CSES - Putka Open 2020 – 1/5

CSES - Putka Open 2020 – 1/5 - Results

Submission details
Task:	Vaihdot
Sender:	Metabolix
Submission time:	2020-09-06 13:03:33 +0300
Language:	C++ (C++11)
Status:	READY
Result:	36

Feedback
group	verdict	score
#1	ACCEPTED	13
#2	ACCEPTED	23
#3	TIME LIMIT EXCEEDED	0

Test results
test	verdict	time	group
#1	ACCEPTED	0.01 s	1, 2, 3	details
#2	ACCEPTED	0.01 s	1, 2, 3	details
#3	ACCEPTED	0.01 s	1, 2, 3	details
#4	ACCEPTED	0.01 s	1, 2, 3	details
#5	ACCEPTED	0.01 s	1, 2, 3	details
#6	ACCEPTED	0.01 s	1, 2, 3	details
#7	ACCEPTED	0.01 s	1, 2, 3	details
#8	ACCEPTED	0.01 s	1, 2, 3	details
#9	ACCEPTED	0.03 s	2, 3	details
#10	ACCEPTED	0.03 s	2, 3	details
#11	ACCEPTED	0.03 s	2, 3	details
#12	ACCEPTED	0.03 s	2, 3	details
#13	ACCEPTED	0.03 s	2, 3	details
#14	ACCEPTED	0.04 s	2, 3	details
#15	ACCEPTED	0.04 s	2, 3	details
#16	ACCEPTED	0.04 s	2, 3	details
#17	ACCEPTED	0.69 s	3	details
#18	ACCEPTED	0.68 s	3	details
#19	ACCEPTED	0.73 s	3	details
#20	ACCEPTED	0.75 s	3	details
#21	ACCEPTED	0.78 s	3	details
#22	ACCEPTED	0.99 s	3	details
#23	TIME LIMIT EXCEEDED	--	3	details
#24	TIME LIMIT EXCEEDED	--	3	details

Code

#include <iostream>
#include <unordered_set>

#define MAX 200000
#define MAX_POW2 262144
int n, L[MAX+4], Li[MAX+4], oikea[MAX+4];

int matka_4(int a, int b, int c, int d) {
	if (a < b && b < c && c < d) return 1;
	if ((a < b && b < c) || (b < c && c < d) || (a < b && c < d)) return 2;
	if (a < b || b < c || c < d) return 3;
	return 4;
}

int vaihtamalla_paranee(int a, int b1, int b2, int c) {
	if (a < b1 && b1 < c) {
		if (a < b2 && b2 < c) return 0;
		if (a < b2 || b2 < c) return -1;
		return -2;
	}
	if (a < b1 || b1 < c) {
		if (a < b2 && b2 < c) return 1;
		if (a < b2 || b2 < c) return 0;
		return -1;
	}
	if (a < b2 && b2 < c) return 2;
	if (a < b2 || b2 < c) return 1;
	return 0;
}

struct tulos {
	int kierroksia0 = 1, parannus = -3;
	long tapoja = 0;
	void uusi(int p, int n = 1) {
		if (n <= 0) {
			return;
		} else if (p > parannus) {
			parannus = p;
			tapoja = n;
		} else if (p == parannus) {
			tapoja += n;
		}
	}
};

struct magic {
	std::unordered_set<int> data;
	int count_tree[MAX_POW2 * 2] = {0};
	void insert(int i) {
		if (data.insert(i).second) {
			update_count(Li[i], 1);
		}
	}
	int erase(int i) {
		if (data.erase(i)) {
			update_count(Li[i], -1);
			return 1;
		}
		return 0;
	}
	int count(int i) {
		return data.count(i);
	}
	void update_count(int i, int val) {
		i |= MAX_POW2;
		while (i) {
			count_tree[i] += val;
			i >>= 1;
		}
	}
	int count_interval(int a, int b) {
		return count_interval_(a, b+1, 0, MAX_POW2, 1);
	}
	int count_interval_(int a, int b, int a0, int b0, int node) {
		if (b0 <= a || b <= a0) {
			return 0;
		}
		if (a <= a0 && b0 <= b) {
			return count_tree[node];
		}
		int c0 = (a0 + b0) / 2;
		return count_interval_(a, b, a0, c0, (node << 1)) + count_interval_(a, b, c0, b0, (node << 1) | 1);
	}
};

std::unordered_set<int> oikeat;
magic paranee, sama, huononee;

