int k=3; printf("%d %d %d",k++,k,++k);
Gives output as
4 4 4because they are pushed into the stack as:
%d%d%d 4 -- for k++ 4 --for k 4 --for ++k
int k = 3; cout << k++ << k << ++k;
Is actually repeated function calls, so it's equivalent to:
( ( (cout << k++) << k) << ++k);
So, I suppose first of all
++kmust always be executed in this order, right? I believe a function call is a sequence point, but the outputs vary on different implementations. Why is this so?
This is undefined because there is no sequence point between the , in the printf statement. Without a sequence point the compiler is free to order writes to the memory location
Now you may be wondering 'what the hell is a seqeunce point' and why is it relevant? Basically a sequence point is a point in the code where the memory location in question, in this case
As you can see from the FAQ, the
In the case of
Whether h() or g() is evaluated first is undefined: http://www2.research.att.com/~bs/bs_faq2.html#evaluation-order. So this is the reason why even in the case of cout you are getting different results from different compilers, basically because the
Actually, both printf and cout << are function calls, and C++ as well as C do not define an evaluation order for arguments. So the result for these test cases would vary from compiler to compiler, since its implementation defined.
The order of evaluation of arguments is unspecified by the standards. That means, it can happen in any order the implementation wants to.
You've got answers that cover the call to
You're correct to say that it is equivalent to
now, to evaluate that expression and obtain its result, the compiler must evaluate the rightmost