I'm trying to make a function that will accept a float variable and convert it into a byte array. I found a snippet of code that works, but would like to reuse it in a function if possible.

I'm also working with the Arduino environment, but I understand that it accepts most C language.

Currently works:

float_variable = 1.11;
byte bytes_array[4];

*((float *)bytes_array) = float_variable;

What can I change here to make this function work?

float float_test = 1.11;
byte bytes[4];

// Calling the function

// Function
void float2Bytes(byte* bytes_temp[4],float float_variable){ 
     *(float*)bytes_temp = float_variable;  

I'm not so familiar with pointers and such, but I read that (float) is using casting or something?

Any help would be greatly appreciated!



Here's my final function that works in Arduino for anyone who finds this. There are more efficient solutions in the answers below, however I think this is okay to understand.

Function: converts input float variable to byte array

void float2Bytes(float val,byte* bytes_array){
  // Create union of shared memory space
  union {
    float float_variable;
    byte temp_array[4];
  } u;
  // Overite bytes of union with float variable
  u.float_variable = val;
  // Assign bytes to input array
  memcpy(bytes_array, u.temp_array, 4);

Calling the function

float float_example = 1.11;
byte bytes[4];


Thanks for everyone's help, I've learnt so much about pointers and referencing in the past 20 minutes, Cheers Stack Overflow!


Easiest is to make a union:

#include <stdio.h>

int main(void) {
  int ii;
  union {
    float a;
    unsigned char bytes[4];
  } thing;

  thing.a = 1.234;
  for (ii=0; ii<4; ii++) 
    printf ("byte %d is %02x\n", ii, thing.bytes[ii]);
  return 0;


byte 0 is b6
byte 1 is f3
byte 2 is 9d
byte 3 is 3f

Note - there is no guarantee about the byte order… it depends on your machine architecture.

To get your function to work, do this:

void float2Bytes(byte bytes_temp[4],float float_variable){ 
  union {
    float a;
    unsigned char bytes[4];
  } thing;
  thing.a = float_variable;
  memcpy(bytes_temp, thing.bytes, 4);

Or to really hack it:

void float2Bytes(byte bytes_temp[4],float float_variable){ 
  memcpy(bytes_temp, (unsigned char*) (&float_variable), 4);

Note - in either case I make sure to copy the data to the location given as the input parameter. This is crucial, as local variables will not exist after you return (although you could declare them static, but let's not teach you bad habits. What if the function gets called again…)

  • 2
    @haccks - the union of two data elements of four bytes in size makes these two occupy the same physical memory - so when I write to thing.a I write into the byte array as well. You will find that &thing.a == &thing.bytes ... – Floris Jun 25 '14 at 23:50
  • 1
    Thank you so much! I'm finally understanding the concept of unions – Ben Winding Jun 25 '14 at 23:58
  • 1
    @haccks - I was a bit surprised at your question, and given the quality of your inputs around here, actually questioned myself ("did I do something really dumb? Should this not have compiled?" I even turned on -Wstrict-aliasing looking for problems…). Thanks for the +. – Floris Jun 25 '14 at 23:59
  • +1 for the remark about byte order -- this can explode if you use it on the wrong architecture. There's probably a way to do what you want that doesn't involve relying on endianness... – Patrick Collins Jun 26 '14 at 0:10
  • 1
    No, the correct place. Your first argument is an array of four pointers. Should be: four characters. (and: you dont need the cast, memcpy() takes two void pointers as its first two arguments) – wildplasser Jul 12 '19 at 11:07

Here's a way to do what you want that won't break if you're on a system with a different endianness from the one you're on now:

byte* floatToByteArray(float f) {
    byte* ret = malloc(4 * sizeof(byte));
    unsigned int asInt = *((int*)&f);

    int i;
    for (i = 0; i < 4; i++) {
        ret[i] = (asInt >> 8 * i) & 0xFF;

    return ret;

You can see it in action here: http://ideone.com/umY1bB

The issue with the above answers is that they rely on the underlying representation of floats: C makes no guarantee that the most significant byte will be "first" in memory. The standard allows the underlying system to implement floats however it feels like -- so if you test your code on a system with a particular kind of endianness (byte order for numeric types in memory), it will stop working depending on the kind of processor you're running it on.

That's a really nasty, hard-to-fix bug and you should avoid it if at all possible.

