#ifdef _MSC_VER
#  define _CRT_SECURE_NO_WARNINGS
#  define _USE_MATH_DEFINES
#  include <intrin.h>
#  define __builtin_popcount __popcnt
#endif

#include <bits/stdc++.h>
using namespace std;
using i32 = int; using i64 = long long int; using f64 = double;
using u32 = unsigned int; using u64 = unsigned long long int; using str = string;
template <typename T> using vec = vector<T>; void in() { }
template <typename T, typename...TS> void in(T &&x, TS &&...xs) { cin >> x; in(move(xs)...); }
template <typename T> void out(T &&x) { cout << x << "\n"; }
template <typename T, typename...TS> void out(T &&x, TS &&...xs) { cout << x << " "; out(move(xs)...); }
#define indef(t, ...) t __VA_ARGS__; in(__VA_ARGS__)
#define get(t) []{ t x; cin >> x; return x; }()
#define times(n, i) for (i32 i = 0; i < (n); ++i)
#define range(a, b, i) for (i32 i = (a); i < (b); ++i)
#define upto(a, b, i) for (i32 i = (a); i <= (b); ++i)
#define downto(a, b, i) for (i32 i = (a); i >= (b); --i)
#define all(xs) (xs).begin(), (xs).end()
#define sortall(xs) sort(all(xs))
#define reverseall(xs) reverse(all(xs))
#define even(x) ((abs(x) & 1) == 0)
#define odd(x) ((abs(x) & 1) == 1)
#define bit(x, i) (((x) >> i) & 1)
#define append emplace_back
#define bisect_left lower_bound
#define bisect_right upper_bound
#define bound(a, x, b) (a <= x && x <= b)
const i64 MOD = 1000000007ll;
const f64 EPS = 1e-10;

template <i64 mod> struct m32 {
    i64 raw;
    m32() : raw(0) {}
    m32(unsigned x) : raw(x % mod) {}
    m32(signed x) { i32 t = x % mod; if (t < 0) t += mod; raw = t; }
    m32(signed long long x) { i32 t = x % mod; if (t < 0) t += mod; raw = t; }
    i32 value() const { return (i32)raw; }
    m32 &operator+=(m32 that) { if ((raw += that.raw) >= mod) raw -= mod; return *this; }
    m32 &operator-=(m32 that) { if ((raw += mod - that.raw) >= mod) raw -= mod; return *this; }
    m32 &operator*=(m32 that) { raw = (u64)raw * that.raw % mod; return *this; }
    m32 operator+(m32 that) const { return m32(*this) += that; }
    m32 operator-(m32 that) const { return m32(*this) -= that; }
    m32 operator*(m32 that) const { return m32(*this) *= that; }
};

template <typename T> struct mat {
    i32 n, m; valarray<valarray<T>> v;
    mat(i32 n, i32 m) : n(n), m(m) { v.resize(n); times(n, i) v[i].resize(m); }
    mat(const mat<T> &src) : n(src.n), m(src.m), v(src.v) { }
    valarray<T> &operator[](size_t i) { return v[i]; }
    mat<T> &operator*=(const mat<T> &that) {
        mat<T> res(n, that.m); if (m != that.n) throw domain_error(0);
        times(n, i) { times(that.m, j) { res[i][j] = 0; times(m, k) res[i][j] += v[i][k] * that.v[k][j]; } }
        return *this = res;
    }
    mat<T> &operator^=(i64 e) {
        if (e < 0) throw domain_error(0);
        if (e == 0 && n != m) throw domain_error(0);
        if (e == 0) { times(n, i) { times(m, j) v[i][j] = i == j; } return *this; }
        if (e == 1) return *this;
        mat<T> res = ((*this) * (*this)) ^ (e / 2);
        if (odd(e)) res *= *this;
        return *this = res;
    }
    mat<T> operator*(const mat<T> &that) const { mat<T> res(*this); return res *= that; }
    mat<T> operator^(i64 e) const { mat<T> res(*this); return res ^= e; }
};

i64 solve() {
    indef(i64, n);
    mat<m32<2*MOD+2>> mat1(2, 2); mat1.v = {
        {1, 1},
        {1, 0},
    };
    mat1 ^= n;
    i64 m = mat1[1][0].raw;

    mat<m32<MOD>> mat2(2, 2); mat2.v = {
        {1, 1},
        {1, 0},
    };
    mat2 ^= m;

    return mat2[1][0].raw;
}

i32 main()
{
    ios::sync_with_stdio(false);

#ifdef _MSC_VER
    /**
    ifstream fin("input.txt"); cin.rdbuf(fin.rdbuf()); assert(fin);
    ofstream fout("output.txt"); cout.rdbuf(fout.rdbuf()); assert(fout);
    /**/
#endif

    cout << fixed << setprecision(9);
    out(solve());

    return 0;
}