Hello I'm learning Objective C and I was doing the classic Calculator example.

Problem is that I'm getting a negative zero when I multiply zero by any negative number, and I put the result into a (double) type!

To see what was going on, I played with the debugger and this is what I got:

(gdb) print -2*0
$1 = 0

(gdb) print (double) -2 * 0
$2 = -0

In the second case when I cast it to a double type, it turns into negative zero! How can I fix that in my application? I need to work with doubles. How can I fix the result so I get a zero when the result should be zero?

  • 15
    The result is correct. What's wrong with negative zero?
    – kennytm
    Mar 11, 2012 at 19:08
  • 1
    Presumably your application doesn't run in GDB. Surely you will control the formatting of your output. Also, this question: "How can I fix the result so I get a zero when the result should be zero?" is based on an incorrect premise--you did get a zero. Mar 11, 2012 at 19:12
  • 2
    Thankfully, -0.0 == +0.0, so your question evaporates.
    – Kerrek SB
    Mar 11, 2012 at 19:52
  • 2
    I find all of the above comments non-responsive and Aram's answer as well. I am assuming this is a glitch in that the sign bit of a otherwise zero double acts differently than a normal zero, when they in fact represent the same quantity and should be displayed the same way.
    – Jiminion
    Jun 22, 2017 at 18:01
  • 2
    @Jiminion It is not a glitch. -0.0 acts differently than +0.0 in select cases - atan2() is a common case. Although they represent the same value, aspects of -0.0 are implementation dependent (or not if following IEEE) standards. Jun 22, 2017 at 19:33

6 Answers 6


I did a simple test:

double d = (double) -2.0 * 0;

if (d < 0)
    printf("d is less than zero\n");
if (d == 0)
    printf("d is equal to zero\n");
if (d > 0)
    printf("d is greater than zero\n");

printf("d is: %lf\n", d);

It outputs:

d is equal to zero
d is: -0.000000

So, to fix this, you can add a simple if-check to your application:

if (d == 0) d = 0;
  • 7
    Or use signbit() if you have a C99 implementation ( if (signbit(d)) d *= -1; ).
    – pmg
    Mar 11, 2012 at 19:32
  • 2
    if (d == 0) d = 0; ... doesn't always work, at least on Visual Studio 2008. Jul 23, 2013 at 16:56
  • @ThomasEding of course, non-standard compilers do non-standard things. It would appear that they are violating the IEEE standard for floating points. Jul 23, 2013 at 17:10
  • 1
    @ThomasEding double x = -0.0; if (x == 0.0) { x = 0.0; } char buf[100]; sprintf(buf, "d is: %lf\n", x); and VS 2008 worked. Perhaps how you set/view d is in error. Jun 22, 2017 at 19:22
  • 1
    This answer is all implementation-specific ; testing on your PC is no guarantee of the general case
    – M.M
    Jun 6, 2019 at 1:42

There is a misunderstanding here about operator precedence:

(double) -2 * 0

is parsed as

((double)(-(2))) * 0

which is essentially the same as (-2.0) * 0.0.

The C Standard informative Annex J lists as Unspecifier behavior Whether certain operators can generate negative zeros and whether a negative zero becomes a normal zero when stored in an object (

Conversely, (double)(-2 * 0) should generate a positive zero 0.0 on most current platforms as the multiplication is performed using integer arithmetic. The C Standard does have support for architectures that distinguish positive and negative zero integers, but these are vanishingly rare nowadays.

If you want to force zeros to be positive, this simple fix should work:

if (d == 0) {
    d = 0;

You could make the intent clearer with this:

if (d == -0.0) {
    d = +0.0;

But the test will succeed also if d is a positive zero.

Chux has a simpler solution for IEC 60559 complying environments:

d = d + 0.0;  // turn -0.0 to +0.0
  • Not recommended to use == with floats or doubles.
    – Jiminion
    Jun 22, 2017 at 20:21
  • 5
    In general, that's true, but in this particular case, you want to check if d is exactly 0.0 or -0.0 which are indistinguishable with the == operator. Comparing to -DBL_EPSILON is incorrect as you would turn many small negative non zero values into 0.0.
    – chqrlie
    Jun 22, 2017 at 20:26
  • Just realized this is an old post! Likely would not have noticed it had not the deleted answer been given. (I'll take this comment down later) Jun 22, 2017 at 21:44
  • only refers to integer negative zeros (which cannot occur in 2's complement)
    – M.M
    Jun 6, 2019 at 1:38


The number 0 is usually encoded as +0, but can be represented by either +0 or −0

It shouldn't impact on calculations or UI output.


