I can THINK of why this wouldn't work, but I don't understand why many of the workarounds I've tried don't work. Below is an example of the code I'm trying to make work. The intent should be obvious, but compiling with GCC 7.4.0 for Windows 32 bit, Visual C 32 bit and Visual C 64 bit as well as the same compilers in C++ modes, all of them result in the same answer, so I'm sure it's not just a compiler bug.
The code is:
unsigned short usAlgo = 0x0001; unsigned short usNotAlgo = ~usAlgo; if ( usAlgo == ~usNotAlgo ) printf("Pass\n"); else printf("Fail\n");
On all the compilers I've tried, this code prints "Fail". By a slight rearrangement to:
unsigned short usCheck = ~usNotAlgo; if ( usAlgo == usCheck )
It prints "Pass". I would have thought the usCheck would get optimized out anyway, so why is this different?
I have tried all kinds of workarounds that don't work, with bit masking, parentheses, making them signed values, and such like:
if ( usAlgo == (~usNotAlgo) & 0xffff )
if ( (unsigned int)(usAlgo) == ~(unsigned int)(usNotAlgo) )
I think I've discovered that the first of those two fails because '==' has a higher order of precedence than '&', but I can't for the life of me understand why the simple:
if ( usAlgo == ~usNotAlgo )
Looking at the compiler output doesn't REALLY help, other than I can see the "real" comparison ends up being:
if( 0x00000001 == 0xFFFF0001 )
implying, the unsigned short (0xFFFE) was first promoted to an unsigned int (0x0000FFFE) and THEN negated. (That's why we thought making them signed might sign extend to 0xFFFFFFFE.
I obviously have the answer to how to fix this, but I need to understand WHY.