# the best way define a mask

I write a function which should extract from `unsigned int` deferrent sets of bits. I want to use a masks for that.I am not sure what is the best way to define such masks. For example I need to extract bits 6:14.So I need to define a mask as `111111111 << 6`. My problem is I can't use boost or something like this and standard c/c++ doesn't know to work with binary numbers. What is possible to do is to use 111111111 as 2^10-1.I am not sure - this is the best (most elegant ) solution.Any advices?

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the problem is not clear enough. don't tell us about mask only, tell us also about the real problem. –  Nawaz Jan 9 '13 at 14:33
You could use user-defined string literals for that. There was a similar question regarding large numbers recently. –  Bartek Banachewicz Jan 9 '13 at 14:36
–  Marc Glisse Jan 9 '13 at 14:38
To create a mask for `2^10-1` you could use `(1<<10)-1`. –  Jerry Coffin Jan 9 '13 at 14:43

Just use `0x1FF << 6` (if you want `111111111 << 6`) or ```0x3FF << 6``` (if you want 2^10-1 << 6). That's considerably clearer than your binary. As Jerry Coffin points out, you can easily get 2^10 by using `1 << 10`, but I'm not convinced that this is clearer than just using hexadecimal. (For that matter, in some contexts, `0x7FC00` might be perfectly clear. It has the advantage that you see visually exactly where the bits are in the word, and it's easier to pick them out if you have a hex dump.)

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Most people use hexadecimal when representing masks, such as 0xFF, 0x0A, etc.

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Let's try to make a bunch of ones first.

One property of a sequence of N ones in binary is that, just like a sequence of nines in decimal, if you add one to it, you get a one followed by a N zeros. We can use the inverse, the fact that if you subtract one from a one followed by N zeros gets you a sequence of N ones, to make that.

A one followed by N zeros is just 1 shifted right N places.

``````template <typename Uint>
Uint zigamorph(int n) { // http://catb.org/jargon/html/Z/zigamorph.html
return 1 << n - 1; // same as 2^n - 1 :)
}
``````

Armed with zigamorphs of any length, you can now get the bits you want from any value easily by using bitwise and.

``````template <typename Uint>
Uint mask_bits(Uint value, int first_bit, int last_bit) { // both inclusive?
return value & zigamorph<Uint>(last_bit-first_bit+1);
}
``````
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Do you have access to the standard library? If so, I would try `std::bitset`