#line 1 "library/Template/template.hpp" #include using namespace std; #define rep(i,a,b) for(int i=(int)(a);i<(int)(b);i++) #define ALL(v) (v).begin(),(v).end() #define UNIQUE(v) sort(ALL(v)),(v).erase(unique(ALL(v)),(v).end()) #define SZ(v) (int)v.size() #define MIN(v) *min_element(ALL(v)) #define MAX(v) *max_element(ALL(v)) #define LB(v,x) int(lower_bound(ALL(v),(x))-(v).begin()) #define UB(v,x) int(upper_bound(ALL(v),(x))-(v).begin()) using ll=long long int; using ull=unsigned long long; const int inf = 0x3fffffff; const ll INF = 0x1fffffffffffffff; templateinline bool chmax(T& a,T b){if(ainline bool chmin(T& a,T b){if(a>b){a=b;return 1;}return 0;} templateT ceil(T x,U y){assert(y!=0); if(y<0)x=-x,y=-y; return (x>0?(x+y-1)/y:x/y);} templateT floor(T x,U y){assert(y!=0); if(y<0)x=-x,y=-y; return (x>0?x/y:(x-y+1)/y);} templateint popcnt(T x){return __builtin_popcountll(x);} templateint topbit(T x){return (x==0?-1:63-__builtin_clzll(x));} templateint lowbit(T x){return (x==0?-1:__builtin_ctzll(x));} #line 2 "library/Utility/fastio.hpp" #include class FastIO{ static constexpr int L=1<<16; char rdbuf[L]; int rdLeft=0,rdRight=0; inline void reload(){ int len=rdRight-rdLeft; memmove(rdbuf,rdbuf+rdLeft,len); rdLeft=0,rdRight=len; rdRight+=fread(rdbuf+len,1,L-len,stdin); } inline bool skip(){ for(;;){ while(rdLeft!=rdRight and rdbuf[rdLeft]<=' ')rdLeft++; if(rdLeft==rdRight){ reload(); if(rdLeft==rdRight)return false; } else break; } return true; } template::value,int> =0>inline bool _read(T& x){ if(!skip())return false; if(rdLeft+20>=rdRight)reload(); bool neg=false; if(rdbuf[rdLeft]=='-'){ neg=true; rdLeft++; } x=0; while(rdbuf[rdLeft]>='0' and rdLeft=rdRight)reload(); bool neg=false; if(rdbuf[rdLeft]=='-'){ neg=true; rdLeft++; } x=0; while(rdbuf[rdLeft]>='0' and rdLeft=rdRight)reload(); x=0; while(rdbuf[rdLeft]>='0' and rdLeft::value,int> =0>inline bool _read(T& x){ if(!skip())return false; if(rdLeft+20>=rdRight)reload(); bool neg=false; if(rdbuf[rdLeft]=='-'){ neg=true; rdLeft++; } x=0; while(rdbuf[rdLeft]>='0' and rdbuf[rdLeft]<='9' and rdLeft='0' and rdbuf[rdLeft]<='9' and rdLeft=rdRight)reload(); x=rdbuf[rdLeft++]; return true; } inline bool _read(string& x){ if(!skip())return false; for(;;){ int pos=rdLeft; while(pos' ')pos++; x.append(rdbuf+rdLeft,pos-rdLeft); if(rdLeft==pos)break; rdLeft=pos; if(rdLeft==rdRight)reload(); else break; } return true; } templateinline bool _read(vector& v){ for(auto& x:v){ if(!_read(x))return false; } return true; } char wtbuf[L],tmp[50]; int wtRight=0; inline void _write(const char& x){ if(wtRight>L-32)flush(); wtbuf[wtRight++]=x; } inline void _write(const string& x){ for(auto& c:x)_write(c); } template::value,int> =0>inline void _write(T x){ if(wtRight>L-32)flush(); if(x==0){ _write('0'); return; } else if(x<0){ _write('-'); if (__builtin_expect(x == std::numeric_limits::min(), 0)) { switch (sizeof(x)) { case 2: _write("32768"); return; case 4: _write("2147483648"); return; case 8: _write("9223372036854775808"); return; } } x=-x; } int pos=0; while(x!=0){ tmp[pos++]=char((x%10)|48); x/=10; } rep(i,0,pos)wtbuf[wtRight+i]=tmp[pos-1-i]; wtRight+=pos; } inline void _write(__int128_t x){ if(wtRight>L-40)flush(); if(x==0){ _write('0'); return; } else if(x<0){ _write('-'); x=-x; } int pos=0; while(x!=0){ tmp[pos++]=char((x%10)|48); x/=10; } rep(i,0,pos)wtbuf[wtRight+i]=tmp[pos-1-i]; wtRight+=pos; } inline void _write(__uint128_t x){ if(wtRight>L-40)flush(); if(x==0){ _write('0'); return; } int pos=0; while(x!