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If I have a IEEE float hex 424ce027, how do I convert it to decimal?

unsigned char ptr[] = {0x42,0x4c,0xe0,0x27};

how do ?

float tmp = 51.218899;

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up vote 0 down vote accepted


float f = *reinterpret_cast<float*>(ptr);

Although on my x86 machine here I had to also reverse the byte order of the character to get the value you wanted.

std::reverse(ptr, ptr + 4);
float f = *reinterpret_cast<float*>(ptr);

You might want to use sizeof(float) instead of 4 or some other way to get the size. You might want to reverse a copy of the bytes, not the original. It's somewhat ugly however you do it.

edit: As pointed out in the comments, this code is unsafe as it creates two pointers aliasing the same memory but of different types. It may well work on a specific compiler & program, but isn't guarenteed to by the standard.

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@JohnB: I believe this is UB because of the aliasing rules. You cannot some random buffer as float. – wilx Mar 2 '11 at 10:39
I thought there was an exception for char* which was allowed to point to any type, basically for doing exactly this kind of thing? Is my understanding of that rule not correct? (I know it's unsigned char* here which may affect my statement, not sure). – jcoder Mar 2 '11 at 10:42
@JohnB: The rule is only one way, you can view any object as a bunch of characters but not the other way around. – wilx Mar 2 '11 at 10:45
Hmm, interesting. (And slightly annoying :)) Is it "safe" to use memcpy like this : memcpy(&f, ptr, 4); With a test it works, and doesn't actually generate any additional code on the compiler I tested it on so is just as efficient. But does is that acceptable with the standard? – jcoder Mar 2 '11 at 11:13
The strict aliasing rules are 6.5/6-7. memcpy is OK, because after using it the "effective type" of the target object is float (its declared type), and you access it as float, no problem. This reinterpret_cast I think is technically not OK, because the "effective type" of the object is array of char, but you access it as float. – Steve Jessop Mar 2 '11 at 11:48

If you don't want to assume endian and break all sorts of aliasing rules, this kind of thing works well:

union IntFloat {
  uint32_t i;
  float f;
union IntFloat val;
val.i = 0x424ce027;
printf("%f\n", val.f);

Still assuming 'float' is 32 bit, and your machine is IEEE-754 compliant, and has matching endian to integers, but we can probably stop being pedantic there.

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I like the use of union. +1 from me :) – Delan Azabani Mar 2 '11 at 8:35
The use of the union is GCC extension. It is UB to access union member that has not been written to. – wilx Mar 2 '11 at 10:40
@wilx: in C++ and (I think) C89. In C99, accessing a different member is not forbidden by, and a footnote points out that it is permitted. But by doing so you're making assumptions about the layout of the union, in addition to the assumptions that any type-pun makes about storage representations. If all the assumptions are correct (and the layout can be checked - in fact I think it might be guaranteed that each member starts at the start of the union, I just haven't found the reference), then behavior is defined. – Steve Jessop Mar 2 '11 at 11:38
@Steve Jessop: C99 is not C++, it has no bearing on the matter at hand. It is UB in C++. – wilx Mar 2 '11 at 12:33
@wilx: question is tagged C just as much as it is tagged C++. – Steve Jessop Mar 2 '11 at 14:03

For converting an integer value I'd do very similar to John Ripley's answer, but a slightly different mechanism. The same caveats apply - float and int must be the same size and endianness, and float must be IEEE if the initial hex value is to be treated as IEEE:

float tmp;
unsigned int src = 0x424ce027;
std::memcpy(&tmp, &src, sizeof tmp);

You ask how to convert to float, then how to convert to decimal. Floats are not decimal. To convert a float to a decimal string, you need something like printf("%g", tmp);

If you begin with an array of unsigned char rather than an int, then any direct-copying from the array needs the array to have been populated with the same endianness as on your platform. Your array is big-endian, but Intel is little-endian. So you could reverse the array as in JohnB's answer if you know the endianness of your platform is the opposite of the endianness of the array. If you know the array is big-endian, and you don't know what endianness your platform is, you can do this (assuming 8 bits per char in the char array):

unsigned int src = 0;
for (int i = 0; i < sizeof src; ++i) {
    src = (src << 8) + ptr[i];

Then continue as before.

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Caveat: This is not guaranteed to work in ANSI C (floating point numbers don't have to be IEEE754). With that being said,

#include <stdint.h>

uint32_t x = 0x424ce027UL;
printf("%f\n", *((float *)&x));

Which gives the output:


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keep in mind that type punning via pointer casts violates the C aliasing rules (see C99 6.5 §6-7 on effective types), ie the code is non-standard... – Christoph Mar 2 '11 at 9:08
As with the other answers and int, this needs long to be the same size as float. Personally I'm more likely to encounter platforms where long is too big (64-bit linux) than where int is too small (most 16-bit CPUs), but YMMV. I say "needs", actually it works on little-endian 64-bit linux, but in a way that I'd describe as "by the skin of its teeth" ;-) – Steve Jessop Mar 2 '11 at 10:43
@Steve: I bet it doesn't work on PPC64. With that being said, I'll fix it. – Conrad Meyer Mar 2 '11 at 17:54

unsigned char ptr[] = {0x42,0x4c,0xe0,0x27};

float fTemp;

uint8_t *temp2 = (uint8_t *) &fTemp;
for (int i = 0; i < sizeof(float); i++)
    temp2[i] = ptr[3-i];

std::cout<<"Data1: "<<fTemp;
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The only portable way is to analyze the bit patterns and form the float manually inhering to all rules of ieee-754 floating points:

#define BIAS 150
unsigned char ptr[4] = {0x42,0x4c,0xe0,0x27};
// take care of endianness, which may vary between native float and native int
uint32_t tmp = (ptr[0] << 24) | (ptr[1] << 16) | (ptr[2] << 8) | ptr[3];
uint32_t sign = tmp >> 31;
uint32_t exp = (tmp >> 23) & 0xff;
uint32_t mantissa = tmp & ((1 << 23) - 1);
float result;
if (exp > 0)
   mantissa |= (1 << 23);                        // Handle denormals && Inf

// all integers < 16777216 can be represented exactly as a float
// multiply that by a power of two

result = ldexpf((float)mantissa, exp - BIAS);    // in <math.h>

if (exp == 255 && mantissa != 0)  // Produce NaN from Inf-Inf
   result = (result - result);

if (sign) result = -result;       // Flip sign (also handles -0.0f)
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