Datasets:

FrontierCS
/

Frontier-CS

	#include "testlib.h"
	#include <bits/stdc++.h>
	using namespace std;

	// ---------- helpers ----------
	static inline bool parse_ll(const string& s, long long& x) {
	if (s.empty()) return false;
	size_t i = 0;
	if (s[0] == '+' \|\| s[0] == '-') i = 1;
	if (i == s.size()) return false;
	for (; i < s.size(); ++i) if (s[i] < '0' \|\| s[i] > '9') return false;
	try {
	size_t pos = 0; long long v = stoll(s, &pos, 10);
	if (pos != s.size()) return false; x = v; return true;
	} catch (...) { return false; }
	}
	static inline bool parse_int32(const string& s, int& x) {
	long long t; if (!parse_ll(s, t)) return false;
	if (t < INT_MIN \|\| t > INT_MAX) return false; x = (int)t; return true;
	}

	int main(int argc, char* argv[]) {
	setName("Mineral Pairing interactor (stdout version; WA on violations; ratio on AC; queries allowed after first '!')");
	registerInteraction(argc, argv);

	// ---- Problem constraints ----
	const int N_MIN = 1;
	const int N_MAX = 43000;
	const int QUERY_LIMIT = 1000000; // hard limit for answered '?' queries

	// ---- Read hidden instance from 'inf' ----
	int n = inf.readInt(N_MIN, N_MAX, "n");
	const int m = 2 * n;

	vector<int> kind(m + 1);
	for (int x = 1; x <= m; ++x) {
	kind[x] = inf.readInt(1, n, format("kind[%d]", x).c_str());
	}
	{
	vector<int> cnt(n + 1, 0);
	for (int x = 1; x <= m; ++x) ++cnt[kind[x]];
	for (int k = 1; k <= n; ++k) {
	ensuref(cnt[k] == 2, "Kind %d occurs %d times (expected exactly 2).", k, cnt[k]);
	}
	}

	// ---- Read optimal #queries from '.ans' ----
	int optimal_queries = ans.readInt(0, QUERY_LIMIT, "optimal_queries");

	// ---- Public output: announce n and FLUSH ----
	cout << n << '\n' << flush;

	// ---- Device state ----
	int queries = 0; // number of answered '?' queries
	vector<char> present(m + 1, 0); // present[x] ? 1 : 0
	vector<int> have(n + 1, 0); // how many slices of kind k are present (0..2)
	int distinctKinds = 0; // # of kinds k with have[k] > 0

	auto toggle = [&](int x) -> int {
	int k = kind[x];
	if (!present[x]) {
	present[x] = 1;
	if (have[k] == 0) ++distinctKinds;
	++have[k];
	} else {
	present[x] = 0;
	--have[k];
	if (have[k] == 0) --distinctKinds;
	}
	return distinctKinds;
	};

	auto compute_ratio_unbounded = [&](int q_used, int q_opt) -> double {
	long long denom = 1000000LL - (long long)q_opt;
	long long numer = 1000000LL - (long long)q_used;
	if (denom <= 0) return (q_used <= 1000000 ? 1.0 : 0.0);
	double r = (double)numer / (double)denom;
	if (r < 0.0) r = 0.0;
	// if (r > 1.0) r = 1.0;
	return r;
	};

	auto accept_with_ratio = [&](int q_used) {
	double ratio_unbounded = compute_ratio_unbounded(q_used, optimal_queries);
	double ratio = std::min(1.0, ratio_unbounded);

	long long your_score = 1000000LL - (long long)q_used;
	long long opt_score = 1000000LL - (long long)optimal_queries;
	quitp(ratio,
	"Accepted. Queries used: %d. Your score = 1000000 - %d = %lld. "
	"Optimal queries: %d. Optimal score = 1000000 - %d = %lld. Ratio: %.4f, RatioUnbounded: %.4f",
	q_used, q_used, your_score,
	optimal_queries, optimal_queries, opt_score, ratio, ratio_unbounded);
	};

	// ---- Final answer tracking ----
	vector<char> used(m + 1, 0);
	int answered_pairs = 0;

	try {
	while (true) {
	string cmd = ouf.readToken();

	if (cmd == "?") {
	string sx = ouf.readToken();
	int x = 0;
	if (!parse_int32(sx, x)) {
	quitf(_pe, "Invalid query: expected integer for x, got '%s'.",
	compress(sx).c_str());
	}
	if (x < 1 \|\| x > m) {
	quitf(_wa, "Query out of bounds: x=%d (valid range is [1,%d]).", x, m);
	}
	if (queries >= QUERY_LIMIT) {
	quitf(_wa, "Too many queries: %d >= %d.", queries, QUERY_LIMIT);
	}
	int r = toggle(x);
	cout << r << '\n' << flush;
	++queries;
	}
	else if (cmd == "!") {
	string sa = ouf.readToken();
	string sb = ouf.readToken();
	int a = 0, b = 0;
	if (!parse_int32(sa, a) \|\| !parse_int32(sb, b)) {
	quitf(_pe, "Invalid answer line: expected integers for a and b, got '%s' and '%s'.",
	compress(sa).c_str(), compress(sb).c_str());
	}
	if (a < 1 \|\| a > m \|\| b < 1 \|\| b > m) {
	quitf(_wa, "Answer out of bounds: a=%d, b=%d (valid range is [1,%d]).", a, b, m);
	}
	if (a == b) {
	quitf(_wa, "Wrong Answer: pair has identical indices (%d,%d). Queries used: %d.",
	a, b, queries);
	}
	if (used[a] \|\| used[b]) {
	quitf(_wa, "Wrong Answer: repeated slice index in answers "
	"(a=%d used=%d, b=%d used=%d). Queries used: %d.",
	a, (int)used[a], b, (int)used[b], queries);
	}
	if (kind[a] != kind[b]) {
	quitf(_wa, "Wrong Answer: slices %d and %d are different kinds (%d != %d). "
	"Queries used: %d.",
	a, b, kind[a], kind[b], queries);
	}

	used[a] = used[b] = 1;
	++answered_pairs;

	if (answered_pairs == n) {
	// Ensure every index covered exactly once
	for (int x = 1; x <= m; ++x) {
	if (!used[x]) {
	quitf(_wa, "Wrong Answer: slice %d not covered by any pair. Queries used: %d.",
	x, queries);
	}
	}
	// Accepted only here
	accept_with_ratio(queries);
	}
	}
	else {
	quitf(_pe, "Expected '?' or '!' but got '%s'.", compress(cmd).c_str());
	}
	}
	} catch (const exception&) {
	// If stream ended before giving n pairs, that's a WA by statement.
	if (answered_pairs < n) {
	quitf(_wa, "Wrong number of answers: expected %d pairs, got %d.", n, answered_pairs);
	}
	throw;
	}
	}