# Implementing Collision Detection

I wrote a program that will simulate a ball being thrown off a 50 meter building. I added in collision detection by reversing the velocity in the y direction when the ball hits the ground (y < 0), keeping the horizontal velocity the same, and multiplying both velocities by some min value, so that the ball will ultimately come to a rest.

`````` #include<stdio.h>
#include<math.h>
#include <stdlib.h>

int main() {

FILE *fp;
FILE *fr;

float ax = 0, ay = 0, x = 0, y = 0, vx = 0, vy = 0;
float time = 0, deltaTime = .001;

float min = -.00000000001;
int numBounces = 0;

fr = fopen("input_data.txt", "rt");

fp = fopen( "output_data.txt", "w" );

fscanf(fr, "ax: %f ay: %f x: %f y: %f vx: %f vy: %f\n", &ax, &ay, &x, &y, &vx, &vy);

while (vx > min && vy > min) {

time = time + deltaTime;
vx = vx + ax*deltaTime;
vy = vy + ay*deltaTime;
x = x + vx*deltaTime + (.5*ax*deltaTime*deltaTime);
y = y + vy*deltaTime + (.5*ay*deltaTime*deltaTime);

fprintf(fp, "%f\t%f\t%f\t%f\t%f\t%f\t%f\t\n", ax, ay, x, y, vx, vy, time);

//Collision occurs; implement collision response
if(y < 0) {
vx = vx + ax*deltaTime*(.00001);
vy = -(vy + ay*deltaTime*(.00001));
numBounces++;

fprintf(fp, "%f\t%f\t%f\t%f\t%f\t%f\t%f\t\n", ax, ay, x, y, vx, vy, time);
}
}

fclose(fp);
fclose(fr);

system ("PAUSE");
return 0;

}
``````

I am not getting the correct values needed to produce a correct graph of the data. It could be because my conditions in the while loop need to be changed, or that I did not implement collision response correctly.

Here is also some sample data:

ax: 0 ay: -9.8 x: 0 y: 50 vx: 8.66 vy: 5

-
how wrong is your code generating output data? –  Ali.S May 29 '11 at 21:33
My data plot consists of nothing –  kachilous May 29 '11 at 21:35
what do you mean by nothing? can you post an example? –  flow May 30 '11 at 20:32
@gpu_drug - I posted a picture of the graph. As you can see there is no sketch of the plot –  kachilous May 30 '11 at 21:27

for not outputing anything you can try `fflush(fp)` at the end of each cycle. and as far as I can see in your code your object gets some more speed whenever it hits the ground you have to change `vy = -(vy + ay*deltaTime*(.00001))` to `vy = -(vy - ay*deltaTime*(.00001))` to correct it. you can also create a better implementation for collision if you calculate the exact time of collision whenever `y < 0` and then move object down, change speeds, and move object up for the rest of cycle to have more realistic collision.

we know that deltaY = 1/2*ay*t^2 + vy*t so we can compute t using the folling formula :

``````assuming py is the current height of object(it's distance to ground)
=> -py = 0.5 * ay* t * t + vy * t
=> 0 = 0.5 * ay * t * t+ vy * t + py
=> t = (-vy +- sqrt(vy*vy - 2 * ay * py)) / (2 * ay)
``````

and since t has to be positive and knowing that ay is negetive and py is positive, we can assume the currect answer is

``````=> tc = (sqrt(vy*vy - 2 * ay * py) - vy) / 2 / ay
``````

now we have tc which is time of collision. so we have to reverse the last changes in position and speed, then just step time `tc` seconds and then reverse vy and step `deltaTime - tc` seconds to complete that frame. so inside the if condition would be like (I just may have some problems doing the math, so if by any chance you didn't get expected results jsut doublecheck all equations):

``````if (y < 0) {
float tc = (sqrt(vy*vy - 2 *ay * y)) / 2 / ay;
x = x - vx*deltaTime - (.5*ax*deltaTime*deltaTime);
y = y - vy*deltaTime - (.5*ay*deltaTime*deltaTime);
vx = vx - ax * deltaTime;
vy = vy - ay * deltaTime;
vx = vx + ax * tc;
vy = vy + ay * tc;
x = x + vx*tc + (.5*ax*tc*tc);
y = y + vy*tc + (.5*ay*tc*tc);
vy = -(vy - ay*deltaTime*(.00001));
// you can also change above line and simply write
// vy = vy * -0.99;
// that will also create friction as you want it to be there
vx = vx + ax * (deltaTime - tc);
vy = vy + ay * (deltaTime - tc);
x = x + vx* (deltaTime - tc) + (.5*ax* (deltaTime - tc)* (deltaTime - tc));
y = y + vy* (deltaTime - tc) + (.5*ay* (deltaTime - tc)* (deltaTime - tc));
numBounces++;

fprintf(fp, "%f\t%f\t%f\t%f\t%f\t%f\t%f\t\n", ax, ay, x, y, vx, vy, time);
}
``````
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Changing vy to vy = -(vy - ay*deltaTime*(.00001)) didn't seem to work. And if I wanted to implement more realistic collision, how could I find the exact time of collision? –  kachilous May 29 '11 at 21:42
not writing output was because you program never realy gets out of while, so fclose neve is called and the output is not realy written in file(it just creates a cache of what it has to write for performance issues just use fflush to fix that), and vy change was to correct your formula, i'm now editing my answer to add all formulas you need for better simulation. –  Ali.S May 29 '11 at 21:47
Shouldnt the formula to calculate tc be deltaY = (1/2)ayt^2 + vyt instead deltaY = ayt^2 + vyt –  kachilous May 29 '11 at 22:27
I currected in every case after wards that't only the explanation that have that problem, i'll correct that one right now. –  Ali.S May 29 '11 at 22:29
@kachilous did fflush fix your problem of not writeing anything into file? –  Ali.S May 29 '11 at 22:30