Is it possible to check if a float
is a positive zero (0.0) or a negative zero (-0.0)?
I've converted the float
to a String
and checked if the first char
is a '-'
, but are there any other ways?
Is it possible to check if a float
is a positive zero (0.0) or a negative zero (-0.0)?
I've converted the float
to a String
and checked if the first char
is a '-'
, but are there any other ways?
Yes, divide by it. 1 / +0.0f
is +Infinity
, but 1 / -0.0f
is -Infinity
. It's easy to find out which one it is with a simple comparison, so you get:
if (1 / x > 0)
// +0 here
else
// -0 here
(this assumes that x
can only be one of the two zeroes)
if (math.copySign (1.0, x) < 0.0) ...
math.copySign(1.0,x)<0.0
is "easier" than 1/x>0
. I mean both are quite un-self-explanatory, so you want to have a function for that anyway
Mar 14, 2014 at 20:06
You can use Float.floatToIntBits
to convert it to an int
and look at the bit pattern:
float f = -0.0f;
if (Float.floatToIntBits(f) == 0x80000000) {
System.out.println("Negative zero");
}
(Float.floatToIntBits(f) & 0x80000000) < 0
Sep 6, 2018 at 9:59
Double.equals
distinguishes ±0.0 in Java. (There's also Float.equals
.)
I'm a bit surprised no-one has mentioned these, as they seem to me clearer than any method given so far!
Definitly not the best aproach. Checkout the function
Float.floatToRawIntBits(f);
Doku:
/**
* Returns a representation of the specified floating-point value
* according to the IEEE 754 floating-point "single format" bit
* layout, preserving Not-a-Number (NaN) values.
*
* <p>Bit 31 (the bit that is selected by the mask
* {@code 0x80000000}) represents the sign of the floating-point
* number.
...
public static native int floatToRawIntBits(float value);
The approach used by Math.min
is similar to what Jesper proposes but a little clearer:
private static int negativeZeroFloatBits = Float.floatToRawIntBits(-0.0f);
float f = -0.0f;
boolean isNegativeZero = (Float.floatToRawIntBits(f) == negativeZeroFloatBits);
When a float is negative (including -0.0
and -inf
), it uses the same sign bit as a negative int. This means you can compare the integer representation to 0
, eliminating the need to know or compute the integer representation of -0.0
:
if(f == 0.0) {
if(Float.floatToIntBits(f) < 0) {
//negative zero
} else {
//positive zero
}
}
That has an extra branch over the accepted answer, but I think it's more readable without a hex constant.
If your goal is just to treat -0 as a negative number, you could leave out the outer if
statement:
if(Float.floatToIntBits(f) < 0) {
//any negative float, including -0.0 and -inf
} else {
//any non-negative float, including +0.0, +inf, and NaN
}
For negative:
new Double(-0.0).equals(new Double(value));
For positive:
new Double(0.0).equals(new Double(value));
Just use Double.compare (d1,d2).
double d1 = -0.0; // or d1 = 0.0
if ( Double.compare (d1, 0.0) < 0 )
System.out.println("negative zero");
else
System.out.println("positive zero");