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If you have some variable (on the stack) and you left or right bit shift beyond its end what happens?


byte x = 1;
x >> N;

What if x is a pointer to memory cast to a byte and you do the same thing?

byte* x = obtain pointer from somewhere;
*x = 1;
*x >> N;
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Counterquestion: If you expect the bits from that memory location to be shifted in the next one, what would happen next? Would that mean that the bits from the next memory location will be shifter further? With this logic all the memory will became shifted. Don't you think that it have to stop somewhere instead? – ruslik Dec 2 '10 at 0:09
the real question then is, what would happen at the very first and last bits at the edge of the memory space. ;) – jalf Dec 2 '10 at 5:10
@jalf: It's not a problem if there are at least two parallel universes. – ruslik Dec 2 '10 at 10:27

It does not (necessarily) become zero. The behavior is undefined (C99 §6.5.7, "Bitwise shift operators"):

If the value of the right operand is negative or is greater than or equal to the width of the promoted left operand, the behavior is undefined.

(C++0x §5.8, "Shift operators"):

The behavior is undefined if the right operand is negative, or greater than or equal to the length in bits of the promoted left operand.

The storage of the value being shifted has no effect on any of this.

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Uh... neither "the right operand is negative" nor "the right operand is greater than or equal to the width of the promoted left operand" is necessarily the case here. The OP hasn't specified the value of N. I read the question as "I figure the value doesn't matter here, since x is 1". – Karl Knechtel Dec 2 '10 at 0:00
important note: width in this case means CHAR_BIT * sizeof(var), and not log2(var)! – ruslik Dec 2 '10 at 0:00
And over the years I have seen exactly two behaviors for N greater than or equal to the word size. Behavior 1, by far the most common, is that all the bits "shift out" and the result is zero. The other behavior is that N is silently reduced modulo the wordsize. As an example, x >> 32 on this architecture was simply a no-op for 32-bit type x. – James K Polk Dec 2 '10 at 0:20
@GregS: Other behaviors are possible (and do occur in the real world). For example, with most compilers on ARM, a variable shift amount is reduced modulo 256 then saturated to the range 0-32 (this is what the hardware does; a few compilers emit extra instructions to get different behavior, but most do not). I've seen several other behaviors as well. – Stephen Canon Dec 2 '10 at 1:48

I think you're confused about what bitshifts do. They are arithmetic operators equivalent to multiplication or division by a power of 2 (modulo some weirdness about how C treats negative numbers). They do not move any bits in memory. The only way the contents of any variable/memory get changed are if you assign the result of the expression back somewhere.

As for what happens when the righthand operand of a bitshift operator is greater than or equal to the width of the type of the lefthand expression, the behavior is undefined.

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I think you're confused. x >> y does not actually change x in the first place. It calculates a new value.

As Stephen noted, y must not be negative, and it must be less than "the width of the promoted left operand" (read up on type promotion). But otherwise, bits that shift "off the end" are simply discarded. 1 >> 2 (notice that 2 is not negative, and it is less than the number of bits used to represent 1, which is probably 32 but certainly at least 16) evaluates to 0.

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You get zero. No wrapping into other memory locations. You may as well have cleared it.

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The behavior is undefined. You will not necessarily get zero. – Stephen Canon Dec 1 '10 at 23:51
@Stephen it will became 0. UB will be only when M is larger than the total number of bits in the variable. – ruslik Dec 2 '10 at 0:01
@Stephen, It's only undefined if N is greater than the size of the type on the left. – nmichaels Dec 2 '10 at 0:03
My reading of the question is that the questioner is asking about exactly that case, but there is admittedly some ambiguity. – Stephen Canon Dec 2 '10 at 0:05
@Stephen: the questioner never bothered to define N anywhere in the question. I think it's reasonable to assume it's a value that yields defined results. – nmichaels Dec 2 '10 at 0:06

It just becomes all zero. So whatever it's length was but in zeroes.

ie say the binary is 001, after 3 bit shifts it would just be 000. No wrap around occurs and it doesn't move the location (unless you are bit shifting the pointer itself and then I have no idea).

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Try shift -1 right. It may become zero on some machines, bot need not to do this. This is because many implementations fill shifted in bits with sign bit. – Vovanium Dec 2 '10 at 0:02
I was assuming in the trivial case the questioner asked, that x is 1. I should have also noted that the number of shifts you are performing (N in the Q) cannot be greater than the length of the item you are shifting otherwise the behavior is undefined. – cjh Dec 2 '10 at 0:18

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