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I'm working on some code where I have a Time object with a member time. Time.time gives me the time since my application started in seconds (float value). Now I want to create a pulsating value between 0 and 1 and then from 1 to 0 again, which continues doing thins untill the application stops.

I was thinking to use sin() but don't know what to pass to it as paramters to create this pulsing value.

How would I create this pulsating value?

Kind regards, Pollux

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Are you programming in C++, C#, or don't you know? –  Mark Byers Jun 10 '10 at 21:12
Why don't you modulate your time in seconds by 2, and use that? –  Ben Burnett Jun 10 '10 at 21:13
Very simple, you add a lot of sine waves to one another until you get a good approximation to a square wave. You give it the proper frequency and amplitude and offset it a little along the y-axis and there you are. :) –  stakx Jun 10 '10 at 21:34
Can't you simply save last Time.time you flipped the pulse from 0 to 1 or vice-versa, and when it's been period/2 time since then you just flip the pulse again? That sounds much simpler and quick than sine, and the only problem would be that your period needs to be a multiple of your time's granularity. (The unitary value for each tic.) –  ANeves Jun 11 '10 at 14:07
Like a programmatic flip flop? –  Phil Gan Jun 11 '10 at 15:48

5 Answers 5

up vote 8 down vote accepted

You mention using sin(), so I guess you want it to pulse continuously between 0 and 1.

Something like this will do:

float pulse(float time) {
    const float pi = 3.14;
    const float frequency = 10; // Frequency in Hz
    return 0.5*(1+sin(2 * pi * frequency * time));

1/frequency = 0.1 second is the period, which is the time between 1's.

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Much cleaner than my version - very nice! –  corsiKa Jun 10 '10 at 21:21
Kleist, so the frequence would be the framerate? –  pollux Jun 10 '10 at 21:22
Oh and would it be (1/frequency)*Time.time*(TWO_PI) –  pollux Jun 10 '10 at 21:28
Clean, but slow to execute. –  Jay Jun 10 '10 at 22:50
How is it slow? Compared to what? –  Kleist Jun 11 '10 at 5:50

How about x = 1 - x? Or if you want it to be time based use Timer % 2

Oh, you wanted the values between 0 and 1 as well. how about Math.Abs(100 - (Timer % 200)) / 100 Where timer is something like DateTime.Now.TimeOfDay.TotalMilliseconds

Edit: My tests indicate that this is more than twice as fast as the Sin method. For 1 million iterations, the sin method takes .048 seconds while the Abs method takes about .023 seconds. Also, you get different waveforms out of the two, of course. Sin produces a Sine wave, while Abs produces a triangular wave.

static void Main(string[] args)
   System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
   const int count = 1000000;
   float[] results = new float[count];
   for (int i = 0; i < count; i++)
      results[i] = AbsPulse(i/1000000F);
      //results[i] = SinPulse(i / 1000000F);
   Console.WriteLine("Time Elapsed: {0} seconds", sw.Elapsed.TotalSeconds);
   char[,] graph = new char[80, 20];
   for (int y = 0; y <= graph.GetUpperBound(1); y++)
      for (int x = 0; x <= graph.GetUpperBound(0); x++)
         graph[x, y] = ' ';
   for (int x = 0; x < count; x++)
      int col = x * 80 / count;
      graph[col, (int)(results[x] * graph.GetUpperBound(1))] = 'o';
   for (int y = 0; y <= graph.GetUpperBound(1); y++)
      for (int x = 0; x < graph.GetUpperBound(0); x++)
         Console.Write(graph[x, y]);

static float AbsPulse(float time)
   const int frequency = 10; // Frequency in Hz
   const int resolution = 1000; // How many steps are there between 0 and 1
   return Math.Abs(resolution - ((int)(time * frequency * 2 * resolution) % (resolution * 2))) / (float)resolution;

static float SinPulse(float time)
   const float pi = 3.14F;
   const float frequency = 10; // Frequency in Hz
   return 0.5F * (1 + (float)Math.Sin(2 * pi * frequency * time));
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A sine function would be ideal I think, but you need to adjust the period and the scale.

The sine function produces results between -1 and 1, but you want to go between 0 and 1. To scale it properly you want (sin(x)+1)/2.

The sine function starts at zero, goes to 1 at pi/2, zero again at pi, -1 at 3*pi/2, and back to zero at 2*pi. Scaled, the first zero will happen at 3*pi/2 and the first maximum after that will be at 5/2*pi. So x in the previous formula is (2*time + 3) * pi/2.

Putting it all together: (sin((2*time.time + 3) * pi/2) + 1) / 2

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How often do you want it to pulse?

Let's say you want to go from 0 to 1 over 10 seconds.

float pulseValueForTime(int sec) {
    int pulsePoint = sec % 10;
    float pulsePercent = (float)pulsePoint / (float)10;
    float pulseInTermsOfPI = (pulsePercent * 2 * PI) - PI;
    float sinVal = MagicalSinFunction(pulseInTermsOfPI); // what framework you use to compute sin is up to you... I'm sure you can google that!
    return (sinVal + 1) / 2; // sin is between 1 and -1, translate to between 0 and 1
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glowcoder, thanks, I'm doing something like now, though this does not work with a set duration. I want to be able to get a pulse every X-seconds. I think I needs Kleist example from above. BTW, you are not using pulsePoint in you code. –  pollux Jun 10 '10 at 21:25
The idea behind it was you would do pulseValueForTime(getTimeInSec()); and the pulsePoint should be used for the first float (you'll notice pulse is never declared). I will fix the error, although Kliest's version, as you already noticed, is much cleaner than this if same in concept. –  corsiKa Jun 11 '10 at 13:51
You can do pulsePoint / 10F instead of (float)pulsePoint / (float)10: int/float yields float, and 10f is float - see msdn.microsoft.com/en-us/library/b1e65aza%28VS.71%29.aspx –  ANeves Jun 11 '10 at 14:02
I'm sure it will. I see the readability of explicitly putting the float casts in there to be a plus. I'm certain any compiler would handle the rest in a decent fashion. –  corsiKa Jun 11 '10 at 15:16

Look into Ease functions. They do this sort of thing in all sorts of manners - linear, poly, exp, sin, etc.

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