# Why is my time complexity of inserting in skip list linear?

I have implemented skip list for integers. When testing method insert, I insert natural numbers from 1 to 1000000 in a for loop with counter j. I am using stopwatch also. Appendix: in the real program, values are doubles, because I use sentinels with values double.PositiveInfinity in double.NegativeInfinity. (but that shouldn't be the problem) Pseudocode:

``````MyList = new SkipList();
stopwatch.start();
t1 = stopwatch.Elapsed.TotalMilliseconds;
for(int j = 0; j<1000000; j++){
steps = MyList.insert(j);
if(j%500==0){
t2= stopwatch.Elapsed.TotalMilliseconds -t1;
write j,t2 in a file1;
write j,steps in a file2;
t1 = t2;
}
}
``````

When I make a graph time/number of nodes, it is linear, but graph steps/nodes is logarithmic as expected. (steps is number of loop-cycles (~operations) in the method insert).

Method insert creates extra nodes and set some poiters. Nodes are implemented in the following way:

``````class Node
{
public Node right;//his right neighbour - maybe "null"
public Node down;//his bottom neighbour -maybe null
public int? value;//value
public int depth;//level where node is present: 0, 1, 2 ...

public Node(int i,Node rightt,Node downn,int depthh) {
//constructor for node with two neighbours.
value = i;
right = rightt;
down = downn;
depth = depthh;
}
//there are some other contructors (for null Node etc.)
}
class SkipList
{
public Node end;//upper right node
public Node start;//upper left node
public int depth;//depth of SkipList
//there are left (-inf) and right sentinels (inf) in the SkipList.
}
``````

Skip list is made of nodes.

Insert is defined in the class SkipList and works in the following way:

``````public int Insert(int value2, int depth2)
{
//returns number of steps
//depth2 is calculated like (int)(-Math.Log(0<=random double<1 ,2))
//and works as expected - probability P(depth = k) = Math.Pow(0.5,k)

//lsit of nodes, which will get a new right neighbour
List<Node> list = new List<Node>();
Node nod = start;
int steps = 0;
while (true) {
if (nod.right.value >= value2)
{
//must be added to our list
if (nod.down != null)
nod = nod.down;
else
break;
}
else {
nod = nod.right;
}
steps++;
}

//depth (of skipList) is maybe < depth2, so we must create
//k = 2*(depth2-depth) new edge nodes and fix right pointers of left sentinels
List<Node> newnodes = new List<Node>();
for (int jj = 0; jj < depth2 - depth;jj++ )
{
steps++;
//new sentinels
Node end2 = new Node(double.PositiveInfinity, end,depth+jj+1);
Node start2 = new Vozlisce(double.NegativeInfinity, end2,
start,depth+jj+1);
start = start2;
end = end2;
}

//fix right pointers of nodes in the List list (from the beginning)
Node x = new Node(value,list[list.Count-1].right,0);
list[list.Count-1].right=x;
int j =1;
while(j<=Math.Min(depth2,depth)){
steps++;
//create new nodes with value value
x = new Node(value,lsit[list.Count -(j+1)].right,x,j);
list[list.Count-(j+1)].right = x;
j++;
}
//if there are some new edge sentinels, we must fix their right neighbours
// add the last depth2-depth nodes
for(int tj=0;tj<depth2-depth;tj++){
steps++;
x = new Node(value,newnodes[tj].right,x,depth+tj+1);
newnodes[tj].right = x;
}

depth = Math.Max(depth, depth2);
return steps;
}
``````

I've implemented also a version of skip list where nodes are blocks and have n = node.depth right neighbours, stored in array, but the graph time/num. of nodes is still linear (and steps/num. of nodes is logarithmic).

-
I don't know if you are aware of it but, `10 ^ 6` is `12` not 1000000. –  I4V Apr 15 '13 at 6:17
Sorry, I should have written 1000000, to much Matlab. –  PythonSharp Apr 15 '13 at 11:08
Answer is greatly depends on your particular implementation, but it's nothing to start with. I suppose that inserting sorted array may be one of worst cases - which numbers / complexity do you get if insert random numbers, but not sequentially increased ones? Also, try profiling you code with dotTrace - maybe some operations take too much time in your implementation (like Contains for arrays etc)? –  Lanorkin Apr 15 '13 at 19:39
No, there aren'n any .Contains etc. –  PythonSharp Apr 16 '13 at 6:19
Oh, complexity does not depend so much on values, I want to insert, because depth of nodes "takes care" of that. (But I agree - inserting sorted array IS the worst case.) For random values, the previously mentioned graphs are the same, also for inserting one million ones. –  PythonSharp Apr 16 '13 at 6:33

`^` is "xor";
``````10 : 1010
If you loop from 0 to 11, then yes - it'll appear pretty linear - you won't notice any degradation over that size. You probably want `Math.Pow` rather than `^`, but it would be simpler to hard-code `1000000`.