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I cannot figure out what is wrong. I spent a few hours trying to debug this. I am compiling with gcc -m32 source.c -o source

How else can I approach this when debugging? Right now, I am isolating the code in many different ways and everything is working the way I expect but its working the wrong way when I have it all together.

This program takes an input and then looks for the highest position with the 1 bit.

I removed my code for now.

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Try stepping through the code under gdb to see what's going on in the registers etc. – Paul R Mar 20 '11 at 8:51
can you tell us what is wrong: what number did you input ? what does the program output ? what did you expect for an output ? – Adrien Plisson Mar 20 '11 at 8:53
this code doesn't compile with gcc -m32: undefined reference to _num and _position. Please clean up before posting. – Mat Mar 20 '11 at 8:54
When you fix this problem, be sure to test that you can detect an input of 1. I think there might be another bug there... – Michael Burr Mar 20 '11 at 9:09
Although probably not the point of this homework-style question, but this can be done without a loop by using the BSR instruction. – ohmantics Mar 20 '11 at 9:28
up vote 3 down vote accepted

in bitsearch, you are storing num in eax, you store a special value in edx in order to perform check. check is testing if the highest bit is set (indicating a negative number), and exits if its the case...

the andl instruction in check stores the result of the operation inside the second operand (eax), so the result overwrites num.

then in zero you are using edx to perform your computation... edx contains the special value of the start of the function, so your result will always be wrong.

now at the end of zero, you are going back to check, but the check is unnecessary here, you should loop back to zeroinstead...

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Simply change the andl instruction to testl to avoid trashing eax. – Michael Burr Mar 20 '11 at 9:05
ho that's more complicated... i was asking myself: why checkand why 2147483648 ? check is simply removing the sign, so ignore my comment about andl overwriting num. all is left is that edx should be eax at the beginning of zero... – Adrien Plisson Mar 20 '11 at 9:08
I did not know and1 trashes eax. I thought it was just a harmless comparison. I am going to test that right now. – Strawberry Mar 20 '11 at 9:10
i completed my answer regarding the loop. don't forget to use eax instead of edx in the first ine of zero... – Adrien Plisson Mar 20 '11 at 9:13
I just wanted to tell you THANK YOU! I learned that addl overwrites the register. THANK YOU!!!! – Strawberry Mar 20 '11 at 9:22

Does the bit-search need to be implemented in assembly? A simple for loop can accomplish the same task, and is much more readable:

int num = 10;
int maxFound = -1;
for (int numShifts = 0; numShifts < 32 && num != 0; numShifts++) {
    if ((num & 1) == 1) {
        maxFound = numShifts;
    num = num >> 1;
//the last position that had a 1 will be in maxFound
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also, position = (int)(log(num)/log(2)) is way shorter, but that's simply not what the OP asked for. what if the OP really wants assembly ? (imagine the C code around is just boilerplate to provide a test case) – Adrien Plisson Mar 20 '11 at 9:19
Yeah, it has to be in assembly, but thumbs up for helping! – Strawberry Mar 20 '11 at 9:57
@Adrien That's interesting how you use logs. I have never used logs in programming and its very foreign to me, but I am still an undergrad. – Strawberry Mar 20 '11 at 9:58
in short, the logarithm (log()) function is the inverse of the exponent (pow()). so (approximately), if pow(x, y) == n, then log(n, x) == y. unfortunately, the C runtime library does not provide a 2 arguments log, it provides only a "natural logarithm". but mathematics says that log(x, y) == log(x)/log(y), hence the formula above... now why use 2 for the value of y: a binary number is composed of "bits", which are powers of two... – Adrien Plisson Mar 20 '11 at 10:31

There's a neat bit-fiddling trick: x & -x isolates the last 1-bit. The following C program uses a lookup table based on de Bruijn sequences to compute the number of trailing (!) zeros of a number in constant (!) time:

unsigned int x;  // find the number of trailing zeros in 32-bit x
int r;           // result goes here
int table[32] = 
  0, 1, 28, 2, 29, 14, 24, 3, 30, 22, 20, 15, 25, 17, 4, 8, 
  31, 27, 13, 23, 21, 19, 16, 7, 26, 12, 18, 6, 11, 5, 10, 9
r = table[((uint32_t)((x & -x) * 0x077CB531U)) >> 27];

Doing this in assembly language (which I stopped learning by the age of 16) should be no problem. Now all you have to do is to reverse the bits in num and apply the technique described above.

I wrote a paper about the trick described above, but unfortunately it's not available on the web. If you're interested, I can send it to you (or anyone else who's interested) by email.

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My assembly knowledge is a little rusty, but it seems to me like bitsearch is overly complicated. How about just rotating the number to the right and counting the times you need to do that until it's zero?

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I'm assuming there's a good reason to do it in assembly instead of C :) – Ilkka Mar 20 '11 at 8:54
I am sure there is a better way, but I still want to overcome this problem. – Strawberry Mar 20 '11 at 8:55
the algorithm you describe is exactly the algorithm that the OP used in his code... (although it may be optimized a bit) – Adrien Plisson Mar 20 '11 at 9:15
oh poo. rustier than I thought, then. – Ilkka Mar 20 '11 at 9:36

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