void aseta_oikea(int i) {
	oikeat.insert(i);
	if (oikea[i]) {
		paranee.erase(i);
		sama.insert(i);
	} else {
		paranee.insert(i);
		sama.erase(i);
	}
	huononee.erase(i);
}

void aseta_vaara(int i) {
	oikeat.erase(i);
	paranee.erase(i);
	if (oikea[i]) {
		sama.erase(i);
		huononee.insert(i);
	} else {
		sama.insert(i);
		huononee.erase(i);
	}
}

void havaittu(int i) {
	if (i + 1 <= n) aseta_oikea(i + 1);
	if (i - 1 >= 1) aseta_vaara(i - 1);
}

int aseta_tauolle(int i) {
	if (paranee.erase(i)) return 1;
	if (sama.erase(i)) return 0;
	if (huononee.erase(i)) return -1;
	return -2;
}

void aseta_takaisin(int i, int mihin) {
	switch (mihin) {
		case -1: huononee.insert(i); break;
		case 0: sama.insert(i); break;
		case 1: paranee.insert(i); break;
	}
}

int main() {
	std::cin >> n;
	L[0] = Li[0] = 0;
	L[n+1] = Li[n+1] = n+1;
	L[n+2] = Li[n+2] = n+2;
	oikea[0] = oikea[n+1] = oikea[n+2] = 1;

	for (int i = 1; i <= n; ++i) {
		std::cin >> L[i];
		Li[L[i]] = i;
	}

	// oikeat (set)
	for (int i = 1; i <= n; ++i) {
		havaittu(L[i]);
	}
	aseta_oikea(1);
	aseta_vaara(n);

	// oikea (array)
	for (int i = 1; i <= n; ++i) {
		oikea[L[i]] = oikeat.count(L[i]);
		havaittu(L[i]);
	}
	aseta_oikea(1);
	aseta_vaara(n);

	// paranee/huononee
	for (int i = 1; i <= n; ++i) {
		havaittu(L[i]);
	}
	aseta_oikea(1);
	aseta_vaara(n);

	// ratkaisu.
	tulos t;
	for (int i = 1; i <= n; ++i) {
		if (Li[i+1] < Li[i]) {
			t.kierroksia0 += 1;
		}
	}

	// vaihto i ~ i+1
	for (int i = 1; i < n; ++i) {
		int m0 = matka_4(Li[i - 1], Li[i], Li[i + 1], Li[i + 2]);
		int m1 = matka_4(Li[i - 1], Li[i + 1], Li[i], Li[i + 2]);
		t.uusi(m0 - m1);
	}
	t.tapoja *= 2;

	// muut vaihdot
	for (int i = 1; i <= n; ++i) {
		int i_luku = L[i];
		int a = std::min(Li[i_luku - 1], Li[i_luku + 1]);
		int b = std::max(Li[i_luku - 1], Li[i_luku + 1]);
		int muutos_0a = vaihtamalla_paranee(Li[i_luku - 1], i, a-1, Li[i_luku + 1]);
		int muutos_ab = vaihtamalla_paranee(Li[i_luku - 1], i, a+1, Li[i_luku + 1]);
		int muutos_bn = vaihtamalla_paranee(Li[i_luku - 1], i, b+1, Li[i_luku + 1]);

		std::pair<int, int> tauot[] = {
			{ i, aseta_tauolle(L[i]) },
			{ a, aseta_tauolle(L[a]) },
			{ b, aseta_tauolle(L[b]) }
		};

		t.uusi(1 + muutos_0a, paranee.count_interval(1, a));
		t.uusi(1 + muutos_ab, paranee.count_interval(a, b));
		t.uusi(1 + muutos_bn, paranee.count_interval(b, n));

		t.uusi(0 + muutos_0a, sama.count_interval(1, a));
		t.uusi(0 + muutos_ab, sama.count_interval(a, b));
		t.uusi(0 + muutos_bn, sama.count_interval(b, n));

		t.uusi(-1 + muutos_0a, huononee.count_interval(1, a));
		t.uusi(-1 + muutos_ab, huononee.count_interval(a, b));
		t.uusi(-1 + muutos_bn, huononee.count_interval(b, n));

		for (auto x: tauot) {
			aseta_takaisin(L[x.first], x.second);
		}

		havaittu(L[i]);
	}

	printf("%d %ld\n", t.kierroksia0 - t.parannus, t.tapoja / 2);
}

Test details

Test 1

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`2 99` view save

user output
`2 99` view save

Test 2

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 100 99 98 97 96 95 94 93 92 91...` view save

