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#include <stdio.h>
#include <float.h>

int main()
    printf("%f\n", FLT_MAX);

Output from GNU:


Output from Visual Studio:


Do the C and C++ standards allow both results? Or do they mandate a specific result?

Note that FLT_MAX = 2^128-2^104 = 340282346638528859811704183484516925440.

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The C and C++ standards don't even mandate a specific floating-point representation. So I'm tempted to think that they can't mandate a specific result. –  Mysticial Jun 10 '12 at 17:02
@Mysticial Well, they might still generally mandate that "the exact value that is represented must be printed out" or something to that extent. –  fredoverflow Jun 10 '12 at 17:04
And Unix pwns Windows. Once again. –  user529758 Jun 10 '12 at 17:26
@H2CO3, how do you conclude that GNU is better than Windows? I prefer the Microsoft result as it correctly implies that the resolution is limited. –  Mark Ransom Jun 11 '12 at 3:58
Check out my two articles exploringbinary.com/… and exploringbinary.com/… . You'll see how the number of digits varies by language and implementation. –  Rick Regan Jun 11 '12 at 13:29

3 Answers 3

up vote 6 down vote accepted

I think the relevant part of the C99 standard is the "Recommended practice" from p.13:

For e, E, f, F, g, and G conversions, if the number of significant decimal digits is at most DECIMAL_DIG, then the result should be correctly rounded. If the number of significant decimal digits is more than DECIMAL_DIG but the source value is exactly representable with DECIMAL_DIG digits, then the result should be an exact representation with trailing zeros. Otherwise, the source value is bounded by two adjacent decimal strings L < U, both having DECIMAL_DIG significant digits; the value of the resultant decimal string D should satisfy L <= D <= U, with the extra stipulation that the error should have a correct sign for the current rounding direction.

My impression is that this allows some leeway in what may be printed in this case; so my conclusion is that both VS and GCC are compliant here.

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They are both correct, just one has more precision. –  Cole Johnson Jun 10 '12 at 17:08
@ColeJohnson: none has more precision. GNU cheats you to think it has, but it's result is even worse than MSVC's. Floating point represents intervals, not numbers. So 340282346638528859811704183484516925440, 340282346638528859811704183484516925450, and 340282346638528860000000000000000000000 are all the same floating point value (for 64-bit ieee). A better floating point formatting rountine is actually the one that gives you the shortest possible representation. –  ybungalobill Jun 10 '12 at 17:13
@ybungalobill: Floating point does not represent intervals. It represents diadic rationals which may be exact or results of rounding depending on your usage. Doing interval arithmetic with floating point is actually very difficult (and either expands the intervals rapidly or requires constant changing of rounding direction and an implementation that respects rounding modes). –  R.. Jun 10 '12 at 17:15
They are not insignificant digits. The problem is that the value "1e-20" already got rounded. The GNU libc (not GCC; GCC is a compiler and irrelevant to printf behavior) version prints the exact value of floating point expression. The last digits may be meaningless to you if you meant the value to represent the number 1e-20, but printf has no way of knowing that you intended as an approximation of 1e-20 and not the exact value of the floating point expression. The MSVCRT behavior is not beneficial in any way; it's just lazy. –  R.. Jun 10 '12 at 17:40
As specified by the IEEE Standard for Floating-Point Arithmetic, 754-2008, floating-point data represents only specific numbers (and NaNs), not intervals. Per section 3.3, the data represented are +0; -0; numbers of the form (-1)**s * b**e * m, where s is 0 or 1, and b, e, and m are a suitable base, exponent, and significand for the specific floating-point type; +infinity, -infinity, quiet NaN, and signaling Nan. The results of floating-point operations are dictated by the individual numbers represented by operands, not by the intervals around them. –  Eric Postpischil Jun 11 '12 at 1:11

Both are allowed by the C standard (C++ just inports the C standard)

From a draft version in section part 10

The values given in the following list shall be replaced by constant expressions with implementation-defined values that are greater than or equal to those shown:
— maximum representable finite floating-point number, (1 − b −p)b emax


and visual C++ 2012 has

#define FLT_MAX         3.402823466e+38F        /* max value */
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In practice, the value of FLT_MAX will be the same on any platform that uses IEEE-754 floating-point. So that's not the issue here. –  Oliver Charlesworth Jun 10 '12 at 17:19
@OliCharlesworth: Okay, maybe "flawed" is too strong. It is invoking undefined results. –  wallyk Jun 10 '12 at 17:30

The code itself is flawed where it uses %f for a value larger than significance held in a float or double. By doing so you are asking to see "behind the curtain" as to the meaningless guard bits or other floating point noise generated in the conversion to decimal.

Clearly you should not expect any consistency in the metal filings generated after making an engine at Honda versus at Toyota. Nevermind any sensible expectation of such consistency.

The proper way to display such numbers is by using one of the "scientific" formats such as %g provided precision is not over-specified. On IEEE-754 implementations, 7 decimal figures are significant for float, 15-16 for double, about 19 for long double, and 34 for __float128. So, for the example you have given, %.15g would be proper, assuming it is on a IEEE-754 implementation.

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Using %f is not "flawed". The question is asking what the standard allows "behind the curtains". –  Oliver Charlesworth Jun 10 '12 at 17:29
@OliCharlesworth: Okay, maybe "flawed" is too strong. It is invoking undefined results. –  wallyk Jun 10 '12 at 17:31

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