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This question already has an answer here:

Hi and thanks for taking the time to answer my question.

A friend of mine was asked at an interview the following question: "Given a binary number, find the most significant bit". I immediately thought of the following solution but am not sure if it is correct.

Namely, divide the string into two parts and convert both parts into decimal. If the left-subarray is 0 in decimal then the do binary search in the right subarray, looking for 1.

That is my other question. Is the most significant bit, the left-most 1 in a binary number? Can you show me an example when a 0 is the most significant bit with an example and explanation.


There seems to be a bit of confusion in the answers below so I am updating the question to make it more precise. The interviewer said "you have a website that you receive data from until the most significant bit indicates to stop transmitting data" How would you go about telling the program to stop the data transfer"

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marked as duplicate by George Stocker Jun 11 '13 at 16:29

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Which side the MSB is on depends on whether your CPU architecture is Big-endian or Little-endian. – RBarryYoung Jun 10 '13 at 15:53
Many platforms for a CountLeadingZero opcode that does this very fast. This is useful for division and log base 2 math. – Michael Dorgan Jun 10 '13 at 15:53
Example: the number 0. Also, you need to specify how negative numbers are represented. – rici Jun 10 '13 at 15:54
thank you guys for the feedback and I don't mean to be disrespectful, but what you said really does not answer my question. Could I ask you to be more specific? Thanks – user2398832 Jun 10 '13 at 15:57
Most chipsets have some sort of instruction to do this. – jason Jun 10 '13 at 16:12
up vote 6 down vote accepted

You could also use bit shifting. Pseudo-code:

number = gets
bitpos = 0
while number != 0
  bitpos++             # increment the bit position
  number = number >> 1 # shift the whole thing to the right once
puts bitpos

if the number is zero, bitpos is zero.

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You mean while number != 0? (I don't think pseudocode should follow C's idiosyncrasies.) – svick Jun 10 '13 at 16:09
@svick 0 = false and non-zero as true predates C i believe – im so confused Jun 10 '13 at 16:11
I don't understand this pseudocode.. Care to explain what lines 3, 5 and 6 represent? – user2398832 Jun 10 '13 at 16:11
hahaha guess it's not as universal as I thought then... @user2398832 #3: while number != 0, #5: shift the number to the right by 1 bit, #6: output bitpos – im so confused Jun 10 '13 at 16:12
@user2398832: more clear now? – Denis de Bernardy Jun 10 '13 at 16:20

Finding the most significant bit in a word (i.e. calculating log2 with rounding down) by using only C-like language instructions can be done by using a rather well-known method based on De Bruijn sequences. For example, for a 32-bit value

unsigned ulog2(uint32_t v)
{ /* Evaluates [log2 v] */
  static const unsigned MUL_DE_BRUIJN_BIT[] = 
     0,  9,  1, 10, 13, 21,  2, 29, 11, 14, 16, 18, 22, 25,  3, 30,
     8, 12, 20, 28, 15, 17, 24,  7, 19, 27, 23,  6, 26,  5,  4, 31

  v |= v >> 1;
  v |= v >> 2;
  v |= v >> 4;
  v |= v >> 8;
  v |= v >> 16;

  return MUL_DE_BRUIJN_BIT[(v * 0x07C4ACDDu) >> 27];

However, in practice more simple methods (like unrolled binary search) usually work just as well or better.

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This is one approach (not necessarily the most efficient, though, especially if your platform has a single-instruction solution to find-first-one or count-leading-zeros or something similar), assuming twos complement signed integers and a 32-bit integer width.

int mask = (int)(1U<<31); // signed integer with only bit 32 set
while (! n & mask)        // n is the int we're testing against
  mask >>= 1;             // take advantage of sign fill on right shift of negative number
mask = mask ^ (mask << 1) // isolate first bit that matched with n

If you want the bit position of that first one, simply add a integer counter that starts at 31 and gets decremented on each loop iteration.

One downside to this is if n == 0, it's an infinite loop, so test for zero beforehand.

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The edited question is really quite different, though not very clear. Who are "you"? The website or the programmer of the program that reads data from the website? If you're the website, you make the program stop by sending a value (but what, a byte, probably?) with its most-significant bit set. Just OR or ADD that bit in. If you're the programmer, you test the most-significant bit of the values you receive, and stop reading when it becomes set. For unsigned bytes, you could do the test like

bool stop = received_byte >= 128;
bool stop = received_byte & 128;

For signed bytes, you could use

bool stop = received_byte < 0;
bool stop = received_byte & 128;

If you're not reading bytes but, say, 32bit words, the 128 changes to (1 << 31).

