number which is not covered by any of the given subset, ie you must print the range of numbers for all the leaf nodes.
To start with Tree has only one leaf node [1,N]. i.e since we have not processed any subsets yet so we must print all numbers between 1 to N.
At the end of algorithm tree will contain many leafs. Each leaf will represent range of numbers not covered by any subsets. so you must print those numbers as output.
STEP 1: Creating the Tree
For i = 1 to k //process for all given subsets
For every leaf node in current tree
//Let [x,y] is the current leaf node being processed
1. if(ai>=x && bi<=y) //subset being processed lie inside the leaf being
create nodes [x,ai-x] and [bi+1,y] and attach as child of the leaf node
2. if((x<=ai<y) && (bi>y)) //subset overflows towards right
create a node [x, ai-1] and attach as child to the current leaf node being
3. if((ai<x) && (x<bi<=y)) //subset overflows towards left
create a node [bi+1, y] and attach as child to the current leaf node being
STEP 2: Printing the output
//Now the leaf nodes indicate the numbers to be printed.
For each leaf node [x,y] of the resulting tree
//you will get some leaf node with x>y
print the numbers in range [x,y].