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As in this question is said, there is some differences between negative and positive zero in floating point numbers. I know it's because of some important reasons. what I want to know is a short code to avoid negative zero in output.

for example in the following code:

cout << fixed << setprecision(3);
cout << (-0.0001) << endl;

"-0.000" is printed. but I want "0.000".

share|improve this question
Do the result * -1 – Tony The Lion Sep 21 '12 at 18:41
@TonyTheLion what if my number is -0.001? it sould be printed -0.001 and I shouldn't * -1 this. – Ali Sep 21 '12 at 18:45
AFAIK a minus number multiplied by another minus number yields a positive number. That's basic maths. What's your point? – Tony The Lion Sep 21 '12 at 18:47
You will have to check that your number is not positive before you do the *-1, else you'll get a negative number as output. – Tony The Lion Sep 21 '12 at 18:48
@TonyTheLion I should multiply by -1 only when the result is -0.000. not all negative numbers as you said "You will have to check that your number is not positive before you do the *-1" – Ali Sep 21 '12 at 18:51
up vote 3 down vote accepted

Try depending on your precision.

cout << ((abs(ans) < 0.0005)? 0.000: ans) << endl;

share|improve this answer
it should be: 'cout << (abs(ans) < 0.0005)? 0.000: ans << endl;' – Ali Sep 21 '12 at 18:56
@wallyk: You can't return different types from a conditional expression in C++. – nneonneo Sep 21 '12 at 19:00
@wallyk it's not needed. becuase setprecision(3) is called before that. – Ali Sep 21 '12 at 19:00
@Ali: alright, changed it. – Mahmoud Aladdin Sep 21 '12 at 19:01
@Aladdin: << has higher precedence than ?:. In the C++ formal grammar, << is parsed with shift-expression → shift-expression << additive-expression, and ?: is parsed with conditional-expression → logical-or-expression ? expression : assignment-expression. Because of other rules of the grammar, ans << endl can be an assignment-expression, but an unparenthesized …?…:… cannot be a shift-expression. Therefore, the << rule must be used to reduce ans << endl before the ?: expression can be reduced. – Eric Postpischil Sep 21 '12 at 19:58

How about:

cout << (value == 0.0 ? abs(value) : value)  << endl;
share|improve this answer
There are plenty of resources online explaining why value == 0.0 is a bad idea. is good – IronMensan Sep 21 '12 at 20:14
This answer would be correct (and a good idea) if the questioner really only wanted to catch negative 0. But the body of the question shows that's not the case. – Steve Jessop Sep 21 '12 at 21:36
@IronMensan - what a got from that article was that "the IEEE standard defines comparison so that +0 = -0" I'm genuinely interested - can you point me to something that more explicitly explains the problem? Steve Jessop - it looks to me like the body of the question asked specifically about negative 0 only. Did I miss something? – GreyBeardedGeek Sep 22 '12 at 1:07
Yes, the body of the question says that the questioner wants "0.000" to be printed instead of "-0.000" for the value -0.0001. So it's not just negative zero that needs to be treated specially, -0.0001 does too. Basically, the questioner is referring to any output of "-0.000" from cout as "negative zero", they don't just mean an IEEE negative zero in value. – Steve Jessop Sep 24 '12 at 8:50

If you care about arbitrary precision, as opposed to just a fixed one at 3, you'll need a small bit of work. Basically, you'll have to do a pre-check before the cout to see if the number will get formatted in a way you don't like.

You need to find the order of magnitude of the number to see if it the imprecise digits will be lost, leaving only the sign bit.

You can do this using the base 10 logarithm of the absolute value of the number. If negative of result is greater than the precision you have set, the number will show in a way you don't want.

log10 of 0.0001 is -4.

negative of (-4) is 4.

4 > 3 (the arbitrary precision) Thus the value will show up unhappily.

In very bad pseudocode:

float iHateNegativeZeros(float theFloat, int precision)
   if((theFloat < 0.0f) &&
      (-log10(abs(theFloat)) > precision))
     return -theFloat;
     return theFloat;
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