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I don't know it this is too much tricky :)

I would convert the binary number to dec and then I would return the logaritm base 2 of the number directly (converted from float to int).

The solution is the (returned number + 1) bit starting from the right.

To your answer as far as I know its the left-most 1

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Your algorithm is subject to rounding errors. That's no good. If you don't do any rounding at all, it's entirely wrong as the position is always integer. – Jan Dvorak Jun 10 '13 at 16:02
@JanDvorak its correct if you truncate instead of rounding, which a direct cast would do.... – Bob Vale Jun 10 '13 at 16:04
Yes, I was thinking of truncate... lapsus. But still remains an error if the number is 0 – vivoconunxino Jun 10 '13 at 16:06
@BobVale still not. Rounding errors will cause you to sometimes underestimate the result by one – Jan Dvorak Jun 10 '13 at 16:06
well Dvorak, do you have the solution? You seem to be going around downvoting people's answer without offering a solution of your own :) – user2398832 Jun 10 '13 at 16:06

If you are interested in a C/C++ solution you can have a look at the book "Matters Computational" by Jörg Arndt where you have these functions defined in section "1.6.1 Isolating the highest one and fi nding its index":

static inline ulong highest_one_idx(ulong x)
// Return index of highest bit set.
// Return 0 if no bit is set.
#if defined  BITS_USE_ASM
    return  asm_bsr(x);
#else  // BITS_USE_ASM

#if  BITS_PER_LONG == 64
#define MU0 0x5555555555555555UL  // MU0 == ((-1UL)/3UL) == ...01010101_2
#define MU1 0x3333333333333333UL  // MU1 == ((-1UL)/5UL)   == ...00110011_2
#define MU2 0x0f0f0f0f0f0f0f0fUL  // MU2 == ((-1UL)/17UL)  == ...00001111_2
#define MU3 0x00ff00ff00ff00ffUL  // MU3 == ((-1UL)/257UL)  == (8 ones)
#define MU4 0x0000ffff0000ffffUL  // MU4 == ((-1UL)/65537UL) == (16 ones)
#define MU5 0x00000000ffffffffUL  // MU5 == ((-1UL)/4294967297UL) == (32 ones)
#define MU0 0x55555555UL  // MU0 == ((-1UL)/3UL) == ...01010101_2
#define MU1 0x33333333UL  // MU1 == ((-1UL)/5UL)   == ...00110011_2
#define MU2 0x0f0f0f0fUL  // MU2 == ((-1UL)/17UL)  == ...00001111_2
#define MU3 0x00ff00ffUL  // MU3 == ((-1UL)/257UL)  == (8 ones)
#define MU4 0x0000ffffUL  // MU4 == ((-1UL)/65537UL) == (16 ones)

    ulong r = (ulong)ld_neq(x, x & MU0)
        + ((ulong)ld_neq(x, x & MU1) << 1)
        + ((ulong)ld_neq(x, x & MU2) << 2)
        + ((ulong)ld_neq(x, x & MU3) << 3)
        + ((ulong)ld_neq(x, x & MU4) << 4);
#if  BITS_PER_LONG > 32
    r += ((ulong)ld_neq(x, x & MU5) << 5);
    return r;

#undef MU0
#undef MU1
#undef MU2
#undef MU3
#undef MU4
#undef MU5

where asm_bsr is implemented depending on your processor architecture

// i386
static inline ulong asm_bsr(ulong x)
// Bit Scan Reverse: return index of highest one.
    asm ("bsrl %0, %0" : "=r" (x) : "0" (x));
    return x;


// AMD64
static inline ulong asm_bsr(ulong x)
// Bit Scan Reverse
    asm ("bsrq %0, %0" : "=r" (x) : "0" (x));
    return x;

Go here for the code:

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I tihnk this is kind of a trick question. The most significant bit is always going to be a 1 :-). If interviewers like lateral thinking, that answer should be a winner!

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Even if the interpretation was correct (I believe it isn't), the answer is wrong. – Jan Dvorak Jun 10 '13 at 16:00
does that mean that my solution is correct? It has O(lgn) complexity since I'm doing a binary search. – user2398832 Jun 10 '13 at 16:01
@Stochastically no it isn't, it's like saying that the most significant digit in zero can't be a 1 because there is no 1 in zero – harold Jun 10 '13 at 16:13
@harold zero is obviously a special case. For non-zero numbers, the most significant digit of a binary number is going to be a 1. But if the interpretation of the question is the position of the most significant digit, then something like the answer of Denis is what's needed. – Stochastically Jun 10 '13 at 16:21
Of course, no argument there. I don't think either the OP or the interviewer intended for this to be the answer, but I thought it was funny and didn't downvote it. – harold Jun 10 '13 at 16:22

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