-3
y=-1;
y=0xFFFFFFFF;

The question is, is there a difference between these two statements in your code? Explain. If there is a difference, make sure to provide an example.

I was thinking there is no difference, but if the variable y is unsigned, there is a big difference?

4
  • 9
    How is y declared? Oct 14, 2019 at 2:25
  • 2
    What is sizeof(y) on the system in question?
    – paddy
    Oct 14, 2019 at 2:29
  • 1
    Homework question?
    – lurker
    Oct 14, 2019 at 2:37
  • @paddy: It's the type of y, and the range and signedness of that type, that are relevant, not its size (at least not directly). Oct 14, 2019 at 4:21

2 Answers 2

2
y=-1;
y=0xFFFFFFFF;

-1 is an expression of type int, with the value negative one.

0xFFFFFFFF is a constant of type int, unsigned int, long int, or unsigned long int, depending on the implementation. Its value is 4294967295 (232-1). Note that it never has a negative value.

If y is of a signed integer type, the first line assigns the value -1 to y. If y is of an unsigned integer type, the value -1 is converted to y's type, yielding the maximum value of its type.

If 4294967295 is within the range of y's type, then the second line assigns the value 4294967295 to y.

If it isn't, then if y is of an unsigned type, the value 4294967295 is reduced modulo the maximum value of the type plus one. For example, if y is of a 16-bit unsigned type, the value assigned is 65535. If y is of a signed type that's not big enough to hold 4294967295, then the implicit conversion yields an implementation-defined result. Most commonly, the high-order bits are discarded, but that's not required.

For example, if y is of a 32-bit signed integer type, then y=0xFFFFFFFF will most likely assign the value -1 to y.

Finally, converting an out-of-range value to a signed integer type can in principle raise an implementation-defined signal (starting with C99), but I don't know of any implementations that do this.

I've glossed over the possibility of padding bits. I've also ignored the possibility that y is of a floating-point or complex type.

This answer could have been a lot shorter if you had told us how y is declared, and what the range of y's type is on the implementation you're using.

0

four differences:

  1. If your integer type is larger than 32 bits, the values are different.
  2. One constant is signed and the other is unsigned. Generally, this won't make a difference if you assign to a 32 bit integer, but some code checkers may complain.
  3. If your dialect of C is sufficiently old, the first line is equivalent to: y = y - 1; (That is a leftover from C version 6. Very very old.) Even so, write it as: y = -1;
  4. Things get really weird if your integer system isn't twos complement.
4
  • 0xFFFFFFFF isn't an unsigned constant necessarily.
    – lurker
    Oct 14, 2019 at 2:39
  • 1
    @lurker True, but things are weirder than that. 1 is an unsigned constant. -1 is an expression, usually evaluated at compile time. Both have a signed type. The only language I've seen with true negative constants is APL, where there is a character for negative constants, and another for unary (and binary) minus.
    – David G.
    Oct 14, 2019 at 2:47
  • 2
    Observation 3 (about =- being the syntax for modern -=) is so antiquated that even the 1st Edition of K&R didn’t mention it. That design defect was fixed before 1978. You have to try really hard (very extremely hard) to find a C compiler with that misfeature in it. I’m not convinced that’s helpful to anyone learning C. Oct 14, 2019 at 3:54
  • 1
    @DavidG. Talking about weird: Ruby. -1 is a negative integer constant. Not weird enough, maybe even not weird at all? Well, - 1 is your typical expression (operator and operand). Still not weird enough? The unary - operator can be overloaded. You're telling me you can do this in other languages like C++? Well, try making -1 == - 1 return false.
    – cremno
    Oct 14, 2019 at 4:08

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