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#pragma once 
 
#include <util/ysaveload.h>
#include <util/generic/vector.h> 
#include <util/system/yassert.h> 
 
//! See more details here http://en.wikipedia.org/wiki/Kahan_summation_algorithm
template <typename TAccumulateType> 
class TKahanAccumulator { 
public: 
    using TValueType = TAccumulateType; 
 
    template <typename TFloatType>
    explicit TKahanAccumulator(const TFloatType x)
        : Sum_(x)
        , Compensation_()
    {
    }

    TKahanAccumulator() 
        : Sum_()
        , Compensation_()
    { 
    } 
 
    template <typename TFloatType> 
    TKahanAccumulator& operator=(const TFloatType& rhs) {
        Sum_ = TValueType(rhs);
        Compensation_ = TValueType();
        return *this; 
    } 
 
    TValueType Get() const {
        return Sum_ + Compensation_;
    } 
 
    template <typename TFloatType> 
    inline operator TFloatType() const {
        return Get(); 
    } 
 
    template <typename TFloatType> 
    inline bool operator<(const TKahanAccumulator<TFloatType>& other) const {
        return Get() < other.Get(); 
    }

    template <typename TFloatType>
    inline bool operator<=(const TKahanAccumulator<TFloatType>& other) const {
        return !(other < *this);
    }

    template <typename TFloatType>
    inline bool operator>(const TKahanAccumulator<TFloatType>& other) const {
        return other < *this;
    }

    template <typename TFloatType>
    inline bool operator>=(const TKahanAccumulator<TFloatType>& other) const {
        return !(*this < other);
    }

    template <typename TFloatType>
    inline TKahanAccumulator& operator+=(const TFloatType x) {
        const TValueType y = TValueType(x) - Compensation_;
        const TValueType t = Sum_ + y;
        Compensation_ = (t - Sum_) - y;
        Sum_ = t;
        return *this; 
    } 
 
    template <typename TFloatType> 
    inline TKahanAccumulator& operator-=(const TFloatType x) {
        return *this += -TValueType(x);
    } 
 
    template <typename TFloatType> 
    inline TKahanAccumulator& operator*=(const TFloatType x) {
        return *this = TValueType(*this) * TValueType(x);
    } 
 
    template <typename TFloatType> 
    inline TKahanAccumulator& operator/=(const TFloatType x) {
        return *this = TValueType(*this) / TValueType(x);
    } 

    Y_SAVELOAD_DEFINE(Sum_, Compensation_)

private: 
    TValueType Sum_;
    TValueType Compensation_;
}; 
 
template <typename TAccumulateType, typename TFloatType> 
inline const TKahanAccumulator<TAccumulateType>
operator+(TKahanAccumulator<TAccumulateType> lhs, const TFloatType rhs) {
    return lhs += rhs;
}

template <typename TAccumulateType, typename TFloatType> 
inline const TKahanAccumulator<TAccumulateType>
operator-(TKahanAccumulator<TAccumulateType> lhs, const TFloatType rhs) {
    return lhs -= rhs;
}

template <typename TAccumulateType, typename TFloatType> 
inline const TKahanAccumulator<TAccumulateType>
operator*(TKahanAccumulator<TAccumulateType> lhs, const TFloatType rhs) {
    return lhs *= rhs; 
} 
 
template <typename TAccumulateType, typename TFloatType> 
inline const TKahanAccumulator<TAccumulateType>
operator/(TKahanAccumulator<TAccumulateType> lhs, const TFloatType rhs) {
    return lhs /= rhs; 
} 
 
template <typename TAccumulatorType, typename It> 
static inline TAccumulatorType TypedFastAccumulate(It begin, It end) {
    TAccumulatorType accumulator = TAccumulatorType(); 
 