correct output
`98 4851` view save

user output
`98 4851` view save

Test 3

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 1 2 88 4 5 6 7 8 9 10 11 12 13...` view save

correct output
`16 5` view save

user output
`16 5` view save

Test 4

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 51 48 74 70 45 71 24 88 55 99 ...` view save

correct output
`49 131` view save

user output
`49 131` view save

Test 5

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 45 67 29 62 70 77 41 74 52 95 ...` view save

correct output
`52 268` view save

user output
`52 268` view save

Test 6

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 47 98 2 75 6 21 84 8 4 89 27 9...` view save

correct output
`48 149` view save

user output
`48 149` view save

Test 7

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 73 68 17 94 71 63 61 13 58 10 ...` view save

correct output
`47 116` view save

user output
`47 116` view save

Test 8

Group: 1, 2, 3

Verdict: ACCEPTED

input
`100 17 16 45 94 6 1 36 81 31 13 51...` view save

correct output
`45 95` view save

user output
`45 95` view save

Test 9

Group: 2, 3

Verdict: ACCEPTED

input
`5000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`2 4999` view save

user output
`2 4999` view save

Test 10

Group: 2, 3

Verdict: ACCEPTED

input
`5000 5000 4999 4998 4997 4996 4995 ...` view save

correct output
`4998 12492501` view save

user output
`4998 12492501` view save

Test 11

Group: 2, 3

Verdict: ACCEPTED

input
`5000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`19 10` view save

user output
`19 10` view save

Test 12

Group: 2, 3

Verdict: ACCEPTED

input
`5000 1 2 3 4 5 6 264 8 9 10 11 12 1...` view save

correct output
`190 96` view save

user output
`190 96` view save

Test 13

Group: 2, 3

Verdict: ACCEPTED

input
`5000 1 2 3 4 5 6 7 8 9 2400 11 12 1...` view save

correct output
`1378 27938` view save

user output
`1378 27938` view save

Test 14

Group: 2, 3

Verdict: ACCEPTED

input
`5000 4012 2 4820 4208 1868 1728 362...` view save

correct output
`2511 436307` view save

user output
`2511 436307` view save

Test 15

Group: 2, 3

Verdict: ACCEPTED

input
`5000 3877 3972 1112 3669 1959 4640 ...` view save

correct output
`2497 417065` view save

user output
`2497 417065` view save

Test 16

Group: 2, 3

Verdict: ACCEPTED

input
`5000 2774 998 4525 2884 487 1995 41...` view save

correct output
`2518 426448` view save

user output
`2518 426448` view save

Test 17

Group: 3

Verdict: ACCEPTED

input
`200000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`2 199999` view save

user output
`2 199999` view save

Test 18

Group: 3

Verdict: ACCEPTED

input
`200000 200000 199999 199998 199997 19...` view save

correct output
`199998 19999700001` view save

user output
`199998 19999700001` view save

Test 19

Group: 3

Verdict: ACCEPTED

input
`200000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`19 10` view save

user output
`19 10` view save

Test 20

Group: 3

Verdict: ACCEPTED

input
`200000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`199 100` view save

user output
`199 100` view save

Test 21

Group: 3

Verdict: ACCEPTED

input
`200000 1 2 3 4 5 6 7 8 9 10 11 12 13 ...` view save

correct output
`1979 1030` view save

user output
`1979 1030` view save

Test 22

Group: 3

Verdict: ACCEPTED

input
`200000 1 2 184153 4 5 6 7 8 164545 10...` view save

correct output
`18081 477187` view save

user output
`18081 477187` view save

Test 23

Group: 3

Verdict: TIME LIMIT EXCEEDED

input
`200000 151013 68675 119105 58292 3335...` view save

correct output
`86328 318722426` view save

user output
(empty)

Test 24

Group: 3

Verdict: TIME LIMIT EXCEEDED

input
`200000 11562 33356 106752 170825 2723...` view save

correct output
`99873 663048119` view save

user output
(empty)

Putka Open 2020 – 1/5

Vaihdot

Code

Test details

Test 1

Test 2

Test 3

Test 4

Test 5

Test 6

Test 7

Test 8

Test 9

Test 10

Test 11

Test 12

Test 13

Test 14

Test 15

Test 16

Test 17

Test 18

Test 19

Test 20

Test 21

Test 22

Test 23

Test 24

Tasks

Submissions (Metabolix)