I have a sensor which gives its output in three bytes. I read it like this:

unsigned char byte0,byte1,byte2;


Now I want these three bytes merged into one number:

int value;
value=byte0 + (byte1 << 8) + (byte2 << 16);

it gives me values from 0 to 16,777,215 but I'm expecting values from -8,388,608 to 8,388,607. I though that int was already signed by its implementation. Even if I try define it like signed int value; it still gives me only positive numbers. So I guess my question is how to convert int to its two's complement?


  • You should not assume that int is 2's complement or any other implementation detail. That would, at best, lead to unportable and brittle code. Just do the arithmetic yourself to get the correct result. In fact, you shouldn't even assume it can hold a 3-byte number! – underscore_d Apr 11 '18 at 8:47
  • What size is int on your architecture? – DukeOfMarmalade Apr 11 '18 at 8:48
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    Don't assume sizes of int or even char. Use proper types like uint8_t and int32_t etc. – Grigory Rechistov Apr 11 '18 at 8:51
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    @underscore_d there is a proposal to fix this in the next version of the standard, as in practice non-two's-complement arithmetic doesn't seem to be a concern IRL for any code that is likely to be actively updated or newly written. – Leushenko Apr 11 '18 at 8:58
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    @Stan Even if one uses signed types, the (un)signed extension happens, it is only performed by compiler, not programmer. It is good to know however the underlying logic behind it. Sometimes you have to know how to do it yourself: 1) you cannot control signedness of input values (3rd-party code) 2) your desired integer type is not supported by compiler (e.g. a 13-bit signed int, or 256-bit signed int). – Grigory Rechistov Apr 11 '18 at 9:24

What you need to perform is called sign extension. You have 24 significant bits but want 32 significant bits (note that you assume int to be 32-bit wide, which is not always true; you'd better use type int32_t defined in stdint.h). Missing 8 top bits should be either all zeroes for positive values or all ones for negative. It is defined by the most significant bit of the 24 bit value.

int32_t value;
uint8_t extension = byte2 & 0x80 ? 0xff:00; /* checks bit 7 */
value = (int32_t)byte0 | ((int32_t)byte1 << 8) | ((int32_t)byte2 << 16) | ((int32_t)extension << 24);

EDIT: Note that you cannot shift an 8 bit value by 8 or more bits, it is undefined behavior. You'll have to cast it to a wider type first.

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    Integer promotion is applied to the operands of <<; you cannot shift an 8-bit value in C at all, because it will be promoted to int or unsigned int first. However, you may want to prevent it from choosing an inappropriate conversion path (e.g. unexpected sign extension on an unsigned operand). – Leushenko Apr 11 '18 at 8:55
  • @Leushenko, thanks, I did not know that char has special treatment in shifting operations. You can never be too much careful with shifting in C though. – Grigory Rechistov Apr 11 '18 at 8:58
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    @Leushenko: It is true that you cannot shift an eight-bit value by eight bits without risking undefined behavior because 128 << 8 is 32768, which is larger than an int is guaranteed to be able to represent. – Eric Postpischil Apr 11 '18 at 14:07
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    @GrigoryRechistov: This is not special treatment for char in shifting operations. In C, all integer expressions (including _Bool, char, and short) are promoted to at least int in most contexts. – Eric Postpischil Apr 11 '18 at 14:34
#include <stdint.h>
uint8_t byte0,byte1,byte2;
int32_t answer;

// assuming reg 0x25 is the signed MSB of the number 
// but you need to read unsigned for some reason

// so the trick is you need to get the byte to sign extend to 32 bits
// so force it signed then cast it up
answer = (int32_t)((int8_t)byte0); // this should sign extend the number
answer <<= 8;
answer |= (int32_t)byte1; // this should just make 8 bit field, not extended
answer <<= 8;
answer |= (int32_t)byte2;

This should also work

answer = (((int32_t)((int8_t)byte0))<<16) + (((int32_t)byte1)<< 8) + byte2;

I may be overly aggressive with parentheses but I never trust myself with shift operators :)

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