    for (; begin + 15 < end; begin += 16) { 
        accumulator += *(begin + 0) + 
                       *(begin + 1) + 
                       *(begin + 2) + 
                       *(begin + 3) + 
                       *(begin + 4) + 
                       *(begin + 5) + 
                       *(begin + 6) + 
                       *(begin + 7) + 
                       *(begin + 8) + 
                       *(begin + 9) + 
                       *(begin + 10) + 
                       *(begin + 11) + 
                       *(begin + 12) + 
                       *(begin + 13) + 
                       *(begin + 14) + 
                       *(begin + 15); 
    } 
    for (; begin != end; ++begin) { 
        accumulator += *begin; 
    } 
 
    return accumulator; 
} 
 
template <class TOperation, typename TAccumulatorType, typename It1, typename It2>
static inline TAccumulatorType TypedFastInnerOperation(It1 begin1, It1 end1, It2 begin2) {
    TAccumulatorType accumulator = TAccumulatorType(); 
 
    const TOperation op;
    for (; begin1 + 15 < end1; begin1 += 16, begin2 += 16) { 
        accumulator += op(*(begin1 + 0), *(begin2 + 0)) +
                       op(*(begin1 + 1), *(begin2 + 1)) +
                       op(*(begin1 + 2), *(begin2 + 2)) +
                       op(*(begin1 + 3), *(begin2 + 3)) +
                       op(*(begin1 + 4), *(begin2 + 4)) +
                       op(*(begin1 + 5), *(begin2 + 5)) +
                       op(*(begin1 + 6), *(begin2 + 6)) +
                       op(*(begin1 + 7), *(begin2 + 7)) +
                       op(*(begin1 + 8), *(begin2 + 8)) +
                       op(*(begin1 + 9), *(begin2 + 9)) +
                       op(*(begin1 + 10), *(begin2 + 10)) +
                       op(*(begin1 + 11), *(begin2 + 11)) +
                       op(*(begin1 + 12), *(begin2 + 12)) +
                       op(*(begin1 + 13), *(begin2 + 13)) +
                       op(*(begin1 + 14), *(begin2 + 14)) +
                       op(*(begin1 + 15), *(begin2 + 15));
    } 
    for (; begin1 != end1; ++begin1, ++begin2) { 
        accumulator += op(*begin1, *begin2);
    } 
 
    return accumulator; 
} 
 
template <typename TAccumulatorType, typename It1, typename It2>
static inline TAccumulatorType TypedFastInnerProduct(It1 begin1, It1 end1, It2 begin2) {
    return TypedFastInnerOperation<std::multiplies<>, TAccumulatorType>(begin1, end1, begin2);
}

template <typename It> 
static inline double FastAccumulate(It begin, It end) {
    return TypedFastAccumulate<double>(begin, end); 
} 
 
template <typename T> 
static inline double FastAccumulate(const TVector<T>& sequence) {
    return FastAccumulate(sequence.begin(), sequence.end()); 
} 
 
template <typename It> 
static inline double FastKahanAccumulate(It begin, It end) {
    return TypedFastAccumulate<TKahanAccumulator<double>>(begin, end);
} 
 
template <typename T> 
static inline double FastKahanAccumulate(const TVector<T>& sequence) {
    return FastKahanAccumulate(sequence.begin(), sequence.end()); 
} 
 
template <typename It1, typename It2> 
static inline double FastInnerProduct(It1 begin1, It1 end1, It2 begin2) {
    return TypedFastInnerProduct<double>(begin1, end1, begin2); 
} 
 
template <typename T> 
static inline double FastInnerProduct(const TVector<T>& lhs, const TVector<T>& rhs) {
    Y_ASSERT(lhs.size() == rhs.size());
    return FastInnerProduct(lhs.begin(), lhs.end(), rhs.begin()); 
} 
 
template <typename It1, typename It2> 
static inline double FastKahanInnerProduct(It1 begin1, It1 end1, It2 begin2) {
    return TypedFastInnerProduct<TKahanAccumulator<double>>(begin1, end1, begin2);
} 
 
template <typename T> 
static inline double FastKahanInnerProduct(const TVector<T>& lhs, const TVector<T>& rhs) {
    Y_ASSERT(lhs.size() == rhs.size());
    return FastKahanInnerProduct(lhs.begin(), lhs.end(), rhs.begin()); 
}