java code to compute some multiple of a number?

I am using Math.PI in my example, so it is a double. It is a simple code but there is a bit I am not sure how to do:

I want the code to calculate the fundamental period `X` of a `sin` or `cos` function with a multiplier value `a` given by the user. The `n` value is initialized at `n=1` and is an integer value.

If the result of `(2 * pi * n)/a = X` is lower than `pi` then `n` should increment, and it should keep going until that number is a multiple of `pi`, then print the result.

Just to clarify: `a` is a multiplier of `x` which goes in the function `sin` or `cos` like this:

`cos(ax)`

`sin(ax)`

The bit I am having the trouble with is working out whether the number is a multiple of `pi` (provided it's already greater than `pi`, that is).

This is about as far as I got and it's incomplete.

`````` public void printSinusoidalPeriod(double multiplier /* this would be `a` */){

double pi=Math.PI;

double p = (2 * pi * (double) n) / multiplier;

while(p<pi){

if(n%pi==0){

n=n+1;
System.out.println(n);
p = (2 * pi * (double) n) / multiplier;
}
}
p= (double)Math.round(p * 100) / 100;

System.out.println("period of function is = " + p + " and n = " + n);
}
``````

It seems like it's not going into the if statement and getting caught in the while loop

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Where is your code? –  Foxish Jul 28 '12 at 3:31
If I understand your algorithm correctly, it will always stop at `n=a/2`. –  Keith Randall Jul 28 '12 at 3:34
that wouldn't work for a=3 or a=1 and this is a multiple of x (I will try to clear it up in the question so that the question makes more sense –  Magpie Jul 28 '12 at 4:06
What is the question, exactly? The period of `cos(ax)` is `2*Pi/a`, I don't think you need an algorithm to calculate it. –  Keith Randall Jul 28 '12 at 4:49
What if a is 3? –  Magpie Jul 28 '12 at 18:10

If I understand your problem correctly, I had to solve a similar problem to this before using php. Not sure what the correct syntax is for javascript but maybe you should keep a counter that continues until (x/pi) is an integer which would indicate it is a multiple of pi..

I know this isn't the correct code but something like:

``````    while (!isint(x/pi)) {
x++;
}
if (isint(x/pi)) {
//CODE TO EXECUTE
}
``````
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This is java, not JS –  Mechanical snail Jul 28 '12 at 4:55
whooooooops... can't the logic still transfer though? –  tom c Jul 28 '12 at 5:04

If I understand you correctly

`````` while((2 * pi * n)/a)<pi)
{
if(!(n%pi==0))
{
n++;
}
}
``````

multiple of y is the part you need to figure out yourself. but this should help you with the logic, If I have understood u correctly.

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(2*pi*n) is your X, I havent touched it so it will make more sense to you. Would have been helpful if you added your attempted code as well. –  Achilles Jul 28 '12 at 3:47
the multiple bit is the bit i'm struggling with. I was hoping to get help with that. I will see about adding some code. –  Magpie Jul 28 '12 at 4:11
This should be it (n%pi==0) –  Achilles Jul 28 '12 at 5:07
Keep in mind this is double (floating) point, you may not land on an exact multiple. You'll want something like `(n%pi < GOOD_ENOUGH)` where `GOOD_ENOUGH` might be, just as an example, `0.0000001`. I'll let others debate proper values. There are other complications if the period is very small - so are you comfortable with the edge-cases of your expected functions? –  Richard Sitze Jul 28 '12 at 5:20
Ah this makes sense now! I had no idea what you were talking about before... @Achilles. Richard I don't need it to be precise but I wouldn't want to miss what should be in the boundary so I think I will try your example thanks for the tip! Will report back! –  Magpie Jul 28 '12 at 7:34

You appear to be calculating when

``````(2 * pi * n)/a = m * pi where m is some integer multiple.
``````

so

``````2 * pi * n = m * pi * a

2 * n = m * a

n = m * a / 2
``````

You other constraint is

(2 * pi * n)/a < pi

so

``````2 * pi * n < pi * a
2 * n < a
n < a / 2;
``````

For both equations to be true, m must be an integer less than 1, but since you are starting at 1 for n it will never be true.

-

Ok here's how I did it in the end, with the help of the suggestions here.

``````public void printSinusoidalPeriod(double a){

double pi=Math.PI;
double p=m*pi;

while(n<a/2){

if((double)Math.round((n*pi)%pi)!=0.01){

n=n+1;

m = (int) Math.round(((2 * (double) n) / a));
p= (double)Math.round(m * pi * 100) / 100;
p=p*n;

}
}
System.out.println("period of function is = " + p + " and n = " + n);
System.out.println("Check: p/n = " + p/n);
}
``````

Please let me know if you can spot any problems with the logic. I have not gone through many possibities yet, but the ones I did, looked okay to me.

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