This question was first inspired by the (unexpected) results of this code:

```
uint16_t t16 = 0;
uint8_t t8 = 0x80;
uint8_t t8_res;
t16 = (t8 << 1);
t8_res = (t8 << 1);
printf("t16: %x\n", t16); // Expect 0, get 0x100
printf(" t8: %x\n", t8_res); // Expect 0, get 0
```

But it turns out this makes sense:

**6.5.7 Bitwise shift operators**

*Constraints*

**2** Each of the operands shall have integer type

Thus the originally confused line is equivalent to:

```
t16 = (uint16_t) (((int) t8) << 1);
```

A little non-intuitive IMHO, but at least well-defined.

Ok, great, but then we do:

```
{
uint64_t t64 = 1;
t64 <<= 31;
printf("t64: %lx\n", t64); // Expect 0x80000000, get 0x80000000
t64 <<= 31;
printf("t64: %lx\n", t64); // Expect 0x0, get 0x4000000000000000
}
```

// edit: following the same literal argument as above, the following should be equivalent:

```
t64 = (uint64_t) (((int) t64) << 31);
```

// hence my confusion / expectation [end_edit]

Now, we get the intuitive result, but not what would be derived from my (literal) reading of the standard. When / how does this "further automatic type promotion" take place? Or is there a limitation elsewhere that a type can never be demoted (that would make sense?), in that case, how do the promotion rules apply for:

```
uint32_t << uint64_t
```

Since the standard does say both arguments are promoted to int; should both arguments be promoted to the same type here?

// edit:

More specifically, what should the result of:

```
uint32_t t32 = 1;
uint64_t t64_one = 1;
uint64_t t64_res;
t64_res = t32 << t64_one;
```

// end edit

The answer to the above question is resolved when we recognize that the spec does not demand a promotion to `int`

specifically, rather to an `integer type`

, which uint64_t qualifies as.

// CLARIFICATION EDIT:

Ok, but now I am confused again. Specifically, if `uint8_t`

is an integer type, then why is it being promoted to `int`

at all? It does not seem to be related to the constant int 1, as the following exercise demonstrates:

```
{
uint16_t t16 = 0;
uint8_t t8 = 0x80;
uint8_t t8_one = 1;
uint8_t t8_res;
t16 = (t8 << t8_one);
t8_res = (t8 << t8_one);
printf("t16: %x\n", t16);
printf(" t8: %x\n", t8_res);
}
t16: 100
t8: 0
```

Why is the (t8 << t8_one) expression being promoted if uint8_t is an integer type?

--

For reference, I'm working from ISO/IEC 9899:TC9, WG14/N1124 May 6, 2005. If that's out of date and someone could also provide a link to a more recent copy, that'd be appreciated as well.

`// Expect 0x0`

after that second shift left by 31 bits... – Greg Hewgill Oct 30 '11 at 21:38