Split (2)

train · 621k rows

contestId int64 0 1.01k	index stringclasses 57 values	name stringlengths 2 58	type stringclasses 2 values	rating int64 0 3.5k	tags listlengths 0 11	title stringclasses 522 values	time-limit stringclasses 8 values	memory-limit stringclasses 8 values	problem-description stringlengths 0 7.15k	input-specification stringlengths 0 2.05k	output-specification stringlengths 0 1.5k	demo-input listlengths 0 7	demo-output listlengths 0 7	note stringlengths 0 5.24k	points float64 0 425k	test_cases listlengths 0 402	creationTimeSeconds int64 1.37B 1.7B	relativeTimeSeconds int64 8 2.15B	programmingLanguage stringclasses 3 values	verdict stringclasses 14 values	testset stringclasses 12 values	passedTestCount int64 0 1k	timeConsumedMillis int64 0 15k	memoryConsumedBytes int64 0 805M	code stringlengths 3 65.5k	prompt stringlengths 262 8.2k	response stringlengths 17 65.5k	score float64 -1 3.99
796	A	Buying A House	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	Zane the wizard had never loved anyone before, until he fell in love with a girl, whose name remains unknown to us. The girl lives in house m of a village. There are n houses in that village, lining in a straight line from left to right: house 1, house 2, ..., house n. The village is also well-structured: house i and house i<=+<=1 (1<=≤<=i<=<<=n) are exactly 10 meters away. In this village, some houses are occupied, and some are not. Indeed, unoccupied houses can be purchased. You will be given n integers a1,<=a2,<=...,<=an that denote the availability and the prices of the houses. If house i is occupied, and therefore cannot be bought, then ai equals 0. Otherwise, house i can be bought, and ai represents the money required to buy it, in dollars. As Zane has only k dollars to spare, it becomes a challenge for him to choose the house to purchase, so that he could live as near as possible to his crush. Help Zane determine the minimum distance from his crush's house to some house he can afford, to help him succeed in his love.	The first line contains three integers n, m, and k (2<=≤<=n<=≤<=100, 1<=≤<=m<=≤<=n, 1<=≤<=k<=≤<=100) — the number of houses in the village, the house where the girl lives, and the amount of money Zane has (in dollars), respectively. The second line contains n integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=100) — denoting the availability and the prices of the houses. It is guaranteed that am<==<=0 and that it is possible to purchase some house with no more than k dollars.	Print one integer — the minimum distance, in meters, from the house where the girl Zane likes lives to the house Zane can buy.	[ "5 1 20\n0 27 32 21 19\n", "7 3 50\n62 0 0 0 99 33 22\n", "10 5 100\n1 0 1 0 0 0 0 0 1 1\n" ]	[ "40", "30", "20" ]	In the first sample, with k = 20 dollars, Zane can buy only house 5. The distance from house m = 1 to house 5 is 10 + 10 + 10 + 10 = 40 meters. In the second sample, Zane can buy houses 6 and 7. It is better to buy house 6 than house 7, since house m = 3 and house 6 are only 30 meters away, while house m = 3 and house 7 are 40 meters away.	500	[ { "input": "5 1 20\n0 27 32 21 19", "output": "40" }, { "input": "7 3 50\n62 0 0 0 99 33 22", "output": "30" }, { "input": "10 5 100\n1 0 1 0 0 0 0 0 1 1", "output": "20" }, { "input": "5 3 1\n1 1 0 0 1", "output": "10" }, { "input": "5 5 5\n1 0 5 6 0", "output": "20" }, { "input": "15 10 50\n20 0 49 50 50 50 50 50 50 0 50 50 49 0 20", "output": "10" }, { "input": "7 5 1\n0 100 2 2 0 2 1", "output": "20" }, { "input": "100 50 100\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 0 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100", "output": "10" }, { "input": "100 50 1\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 0 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100", "output": "490" }, { "input": "100 77 50\n50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 0 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0 50 100 49 51 0", "output": "10" }, { "input": "100 1 1\n0 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0", "output": "980" }, { "input": "100 1 100\n0 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100", "output": "10" }, { "input": "100 10 99\n0 0 0 0 0 0 0 0 0 0 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 99 98", "output": "890" }, { "input": "7 4 5\n1 0 6 0 5 6 0", "output": "10" }, { "input": "7 4 5\n1 6 5 0 0 6 0", "output": "10" }, { "input": "100 42 59\n50 50 50 50 50 50 50 50 50 50 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 59 60 60 60 60 60 60 60 60 0 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 60 0", "output": "90" }, { "input": "2 1 100\n0 1", "output": "10" }, { "input": "2 2 100\n1 0", "output": "10" }, { "input": "10 1 88\n0 95 0 0 0 0 0 94 0 85", "output": "90" }, { "input": "10 2 14\n2 0 1 26 77 39 41 100 13 32", "output": "10" }, { "input": "10 3 11\n0 0 0 0 0 62 0 52 1 35", "output": "60" }, { "input": "20 12 44\n27 40 58 69 53 38 31 39 75 95 8 0 28 81 77 90 38 61 21 88", "output": "10" }, { "input": "30 29 10\n59 79 34 12 100 6 1 58 18 73 54 11 37 46 89 90 80 85 73 45 64 5 31 0 89 19 0 74 0 82", "output": "70" }, { "input": "40 22 1\n7 95 44 53 0 0 19 93 0 68 65 0 24 91 10 58 17 0 71 0 100 0 94 90 79 73 0 73 4 61 54 81 7 13 21 84 5 41 0 1", "output": "180" }, { "input": "40 22 99\n60 0 100 0 0 100 100 0 0 0 0 100 100 0 0 100 100 0 100 100 100 0 100 100 100 0 100 100 0 0 100 100 100 0 0 100 0 100 0 0", "output": "210" }, { "input": "50 10 82\n56 54 0 0 0 0 88 93 0 0 83 93 0 0 91 89 0 30 62 52 24 84 80 8 38 13 92 78 16 87 23 30 71 55 16 63 15 99 4 93 24 6 3 35 4 42 73 27 86 37", "output": "80" }, { "input": "63 49 22\n18 3 97 52 75 2 12 24 58 75 80 97 22 10 79 51 30 60 68 99 75 2 35 3 97 88 9 7 18 5 0 0 0 91 0 91 56 36 76 0 0 0 52 27 35 0 51 72 0 96 57 0 0 0 0 92 55 28 0 30 0 78 77", "output": "190" }, { "input": "74 38 51\n53 36 55 42 64 5 87 9 0 16 86 78 9 22 19 1 25 72 1 0 0 0 79 0 0 0 77 58 70 0 0 100 64 0 99 59 0 0 0 0 65 74 0 96 0 58 89 93 61 88 0 0 82 89 0 0 49 24 7 77 89 87 94 61 100 31 93 70 39 49 39 14 20 84", "output": "190" }, { "input": "89 22 11\n36 0 68 89 0 85 72 0 38 56 0 44 0 94 0 28 71 0 0 18 0 0 0 89 0 0 0 75 0 0 0 32 66 0 0 0 0 0 0 48 63 0 64 58 0 23 48 0 0 52 93 61 57 0 18 0 0 34 62 17 0 41 0 0 53 59 44 0 0 51 40 0 0 100 100 54 0 88 0 5 45 56 57 67 24 16 88 86 15", "output": "580" }, { "input": "97 44 100\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 51 19", "output": "520" }, { "input": "100 1 1\n0 0 0 0 10 54 84 6 17 94 65 82 34 0 61 46 42 0 2 16 56 0 100 0 82 0 0 0 89 78 96 56 0 0 0 0 0 0 0 0 77 70 0 96 67 0 0 32 44 1 72 50 14 11 24 61 100 64 19 5 67 69 44 82 93 22 67 93 22 61 53 64 79 41 84 48 43 97 7 24 8 49 23 16 72 52 97 29 69 47 29 49 64 91 4 73 17 18 51 67", "output": "490" }, { "input": "100 1 50\n0 0 0 60 0 0 54 0 80 0 0 0 97 0 68 97 84 0 0 93 0 0 0 0 68 0 0 62 0 0 55 68 65 87 0 69 0 0 0 0 0 52 61 100 0 71 0 82 88 78 0 81 0 95 0 57 0 67 0 0 0 55 86 0 60 72 0 0 73 0 83 0 0 60 64 0 56 0 0 77 84 0 58 63 84 0 0 67 0 16 3 88 0 98 31 52 40 35 85 23", "output": "890" }, { "input": "100 1 100\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 91 70 14", "output": "970" }, { "input": "100 1 29\n0 0 0 0 64 0 89 97 0 0 0 59 0 67 62 0 59 0 0 80 0 0 0 0 0 97 0 57 0 64 32 0 44 0 0 48 0 47 38 0 42 0 0 0 0 0 0 46 74 0 86 33 33 0 44 0 79 0 0 0 0 91 59 0 59 65 55 0 0 58 33 95 0 97 76 0 81 0 41 0 38 81 80 0 85 0 31 0 0 92 0 0 45 96 0 85 91 87 0 10", "output": "990" }, { "input": "100 50 20\n3 0 32 0 48 32 64 0 54 26 0 0 0 0 0 28 0 0 54 0 0 45 49 0 38 74 0 0 39 42 62 48 75 96 89 42 0 44 0 0 30 21 76 0 50 0 79 0 0 0 0 99 0 84 62 0 0 0 0 53 80 0 28 0 0 53 0 0 38 0 62 0 0 62 0 0 88 0 44 32 0 81 35 45 49 0 69 73 38 27 72 0 96 72 69 0 0 22 76 10", "output": "490" }, { "input": "100 50 20\n49 0 56 0 87 25 40 0 50 0 0 97 0 0 36 29 0 0 0 0 0 73 29 71 44 0 0 0 91 92 69 0 0 60 81 49 48 38 0 87 0 82 0 32 0 82 46 39 0 0 29 0 0 29 0 79 47 0 0 0 0 0 49 0 24 33 70 0 63 45 97 90 0 0 29 53 55 0 84 0 0 100 26 0 88 0 0 0 0 81 70 0 30 80 0 75 59 98 0 2", "output": "500" }, { "input": "100 2 2\n0 0 43 90 47 5 2 97 52 69 21 48 64 10 34 97 97 74 8 19 68 56 55 24 47 38 43 73 72 72 60 60 51 36 33 44 100 45 13 54 72 52 0 15 3 6 50 8 88 4 78 26 40 27 30 63 67 83 61 91 33 97 54 20 92 27 89 35 10 7 84 50 11 95 74 88 24 44 74 100 18 56 34 91 41 34 51 51 11 91 89 54 19 100 83 89 10 17 76 20", "output": "50" }, { "input": "100 100 34\n5 73 0 0 44 0 0 0 79 55 0 0 0 0 0 0 0 0 83 67 75 0 0 0 0 59 0 74 0 0 47 98 0 0 72 41 0 55 87 0 0 78 84 0 0 39 0 79 72 95 0 0 0 0 0 85 53 84 0 0 0 0 37 75 0 66 0 0 0 0 61 0 70 0 37 60 42 78 92 52 0 0 0 55 77 57 0 63 37 0 0 0 96 70 0 94 97 0 0 0", "output": "990" }, { "input": "100 100 100\n43 79 21 87 84 14 28 69 92 16 3 71 79 37 48 37 72 58 12 72 62 49 37 17 60 54 41 99 15 72 40 89 76 1 99 87 14 56 63 48 69 37 96 64 7 14 1 73 85 33 98 70 97 71 96 28 49 71 56 2 67 22 100 2 98 100 62 77 92 76 98 98 47 26 22 47 50 56 9 16 72 47 5 62 29 78 81 1 0 63 32 65 87 3 40 53 8 80 93 0", "output": "10" }, { "input": "100 38 1\n3 59 12 81 33 95 0 41 36 17 63 76 42 77 85 56 3 96 55 41 24 87 18 9 0 37 0 61 69 0 0 0 67 0 0 0 0 0 0 18 0 0 47 56 74 0 0 80 0 42 0 1 60 59 62 9 19 87 92 48 58 30 98 51 99 10 42 94 51 53 50 89 24 5 52 82 50 39 98 8 95 4 57 21 10 0 44 32 19 14 64 34 79 76 17 3 15 22 71 51", "output": "140" }, { "input": "100 72 1\n56 98 8 27 9 23 16 76 56 1 34 43 96 73 75 49 62 20 18 23 51 55 30 84 4 20 89 40 75 16 69 35 1 0 16 0 80 0 41 17 0 0 76 23 0 92 0 34 0 91 82 54 0 0 0 63 85 59 98 24 29 0 8 77 26 0 34 95 39 0 0 0 74 0 0 0 0 12 0 92 0 0 55 95 66 30 0 0 29 98 0 0 0 47 0 0 80 0 0 4", "output": "390" }, { "input": "100 66 1\n38 50 64 91 37 44 74 21 14 41 80 90 26 51 78 85 80 86 44 14 49 75 93 48 78 89 23 72 35 22 14 48 100 71 62 22 7 95 80 66 32 20 17 47 79 30 41 52 15 62 67 71 1 6 0 9 0 0 0 11 0 0 24 0 31 0 77 0 51 0 0 0 0 0 0 77 0 36 44 19 90 45 6 25 100 87 93 30 4 97 36 88 33 50 26 71 97 71 51 68", "output": "130" }, { "input": "100 55 1\n0 33 45 83 56 96 58 24 45 30 38 60 39 69 21 87 59 21 72 73 27 46 61 61 11 97 77 5 39 3 3 35 76 37 53 84 24 75 9 48 31 90 100 84 74 81 83 83 42 23 29 94 18 1 0 53 52 99 86 37 94 54 28 75 28 80 17 14 98 68 76 20 32 23 42 31 57 79 60 14 18 27 1 98 32 3 96 25 15 38 2 6 3 28 59 54 63 2 43 59", "output": "10" }, { "input": "100 55 1\n24 52 41 6 55 11 58 25 63 12 70 39 23 28 72 17 96 85 7 84 21 13 34 37 97 43 36 32 15 30 58 5 14 71 40 70 9 92 44 73 31 58 96 90 19 35 29 91 25 36 48 95 61 78 0 1 99 61 81 88 42 53 61 57 42 55 74 45 41 92 99 30 20 25 89 50 37 4 17 24 6 65 15 44 40 2 38 43 7 90 38 59 75 87 96 28 12 67 24 32", "output": "10" }, { "input": "100 21 1\n62 5 97 80 81 28 83 0 26 0 0 0 0 23 0 0 90 0 0 0 0 0 0 0 0 54 71 8 0 0 42 0 73 0 17 0 1 31 71 78 58 72 84 39 54 59 13 29 16 41 71 35 88 55 70 50 33 100 100 60 52 90 7 66 44 55 51 42 90 17 86 44 46 8 52 74 8 22 2 92 34 37 58 98 70 74 19 91 74 25 4 38 71 68 50 68 63 14 60 98", "output": "160" }, { "input": "5 2 20\n27 0 32 21 19", "output": "30" }, { "input": "6 4 10\n10 0 0 0 0 10", "output": "20" }, { "input": "8 7 100\n1 0 0 0 0 0 0 1", "output": "10" }, { "input": "5 3 20\n1 21 0 0 1", "output": "20" }, { "input": "4 3 1\n0 0 0 1", "output": "10" }, { "input": "5 2 3\n4 0 5 6 1", "output": "30" }, { "input": "5 3 87\n88 89 0 1 90", "output": "10" }, { "input": "5 3 20\n15 30 0 15 35", "output": "10" }, { "input": "6 3 50\n0 0 0 1 2 0", "output": "10" }, { "input": "6 4 9\n100 9 10 0 0 9", "output": "20" }, { "input": "5 4 20\n0 20 0 0 20", "output": "10" }, { "input": "6 3 3\n1 5 0 2 2 0", "output": "10" }, { "input": "5 4 100\n0 1 0 0 1", "output": "10" } ]	1,691,910,419	2,147,483,647	Python 3	OK	TESTS	58	46	0	n, m, k = list(map(int, input().split(' '))) a = list(map(int, input().split(' '))) s = float('inf') for i in range(n): if a[i] and a[i] - k <= 0: s = min(abs(m - (i + 1)), s) print(10 * s)	Title: Buying A House Time Limit: None seconds Memory Limit: None megabytes Problem Description: Zane the wizard had never loved anyone before, until he fell in love with a girl, whose name remains unknown to us. The girl lives in house m of a village. There are n houses in that village, lining in a straight line from left to right: house 1, house 2, ..., house n. The village is also well-structured: house i and house i<=+<=1 (1<=≤<=i<=<<=n) are exactly 10 meters away. In this village, some houses are occupied, and some are not. Indeed, unoccupied houses can be purchased. You will be given n integers a1,<=a2,<=...,<=an that denote the availability and the prices of the houses. If house i is occupied, and therefore cannot be bought, then ai equals 0. Otherwise, house i can be bought, and ai represents the money required to buy it, in dollars. As Zane has only k dollars to spare, it becomes a challenge for him to choose the house to purchase, so that he could live as near as possible to his crush. Help Zane determine the minimum distance from his crush's house to some house he can afford, to help him succeed in his love. Input Specification: The first line contains three integers n, m, and k (2<=≤<=n<=≤<=100, 1<=≤<=m<=≤<=n, 1<=≤<=k<=≤<=100) — the number of houses in the village, the house where the girl lives, and the amount of money Zane has (in dollars), respectively. The second line contains n integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=100) — denoting the availability and the prices of the houses. It is guaranteed that am<==<=0 and that it is possible to purchase some house with no more than k dollars. Output Specification: Print one integer — the minimum distance, in meters, from the house where the girl Zane likes lives to the house Zane can buy. Demo Input: ['5 1 20\n0 27 32 21 19\n', '7 3 50\n62 0 0 0 99 33 22\n', '10 5 100\n1 0 1 0 0 0 0 0 1 1\n'] Demo Output: ['40', '30', '20'] Note: In the first sample, with k = 20 dollars, Zane can buy only house 5. The distance from house m = 1 to house 5 is 10 + 10 + 10 + 10 = 40 meters. In the second sample, Zane can buy houses 6 and 7. It is better to buy house 6 than house 7, since house m = 3 and house 6 are only 30 meters away, while house m = 3 and house 7 are 40 meters away.	```python n, m, k = list(map(int, input().split(' '))) a = list(map(int, input().split(' '))) s = float('inf') for i in range(n): if a[i] and a[i] - k <= 0: s = min(abs(m - (i + 1)), s) print(10 * s) ```	3
980	A	Links and Pearls	PROGRAMMING	900	[ "implementation", "math" ]		null	null	A necklace can be described as a string of links ('-') and pearls ('o'), with the last link or pearl connected to the first one. You can remove a link or a pearl and insert it between two other existing links or pearls (or between a link and a pearl) on the necklace. This process can be repeated as many times as you like, but you can't throw away any parts. Can you make the number of links between every two adjacent pearls equal? Two pearls are considered to be adjacent if there is no other pearl between them. Note that the final necklace should remain as one circular part of the same length as the initial necklace.	The only line of input contains a string $s$ ($3 \leq \|s\| \leq 100$), representing the necklace, where a dash '-' represents a link and the lowercase English letter 'o' represents a pearl.	Print "YES" if the links and pearls can be rejoined such that the number of links between adjacent pearls is equal. Otherwise print "NO". You can print each letter in any case (upper or lower).	[ "-o-o--", "-o---\n", "-o---o-\n", "ooo\n" ]	[ "YES", "YES", "NO", "YES\n" ]	none	500	[ { "input": "-o-o--", "output": "YES" }, { "input": "-o---", "output": "YES" }, { "input": "-o---o-", "output": "NO" }, { "input": "ooo", "output": "YES" }, { "input": "---", "output": "YES" }, { "input": "--o-o-----o----o--oo-o-----ooo-oo---o--", "output": "YES" }, { "input": "-o--o-oo---o-o-o--o-o----oo------oo-----o----o-o-o--oo-o--o---o--o----------o---o-o-oo---o--o-oo-o--", "output": "NO" }, { "input": "-ooo--", "output": "YES" }, { "input": "---o--", "output": "YES" }, { "input": "oo-ooo", "output": "NO" }, { "input": "------o-o--o-----o--", "output": "YES" }, { "input": "--o---o----------o----o----------o--o-o-----o-oo---oo--oo---o-------------oo-----o-------------o---o", "output": "YES" }, { "input": "----------------------------------------------------------------------------------------------------", "output": "YES" }, { "input": "-oo-oo------", "output": "YES" }, { "input": "---------------------------------o----------------------------oo------------------------------------", "output": "NO" }, { "input": "oo--o--o--------oo----------------o-----------o----o-----o----------o---o---o-----o---------ooo---", "output": "NO" }, { "input": "--o---oooo--o-o--o-----o----ooooo--o-oo--o------oooo--------------ooo-o-o----", "output": "NO" }, { "input": "-----------------------------o--o-o-------", "output": "YES" }, { "input": "o-oo-o--oo----o-o----------o---o--o----o----o---oo-ooo-o--o-", "output": "YES" }, { "input": "oooooooooo-ooo-oooooo-ooooooooooooooo--o-o-oooooooooooooo-oooooooooooooo", "output": "NO" }, { "input": "-----------------o-o--oo------o--------o---o--o----------------oooo-------------ooo-----ooo-----o", "output": "NO" }, { "input": "ooo-ooooooo-oo-ooooooooo-oooooooooooooo-oooo-o-oooooooooo--oooooooooooo-oooooooooo-ooooooo", "output": "NO" }, { "input": "oo-o-ooooo---oo---o-oo---o--o-ooo-o---o-oo---oo---oooo---o---o-oo-oo-o-ooo----ooo--oo--o--oo-o-oo", "output": "NO" }, { "input": "-----o-----oo-o-o-o-o----o---------oo---ooo-------------o----o---o-o", "output": "YES" }, { "input": "oo--o-o-o----o-oooo-ooooo---o-oo--o-o--ooo--o--oooo--oo----o----o-o-oooo---o-oooo--ooo-o-o----oo---", "output": "NO" }, { "input": "------oo----o----o-oo-o--------o-----oo-----------------------o------------o-o----oo---------", "output": "NO" }, { "input": "-o--o--------o--o------o---o-o----------o-------o-o-o-------oo----oo------o------oo--o--", "output": "NO" }, { "input": "------------------o----------------------------------o-o-------------", "output": "YES" }, { "input": "-------------o----ooo-----o-o-------------ooo-----------ooo------o----oo---", "output": "YES" }, { "input": "-------o--------------------o--o---------------o---o--o-----", "output": "YES" }, { "input": "------------------------o------------o-----o----------------", "output": "YES" }, { "input": "------oo----------o------o-----o---------o------------o----o--o", "output": "YES" }, { "input": "------------o------------------o-----------------------o-----------o", "output": "YES" }, { "input": "o---o---------------", "output": "YES" }, { "input": "----------------------o---o----o---o-----------o-o-----o", "output": "YES" }, { "input": "----------------------------------------------------------------------o-o---------------------", "output": "YES" }, { "input": "----o---o-------------------------", "output": "YES" }, { "input": "o----------------------oo----", "output": "NO" }, { "input": "-o-o--o-o--o-----o-----o-o--o-o---oooo-o", "output": "NO" }, { "input": "-o-ooo-o--o----o--o-o-oo-----------o-o-", "output": "YES" }, { "input": "o-------o-------o-------------", "output": "YES" }, { "input": "oo----------------------o--------------o--------------o-----", "output": "YES" }, { "input": "-----------------------------------o---------------------o--------------------------", "output": "YES" }, { "input": "--o--o----o-o---o--o----o-o--oo-----o-oo--o---o---ooo-o--", "output": "YES" }, { "input": "---------------o-o----", "output": "YES" }, { "input": "o------ooo--o-o-oo--o------o----ooo-----o-----o-----o-ooo-o---o----oo", "output": "YES" }, { "input": "----o----o", "output": "YES" }, { "input": "o--o--o--o--o--o--o--o--o--o--o--o--", "output": "YES" }, { "input": "o---o---o---o---o----o----o----o---o---o---o", "output": "YES" }, { "input": "o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-", "output": "YES" }, { "input": "-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o-o", "output": "YES" }, { "input": "o----------o----------o----------o----------o----------o----------o----------o----------o----------o", "output": "YES" }, { "input": "o---------o---------o---------o---------o---------o---------o---------o---------o", "output": "YES" }, { "input": "--------o--------o--------o--------o--------o--------o--------o--------o--------", "output": "YES" }, { "input": "o---o----", "output": "NO" }, { "input": "---o----o", "output": "NO" }, { "input": "-o-", "output": "YES" }, { "input": "------oooo", "output": "NO" }, { "input": "oo--", "output": "YES" }, { "input": "---o", "output": "YES" }, { "input": "ooo-", "output": "NO" }, { "input": "oooooooo----------", "output": "NO" }, { "input": "oooo--", "output": "NO" }, { "input": "o-ooooo", "output": "NO" }, { "input": "-oo", "output": "NO" }, { "input": "ooooo-", "output": "NO" }, { "input": "ooo---------", "output": "YES" }, { "input": "oo-", "output": "NO" }, { "input": "---ooo", "output": "YES" } ]	1,526,133,420	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	4	62	7,065,600	s = input() b = s.count('o') n = s.count('-') if(n == 0 or n%b == 0): print("YES") else: print("NO")	Title: Links and Pearls Time Limit: None seconds Memory Limit: None megabytes Problem Description: A necklace can be described as a string of links ('-') and pearls ('o'), with the last link or pearl connected to the first one. You can remove a link or a pearl and insert it between two other existing links or pearls (or between a link and a pearl) on the necklace. This process can be repeated as many times as you like, but you can't throw away any parts. Can you make the number of links between every two adjacent pearls equal? Two pearls are considered to be adjacent if there is no other pearl between them. Note that the final necklace should remain as one circular part of the same length as the initial necklace. Input Specification: The only line of input contains a string $s$ ($3 \leq \|s\| \leq 100$), representing the necklace, where a dash '-' represents a link and the lowercase English letter 'o' represents a pearl. Output Specification: Print "YES" if the links and pearls can be rejoined such that the number of links between adjacent pearls is equal. Otherwise print "NO". You can print each letter in any case (upper or lower). Demo Input: ['-o-o--', '-o---\n', '-o---o-\n', 'ooo\n'] Demo Output: ['YES', 'YES', 'NO', 'YES\n'] Note: none	```python s = input() b = s.count('o') n = s.count('-') if(n == 0 or n%b == 0): print("YES") else: print("NO") ```	-1
368	B	Sereja and Suffixes	PROGRAMMING	1,100	[ "data structures", "dp" ]		null	null	Sereja has an array a, consisting of n integers a1, a2, ..., an. The boy cannot sit and do nothing, he decided to study an array. Sereja took a piece of paper and wrote out m integers l1,<=l2,<=...,<=lm (1<=≤<=li<=≤<=n). For each number li he wants to know how many distinct numbers are staying on the positions li, li<=+<=1, ..., n. Formally, he want to find the number of distinct numbers among ali,<=ali<=+<=1,<=...,<=an.? Sereja wrote out the necessary array elements but the array was so large and the boy was so pressed for time. Help him, find the answer for the described question for each li.	The first line contains two integers n and m (1<=≤<=n,<=m<=≤<=105). The second line contains n integers a1, a2, ..., an (1<=≤<=ai<=≤<=105) — the array elements. Next m lines contain integers l1,<=l2,<=...,<=lm. The i-th line contains integer li (1<=≤<=li<=≤<=n).	Print m lines — on the i-th line print the answer to the number li.	[ "10 10\n1 2 3 4 1 2 3 4 100000 99999\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n" ]	[ "6\n6\n6\n6\n6\n5\n4\n3\n2\n1\n" ]	none	1,000	[ { "input": "10 10\n1 2 3 4 1 2 3 4 100000 99999\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10", "output": "6\n6\n6\n6\n6\n5\n4\n3\n2\n1" }, { "input": "8 3\n8 6 4 3 4 2 4 8\n6\n4\n2", "output": "3\n4\n5" }, { "input": "7 10\n1 3 8 6 2 2 7\n4\n2\n6\n3\n4\n4\n6\n2\n7\n4", "output": "3\n5\n2\n4\n3\n3\n2\n5\n1\n3" }, { "input": "10 2\n2 6 5 7 2 2 3 2 4 8\n1\n2", "output": "7\n7" }, { "input": "7 1\n68346 10956 76708 23018 84063 34833 80407\n1", "output": "7" }, { "input": "2 2\n8 4\n1\n1", "output": "2\n2" }, { "input": "1 5\n5\n1\n1\n1\n1\n1", "output": "1\n1\n1\n1\n1" }, { "input": "4 7\n3 1 4 2\n4\n1\n2\n3\n2\n4\n4", "output": "1\n4\n3\n2\n3\n1\n1" }, { "input": "4 3\n9 1 7 1\n1\n4\n2", "output": "3\n1\n2" }, { "input": "8 3\n9280 6676 2720 6172 8329 10413 3975 1394\n5\n6\n7", "output": "4\n3\n2" }, { "input": "1 1\n1\n1", "output": "1" } ]	1,670,927,101	2,147,483,647	PyPy 3-64	TIME_LIMIT_EXCEEDED	TESTS	10	1,000	17,100,800	def implement(): dic = {} for i in range(1, n+1): numbers = len(set(array[i-1:])) dic[i] = numbers return dic n, m = [int(x) for x in input().split()] array = [int(x) for x in input().split()] dic = implement() for _ in range(m): t = int(input()) print(dic[t])	Title: Sereja and Suffixes Time Limit: None seconds Memory Limit: None megabytes Problem Description: Sereja has an array a, consisting of n integers a1, a2, ..., an. The boy cannot sit and do nothing, he decided to study an array. Sereja took a piece of paper and wrote out m integers l1,<=l2,<=...,<=lm (1<=≤<=li<=≤<=n). For each number li he wants to know how many distinct numbers are staying on the positions li, li<=+<=1, ..., n. Formally, he want to find the number of distinct numbers among ali,<=ali<=+<=1,<=...,<=an.? Sereja wrote out the necessary array elements but the array was so large and the boy was so pressed for time. Help him, find the answer for the described question for each li. Input Specification: The first line contains two integers n and m (1<=≤<=n,<=m<=≤<=105). The second line contains n integers a1, a2, ..., an (1<=≤<=ai<=≤<=105) — the array elements. Next m lines contain integers l1,<=l2,<=...,<=lm. The i-th line contains integer li (1<=≤<=li<=≤<=n). Output Specification: Print m lines — on the i-th line print the answer to the number li. Demo Input: ['10 10\n1 2 3 4 1 2 3 4 100000 99999\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n'] Demo Output: ['6\n6\n6\n6\n6\n5\n4\n3\n2\n1\n'] Note: none	```python def implement(): dic = {} for i in range(1, n+1): numbers = len(set(array[i-1:])) dic[i] = numbers return dic n, m = [int(x) for x in input().split()] array = [int(x) for x in input().split()] dic = implement() for _ in range(m): t = int(input()) print(dic[t]) ```	0
479	A	Expression	PROGRAMMING	1,000	[ "brute force", "math" ]		null	null	Petya studies in a school and he adores Maths. His class has been studying arithmetic expressions. On the last class the teacher wrote three positive integers a, b, c on the blackboard. The task was to insert signs of operations '+' and '', and probably brackets between the numbers so that the value of the resulting expression is as large as possible. Let's consider an example: assume that the teacher wrote numbers 1, 2 and 3 on the blackboard. Here are some ways of placing signs and brackets: - 1+23=7 - 1(2+3)=5 - 123=6 - (1+2)3=9 Note that you can insert operation signs only between a and b, and between b and c, that is, you cannot swap integers. For instance, in the given sample you cannot get expression (1+3)2. It's easy to see that the maximum value that you can obtain is 9. Your task is: given a, b* and c print the maximum value that you can get.	The input contains three integers a, b and c, each on a single line (1<=≤<=a,<=b,<=c<=≤<=10).	Print the maximum value of the expression that you can obtain.	[ "1\n2\n3\n", "2\n10\n3\n" ]	[ "9\n", "60\n" ]	none	500	[ { "input": "1\n2\n3", "output": "9" }, { "input": "2\n10\n3", "output": "60" }, { "input": "1\n1\n1", "output": "3" }, { "input": "1\n2\n1", "output": "4" }, { "input": "10\n10\n10", "output": "1000" }, { "input": "5\n1\n3", "output": "20" }, { "input": "3\n1\n5", "output": "20" }, { "input": "6\n7\n1", "output": "48" }, { "input": "1\n8\n3", "output": "27" }, { "input": "9\n7\n2", "output": "126" }, { "input": "1\n1\n10", "output": "20" }, { "input": "9\n1\n1", "output": "18" }, { "input": "10\n5\n6", "output": "300" }, { "input": "8\n9\n7", "output": "504" }, { "input": "4\n2\n10", "output": "80" }, { "input": "2\n8\n3", "output": "48" }, { "input": "3\n5\n7", "output": "105" }, { "input": "1\n10\n1", "output": "12" }, { "input": "2\n2\n2", "output": "8" }, { "input": "5\n6\n1", "output": "35" }, { "input": "10\n1\n1", "output": "20" }, { "input": "1\n6\n1", "output": "8" }, { "input": "1\n9\n1", "output": "11" }, { "input": "2\n1\n2", "output": "6" }, { "input": "2\n6\n1", "output": "14" }, { "input": "9\n2\n1", "output": "27" }, { "input": "1\n9\n2", "output": "20" }, { "input": "1\n3\n1", "output": "5" }, { "input": "2\n1\n1", "output": "4" } ]	1,696,767,521	2,147,483,647	PyPy 3-64	COMPILATION_ERROR	TESTS	0	0	0	a = int(input()) b = int(input()) c = int(input()) if a <= c: print((a + b) * c) elif print(a * (b + c))	Title: Expression Time Limit: None seconds Memory Limit: None megabytes Problem Description: Petya studies in a school and he adores Maths. His class has been studying arithmetic expressions. On the last class the teacher wrote three positive integers a, b, c on the blackboard. The task was to insert signs of operations '+' and '', and probably brackets between the numbers so that the value of the resulting expression is as large as possible. Let's consider an example: assume that the teacher wrote numbers 1, 2 and 3 on the blackboard. Here are some ways of placing signs and brackets: - 1+23=7 - 1(2+3)=5 - 123=6 - (1+2)3=9 Note that you can insert operation signs only between a and b, and between b and c, that is, you cannot swap integers. For instance, in the given sample you cannot get expression (1+3)2. It's easy to see that the maximum value that you can obtain is 9. Your task is: given a, b* and c print the maximum value that you can get. Input Specification: The input contains three integers a, b and c, each on a single line (1<=≤<=a,<=b,<=c<=≤<=10). Output Specification: Print the maximum value of the expression that you can obtain. Demo Input: ['1\n2\n3\n', '2\n10\n3\n'] Demo Output: ['9\n', '60\n'] Note: none	```python a = int(input()) b = int(input()) c = int(input()) if a <= c: print((a + b) * c) elif print(a * (b + c)) ```	-1
954	B	String Typing	PROGRAMMING	1,400	[ "implementation", "strings" ]		null	null	You are given a string s consisting of n lowercase Latin letters. You have to type this string using your keyboard. Initially, you have an empty string. Until you type the whole string, you may perform the following operation: - add a character to the end of the string. Besides, at most once you may perform one additional operation: copy the string and append it to itself. For example, if you have to type string abcabca, you can type it in 7 operations if you type all the characters one by one. However, you can type it in 5 operations if you type the string abc first and then copy it and type the last character. If you have to type string aaaaaaaaa, the best option is to type 4 characters one by one, then copy the string, and then type the remaining character. Print the minimum number of operations you need to type the given string.	The first line of the input containing only one integer number n (1<=≤<=n<=≤<=100) — the length of the string you have to type. The second line containing the string s consisting of n lowercase Latin letters.	Print one integer number — the minimum number of operations you need to type the given string.	[ "7\nabcabca\n", "8\nabcdefgh\n" ]	[ "5\n", "8\n" ]	The first test described in the problem statement. In the second test you can only type all the characters one by one.	0	[ { "input": "7\nabcabca", "output": "5" }, { "input": "8\nabcdefgh", "output": "8" }, { "input": "100\nmhnzadklojbuumkrxjayikjhwuxihgkinllackcavhjpxlydxcmhnzadklojbuumkrxjayikjhwuxihgkinllackcavhjpxlydxc", "output": "51" }, { "input": "99\ntrolnjmzxxrfxuexcqpjvefndwuxwsukxwmjhhkqmlzuhrplrtrolnjmzxxrfxuexcqpjvefndwuxwsukxwmjhhkqmlzuhrplrm", "output": "51" }, { "input": "100\nyeywsnxcwslfyiqbbeoaawtmioksfdndptxxcwzfmrpcixjbzvicijofjrbcvzaedglifuoczgjlqylddnsvsjfmfsccxbdveqgu", "output": "100" }, { "input": "8\naaaaaaaa", "output": "5" }, { "input": "4\nabab", "output": "3" }, { "input": "7\nababbcc", "output": "6" }, { "input": "7\nabcaabc", "output": "7" }, { "input": "10\naaaaaaaaaa", "output": "6" }, { "input": "6\naabbbb", "output": "6" }, { "input": "6\nabbbba", "output": "6" }, { "input": "9\nabcdeabcd", "output": "9" }, { "input": "10\nabcdabcefg", "output": "10" }, { "input": "9\naaaaaaaaa", "output": "6" }, { "input": "10\nababababab", "output": "7" }, { "input": "9\nzabcdabcd", "output": "9" }, { "input": "5\naaaaa", "output": "4" }, { "input": "10\nadcbeadcfg", "output": "10" }, { "input": "12\nabcabcabcabc", "output": "7" }, { "input": "16\naaaaaaaaaaaaaaaa", "output": "9" }, { "input": "4\naaaa", "output": "3" }, { "input": "17\nababababzabababab", "output": "14" }, { "input": "10\nabcabcabca", "output": "8" }, { "input": "7\ndabcabc", "output": "7" }, { "input": "6\naaaaaa", "output": "4" }, { "input": "5\nabcbc", "output": "5" }, { "input": "7\naabaaaa", "output": "7" }, { "input": "100\naaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa", "output": "51" }, { "input": "6\nablfab", "output": "6" }, { "input": "8\nabcdefef", "output": "8" }, { "input": "5\naavaa", "output": "5" }, { "input": "1\na", "output": "1" }, { "input": "10\nabcabcdddd", "output": "8" }, { "input": "16\naaaaaabbaaaaaabb", "output": "9" }, { "input": "17\nabcdefggggglelsoe", "output": "17" }, { "input": "17\nabcdefgggggabcdef", "output": "17" }, { "input": "27\naaaaaaaaaaaaaaaaaaaaaaaaaaa", "output": "15" }, { "input": "8\nabbbbbbb", "output": "8" }, { "input": "2\naa", "output": "2" }, { "input": "5\nbaaaa", "output": "5" }, { "input": "10\nabcdeeeeee", "output": "10" }, { "input": "12\naaaaaaaaaaaa", "output": "7" }, { "input": "6\nabcabd", "output": "6" }, { "input": "10\nababcababc", "output": "6" }, { "input": "16\nbbbbbbaaaaaaaaaa", "output": "14" }, { "input": "10\nbbbbbbbbbc", "output": "7" }, { "input": "9\nasdfpasdf", "output": "9" }, { "input": "9\nbaaaabaaa", "output": "9" }, { "input": "11\nabcabcabcab", "output": "9" }, { "input": "10\nabccaaaaba", "output": "10" }, { "input": "8\nabbbbbba", "output": "8" }, { "input": "8\naaaaaass", "output": "6" }, { "input": "20\nhhhhhhhhhhhhhhhhhhhh", "output": "11" }, { "input": "8\naabcabca", "output": "8" }, { "input": "6\nababab", "output": "5" }, { "input": "8\nababcdef", "output": "7" }, { "input": "8\nabababab", "output": "5" }, { "input": "14\nabcdefgabcdepq", "output": "14" }, { "input": "6\nabcaca", "output": "6" }, { "input": "11\nababababccc", "output": "8" }, { "input": "8\nababcabc", "output": "7" }, { "input": "20\naabaabaabaabaabaabaa", "output": "12" }, { "input": "20\nabcdabcdeeeeeeeeabcd", "output": "17" }, { "input": "9\nasdfgasdf", "output": "9" }, { "input": "10\navavavavbc", "output": "7" }, { "input": "63\njhkjhadlhhsfkadalssaaggdagggfahsakkdllkhldfdskkjssghklkkgsfhsks", "output": "63" }, { "input": "3\naaa", "output": "3" }, { "input": "13\naabbbkaakbbbb", "output": "13" }, { "input": "7\nabababa", "output": "6" }, { "input": "6\najkoaj", "output": "6" }, { "input": "7\nabcdbcd", "output": "7" }, { "input": "46\nkgadjahfdhjajagdkffsdfjjlsksklgkshfjkjdajkddlj", "output": "46" }, { "input": "5\naabab", "output": "5" }, { "input": "16\nabcdabcdabcdabcd", "output": "9" }, { "input": "7\nzabcabc", "output": "7" }, { "input": "8\nabcdeabc", "output": "8" }, { "input": "11\nababcabcabc", "output": "10" }, { "input": "8\nffffffff", "output": "5" }, { "input": "8\nabbababa", "output": "8" }, { "input": "13\naabaabaabaabx", "output": "8" }, { "input": "9\nabcabcabc", "output": "7" }, { "input": "99\nlhgjlskfgldjgadhdjjgskgakslflalhjfgfaaalkfdfgdkdffdjkjddfgdhalklhsgslskfdhsfjlhgajlgdfllhlsdhlhadaa", "output": "99" }, { "input": "1\ns", "output": "1" }, { "input": "87\nfhjgjjagajllljffggjjhgfffhfkkaskksaalhksfllgdjsldagshhlhhgslhjaaffkahlskdagsfasfkgdfjka", "output": "87" }, { "input": "8\nasafaass", "output": "8" }, { "input": "14\nabcabcabcabcjj", "output": "9" }, { "input": "5\nababa", "output": "4" }, { "input": "8\nbaaaaaaa", "output": "8" }, { "input": "10\nadadadadad", "output": "7" }, { "input": "12\naabaabaabaab", "output": "7" }, { "input": "6\nabcbcd", "output": "6" }, { "input": "7\nabacbac", "output": "7" }, { "input": "8\npppppppp", "output": "5" }, { "input": "11\nabcdeabcdfg", "output": "11" }, { "input": "5\nabcab", "output": "5" }, { "input": "5\nabbbb", "output": "5" }, { "input": "7\naabcdaa", "output": "7" }, { "input": "6\nababbb", "output": "5" }, { "input": "8\naaabcabc", "output": "8" }, { "input": "81\naaaaaababaabaaaabaaaaaaaabbabbbbbabaabaabbaaaababaabaababbbabbaababababbbbbabbaaa", "output": "79" }, { "input": "10\naaaacaaaac", "output": "6" }, { "input": "12\nabaabaabaaba", "output": "7" }, { "input": "92\nbbbbbabbbaaaabaaababbbaabbaabaaabbaabababaabbaabaabbbaabbaaabaabbbbaabbbabaaabbbabaaaaabaaaa", "output": "91" }, { "input": "9\nazxcvzxcv", "output": "9" }, { "input": "8\nabcabcde", "output": "6" }, { "input": "70\nbabababbabababbbabaababbababaabaabbaaabbbbaababaabaabbbbbbaaabaabbbabb", "output": "64" }, { "input": "7\nabcdabc", "output": "7" }, { "input": "36\nbbabbaabbbabbbbbabaaabbabbbabaabbbab", "output": "34" }, { "input": "12\nababababbbbb", "output": "9" }, { "input": "8\nacacacac", "output": "5" }, { "input": "66\nldldgjllllsdjgllkfljsgfgjkflakgfsklhdhhallggagdkgdgjggfshagjgkdfld", "output": "65" }, { "input": "74\nghhhfaddfslafhhshjflkjdgksfashhllkggllllsljlfjsjhfggkgjfalgajaldgjfghlhdsh", "output": "74" }, { "input": "29\nabbabbaabbbbaababbababbaabbaa", "output": "27" }, { "input": "5\nxabab", "output": "5" }, { "input": "10\nbbbbbbbaaa", "output": "8" }, { "input": "3\nlsl", "output": "3" }, { "input": "32\nbbbbaaabbaabbaabbabaaabaabaabaab", "output": "31" }, { "input": "16\nuuuuuuuuuuuuuuuu", "output": "9" }, { "input": "37\nlglfddsjhhaagkakadffkllkaagdaagdfdahg", "output": "37" }, { "input": "45\nbbbbbbbabababbbaabbbbbbbbbbbbabbbabbaabbbabab", "output": "43" }, { "input": "12\nwwvwwvwwvwwv", "output": "7" }, { "input": "14\naaabcabcabcabc", "output": "14" }, { "input": "95\nbbaaaabaababbbabaaaabababaaaaaabbababbaabbaaabbbaaaabaaaaaaababababbabbbaaaabaabaababbbbbababaa", "output": "95" }, { "input": "4\nttob", "output": "4" }, { "input": "5\ncabab", "output": "5" }, { "input": "79\nlsfgfhhhkhklfdffssgffaghjjfkjsssjakglkajdhfkasfdhjhlkhsgsjfgsjghglkdkalaajsfdka", "output": "79" }, { "input": "11\njjlkalfhdhh", "output": "11" }, { "input": "39\njflfashaglkahldafjasagasjghjkkjgkgffgkk", "output": "39" }, { "input": "54\ndgafkhlgdhjflkdafgjldjhgkjllfallhsggaaahkaggkhgjgflsdg", "output": "54" }, { "input": "41\nabbababbbbbabbbabaaaababaaabaabaaabbbbbbb", "output": "41" }, { "input": "8\nbaaaaaab", "output": "8" }, { "input": "36\nbabbbbababaaabbabbbaabaabbbbbbbbbbba", "output": "36" }, { "input": "10\nwvwlwvwwvw", "output": "10" }, { "input": "38\nasdsssdssjajghslfhjdfdhhdggdsdfsfajfas", "output": "38" }, { "input": "77\nbabbaababaabbaaaabbaababbbabaaaabbabaaaaaaaabbbaaabbabbbabaababbabaabbbbaaabb", "output": "77" }, { "input": "7\nmabcabc", "output": "7" }, { "input": "86\nssjskldajkkskhljfsfkjhskaffgjjkskgddfslgjadjjgdjsjfsdgdgfdaldffjkakhhdaggalglakhjghssg", "output": "86" }, { "input": "20\nccbbcbaabcccbabcbcaa", "output": "20" }, { "input": "8\nabababaa", "output": "7" }, { "input": "5\naabaa", "output": "5" }, { "input": "13\neabcdefabcdef", "output": "13" }, { "input": "28\naaaaaaaaaaaaaaibfprdokxvipsq", "output": "22" }, { "input": "10\nasdasdasda", "output": "8" }, { "input": "8\naaaabcde", "output": "7" }, { "input": "9\nabbbbabbb", "output": "9" }, { "input": "12\nababababvvvv", "output": "9" }, { "input": "7\naabcabc", "output": "7" } ]	1,662,405,419	2,147,483,647	PyPy 3-64	OK	TESTS	148	62	1,331,200	n=int(input()) s=list(input()) idx=n//2 lst=s[:idx] i=0 ans=0 mx=0 while i<len(lst): j=i+1 x,flag=0,0 while x<=i: if lst[x]!=s[j]:flag=1; break x+=1;j+=1 if flag==0:mx=i+1 i+=1 if mx:ans=n-mx+1 else:ans=n print(ans)	Title: String Typing Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a string s consisting of n lowercase Latin letters. You have to type this string using your keyboard. Initially, you have an empty string. Until you type the whole string, you may perform the following operation: - add a character to the end of the string. Besides, at most once you may perform one additional operation: copy the string and append it to itself. For example, if you have to type string abcabca, you can type it in 7 operations if you type all the characters one by one. However, you can type it in 5 operations if you type the string abc first and then copy it and type the last character. If you have to type string aaaaaaaaa, the best option is to type 4 characters one by one, then copy the string, and then type the remaining character. Print the minimum number of operations you need to type the given string. Input Specification: The first line of the input containing only one integer number n (1<=≤<=n<=≤<=100) — the length of the string you have to type. The second line containing the string s consisting of n lowercase Latin letters. Output Specification: Print one integer number — the minimum number of operations you need to type the given string. Demo Input: ['7\nabcabca\n', '8\nabcdefgh\n'] Demo Output: ['5\n', '8\n'] Note: The first test described in the problem statement. In the second test you can only type all the characters one by one.	```python n=int(input()) s=list(input()) idx=n//2 lst=s[:idx] i=0 ans=0 mx=0 while i<len(lst): j=i+1 x,flag=0,0 while x<=i: if lst[x]!=s[j]:flag=1; break x+=1;j+=1 if flag==0:mx=i+1 i+=1 if mx:ans=n-mx+1 else:ans=n print(ans) ```	3
231	A	Team	PROGRAMMING	800	[ "brute force", "greedy" ]		null	null	One day three best friends Petya, Vasya and Tonya decided to form a team and take part in programming contests. Participants are usually offered several problems during programming contests. Long before the start the friends decided that they will implement a problem if at least two of them are sure about the solution. Otherwise, the friends won't write the problem's solution. This contest offers n problems to the participants. For each problem we know, which friend is sure about the solution. Help the friends find the number of problems for which they will write a solution.	The first input line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of problems in the contest. Then n lines contain three integers each, each integer is either 0 or 1. If the first number in the line equals 1, then Petya is sure about the problem's solution, otherwise he isn't sure. The second number shows Vasya's view on the solution, the third number shows Tonya's view. The numbers on the lines are separated by spaces.	Print a single integer — the number of problems the friends will implement on the contest.	[ "3\n1 1 0\n1 1 1\n1 0 0\n", "2\n1 0 0\n0 1 1\n" ]	[ "2\n", "1\n" ]	In the first sample Petya and Vasya are sure that they know how to solve the first problem and all three of them know how to solve the second problem. That means that they will write solutions for these problems. Only Petya is sure about the solution for the third problem, but that isn't enough, so the friends won't take it. In the second sample the friends will only implement the second problem, as Vasya and Tonya are sure about the solution.	500	[ { "input": "3\n1 1 0\n1 1 1\n1 0 0", "output": "2" }, { "input": "2\n1 0 0\n0 1 1", "output": "1" }, { "input": "1\n1 0 0", "output": "0" }, { "input": "2\n1 0 0\n1 1 1", "output": "1" }, { "input": "5\n1 0 0\n0 1 0\n1 1 1\n0 0 1\n0 0 0", "output": "1" }, { "input": "10\n0 1 0\n0 1 0\n1 1 0\n1 0 0\n0 0 1\n0 1 1\n1 1 1\n1 1 0\n0 0 0\n0 0 0", "output": "4" }, { "input": "15\n0 1 0\n1 0 0\n1 1 0\n1 1 1\n0 1 0\n0 0 1\n1 0 1\n1 0 1\n1 0 1\n0 0 0\n1 1 1\n1 1 0\n0 1 1\n1 1 0\n1 1 1", "output": "10" }, { "input": "50\n0 0 0\n0 1 1\n1 1 1\n0 1 0\n1 0 1\n1 1 1\n0 0 1\n1 0 0\n1 1 0\n1 0 1\n0 1 0\n0 0 1\n1 1 0\n0 1 0\n1 1 0\n0 0 0\n1 1 1\n1 0 1\n0 0 1\n1 1 0\n1 1 1\n0 1 1\n1 1 0\n0 0 0\n0 0 0\n1 1 1\n0 0 0\n1 1 1\n0 1 1\n0 0 1\n0 0 0\n0 0 0\n1 1 0\n1 1 0\n1 0 1\n1 0 0\n1 0 1\n1 0 1\n0 1 1\n1 1 0\n1 1 0\n0 1 0\n1 0 1\n0 0 0\n0 0 0\n0 0 0\n0 0 1\n1 1 1\n0 1 1\n1 0 1", "output": "29" }, { "input": "1\n1 1 1", "output": "1" }, { "input": "8\n0 0 0\n0 0 1\n0 0 0\n0 1 1\n1 0 0\n1 0 1\n1 1 0\n1 1 1", "output": "4" }, { "input": "16\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1", "output": "16" } ]	1,699,450,188	2,147,483,647	PyPy 3-64	OK	TESTS	21	216	4,710,400	counter2=0 for i in range(int(input())): x=input() counter1=0 for j in x: if j==" ": continue elif int(j)==1: counter1+=1 if counter1>=2: counter2+=1 print(counter2)	Title: Team Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day three best friends Petya, Vasya and Tonya decided to form a team and take part in programming contests. Participants are usually offered several problems during programming contests. Long before the start the friends decided that they will implement a problem if at least two of them are sure about the solution. Otherwise, the friends won't write the problem's solution. This contest offers n problems to the participants. For each problem we know, which friend is sure about the solution. Help the friends find the number of problems for which they will write a solution. Input Specification: The first input line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of problems in the contest. Then n lines contain three integers each, each integer is either 0 or 1. If the first number in the line equals 1, then Petya is sure about the problem's solution, otherwise he isn't sure. The second number shows Vasya's view on the solution, the third number shows Tonya's view. The numbers on the lines are separated by spaces. Output Specification: Print a single integer — the number of problems the friends will implement on the contest. Demo Input: ['3\n1 1 0\n1 1 1\n1 0 0\n', '2\n1 0 0\n0 1 1\n'] Demo Output: ['2\n', '1\n'] Note: In the first sample Petya and Vasya are sure that they know how to solve the first problem and all three of them know how to solve the second problem. That means that they will write solutions for these problems. Only Petya is sure about the solution for the third problem, but that isn't enough, so the friends won't take it. In the second sample the friends will only implement the second problem, as Vasya and Tonya are sure about the solution.	```python counter2=0 for i in range(int(input())): x=input() counter1=0 for j in x: if j==" ": continue elif int(j)==1: counter1+=1 if counter1>=2: counter2+=1 print(counter2) ```	3
