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strange output in comparision of float with float literal

I can't understand this code. How can two same numbers be compared?


int main()
    float a=0.8;
    if(0.8>a)     //how can we compare same numbers?
    return 0;

How can this problem be solved?

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marked as duplicate by Bo Persson, Tadeusz Kopec, Jens Gustedt, Daniel Fischer, prolink007 Aug 1 '12 at 17:07

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

The 0.8 in a has lower precision than 0.8 in the if statement, so error in the promotion leads to unexpected result. –  nhahtdh Aug 1 '12 at 12:13
i have read somewhere that default data type for floating point nos is double –  amol Aug 1 '12 at 12:14
float is only 32-bit, and the 0.8 in float a is represented with 32-bit, while 0.8 in the if statement is double 64-bit. –  nhahtdh Aug 1 '12 at 12:15
Are you sure this compiles properly. Because left side of > operator in if condition is a constant? Even though it compiles a<0.8 should be used. –  Narendra Aug 1 '12 at 12:16
@rain it compiles properly both ways –  amol Aug 1 '12 at 12:20
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2 Answers

up vote 2 down vote accepted

I do not understand why you ask whether the same two numbers can be compared. Why would you not expect a comparison such as 3 > 3 to work, even though 3 is the same as 3? The > operator returns true if the left side is greater than the right side, and it returns false otherwise. In this case, .8 is not greater than a, so the result is false.

Other people seem to have assumed that you are asking about some floating-point rounding issue. However, even with exact mathematics, .8 > .8 is false, and that is the result you get with the code you showed; the else branch is taken. So there is no unexpected behavior here to explain.

What is your real question?

In case you are asking about floating-point effects, some information is below.

In C source, the text “.8” stands for one of the numbers that is representable in double-precision that is nearest .8. (A good implementation uses the nearest number, but the C standard allows some slack.) In the most common floating-point format, the nearest double-precision value to .8 is (as a hexadecimal floating-point numeral) 0x1.999999999999ap-1, which is (in decimal) 0.8000000000000000444089209850062616169452667236328125.

The reason for this is that binary floating-point represents numbers only with bits that stand for powers of two. (Which powers of two depends on the exponent of the floating-point value, but, regardless of the exponent, every bit in the fraction portion represents some power of two, such as .5, .25, .125, .0625, and so on.) Since .8 is not an exact multiple of any power of two, then, when the available bits in the fraction portion are all used, the resulting value is only close to .8; it is not exact.

The initialization float a = .8; converts the double-precision value to single-precision, so that it can be assigned to a. In single-precision, the representable number closest to .8 is 0x1.99999ap-1 (in decimal, 0.800000011920928955078125).

Thus, when you compare “.8” to a, you find that .8 > a is false.

For some other values, such as .7, the nearest representable numbers work out differently, and the relational operator returns true. For example, .7 > .7f is true. (The text “.7f” in source code stands for a single-precision floating-point value near .7.)

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0.8 is a double. When a is set to it, then it's converted into a float and at this point looses precision. The comparison takes the float and promotes it back to a double, so the value is for sure different.

EDIT: I can prove my point. I just compile and ran a program

float a = 0.8;
int b = a == 0.8 ? 1 : 0;
int c = a < 0.8 ? 1 : 0;
int d = a > 0.8 ? 1 : 0;

printf("b=%d, c=%d, d=%d, a=%.12f 0.8=%.12f \n", b, c, d, a, 0.8);
b=0, c=0, d=1, a=0.800000011921 0.8=0.800000000000

Notice how a now has some very small factional part, due to the promotion to double

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in my book it is written that 0.8>a becoz 0.8 is a double and a is a float..but the output is otherwise –  amol Aug 1 '12 at 12:17
You are mixing up the value of a number with its size. A double is twice as many bits, but the value will close or the same depending on the float itself. –  David H Aug 1 '12 at 12:59
PS: Eric, I ran this on a Mac :-) –  David H Aug 1 '12 at 13:02
The promotion from float to double does not change the value. The conversion from double to float does. –  Eric Postpischil Aug 1 '12 at 14:24
Agreed - thanks! –  David H Aug 1 '12 at 14:45
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