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int swap(int *a,int *b);
int main()
    int a=10,b=20;
    return 0;

int swap(int *a,int *b)
    int temp;

Why does this function give the error "invalid lvalue in unary '&'"? Normal swap(&a,&b) works fine but swap(&a++,&b++) as well as swap(&(a++),&(b++)) give errors. What's the reason behind this?

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It is a language limitation. Likewise, you can't write &(a+1) –  Basile Starynkevitch Oct 1 '12 at 18:26

1 Answer 1

up vote 8 down vote accepted

The post-increment operator returns a temporary version of the previous value contained in the variable on which the post-increment operation was performed. This temporary value is not a l-value, or "named" memory location, therefore you can't take the address of that temporary using the unary address-of operator.

For instance, on certain architectures like x86, etc., a temporary value generated from the post-increment operator on a simple POD-type like a int, long etc. will be temporarily held in a CPU register, not an actual memory location. In these instances you simply can't take the "address" of a CPU register.

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+1 But your second paragraph isn't really relevant. Even a named lvalue doesn't need to be a memory location and can be a mere register value (especially in light of optimizations). But once you take its address it'll be put into memory (or maybe even not then, depending on the context). –  Christian Rau Oct 1 '12 at 18:35
U the man Jason, Nice answer..:). Vote of thanks.. :) –  Whoami Oct 1 '12 at 18:36
I was simply trying to give a simple scenario for why this would be the case ... Optimizations obviously can flex the rules a bit, but as you point out in the end, a named memory location will have to somehow be associated with a given memory location and not a CPU register when using the address-of operator on it. –  Jason Oct 1 '12 at 18:36

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