58	A	Chat room	PROGRAMMING	1,000	[ "greedy", "strings" ]	A. Chat room	1	256	Vasya has recently learned to type and log on to the Internet. He immediately entered a chat room and decided to say hello to everybody. Vasya typed the word s. It is considered that Vasya managed to say hello if several letters can be deleted from the typed word so that it resulted in the word "hello". For example, if Vasya types the word "ahhellllloou", it will be considered that he said hello, and if he types "hlelo", it will be considered that Vasya got misunderstood and he didn't manage to say hello. Determine whether Vasya managed to say hello by the given word s.	The first and only line contains the word s, which Vasya typed. This word consisits of small Latin letters, its length is no less that 1 and no more than 100 letters.	If Vasya managed to say hello, print "YES", otherwise print "NO".	[ "ahhellllloou\n", "hlelo\n" ]	[ "YES\n", "NO\n" ]	none	500	[ { "input": "ahhellllloou", "output": "YES" }, { "input": "hlelo", "output": "NO" }, { "input": "helhcludoo", "output": "YES" }, { "input": "hehwelloho", "output": "YES" }, { "input": "pnnepelqomhhheollvlo", "output": "YES" }, { "input": "tymbzjyqhymedasloqbq", "output": "NO" }, { "input": "yehluhlkwo", "output": "NO" }, { "input": "hatlevhhalrohairnolsvocafgueelrqmlqlleello", "output": "YES" }, { "input": "hhhtehdbllnhwmbyhvelqqyoulretpbfokflhlhreeflxeftelziclrwllrpflflbdtotvlqgoaoqldlroovbfsq", "output": "YES" }, { "input": "rzlvihhghnelqtwlexmvdjjrliqllolhyewgozkuovaiezgcilelqapuoeglnwmnlftxxiigzczlouooi", "output": "YES" }, { "input": "pfhhwctyqdlkrwhebfqfelhyebwllhemtrmeblgrynmvyhioesqklclocxmlffuormljszllpoo", "output": "YES" }, { "input": "lqllcolohwflhfhlnaow", "output": "NO" }, { "input": "heheeellollvoo", "output": "YES" }, { "input": "hellooo", "output": "YES" }, { "input": "o", "output": "NO" }, { "input": "hhqhzeclohlehljlhtesllylrolmomvuhcxsobtsckogdv", "output": "YES" }, { "input": "yoegfuzhqsihygnhpnukluutocvvwuldiighpogsifealtgkfzqbwtmgghmythcxflebrkctlldlkzlagovwlstsghbouk", "output": "YES" }, { "input": "uatqtgbvrnywfacwursctpagasnhydvmlinrcnqrry", "output": "NO" }, { "input": "tndtbldbllnrwmbyhvqaqqyoudrstpbfokfoclnraefuxtftmgzicorwisrpfnfpbdtatvwqgyalqtdtrjqvbfsq", "output": "NO" }, { "input": "rzlvirhgemelnzdawzpaoqtxmqucnahvqnwldklrmjiiyageraijfivigvozgwngiulttxxgzczptusoi", "output": "YES" }, { "input": "kgyelmchocojsnaqdsyeqgnllytbqietpdlgknwwumqkxrexgdcnwoldicwzwofpmuesjuxzrasscvyuqwspm", "output": "YES" }, { "input": "pnyvrcotjvgynbeldnxieghfltmexttuxzyac", "output": "NO" }, { "input": "dtwhbqoumejligbenxvzhjlhosqojetcqsynlzyhfaevbdpekgbtjrbhlltbceobcok", "output": "YES" }, { "input": "crrfpfftjwhhikwzeedrlwzblckkteseofjuxjrktcjfsylmlsvogvrcxbxtffujqshslemnixoeezivksouefeqlhhokwbqjz", "output": "YES" }, { "input": "jhfbndhyzdvhbvhmhmefqllujdflwdpjbehedlsqfdsqlyelwjtyloxwsvasrbqosblzbowlqjmyeilcvotdlaouxhdpoeloaovb", "output": "YES" }, { "input": "hwlghueoemiqtjhhpashjsouyegdlvoyzeunlroypoprnhlyiwiuxrghekaylndhrhllllwhbebezoglydcvykllotrlaqtvmlla", "output": "YES" }, { "input": "wshiaunnqnqxodholbipwhhjmyeblhgpeleblklpzwhdunmpqkbuzloetmwwxmeltkrcomulxauzlwmlklldjodozxryghsnwgcz", "output": "YES" }, { "input": "shvksednttggehroewuiptvvxtrzgidravtnjwuqrlnnkxbplctzkckinpkgjopjfoxdbojtcvsuvablcbkrzajrlhgobkcxeqti", "output": "YES" }, { "input": "hyyhddqhxhekehkwfhlnlsihzefwchzerevcjtokefplholrbvxlltdlafjxrfhleglrvlolojoqaolagtbeyogxlbgfolllslli", "output": "YES" }, { "input": "iaagrdhhelxpdegueiulflquvlzidoprzkehthkldaytrjwhyhprwjxlltinxvuilxohqgjqcvkkdcuoliekcnlilwgqlnlzouoo", "output": "YES" }, { "input": "wfluaeseldgxyvxpwuhkptdmlflnlhktwxiabsvkolsquymrmhzczzoybvlilhmvsuunggvgxzgyyffk", "output": "NO" }, { "input": "loee", "output": "NO" }, { "input": "izdipwylefqmjbuoznfglgcfvedeouflkeehxbasaqmiooppfsqlhprospqgxvzrcpwlfdddngoqvpwvggsnvvxhmjoslwjudjlo", "output": "NO" }, { "input": "pplynflbjlseflaegzqpdxswgunhnlglqhycrbcwdfhclmcrwekkzsoosmfblljeenwfjyifcvxihhhbyhmhlkvtskeglaovjnsi", "output": "YES" }, { "input": "xqjqmenkodmlhzyzmmvofdngktygbbxbzpluzcohohmalkoeuwfikblltaaigv", "output": "NO" }, { "input": "hello", "output": "YES" }, { "input": "oohell", "output": "NO" }, { "input": "hell", "output": "NO" }, { "input": "eloellohoelo", "output": "NO" }, { "input": "helllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllo", "output": "YES" } ]	1,609,142,125	2,147,483,647	PyPy 3	OK	TESTS	40	155	0	s=input() r='hello' a=count=0 for i in s: if i==r[a]: a=a+1 count+=1 if count==5: break if count==5: print("YES") else: print("NO")	Title: Chat room Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Vasya has recently learned to type and log on to the Internet. He immediately entered a chat room and decided to say hello to everybody. Vasya typed the word s. It is considered that Vasya managed to say hello if several letters can be deleted from the typed word so that it resulted in the word "hello". For example, if Vasya types the word "ahhellllloou", it will be considered that he said hello, and if he types "hlelo", it will be considered that Vasya got misunderstood and he didn't manage to say hello. Determine whether Vasya managed to say hello by the given word s. Input Specification: The first and only line contains the word s, which Vasya typed. This word consisits of small Latin letters, its length is no less that 1 and no more than 100 letters. Output Specification: If Vasya managed to say hello, print "YES", otherwise print "NO". Demo Input: ['ahhellllloou\n', 'hlelo\n'] Demo Output: ['YES\n', 'NO\n'] Note: none	```python s=input() r='hello' a=count=0 for i in s: if i==r[a]: a=a+1 count+=1 if count==5: break if count==5: print("YES") else: print("NO") ```	3.9225
337	A	Puzzles	PROGRAMMING	900	[ "greedy" ]		null	null	The end of the school year is near and Ms. Manana, the teacher, will soon have to say goodbye to a yet another class. She decided to prepare a goodbye present for her n students and give each of them a jigsaw puzzle (which, as wikipedia states, is a tiling puzzle that requires the assembly of numerous small, often oddly shaped, interlocking and tessellating pieces). The shop assistant told the teacher that there are m puzzles in the shop, but they might differ in difficulty and size. Specifically, the first jigsaw puzzle consists of f1 pieces, the second one consists of f2 pieces and so on. Ms. Manana doesn't want to upset the children, so she decided that the difference between the numbers of pieces in her presents must be as small as possible. Let A be the number of pieces in the largest puzzle that the teacher buys and B be the number of pieces in the smallest such puzzle. She wants to choose such n puzzles that A<=-<=B is minimum possible. Help the teacher and find the least possible value of A<=-<=B.	The first line contains space-separated integers n and m (2<=≤<=n<=≤<=m<=≤<=50). The second line contains m space-separated integers f1,<=f2,<=...,<=fm (4<=≤<=fi<=≤<=1000) — the quantities of pieces in the puzzles sold in the shop.	Print a single integer — the least possible difference the teacher can obtain.	[ "4 6\n10 12 10 7 5 22\n" ]	[ "5\n" ]	Sample 1. The class has 4 students. The shop sells 6 puzzles. If Ms. Manana buys the first four puzzles consisting of 10, 12, 10 and 7 pieces correspondingly, then the difference between the sizes of the largest and the smallest puzzle will be equal to 5. It is impossible to obtain a smaller difference. Note that the teacher can also buy puzzles 1, 3, 4 and 5 to obtain the difference 5.	500	[ { "input": "4 6\n10 12 10 7 5 22", "output": "5" }, { "input": "2 2\n4 4", "output": "0" }, { "input": "2 10\n4 5 6 7 8 9 10 11 12 12", "output": "0" }, { "input": "4 5\n818 136 713 59 946", "output": "759" }, { "input": "3 20\n446 852 783 313 549 965 40 88 86 617 479 118 768 34 47 826 366 957 463 903", "output": "13" }, { "input": "2 25\n782 633 152 416 432 825 115 97 386 357 836 310 530 413 354 373 847 882 913 682 729 582 671 674 94", "output": "3" }, { "input": "4 25\n226 790 628 528 114 64 239 279 619 39 894 763 763 847 525 93 882 697 999 643 650 244 159 884 190", "output": "31" }, { "input": "2 50\n971 889 628 39 253 157 925 694 129 516 660 272 738 319 611 816 142 717 514 392 41 105 132 676 958 118 306 768 600 685 103 857 704 346 857 309 23 718 618 161 176 379 846 834 640 468 952 878 164 997", "output": "0" }, { "input": "25 50\n582 146 750 905 313 509 402 21 488 512 32 898 282 64 579 869 37 996 377 929 975 697 666 837 311 205 116 992 533 298 648 268 54 479 792 595 152 69 267 417 184 433 894 603 988 712 24 414 301 176", "output": "412" }, { "input": "49 50\n58 820 826 960 271 294 473 102 925 318 729 672 244 914 796 646 868 6 893 882 726 203 528 498 271 195 355 459 721 680 547 147 631 116 169 804 145 996 133 559 110 257 771 476 576 251 607 314 427 886", "output": "938" }, { "input": "50 50\n374 573 323 744 190 806 485 247 628 336 491 606 702 321 991 678 337 579 86 240 993 208 668 686 855 205 363 177 719 249 896 919 782 434 59 647 787 996 286 216 636 212 546 903 958 559 544 126 608 993", "output": "937" }, { "input": "6 50\n6 8 7 8 5 4 4 5 7 8 6 5 7 4 7 7 7 8 6 4 6 6 8 8 7 7 8 7 5 8 5 4 4 7 8 4 4 6 6 6 8 7 4 7 6 6 5 8 4 7", "output": "0" }, { "input": "37 50\n14 5 11 17 8 20 19 16 20 11 17 20 16 9 14 14 13 18 11 20 8 8 8 5 19 17 6 18 10 20 9 7 12 6 14 17 4 4 10 13 7 4 11 6 20 19 12 12 15 19", "output": "12" }, { "input": "40 50\n4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4", "output": "0" }, { "input": "40 50\n17 20 43 26 41 37 14 8 30 35 30 24 43 8 42 9 41 50 41 35 27 32 35 43 28 36 31 16 5 7 23 16 14 29 8 39 12 16 36 18 49 39 33 37 38 6 6 27 23 17", "output": "31" }, { "input": "2 2\n1000 4", "output": "996" }, { "input": "2 3\n4 502 1000", "output": "498" }, { "input": "3 3\n4 1000 4", "output": "996" } ]	1,670,330,313	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	6	124	0	n, m = map(int, input().split()) l = list(map(int, input().split())) l.sort() print(min(l[-1]-l[(n*-1)], l[n-1]-l[0]))	Title: Puzzles Time Limit: None seconds Memory Limit: None megabytes Problem Description: The end of the school year is near and Ms. Manana, the teacher, will soon have to say goodbye to a yet another class. She decided to prepare a goodbye present for her n students and give each of them a jigsaw puzzle (which, as wikipedia states, is a tiling puzzle that requires the assembly of numerous small, often oddly shaped, interlocking and tessellating pieces). The shop assistant told the teacher that there are m puzzles in the shop, but they might differ in difficulty and size. Specifically, the first jigsaw puzzle consists of f1 pieces, the second one consists of f2 pieces and so on. Ms. Manana doesn't want to upset the children, so she decided that the difference between the numbers of pieces in her presents must be as small as possible. Let A be the number of pieces in the largest puzzle that the teacher buys and B be the number of pieces in the smallest such puzzle. She wants to choose such n puzzles that A<=-<=B is minimum possible. Help the teacher and find the least possible value of A<=-<=B. Input Specification: The first line contains space-separated integers n and m (2<=≤<=n<=≤<=m<=≤<=50). The second line contains m space-separated integers f1,<=f2,<=...,<=fm (4<=≤<=fi<=≤<=1000) — the quantities of pieces in the puzzles sold in the shop. Output Specification: Print a single integer — the least possible difference the teacher can obtain. Demo Input: ['4 6\n10 12 10 7 5 22\n'] Demo Output: ['5\n'] Note: Sample 1. The class has 4 students. The shop sells 6 puzzles. If Ms. Manana buys the first four puzzles consisting of 10, 12, 10 and 7 pieces correspondingly, then the difference between the sizes of the largest and the smallest puzzle will be equal to 5. It is impossible to obtain a smaller difference. Note that the teacher can also buy puzzles 1, 3, 4 and 5 to obtain the difference 5.	```python n, m = map(int, input().split()) l = list(map(int, input().split())) l.sort() print(min(l[-1]-l[(n*-1)], l[n-1]-l[0])) ```	0
439	A	Devu, the Singer and Churu, the Joker	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	Devu is a renowned classical singer. He is invited to many big functions/festivals. Recently he was invited to "All World Classical Singing Festival". Other than Devu, comedian Churu was also invited. Devu has provided organizers a list of the songs and required time for singing them. He will sing n songs, ith song will take ti minutes exactly. The Comedian, Churu will crack jokes. All his jokes are of 5 minutes exactly. People have mainly come to listen Devu. But you know that he needs rest of 10 minutes after each song. On the other hand, Churu being a very active person, doesn't need any rest. You as one of the organizers should make an optimal sсhedule for the event. For some reasons you must follow the conditions: - The duration of the event must be no more than d minutes; - Devu must complete all his songs; - With satisfying the two previous conditions the number of jokes cracked by Churu should be as many as possible. If it is not possible to find a way to conduct all the songs of the Devu, output -1. Otherwise find out maximum number of jokes that Churu can crack in the grand event.	The first line contains two space separated integers n, d (1<=≤<=n<=≤<=100; 1<=≤<=d<=≤<=10000). The second line contains n space-separated integers: t1,<=t2,<=...,<=tn (1<=≤<=ti<=≤<=100).	If there is no way to conduct all the songs of Devu, output -1. Otherwise output the maximum number of jokes that Churu can crack in the grand event.	[ "3 30\n2 2 1\n", "3 20\n2 1 1\n" ]	[ "5\n", "-1\n" ]	Consider the first example. The duration of the event is 30 minutes. There could be maximum 5 jokes in the following way: - First Churu cracks a joke in 5 minutes. - Then Devu performs the first song for 2 minutes. - Then Churu cracks 2 jokes in 10 minutes. - Now Devu performs second song for 2 minutes. - Then Churu cracks 2 jokes in 10 minutes. - Now finally Devu will perform his last song in 1 minutes. Total time spent is 5 + 2 + 10 + 2 + 10 + 1 = 30 minutes. Consider the second example. There is no way of organizing Devu's all songs. Hence the answer is -1.	500	[ { "input": "3 30\n2 2 1", "output": "5" }, { "input": "3 20\n2 1 1", "output": "-1" }, { "input": "50 10000\n5 4 10 9 9 6 7 7 7 3 3 7 7 4 7 4 10 10 1 7 10 3 1 4 5 7 2 10 10 10 2 3 4 7 6 1 8 4 7 3 8 8 4 10 1 1 9 2 6 1", "output": "1943" }, { "input": "50 10000\n4 7 15 9 11 12 20 9 14 14 10 13 6 13 14 17 6 8 20 12 10 15 13 17 5 12 13 11 7 5 5 2 3 15 13 7 14 14 19 2 13 14 5 15 3 19 15 16 4 1", "output": "1891" }, { "input": "100 9000\n5 2 3 1 1 3 4 9 9 6 7 10 10 10 2 10 6 8 8 6 7 9 9 5 6 2 1 10 10 9 4 5 9 2 4 3 8 5 6 1 1 5 3 6 2 6 6 6 5 8 3 6 7 3 1 10 9 1 8 3 10 9 5 6 3 4 1 1 10 10 2 3 4 8 10 10 5 1 5 3 6 8 10 6 10 2 1 8 10 1 7 6 9 10 5 2 3 5 3 2", "output": "1688" }, { "input": "100 8007\n5 19 14 18 9 6 15 8 1 14 11 20 3 17 7 12 2 6 3 17 7 20 1 14 20 17 2 10 13 7 18 18 9 10 16 8 1 11 11 9 13 18 9 20 12 12 7 15 12 17 11 5 11 15 9 2 15 1 18 3 18 16 15 4 10 5 18 13 13 12 3 8 17 2 12 2 13 3 1 13 2 4 9 10 18 10 14 4 4 17 12 19 2 9 6 5 5 20 18 12", "output": "1391" }, { "input": "39 2412\n1 1 1 1 1 1 26 1 1 1 99 1 1 1 1 1 1 1 1 1 1 88 7 1 1 1 1 76 1 1 1 93 40 1 13 1 68 1 32", "output": "368" }, { "input": "39 2617\n47 1 1 1 63 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 70 1 99 63 1 1 1 1 1 1 1 1 64 1 1", "output": "435" }, { "input": "39 3681\n83 77 1 94 85 47 1 98 29 16 1 1 1 71 96 85 31 97 96 93 40 50 98 1 60 51 1 96 100 72 1 1 1 89 1 93 1 92 100", "output": "326" }, { "input": "45 894\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 28 28 1 1 1 1 1 1 1 1 1 1 1 1 1 1 99 3 1 1", "output": "139" }, { "input": "45 4534\n1 99 65 99 4 46 54 80 51 30 96 1 28 30 44 70 78 1 1 100 1 62 1 1 1 85 1 1 1 61 1 46 75 1 61 77 97 26 67 1 1 63 81 85 86", "output": "514" }, { "input": "72 3538\n52 1 8 1 1 1 7 1 1 1 1 48 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 40 1 1 38 1 1 1 1 1 1 1 1 1 1 1 35 1 93 79 1 1 1 1 1 1 1 1 1 51 1 1 1 1 1 1 1 1 1 1 1 1 96 1", "output": "586" }, { "input": "81 2200\n1 59 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 93 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 50 1 1 1 1 1 1 1 1 1 1 1", "output": "384" }, { "input": "81 2577\n85 91 1 1 2 1 1 100 1 80 1 1 17 86 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 37 1 66 24 1 1 96 49 1 66 1 44 1 1 1 1 98 1 1 1 1 35 1 37 3 35 1 1 87 64 1 24 1 58 1 1 42 83 5 1 1 1 1 1 95 1 94 1 50 1 1", "output": "174" }, { "input": "81 4131\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 16 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "807" }, { "input": "81 6315\n1 1 67 100 1 99 36 1 92 5 1 96 42 12 1 57 91 1 1 66 41 30 74 95 1 37 1 39 91 69 1 52 77 47 65 1 1 93 96 74 90 35 85 76 71 92 92 1 1 67 92 74 1 1 86 76 35 1 56 16 27 57 37 95 1 40 20 100 51 1 80 60 45 79 95 1 46 1 25 100 96", "output": "490" }, { "input": "96 1688\n1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 45 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 25 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 71 1 1 1 30 1 1 1", "output": "284" }, { "input": "96 8889\n1 1 18 1 1 1 1 1 1 1 1 1 99 1 1 1 1 88 1 45 1 1 1 1 1 1 1 1 1 1 1 1 1 1 96 1 1 1 1 21 1 1 1 1 1 1 1 73 1 1 1 1 1 10 1 1 1 1 1 1 1 46 43 1 1 1 1 1 98 1 1 1 1 1 1 6 1 1 1 1 1 74 1 25 1 55 1 1 1 13 1 1 54 1 1 1", "output": "1589" }, { "input": "10 100\n1 1 1 1 1 1 1 1 1 1", "output": "18" }, { "input": "100 10000\n54 46 72 94 79 83 91 54 73 3 24 55 54 31 28 20 19 6 25 19 47 23 1 70 15 87 51 39 54 77 55 5 60 3 15 99 56 88 22 78 79 21 38 27 28 86 7 88 12 59 55 70 25 1 70 49 1 45 69 72 50 17 4 56 8 100 90 34 35 20 61 76 88 79 4 74 65 68 75 26 40 72 59 94 10 67 96 85 29 90 47 24 44 1 66 93 55 36 1 99", "output": "1017" }, { "input": "100 6000\n41 31 23 17 24 78 26 96 93 48 46 2 49 33 35 9 73 100 34 48 83 36 33 69 43 24 3 74 8 81 27 33 94 38 77 9 76 90 62 90 21 67 22 22 12 2 17 27 61 18 72 85 59 65 71 38 90 75 74 66 60 47 58 50 90 95 75 10 5 100 97 29 83 88 65 26 93 90 22 98 36 55 70 38 50 92 88 72 99 96 25 14 74 16 25 92 67 94 77 96", "output": "-1" }, { "input": "1 1\n1", "output": "0" }, { "input": "1 6\n1", "output": "1" }, { "input": "1 5\n1", "output": "0" }, { "input": "1 3\n4", "output": "-1" }, { "input": "3 24\n2 1 2", "output": "-1" } ]	1,662,053,680	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	46	0	n,d=map(int,input().split()) listx=list(map(int,input().split())) ts=sum(listx) tc=d-ts if tc%5==0: print(tc//5) else: print(-1)	Title: Devu, the Singer and Churu, the Joker Time Limit: None seconds Memory Limit: None megabytes Problem Description: Devu is a renowned classical singer. He is invited to many big functions/festivals. Recently he was invited to "All World Classical Singing Festival". Other than Devu, comedian Churu was also invited. Devu has provided organizers a list of the songs and required time for singing them. He will sing n songs, ith song will take ti minutes exactly. The Comedian, Churu will crack jokes. All his jokes are of 5 minutes exactly. People have mainly come to listen Devu. But you know that he needs rest of 10 minutes after each song. On the other hand, Churu being a very active person, doesn't need any rest. You as one of the organizers should make an optimal sсhedule for the event. For some reasons you must follow the conditions: - The duration of the event must be no more than d minutes; - Devu must complete all his songs; - With satisfying the two previous conditions the number of jokes cracked by Churu should be as many as possible. If it is not possible to find a way to conduct all the songs of the Devu, output -1. Otherwise find out maximum number of jokes that Churu can crack in the grand event. Input Specification: The first line contains two space separated integers n, d (1<=≤<=n<=≤<=100; 1<=≤<=d<=≤<=10000). The second line contains n space-separated integers: t1,<=t2,<=...,<=tn (1<=≤<=ti<=≤<=100). Output Specification: If there is no way to conduct all the songs of Devu, output -1. Otherwise output the maximum number of jokes that Churu can crack in the grand event. Demo Input: ['3 30\n2 2 1\n', '3 20\n2 1 1\n'] Demo Output: ['5\n', '-1\n'] Note: Consider the first example. The duration of the event is 30 minutes. There could be maximum 5 jokes in the following way: - First Churu cracks a joke in 5 minutes. - Then Devu performs the first song for 2 minutes. - Then Churu cracks 2 jokes in 10 minutes. - Now Devu performs second song for 2 minutes. - Then Churu cracks 2 jokes in 10 minutes. - Now finally Devu will perform his last song in 1 minutes. Total time spent is 5 + 2 + 10 + 2 + 10 + 1 = 30 minutes. Consider the second example. There is no way of organizing Devu's all songs. Hence the answer is -1.	```python n,d=map(int,input().split()) listx=list(map(int,input().split())) ts=sum(listx) tc=d-ts if tc%5==0: print(tc//5) else: print(-1) ```	0
0	none	none	none	0	[ "none" ]		null	null	Little Petya likes points a lot. Recently his mom has presented him n points lying on the line OX. Now Petya is wondering in how many ways he can choose three distinct points so that the distance between the two farthest of them doesn't exceed d. Note that the order of the points inside the group of three chosen points doesn't matter.	The first line contains two integers: n and d (1<=≤<=n<=≤<=105; 1<=≤<=d<=≤<=109). The next line contains n integers x1,<=x2,<=...,<=xn, their absolute value doesn't exceed 109 — the x-coordinates of the points that Petya has got. It is guaranteed that the coordinates of the points in the input strictly increase.	Print a single integer — the number of groups of three points, where the distance between two farthest points doesn't exceed d. Please do not use the %lld specifier to read or write 64-bit integers in С++. It is preferred to use the cin, cout streams or the %I64d specifier.	[ "4 3\n1 2 3 4\n", "4 2\n-3 -2 -1 0\n", "5 19\n1 10 20 30 50\n" ]	[ "4\n", "2\n", "1\n" ]	In the first sample any group of three points meets our conditions. In the seconds sample only 2 groups of three points meet our conditions: {-3, -2, -1} and {-2, -1, 0}. In the third sample only one group does: {1, 10, 20}.	0	[ { "input": "4 3\n1 2 3 4", "output": "4" }, { "input": "4 2\n-3 -2 -1 0", "output": "2" }, { "input": "5 19\n1 10 20 30 50", "output": "1" }, { "input": "10 5\n31 36 43 47 48 50 56 69 71 86", "output": "2" }, { "input": "10 50\n1 4 20 27 65 79 82 83 99 100", "output": "25" }, { "input": "10 90\n24 27 40 41 61 69 73 87 95 97", "output": "120" }, { "input": "100 100\n-98 -97 -96 -93 -92 -91 -90 -87 -86 -84 -81 -80 -79 -78 -76 -75 -73 -71 -69 -67 -65 -64 -63 -62 -61 -54 -51 -50 -49 -48 -46 -45 -44 -37 -36 -33 -30 -28 -27 -16 -15 -13 -12 -10 -9 -7 -6 -5 -4 2 3 5 8 9 10 11 13 14 15 16 17 19 22 24 25 26 27 28 30 31 32 36 40 43 45 46 47 50 51 52 53 58 60 63 69 70 73 78 80 81 82 85 88 89 90 91 95 96 97 99", "output": "79351" }, { "input": "1 14751211\n847188590", "output": "0" }, { "input": "2 1000000000\n-907894512 -289906312", "output": "0" }, { "input": "2 1000000000\n-14348867 1760823", "output": "0" }, { "input": "3 1000000000\n-5 -1 1", "output": "1" } ]	1,694,691,976	2,147,483,647	PyPy 3-64	OK	TESTS	39	218	12,185,600	def bin_search_right(array: list, target): l = -1 r = len(array) while l+1<r: mid = (l+r)//2 if array[mid]<=target: l = mid else: r = mid return r def bin_search_left(array: list, target): l = -1 r = len(array) while l+1<r: mid = (l+r)//2 if array[mid]<target: l = mid else: r = mid return r def comb(n): val = n-1 return val*(val-1)/2 n,d = [int(x) for x in input().split()] a = [int(x) for x in input().split()] answ = 0 for i in range(0,n-2): target = a[i]+d id = bin_search_right(a,target) if id-i>2: answ+=comb(id-i) print(int(answ))	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: Little Petya likes points a lot. Recently his mom has presented him n points lying on the line OX. Now Petya is wondering in how many ways he can choose three distinct points so that the distance between the two farthest of them doesn't exceed d. Note that the order of the points inside the group of three chosen points doesn't matter. Input Specification: The first line contains two integers: n and d (1<=≤<=n<=≤<=105; 1<=≤<=d<=≤<=109). The next line contains n integers x1,<=x2,<=...,<=xn, their absolute value doesn't exceed 109 — the x-coordinates of the points that Petya has got. It is guaranteed that the coordinates of the points in the input strictly increase. Output Specification: Print a single integer — the number of groups of three points, where the distance between two farthest points doesn't exceed d. Please do not use the %lld specifier to read or write 64-bit integers in С++. It is preferred to use the cin, cout streams or the %I64d specifier. Demo Input: ['4 3\n1 2 3 4\n', '4 2\n-3 -2 -1 0\n', '5 19\n1 10 20 30 50\n'] Demo Output: ['4\n', '2\n', '1\n'] Note: In the first sample any group of three points meets our conditions. In the seconds sample only 2 groups of three points meet our conditions: {-3, -2, -1} and {-2, -1, 0}. In the third sample only one group does: {1, 10, 20}.	```python def bin_search_right(array: list, target): l = -1 r = len(array) while l+1<r: mid = (l+r)//2 if array[mid]<=target: l = mid else: r = mid return r def bin_search_left(array: list, target): l = -1 r = len(array) while l+1<r: mid = (l+r)//2 if array[mid]<target: l = mid else: r = mid return r def comb(n): val = n-1 return val*(val-1)/2 n,d = [int(x) for x in input().split()] a = [int(x) for x in input().split()] answ = 0 for i in range(0,n-2): target = a[i]+d id = bin_search_right(a,target) if id-i>2: answ+=comb(id-i) print(int(answ)) ```	3
96	A	Football	PROGRAMMING	900	[ "implementation", "strings" ]	A. Football	2	256	Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not.	The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field.	Print "YES" if the situation is dangerous. Otherwise, print "NO".	[ "001001\n", "1000000001\n" ]	[ "NO\n", "YES\n" ]	none	500	[ { "input": "001001", "output": "NO" }, { "input": "1000000001", "output": "YES" }, { "input": "00100110111111101", "output": "YES" }, { "input": "11110111111111111", "output": "YES" }, { "input": "01", "output": "NO" }, { "input": "10100101", "output": "NO" }, { "input": "1010010100000000010", "output": "YES" }, { "input": "101010101", "output": "NO" }, { "input": "000000000100000000000110101100000", "output": "YES" }, { "input": "100001000000110101100000", "output": "NO" }, { "input": "100001000011010110000", "output": "NO" }, { "input": "010", "output": "NO" }, { "input": "10101011111111111111111111111100", "output": "YES" }, { "input": "1001101100", "output": "NO" }, { "input": "1001101010", "output": "NO" }, { "input": "1111100111", "output": "NO" }, { "input": "00110110001110001111", "output": "NO" }, { "input": "11110001001111110001", "output": "NO" }, { "input": "10001111001011111101", "output": "NO" }, { "input": "10000010100000001000110001010100001001001010011", "output": "YES" }, { "input": "01111011111010111100101100001011001010111110000010", "output": "NO" }, { "input": "00100000100100101110011001011011101110110110010100", "output": "NO" }, { "input": "10110100110001001011110101110010100010000000000100101010111110111110100011", "output": "YES" }, { "input": "00011101010101111001011011001101101011111101000010100000111000011100101011", "output": "NO" }, { "input": "01110000110100110101110100111000101101011101011110110100100111100001110111", "output": "NO" }, { "input": "11110110011000100111100111101101011111110100010101011011111101110110110111", "output": "YES" }, { "input": "100100010101110010001011001110100011100010011110100101100011010001001010001001101111001100", "output": "NO" }, { "input": "111110010001011010010011111100110110001111000010100011011100111101111101110010101111011110000001010", "output": "NO" }, { "input": "111110111100010100000100001010111011101011000111011011011010110010100010000101011111000011010011110", "output": "NO" }, { "input": "1011110110111010110111111010010010100011111011110000011000110010011110111010110100011010100010111000", "output": "NO" }, { "input": "0010100111100010110110000011100111110100111110001010000100111111111010111100101101010101001011010110", "output": "YES" }, { "input": "1111010100010100101011101100101101110011000010100010000001111100010011100101010001101111000001011000", "output": "NO" }, { "input": "0101100011001110001110100111100011010101011000000000110110010010111100101111010111100011101100100101", "output": "YES" }, { "input": "0001101110011101110000000010011111101001101111100001001010110000110001100000010001111011011110001101", "output": "YES" }, { "input": "1000010000100000100010000100001000010000100001000010000100001000010000100001000010000100001000010000", "output": "NO" }, { "input": "1000000000100000000010000000001000000000100000000010000000001000000000100000000010000000001000000000", "output": "YES" }, { "input": "0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001", "output": "YES" }, { "input": "1111111111111111111111111111111111111111011111111111111111111111111111111111111111111111111111111111", "output": "YES" }, { "input": "10100101000", "output": "NO" }, { "input": "11110111011101", "output": "NO" }, { "input": "10000000", "output": "YES" }, { "input": "00000001", "output": "YES" }, { "input": "01111111", "output": "YES" }, { "input": "11111110", "output": "YES" } ]	1,674,906,182	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	62	0	p = input() c=0 v='' a = 'NO' for i in p: if v ==i: c+=1 elif c==7: a='YES' break else: v = i c=0 print(a)	Title: Football Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not. Input Specification: The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field. Output Specification: Print "YES" if the situation is dangerous. Otherwise, print "NO". Demo Input: ['001001\n', '1000000001\n'] Demo Output: ['NO\n', 'YES\n'] Note: none	```python p = input() c=0 v='' a = 'NO' for i in p: if v ==i: c+=1 elif c==7: a='YES' break else: v = i c=0 print(a) ```	0
0	none	none	none	0	[ "none" ]		null	null	Slastyona and her loyal dog Pushok are playing a meaningless game that is indeed very interesting. The game consists of multiple rounds. Its rules are very simple: in each round, a natural number k is chosen. Then, the one who says (or barks) it faster than the other wins the round. After that, the winner's score is multiplied by k2, and the loser's score is multiplied by k. In the beginning of the game, both Slastyona and Pushok have scores equal to one. Unfortunately, Slastyona had lost her notepad where the history of all n games was recorded. She managed to recall the final results for each games, though, but all of her memories of them are vague. Help Slastyona verify their correctness, or, to put it another way, for each given pair of scores determine whether it was possible for a game to finish with such result or not.	In the first string, the number of games n (1<=≤<=n<=≤<=350000) is given. Each game is represented by a pair of scores a, b (1<=≤<=a,<=b<=≤<=109) – the results of Slastyona and Pushok, correspondingly.	For each pair of scores, answer "Yes" if it's possible for a game to finish with given score, and "No" otherwise. You can output each letter in arbitrary case (upper or lower).	[ "6\n2 4\n75 45\n8 8\n16 16\n247 994\n1000000000 1000000\n" ]	[ "Yes\nYes\nYes\nNo\nNo\nYes\n" ]	First game might have been consisted of one round, in which the number 2 would have been chosen and Pushok would have won. The second game needs exactly two rounds to finish with such result: in the first one, Slastyona would have said the number 5, and in the second one, Pushok would have barked the number 3.	0	[ { "input": "6\n2 4\n75 45\n8 8\n16 16\n247 994\n1000000000 1000000", "output": "Yes\nYes\nYes\nNo\nNo\nYes" }, { "input": "3\n1 1\n8 27\n1000 1331", "output": "Yes\nNo\nNo" }, { "input": "1\n12004 18012002", "output": "Yes" }, { "input": "1\n3331 11095561", "output": "Yes" }, { "input": "1\n2 3", "output": "No" }, { "input": "1\n1062961 1031", "output": "Yes" }, { "input": "1\n6 12", "output": "No" }, { "input": "1\n3 1", "output": "No" }, { "input": "1\n3 10", "output": "No" }, { "input": "1\n31159 970883281", "output": "Yes" }, { "input": "1\n9907 98148649", "output": "Yes" }, { "input": "1\n16 8", "output": "No" }, { "input": "1\n90 72", "output": "No" } ]	1,510,231,755	2,355	Python 3	COMPILATION_ERROR	TESTS	0	0	0	//{{{By oToToT // C #ifndef _GLIBCXX_NO_ASSERT #include <cassert> #endif #include <cctype> #include <cerrno> #include <cfloat> #include <ciso646> #include <climits> #include <clocale> #include <cmath> #include <csetjmp> #include <csignal> #include <cstdarg> #include <cstddef> #include <cstdio> #include <cstdlib> #include <cstring> #include <ctime> #if __cplusplus >= 201103L #include <ccomplex> #include <cfenv> #include <cinttypes> #include <cstdalign> #include <cstdbool> #include <cstdint> #include <ctgmath> #include <cwchar> #include <cwctype> #endif // C++ #include <algorithm> #include <bitset> #include <complex> #include <deque> #include <exception> #include <fstream> #include <functional> #include <iomanip> #include <ios> #include <iosfwd> #include <iostream> #include <istream> #include <iterator> #include <limits> #include <list> #include <locale> #include <map> #include <memory> #include <new> #include <numeric> #include <ostream> #include <queue> #include <set> #include <sstream> #include <stack> #include <stdexcept> #include <streambuf> #include <string> #include <typeinfo> #include <utility> #include <valarray> #include <vector> #if __cplusplus >= 201103L #include <array> #include <atomic> #include <chrono> #include <condition_variable> #include <forward_list> #include <future> #include <initializer_list> #include <mutex> #include <random> #include <ratio> #include <regex> #include <scoped_allocator> #include <system_error> #include <thread> #include <tuple> #include <typeindex> #include <type_traits> #include <unordered_map> #include <unordered_set> #endif #if __cplusplus >= 201402L #include <shared_mutex> #endif using namespace std; /* include everything for Kotori~ <3 / typedef long long lld; typedef unsigned long long llu; typedef double lf; typedef long double llf; typedef pair<int,int> PII; typedef pair<lld,lld> PLL; typedef pair<int,lld> PIL; typedef pair<lld,int> PLI; template<typename T> using maxHeap = priority_queue<T,vector<T>,less<T>>; template<typename T> using minHeap = priority_queue<T,vector<T>,greater<T>>; / define some types for Ruby! / #define F1(i,s,n) for(int i=s;i<int(n);++i) #define FI(i,s,n) for(int i=n-1;i>=s;--i) #define F(i,s,n,k) for(int i=s;i!=int(n);i+=(k)) #define WC(a) while(a--) / make loop easier for Di~a~ / #define FF first #define SS second #define SZ(x) ((int)((x).size())) #define PB push_back #define ALL(x) (x).begin(), (x).end() #define Maxi(a, b) (a)=max((a), (b)) #define Mini(a, b) (a)=max((a), (b)) / define some weird thing for Ainyan~n~ / #ifdef __linux__ #define gc getchar_unlocked #elif _WIN32 #define gc getchar #elif __APPLE__ #define gc getchar #endif template<typename T, class = typename is_integral<T>::type> inline void GET(T &_){T __=1;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();_=__;} inline void GET(llf &_){llf __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(llf w=10;c>='0'&&c<='9';w=10)___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(lf &_){lf __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(lf w=10;c>='0'&&c<='9';w=10) ___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(float &_){float __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(float w=10;c>='0'&&c<='9';w=10) ___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(char _){char c=gc();while(c==' '\|\|c=='\n'\|\|c=='\t')c=gc();size_t __=0;for(_[__++]=c;c!=' '&&c!='\n'&&c!='\t'&&c!='\0';_[__++]=c)c=gc();_[__]='\0';} inline void GET(string &_){char c=gc();while(c==' '\|\|c=='\n'\|\|c=='\t')c=gc();for(_.PB(c);c!=' '&&c!='\n'&&c!='\t'&&c!='\0';_.PB(c))c=gc();} template<typename A, typename B> inline void GET(pair<A,B> &_){GET(_.FF);GET(_.SS);} template <typename T, typename ...Args> inline void GET(T &x, Args& ...args){GET(x);GET(args...);} #undef gc / make reading quicker for Ma~ri~ <3 / #ifdef __linux__ #define pc putchar_unlocked #elif _WIN32 #define pc putchar #elif __APPLE__ #define pc putchar #endif inline void SHOW(){} inline void SHOW(const int &a){printf("%d",a);} inline void SHOW(const unsigned int &a){printf("%u",a);} inline void SHOW(const llu &a){printf("%llu",a);} inline void SHOW(const lld &a){printf("%lld",a);} inline void SHOW(const lf &a){printf("%lf",a);} inline void SHOW(const long &a){printf("%ld",a);} inline void SHOW(const char a[]){for(size_t _=0;a[_]!='\0';_++)pc(a[_]);} inline void SHOW(const char &a){pc(a);} inline void SHOW(const bool &a){pc(a?'1':'0');} template<typename A, typename B> inline void SHOW(const pair<A,B>& a){pc('(');SHOW(a.FF);pc(',');pc(' ');SHOW(a.SS);pc(')');} template<typename T,size_t N> inline void SHOW(const array<T,N>& a){pc('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())pc(' ');SHOW(_);}pc(']');} template<typename T> inline void SHOW(const vector<T> &a){pc('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())pc(' ');SHOW(_);}pc(']');} template <typename T, typename ...Args> inline void SHOW(const T& x,const Args& ...args){SHOW(x);SHOW(args...);} #undef pc / make showing things easier and quicker for Uchida Aya / bool debug=0; inline void DEBUG(){} inline void DEBUG(const int &a){if(debug)fprintf(stderr,"%d",a);} inline void DEBUG(const unsigned int &a){if(debug)fprintf(stderr,"%u",a);} inline void DEBUG(const llu &a){if(debug)fprintf(stderr,"%llu",a);} inline void DEBUG(const lld &a){if(debug)fprintf(stderr,"%lld",a);} inline void DEBUG(const llf &a){if(debug)fprintf(stderr,"%Lf",a);} inline void DEBUG(const lf &a){if(debug)fprintf(stderr,"%lf",a);} inline void DEBUG(const long &a){if(debug)fprintf(stderr,"%ld",a);} inline void DEBUG(const char a[]){if(debug)fprintf(stderr,"%s",a);} inline void DEBUG(const char &a){if(debug)fprintf(stderr,"%c",a);} inline void DEBUG(const bool &a){if(debug)fprintf(stderr,(a?"1":"0"));} template<typename A,typename B> inline void DEBUG(const pair<A,B>& a){DEBUG('(');DEBUG(a.FF);DEBUG(", ");DEBUG(a.SS);DEBUG(")");} template<typename T,size_t N> inline void DEBUG(const array<T,N> &a){DEBUG('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())DEBUG(' ');SHOW(_);}DEBUG(']');} template<typename T> inline void DEBUG(const vector<T> &a){DEBUG('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())DEBUG(' ');SHOW(_);}DEBUG(']');} template <typename T, typename ...Args> inline void DEBUG(const T& x,const Args& ...args){DEBUG(x);DEBUG(args...);} / Let's debug with Nico~Nico~Ni~ / //}}} lld cube_root(lld); int main(int argc, char argv[]){ if(argc>1&&string(argv[1])=="-D") debug=1; int t; GET(t); WC(t){ lld a, b; GET(a, b); lld d = ab; lld obov = cbrt(d); if(obovobov*obov == d and a%obov==0 and b%obov==0) SHOW("Yes\n"); else SHOW("No\n"); } return 0; }	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: Slastyona and her loyal dog Pushok are playing a meaningless game that is indeed very interesting. The game consists of multiple rounds. Its rules are very simple: in each round, a natural number k is chosen. Then, the one who says (or barks) it faster than the other wins the round. After that, the winner's score is multiplied by k2, and the loser's score is multiplied by k. In the beginning of the game, both Slastyona and Pushok have scores equal to one. Unfortunately, Slastyona had lost her notepad where the history of all n games was recorded. She managed to recall the final results for each games, though, but all of her memories of them are vague. Help Slastyona verify their correctness, or, to put it another way, for each given pair of scores determine whether it was possible for a game to finish with such result or not. Input Specification: In the first string, the number of games n (1<=≤<=n<=≤<=350000) is given. Each game is represented by a pair of scores a, b (1<=≤<=a,<=b<=≤<=109) – the results of Slastyona and Pushok, correspondingly. Output Specification: For each pair of scores, answer "Yes" if it's possible for a game to finish with given score, and "No" otherwise. You can output each letter in arbitrary case (upper or lower). Demo Input: ['6\n2 4\n75 45\n8 8\n16 16\n247 994\n1000000000 1000000\n'] Demo Output: ['Yes\nYes\nYes\nNo\nNo\nYes\n'] Note: First game might have been consisted of one round, in which the number 2 would have been chosen and Pushok would have won. The second game needs exactly two rounds to finish with such result: in the first one, Slastyona would have said the number 5, and in the second one, Pushok would have barked the number 3.	```python //{{{By oToToT // C #ifndef _GLIBCXX_NO_ASSERT #include <cassert> #endif #include <cctype> #include <cerrno> #include <cfloat> #include <ciso646> #include <climits> #include <clocale> #include <cmath> #include <csetjmp> #include <csignal> #include <cstdarg> #include <cstddef> #include <cstdio> #include <cstdlib> #include <cstring> #include <ctime> #if __cplusplus >= 201103L #include <ccomplex> #include <cfenv> #include <cinttypes> #include <cstdalign> #include <cstdbool> #include <cstdint> #include <ctgmath> #include <cwchar> #include <cwctype> #endif // C++ #include <algorithm> #include <bitset> #include <complex> #include <deque> #include <exception> #include <fstream> #include <functional> #include <iomanip> #include <ios> #include <iosfwd> #include <iostream> #include <istream> #include <iterator> #include <limits> #include <list> #include <locale> #include <map> #include <memory> #include <new> #include <numeric> #include <ostream> #include <queue> #include <set> #include <sstream> #include <stack> #include <stdexcept> #include <streambuf> #include <string> #include <typeinfo> #include <utility> #include <valarray> #include <vector> #if __cplusplus >= 201103L #include <array> #include <atomic> #include <chrono> #include <condition_variable> #include <forward_list> #include <future> #include <initializer_list> #include <mutex> #include <random> #include <ratio> #include <regex> #include <scoped_allocator> #include <system_error> #include <thread> #include <tuple> #include <typeindex> #include <type_traits> #include <unordered_map> #include <unordered_set> #endif #if __cplusplus >= 201402L #include <shared_mutex> #endif using namespace std; /* include everything for Kotori~ <3 / typedef long long lld; typedef unsigned long long llu; typedef double lf; typedef long double llf; typedef pair<int,int> PII; typedef pair<lld,lld> PLL; typedef pair<int,lld> PIL; typedef pair<lld,int> PLI; template<typename T> using maxHeap = priority_queue<T,vector<T>,less<T>>; template<typename T> using minHeap = priority_queue<T,vector<T>,greater<T>>; / define some types for Ruby! / #define F1(i,s,n) for(int i=s;i<int(n);++i) #define FI(i,s,n) for(int i=n-1;i>=s;--i) #define F(i,s,n,k) for(int i=s;i!=int(n);i+=(k)) #define WC(a) while(a--) / make loop easier for Di~a~ / #define FF first #define SS second #define SZ(x) ((int)((x).size())) #define PB push_back #define ALL(x) (x).begin(), (x).end() #define Maxi(a, b) (a)=max((a), (b)) #define Mini(a, b) (a)=max((a), (b)) / define some weird thing for Ainyan~n~ / #ifdef __linux__ #define gc getchar_unlocked #elif _WIN32 #define gc getchar #elif __APPLE__ #define gc getchar #endif template<typename T, class = typename is_integral<T>::type> inline void GET(T &_){T __=1;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();_=__;} inline void GET(llf &_){llf __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(llf w=10;c>='0'&&c<='9';w=10)___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(lf &_){lf __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(lf w=10;c>='0'&&c<='9';w=10) ___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(float &_){float __=1,___=0;char c=gc();_=0;while((c<'0'\|\|c>'9')&&c!='-')c=gc();if(c=='-')__=-1,c=gc();while(c>='0'&&c<='9')_=_10+c-'0',c=gc();if(c=='.'){c=gc();for(float w=10;c>='0'&&c<='9';w=10) ___=___+(c-'0')/w,c=gc();}_+=___;_=__;} inline void GET(char _){char c=gc();while(c==' '\|\|c=='\n'\|\|c=='\t')c=gc();size_t __=0;for(_[__++]=c;c!=' '&&c!='\n'&&c!='\t'&&c!='\0';_[__++]=c)c=gc();_[__]='\0';} inline void GET(string &_){char c=gc();while(c==' '\|\|c=='\n'\|\|c=='\t')c=gc();for(_.PB(c);c!=' '&&c!='\n'&&c!='\t'&&c!='\0';_.PB(c))c=gc();} template<typename A, typename B> inline void GET(pair<A,B> &_){GET(_.FF);GET(_.SS);} template <typename T, typename ...Args> inline void GET(T &x, Args& ...args){GET(x);GET(args...);} #undef gc / make reading quicker for Ma~ri~ <3 / #ifdef __linux__ #define pc putchar_unlocked #elif _WIN32 #define pc putchar #elif __APPLE__ #define pc putchar #endif inline void SHOW(){} inline void SHOW(const int &a){printf("%d",a);} inline void SHOW(const unsigned int &a){printf("%u",a);} inline void SHOW(const llu &a){printf("%llu",a);} inline void SHOW(const lld &a){printf("%lld",a);} inline void SHOW(const lf &a){printf("%lf",a);} inline void SHOW(const long &a){printf("%ld",a);} inline void SHOW(const char a[]){for(size_t _=0;a[_]!='\0';_++)pc(a[_]);} inline void SHOW(const char &a){pc(a);} inline void SHOW(const bool &a){pc(a?'1':'0');} template<typename A, typename B> inline void SHOW(const pair<A,B>& a){pc('(');SHOW(a.FF);pc(',');pc(' ');SHOW(a.SS);pc(')');} template<typename T,size_t N> inline void SHOW(const array<T,N>& a){pc('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())pc(' ');SHOW(_);}pc(']');} template<typename T> inline void SHOW(const vector<T> &a){pc('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())pc(' ');SHOW(_);}pc(']');} template <typename T, typename ...Args> inline void SHOW(const T& x,const Args& ...args){SHOW(x);SHOW(args...);} #undef pc / make showing things easier and quicker for Uchida Aya / bool debug=0; inline void DEBUG(){} inline void DEBUG(const int &a){if(debug)fprintf(stderr,"%d",a);} inline void DEBUG(const unsigned int &a){if(debug)fprintf(stderr,"%u",a);} inline void DEBUG(const llu &a){if(debug)fprintf(stderr,"%llu",a);} inline void DEBUG(const lld &a){if(debug)fprintf(stderr,"%lld",a);} inline void DEBUG(const llf &a){if(debug)fprintf(stderr,"%Lf",a);} inline void DEBUG(const lf &a){if(debug)fprintf(stderr,"%lf",a);} inline void DEBUG(const long &a){if(debug)fprintf(stderr,"%ld",a);} inline void DEBUG(const char a[]){if(debug)fprintf(stderr,"%s",a);} inline void DEBUG(const char &a){if(debug)fprintf(stderr,"%c",a);} inline void DEBUG(const bool &a){if(debug)fprintf(stderr,(a?"1":"0"));} template<typename A,typename B> inline void DEBUG(const pair<A,B>& a){DEBUG('(');DEBUG(a.FF);DEBUG(", ");DEBUG(a.SS);DEBUG(")");} template<typename T,size_t N> inline void DEBUG(const array<T,N> &a){DEBUG('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())DEBUG(' ');SHOW(_);}DEBUG(']');} template<typename T> inline void DEBUG(const vector<T> &a){DEBUG('[');for(auto _=a.cbegin();_!=a.cend();_++){if(_!=a.begin())DEBUG(' ');SHOW(_);}DEBUG(']');} template <typename T, typename ...Args> inline void DEBUG(const T& x,const Args& ...args){DEBUG(x);DEBUG(args...);} / Let's debug with Nico~Nico~Ni~ / //}}} lld cube_root(lld); int main(int argc, char argv[]){ if(argc>1&&string(argv[1])=="-D") debug=1; int t; GET(t); WC(t){ lld a, b; GET(a, b); lld d = ab; lld obov = cbrt(d); if(obovobov*obov == d and a%obov==0 and b%obov==0) SHOW("Yes\n"); else SHOW("No\n"); } return 0; } ```	-1
501	A	Contest	PROGRAMMING	900	[ "implementation" ]		null	null	Misha and Vasya participated in a Codeforces contest. Unfortunately, each of them solved only one problem, though successfully submitted it at the first attempt. Misha solved the problem that costs a points and Vasya solved the problem that costs b points. Besides, Misha submitted the problem c minutes after the contest started and Vasya submitted the problem d minutes after the contest started. As you know, on Codeforces the cost of a problem reduces as a round continues. That is, if you submit a problem that costs p points t minutes after the contest started, you get points. Misha and Vasya are having an argument trying to find out who got more points. Help them to find out the truth.	The first line contains four integers a, b, c, d (250<=≤<=a,<=b<=≤<=3500, 0<=≤<=c,<=d<=≤<=180). It is guaranteed that numbers a and b are divisible by 250 (just like on any real Codeforces round).	Output on a single line: "Misha" (without the quotes), if Misha got more points than Vasya. "Vasya" (without the quotes), if Vasya got more points than Misha. "Tie" (without the quotes), if both of them got the same number of points.	[ "500 1000 20 30\n", "1000 1000 1 1\n", "1500 1000 176 177\n" ]	[ "Vasya\n", "Tie\n", "Misha\n" ]	none	500	[ { "input": "500 1000 20 30", "output": "Vasya" }, { "input": "1000 1000 1 1", "output": "Tie" }, { "input": "1500 1000 176 177", "output": "Misha" }, { "input": "1500 1000 74 177", "output": "Misha" }, { "input": "750 2500 175 178", "output": "Vasya" }, { "input": "750 1000 54 103", "output": "Tie" }, { "input": "2000 1250 176 130", "output": "Tie" }, { "input": "1250 1750 145 179", "output": "Tie" }, { "input": "2000 2000 176 179", "output": "Tie" }, { "input": "1500 1500 148 148", "output": "Tie" }, { "input": "2750 1750 134 147", "output": "Misha" }, { "input": "3250 250 175 173", "output": "Misha" }, { "input": "500 500 170 176", "output": "Misha" }, { "input": "250 1000 179 178", "output": "Vasya" }, { "input": "3250 1000 160 138", "output": "Misha" }, { "input": "3000 2000 162 118", "output": "Tie" }, { "input": "1500 1250 180 160", "output": "Tie" }, { "input": "1250 2500 100 176", "output": "Tie" }, { "input": "3500 3500 177 178", "output": "Tie" }, { "input": "3000 3250 16 34", "output": "Tie" }, { "input": "1750 3000 137 49", "output": "Vasya" }, { "input": "500 1500 179 71", "output": "Vasya" }, { "input": "1250 2000 101 180", "output": "Misha" }, { "input": "250 750 180 176", "output": "Vasya" }, { "input": "2250 2250 163 145", "output": "Vasya" }, { "input": "3000 3000 176 78", "output": "Vasya" }, { "input": "250 3500 8 178", "output": "Vasya" }, { "input": "1750 1250 179 180", "output": "Misha" }, { "input": "2750 1750 13 164", "output": "Misha" }, { "input": "1750 2250 178 53", "output": "Vasya" }, { "input": "2500 2750 73 179", "output": "Misha" }, { "input": "1000 3500 178 175", "output": "Vasya" }, { "input": "1000 500 7 162", "output": "Misha" }, { "input": "1000 250 175 48", "output": "Misha" }, { "input": "1750 500 166 177", "output": "Misha" }, { "input": "250 250 0 0", "output": "Tie" }, { "input": "250 3500 0 0", "output": "Vasya" }, { "input": "250 3500 0 180", "output": "Vasya" }, { "input": "3500 3500 180 180", "output": "Tie" }, { "input": "3500 250 0 180", "output": "Misha" } ]	1,639,889,054	2,147,483,647	Python 3	OK	TESTS	40	46	0	a,b,c,d = map(int,input().split()) misha = max(3a/10,a-a/250c) vasya = max(3b/10,b-b/250d) if misha > vasya: print("Misha") elif misha == vasya: print("Tie") else: print("Vasya")	Title: Contest Time Limit: None seconds Memory Limit: None megabytes Problem Description: Misha and Vasya participated in a Codeforces contest. Unfortunately, each of them solved only one problem, though successfully submitted it at the first attempt. Misha solved the problem that costs a points and Vasya solved the problem that costs b points. Besides, Misha submitted the problem c minutes after the contest started and Vasya submitted the problem d minutes after the contest started. As you know, on Codeforces the cost of a problem reduces as a round continues. That is, if you submit a problem that costs p points t minutes after the contest started, you get points. Misha and Vasya are having an argument trying to find out who got more points. Help them to find out the truth. Input Specification: The first line contains four integers a, b, c, d (250<=≤<=a,<=b<=≤<=3500, 0<=≤<=c,<=d<=≤<=180). It is guaranteed that numbers a and b are divisible by 250 (just like on any real Codeforces round). Output Specification: Output on a single line: "Misha" (without the quotes), if Misha got more points than Vasya. "Vasya" (without the quotes), if Vasya got more points than Misha. "Tie" (without the quotes), if both of them got the same number of points. Demo Input: ['500 1000 20 30\n', '1000 1000 1 1\n', '1500 1000 176 177\n'] Demo Output: ['Vasya\n', 'Tie\n', 'Misha\n'] Note: none	```python a,b,c,d = map(int,input().split()) misha = max(3a/10,a-a/250c) vasya = max(3b/10,b-b/250d) if misha > vasya: print("Misha") elif misha == vasya: print("Tie") else: print("Vasya") ```	3
