#include #include #include #include #include #include #include #include #include #include #include using namespace std; typedef long long ll; typedef pair PII; typedef vector VI; typedef vector VVI; #define MP make_pair #define PB push_back ll mod; ll zero(){ ll a = (ll)false; return a; } ll one(){ ll a = (ll)true; return a; } ll add(ll a,ll b){ vectorv; v.PB(a); v.PB(b); return accumulate(v.begin(),v.end(),zero()); } ll two(){ ll a = (ll)true; return add(a,a); } ll three(){ return add(two(),one()); } ll seven(){ ll a = three(); a = add(a,a); a = add(a,one()); return a; } ll nine(){ return add(two(),seven()); } ll ten(){ return add(three(),seven()); } ll divide(ll a,ll b){ lldiv_t c = div(a,b); return c.quot; } ll modulo(ll a,ll b){ lldiv_t c = div(a,b); return c.rem; } ll mul(ll a,ll b){ if(b==zero())return zero(); if(b==one())return a; if(modulo(b,two())==zero()){ ll c = mul(a,divide(b,two())); return modulo(add(c,c),mod); }else{ ll c = mul(a,divide(b,two())); return modulo(add(c,add(c,a)),mod); } } ll mult(ll a,ll b){ if(b==zero())return zero(); if(b==one())return a; if(modulo(b,two())==zero()){ ll c = mult(a,divide(b,two())); return add(c,c); }else{ ll c = mult(a,divide(b,two())); return add(c,add(c,a)); } } void mod_calc(){ mod = one(); for(ll i=zero();i > mat_mul(vector > &v,vector > &w){ vector > z(two(),vector(two())); z[zero()][zero()] = modulo(add(mul(v[zero()][zero()],w[zero()][zero()]),mul(v[zero()][one()],w[one()][zero()])),mod); z[zero()][one()] = modulo(add(mul(v[zero()][zero()],w[zero()][one()]),mul(v[zero()][one()],w[one()][one()])),mod); z[one()][zero()] = modulo(add(mul(v[one()][zero()],w[zero()][zero()]),mul(v[one()][one()],w[one()][zero()])),mod); z[one()][one()] = modulo(add(mul(v[one()][zero()],w[zero()][one()]),mul(v[one()][one()],w[one()][one()])),mod); return z; } vector > mat_calc(vector > &v,ll n){ if(n==zero()){ vector > z(two(),vector(two())); z[zero()][zero()]=one(); z[one()][one()]=one(); return z; } if(n==one())return v; if(modulo(n,two())==zero()){ vector > z(two(),vector(two())); z = mat_calc(v,divide(n,two())); return mat_mul(z,z); }else{ vector > z(two(),vector(two())); z = mat_calc(v,divide(n,two())); z = mat_mul(z,z); return mat_mul(z,v); } } ll calc(ll n){ vector > v(two(),vector(two())); v[zero()][zero()] = zero(); v[zero()][one()] = one(); v[one()][zero()] = one(); v[one()][one()] = one(); vector > z(two(),vector(two())); z = mat_calc(v,n); return modulo(add(mul(z[zero()][zero()],two()),mul(z[zero()][one()],one())),mod); } int main(){ mod_calc(); int t; cin >> t; for(int i=zero();i> n; cout << calc(n) << endl; } return zero(); }