int val = 5;
printf("%d",++val++); //gives compilation error : '++' needs l-value
int *p = &val;
printf("%d",++*p++); //no error
Could someone explain these 2 cases? Thanks.
int val = 5;
printf("%d",++val++); //gives compilation error : '++' needs l-value
int *p = &val;
printf("%d",++*p++); //no error
Could someone explain these 2 cases? Thanks.
++val++
is the same as ++(val++)
. Since the result of val++
is not an lvalue, this is illegal. And as Stephen Canon pointed out, if the result of val++
were an lvalue, ++(val++)
would be undefined behavior as there is no sequence point between the ++
s.
++*p++
is the same as ++(*(p++))
. Since the result of *(p++)
is an lvalue, this is legal.
val++
were an lvalue, the behavior would still be undefined. (++val)++
in C++, for example, would invoke undefined behavior.
Sep 7, 2010 at 15:30
rvalue
(in C as well as in C++). In C++, (++val)++
invokes Undefined Behavior because pre-increment(++
) operator returns an lvalue(in C++) and the value of val
is being modified more than once between two sequence points.
Sep 7, 2010 at 15:34
The expression ++val++
is the same as (++val)++
(or perhaps ++(val++)
, anyway it's not very relevant). The result of the ++
operator is not the variable, but the value, and you can't apply the operator to a value.
The expression ++*p++
is the same as ++(*(p++))
. The result of p++
is the value, but the result of *(p++)
is a memory location, which the ++
operator can be applied to.
++val++
is the same as ++(val++)
, which is not the same as (++val)++
. (Though in C, both are syntactically invalid)
Sep 7, 2010 at 15:39
also note that you're changing the address of the pointer by
int k = ++*p++;
int j = ++val++; //gives compilation error
That because you cannot pre-increment an rvalue
. ++val++
is interpreted as ++(val++)
because post-increment operator has higher precedence than pre-increment operator. val++
returns an rvalue
and pre-increment operator requires its operand to be an lvalue
. :)
int k = ++*p++; //no error
++*p++
is interpreted as ++(*(p++))
, which is perfectly valid.