237	A	Free Cash	PROGRAMMING	1,000	[ "implementation" ]		null	null	Valera runs a 24/7 fast food cafe. He magically learned that next day n people will visit his cafe. For each person we know the arrival time: the i-th person comes exactly at hi hours mi minutes. The cafe spends less than a minute to serve each client, but if a client comes in and sees that there is no free cash, than he doesn't want to wait and leaves the cafe immediately. Valera is very greedy, so he wants to serve all n customers next day (and get more profit). However, for that he needs to ensure that at each moment of time the number of working cashes is no less than the number of clients in the cafe. Help Valera count the minimum number of cashes to work at his cafe next day, so that they can serve all visitors.	The first line contains a single integer n (1<=≤<=n<=≤<=105), that is the number of cafe visitors. Each of the following n lines has two space-separated integers hi and mi (0<=≤<=hi<=≤<=23; 0<=≤<=mi<=≤<=59), representing the time when the i-th person comes into the cafe. Note that the time is given in the chronological order. All time is given within one 24-hour period.	Print a single integer — the minimum number of cashes, needed to serve all clients next day.	[ "4\n8 0\n8 10\n8 10\n8 45\n", "3\n0 12\n10 11\n22 22\n" ]	[ "2\n", "1\n" ]	In the first sample it is not enough one cash to serve all clients, because two visitors will come into cafe in 8:10. Therefore, if there will be one cash in cafe, then one customer will be served by it, and another one will not wait and will go away. In the second sample all visitors will come in different times, so it will be enough one cash.	500	[ { "input": "4\n8 0\n8 10\n8 10\n8 45", "output": "2" }, { "input": "3\n0 12\n10 11\n22 22", "output": "1" }, { "input": "5\n12 8\n15 27\n15 27\n16 2\n19 52", "output": "2" }, { "input": "7\n5 6\n7 34\n7 34\n7 34\n12 29\n15 19\n20 23", "output": "3" }, { "input": "8\n0 36\n4 7\n4 7\n4 7\n11 46\n12 4\n15 39\n18 6", "output": "3" }, { "input": "20\n4 12\n4 21\n4 27\n4 56\n5 55\n7 56\n11 28\n11 36\n14 58\n15 59\n16 8\n17 12\n17 23\n17 23\n17 23\n17 23\n17 23\n17 23\n20 50\n22 32", "output": "6" }, { "input": "10\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30", "output": "10" }, { "input": "50\n0 23\n1 21\n2 8\n2 45\n3 1\n4 19\n4 37\n7 7\n7 40\n8 43\n9 51\n10 13\n11 2\n11 19\n11 30\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 54\n13 32\n13 42\n14 29\n14 34\n14 48\n15 0\n15 27\n16 22\n16 31\n17 25\n17 26\n17 33\n18 14\n18 16\n18 20\n19 0\n19 5\n19 56\n20 22\n21 26\n22 0\n22 10\n22 11\n22 36\n23 17\n23 20", "output": "8" }, { "input": "10\n0 39\n1 35\n1 49\n1 51\n5 24\n7 40\n7 56\n16 42\n23 33\n23 49", "output": "1" }, { "input": "15\n0 16\n6 15\n8 2\n8 6\n8 7\n10 1\n10 1\n10 3\n10 12\n13 5\n14 16\n14 16\n14 16\n14 16\n14 16", "output": "5" }, { "input": "2\n0 24\n1 0", "output": "1" }, { "input": "1\n0 0", "output": "1" }, { "input": "1\n1 5", "output": "1" }, { "input": "1\n1 1", "output": "1" }, { "input": "3\n0 0\n0 0\n0 0", "output": "3" }, { "input": "1\n5 0", "output": "1" }, { "input": "5\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "5" }, { "input": "1\n10 10", "output": "1" }, { "input": "1\n8 0", "output": "1" }, { "input": "10\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "10" }, { "input": "2\n0 0\n0 1", "output": "1" }, { "input": "2\n8 5\n8 5", "output": "2" } ]	1,688,103,195	2,147,483,647	PyPy 3-64	OK	TESTS	67	1,370	13,107,200	n=int(input()) A=[] D={} for i in range(n): a,b=map(int,input().split()) A.append((a,b)) if (a,b) in D: D[(a,b)]+=1 else: D[(a,b)]=1 print(max(D.values()))	Title: Free Cash Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera runs a 24/7 fast food cafe. He magically learned that next day n people will visit his cafe. For each person we know the arrival time: the i-th person comes exactly at hi hours mi minutes. The cafe spends less than a minute to serve each client, but if a client comes in and sees that there is no free cash, than he doesn't want to wait and leaves the cafe immediately. Valera is very greedy, so he wants to serve all n customers next day (and get more profit). However, for that he needs to ensure that at each moment of time the number of working cashes is no less than the number of clients in the cafe. Help Valera count the minimum number of cashes to work at his cafe next day, so that they can serve all visitors. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=105), that is the number of cafe visitors. Each of the following n lines has two space-separated integers hi and mi (0<=≤<=hi<=≤<=23; 0<=≤<=mi<=≤<=59), representing the time when the i-th person comes into the cafe. Note that the time is given in the chronological order. All time is given within one 24-hour period. Output Specification: Print a single integer — the minimum number of cashes, needed to serve all clients next day. Demo Input: ['4\n8 0\n8 10\n8 10\n8 45\n', '3\n0 12\n10 11\n22 22\n'] Demo Output: ['2\n', '1\n'] Note: In the first sample it is not enough one cash to serve all clients, because two visitors will come into cafe in 8:10. Therefore, if there will be one cash in cafe, then one customer will be served by it, and another one will not wait and will go away. In the second sample all visitors will come in different times, so it will be enough one cash.	```python n=int(input()) A=[] D={} for i in range(n): a,b=map(int,input().split()) A.append((a,b)) if (a,b) in D: D[(a,b)]+=1 else: D[(a,b)]=1 print(max(D.values())) ```	3
129	A	Cookies	PROGRAMMING	900	[ "implementation" ]		null	null	Olga came to visit the twins Anna and Maria and saw that they have many cookies. The cookies are distributed into bags. As there are many cookies, Olga decided that it's no big deal if she steals a bag. However, she doesn't want the sisters to quarrel because of nothing when they divide the cookies. That's why Olga wants to steal a bag with cookies so that the number of cookies in the remaining bags was even, that is, so that Anna and Maria could evenly divide it into two (even 0 remaining cookies will do, just as any other even number). How many ways there are to steal exactly one cookie bag so that the total number of cookies in the remaining bags was even?	The first line contains the only integer n (1<=≤<=n<=≤<=100) — the number of cookie bags Anna and Maria have. The second line contains n integers ai (1<=≤<=ai<=≤<=100) — the number of cookies in the i-th bag.	Print in the only line the only number — the sought number of ways. If there are no such ways print 0.	[ "1\n1\n", "10\n1 2 2 3 4 4 4 2 2 2\n", "11\n2 2 2 2 2 2 2 2 2 2 99\n" ]	[ "1\n", "8\n", "1\n" ]	In the first sample Olga should take the only bag so that the twins ended up with the even number of cookies. In the second sample Olga can take any of five bags with two cookies or any of three bags with four cookies — 5 + 3 = 8 ways in total. In the third sample, no matter which bag with two cookies Olga chooses, the twins are left with 2 * 9 + 99 = 117 cookies. Thus, Olga has only one option: to take the bag with 99 cookies.	500	[ { "input": "1\n1", "output": "1" }, { "input": "10\n1 2 2 3 4 4 4 2 2 2", "output": "8" }, { "input": "11\n2 2 2 2 2 2 2 2 2 2 99", "output": "1" }, { "input": "2\n1 1", "output": "0" }, { "input": "2\n2 2", "output": "2" }, { "input": "2\n1 2", "output": "1" }, { "input": "7\n7 7 7 7 7 7 7", "output": "7" }, { "input": "8\n1 2 3 4 5 6 7 8", "output": "4" }, { "input": "100\n1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2 1 1 1 1 1 2 2 2 2 2", "output": "50" }, { "input": "99\n99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99 100 99", "output": "49" }, { "input": "82\n43 44 96 33 23 42 33 66 53 87 8 90 43 91 40 88 51 18 48 62 59 10 22 20 54 6 13 63 2 56 31 52 98 42 54 32 26 77 9 24 33 91 16 30 39 34 78 82 73 90 12 15 67 76 30 18 44 86 84 98 65 54 100 79 28 34 40 56 11 43 72 35 86 59 89 40 30 33 7 19 44 15", "output": "50" }, { "input": "17\n50 14 17 77 74 74 38 76 41 27 45 29 66 98 38 73 38", "output": "7" }, { "input": "94\n81 19 90 99 26 11 86 44 78 36 80 59 99 90 78 72 71 20 94 56 42 40 71 84 10 85 10 70 52 27 39 55 90 16 48 25 7 79 99 100 38 10 99 56 3 4 78 9 16 57 14 40 52 54 57 70 30 86 56 84 97 60 59 69 49 66 23 92 90 46 86 73 53 47 1 83 14 20 24 66 13 45 41 14 86 75 55 88 48 95 82 24 47 87", "output": "39" }, { "input": "88\n64 95 12 90 40 65 98 45 52 54 79 7 81 25 98 19 68 82 41 53 35 50 5 22 32 21 8 39 8 6 72 27 81 30 12 79 21 42 60 2 66 87 46 93 62 78 52 71 76 32 78 94 86 85 55 15 34 76 41 20 32 26 94 81 89 45 74 49 11 40 40 39 49 46 80 85 90 23 80 40 86 58 70 26 48 93 23 53", "output": "37" }, { "input": "84\n95 9 43 43 13 84 60 90 1 8 97 99 54 34 59 83 33 15 51 26 40 12 66 65 19 30 29 78 92 60 25 13 19 84 71 73 12 24 54 49 16 41 11 40 57 59 34 40 39 9 71 83 1 77 79 53 94 47 78 55 77 85 29 52 80 90 53 77 97 97 27 79 28 23 83 25 26 22 49 86 63 56 3 32", "output": "51" }, { "input": "47\n61 97 76 94 91 22 2 68 62 73 90 47 16 79 44 71 98 68 43 6 53 52 40 27 68 67 43 96 14 91 60 61 96 24 97 13 32 65 85 96 81 77 34 18 23 14 80", "output": "21" }, { "input": "69\n71 1 78 74 58 89 30 6 100 90 22 61 11 59 14 74 27 25 78 61 45 19 25 33 37 4 52 43 53 38 9 100 56 67 69 38 76 91 63 60 93 52 28 61 9 98 8 14 57 63 89 64 98 51 36 66 36 86 13 82 50 91 52 64 86 78 78 83 81", "output": "37" }, { "input": "52\n38 78 36 75 19 3 56 1 39 97 24 79 84 16 93 55 96 64 12 24 1 86 80 29 12 32 36 36 73 39 76 65 53 98 30 20 28 8 86 43 70 22 75 69 62 65 81 25 53 40 71 59", "output": "28" }, { "input": "74\n81 31 67 97 26 75 69 81 11 13 13 74 77 88 52 20 52 64 66 75 72 28 41 54 26 75 41 91 75 15 18 36 13 83 63 61 14 48 53 63 19 67 35 48 23 65 73 100 44 55 92 88 99 17 73 25 83 7 31 89 12 80 98 39 42 75 14 29 81 35 77 87 33 94", "output": "47" }, { "input": "44\n46 56 31 31 37 71 94 2 14 100 45 72 36 72 80 3 38 54 42 98 50 32 31 42 62 31 45 50 95 100 18 17 64 22 18 25 52 56 70 57 43 40 81 28", "output": "15" }, { "input": "22\n28 57 40 74 51 4 45 84 99 12 95 14 92 60 47 81 84 51 31 91 59 42", "output": "11" }, { "input": "59\n73 45 94 76 41 49 65 13 74 66 36 25 47 75 40 23 92 72 11 32 32 8 81 26 68 56 41 8 76 47 96 55 70 11 84 14 83 18 70 22 30 39 28 100 48 11 92 45 78 69 86 1 54 90 98 91 13 17 35", "output": "33" }, { "input": "63\n20 18 44 94 68 57 16 43 74 55 68 24 21 95 76 84 50 50 47 86 86 12 58 55 28 72 86 18 34 45 81 88 3 72 41 9 60 90 81 93 12 6 9 6 2 41 1 7 9 29 81 14 64 80 20 36 67 54 7 5 35 81 22", "output": "37" }, { "input": "28\n49 84 48 19 44 91 11 82 96 95 88 90 71 82 87 25 31 23 18 13 98 45 26 65 35 12 31 14", "output": "15" }, { "input": "61\n34 18 28 64 28 45 9 77 77 20 63 92 79 16 16 100 86 2 91 91 57 15 31 95 10 88 84 5 82 83 53 98 59 17 97 80 76 80 81 3 91 81 87 93 61 46 10 49 6 22 21 75 63 89 21 81 30 19 67 38 77", "output": "35" }, { "input": "90\n41 90 43 1 28 75 90 50 3 70 76 64 81 63 25 69 83 82 29 91 59 66 21 61 7 55 72 49 38 69 72 20 64 58 30 81 61 29 96 14 39 5 100 20 29 98 75 29 44 78 97 45 26 77 73 59 22 99 41 6 3 96 71 20 9 18 96 18 90 62 34 78 54 5 41 6 73 33 2 54 26 21 18 6 45 57 43 73 95 75", "output": "42" }, { "input": "45\n93 69 4 27 20 14 71 48 79 3 32 26 49 30 57 88 13 56 49 61 37 32 47 41 41 70 45 68 82 18 8 6 25 20 15 13 71 99 28 6 52 34 19 59 26", "output": "23" }, { "input": "33\n29 95 48 49 91 10 83 71 47 25 66 36 51 12 34 10 54 74 41 96 89 26 89 1 42 33 1 62 9 32 49 65 78", "output": "15" }, { "input": "34\n98 24 42 36 41 82 28 58 89 34 77 70 76 44 74 54 66 100 13 79 4 88 21 1 11 45 91 29 87 100 29 54 82 78", "output": "13" }, { "input": "29\n91 84 26 84 9 63 52 9 65 56 90 2 36 7 67 33 91 14 65 38 53 36 81 83 85 14 33 95 51", "output": "17" }, { "input": "100\n2 88 92 82 87 100 78 28 84 43 78 32 43 33 97 19 15 52 29 84 57 72 54 13 99 28 82 79 40 70 34 92 91 53 9 88 27 43 14 92 72 37 26 37 20 95 19 34 49 64 33 37 34 27 80 79 9 54 99 68 25 4 68 73 46 66 24 78 3 87 26 52 50 84 4 95 23 83 39 58 86 36 33 16 98 2 84 19 53 12 69 60 10 11 78 17 79 92 77 59", "output": "45" }, { "input": "100\n2 95 45 73 9 54 20 97 57 82 88 26 18 71 25 27 75 54 31 11 58 85 69 75 72 91 76 5 25 80 45 49 4 73 8 81 81 38 5 12 53 77 7 96 90 35 28 80 73 94 19 69 96 17 94 49 69 9 32 19 5 12 46 29 26 40 59 59 6 95 82 50 72 2 45 69 12 5 72 29 39 72 23 96 81 28 28 56 68 58 37 41 30 1 90 84 15 24 96 43", "output": "53" }, { "input": "100\n27 72 35 91 13 10 35 45 24 55 83 84 63 96 29 79 34 67 63 92 48 83 18 77 28 27 49 66 29 88 55 15 6 58 14 67 94 36 77 7 7 64 61 52 71 18 36 99 76 6 50 67 16 13 41 7 89 73 61 51 78 22 78 32 76 100 3 31 89 71 63 53 15 85 77 54 89 33 68 74 3 23 57 5 43 89 75 35 9 86 90 11 31 46 48 37 74 17 77 8", "output": "40" }, { "input": "100\n69 98 69 88 11 49 55 8 25 91 17 81 47 26 15 73 96 71 18 42 42 61 48 14 92 78 35 72 4 27 62 75 83 79 17 16 46 80 96 90 82 54 37 69 85 21 67 70 96 10 46 63 21 59 56 92 54 88 77 30 75 45 44 29 86 100 51 11 65 69 66 56 82 63 27 1 51 51 13 10 3 55 26 85 34 16 87 72 13 100 81 71 90 95 86 50 83 55 55 54", "output": "53" }, { "input": "100\n34 35 99 64 2 66 78 93 20 48 12 79 19 10 87 7 42 92 60 79 5 2 24 89 57 48 63 92 74 4 16 51 7 12 90 48 87 17 18 73 51 58 97 97 25 38 15 97 96 73 67 91 6 75 14 13 87 79 75 3 15 55 35 95 71 45 10 13 20 37 82 26 2 22 13 83 97 84 39 79 43 100 54 59 98 8 61 34 7 65 75 44 24 77 73 88 34 95 44 77", "output": "55" }, { "input": "100\n15 86 3 1 51 26 74 85 37 87 64 58 10 6 57 26 30 47 85 65 24 72 50 40 12 35 91 47 91 60 47 87 95 34 80 91 26 3 36 39 14 86 28 70 51 44 28 21 72 79 57 61 16 71 100 94 57 67 36 74 24 21 89 85 25 2 97 67 76 53 76 80 97 64 35 13 8 32 21 52 62 61 67 14 74 73 66 44 55 76 24 3 43 42 99 61 36 80 38 66", "output": "52" }, { "input": "100\n45 16 54 54 80 94 74 93 75 85 58 95 79 30 81 2 84 4 57 23 92 64 78 1 50 36 13 27 56 54 10 77 87 1 5 38 85 74 94 82 30 45 72 83 82 30 81 82 82 3 69 82 7 92 39 60 94 42 41 5 3 17 67 21 79 44 79 96 28 3 53 68 79 89 63 83 1 44 4 31 84 15 73 77 19 66 54 6 73 1 67 24 91 11 86 45 96 82 20 89", "output": "51" }, { "input": "100\n84 23 50 32 90 71 92 43 58 70 6 82 7 55 85 19 70 89 12 26 29 56 74 30 2 27 4 39 63 67 91 81 11 33 75 10 82 88 39 43 43 80 68 35 55 67 53 62 73 65 86 74 43 51 14 48 42 92 83 57 22 33 24 99 5 27 78 96 7 28 11 15 8 38 85 67 5 92 24 96 57 59 14 95 91 4 9 18 45 33 74 83 64 85 14 51 51 94 29 2", "output": "53" }, { "input": "100\n77 56 56 45 73 55 32 37 39 50 30 95 79 21 44 34 51 43 86 91 39 30 85 15 35 93 100 14 57 31 80 79 38 40 88 4 91 54 7 95 76 26 62 84 17 33 67 47 6 82 69 51 17 2 59 24 11 12 31 90 12 11 55 38 72 49 30 50 42 46 5 97 9 9 30 45 86 23 19 82 40 42 5 40 35 98 35 32 60 60 5 28 84 35 21 49 68 53 68 23", "output": "48" }, { "input": "100\n78 38 79 61 45 86 83 83 86 90 74 69 2 84 73 39 2 5 20 71 24 80 54 89 58 34 77 40 39 62 2 47 28 53 97 75 88 98 94 96 33 71 44 90 47 36 19 89 87 98 90 87 5 85 34 79 82 3 42 88 89 63 35 7 89 30 40 48 12 41 56 76 83 60 80 80 39 56 77 4 72 96 30 55 57 51 7 19 11 1 66 1 91 87 11 62 95 85 79 25", "output": "48" }, { "input": "100\n5 34 23 20 76 75 19 51 17 82 60 13 83 6 65 16 20 43 66 54 87 10 87 73 50 24 16 98 33 28 80 52 54 82 26 92 14 13 84 92 94 29 61 21 60 20 48 94 24 20 75 70 58 27 68 45 86 89 29 8 67 38 83 48 18 100 11 22 46 84 52 97 70 19 50 75 3 7 52 53 72 41 18 31 1 38 49 53 11 64 99 76 9 87 48 12 100 32 44 71", "output": "58" }, { "input": "100\n76 89 68 78 24 72 73 95 98 72 58 15 2 5 56 32 9 65 50 70 94 31 29 54 89 52 31 93 43 56 26 35 72 95 51 55 78 70 11 92 17 5 54 94 81 31 78 95 73 91 95 37 59 9 53 48 65 55 84 8 45 97 64 37 96 34 36 53 66 17 72 48 99 23 27 18 92 84 44 73 60 78 53 29 68 99 19 39 61 40 69 6 77 12 47 29 15 4 8 45", "output": "53" }, { "input": "100\n82 40 31 53 8 50 85 93 3 84 54 17 96 59 51 42 18 19 35 84 79 31 17 46 54 82 72 49 35 73 26 89 61 73 3 50 12 29 25 77 88 21 58 24 22 89 96 54 82 29 96 56 77 16 1 68 90 93 20 23 57 22 31 18 92 90 51 14 50 72 31 54 12 50 66 62 2 34 17 45 68 50 87 97 23 71 1 72 17 82 42 15 20 78 4 49 66 59 10 17", "output": "54" }, { "input": "100\n32 82 82 24 39 53 48 5 29 24 9 37 91 37 91 95 1 97 84 52 12 56 93 47 22 20 14 17 40 22 79 34 24 2 69 30 69 29 3 89 21 46 60 92 39 29 18 24 49 18 40 22 60 13 77 50 39 64 50 70 99 8 66 31 90 38 20 54 7 21 5 56 41 68 69 20 54 89 69 62 9 53 43 89 81 97 15 2 52 78 89 65 16 61 59 42 56 25 32 52", "output": "49" }, { "input": "100\n72 54 23 24 97 14 99 87 15 25 7 23 17 87 72 31 71 87 34 82 51 77 74 85 62 38 24 7 84 48 98 21 29 71 70 84 25 58 67 92 18 44 32 9 81 15 53 29 63 18 86 16 7 31 38 99 70 32 89 16 23 11 66 96 69 82 97 59 6 9 49 80 85 19 6 9 52 51 85 74 53 46 73 55 31 63 78 61 34 80 77 65 87 77 92 52 89 8 52 31", "output": "44" }, { "input": "100\n56 88 8 19 7 15 11 54 35 50 19 57 63 72 51 43 50 19 57 90 40 100 8 92 11 96 30 32 59 65 93 47 62 3 50 41 30 50 72 83 61 46 83 60 20 46 33 1 5 18 83 22 34 16 41 95 63 63 7 59 55 95 91 29 64 60 64 81 45 45 10 9 88 37 69 85 21 82 41 76 42 34 47 78 51 83 65 100 13 22 59 76 63 1 26 86 36 94 99 74", "output": "46" }, { "input": "100\n27 89 67 60 62 80 43 50 28 88 72 5 94 11 63 91 18 78 99 3 71 26 12 97 74 62 23 24 22 3 100 72 98 7 94 32 12 75 61 88 42 48 10 14 45 9 48 56 73 76 70 70 79 90 35 39 96 37 81 11 19 65 99 39 23 79 34 61 35 74 90 37 73 23 46 21 94 84 73 58 11 89 13 9 10 85 42 78 73 32 53 39 49 90 43 5 28 31 97 75", "output": "53" }, { "input": "100\n33 24 97 96 1 14 99 51 13 65 67 20 46 88 42 44 20 49 5 89 98 83 15 40 74 83 58 3 10 79 34 2 69 28 37 100 55 52 14 8 44 94 97 89 6 42 11 28 30 33 55 56 20 57 52 25 75 1 87 42 62 41 37 12 54 85 95 80 42 36 94 96 28 76 54 36 4 17 26 24 62 15 17 79 84 36 92 78 74 91 96 77 54 92 81 91 62 98 37 37", "output": "43" }, { "input": "100\n86 24 61 15 11 85 1 31 47 36 23 36 59 34 3 27 16 29 82 28 58 52 52 66 71 61 98 39 60 20 67 41 67 90 73 29 92 17 70 95 58 98 58 32 21 73 46 56 87 72 80 75 40 27 94 31 59 92 93 37 14 99 96 21 97 23 81 91 52 52 96 94 92 28 38 29 52 16 57 27 17 24 91 21 79 55 96 98 95 94 23 78 79 12 77 35 32 75 100 82", "output": "51" }, { "input": "100\n88 85 41 37 69 21 7 69 36 5 92 26 64 75 22 46 67 20 70 22 62 66 38 24 47 49 68 30 90 31 67 86 86 82 9 51 43 45 48 42 73 44 31 94 45 60 54 66 20 87 11 94 34 32 87 66 56 28 75 39 37 90 72 93 55 72 31 42 30 71 87 61 4 12 12 81 23 61 56 98 71 32 30 33 96 63 92 16 8 78 47 91 47 54 49 3 81 82 41 5", "output": "47" }, { "input": "1\n2", "output": "1" }, { "input": "5\n1 1 3 2 2", "output": "3" } ]	1,591,206,622	2,147,483,647	PyPy 3	OK	TESTS	52	280	0	n=int(input()) c=0 a=list(map(int,input().split())) t=sum(a) z=t%2 for i in a: if i%2==z: c+=1 print(c)	Title: Cookies Time Limit: None seconds Memory Limit: None megabytes Problem Description: Olga came to visit the twins Anna and Maria and saw that they have many cookies. The cookies are distributed into bags. As there are many cookies, Olga decided that it's no big deal if she steals a bag. However, she doesn't want the sisters to quarrel because of nothing when they divide the cookies. That's why Olga wants to steal a bag with cookies so that the number of cookies in the remaining bags was even, that is, so that Anna and Maria could evenly divide it into two (even 0 remaining cookies will do, just as any other even number). How many ways there are to steal exactly one cookie bag so that the total number of cookies in the remaining bags was even? Input Specification: The first line contains the only integer n (1<=≤<=n<=≤<=100) — the number of cookie bags Anna and Maria have. The second line contains n integers ai (1<=≤<=ai<=≤<=100) — the number of cookies in the i-th bag. Output Specification: Print in the only line the only number — the sought number of ways. If there are no such ways print 0. Demo Input: ['1\n1\n', '10\n1 2 2 3 4 4 4 2 2 2\n', '11\n2 2 2 2 2 2 2 2 2 2 99\n'] Demo Output: ['1\n', '8\n', '1\n'] Note: In the first sample Olga should take the only bag so that the twins ended up with the even number of cookies. In the second sample Olga can take any of five bags with two cookies or any of three bags with four cookies — 5 + 3 = 8 ways in total. In the third sample, no matter which bag with two cookies Olga chooses, the twins are left with 2 * 9 + 99 = 117 cookies. Thus, Olga has only one option: to take the bag with 99 cookies.	```python n=int(input()) c=0 a=list(map(int,input().split())) t=sum(a) z=t%2 for i in a: if i%2==z: c+=1 print(c) ```	3
672	A	Summer Camp	PROGRAMMING	800	[ "implementation" ]		null	null	Every year, hundreds of people come to summer camps, they learn new algorithms and solve hard problems. This is your first year at summer camp, and you are asked to solve the following problem. All integers starting with 1 are written in one line. The prefix of these line is "123456789101112131415...". Your task is to print the n-th digit of this string (digits are numbered starting with 1.	The only line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the position of the digit you need to print.	Print the n-th digit of the line.	[ "3\n", "11\n" ]	[ "3\n", "0\n" ]	In the first sample the digit at position 3 is '3', as both integers 1 and 2 consist on one digit. In the second sample, the digit at position 11 is '0', it belongs to the integer 10.	500	[ { "input": "3", "output": "3" }, { "input": "11", "output": "0" }, { "input": "12", "output": "1" }, { "input": "13", "output": "1" }, { "input": "29", "output": "9" }, { "input": "30", "output": "2" }, { "input": "1000", "output": "3" }, { "input": "999", "output": "9" }, { "input": "100", "output": "5" }, { "input": "123", "output": "6" }, { "input": "8", "output": "8" }, { "input": "157", "output": "3" }, { "input": "289", "output": "1" }, { "input": "179", "output": "4" }, { "input": "942", "output": "0" }, { "input": "879", "output": "9" }, { "input": "394", "output": "1" }, { "input": "423", "output": "7" }, { "input": "952", "output": "3" }, { "input": "121", "output": "5" }, { "input": "613", "output": "2" }, { "input": "945", "output": "1" }, { "input": "270", "output": "6" }, { "input": "781", "output": "2" }, { "input": "453", "output": "7" }, { "input": "171", "output": "0" }, { "input": "643", "output": "2" }, { "input": "570", "output": "6" }, { "input": "750", "output": "6" }, { "input": "500", "output": "0" }, { "input": "2", "output": "2" }, { "input": "1", "output": "1" }, { "input": "108", "output": "5" }, { "input": "500", "output": "0" }, { "input": "189", "output": "9" }, { "input": "491", "output": "0" }, { "input": "191", "output": "0" } ]	1,692,434,312	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	6	31	0	n = int(input()) i=1 s = '1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950' print(s[n-1])	Title: Summer Camp Time Limit: None seconds Memory Limit: None megabytes Problem Description: Every year, hundreds of people come to summer camps, they learn new algorithms and solve hard problems. This is your first year at summer camp, and you are asked to solve the following problem. All integers starting with 1 are written in one line. The prefix of these line is "123456789101112131415...". Your task is to print the n-th digit of this string (digits are numbered starting with 1. Input Specification: The only line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the position of the digit you need to print. Output Specification: Print the n-th digit of the line. Demo Input: ['3\n', '11\n'] Demo Output: ['3\n', '0\n'] Note: In the first sample the digit at position 3 is '3', as both integers 1 and 2 consist on one digit. In the second sample, the digit at position 11 is '0', it belongs to the integer 10.	```python n = int(input()) i=1 s = '1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950' print(s[n-1]) ```	-1
432	A	Choosing Teams	PROGRAMMING	800	[ "greedy", "implementation", "sortings" ]		null	null	The Saratov State University Olympiad Programmers Training Center (SSU OPTC) has n students. For each student you know the number of times he/she has participated in the ACM ICPC world programming championship. According to the ACM ICPC rules, each person can participate in the world championship at most 5 times. The head of the SSU OPTC is recently gathering teams to participate in the world championship. Each team must consist of exactly three people, at that, any person cannot be a member of two or more teams. What maximum number of teams can the head make if he wants each team to participate in the world championship with the same members at least k times?	The first line contains two integers, n and k (1<=≤<=n<=≤<=2000; 1<=≤<=k<=≤<=5). The next line contains n integers: y1,<=y2,<=...,<=yn (0<=≤<=yi<=≤<=5), where yi shows the number of times the i-th person participated in the ACM ICPC world championship.	Print a single number — the answer to the problem.	[ "5 2\n0 4 5 1 0\n", "6 4\n0 1 2 3 4 5\n", "6 5\n0 0 0 0 0 0\n" ]	[ "1\n", "0\n", "2\n" ]	In the first sample only one team could be made: the first, the fourth and the fifth participants. In the second sample no teams could be created. In the third sample two teams could be created. Any partition into two teams fits.	500	[ { "input": "5 2\n0 4 5 1 0", "output": "1" }, { "input": "6 4\n0 1 2 3 4 5", "output": "0" }, { "input": "6 5\n0 0 0 0 0 0", "output": "2" }, { "input": "3 4\n0 1 0", "output": "1" }, { "input": "3 4\n0 2 0", "output": "0" }, { "input": "6 5\n0 0 0 0 0 0", "output": "2" }, { "input": "12 2\n0 1 2 3 4 0 1 2 3 4 0 1", "output": "3" }, { "input": "15 2\n0 1 2 3 4 0 1 2 3 4 0 1 2 3 4", "output": "4" }, { "input": "13 1\n5 0 5 0 1 5 0 4 1 1 1 4 1", "output": "3" }, { "input": "20 1\n5 0 4 2 2 3 2 1 2 4 1 3 5 5 5 4 4 1 3 0", "output": "5" }, { "input": "20 2\n1 4 5 1 3 4 0 5 0 3 3 0 4 0 0 1 4 2 0 4", "output": "4" }, { "input": "20 2\n1 4 5 1 3 4 0 5 0 3 3 0 4 0 0 1 4 2 0 4", "output": "4" }, { "input": "20 2\n1 4 5 1 3 4 0 5 0 3 3 0 4 0 0 1 4 2 0 4", "output": "4" }, { "input": "20 2\n1 4 5 1 3 4 0 5 0 3 3 0 4 0 0 1 4 2 0 4", "output": "4" }, { "input": "6 3\n4 4 4 4 4 4", "output": "0" }, { "input": "1 4\n1", "output": "0" }, { "input": "1 1\n0", "output": "0" }, { "input": "2 3\n0 0", "output": "0" } ]	1,660,329,350	2,147,483,647	Python 3	OK	TESTS	35	46	0	n , k = input().split() n = int(n) k = int(k) s = [int(x) for x in input().split()] count = 0 for i in s : if (i+k) > 5 : continue else : count += 1 if count < 3 : print(0) else : print(count//3)	Title: Choosing Teams Time Limit: None seconds Memory Limit: None megabytes Problem Description: The Saratov State University Olympiad Programmers Training Center (SSU OPTC) has n students. For each student you know the number of times he/she has participated in the ACM ICPC world programming championship. According to the ACM ICPC rules, each person can participate in the world championship at most 5 times. The head of the SSU OPTC is recently gathering teams to participate in the world championship. Each team must consist of exactly three people, at that, any person cannot be a member of two or more teams. What maximum number of teams can the head make if he wants each team to participate in the world championship with the same members at least k times? Input Specification: The first line contains two integers, n and k (1<=≤<=n<=≤<=2000; 1<=≤<=k<=≤<=5). The next line contains n integers: y1,<=y2,<=...,<=yn (0<=≤<=yi<=≤<=5), where yi shows the number of times the i-th person participated in the ACM ICPC world championship. Output Specification: Print a single number — the answer to the problem. Demo Input: ['5 2\n0 4 5 1 0\n', '6 4\n0 1 2 3 4 5\n', '6 5\n0 0 0 0 0 0\n'] Demo Output: ['1\n', '0\n', '2\n'] Note: In the first sample only one team could be made: the first, the fourth and the fifth participants. In the second sample no teams could be created. In the third sample two teams could be created. Any partition into two teams fits.	```python n , k = input().split() n = int(n) k = int(k) s = [int(x) for x in input().split()] count = 0 for i in s : if (i+k) > 5 : continue else : count += 1 if count < 3 : print(0) else : print(count//3) ```	3
248	A	Cupboards	PROGRAMMING	800	[ "implementation" ]		null	null	One foggy Stockholm morning, Karlsson decided to snack on some jam in his friend Lillebror Svantenson's house. Fortunately for Karlsson, there wasn't anybody in his friend's house. Karlsson was not going to be hungry any longer, so he decided to get some food in the house. Karlsson's gaze immediately fell on n wooden cupboards, standing in the kitchen. He immediately realized that these cupboards have hidden jam stocks. Karlsson began to fly greedily around the kitchen, opening and closing the cupboards' doors, grab and empty all the jars of jam that he could find. And now all jars of jam are empty, Karlsson has had enough and does not want to leave traces of his stay, so as not to let down his friend. Each of the cupboards has two doors: the left one and the right one. Karlsson remembers that when he rushed to the kitchen, all the cupboards' left doors were in the same position (open or closed), similarly, all the cupboards' right doors were in the same position (open or closed). Karlsson wants the doors to meet this condition as well by the time the family returns. Karlsson does not remember the position of all the left doors, also, he cannot remember the position of all the right doors. Therefore, it does not matter to him in what position will be all left or right doors. It is important to leave all the left doors in the same position, and all the right doors in the same position. For example, all the left doors may be closed, and all the right ones may be open. Karlsson needs one second to open or close a door of a cupboard. He understands that he has very little time before the family returns, so he wants to know the minimum number of seconds t, in which he is able to bring all the cupboard doors in the required position. Your task is to write a program that will determine the required number of seconds t.	The first input line contains a single integer n — the number of cupboards in the kitchen (2<=≤<=n<=≤<=104). Then follow n lines, each containing two integers li and ri (0<=≤<=li,<=ri<=≤<=1). Number li equals one, if the left door of the i-th cupboard is opened, otherwise number li equals zero. Similarly, number ri equals one, if the right door of the i-th cupboard is opened, otherwise number ri equals zero. The numbers in the lines are separated by single spaces.	In the only output line print a single integer t — the minimum number of seconds Karlsson needs to change the doors of all cupboards to the position he needs.	[ "5\n0 1\n1 0\n0 1\n1 1\n0 1\n" ]	[ "3\n" ]	none	500	[ { "input": "5\n0 1\n1 0\n0 1\n1 1\n0 1", "output": "3" }, { "input": "2\n0 0\n0 0", "output": "0" }, { "input": "3\n0 1\n1 1\n1 1", "output": "1" }, { "input": "8\n0 1\n1 0\n0 1\n1 1\n0 1\n1 0\n0 1\n1 0", "output": "7" }, { "input": "8\n1 0\n1 0\n1 0\n0 1\n0 1\n1 1\n1 1\n0 1", "output": "6" }, { "input": "15\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "0" }, { "input": "5\n1 0\n1 0\n1 0\n0 1\n0 1", "output": "4" } ]	1,651,479,145	2,147,483,647	Python 3	OK	TESTS	57	122	102,400	n = int(input()) L = [] R = [] for i in range(n): l,r = tuple(map(int, input().split(' '))) L.append(l) R.append(r) def calc(doors): closed_doors = doors.count(0) open_doors = doors.count(1) return min(closed_doors, open_doors) print(calc(L) + calc(R))	Title: Cupboards Time Limit: None seconds Memory Limit: None megabytes Problem Description: One foggy Stockholm morning, Karlsson decided to snack on some jam in his friend Lillebror Svantenson's house. Fortunately for Karlsson, there wasn't anybody in his friend's house. Karlsson was not going to be hungry any longer, so he decided to get some food in the house. Karlsson's gaze immediately fell on n wooden cupboards, standing in the kitchen. He immediately realized that these cupboards have hidden jam stocks. Karlsson began to fly greedily around the kitchen, opening and closing the cupboards' doors, grab and empty all the jars of jam that he could find. And now all jars of jam are empty, Karlsson has had enough and does not want to leave traces of his stay, so as not to let down his friend. Each of the cupboards has two doors: the left one and the right one. Karlsson remembers that when he rushed to the kitchen, all the cupboards' left doors were in the same position (open or closed), similarly, all the cupboards' right doors were in the same position (open or closed). Karlsson wants the doors to meet this condition as well by the time the family returns. Karlsson does not remember the position of all the left doors, also, he cannot remember the position of all the right doors. Therefore, it does not matter to him in what position will be all left or right doors. It is important to leave all the left doors in the same position, and all the right doors in the same position. For example, all the left doors may be closed, and all the right ones may be open. Karlsson needs one second to open or close a door of a cupboard. He understands that he has very little time before the family returns, so he wants to know the minimum number of seconds t, in which he is able to bring all the cupboard doors in the required position. Your task is to write a program that will determine the required number of seconds t. Input Specification: The first input line contains a single integer n — the number of cupboards in the kitchen (2<=≤<=n<=≤<=104). Then follow n lines, each containing two integers li and ri (0<=≤<=li,<=ri<=≤<=1). Number li equals one, if the left door of the i-th cupboard is opened, otherwise number li equals zero. Similarly, number ri equals one, if the right door of the i-th cupboard is opened, otherwise number ri equals zero. The numbers in the lines are separated by single spaces. Output Specification: In the only output line print a single integer t — the minimum number of seconds Karlsson needs to change the doors of all cupboards to the position he needs. Demo Input: ['5\n0 1\n1 0\n0 1\n1 1\n0 1\n'] Demo Output: ['3\n'] Note: none	```python n = int(input()) L = [] R = [] for i in range(n): l,r = tuple(map(int, input().split(' '))) L.append(l) R.append(r) def calc(doors): closed_doors = doors.count(0) open_doors = doors.count(1) return min(closed_doors, open_doors) print(calc(L) + calc(R)) ```	3
787	A	The Monster	PROGRAMMING	1,200	[ "brute force", "math", "number theory" ]		null	null	A monster is chasing after Rick and Morty on another planet. They're so frightened that sometimes they scream. More accurately, Rick screams at times b,<=b<=+<=a,<=b<=+<=2a,<=b<=+<=3a,<=... and Morty screams at times d,<=d<=+<=c,<=d<=+<=2c,<=d<=+<=3c,<=.... The Monster will catch them if at any point they scream at the same time, so it wants to know when it will catch them (the first time they scream at the same time) or that they will never scream at the same time.	The first line of input contains two integers a and b (1<=≤<=a,<=b<=≤<=100). The second line contains two integers c and d (1<=≤<=c,<=d<=≤<=100).	Print the first time Rick and Morty will scream at the same time, or <=-<=1 if they will never scream at the same time.	[ "20 2\n9 19\n", "2 1\n16 12\n" ]	[ "82\n", "-1\n" ]	In the first sample testcase, Rick's 5th scream and Morty's 8th time are at time 82. In the second sample testcase, all Rick's screams will be at odd times and Morty's will be at even times, so they will never scream at the same time.	500	[ { "input": "20 2\n9 19", "output": "82" }, { "input": "2 1\n16 12", "output": "-1" }, { "input": "39 52\n88 78", "output": "1222" }, { "input": "59 96\n34 48", "output": "1748" }, { "input": "87 37\n91 29", "output": "211" }, { "input": "11 81\n49 7", "output": "301" }, { "input": "39 21\n95 89", "output": "3414" }, { "input": "59 70\n48 54", "output": "1014" }, { "input": "87 22\n98 32", "output": "718" }, { "input": "15 63\n51 13", "output": "-1" }, { "input": "39 7\n97 91", "output": "1255" }, { "input": "18 18\n71 71", "output": "1278" }, { "input": "46 71\n16 49", "output": "209" }, { "input": "70 11\n74 27", "output": "2321" }, { "input": "94 55\n20 96", "output": "-1" }, { "input": "18 4\n77 78", "output": "1156" }, { "input": "46 44\n23 55", "output": "-1" }, { "input": "74 88\n77 37", "output": "1346" }, { "input": "94 37\n34 7", "output": "789" }, { "input": "22 81\n80 88", "output": "-1" }, { "input": "46 30\n34 62", "output": "674" }, { "input": "40 4\n81 40", "output": "364" }, { "input": "69 48\n39 9", "output": "48" }, { "input": "89 93\n84 87", "output": "5967" }, { "input": "17 45\n42 65", "output": "317" }, { "input": "41 85\n95 46", "output": "331" }, { "input": "69 30\n41 16", "output": "1410" }, { "input": "93 74\n99 93", "output": "-1" }, { "input": "17 19\n44 75", "output": "427" }, { "input": "45 63\n98 53", "output": "3483" }, { "input": "69 11\n48 34", "output": "-1" }, { "input": "55 94\n3 96", "output": "204" }, { "input": "100 100\n100 100", "output": "100" }, { "input": "1 1\n1 1", "output": "1" }, { "input": "1 1\n1 100", "output": "100" }, { "input": "1 100\n100 1", "output": "101" }, { "input": "98 1\n99 100", "output": "9703" }, { "input": "98 1\n99 2", "output": "9605" }, { "input": "97 2\n99 100", "output": "4852" }, { "input": "3 3\n3 1", "output": "-1" }, { "input": "3 2\n7 2", "output": "2" }, { "input": "2 3\n2 5", "output": "5" }, { "input": "2 3\n2 3", "output": "3" }, { "input": "100 3\n100 5", "output": "-1" }, { "input": "6 10\n12 14", "output": "-1" }, { "input": "4 2\n4 4", "output": "-1" }, { "input": "2 3\n2 2", "output": "-1" }, { "input": "2 3\n4 99", "output": "99" }, { "input": "1 5\n1 5", "output": "5" }, { "input": "1 100\n3 1", "output": "100" }, { "input": "2 2\n2 1", "output": "-1" }, { "input": "2 10\n6 20", "output": "20" }, { "input": "2 2\n2 10", "output": "10" }, { "input": "3 7\n3 6", "output": "-1" }, { "input": "1 100\n1 100", "output": "100" }, { "input": "7 25\n39 85", "output": "319" }, { "input": "84 82\n38 6", "output": "82" }, { "input": "7 7\n7 14", "output": "14" } ]	1,490,492,950	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	34	61	4,608,000	import math a,b=map(int, input().split()) c,d=map(int, input().split()) hasAnswer=0 for i in range(100): y=b+i*a z=(y-d)/c if math.floor(z)==z: hasAnswer=1 break if hasAnswer: print(y) else: print(-1)	Title: The Monster Time Limit: None seconds Memory Limit: None megabytes Problem Description: A monster is chasing after Rick and Morty on another planet. They're so frightened that sometimes they scream. More accurately, Rick screams at times b,<=b<=+<=a,<=b<=+<=2a,<=b<=+<=3a,<=... and Morty screams at times d,<=d<=+<=c,<=d<=+<=2c,<=d<=+<=3c,<=.... The Monster will catch them if at any point they scream at the same time, so it wants to know when it will catch them (the first time they scream at the same time) or that they will never scream at the same time. Input Specification: The first line of input contains two integers a and b (1<=≤<=a,<=b<=≤<=100). The second line contains two integers c and d (1<=≤<=c,<=d<=≤<=100). Output Specification: Print the first time Rick and Morty will scream at the same time, or <=-<=1 if they will never scream at the same time. Demo Input: ['20 2\n9 19\n', '2 1\n16 12\n'] Demo Output: ['82\n', '-1\n'] Note: In the first sample testcase, Rick's 5th scream and Morty's 8th time are at time 82. In the second sample testcase, all Rick's screams will be at odd times and Morty's will be at even times, so they will never scream at the same time.	```python import math a,b=map(int, input().split()) c,d=map(int, input().split()) hasAnswer=0 for i in range(100): y=b+i*a z=(y-d)/c if math.floor(z)==z: hasAnswer=1 break if hasAnswer: print(y) else: print(-1) ```	0
221	A	Little Elephant and Function	PROGRAMMING	1,000	[ "implementation", "math" ]		null	null	The Little Elephant enjoys recursive functions. This time he enjoys the sorting function. Let a is a permutation of an integers from 1 to n, inclusive, and ai denotes the i-th element of the permutation. The Little Elephant's recursive function f(x), that sorts the first x permutation's elements, works as follows: - If x<==<=1, exit the function. - Otherwise, call f(x<=-<=1), and then make swap(ax<=-<=1,<=ax) (swap the x-th and (x<=-<=1)-th elements of a). The Little Elephant's teacher believes that this function does not work correctly. But that-be do not get an F, the Little Elephant wants to show the performance of its function. Help him, find a permutation of numbers from 1 to n, such that after performing the Little Elephant's function (that is call f(n)), the permutation will be sorted in ascending order.	A single line contains integer n (1<=≤<=n<=≤<=1000) — the size of permutation.	In a single line print n distinct integers from 1 to n — the required permutation. Numbers in a line should be separated by spaces. It is guaranteed that the answer exists.	[ "1\n", "2\n" ]	[ "1 ", "2 1 " ]	none	500	[ { "input": "1", "output": "1 " }, { "input": "2", "output": "2 1 " }, { "input": "3", "output": "3 1 2 " }, { "input": "4", "output": "4 1 2 3 " }, { "input": "5", "output": "5 1 2 3 4 " }, { "input": "6", "output": "6 1 2 3 4 5 " }, { "input": "7", "output": "7 1 2 3 4 5 6 " }, { "input": "1000", "output": "1000 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 15..." }, { "input": "999", "output": "999 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "998", "output": "998 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "997", "output": "997 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "900", "output": "900 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "101", "output": "101 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 " }, { "input": "3", "output": "3 1 2 " }, { "input": "67", "output": "67 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 " }, { "input": "779", "output": "779 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "195", "output": "195 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "907", "output": "907 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "971", "output": "971 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "683", "output": "683 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "99", "output": "99 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 " }, { "input": "811", "output": "811 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "875", "output": "875 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "291", "output": "291 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "3", "output": "3 1 2 " }, { "input": "419", "output": "419 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "779", "output": "779 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "195", "output": "195 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "907", "output": "907 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154..." }, { "input": "21", "output": "21 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 " }, { "input": "22", "output": "22 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 " }, { "input": "23", "output": "23 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 " }, { "input": "24", "output": "24 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 " }, { "input": "25", "output": "25 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 " } ]	1,657,562,534	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	2	154	0	def solve(n,arr): if(n==1): return solve(n-1,arr) arr[n-2],arr[n-1]=arr[n-1],arr[n-2] return arr n=int(input()) arr=[] for i in range(n): arr.append(i+1) # print(arr) arr=solve(n,arr) if(n==1): print(1) else: for i in arr: print(i,end=" ") print()	Title: Little Elephant and Function Time Limit: None seconds Memory Limit: None megabytes Problem Description: The Little Elephant enjoys recursive functions. This time he enjoys the sorting function. Let a is a permutation of an integers from 1 to n, inclusive, and ai denotes the i-th element of the permutation. The Little Elephant's recursive function f(x), that sorts the first x permutation's elements, works as follows: - If x<==<=1, exit the function. - Otherwise, call f(x<=-<=1), and then make swap(ax<=-<=1,<=ax) (swap the x-th and (x<=-<=1)-th elements of a). The Little Elephant's teacher believes that this function does not work correctly. But that-be do not get an F, the Little Elephant wants to show the performance of its function. Help him, find a permutation of numbers from 1 to n, such that after performing the Little Elephant's function (that is call f(n)), the permutation will be sorted in ascending order. Input Specification: A single line contains integer n (1<=≤<=n<=≤<=1000) — the size of permutation. Output Specification: In a single line print n distinct integers from 1 to n — the required permutation. Numbers in a line should be separated by spaces. It is guaranteed that the answer exists. Demo Input: ['1\n', '2\n'] Demo Output: ['1 ', '2 1 '] Note: none	```python def solve(n,arr): if(n==1): return solve(n-1,arr) arr[n-2],arr[n-1]=arr[n-1],arr[n-2] return arr n=int(input()) arr=[] for i in range(n): arr.append(i+1) # print(arr) arr=solve(n,arr) if(n==1): print(1) else: for i in arr: print(i,end=" ") print() ```	0
