signed 1 (as byte) in bits: 00000001

unsigned 1 in bits: 00000001

signed -1 in bits: 10000001 (or 1 1111111, just details)

unsigned -1 in bits: no valid representation (10000001 is 129)

if you want safely compare signed and unsigned variables, than you have two ways:

1) take in account signs and manually compare them (~~e. g. ~~`isSignedLess = (signed < 0) || ((unsigned <= max_signed) && (signed < unsigned))`

)

2) cast both to bigger singed (i. e. signed long long) and than compare them (signed long long can store all diapason of signed/unsigned int's)

As you can see in comments, both ways are kinda tricky. Just don't mix signed and unsigned wherever you can. It's possible in 99% cases. In last 1% cases you really need to know what you doing (e. g. often had to use signed indexes with vectors, but size() - unsigned, so I ask myself hundred time "can this vector reach MAX_INT or not? have I to do more complex code or it's ok for this task?").

ISO/IEC 9899:2011 (C)§6.5.8 Relational operators -1202 If both of the operands have arithmetic type, the usual arithmetic conversions are performed. Both operands will be casted to be`unsigned int`

, and in Two's Complement,`unsigned int y = -1; // = 4294967296 = 2^32 since integers are 32-bit.`

Thus you're comparing`4294967296 < 1`

which is false. – Miket25 Jun 7 '17 at 16:01