1

I have some floats (IEEE-754) that I want to initialize. The floats are fetched by another device (automagically) which runs big endian where I am using little endian and I can't change that.

Normally I would just swap with some built in function, but they are all run-time functions. I'd perfer not having to have an init() function just to swap endianess and it would be great if I could use it for const initializations also.

Something that result in this would be perfect:

#define COMPILE_TIME_SWAPPED_FLOAT(x) (...) const float a = COMPILE_TIME_SWAPPED_FLOAT(1.0f);

Any great ideas?

  • 1
    You say "fetched by another device" but then you have 1.0f hardcoded in your code. Please clarify what is going on – M.M Sep 22 '17 at 12:47
  • My guess would be that even if you didn't use a macro most reasonable optimizing compilers would still be able to do this optimization at compile time. Of course you should check the compiler output to confirm. – Michael Mior Sep 22 '17 at 12:50
  • In this particular case, it is a constant timeout for a watchdog for this particular device, which the remote system wants to know (for unknown reasons). The remote system request the data over a RS485 bus and expects the data to be in a certain endianess. – Tajen Sep 22 '17 at 12:56
  • Instead of "fetched by another device" you should say "passed to another device" – M.M Sep 22 '17 at 13:12
  • If you're still interested in a compile time approach for a limited range of values (approx. 1e-1 to 1e3), I could come up with one. – Armali Sep 26 '17 at 12:20
2

Compile time/macro swap of endian-ness of float in c99

OP has other problem with using "reverse" float as a float

A local variable of type float encoding the "reverse" endian floating point value cannot certainly be initialized as a float. Many of the values in reverse byte order would correspond to a Not-A-Number (NAN) in the local float. The assignment may not be stable (bit pattern preserving). It could be:

// not a good plan
float f1 = some_particulate_not_a_number_bit_pattern;
float f2 = some_other_particulate_not_a_number_bit_pattern;

Instead the local "reversed" endian float should just be a uint32_t, 4-byte structure/union or 4-byte array initialized in some way with a float.

// Demo of why a reversed `float` can fail
// The Not-a-numbers bit to control signaling NaN vs. quiet NaN isn't certainly preserved. 

int main(void) {
  for (;;) {
    union {
      int32_t i32;
      int32_t u32;
      float f;
    } x,y;
    x.i32 = rand();
    y.f = x.f;
    if (x.u32 ^ y.u32) {
      // If bit pattern preserved, this should never print
      //                                 v-------+---- biased exponent max (NaN)
      //                                 |-------|v--- signaling/quiet bit
      // On my machine output is always x1111111 1?xxxxxx xxxxxxxx xxxxxxxx
      printf("%08x\n",   (unsigned) x.u32);
      printf("%08x\n\n", (unsigned) y.u32);
    }
  }
}

Output

7f8181b1
7fc181b1
...

The below uses a compound literal to meet OP's goal. First initialize a union's float member with the desired float. Then extract it byte-by-byte from its uint8_t member (per desired endian) to initialize a new compound literal's uint8_t array member. Then extract the uint32_t. Works for local variables.

#include <stdint.h>
#include <stdio.h>

typedef uint32_t float_reversed;

typedef union  {
  uint8_t u8[4];
  float_reversed u32;
  float f;
} endian_f;

#define ENDIAN_FN(_f,_n)  ( (endian_f){.f=(_f)}.u8[(_n)] )
#define ENDIAN_F(_f) ((endian_f){ \
    ENDIAN_FN(_f,3), ENDIAN_FN(_f,2), \
    ENDIAN_FN(_f,1), ENDIAN_FN(_f,0)}.u32)

void print_hexf(void *f) {
  for (size_t i=0; i<sizeof f; i++) {
    printf("%02X", ((unsigned char *)f)[i]);
  }
  puts("");
}

int main(void) {
  float f1 = 1.0f;
  print_hexf(&f1);

  float_reversed f1r = ENDIAN_F(f1);
  print_hexf(&f1r);
  float_reversed f2r = ENDIAN_F(1.0);
  print_hexf(&f2r);
}

Output

0000803F
3F800000
3F800000
  • 1
    Unfortunately the requirement is to have this working in global scope, which it won't I suspect. – alk Sep 22 '17 at 14:26
  • @Armali Post ammended – chux Sep 22 '17 at 14:29
  • 1
    Excellent answer! I was looking for a union initializer, but compound literal expressions are the right way to destructure the bitwise representation. I am not sure if this approach has 100% defined behavior because type-punning via unions still confuses me. How come no-one else voted this up? – chqrlie Sep 22 '17 at 16:40
  • 1
    It is a pity acceptance is so slow, probably because they are not part of even recent C++ releases. Also beats be why your solution cannot be used for global scope. It is about time one could use more expressivity at global scope without ugly macros. – chqrlie Sep 22 '17 at 16:58
  • 1
    It is not done compile time, but I think it is the closest we are going to get. – Tajen Sep 25 '17 at 6:04
0

I'd say having the preprocessor to swap bytes of some non byte variable isn't possible.

The preprocessor does not know about data types and their representation on byte-level.

  • Would you say that any swapping of bytes is impossible by the preprocessor? – Tajen Sep 22 '17 at 12:38
  • @Tajen: If you'd pass it bytes it might be able to swap them, but it cannot parse any other data type into bytes, and then swap those. Answer adjusted. – alk Sep 22 '17 at 12:39
  • I could convert the float value to a uint32_t hex value and also swap it myself. but then I need the preprocessor to copy it to the float without converting it. That should be possible - in theory at least. – Tajen Sep 22 '17 at 12:42
  • @Tajen: This might work at run-time, but won't during compilation, which is a prerequisite to have this work on global scope. – alk Sep 22 '17 at 13:30
0

If the endian reversal code is available to be inlined then any half decent optimizing compiler will work out the reversed value at compile time.

Taking the reversal code from https://stackoverflow.com/a/2782742/2348315 :

inline float ReverseFloat( const float inFloat )
{
   float retVal;
   char *floatToConvert = ( char* ) & inFloat;
   char *returnFloat = ( char* ) & retVal;

   // swap the bytes into a temporary buffer
   returnFloat[0] = floatToConvert[3];
   returnFloat[1] = floatToConvert[2];
   returnFloat[2] = floatToConvert[1];
   returnFloat[3] = floatToConvert[0];

   return retVal;
}

And using it in away that compiler can see all the details:

float reversed10(){
  const float reversed = ReverseFloat(10.0f);
  return reversed;
}

Compiles to:

reversed10():
        vmovss  xmm0, DWORD PTR .LC0[rip]
        ret
.LC0:
        .long   8257

with GCC 7.1 with -O2 enabled.

You can try other compilers over here: https://godbolt.org/g/rFmJGP

  • Thanks @Armali I've corrected to the correct C syntax. – PeterSW Sep 22 '17 at 14:08
  • A corner problem with float reversed = ReverseFloat(10.0f) is that the return from ReverseFloat() may be a signaling Not-a-number and cause problems with the assignment or perhaps even in return retVal; – chux Sep 22 '17 at 16:38

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