Submission #1009749

#TimeUsernameProblemLanguageResultExecution timeMemory
1009749asdfgracePalembang Bridges (APIO15_bridge)C++17
22 / 100
30 ms2788 KiB
#include <bits/stdc++.h> using namespace std; #define dbg(x) x #define prt(x) dbg(cerr << x) #define pv(x) dbg(cerr << #x << " = " << x << '\n') #define pv2(x) dbg(cerr << #x << " = " << x.first << ',' << x.second << '\n') #define parr(x) dbg(prt(#x << " = { "); for (auto y : x) prt(y << ' '); prt("}\n");) #define parr2(x) dbg(prt(#x << " = { "); for (auto [y, z] : x) prt(y << ',' << z << " "); prt("}\n");) #define parr2d(x) dbg(prt(#x << ":\n"); for (auto arr : x) {parr(arr);} prt('\n')); #define parr2d2(x) dbg(prt(#x << ":\n"); for (auto arr : x) {parr2(arr);} prt('\n')); /* build 1 or 2 bridges add to baseline of sum of all distances driven without crossing bridge + n then only consider people crossing k=1: minimize the sum of all abs(s[i] - x) + abs(t[i] - x) one of the given locs is optimal so here treat all s[i] and t[i] the same, sort, etc. k=2: if l <= x or y <= r, dist = r - l else, dist = r - l + 2 * (dist btwn either end & closest bridge) assume x < y 5 cases 1) left of x 2) contains x 3) btwn x, y 4) contains y 5) right of y best y for each x? everything to left/containing x is handled (i.e. everything with l <= x) n^2 sol: for (each i) case 1: x = l[i] everything true case 2: x = r[i] */ int main() { ios::sync_with_stdio(0); cin.tie(0); int k, n; cin >> k >> n; vector<array<int, 2>> a; long long bsl = 0; for (int i = 0; i < n; i++) { char c1, c2; int i1, i2; cin >> c1 >> i1 >> c2 >> i2; if (c1 == c2) { bsl += abs(i2 - i1); } else { if (i2 > i1) swap(i1, i2); a.push_back({i1, i2}); bsl++; } } n = (int) a.size(); vector<int> b; for (int i = 0; i < n; i++) { b.push_back(a[i][0]); b.push_back(a[i][1]); } sort(b.begin(), b.end()); if (k == 1) { long long sum = 0; for (int i = 0; i < 2 * n; i++) { sum += b[i] - b[0]; } long long best = sum; for (int i = 1; i < 2 * n; i++) { sum += (long long) i * (b[i] - b[i - 1]); sum -= (long long) (2 * n - i) * (b[i] - b[i - 1]); best = min(best, sum); } cout << best + bsl << '\n'; } else { long long best = 1e18; for (int x = 0; x < 2 * n; x++) { for (int y = x + 1; y < 2 * n; y++) { long long sum = 0; for (int i = 0; i < n; i++) { sum += min(abs(a[i][0] - b[x]) + abs(a[i][1] - b[x]), abs(a[i][0] - b[y] + abs(a[i][1] - b[y]))); } best = min(best, sum); } } cout << best + bsl << '\n'; } } /* any observations help check every line IF YOUR LINES AREN'T WRONG CHECK IF YOUR LINES ARE IN THE RIGHT ORDER NEVER GIVE UP */
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