cpp_mp/mp_int.hpp

#pragma once

#include <array>
#include <cstddef>
#include <vector>

#include "mp_math.hpp"
#include "mp_utils.hpp"

namespace mp
{

static constexpr size_t UNLIMITED = std::numeric_limits<size_t>().max();

// template<class TElem, size_t MaxSize, bool SelfContained>
// struct ElemContainerImpl
// {
//     using type = std::vector<TElem>;
// };

// template<class TElem, size_t MaxSize>
// struct ElemContainerImpl<TElem, MaxSize, true>
// {
//     using type = std::array<TElem, MaxSize>;
// };

// template<class TElem, size_t MaxSize, bool SelfContained>
// using ElemContainer = typename ElemContainerImpl<TElem, MaxSize, SelfContained>::type;

template <class TElem, size_t MaxSize> class BasicInt;

template <class TA, class TB,
          typename = typename std::enable_if<std::is_same_v<typename TA::ElementType, typename TB::ElementType>>>
using IntOpResultType = BasicInt<typename TA::ElementType, std::max(TA::MAX_SIZE, TB::MAX_SIZE)>;

template <class TElem, size_t MaxSize> class BasicInt
{
  public:
    using ElementType = TElem;
    static constexpr size_t MAX_SIZE = MaxSize;

    using ThisType = BasicInt<TElem, MaxSize>;

    static constexpr size_t ELEMENT_BYTES = sizeof(ElementType);
    static constexpr size_t MAX_ELEMS = utils::AlignUp(MaxSize, ELEMENT_BYTES) / ELEMENT_BYTES;
    static constexpr ElementType LAST_ELEM_MASK = utils::GetNBytesMask<ElementType>(MAX_SIZE % ELEMENT_BYTES);
    static constexpr ElementType ELEMENT_MAX = std::numeric_limits<ElementType>().max();

    // static constexpr size_t LAST_ELEM_MASK = GetNBytesMask(3);

    BasicInt(std::initializer_list<ElementType> init) : m_elems{init}
    {
    }

    // template <class... TArgs> Int(TArgs&&... args)
    // {
    //     (m_value.push_back(args), ...);
    // }

    size_t GetNumElements() const
    {
        return m_elems.size();
    }

    TElem GetElement(size_t index) const
    {
        if (index >= m_elems.size())
            return 0;

        return m_elems[index];
    }

    void SetElement(size_t index, TElem value)
    {
        if (index >= m_elems.size())
        {
            if (value == 0)
            {
                return;
            }

            m_elems.resize(index + 1, 0);
        }

        m_elems[index] = value;
    }

    template <class TOp, class TR, class TRhs> void BinaryOp(TR& r, const TRhs& rhs) const
    {
        TOp::Op(r, *this, rhs);
    }

    template <class TOp, class TRhs> IntOpResultType<ThisType, TRhs> ExtBinaryOp(const TRhs& rhs) const
    {
        IntOpResultType<ThisType, TRhs> result{};
        BinaryOp<TOp>(result, rhs);
        return result;
    }

    template <class TOp, class TRhs> ThisType& CompoundBinaryOp(const TRhs& rhs)
    {
        BinaryOp<TOp>(*this, rhs);
        return *this;
    }

    template <class TRhs> auto operator+(const TRhs& rhs) const
    {
        return ExtBinaryOp<Addition>(rhs);
    }

    template <class TRhs> auto operator+=(const TRhs& rhs)
    {
        return CompoundBinaryOp<Addition>(rhs);
    }

    template <class TRhs> auto operator-(const TRhs& rhs) const
    {
        return ExtBinaryOp<Subtraction>(rhs);
    }

    template <class TRhs> auto& operator-=(const TRhs& rhs)
    {
        return CompoundBinaryOp<Subtraction>(rhs);
    }

  private:
    std::vector<ElementType> m_elems;
};

// using UnlimitedInt = Int<UNLIMITED>;
using DefaultElemType = size_t;


template <size_t MaxSize> using Int = BasicInt<DefaultElemType, MaxSize>;
using UnlimitedInt = Int<UNLIMITED>;

} // namespace mp