# Lightweight matrix of boolean values

I need to implement a very large matrix, say NxN in Standard C. The matrix must store a truth table, that is

``````matrix[i][j] = [true|false]
``````

I know I could simply use a `int` matrix, or `boolean` type if using C99, but was looking for the most lightweight solution in terms of memory.

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What's wrong with using one bit per cell and storing bits in, say, `unsigned long`s? –  n.m. Feb 14 '12 at 18:07
@n.m., that is actually the solution I've implemented so far, but I wanted to know if there is a more efficient solution (and very interesting answers are coming along :) ) –  Juan Sebastian Totero Feb 14 '12 at 18:11
Is the truth table equally filled with 1 and 0? Is it random? Is it sparse or dense? How much are typical N and M? –  osgx Feb 14 '12 at 18:16
If you know a bit more about statistical properties of the data, you perhaps can select a good compression scheme for it. Otherwise it's the most efficient method. –  n.m. Feb 14 '12 at 18:26
I must implement a percolation cluster, and every element of the matrix must be filled with 0 or 1 with a varying probaility. I'm particulary interested in the case the matrix is dense. N and M should be ~10000 –  Juan Sebastian Totero Feb 14 '12 at 18:36

The most lightweight solution in terms of memory is saving eight boolean in a char:

``````unsigned char getBit(char byte, unsigned short bit){
assert(bit < 8);
return byte&(1<<bit);
}
``````

Then you can store a `N x 8M` matrix by saving the bytes in each row. If many of those bytes are empty then you should use a sparse matrix format, for example compressed spares row.

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could this help avoiding cache trashing too? –  Juan Sebastian Totero Feb 14 '12 at 20:26
Well, if you're going to iterate over rows - maybe. The solution above uses exactly one bit for a boolean. However, when calculating or manipulating your matrix you should avoid using a function like getBit and manipulate the bytes directly using `|,^,&,~` and constant bitset marks as `0x01`, `0x02`, `0x04` to ensure optimization. –  Zeta Feb 14 '12 at 20:40
Thanks, actually I found some useful macros to deal with bitwise operations directly on the code without using any function... hope it will work... :) –  Juan Sebastian Totero Feb 15 '12 at 20:32

You might want to use a hash implementation or a list of lists if the matrix is particularly sparse.

Also if the i or j is less than the largest integer your system can store you can pack a boolean bitset into a single integer with each bit corresponding to one index. You can then access or modify this using bitwise operations.

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Isn't it what std::bitset is for ?

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I'm not using C++ right now, anyway thanks for the reference :) –  Juan Sebastian Totero Feb 14 '12 at 18:40
oops misread the tag sorry –  Joel Falcou Feb 14 '12 at 18:44