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So, I have an array of unsigned chars, currently I'm trying to write a Set method (changes the bit in given index to 1). The best way I could think to do this was instead of creating a mask for the whole array, I would just create a mask the size of a byte and only mask the index spot in the array with the given bit that the user wants to change. However, every way I try to do it, either nothing happens to the resulting array after OR'ing it with a mask of all 0's with a 1 in the bit index, or I get a seg fault. The best I've been able to do is change the correct bit in the first array index. How my code is currently set up right now I understand why it's only changing the correct bit in the first byte of the array, but every attempt to change this has failed, I don't think this should be hard I just feel like I'm missing something, but pages of reading and google searches have lead me no where. Here's a snipit of my code as of now...

void BitArray::Set (unsigned int index)
 70 {
 71     int spot;       // index in barray where 
 72                     // bit to be set is located
 73     char mask;       
 74     if (index < 8)
 75     {   
 76         spot = 0;
 77         mask = 1 >> index - 1;
 78     }   
 79     else
 80     {
 81         int spot = index / 8;
 82         mask = 1 << (index - (8*spot) - 1);
 83     }   
 85     *barray = *barray | mask;
 86 }   

Instead of the *barray = *barray | mask, I would intuitively want something like barray[spot] = barray[spot] | mask; to work. Any help is greatly appreciated.

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Any reason you're not using vector<bool> or bitset? –  Bill Dec 3 '11 at 20:34
For starters, if you're using bitwise operators you should almost certainly be using unsigned types. –  Keith Thompson Dec 3 '11 at 20:40
@KeithThompson, bitwise operations ignore sign –  Abyx Dec 3 '11 at 20:51
@Abyx: Not necessarily. For example, a shift of a negative value is either implementation-defined or undefined. –  Keith Thompson Dec 3 '11 at 21:57
@Abyx: N1256 6.5p4 says, "Some operators (the unary operator ~, and the binary operators <<, >>, &, ^, and |, collectively described as bitwise operators) are required to have operands that have integer type. These operators yield values that depend on the internal representations of integers, and have implementation-defined and undefined aspects for signed types." Some operations on signed types are well defined, but I find it much easier just to use unsigned type than to remember which cases are safe. –  Keith Thompson Dec 3 '11 at 22:35

2 Answers 2

up vote 0 down vote accepted

I'm not sure why you're going against your intuitive notion of array[spot] = barray[spot] | mask; And you seem to be making the spot and mask calculations more complicated than necessary.

Why did you make index < 8 a special case?

if(index < 8) 
    spot = 0;
    spot = index / 8;

In both cases index / 8 gives you the right byte index, correct?

Second, how do either of the following lines give you the right bit position? Why are you shifting right at all? What does spot, the index of the byte you have to access, have to do with the bit position within the byte?

mask = 1 >> index - 1;

mask = 1 << (index - (8*spot) - 1);

Here's my untested solution:

void BitArray::Set(unsigned int index)
    int spot = index / 8;
    char bit = 1 << (index % 8);
    barray[spot] = barray[spot] | bit;
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Maybe the problem is with barray?
Anyway, this code should work:

void BitArray::Set (unsigned int index)
    //assert(index / 8 < arraySize);

    static const unsigned char masks[8] = {1, 2, 4, 8, 16, 32, 64, 128};

    barray[index / 8] |= masks[index % 8];

Note, that any modern compiler will produce code equal to

barray[index >> 3] |= masks[index & 7];
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