# integer promotion in c

Let say I have a 32-bit machine.

I know during integer promotion the expressions are converted to:

• `int` if all values of the original type can be represented in int
• `unsigned` otherwise

Could you please explain what will happen for the following expression? and In general, how ranking works here?

First snippet:

``````int16_t  x, pt;
int32_t  speed;
uint16_t length;
x = (speed*pt)/length;
``````

Second one:

``````x = pt + length;
``````

#EDIT:

I found the following link that has described the issue very clearly: Implicit type conversion.

• What are `si16`, `si32`, and `u16`? Jun 9, 2017 at 10:20
• Question is impossible answer without knowing `sizeof(int)` relative to `sizeof(si16)` and others. Jun 9, 2017 at 10:20
• "Let say i have 32 bit machine." is not at all relevant. We need to know the details of your `int`. Jun 9, 2017 at 10:21
• @ David Bowling , si16 means signed short (size 16 bit) , si32 bit means signed int (size 32 bit) and u16 means unsigned short (size 16) Jun 9, 2017 at 10:24
• why `si16` but `u16`, not `ui16`? Jun 9, 2017 at 10:27

The integer promotion rule, correctly cited C11 6.3.1.1:

If an `int` can represent all values of the original type (as restricted by the width, for a bit-field), the value is converted to an `int`; otherwise, it is converted to an `unsigned int`. These are called the integer promotions. All other types are unchanged by the integer promotions.

Where "otherwise, it is converted to an unsigned int" is in practice only used in one particular special case, namely where the smaller integer type `unsigned short` has the same size as `unsigned int`. In that case it will remain unsigned.

Apart from that special case, all small integer types will always get promoted to (signed) `int` regardless of their signedness.

Assuming 32 bit `int`, then:

`````` x = (speed*pt)/length;
``````

`speed` is signed 32, it will not get promoted. `pt` will get integer promoted to `int` (signed 32). The result of `speed*pt` will have type `int`.

`length` will get integer promoted to `int`. The division will get carried out with operands of type `int` and the resulting type will be `int`.

The result will get converted to signed 16 as it is assigned to `x` (lvalue conversion during assignment).

`x = pt + length;` is similar, here both operands of + will get promoted to `int` before addition and the result will afterwards get converted to signed 16.

For details see Implicit type promotion rules.

• could you please explain the line : "All other types are unchanged by the integer promotions." Jun 9, 2017 at 11:41
• @Monir With some more context, it means that all types that aren't of the "small integer types" aren't affected by the rule. The small integer types are: bool, char, short (and their stdint.h equivalents). Jun 9, 2017 at 11:46
• It is allowed to apply an operator without converting it first to int provided you can prove it will not overflow. Jun 9, 2017 at 12:14
• @alinsoar Compilers may optimize such expressions but they are indeed not allowed to optimize out side effects caused by promotion, including implicit change of signedness. Jun 9, 2017 at 12:37

The integer promotion rules are defined in 6.3.1.8 Usual arithmetic conversions.

``````1.  int16_t  x, pt;
int32_t  speed;
uint16_t length;
x = (speed*pt)/length;

2. x =  pt + length;
``````

Ranking means effectively the number of bits from the type as defined by CAM in `limits.h`. The standards imposes for the types of lower rank in CAM to correspond types of lower rank in implementation.

``````speed * pt
``````

is multiplication between int32_t and int16_t, which means, it is transformed in

``````speed * (int16_t => int32_t) pt
``````

and the result `tmp1` will be `int32_t`.

Next, it will continue

``````tmp1_int32 / length
``````

Length will be converted from `uint16_t` to `int32_t`, so it will compute `tmp2` so:

``````tmp1_int32 / (uint16_t => int32_t) length
``````

and the result `tmp2` will be of type `int32_t`.

Next it will evaluate an assignment expression, left side of 16 bits and the right side of 32, so it will cut the result so:

``````x = (int32_t => int16_t) tmp2_int32
``````

Your second case will be evaluated as

``````x = (int32_t => int16_t) ( (int16_t => int32_t) pt + (uint16_t => int32_t) length )
``````

In case an operator has both operands with rank smaller than the rank of int, the CAM allows to add both types if the operation does not overflow and then to convert the result to integer.

In other words, it is possible to covert INT16+INT16 either in

`````` INT16+INT16
``````

or in

`````` (int32_t => int16_t) ((int16_t => int32_t) INT16 + (int16_t => int32_t) INT16)
``````

provided the addition can be done without overflow.

• "Ranking", that is conversion rank, is formally specified in 6.3.1.1. Jun 9, 2017 at 12:38
• What is "CAM" supposed to mean? Jun 9, 2017 at 12:40
• c abstract machine Jun 9, 2017 at 12:59
• I was talking about integer promotions concerning my reference, not about ranking. Jun 9, 2017 at 12:59
• to be more precise, CAM means the abstract semantics defined by the standard. Jun 9, 2017 at 13:00