Submission #417265

#TimeUsernameProblemLanguageResultExecution timeMemory
417265BenqIzvanzemaljci (COI21_izvanzemaljci)C++17
5 / 100
76 ms1988 KiB
#include <bits/stdc++.h> using namespace std; using ll = long long; using db = long double; // or double, if TL is tight using str = string; // yay python! using pi = pair<int,int>; using pl = pair<ll,ll>; using pd = pair<db,db>; using vi = vector<int>; using vb = vector<bool>; using vl = vector<ll>; using vd = vector<db>; using vs = vector<str>; using vpi = vector<pi>; using vpl = vector<pl>; using vpd = vector<pd>; #define tcT template<class T #define tcTU tcT, class U // ^ lol this makes everything look weird but I'll try it tcT> using V = vector<T>; tcT, size_t SZ> using AR = array<T,SZ>; tcT> using PR = pair<T,T>; // pairs #define mp make_pair #define f first #define s second // vectors // oops size(x), rbegin(x), rend(x) need C++17 #define sz(x) int((x).size()) #define bg(x) begin(x) #define all(x) bg(x), end(x) #define rall(x) x.rbegin(), x.rend() #define sor(x) sort(all(x)) #define rsz resize #define ins insert #define ft front() #define bk back() #define pb push_back #define eb emplace_back #define pf push_front #define rtn return #define lb lower_bound #define ub upper_bound tcT> int lwb(V<T>& a, const T& b) { return int(lb(all(a),b)-bg(a)); } // loops #define FOR(i,a,b) for (int i = (a); i < (b); ++i) #define F0R(i,a) FOR(i,0,a) #define ROF(i,a,b) for (int i = (b)-1; i >= (a); --i) #define R0F(i,a) ROF(i,0,a) #define rep(a) F0R(_,a) #define each(a,x) for (auto& a: x) const int MOD = 1e9+7; // 998244353; const int MX = 2e5+5; const ll INF = 1e18; // not too close to LLONG_MAX const db PI = acos((db)-1); const int dx[4] = {1,0,-1,0}, dy[4] = {0,1,0,-1}; // for every grid problem!! mt19937 rng((uint32_t)chrono::steady_clock::now().time_since_epoch().count()); template<class T> using pqg = priority_queue<T,vector<T>,greater<T>>; // bitwise ops // also see https://gcc.gnu.org/onlinedocs/gcc/Other-Builtins.html constexpr int pct(int x) { return __builtin_popcount(x); } // # of bits set constexpr int bits(int x) { // assert(x >= 0); // make C++11 compatible until USACO updates ... return x == 0 ? 0 : 31-__builtin_clz(x); } // floor(log2(x)) constexpr int p2(int x) { return 1<<x; } constexpr int msk2(int x) { return p2(x)-1; } ll cdiv(ll a, ll b) { return a/b+((a^b)>0&&a%b); } // divide a by b rounded up ll fdiv(ll a, ll b) { return a/b-((a^b)<0&&a%b); } // divide a by b rounded down tcT> bool ckmin(T& a, const T& b) { return b < a ? a = b, 1 : 0; } // set a = min(a,b) tcT> bool ckmax(T& a, const T& b) { return a < b ? a = b, 1 : 0; } tcTU> T fstTrue(T lo, T hi, U f) { hi ++; assert(lo <= hi); // assuming f is increasing while (lo < hi) { // find first index such that f is true T mid = lo+(hi-lo)/2; f(mid) ? hi = mid : lo = mid+1; } return lo; } tcTU> T lstTrue(T lo, T hi, U f) { lo --; assert(lo <= hi); // assuming f is decreasing while (lo < hi) { // find first index such that f is true T mid = lo+(hi-lo+1)/2; f(mid) ? lo = mid : hi = mid-1; } return lo; } tcT> void remDup(vector<T>& v) { // sort and remove duplicates sort(all(v)); v.erase(unique(all(v)),end(v)); } tcTU> void erase(T& t, const U& u) { // don't erase auto it = t.find(u); assert(it != end(t)); t.erase(it); } // element that doesn't exist from (multi)set #define tcTUU tcT, class ...U inline namespace Helpers { //////////// is_iterable // https://stackoverflow.com/questions/13830158/check-if-a-variable-type-is-iterable // this gets used only when we can call begin() and end() on that type tcT, class = void> struct is_iterable : false_type {}; tcT> struct is_iterable<T, void_t<decltype(begin(declval<T>())), decltype(end(declval<T>())) > > : true_type {}; tcT> constexpr bool is_iterable_v = is_iterable<T>::value; //////////// is_readable tcT, class = void> struct is_readable : false_type {}; tcT> struct is_readable<T, typename std::enable_if_t< is_same_v<decltype(cin >> declval<T&>()), istream&> > > : true_type {}; tcT> constexpr bool is_readable_v = is_readable<T>::value; //////////// is_printable // // https://nafe.es/posts/2020-02-29-is-printable/ tcT, class = void> struct is_printable : false_type {}; tcT> struct is_printable<T, typename std::enable_if_t< is_same_v<decltype(cout << declval<T>()), ostream&> > > : true_type {}; tcT> constexpr bool is_printable_v = is_printable<T>::value; } inline namespace Input { tcT> constexpr bool needs_input_v = !is_readable_v<T> && is_iterable_v<T>; tcTUU> void re(T& t, U&... u); tcTU> void re(pair<T,U>& p); // pairs // re: read tcT> typename enable_if<is_readable_v<T>,void>::type re(T& x) { cin >> x; } // default tcT> void re(complex<T>& c) { T a,b; re(a,b); c = {a,b}; } // complex tcT> typename enable_if<needs_input_v<T>,void>::type re(T& i); // ex. vectors, arrays tcTU> void re(pair<T,U>& p) { re(p.f,p.s); } tcT> typename enable_if<needs_input_v<T>,void>::type re(T& i) { each(x,i) re(x); } tcTUU> void re(T& t, U&... u) { re(t); re(u...); } // read multiple // rv: resize and read vectors void rv(size_t) {} tcTUU> void rv(size_t N, V<T>& t, U&... u); template<class...U> void rv(size_t, size_t N2, U&... u); tcTUU> void rv(size_t N, V<T>& t, U&... u) { t.rsz(N); re(t); rv(N,u...); } template<class...U> void rv(size_t, size_t N2, U&... u) { rv(N2,u...); } // dumb shortcuts to read in ints void decrement() {} // subtract one from each tcTUU> void decrement(T& t, U&... u) { --t; decrement(u...); } #define ints(...) int __VA_ARGS__; re(__VA_ARGS__); #define int1(...) ints(__VA_ARGS__); decrement(__VA_ARGS__); } inline namespace ToString { tcT> constexpr bool needs_output_v = !is_printable_v<T> && is_iterable_v<T>; // ts: string representation to print tcT> typename enable_if<is_printable_v<T>,str>::type ts(T v) { stringstream ss; ss << fixed << setprecision(15) << v; return ss.str(); } // default tcT> str bit_vec(T t) { // bit vector to string str res = "{"; F0R(i,sz(t)) res += ts(t[i]); res += "}"; return res; } str ts(V<bool> v) { return bit_vec(v); } template<size_t SZ> str ts(bitset<SZ> b) { return bit_vec(b); } // bit vector tcTU> str ts(pair<T,U> p); // pairs tcT> typename enable_if<needs_output_v<T>,str>::type ts(T v); // vectors, arrays tcTU> str ts(pair<T,U> p) { return "("+ts(p.f)+", "+ts(p.s)+")"; } tcT> typename enable_if<is_iterable_v<T>,str>::type ts_sep(T v, str sep) { // convert container to string w/ separator sep bool fst = 1; str res = ""; for (const auto& x: v) { if (!fst) res += sep; fst = 0; res += ts(x); } return res; } tcT> typename enable_if<needs_output_v<T>,str>::type ts(T v) { return "{"+ts_sep(v,", ")+"}"; } // for nested DS template<int, class T> typename enable_if<!needs_output_v<T>,vs>::type ts_lev(const T& v) { return {ts(v)}; } template<int lev, class T> typename enable_if<needs_output_v<T>,vs>::type ts_lev(const T& v) { if (lev == 0 || !sz(v)) return {ts(v)}; vs res; for (const auto& t: v) { if (sz(res)) res.bk += ","; vs tmp = ts_lev<lev-1>(t); res.ins(end(res),all(tmp)); } F0R(i,sz(res)) { str bef = " "; if (i == 0) bef = "{"; res[i] = bef+res[i]; } res.bk += "}"; return res; } } inline namespace Output { template<class T> void pr_sep(ostream& os, str, const T& t) { os << ts(t); } template<class T, class... U> void pr_sep(ostream& os, str sep, const T& t, const U&... u) { pr_sep(os,sep,t); os << sep; pr_sep(os,sep,u...); } // print w/ no spaces template<class ...T> void pr(const T&... t) { pr_sep(cout,"",t...); } // print w/ spaces, end with newline void ps() { cout << "\n"; } template<class ...T> void ps(const T&... t) { pr_sep(cout," ",t...); ps(); } // debug to cerr template<class ...T> void dbg_out(const T&... t) { pr_sep(cerr," | ",t...); cerr << endl; } void loc_info(int line, str names) { cerr << "Line(" << line << ") -> [" << names << "]: "; } template<int lev, class T> void dbgl_out(const T& t) { cerr << "\n\n" << ts_sep(ts_lev<lev>(t),"\n") << "\n" << endl; } #ifdef LOCAL #define dbg(...) loc_info(__LINE__,#__VA_ARGS__), dbg_out(__VA_ARGS__) #define dbgl(lev,x) loc_info(__LINE__,#x), dbgl_out<lev>(x) #else // don't actually submit with this #define dbg(...) 