I am working on my project of Elliptic Curve Cryptography which requires programming on binary fields. It includes basic operations like addition, multiplication, inversion etc w.r.t. an irreducible binary polynomial.

I am searching for a way by which these binary polynomials can be stored in a program. I am working on C and C++ programming language (with gmp library) so the first thought came to my mind was to use structures and bit-fields. But they are not dynamic and can't hold arbitrarily long polynomials. Using C++ Vector STL is possible but it won't be efficient, as it stores a single bit in a single word of 8 or more bits.

Is there any way of representation which is efficient?

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    std::vector<bool> use 1 bit memory for 1 bit representation Dec 14, 2015 at 8:00
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    Your best bet is probably boost::dynamic_bitset. Dec 14, 2015 at 8:14
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    Why the down votes? Isn't this a perfectly reasonable question? Stackoverflow seems to become less and less useful ...
    – Lucas
    Dec 14, 2015 at 8:24
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    Please pick one langauge, you can't program in two different languages at once.C or C++ will give different answers.
    – Lundin
    Dec 14, 2015 at 9:11
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    @Lundin: But he does use both languages! gmp is a C library and his application seems to be in C++. [edit: removed snark]
    – Lucas
    Dec 14, 2015 at 9:34

1 Answer 1


It is NOT effectiv to store informations bitwise in an array. If I were you I would store the Bit-Informations in a big UNSIGNED LONG INTEGER and write a function that can get and put the bits in and out of this cluster of integer value. This way of storing the bit-information would speed up your solution up to 64 times!

  • You are right. But that won't be dynamic and restrict data size to just 64 bits.
    – Gaurav
    Dec 14, 2015 at 8:53
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    Use a dynamic array of integers as underlying storage. The access function would cover this. The add/remove functions would grow and shrink the array using realloc(). @Gaurav
    – alk
    Dec 14, 2015 at 9:12
  • @Gaurav - It's my understanding that the irreducible binary polynomial is fixed in size, and it's only the data that is variable length, and assuming this is true, then most of the time you're working with fixed length variables, which could be arrays of 32 or 64 bit unsigned integers.
    – rcgldr
    Dec 14, 2015 at 13:37

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