Calculate number of bit shifting in 30 bit integers that gives a maximum value

I am preparing for a programming interview. So, I tried to solve some of the outdated interview questions just to get prepared for the coming interview. I was stuck in solving the following question:

A cyclic right shift of 30-bit unsigned integer X is a number obtained from shifting all bits of a binary representation of X right by one position and moving the most significant bit to the least significant bit. Precisely, if a binary representation of X is

X29 X28 ... X2 X1 X0

the binary representation of X's right cyclic shift is

X28 ... X2 X1 X0 X29

00 0000 0000 0000 0000 0100 1100 0001BIN = 1217DEC

its right cyclic shift is

00 0000 0000 0000 0000 1001 1000 0010BIN = 2434DEC.

The cyclic shift operation may be repeated, for example given the same value of X, its right cyclic shift by 3 is:

00 0000 0000 0000 0010 0110 0000 1000BIN = 9736DEC

Write a function

int largest_right_cyclic_shift(int n);

which given a 30-bit unsigned integer X finds its right cyclic shift which has the maximum value. For example, the right cyclic shift by 52 of the value X=1217DEC is 809500676DEC, and this is the largest possible 30-bit right cyclic shift of X:

11 0000 0100 0000 0000 0000 0000 0100BIN = 809500676DEC

Consequently, given X=1217, the function should return 52. If there are many right cyclic shift yielding the maximum value, the function should return ANY of them. You may assume that the argument X is always a 30-bit unsigned integer.

``````#include <algorithm>
int largest_right_cyclic_shift ( int n ) {
long m = n;
long max = n;
int shift = 0;
for (int i = 1; i < 30; i++){
m = n << i;
if (m > max){
max = m;
shift = i;
}
}
return shift;
}
``````

The expected answer for input number 1217 is 22. But the above code gave me a value of 23. I know the mistake is because I am representing the input as 32 bit integers, while in the question it is specified that I have to represent the input as 30 bit integers. Using 32 bit integers in representing 30 bit integers will leave the 2 left most digits on the left to be 0. Therefore when we do a left shift operator it will shift the bit 31, instead of shifting bit 29.

What is the best way to solve this problem? I am sure that the solution is simple, it just need some knowledge about bit shifting.

Thanks

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Your interviewer appears not to know the difference between a left and right shift. –  Ben Voigt Jul 18 '11 at 0:33

What is the best way to solve this problem?

``````m = (n << i) & 0x3fffffff;
``````
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Thanks for the quick response. Could you please explain me what is the logic behind that? How could you determine which hex number to 'AND' the value? –  all_by_grace Mar 20 '11 at 14:02
@Bob: `0x3fffffff` is two zeros followed by 30 ones ;) –  fredoverflow Mar 20 '11 at 14:03
@Bob: Your shift isn't cyclic yet. How about `m = (n << i) & 0x3fffffff | (n >> (30-i))`? –  fredoverflow Mar 20 '11 at 16:29
Nope, it still doesn't give the correct output. Working with bits is not fun huh? –  all_by_grace Mar 20 '11 at 16:46

FredOverflow's comment should be the right answer.

``````def largest(n) :
mx = n
p = 0
for i in range(30) :
m = n<<i & 0x3fffffff | n>>(30-i)
if m > mx :
p = i
mx = m
print(mx)
return p

>>> largest(1217)
809500676
22
>>>
``````
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This is the same as FredOverflow's 2nd attempt, although I did add an extra set of parentheses because I always forget the `&` and `|` precedence.

``````m = ((n << i) & 0x3fffffff) | (n >> (30-i));
``````

Gives me a value of 22 for the 1217 test (VS2010 SP1)

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