429	A	Xor-tree	PROGRAMMING	1,300	[ "dfs and similar", "trees" ]		null	null	Iahub is very proud of his recent discovery, propagating trees. Right now, he invented a new tree, called xor-tree. After this new revolutionary discovery, he invented a game for kids which uses xor-trees. The game is played on a tree having n nodes, numbered from 1 to n. Each node i has an initial value initi, which is either 0 or 1. The root of the tree is node 1. One can perform several (possibly, zero) operations on the tree during the game. The only available type of operation is to pick a node x. Right after someone has picked node x, the value of node x flips, the values of sons of x remain the same, the values of sons of sons of x flips, the values of sons of sons of sons of x remain the same and so on. The goal of the game is to get each node i to have value goali, which can also be only 0 or 1. You need to reach the goal of the game by using minimum number of operations.	The first line contains an integer n (1<=≤<=n<=≤<=105). Each of the next n<=-<=1 lines contains two integers ui and vi (1<=≤<=ui,<=vi<=≤<=n; ui<=≠<=vi) meaning there is an edge between nodes ui and vi. The next line contains n integer numbers, the i-th of them corresponds to initi (initi is either 0 or 1). The following line also contains n integer numbers, the i-th number corresponds to goali (goali is either 0 or 1).	In the first line output an integer number cnt, representing the minimal number of operations you perform. Each of the next cnt lines should contain an integer xi, representing that you pick a node xi.	[ "10\n2 1\n3 1\n4 2\n5 1\n6 2\n7 5\n8 6\n9 8\n10 5\n1 0 1 1 0 1 0 1 0 1\n1 0 1 0 0 1 1 1 0 1\n" ]	[ "2\n4\n7\n" ]	none	500	[ { "input": "10\n2 1\n3 1\n4 2\n5 1\n6 2\n7 5\n8 6\n9 8\n10 5\n1 0 1 1 0 1 0 1 0 1\n1 0 1 0 0 1 1 1 0 1", "output": "2\n4\n7" }, { "input": "15\n2 1\n3 2\n4 3\n5 4\n6 5\n7 6\n8 7\n9 8\n10 9\n11 10\n12 11\n13 12\n14 13\n15 14\n0 1 0 0 1 1 1 1 1 1 0 0 0 1 1\n1 1 1 1 0 0 1 1 0 1 0 0 1 1 0", "output": "7\n1\n4\n7\n8\n9\n11\n13" }, { "input": "20\n2 1\n3 2\n4 3\n5 4\n6 4\n7 1\n8 2\n9 4\n10 2\n11 6\n12 9\n13 2\n14 12\n15 14\n16 8\n17 9\n18 13\n19 2\n20 17\n1 0 0 1 0 0 0 1 0 1 0 0 0 1 1 0 1 0 1 0\n1 0 0 1 0 0 1 1 0 0 1 0 0 1 0 0 0 1 0 1", "output": "8\n11\n15\n17\n20\n10\n18\n19\n7" }, { "input": "30\n2 1\n3 2\n4 3\n5 3\n6 5\n7 3\n8 3\n9 2\n10 3\n11 2\n12 11\n13 6\n14 4\n15 5\n16 11\n17 9\n18 14\n19 6\n20 2\n21 19\n22 9\n23 19\n24 20\n25 14\n26 22\n27 1\n28 6\n29 13\n30 27\n1 0 1 1 1 1 0 1 0 0 1 0 0 0 1 0 0 1 0 1 0 0 1 0 0 1 1 1 1 0\n0 1 0 1 1 1 0 0 1 1 0 1 1 1 0 1 1 1 1 0 1 0 0 1 0 1 1 0 0 0", "output": "15\n1\n2\n4\n5\n6\n13\n29\n19\n21\n23\n28\n7\n22\n26\n30" }, { "input": "15\n2 1\n3 1\n4 1\n5 1\n6 3\n7 1\n8 1\n9 1\n10 5\n11 9\n12 3\n13 5\n14 5\n15 4\n1 1 0 0 0 0 1 1 1 0 1 1 1 0 0\n1 0 1 1 0 1 1 1 1 1 1 1 1 1 0", "output": "6\n2\n3\n6\n4\n10\n14" }, { "input": "20\n2 1\n3 1\n4 2\n5 2\n6 3\n7 1\n8 6\n9 2\n10 3\n11 6\n12 2\n13 3\n14 2\n15 1\n16 8\n17 15\n18 2\n19 14\n20 14\n0 0 0 0 1 1 1 1 1 1 0 1 1 1 0 0 0 1 1 1\n0 1 0 1 1 1 0 0 1 0 1 1 0 1 0 1 0 0 1 0", "output": "10\n2\n4\n19\n18\n8\n16\n11\n10\n13\n7" }, { "input": "23\n2 1\n3 2\n4 1\n5 1\n6 5\n7 3\n8 2\n9 8\n10 5\n11 6\n12 9\n13 3\n14 11\n15 5\n16 2\n17 3\n18 10\n19 16\n20 14\n21 19\n22 17\n23 7\n0 1 0 1 1 1 0 1 1 0 0 0 1 0 0 1 1 0 1 0 0 0 0\n0 0 0 0 1 1 1 1 1 0 1 0 1 0 0 1 1 0 0 0 0 0 1", "output": "8\n2\n23\n13\n17\n9\n4\n11\n20" }, { "input": "1\n0\n0", "output": "0" }, { "input": "10\n1 10\n1 9\n10 2\n10 3\n3 7\n3 8\n9 4\n9 5\n5 6\n1 0 1 1 0 1 0 1 0 1\n0 0 0 0 0 0 0 0 0 0", "output": "6\n1\n10\n2\n7\n5\n6" } ]	1,429,514,192	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	0	1,000	5,120,000	# python3 mapped_dict = {} for x in range(1, int(input().strip())): a, b = [int(x) for x in input().split()] if a in mapped_dict: mapped_dict[a].append(b) else: mapped_dict[a] = [] mapped_dict[a].append(b) def flip_num(x): if x == 1: return 0 else: return 1 def flip_evens(nodes, initial): queue = [] queue.append(initial) while len(queue) != 0: item = queue.pop() nodes[item] = flip_num(nodes[item]) dne = False if item in mapped_dict: for next_node in mapped_dict[item]: if next_node in mapped_dict: for second_node in mapped_dict[next_node]: queue.append(second_node) from itertools import permutations def allPermutations(seq): return (x for i in range(len(seq),0,-1) for x in permutations(seq, i)) import copy def bfs(nodes, goal): values = range(len(nodes)) all_permutations = allPermutations(values) found = False for permut in all_permutations: if found: break cur_nodes = copy.copy(nodes) for num in permut: if found: break flip_evens(cur_nodes, num) if cur_nodes == goal: found = True return permut return [] init = [int(x) for x in input().split()] goal = [int(x) for x in input().split()] solution = bfs(init, goal) for sol in solution: print(sol+1, end=" ")	Title: Xor-tree Time Limit: None seconds Memory Limit: None megabytes Problem Description: Iahub is very proud of his recent discovery, propagating trees. Right now, he invented a new tree, called xor-tree. After this new revolutionary discovery, he invented a game for kids which uses xor-trees. The game is played on a tree having n nodes, numbered from 1 to n. Each node i has an initial value initi, which is either 0 or 1. The root of the tree is node 1. One can perform several (possibly, zero) operations on the tree during the game. The only available type of operation is to pick a node x. Right after someone has picked node x, the value of node x flips, the values of sons of x remain the same, the values of sons of sons of x flips, the values of sons of sons of sons of x remain the same and so on. The goal of the game is to get each node i to have value goali, which can also be only 0 or 1. You need to reach the goal of the game by using minimum number of operations. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=105). Each of the next n<=-<=1 lines contains two integers ui and vi (1<=≤<=ui,<=vi<=≤<=n; ui<=≠<=vi) meaning there is an edge between nodes ui and vi. The next line contains n integer numbers, the i-th of them corresponds to initi (initi is either 0 or 1). The following line also contains n integer numbers, the i-th number corresponds to goali (goali is either 0 or 1). Output Specification: In the first line output an integer number cnt, representing the minimal number of operations you perform. Each of the next cnt lines should contain an integer xi, representing that you pick a node xi. Demo Input: ['10\n2 1\n3 1\n4 2\n5 1\n6 2\n7 5\n8 6\n9 8\n10 5\n1 0 1 1 0 1 0 1 0 1\n1 0 1 0 0 1 1 1 0 1\n'] Demo Output: ['2\n4\n7\n'] Note: none	```python # python3 mapped_dict = {} for x in range(1, int(input().strip())): a, b = [int(x) for x in input().split()] if a in mapped_dict: mapped_dict[a].append(b) else: mapped_dict[a] = [] mapped_dict[a].append(b) def flip_num(x): if x == 1: return 0 else: return 1 def flip_evens(nodes, initial): queue = [] queue.append(initial) while len(queue) != 0: item = queue.pop() nodes[item] = flip_num(nodes[item]) dne = False if item in mapped_dict: for next_node in mapped_dict[item]: if next_node in mapped_dict: for second_node in mapped_dict[next_node]: queue.append(second_node) from itertools import permutations def allPermutations(seq): return (x for i in range(len(seq),0,-1) for x in permutations(seq, i)) import copy def bfs(nodes, goal): values = range(len(nodes)) all_permutations = allPermutations(values) found = False for permut in all_permutations: if found: break cur_nodes = copy.copy(nodes) for num in permut: if found: break flip_evens(cur_nodes, num) if cur_nodes == goal: found = True return permut return [] init = [int(x) for x in input().split()] goal = [int(x) for x in input().split()] solution = bfs(init, goal) for sol in solution: print(sol+1, end=" ") ```	0
592	A	PawnChess	PROGRAMMING	1,200	[ "implementation" ]		null	null	Galois is one of the strongest chess players of Byteforces. He has even invented a new variant of chess, which he named «PawnChess». This new game is played on a board consisting of 8 rows and 8 columns. At the beginning of every game some black and white pawns are placed on the board. The number of black pawns placed is not necessarily equal to the number of white pawns placed. Lets enumerate rows and columns with integers from 1 to 8. Rows are numbered from top to bottom, while columns are numbered from left to right. Now we denote as (r,<=c) the cell located at the row r and at the column c. There are always two players A and B playing the game. Player A plays with white pawns, while player B plays with black ones. The goal of player A is to put any of his pawns to the row 1, while player B tries to put any of his pawns to the row 8. As soon as any of the players completes his goal the game finishes immediately and the succeeded player is declared a winner. Player A moves first and then they alternate turns. On his move player A must choose exactly one white pawn and move it one step upward and player B (at his turn) must choose exactly one black pawn and move it one step down. Any move is possible only if the targeted cell is empty. It's guaranteed that for any scenario of the game there will always be at least one move available for any of the players. Moving upward means that the pawn located in (r,<=c) will go to the cell (r<=-<=1,<=c), while moving down means the pawn located in (r,<=c) will go to the cell (r<=+<=1,<=c). Again, the corresponding cell must be empty, i.e. not occupied by any other pawn of any color. Given the initial disposition of the board, determine who wins the game if both players play optimally. Note that there will always be a winner due to the restriction that for any game scenario both players will have some moves available.	The input consists of the board description given in eight lines, each line contains eight characters. Character 'B' is used to denote a black pawn, and character 'W' represents a white pawn. Empty cell is marked with '.'. It's guaranteed that there will not be white pawns on the first row neither black pawns on the last row.	Print 'A' if player A wins the game on the given board, and 'B' if player B will claim the victory. Again, it's guaranteed that there will always be a winner on the given board.	[ "........\n........\n.B....B.\n....W...\n........\n..W.....\n........\n........\n", "..B.....\n..W.....\n......B.\n........\n.....W..\n......B.\n........\n........\n" ]	[ "A\n", "B\n" ]	In the first sample player A is able to complete his goal in 3 steps by always moving a pawn initially located at (4, 5). Player B needs at least 5 steps for any of his pawns to reach the row 8. Hence, player A will be the winner.	500	[ { "input": ".BB.B.B.\nB..B..B.\n.B.BB...\nBB.....B\nBBB....B\nB..BB...\nBB.B...B\n....WWW.", "output": "B" }, { "input": "B.B.BB.B\nW.WWW.WW\n.WWWWW.W\nW.BB.WBW\n.W..BBWB\nBB.WWBBB\n.W.W.WWB\nWWW..WW.", "output": "A" }, { "input": "BB..BB..\nBW.W.W.B\n..B.....\n.....BB.\n.B..B..B\n........\n...BB.B.\nW.WWWW.W", "output": "A" }, { "input": "BB......\nW....BBW\n........\n.B.B.BBB\n....BB..\nB....BB.\n...WWWW.\n....WW..", "output": "A" }, { "input": ".B.B..B.\nB.B....B\n...B.B.B\n..B.W..B\n.BBB.B.B\nB.BB.B.B\nBB..BBBB\nW.W.W.WW", "output": "B" }, { "input": "..BB....\n.B.B.B.B\n..B.B...\n..B..B.B\nWWWBWWB.\n.BB...B.\n..BBB...\n......W.", "output": "B" }, { "input": "..BB....\n.WBWBWBB\n.....BBB\n..WW....\n.W.W...W\nWWW...W.\n.W....W.\nW...W.W.", "output": "A" }, { "input": "....BB..\nBB......\n.B.....B\nWW..WWW.\n...BB.B.\nB...BB..\n..W..WWW\n...W...W", "output": "B" }, { "input": "B...BBBB\n...BBB..\nBBWBWW.W\n.B..BB.B\nW..W..WW\nW.WW....\n........\nWW.....W", "output": "A" }, { "input": ".B......\n.B....B.\n...W....\n......W.\nW.WWWW.W\nW.WW....\n..WWW...\n..W...WW", "output": "A" }, { "input": "B.......\nBBB.....\n.B....B.\n.W.BWB.W\n......B.\nW..WW...\n...W....\nW...W..W", "output": "A" }, { "input": ".....B..\n........\n........\n.BB..B..\n..BB....\n........\n....WWW.\n......W.", "output": "B" }, { "input": "B.B...B.\n...BBBBB\n....B...\n...B...B\nB.B.B..B\n........\n........\nWWW..WW.", "output": "B" }, { "input": "B.B...B.\n........\n.......B\n.BB....B\n.....W..\n.W.WW.W.\n...W.WW.\nW..WW..W", "output": "A" }, { "input": "......B.\nB....B..\n...B.BB.\n...B....\n........\n..W....W\nWW......\n.W....W.", "output": "B" }, { "input": ".BBB....\nB.B.B...\nB.BB.B..\nB.BB.B.B\n........\n........\nW.....W.\n..WW..W.", "output": "B" }, { "input": "..B..BBB\n........\n........\n........\n...W.W..\n...W..W.\nW.......\n..W...W.", "output": "A" }, { "input": "........\n.B.B....\n...B..BB\n........\n........\nW...W...\nW...W...\nW.WW.W..", "output": "A" }, { "input": "B....BB.\n...B...B\n.B......\n........\n........\n........\n........\n....W..W", "output": "B" }, { "input": "...BB.BB\nBB...B..\n........\n........\n........\n........\n..W..W..\n......W.", "output": "A" }, { "input": "...BB...\n........\n........\n........\n........\n........\n......W.\nWW...WW.", "output": "A" }, { "input": "...B.B..\n........\n........\n........\n........\n........\n........\nWWW...WW", "output": "A" }, { "input": "BBBBBBB.\n........\n........\n........\n........\n........\n........\n.WWWWWWW", "output": "A" }, { "input": ".BBBBBB.\nB.......\n........\n........\n........\n........\n........\n.WWWWWWW", "output": "B" }, { "input": ".BBBBBBB\n........\n........\n........\n........\n........\n........\nWWWWWWW.", "output": "A" }, { "input": ".BBBBBB.\n.......B\n........\n........\n........\n........\n........\nWWWWWWW.", "output": "B" }, { "input": "B..BB...\n..B...B.\n.WBB...B\nBW......\nW.B...W.\n..BBW.B.\nBW..BB..\n......W.", "output": "B" }, { "input": "B.BBBBBB\nB..BBB.B\nW.BB.W.B\nB.BWBB.B\nBWBWBBBB\n...BBBBB\nB.B...BB\nWW..WW.W", "output": "B" }, { "input": "BBBB.BBB\nBBBB.B.B\nB.B..BBB\nB.BB.BWW\nB.BB.BBB\nB.BB.BBB\n..BW.BB.\nW.WWWWWW", "output": "B" }, { "input": "BBBB.BBB\n.B....WB\nBB.B...B\nWWWW.WWB\nBB...BWW\nWWW..BBB\nW.BW.BB.\nWWWWWWW.", "output": "B" }, { "input": "B.BBBBBB\nW.WWBBBW\nW.BB.WBB\nW.W.BBBW\nW.BWW.WB\nB..B..BB\nB.B.W.BB\nWWWWW.WW", "output": "B" }, { "input": "BBBBBB.B\n.BBWBB.B\nWWW..B.W\n..WW.W.W\nBWB..W.W\n..BW.B.W\nB..B....\nWWWW.WWW", "output": "B" }, { "input": ".B...BB.\nWBB.BWBB\n.BWBW...\n..W...B.\nWB.BWW..\nWBW.....\n.W..W.B.\n.W.W.WW.", "output": "A" }, { "input": ".B..BBBB\nBB...WWB\nB..B.W.B\nWB.W...B\n...W.WW.\nW.....W.\nWB.W.W.W\n.WW...WW", "output": "A" }, { "input": "B.BBBBBB\nW.BB.W.B\nW.BBW...\n..WWWW.B\n....W..B\n.WW.W..W\n.W..WW.W\nW.W....W", "output": "A" }, { "input": "........\n.B......\n.W......\n........\n....B...\n........\n........\n.......W", "output": "B" } ]	1,448,501,261	2,147,483,647	Python 3	OK	TESTS	56	77	0	index_B = list() index_A = list() for col in list(zip(*[list(input()) for i in range(8)])): step = 0 for k in col: if k == 'W': index_A.append(step) break if k == 'B': break step += 1 step = 0 for k in col[::-1]: if k == 'B': index_B.append(step) break if k == 'W': break step += 1 print('A' if min(index_A or [8]) <= min(index_B or [8]) else 'B')	Title: PawnChess Time Limit: None seconds Memory Limit: None megabytes Problem Description: Galois is one of the strongest chess players of Byteforces. He has even invented a new variant of chess, which he named «PawnChess». This new game is played on a board consisting of 8 rows and 8 columns. At the beginning of every game some black and white pawns are placed on the board. The number of black pawns placed is not necessarily equal to the number of white pawns placed. Lets enumerate rows and columns with integers from 1 to 8. Rows are numbered from top to bottom, while columns are numbered from left to right. Now we denote as (r,<=c) the cell located at the row r and at the column c. There are always two players A and B playing the game. Player A plays with white pawns, while player B plays with black ones. The goal of player A is to put any of his pawns to the row 1, while player B tries to put any of his pawns to the row 8. As soon as any of the players completes his goal the game finishes immediately and the succeeded player is declared a winner. Player A moves first and then they alternate turns. On his move player A must choose exactly one white pawn and move it one step upward and player B (at his turn) must choose exactly one black pawn and move it one step down. Any move is possible only if the targeted cell is empty. It's guaranteed that for any scenario of the game there will always be at least one move available for any of the players. Moving upward means that the pawn located in (r,<=c) will go to the cell (r<=-<=1,<=c), while moving down means the pawn located in (r,<=c) will go to the cell (r<=+<=1,<=c). Again, the corresponding cell must be empty, i.e. not occupied by any other pawn of any color. Given the initial disposition of the board, determine who wins the game if both players play optimally. Note that there will always be a winner due to the restriction that for any game scenario both players will have some moves available. Input Specification: The input consists of the board description given in eight lines, each line contains eight characters. Character 'B' is used to denote a black pawn, and character 'W' represents a white pawn. Empty cell is marked with '.'. It's guaranteed that there will not be white pawns on the first row neither black pawns on the last row. Output Specification: Print 'A' if player A wins the game on the given board, and 'B' if player B will claim the victory. Again, it's guaranteed that there will always be a winner on the given board. Demo Input: ['........\n........\n.B....B.\n....W...\n........\n..W.....\n........\n........\n', '..B.....\n..W.....\n......B.\n........\n.....W..\n......B.\n........\n........\n'] Demo Output: ['A\n', 'B\n'] Note: In the first sample player A is able to complete his goal in 3 steps by always moving a pawn initially located at (4, 5). Player B needs at least 5 steps for any of his pawns to reach the row 8. Hence, player A will be the winner.	```python index_B = list() index_A = list() for col in list(zip(*[list(input()) for i in range(8)])): step = 0 for k in col: if k == 'W': index_A.append(step) break if k == 'B': break step += 1 step = 0 for k in col[::-1]: if k == 'B': index_B.append(step) break if k == 'W': break step += 1 print('A' if min(index_A or [8]) <= min(index_B or [8]) else 'B') ```	3
92	A	Chips	PROGRAMMING	800	[ "implementation", "math" ]	A. Chips	2	256	There are n walruses sitting in a circle. All of them are numbered in the clockwise order: the walrus number 2 sits to the left of the walrus number 1, the walrus number 3 sits to the left of the walrus number 2, ..., the walrus number 1 sits to the left of the walrus number n. The presenter has m chips. The presenter stands in the middle of the circle and starts giving the chips to the walruses starting from walrus number 1 and moving clockwise. The walrus number i gets i chips. If the presenter can't give the current walrus the required number of chips, then the presenter takes the remaining chips and the process ends. Determine by the given n and m how many chips the presenter will get in the end.	The first line contains two integers n and m (1<=≤<=n<=≤<=50, 1<=≤<=m<=≤<=104) — the number of walruses and the number of chips correspondingly.	Print the number of chips the presenter ended up with.	[ "4 11\n", "17 107\n", "3 8\n" ]	[ "0\n", "2\n", "1\n" ]	In the first sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, four chips to the walrus number 4, then again one chip to the walrus number 1. After that the presenter runs out of chips. He can't give anything to the walrus number 2 and the process finishes. In the third sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, then again one chip to the walrus number 1. The presenter has one chip left and he can't give two chips to the walrus number 2, that's why the presenter takes the last chip.	500	[ { "input": "4 11", "output": "0" }, { "input": "17 107", "output": "2" }, { "input": "3 8", "output": "1" }, { "input": "46 7262", "output": "35" }, { "input": "32 6864", "output": "0" }, { "input": "36 6218", "output": "14" }, { "input": "25 9712", "output": "11" }, { "input": "9 7601", "output": "5" }, { "input": "1 9058", "output": "0" }, { "input": "29 7772", "output": "26" }, { "input": "45 9465", "output": "14" }, { "input": "46 866", "output": "5" }, { "input": "29 1241", "output": "20" }, { "input": "17 4248", "output": "12" }, { "input": "20 8082", "output": "11" }, { "input": "50 9555", "output": "0" }, { "input": "4 7455", "output": "2" }, { "input": "36 880", "output": "4" }, { "input": "24 7440", "output": "9" }, { "input": "44 7888", "output": "12" }, { "input": "1 1", "output": "0" }, { "input": "50 10000", "output": "40" }, { "input": "1 10000", "output": "0" }, { "input": "50 1", "output": "0" }, { "input": "50 50", "output": "5" } ]	1,663,860,079	2,147,483,647	Python 3	OK	TESTS	25	62	0	n,m = map(int,input().split()) m = m%(n(n+1)//2) k = 1 while k(k+1)<=2m: k+=1 print(m-k(k-1)//2)	Title: Chips Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: There are n walruses sitting in a circle. All of them are numbered in the clockwise order: the walrus number 2 sits to the left of the walrus number 1, the walrus number 3 sits to the left of the walrus number 2, ..., the walrus number 1 sits to the left of the walrus number n. The presenter has m chips. The presenter stands in the middle of the circle and starts giving the chips to the walruses starting from walrus number 1 and moving clockwise. The walrus number i gets i chips. If the presenter can't give the current walrus the required number of chips, then the presenter takes the remaining chips and the process ends. Determine by the given n and m how many chips the presenter will get in the end. Input Specification: The first line contains two integers n and m (1<=≤<=n<=≤<=50, 1<=≤<=m<=≤<=104) — the number of walruses and the number of chips correspondingly. Output Specification: Print the number of chips the presenter ended up with. Demo Input: ['4 11\n', '17 107\n', '3 8\n'] Demo Output: ['0\n', '2\n', '1\n'] Note: In the first sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, four chips to the walrus number 4, then again one chip to the walrus number 1. After that the presenter runs out of chips. He can't give anything to the walrus number 2 and the process finishes. In the third sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, then again one chip to the walrus number 1. The presenter has one chip left and he can't give two chips to the walrus number 2, that's why the presenter takes the last chip.	```python n,m = map(int,input().split()) m = m%(n(n+1)//2) k = 1 while k(k+1)<=2m: k+=1 print(m-k(k-1)//2) ```	3.9845
51	A	Cheaterius's Problem	PROGRAMMING	1,300	[ "implementation" ]	A. Cheaterius's Problem	2	256	Cheaterius is a famous in all the Berland astrologist, magician and wizard, and he also is a liar and a cheater. One of his latest inventions is Cheaterius' amulets! They bring luck and wealth, but are rather expensive. Cheaterius makes them himself. The technology of their making is kept secret. But we know that throughout long nights Cheaterius glues together domino pairs with super glue to get squares 2<=×<=2 which are the Cheaterius' magic amulets! After a hard night Cheaterius made n amulets. Everyone of them represents a square 2<=×<=2, every quarter contains 1 to 6 dots. Now he wants sort them into piles, every pile must contain similar amulets. Two amulets are called similar if they can be rotated by 90, 180 or 270 degrees so that the following condition is met: the numbers of dots in the corresponding quarters should be the same. It is forbidden to turn over the amulets. Write a program that by the given amulets will find the number of piles on Cheaterius' desk.	The first line contains an integer n (1<=≤<=n<=≤<=1000), where n is the number of amulets. Then the amulet's descriptions are contained. Every description occupies two lines and contains two numbers (from 1 to 6) in each line. Between every pair of amulets the line "**" is located.	Print the required number of piles.	[ "4\n31\n23\n\n31\n23\n\n13\n32\n\n32\n13\n", "4\n51\n26\n\n54\n35\n\n25\n61\n\n45\n53\n" ]	[ "1\n", "2\n" ]	none	500	[ { "input": "4\n31\n23\n\n31\n23\n\n13\n32\n\n32\n13", "output": "1" }, { "input": "4\n51\n26\n\n54\n35\n\n25\n61\n\n45\n53", "output": "2" }, { "input": "4\n56\n61\n\n31\n31\n\n33\n11\n\n11\n33", "output": "2" }, { "input": "4\n36\n44\n\n32\n46\n\n66\n41\n\n64\n34", "output": "3" }, { "input": "3\n63\n63\n\n66\n33\n\n36\n36", "output": "1" }, { "input": "3\n11\n54\n\n42\n63\n\n42\n63", "output": "2" }, { "input": "3\n14\n54\n\n45\n41\n\n12\n22", "output": "2" }, { "input": "7\n21\n33\n\n33\n12\n\n32\n31\n\n21\n33\n\n33\n12\n\n32\n31\n\n13\n23", "output": "1" } ]	1,617,032,513	2,147,483,647	PyPy 3	OK	TESTS	20	466	3,993,600	def rotate(st): res = st[1] + st[3] + st[0] + st[2] return res n = int(input()) List = [] for j in range(n): s = str(input()) + str(input()) r1 = rotate(s) r2 = rotate(r1) r3 = rotate(r2) found = False for k in range(len(List)): if List[k] in [s, r1, r2, r3]: found = True break if found == False: List.append(s) if j != n - 1: input() print(len(List))	Title: Cheaterius's Problem Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Cheaterius is a famous in all the Berland astrologist, magician and wizard, and he also is a liar and a cheater. One of his latest inventions is Cheaterius' amulets! They bring luck and wealth, but are rather expensive. Cheaterius makes them himself. The technology of their making is kept secret. But we know that throughout long nights Cheaterius glues together domino pairs with super glue to get squares 2<=×<=2 which are the Cheaterius' magic amulets! After a hard night Cheaterius made n amulets. Everyone of them represents a square 2<=×<=2, every quarter contains 1 to 6 dots. Now he wants sort them into piles, every pile must contain similar amulets. Two amulets are called similar if they can be rotated by 90, 180 or 270 degrees so that the following condition is met: the numbers of dots in the corresponding quarters should be the same. It is forbidden to turn over the amulets. Write a program that by the given amulets will find the number of piles on Cheaterius' desk. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=1000), where n is the number of amulets. Then the amulet's descriptions are contained. Every description occupies two lines and contains two numbers (from 1 to 6) in each line. Between every pair of amulets the line "" is located. Output Specification: Print the required number of piles. Demo Input: ['4\n31\n23\n\n31\n23\n\n13\n32\n\n32\n13\n', '4\n51\n26\n\n54\n35\n\n25\n61\n**\n45\n53\n'] Demo Output: ['1\n', '2\n'] Note: none	```python def rotate(st): res = st[1] + st[3] + st[0] + st[2] return res n = int(input()) List = [] for j in range(n): s = str(input()) + str(input()) r1 = rotate(s) r2 = rotate(r1) r3 = rotate(r2) found = False for k in range(len(List)): if List[k] in [s, r1, r2, r3]: found = True break if found == False: List.append(s) if j != n - 1: input() print(len(List)) ```	3.876061
915	A	Garden	PROGRAMMING	900	[ "implementation" ]		null	null	Luba thinks about watering her garden. The garden can be represented as a segment of length k. Luba has got n buckets, the i-th bucket allows her to water some continuous subsegment of garden of length exactly ai each hour. Luba can't water any parts of the garden that were already watered, also she can't water the ground outside the garden. Luba has to choose one of the buckets in order to water the garden as fast as possible (as mentioned above, each hour she will water some continuous subsegment of length ai if she chooses the i-th bucket). Help her to determine the minimum number of hours she has to spend watering the garden. It is guaranteed that Luba can always choose a bucket so it is possible water the garden. See the examples for better understanding.	The first line of input contains two integer numbers n and k (1<=≤<=n,<=k<=≤<=100) — the number of buckets and the length of the garden, respectively. The second line of input contains n integer numbers ai (1<=≤<=ai<=≤<=100) — the length of the segment that can be watered by the i-th bucket in one hour. It is guaranteed that there is at least one bucket such that it is possible to water the garden in integer number of hours using only this bucket.	Print one integer number — the minimum number of hours required to water the garden.	[ "3 6\n2 3 5\n", "6 7\n1 2 3 4 5 6\n" ]	[ "2\n", "7\n" ]	In the first test the best option is to choose the bucket that allows to water the segment of length 3. We can't choose the bucket that allows to water the segment of length 5 because then we can't water the whole garden. In the second test we can choose only the bucket that allows us to water the segment of length 1.	0	[ { "input": "3 6\n2 3 5", "output": "2" }, { "input": "6 7\n1 2 3 4 5 6", "output": "7" }, { "input": "5 97\n1 10 50 97 2", "output": "1" }, { "input": "5 97\n1 10 50 100 2", "output": "97" }, { "input": "100 100\n2 46 24 18 86 90 31 38 84 49 58 28 15 80 14 24 87 56 62 87 41 87 55 71 87 32 41 56 91 32 24 75 43 42 35 30 72 53 31 26 54 61 87 85 36 75 44 31 7 38 77 57 61 54 70 77 45 96 39 57 11 8 91 42 52 15 42 30 92 41 27 26 34 27 3 80 32 86 26 97 63 91 30 75 14 7 19 23 45 11 8 43 44 73 11 56 3 55 63 16", "output": "50" }, { "input": "100 91\n13 13 62 96 74 47 81 46 78 21 20 42 4 73 25 30 76 74 58 28 25 52 42 48 74 40 82 9 25 29 17 22 46 64 57 95 81 39 47 86 40 95 97 35 31 98 45 98 47 78 52 63 58 14 89 97 17 95 28 22 20 36 68 38 95 16 2 26 54 47 42 31 31 81 21 21 65 40 82 53 60 71 75 33 96 98 6 22 95 12 5 48 18 27 58 62 5 96 36 75", "output": "7" }, { "input": "8 8\n8 7 6 5 4 3 2 1", "output": "1" }, { "input": "3 8\n4 3 2", "output": "2" }, { "input": "3 8\n2 4 2", "output": "2" }, { "input": "3 6\n1 3 2", "output": "2" }, { "input": "3 6\n3 2 5", "output": "2" }, { "input": "3 8\n4 2 1", "output": "2" }, { "input": "5 6\n2 3 5 1 2", "output": "2" }, { "input": "2 6\n5 3", "output": "2" }, { "input": "4 12\n6 4 3 1", "output": "2" }, { "input": "3 18\n1 9 6", "output": "2" }, { "input": "3 9\n3 2 1", "output": "3" }, { "input": "3 6\n5 3 2", "output": "2" }, { "input": "2 10\n5 2", "output": "2" }, { "input": "2 18\n6 3", "output": "3" }, { "input": "4 12\n1 2 12 3", "output": "1" }, { "input": "3 7\n3 2 1", "output": "7" }, { "input": "3 6\n3 2 1", "output": "2" }, { "input": "5 10\n5 4 3 2 1", "output": "2" }, { "input": "5 16\n8 4 2 1 7", "output": "2" }, { "input": "6 7\n6 5 4 3 7 1", "output": "1" }, { "input": "2 6\n3 2", "output": "2" }, { "input": "2 4\n4 1", "output": "1" }, { "input": "6 8\n2 4 1 3 5 7", "output": "2" }, { "input": "6 8\n6 5 4 3 2 1", "output": "2" }, { "input": "6 15\n5 2 3 6 4 3", "output": "3" }, { "input": "4 8\n2 4 8 1", "output": "1" }, { "input": "2 5\n5 1", "output": "1" }, { "input": "4 18\n3 1 1 2", "output": "6" }, { "input": "2 1\n2 1", "output": "1" }, { "input": "3 10\n2 10 5", "output": "1" }, { "input": "5 12\n12 4 4 4 3", "output": "1" }, { "input": "3 6\n6 3 2", "output": "1" }, { "input": "2 2\n2 1", "output": "1" }, { "input": "3 18\n1 9 3", "output": "2" }, { "input": "3 8\n7 2 4", "output": "2" }, { "input": "2 100\n99 1", "output": "100" }, { "input": "4 12\n1 3 4 2", "output": "3" }, { "input": "3 6\n2 3 1", "output": "2" }, { "input": "4 6\n3 2 5 12", "output": "2" }, { "input": "4 97\n97 1 50 10", "output": "1" }, { "input": "3 12\n1 12 2", "output": "1" }, { "input": "4 12\n1 4 3 2", "output": "3" }, { "input": "1 1\n1", "output": "1" }, { "input": "3 19\n7 1 1", "output": "19" }, { "input": "5 12\n12 4 3 4 4", "output": "1" }, { "input": "3 8\n8 4 2", "output": "1" }, { "input": "3 3\n3 2 1", "output": "1" }, { "input": "5 6\n3 2 4 2 2", "output": "2" }, { "input": "2 16\n8 4", "output": "2" }, { "input": "3 6\n10 2 3", "output": "2" }, { "input": "5 3\n2 4 5 3 6", "output": "1" }, { "input": "11 99\n1 2 3 6 5 4 7 8 99 33 66", "output": "1" }, { "input": "3 12\n3 12 2", "output": "1" }, { "input": "5 25\n24 5 15 25 23", "output": "1" }, { "input": "2 4\n8 1", "output": "4" }, { "input": "4 100\n2 50 4 1", "output": "2" }, { "input": "3 28\n7 14 1", "output": "2" }, { "input": "4 8\n2 8 4 1", "output": "1" }, { "input": "4 6\n6 1 2 3", "output": "1" }, { "input": "2 12\n4 3", "output": "3" }, { "input": "4 12\n1 2 4 3", "output": "3" }, { "input": "5 12\n2 3 12 6 4", "output": "1" }, { "input": "4 4\n1 2 2 4", "output": "1" }, { "input": "3 6\n2 3 2", "output": "2" }, { "input": "4 21\n21 20 21 2", "output": "1" }, { "input": "3 8\n3 4 2", "output": "2" }, { "input": "1 25\n25", "output": "1" }, { "input": "99 12\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99", "output": "1" }, { "input": "98 12\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98", "output": "1" }, { "input": "79 12\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79", "output": "1" }, { "input": "4 32\n1 1 1 1", "output": "32" }, { "input": "1 100\n1", "output": "100" }, { "input": "2 100\n7 1", "output": "100" }, { "input": "7 24\n1 3 6 4 5 2 7", "output": "4" }, { "input": "6 87\n1 2 8 4 5 7", "output": "87" }, { "input": "1 88\n1", "output": "88" }, { "input": "1 89\n1", "output": "89" } ]	1,598,175,912	2,147,483,647	PyPy 3	OK	TESTS	83	156	20,172,800	n , k = map(int , input().split()) a = [int(a) for a in input().split()] mn = k for i in a: if k % i == 0: mn = min(mn , k // i) print(mn)	Title: Garden Time Limit: None seconds Memory Limit: None megabytes Problem Description: Luba thinks about watering her garden. The garden can be represented as a segment of length k. Luba has got n buckets, the i-th bucket allows her to water some continuous subsegment of garden of length exactly ai each hour. Luba can't water any parts of the garden that were already watered, also she can't water the ground outside the garden. Luba has to choose one of the buckets in order to water the garden as fast as possible (as mentioned above, each hour she will water some continuous subsegment of length ai if she chooses the i-th bucket). Help her to determine the minimum number of hours she has to spend watering the garden. It is guaranteed that Luba can always choose a bucket so it is possible water the garden. See the examples for better understanding. Input Specification: The first line of input contains two integer numbers n and k (1<=≤<=n,<=k<=≤<=100) — the number of buckets and the length of the garden, respectively. The second line of input contains n integer numbers ai (1<=≤<=ai<=≤<=100) — the length of the segment that can be watered by the i-th bucket in one hour. It is guaranteed that there is at least one bucket such that it is possible to water the garden in integer number of hours using only this bucket. Output Specification: Print one integer number — the minimum number of hours required to water the garden. Demo Input: ['3 6\n2 3 5\n', '6 7\n1 2 3 4 5 6\n'] Demo Output: ['2\n', '7\n'] Note: In the first test the best option is to choose the bucket that allows to water the segment of length 3. We can't choose the bucket that allows to water the segment of length 5 because then we can't water the whole garden. In the second test we can choose only the bucket that allows us to water the segment of length 1.	```python n , k = map(int , input().split()) a = [int(a) for a in input().split()] mn = k for i in a: if k % i == 0: mn = min(mn , k // i) print(mn) ```	3
266	B	Queue at the School	PROGRAMMING	800	[ "constructive algorithms", "graph matchings", "implementation", "shortest paths" ]		null	null	During the break the schoolchildren, boys and girls, formed a queue of n people in the canteen. Initially the children stood in the order they entered the canteen. However, after a while the boys started feeling awkward for standing in front of the girls in the queue and they started letting the girls move forward each second. Let's describe the process more precisely. Let's say that the positions in the queue are sequentially numbered by integers from 1 to n, at that the person in the position number 1 is served first. Then, if at time x a boy stands on the i-th position and a girl stands on the (i<=+<=1)-th position, then at time x<=+<=1 the i-th position will have a girl and the (i<=+<=1)-th position will have a boy. The time is given in seconds. You've got the initial position of the children, at the initial moment of time. Determine the way the queue is going to look after t seconds.	The first line contains two integers n and t (1<=≤<=n,<=t<=≤<=50), which represent the number of children in the queue and the time after which the queue will transform into the arrangement you need to find. The next line contains string s, which represents the schoolchildren's initial arrangement. If the i-th position in the queue contains a boy, then the i-th character of string s equals "B", otherwise the i-th character equals "G".	Print string a, which describes the arrangement after t seconds. If the i-th position has a boy after the needed time, then the i-th character a must equal "B", otherwise it must equal "G".	[ "5 1\nBGGBG\n", "5 2\nBGGBG\n", "4 1\nGGGB\n" ]	[ "GBGGB\n", "GGBGB\n", "GGGB\n" ]	none	500	[ { "input": "5 1\nBGGBG", "output": "GBGGB" }, { "input": "5 2\nBGGBG", "output": "GGBGB" }, { "input": "4 1\nGGGB", "output": "GGGB" }, { "input": "2 1\nBB", "output": "BB" }, { "input": "2 1\nBG", "output": "GB" }, { "input": "6 2\nBBGBBG", "output": "GBBGBB" }, { "input": "8 3\nBBGBGBGB", "output": "GGBGBBBB" }, { "input": "10 3\nBBGBBBBBBG", "output": "GBBBBBGBBB" }, { "input": "22 7\nGBGGBGGGGGBBBGGBGBGBBB", "output": "GGGGGGGGBGGBGGBBBBBBBB" }, { "input": "50 4\nGBBGBBBGGGGGBBGGBBBBGGGBBBGBBBGGBGGBGBBBGGBGGBGGBG", "output": "GGBGBGBGBGBGGGBBGBGBGBGBBBGBGBGBGBGBGBGBGBGBGGBGBB" }, { "input": "50 8\nGGGGBGGBGGGBGBBBGGGGGGGGBBGBGBGBBGGBGGBGGGGGGGGBBG", "output": "GGGGGGGGGGGGBGGBGBGBGBGBGGGGGGBGBGBGBGBGBGGBGGBGBB" }, { "input": "50 30\nBGGGGGGBGGBGBGGGGBGBBGBBBGGBBBGBGBGGGGGBGBBGBGBGGG", "output": "GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGBBBBBBBBBBBBBBBBBBBB" }, { "input": "20 20\nBBGGBGGGGBBBGBBGGGBB", "output": "GGGGGGGGGGBBBBBBBBBB" }, { "input": "27 6\nGBGBGBGGGGGGBGGBGGBBGBBBGBB", "output": "GGGGGGGBGBGBGGGGGBGBBBBBBBB" }, { "input": "46 11\nBGGGGGBGBGGBGGGBBGBBGBBGGBBGBBGBGGGGGGGBGBGBGB", "output": "GGGGGGGGGGGBGGGGGBBGBGBGBGBGBGBGBGBGBGBGBBBBBB" }, { "input": "50 6\nBGGBBBBGGBBBBBBGGBGBGBBBBGBBBBBBGBBBBBBBBBBBBBBBBB", "output": "GGGGBBBBBGBGBGBGBBBGBBBBBBGBBBBBBBBBBBBBBBBBBBBBBB" }, { "input": "50 10\nBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB", "output": "BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB" }, { "input": "50 8\nGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG" }, { "input": "50 10\nBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBGB", "output": "BBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBGBBBBBBBBBBB" }, { "input": "50 13\nGGGBGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "GGGGGGGGGGGGGGGGBGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG" }, { "input": "1 1\nB", "output": "B" }, { "input": "1 1\nG", "output": "G" }, { "input": "1 50\nB", "output": "B" }, { "input": "1 50\nG", "output": "G" }, { "input": "50 50\nBBBBBBBBGGBBBBBBGBBBBBBBBBBBGBBBBBBBBBBBBBBGBBBBBB", "output": "GGGGGBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB" }, { "input": "50 50\nGGBBGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGBBGGGGGGBG", "output": "GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGBBBBB" }, { "input": "6 3\nGGBBBG", "output": "GGGBBB" }, { "input": "26 3\nGBBGBBBBBGGGBGBGGGBGBGGBBG", "output": "GGBBBBGBGBGBGGGBGBGGGBGBBB" }, { "input": "46 3\nGGBBGGGGBBGBGBBBBBGGGBGGGBBGGGBBBGGBGGBBBGBGBB", "output": "GGGGBGBGGGBBBBBGBGBGBGGGBGGBGBGBGBGBGBGBGBBBBB" }, { "input": "44 8\nBGBBBBBBBBBGGBBGBGBGGBBBBBGBBGBBBBBBBBBGBBGB", "output": "GBBGBGBGBGBGBGBBBBGBBGBBBBBBBBBGBBGBBBBBBBBB" }, { "input": "20 20\nBBGGBGGGGBBBGBBGGGBB", "output": "GGGGGGGGGGBBBBBBBBBB" }, { "input": "30 25\nBGGBBGBGGBGBGBBGBGGGGBGBGGBBBB", "output": "GGGGGGGGGGGGGGGBBBBBBBBBBBBBBB" }, { "input": "17 42\nBBGBGBGGGGGGBBGGG", "output": "GGGGGGGGGGGBBBBBB" }, { "input": "30 50\nBGGBBGGGGGGGGBBGGGBBGGBBBGBBGG", "output": "GGGGGGGGGGGGGGGGGGBBBBBBBBBBBB" }, { "input": "31 33\nBBGGBBGGBGBBBBGGBGBBBGBGGBBGBBB", "output": "GGGGGGGGGGGGBBBBBBBBBBBBBBBBBBB" }, { "input": "2 2\nBG", "output": "GB" }, { "input": "8 8\nGGGBGGBB", "output": "GGGGGBBB" }, { "input": "34 34\nBGGBBBBGGBBGBGGGGGGBBGGGGGBGGBGGGB", "output": "GGGGGGGGGGGGGGGGGGGGGBBBBBBBBBBBBB" }, { "input": "34 20\nBBBBGBGGGBGGGBGBGGBBBBGGBBGGGBGBBG", "output": "GGGGGGGGGGGGGGGGGBBBBBBBBBBBBBBBBB" }, { "input": "50 50\nBBGBBBBBBBBBBBBGBBBGBBBBBBBGBBBBBBGBBBGBBGBBGBBBGG", "output": "GGGGGGGGGGBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBBB" }, { "input": "10 10\nGGGGGGGGGG", "output": "GGGGGGGGGG" }, { "input": "10 10\nBBBBBBBBBB", "output": "BBBBBBBBBB" }, { "input": "10 10\nBGBGBGBGBG", "output": "GGGGGBBBBB" }, { "input": "1 1\nB", "output": "B" } ]	1,697,920,719	2,147,483,647	Python 3	OK	TESTS	44	92	0	n,t=map(int,input().split()) string = input() for _ in range(t): string = string.replace('BG','GB') print(string)	Title: Queue at the School Time Limit: None seconds Memory Limit: None megabytes Problem Description: During the break the schoolchildren, boys and girls, formed a queue of n people in the canteen. Initially the children stood in the order they entered the canteen. However, after a while the boys started feeling awkward for standing in front of the girls in the queue and they started letting the girls move forward each second. Let's describe the process more precisely. Let's say that the positions in the queue are sequentially numbered by integers from 1 to n, at that the person in the position number 1 is served first. Then, if at time x a boy stands on the i-th position and a girl stands on the (i<=+<=1)-th position, then at time x<=+<=1 the i-th position will have a girl and the (i<=+<=1)-th position will have a boy. The time is given in seconds. You've got the initial position of the children, at the initial moment of time. Determine the way the queue is going to look after t seconds. Input Specification: The first line contains two integers n and t (1<=≤<=n,<=t<=≤<=50), which represent the number of children in the queue and the time after which the queue will transform into the arrangement you need to find. The next line contains string s, which represents the schoolchildren's initial arrangement. If the i-th position in the queue contains a boy, then the i-th character of string s equals "B", otherwise the i-th character equals "G". Output Specification: Print string a, which describes the arrangement after t seconds. If the i-th position has a boy after the needed time, then the i-th character a must equal "B", otherwise it must equal "G". Demo Input: ['5 1\nBGGBG\n', '5 2\nBGGBG\n', '4 1\nGGGB\n'] Demo Output: ['GBGGB\n', 'GGBGB\n', 'GGGB\n'] Note: none	```python n,t=map(int,input().split()) string = input() for _ in range(t): string = string.replace('BG','GB') print(string) ```	3
71	A	Way Too Long Words	PROGRAMMING	800	[ "strings" ]	A. Way Too Long Words	1	256	Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome. Let's consider a word too long, if its length is strictly more than 10 characters. All too long words should be replaced with a special abbreviation. This abbreviation is made like this: we write down the first and the last letter of a word and between them we write the number of letters between the first and the last letters. That number is in decimal system and doesn't contain any leading zeroes. Thus, "localization" will be spelt as "l10n", and "internationalization» will be spelt as "i18n". You are suggested to automatize the process of changing the words with abbreviations. At that all too long words should be replaced by the abbreviation and the words that are not too long should not undergo any changes.	The first line contains an integer n (1<=≤<=n<=≤<=100). Each of the following n lines contains one word. All the words consist of lowercase Latin letters and possess the lengths of from 1 to 100 characters.	Print n lines. The i-th line should contain the result of replacing of the i-th word from the input data.	[ "4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis\n" ]	[ "word\nl10n\ni18n\np43s\n" ]	none	500	[ { "input": "4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis", "output": "word\nl10n\ni18n\np43s" }, { "input": "5\nabcdefgh\nabcdefghi\nabcdefghij\nabcdefghijk\nabcdefghijklm", "output": "abcdefgh\nabcdefghi\nabcdefghij\na9k\na11m" }, { "input": "3\nnjfngnrurunrgunrunvurn\njfvnjfdnvjdbfvsbdubruvbubvkdb\nksdnvidnviudbvibd", "output": "n20n\nj27b\nk15d" }, { "input": "1\ntcyctkktcctrcyvbyiuhihhhgyvyvyvyvjvytchjckt", "output": "t41t" }, { "input": "24\nyou\nare\nregistered\nfor\npractice\nyou\ncan\nsolve\nproblems\nunofficially\nresults\ncan\nbe\nfound\nin\nthe\ncontest\nstatus\nand\nin\nthe\nbottom\nof\nstandings", "output": "you\nare\nregistered\nfor\npractice\nyou\ncan\nsolve\nproblems\nu10y\nresults\ncan\nbe\nfound\nin\nthe\ncontest\nstatus\nand\nin\nthe\nbottom\nof\nstandings" }, { "input": "1\na", "output": "a" }, { "input": "26\na\nb\nc\nd\ne\nf\ng\nh\ni\nj\nk\nl\nm\nn\no\np\nq\nr\ns\nt\nu\nv\nw\nx\ny\nz", "output": "a\nb\nc\nd\ne\nf\ng\nh\ni\nj\nk\nl\nm\nn\no\np\nq\nr\ns\nt\nu\nv\nw\nx\ny\nz" }, { "input": "1\nabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghij", "output": "a98j" }, { "input": "10\ngyartjdxxlcl\nfzsck\nuidwu\nxbymclornemdmtj\nilppyoapitawgje\ncibzc\ndrgbeu\nhezplmsdekhhbo\nfeuzlrimbqbytdu\nkgdco", "output": "g10l\nfzsck\nuidwu\nx13j\ni13e\ncibzc\ndrgbeu\nh12o\nf13u\nkgdco" }, { "input": "20\nlkpmx\nkovxmxorlgwaomlswjxlpnbvltfv\nhykasjxqyjrmybejnmeumzha\ntuevlumpqbbhbww\nqgqsphvrmupxxc\ntrissbaf\nqfgrlinkzvzqdryckaizutd\nzzqtoaxkvwoscyx\noswytrlnhpjvvnwookx\nlpuzqgec\ngyzqfwxggtvpjhzmzmdw\nrlxjgmvdftvrmvbdwudra\nvsntnjpepnvdaxiporggmglhagv\nxlvcqkqgcrbgtgglj\nlyxwxbiszyhlsrgzeedzprbmcpduvq\nyrmqqvrkqskqukzqrwukpsifgtdc\nxpuohcsjhhuhvr\nvvlfrlxpvqejngwrbfbpmqeirxlw\nsvmasocxdvadmaxtrpakysmeaympy\nyuflqboqfdt", "output": "lkpmx\nk26v\nh22a\nt13w\nq12c\ntrissbaf\nq21d\nz13x\no17x\nlpuzqgec\ng18w\nr19a\nv25v\nx15j\nl28q\ny26c\nx12r\nv26w\ns27y\ny9t" }, { "input": "100\nm\nz\ns\nv\nd\nr\nv\ny\ny\ne\np\nt\nc\na\nn\nm\np\ng\ni\nj\nc\na\nb\nq\ne\nn\nv\no\nk\nx\nf\ni\nl\na\nq\nr\nu\nb\ns\nl\nc\nl\ne\nv\nj\nm\nx\nb\na\nq\nb\na\nf\nj\nv\nm\nq\nc\nt\nt\nn\nx\no\ny\nr\nu\nh\nm\nj\np\nj\nq\nz\ns\nj\no\ng\nc\nm\nn\no\nm\nr\no\ns\nt\nh\nr\np\nk\nb\nz\ng\no\nc\nc\nz\nz\ng\nr", "output": "m\nz\ns\nv\nd\nr\nv\ny\ny\ne\np\nt\nc\na\nn\nm\np\ng\ni\nj\nc\na\nb\nq\ne\nn\nv\no\nk\nx\nf\ni\nl\na\nq\nr\nu\nb\ns\nl\nc\nl\ne\nv\nj\nm\nx\nb\na\nq\nb\na\nf\nj\nv\nm\nq\nc\nt\nt\nn\nx\no\ny\nr\nu\nh\nm\nj\np\nj\nq\nz\ns\nj\no\ng\nc\nm\nn\no\nm\nr\no\ns\nt\nh\nr\np\nk\nb\nz\ng\no\nc\nc\nz\nz\ng\nr" } ]	1,676,493,771	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	30	0	s = input() print(s[0], len(s) - 2, s[-1])	Title: Way Too Long Words Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome. Let's consider a word too long, if its length is strictly more than 10 characters. All too long words should be replaced with a special abbreviation. This abbreviation is made like this: we write down the first and the last letter of a word and between them we write the number of letters between the first and the last letters. That number is in decimal system and doesn't contain any leading zeroes. Thus, "localization" will be spelt as "l10n", and "internationalization» will be spelt as "i18n". You are suggested to automatize the process of changing the words with abbreviations. At that all too long words should be replaced by the abbreviation and the words that are not too long should not undergo any changes. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=100). Each of the following n lines contains one word. All the words consist of lowercase Latin letters and possess the lengths of from 1 to 100 characters. Output Specification: Print n lines. The i-th line should contain the result of replacing of the i-th word from the input data. Demo Input: ['4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis\n'] Demo Output: ['word\nl10n\ni18n\np43s\n'] Note: none	```python s = input() print(s[0], len(s) - 2, s[-1]) ```	0
