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Here is my code:

int a = 0x451998a0;
float b = *((float *)&a);
printf("coverto float: %f, %.10lf\n", b, b);

In windows the output is:

coverto float: 2457.539063, 2457.5390625000

In linux the output is:

coverto float: 2457.539062, 2457.5390625000

Is there any way to make sure the output is the same?

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Q: Why do you need them to be the same? Note that %f prints a double and %lf prints a long double. float is promoted to double when passed to a variable-length argument list, so the first argument is OK. But the second argument causes UB, except that fortunately double and long double are of the same length on your platform. –  ybungalobill Sep 10 '12 at 6:32
    
@ybungalobill My application runs in windows, there are a lot data, maybe million lines, write to file. And I will run the same logic in Linux and write to file too, to check the log in windows is correct.When I use svn diff these output "different" disturb me to find the real different, So I want to make sure the output is the same. –  hdbean Sep 10 '12 at 6:47
    
One printf rounds up in case of tie, the over rounds tie to nearest even (aka banker rounding). –  aka.nice Sep 10 '12 at 7:03
    
Try setting the floating point rounding mode on the Linux side to FE_TONEAREST or FE_UPWARD using fesetround(). –  cleong Sep 10 '12 at 8:38
    
@ybungalobill: %lf is equivalent to %f when used with printf. For long double you need %Lf. –  Stephen Canon Sep 10 '12 at 14:14

3 Answers 3

The behavior you're seeing is just a consequence of the fact that Windows' printf() function is implemented differently from Linux's printf() function. Most likely the difference is in how printf() implements number rounding.

How printf() works under the hood in either system is an implementation detail; thus the system is not likely to provide such fine-grained control on how printf() displays the floating point values.

There are two ways that may work to keep them the same:

  1. Use more precision during calculation than while displaying it. For example, some scientific and graphing calculators use double precision for all internal calculations, but display the results with only float precision.

  2. Use a cross-platform printf() library. Such libraries would most likely have the same behavior on all platforms, as the calculations required to determine what digits to display are usually platform-agnostic.

However, this really isn't as big of a problem as you think it is. The difference between the outputs is 0.000001. That is a ~0.0000000004% difference from either the two values. The display error is really quite negligible.

Consider this: the distance between Los Angeles and New York is 2464 miles, which is of the same order of magnitude as the numbers in your display outputs. A difference of 0.000001 miles is 1.61 millimeters. We of course don't measure distances between cities with anywhere near that kind of precision. :-)

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+1 for the analogy –  john Sep 10 '12 at 6:27
    
@In silico Thanks for your answer. I'm just curious is there any way to make sure the output the same. –  hdbean Sep 10 '12 at 6:36
3  
In silico: this misses the point... sometimes getting exact matches simplifies regression testing (whether on one platform or across them), run-time assertions etc. –  Tony D Sep 10 '12 at 6:52
2  
@hdbean netlib.org/fp/dtoa.c does exactly what you want. The dtoa function converts a double to a string, similar to the standard fcvt function but does it in a minimal precise and platform independent way. –  john Sep 10 '12 at 6:57
1  
@Tony Delroy: You're doing regression tests wrong then. Such tests should be examining the actual floating-point value, not a display of the floating-point value. The regression tests for floating-point value display are written by the implementators of printf(), not by users of printf(). –  In silico Sep 10 '12 at 7:16

If you use the same printf() implementation, there's a good chance they'll show the same output. Depending on what you're up to, it may be easier to use GNU GCC on both OSes, or to get printf() source code and add it to your project (you should have no trouble googling one).

BTW - have you actually checked what that hex number encodes? Should it round up or down? The 625 thing is likely itself rounded, so you shouldn't assume it should round to 63....

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We can check in Smalltalk, 2457.5390625 asFraction -> (314565/128), only 19 bits for numerator, a power of two at denominator - so that is the exact value of the float, and since 128=2^7 we need 7 digits after fraction –  aka.nice Sep 10 '12 at 7:05
    
2457.5390625 is exact; since it is an exact halfway case, it should by default (per IEEE-754) round to the nearest even: 2457.539062. This has never been handled correctly on windows, however; they chose to round ties away from zero for some unknown reason, giving 2457.539063 instead. I hesitate to call it a bug, because it's a deliberate choice on their part. –  Stephen Canon Sep 10 '12 at 14:18
    
@StephenCanon: You cannot call it a bug since the C standard requires correct rounding only in the "Recommended Practice" section, and even then it does not say that "correct" means IEEE-754. –  ybungalobill Sep 10 '12 at 17:29

The obvious answer is to use less precision in your output. In general, if there's any calculation involved, you can't even be sure that the actual floating point values are identical. And how printf and ostream round is implementation defined, even if the floating point values are equal.

In general, C++ doesn't guarantee that two implementations produce the same results. In this particular case, if it's important, you can do the rounding by hand, before doing the conversion, but you'll still have occasional problems because the actual floating point values will be different. This may, in fact, occur even with different levels of optimization with the same compiler. So anything you try (other than writing the entire program in assembler) is bound to be a loosing battle in the end.

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As illustrated in the question, the conversion is done from the same binary encoded number... so it's applicable to say printf()-ing a number received in a binary network packet or file. In that case, the rounding/calculation/order-of-evaluation/optimisation etc. concerns are avoided. Of course, the question may be simplified and those concerns may still be relevant to "hdbean", so your insights are useful background knowledge. –  Tony D Sep 11 '12 at 9:25

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