# precedence of chained assignments and implicit conversions

I've got a simple and stupid code snippet to analyse. In essence it performs something like:

``````a = b = c;
``````

But the types are very tricky.
In one place I have:

``````int a,c;
unsigned int b;
``````

In the other place I have:

``````int a;
unsigned int b,c;
``````

If the compiler interprets a = b, then I convert an unsigned int to an int
OK, on 2-complement, no matter, such conversion is a no-op
But such conversion can overflow, which would be UB, is it right?
And in this case, the compiler has a license to presume I don't rely on UB, and can thus eventually consider that a>=0 unconditionnally and eliminate a further test `if(a<0) blah...` is it still right?

In such case both pieces of code will result in same behavior though.

If compiler interprets `a = c` and I think that's what is does, and if my above UB analysis is correct, then the two piece of codes could give different results.

So how are these expression interpreted `a=b` or `a=c`, or in other words in which case can such a `(a<0)` branch be eliminated, only one, both or none?

Last note, my exact case is a return value in an inlined function, but I think it would not change above conclusions, right?

``````static inline int a1(unsigned int *b,unsigned int c) {return *b=c;}
static inline int a2(unsigned int *b,int c) {return *b=c;}
``````
• 1. There are no casts in the code. 2. The functions you posted don't do anything else than throwing syntax errors. – user529758 Mar 22 '13 at 22:47
• @H2CO3 Oops, thanks, my mistake – aka.nice Mar 22 '13 at 22:51

``````a = b = c;
``````

is same as

``````a = (b = c);
``````

which is valid in your two examples.

But such cast can overflow, which would be UB, is it right?

There is no cast, but an implicit conversion from one type to another. When converting a value of type `unsigned int` to `int`, if the `unsigned int` value is not representable in an `int`, the result of the conversion is either implementation-defined or a implementation-defined behavior signal is raised. Strictly speaking this is still not an overflow and this is not undefined behavior.

• It's possible that this can raise a signed integer overflow exception. Most CPUs won't do this, though. – David R Tribble Mar 22 '13 at 22:52
• you mean that `int a=1U+(unsigned int)(INT_MAX);` is always well defined and that no compiler will ever eliminate following `if(a<0)`? – aka.nice Mar 22 '13 at 22:54
• @Loadmaster let me rephrase this – ouah Mar 22 '13 at 22:54
• @aka.nice C says either the result is implementation-defined or an implementation-defined signal is raised in this case. See my edit. – ouah Mar 22 '13 at 22:59
• @ouah OK got it, implementation defined!=undefined, and in most case, it's defined as no-op. For the sake of completeness, do you confirm that the type of (b=c) is the type of b? – aka.nice Mar 22 '13 at 23:40