411	A	Password Check	PROGRAMMING	800	[ "*special", "implementation" ]		null	null	You have probably registered on Internet sites many times. And each time you should enter your invented password. Usually the registration form automatically checks the password's crypt resistance. If the user's password isn't complex enough, a message is displayed. Today your task is to implement such an automatic check. Web-developers of the company Q assume that a password is complex enough, if it meets all of the following conditions: - the password length is at least 5 characters; - the password contains at least one large English letter; - the password contains at least one small English letter; - the password contains at least one digit. You are given a password. Please implement the automatic check of its complexity for company Q.	The first line contains a non-empty sequence of characters (at most 100 characters). Each character is either a large English letter, or a small English letter, or a digit, or one of characters: "!", "?", ".", ",", "_".	If the password is complex enough, print message "Correct" (without the quotes), otherwise print message "Too weak" (without the quotes).	[ "abacaba\n", "X12345\n", "CONTEST_is_STARTED!!11\n" ]	[ "Too weak\n", "Too weak\n", "Correct\n" ]	none	0	[ { "input": "abacaba", "output": "Too weak" }, { "input": "X12345", "output": "Too weak" }, { "input": "CONTEST_is_STARTED!!11", "output": "Correct" }, { "input": "1zA__", "output": "Correct" }, { "input": "1zA_", "output": "Too weak" }, { "input": "zA___", "output": "Too weak" }, { "input": "1A___", "output": "Too weak" }, { "input": "z1___", "output": "Too weak" }, { "input": "0", "output": "Too weak" }, { "input": "_", "output": "Too weak" }, { "input": "a", "output": "Too weak" }, { "input": "D", "output": "Too weak" }, { "input": "_", "output": "Too weak" }, { "input": "?", "output": "Too weak" }, { "input": "?", "output": "Too weak" }, { "input": "._,.!.,...?_,!.", "output": "Too weak" }, { "input": "!_?_,?,?.,.,_!!!.!,.__,?!!,_!,?_,!??,?!..._!?_,?_!,?_.,._,,_.,.", "output": "Too weak" }, { "input": "?..!.,,?,__.,...????_???__!,?...?.,,,,___!,.!,_,,_,??!_?_,!!?_!_??.?,.!!?_?_.,!", "output": "Too weak" }, { "input": "XZX", "output": "Too weak" }, { "input": "R", "output": "Too weak" }, { "input": "H.FZ", "output": "Too weak" }, { "input": "KSHMICWPK,LSBM_JVZ!IPDYDG_GOPCHXFJTKJBIFY,FPHMY,CB?PZEAG..,X,.GFHPIDBB,IQ?MZ", "output": "Too weak" }, { "input": "EFHI,,Y?HMMUI,,FJGAY?FYPBJQMYM!DZHLFCTFWT?JOPDW,S_!OR?ATT?RWFBMAAKUHIDMHSD?LCZQY!UD_CGYGBAIRDPICYS", "output": "Too weak" }, { "input": "T,NDMUYCCXH_L_FJHMCCAGX_XSCPGOUZSY?D?CNDSYRITYS,VAT!PJVKNTBMXGGRYKACLYU.RJQ_?UWKXYIDE_AE", "output": "Too weak" }, { "input": "y", "output": "Too weak" }, { "input": "qgw", "output": "Too weak" }, { "input": "g", "output": "Too weak" }, { "input": "loaray", "output": "Too weak" }, { "input": "d_iymyvxolmjayhwpedocopqwmy.oalrdg!_n?.lrxpamhygps?kkzxydsbcaihfs.j?eu!oszjsy.vzu?!vs.bprz_j", "output": "Too weak" }, { "input": "txguglvclyillwnono", "output": "Too weak" }, { "input": "FwX", "output": "Too weak" }, { "input": "Zi", "output": "Too weak" }, { "input": "PodE", "output": "Too weak" }, { "input": "SdoOuJ?nj_wJyf", "output": "Too weak" }, { "input": "MhnfZjsUyXYw?f?ubKA", "output": "Too weak" }, { "input": "CpWxDVzwHfYFfoXNtXMFuAZr", "output": "Too weak" }, { "input": "9.,0", "output": "Too weak" }, { "input": "5,8", "output": "Too weak" }, { "input": "7", "output": "Too weak" }, { "input": "34__39_02!,!,82!129!2!566", "output": "Too weak" }, { "input": "96156027.65935663!_87!,44,..7914_!0_1,.4!!62!.8350!17_282!!9.2584,!!7__51.526.7", "output": "Too weak" }, { "input": "90328_", "output": "Too weak" }, { "input": "B9", "output": "Too weak" }, { "input": "P1H", "output": "Too weak" }, { "input": "J2", "output": "Too weak" }, { "input": "M6BCAKW!85OSYX1D?.53KDXP42F", "output": "Too weak" }, { "input": "C672F429Y8X6XU7S,.K9111UD3232YXT81S4!729ER7DZ.J7U1R_7VG6.FQO,LDH", "output": "Too weak" }, { "input": "W2PI__!.O91H8OFY6AB__R30L9XOU8800?ZUD84L5KT99818NFNE35V.8LJJ5P2MM.B6B", "output": "Too weak" }, { "input": "z1", "output": "Too weak" }, { "input": "p1j", "output": "Too weak" }, { "input": "j9", "output": "Too weak" }, { "input": "v8eycoylzv0qkix5mfs_nhkn6k!?ovrk9!b69zy!4frc?k", "output": "Too weak" }, { "input": "l4!m_44kpw8.jg!?oh,?y5oraw1tg7_x1.osl0!ny?_aihzhtt0e2!mr92tnk0es!1f,9he40_usa6c50l", "output": "Too weak" }, { "input": "d4r!ak.igzhnu!boghwd6jl", "output": "Too weak" }, { "input": "It0", "output": "Too weak" }, { "input": "Yb1x", "output": "Too weak" }, { "input": "Qf7", "output": "Too weak" }, { "input": "Vu7jQU8.!FvHBYTsDp6AphaGfnEmySP9te", "output": "Correct" }, { "input": "Ka4hGE,vkvNQbNolnfwp", "output": "Correct" }, { "input": "Ee9oluD?amNItsjeQVtOjwj4w_ALCRh7F3eaZah", "output": "Correct" }, { "input": "Um3Fj?QLhNuRE_Gx0cjMLOkGCm", "output": "Correct" }, { "input": "Oq2LYmV9HmlaW", "output": "Correct" }, { "input": "Cq7r3Wrb.lDb_0wsf7!ruUUGSf08RkxD?VsBEDdyE?SHK73TFFy0f8gmcATqGafgTv8OOg8or2HyMPIPiQ2Hsx8q5rn3_WZe", "output": "Correct" }, { "input": "Wx4p1fOrEMDlQpTlIx0p.1cnFD7BnX2K8?_dNLh4cQBx_Zqsv83BnL5hGKNcBE9g3QB,!fmSvgBeQ_qiH7", "output": "Correct" }, { "input": "k673,", "output": "Too weak" }, { "input": "LzuYQ", "output": "Too weak" }, { "input": "Pasq!", "output": "Too weak" }, { "input": "x5hve", "output": "Too weak" }, { "input": "b27fk", "output": "Too weak" }, { "input": "h6y1l", "output": "Too weak" }, { "input": "i9nij", "output": "Too weak" }, { "input": "Gf5Q6", "output": "Correct" }, { "input": "Uf24o", "output": "Correct" }, { "input": "Oj9vu", "output": "Correct" }, { "input": "c7jqaudcqmv8o7zvb5x_gp6zcgl6nwr7tz5or!28.tj8s1m2.wxz5a4id03!rq07?662vy.7.p5?vk2f2mc7ag8q3861rgd0rmbr", "output": "Too weak" }, { "input": "i6a.,8jb,n0kv4.1!7h?p.96pnhhgy6cl7dg7e4o6o384ys3z.t71kkq,,w,oqi4?u,,m5!rzu6wym_4hm,ohjy!.vvksl?pt,,1", "output": "Too weak" }, { "input": "M10V_MN_1K8YX2LA!89EYV7!5V9?,.IDHDP6JEC.OGLY.180LMZ6KW3Z5E17IT94ZNHS!79GN09Q6LH0,F3AYNKP?KM,QP_?XRD6", "output": "Too weak" }, { "input": "Hi7zYuVXCPhaho68YgCMzzgLILM6toQTJq8akMqqrnUn6ZCD36iA1yVVpvlsIiMpCu!1QZd4ycIrQ5Kcrhk5k0jTrwdAAEEP_T2f", "output": "Correct" }, { "input": "Bk2Q38vDSW5JqYu.077iYC.9YoiPc!Dh6FJWOVze6?YXiFjPNa4F1RG?154m9mY2jQobBnbxM,cDV8l1UX1?v?p.tTYIyJO!NYmE", "output": "Correct" }, { "input": "Ro1HcZ.piN,JRR88DLh,WtW!pbFM076?wCSbqfK7N2s5zUySFBtzk7HV,BxHXR0zALAr016z5jvvB.WUdEcKgYFav5TygwHQC..C", "output": "Correct" }, { "input": "!?.,_", "output": "Too weak" } ]	1,629,235,745	2,147,483,647	Python 3	OK	TESTS	81	62	6,758,400	d = {"!", "?", ".", ",", "_"} def solve(): s = input() n = len(s) if n >= 5 \ and any(x.isupper() for x in s) \ and any(x.islower() for x in s) \ and any(x.isdigit() for x in s): return "Correct" else: return "Too weak" print(solve())	Title: Password Check Time Limit: None seconds Memory Limit: None megabytes Problem Description: You have probably registered on Internet sites many times. And each time you should enter your invented password. Usually the registration form automatically checks the password's crypt resistance. If the user's password isn't complex enough, a message is displayed. Today your task is to implement such an automatic check. Web-developers of the company Q assume that a password is complex enough, if it meets all of the following conditions: - the password length is at least 5 characters; - the password contains at least one large English letter; - the password contains at least one small English letter; - the password contains at least one digit. You are given a password. Please implement the automatic check of its complexity for company Q. Input Specification: The first line contains a non-empty sequence of characters (at most 100 characters). Each character is either a large English letter, or a small English letter, or a digit, or one of characters: "!", "?", ".", ",", "_". Output Specification: If the password is complex enough, print message "Correct" (without the quotes), otherwise print message "Too weak" (without the quotes). Demo Input: ['abacaba\n', 'X12345\n', 'CONTEST_is_STARTED!!11\n'] Demo Output: ['Too weak\n', 'Too weak\n', 'Correct\n'] Note: none	```python d = {"!", "?", ".", ",", "_"} def solve(): s = input() n = len(s) if n >= 5 \ and any(x.isupper() for x in s) \ and any(x.islower() for x in s) \ and any(x.isdigit() for x in s): return "Correct" else: return "Too weak" print(solve()) ```	3
433	B	Kuriyama Mirai's Stones	PROGRAMMING	1,200	[ "dp", "implementation", "sortings" ]		null	null	Kuriyama Mirai has killed many monsters and got many (namely n) stones. She numbers the stones from 1 to n. The cost of the i-th stone is vi. Kuriyama Mirai wants to know something about these stones so she will ask you two kinds of questions: 1. She will tell you two numbers, l and r (1<=≤<=l<=≤<=r<=≤<=n), and you should tell her . 1. Let ui be the cost of the i-th cheapest stone (the cost that will be on the i-th place if we arrange all the stone costs in non-decreasing order). This time she will tell you two numbers, l and r (1<=≤<=l<=≤<=r<=≤<=n), and you should tell her . For every question you should give the correct answer, or Kuriyama Mirai will say "fuyukai desu" and then become unhappy.	The first line contains an integer n (1<=≤<=n<=≤<=105). The second line contains n integers: v1,<=v2,<=...,<=vn (1<=≤<=vi<=≤<=109) — costs of the stones. The third line contains an integer m (1<=≤<=m<=≤<=105) — the number of Kuriyama Mirai's questions. Then follow m lines, each line contains three integers type, l and r (1<=≤<=l<=≤<=r<=≤<=n; 1<=≤<=type<=≤<=2), describing a question. If type equal to 1, then you should output the answer for the first question, else you should output the answer for the second one.	Print m lines. Each line must contain an integer — the answer to Kuriyama Mirai's question. Print the answers to the questions in the order of input.	[ "6\n6 4 2 7 2 7\n3\n2 3 6\n1 3 4\n1 1 6\n", "4\n5 5 2 3\n10\n1 2 4\n2 1 4\n1 1 1\n2 1 4\n2 1 2\n1 1 1\n1 3 3\n1 1 3\n1 4 4\n1 2 2\n" ]	[ "24\n9\n28\n", "10\n15\n5\n15\n5\n5\n2\n12\n3\n5\n" ]	Please note that the answers to the questions may overflow 32-bit integer type.	1,500	[ { "input": "6\n6 4 2 7 2 7\n3\n2 3 6\n1 3 4\n1 1 6", "output": "24\n9\n28" }, { "input": "4\n5 5 2 3\n10\n1 2 4\n2 1 4\n1 1 1\n2 1 4\n2 1 2\n1 1 1\n1 3 3\n1 1 3\n1 4 4\n1 2 2", "output": "10\n15\n5\n15\n5\n5\n2\n12\n3\n5" }, { "input": "4\n2 2 3 6\n9\n2 2 3\n1 1 3\n2 2 3\n2 2 3\n2 2 2\n1 1 3\n1 1 3\n2 1 4\n1 1 2", "output": "5\n7\n5\n5\n2\n7\n7\n13\n4" }, { "input": "18\n26 46 56 18 78 88 86 93 13 77 21 84 59 61 5 74 72 52\n25\n1 10 10\n1 9 13\n2 13 17\n1 8 14\n2 2 6\n1 12 16\n2 15 17\n2 3 6\n1 3 13\n2 8 9\n2 17 17\n1 17 17\n2 5 10\n2 1 18\n1 4 16\n1 1 13\n1 1 8\n2 7 11\n2 6 12\n1 5 9\n1 4 5\n2 7 15\n1 8 8\n1 8 14\n1 3 7", "output": "77\n254\n413\n408\n124\n283\n258\n111\n673\n115\n88\n72\n300\n1009\n757\n745\n491\n300\n420\n358\n96\n613\n93\n408\n326" }, { "input": "56\n43 100 44 66 65 11 26 75 96 77 5 15 75 96 11 44 11 97 75 53 33 26 32 33 90 26 68 72 5 44 53 26 33 88 68 25 84 21 25 92 1 84 21 66 94 35 76 51 11 95 67 4 61 3 34 18\n27\n1 20 38\n1 11 46\n2 42 53\n1 8 11\n2 11 42\n2 35 39\n2 37 41\n1 48 51\n1 32 51\n1 36 40\n1 31 56\n1 18 38\n2 9 51\n1 7 48\n1 15 52\n1 27 31\n2 5 19\n2 35 50\n1 31 34\n1 2 7\n2 15 33\n2 46 47\n1 26 28\n2 3 29\n1 23 45\n2 29 55\n1 14 29", "output": "880\n1727\n1026\n253\n1429\n335\n350\n224\n1063\n247\n1236\n1052\n2215\n2128\n1840\n242\n278\n1223\n200\n312\n722\n168\n166\n662\n1151\n2028\n772" }, { "input": "18\n38 93 48 14 69 85 26 47 71 11 57 9 38 65 72 78 52 47\n38\n2 10 12\n1 6 18\n2 2 2\n1 3 15\n2 1 16\n2 5 13\n1 9 17\n1 2 15\n2 5 17\n1 15 15\n2 4 11\n2 3 4\n2 2 5\n2 1 17\n2 6 16\n2 8 16\n2 8 14\n1 9 12\n2 8 13\n2 1 14\n2 5 13\n1 2 3\n1 9 14\n2 12 15\n2 3 3\n2 9 13\n2 4 12\n2 11 14\n2 6 16\n1 8 14\n1 12 15\n2 3 4\n1 3 5\n2 4 14\n1 6 6\n2 7 14\n2 7 18\n1 8 12", "output": "174\n658\n11\n612\n742\n461\n453\n705\n767\n72\n353\n40\n89\n827\n644\n559\n409\n148\n338\n592\n461\n141\n251\n277\n14\n291\n418\n262\n644\n298\n184\n40\n131\n558\n85\n456\n784\n195" }, { "input": "1\n2\n10\n1 1 1\n1 1 1\n2 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n2 1 1\n1 1 1\n1 1 1", "output": "2\n2\n2\n2\n2\n2\n2\n2\n2\n2" }, { "input": "2\n1 5\n8\n2 1 2\n1 1 1\n1 1 2\n1 1 1\n2 2 2\n2 1 2\n1 1 1\n1 2 2", "output": "6\n1\n6\n1\n5\n6\n1\n5" }, { "input": "8\n2 6 4 6 8 4 7 7\n9\n2 6 8\n1 2 3\n2 3 4\n2 1 2\n2 4 5\n1 3 8\n2 4 4\n2 2 4\n1 2 4", "output": "22\n10\n10\n6\n12\n36\n6\n14\n16" }, { "input": "4\n1 1 2 8\n9\n1 2 4\n1 2 4\n1 1 2\n2 3 4\n2 1 1\n1 2 3\n2 3 4\n1 1 4\n1 1 4", "output": "11\n11\n2\n10\n1\n3\n10\n12\n12" }, { "input": "5\n8 8 1 10 7\n5\n1 2 2\n1 1 4\n1 3 3\n1 2 2\n1 2 5", "output": "8\n27\n1\n8\n26" }, { "input": "10\n10 3 3 2 1 2 7 1 1 1\n4\n2 10 10\n2 6 6\n1 5 10\n1 6 8", "output": "10\n2\n13\n10" }, { "input": "6\n6 6 3 8 5 4\n3\n2 2 3\n2 1 5\n1 1 5", "output": "9\n24\n28" }, { "input": "1\n1\n2\n1 1 1\n2 1 1", "output": "1\n1" } ]	1,674,502,226	2,147,483,647	Python 3	OK	TESTS	46	1,076	10,956,800	n = int(input()) stones = list(map(int, input().split())) stonesSum = [0] * n cheapStones = sorted(stones) cheapStonesSum = [0] * n total = 0 for i in range(n-1, -1, -1): total += stones[i] stonesSum[i] = total stonesSum.append(0) total = 0 for i in range(n-1, -1, -1): total += cheapStones[i] cheapStonesSum[i] = total cheapStonesSum.append(0) m = int(input()) for i in range(m): questionType, l, r = map(int, input().split()) if questionType == 1: ans = stonesSum[l-1] - stonesSum[r] else: ans = cheapStonesSum[l-1] - cheapStonesSum[r] print(ans)	Title: Kuriyama Mirai's Stones Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kuriyama Mirai has killed many monsters and got many (namely n) stones. She numbers the stones from 1 to n. The cost of the i-th stone is vi. Kuriyama Mirai wants to know something about these stones so she will ask you two kinds of questions: 1. She will tell you two numbers, l and r (1<=≤<=l<=≤<=r<=≤<=n), and you should tell her . 1. Let ui be the cost of the i-th cheapest stone (the cost that will be on the i-th place if we arrange all the stone costs in non-decreasing order). This time she will tell you two numbers, l and r (1<=≤<=l<=≤<=r<=≤<=n), and you should tell her . For every question you should give the correct answer, or Kuriyama Mirai will say "fuyukai desu" and then become unhappy. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=105). The second line contains n integers: v1,<=v2,<=...,<=vn (1<=≤<=vi<=≤<=109) — costs of the stones. The third line contains an integer m (1<=≤<=m<=≤<=105) — the number of Kuriyama Mirai's questions. Then follow m lines, each line contains three integers type, l and r (1<=≤<=l<=≤<=r<=≤<=n; 1<=≤<=type<=≤<=2), describing a question. If type equal to 1, then you should output the answer for the first question, else you should output the answer for the second one. Output Specification: Print m lines. Each line must contain an integer — the answer to Kuriyama Mirai's question. Print the answers to the questions in the order of input. Demo Input: ['6\n6 4 2 7 2 7\n3\n2 3 6\n1 3 4\n1 1 6\n', '4\n5 5 2 3\n10\n1 2 4\n2 1 4\n1 1 1\n2 1 4\n2 1 2\n1 1 1\n1 3 3\n1 1 3\n1 4 4\n1 2 2\n'] Demo Output: ['24\n9\n28\n', '10\n15\n5\n15\n5\n5\n2\n12\n3\n5\n'] Note: Please note that the answers to the questions may overflow 32-bit integer type.	```python n = int(input()) stones = list(map(int, input().split())) stonesSum = [0] * n cheapStones = sorted(stones) cheapStonesSum = [0] * n total = 0 for i in range(n-1, -1, -1): total += stones[i] stonesSum[i] = total stonesSum.append(0) total = 0 for i in range(n-1, -1, -1): total += cheapStones[i] cheapStonesSum[i] = total cheapStonesSum.append(0) m = int(input()) for i in range(m): questionType, l, r = map(int, input().split()) if questionType == 1: ans = stonesSum[l-1] - stonesSum[r] else: ans = cheapStonesSum[l-1] - cheapStonesSum[r] print(ans) ```	3
733	A	Grasshopper And the String	PROGRAMMING	1,000	[ "implementation" ]		null	null	One day, the Grasshopper was jumping on the lawn and found a piece of paper with a string. Grasshopper became interested what is the minimum jump ability he should have in order to be able to reach the far end of the string, jumping only on vowels of the English alphabet. Jump ability is the maximum possible length of his jump. Formally, consider that at the begginning the Grasshopper is located directly in front of the leftmost character of the string. His goal is to reach the position right after the rightmost character of the string. In one jump the Grasshopper could jump to the right any distance from 1 to the value of his jump ability. The following letters are vowels: 'A', 'E', 'I', 'O', 'U' and 'Y'.	The first line contains non-empty string consisting of capital English letters. It is guaranteed that the length of the string does not exceed 100.	Print single integer a — the minimum jump ability of the Grasshopper (in the number of symbols) that is needed to overcome the given string, jumping only on vowels.	[ "ABABBBACFEYUKOTT\n", "AAA\n" ]	[ "4", "1" ]	none	500	[ { "input": "ABABBBACFEYUKOTT", "output": "4" }, { "input": "AAA", "output": "1" }, { "input": "A", "output": "1" }, { "input": "B", "output": "2" }, { "input": "AEYUIOAEIYAEOUIYOEIUYEAOIUEOEAYOEIUYAEOUIYEOIKLMJNHGTRWSDZXCVBNMHGFDSXVWRTPPPLKMNBXIUOIUOIUOIUOOIU", "output": "39" }, { "input": "AEYUIOAEIYAEOUIYOEIUYEAOIUEOEAYOEIUYAEOUIYEOIAEYUIOAEIYAEOUIYOEIUYEAOIUEOEAYOEIUYAEOUIYEOI", "output": "1" }, { "input": "KMLPTGFHNBVCDRFGHNMBVXWSQFDCVBNHTJKLPMNFVCKMLPTGFHNBVCDRFGHNMBVXWSQFDCVBNHTJKLPMNFVC", "output": "85" }, { "input": "QWERTYUIOPASDFGHJKLZXCVBNMQWERTYUIOPASDFGHJKLZXCVBNMQWERTYUIOPASDFGHJKLZXCVBNMQWERTYUIOPASDFGHJKLZ", "output": "18" }, { "input": "PKLKBWTXVJ", "output": "11" }, { "input": "CFHFPTGMOKXVLJJZJDQW", "output": "12" }, { "input": "TXULTFSBUBFLRNQORMMULWNVLPWTYJXZBPBGAWNX", "output": "9" }, { "input": "DAIUSEAUEUYUWEIOOEIOUYVYYOPEEWEBZOOOAOXUOIEUKYYOJOYAUYUUIYUXOUJLGIYEIIYUOCUAACRY", "output": "4" }, { "input": "VRPHBNWNWVWBWMFJJDCTJQJDJBKSJRZLVQRVVFLTZFSGCGDXCWQVWWWMFVCQHPKXXVRKTGWGPSMQTPKNDQJHNSKLXPCXDJDQDZZD", "output": "101" }, { "input": "SGDDFCDRDWGPNNFBBZZJSPXFYMZKPRXTCHVJSJJBWZXXQMDZBNKDHRGSRLGLRKPMWXNSXJPNJLDPXBSRCQMHJKPZNTPNTZXNPCJC", "output": "76" }, { "input": "NVTQVNLGWFDBCBKSDLTBGWBMNQZWZQJWNGVCTCQBGWNTYJRDBPZJHXCXFMIXNRGSTXHQPCHNFQPCMDZWJGLJZWMRRFCVLBKDTDSC", "output": "45" }, { "input": "SREZXQFVPQCLRCQGMKXCBRWKYZKWKRMZGXPMKWNMFZTRDPHJFCSXVPPXWKZMZTBFXGNLPLHZIPLFXNRRQFDTLFPKBGCXKTMCFKKT", "output": "48" }, { "input": "ICKJKMVPDNZPLKDSLTPZNRLSQSGHQJQQPJJSNHNWVDLJRLZEJSXZDPHYXGGWXHLCTVQSKWNWGTLJMOZVJNZPVXGVPJKHFVZTGCCX", "output": "47" }, { "input": "XXFPZDRPXLNHGDVCBDKJMKLGUQZXLLWYLOKFZVGXVNPJWZZZNRMQBRJCZTSDRHSNCVDMHKVXCXPCRBWSJCJWDRDPVZZLCZRTDRYA", "output": "65" }, { "input": "HDDRZDKCHHHEDKHZMXQSNQGSGNNSCCPVJFGXGNCEKJMRKSGKAPQWPCWXXWHLSMRGSJWEHWQCSJJSGLQJXGVTBYALWMLKTTJMFPFS", "output": "28" }, { "input": "PXVKJHXVDPWGLHWFWMJPMCCNHCKSHCPZXGIHHNMYNFQBUCKJJTXXJGKRNVRTQFDFMLLGPQKFOVNNLTNDIEXSARRJKGSCZKGGJCBW", "output": "35" }, { "input": "EXNMTTFPJLDHXDQBJJRDRYBZVFFHUDCHCPNFZWXSMZXNFVJGHZWXVBRQFNUIDVLZOVPXQNVMFNBTJDSCKRLNGXPSADTGCAHCBJKL", "output": "30" }, { "input": "NRNLSQQJGIJBCZFTNKJCXMGPARGWXPSHZXOBNSFOLDQVXTVAGJZNLXULHBRDGMNQKQGWMRRDPYCSNFVPUFTFBUBRXVJGNGSPJKLL", "output": "19" }, { "input": "SRHOKCHQQMVZKTCVQXJJCFGYFXGMBZSZFNAFETXILZHPGHBWZRZQFMGSEYRUDVMCIQTXTBTSGFTHRRNGNTHHWWHCTDFHSVARMCMB", "output": "30" }, { "input": "HBSVZHDKGNIRQUBYKYHUPJCEETGFMVBZJTHYHFQPFBVBSMQACYAVWZXSBGNKWXFNMQJFMSCHJVWBZXZGSNBRUHTHAJKVLEXFBOFB", "output": "34" }, { "input": "NXKMUGOPTUQNSRYTKUKSCWCRQSZKKFPYUMDIBJAHJCEKZJVWZAWOLOEFBFXLQDDPNNZKCQHUPBFVDSXSUCVLMZXQROYQYIKPQPWR", "output": "17" }, { "input": "TEHJDICFNOLQVQOAREVAGUAWODOCXJXIHYXFAEPEXRHPKEIIRCRIVASKNTVYUYDMUQKSTSSBYCDVZKDDHTSDWJWACPCLYYOXGCLT", "output": "15" }, { "input": "LCJJUZZFEIUTMSEXEYNOOAIZMORQDOANAMUCYTFRARDCYHOYOPHGGYUNOGNXUAOYSEMXAZOOOFAVHQUBRNGORSPNQWZJYQQUNPEB", "output": "9" }, { "input": "UUOKAOOJBXUTSMOLOOOOSUYYFTAVBNUXYFVOOGCGZYQEOYISIYOUULUAIJUYVVOENJDOCLHOSOHIHDEJOIGZNIXEMEGZACHUAQFW", "output": "5" }, { "input": "OUUBEHXOOURMOAIAEHXCUOIYHUJEVAWYRCIIAGDRIPUIPAIUYAIWJEVYEYYUYBYOGVYESUJCFOJNUAHIOOKBUUHEJFEWPOEOUHYA", "output": "4" }, { "input": "EMNOYEEUIOUHEWZITIAEZNCJUOUAOQEAUYEIHYUSUYUUUIAEDIOOERAEIRBOJIEVOMECOGAIAIUIYYUWYIHIOWVIJEYUEAFYULSE", "output": "5" }, { "input": "BVOYEAYOIEYOREJUYEUOEOYIISYAEOUYAAOIOEOYOOOIEFUAEAAESUOOIIEUAAGAEISIAPYAHOOEYUJHUECGOYEIDAIRTBHOYOYA", "output": "5" }, { "input": "GOIEOAYIEYYOOEOAIAEOOUWYEIOTNYAANAYOOXEEOEAVIOIAAIEOIAUIAIAAUEUAOIAEUOUUZYIYAIEUEGOOOOUEIYAEOSYAEYIO", "output": "3" }, { "input": "AUEAOAYIAOYYIUIOAULIOEUEYAIEYYIUOEOEIEYRIYAYEYAEIIMMAAEAYAAAAEOUICAUAYOUIAOUIAIUOYEOEEYAEYEYAAEAOYIY", "output": "3" }, { "input": "OAIIYEYYAOOEIUOEEIOUOIAEFIOAYETUYIOAAAEYYOYEYOEAUIIUEYAYYIIAOIEEYGYIEAAOOWYAIEYYYIAOUUOAIAYAYYOEUEOY", "output": "2" }, { "input": "EEEAOEOEEIOUUUEUEAAOEOIUYJEYAIYIEIYYEAUOIIYIUOOEUCYEOOOYYYIUUAYIAOEUEIEAOUOIAACAOOUAUIYYEAAAOOUYIAAE", "output": "2" }, { "input": "AYEYIIEUIYOYAYEUEIIIEUYUUAUEUIYAIAAUYONIEYIUIAEUUOUOYYOUUUIUIAEYEOUIIUOUUEOAIUUYAAEOAAEOYUUIYAYRAIII", "output": "2" }, { "input": "YOOAAUUAAAYEUYIUIUYIUOUAEIEEIAUEOAUIIAAIUYEUUOYUIYEAYAAAYUEEOEEAEOEEYYOUAEUYEEAIIYEUEYJOIIYUIOIUOIEE", "output": "2" }, { "input": "UYOIIIAYOOAIUUOOEEUYIOUAEOOEIOUIAIEYOAEAIOOEOOOIUYYUYIAAUIOUYYOOUAUIEYYUOAAUUEAAIEUIAUEUUIAUUOYOAYIU", "output": "1" }, { "input": "ABBABBB", "output": "4" }, { "input": "ABCD", "output": "4" }, { "input": "XXYC", "output": "3" }, { "input": "YYY", "output": "1" }, { "input": "ABABBBBBBB", "output": "8" }, { "input": "YYYY", "output": "1" }, { "input": "YYYYY", "output": "1" }, { "input": "AXXX", "output": "4" }, { "input": "YYYYYYY", "output": "1" }, { "input": "BYYBBB", "output": "4" }, { "input": "YYYYYYYYY", "output": "1" }, { "input": "CAAAAA", "output": "2" }, { "input": "CCCACCCC", "output": "5" }, { "input": "ABABBBACFEYUKOTTTT", "output": "5" }, { "input": "AABBYYYYYYYY", "output": "3" }, { "input": "BYBACYC", "output": "2" }, { "input": "Y", "output": "1" }, { "input": "ABBBBBB", "output": "7" }, { "input": "BACDYDI", "output": "3" }, { "input": "XEXXXXXXXXXXXXXXX", "output": "16" }, { "input": "TTYTT", "output": "3" }, { "input": "AAYBC", "output": "3" }, { "input": "ABABBBACFEYUKOTTTTT", "output": "6" }, { "input": "YYAYY", "output": "1" }, { "input": "YZZY", "output": "3" }, { "input": "YY", "output": "1" }, { "input": "ZZYZZ", "output": "3" }, { "input": "YBBBY", "output": "4" }, { "input": "BBBACCCCCCC", "output": "8" }, { "input": "YBBBBY", "output": "5" }, { "input": "YYYYYYYYYY", "output": "1" }, { "input": "ABABBBBBBBBBBBB", "output": "13" } ]	1,616,679,257	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	46	0	v = "AEUOUI" string = input() indexes = [] for i in range(len(string)): if string[i] in v: indexes.append(i) maximal = 00 for i in range(1, len(indexes)): maximal = max(maximal, indexes[i] - indexes[i - 1]) print(maximal)	Title: Grasshopper And the String Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day, the Grasshopper was jumping on the lawn and found a piece of paper with a string. Grasshopper became interested what is the minimum jump ability he should have in order to be able to reach the far end of the string, jumping only on vowels of the English alphabet. Jump ability is the maximum possible length of his jump. Formally, consider that at the begginning the Grasshopper is located directly in front of the leftmost character of the string. His goal is to reach the position right after the rightmost character of the string. In one jump the Grasshopper could jump to the right any distance from 1 to the value of his jump ability. The following letters are vowels: 'A', 'E', 'I', 'O', 'U' and 'Y'. Input Specification: The first line contains non-empty string consisting of capital English letters. It is guaranteed that the length of the string does not exceed 100. Output Specification: Print single integer a — the minimum jump ability of the Grasshopper (in the number of symbols) that is needed to overcome the given string, jumping only on vowels. Demo Input: ['ABABBBACFEYUKOTT\n', 'AAA\n'] Demo Output: ['4', '1'] Note: none	```python v = "AEUOUI" string = input() indexes = [] for i in range(len(string)): if string[i] in v: indexes.append(i) maximal = 00 for i in range(1, len(indexes)): maximal = max(maximal, indexes[i] - indexes[i - 1]) print(maximal) ```	0
574	B	Bear and Three Musketeers	PROGRAMMING	1,500	[ "brute force", "dfs and similar", "graphs", "hashing" ]		null	null	Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions.	The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once.	If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes).	[ "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n", "7 4\n2 1\n3 6\n5 1\n1 7\n" ]	[ "2\n", "-1\n" ]	In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	1,000	[ { "input": "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5", "output": "2" }, { "input": "7 4\n2 1\n3 6\n5 1\n1 7", "output": "-1" }, { "input": "5 0", "output": "-1" }, { "input": "7 14\n3 6\n2 3\n5 2\n5 6\n7 5\n7 4\n6 2\n3 5\n7 1\n4 1\n6 1\n7 6\n6 4\n5 4", "output": "5" }, { "input": "15 15\n4 15\n12 1\n15 6\n11 6\n15 7\n6 8\n15 10\n6 12\n12 8\n15 8\n15 3\n11 9\n7 3\n6 4\n12 11", "output": "4" }, { "input": "12 66\n9 12\n1 4\n8 4\n5 3\n10 5\n12 2\n3 2\n2 7\n1 7\n3 7\n6 2\n4 2\n6 10\n8 10\n4 6\n8 5\n12 6\n11 9\n7 12\n5 4\n11 7\n9 4\n10 4\n6 3\n1 6\n9 7\n3 8\n6 11\n10 9\n3 11\n11 1\n5 12\n8 2\n2 1\n3 1\n12 4\n3 9\n10 12\n8 11\n7 10\n11 5\n9 5\n8 7\n11 4\n8 1\n2 11\n5 1\n3 4\n8 12\n9 2\n10 11\n9 1\n5 7\n10 3\n11 12\n7 4\n2 10\n12 3\n6 8\n7 6\n2 5\n1 10\n12 1\n9 6\n8 9\n6 5", "output": "27" }, { "input": "3 0", "output": "-1" }, { "input": "3 2\n2 3\n2 1", "output": "-1" }, { "input": "3 3\n3 1\n3 2\n2 1", "output": "0" }, { "input": "4 6\n3 4\n1 3\n4 1\n3 2\n2 1\n4 2", "output": "3" }, { "input": "8 10\n1 5\n4 1\n1 2\n2 8\n2 7\n6 3\n5 8\n3 5\n7 8\n1 6", "output": "2" }, { "input": "15 17\n1 3\n7 10\n7 9\n8 13\n6 15\n8 2\n13 6\n10 5\n15 3\n4 15\n4 6\n5 11\n13 9\n12 2\n11 14\n4 12\n14 1", "output": "3" }, { "input": "25 10\n19 11\n19 13\n13 11\n13 22\n19 23\n19 20\n13 17\n19 14\n13 15\n19 4", "output": "7" }, { "input": "987 50\n221 959\n221 553\n959 695\n553 959\n819 437\n371 295\n695 553\n959 347\n595 699\n652 628\n553 347\n868 589\n695 221\n282 714\n351 703\n104 665\n755 436\n556 511\n695 347\n221 347\n243 874\n695 847\n863 501\n583 145\n786 221\n38 286\n72 397\n808 658\n724 437\n911 548\n405 759\n681 316\n648 328\n327 199\n772 139\n932 609\n859 576\n915 507\n379 316\n381 348\n918 871\n261 450\n443 389\n549 246\n901 515\n930 923\n336 545\n179 225\n213 677\n458 204", "output": "6" }, { "input": "4000 0", "output": "-1" } ]	1,609,125,503	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	14	124	716,800	n, m = map(int, input("").split()) edge_list = { i: [] for i in range(1, n+1)} for i in range(m): start, end = map(int, input("").split()) edge_list[start].append(end) edge_list[end].append(start) def explore(vertice,start, num, visited, triangles, back_track): if vertice in visited and vertice == start: back_track.append(vertice) num = 1 return elif vertice in visited: return else: visited.append(vertice) for child in edge_list[vertice]: num = explore(child, num, visited, triangles, back_track) if num == 3: triangles.append(back_track) back_track.clear() elif num > 3: back_track.clear() num = 0 elif num > 0 and num < 3: num += 1 return num def ex(vertice, start, depth, visited, triangles, backtrack): if depth == 2: if start in edge_list[vertice]: triangles.append(backtrack.copy()) backtrack.pop() depth -= 1 return depth, triangles else: for child in edge_list[vertice]: if child not in visited: depth += 1 backtrack.append(child) visited.append(child) depth, triangles = ex(child, start, depth, visited, triangles, backtrack) depth -= 1 backtrack.pop() return depth, triangles triangles = [] def search(): for vertice in edge_list: visited = [] back_track = [] back_track.append(vertice) visited.append(vertice) ex(vertice, vertice, 0, visited, triangles, back_track) return triangles triangles = search() min_recog = float('inf') for triangle in triangles: x, y, z = triangle curr_recog = len(edge_list[x]) + len(edge_list[y]) + len(edge_list[z]) if curr_recog < min_recog: min_recog = curr_recog if min_recog == float('inf'): print('-1') else: print(min_recog-6)	Title: Bear and Three Musketeers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions. Input Specification: The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once. Output Specification: If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes). Demo Input: ['5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n', '7 4\n2 1\n3 6\n5 1\n1 7\n'] Demo Output: ['2\n', '-1\n'] Note: In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	```python n, m = map(int, input("").split()) edge_list = { i: [] for i in range(1, n+1)} for i in range(m): start, end = map(int, input("").split()) edge_list[start].append(end) edge_list[end].append(start) def explore(vertice,start, num, visited, triangles, back_track): if vertice in visited and vertice == start: back_track.append(vertice) num = 1 return elif vertice in visited: return else: visited.append(vertice) for child in edge_list[vertice]: num = explore(child, num, visited, triangles, back_track) if num == 3: triangles.append(back_track) back_track.clear() elif num > 3: back_track.clear() num = 0 elif num > 0 and num < 3: num += 1 return num def ex(vertice, start, depth, visited, triangles, backtrack): if depth == 2: if start in edge_list[vertice]: triangles.append(backtrack.copy()) backtrack.pop() depth -= 1 return depth, triangles else: for child in edge_list[vertice]: if child not in visited: depth += 1 backtrack.append(child) visited.append(child) depth, triangles = ex(child, start, depth, visited, triangles, backtrack) depth -= 1 backtrack.pop() return depth, triangles triangles = [] def search(): for vertice in edge_list: visited = [] back_track = [] back_track.append(vertice) visited.append(vertice) ex(vertice, vertice, 0, visited, triangles, back_track) return triangles triangles = search() min_recog = float('inf') for triangle in triangles: x, y, z = triangle curr_recog = len(edge_list[x]) + len(edge_list[y]) + len(edge_list[z]) if curr_recog < min_recog: min_recog = curr_recog if min_recog == float('inf'): print('-1') else: print(min_recog-6) ```	0
268	A	Games	PROGRAMMING	800	[ "brute force" ]		null	null	Manao works on a sports TV. He's spent much time watching the football games of some country. After a while he began to notice different patterns. For example, each team has two sets of uniforms: home uniform and guest uniform. When a team plays a game at home, the players put on the home uniform. When a team plays as a guest on somebody else's stadium, the players put on the guest uniform. The only exception to that rule is: when the home uniform color of the host team matches the guests' uniform, the host team puts on its guest uniform as well. For each team the color of the home and guest uniform is different. There are n teams taking part in the national championship. The championship consists of n·(n<=-<=1) games: each team invites each other team to its stadium. At this point Manao wondered: how many times during the championship is a host team going to put on the guest uniform? Note that the order of the games does not affect this number. You know the colors of the home and guest uniform for each team. For simplicity, the colors are numbered by integers in such a way that no two distinct colors have the same number. Help Manao find the answer to his question.	The first line contains an integer n (2<=≤<=n<=≤<=30). Each of the following n lines contains a pair of distinct space-separated integers hi, ai (1<=≤<=hi,<=ai<=≤<=100) — the colors of the i-th team's home and guest uniforms, respectively.	In a single line print the number of games where the host team is going to play in the guest uniform.	[ "3\n1 2\n2 4\n3 4\n", "4\n100 42\n42 100\n5 42\n100 5\n", "2\n1 2\n1 2\n" ]	[ "1\n", "5\n", "0\n" ]	In the first test case the championship consists of 6 games. The only game with the event in question is the game between teams 2 and 1 on the stadium of team 2. In the second test sample the host team will have to wear guest uniform in the games between teams: 1 and 2, 2 and 1, 2 and 3, 3 and 4, 4 and 2 (the host team is written first).	500	[ { "input": "3\n1 2\n2 4\n3 4", "output": "1" }, { "input": "4\n100 42\n42 100\n5 42\n100 5", "output": "5" }, { "input": "2\n1 2\n1 2", "output": "0" }, { "input": "7\n4 7\n52 55\n16 4\n55 4\n20 99\n3 4\n7 52", "output": "6" }, { "input": "10\n68 42\n1 35\n25 70\n59 79\n65 63\n46 6\n28 82\n92 62\n43 96\n37 28", "output": "1" }, { "input": "30\n10 39\n89 1\n78 58\n75 99\n36 13\n77 50\n6 97\n79 28\n27 52\n56 5\n93 96\n40 21\n33 74\n26 37\n53 59\n98 56\n61 65\n42 57\n9 7\n25 63\n74 34\n96 84\n95 47\n12 23\n34 21\n71 6\n27 13\n15 47\n64 14\n12 77", "output": "6" }, { "input": "30\n46 100\n87 53\n34 84\n44 66\n23 20\n50 34\n90 66\n17 39\n13 22\n94 33\n92 46\n63 78\n26 48\n44 61\n3 19\n41 84\n62 31\n65 89\n23 28\n58 57\n19 85\n26 60\n75 66\n69 67\n76 15\n64 15\n36 72\n90 89\n42 69\n45 35", "output": "4" }, { "input": "2\n46 6\n6 46", "output": "2" }, { "input": "29\n8 18\n33 75\n69 22\n97 95\n1 97\n78 10\n88 18\n13 3\n19 64\n98 12\n79 92\n41 72\n69 15\n98 31\n57 74\n15 56\n36 37\n15 66\n63 100\n16 42\n47 56\n6 4\n73 15\n30 24\n27 71\n12 19\n88 69\n85 6\n50 11", "output": "10" }, { "input": "23\n43 78\n31 28\n58 80\n66 63\n20 4\n51 95\n40 20\n50 14\n5 34\n36 39\n77 42\n64 97\n62 89\n16 56\n8 34\n58 16\n37 35\n37 66\n8 54\n50 36\n24 8\n68 48\n85 33", "output": "6" }, { "input": "13\n76 58\n32 85\n99 79\n23 58\n96 59\n72 35\n53 43\n96 55\n41 78\n75 10\n28 11\n72 7\n52 73", "output": "0" }, { "input": "18\n6 90\n70 79\n26 52\n67 81\n29 95\n41 32\n94 88\n18 58\n59 65\n51 56\n64 68\n34 2\n6 98\n95 82\n34 2\n40 98\n83 78\n29 2", "output": "1" }, { "input": "18\n6 90\n100 79\n26 100\n67 100\n29 100\n100 32\n94 88\n18 58\n59 65\n51 56\n64 68\n34 2\n6 98\n95 82\n34 2\n40 98\n83 78\n29 100", "output": "8" }, { "input": "30\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1", "output": "450" }, { "input": "30\n100 99\n58 59\n56 57\n54 55\n52 53\n50 51\n48 49\n46 47\n44 45\n42 43\n40 41\n38 39\n36 37\n34 35\n32 33\n30 31\n28 29\n26 27\n24 25\n22 23\n20 21\n18 19\n16 17\n14 15\n12 13\n10 11\n8 9\n6 7\n4 5\n2 3", "output": "0" }, { "input": "15\n9 3\n2 6\n7 6\n5 10\n9 5\n8 1\n10 5\n2 8\n4 5\n9 8\n5 3\n3 8\n9 8\n4 10\n8 5", "output": "20" }, { "input": "15\n2 1\n1 2\n1 2\n1 2\n2 1\n2 1\n2 1\n1 2\n2 1\n2 1\n2 1\n1 2\n2 1\n2 1\n1 2", "output": "108" }, { "input": "25\n2 1\n1 2\n1 2\n1 2\n2 1\n1 2\n1 2\n1 2\n2 1\n2 1\n2 1\n1 2\n1 2\n1 2\n2 1\n2 1\n2 1\n1 2\n2 1\n1 2\n2 1\n2 1\n2 1\n2 1\n1 2", "output": "312" }, { "input": "25\n91 57\n2 73\n54 57\n2 57\n23 57\n2 6\n57 54\n57 23\n91 54\n91 23\n57 23\n91 57\n54 2\n6 91\n57 54\n2 57\n57 91\n73 91\n57 23\n91 57\n2 73\n91 2\n23 6\n2 73\n23 6", "output": "96" }, { "input": "28\n31 66\n31 91\n91 31\n97 66\n31 66\n31 66\n66 91\n91 31\n97 31\n91 97\n97 31\n66 31\n66 97\n91 31\n31 66\n31 66\n66 31\n31 97\n66 97\n97 31\n31 91\n66 91\n91 66\n31 66\n91 66\n66 31\n66 31\n91 97", "output": "210" }, { "input": "29\n78 27\n50 68\n24 26\n68 43\n38 78\n26 38\n78 28\n28 26\n27 24\n23 38\n24 26\n24 43\n61 50\n38 78\n27 23\n61 26\n27 28\n43 23\n28 78\n43 27\n43 78\n27 61\n28 38\n61 78\n50 26\n43 27\n26 78\n28 50\n43 78", "output": "73" }, { "input": "29\n80 27\n69 80\n27 80\n69 80\n80 27\n80 27\n80 27\n80 69\n27 69\n80 69\n80 27\n27 69\n69 27\n80 69\n27 69\n69 80\n27 69\n80 69\n80 27\n69 27\n27 69\n27 80\n80 27\n69 80\n27 69\n80 69\n69 80\n69 80\n27 80", "output": "277" }, { "input": "30\n19 71\n7 89\n89 71\n21 7\n19 21\n7 89\n19 71\n89 8\n89 21\n19 8\n21 7\n8 89\n19 89\n7 21\n19 8\n19 7\n7 19\n8 21\n71 21\n71 89\n7 19\n7 19\n21 7\n21 19\n21 19\n71 8\n21 8\n71 19\n19 71\n8 21", "output": "154" }, { "input": "30\n44 17\n44 17\n44 17\n17 44\n44 17\n44 17\n17 44\n17 44\n17 44\n44 17\n44 17\n44 17\n44 17\n44 17\n17 44\n17 44\n17 44\n44 17\n44 17\n17 44\n44 17\n44 17\n44 17\n17 44\n17 44\n44 17\n17 44\n44 17\n44 17\n44 17", "output": "418" }, { "input": "22\n78 92\n15 92\n92 78\n78 80\n92 16\n24 80\n92 16\n16 92\n78 16\n24 78\n80 78\n92 80\n16 80\n80 78\n15 78\n92 16\n24 15\n24 80\n80 16\n16 80\n92 80\n24 80", "output": "74" }, { "input": "24\n9 83\n90 31\n83 3\n83 3\n21 31\n83 3\n32 31\n12 21\n31 21\n90 32\n32 21\n12 9\n12 31\n9 83\n83 12\n32 3\n32 83\n90 31\n9 32\n31 21\n83 90\n32 21\n21 3\n32 9", "output": "59" }, { "input": "30\n67 21\n85 39\n85 87\n21 39\n66 85\n10 95\n10 21\n87 85\n82 21\n67 21\n95 10\n21 39\n82 21\n21 66\n66 39\n95 30\n67 85\n66 82\n85 82\n21 66\n10 39\n67 10\n21 85\n10 82\n85 95\n10 85\n21 39\n85 39\n39 10\n95 67", "output": "100" }, { "input": "4\n8 7\n8 7\n7 8\n7 8", "output": "8" }, { "input": "6\n1 2\n1 2\n1 2\n1 2\n1 2\n2 1", "output": "10" }, { "input": "12\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n2 1\n2 1\n2 1\n2 1\n2 1\n2 1", "output": "72" }, { "input": "4\n1 2\n1 2\n2 1\n2 1", "output": "8" } ]	1,698,669,615	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	30	0	n = int(input()) def count_games(): uniforms = [] #Get the uniform colors for each team: for i in range(1, n+1): #multi-variable to assign two consecutive integers to home and guest home, guest = map(int, input().split()) #applies int function to every element in the list and splits integers into separate items uniforms.append((home, guest)) # Count the number of games where the host team plays in the guest uniform: count = 0 for h in range(n): # n+1 is not used because in lists, the numbering of items starts from 0 for a in range(n): print(f"h: {h}, a: {a}, uniforms[h]: {uniforms[h]}, uniforms[a]: {uniforms[a]}") print(f"uniforms[h][0]: {uniforms[h][0]}, uniforms[a][1]: {uniforms[a][1]}\n") if h != a and uniforms[h][0] == uniforms[a][1]: count += 1 # "h != a" makes sure that the teams being compared are not the same # the first [] allows to access the first sublist in the list, and the second [] chooses the home/away kit number print(count) count_games()	Title: Games Time Limit: None seconds Memory Limit: None megabytes Problem Description: Manao works on a sports TV. He's spent much time watching the football games of some country. After a while he began to notice different patterns. For example, each team has two sets of uniforms: home uniform and guest uniform. When a team plays a game at home, the players put on the home uniform. When a team plays as a guest on somebody else's stadium, the players put on the guest uniform. The only exception to that rule is: when the home uniform color of the host team matches the guests' uniform, the host team puts on its guest uniform as well. For each team the color of the home and guest uniform is different. There are n teams taking part in the national championship. The championship consists of n·(n<=-<=1) games: each team invites each other team to its stadium. At this point Manao wondered: how many times during the championship is a host team going to put on the guest uniform? Note that the order of the games does not affect this number. You know the colors of the home and guest uniform for each team. For simplicity, the colors are numbered by integers in such a way that no two distinct colors have the same number. Help Manao find the answer to his question. Input Specification: The first line contains an integer n (2<=≤<=n<=≤<=30). Each of the following n lines contains a pair of distinct space-separated integers hi, ai (1<=≤<=hi,<=ai<=≤<=100) — the colors of the i-th team's home and guest uniforms, respectively. Output Specification: In a single line print the number of games where the host team is going to play in the guest uniform. Demo Input: ['3\n1 2\n2 4\n3 4\n', '4\n100 42\n42 100\n5 42\n100 5\n', '2\n1 2\n1 2\n'] Demo Output: ['1\n', '5\n', '0\n'] Note: In the first test case the championship consists of 6 games. The only game with the event in question is the game between teams 2 and 1 on the stadium of team 2. In the second test sample the host team will have to wear guest uniform in the games between teams: 1 and 2, 2 and 1, 2 and 3, 3 and 4, 4 and 2 (the host team is written first).	```python n = int(input()) def count_games(): uniforms = [] #Get the uniform colors for each team: for i in range(1, n+1): #multi-variable to assign two consecutive integers to home and guest home, guest = map(int, input().split()) #applies int function to every element in the list and splits integers into separate items uniforms.append((home, guest)) # Count the number of games where the host team plays in the guest uniform: count = 0 for h in range(n): # n+1 is not used because in lists, the numbering of items starts from 0 for a in range(n): print(f"h: {h}, a: {a}, uniforms[h]: {uniforms[h]}, uniforms[a]: {uniforms[a]}") print(f"uniforms[h][0]: {uniforms[h][0]}, uniforms[a][1]: {uniforms[a][1]}\n") if h != a and uniforms[h][0] == uniforms[a][1]: count += 1 # "h != a" makes sure that the teams being compared are not the same # the first [] allows to access the first sublist in the list, and the second [] chooses the home/away kit number print(count) count_games() ```	0
17	A	Noldbach problem	PROGRAMMING	1,000	[ "brute force", "math", "number theory" ]	A. Noldbach problem	2	64	Nick is interested in prime numbers. Once he read about Goldbach problem. It states that every even integer greater than 2 can be expressed as the sum of two primes. That got Nick's attention and he decided to invent a problem of his own and call it Noldbach problem. Since Nick is interested only in prime numbers, Noldbach problem states that at least k prime numbers from 2 to n inclusively can be expressed as the sum of three integer numbers: two neighboring prime numbers and 1. For example, 19 = 7 + 11 + 1, or 13 = 5 + 7 + 1. Two prime numbers are called neighboring if there are no other prime numbers between them. You are to help Nick, and find out if he is right or wrong.	The first line of the input contains two integers n (2<=≤<=n<=≤<=1000) and k (0<=≤<=k<=≤<=1000).	Output YES if at least k prime numbers from 2 to n inclusively can be expressed as it was described above. Otherwise output NO.	[ "27 2\n", "45 7\n" ]	[ "YES", "NO" ]	In the first sample the answer is YES since at least two numbers can be expressed as it was described (for example, 13 and 19). In the second sample the answer is NO since it is impossible to express 7 prime numbers from 2 to 45 in the desired form.	0	[ { "input": "27 2", "output": "YES" }, { "input": "45 7", "output": "NO" }, { "input": "2 0", "output": "YES" }, { "input": "15 1", "output": "YES" }, { "input": "17 1", "output": "YES" }, { "input": "34 5", "output": "NO" }, { "input": "37 4", "output": "YES" }, { "input": "43 5", "output": "YES" }, { "input": "47 7", "output": "NO" }, { "input": "50 5", "output": "YES" }, { "input": "57 6", "output": "YES" }, { "input": "60 8", "output": "NO" }, { "input": "62 7", "output": "YES" }, { "input": "76 9", "output": "NO" }, { "input": "69 7", "output": "YES" }, { "input": "113 10", "output": "YES" }, { "input": "141 11", "output": "YES" }, { "input": "207 16", "output": "NO" }, { "input": "231 18", "output": "NO" }, { "input": "296 19", "output": "YES" }, { "input": "332 20", "output": "YES" }, { "input": "378 24", "output": "NO" }, { "input": "428 23", "output": "YES" }, { "input": "497 27", "output": "NO" }, { "input": "640 32", "output": "YES" }, { "input": "798 35", "output": "YES" }, { "input": "802 35", "output": "YES" }, { "input": "864 40", "output": "NO" }, { "input": "953 44", "output": "NO" }, { "input": "995 44", "output": "YES" }, { "input": "1000 44", "output": "YES" }, { "input": "1000 0", "output": "YES" }, { "input": "1000 1000", "output": "NO" }, { "input": "2 1000", "output": "NO" }, { "input": "2 0", "output": "YES" } ]	1,668,427,183	2,147,483,647	Python 3	OK	TESTS	35	92	0	def main(): n, k = map(int,input().split()) nums = [True] * (n+1) primes = [] for i in range(2,n+1): if nums[i] == True: primes.append(i) j = 2 while i* j <= n: nums[i*j] = False j += 1 ans = 0 num = set(primes) for i in range(1,len(primes)): if (primes[i-1] + primes[i] + 1) in num: ans += 1 if ans >= k: print('YES') else: print('NO') main()	Title: Noldbach problem Time Limit: 2 seconds Memory Limit: 64 megabytes Problem Description: Nick is interested in prime numbers. Once he read about Goldbach problem. It states that every even integer greater than 2 can be expressed as the sum of two primes. That got Nick's attention and he decided to invent a problem of his own and call it Noldbach problem. Since Nick is interested only in prime numbers, Noldbach problem states that at least k prime numbers from 2 to n inclusively can be expressed as the sum of three integer numbers: two neighboring prime numbers and 1. For example, 19 = 7 + 11 + 1, or 13 = 5 + 7 + 1. Two prime numbers are called neighboring if there are no other prime numbers between them. You are to help Nick, and find out if he is right or wrong. Input Specification: The first line of the input contains two integers n (2<=≤<=n<=≤<=1000) and k (0<=≤<=k<=≤<=1000). Output Specification: Output YES if at least k prime numbers from 2 to n inclusively can be expressed as it was described above. Otherwise output NO. Demo Input: ['27 2\n', '45 7\n'] Demo Output: ['YES', 'NO'] Note: In the first sample the answer is YES since at least two numbers can be expressed as it was described (for example, 13 and 19). In the second sample the answer is NO since it is impossible to express 7 prime numbers from 2 to 45 in the desired form.	```python def main(): n, k = map(int,input().split()) nums = [True] * (n+1) primes = [] for i in range(2,n+1): if nums[i] == True: primes.append(i) j = 2 while i* j <= n: nums[i*j] = False j += 1 ans = 0 num = set(primes) for i in range(1,len(primes)): if (primes[i-1] + primes[i] + 1) in num: ans += 1 if ans >= k: print('YES') else: print('NO') main() ```	3.977
58	A	Chat room	PROGRAMMING	1,000	[ "greedy", "strings" ]	A. Chat room	1	256	Vasya has recently learned to type and log on to the Internet. He immediately entered a chat room and decided to say hello to everybody. Vasya typed the word s. It is considered that Vasya managed to say hello if several letters can be deleted from the typed word so that it resulted in the word "hello". For example, if Vasya types the word "ahhellllloou", it will be considered that he said hello, and if he types "hlelo", it will be considered that Vasya got misunderstood and he didn't manage to say hello. Determine whether Vasya managed to say hello by the given word s.	The first and only line contains the word s, which Vasya typed. This word consisits of small Latin letters, its length is no less that 1 and no more than 100 letters.	If Vasya managed to say hello, print "YES", otherwise print "NO".	[ "ahhellllloou\n", "hlelo\n" ]	[ "YES\n", "NO\n" ]	none	500	[ { "input": "ahhellllloou", "output": "YES" }, { "input": "hlelo", "output": "NO" }, { "input": "helhcludoo", "output": "YES" }, { "input": "hehwelloho", "output": "YES" }, { "input": "pnnepelqomhhheollvlo", "output": "YES" }, { "input": "tymbzjyqhymedasloqbq", "output": "NO" }, { "input": "yehluhlkwo", "output": "NO" }, { "input": "hatlevhhalrohairnolsvocafgueelrqmlqlleello", "output": "YES" }, { "input": "hhhtehdbllnhwmbyhvelqqyoulretpbfokflhlhreeflxeftelziclrwllrpflflbdtotvlqgoaoqldlroovbfsq", "output": "YES" }, { "input": "rzlvihhghnelqtwlexmvdjjrliqllolhyewgozkuovaiezgcilelqapuoeglnwmnlftxxiigzczlouooi", "output": "YES" }, { "input": "pfhhwctyqdlkrwhebfqfelhyebwllhemtrmeblgrynmvyhioesqklclocxmlffuormljszllpoo", "output": "YES" }, { "input": "lqllcolohwflhfhlnaow", "output": "NO" }, { "input": "heheeellollvoo", "output": "YES" }, { "input": "hellooo", "output": "YES" }, { "input": "o", "output": "NO" }, { "input": "hhqhzeclohlehljlhtesllylrolmomvuhcxsobtsckogdv", "output": "YES" }, { "input": "yoegfuzhqsihygnhpnukluutocvvwuldiighpogsifealtgkfzqbwtmgghmythcxflebrkctlldlkzlagovwlstsghbouk", "output": "YES" }, { "input": "uatqtgbvrnywfacwursctpagasnhydvmlinrcnqrry", "output": "NO" }, { "input": "tndtbldbllnrwmbyhvqaqqyoudrstpbfokfoclnraefuxtftmgzicorwisrpfnfpbdtatvwqgyalqtdtrjqvbfsq", "output": "NO" }, { "input": "rzlvirhgemelnzdawzpaoqtxmqucnahvqnwldklrmjiiyageraijfivigvozgwngiulttxxgzczptusoi", "output": "YES" }, { "input": "kgyelmchocojsnaqdsyeqgnllytbqietpdlgknwwumqkxrexgdcnwoldicwzwofpmuesjuxzrasscvyuqwspm", "output": "YES" }, { "input": "pnyvrcotjvgynbeldnxieghfltmexttuxzyac", "output": "NO" }, { "input": "dtwhbqoumejligbenxvzhjlhosqojetcqsynlzyhfaevbdpekgbtjrbhlltbceobcok", "output": "YES" }, { "input": "crrfpfftjwhhikwzeedrlwzblckkteseofjuxjrktcjfsylmlsvogvrcxbxtffujqshslemnixoeezivksouefeqlhhokwbqjz", "output": "YES" }, { "input": "jhfbndhyzdvhbvhmhmefqllujdflwdpjbehedlsqfdsqlyelwjtyloxwsvasrbqosblzbowlqjmyeilcvotdlaouxhdpoeloaovb", "output": "YES" }, { "input": "hwlghueoemiqtjhhpashjsouyegdlvoyzeunlroypoprnhlyiwiuxrghekaylndhrhllllwhbebezoglydcvykllotrlaqtvmlla", "output": "YES" }, { "input": "wshiaunnqnqxodholbipwhhjmyeblhgpeleblklpzwhdunmpqkbuzloetmwwxmeltkrcomulxauzlwmlklldjodozxryghsnwgcz", "output": "YES" }, { "input": "shvksednttggehroewuiptvvxtrzgidravtnjwuqrlnnkxbplctzkckinpkgjopjfoxdbojtcvsuvablcbkrzajrlhgobkcxeqti", "output": "YES" }, { "input": "hyyhddqhxhekehkwfhlnlsihzefwchzerevcjtokefplholrbvxlltdlafjxrfhleglrvlolojoqaolagtbeyogxlbgfolllslli", "output": "YES" }, { "input": "iaagrdhhelxpdegueiulflquvlzidoprzkehthkldaytrjwhyhprwjxlltinxvuilxohqgjqcvkkdcuoliekcnlilwgqlnlzouoo", "output": "YES" }, { "input": "wfluaeseldgxyvxpwuhkptdmlflnlhktwxiabsvkolsquymrmhzczzoybvlilhmvsuunggvgxzgyyffk", "output": "NO" }, { "input": "loee", "output": "NO" }, { "input": "izdipwylefqmjbuoznfglgcfvedeouflkeehxbasaqmiooppfsqlhprospqgxvzrcpwlfdddngoqvpwvggsnvvxhmjoslwjudjlo", "output": "NO" }, { "input": "pplynflbjlseflaegzqpdxswgunhnlglqhycrbcwdfhclmcrwekkzsoosmfblljeenwfjyifcvxihhhbyhmhlkvtskeglaovjnsi", "output": "YES" }, { "input": "xqjqmenkodmlhzyzmmvofdngktygbbxbzpluzcohohmalkoeuwfikblltaaigv", "output": "NO" }, { "input": "hello", "output": "YES" }, { "input": "oohell", "output": "NO" }, { "input": "hell", "output": "NO" }, { "input": "eloellohoelo", "output": "NO" }, { "input": "helllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllo", "output": "YES" } ]	1,690,152,880	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	2	46	0	s = input() s1 = ''.join(dict.fromkeys(s)) if 'he' in s and 'el' in s and 'll' in s and 'lo' in s and 'helo' in s1: print('YES') else: print('NO')	Title: Chat room Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Vasya has recently learned to type and log on to the Internet. He immediately entered a chat room and decided to say hello to everybody. Vasya typed the word s. It is considered that Vasya managed to say hello if several letters can be deleted from the typed word so that it resulted in the word "hello". For example, if Vasya types the word "ahhellllloou", it will be considered that he said hello, and if he types "hlelo", it will be considered that Vasya got misunderstood and he didn't manage to say hello. Determine whether Vasya managed to say hello by the given word s. Input Specification: The first and only line contains the word s, which Vasya typed. This word consisits of small Latin letters, its length is no less that 1 and no more than 100 letters. Output Specification: If Vasya managed to say hello, print "YES", otherwise print "NO". Demo Input: ['ahhellllloou\n', 'hlelo\n'] Demo Output: ['YES\n', 'NO\n'] Note: none	```python s = input() s1 = ''.join(dict.fromkeys(s)) if 'he' in s and 'el' in s and 'll' in s and 'lo' in s and 'helo' in s1: print('YES') else: print('NO') ```	0
