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I have a unsigned char array[248]; filled with bytes. Like 2F AF FF 00 EB AB CD EF ..... This Array is my Byte Stream which I store my Data from the UART (RS232) as a Buffer.

Now I want to convert the bytes back to my uint16's and int32's.

In C# I used the BitConverter Class to do this. e.g:

byte[] Array = { 0A, AB, CD, 25 };
int myint1 = BitConverter.ToInt32(bytes, 0);
int myint2 = BitConverter.ToInt32(bytes, 4);
int myint3 = BitConverter.ToInt32(bytes, 8);
int myint4 = BitConverter.ToInt32(bytes, 12);
enter code here
Console.WriteLine("int: {0}", myint1); //output Data...

Is there a similiar Function in C ? (no .net , I use the KEIL compiler because code is running on a microcontroller)

With Regards Sam

Solutions: Way A)

first I had to convert or initialize the array as an uint8_t ARRAY[248]; Then I used this code with your help:

 uint32_t* myint1 = (uint32_t *)&RXBUFF[2]; //test
 uint16_t* myint2 = (uint16_t *)&RXBUFF[6]; //test3

Attention: The int value "1985" in hex is represented as 0x07C1 in myint2 . the Byte that I sended was "C1 07" so the Microcontroller is changing the Byte Order

I will test the other Methods too.

WR Sam :)

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3 Answers 3

up vote 1 down vote accepted

Yes there is. Assume your bytes are in:

uint8_t bytes[N] = { /* whatever */ };

We know that, a 16 bit integer is just two 8 bit integers concatenated, i.e. one has a multiple of 256 or alternatively is shifted by 8:

uint16_t sixteen[N/2];

for (i = 0; i < N; i += 2)
    sixteen[i/2] = bytes[i] + ((uint16_t)bytes[i+1] << 8);
             // assuming you have read your bytes little-endian

Similarly for 32 bits:

uint32_t thirty_two[N/4];

for (i = 0; i < N; i += 4)
    thirty_two[i/4] = bytes[i] + ((uint32_t)bytes[i+1] << 8)
        + ((uint32_t)bytes[i+2] << 16) + ((uint32_t)bytes[i+3] << 24);
             // same assumption

If the bytes are read big-endian, of course you reverse the order:

bytes[i+1] + ((uint16_t)bytes[i] << 8)


bytes[i+3] + ((uint32_t)bytes[i+2] << 8)
    + ((uint32_t)bytes[i+1] << 16) + ((uint32_t)bytes[i] << 24)

Note that there's a difference between the endian-ness in the stored integer and the endian-ness of the running architecture. The endian-ness referred to in this answer is of the stored integer, i.e., the contents of bytes. The solutions are independent of the endian-ness of the running architecture since endian-ness is taken care of when shifting.

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what if its big endian? – Sam Sep 2 '12 at 22:39
then you shift in the least significant bits instead the most significant bits. – devsnd Sep 2 '12 at 22:40
@twall, I think you mean bytes. – Carl Norum Sep 2 '12 at 22:41
@sam, see my edit. Also, try reading a little on binary numbers. What I am doing is simple multiplication. – Shahbaz Sep 2 '12 at 22:43
stupid question, but my Array[100] is a char array, but does it matter because you guys wrote uint8_t bytes[N] – Sam Sep 2 '12 at 22:47

There's no standard function to do it for you in C. You'll have to assemble the bytes back into your 16- and 32-bit integers yourself. Be careful about endianness!

Here's a simple little-endian example:

extern uint8_t *bytes;
uint32_t myInt1 = bytes[0] + (bytes[1] << 8) + (bytes[2] << 16) + (bytes[3] << 24);

For a big-endian system, it's just the opposite order:

uint32_t myInt1 = (bytes[0] << 24) + (bytes[1] << 16) + (bytes[2] << 8) + bytes[3];

You might be able to get away with:

uint32_t myInt1 = *(uint32_t *)bytes;

If you're careful about alignment issues.

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I'd cast each bytes[] to a uint32_t before shifting it. As written above, they'll be cast to ints before doing the shifts, but int need not be 32 bits. – Joshua Green Sep 3 '12 at 3:35
That would be safest, agreed. – Carl Norum Sep 3 '12 at 4:29
Assuming bytes is native endian, what sort of alignment issues would you run into? Or, I guess, what kind of situations makes alignment a problem? – Azmisov Jun 24 at 4:56

You can directly create a uint16_t* pointer from your array.

uint8_t bytes[N] = { /* whatever */ }; //Shamelessly stolen from Shanbaz

uint16_t* viewAsUint16_t = (uint16_t *)&bytes[0];

Now you can use your pointer to access the elements.

Note that this assumes the endiness is correct for your machine. You might need to loop over these uint16_ts and use a functions like ntohs(should be avaialable on most operating systems) to correct for endiness.

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i will try this now. – Sam Sep 2 '12 at 22:48
I tried your code but it seems it doesnt worked. I saved the output from the debugger and console as a picture: link – Sam Sep 2 '12 at 23:19

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