You may have doubts about this code, but your compiler won't - it will reject it outright.
Literal integer constants beginning with a zero digit are interpreted as octal (base 8), and as such may only have digits 0 to 7. 0079 for example is therefore invalid.
These addresses are therefore intended to be either decimal (e.g. 79) or hexadecimal (base 16 - eg. 0x79). Addresses are normally expressed in hexadecimal, so lets assume that 0x0079 was intended.
I assume the suggestion 0800000079 is a typo and was intended to be 0x00000079? That being the case 0x79 is the same value as 0x00000079 - the typecast to
int* is valid though not strictly necessary since an implicit cast will occur otherwise.
An odd-numbered addresses seem unlikely for an
int data type which would normally be word aligned - some architectures require it, others will generate additional code to access unaligned addresses. If the odd-numbered address is correct, it suggests perhaps an 8 bit target, while 0x00000079 suggests a 32-bit address bus - which seems an unlikely combination.
Essentially the question seems implausible and ill-defined; but taking it at face value your solution is unnecessarily complex; I would suggest:
#define OP1 (*((int*)0x0079))
#define OP2 (*((int*)0x0179))
#define RESULT (*((int*)0x0279))
if( OP1 == OP2 )
RESULT = OP1 + OP2 ;
RESULT = OP1 - OP2 ;
The use of the macros here simplify the syntax somewhat. Your suggestion has an unnecessary test for OP1 > OP2 and a final else clause that does the same thing. There are only two mutually exclusive conditions - equal-to or not-equal-to, so you only need to explicitly test for one condition, because everything else must meet the other. In C++ ( your tags suggest some language indecision) you might avoid the macro (almost always a good idea) by using a reference type:
int& op1 = *((int*)0x0079) ;
int& op2 = *((int*)0x0179) ;
int& result = *((int*)0x0279) ;
if( op1 == op2 )
result = op1 + op2 ;
result = op1 - op2 ;