=0){ tmp[pos++]=char((x%10)|48); x/=10; } rep(i,0,pos)wtbuf[wtRight+i]=tmp[pos-1-i]; wtRight+=pos; } inline void _write(double x){ ostringstream oss; oss << fixed << setprecision(15) << double(x); string s = oss.str(); _write(s); } templateinline void _write(const vector& v){ rep(i,0,v.size()){ if(i)_write(' '); _write(v[i]); } } public: FastIO(){} ~FastIO(){flush();} inline void read(){} template inline void read(Head& head,Tail&... tail){ assert(_read(head)); read(tail...); } templateinline void write(){if(ln)_write('\n');} template inline void write(const Head& head,const Tail&... tail){ _write(head); write(tail...); if(space)_write(' '); } inline void flush(){ fwrite(wtbuf,1,wtRight,stdout); wtRight=0; } }; /** * @brief Fast IO */ #line 3 "sol.cpp" #line 2 "library/Math/modint.hpp" template struct fp { int v; static constexpr int get_mod() { return mod; } int inv() const { int tmp, a = v, b = mod, x = 1, y = 0; while (b) tmp = a / b, a -= tmp * b, swap(a, b), x -= tmp * y, swap(x, y); if (x < 0) { x += mod; } return x; } fp(ll x = 0) : v(x >= 0 ? x % mod : (mod - (-x) % mod) % mod) {} fp operator-() const { return fp() - *this; } fp pow(ll t) { assert(t >= 0); fp res = 1, b = *this; while (t) { if (t & 1) res *= b; b *= b; t >>= 1; } return res; } fp &operator+=(const fp &x) { if ((v += x.v) >= mod) v -= mod; return *this; } fp &operator-=(const fp &x) { if ((v += mod - x.v) >= mod) v -= mod; return *this; } fp &operator*=(const fp &x) { v = ll(v) * x.v % mod; return *this; } fp &operator/=(const fp &x) { v = ll(v) * x.inv() % mod; return *this; } fp operator+(const fp &x) const { return fp(*this) += x; } fp operator-(const fp &x) const { return fp(*this) -= x; } fp operator*(const fp &x) const { return fp(*this) *= x; } fp operator/(const fp &x) const { return fp(*this) /= x; } bool operator==(const fp &x) const { return v == x.v; } bool operator!=(const fp &x) const { return v != x.v; } friend istream &operator>>(istream &is, fp &x) { return is >> x.v; } friend ostream &operator<<(ostream &os, const fp &x) { return os << x.v; } }; template T Inv(ll n) { static const int md = T::get_mod(); static vector buf({0, 1}); assert(n > 0); n %= md; while (SZ(buf) <= n) { int k = SZ(buf), q = (md + k - 1) / k; buf.push_back(buf[k * q - md] * q); } return buf[n]; } template T Fact(ll n, bool inv = 0) { static const int md = T::get_mod(); static vector buf({1, 1}), ibuf({1, 1}); assert(n >= 0 and n < md); while (SZ(buf) <= n) { buf.push_back(buf.back() * SZ(buf)); ibuf.push_back(ibuf.back() * Inv(SZ(ibuf))); } return inv ? ibuf[n] : buf[n]; } template T nPr(int n, int r, bool inv = 0) { if (n < 0 || n < r || r < 0) return 0; return Fact(n, inv) * Fact(n - r, inv ^ 1); } template T nCr(int n, int r, bool inv = 0) { if (n < 0 || n < r || r < 0) return 0; return Fact(n, inv) * Fact(r, inv ^ 1) * Fact(n - r, inv ^ 1); } template T nHr(int n, int r, bool inv = 0) { return nCr(n + r - 1, r, inv); } /** * @brief Modint */ #line 5 "sol.cpp" using Fp = fp<998244353>; #line 2 "library/DataStructure/disjointsparsetable.hpp" templatestruct DisjointSparseTable{ vector> buf; vector height; DisjointSparseTable(const vector& a){ int n=a.size(),LG=0; while((1<(n)); height.assign(1<>1]+1; rep(i,0,n)buf[0][i]=a[i]; rep(lg,1,LG){ int add=1<=j;k--)buf[lg][k]=f(a[k],buf[lg][k+1]); if(n<=pos)break; buf[lg][pos]=a[pos]; for(int k=pos+1;k=--R)return buf[0][L]; return f(buf[height[L^R]][L],buf[height[L^R]][R]); } }; /** * @brief Disjoint Sparse Table */ #line 7 "sol.cpp" using P = pair; vector pw; P f(P a, P b) { a.second += b.second * pw[a.first]; a.first += b.first; return a; } FastIO io; int main() { int n, q, K; io.read(n, q, K); pw.resize(n + 1, 1); rep(i, 0, n) pw[i + 1] = pw[i] * K; vector

buf(n); rep(i, 0, n) { int x; io.read(x); buf[i] = {1, x}; } DisjointSparseTable dst(buf); while (q--) { int L, R; io.read(L, R); L--; auto [_, x] = dst.query(L, R); io.write(x == 0 ? "No" : "Yes"); } return 0; }