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I am using Windows 7 with MinGW/GCC 4.7.1. I was trying to execute double ans = pow(2,1000) in C. I found that ans would not print correctly, no matter what I tried in terms of varying the data type.

However, I read (here, actually, at the very bottom of this page) that if the same thing were run on a Linux computer, it would print correctly.

I am aware of the limits imposed on char, int, and long long that are in the limits.h file in my MinGW folder, but where are the restrictions of double and float? Do/could these vary from one OS or architecture to the next?


Here's the code, which prints out the truncated, zero-filled answer:

#include <stdio.h>
#include <math.h>

int main(void)
   double ans = pow(2,1000);

   printf("%.0f", ans);

   return 0;
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your number is probably represented accurately in double, it's just the print routine that sucks. – tomasz Jul 10 '12 at 23:19
This may merit another question, but perhaps it can be answered easily here: how would I get around the failing print routine? @tomasz – user1473784 Jul 10 '12 at 23:21
Please show some actual code. Your issue may or may not be related to type size. For example, if you use the wrong format specifier in a printf() call, then you will get wrong results. – Greg Hewgill Jul 10 '12 at 23:27
Do you have #include <math.h> at the top of your source file? If not, the compiler is likely to assume that pow returns an int result and takes two int arguments (and you should also get a compiler warning). – Keith Thompson Jul 10 '12 at 23:31
15-16 correctly displayed digits is about all you can expect; that's typically how much precision type double gives you. You don't have a problem, you're just running into a minor variation in how different printf implementations treat insignificant digits. (And you could have saved all of us some time and effort if you'd told us that in the first place, by showing us the exact output your program was producing.) – Keith Thompson Jul 10 '12 at 23:43

3 Answers 3

up vote 6 down vote accepted

The question you're asking isn't related to the problem you're seeing.

It's very likely that all the systems you're using us the same representation for type double, namely 64-bit IEEE double-precision.

The value of pow(2, 1000) (or, more equivalently and more clearly, pow(2.0, 1000.0), is 2.01000. Since it's a power of two, it can be represented exactly -- but the relative precision of numbers that large is very coarse.

A double value is typically precise to only about 15 or so decimal digits.

Apparently the glibc implementation of printf, used on Linux systems, attempts to print the full decimal representation of the value, while other printf implementations replace some or all of the digits past the 15 or so significant digits with zeros. The latter is probably a bit easier to implement, but both approaches are valid.

Running your program on several different systems, I get the following results (with lines folded for readability):




The last happens to be exactly equal to 21000.

The number you're printing is unusual, in that it's very large and exactly representable -- and glibc goes to some extra effort to print it exactly. But more generally, floating-point values tend to be imprecise, and it's seldom worth worrying about any digits past the first few.

For example, pow(2.0, 1000.0) + 1.0 cannot be represented exactly, and if you try to compute it, you'll probably get exactly the same result as pow(2.0, 1000.0).

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"you'll probably get exactly the same result" - I'd certainly hope so, since IEEE arithmetic requires that :-) – Steve Jessop Jul 11 '12 at 0:09
+1 this answer is a lot more informative than the accepted one. – R.. Jul 11 '12 at 0:21
And for what it's worth, I find printf (even the shell command) to be a great tool for computing exact values of huge powers of two, e.g. with printf %f\\n 0x1p1000. – R.. Jul 11 '12 at 0:23
@R..: Depends on the system. On Cygwin, which uses newlib rather than glibc, I get 259 trailing zeros before the decimal point. – Keith Thompson Jul 11 '12 at 1:50
I guess I wasn't clear. What I meant was to give a practical example of why it's nice to have an implementation that prints the correct exact value, not to say that I expect this to work on all implementations. – R.. Jul 11 '12 at 4:09

Yes, the implementation of types like float and double can vary from platform to platform.

However, most common, modern platforms use IEEE 754, a standard for floating point types. Thus it's unlikely that the binary representation for one of those types is going to be different unless you're on an unusual platform.

The other thread you mentioned seems to highlight potential differences in the accuracy of the printing routine. That doesn't mean the representation is different (or of a different size).

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So with that last line, are you saying that ans does contain the correct value for 2^1000 when I execute it? It just doesn't print correctly? As far as I can understand, double should be big enough to contain the number, but it just won't print out correctly. – user1473784 Jul 10 '12 at 23:16
Indeed, Microsoft's printf implementation is just notoriously bad. The C standard does not require printing more than DECIMAL_DIG significant digits even though there's an exact value to be printed, but a high-quality implementation will print the exact value anyway when possible because it's (potentially) more useful and just The Right Thing to do. – R.. Jul 11 '12 at 0:19

The size of float and double can vary across implementations.

You are guaranteed that double is never smaller than float, and that long double is never smaller than double - similar to the guarantees for long long, long, int, short.

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