0 #define dbgl(lev,x) 0 #endif } inline namespace FileIO { void setIn(str s) { freopen(s.c_str(),"r",stdin); } void setOut(str s) { freopen(s.c_str(),"w",stdout); } void setIO(str s = "") { cin.tie(0)->sync_with_stdio(0); // unsync C / C++ I/O streams // cin.exceptions(cin.failbit); // throws exception when do smth illegal // ex. try to read letter into int if (sz(s)) setIn(s+".in"), setOut(s+".out"); // for old USACO } } int N,K; vpi points; pair<ll,V<pair<pl,pl>>> ans; tcT> void order(T& a, T& b) { if (a > b) swap(a,b); } const ll BIG = 3e9; pair<pl,pl> make_square(ll x, ll y, ll len) { // OK assert(len > 0); assert(abs(x) <= BIG); assert(abs(y) <= BIG); assert(abs(x+len) <= BIG); assert(abs(y+len) <= BIG); return {{x,y},{x+len,y+len}}; } void fail(bool b, bool flag) { if (b) { exit(flag); } } void check(V<pair<pl,pl>> cand, bool flag = false) { // OK assert(sz(cand) <= K); ll len = 0; each(t,cand) ckmax(len,abs(t.s.f-t.f.f)); each(t,cand) { fail(abs(t.f.f) > BIG,flag); fail(abs(t.f.s) > BIG,flag); fail(abs(t.s.f) > BIG,flag); fail(abs(t.s.s) > BIG,flag); } int cnt = 0; while (sz(cand) < K) { if (cnt == 0) { cand.pb(make_square(BIG-5,BIG-5,1)); } else { cand.pb(make_square(-BIG+5,-BIG+5,1)); } ++cnt; } each(t,cand) { fail(abs(t.f.f) > BIG,flag); fail(abs(t.f.s) > BIG,flag); fail(abs(t.s.f) > BIG,flag); fail(abs(t.s.s) > BIG,flag); } // dbg("AH",len,cand,ans.f); if (len < ans.f) ans = {len,cand}; } using Square = pair<pl,pl>; vpi rev(vpi v) { // OK reverse(all(v)); return v; } vpi neg(vpi v) { // OK each(t,v) t.f *= -1; return v; } V<Square> get_prefs(vpi v) { int xl = v[0].f, xr = v[0].f; int yl = v[0].s, yr = v[0].s; V<Square> prefs; F0R(i,sz(v)) { ckmin(xl,v[i].f), ckmax(xr,v[i].f); ckmin(yl,v[i].s), ckmax(yr,v[i].s); int len = max({xr-xl,yr-yl,1}); prefs.pb(make_square(xr-len,yr-len,len)); } return prefs; } V<Square> neg(V<Square> v) {// OK, negate x values each(t,v) t.f.f *= -1, t.s.f *= -1; return v; } void solve() { sor(points); { // K == 1 int xl = points[0].f, xr = points[0].f; int yl = points[0].s, yr = points[0].s; each(t,points) { ckmin(xl,t.f), ckmax(xr,t.f); ckmin(yl,t.s), ckmax(yr,t.s); } V<Square> cand; cand.pb(make_square(xl,yl,max({xr-xl,yr-yl,1}))); check(cand); } if (K >= 2) { // K == 2 V<Square> pref_square = get_prefs(points); V<Square> suf_square = neg(get_prefs(rev(neg(points)))); reverse(all(suf_square)); F0R(i,sz(pref_square)-1) if (points[i].f < points[i+1].f) { check({pref_square[i],suf_square[i+1]}, true); } // dbg("HUH",v); // dbg(pref_square); // dbg(suf_square); // dbg(ans); } } tcT> void rot(T& p) { p = mp(-p.s,p.f); // fassert(abs(p.f) <= BIG && abs(p.s) <= BIG) } int main() { setIO(); re(N,K); points.rsz(N); re(points); ans.f = 2*MOD; rep(4) { solve(); each(t,points) rot(t); each(t,ans.s) rot(t.f), rot(t.s); } each(t,ans.s) { pl a = t.f; pl b = t.s; order(a.f,b.f); order(a.s,b.s); assert(b.f-a.f == b.s-a.s); assert(abs(a.f) <= BIG); assert(abs(a.s) <= BIG); ps(a.f,a.s,b.f-a.f); } // you should actually read the stuff at the bottom } /* stuff you should look for * int overflow, array bounds * special cases (n=1?) * do smth instead of nothing and stay organized * WRITE STUFF DOWN * DON'T GET STUCK ON ONE APPROACH */

Compilation message (stderr)

izvanzemaljci.cpp: In function 'void FileIO::setIn(str)':
izvanzemaljci.cpp:245:30: warning: ignoring return value of 'FILE* freopen(const char*, const char*, FILE*)' declared with attribute 'warn_unused_result' [-Wunused-result]
  245 |  void setIn(str s)  { freopen(s.c_str(),"r",stdin); }
      |                       ~~~~~~~^~~~~~~~~~~~~~~~~~~~~
izvanzemaljci.cpp: In function 'void FileIO::setOut(str)':
izvanzemaljci.cpp:246:30: warning: ignoring return value of 'FILE* freopen(const char*, const char*, FILE*)' declared with attribute 'warn_unused_result' [-Wunused-result]
  246 |  void setOut(str s) { freopen(s.c_str(),"w",stdout); }
      |                       ~~~~~~~^~~~~~~~~~~~~~~~~~~~~~
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