136	A	Presents	PROGRAMMING	800	[ "implementation" ]		null	null	Little Petya very much likes gifts. Recently he has received a new laptop as a New Year gift from his mother. He immediately decided to give it to somebody else as what can be more pleasant than giving somebody gifts. And on this occasion he organized a New Year party at his place and invited n his friends there. If there's one thing Petya likes more that receiving gifts, that's watching others giving gifts to somebody else. Thus, he safely hid the laptop until the next New Year and made up his mind to watch his friends exchanging gifts while he does not participate in the process. He numbered all his friends with integers from 1 to n. Petya remembered that a friend number i gave a gift to a friend number pi. He also remembered that each of his friends received exactly one gift. Now Petya wants to know for each friend i the number of a friend who has given him a gift.	The first line contains one integer n (1<=≤<=n<=≤<=100) — the quantity of friends Petya invited to the party. The second line contains n space-separated integers: the i-th number is pi — the number of a friend who gave a gift to friend number i. It is guaranteed that each friend received exactly one gift. It is possible that some friends do not share Petya's ideas of giving gifts to somebody else. Those friends gave the gifts to themselves.	Print n space-separated integers: the i-th number should equal the number of the friend who gave a gift to friend number i.	[ "4\n2 3 4 1\n", "3\n1 3 2\n", "2\n1 2\n" ]	[ "4 1 2 3\n", "1 3 2\n", "1 2\n" ]	none	500	[ { "input": "4\n2 3 4 1", "output": "4 1 2 3" }, { "input": "3\n1 3 2", "output": "1 3 2" }, { "input": "2\n1 2", "output": "1 2" }, { "input": "1\n1", "output": "1" }, { "input": "10\n1 3 2 6 4 5 7 9 8 10", "output": "1 3 2 5 6 4 7 9 8 10" }, { "input": "5\n5 4 3 2 1", "output": "5 4 3 2 1" }, { "input": "20\n2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 18 17 20 19", "output": "2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 18 17 20 19" }, { "input": "21\n3 2 1 6 5 4 9 8 7 12 11 10 15 14 13 18 17 16 21 20 19", "output": "3 2 1 6 5 4 9 8 7 12 11 10 15 14 13 18 17 16 21 20 19" }, { "input": "10\n3 4 5 6 7 8 9 10 1 2", "output": "9 10 1 2 3 4 5 6 7 8" }, { "input": "8\n1 5 3 7 2 6 4 8", "output": "1 5 3 7 2 6 4 8" }, { "input": "50\n49 22 4 2 20 46 7 32 5 19 48 24 26 15 45 21 44 11 50 43 39 17 31 1 42 34 3 27 36 25 12 30 13 33 28 35 18 6 8 37 38 14 10 9 29 16 40 23 41 47", "output": "24 4 27 3 9 38 7 39 44 43 18 31 33 42 14 46 22 37 10 5 16 2 48 12 30 13 28 35 45 32 23 8 34 26 36 29 40 41 21 47 49 25 20 17 15 6 50 11 1 19" }, { "input": "34\n13 20 33 30 15 11 27 4 8 2 29 25 24 7 3 22 18 10 26 16 5 1 32 9 34 6 12 14 28 19 31 21 23 17", "output": "22 10 15 8 21 26 14 9 24 18 6 27 1 28 5 20 34 17 30 2 32 16 33 13 12 19 7 29 11 4 31 23 3 25" }, { "input": "92\n23 1 6 4 84 54 44 76 63 34 61 20 48 13 28 78 26 46 90 72 24 55 91 89 53 38 82 5 79 92 29 32 15 64 11 88 60 70 7 66 18 59 8 57 19 16 42 21 80 71 62 27 75 86 36 9 83 73 74 50 43 31 56 30 17 33 40 81 49 12 10 41 22 77 25 68 51 2 47 3 58 69 87 67 39 37 35 65 14 45 52 85", "output": "2 78 80 4 28 3 39 43 56 71 35 70 14 89 33 46 65 41 45 12 48 73 1 21 75 17 52 15 31 64 62 32 66 10 87 55 86 26 85 67 72 47 61 7 90 18 79 13 69 60 77 91 25 6 22 63 44 81 42 37 11 51 9 34 88 40 84 76 82 38 50 20 58 59 53 8 74 16 29 49 68 27 57 5 92 54 83 36 24 19 23 30" }, { "input": "49\n30 24 33 48 7 3 17 2 8 35 10 39 23 40 46 32 18 21 26 22 1 16 47 45 41 28 31 6 12 43 27 11 13 37 19 15 44 5 29 42 4 38 20 34 14 9 25 36 49", "output": "21 8 6 41 38 28 5 9 46 11 32 29 33 45 36 22 7 17 35 43 18 20 13 2 47 19 31 26 39 1 27 16 3 44 10 48 34 42 12 14 25 40 30 37 24 15 23 4 49" }, { "input": "12\n3 8 7 4 6 5 2 1 11 9 10 12", "output": "8 7 1 4 6 5 3 2 10 11 9 12" }, { "input": "78\n16 56 36 78 21 14 9 77 26 57 70 61 41 47 18 44 5 31 50 74 65 52 6 39 22 62 67 69 43 7 64 29 24 40 48 51 73 54 72 12 19 34 4 25 55 33 17 35 23 53 10 8 27 32 42 68 20 63 3 2 1 71 58 46 13 30 49 11 37 66 38 60 28 75 15 59 45 76", "output": "61 60 59 43 17 23 30 52 7 51 68 40 65 6 75 1 47 15 41 57 5 25 49 33 44 9 53 73 32 66 18 54 46 42 48 3 69 71 24 34 13 55 29 16 77 64 14 35 67 19 36 22 50 38 45 2 10 63 76 72 12 26 58 31 21 70 27 56 28 11 62 39 37 20 74 78 8 4" }, { "input": "64\n64 57 40 3 15 8 62 18 33 59 51 19 22 13 4 37 47 45 50 35 63 11 58 42 46 21 7 2 41 48 32 23 28 38 17 12 24 27 49 31 60 6 30 25 61 52 26 54 9 14 29 20 44 39 55 10 34 16 5 56 1 36 53 43", "output": "61 28 4 15 59 42 27 6 49 56 22 36 14 50 5 58 35 8 12 52 26 13 32 37 44 47 38 33 51 43 40 31 9 57 20 62 16 34 54 3 29 24 64 53 18 25 17 30 39 19 11 46 63 48 55 60 2 23 10 41 45 7 21 1" }, { "input": "49\n38 20 49 32 14 41 39 45 25 48 40 19 26 43 34 12 10 3 35 42 5 7 46 47 4 2 13 22 16 24 33 15 11 18 29 31 23 9 44 36 6 17 37 1 30 28 8 21 27", "output": "44 26 18 25 21 41 22 47 38 17 33 16 27 5 32 29 42 34 12 2 48 28 37 30 9 13 49 46 35 45 36 4 31 15 19 40 43 1 7 11 6 20 14 39 8 23 24 10 3" }, { "input": "78\n17 50 30 48 33 12 42 4 18 53 76 67 38 3 20 72 51 55 60 63 46 10 57 45 54 32 24 62 8 11 35 44 65 74 58 28 2 6 56 52 39 23 47 49 61 1 66 41 15 77 7 27 78 13 14 34 5 31 37 21 40 16 29 69 59 43 64 36 70 19 25 73 71 75 9 68 26 22", "output": "46 37 14 8 57 38 51 29 75 22 30 6 54 55 49 62 1 9 70 15 60 78 42 27 71 77 52 36 63 3 58 26 5 56 31 68 59 13 41 61 48 7 66 32 24 21 43 4 44 2 17 40 10 25 18 39 23 35 65 19 45 28 20 67 33 47 12 76 64 69 73 16 72 34 74 11 50 53" }, { "input": "29\n14 21 27 1 4 18 10 17 20 23 2 24 7 9 28 22 8 25 12 15 11 6 16 29 3 26 19 5 13", "output": "4 11 25 5 28 22 13 17 14 7 21 19 29 1 20 23 8 6 27 9 2 16 10 12 18 26 3 15 24" }, { "input": "82\n6 1 10 75 28 66 61 81 78 63 17 19 58 34 49 12 67 50 41 44 3 15 59 38 51 72 36 11 46 29 18 64 27 23 13 53 56 68 2 25 47 40 69 54 42 5 60 55 4 16 24 79 57 20 7 73 32 80 76 52 82 37 26 31 65 8 39 62 33 71 30 9 77 43 48 74 70 22 14 45 35 21", "output": "2 39 21 49 46 1 55 66 72 3 28 16 35 79 22 50 11 31 12 54 82 78 34 51 40 63 33 5 30 71 64 57 69 14 81 27 62 24 67 42 19 45 74 20 80 29 41 75 15 18 25 60 36 44 48 37 53 13 23 47 7 68 10 32 65 6 17 38 43 77 70 26 56 76 4 59 73 9 52 58 8 61" }, { "input": "82\n74 18 15 69 71 77 19 26 80 20 66 7 30 82 22 48 21 44 52 65 64 61 35 49 12 8 53 81 54 16 11 9 40 46 13 1 29 58 5 41 55 4 78 60 6 51 56 2 38 36 34 62 63 25 17 67 45 14 32 37 75 79 10 47 27 39 31 68 59 24 50 43 72 70 42 28 76 23 57 3 73 33", "output": "36 48 80 42 39 45 12 26 32 63 31 25 35 58 3 30 55 2 7 10 17 15 78 70 54 8 65 76 37 13 67 59 82 51 23 50 60 49 66 33 40 75 72 18 57 34 64 16 24 71 46 19 27 29 41 47 79 38 69 44 22 52 53 21 20 11 56 68 4 74 5 73 81 1 61 77 6 43 62 9 28 14" }, { "input": "45\n2 32 34 13 3 15 16 33 22 12 31 38 42 14 27 7 36 8 4 19 45 41 5 35 10 11 39 20 29 44 17 9 6 40 37 28 25 21 1 30 24 18 43 26 23", "output": "39 1 5 19 23 33 16 18 32 25 26 10 4 14 6 7 31 42 20 28 38 9 45 41 37 44 15 36 29 40 11 2 8 3 24 17 35 12 27 34 22 13 43 30 21" }, { "input": "45\n4 32 33 39 43 21 22 35 45 7 14 5 16 9 42 31 24 36 17 29 41 25 37 34 27 20 11 44 3 13 19 2 1 10 26 30 38 18 6 8 15 23 40 28 12", "output": "33 32 29 1 12 39 10 40 14 34 27 45 30 11 41 13 19 38 31 26 6 7 42 17 22 35 25 44 20 36 16 2 3 24 8 18 23 37 4 43 21 15 5 28 9" }, { "input": "74\n48 72 40 67 17 4 27 53 11 32 25 9 74 2 41 24 56 22 14 21 33 5 18 55 20 7 29 36 69 13 52 19 38 30 68 59 66 34 63 6 47 45 54 44 62 12 50 71 16 10 8 64 57 73 46 26 49 42 3 23 35 1 61 39 70 60 65 43 15 28 37 51 58 31", "output": "62 14 59 6 22 40 26 51 12 50 9 46 30 19 69 49 5 23 32 25 20 18 60 16 11 56 7 70 27 34 74 10 21 38 61 28 71 33 64 3 15 58 68 44 42 55 41 1 57 47 72 31 8 43 24 17 53 73 36 66 63 45 39 52 67 37 4 35 29 65 48 2 54 13" }, { "input": "47\n9 26 27 10 6 34 28 42 39 22 45 21 11 43 14 47 38 15 40 32 46 1 36 29 17 25 2 23 31 5 24 4 7 8 12 19 16 44 37 20 18 33 30 13 35 41 3", "output": "22 27 47 32 30 5 33 34 1 4 13 35 44 15 18 37 25 41 36 40 12 10 28 31 26 2 3 7 24 43 29 20 42 6 45 23 39 17 9 19 46 8 14 38 11 21 16" }, { "input": "49\n14 38 6 29 9 49 36 43 47 3 44 20 34 15 7 11 1 28 12 40 16 37 31 10 42 41 33 21 18 30 5 27 17 35 25 26 45 19 2 13 23 32 4 22 46 48 24 39 8", "output": "17 39 10 43 31 3 15 49 5 24 16 19 40 1 14 21 33 29 38 12 28 44 41 47 35 36 32 18 4 30 23 42 27 13 34 7 22 2 48 20 26 25 8 11 37 45 9 46 6" }, { "input": "100\n78 56 31 91 90 95 16 65 58 77 37 89 33 61 10 76 62 47 35 67 69 7 63 83 22 25 49 8 12 30 39 44 57 64 48 42 32 11 70 43 55 50 99 24 85 73 45 14 54 21 98 84 74 2 26 18 9 36 80 53 75 46 66 86 59 93 87 68 94 13 72 28 79 88 92 29 52 82 34 97 19 38 1 41 27 4 40 5 96 100 51 6 20 23 81 15 17 3 60 71", "output": "83 54 98 86 88 92 22 28 57 15 38 29 70 48 96 7 97 56 81 93 50 25 94 44 26 55 85 72 76 30 3 37 13 79 19 58 11 82 31 87 84 36 40 32 47 62 18 35 27 42 91 77 60 49 41 2 33 9 65 99 14 17 23 34 8 63 20 68 21 39 100 71 46 53 61 16 10 1 73 59 95 78 24 52 45 64 67 74 12 5 4 75 66 69 6 89 80 51 43 90" }, { "input": "22\n12 8 11 2 16 7 13 6 22 21 20 10 4 14 18 1 5 15 3 19 17 9", "output": "16 4 19 13 17 8 6 2 22 12 3 1 7 14 18 5 21 15 20 11 10 9" }, { "input": "72\n16 11 49 51 3 27 60 55 23 40 66 7 53 70 13 5 15 32 18 72 33 30 8 31 46 12 28 67 25 38 50 22 69 34 71 52 58 39 24 35 42 9 41 26 62 1 63 65 36 64 68 61 37 14 45 47 6 57 54 20 17 2 56 59 29 10 4 48 21 43 19 44", "output": "46 62 5 67 16 57 12 23 42 66 2 26 15 54 17 1 61 19 71 60 69 32 9 39 29 44 6 27 65 22 24 18 21 34 40 49 53 30 38 10 43 41 70 72 55 25 56 68 3 31 4 36 13 59 8 63 58 37 64 7 52 45 47 50 48 11 28 51 33 14 35 20" }, { "input": "63\n21 56 11 10 62 24 20 42 28 52 38 2 37 43 48 22 7 8 40 14 13 46 53 1 23 4 60 63 51 36 25 12 39 32 49 16 58 44 31 61 33 50 55 54 45 6 47 41 9 57 30 29 26 18 19 27 15 34 3 35 59 5 17", "output": "24 12 59 26 62 46 17 18 49 4 3 32 21 20 57 36 63 54 55 7 1 16 25 6 31 53 56 9 52 51 39 34 41 58 60 30 13 11 33 19 48 8 14 38 45 22 47 15 35 42 29 10 23 44 43 2 50 37 61 27 40 5 28" }, { "input": "18\n2 16 8 4 18 12 3 6 5 9 10 15 11 17 14 13 1 7", "output": "17 1 7 4 9 8 18 3 10 11 13 6 16 15 12 2 14 5" }, { "input": "47\n6 9 10 41 25 3 4 37 20 1 36 22 29 27 11 24 43 31 12 17 34 42 38 39 13 2 7 21 18 5 15 35 44 26 33 46 19 40 30 14 28 23 47 32 45 8 16", "output": "10 26 6 7 30 1 27 46 2 3 15 19 25 40 31 47 20 29 37 9 28 12 42 16 5 34 14 41 13 39 18 44 35 21 32 11 8 23 24 38 4 22 17 33 45 36 43" }, { "input": "96\n41 91 48 88 29 57 1 19 44 43 37 5 10 75 25 63 30 78 76 53 8 92 18 70 39 17 49 60 9 16 3 34 86 59 23 79 55 45 72 51 28 33 96 40 26 54 6 32 89 61 85 74 7 82 52 31 64 66 94 95 11 22 2 73 35 13 42 71 14 47 84 69 50 67 58 12 77 46 38 68 15 36 20 93 27 90 83 56 87 4 21 24 81 62 80 65", "output": "7 63 31 90 12 47 53 21 29 13 61 76 66 69 81 30 26 23 8 83 91 62 35 92 15 45 85 41 5 17 56 48 42 32 65 82 11 79 25 44 1 67 10 9 38 78 70 3 27 73 40 55 20 46 37 88 6 75 34 28 50 94 16 57 96 58 74 80 72 24 68 39 64 52 14 19 77 18 36 95 93 54 87 71 51 33 89 4 49 86 2 22 84 59 60 43" }, { "input": "73\n67 24 39 22 23 20 48 34 42 40 19 70 65 69 64 21 53 11 59 15 26 10 30 33 72 29 55 25 56 71 8 9 57 49 41 61 13 12 6 27 66 36 47 50 73 60 2 37 7 4 51 17 1 46 14 62 35 3 45 63 43 58 54 32 31 5 28 44 18 52 68 38 16", "output": "53 47 58 50 66 39 49 31 32 22 18 38 37 55 20 73 52 69 11 6 16 4 5 2 28 21 40 67 26 23 65 64 24 8 57 42 48 72 3 10 35 9 61 68 59 54 43 7 34 44 51 70 17 63 27 29 33 62 19 46 36 56 60 15 13 41 1 71 14 12 30 25 45" }, { "input": "81\n25 2 78 40 12 80 69 13 49 43 17 33 23 54 32 61 77 66 27 71 24 26 42 55 60 9 5 30 7 37 45 63 53 11 38 44 68 34 28 52 67 22 57 46 47 50 8 16 79 62 4 36 20 14 73 64 6 76 35 74 58 10 29 81 59 31 19 1 75 39 70 18 41 21 72 65 3 48 15 56 51", "output": "68 2 77 51 27 57 29 47 26 62 34 5 8 54 79 48 11 72 67 53 74 42 13 21 1 22 19 39 63 28 66 15 12 38 59 52 30 35 70 4 73 23 10 36 31 44 45 78 9 46 81 40 33 14 24 80 43 61 65 25 16 50 32 56 76 18 41 37 7 71 20 75 55 60 69 58 17 3 49 6 64" }, { "input": "12\n12 3 1 5 11 6 7 10 2 8 9 4", "output": "3 9 2 12 4 6 7 10 11 8 5 1" }, { "input": "47\n7 21 41 18 40 31 12 28 24 14 43 23 33 10 19 38 26 8 34 15 29 44 5 13 39 25 3 27 20 42 35 9 2 1 30 46 36 32 4 22 37 45 6 47 11 16 17", "output": "34 33 27 39 23 43 1 18 32 14 45 7 24 10 20 46 47 4 15 29 2 40 12 9 26 17 28 8 21 35 6 38 13 19 31 37 41 16 25 5 3 30 11 22 42 36 44" }, { "input": "8\n1 3 5 2 4 8 6 7", "output": "1 4 2 5 3 7 8 6" }, { "input": "38\n28 8 2 33 20 32 26 29 23 31 15 38 11 37 18 21 22 19 4 34 1 35 16 7 17 6 27 30 36 12 9 24 25 13 5 3 10 14", "output": "21 3 36 19 35 26 24 2 31 37 13 30 34 38 11 23 25 15 18 5 16 17 9 32 33 7 27 1 8 28 10 6 4 20 22 29 14 12" }, { "input": "10\n2 9 4 6 10 1 7 5 3 8", "output": "6 1 9 3 8 4 7 10 2 5" }, { "input": "23\n20 11 15 1 5 12 23 9 2 22 13 19 16 14 7 4 8 21 6 17 18 10 3", "output": "4 9 23 16 5 19 15 17 8 22 2 6 11 14 3 13 20 21 12 1 18 10 7" }, { "input": "10\n2 4 9 3 6 8 10 5 1 7", "output": "9 1 4 2 8 5 10 6 3 7" }, { "input": "55\n9 48 23 49 11 24 4 22 34 32 17 45 39 13 14 21 19 25 2 31 37 7 55 36 20 51 5 12 54 10 35 40 43 1 46 18 53 41 38 26 29 50 3 42 52 27 8 28 47 33 6 16 30 44 15", "output": "34 19 43 7 27 51 22 47 1 30 5 28 14 15 55 52 11 36 17 25 16 8 3 6 18 40 46 48 41 53 20 10 50 9 31 24 21 39 13 32 38 44 33 54 12 35 49 2 4 42 26 45 37 29 23" }, { "input": "58\n49 13 12 54 2 38 56 11 33 25 26 19 28 8 23 41 20 36 46 55 15 35 9 7 32 37 58 6 3 14 47 31 40 30 53 44 4 50 29 34 10 43 39 57 5 22 27 45 51 42 24 16 18 21 52 17 48 1", "output": "58 5 29 37 45 28 24 14 23 41 8 3 2 30 21 52 56 53 12 17 54 46 15 51 10 11 47 13 39 34 32 25 9 40 22 18 26 6 43 33 16 50 42 36 48 19 31 57 1 38 49 55 35 4 20 7 44 27" }, { "input": "34\n20 25 2 3 33 29 1 16 14 7 21 9 32 31 6 26 22 4 27 23 24 10 34 12 19 15 5 18 28 17 13 8 11 30", "output": "7 3 4 18 27 15 10 32 12 22 33 24 31 9 26 8 30 28 25 1 11 17 20 21 2 16 19 29 6 34 14 13 5 23" }, { "input": "53\n47 29 46 25 23 13 7 31 33 4 38 11 35 16 42 14 15 43 34 39 28 18 6 45 30 1 40 20 2 37 5 32 24 12 44 26 27 3 19 51 36 21 22 9 10 50 41 48 49 53 8 17 52", "output": "26 29 38 10 31 23 7 51 44 45 12 34 6 16 17 14 52 22 39 28 42 43 5 33 4 36 37 21 2 25 8 32 9 19 13 41 30 11 20 27 47 15 18 35 24 3 1 48 49 46 40 53 50" }, { "input": "99\n77 87 90 48 53 38 68 6 28 57 35 82 63 71 60 41 3 12 86 65 10 59 22 67 33 74 93 27 24 1 61 43 25 4 51 52 15 88 9 31 30 42 89 49 23 21 29 32 46 73 37 16 5 69 56 26 92 64 20 54 75 14 98 13 94 2 95 7 36 66 58 8 50 78 84 45 11 96 76 62 97 80 40 39 47 85 34 79 83 17 91 72 19 44 70 81 55 99 18", "output": "30 66 17 34 53 8 68 72 39 21 77 18 64 62 37 52 90 99 93 59 46 23 45 29 33 56 28 9 47 41 40 48 25 87 11 69 51 6 84 83 16 42 32 94 76 49 85 4 44 73 35 36 5 60 97 55 10 71 22 15 31 80 13 58 20 70 24 7 54 95 14 92 50 26 61 79 1 74 88 82 96 12 89 75 86 19 2 38 43 3 91 57 27 65 67 78 81 63 98" }, { "input": "32\n17 29 2 6 30 8 26 7 1 27 10 9 13 24 31 21 15 19 22 18 4 11 25 28 32 3 23 12 5 14 20 16", "output": "9 3 26 21 29 4 8 6 12 11 22 28 13 30 17 32 1 20 18 31 16 19 27 14 23 7 10 24 2 5 15 25" }, { "input": "65\n18 40 1 60 17 19 4 6 12 49 28 58 2 25 13 14 64 56 61 34 62 30 59 51 26 8 33 63 36 48 46 7 43 21 31 27 11 44 29 5 32 23 35 9 53 57 52 50 15 38 42 3 54 65 55 41 20 24 22 47 45 10 39 16 37", "output": "3 13 52 7 40 8 32 26 44 62 37 9 15 16 49 64 5 1 6 57 34 59 42 58 14 25 36 11 39 22 35 41 27 20 43 29 65 50 63 2 56 51 33 38 61 31 60 30 10 48 24 47 45 53 55 18 46 12 23 4 19 21 28 17 54" }, { "input": "71\n35 50 55 58 25 32 26 40 63 34 44 53 24 18 37 7 64 27 56 65 1 19 2 43 42 14 57 47 22 13 59 61 39 67 30 45 54 38 33 48 6 5 3 69 36 21 41 4 16 46 20 17 15 12 10 70 68 23 60 31 52 29 66 28 51 49 62 11 8 9 71", "output": "21 23 43 48 42 41 16 69 70 55 68 54 30 26 53 49 52 14 22 51 46 29 58 13 5 7 18 64 62 35 60 6 39 10 1 45 15 38 33 8 47 25 24 11 36 50 28 40 66 2 65 61 12 37 3 19 27 4 31 59 32 67 9 17 20 63 34 57 44 56 71" }, { "input": "74\n33 8 42 63 64 61 31 74 11 50 68 14 36 25 57 30 7 44 21 15 6 9 23 59 46 3 73 16 62 51 40 60 41 54 5 39 35 28 48 4 58 12 66 69 13 26 71 1 24 19 29 52 37 2 20 43 18 72 17 56 34 38 65 67 27 10 47 70 53 32 45 55 49 22", "output": "48 54 26 40 35 21 17 2 22 66 9 42 45 12 20 28 59 57 50 55 19 74 23 49 14 46 65 38 51 16 7 70 1 61 37 13 53 62 36 31 33 3 56 18 71 25 67 39 73 10 30 52 69 34 72 60 15 41 24 32 6 29 4 5 63 43 64 11 44 68 47 58 27 8" }, { "input": "96\n78 10 82 46 38 91 77 69 2 27 58 80 79 44 59 41 6 31 76 11 42 48 51 37 19 87 43 25 52 32 1 39 63 29 21 65 53 74 92 16 15 95 90 83 30 73 71 5 50 17 96 33 86 60 67 64 20 26 61 40 55 88 94 93 9 72 47 57 14 45 22 3 54 68 13 24 4 7 56 81 89 70 49 8 84 28 18 62 35 36 75 23 66 85 34 12", "output": "31 9 72 77 48 17 78 84 65 2 20 96 75 69 41 40 50 87 25 57 35 71 92 76 28 58 10 86 34 45 18 30 52 95 89 90 24 5 32 60 16 21 27 14 70 4 67 22 83 49 23 29 37 73 61 79 68 11 15 54 59 88 33 56 36 93 55 74 8 82 47 66 46 38 91 19 7 1 13 12 80 3 44 85 94 53 26 62 81 43 6 39 64 63 42 51" }, { "input": "7\n2 1 5 7 3 4 6", "output": "2 1 5 6 3 7 4" }, { "input": "51\n8 33 37 2 16 22 24 30 4 9 5 15 27 3 18 39 31 26 10 17 46 41 25 14 6 1 29 48 36 20 51 49 21 43 19 13 38 50 47 34 11 23 28 12 42 7 32 40 44 45 35", "output": "26 4 14 9 11 25 46 1 10 19 41 44 36 24 12 5 20 15 35 30 33 6 42 7 23 18 13 43 27 8 17 47 2 40 51 29 3 37 16 48 22 45 34 49 50 21 39 28 32 38 31" }, { "input": "27\n12 14 7 3 20 21 25 13 22 15 23 4 2 24 10 17 19 8 26 11 27 18 9 5 6 1 16", "output": "26 13 4 12 24 25 3 18 23 15 20 1 8 2 10 27 16 22 17 5 6 9 11 14 7 19 21" }, { "input": "71\n51 13 20 48 54 23 24 64 14 62 71 67 57 53 3 30 55 43 33 25 39 40 66 6 46 18 5 19 61 16 32 68 70 41 60 44 29 49 27 69 50 38 10 17 45 56 9 21 26 63 28 35 7 59 1 65 2 15 8 11 12 34 37 47 58 22 31 4 36 42 52", "output": "55 57 15 68 27 24 53 59 47 43 60 61 2 9 58 30 44 26 28 3 48 66 6 7 20 49 39 51 37 16 67 31 19 62 52 69 63 42 21 22 34 70 18 36 45 25 64 4 38 41 1 71 14 5 17 46 13 65 54 35 29 10 50 8 56 23 12 32 40 33 11" }, { "input": "9\n8 5 2 6 1 9 4 7 3", "output": "5 3 9 7 2 4 8 1 6" }, { "input": "29\n10 24 11 5 26 25 2 9 22 15 8 14 29 21 4 1 23 17 3 12 13 16 18 28 19 20 7 6 27", "output": "16 7 19 15 4 28 27 11 8 1 3 20 21 12 10 22 18 23 25 26 14 9 17 2 6 5 29 24 13" }, { "input": "60\n39 25 42 4 55 60 16 18 47 1 11 40 7 50 19 35 49 54 12 3 30 38 2 58 17 26 45 6 33 43 37 32 52 36 15 23 27 59 24 20 28 14 8 9 13 29 44 46 41 21 5 48 51 22 31 56 57 53 10 34", "output": "10 23 20 4 51 28 13 43 44 59 11 19 45 42 35 7 25 8 15 40 50 54 36 39 2 26 37 41 46 21 55 32 29 60 16 34 31 22 1 12 49 3 30 47 27 48 9 52 17 14 53 33 58 18 5 56 57 24 38 6" }, { "input": "50\n37 45 22 5 12 21 28 24 18 47 20 25 8 50 14 2 34 43 11 16 49 41 48 1 19 31 39 46 32 23 15 42 3 35 38 30 44 26 10 9 40 36 7 17 33 4 27 6 13 29", "output": "24 16 33 46 4 48 43 13 40 39 19 5 49 15 31 20 44 9 25 11 6 3 30 8 12 38 47 7 50 36 26 29 45 17 34 42 1 35 27 41 22 32 18 37 2 28 10 23 21 14" }, { "input": "30\n8 29 28 16 17 25 27 15 21 11 6 20 2 13 1 30 5 4 24 10 14 3 23 18 26 9 12 22 19 7", "output": "15 13 22 18 17 11 30 1 26 20 10 27 14 21 8 4 5 24 29 12 9 28 23 19 6 25 7 3 2 16" }, { "input": "46\n15 2 44 43 38 19 31 42 4 37 29 30 24 45 27 41 8 20 33 7 35 3 18 46 36 26 1 28 21 40 16 22 32 11 14 13 12 9 25 39 10 6 23 17 5 34", "output": "27 2 22 9 45 42 20 17 38 41 34 37 36 35 1 31 44 23 6 18 29 32 43 13 39 26 15 28 11 12 7 33 19 46 21 25 10 5 40 30 16 8 4 3 14 24" }, { "input": "9\n4 8 6 5 3 9 2 7 1", "output": "9 7 5 1 4 3 8 2 6" }, { "input": "46\n31 30 33 23 45 7 36 8 11 3 32 39 41 20 1 28 6 27 18 24 17 5 16 37 26 13 22 14 2 38 15 46 9 4 19 21 12 44 10 35 25 34 42 43 40 29", "output": "15 29 10 34 22 17 6 8 33 39 9 37 26 28 31 23 21 19 35 14 36 27 4 20 41 25 18 16 46 2 1 11 3 42 40 7 24 30 12 45 13 43 44 38 5 32" }, { "input": "66\n27 12 37 48 46 21 34 58 38 28 66 2 64 32 44 31 13 36 40 15 19 11 22 5 30 29 6 7 61 39 20 42 23 54 51 33 50 9 60 8 57 45 49 10 62 41 59 3 55 63 52 24 25 26 43 56 65 4 16 14 1 35 18 17 53 47", "output": "61 12 48 58 24 27 28 40 38 44 22 2 17 60 20 59 64 63 21 31 6 23 33 52 53 54 1 10 26 25 16 14 36 7 62 18 3 9 30 19 46 32 55 15 42 5 66 4 43 37 35 51 65 34 49 56 41 8 47 39 29 45 50 13 57 11" }, { "input": "13\n3 12 9 2 8 5 13 4 11 1 10 7 6", "output": "10 4 1 8 6 13 12 5 3 11 9 2 7" }, { "input": "80\n21 25 56 50 20 61 7 74 51 69 8 2 46 57 45 71 14 52 17 43 9 30 70 78 31 10 38 13 23 15 37 79 6 16 77 73 80 4 49 48 18 28 26 58 33 41 64 22 54 72 59 60 40 63 53 27 1 5 75 67 62 34 19 39 68 65 44 55 3 32 11 42 76 12 35 47 66 36 24 29", "output": "57 12 69 38 58 33 7 11 21 26 71 74 28 17 30 34 19 41 63 5 1 48 29 79 2 43 56 42 80 22 25 70 45 62 75 78 31 27 64 53 46 72 20 67 15 13 76 40 39 4 9 18 55 49 68 3 14 44 51 52 6 61 54 47 66 77 60 65 10 23 16 50 36 8 59 73 35 24 32 37" }, { "input": "63\n9 49 53 25 40 46 43 51 54 22 58 16 23 26 10 47 5 27 2 8 61 59 19 35 63 56 28 20 34 4 62 38 6 55 36 31 57 15 29 33 1 48 50 37 7 30 18 42 32 52 12 41 14 21 45 11 24 17 39 13 44 60 3", "output": "41 19 63 30 17 33 45 20 1 15 56 51 60 53 38 12 58 47 23 28 54 10 13 57 4 14 18 27 39 46 36 49 40 29 24 35 44 32 59 5 52 48 7 61 55 6 16 42 2 43 8 50 3 9 34 26 37 11 22 62 21 31 25" }, { "input": "26\n11 4 19 13 17 9 2 24 6 5 22 23 14 15 3 25 16 8 18 10 21 1 12 26 7 20", "output": "22 7 15 2 10 9 25 18 6 20 1 23 4 13 14 17 5 19 3 26 21 11 12 8 16 24" }, { "input": "69\n40 22 11 66 4 27 31 29 64 53 37 55 51 2 7 36 18 52 6 1 30 21 17 20 14 9 59 62 49 68 3 50 65 57 44 5 67 46 33 13 34 15 24 48 63 58 38 25 41 35 16 54 32 10 60 61 39 12 69 8 23 45 26 47 56 43 28 19 42", "output": "20 14 31 5 36 19 15 60 26 54 3 58 40 25 42 51 23 17 68 24 22 2 61 43 48 63 6 67 8 21 7 53 39 41 50 16 11 47 57 1 49 69 66 35 62 38 64 44 29 32 13 18 10 52 12 65 34 46 27 55 56 28 45 9 33 4 37 30 59" }, { "input": "6\n4 3 6 5 1 2", "output": "5 6 2 1 4 3" }, { "input": "9\n7 8 5 3 1 4 2 9 6", "output": "5 7 4 6 3 9 1 2 8" }, { "input": "41\n27 24 16 30 25 8 32 2 26 20 39 33 41 22 40 14 36 9 28 4 34 11 31 23 19 18 17 35 3 10 6 13 5 15 29 38 7 21 1 12 37", "output": "39 8 29 20 33 31 37 6 18 30 22 40 32 16 34 3 27 26 25 10 38 14 24 2 5 9 1 19 35 4 23 7 12 21 28 17 41 36 11 15 13" }, { "input": "1\n1", "output": "1" }, { "input": "20\n2 6 4 18 7 10 17 13 16 8 14 9 20 5 19 12 1 3 15 11", "output": "17 1 18 3 14 2 5 10 12 6 20 16 8 11 19 9 7 4 15 13" }, { "input": "2\n2 1", "output": "2 1" }, { "input": "60\n2 4 31 51 11 7 34 20 3 14 18 23 48 54 15 36 38 60 49 40 5 33 41 26 55 58 10 8 13 9 27 30 37 1 21 59 44 57 35 19 46 43 42 45 12 22 39 32 24 16 6 56 53 52 25 17 47 29 50 28", "output": "34 1 9 2 21 51 6 28 30 27 5 45 29 10 15 50 56 11 40 8 35 46 12 49 55 24 31 60 58 32 3 48 22 7 39 16 33 17 47 20 23 43 42 37 44 41 57 13 19 59 4 54 53 14 25 52 38 26 36 18" }, { "input": "14\n14 6 3 12 11 2 7 1 10 9 8 5 4 13", "output": "8 6 3 13 12 2 7 11 10 9 5 4 14 1" }, { "input": "81\n13 43 79 8 7 21 73 46 63 4 62 78 56 11 70 68 61 53 60 49 16 27 59 47 69 5 22 44 77 57 52 48 1 9 72 81 28 55 58 33 51 18 31 17 41 20 42 3 32 54 19 2 75 34 64 10 65 50 30 29 67 12 71 66 74 15 26 23 6 38 25 35 37 24 80 76 40 45 39 36 14", "output": "33 52 48 10 26 69 5 4 34 56 14 62 1 81 66 21 44 42 51 46 6 27 68 74 71 67 22 37 60 59 43 49 40 54 72 80 73 70 79 77 45 47 2 28 78 8 24 32 20 58 41 31 18 50 38 13 30 39 23 19 17 11 9 55 57 64 61 16 25 15 63 35 7 65 53 76 29 12 3 75 36" }, { "input": "42\n41 11 10 8 21 37 32 19 31 25 1 15 36 5 6 27 4 3 13 7 16 17 2 23 34 24 38 28 12 20 30 42 18 26 39 35 33 40 9 14 22 29", "output": "11 23 18 17 14 15 20 4 39 3 2 29 19 40 12 21 22 33 8 30 5 41 24 26 10 34 16 28 42 31 9 7 37 25 36 13 6 27 35 38 1 32" }, { "input": "97\n20 6 76 42 4 18 35 59 39 63 27 7 66 47 61 52 15 36 88 93 19 33 10 92 1 34 46 86 78 57 51 94 77 29 26 73 41 2 58 97 43 65 17 74 21 49 25 3 91 82 95 12 96 13 84 90 69 24 72 37 16 55 54 71 64 62 48 89 11 70 80 67 30 40 44 85 53 83 79 9 56 45 75 87 22 14 81 68 8 38 60 50 28 23 31 32 5", "output": "25 38 48 5 97 2 12 89 80 23 69 52 54 86 17 61 43 6 21 1 45 85 94 58 47 35 11 93 34 73 95 96 22 26 7 18 60 90 9 74 37 4 41 75 82 27 14 67 46 92 31 16 77 63 62 81 30 39 8 91 15 66 10 65 42 13 72 88 57 70 64 59 36 44 83 3 33 29 79 71 87 50 78 55 76 28 84 19 68 56 49 24 20 32 51 53 40" }, { "input": "62\n15 27 46 6 8 51 14 56 23 48 42 49 52 22 20 31 29 12 47 3 62 34 37 35 32 57 19 25 5 60 61 38 18 10 11 55 45 53 17 30 9 36 4 50 41 16 44 28 40 59 24 1 13 39 26 7 33 58 2 43 21 54", "output": "52 59 20 43 29 4 56 5 41 34 35 18 53 7 1 46 39 33 27 15 61 14 9 51 28 55 2 48 17 40 16 25 57 22 24 42 23 32 54 49 45 11 60 47 37 3 19 10 12 44 6 13 38 62 36 8 26 58 50 30 31 21" }, { "input": "61\n35 27 4 61 52 32 41 46 14 37 17 54 55 31 11 26 44 49 15 30 9 50 45 39 7 38 53 3 58 40 13 56 18 19 28 6 43 5 21 42 20 34 2 25 36 12 33 57 16 60 1 8 59 10 22 23 24 48 51 47 29", "output": "51 43 28 3 38 36 25 52 21 54 15 46 31 9 19 49 11 33 34 41 39 55 56 57 44 16 2 35 61 20 14 6 47 42 1 45 10 26 24 30 7 40 37 17 23 8 60 58 18 22 59 5 27 12 13 32 48 29 53 50 4" }, { "input": "59\n31 26 36 15 17 19 10 53 11 34 13 46 55 9 44 7 8 37 32 52 47 25 51 22 35 39 41 4 43 24 5 27 20 57 6 38 3 28 21 40 50 18 14 56 33 45 12 2 49 59 54 29 16 48 42 58 1 30 23", "output": "57 48 37 28 31 35 16 17 14 7 9 47 11 43 4 53 5 42 6 33 39 24 59 30 22 2 32 38 52 58 1 19 45 10 25 3 18 36 26 40 27 55 29 15 46 12 21 54 49 41 23 20 8 51 13 44 34 56 50" }, { "input": "10\n2 10 7 4 1 5 8 6 3 9", "output": "5 1 9 4 6 8 3 7 10 2" }, { "input": "14\n14 2 1 8 6 12 11 10 9 7 3 4 5 13", "output": "3 2 11 12 13 5 10 4 9 8 7 6 14 1" }, { "input": "43\n28 38 15 14 31 42 27 30 19 33 43 26 22 29 18 32 3 13 1 8 35 34 4 12 11 17 41 21 5 25 39 37 20 23 7 24 16 10 40 9 6 36 2", "output": "19 43 17 23 29 41 35 20 40 38 25 24 18 4 3 37 26 15 9 33 28 13 34 36 30 12 7 1 14 8 5 16 10 22 21 42 32 2 31 39 27 6 11" }, { "input": "86\n39 11 20 31 28 76 29 64 35 21 41 71 12 82 5 37 80 73 38 26 79 75 23 15 59 45 47 6 3 62 50 49 51 22 2 65 86 60 70 42 74 17 1 30 55 44 8 66 81 27 57 77 43 13 54 32 72 46 48 56 14 34 78 52 36 85 24 19 69 83 25 61 7 4 84 33 63 58 18 40 68 10 67 9 16 53", "output": "43 35 29 74 15 28 73 47 84 82 2 13 54 61 24 85 42 79 68 3 10 34 23 67 71 20 50 5 7 44 4 56 76 62 9 65 16 19 1 80 11 40 53 46 26 58 27 59 32 31 33 64 86 55 45 60 51 78 25 38 72 30 77 8 36 48 83 81 69 39 12 57 18 41 22 6 52 63 21 17 49 14 70 75 66 37" }, { "input": "99\n65 78 56 98 33 24 61 40 29 93 1 64 57 22 25 52 67 95 50 3 31 15 90 68 71 83 38 36 6 46 89 26 4 87 14 88 72 37 23 43 63 12 80 96 5 34 73 86 9 48 92 62 99 10 16 20 66 27 28 2 82 70 30 94 49 8 84 69 18 60 58 59 44 39 21 7 91 76 54 19 75 85 74 47 55 32 97 77 51 13 35 79 45 42 11 41 17 81 53", "output": "11 60 20 33 45 29 76 66 49 54 95 42 90 35 22 55 97 69 80 56 75 14 39 6 15 32 58 59 9 63 21 86 5 46 91 28 38 27 74 8 96 94 40 73 93 30 84 50 65 19 89 16 99 79 85 3 13 71 72 70 7 52 41 12 1 57 17 24 68 62 25 37 47 83 81 78 88 2 92 43 98 61 26 67 82 48 34 36 31 23 77 51 10 64 18 44 87 4 53" }, { "input": "100\n42 23 48 88 36 6 18 70 96 1 34 40 46 22 39 55 85 93 45 67 71 75 59 9 21 3 86 63 65 68 20 38 73 31 84 90 50 51 56 95 72 33 49 19 83 76 54 74 100 30 17 98 15 94 4 97 5 99 81 27 92 32 89 12 13 91 87 29 60 11 52 43 35 58 10 25 16 80 28 2 44 61 8 82 66 69 41 24 57 62 78 37 79 77 53 7 14 47 26 64", "output": "10 80 26 55 57 6 96 83 24 75 70 64 65 97 53 77 51 7 44 31 25 14 2 88 76 99 60 79 68 50 34 62 42 11 73 5 92 32 15 12 87 1 72 81 19 13 98 3 43 37 38 71 95 47 16 39 89 74 23 69 82 90 28 100 29 85 20 30 86 8 21 41 33 48 22 46 94 91 93 78 59 84 45 35 17 27 67 4 63 36 66 61 18 54 40 9 56 52 58 49" }, { "input": "99\n8 68 94 75 71 60 57 58 6 11 5 48 65 41 49 12 46 72 95 59 13 70 74 7 84 62 17 36 55 76 38 79 2 85 23 10 32 99 87 50 83 28 54 91 53 51 1 3 97 81 21 89 93 78 61 26 82 96 4 98 25 40 31 44 24 47 30 52 14 16 39 27 9 29 45 18 67 63 37 43 90 66 19 69 88 22 92 77 34 42 73 80 56 64 20 35 15 33 86", "output": "47 33 48 59 11 9 24 1 73 36 10 16 21 69 97 70 27 76 83 95 51 86 35 65 61 56 72 42 74 67 63 37 98 89 96 28 79 31 71 62 14 90 80 64 75 17 66 12 15 40 46 68 45 43 29 93 7 8 20 6 55 26 78 94 13 82 77 2 84 22 5 18 91 23 4 30 88 54 32 92 50 57 41 25 34 99 39 85 52 81 44 87 53 3 19 58 49 60 38" }, { "input": "99\n12 99 88 13 7 19 74 47 23 90 16 29 26 11 58 60 64 98 37 18 82 67 72 46 51 85 17 92 87 20 77 36 78 71 57 35 80 54 73 15 14 62 97 45 31 79 94 56 76 96 28 63 8 44 38 86 49 2 52 66 61 59 10 43 55 50 22 34 83 53 95 40 81 21 30 42 27 3 5 41 1 70 69 25 93 48 65 6 24 89 91 33 39 68 9 4 32 84 75", "output": "81 58 78 96 79 88 5 53 95 63 14 1 4 41 40 11 27 20 6 30 74 67 9 89 84 13 77 51 12 75 45 97 92 68 36 32 19 55 93 72 80 76 64 54 44 24 8 86 57 66 25 59 70 38 65 48 35 15 62 16 61 42 52 17 87 60 22 94 83 82 34 23 39 7 99 49 31 33 46 37 73 21 69 98 26 56 29 3 90 10 91 28 85 47 71 50 43 18 2" }, { "input": "99\n20 79 26 75 99 69 98 47 93 62 18 42 43 38 90 66 67 8 13 84 76 58 81 60 64 46 56 23 78 17 86 36 19 52 85 39 48 27 96 49 37 95 5 31 10 24 12 1 80 35 92 33 16 68 57 54 32 29 45 88 72 77 4 87 97 89 59 3 21 22 61 94 83 15 44 34 70 91 55 9 51 50 73 11 14 6 40 7 63 25 2 82 41 65 28 74 71 30 53", "output": "48 91 68 63 43 86 88 18 80 45 84 47 19 85 74 53 30 11 33 1 69 70 28 46 90 3 38 95 58 98 44 57 52 76 50 32 41 14 36 87 93 12 13 75 59 26 8 37 40 82 81 34 99 56 79 27 55 22 67 24 71 10 89 25 94 16 17 54 6 77 97 61 83 96 4 21 62 29 2 49 23 92 73 20 35 31 64 60 66 15 78 51 9 72 42 39 65 7 5" }, { "input": "99\n74 20 9 1 60 85 65 13 4 25 40 99 5 53 64 3 36 31 73 44 55 50 45 63 98 51 68 6 47 37 71 82 88 34 84 18 19 12 93 58 86 7 11 46 90 17 33 27 81 69 42 59 56 32 95 52 76 61 96 62 78 43 66 21 49 97 75 14 41 72 89 16 30 79 22 23 15 83 91 38 48 2 87 26 28 80 94 70 54 92 57 10 8 35 67 77 29 24 39", "output": "4 82 16 9 13 28 42 93 3 92 43 38 8 68 77 72 46 36 37 2 64 75 76 98 10 84 48 85 97 73 18 54 47 34 94 17 30 80 99 11 69 51 62 20 23 44 29 81 65 22 26 56 14 89 21 53 91 40 52 5 58 60 24 15 7 63 95 27 50 88 31 70 19 1 67 57 96 61 74 86 49 32 78 35 6 41 83 33 71 45 79 90 39 87 55 59 66 25 12" }, { "input": "99\n50 94 2 18 69 90 59 83 75 68 77 97 39 78 25 7 16 9 49 4 42 89 44 48 17 96 61 70 3 10 5 81 56 57 88 6 98 1 46 67 92 37 11 30 85 41 8 36 51 29 20 71 19 79 74 93 43 34 55 40 38 21 64 63 32 24 72 14 12 86 82 15 65 23 66 22 28 53 13 26 95 99 91 52 76 27 60 45 47 33 73 84 31 35 54 80 58 62 87", "output": "38 3 29 20 31 36 16 47 18 30 43 69 79 68 72 17 25 4 53 51 62 76 74 66 15 80 86 77 50 44 93 65 90 58 94 48 42 61 13 60 46 21 57 23 88 39 89 24 19 1 49 84 78 95 59 33 34 97 7 87 27 98 64 63 73 75 40 10 5 28 52 67 91 55 9 85 11 14 54 96 32 71 8 92 45 70 99 35 22 6 83 41 56 2 81 26 12 37 82" }, { "input": "99\n19 93 14 34 39 37 33 15 52 88 7 43 69 27 9 77 94 31 48 22 63 70 79 17 50 6 81 8 76 58 23 74 86 11 57 62 41 87 75 51 12 18 68 56 95 3 80 83 84 29 24 61 71 78 59 96 20 85 90 28 45 36 38 97 1 49 40 98 44 67 13 73 72 91 47 10 30 54 35 42 4 2 92 26 64 60 53 21 5 82 46 32 55 66 16 89 99 65 25", "output": "65 82 46 81 89 26 11 28 15 76 34 41 71 3 8 95 24 42 1 57 88 20 31 51 99 84 14 60 50 77 18 92 7 4 79 62 6 63 5 67 37 80 12 69 61 91 75 19 66 25 40 9 87 78 93 44 35 30 55 86 52 36 21 85 98 94 70 43 13 22 53 73 72 32 39 29 16 54 23 47 27 90 48 49 58 33 38 10 96 59 74 83 2 17 45 56 64 68 97" }, { "input": "99\n86 25 50 51 62 39 41 67 44 20 45 14 80 88 66 7 36 59 13 84 78 58 96 75 2 43 48 47 69 12 19 98 22 38 28 55 11 76 68 46 53 70 85 34 16 33 91 30 8 40 74 60 94 82 87 32 37 4 5 10 89 73 90 29 35 26 23 57 27 65 24 3 9 83 77 72 6 31 15 92 93 79 64 18 63 42 56 1 52 97 17 81 71 21 49 99 54 95 61", "output": "88 25 72 58 59 77 16 49 73 60 37 30 19 12 79 45 91 84 31 10 94 33 67 71 2 66 69 35 64 48 78 56 46 44 65 17 57 34 6 50 7 86 26 9 11 40 28 27 95 3 4 89 41 97 36 87 68 22 18 52 99 5 85 83 70 15 8 39 29 42 93 76 62 51 24 38 75 21 82 13 92 54 74 20 43 1 55 14 61 63 47 80 81 53 98 23 90 32 96" }, { "input": "100\n66 44 99 15 43 79 28 33 88 90 49 68 82 38 9 74 4 58 29 81 31 94 10 42 89 21 63 40 62 61 18 6 84 72 48 25 67 69 71 85 98 34 83 70 65 78 91 77 93 41 23 24 87 11 55 12 59 73 36 97 7 14 26 39 30 27 45 20 50 17 53 2 57 47 95 56 75 19 37 96 16 35 8 3 76 60 13 86 5 32 64 80 46 51 54 100 1 22 52 92", "output": "97 72 84 17 89 32 61 83 15 23 54 56 87 62 4 81 70 31 78 68 26 98 51 52 36 63 66 7 19 65 21 90 8 42 82 59 79 14 64 28 50 24 5 2 67 93 74 35 11 69 94 99 71 95 55 76 73 18 57 86 30 29 27 91 45 1 37 12 38 44 39 34 58 16 77 85 48 46 6 92 20 13 43 33 40 88 53 9 25 10 47 100 49 22 75 80 60 41 3 96" }, { "input": "99\n3 73 32 37 25 15 93 63 85 8 91 78 80 5 39 48 46 7 83 70 23 96 9 29 77 53 30 20 56 50 13 45 21 76 87 99 65 31 16 18 14 72 51 28 43 2 81 34 38 40 66 54 74 26 71 4 61 17 58 24 22 33 49 36 42 11 12 55 60 27 62 90 79 92 94 68 1 52 84 41 86 35 69 75 47 10 64 88 97 98 67 19 89 95 59 82 57 44 6", "output": "77 46 1 56 14 99 18 10 23 86 66 67 31 41 6 39 58 40 92 28 33 61 21 60 5 54 70 44 24 27 38 3 62 48 82 64 4 49 15 50 80 65 45 98 32 17 85 16 63 30 43 78 26 52 68 29 97 59 95 69 57 71 8 87 37 51 91 76 83 20 55 42 2 53 84 34 25 12 73 13 47 96 19 79 9 81 35 88 93 72 11 74 7 75 94 22 89 90 36" }, { "input": "100\n100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1", "output": "100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1" } ]	1,678,103,227	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	0	122	0	def f(): n=int(input()) arr=[-1]+list(map(int,input().split(" "))) res=[-1]*(n+1) for i in range(1,len(arr)): res[arr[i]]=i return res[1:] print(f())	Title: Presents Time Limit: None seconds Memory Limit: None megabytes Problem Description: Little Petya very much likes gifts. Recently he has received a new laptop as a New Year gift from his mother. He immediately decided to give it to somebody else as what can be more pleasant than giving somebody gifts. And on this occasion he organized a New Year party at his place and invited n his friends there. If there's one thing Petya likes more that receiving gifts, that's watching others giving gifts to somebody else. Thus, he safely hid the laptop until the next New Year and made up his mind to watch his friends exchanging gifts while he does not participate in the process. He numbered all his friends with integers from 1 to n. Petya remembered that a friend number i gave a gift to a friend number pi. He also remembered that each of his friends received exactly one gift. Now Petya wants to know for each friend i the number of a friend who has given him a gift. Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=100) — the quantity of friends Petya invited to the party. The second line contains n space-separated integers: the i-th number is pi — the number of a friend who gave a gift to friend number i. It is guaranteed that each friend received exactly one gift. It is possible that some friends do not share Petya's ideas of giving gifts to somebody else. Those friends gave the gifts to themselves. Output Specification: Print n space-separated integers: the i-th number should equal the number of the friend who gave a gift to friend number i. Demo Input: ['4\n2 3 4 1\n', '3\n1 3 2\n', '2\n1 2\n'] Demo Output: ['4 1 2 3\n', '1 3 2\n', '1 2\n'] Note: none	```python def f(): n=int(input()) arr=[-1]+list(map(int,input().split(" "))) res=[-1]*(n+1) for i in range(1,len(arr)): res[arr[i]]=i return res[1:] print(f()) ```	0
315	A	Sereja and Bottles	PROGRAMMING	1,400	[ "brute force" ]		null	null	Sereja and his friends went to a picnic. The guys had n soda bottles just for it. Sereja forgot the bottle opener as usual, so the guys had to come up with another way to open bottles. Sereja knows that the i-th bottle is from brand ai, besides, you can use it to open other bottles of brand bi. You can use one bottle to open multiple other bottles. Sereja can open bottle with opened bottle or closed bottle. Knowing this, Sereja wants to find out the number of bottles they've got that they won't be able to open in any way. Help him and find this number.	The first line contains integer n (1<=≤<=n<=≤<=100) — the number of bottles. The next n lines contain the bottles' description. The i-th line contains two integers ai,<=bi (1<=≤<=ai,<=bi<=≤<=1000) — the description of the i-th bottle.	In a single line print a single integer — the answer to the problem.	[ "4\n1 1\n2 2\n3 3\n4 4\n", "4\n1 2\n2 3\n3 4\n4 1\n" ]	[ "4\n", "0\n" ]	none	500	[ { "input": "4\n1 1\n2 2\n3 3\n4 4", "output": "4" }, { "input": "4\n1 2\n2 3\n3 4\n4 1", "output": "0" }, { "input": "3\n2 828\n4 392\n4 903", "output": "3" }, { "input": "4\n2 3\n1 772\n3 870\n3 668", "output": "2" }, { "input": "5\n1 4\n6 6\n4 3\n3 4\n4 758", "output": "2" }, { "input": "6\n4 843\n2 107\n10 943\n9 649\n7 806\n6 730", "output": "6" }, { "input": "7\n351 955\n7 841\n102 377\n394 102\n549 440\n630 324\n624 624", "output": "6" }, { "input": "8\n83 978\n930 674\n542 22\n834 116\n116 271\n640 930\n659 930\n705 987", "output": "6" }, { "input": "9\n162 942\n637 967\n356 108\n768 53\n656 656\n575 32\n32 575\n53 53\n351 222", "output": "6" }, { "input": "10\n423 360\n947 538\n507 484\n31 947\n414 351\n169 901\n901 21\n592 22\n763 200\n656 485", "output": "8" }, { "input": "1\n1000 1000", "output": "1" }, { "input": "1\n500 1000", "output": "1" }, { "input": "11\n1 1\n2 2\n3 3\n4 4\n5 5\n6 6\n7 7\n8 8\n9 9\n10 10\n11 11", "output": "11" }, { "input": "49\n1 758\n5 3\n5 3\n4 2\n4 36\n3 843\n5 107\n1 943\n1 649\n2 806\n3 730\n2 351\n2 102\n1 4\n3 4\n3 955\n2 841\n2 377\n5 2\n3 440\n4 324\n3 3\n3 83\n2 2\n2 1\n4 1\n1 931\n3 4\n2 5\n2 5\n4 73\n5 830\n3 4\n3 5\n5 291\n1 2\n5 3\n4 4\n2 3\n3 151\n4 2\n4 431\n5 1\n2 5\n2 4\n4 2\n4 4\n3 1\n5 2", "output": "0" }, { "input": "50\n507 31\n31 250\n414 763\n169 304\n901 9\n592 610\n763 414\n656 789\n411 422\n360 468\n625 504\n538 201\n549 619\n484 797\n596 282\n42 310\n603 656\n351 623\n292 293\n837 180\n375 658\n21 192\n597 729\n22 512\n349 635\n200 56\n669 647\n485 887\n282 939\n735 808\n54 417\n1000 310\n419 652\n939 617\n901 669\n789 390\n128 549\n468 511\n729 837\n894 729\n649 894\n484 22\n808 586\n422 286\n311 427\n618 656\n814 933\n515 901\n310 894\n617 330", "output": "30" }, { "input": "2\n7 7\n5 359", "output": "2" }, { "input": "2\n465 706\n706 706", "output": "1" }, { "input": "2\n1 1\n1 1", "output": "0" }, { "input": "3\n1 1\n1 1\n2 2", "output": "1" }, { "input": "5\n1 1\n1 2\n2 3\n3 4\n4 3", "output": "1" }, { "input": "3\n1 2\n1 2\n1 1", "output": "1" } ]	1,628,220,905	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	30	310	20,172,800	def main(): n = int(input()) counts = dict() opens = dict() for i in range(n): a, b = map(int, input().split()) if a in counts: counts[a] += 1 else: counts[a] = 1 if a != b: if b in opens: pass else: opens[b] = True ans = 0 for k, v in counts.items(): if k in opens: ans += v print(n - ans) main()	Title: Sereja and Bottles Time Limit: None seconds Memory Limit: None megabytes Problem Description: Sereja and his friends went to a picnic. The guys had n soda bottles just for it. Sereja forgot the bottle opener as usual, so the guys had to come up with another way to open bottles. Sereja knows that the i-th bottle is from brand ai, besides, you can use it to open other bottles of brand bi. You can use one bottle to open multiple other bottles. Sereja can open bottle with opened bottle or closed bottle. Knowing this, Sereja wants to find out the number of bottles they've got that they won't be able to open in any way. Help him and find this number. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=100) — the number of bottles. The next n lines contain the bottles' description. The i-th line contains two integers ai,<=bi (1<=≤<=ai,<=bi<=≤<=1000) — the description of the i-th bottle. Output Specification: In a single line print a single integer — the answer to the problem. Demo Input: ['4\n1 1\n2 2\n3 3\n4 4\n', '4\n1 2\n2 3\n3 4\n4 1\n'] Demo Output: ['4\n', '0\n'] Note: none	```python def main(): n = int(input()) counts = dict() opens = dict() for i in range(n): a, b = map(int, input().split()) if a in counts: counts[a] += 1 else: counts[a] = 1 if a != b: if b in opens: pass else: opens[b] = True ans = 0 for k, v in counts.items(): if k in opens: ans += v print(n - ans) main() ```	0
320	A	Magic Numbers	PROGRAMMING	900	[ "brute force", "greedy" ]		null	null	A magic number is a number formed by concatenation of numbers 1, 14 and 144. We can use each of these numbers any number of times. Therefore 14144, 141414 and 1411 are magic numbers but 1444, 514 and 414 are not. You're given a number. Determine if it is a magic number or not.	The first line of input contains an integer n, (1<=≤<=n<=≤<=109). This number doesn't contain leading zeros.	Print "YES" if n is a magic number or print "NO" if it's not.	[ "114114\n", "1111\n", "441231\n" ]	[ "YES\n", "YES\n", "NO\n" ]	none	500	[ { "input": "114114", "output": "YES" }, { "input": "1111", "output": "YES" }, { "input": "441231", "output": "NO" }, { "input": "1", "output": "YES" }, { "input": "14", "output": "YES" }, { "input": "114", "output": "YES" }, { "input": "9", "output": "NO" }, { "input": "414", "output": "NO" }, { "input": "1000000000", "output": "NO" }, { "input": "144144144", "output": "YES" }, { "input": "1444", "output": "NO" }, { "input": "11", "output": "YES" }, { "input": "141414141", "output": "YES" }, { "input": "11110111", "output": "NO" }, { "input": "114114144", "output": "YES" }, { "input": "444", "output": "NO" }, { "input": "9999", "output": "NO" }, { "input": "111444", "output": "NO" }, { "input": "11114", "output": "YES" }, { "input": "41111", "output": "NO" }, { "input": "114414441", "output": "NO" }, { "input": "144414441", "output": "NO" }, { "input": "144244144", "output": "NO" }, { "input": "111111111", "output": "YES" }, { "input": "144444444", "output": "NO" }, { "input": "444444444", "output": "NO" }, { "input": "141441441", "output": "YES" }, { "input": "441", "output": "NO" }, { "input": "15", "output": "NO" }, { "input": "14444", "output": "NO" }, { "input": "11444", "output": "NO" }, { "input": "144", "output": "YES" }, { "input": "1414414", "output": "YES" }, { "input": "141444", "output": "NO" }, { "input": "14144", "output": "YES" }, { "input": "4", "output": "NO" }, { "input": "1144", "output": "YES" }, { "input": "141111444", "output": "NO" }, { "input": "14414414", "output": "YES" }, { "input": "141414144", "output": "YES" }, { "input": "1414", "output": "YES" }, { "input": "1441", "output": "YES" }, { "input": "12", "output": "NO" }, { "input": "144144141", "output": "YES" }, { "input": "144144", "output": "YES" }, { "input": "14414411", "output": "YES" }, { "input": "14414", "output": "YES" } ]	1,639,379,088	2,147,483,647	Python 3	OK	TESTS	47	122	0	n = input() t = 'YES' if n[0] == '1' else 'NO' s = 0 for i in range(len(n)): s = s+1 if n[i] == '4' else 0 if s > 2 or n[i] not in ['1', '4']: t = 'NO' break print(t)	Title: Magic Numbers Time Limit: None seconds Memory Limit: None megabytes Problem Description: A magic number is a number formed by concatenation of numbers 1, 14 and 144. We can use each of these numbers any number of times. Therefore 14144, 141414 and 1411 are magic numbers but 1444, 514 and 414 are not. You're given a number. Determine if it is a magic number or not. Input Specification: The first line of input contains an integer n, (1<=≤<=n<=≤<=109). This number doesn't contain leading zeros. Output Specification: Print "YES" if n is a magic number or print "NO" if it's not. Demo Input: ['114114\n', '1111\n', '441231\n'] Demo Output: ['YES\n', 'YES\n', 'NO\n'] Note: none	```python n = input() t = 'YES' if n[0] == '1' else 'NO' s = 0 for i in range(len(n)): s = s+1 if n[i] == '4' else 0 if s > 2 or n[i] not in ['1', '4']: t = 'NO' break print(t) ```	3
842	A	Kirill And The Game	PROGRAMMING	1,200	[ "brute force", "two pointers" ]		null	null	Kirill plays a new computer game. He came to the potion store where he can buy any potion. Each potion is characterized by two integers — amount of experience and cost. The efficiency of a potion is the ratio of the amount of experience to the cost. Efficiency may be a non-integer number. For each two integer numbers a and b such that l<=≤<=a<=≤<=r and x<=≤<=b<=≤<=y there is a potion with experience a and cost b in the store (that is, there are (r<=-<=l<=+<=1)·(y<=-<=x<=+<=1) potions). Kirill wants to buy a potion which has efficiency k. Will he be able to do this?	First string contains five integer numbers l, r, x, y, k (1<=≤<=l<=≤<=r<=≤<=107, 1<=≤<=x<=≤<=y<=≤<=107, 1<=≤<=k<=≤<=107).	Print "YES" without quotes if a potion with efficiency exactly k can be bought in the store and "NO" without quotes otherwise. You can output each of the letters in any register.	[ "1 10 1 10 1\n", "1 5 6 10 1\n" ]	[ "YES", "NO" ]	none	500	[ { "input": "1 10 1 10 1", "output": "YES" }, { "input": "1 5 6 10 1", "output": "NO" }, { "input": "1 1 1 1 1", "output": "YES" }, { "input": "1 1 1 1 2", "output": "NO" }, { "input": "1 100000 1 100000 100000", "output": "YES" }, { "input": "1 100000 1 100000 100001", "output": "NO" }, { "input": "25 10000 200 10000 5", "output": "YES" }, { "input": "1 100000 10 100000 50000", "output": "NO" }, { "input": "91939 94921 10197 89487 1", "output": "NO" }, { "input": "30518 58228 74071 77671 1", "output": "NO" }, { "input": "46646 79126 78816 91164 5", "output": "NO" }, { "input": "30070 83417 92074 99337 2", "output": "NO" }, { "input": "13494 17544 96820 99660 6", "output": "NO" }, { "input": "96918 97018 10077 86510 9", "output": "YES" }, { "input": "13046 45594 14823 52475 1", "output": "YES" }, { "input": "29174 40572 95377 97669 4", "output": "NO" }, { "input": "79894 92433 8634 86398 4", "output": "YES" }, { "input": "96022 98362 13380 94100 6", "output": "YES" }, { "input": "79446 95675 93934 96272 3", "output": "NO" }, { "input": "5440 46549 61481 99500 10", "output": "NO" }, { "input": "21569 53580 74739 87749 3", "output": "NO" }, { "input": "72289 78297 79484 98991 7", "output": "NO" }, { "input": "88417 96645 92742 98450 5", "output": "NO" }, { "input": "71841 96625 73295 77648 8", "output": "NO" }, { "input": "87969 99230 78041 94736 4", "output": "NO" }, { "input": "4 4 1 2 3", "output": "NO" }, { "input": "150 150 1 2 100", "output": "NO" }, { "input": "99 100 1 100 50", "output": "YES" }, { "input": "7 7 3 6 2", "output": "NO" }, { "input": "10 10 1 10 1", "output": "YES" }, { "input": "36 36 5 7 6", "output": "YES" }, { "input": "73 96 1 51 51", "output": "NO" }, { "input": "3 3 1 3 2", "output": "NO" }, { "input": "10000000 10000000 1 100000 10000000", "output": "YES" }, { "input": "9222174 9829060 9418763 9955619 9092468", "output": "NO" }, { "input": "70 70 1 2 50", "output": "NO" }, { "input": "100 200 1 20 5", "output": "YES" }, { "input": "1 200000 65536 65536 65537", "output": "NO" }, { "input": "15 15 1 100 1", "output": "YES" }, { "input": "10000000 10000000 1 10000000 100000", "output": "YES" }, { "input": "10 10 2 5 4", "output": "NO" }, { "input": "67 69 7 7 9", "output": "NO" }, { "input": "100000 10000000 1 10000000 100000", "output": "YES" }, { "input": "9 12 1 2 7", "output": "NO" }, { "input": "5426234 6375745 2636512 8492816 4409404", "output": "NO" }, { "input": "6134912 6134912 10000000 10000000 999869", "output": "NO" }, { "input": "3 3 1 100 1", "output": "YES" }, { "input": "10000000 10000000 10 10000000 100000", "output": "YES" }, { "input": "4 4 1 100 2", "output": "YES" }, { "input": "8 13 1 4 7", "output": "NO" }, { "input": "10 10 100000 10000000 10000000", "output": "NO" }, { "input": "5 6 1 4 2", "output": "YES" }, { "input": "1002 1003 1 2 1000", "output": "NO" }, { "input": "4 5 1 2 2", "output": "YES" }, { "input": "5 6 1 5 1", "output": "YES" }, { "input": "15 21 2 4 7", "output": "YES" }, { "input": "4 5 3 7 1", "output": "YES" }, { "input": "15 15 3 4 4", "output": "NO" }, { "input": "3 6 1 2 2", "output": "YES" }, { "input": "2 10 3 6 3", "output": "YES" }, { "input": "1 10000000 1 10000000 100000", "output": "YES" }, { "input": "8 13 1 2 7", "output": "NO" }, { "input": "98112 98112 100000 100000 128850", "output": "NO" }, { "input": "2 2 1 2 1", "output": "YES" }, { "input": "8 8 3 4 2", "output": "YES" }, { "input": "60 60 2 3 25", "output": "NO" }, { "input": "16 17 2 5 5", "output": "NO" }, { "input": "2 4 1 3 1", "output": "YES" }, { "input": "4 5 1 2 3", "output": "NO" }, { "input": "10 10 3 4 3", "output": "NO" }, { "input": "10 10000000 999999 10000000 300", "output": "NO" }, { "input": "100 120 9 11 10", "output": "YES" }, { "input": "8 20 1 3 4", "output": "YES" }, { "input": "10 14 2 3 4", "output": "YES" }, { "input": "2000 2001 1 3 1000", "output": "YES" }, { "input": "12 13 2 3 5", "output": "NO" }, { "input": "7 7 2 3 3", "output": "NO" }, { "input": "5 8 1 10000000 4", "output": "YES" }, { "input": "5 5 1 1 4", "output": "NO" }, { "input": "5 5 1 6 2", "output": "NO" }, { "input": "200 300 4000381 4000382 4000381", "output": "NO" }, { "input": "11 17 2 5 2", "output": "NO" }, { "input": "9999999 10000000 1 10000000 999997", "output": "NO" }, { "input": "7 8 2 3 3", "output": "NO" }, { "input": "7 7 3 3 2", "output": "NO" }, { "input": "15 15 2 3 7", "output": "NO" }, { "input": "65408 65408 859 859 10000000", "output": "NO" }, { "input": "1000000 10000000 1 100000 1", "output": "NO" }, { "input": "6 12 2 3 2", "output": "YES" }, { "input": "7 8 1 3 3", "output": "NO" }, { "input": "4 4 1 2 2", "output": "YES" }, { "input": "2 3 1 2 2", "output": "YES" }, { "input": "11 14 2 3 5", "output": "NO" }, { "input": "7 7 1 10 3", "output": "NO" }, { "input": "49 50 1 2 27", "output": "NO" }, { "input": "1 10000000 1 10000000 123456", "output": "YES" }, { "input": "100000 10000000 100 10000000 100000", "output": "YES" }, { "input": "17 19 2 3 8", "output": "NO" }, { "input": "4 6 3 9 1", "output": "YES" }, { "input": "19 20 6 7 3", "output": "NO" }, { "input": "5000000 10000000 1 4999999 1", "output": "NO" } ]	1,504,149,025	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	96	2,000	0	l, r, x, y, k = map(float, input().split()) maxi = r/x mini = l/y if k > maxi or k < mini: print("NO") else: a = l b = x c = a/b while c != k: if c < k and a <= r: a += 1 elif c > k and b <= y: b += 1 c = a/b if (a == r and c < k) or (b == y and c > k): break if c == k: print("YES") else: print("NO")	Title: Kirill And The Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kirill plays a new computer game. He came to the potion store where he can buy any potion. Each potion is characterized by two integers — amount of experience and cost. The efficiency of a potion is the ratio of the amount of experience to the cost. Efficiency may be a non-integer number. For each two integer numbers a and b such that l<=≤<=a<=≤<=r and x<=≤<=b<=≤<=y there is a potion with experience a and cost b in the store (that is, there are (r<=-<=l<=+<=1)·(y<=-<=x<=+<=1) potions). Kirill wants to buy a potion which has efficiency k. Will he be able to do this? Input Specification: First string contains five integer numbers l, r, x, y, k (1<=≤<=l<=≤<=r<=≤<=107, 1<=≤<=x<=≤<=y<=≤<=107, 1<=≤<=k<=≤<=107). Output Specification: Print "YES" without quotes if a potion with efficiency exactly k can be bought in the store and "NO" without quotes otherwise. You can output each of the letters in any register. Demo Input: ['1 10 1 10 1\n', '1 5 6 10 1\n'] Demo Output: ['YES', 'NO'] Note: none	```python l, r, x, y, k = map(float, input().split()) maxi = r/x mini = l/y if k > maxi or k < mini: print("NO") else: a = l b = x c = a/b while c != k: if c < k and a <= r: a += 1 elif c > k and b <= y: b += 1 c = a/b if (a == r and c < k) or (b == y and c > k): break if c == k: print("YES") else: print("NO") ```	0
