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I would like to have the closest number below 1.0 as a floating point. By reading wikipedia's article on IEEE-745 I have managed to find out that the binary representation for 1.0 is 3FF0000000000000, so the closest double value is actually 0x3FEFFFFFFFFFFFFF.

The only way I know of to initialize a double with this binary data is this:

double a;
*((unsigned*)(&a) + 1) = 0x3FEFFFFF;
*((unsigned*)(&a) + 0) = 0xFFFFFFFF;

Which is rather cumbersome to use.

Is there any better way to define this double number, if possible as a constant?

share|improve this question
Can I ask why you need this? –  Mitch Wheat Oct 16 '10 at 0:59
the only way is this... unless your C++ implementation has 64 bit integer support. –  Mehrdad Afshari Oct 16 '10 at 0:59
This is just nitpicking, but it is IEEE-754-1985 (not IEEE-745). –  George Oct 16 '10 at 3:16

5 Answers 5

up vote 2 down vote accepted
#include <iostream>
#include <iomanip>
#include <limits>
using namespace std;

int main()
    double const    x   = 1.0 - numeric_limits< double >::epsilon();

        << setprecision( numeric_limits< double >::digits10 + 1 ) << fixed << x
        << endl;
share|improve this answer

It's not safe, but something like:

double a;
*(reinterpret_cast<uint64_t *>(&a)) = 0x3FEFFFFFFFFFFFFFL;

However, this relies on a particular endianness of floating-point numbers on your system, so don't do this!

Instead, just put DBL_EPSILON in <cfloat> (or as pointed out in another answer, std::numeric_limits<double>::epsilon()) to good use.

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Treating it as an integer should make it endian-independent (unless you have one of those weird "mixed endian" systems) –  Rick Regan Oct 16 '10 at 15:54
@Rick Regan: Who's to say that the "endianness" of your platform's representation of floating-point types is consistent with the representation of integer types? –  Oliver Charlesworth Oct 16 '10 at 17:15
Theoretically you're right -- but do you have an example (besides the mixed-endian “soft floats”)? –  Rick Regan Oct 16 '10 at 23:17

If you make a bit_cast and use fixed-width integer types, it can be done safely:

template <typename R, typename T>
R bit_cast(const T& pValue)
    // static assert R and T are POD types

    // reinterpret_cast is implementation defined,
    // but likely does what you expect
    return reinterpret_cast<const R&>(pValue);

const uint64_t target = 0x3FEFFFFFFFFFFFFFL;
double result = bit_cast<double>(target);

Though you can probably just subtract epsilon from it.

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Not sure why you went to the trouble of defining bit_cast when you could have just used reinterpret_cast<double&> directly. Still seems like a good solution. –  Mark Ransom Oct 16 '10 at 3:48
@Mark: That wouldn't static assert both types are POD types, and would make it easier to break aliasing rules. (Admittedly I gave a more general solution than required; in this case just doing it directly works fine.) –  GManNickG Oct 16 '10 at 3:57

It's a little archaic, but you can use a union. Assuming a long long and a double are both 8 bytes long on your system:

typedef union { long long a; double b } my_union;

int main()
    my_union c;
    c.b = 1.0;
    std::cout << "Double value is " << c.b << std::endl;
    std::cout << "Long long value is " << c.a << std::endl;

Here you don't need to know ahead of time what the bit representation of 1.0 is.

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That leads to UB, strictly speaking. –  GManNickG Oct 16 '10 at 3:09

Hexadecimal float and double literals do exist. The syntax is 0x1.(mantissa)p(exponent in decimal) In your case the syntax would be

double x = 0x1.fffffffffffffp-1
share|improve this answer
I've never heard of this syntax before. Do you have a reference? –  Mark Ransom Oct 16 '10 at 5:17
I think its part of the C99 standard. It works with GNU compilers, I don't about others. –  Shum Oct 16 '10 at 5:32
@Mark Ransom: I wrote an article about this recently: exploringbinary.com/hexadecimal-floating-point-constants –  Rick Regan Oct 16 '10 at 15:51
@Mark Ransom: Added in C99. Also supported in printf/scanf via the %a format specifier. By far the best way to specify floating-point values in C. –  Stephen Canon Oct 18 '10 at 19:13

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