/** * code generated by JHelper * More info: https://github.com/AlexeyDmitriev/JHelper * @author */ #ifndef SOLUTION_COMMON_H #include using namespace std; using ll = long long; using PI = pair; template using V = vector; using VI = V; #define _1 first #define _2 second #ifdef MY_DEBUG # define DEBUG(x) x #else # define DEBUG(x) #endif template std::ostream & operator <<(ostream &os, const pair &p) { os << "(" << p._1 << "," << p._2 << ")"; return os; } template inline void debug(T &A) { DEBUG( for (const auto &a : A) { cerr << a << " "; } cerr << '\n'; ) } template inline void debug_with_format(T &A, Func f) { DEBUG( for (const auto &a : A) { cerr << f(a) << " "; } cerr << '\n'; ) } template inline void debug_dim2(T &A) { DEBUG( for (const auto &as : A) { debug(as); } ) } template inline void debug(const char *format, Args const &... args) { DEBUG( fprintf(stderr, format, args ...); cerr << '\n'; ) } template string format(const string &fmt, Args ... args) { size_t len = snprintf(nullptr, 0, fmt.c_str(), args ...); vector buf(len + 1); snprintf(&buf[0], len + 1, fmt.c_str(), args ...); return string(&buf[0], &buf[0] + len); } template string fmtP(pair a) { stringstream ss; ss << "(" << a._1 << "," << a._2 << ")"; return ss.str(); } #define SOLUTION_COMMON_H #endif //SOLUTION_COMMON_H const int MOD = 1000000007; class C { public: int countOk(int P, int Q, int A) { int ok = 0; int contFail = 0; int x = 0; while(contFail < 100) { x++; if (P * x / 100 < Q * x / 100 + A) { ok++; contFail = 0; } else { contFail++; } } return ok; } int countFail(int P, int Q, int A) { int fail = 0; int contOk = 0; int x = 0; while(contOk < 100) { x++; if (P * x / 100 < Q * x / 100 + A) { contOk++; } else { fail++; contOk = 0; } } return (int)1e9 - fail; } void solve(std::istream& in, std::ostream& out) { ios::sync_with_stdio(false); cin.tie(nullptr); int P, Q, A; in >> P >> Q >> A; if (P > Q) { out << countOk(P, Q, A); } else if (P < Q) { out << countFail(P, Q, A); } else { if (A == 0) out << 0; else out << (int)1e9; } } }; int main() { C solver; std::istream& in(std::cin); std::ostream& out(std::cout); solver.solve(in, out); return 0; }