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk\nasrgdfngfnmfgnhweratgjkk", "output": "NO" }, { "input": "z\na", "output": "NO" }, { "input": "asd\ndsa", "output": "YES" }, { "input": "abcdef\nfecdba", "output": "NO" }, { "input": "ywjjbirapvskozubvxoemscfwl\ngnduubaogtfaiowjizlvjcu", "output": "NO" }, { "input": "mfrmqxtzvgaeuleubcmcxcfqyruwzenguhgrmkuhdgnhgtgkdszwqyd\nmfxufheiperjnhyczclkmzyhcxntdfskzkzdwzzujdinf", "output": "NO" }, { "input": "bnbnemvybqizywlnghlykniaxxxlkhftppbdeqpesrtgkcpoeqowjwhrylpsziiwcldodcoonpimudvrxejjo\ntiynnekmlalogyvrgptbinkoqdwzuiyjlrldxhzjmmp", "output": "NO" }, { "input": "pwlpubwyhzqvcitemnhvvwkmwcaawjvdiwtoxyhbhbxerlypelevasmelpfqwjk\nstruuzebbcenziscuoecywugxncdwzyfozhljjyizpqcgkyonyetarcpwkqhuugsqjuixsxptmbnlfupdcfigacdhhrzb", "output": "NO" }, { "input": "gdvqjoyxnkypfvdxssgrihnwxkeojmnpdeobpecytkbdwujqfjtxsqspxvxpqioyfagzjxupqqzpgnpnpxcuipweunqch\nkkqkiwwasbhezqcfeceyngcyuogrkhqecwsyerdniqiocjehrpkljiljophqhyaiefjpavoom", "output": "NO" }, { "input": "umeszdawsvgkjhlqwzents\nhxqhdungbylhnikwviuh", "output": "NO" }, { "input": "juotpscvyfmgntshcealgbsrwwksgrwnrrbyaqqsxdlzhkbugdyx\nibqvffmfktyipgiopznsqtrtxiijntdbgyy", "output": "NO" }, { "input": "zbwueheveouatecaglziqmudxemhrsozmaujrwlqmppzoumxhamwugedikvkblvmxwuofmpafdprbcftew\nulczwrqhctbtbxrhhodwbcxwimncnexosksujlisgclllxokrsbnozthajnnlilyffmsyko", "output": "NO" }, { "input": "nkgwuugukzcv\nqktnpxedwxpxkrxdvgmfgoxkdfpbzvwsduyiybynbkouonhvmzakeiruhfmvrktghadbfkmwxduoqv", "output": "NO" }, { "input": "incenvizhqpcenhjhehvjvgbsnfixbatrrjstxjzhlmdmxijztphxbrldlqwdfimweepkggzcxsrwelodpnryntepioqpvk\ndhjbjjftlvnxibkklxquwmzhjfvnmwpapdrslioxisbyhhfymyiaqhlgecpxamqnocizwxniubrmpyubvpenoukhcobkdojlybxd", "output": "NO" }, { "input": "w\nw", "output": "YES" }, { "input": "vz\nzv", "output": "YES" }, { "input": "ry\nyr", "output": "YES" }, { "input": "xou\nuox", "output": "YES" }, { "input": "axg\ngax", "output": "NO" }, { "input": "zdsl\nlsdz", "output": "YES" }, { "input": "kudl\nldku", "output": "NO" }, { "input": "zzlzwnqlcl\nlclqnwzlzz", "output": "YES" }, { "input": "vzzgicnzqooejpjzads\nsdazjpjeooqzncigzzv", "output": "YES" }, { "input": "raqhmvmzuwaykjpyxsykr\nxkysrypjkyawuzmvmhqar", "output": "NO" }, { "input": "ngedczubzdcqbxksnxuavdjaqtmdwncjnoaicvmodcqvhfezew\nwezefhvqcdomvciaonjcnwdmtqajdvauxnskxbqcdzbuzcdegn", "output": "YES" }, { "input": "muooqttvrrljcxbroizkymuidvfmhhsjtumksdkcbwwpfqdyvxtrlymofendqvznzlmim\nmimlznzvqdnefomylrtxvydqfpwwbckdskmutjshhmfvdiumykziorbxcjlrrvttqooum", "output": "YES" }, { "input": "vxpqullmcbegsdskddortcvxyqlbvxmmkhevovnezubvpvnrcajpxraeaxizgaowtfkzywvhnbgzsxbhkaipcmoumtikkiyyaivg\ngviayyikkitmuomcpiakhbxszgbnhvwyzkftwoagzixaearxpjacrnvpvbuzenvovehkmmxvblqyxvctroddksdsgebcmlluqpxv", "output": "YES" }, { "input": "mnhaxtaopjzrkqlbroiyipitndczpunwygstmzevgyjdzyanxkdqnvgkikfabwouwkkbzuiuvgvxgpizsvqsbwepktpdrgdkmfdc\ncdfmkdgrdptkpewbsqvszipgxvgvuiuzbkkwuowbafkikgvnqdkxnayzdjygvezmtsgywnupocdntipiyiorblqkrzjpzatxahnm", "output": "NO" }, { "input": "dgxmzbqofstzcdgthbaewbwocowvhqpinehpjatnnbrijcolvsatbblsrxabzrpszoiecpwhfjmwuhqrapvtcgvikuxtzbftydkw\nwkdytfbztxukivgctvparqhuwmjfhwpceiozsprzbaxrslbbqasvlocjirbnntajphenipthvwocowbweabhtgdcztsfoqbzmxgd", "output": "NO" }, { "input": "gxoixiecetohtgjgbqzvlaobkhstejxdklghowtvwunnnvauriohuspsdmpzckprwajyxldoyckgjivjpmbfqtszmtocovxwgeh\nhegwxvocotmzstqfbmpjvijgkcyodlxyjawrpkczpmdspsuhoiruavnnnuwvtwohglkdxjetshkboalvzqbgjgthoteceixioxg", "output": "YES" }, { "input": "sihxuwvmaambplxvjfoskinghzicyfqebjtkysotattkahssumfcgrkheotdxwjckpvapbkaepqrxseyfrwtyaycmrzsrsngkh\nhkgnsrszrmcyaytwrfyesxrqpeakbpavpkcjwxdtoehkrgcfmusshakttatosyktjbeqfycizhgniksofjvxlpbmaamvwuxhis", "output": "YES" }, { "input": "ycnahksbughnonldzrhkysujmylcgcfuludjvjiahtkyzqvkopzqcnwhltbzfugzojqkjjlggmvnultascmygelkiktmfieok\nkoeifmtkiklegkmcsatlunvmggkjjlqjozgufzbtlhwncqzpokvqzykthaijvjdulufcgclymjusyyhrzdlnonhgubskhancy", "output": "NO" }, { "input": "wbqasaehtkfojruzyhrlgwmtyiovmzyfifslvlemhqheyaelzwnthrenjsbmntwaoryzwfbxmscmypvxlfmzpnkkjlvwvmtz\nztmvwvljkknpzmflxvpymcsmxbfwzyroawtnmbsjnerhtnwzleayehqhmelvlsfifyzmvoiytmwglrhyzurjofktheasaqbw", "output": "YES" }, { "input": "imippqurprbhfugngtgifelytadegwrgaefnfhbjjnmzikvjaccotqzemufqieqldgnbmviisgkynzeldlhqxuqphjfmyij\njiymfjhpquxqhldleznykgsiivmbngdlqeiqfumezqtoccajvkizmnjjbhfnfeagrwgedatylefigtgngufhbrpruqppimi", "output": "YES" }, { "input": "bikydffiuisckpvzqlteqfhegsagimodb\nbdomigasgehfqetlqzvpkcsiuiffdykib", "output": "YES" } ]	1,675,535,016	2,147,483,647	Python 3	OK	TESTS	40	92	4,300,800	def translation(s,t): for i in range(len(s)): if s[i] != t[len(t)-1-i]: return "NO" return "YES" def main(): s = str(input()) t = str(input()) ans = translation(s,t) print(ans) main()	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python def translation(s,t): for i in range(len(s)): if s[i] != t[len(t)-1-i]: return "NO" return "YES" def main(): s = str(input()) t = str(input()) ans = translation(s,t) print(ans) main() ```	3.968989
699	A	Launch of Collider	PROGRAMMING	1,000	[ "implementation" ]		null	null	There will be a launch of a new, powerful and unusual collider very soon, which located along a straight line. n particles will be launched inside it. All of them are located in a straight line and there can not be two or more particles located in the same point. The coordinates of the particles coincide with the distance in meters from the center of the collider, xi is the coordinate of the i-th particle and its position in the collider at the same time. All coordinates of particle positions are even integers. You know the direction of each particle movement — it will move to the right or to the left after the collider's launch start. All particles begin to move simultaneously at the time of the collider's launch start. Each particle will move straight to the left or straight to the right with the constant speed of 1 meter per microsecond. The collider is big enough so particles can not leave it in the foreseeable time. Write the program which finds the moment of the first collision of any two particles of the collider. In other words, find the number of microseconds before the first moment when any two particles are at the same point.	The first line contains the positive integer n (1<=≤<=n<=≤<=200<=000) — the number of particles. The second line contains n symbols "L" and "R". If the i-th symbol equals "L", then the i-th particle will move to the left, otherwise the i-th symbol equals "R" and the i-th particle will move to the right. The third line contains the sequence of pairwise distinct even integers x1,<=x2,<=...,<=xn (0<=≤<=xi<=≤<=109) — the coordinates of particles in the order from the left to the right. It is guaranteed that the coordinates of particles are given in the increasing order.	In the first line print the only integer — the first moment (in microseconds) when two particles are at the same point and there will be an explosion. Print the only integer -1, if the collision of particles doesn't happen.	[ "4\nRLRL\n2 4 6 10\n", "3\nLLR\n40 50 60\n" ]	[ "1\n", "-1\n" ]	In the first sample case the first explosion will happen in 1 microsecond because the particles number 1 and 2 will simultaneously be at the same point with the coordinate 3. In the second sample case there will be no explosion because there are no particles which will simultaneously be at the same point.	500	[ { "input": "4\nRLRL\n2 4 6 10", "output": "1" }, { "input": "3\nLLR\n40 50 60", "output": "-1" }, { "input": "4\nRLLR\n46 230 264 470", "output": "92" }, { "input": "6\nLLRLLL\n446 492 650 844 930 970", "output": "97" }, { "input": "8\nRRLLLLLL\n338 478 512 574 594 622 834 922", "output": "17" }, { "input": "10\nLRLRLLRRLR\n82 268 430 598 604 658 670 788 838 1000", "output": "3" }, { "input": "2\nRL\n0 1000000000", "output": "500000000" }, { "input": "12\nLRLLRRRRLRLL\n254 1260 1476 1768 2924 4126 4150 4602 5578 7142 8134 9082", "output": "108" }, { "input": "14\nRLLRRLRLLRLLLR\n698 2900 3476 3724 3772 3948 4320 4798 5680 6578 7754 8034 8300 8418", "output": "88" }, { "input": "16\nRRLLLRLRLLLLRLLR\n222 306 968 1060 1636 1782 2314 2710 3728 4608 5088 6790 6910 7156 7418 7668", "output": "123" }, { "input": "18\nRLRLLRRRLLLRLRRLRL\n1692 2028 2966 3008 3632 4890 5124 5838 6596 6598 6890 8294 8314 8752 8868 9396 9616 9808", "output": "10" }, { "input": "20\nRLLLLLLLRRRRLRRLRRLR\n380 902 1400 1834 2180 2366 2562 2596 2702 2816 3222 3238 3742 5434 6480 7220 7410 8752 9708 9970", "output": "252" }, { "input": "22\nLRRRRRRRRRRRLLRRRRRLRL\n1790 2150 2178 2456 2736 3282 3622 4114 4490 4772 5204 5240 5720 5840 5910 5912 6586 7920 8584 9404 9734 9830", "output": "48" }, { "input": "24\nLLRLRRLLRLRRRRLLRRLRLRRL\n100 360 864 1078 1360 1384 1438 2320 2618 3074 3874 3916 3964 5178 5578 6278 6630 6992 8648 8738 8922 8930 9276 9720", "output": "27" }, { "input": "26\nRLLLLLLLRLRRLRLRLRLRLLLRRR\n908 1826 2472 2474 2728 3654 3716 3718 3810 3928 4058 4418 4700 5024 5768 6006 6128 6386 6968 7040 7452 7774 7822 8726 9338 9402", "output": "59" }, { "input": "28\nRRLRLRRRRRRLLLRRLRRLLLRRLLLR\n156 172 1120 1362 2512 3326 3718 4804 4990 5810 6242 6756 6812 6890 6974 7014 7088 7724 8136 8596 8770 8840 9244 9250 9270 9372 9400 9626", "output": "10" }, { "input": "30\nRLLRLRLLRRRLRRRLLLLLLRRRLRRLRL\n128 610 1680 2436 2896 2994 3008 3358 3392 4020 4298 4582 4712 4728 5136 5900 6088 6232 6282 6858 6934 7186 7224 7256 7614 8802 8872 9170 9384 9794", "output": "7" }, { "input": "10\nLLLLRRRRRR\n0 2 4 6 8 10 12 14 16 18", "output": "-1" }, { "input": "5\nLLLLL\n0 10 20 30 40", "output": "-1" }, { "input": "6\nRRRRRR\n40 50 60 70 80 100", "output": "-1" }, { "input": "1\nR\n0", "output": "-1" }, { "input": "2\nRL\n2 1000000000", "output": "499999999" }, { "input": "2\nRL\n0 400000", "output": "200000" }, { "input": "2\nRL\n0 200002", "output": "100001" }, { "input": "2\nRL\n2 20000000", "output": "9999999" }, { "input": "4\nLLRL\n2 4 10 100", "output": "45" }, { "input": "4\nRLRL\n2 10 12 14", "output": "1" }, { "input": "2\nRL\n0 100000000", "output": "50000000" }, { "input": "2\nRL\n2 600002", "output": "300000" }, { "input": "1\nL\n0", "output": "-1" }, { "input": "2\nRL\n0 600000", "output": "300000" }, { "input": "5\nRRRRR\n0 2 4 6 8", "output": "-1" }, { "input": "2\nRL\n2 200000000", "output": "99999999" }, { "input": "2\nRL\n0 267382766", "output": "133691383" }, { "input": "3\nRRL\n4 8 999999998", "output": "499999995" }, { "input": "2\nRL\n0 2", "output": "1" }, { "input": "2\nRL\n2 400002", "output": "200000" }, { "input": "2\nLL\n2 4", "output": "-1" }, { "input": "2\nLL\n0 2", "output": "-1" }, { "input": "2\nRL\n0 100000", "output": "50000" }, { "input": "2\nRL\n2 200000020", "output": "100000009" }, { "input": "2\nRL\n2000000 4000000", "output": "1000000" }, { "input": "2\nRL\n0 199998", "output": "99999" }, { "input": "3\nLRR\n40 50 60", "output": "-1" }, { "input": "2\nRL\n200 400400", "output": "200100" }, { "input": "2\nRL\n2 400004", "output": "200001" }, { "input": "2\nRL\n0 200000000", "output": "100000000" } ]	1,587,272,717	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	2	124	0	n=int(input()) t=input() s=list(map(int,input().split())) if n==1: print(-1) else: p=0 for k in range(n-1): if t[k]=='R': if t[k+1]=='L': if s[k+1]-s[k]==2: p+=1 if p>0: print(p) else: print(-1)	Title: Launch of Collider Time Limit: None seconds Memory Limit: None megabytes Problem Description: There will be a launch of a new, powerful and unusual collider very soon, which located along a straight line. n particles will be launched inside it. All of them are located in a straight line and there can not be two or more particles located in the same point. The coordinates of the particles coincide with the distance in meters from the center of the collider, xi is the coordinate of the i-th particle and its position in the collider at the same time. All coordinates of particle positions are even integers. You know the direction of each particle movement — it will move to the right or to the left after the collider's launch start. All particles begin to move simultaneously at the time of the collider's launch start. Each particle will move straight to the left or straight to the right with the constant speed of 1 meter per microsecond. The collider is big enough so particles can not leave it in the foreseeable time. Write the program which finds the moment of the first collision of any two particles of the collider. In other words, find the number of microseconds before the first moment when any two particles are at the same point. Input Specification: The first line contains the positive integer n (1<=≤<=n<=≤<=200<=000) — the number of particles. The second line contains n symbols "L" and "R". If the i-th symbol equals "L", then the i-th particle will move to the left, otherwise the i-th symbol equals "R" and the i-th particle will move to the right. The third line contains the sequence of pairwise distinct even integers x1,<=x2,<=...,<=xn (0<=≤<=xi<=≤<=109) — the coordinates of particles in the order from the left to the right. It is guaranteed that the coordinates of particles are given in the increasing order. Output Specification: In the first line print the only integer — the first moment (in microseconds) when two particles are at the same point and there will be an explosion. Print the only integer -1, if the collision of particles doesn't happen. Demo Input: ['4\nRLRL\n2 4 6 10\n', '3\nLLR\n40 50 60\n'] Demo Output: ['1\n', '-1\n'] Note: In the first sample case the first explosion will happen in 1 microsecond because the particles number 1 and 2 will simultaneously be at the same point with the coordinate 3. In the second sample case there will be no explosion because there are no particles which will simultaneously be at the same point.	```python n=int(input()) t=input() s=list(map(int,input().split())) if n==1: print(-1) else: p=0 for k in range(n-1): if t[k]=='R': if t[k+1]=='L': if s[k+1]-s[k]==2: p+=1 if p>0: print(p) else: print(-1) ```	0
803	C	Maximal GCD	PROGRAMMING	1,900	[ "constructive algorithms", "greedy", "math" ]		null	null	You are given positive integer number n. You should create such strictly increasing sequence of k positive numbers a1,<=a2,<=...,<=ak, that their sum is equal to n and greatest common divisor is maximal. Greatest common divisor of sequence is maximum of such numbers that every element of sequence is divisible by them. If there is no possible sequence then output -1.	The first line consists of two numbers n and k (1<=≤<=n,<=k<=≤<=1010).	If the answer exists then output k numbers — resulting sequence. Otherwise output -1. If there are multiple answers, print any of them.	[ "6 3\n", "8 2\n", "5 3\n" ]	[ "1 2 3\n", "2 6\n", "-1\n" ]	none	0	[ { "input": "6 3", "output": "1 2 3" }, { "input": "8 2", "output": "2 6" }, { "input": "5 3", "output": "-1" }, { "input": "1 1", "output": "1" }, { "input": "1 2", "output": "-1" }, { "input": "2 1", "output": "2" }, { "input": "2 10000000000", "output": "-1" }, { "input": "5 1", "output": "5" }, { "input": "6 2", "output": "2 4" }, { "input": "24 2", "output": "8 16" }, { "input": "24 3", "output": "4 8 12" }, { "input": "24 4", "output": "2 4 6 12" }, { "input": "24 5", "output": "1 2 3 4 14" }, { "input": "479001600 2", "output": "159667200 319334400" }, { "input": "479001600 3", "output": "79833600 159667200 239500800" }, { "input": "479001600 4", "output": "47900160 95800320 143700480 191600640" }, { "input": "479001600 5", "output": "31933440 63866880 95800320 127733760 159667200" }, { "input": "479001600 6", "output": "22809600 45619200 68428800 91238400 114048000 136857600" }, { "input": "3000000021 1", "output": "3000000021" }, { "input": "3000000021 2", "output": "1000000007 2000000014" }, { "input": "3000000021 3", "output": "3 6 3000000012" }, { "input": "3000000021 4", "output": "3 6 9 3000000003" }, { "input": "3000000021 50000", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "3000000021 100000", "output": "-1" }, { "input": "10000000000 100", "output": "1953125 3906250 5859375 7812500 9765625 11718750 13671875 15625000 17578125 19531250 21484375 23437500 25390625 27343750 29296875 31250000 33203125 35156250 37109375 39062500 41015625 42968750 44921875 46875000 48828125 50781250 52734375 54687500 56640625 58593750 60546875 62500000 64453125 66406250 68359375 70312500 72265625 74218750 76171875 78125000 80078125 82031250 83984375 85937500 87890625 89843750 91796875 93750000 95703125 97656250 99609375 101562500 103515625 105468750 107421875 109375000 1113281..." }, { "input": "10000000000 2000", "output": "4000 8000 12000 16000 20000 24000 28000 32000 36000 40000 44000 48000 52000 56000 60000 64000 68000 72000 76000 80000 84000 88000 92000 96000 100000 104000 108000 112000 116000 120000 124000 128000 132000 136000 140000 144000 148000 152000 156000 160000 164000 168000 172000 176000 180000 184000 188000 192000 196000 200000 204000 208000 212000 216000 220000 224000 228000 232000 236000 240000 244000 248000 252000 256000 260000 264000 268000 272000 276000 280000 284000 288000 292000 296000 300000 304000 30800..." }, { "input": "10000000000 5000", "output": "640 1280 1920 2560 3200 3840 4480 5120 5760 6400 7040 7680 8320 8960 9600 10240 10880 11520 12160 12800 13440 14080 14720 15360 16000 16640 17280 17920 18560 19200 19840 20480 21120 21760 22400 23040 23680 24320 24960 25600 26240 26880 27520 28160 28800 29440 30080 30720 31360 32000 32640 33280 33920 34560 35200 35840 36480 37120 37760 38400 39040 39680 40320 40960 41600 42240 42880 43520 44160 44800 45440 46080 46720 47360 48000 48640 49280 49920 50560 51200 51840 52480 53120 53760 54400 55040 55680 56320..." }, { "input": "10000000000 100000", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "10000000000 100000000", "output": "-1" }, { "input": "10000000000 10000000000", "output": "-1" }, { "input": "10000000000 100001", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "1 4000000000", "output": "-1" }, { "input": "4294967296 4294967296", "output": "-1" }, { "input": "71227122 9603838834", "output": "-1" }, { "input": "10000000000 9603838835", "output": "-1" }, { "input": "5 5999999999", "output": "-1" }, { "input": "2 9324327498", "output": "-1" }, { "input": "9 2", "output": "3 6" }, { "input": "10000000000 4294967296", "output": "-1" }, { "input": "1 3500000000", "output": "-1" }, { "input": "10000000000 4000000000", "output": "-1" }, { "input": "2000 9324327498", "output": "-1" }, { "input": "10000000000 8589934592", "output": "-1" }, { "input": "5000150001 100001", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "10000000000 3037000500", "output": "-1" }, { "input": "9400000000 9324327498", "output": "-1" }, { "input": "10000000000 3307000500", "output": "-1" }, { "input": "2 4000000000", "output": "-1" }, { "input": "1000 4294967295", "output": "-1" }, { "input": "36 3", "output": "6 12 18" }, { "input": "2147483648 4294967296", "output": "-1" }, { "input": "999 4294967295", "output": "-1" }, { "input": "10000000000 130000", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "10000000000 140000", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "10000000000 6074001000", "output": "-1" }, { "input": "12344321 1", "output": "12344321" }, { "input": "2 2", "output": "-1" }, { "input": "28 7", "output": "1 2 3 4 5 6 7" }, { "input": "1 1", "output": "1" }, { "input": "1 2", "output": "-1" }, { "input": "1 3", "output": "-1" }, { "input": "1 4", "output": "-1" }, { "input": "1 5", "output": "-1" }, { "input": "1 6", "output": "-1" }, { "input": "1 7", "output": "-1" }, { "input": "1 8", "output": "-1" }, { "input": "1 9", "output": "-1" }, { "input": "1 10", "output": "-1" }, { "input": "2 1", "output": "2" }, { "input": "2 2", "output": "-1" }, { "input": "2 3", "output": "-1" }, { "input": "2 4", "output": "-1" }, { "input": "2 5", "output": "-1" }, { "input": "2 6", "output": "-1" }, { "input": "2 7", "output": "-1" }, { "input": "2 8", "output": "-1" }, { "input": "2 9", "output": "-1" }, { "input": "2 10", "output": "-1" }, { "input": "3 1", "output": "3" }, { "input": "3 2", "output": "1 2" }, { "input": "3 3", "output": "-1" }, { "input": "3 4", "output": "-1" }, { "input": "3 5", "output": "-1" }, { "input": "3 6", "output": "-1" }, { "input": "3 7", "output": "-1" }, { "input": "3 8", "output": "-1" }, { "input": "3 9", "output": "-1" }, { "input": "3 10", "output": "-1" }, { "input": "4 1", "output": "4" }, { "input": "4 2", "output": "1 3" }, { "input": "4 3", "output": "-1" }, { "input": "4 4", "output": "-1" }, { "input": "4 5", "output": "-1" }, { "input": "4 6", "output": "-1" }, { "input": "4 7", "output": "-1" }, { "input": "4 8", "output": "-1" }, { "input": "4 9", "output": "-1" }, { "input": "4 10", "output": "-1" }, { "input": "5 1", "output": "5" }, { "input": "5 2", "output": "1 4" }, { "input": "5 3", "output": "-1" }, { "input": "5 4", "output": "-1" }, { "input": "5 5", "output": "-1" }, { "input": "5 6", "output": "-1" }, { "input": "5 7", "output": "-1" }, { "input": "5 8", "output": "-1" }, { "input": "5 9", "output": "-1" }, { "input": "5 10", "output": "-1" }, { "input": "6 1", "output": "6" }, { "input": "6 2", "output": "2 4" }, { "input": "6 3", "output": "1 2 3" }, { "input": "6 4", "output": "-1" }, { "input": "6 5", "output": "-1" }, { "input": "6 6", "output": "-1" }, { "input": "6 7", "output": "-1" }, { "input": "6 8", "output": "-1" }, { "input": "6 9", "output": "-1" }, { "input": "6 10", "output": "-1" }, { "input": "7 1", "output": "7" }, { "input": "7 2", "output": "1 6" }, { "input": "7 3", "output": "1 2 4" }, { "input": "7 4", "output": "-1" }, { "input": "7 5", "output": "-1" }, { "input": "7 6", "output": "-1" }, { "input": "7 7", "output": "-1" }, { "input": "7 8", "output": "-1" }, { "input": "7 9", "output": "-1" }, { "input": "7 10", "output": "-1" }, { "input": "8 1", "output": "8" }, { "input": "8 2", "output": "2 6" }, { "input": "8 3", "output": "1 2 5" }, { "input": "8 4", "output": "-1" }, { "input": "8 5", "output": "-1" }, { "input": "8 6", "output": "-1" }, { "input": "8 7", "output": "-1" }, { "input": "8 8", "output": "-1" }, { "input": "8 9", "output": "-1" }, { "input": "8 10", "output": "-1" } ]	1,558,724,411	2,147,483,647	PyPy 3	OK	TESTS	138	358	9,420,800	#Bhargey Mehta (Sophomore) #DA-IICT, Gandhinagar import sys, math, queue #sys.stdin = open("input.txt", "r") MOD = 10*9+7 sys.setrecursionlimit(1000000) n, k = map(int, input().split()) f = [] i = 1 while ii <= n: if n%i == 0: f.append(i) f.append(n//i) i += 1 f.sort(reverse=True) for g in f: if (k(k+1))//2 <= n//g: x = [i for i in range(1, k)] x.append(n//g - (k(k-1))//2) for i in range(k): print(x[i]*g, end=" ") exit() print(-1)	Title: Maximal GCD Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given positive integer number n. You should create such strictly increasing sequence of k positive numbers a1,<=a2,<=...,<=ak, that their sum is equal to n and greatest common divisor is maximal. Greatest common divisor of sequence is maximum of such numbers that every element of sequence is divisible by them. If there is no possible sequence then output -1. Input Specification: The first line consists of two numbers n and k (1<=≤<=n,<=k<=≤<=1010). Output Specification: If the answer exists then output k numbers — resulting sequence. Otherwise output -1. If there are multiple answers, print any of them. Demo Input: ['6 3\n', '8 2\n', '5 3\n'] Demo Output: ['1 2 3\n', '2 6\n', '-1\n'] Note: none	```python #Bhargey Mehta (Sophomore) #DA-IICT, Gandhinagar import sys, math, queue #sys.stdin = open("input.txt", "r") MOD = 10*9+7 sys.setrecursionlimit(1000000) n, k = map(int, input().split()) f = [] i = 1 while ii <= n: if n%i == 0: f.append(i) f.append(n//i) i += 1 f.sort(reverse=True) for g in f: if (k(k+1))//2 <= n//g: x = [i for i in range(1, k)] x.append(n//g - (k(k-1))//2) for i in range(k): print(x[i]*g, end=" ") exit() print(-1) ```	3
652	A	Gabriel and Caterpillar	PROGRAMMING	1,400	[ "implementation", "math" ]		null	null	The 9-th grade student Gabriel noticed a caterpillar on a tree when walking around in a forest after the classes. The caterpillar was on the height h1 cm from the ground. On the height h2 cm (h2<=><=h1) on the same tree hung an apple and the caterpillar was crawling to the apple. Gabriel is interested when the caterpillar gets the apple. He noted that the caterpillar goes up by a cm per hour by day and slips down by b cm per hour by night. In how many days Gabriel should return to the forest to see the caterpillar get the apple. You can consider that the day starts at 10 am and finishes at 10 pm. Gabriel's classes finish at 2 pm. You can consider that Gabriel noticed the caterpillar just after the classes at 2 pm. Note that the forest is magic so the caterpillar can slip down under the ground and then lift to the apple.	The first line contains two integers h1,<=h2 (1<=≤<=h1<=<<=h2<=≤<=105) — the heights of the position of the caterpillar and the apple in centimeters. The second line contains two integers a,<=b (1<=≤<=a,<=b<=≤<=105) — the distance the caterpillar goes up by day and slips down by night, in centimeters per hour.	Print the only integer k — the number of days Gabriel should wait to return to the forest and see the caterpillar getting the apple. If the caterpillar can't get the apple print the only integer <=-<=1.	[ "10 30\n2 1\n", "10 13\n1 1\n", "10 19\n1 2\n", "1 50\n5 4\n" ]	[ "1\n", "0\n", "-1\n", "1\n" ]	In the first example at 10 pm of the first day the caterpillar gets the height 26. At 10 am of the next day it slips down to the height 14. And finally at 6 pm of the same day the caterpillar gets the apple. Note that in the last example the caterpillar was slipping down under the ground and getting the apple on the next day.	0	[ { "input": "10 30\n2 1", "output": "1" }, { "input": "10 13\n1 1", "output": "0" }, { "input": "10 19\n1 2", "output": "-1" }, { "input": "1 50\n5 4", "output": "1" }, { "input": "1 1000\n2 1", "output": "82" }, { "input": "999 1000\n1 1", "output": "0" }, { "input": "999 1000\n1 1000", "output": "0" }, { "input": "1 1000\n999 1", "output": "0" }, { "input": "1 1000\n100 99", "output": "17" }, { "input": "500 509\n1 1", "output": "-1" }, { "input": "500 555\n6 1", "output": "1" }, { "input": "1 100000\n2 1", "output": "8332" }, { "input": "99990 100000\n1 1", "output": "-1" }, { "input": "90000 100000\n2 1", "output": "832" }, { "input": "10 100000\n1 100000", "output": "-1" }, { "input": "1 41\n5 6", "output": "0" }, { "input": "1 100000\n1 100000", "output": "-1" }, { "input": "1 9\n1 1", "output": "0" }, { "input": "8 16\n1 12", "output": "0" }, { "input": "14 30\n2 1", "output": "0" }, { "input": "7245 77828\n6224 92468", "output": "-1" }, { "input": "43951 66098\n1604 35654", "output": "-1" }, { "input": "1 2\n4 3", "output": "0" }, { "input": "90493 94279\n468 49", "output": "1" }, { "input": "1 50\n3 1", "output": "2" }, { "input": "26300 88310\n7130 351", "output": "1" }, { "input": "1 17\n2 2", "output": "0" }, { "input": "10718 75025\n7083 6958", "output": "6" }, { "input": "1 10\n1 100000", "output": "-1" }, { "input": "1 190\n10 1", "output": "2" }, { "input": "24951 85591\n3090 8945", "output": "-1" }, { "input": "1 25\n3 2", "output": "0" }, { "input": "27043 88418\n7273 7", "output": "1" }, { "input": "35413 75637\n4087 30166", "output": "-1" }, { "input": "1 18\n2 3", "output": "-1" }, { "input": "1 16\n2 2", "output": "0" }, { "input": "1 18\n2 1", "output": "1" }, { "input": "1 10\n2 2", "output": "0" }, { "input": "1 30\n2 1", "output": "2" }, { "input": "1 100000\n10000 100000", "output": "-1" }, { "input": "4444 33425\n2758 44", "output": "1" }, { "input": "1 100000\n10 99910", "output": "-1" }, { "input": "12 100\n6 11", "output": "-1" }, { "input": "100 100000\n10 11", "output": "-1" }, { "input": "28473 80380\n2568 95212", "output": "-1" }, { "input": "10 105\n10 1", "output": "1" }, { "input": "4642 39297\n3760 451", "output": "1" }, { "input": "1 90\n10 1", "output": "1" }, { "input": "2 100\n1 100000", "output": "-1" }, { "input": "1 100000\n1000 100000", "output": "-1" }, { "input": "1 45\n1 100000", "output": "-1" }, { "input": "12 1000\n100 1", "output": "1" }, { "input": "64635 76564\n100 34238", "output": "-1" }, { "input": "10 90\n10 12", "output": "0" }, { "input": "49238 81395\n3512 251", "output": "1" }, { "input": "6497 62133\n309 50077", "output": "-1" }, { "input": "1 100\n1 100000", "output": "-1" }, { "input": "1 10000\n1 10000", "output": "-1" }, { "input": "55674 93249\n846 1", "output": "4" }, { "input": "10 90\n9 10", "output": "-1" }, { "input": "23110 69794\n171 808", "output": "-1" }, { "input": "1 100000\n1 10000", "output": "-1" }, { "input": "1 9\n1 2", "output": "0" }, { "input": "58750 81357\n2 98022", "output": "-1" }, { "input": "82125 89348\n894 91369", "output": "-1" }, { "input": "25401 53663\n957 30449", "output": "-1" }, { "input": "2 12\n1 2", "output": "-1" }, { "input": "1 10000\n1 100000", "output": "-1" }, { "input": "1 100000\n1 99999", "output": "-1" }, { "input": "1 149\n8 2", "output": "2" }, { "input": "3 100\n1 1", "output": "-1" }, { "input": "1 18\n2 2", "output": "-1" }, { "input": "1 77\n9 1", "output": "1" }, { "input": "7330 94486\n968 141", "output": "9" }, { "input": "89778 98176\n863 61", "output": "1" }, { "input": "1 70\n6 5", "output": "2" } ]	1,641,455,549	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	15	0	h1=int(input()) h2=int(input()) a=int(input()) b=int(input()) if(b>=a) : if(((h2-h1)/a)>8) : print("-1") else : print("0") else : h=(h2-h1)+((a8)-(b12)) d=int((h/(a-b))/24) print(d)	Title: Gabriel and Caterpillar Time Limit: None seconds Memory Limit: None megabytes Problem Description: The 9-th grade student Gabriel noticed a caterpillar on a tree when walking around in a forest after the classes. The caterpillar was on the height h1 cm from the ground. On the height h2 cm (h2<=><=h1) on the same tree hung an apple and the caterpillar was crawling to the apple. Gabriel is interested when the caterpillar gets the apple. He noted that the caterpillar goes up by a cm per hour by day and slips down by b cm per hour by night. In how many days Gabriel should return to the forest to see the caterpillar get the apple. You can consider that the day starts at 10 am and finishes at 10 pm. Gabriel's classes finish at 2 pm. You can consider that Gabriel noticed the caterpillar just after the classes at 2 pm. Note that the forest is magic so the caterpillar can slip down under the ground and then lift to the apple. Input Specification: The first line contains two integers h1,<=h2 (1<=≤<=h1<=<<=h2<=≤<=105) — the heights of the position of the caterpillar and the apple in centimeters. The second line contains two integers a,<=b (1<=≤<=a,<=b<=≤<=105) — the distance the caterpillar goes up by day and slips down by night, in centimeters per hour. Output Specification: Print the only integer k — the number of days Gabriel should wait to return to the forest and see the caterpillar getting the apple. If the caterpillar can't get the apple print the only integer <=-<=1. Demo Input: ['10 30\n2 1\n', '10 13\n1 1\n', '10 19\n1 2\n', '1 50\n5 4\n'] Demo Output: ['1\n', '0\n', '-1\n', '1\n'] Note: In the first example at 10 pm of the first day the caterpillar gets the height 26. At 10 am of the next day it slips down to the height 14. And finally at 6 pm of the same day the caterpillar gets the apple. Note that in the last example the caterpillar was slipping down under the ground and getting the apple on the next day.	```python h1=int(input()) h2=int(input()) a=int(input()) b=int(input()) if(b>=a) : if(((h2-h1)/a)>8) : print("-1") else : print("0") else : h=(h2-h1)+((a8)-(b12)) d=int((h/(a-b))/24) print(d) ```	-1
443	A	Anton and Letters	PROGRAMMING	800	[ "constructive algorithms", "implementation" ]		null	null	Recently, Anton has found a set. The set consists of small English letters. Anton carefully wrote out all the letters from the set in one line, separated by a comma. He also added an opening curved bracket at the beginning of the line and a closing curved bracket at the end of the line. Unfortunately, from time to time Anton would forget writing some letter and write it again. He asks you to count the total number of distinct letters in his set.	The first and the single line contains the set of letters. The length of the line doesn't exceed 1000. It is guaranteed that the line starts from an opening curved bracket and ends with a closing curved bracket. Between them, small English letters are listed, separated by a comma. Each comma is followed by a space.	Print a single number — the number of distinct letters in Anton's set.	[ "{a, b, c}\n", "{b, a, b, a}\n", "{}\n" ]	[ "3\n", "2\n", "0\n" ]	none	500	[ { "input": "{a, b, c}", "output": "3" }, { "input": "{b, a, b, a}", "output": "2" }, { "input": "{}", "output": "0" }, { "input": "{a, a, c, b, b, b, c, c, c, c}", "output": "3" }, { "input": "{a, c, b, b}", "output": "3" }, { "input": "{a, b}", "output": "2" }, { "input": "{a}", "output": "1" }, { "input": "{b, a, b, a, b, c, c, b, c, b}", "output": "3" }, { "input": "{e, g, c, e}", "output": "3" }, { "input": "{a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a}", "output": "1" }, { "input": "{a, a, b}", "output": "2" }, { "input": "{a, b, b, b, a, b, a, a, a, a, a, a, b, a, b, a, a, a, a, a, b, a, b, a}", "output": "2" }, { "input": "{j, u, a, c, f, w, e, w, x, t, h, p, v, n, i, l, x, n, i, b, u, c, a, a}", "output": "16" }, { "input": "{x, i, w, c, p, e, h, z, k, i}", "output": "9" }, { "input": "{t, k, o, x, r, d, q, j, k, e, z, w, y, r, z, s, s, e, s, b, k, i}", "output": "15" }, { "input": "{y}", "output": "1" }, { "input": "{x}", "output": "1" }, { "input": "{b, z, a, z}", "output": "3" }, { "input": "{z}", "output": "1" }, { "input": "{a, z}", "output": "2" }, { "input": "{a, b, z}", "output": "3" }, { "input": "{s, q, z, r, t, a, b, h, j, i, o, z, r, q}", "output": "11" } ]	1,690,647,782	2,147,483,647	PyPy 3	OK	TESTS	27	78	0	a=input() l=[] for i in range(len(a)): if a[i]>='a' and a[i]<='z': l.append(a[i]) l=set(l) print(len(l))	Title: Anton and Letters Time Limit: None seconds Memory Limit: None megabytes Problem Description: Recently, Anton has found a set. The set consists of small English letters. Anton carefully wrote out all the letters from the set in one line, separated by a comma. He also added an opening curved bracket at the beginning of the line and a closing curved bracket at the end of the line. Unfortunately, from time to time Anton would forget writing some letter and write it again. He asks you to count the total number of distinct letters in his set. Input Specification: The first and the single line contains the set of letters. The length of the line doesn't exceed 1000. It is guaranteed that the line starts from an opening curved bracket and ends with a closing curved bracket. Between them, small English letters are listed, separated by a comma. Each comma is followed by a space. Output Specification: Print a single number — the number of distinct letters in Anton's set. Demo Input: ['{a, b, c}\n', '{b, a, b, a}\n', '{}\n'] Demo Output: ['3\n', '2\n', '0\n'] Note: none	```python a=input() l=[] for i in range(len(a)): if a[i]>='a' and a[i]<='z': l.append(a[i]) l=set(l) print(len(l)) ```	3
522	A	Reposts	PROGRAMMING	1,200	[ "*special", "dfs and similar", "dp", "graphs", "trees" ]		null	null	One day Polycarp published a funny picture in a social network making a poll about the color of his handle. Many of his friends started reposting Polycarp's joke to their news feed. Some of them reposted the reposts and so on. These events are given as a sequence of strings "name1 reposted name2", where name1 is the name of the person who reposted the joke, and name2 is the name of the person from whose news feed the joke was reposted. It is guaranteed that for each string "name1 reposted name2" user "name1" didn't have the joke in his feed yet, and "name2" already had it in his feed by the moment of repost. Polycarp was registered as "Polycarp" and initially the joke was only in his feed. Polycarp measures the popularity of the joke as the length of the largest repost chain. Print the popularity of Polycarp's joke.	The first line of the input contains integer n (1<=≤<=n<=≤<=200) — the number of reposts. Next follow the reposts in the order they were made. Each of them is written on a single line and looks as "name1 reposted name2". All the names in the input consist of lowercase or uppercase English letters and/or digits and have lengths from 2 to 24 characters, inclusive. We know that the user names are case-insensitive, that is, two names that only differ in the letter case correspond to the same social network user.	Print a single integer — the maximum length of a repost chain.	[ "5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya\n", "6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforces reposted Polycarp\n", "1\nSoMeStRaNgEgUe reposted PoLyCaRp\n" ]	[ "6\n", "2\n", "2\n" ]	none	500	[ { "input": "5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya", "output": "6" }, { "input": "6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforces reposted Polycarp", "output": "2" }, { "input": "1\nSoMeStRaNgEgUe reposted PoLyCaRp", "output": "2" }, { "input": "1\niuNtwVf reposted POlYcarP", "output": "2" }, { "input": "10\ncs reposted poLYCaRp\nAFIkDrY7Of4V7Mq reposted CS\nsoBiwyN7KOvoFUfbhux reposted aFikDry7Of4v7MQ\nvb6LbwA reposted sObIWYN7KOvoFufBHUx\nDtWKIcVwIHgj4Rcv reposted vb6lbwa\nkt reposted DTwKicvwihgJ4rCV\n75K reposted kT\njKzyxx1 reposted 75K\nuoS reposted jkZyXX1\npZJskHTCIqE3YyZ5ME reposted uoS", "output": "11" }, { "input": "10\nvxrUpCXvx8Isq reposted pOLYcaRP\nICb1 reposted vXRUpCxvX8ISq\nJFMt4b8jZE7iF2m8by7y2 reposted Icb1\nqkG6ZkMIf9QRrBFQU reposted ICb1\nnawsNfcR2palIMnmKZ reposted pOlYcaRP\nKksyH reposted jFMT4b8JzE7If2M8by7y2\nwJtWwQS5FvzN0h8CxrYyL reposted NawsNfcR2paLIMnmKz\nDpBcBPYAcTXEdhldI6tPl reposted NaWSnFCr2pALiMnmkZ\nlEnwTVnlwdQg2vaIRQry reposted kKSYh\nQUVFgwllaWO reposted Wjtwwqs5FVzN0H8cxRyyl", "output": "6" }, { "input": "10\nkkuLGEiHv reposted POLYcArp\n3oX1AoUqyw1eR3nCADY9hLwd reposted kkuLGeIHV\nwf97dqq5bx1dPIchCoT reposted 3OX1AOuQYW1eR3ncAdY9hLwD\nWANr8h reposted Wf97dQQ5bx1dpIcHcoT\n3Fb736lkljZK2LtSbfL reposted wANR8h\n6nq9xLOn reposted 3fB736lKlJZk2LtSbFL\nWL reposted 3Fb736lKLjZk2LTSbfl\ndvxn4Xtc6SBcvKf1 reposted wF97DQq5bX1dPiChCOt\nMCcPLIMISqxDzrj reposted 6nQ9XLOn\nxsQL4Z2Iu reposted MCcpLiMiSqxdzrj", "output": "9" }, { "input": "10\nsMA4 reposted pOLyCARP\nlq3 reposted pOlycARp\nEa16LSFTQxLJnE reposted polYcARp\nkvZVZhJwXcWsnC7NA1DV2WvS reposted polYCArp\nEYqqlrjRwddI reposted pOlyCArP\nsPqQCA67Y6PBBbcaV3EhooO reposted ea16LSFTqxLJne\njjPnneZdF6WLZ3v reposted Ea16LSFTqxLjNe\nWEoi6UpnfBUx79 reposted ea16LSFtqXljNe\nqi4yra reposted eYqqlRJrWDDI\ncw7E1UCSUD reposted eYqqLRJRwDdI", "output": "3" } ]	1,533,411,790	2,147,483,647	Python 3	OK	TESTS	36	171	819,200	from queue import Queue n = int(input()) lines = [] users = set() table = {} used = [] for i in range(n): line = input().lower() lines.append(line) users.add(line.split(" ")[0]) users.add(line.split(" ")[2]) for index, user in enumerate(users): table[user] = index graph = [[] for i in range(len(table))] used = [False for i in range(len(table))] distances = [0 for i in range(len(table))] for line in lines: user1 = table[line.split(" ")[0]] user2 = table[line.split(" ")[2]] graph[user1].append(user2) graph[user2].append(user1) queue = Queue() polycarp = table['polycarp'] used[polycarp] = True queue.put(polycarp) while not queue.empty(): vertex = queue.get() for i in graph[vertex]: if not used[i]: queue.put(i) used[i] = True distances[i] = distances[vertex] + 1 print(max(distances) + 1)	Title: Reposts Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Polycarp published a funny picture in a social network making a poll about the color of his handle. Many of his friends started reposting Polycarp's joke to their news feed. Some of them reposted the reposts and so on. These events are given as a sequence of strings "name1 reposted name2", where name1 is the name of the person who reposted the joke, and name2 is the name of the person from whose news feed the joke was reposted. It is guaranteed that for each string "name1 reposted name2" user "name1" didn't have the joke in his feed yet, and "name2" already had it in his feed by the moment of repost. Polycarp was registered as "Polycarp" and initially the joke was only in his feed. Polycarp measures the popularity of the joke as the length of the largest repost chain. Print the popularity of Polycarp's joke. Input Specification: The first line of the input contains integer n (1<=≤<=n<=≤<=200) — the number of reposts. Next follow the reposts in the order they were made. Each of them is written on a single line and looks as "name1 reposted name2". All the names in the input consist of lowercase or uppercase English letters and/or digits and have lengths from 2 to 24 characters, inclusive. We know that the user names are case-insensitive, that is, two names that only differ in the letter case correspond to the same social network user. Output Specification: Print a single integer — the maximum length of a repost chain. Demo Input: ['5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya\n', '6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforces reposted Polycarp\n', '1\nSoMeStRaNgEgUe reposted PoLyCaRp\n'] Demo Output: ['6\n', '2\n', '2\n'] Note: none	```python from queue import Queue n = int(input()) lines = [] users = set() table = {} used = [] for i in range(n): line = input().lower() lines.append(line) users.add(line.split(" ")[0]) users.add(line.split(" ")[2]) for index, user in enumerate(users): table[user] = index graph = [[] for i in range(len(table))] used = [False for i in range(len(table))] distances = [0 for i in range(len(table))] for line in lines: user1 = table[line.split(" ")[0]] user2 = table[line.split(" ")[2]] graph[user1].append(user2) graph[user2].append(user1) queue = Queue() polycarp = table['polycarp'] used[polycarp] = True queue.put(polycarp) while not queue.empty(): vertex = queue.get() for i in graph[vertex]: if not used[i]: queue.put(i) used[i] = True distances[i] = distances[vertex] + 1 print(max(distances) + 1) ```	3
2	A	Winner	PROGRAMMING	1,500	[ "hashing", "implementation" ]	A. Winner	1	64	The winner of the card game popular in Berland "Berlogging" is determined according to the following rules. If at the end of the game there is only one player with the maximum number of points, he is the winner. The situation becomes more difficult if the number of such players is more than one. During each round a player gains or loses a particular number of points. In the course of the game the number of points is registered in the line "name score", where name is a player's name, and score is the number of points gained in this round, which is an integer number. If score is negative, this means that the player has lost in the round. So, if two or more players have the maximum number of points (say, it equals to m) at the end of the game, than wins the one of them who scored at least m points first. Initially each player has 0 points. It's guaranteed that at the end of the game at least one player has a positive number of points.	The first line contains an integer number n (1<=<=≤<=<=n<=<=≤<=<=1000), n is the number of rounds played. Then follow n lines, containing the information about the rounds in "name score" format in chronological order, where name is a string of lower-case Latin letters with the length from 1 to 32, and score is an integer number between -1000 and 1000, inclusive.	Print the name of the winner.	[ "3\nmike 3\nandrew 5\nmike 2\n", "3\nandrew 3\nandrew 2\nmike 5\n" ]	[ "andrew\n", "andrew\n" ]	none	0	[ { "input": "3\nmike 3\nandrew 5\nmike 2", "output": "andrew" }, { "input": "3\nandrew 3\nandrew 2\nmike 5", "output": "andrew" }, { "input": "5\nkaxqybeultn -352\nmgochgrmeyieyskhuourfg -910\nkaxqybeultn 691\nmgochgrmeyieyskhuourfg -76\nkaxqybeultn -303", "output": "kaxqybeultn" }, { "input": "7\nksjuuerbnlklcfdjeyq 312\ndthjlkrvvbyahttifpdewvyslsh -983\nksjuuerbnlklcfdjeyq 268\ndthjlkrvvbyahttifpdewvyslsh 788\nksjuuerbnlklcfdjeyq -79\nksjuuerbnlklcfdjeyq -593\nksjuuerbnlklcfdjeyq 734", "output": "ksjuuerbnlklcfdjeyq" }, { "input": "12\natrtthfpcvishmqbakprquvnejr 185\natrtthfpcvishmqbakprquvnejr -699\natrtthfpcvishmqbakprquvnejr -911\natrtthfpcvishmqbakprquvnejr -220\nfcgslzkicjrpbqaifgweyzreajjfdo 132\nfcgslzkicjrpbqaifgweyzreajjfdo -242\nm 177\nm -549\natrtthfpcvishmqbakprquvnejr -242\nm 38\natrtthfpcvishmqbakprquvnejr -761\nfcgslzkicjrpbqaifgweyzreajjfdo 879", "output": "fcgslzkicjrpbqaifgweyzreajjfdo" }, { "input": "15\naawtvezfntstrcpgbzjbf 681\nzhahpvqiptvksnbjkdvmknb -74\naawtvezfntstrcpgbzjbf 661\njpdwmyke 474\naawtvezfntstrcpgbzjbf -547\naawtvezfntstrcpgbzjbf 600\nzhahpvqiptvksnbjkdvmknb -11\njpdwmyke 711\nbjmj 652\naawtvezfntstrcpgbzjbf -1000\naawtvezfntstrcpgbzjbf -171\nbjmj -302\naawtvezfntstrcpgbzjbf 961\nzhahpvqiptvksnbjkdvmknb 848\nbjmj -735", "output": "aawtvezfntstrcpgbzjbf" }, { "input": "17\nqdplghhx -649\nivhgbxiv 424\nivhgbxiv -72\nivhgbxiv 479\nugowfouebkelargxylsxn 83\nugowfouebkelargxylsxn -840\nivhgbxiv 382\nqdplghhx -904\nivhgbxiv -710\nugowfouebkelargxylsxn -838\nqdplghhx -974\nqdplghhx 571\nivhgbxiv -145\nugowfouebkelargxylsxn -788\nivhgbxiv 209\nivhgbxiv 420\nqdplghhx -158", "output": "ivhgbxiv" } ]	1,682,841,638	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	60	0	# Hydro submission #644e202474221a4e24c95d7b@1682841636624 n = int(input()) dic = {} names = [] scores = [] max_score = 0 winner = [] for i in range(n): name, score = input().split() names.append(name) scores.append(int(score)) if name not in dic: dic[name] = int(score) else: dic[name] += int(score) max_score = max(max_score, dic[name]) for key, value in dic.items(): if value == max_score: winner.append(key) if len(winner) == 1: print(winner[0]) else: dic2 = {} for i in range(n): if dic[names[i]] == max_score: if names[i] not in dic2: dic2[names[i]] = scores[i] else: dic2[names[i]] += scores[i] if dic2[names[i]] >= max_score: print(names[i]) break	Title: Winner Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: The winner of the card game popular in Berland "Berlogging" is determined according to the following rules. If at the end of the game there is only one player with the maximum number of points, he is the winner. The situation becomes more difficult if the number of such players is more than one. During each round a player gains or loses a particular number of points. In the course of the game the number of points is registered in the line "name score", where name is a player's name, and score is the number of points gained in this round, which is an integer number. If score is negative, this means that the player has lost in the round. So, if two or more players have the maximum number of points (say, it equals to m) at the end of the game, than wins the one of them who scored at least m points first. Initially each player has 0 points. It's guaranteed that at the end of the game at least one player has a positive number of points. Input Specification: The first line contains an integer number n (1<=<=≤<=<=n<=<=≤<=<=1000), n is the number of rounds played. Then follow n lines, containing the information about the rounds in "name score" format in chronological order, where name is a string of lower-case Latin letters with the length from 1 to 32, and score is an integer number between -1000 and 1000, inclusive. Output Specification: Print the name of the winner. Demo Input: ['3\nmike 3\nandrew 5\nmike 2\n', '3\nandrew 3\nandrew 2\nmike 5\n'] Demo Output: ['andrew\n', 'andrew\n'] Note: none	```python # Hydro submission #644e202474221a4e24c95d7b@1682841636624 n = int(input()) dic = {} names = [] scores = [] max_score = 0 winner = [] for i in range(n): name, score = input().split() names.append(name) scores.append(int(score)) if name not in dic: dic[name] = int(score) else: dic[name] += int(score) max_score = max(max_score, dic[name]) for key, value in dic.items(): if value == max_score: winner.append(key) if len(winner) == 1: print(winner[0]) else: dic2 = {} for i in range(n): if dic[names[i]] == max_score: if names[i] not in dic2: dic2[names[i]] = scores[i] else: dic2[names[i]] += scores[i] if dic2[names[i]] >= max_score: print(names[i]) break ```	0
