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long wxyz; //(w = bits 0-8, x = bits 9-17 , y = bits 18-23, z =  bits 24-29)

short w;

short x;

short y;

short z;

w= wxyz & 0xFF800000;
x= wxyz & 0x007FC000;
y= wxyz & 0x00003F00;
z= wxyz & 0x000000FC;

Is this code correct?


share|improve this question
A calculator that can display in "binary" is your friend ... that and a pen and paper :P However, remember that's just a mask. You'll want to "shift" the masked bits into the correct space. I prefer to shift and then mask, because the masks are easier. Also, you don't have to worry about sign-extension at all. – user166390 Jan 17 '11 at 21:28
Usually, bit 0 means the least significant bit. Your formulas use bit 0 as a most significant bit. If that is what intended, then your formulas seem ok. Otherwise, your bit masks are not correct. Yeah, you have to shift the extracted bits. – mbaitoff Jan 17 '11 at 21:28
please format your code. – ThomasMcLeod Jan 17 '11 at 21:30

You need to shift the bits down.

w= (wxyz & 0xFF800000) >> 23;
x= (wxyz & 0x007FC000) >> 14;
y= (wxyz & 0x00003F00) >> 8;
z= (wxyz & 0x000000FC) >> 2;
share|improve this answer
Your shift amounts are not correct. Should be 23 for the first, 14 for the second, 8 for third, and 2 for fourth. – mbaitoff Jan 17 '11 at 21:31
@mbaitoff: You're right. I misread the question and just assumed he wanted to split the bits evenly(8 each) – Benjamin Lindley Jan 17 '11 at 21:33
He said w was bits 0-8, you have it as bits 23-31. – ThomasMcLeod Jan 17 '11 at 21:39
@ThomasMcLeod: That depends how you label the bits. I generally label them in the same order I would read them on paper, most significant digit first, and the OP has yet to specify, but based on his masks, we can guess he labels them the same. – Benjamin Lindley Jan 17 '11 at 21:43
@ThomasMcLeod: The LSB is the LSB. Whether you label it 0, 31 or 32 is COMPLETELY arbitrary. Like I said, based on the OP's masks, he clearly labels it as 31. I'm answering based on that. Correct his question, I am anwering his intended question. – Benjamin Lindley Jan 17 '11 at 21:51

You should do the following to get the highest byte from the 4 bytes int w = (wxyz & 0xFF000000) >> 24. First apply bit mask and then shift bits to the lowest byte.

Or you can do it other way around - shift, apply bitmask:

w = (wxyz >> 24) & 0xFF
x = (wxyz >> 16) & 0xFF
y = (wxyz >> 8) & 0xFF
z = wxyz & 0xFF

But isn't it easier to use unions?

share|improve this answer
No. Unions cannot be used for bit manipulation, as the standard does not say anything about how elements of a union are to be packed. Any union-based solution will be compiler and CPU specific. – Daniel Gehriger Jan 17 '11 at 21:31
to get a var of type short do I & with 0xFF or 0xFFFF ? – user553514 Jan 17 '11 at 21:39
The bit slices he has defined are not all 8 bits. – ThomasMcLeod Jan 17 '11 at 21:40
The problem with unions is not whether the standard states how the elements are laid out, but that all of the elements of the union share the same memory space: union U { int x, y; }; The union has two fields, but both share the same memory, the size of the union will be sizeof(int) in this case. You cannot control the memory layout, and it is not a solution. You might have been thinking about bitfields, which pack let you interpret different bits as different variables, but that is in fact unspecified by the standard. – David Rodríguez - dribeas Jan 17 '11 at 21:41
w =  wxyz & 0x000001ff;
x = (wxyz & 0x0003fe00) >> 9;
y = (wxyz & 0x00fc0000) >> 17;
z = (wxyz & 0x3f000000) >> 23;

