# Convert a float to 4 uint8_t

I've got a `float` variable that I need to send through a CAN protocol. To do so, this float of 32 bits must be cut in 4 `uint8_t` variables.

I have absolutely no idea of how to do. I was first thinking of convert the float to an int but some answers that I found on the Internet which use cast or union doesn't seems to work.

Here's a simple example of what I'm trying to do :

``````float f;
uint8_t ut1,ut2,ut3,ut4;

//8 first bits of f into ut1
//8 second bits of f in ut2
...

// Then I can send the uint8_t through CAN
...
``````

Thanks.

• Don't you want `uint8_t[4]` rather than 4 * `uint8_t` variables? – trojanfoe Aug 19 '14 at 14:50
• Also show the code you using and some idea of the method you are calling (i.e. its semantics). – trojanfoe Aug 19 '14 at 14:51
• I need 4 different separate variable if possible , but a tab can be ok. I don't have good code to show you ... only test with cast and union – Evans Belloeil Aug 19 '14 at 14:53

You normally do this by casting the float to an array of uint8_t.

In C you can do it like this:

``````uint8_t *array;
array = (unit8_t*)(&f);
``````

in C++ use the reinterpret_cast

``````uint8_t *array;
array = reinterpret_cast<uint8_t*>(&f);
``````

Then array[0], ..., array[3] are your bytes.

• How about endianess ? – Jarod42 Aug 19 '14 at 14:57
• There may be endianess issues, but that is true however we split the float into bytes. I'd say that is a separate issue. Whatever the protocol specifies the OP will need to adhere to. – dohashi Aug 19 '14 at 15:04

First you should note that the standard imposes no specific size restrictions on `float`. It's possible that a `float` wouldn't fit into four bytes on some imaginable architecture (although I'm not aware of any). You should at least (static_)assert that it will fit before attempting anything.

Then I think the simplest way is to assert that `CHAR_BIT` is `8`, and use the legal aliasing to `unsigned char*` with `reinterpret_cast`:

``````static_assert(sizeof(float) == 4);
float f = 0; // whatever value
unsigned char* float_as_char = reinterpret_cast<unsigned char*>(&f);
``````

This totally ignores the endian issue though, so maybe what you really want is to make a copy of the bytes so you can fix that up:

``````static_assert(sizeof(float) == 4);
float f = 0; // whatever value
uint8_t bytes[4];
std::memcpy(bytes, &f);
// Fix up the order of the bytes in "bytes" now.
``````

You can do this illegal operation:

``````float f = someFloatValue;
uint8_t* i = reinterpret_cast<uint8_t*>(&f);
``````

Although this works most of the time, it is not supported by c++ standard and compilers might generate code with undefined behaviour.

Another solution is using unions:

``````union{
float f;
uint8_t i[4];
}
f = someFloatValue;
// now i's contain the bit pattern of f
``````

It's unclear if all compilers yield consistent results, but it seems safer than the first aproach.

You can also pack the value of `f` in a 32-bit integer. This, however can result in losing a bit of precision, but depending on how accurately you want to keep `f`, would be the best solution.

• I posted a union answer just before you, but then I realized that it's undefined behaviour: stackoverflow.com/questions/17273320/… – eerorika Aug 19 '14 at 15:04
• Technically, reading from a different union field than the last written to is undefined behavior. However, all major C++ compilers give special guarantees that this will work correctly. This is still the correct answer as there actually is no standard conforming way to achieve this otherwise. – ComicSansMS Aug 19 '14 at 15:06
• @ComicSansMS Ah, thanks for restoring my faith in the `union`. – eerorika Aug 19 '14 at 15:08

Here's a union approach that gives separate names for integer parts instead of one array:

``````union {
float f;
struct {
uint8_t ut1, ut2, ut3, ut4;
} bytes;
} value;
value.f = 1.f;
uint8_t first = value.bytes.ut1;
``````

I was initially concerned that this use of `union` is not strictly legal according to the standard: C++ Undefined behaviour with unions but ComicSansMS's argument in a comment to rashmatash's answer is compelling.