# Combining two uint8_t as uint16_t

I have the following data

``````uint8_t d1=0x01;
uint8_t d2=0x02;
``````

I want to combine them as `uint16_t` as

``````uint16_t wd = 0x0201;
``````

How can I do it?

## 3 Answers

You can use bitwise operators:

``````uint16_t wd = ((uint16_t)d2 << 8) | d1;
``````

Because:

`````` (0x0002 << 8) | 0x01 = 0x0200 | 0x0001 = 0x0201
``````
• Yes, it is. `d2` needs to be cast first (which the edited post takes care of.) – Jonathan Grynspan Mar 6 '13 at 14:26
• @LuchianGrigore: Oh, yes, I've forgotten it. Thanks. – md5 Mar 6 '13 at 14:26
• Cast is not needed. – R.. Mar 6 '13 at 14:29
• @LuchianGrigore & JonathanGrynspan Not neccessarily, since `d2` is first promoted to `int` (which is at least 16 bit). But Ok, it could still be UB if `int` was really just 16 bit on his platform and `(int)d2 << 8` would overflow the non-negative `int` range. – Christian Rau Mar 6 '13 at 14:30
• I don't see how the cast would improve anything. Suppose that uint16_t has lower conversion rank than `int`, then you have solved nothing with the cast, the left operand would still be implicitly promoted to (signed) int. But since there is no way that could yield a negative value, the behavior of this code and the original one is always well-defined. – Lundin Mar 6 '13 at 14:31

The simplest way is:

``````256U*d2+d1
``````
• Aw. Now we really have a use case for bitwise operations and you still stick to boring arithmetics. ;) – Christian Rau Mar 6 '13 at 14:33
• `<<8` and `*256` are identical operations except that the former has undefined behavior in more cases and thus is usually undesirable. There's hardly ever a reason to use the `<<` or `>>` operators unless the right-hand operand is variable (in which case you have a nice exponentiation operator). – R.. Mar 6 '13 at 14:39
• Yeah, that comment was of rather humorous nature. – Christian Rau Mar 6 '13 at 14:40
• How is this answer ranking working? Why does this always appear at the bottom of the page??? – Brett Hale Apr 14 '16 at 10:22

This is quite simple. You need no casts, you need no temporary variables, you need no black magic.

``````uint8_t d1=0x01;
uint8_t d2=0x02;
uint16_t wd = (d2 << 8) | d1;
``````

This is always well-defined behavior since d2 is always a positive value and never overflows, as long as `d2 <= INT8_MAX`.

(INT8_MAX is found in stdint.h).

• ... except when it's not 0x7F (see 5.2.4.2) – autistic Mar 6 '13 at 14:53
• @modifiablelvalue Emphasis on in practice. All sane implementations use wchar_t for larger integers if that is your concern. If your concern is one's complement or sign & magnitude CPUs, then please let me know where to buy them because I want one too! – Lundin Mar 6 '13 at 14:58
• `INT8_MAX` is 127. It's true that `d2<<8` can be proven not to overflow when `d2<=127`, but the reason is that `INT_MAX` is required to be at least 32767 but not required to be any larger. – R.. Mar 6 '13 at 15:17
• The down-side of stackoverflow's model is that most of this discussion is now rendered rubbish due to an edit of the original post. Providing INT_MAX == 32767, INT8_MAX is the ceiling value by coincidence. When INT_MAX >= 32768, INT8_MAX is meaningless. – autistic Mar 6 '13 at 15:18
• @Lundin The danger isn't necessarily shifting into the sign bits; Using a value that can't be represented as an `int`, in an expression that has `int` type seems like a more appropriate description for this undefined behaviour. – autistic Mar 6 '13 at 15:31