  • Thanks for your contribution, it does concern me that other system could misinterpret a float variable. How does your sample code determine between systems though? Forgive my ignorance, I'm learning still... – Ben Winding Jun 26 '14 at 0:55
  • 1
    @TylerDurden It works across systems because it doesn't "break" the notion of a float that the system is working with. Using a union interacts directly with the values in memory, so it depends on whether the system stores the most significant byte in the highest-order byte of the float. Using this strategy only goes through other abstractions -- int and bitshifting -- so it will be consistent no matter how the underlying system orders its bytes. – Patrick Collins Jun 26 '14 at 1:00
  • The most significant bit of a float and an int will be in the same place regardless of endianness -- so bitshifting and masking will pull it out correctly. However, the system makes no guarantee that the most significant bit of a float is the highest-order bit, so that can break if you use a union on a system of different endianness than the one you developed on. – Patrick Collins Jun 26 '14 at 1:01
  • It doesn't have to do with "misinterpreting a float," rather, some systems represent numbers as [MOST_SIGNIFICANT_BYTE, 2ND_MOST_SIGNIFICANT, 2ND_LEAST_SIGNIFICANT, LEAST_SIGNIFICANT] and others represent them as [LEAST_SIGNIFICANT, 2ND_LEAST_SIGNIFICANT, 2ND_MOST_SIGNIFICANT, MOST_SIGNIFICANT]. – Patrick Collins Jun 26 '14 at 1:04
  • 1
    & 0xFF grabs the least significant byte, not the first one in memory, so it avoids depending on the byte order of the underlying system. – Patrick Collins Jun 26 '14 at 2:21

I would recommend trying a "union".

Look at this post:


typedef union I2C_Packet_t{
 sensorData_t sensor;
 byte I2CPacket[sizeof(sensorData_t)];

In your case, something like:

union {
  float float_variable;
  char bytes_array[4];
} my_union;

my_union.float_variable = 1.11;

Yet another way, without unions: (Assuming byte = unsigned char)

void floatToByte(byte* bytes, float f){

  int length = sizeof(float);

  for(int i = 0; i < length; i++){
    bytes[i] = ((byte*)&f)[i];

  • Do you have a source or example for your claim? – Christopher Schneider Jan 26 '16 at 22:59
  • Am I misreading this? According to the link: An object shall have its stored value accessed only by an lvalue expression that has one of the following types which includes a character type. – Christopher Schneider Jan 27 '16 at 16:15
  • Thanks. Was curious, as I found this little hack to be useful in several situations, but hadn't had anything blow up. – Christopher Schneider Jan 27 '16 at 16:35
  • Well, good to know anyway, since I'm probably a bit too liberal with my typecasting :-) – Christopher Schneider Jan 27 '16 at 16:44
  • Likewise - I learned something today. I've deleted my above comments now since they are just noise and don't contribute anything. Have an up-vote... – Paul R Jan 27 '16 at 16:52

Although the other answers show how to accomplish this using a union, you can use this to implement the function you want like this:

byte[] float2Bytes(float val)
    my_union *u = malloc(sizeof(my_union));
    u->float_variable = val;
    return u->bytes_array;


void float2Bytes(byte* bytes_array, float val)
    my_union u;
    u.float_variable = val;
    memcpy(bytes_array, u.bytes_array, 4);
  • You are returning pointer to local variable. Once the function block ends, u will not exist. You can dynamically allocate union to its pointer: my_union *u = malloc(sizeof(my_union));. – haccks Jun 25 '14 at 23:54
  • 1
    It's a bit more usual to write u->float_variable rather than (*u).float_variable, isn't it? Any particular reason why you chose that way? Note also that in the question, the function signature passed the pointer to the result in as a parameter. – Floris Jun 26 '14 at 0:03
  • Working from phone. Was too lazy to find the > character. Fixed now. – mclaassen Jun 26 '14 at 0:07

this seems to work also

#include <stddef.h>
#include <stdint.h>
#include <string.h>

float fval = 1.11;
size_t siz;
siz = sizeof(float);

uint8_t ures[siz];

memcpy (&ures, &fval, siz);


float utof;
memcpy (&utof, &ures, siz);

also for double

double dval = 1.11;
siz = sizeof(double);

uint8_t ures[siz];

memcpy (&ures, &dval, siz);


double utod;
memcpy (&utod, &ures, siz);

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