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c4805e0262
* issue/issue-281-create_binding_to_pedersen_hash * Add //nolint * Add more nolints * move nolint * Remove nolit * Add gcc install * Upd .ci * Remove staticcheck * Add envs * try to exclude pedersen_hash from test * try to fix mac os build * Add include for mac os * Add include for mac os * Fix runner_os * remove test for macos * Change restrictions * restrict tests to ubuntu * Try test windows * Add build constraint
141 lines
4.2 KiB
C++
141 lines
4.2 KiB
C++
#ifndef STARKWARE_ALGEBRA_BIG_INT_H_
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#define STARKWARE_ALGEBRA_BIG_INT_H_
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#include <cstddef>
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#include <iostream>
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#include <limits>
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#include <string>
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#include <utility>
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#include <vector>
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#include "gsl-lite.hpp"
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#include "error_handling.h"
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#include "prng.h"
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namespace starkware {
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static constexpr inline __uint128_t Umul128(uint64_t x, uint64_t y) {
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return static_cast<__uint128_t>(x) * static_cast<__uint128_t>(y);
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}
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template <size_t N>
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class BigInt {
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public:
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static constexpr size_t kDigits = N * std::numeric_limits<uint64_t>::digits;
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BigInt() = default;
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template <size_t K>
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constexpr BigInt(const BigInt<K>& v) noexcept; // NOLINT implicit cast.
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constexpr explicit BigInt(const std::array<uint64_t, N>& v) noexcept : value_(v) {}
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constexpr explicit BigInt(uint64_t v) noexcept : value_(std::array<uint64_t, N>({v})) {}
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static constexpr BigInt One() { return BigInt(std::array<uint64_t, N>({1})); }
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static constexpr BigInt Zero() { return BigInt(std::array<uint64_t, N>({0})); }
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static BigInt RandomBigInt(Prng* prng);
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/*
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Returns pair of the form (result, overflow_occurred).
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*/
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static constexpr std::pair<BigInt, bool> Add(const BigInt& a, const BigInt& b);
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constexpr BigInt operator+(const BigInt& other) const { return Add(*this, other).first; }
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constexpr BigInt operator-(const BigInt& other) const { return Sub(*this, other).first; }
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constexpr BigInt operator-() const { return Zero() - *this; }
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/*
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Multiplies two BigInt<N> numbers, this and other. Returns the result as a
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BigInt<2*N>.
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*/
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constexpr BigInt<2 * N> operator*(const BigInt& other) const;
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/*
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Multiplies two BigInt<N> numbers modulo a third.
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*/
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static BigInt MulMod(const BigInt& a, const BigInt& b, const BigInt& modulus);
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/*
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Computes the inverse of *this in the field GF(prime).
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If prime is not a prime number, the behavior is undefined.
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*/
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BigInt InvModPrime(const BigInt& prime) const;
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/*
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Return pair of the form (result, underflow_occurred).
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*/
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static constexpr std::pair<BigInt, bool> Sub(const BigInt& a, const BigInt& b);
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constexpr bool operator<(const BigInt& b) const;
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constexpr bool operator>=(const BigInt& b) const { return !(*this < b); }
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constexpr bool operator>(const BigInt& b) const { return b < *this; }
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constexpr bool operator<=(const BigInt& b) const { return !(*this > b); }
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/*
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Returns the pair (q, r) such that this == q*divisor + r and r < divisor.
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*/
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std::pair<BigInt, BigInt> Div(const BigInt& divisor) const;
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/*
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Returns the representation of the number as a string of the form "0x...".
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*/
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std::string ToString() const;
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std::vector<bool> ToBoolVector() const;
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/*
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Returns (x % target) assuming x is in the range [0, 2*target).
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The function assumes that target.NumLeadingZeros() > 0.
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Typically used after a Montgomery reduction which produces an output that
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satisfies the range requirement above.
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*/
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static constexpr BigInt ReduceIfNeeded(const BigInt& x, const BigInt& target);
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/*
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Calculates x*y/2^256 mod modulus, assuming that montgomery_mprime is
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(-(modulus^-1)) mod 2^64. Assumes that modulus.NumLeadingZeros() > 0.
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*/
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static constexpr BigInt MontMul(
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const BigInt& x, const BigInt& y, const BigInt& modulus, uint64_t montgomery_mprime);
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constexpr bool operator==(const BigInt& other) const;
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constexpr bool operator!=(const BigInt& other) const { return !(*this == other); }
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constexpr uint64_t& operator[](int i) { return gsl::at(value_, i); }
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constexpr const uint64_t& operator[](int i) const { return gsl::at(value_, i); }
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static constexpr size_t LimbCount() { return N; }
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/*
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Returns the number of leading zero's.
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*/
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constexpr size_t NumLeadingZeros() const;
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private:
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std::array<uint64_t, N> value_;
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};
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template <size_t N>
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std::ostream& operator<<(std::ostream& os, const BigInt<N>& bigint);
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} // namespace starkware
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/*
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Implements the user defined _Z literal that constructs a BigInt of an
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arbitrary size. For example: BigInt<4> a =
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0x73eda753299d7d483339d80809a1d80553bda402fffe5bfeffffffff00000001_Z;
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*/
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template <char... Chars>
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static constexpr auto operator"" _Z();
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#include "big_int.inl"
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#endif // STARKWARE_ALGEBRA_BIG_INT_H_
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