# Quadrant Queries [closed]

I have almost solved this quadrant queries problem of Interviewstreet using segment trees with lazy propagation but I'm still getting wrong answer so I need help in my code.

This is the question:

There are N points in the plane. The ith point has coordinates (xi, yi). Perform the following queries:

1. Reflect all points between point i and j both including along the X axis. This query is represented as `X i j`
2. Reflect all points between point i and j both including along the Y axis. This query is represented as `Y i j`
3. Count how many points between point i and j both including lie in each of the 4 quadrants. This query is represented as `C i j`

## Input:

The first line contains N, the number of points. N lines follow.

The ith line contains xi and yi separated by a space.

The next line contains Q the number of queries. The next Q lines contain one query each, of one of the above forms.

All indices are 1 indexed.

## Output:

Output one line for each query of the type `C i j`. The corresponding line contains 4 integers; the number of points having indices in the range [i..j] in the 1st,2nd,3rd and 4th quadrants respectively.

## Constraints:

``````1 <= N <= 100000
1 <= Q <= 100000
You may assume that no point lies on the X or the Y axis.
All (xi,yi) will fit in a 32-bit signed integer
In all queries, 1 <=i <=j <=N
``````

## Sample Input:

``````4
1 1
-1 1
-1 -1
1 -1
5
C 1 4
X 2 4
C 3 4
Y 1 2
C 1 3
``````

## Sample Output:

``````1 1 1 1
1 1 0 0
0 2 0 1
``````

## Explanation:

When a query says `X i j`, it means that take all the points between indices i and j both including and reflect those points along the X axis. The i and j here have nothing to do with the co-ordinates of the points. They are the indices. i refers to point i and j refers to point j

`C 1 4` asks you to 'Consider the set of points having index in {1,2,3,4}. Amongst those points, how many of them lie in the 1st, 2nd, 3rd and 4th quads respectively?' The answer to this is clearly 1 1 1 1.

Next we reflect the points between indices '2 4' along the X axis. So the new coordinates are :

``````1 1
-1 -1
-1 1
1 1
``````

Now `C 3 4` is 'Consider the set of points having index in {3,4}. Amongst those points, how many of them lie in the 1st, 2nd, 3rd and 4th quads respectively?' Point 3 lies in quadrant 2 and point 4 lies in quadrant 1. So the answer is 1 1 0 0.

## Current Code

Here is my solution in c:

``````void query(int node, int b, int e, int i, int j, char ch)
{

if(L[node][0]!=0 || L[node][1]!=0)
{
if(b!=e){
L[2*node+1][0]=L[node][0];
L[2*node+1][1]=L[node][1];
L[2*node+2][0]=L[node][0];
L[2*node+2][1]=L[node][1];
}
if(L[node][0]%2!=0)
{
tmp=Q[node][0];
Q[node][0]=Q[node][3];
Q[node][3]=tmp;

tmp=Q[node][1];
Q[node][1]=Q[node][2];
Q[node][2]=tmp;
}
if(L[node][1]%2!=0)
{
tmp=Q[node][0];
Q[node][0]=Q[node][1];
Q[node][1]=tmp;

tmp=Q[node][2];
Q[node][2]=Q[node][3];
Q[node][3]=tmp;
}
L[node][0]=0;
L[node][1]=0;

}

if (i > e || j < b)
return ;

if (b >= i && e <= j)
{
if(ch == 'C'){
ans[0]+=Q[node][0];
ans[1]+=Q[node][1];
ans[2]+=Q[node][2];
ans[3]+=Q[node][3];
}
if(ch == 'X')
{
if(b!=e){
L[2*node+1][0]++;
L[2*node+2][0]++;
}
tmp=Q[node][0];
Q[node][0]=Q[node][3];
Q[node][3]=tmp;
tmp=Q[node][1];
Q[node][1]=Q[node][2];
Q[node][2]=tmp;
}
if(ch == 'Y')
{
if(b!=e){
L[2*node+1][1]++;
L[2*node+2][1]++;
}
tmp=Q[node][0];
Q[node][0]=Q[node][1];
Q[node][1]=tmp;
tmp=Q[node][2];
Q[node][2]=Q[node][3];
Q[node][3]=tmp;
}
return ;
}

query(2 * node +1, b, (b + e) / 2, i, j,ch);
query(2 * node + 2, (b + e) / 2 + 1, e, i, j,ch);

Q[node][0]=Q[2*node+1][0] + Q[2*node+2][0];
Q[node][1]=Q[2*node+1][1] + Q[2*node+2][1];
Q[node][2]=Q[2*node+1][2] + Q[2*node+2][2];
Q[node][3]=Q[2*node+1][3] + Q[2*node+2][3];
return ;
}
``````
-

## closed as not a real question by Oliver Charlesworth, Mahmoud Al-Qudsi, David Nehme, Burkhard, Richard J. Ross IIIMay 26 '12 at 0:29

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

I don't see a specific question here... – Oliver Charlesworth May 18 '12 at 19:43

If I understand your algorithm correctly, you are using the L array to keep track of whether a a range of points needs to be flipped or not, but deferring the actual flip until it becomes necessary.

In this case, I think there might be a problem with the lines:

``````void query(int node, int b, int e, int i, int j, char ch)
{
if(L[node][0]!=0 || L[node][1]!=0)
{
if(b!=e){
L[2*node+1][0]=L[node][0];
L[2*node+1][1]=L[node][1];
L[2*node+2][0]=L[node][0];
L[2*node+2][1]=L[node][1];
}
``````

Suppose L[node][0] was 1, and L[2*node+1][0] was already 1. This means that some previous step wanted to flip the nodes at 2*node+1, and then this step also wants to flip these nodes. These flips should cancel out and L[2*node+1][0] should become zero.

I think you should change these lines to use xor so that a double flip will cancel:

``````void query(int node, int b, int e, int i, int j, char ch)
{
if(L[node][0]!=0 || L[node][1]!=0)
{
if(b!=e){
L[2*node+1][0]^=L[node][0];
L[2*node+1][1]^=L[node][1];
L[2*node+2][0]^=L[node][0];
L[2*node+2][1]^=L[node][1];
}
``````

(Or perhaps I have misunderstood the approach!)

-
yes, you are right I missed that step but instead of ^ it should be + as per my approach. – Hapie May 18 '12 at 19:32
@Hapie, you should be able to see the check mark on the left of the screen under the voting arrows and the post score – dsolimano May 18 '12 at 20:05
@dsolimano : I had done already please post after checking :) – Hapie May 18 '12 at 20:17
@Hapie I think we had a race condition - I saw your comment, answered, and then when I refreshed saw that you had accepted. – dsolimano May 19 '12 at 4:15
@dsolimano I had removed the code from here because it can be copied by others which is wrong and you put the code back here . please keep the query function and initialize there and remove rest so that alteast others try to code themselves rather than copying from here :) – Hapie May 19 '12 at 7:00