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I want to bit shift a variable and store the bit that's shifted out in a boolean.

Something like:

unsigned int i = 1;
bool b = rshift(&i); // i now equals 0 and b is set to true

How can this be accomplished?

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are you looking for a rotation function, i.e. what is shifted out on the one side is re-inserted on the other? –  phresnel Feb 27 '12 at 14:42

5 Answers 5

up vote 10 down vote accepted

You have to capture the bit before the shift:

bool rshift(unsigned int* p) {
    bool ret = (*p) & 1;
    *p >>= 1;
    return ret;
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That’s what I’d have said too. I’d love to see how the different compilers generate this code or if an inline asm section could do better. –  qdii Feb 27 '12 at 8:30
Just out of curiosity, isn't it considered bad practice to return a bool when the returned value isn't really a "boolean value" in actual? I know that a bool still takes 8-bits (a byte) and so does char... So shouldn't one use like an 8-bit int (uint8_t) for this purpose? –  mtahmed Feb 27 '12 at 8:31
@mtahmed: Just a question of semantics. If you specify rshift to return whether the value pointed to was odd, it's suddenly a truly boolean result. –  bitmask Feb 27 '12 at 8:33
@mtahmed: Your assumption is wrong; a bool may take more than one byte. 32 is common (register size). But using bool is a strong message to the compiler that you will use only one bit of it, and the compiler may optimize for this. –  MSalters Feb 27 '12 at 9:20
Bit shifting does, in fact, set the carry flag at machine code level. Perhaps asm would do a better job of this. –  Svad Histhana Feb 27 '12 at 10:24

You don't. You have to test it before the shift:

rshift( unsigned& i )
    bool results = (i & 0x01) != 0;
    i >>= 1;
    return results;

(This is simple for a right shift. For a left shift, you have to know the number of bits in the word.)

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For a left shift there are other options which don't require that you know the number of bits: unsigned copy = (i<<1)>>1; bool results = (copy != i); i <<= 1;. Such a left-right shift will portably drop the top bit(s). –  MSalters Feb 27 '12 at 9:24
@MSalters The left right shift is required to drop the top bits (for an unsigned type). Still, I'd want a comment to explain what was going on; I'd probably use something like 1 << (sizeof(unsigned) * CHAR_BIT) - 1) as a mask. Not as transparent as I'd like either, but IMHO not quite as opaque as the double shift. –  James Kanze Feb 27 '12 at 9:37

To do this for any shift, and any type, reverse the operation (to check whether you lost something).

template <typename T> bool rshift(T& val) {
  T const original = val;
  return ((val >>= 1) << 1) != original;
template <typename T> bool lshift(T& val) {
  T const original = val;
  return ((val <<= 1) >> 1) != original;
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That's a good way of doing it, but the way you wrote it the function does not actually modify val. So it's slightly different from the original requirement. –  jogojapan Feb 27 '12 at 9:42
@jogojapan: I don't get your point. Why do you think val isn't changed? It is passed as non-const reference and changed in val <<= 1. –  bitmask Feb 27 '12 at 10:53
You're right. I saw only << where there was really <<=. Sorry. –  jogojapan Feb 27 '12 at 11:15

If you are looking for a rotate function, you could try the following.

At first, have a meta function to get the number of bits of the to-be-rotated value (note: 8*sizeof(T) wouldn't be portable; the standard only dictates at least 8 bits):

#include <climits>
template <typename T>
struct bits { enum { value = CHAR_BIT * sizeof(T) }; };

Next, define a function for rightway rotation. It does so by applying a right-shift as expected, and a left-shift to shift up what would be cancelled out otherwise:

template <unsigned int N, typename T>
T rotate_right (T value)
    enum { left = bits<T>::value - N };
    return (value>>N) | (value<<left);

Have a diagnosis function for testing, and test:

#include <iostream>

template <typename T>
void print_bits (std::ostream &os, T value)
    for (unsigned int i=bits<T>::value; i!=0; --i)
        os << ((value>>(i-1))&1);

    int main () {
    char c = 1,
         c_ = rotate_right<1>(c);

    unsigned long long ull = 0xF0F0C0C050503030, 
                       ull_ = rotate_right<63>(ull);

    std::cout << "c ="; print_bits(std::cout, c);  std::cout << '\n';
    std::cout << "c'="; print_bits(std::cout, c_); std::cout << '\n';
    std::cout << "ull ="; print_bits(std::cout, ull);  std::cout << '\n';
    std::cout << "ull'="; print_bits(std::cout, ull_); std::cout << '\n';


c =00000001
ull =1111000011110000110000001100000001010000010100000011000000110000

A left-rotation can be implemented similarly, or in terms of the right-rotation.

As for performance, g++ detects the idiom and uses a rotation instruction on x86 and amd64.

g++ -std=c++0x -S main.cc
cat main.s

sarl %eax
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+1 It's a great answer, if though it doesn't answer the question. –  bitmask Feb 27 '12 at 16:39

Here is an alternative to the suggestions made so far:

bool rshift(int32_t &i) {
  long long i2 = (static_cast<int64_t>(i) << 31);
  i = (i2 >> 32);
  return static_cast<int32_t>(i2);

This assumes the int is what int usually means these days, i.e. int32_t. It copies it into a int64_t, then performs the shift, copies the higher 32 bits into i and then returns the lower 32 bits (which contain the shifted 1) as a bool.

I don't know if that is faster than the other approaches. The added benefit of this general approach is that it can be used to retrieve more than a single bit, e.g. if you shift by 2 or more bits.

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I do no see any benefit in this code. 0) it is not general, it assumes 32 bit integers. What if any platform will set the size of integers to 33 bits, 40 bits, or 64 bits? Then you'll have a silent and hard to track down bug. 1) Why do you use i2 >> 32 instead of just i>>=31? 2) static_cast<bool>(static_cast<int>(i2))?? –  phresnel Feb 27 '12 at 15:21
What I mean by "this general approach" is: Any approach that, rather than shifting the bits away and losing them, expands the int to 64 bits before shifting, so the bits that were shifted out of focus can be retrieved. Implementing this in a way that works for non-32-bit integers would be possible, although I doubt that 33-bit integers etc. are relevant for anything. Re 1): i is 32 bits, i2 64 bits in length. I have edited the text to make this unambiguous. Re 2): The cast to 32 bit is to extract the lower 32 bits of the total 64 bits. –  jogojapan Feb 27 '12 at 16:49

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