How can I fix that in my application?

Code really is not broken, so nothing needs to be "fixed". @kennytm

How can I fix the result so I get a zero when the result should be zero?

To easily get rid of the - when the result is -0.0, add 0.0. Code following standard (IEC 60559 floating-point) rules will produce drop the - sign.

double nzero = -0.0;
printf("%f\n", nzero);
printf("%f\n", nzero + 0.0);

printf("%f\n", fabs(nzero));  // This has a side effect of changing all negative values

// pedantic code using <math.h>
if (signbit(nzero)) nzero = 0.0; // This has a side effect of changing all negative values
printf("%f\n", nzero);

Usual output.


Yet for general double x that may have any value, hard to beat the following. @Richard J. Ross III @chqrlie The x + 0.0 approach has an advantage in that likely does not introduce a branch, yet the following is clear.

if (x == 0.0) x = 0.0;

Note: fmax(-0.0, 0.0) may produce -0.0.

  • 1
    @chux: can you provide a reference from the C Standard to support your claim To easily get rid of the - when the result is -0.0, add 0.0?
    – chqrlie
    Jun 22, 2017 at 20:31
  • 2
    @chqrlie An implementation is not required "... get rid of the - when the result is -0.0, add 0.0?", yet if "An implementation that defines __STDC_IEC_559__ shall conform to the specifications in this annex" C11 §F.1 and "The +, −, *, and / operators provide the IEC 60559 add, subtract, multiply, and divide operations." §F.3 1 then it does based on that standard. Jun 22, 2017 at 20:57
  • 1
    @chqrlie When nzero is not NaN, nzero = nzero + 0.0 will not change the value of nzero, yet will cause -0.0 to become +0.0 - if the implementation follows STDC_IEC_559. Implementations commonly follow most of STDC_IEC_559, even without the __STDC_IEC_559__. Of course this is a corner case that it might not. Jun 22, 2017 at 21:03
  • 1
    @chux: Good to know. Thank you. Learn something new everyday!
    – chqrlie
    Jun 22, 2017 at 21:16
  • 1
    @CiroSantilli新疆改造中心六四事件法轮功 The implied functionality is how to change -0.0 to 0.0 and all other double remain as is as in y = x+0.0. fabs() does not provide this. It domain x was only 0.0 and -0.0, y = 0.0 would be even simpler than y = fabs(x). Nov 8, 2018 at 14:34

In my code (on C MPI intel compiler) -0.0 and +0.0 are not the same.

As an example:

d = -0.0
if (d < 0.0)
    do something...

and it is doing this "something".

also adding -0.0 + 0.0 = -0.0...


GCC was seemingly optimizing out the simple fix of negzero += 0.0 as noted above until I realized that -fno-signed-zeros was in place. Duh.

But in the process I did find that this will fix a signed zero, even when -fno-signed-zeros is set:

if (negzero > -DBL_MIN && negzero < DBL_MIN && signbit(negzero))
   negzero = 0.0;                                         

or as a macro:

#define NO_NEG_ZERO(a) ( (a) > -DBL_MIN && (a) < DBL_MIN && signbit(a) ? 0.0 : (a) )

negzero = NO_NEG_ZERO(negzero)

Note that the comparitor is < and > (not <= or >=) so a really is zero! (OR it is a subnormal number...but nevermind the guy behind the curtain.)

Maybe this answer is slightly less correct in the sense that a value of between DBL_MIN and -DBL_MIN will be converted to 0.0, in which case this isn't the way if you need to support subnormal numbers.

If you do need subnormal numbers (!) then perhaps your the kind of person who plays with -fno-signed-zeros, too.

The lesson here for me and subnormal-numbers-guy is this: if you play outside of spec then expect out-of-spec results ;)

(Sorry, that was not PC. It could be subnormal-numbers-person...but I digress.)

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