Edit: need to cast long to short to avoid compiler warning:

w = (short) wxyz & 0x000001ff;
x = (short) ((wxyz & 0x0003fe00) >> 9);
y = (short) ((wxyz & 0x00fc0000) >> 17);
z = (short) ((wxyz & 0x3f000000) >> 23);
share|improve this answer
Umm, OP please ignore this reply. – Michael Smith Jan 17 '11 at 21:40
Actually I think this answer is correct too considering bit 0 to 8 are the least significant bits. – user553514 Jan 17 '11 at 22:24
It was wrong at the time wrote the comment, and has been edited since, a few times. – Michael Smith Jan 18 '11 at 16:01

Hold on -- what do you mean by bits 0-8? This usually means the nine least significant bits, in which case you've grasped the wrong end of the int.

share|improve this answer
I think you are right, bit 0 to 8 are the least significant bits. But I guess thanks to all the responses, I now have at least 2 ways to handle it , however I have to use the correct end of the long. – user553514 Jan 17 '11 at 22:22

This is the way I prefer to handle this, by "inching". It just makes more sense in my head. Also, unlike a mask and then shift, there is no problem of a >> being sign-extending (C/C++ isn't Java or C# in well-definedness there). I am going with the assumption that 0 is the MSB (and there are 32bits total, although a long can be more), as stated in the question.

long wxyz = ...; //(w = bits 0-8, x = bits 9-17 , y = bits 18-23, z =  bits 24-29)

wxyz >>= 2; // discard 30-31 (or, really, "least two insignificant")

z = wzyz & 0x3f; // easy to see this is "6 bits", no?
wzyz >>= 6; // throw them out

y = wzyz & 0x3f;
wzyz >>= 6;

x = wzyz & 0x1ff;
wzyz >>= 9;

w = wzyz & 0x1ff;
wzyz >>= 9; // for fun, but nothing consumes after

P.S. Adjusting for types is left as an exercise to the reader.

share|improve this answer
You're off by an inch:) The last inch should be anded with 0x1ff and shifted by 9 (for fun). This is because 0-8 is 9 in length. – Michael Smith Jan 17 '11 at 21:56
@Michael Smith Absolutely correct (question is updated to reflect) ;-) I should have also added "testing for validity is left as an exercise to the reader". – user166390 Jan 17 '11 at 22:09

Here's a different solution you can use.

long wxyz;
short w, x, y, z;
char* buf = new char[sizeof(long)];
buf = (char*)long; // cast long as byte array
w = (short)buf[0]; // The way you sort depends on endianness
x = (short)buf[1];
y = (short)buf[2];
z = (short)buf[3];
delete[] buf;
share|improve this answer

Partially correct. You'll have to shift them to the right if you want the values of each segment.

short w = (short)((wxyz & 0xFF800000) >> 23);
short x = (short)((wxyz & 0x007FC000) >> 14);
short y = (short)((wxyz & 0x00003F00) >> 8);
short z = (short)((wxyz & 0x000000FC) >> 2);

These are correct values.

share|improve this answer
@Michael Smith: These are correct values. No they're not. For instance, z will always be equal to 0 mod 4, which was surely not in the original spec. – TonyK Jan 17 '11 at 21:42
@TonyK: Edited the z assignment to shift the rvalue by 2 instead. Stand corrected. However I get points for most correct :) – Michael Smith Jan 17 '11 at 21:46
@Michael Smith: No you don't. Bits 0-8 are the least significant bits, not the most significant. Don't be smug. – TonyK Jan 17 '11 at 23:49
@TonyK: C'mon, have a sense of humour. This is an open forum for open minds. Of course 0-8 are the least significant, but just answer the question for how it was asked. – Michael Smith Jan 18 '11 at 16:04
@Michael Smith: Have a sense of your own limitations. "These are correct values". "However I get points for most correct." This doesn't scream 'OPEN MIND' to me! – TonyK Jan 18 '11 at 16:56

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