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I have this sine wave which generates floating point values (e.g. 0.37885) but I want them as shorts. Direct casting with short gives me a value of 0. so what is the solution?

Can anyone tell me how to do it - ideally without loss of precision - or minimal loss of precision if this is all that is possible?

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  • 8
    The size of float is typically 4 bytes, and the size of short is typically 2 bytes. How exactly are you hoping to avoid loss of precision when squeezing 4 bytes of data into 2 bytes of data? Aug 8, 2014 at 10:24
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    To help understand the problem you're trying to solve can you explain why you need to store a float in a short?
    – Sean
    Aug 8, 2014 at 10:25
  • Plus, how are you going to "convert" a floating-point value to a non-floating-point?
    – BackSlash
    Aug 8, 2014 at 10:26
  • You will need to decide either a certain point to use for the lowest bit, or write some code to store the float like the FPU normally does. Aug 8, 2014 at 10:26
  • @BackSlash: That's not an issue. If you take an integer of the same size (int would do on most platforms) then there's no problem with regards to the type of data. For example, given float f and int i, you can do i = *(int*)&f. Aug 8, 2014 at 10:26

4 Answers 4

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public static short floatToShort(float x) {
    if (x < Short.MIN_VALUE) {
        return Short.MIN_VALUE;
    }
    if (x > Short.MAX_VALUE) {
        return Short.MAX_VALUE;
    }
    return (short) Math.round(x);
}

You'll loose the fractional part:

float    4 byte floating-point
double   8 byte floating-point (normal)
short    2 byte integer
int      4 byte integer (normal)
long     8 byte integer

Edit:

Maybe you wanted to know how to save the bits of a float (4 bytes) into an int (4 bytes): (http://docs.oracle.com/javase/7/docs/api/java/lang/Float.html#floatToRawIntBits(float))

float x = 0.1f;
int n = Float.floatToRawIntBits(x);
float y = Float.intBitsToFloat(n);
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  • I agree that there will be loss of precision but all I wanted was a workaround. I will mark this as the answer( if it allows me to). Aug 8, 2014 at 10:39
  • Thanks for the Save the bits method. That will be helpful. Aug 8, 2014 at 10:46
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In principle, you could just multiply it by 100000, convert it to int, then subtract -32,767 and convert it to short. If that still puts it in the -32,767 to 32,767 range for all your values, that's likely the best you can do. Otherwise, you'll have to limit your precision and multiply by 10000.

And when you use the short of course you have to remember to divide it back down.

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    I think that is the only correct answer, but assuming his sine wave returns values between -1 and 1 (inclusive), I would multiply them by 65535 and then subtract 32767. Aug 10, 2014 at 7:22
  • This won't work. Ex for the value of 1: 1 * 65535 - 32767 = 32768. This is wrong, it is outside of short range. Other example: -1 * 65535 - 32767 will give -98302.
    – Stéphane
    Mar 29, 2020 at 9:32
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If your input float values are in a defined range (for now let's assume they're in the range of -1..1, exclusive), you can multiply them to get a value whose fraction you'll throw away.

Valid short range is: -32768..32767 so you can multiple with 32768 in this case (max short / max input value).

For example:

float f = 0.23451f;
short s = (short) (f * 32768);

To decode a short value to float:

float f2 = s / 32768f;
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short is an integral type, so it can only contain whole numbers. The only two choices for 0.37885 in a short are 0 or 1, both of which (it seems to me) lose quite a bit of precision.

So the answer is: If you're okay with losing all fractional values, either use a cast, Float#shortValue, or Math.round(float) (and cast the resulting int to short).

Example: Live Copy

float f1 = 0.37885f;
short s1 = (short)Math.round(f1);
System.out.println("s1 = " + s1);

float f2 = 27.67885f;
short s2 = (short)Math.round(f2);
System.out.println("s2 = " + s2);

Output:

s1 = 0
s2 = 28

In a comment you said:

I have this sine wave which generates values like the one mentioned above, but I want them as shorts.

Ah, now, we can do something with that. Presumably the values you're getting are all between 0 and 1. You can store them as shorts by multiplying. Since the range of a short is -32,768 to 37,767, a convenient number to multiply them by might be 10000:

short s = Math.round(floatValue * 10000);

The number we'd get for your example would be 3789. Example: Live Copy

float floatValue = 0.37885f;
short s = (short)Math.round((double)floatValue * 10000);
System.out.println("s = " + s);

That isn't the same value, of course, it's the value multipled by ten thousand, so anywhere you're going to use it, you'd have to allow for that.

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  • Why is that an issue? If you take an integer of the same size (int would do on most platforms) then there's no problem with regards to the type of data. For example, given float f and int i, you can do i = *(int*)&f. Aug 8, 2014 at 10:28
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    @barakmanos What is that &?
    – BackSlash
    Aug 8, 2014 at 10:29
  • @barakmanos: This is Java, not C. You could probably do something similar to that in Java as well, but A) float and short are not the same size, and B) It's extremely unlikely that the OP wants the short (or int) view of the bits that made up the float. :-) Aug 8, 2014 at 10:30
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    Ooops, sorry (@BackSlash - same apology to you) ... :) Aug 8, 2014 at 10:30
  • @barakmanos funny, you know that just stores the bits, but the mathematical value then is totally different. Java has Float.floatToRawIntBits
    – Joop Eggen
    Aug 8, 2014 at 10:34

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