I need a function to animate a sine wave infinitely over time. The sine wave moves to the left.

My sine wave is built using the following equation:

```
A * sin(B * x + C) + D
```

Now to animate the sine wave as if it is moving to the left, I simply increase C by 1 everytime I refresh the screen. Now this is all fine and dandy for a few minutes but I need to have that animation run for hours. I can't just have an integer build up 60 times a second forever. How does someone deal with this? Do I just try to find a point where the sine wave crosses 0 and then restart the animation from 0?

I just need to have the logic of something like this explained.

**EDIT #1**
I forgot to mention that there's a randomized component to my sine. The sine is not continuously the same. A and D are sinusoidal functions tied to that integer at the moment. The sine needs to look random with varying periods and amplitudes.

**EDIT #2**

Edited see Edit 3

**EDIT #3**

@Potatoswatter I tried implementing your technique but I don't think I'm getting it. Here's what I got:

```
static double i = 0;
i = i + (MPI / 2);
if ( i >= 800 * (MPI / 2) ) i -= 800 * (MPI / 2);
for (k = 0; k < 800; ++k)
{
double A1 = 145 * sin((rand1 * (k - 400) + i) / 300) + rand3; // Amplitude
double A2 = 100 * sin((rand2 * (k - 400) + i) / 300) + rand2; // Amplitude
double A3 = 168 * sin((rand3 * (k - 400) + i) / 300) + rand1; // Amplitude
double B1 = 3 + rand1 + (sin((rand3 * k) * i) / (500 * rand1)); // Period
double B2 = 3 + rand2 + (sin((rand2 * k) * i) / 500); // Period
double B3 = 3 + rand3 + (sin((rand1 * k) * i) / (500 * rand3)); // Period
double x = k; // Current x
double C1 = 10 * i; // X axis move
double C2 = 11 * i; // X axis move
double C3 = 12 * i; // X axis move
double D1 = rand1 + sin(rand1 * x / 600) * 4; // Y axis move
double D2 = rand2 + sin(rand2 * x / 500) * 4; // Y axis move
double D3 = rand3 + cos(rand3 * x / 400) * 4; // Y axis move
sine1[k] = (double)A1 * sin((B1 * x + C1) / 400) + D1;
sine2[k] = (double)A2 * sin((B2 * x + C2) / 300) + D2 + 100;
sine3[k] = (double)A3 * cos((B3 * x + C3) / 500) + D3 + 50;
}
```

How do I modify this to make it work?

Halp!