# What kind of type conversions are explicitly redundant according to the standard?

I'm confused about the rules concerning this matter [a good URL might save time in answering]. I notice that a lot of the time conversion implicitly works but other times it's required.

e.g. I had expected it to work:

``````long long a;
int b;
[..]
a = b * 1000;
``````

but it turns out, 'a' overflows and it's required to

``````a = (long long) b * 1000;
``````

That was peculiar since 'a' being the 'big one' I had expected it would bother.

Anyway, apart from that example, do you know a comprehensive source of information on the matter? No 'most of the time is ok', that gets me paranoid.

EDIT: Is it only a matter of 'the second part does the calculation first and there it overflows, follow that rule closely'?

EDIT2: If there is a calculation such as

``````long long a;
int b;
short c;
[..]
c = b + a * 3;
``````

, would doing

``````c = b + (int) a * 3;
``````

ensure proper conversion?

or would it need

``````c = (short) b + (int) a * 3;
``````

or, would it be enough to

``````c = (short) b + a * 3;
``````
-

Type conversions works step by step. Your expression can be viewed as

``````a = (b * 1000);
``````

in the `b * 1000`, the compiler (let's pretend it's stupid) doesn't know you are going to store it into a `long long`. Since both `b` and 1000 are `int`s, the result will be an `int` also. How big `a` is doesn't matter here.

You could avoid the cast by making 1000 a `long long`.

``````a = b * 1000LL;
``````

• `a` is a `long long`, `b` is an `int`, `3` is an `int`.
• Therefore, `a * 3` is a `long long`
• Therefore, `b + a*3` is a `long long`
• But a cast is not needed in `c = b+a*3`, as a arithmetic operands are implicitly convertible to each other.