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I am trying to solve a problem using bit operations in C++ but i am really stuck. Please help me with the following query.

1) Is it possible to create variable's A and B which take exactly 100000bits in memory and on which an operation like A&B is valid?

2) Is there a fast way to generate B(100000bits) such that its first n bits are 0, last m bits are 0 and the remaining are 1's? (eg. if B was 10bits then a number like 0000011000)

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Do you really mean 100000 bits (i.e. 12,500 bytes)? The answer to both your questions is that you should create a class and overload operators on that class to do the work you require. Or you could use existing classes to do the same. –  john Nov 3 '12 at 8:28
@john how to overload the operator &? –  Yash Singla Nov 3 '12 at 8:34
Say your class is called Bit100000, then you simply write the function Bit100000 operator&(const Bit100000& x, const Bit100000& y) { ... }. –  john Nov 3 '12 at 8:45

1 Answer 1

up vote 3 down vote accepted

In answer to 1, sure, this is the sort of things classes were meant for. Simply create a class containing 100,000 bits (about 12.5K) and override the operator& method (the binary one, not the address-of operator).

A good start would be (say we have two integers holding the bitmask):

BigBits BigBits::operator &(const BigBits &that) const {
    BigBits bb(*this);
    bb.array[0] = this->array[0] & that.array[0];
    bb.array[1] = this->array[1] & that.array[1];
    return bb;

This is untested but should give you the basic idea. In order to test it, I'd have to code up quite a bit, including constructors, destructors, assignments and so forth, when that really should be your task :-)

In answer to two, that's also easy. The only trick bits are the two edge bytes, all the internal bytes can just be set to all 1 bits.

In order to set the edge bytes, you use a bit of division and modulo with the number of bits in a byte and then use bitmasks to set them. The bitmasks would be 0x80, 0xc0, 0xe0, 0xf0, 0xf8 and so on, with each subsequent value adding another 1 bit.

Then you would use bitmask[bitpos % 8] in its various forms to set the edge bytes, the array indexes of which would be bitpos / 8.

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Can you give a little example for this please. –  Yash Singla Nov 3 '12 at 8:33
@YashSingla, I've given a sample piece of code to get you going but I don't really feel the need to provide a complete working solution. Well, not without being paid for it of course :-) –  paxdiablo Nov 3 '12 at 8:46
Not only untested but wrong. You're allocating memory for some reason, and then you should say return *bb;, although that would be a memory leak. –  john Nov 3 '12 at 8:47
@john, you could always have fixed the code yourself rather than pointing out the errors, this is supposed to be a community after all :-) I think the new version is correct but I'm open to suggestions if you're so inclined. –  paxdiablo Nov 3 '12 at 8:50
OK, I'll do that. –  john Nov 3 '12 at 8:51

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