281	A	Word Capitalization	PROGRAMMING	800	[ "implementation", "strings" ]		null	null	Capitalization is writing a word with its first letter as a capital letter. Your task is to capitalize the given word. Note, that during capitalization all the letters except the first one remains unchanged.	A single line contains a non-empty word. This word consists of lowercase and uppercase English letters. The length of the word will not exceed 103.	Output the given word after capitalization.	[ "ApPLe\n", "konjac\n" ]	[ "ApPLe\n", "Konjac\n" ]	none	500	[ { "input": "ApPLe", "output": "ApPLe" }, { "input": "konjac", "output": "Konjac" }, { "input": "a", "output": "A" }, { "input": "A", "output": "A" }, { "input": "z", "output": "Z" }, { "input": "ABACABA", "output": "ABACABA" }, { "input": "xYaPxPxHxGePfGtQySlNrLxSjDtNnTaRaEpAhPaQpWnDzMqGgRgEwJxGiBdZnMtHxFbObCaGiCeZkUqIgBhHtNvAqAlHpMnQhNeQbMyZrCdElVwHtKrPpJjIaHuIlYwHaRkAkUpPlOhNlBtXwDsKzPyHrPiUwNlXtTaPuMwTqYtJySgFoXvLiHbQwMjSvXsQfKhVlOxGdQkWjBhEyQvBjPoFkThNeRhTuIzFjInJtEfPjOlOsJpJuLgLzFnZmKvFgFrNsOnVqFcNiMfCqTpKnVyLwNqFiTySpWeTdFnWuTwDkRjVxNyQvTrOoEiExYiFaIrLoFmJfZcDkHuWjYfCeEqCvEsZiWnJaEmFbMjDvYwEeJeGcKbVbChGsIzNlExHzHiTlHcSaKxLuZxX", "output": "XYaPxPxHxGePfGtQySlNrLxSjDtNnTaRaEpAhPaQpWnDzMqGgRgEwJxGiBdZnMtHxFbObCaGiCeZkUqIgBhHtNvAqAlHpMnQhNeQbMyZrCdElVwHtKrPpJjIaHuIlYwHaRkAkUpPlOhNlBtXwDsKzPyHrPiUwNlXtTaPuMwTqYtJySgFoXvLiHbQwMjSvXsQfKhVlOxGdQkWjBhEyQvBjPoFkThNeRhTuIzFjInJtEfPjOlOsJpJuLgLzFnZmKvFgFrNsOnVqFcNiMfCqTpKnVyLwNqFiTySpWeTdFnWuTwDkRjVxNyQvTrOoEiExYiFaIrLoFmJfZcDkHuWjYfCeEqCvEsZiWnJaEmFbMjDvYwEeJeGcKbVbChGsIzNlExHzHiTlHcSaKxLuZxX" }, { "input": "rZhIcQlXpNcPgXrOjTiOlMoTgXgIhCfMwZfWoFzGhEkQlOoMjIuShPlZfWkNnMyQfYdUhVgQuSmYoElEtZpDyHtOxXgCpWbZqSbYnPqBcNqRtPgCnJnAyIvNsAhRbNeVlMwZyRyJnFgIsCnSbOdLvUyIeOzQvRpMoMoHfNhHwKvTcHuYnYySfPmAiNwAiWdZnWlLvGfBbRbRrCrBqIgIdWkWiBsNyYkKdNxZdGaToSsDnXpRaGrKxBpQsCzBdQgZzBkGeHgGxNrIyQlSzWsTmSnZwOcHqQpNcQvJlPvKaPiQaMaYsQjUeCqQdCjPgUbDmWiJmNiXgExLqOcCtSwSePnUxIuZfIfBeWbEiVbXnUsPwWyAiXyRbZgKwOqFfCtQuKxEmVeRlAkOeXkO", "output": "RZhIcQlXpNcPgXrOjTiOlMoTgXgIhCfMwZfWoFzGhEkQlOoMjIuShPlZfWkNnMyQfYdUhVgQuSmYoElEtZpDyHtOxXgCpWbZqSbYnPqBcNqRtPgCnJnAyIvNsAhRbNeVlMwZyRyJnFgIsCnSbOdLvUyIeOzQvRpMoMoHfNhHwKvTcHuYnYySfPmAiNwAiWdZnWlLvGfBbRbRrCrBqIgIdWkWiBsNyYkKdNxZdGaToSsDnXpRaGrKxBpQsCzBdQgZzBkGeHgGxNrIyQlSzWsTmSnZwOcHqQpNcQvJlPvKaPiQaMaYsQjUeCqQdCjPgUbDmWiJmNiXgExLqOcCtSwSePnUxIuZfIfBeWbEiVbXnUsPwWyAiXyRbZgKwOqFfCtQuKxEmVeRlAkOeXkO" }, { "input": "hDgZlUmLhYbLkLcNcKeOwJwTePbOvLaRvNzQbSbLsPeHqLhUqWtUbNdQfQqFfXeJqJwWuOrFnDdZiPxIkDyVmHbHvXfIlFqSgAcSyWbOlSlRuPhWdEpEzEeLnXwCtWuVcHaUeRgCiYsIvOaIgDnFuDbRnMoCmPrZfLeFpSjQaTfHgZwZvAzDuSeNwSoWuJvLqKqAuUxFaCxFfRcEjEsJpOfCtDiVrBqNsNwPuGoRgPzRpLpYnNyQxKaNnDnYiJrCrVcHlOxPiPcDbEgKfLwBjLhKcNeMgJhJmOiJvPfOaPaEuGqWvRbErKrIpDkEoQnKwJnTlStLyNsHyOjZfKoIjXwUvRrWpSyYhRpQdLqGmErAiNcGqAqIrTeTiMuPmCrEkHdBrLyCxPtYpRqD", "output": "HDgZlUmLhYbLkLcNcKeOwJwTePbOvLaRvNzQbSbLsPeHqLhUqWtUbNdQfQqFfXeJqJwWuOrFnDdZiPxIkDyVmHbHvXfIlFqSgAcSyWbOlSlRuPhWdEpEzEeLnXwCtWuVcHaUeRgCiYsIvOaIgDnFuDbRnMoCmPrZfLeFpSjQaTfHgZwZvAzDuSeNwSoWuJvLqKqAuUxFaCxFfRcEjEsJpOfCtDiVrBqNsNwPuGoRgPzRpLpYnNyQxKaNnDnYiJrCrVcHlOxPiPcDbEgKfLwBjLhKcNeMgJhJmOiJvPfOaPaEuGqWvRbErKrIpDkEoQnKwJnTlStLyNsHyOjZfKoIjXwUvRrWpSyYhRpQdLqGmErAiNcGqAqIrTeTiMuPmCrEkHdBrLyCxPtYpRqD" }, { "input": "qUdLgGrJeGmIzIeZrCjUtBpYfRvNdXdRpGsThIsEmJjTiMqEwRxBeBaSxEuWrNvExKePjPnXhPzBpWnHiDhTvZhBuIjDnZpTcEkCvRkAcTmMuXhGgErWgFyGyToOyVwYlCuQpTfJkVdWmFyBqQhJjYtXrBbFdHzDlGsFbHmHbFgXgFhIyDhZyEqEiEwNxSeByBwLiVeSnCxIdHbGjOjJrZeVkOzGeMmQrJkVyGhDtCzOlPeAzGrBlWwEnAdUfVaIjNrRyJjCnHkUvFuKuKeKbLzSbEmUcXtVkZzXzKlOrPgQiDmCcCvIyAdBwOeUuLbRmScNcWxIkOkJuIsBxTrIqXhDzLcYdVtPgZdZfAxTmUtByGiTsJkSySjXdJvEwNmSmNoWsChPdAzJrBoW", "output": "QUdLgGrJeGmIzIeZrCjUtBpYfRvNdXdRpGsThIsEmJjTiMqEwRxBeBaSxEuWrNvExKePjPnXhPzBpWnHiDhTvZhBuIjDnZpTcEkCvRkAcTmMuXhGgErWgFyGyToOyVwYlCuQpTfJkVdWmFyBqQhJjYtXrBbFdHzDlGsFbHmHbFgXgFhIyDhZyEqEiEwNxSeByBwLiVeSnCxIdHbGjOjJrZeVkOzGeMmQrJkVyGhDtCzOlPeAzGrBlWwEnAdUfVaIjNrRyJjCnHkUvFuKuKeKbLzSbEmUcXtVkZzXzKlOrPgQiDmCcCvIyAdBwOeUuLbRmScNcWxIkOkJuIsBxTrIqXhDzLcYdVtPgZdZfAxTmUtByGiTsJkSySjXdJvEwNmSmNoWsChPdAzJrBoW" }, { "input": "kHbApGoBcLmIwUlXkVgUmWzYeLoDbGaOkWbIuXoRwMfKuOoMzAoXrBoTvYxGrMbRjDuRxAbGsTnErIiHnHoLeRnTbFiRfDdOkNlWiAcOsChLdLqFqXlDpDoDtPxXqAmSvYgPvOcCpOlWtOjYwFkGkHuCaHwZcFdOfHjBmIxTeSiHkWjXyFcCtOlSuJsZkDxUgPeZkJwMmNpErUlBcGuMlJwKkWnOzFeFiSiPsEvMmQiCsYeHlLuHoMgBjFoZkXlObDkSoQcVyReTmRsFzRhTuIvCeBqVsQdQyTyZjStGrTyDcEcAgTgMiIcVkLbZbGvWeHtXwEqWkXfTcPyHhHjYwIeVxLyVmHmMkUsGiHmNnQuMsXaFyPpVqNrBhOiWmNkBbQuHvQdOjPjKiZcL", "output": "KHbApGoBcLmIwUlXkVgUmWzYeLoDbGaOkWbIuXoRwMfKuOoMzAoXrBoTvYxGrMbRjDuRxAbGsTnErIiHnHoLeRnTbFiRfDdOkNlWiAcOsChLdLqFqXlDpDoDtPxXqAmSvYgPvOcCpOlWtOjYwFkGkHuCaHwZcFdOfHjBmIxTeSiHkWjXyFcCtOlSuJsZkDxUgPeZkJwMmNpErUlBcGuMlJwKkWnOzFeFiSiPsEvMmQiCsYeHlLuHoMgBjFoZkXlObDkSoQcVyReTmRsFzRhTuIvCeBqVsQdQyTyZjStGrTyDcEcAgTgMiIcVkLbZbGvWeHtXwEqWkXfTcPyHhHjYwIeVxLyVmHmMkUsGiHmNnQuMsXaFyPpVqNrBhOiWmNkBbQuHvQdOjPjKiZcL" }, { "input": "aHmRbLgNuWkLxLnWvUbYwTeZeYiOlLhTuOvKfLnVmCiPcMkSgVrYjZiLuRjCiXhAnVzVcTlVeJdBvPdDfFvHkTuIhCdBjEsXbVmGcLrPfNvRdFsZkSdNpYsJeIhIcNqSoLkOjUlYlDmXsOxPbQtIoUxFjGnRtBhFaJvBeEzHsAtVoQbAfYjJqReBiKeUwRqYrUjPjBoHkOkPzDwEwUgTxQxAvKzUpMhKyOhPmEhYhItQwPeKsKaKlUhGuMcTtSwFtXfJsDsFlTtOjVvVfGtBtFlQyIcBaMsPaJlPqUcUvLmReZiFbXxVtRhTzJkLkAjVqTyVuFeKlTyQgUzMsXjOxQnVfTaWmThEnEoIhZeZdStBkKeLpAhJnFoJvQyGwDiStLjEwGfZwBuWsEfC", "output": "AHmRbLgNuWkLxLnWvUbYwTeZeYiOlLhTuOvKfLnVmCiPcMkSgVrYjZiLuRjCiXhAnVzVcTlVeJdBvPdDfFvHkTuIhCdBjEsXbVmGcLrPfNvRdFsZkSdNpYsJeIhIcNqSoLkOjUlYlDmXsOxPbQtIoUxFjGnRtBhFaJvBeEzHsAtVoQbAfYjJqReBiKeUwRqYrUjPjBoHkOkPzDwEwUgTxQxAvKzUpMhKyOhPmEhYhItQwPeKsKaKlUhGuMcTtSwFtXfJsDsFlTtOjVvVfGtBtFlQyIcBaMsPaJlPqUcUvLmReZiFbXxVtRhTzJkLkAjVqTyVuFeKlTyQgUzMsXjOxQnVfTaWmThEnEoIhZeZdStBkKeLpAhJnFoJvQyGwDiStLjEwGfZwBuWsEfC" }, { "input": "sLlZkDiDmEdNaXuUuJwHqYvRtOdGfTiTpEpAoSqAbJaChOiCvHgSwZwEuPkMmXiLcKdXqSsEyViEbZpZsHeZpTuXoGcRmOiQfBfApPjDqSqElWeSeOhUyWjLyNoRuYeGfGwNqUsQoTyVvWeNgNdZfDxGwGfLsDjIdInSqDlMuNvFaHbScZkTlVwNcJpEjMaPaOtFgJjBjOcLlLmDnQrShIrJhOcUmPnZhTxNeClQsZaEaVaReLyQpLwEqJpUwYhLiRzCzKfOoFeTiXzPiNbOsZaZaLgCiNnMkBcFwGgAwPeNyTxJcCtBgXcToKlWaWcBaIvBpNxPeClQlWeQqRyEtAkJdBtSrFdDvAbUlKyLdCuTtXxFvRcKnYnWzVdYqDeCmOqPxUaFjQdTdCtN", "output": "SLlZkDiDmEdNaXuUuJwHqYvRtOdGfTiTpEpAoSqAbJaChOiCvHgSwZwEuPkMmXiLcKdXqSsEyViEbZpZsHeZpTuXoGcRmOiQfBfApPjDqSqElWeSeOhUyWjLyNoRuYeGfGwNqUsQoTyVvWeNgNdZfDxGwGfLsDjIdInSqDlMuNvFaHbScZkTlVwNcJpEjMaPaOtFgJjBjOcLlLmDnQrShIrJhOcUmPnZhTxNeClQsZaEaVaReLyQpLwEqJpUwYhLiRzCzKfOoFeTiXzPiNbOsZaZaLgCiNnMkBcFwGgAwPeNyTxJcCtBgXcToKlWaWcBaIvBpNxPeClQlWeQqRyEtAkJdBtSrFdDvAbUlKyLdCuTtXxFvRcKnYnWzVdYqDeCmOqPxUaFjQdTdCtN" }, { "input": "iRuStKvVhJdJbQwRoIuLiVdTpKaOqKfYlYwAzIpPtUwUtMeKyCaOlXmVrKwWeImYmVuXdLkRlHwFxKqZbZtTzNgOzDbGqTfZnKmUzAcIjDcEmQgYyFbEfWzRpKvCkDmAqDiIiRcLvMxWaJqCgYqXgIcLdNaZlBnXtJyKaMnEaWfXfXwTbDnAiYnWqKbAtDpYdUbZrCzWgRnHzYxFgCdDbOkAgTqBuLqMeStHcDxGnVhSgMzVeTaZoTfLjMxQfRuPcFqVlRyYdHyOdJsDoCeWrUuJyIiAqHwHyVpEeEoMaJwAoUfPtBeJqGhMaHiBjKwAlXoZpUsDhHgMxBkVbLcEvNtJbGnPsUwAvXrAkTlXwYvEnOpNeWyIkRnEnTrIyAcLkRgMyYcKrGiDaAyE", "output": "IRuStKvVhJdJbQwRoIuLiVdTpKaOqKfYlYwAzIpPtUwUtMeKyCaOlXmVrKwWeImYmVuXdLkRlHwFxKqZbZtTzNgOzDbGqTfZnKmUzAcIjDcEmQgYyFbEfWzRpKvCkDmAqDiIiRcLvMxWaJqCgYqXgIcLdNaZlBnXtJyKaMnEaWfXfXwTbDnAiYnWqKbAtDpYdUbZrCzWgRnHzYxFgCdDbOkAgTqBuLqMeStHcDxGnVhSgMzVeTaZoTfLjMxQfRuPcFqVlRyYdHyOdJsDoCeWrUuJyIiAqHwHyVpEeEoMaJwAoUfPtBeJqGhMaHiBjKwAlXoZpUsDhHgMxBkVbLcEvNtJbGnPsUwAvXrAkTlXwYvEnOpNeWyIkRnEnTrIyAcLkRgMyYcKrGiDaAyE" }, { "input": "cRtJkOxHzUbJcDdHzJtLbVmSoWuHoTkVrPqQaVmXeBrHxJbQfNrQbAaMrEhVdQnPxNyCjErKxPoEdWkVrBbDeNmEgBxYiBtWdAfHiLuSwIxJuHpSkAxPoYdNkGoLySsNhUmGoZhDzAfWhJdPlJzQkZbOnMtTkClIoCqOlIcJcMlGjUyOiEmHdYfIcPtTgQhLlLcPqQjAnQnUzHpCaQsCnYgQsBcJrQwBnWsIwFfSfGuYgTzQmShFpKqEeRlRkVfMuZbUsDoFoPrNuNwTtJqFkRiXxPvKyElDzLoUnIwAaBaOiNxMpEvPzSpGpFhMtGhGdJrFnZmNiMcUfMtBnDuUnXqDcMsNyGoLwLeNnLfRsIwRfBtXkHrFcPsLdXaAoYaDzYnZuQeVcZrElWmP", "output": "CRtJkOxHzUbJcDdHzJtLbVmSoWuHoTkVrPqQaVmXeBrHxJbQfNrQbAaMrEhVdQnPxNyCjErKxPoEdWkVrBbDeNmEgBxYiBtWdAfHiLuSwIxJuHpSkAxPoYdNkGoLySsNhUmGoZhDzAfWhJdPlJzQkZbOnMtTkClIoCqOlIcJcMlGjUyOiEmHdYfIcPtTgQhLlLcPqQjAnQnUzHpCaQsCnYgQsBcJrQwBnWsIwFfSfGuYgTzQmShFpKqEeRlRkVfMuZbUsDoFoPrNuNwTtJqFkRiXxPvKyElDzLoUnIwAaBaOiNxMpEvPzSpGpFhMtGhGdJrFnZmNiMcUfMtBnDuUnXqDcMsNyGoLwLeNnLfRsIwRfBtXkHrFcPsLdXaAoYaDzYnZuQeVcZrElWmP" }, { "input": "wVaCsGxZrBbFnTbKsCoYlAvUkIpBaYpYmJkMlPwCaFvUkDxAiJgIqWsFqZlFvTtAnGzEwXbYiBdFfFxRiDoUkLmRfAwOlKeOlKgXdUnVqLkTuXtNdQpBpXtLvZxWoBeNePyHcWmZyRiUkPlRqYiQdGeXwOhHbCqVjDcEvJmBkRwWnMqPjXpUsIyXqGjHsEsDwZiFpIbTkQaUlUeFxMwJzSaHdHnDhLaLdTuYgFuJsEcMmDvXyPjKsSeBaRwNtPuOuBtNeOhQdVgKzPzOdYtPjPfDzQzHoWcYjFbSvRgGdGsCmGnQsErToBkCwGeQaCbBpYkLhHxTbUvRnJpZtXjKrHdRiUmUbSlJyGaLnWsCrJbBnSjFaZrIzIrThCmGhQcMsTtOxCuUcRaEyPaG", "output": "WVaCsGxZrBbFnTbKsCoYlAvUkIpBaYpYmJkMlPwCaFvUkDxAiJgIqWsFqZlFvTtAnGzEwXbYiBdFfFxRiDoUkLmRfAwOlKeOlKgXdUnVqLkTuXtNdQpBpXtLvZxWoBeNePyHcWmZyRiUkPlRqYiQdGeXwOhHbCqVjDcEvJmBkRwWnMqPjXpUsIyXqGjHsEsDwZiFpIbTkQaUlUeFxMwJzSaHdHnDhLaLdTuYgFuJsEcMmDvXyPjKsSeBaRwNtPuOuBtNeOhQdVgKzPzOdYtPjPfDzQzHoWcYjFbSvRgGdGsCmGnQsErToBkCwGeQaCbBpYkLhHxTbUvRnJpZtXjKrHdRiUmUbSlJyGaLnWsCrJbBnSjFaZrIzIrThCmGhQcMsTtOxCuUcRaEyPaG" }, { "input": "kEiLxLmPjGzNoGkJdBlAfXhThYhMsHmZoZbGyCvNiUoLoZdAxUbGyQiEfXvPzZzJrPbEcMpHsMjIkRrVvDvQtHuKmXvGpQtXbPzJpFjJdUgWcPdFxLjLtXgVpEiFhImHnKkGiWnZbJqRjCyEwHsNbYfYfTyBaEuKlCtWnOqHmIgGrFmQiYrBnLiFcGuZxXlMfEuVoCxPkVrQvZoIpEhKsYtXrPxLcSfQqXsWaDgVlOnAzUvAhOhMrJfGtWcOwQfRjPmGhDyAeXrNqBvEiDfCiIvWxPjTwPlXpVsMjVjUnCkXgBuWnZaDyJpWkCfBrWnHxMhJgItHdRqNrQaEeRjAuUwRkUdRhEeGlSqVqGmOjNcUhFfXjCmWzBrGvIuZpRyWkWiLyUwFpYjNmNfV", "output": "KEiLxLmPjGzNoGkJdBlAfXhThYhMsHmZoZbGyCvNiUoLoZdAxUbGyQiEfXvPzZzJrPbEcMpHsMjIkRrVvDvQtHuKmXvGpQtXbPzJpFjJdUgWcPdFxLjLtXgVpEiFhImHnKkGiWnZbJqRjCyEwHsNbYfYfTyBaEuKlCtWnOqHmIgGrFmQiYrBnLiFcGuZxXlMfEuVoCxPkVrQvZoIpEhKsYtXrPxLcSfQqXsWaDgVlOnAzUvAhOhMrJfGtWcOwQfRjPmGhDyAeXrNqBvEiDfCiIvWxPjTwPlXpVsMjVjUnCkXgBuWnZaDyJpWkCfBrWnHxMhJgItHdRqNrQaEeRjAuUwRkUdRhEeGlSqVqGmOjNcUhFfXjCmWzBrGvIuZpRyWkWiLyUwFpYjNmNfV" }, { "input": "eIhDoLmDeReKqXsHcVgFxUqNfScAiQnFrTlCgSuTtXiYvBxKaPaGvUeYfSgHqEaWcHxKpFaSlCxGqAmNeFcIzFcZsBiVoZhUjXaDaIcKoBzYdIlEnKfScRqSkYpPtVsVhXsBwUsUfAqRoCkBxWbHgDiCkRtPvUwVgDjOzObYwNiQwXlGnAqEkHdSqLgUkOdZiWaHqQnOhUnDhIzCiQtVcJlGoRfLuVlFjWqSuMsLgLwOdZvKtWdRuRqDoBoInKqPbJdXpIqLtFlMlDaWgSiKbFpCxOnQeNeQzXeKsBzIjCyPxCmBnYuHzQoYxZgGzSgGtZiTeQmUeWlNzZeKiJbQmEjIiDhPeSyZlNdHpZnIkPdJzSeJpPiXxToKyBjJfPwNzZpWzIzGySqPxLtI", "output": "EIhDoLmDeReKqXsHcVgFxUqNfScAiQnFrTlCgSuTtXiYvBxKaPaGvUeYfSgHqEaWcHxKpFaSlCxGqAmNeFcIzFcZsBiVoZhUjXaDaIcKoBzYdIlEnKfScRqSkYpPtVsVhXsBwUsUfAqRoCkBxWbHgDiCkRtPvUwVgDjOzObYwNiQwXlGnAqEkHdSqLgUkOdZiWaHqQnOhUnDhIzCiQtVcJlGoRfLuVlFjWqSuMsLgLwOdZvKtWdRuRqDoBoInKqPbJdXpIqLtFlMlDaWgSiKbFpCxOnQeNeQzXeKsBzIjCyPxCmBnYuHzQoYxZgGzSgGtZiTeQmUeWlNzZeKiJbQmEjIiDhPeSyZlNdHpZnIkPdJzSeJpPiXxToKyBjJfPwNzZpWzIzGySqPxLtI" }, { "input": "uOoQzIeTwYeKpJtGoUdNiXbPgEwVsZkAnJcArHxIpEnEhZwQhZvAiOuLeMkVqLeDsAyKeYgFxGmRoLaRsZjAeXgNfYhBkHeDrHdPuTuYhKmDlAvYzYxCdYgYfVaYlGeVqTeSfBxQePbQrKsTaIkGzMjFrQlJuYaMxWpQkLdEcDsIiMnHnDtThRvAcKyGwBsHqKdXpJfIeTeZtYjFbMeUoXoXzGrShTwSwBpQlKeDrZdCjRqNtXoTsIzBkWbMsObTtDvYaPhUeLeHqHeMpZmTaCcIqXzAmGnPfNdDaFhOqWqDrWuFiBpRjZrQmAdViOuMbFfRyXyWfHgRkGpPnDrEqQcEmHcKpEvWlBrOtJbUaXbThJaSxCbVoGvTmHvZrHvXpCvLaYbRiHzYuQyX", "output": "UOoQzIeTwYeKpJtGoUdNiXbPgEwVsZkAnJcArHxIpEnEhZwQhZvAiOuLeMkVqLeDsAyKeYgFxGmRoLaRsZjAeXgNfYhBkHeDrHdPuTuYhKmDlAvYzYxCdYgYfVaYlGeVqTeSfBxQePbQrKsTaIkGzMjFrQlJuYaMxWpQkLdEcDsIiMnHnDtThRvAcKyGwBsHqKdXpJfIeTeZtYjFbMeUoXoXzGrShTwSwBpQlKeDrZdCjRqNtXoTsIzBkWbMsObTtDvYaPhUeLeHqHeMpZmTaCcIqXzAmGnPfNdDaFhOqWqDrWuFiBpRjZrQmAdViOuMbFfRyXyWfHgRkGpPnDrEqQcEmHcKpEvWlBrOtJbUaXbThJaSxCbVoGvTmHvZrHvXpCvLaYbRiHzYuQyX" }, { "input": "lZqBqKeGvNdSeYuWxRiVnFtYbKuJwQtUcKnVtQhAlOeUzMaAuTaEnDdPfDcNyHgEoBmYjZyFePeJrRiKyAzFnBfAuGiUyLrIeLrNhBeBdVcEeKgCcBrQzDsPwGcNnZvTsEaYmFfMeOmMdNuZbUtDoQoNcGwDqEkEjIdQaPwAxJbXeNxOgKgXoEbZiIsVkRrNpNyAkLeHkNfEpLuQvEcMbIoGaDzXbEtNsLgGfOkZaFiUsOvEjVeCaMcZqMzKeAdXxJsVeCrZaFpJtZxInQxFaSmGgSsVyGeLlFgFqTpIbAvPkIfJrVcJeBxSdEvPyVwIjHpYrLrKqLnAmCuGmPoZrSbOtGaLaTmBmSuUyAmAsRiMqOtRjJhPhAfXaJnTpLbFqPmJgFcBxImTqIiJ", "output": "LZqBqKeGvNdSeYuWxRiVnFtYbKuJwQtUcKnVtQhAlOeUzMaAuTaEnDdPfDcNyHgEoBmYjZyFePeJrRiKyAzFnBfAuGiUyLrIeLrNhBeBdVcEeKgCcBrQzDsPwGcNnZvTsEaYmFfMeOmMdNuZbUtDoQoNcGwDqEkEjIdQaPwAxJbXeNxOgKgXoEbZiIsVkRrNpNyAkLeHkNfEpLuQvEcMbIoGaDzXbEtNsLgGfOkZaFiUsOvEjVeCaMcZqMzKeAdXxJsVeCrZaFpJtZxInQxFaSmGgSsVyGeLlFgFqTpIbAvPkIfJrVcJeBxSdEvPyVwIjHpYrLrKqLnAmCuGmPoZrSbOtGaLaTmBmSuUyAmAsRiMqOtRjJhPhAfXaJnTpLbFqPmJgFcBxImTqIiJ" }, { "input": "P", "output": "P" }, { "input": "Xyzzy", "output": "Xyzzy" }, { "input": "Zzz", "output": "Zzz" }, { "input": "Zp", "output": "Zp" } ]	1,695,018,605	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	60	0	def code(str): if str[0].isUpper(): return str return str[0].upper() + str[1:] input_str = input() result = code(input_str) print(result)	Title: Word Capitalization Time Limit: None seconds Memory Limit: None megabytes Problem Description: Capitalization is writing a word with its first letter as a capital letter. Your task is to capitalize the given word. Note, that during capitalization all the letters except the first one remains unchanged. Input Specification: A single line contains a non-empty word. This word consists of lowercase and uppercase English letters. The length of the word will not exceed 103. Output Specification: Output the given word after capitalization. Demo Input: ['ApPLe\n', 'konjac\n'] Demo Output: ['ApPLe\n', 'Konjac\n'] Note: none	```python def code(str): if str[0].isUpper(): return str return str[0].upper() + str[1:] input_str = input() result = code(input_str) print(result) ```	-1
460	A	Vasya and Socks	PROGRAMMING	900	[ "brute force", "implementation", "math" ]		null	null	Vasya has n pairs of socks. In the morning of each day Vasya has to put on a pair of socks before he goes to school. When he comes home in the evening, Vasya takes off the used socks and throws them away. Every m-th day (at days with numbers m,<=2m,<=3m,<=...) mom buys a pair of socks to Vasya. She does it late in the evening, so that Vasya cannot put on a new pair of socks before the next day. How many consecutive days pass until Vasya runs out of socks?	The single line contains two integers n and m (1<=≤<=n<=≤<=100; 2<=≤<=m<=≤<=100), separated by a space.	Print a single integer — the answer to the problem.	[ "2 2\n", "9 3\n" ]	[ "3\n", "13\n" ]	In the first sample Vasya spends the first two days wearing the socks that he had initially. Then on day three he puts on the socks that were bought on day two. In the second sample Vasya spends the first nine days wearing the socks that he had initially. Then he spends three days wearing the socks that were bought on the third, sixth and ninth days. Than he spends another day wearing the socks that were bought on the twelfth day.	500	[ { "input": "2 2", "output": "3" }, { "input": "9 3", "output": "13" }, { "input": "1 2", "output": "1" }, { "input": "2 3", "output": "2" }, { "input": "1 99", "output": "1" }, { "input": "4 4", "output": "5" }, { "input": "10 2", "output": "19" }, { "input": "10 9", "output": "11" }, { "input": "100 100", "output": "101" }, { "input": "2 27", "output": "2" }, { "input": "99 100", "output": "99" }, { "input": "99 2", "output": "197" }, { "input": "100 3", "output": "149" }, { "input": "98 3", "output": "146" }, { "input": "4 4", "output": "5" }, { "input": "100 2", "output": "199" }, { "input": "62 4", "output": "82" }, { "input": "99 10", "output": "109" }, { "input": "100 5", "output": "124" }, { "input": "80 80", "output": "81" }, { "input": "95 16", "output": "101" }, { "input": "75 16", "output": "79" }, { "input": "99 74", "output": "100" }, { "input": "20 21", "output": "20" }, { "input": "52 96", "output": "52" }, { "input": "24 5", "output": "29" } ]	1,676,815,589	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	6	46	0	n, m = map(float,input().split()) i=n/m+n while (n/m)<1: print(int(n)) break if i%m!=0 and i%m<=1: print (int(i)) elif i%m==0: i+=1 print(int(i))	Title: Vasya and Socks Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasya has n pairs of socks. In the morning of each day Vasya has to put on a pair of socks before he goes to school. When he comes home in the evening, Vasya takes off the used socks and throws them away. Every m-th day (at days with numbers m,<=2m,<=3m,<=...) mom buys a pair of socks to Vasya. She does it late in the evening, so that Vasya cannot put on a new pair of socks before the next day. How many consecutive days pass until Vasya runs out of socks? Input Specification: The single line contains two integers n and m (1<=≤<=n<=≤<=100; 2<=≤<=m<=≤<=100), separated by a space. Output Specification: Print a single integer — the answer to the problem. Demo Input: ['2 2\n', '9 3\n'] Demo Output: ['3\n', '13\n'] Note: In the first sample Vasya spends the first two days wearing the socks that he had initially. Then on day three he puts on the socks that were bought on day two. In the second sample Vasya spends the first nine days wearing the socks that he had initially. Then he spends three days wearing the socks that were bought on the third, sixth and ninth days. Than he spends another day wearing the socks that were bought on the twelfth day.	```python n, m = map(float,input().split()) i=n/m+n while (n/m)<1: print(int(n)) break if i%m!=0 and i%m<=1: print (int(i)) elif i%m==0: i+=1 print(int(i)) ```	0
1,009	D	Relatively Prime Graph	PROGRAMMING	1,700	[ "brute force", "constructive algorithms", "graphs", "greedy", "math" ]		null	null	Let's call an undirected graph $G = (V, E)$ relatively prime if and only if for each edge $(v, u) \in E$ $GCD(v, u) = 1$ (the greatest common divisor of $v$ and $u$ is $1$). If there is no edge between some pair of vertices $v$ and $u$ then the value of $GCD(v, u)$ doesn't matter. The vertices are numbered from $1$ to $\|V\|$. Construct a relatively prime graph with $n$ vertices and $m$ edges such that it is connected and it contains neither self-loops nor multiple edges. If there exists no valid graph with the given number of vertices and edges then output "Impossible". If there are multiple answers then print any of them.	The only line contains two integers $n$ and $m$ ($1 \le n, m \le 10^5$) — the number of vertices and the number of edges.	If there exists no valid graph with the given number of vertices and edges then output "Impossible". Otherwise print the answer in the following format: The first line should contain the word "Possible". The $i$-th of the next $m$ lines should contain the $i$-th edge $(v_i, u_i)$ of the resulting graph ($1 \le v_i, u_i \le n, v_i \neq u_i$). For each pair $(v, u)$ there can be no more pairs $(v, u)$ or $(u, v)$. The vertices are numbered from $1$ to $n$. If there are multiple answers then print any of them.	[ "5 6\n", "6 12\n" ]	[ "Possible\n2 5\n3 2\n5 1\n3 4\n4 1\n5 4\n", "Impossible\n" ]	Here is the representation of the graph from the first example: <img class="tex-graphics" src="https://espresso.codeforces.com/7a1353a992545456c007e3071fa0a06fe46fc64e.png" style="max-width: 100.0%;max-height: 100.0%;"/>	0	[ { "input": "5 6", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n3 2\n5 2" }, { "input": "6 12", "output": "Impossible" }, { "input": "572 99643", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "571 99403", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "100 3043", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "10 31", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n3 2\n5 2\n7 2\n9 2\n4 3\n5 3\n7 3\n8 3\n10 3\n5 4\n7 4\n9 4\n6 5\n7 5\n8 5\n9 5\n7 6\n8 7\n9 7\n10 7\n9 8\n10 9" }, { "input": "1 1", "output": "Impossible" }, { "input": "2 1", "output": "Possible\n2 1" }, { "input": "100000 1", "output": "Impossible" }, { "input": "100000 99999", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "100000 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "1000 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "572 99644", "output": "Impossible" }, { "input": "571 99404", "output": "Impossible" }, { "input": "100 3044", "output": "Impossible" }, { "input": "10 32", "output": "Impossible" }, { "input": "100000 99998", "output": "Impossible" }, { "input": "55910 88645", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "72050 72069", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "53599 55493", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "56557 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "1001 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "50000 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "530 100000", "output": "Impossible" }, { "input": "46133 100000", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n6 1\n7 1\n8 1\n9 1\n10 1\n11 1\n12 1\n13 1\n14 1\n15 1\n16 1\n17 1\n18 1\n19 1\n20 1\n21 1\n22 1\n23 1\n24 1\n25 1\n26 1\n27 1\n28 1\n29 1\n30 1\n31 1\n32 1\n33 1\n34 1\n35 1\n36 1\n37 1\n38 1\n39 1\n40 1\n41 1\n42 1\n43 1\n44 1\n45 1\n46 1\n47 1\n48 1\n49 1\n50 1\n51 1\n52 1\n53 1\n54 1\n55 1\n56 1\n57 1\n58 1\n59 1\n60 1\n61 1\n62 1\n63 1\n64 1\n65 1\n66 1\n67 1\n68 1\n69 1\n70 1\n71 1\n72 1\n73 1\n74 1\n75 1\n76 1\n77 1\n78 1\n79 1\n80 1\n81 1\n82 1\n83 1\n84 1\n85 1\n86 1\n..." }, { "input": "2 2", "output": "Impossible" }, { "input": "3 2", "output": "Possible\n2 1\n3 1" }, { "input": "1 1", "output": "Impossible" }, { "input": "1 2", "output": "Impossible" }, { "input": "1 3", "output": "Impossible" }, { "input": "1 4", "output": "Impossible" }, { "input": "1 5", "output": "Impossible" }, { "input": "2 1", "output": "Possible\n2 1" }, { "input": "2 2", "output": "Impossible" }, { "input": "2 3", "output": "Impossible" }, { "input": "2 4", "output": "Impossible" }, { "input": "2 5", "output": "Impossible" }, { "input": "3 1", "output": "Impossible" }, { "input": "3 2", "output": "Possible\n2 1\n3 1" }, { "input": "3 3", "output": "Possible\n2 1\n3 1\n3 2" }, { "input": "3 4", "output": "Impossible" }, { "input": "3 5", "output": "Impossible" }, { "input": "4 1", "output": "Impossible" }, { "input": "4 2", "output": "Impossible" }, { "input": "4 3", "output": "Possible\n2 1\n3 1\n4 1" }, { "input": "4 4", "output": "Possible\n2 1\n3 1\n4 1\n3 2" }, { "input": "4 5", "output": "Possible\n2 1\n3 1\n4 1\n3 2\n4 3" }, { "input": "5 1", "output": "Impossible" }, { "input": "5 2", "output": "Impossible" }, { "input": "5 3", "output": "Impossible" }, { "input": "5 4", "output": "Possible\n2 1\n3 1\n4 1\n5 1" }, { "input": "5 5", "output": "Possible\n2 1\n3 1\n4 1\n5 1\n3 2" } ]	1,687,675,385	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	8	186	23,142,400	import sys from math import gcd input = sys.stdin.readline n, m = map(int, input().split()) ans = [] for i in range(1, n + 1): for j in range(i + 1, n + 1): if(gcd(i, j) == 1): ans.append([i, j]) m -= 1 if(not m): print('Possible') for k in ans: print(*k) exit() print('Impossible')	Title: Relatively Prime Graph Time Limit: None seconds Memory Limit: None megabytes Problem Description: Let's call an undirected graph $G = (V, E)$ relatively prime if and only if for each edge $(v, u) \in E$ $GCD(v, u) = 1$ (the greatest common divisor of $v$ and $u$ is $1$). If there is no edge between some pair of vertices $v$ and $u$ then the value of $GCD(v, u)$ doesn't matter. The vertices are numbered from $1$ to $\|V\|$. Construct a relatively prime graph with $n$ vertices and $m$ edges such that it is connected and it contains neither self-loops nor multiple edges. If there exists no valid graph with the given number of vertices and edges then output "Impossible". If there are multiple answers then print any of them. Input Specification: The only line contains two integers $n$ and $m$ ($1 \le n, m \le 10^5$) — the number of vertices and the number of edges. Output Specification: If there exists no valid graph with the given number of vertices and edges then output "Impossible". Otherwise print the answer in the following format: The first line should contain the word "Possible". The $i$-th of the next $m$ lines should contain the $i$-th edge $(v_i, u_i)$ of the resulting graph ($1 \le v_i, u_i \le n, v_i \neq u_i$). For each pair $(v, u)$ there can be no more pairs $(v, u)$ or $(u, v)$. The vertices are numbered from $1$ to $n$. If there are multiple answers then print any of them. Demo Input: ['5 6\n', '6 12\n'] Demo Output: ['Possible\n2 5\n3 2\n5 1\n3 4\n4 1\n5 4\n', 'Impossible\n'] Note: Here is the representation of the graph from the first example: <img class="tex-graphics" src="https://espresso.codeforces.com/7a1353a992545456c007e3071fa0a06fe46fc64e.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python import sys from math import gcd input = sys.stdin.readline n, m = map(int, input().split()) ans = [] for i in range(1, n + 1): for j in range(i + 1, n + 1): if(gcd(i, j) == 1): ans.append([i, j]) m -= 1 if(not m): print('Possible') for k in ans: print(*k) exit() print('Impossible') ```	0
525	B	Pasha and String	PROGRAMMING	1,400	[ "constructive algorithms", "greedy", "math", "strings" ]		null	null	Pasha got a very beautiful string s for his birthday, the string consists of lowercase Latin letters. The letters in the string are numbered from 1 to \|s\| from left to right, where \|s\| is the length of the given string. Pasha didn't like his present very much so he decided to change it. After his birthday Pasha spent m days performing the following transformations on his string — each day he chose integer ai and reversed a piece of string (a segment) from position ai to position \|s\|<=-<=ai<=+<=1. It is guaranteed that 2·ai<=≤<=\|s\|. You face the following task: determine what Pasha's string will look like after m days.	The first line of the input contains Pasha's string s of length from 2 to 2·105 characters, consisting of lowercase Latin letters. The second line contains a single integer m (1<=≤<=m<=≤<=105) — the number of days when Pasha changed his string. The third line contains m space-separated elements ai (1<=≤<=ai; 2·ai<=≤<=\|s\|) — the position from which Pasha started transforming the string on the i-th day.	In the first line of the output print what Pasha's string s will look like after m days.	[ "abcdef\n1\n2\n", "vwxyz\n2\n2 2\n", "abcdef\n3\n1 2 3\n" ]	[ "aedcbf\n", "vwxyz\n", "fbdcea\n" ]	none	750	[ { "input": "abcdef\n1\n2", "output": "aedcbf" }, { "input": "vwxyz\n2\n2 2", "output": "vwxyz" }, { "input": "abcdef\n3\n1 2 3", "output": "fbdcea" }, { "input": "jc\n5\n1 1 1 1 1", "output": "cj" }, { "input": "wljqgdlxyc\n13\n3 4 3 3 5 4 4 2 4 4 5 3 3", "output": "wyjldgqxlc" }, { "input": "keicnqmuqinhsmtudqcilocxkbqgzhbkitmqwttdyoyvcbxincwjryzknubpacsngorexaldfurondbednowemnnlphhboycfavs\n2\n5 12", "output": "keiccyobhhphsmtudqcilocxkbqgzhbkitmqwttdyoyvcbxincwjryzknubpacsngorexaldfurondbednowemnnlniqumqnfavs" }, { "input": "xwcxggxvfqbdklewbxkjzibmufnaywuxsqvwakefxbbkfandvigasbhbatsxyqxicrosatfsfybedklsaztyyiuurfbrzmwumujy\n100\n14 43 30 13 8 19 33 7 8 14 15 35 5 18 44 1 35 1 18 7 50 47 9 49 28 29 39 37 27 17 19 12 5 24 37 42 37 23 35 31 10 26 5 38 40 34 42 47 2 40 43 34 16 25 14 45 35 38 46 48 49 27 49 38 10 49 5 7 3 3 41 25 24 34 37 33 17 50 48 11 40 43 48 10 9 50 18 39 32 13 26 40 37 16 45 50 27 3 7 31", "output": "xjcxggxvfbbruliyyxkjzikdebnfyftxsorcaxqyxbtkfhbdvigasnababsxfekiwvqsauwsayfumblsaztbweukdfqrzmwumuwy" } ]	1,615,354,219	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	24	2,000	20,070,400	from collections import Counter arr = list(input()) m = int(input()) s = list(map(int,input().split())) n = len(arr) d = Counter(s) a = [] for i in d: if d[i]%2!=0: a.append(i) for i in a: i-=1 arr[i:(n-i)] = arr[i:(n-i)][::-1] print(''.join(arr))	Title: Pasha and String Time Limit: None seconds Memory Limit: None megabytes Problem Description: Pasha got a very beautiful string s for his birthday, the string consists of lowercase Latin letters. The letters in the string are numbered from 1 to \|s\| from left to right, where \|s\| is the length of the given string. Pasha didn't like his present very much so he decided to change it. After his birthday Pasha spent m days performing the following transformations on his string — each day he chose integer ai and reversed a piece of string (a segment) from position ai to position \|s\|<=-<=ai<=+<=1. It is guaranteed that 2·ai<=≤<=\|s\|. You face the following task: determine what Pasha's string will look like after m days. Input Specification: The first line of the input contains Pasha's string s of length from 2 to 2·105 characters, consisting of lowercase Latin letters. The second line contains a single integer m (1<=≤<=m<=≤<=105) — the number of days when Pasha changed his string. The third line contains m space-separated elements ai (1<=≤<=ai; 2·ai<=≤<=\|s\|) — the position from which Pasha started transforming the string on the i-th day. Output Specification: In the first line of the output print what Pasha's string s will look like after m days. Demo Input: ['abcdef\n1\n2\n', 'vwxyz\n2\n2 2\n', 'abcdef\n3\n1 2 3\n'] Demo Output: ['aedcbf\n', 'vwxyz\n', 'fbdcea\n'] Note: none	```python from collections import Counter arr = list(input()) m = int(input()) s = list(map(int,input().split())) n = len(arr) d = Counter(s) a = [] for i in d: if d[i]%2!=0: a.append(i) for i in a: i-=1 arr[i:(n-i)] = arr[i:(n-i)][::-1] print(''.join(arr)) ```	0
11	B	Jumping Jack	PROGRAMMING	1,600	[ "math" ]	B. Jumping Jack	1	64	Jack is working on his jumping skills recently. Currently he's located at point zero of the number line. He would like to get to the point x. In order to train, he has decided that he'll first jump by only one unit, and each subsequent jump will be exactly one longer than the previous one. He can go either left or right with each jump. He wonders how many jumps he needs to reach x.	The input data consists of only one integer x (<=-<=109<=≤<=x<=≤<=109).	Output the minimal number of jumps that Jack requires to reach x.	[ "2\n", "6\n", "0\n" ]	[ "3\n", "3\n", "0\n" ]	none	0	[ { "input": "2", "output": "3" }, { "input": "6", "output": "3" }, { "input": "0", "output": "0" }, { "input": "-1000000000", "output": "44723" }, { "input": "999961560", "output": "44720" }, { "input": "999961561", "output": "44721" }, { "input": "999961559", "output": "44721" }, { "input": "-488979819", "output": "31273" }, { "input": "-865918189", "output": "41617" }, { "input": "-278253406", "output": "23591" }, { "input": "-87275307", "output": "13213" }, { "input": "103702792", "output": "14403" }, { "input": "294680891", "output": "24277" }, { "input": "485658989", "output": "31166" }, { "input": "676637088", "output": "36787" }, { "input": "867615187", "output": "41657" }, { "input": "-941406715", "output": "43393" }, { "input": "-897912263", "output": "42377" }, { "input": "-706934164", "output": "37603" }, { "input": "-790244010", "output": "39755" }, { "input": "16417015", "output": "5730" }, { "input": "823078041", "output": "40573" }, { "input": "-517744582", "output": "32179" }, { "input": "288916443", "output": "24038" }, { "input": "-904422532", "output": "42531" }, { "input": "-245245154", "output": "22147" }, { "input": "561415872", "output": "33511" }, { "input": "-779406751", "output": "39482" }, { "input": "27254274", "output": "7383" }, { "input": "845249034", "output": "41116" } ]	1,665,332,279	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	3	92	1,331,200	n = int(input()) if n<0: n = -n if n == 0: print(0) else: cur, moves, x = 1,0,0 while x+cur<n: cur += 1 moves += 1 x += cur-1 if (x-n) % 2: x += cur if (x-n)%2 == 0: moves += 1 else: moves += 2 print(moves)	Title: Jumping Jack Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: Jack is working on his jumping skills recently. Currently he's located at point zero of the number line. He would like to get to the point x. In order to train, he has decided that he'll first jump by only one unit, and each subsequent jump will be exactly one longer than the previous one. He can go either left or right with each jump. He wonders how many jumps he needs to reach x. Input Specification: The input data consists of only one integer x (<=-<=109<=≤<=x<=≤<=109). Output Specification: Output the minimal number of jumps that Jack requires to reach x. Demo Input: ['2\n', '6\n', '0\n'] Demo Output: ['3\n', '3\n', '0\n'] Note: none	```python n = int(input()) if n<0: n = -n if n == 0: print(0) else: cur, moves, x = 1,0,0 while x+cur<n: cur += 1 moves += 1 x += cur-1 if (x-n) % 2: x += cur if (x-n)%2 == 0: moves += 1 else: moves += 2 print(moves) ```	0
15	A	Cottage Village	PROGRAMMING	1,200	[ "implementation", "sortings" ]	A. Cottage Village	2	64	A new cottage village called «Flatville» is being built in Flatland. By now they have already built in «Flatville» n square houses with the centres on the Оx-axis. The houses' sides are parallel to the coordinate axes. It's known that no two houses overlap, but they can touch each other. The architect bureau, where Peter works, was commissioned to build a new house in «Flatville». The customer wants his future house to be on the Оx-axis, to be square in shape, have a side t, and touch at least one of the already built houses. For sure, its sides should be parallel to the coordinate axes, its centre should be on the Ox-axis and it shouldn't overlap any of the houses in the village. Peter was given a list of all the houses in «Flatville». Would you help him find the amount of possible positions of the new house?	The first line of the input data contains numbers n and t (1<=≤<=n,<=t<=≤<=1000). Then there follow n lines, each of them contains two space-separated integer numbers: xi ai, where xi — x-coordinate of the centre of the i-th house, and ai — length of its side (<=-<=1000<=≤<=xi<=≤<=1000, 1<=≤<=ai<=≤<=1000).	Output the amount of possible positions of the new house.	[ "2 2\n0 4\n6 2\n", "2 2\n0 4\n5 2\n", "2 3\n0 4\n5 2\n" ]	[ "4\n", "3\n", "2\n" ]	It is possible for the x-coordinate of the new house to have non-integer value.	0	[ { "input": "2 2\n0 4\n6 2", "output": "4" }, { "input": "2 2\n0 4\n5 2", "output": "3" }, { "input": "2 3\n0 4\n5 2", "output": "2" }, { "input": "1 1\n1 1", "output": "2" }, { "input": "1 2\n2 1", "output": "2" }, { "input": "2 1\n2 1\n1 1", "output": "2" }, { "input": "2 2\n0 4\n7 4", "output": "4" }, { "input": "4 1\n-12 1\n-14 1\n4 1\n-11 1", "output": "5" }, { "input": "6 15\n19 1\n2 3\n6 2\n-21 2\n-15 2\n23 1", "output": "2" }, { "input": "10 21\n-61 6\n55 2\n-97 1\n37 1\n-39 1\n26 2\n21 1\n64 3\n-68 1\n-28 6", "output": "6" }, { "input": "26 51\n783 54\n-850 6\n-997 59\n573 31\n-125 20\n472 52\n101 5\n-561 4\n625 35\n911 14\n-47 33\n677 55\n-410 54\n13 53\n173 31\n968 30\n-497 7\n832 42\n271 59\n-638 52\n-301 51\n378 36\n-813 7\n-206 22\n-737 37\n-911 9", "output": "35" }, { "input": "14 101\n121 88\n-452 91\n635 28\n-162 59\n-872 26\n-996 8\n468 86\n742 63\n892 89\n-249 107\n300 51\n-753 17\n-620 31\n-13 34", "output": "16" }, { "input": "3 501\n827 327\n-85 480\n-999 343", "output": "6" }, { "input": "2 999\n-999 471\n530 588", "output": "4" }, { "input": "22 54\n600 43\n806 19\n-269 43\n-384 78\n222 34\n392 10\n318 30\n488 73\n-756 49\n-662 22\n-568 50\n-486 16\n-470 2\n96 66\n864 16\n934 15\n697 43\n-154 30\n775 5\n-876 71\n-33 78\n-991 31", "output": "30" }, { "input": "17 109\n52 7\n216 24\n-553 101\n543 39\n391 92\n-904 67\n95 34\n132 14\n730 103\n952 118\n-389 41\n-324 36\n-74 2\n-147 99\n-740 33\n233 1\n-995 3", "output": "16" }, { "input": "4 512\n-997 354\n-568 216\n-234 221\n603 403", "output": "4" }, { "input": "3 966\n988 5\n15 2\n-992 79", "output": "6" }, { "input": "2 1000\n-995 201\n206 194", "output": "4" }, { "input": "50 21\n-178 1\n49 1\n-98 1\n-220 1\n152 1\n-160 3\n17 2\n77 1\n-24 1\n214 2\n-154 2\n-141 1\n79 1\n206 1\n8 1\n-208 1\n36 1\n231 3\n-2 2\n-130 2\n-14 2\n34 1\n-187 2\n14 1\n-83 2\n-241 1\n149 2\n73 1\n-233 3\n-45 1\n197 1\n145 2\n-127 2\n-229 4\n-85 1\n-66 1\n-76 2\n104 1\n175 1\n70 1\n131 3\n-108 1\n-5 4\n140 1\n33 1\n248 3\n-36 3\n134 1\n-183 1\n56 2", "output": "9" }, { "input": "50 1\n37 1\n-38 1\n7 1\n47 1\n-4 1\n24 1\n-32 1\n-23 1\n-3 1\n-19 1\n5 1\n-50 1\n11 1\n-11 1\n49 1\n-39 1\n0 1\n43 1\n-10 1\n6 1\n19 1\n1 1\n27 1\n29 1\n-47 1\n-40 1\n-46 1\n-26 1\n-42 1\n-37 1\n13 1\n-29 1\n-30 1\n3 1\n44 1\n10 1\n4 1\n-14 1\n-2 1\n34 1\n18 1\n-33 1\n-44 1\n9 1\n-36 1\n-7 1\n25 1\n22 1\n-20 1\n-41 1", "output": "43" }, { "input": "50 1\n-967 7\n696 7\n-366 4\n557 1\n978 2\n800 4\n-161 2\n-773 2\n-248 2\n134 3\n869 6\n-932 2\n-262 14\n191 3\n669 2\n72 5\n0 1\n757 8\n859 2\n-131 8\n-169 3\n543 10\n-120 2\n-87 8\n-936 6\n-620 3\n-281 11\n684 3\n886 10\n497 4\n380 4\n833 1\n-727 6\n470 11\n584 9\n66 6\n-609 12\n-661 4\n-57 8\n628 7\n635 4\n-924 3\n-982 4\n-201 7\n-9 8\n-560 9\n712 7\n-330 8\n-191 1\n-892 7", "output": "96" }, { "input": "1 1000\n0 1000", "output": "2" } ]	1,693,281,699	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	7	92	0	n, t = map(int, input().split()) center, length = map(int, input().split()) spots = 2 for i in range(n-1): bottom = center + length/2 center, length = map(int, input().split()) top = center - length/2 if (top - bottom) > t: spots = spots + 2 elif (top - bottom) == t: spots += 1 print(spots)	Title: Cottage Village Time Limit: 2 seconds Memory Limit: 64 megabytes Problem Description: A new cottage village called «Flatville» is being built in Flatland. By now they have already built in «Flatville» n square houses with the centres on the Оx-axis. The houses' sides are parallel to the coordinate axes. It's known that no two houses overlap, but they can touch each other. The architect bureau, where Peter works, was commissioned to build a new house in «Flatville». The customer wants his future house to be on the Оx-axis, to be square in shape, have a side t, and touch at least one of the already built houses. For sure, its sides should be parallel to the coordinate axes, its centre should be on the Ox-axis and it shouldn't overlap any of the houses in the village. Peter was given a list of all the houses in «Flatville». Would you help him find the amount of possible positions of the new house? Input Specification: The first line of the input data contains numbers n and t (1<=≤<=n,<=t<=≤<=1000). Then there follow n lines, each of them contains two space-separated integer numbers: xi ai, where xi — x-coordinate of the centre of the i-th house, and ai — length of its side (<=-<=1000<=≤<=xi<=≤<=1000, 1<=≤<=ai<=≤<=1000). Output Specification: Output the amount of possible positions of the new house. Demo Input: ['2 2\n0 4\n6 2\n', '2 2\n0 4\n5 2\n', '2 3\n0 4\n5 2\n'] Demo Output: ['4\n', '3\n', '2\n'] Note: It is possible for the x-coordinate of the new house to have non-integer value.	```python n, t = map(int, input().split()) center, length = map(int, input().split()) spots = 2 for i in range(n-1): bottom = center + length/2 center, length = map(int, input().split()) top = center - length/2 if (top - bottom) > t: spots = spots + 2 elif (top - bottom) == t: spots += 1 print(spots) ```	0
424	B	Megacity	PROGRAMMING	1,200	[ "binary search", "greedy", "implementation", "sortings" ]		null	null	The administration of the Tomsk Region firmly believes that it's time to become a megacity (that is, get population of one million). Instead of improving the demographic situation, they decided to achieve its goal by expanding the boundaries of the city. The city of Tomsk can be represented as point on the plane with coordinates (0; 0). The city is surrounded with n other locations, the i-th one has coordinates (xi, yi) with the population of ki people. You can widen the city boundaries to a circle of radius r. In such case all locations inside the circle and on its border are included into the city. Your goal is to write a program that will determine the minimum radius r, to which is necessary to expand the boundaries of Tomsk, so that it becomes a megacity.	The first line of the input contains two integers n and s (1<=≤<=n<=≤<=103; 1<=≤<=s<=<<=106) — the number of locatons around Tomsk city and the population of the city. Then n lines follow. The i-th line contains three integers — the xi and yi coordinate values of the i-th location and the number ki of people in it (1<=≤<=ki<=<<=106). Each coordinate is an integer and doesn't exceed 104 in its absolute value. It is guaranteed that no two locations are at the same point and no location is at point (0; 0).	In the output, print "-1" (without the quotes), if Tomsk won't be able to become a megacity. Otherwise, in the first line print a single real number — the minimum radius of the circle that the city needs to expand to in order to become a megacity. The answer is considered correct if the absolute or relative error don't exceed 10<=-<=6.	[ "4 999998\n1 1 1\n2 2 1\n3 3 1\n2 -2 1\n", "4 999998\n1 1 2\n2 2 1\n3 3 1\n2 -2 1\n", "2 1\n1 1 999997\n2 2 1\n" ]	[ "2.8284271\n", "1.4142136\n", "-1" ]	none	1,000	[ { "input": "4 999998\n1 1 1\n2 2 1\n3 3 1\n2 -2 1", "output": "2.8284271" }, { "input": "4 999998\n1 1 2\n2 2 1\n3 3 1\n2 -2 1", "output": "1.4142136" }, { "input": "2 1\n1 1 999997\n2 2 1", "output": "-1" }, { "input": "4 999998\n3 3 10\n-3 3 10\n3 -3 10\n-3 -3 10", "output": "4.2426407" }, { "input": "15 95473\n-9 6 199715\n0 -8 110607\n0 2 6621\n-3 -2 59894\n-10 -8 175440\n-2 0 25814\n10 -4 68131\n7 1 9971\n6 7 821\n6 5 20208\n6 2 68468\n0 7 37427\n1 -3 13337\n-10 7 113041\n-6 -2 44028", "output": "12.8062485" }, { "input": "20 93350\n13 -28 486\n26 -26 48487\n5 -23 143368\n-23 -25 10371\n-2 -7 75193\n0 -8 3\n-6 -11 5015\n-19 -18 315278\n28 -15 45801\n21 8 4590\n-4 -28 12926\n-16 17 9405\n-28 -23 222092\n1 -10 1857\n14 -28 35170\n-4 -22 22036\n-2 -10 1260\n-1 12 375745\n-19 -24 38845\n10 -25 9256", "output": "26.1725047" }, { "input": "30 505231\n-18 16 88130\n-10 16 15693\n16 -32 660\n-27 17 19042\n30 -37 6680\n36 19 299674\n-45 21 3300\n11 27 76\n-49 -34 28649\n-1 11 31401\n25 42 20858\n-40 6 455660\n-29 43 105001\n-38 10 6042\n19 -45 65551\n20 -9 148533\n-5 -24 393442\n-43 2 8577\n-39 18 97059\n12 28 39189\n35 23 28178\n40 -34 51687\n23 41 219028\n21 -44 927\n47 8 13206\n33 41 97342\n10 18 24895\n0 12 288\n0 -44 1065\n-25 43 44231", "output": "24.5153013" }, { "input": "2 500000\n936 1000 500000\n961 976 500000", "output": "1369.7065379" }, { "input": "10 764008\n959 32 23049\n-513 797 38979\n-603 -838 24916\n598 -430 25414\n-280 -624 18714\n330 891 21296\n-347 -68 27466\n650 -842 30125\n-314 889 35394\n275 969 5711", "output": "1063.7029661" }, { "input": "30 295830\n1 -4 24773\n4 3 26175\n-2 -3 14789\n2 -1 46618\n-2 -2 52997\n-3 0 517\n-2 0 18173\n-4 -3 54465\n2 4 63579\n4 -4 41821\n2 2 11018\n0 4 42856\n0 -1 51885\n-3 4 57137\n3 0 4688\n0 2 60137\n-4 4 33484\n-1 3 66196\n3 -1 53634\n0 -2 41630\n-2 1 54606\n2 -2 2978\n2 -3 23733\n1 -2 35248\n-3 -3 15124\n-2 -4 26518\n4 0 28151\n4 -1 18348\n3 3 16914\n-4 2 26013", "output": "4.4721360" }, { "input": "10 511500\n-5129 -3858 76954\n1296 1130 36126\n1219 6732 102003\n-8026 -178 4150\n-3261 1342 105429\n7965 -3013 62561\n5607 8963 53539\n-9044 -3999 16509\n1406 4103 115667\n-3716 2522 110626", "output": "6841.4753526" }, { "input": "20 39342\n2 0 36476\n-3 1 136925\n1 3 31234\n0 -3 23785\n-1 3 77700\n-3 -1 50490\n-1 -3 13965\n-3 2 121093\n3 0 118933\n-3 0 125552\n-3 3 54779\n-2 0 96250\n1 2 142643\n2 2 23848\n0 2 29845\n0 -2 80462\n-1 1 91852\n-1 2 26526\n0 -1 136272\n1 1 108999", "output": "3.0000000" }, { "input": "2 1\n1 0 1\n0 1 999999", "output": "1.0000000" }, { "input": "2 999997\n1 1 1\n1 2 1", "output": "-1" } ]	1,643,799,903	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	4	46	0	def rad(x,y): r=(x2+y2)**(1/2) return r n,pop=map(int,input().split()) l=[] for i in range(n): x,y,p=map(int,input().split()) l.append([abs(x),abs(y),p]) l.sort() for i in range(n): if(pop>=1000000): print(rad(l[i-1][0],l[i-1][1])) break else: pop+=l[i][2] if(pop<1000000): print(-1)	Title: Megacity Time Limit: None seconds Memory Limit: None megabytes Problem Description: The administration of the Tomsk Region firmly believes that it's time to become a megacity (that is, get population of one million). Instead of improving the demographic situation, they decided to achieve its goal by expanding the boundaries of the city. The city of Tomsk can be represented as point on the plane with coordinates (0; 0). The city is surrounded with n other locations, the i-th one has coordinates (xi, yi) with the population of ki people. You can widen the city boundaries to a circle of radius r. In such case all locations inside the circle and on its border are included into the city. Your goal is to write a program that will determine the minimum radius r, to which is necessary to expand the boundaries of Tomsk, so that it becomes a megacity. Input Specification: The first line of the input contains two integers n and s (1<=≤<=n<=≤<=103; 1<=≤<=s<=<<=106) — the number of locatons around Tomsk city and the population of the city. Then n lines follow. The i-th line contains three integers — the xi and yi coordinate values of the i-th location and the number ki of people in it (1<=≤<=ki<=<<=106). Each coordinate is an integer and doesn't exceed 104 in its absolute value. It is guaranteed that no two locations are at the same point and no location is at point (0; 0). Output Specification: In the output, print "-1" (without the quotes), if Tomsk won't be able to become a megacity. Otherwise, in the first line print a single real number — the minimum radius of the circle that the city needs to expand to in order to become a megacity. The answer is considered correct if the absolute or relative error don't exceed 10<=-<=6. Demo Input: ['4 999998\n1 1 1\n2 2 1\n3 3 1\n2 -2 1\n', '4 999998\n1 1 2\n2 2 1\n3 3 1\n2 -2 1\n', '2 1\n1 1 999997\n2 2 1\n'] Demo Output: ['2.8284271\n', '1.4142136\n', '-1'] Note: none	```python def rad(x,y): r=(x2+y2)**(1/2) return r n,pop=map(int,input().split()) l=[] for i in range(n): x,y,p=map(int,input().split()) l.append([abs(x),abs(y),p]) l.sort() for i in range(n): if(pop>=1000000): print(rad(l[i-1][0],l[i-1][1])) break else: pop+=l[i][2] if(pop<1000000): print(-1) ```	0
265	A	Colorful Stones (Simplified Edition)	PROGRAMMING	800	[ "implementation" ]		null	null	There is a sequence of colorful stones. The color of each stone is one of red, green, or blue. You are given a string s. The i-th (1-based) character of s represents the color of the i-th stone. If the character is "R", "G", or "B", the color of the corresponding stone is red, green, or blue, respectively. Initially Squirrel Liss is standing on the first stone. You perform instructions one or more times. Each instruction is one of the three types: "RED", "GREEN", or "BLUE". After an instruction c, if Liss is standing on a stone whose colors is c, Liss will move one stone forward, else she will not move. You are given a string t. The number of instructions is equal to the length of t, and the i-th character of t represents the i-th instruction. Calculate the final position of Liss (the number of the stone she is going to stand on in the end) after performing all the instructions, and print its 1-based position. It is guaranteed that Liss don't move out of the sequence.	The input contains two lines. The first line contains the string s (1<=≤<=\|s\|<=≤<=50). The second line contains the string t (1<=≤<=\|t\|<=≤<=50). The characters of each string will be one of "R", "G", or "B". It is guaranteed that Liss don't move out of the sequence.	Print the final 1-based position of Liss in a single line.	[ "RGB\nRRR\n", "RRRBGBRBBB\nBBBRR\n", "BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB\n" ]	[ "2\n", "3\n", "15\n" ]	none	500	[ { "input": "RGB\nRRR", "output": "2" }, { "input": "RRRBGBRBBB\nBBBRR", "output": "3" }, { "input": "BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB", "output": "15" }, { "input": "G\nRRBBRBRRBR", "output": "1" }, { "input": "RRRRRBRRBRRGRBGGRRRGRBBRBBBBBRGRBGBRRGBBBRBBGBRGBB\nB", "output": "1" }, { "input": "RRGGBRGRBG\nBRRGGBBGGR", "output": "7" }, { "input": "BBRRGBGGRGBRGBRBRBGR\nGGGRBGGGBRRRRGRBGBGRGRRBGRBGBG", "output": "15" }, { "input": "GBRRBGBGBBBBRRRGBGRRRGBGBBBRGR\nRRGBRRGRBBBBBBGRRBBR", "output": "8" }, { "input": "BRGRRGRGRRGBBGBBBRRBBRRBGBBGRGBBGGRGBRBGGGRRRBGGBB\nRGBBGRRBBBRRGRRBRBBRGBBGGGRGBGRRRRBRBGGBRBGGGRGBRR", "output": "16" }, { "input": "GGRGGBRRGRGBRRGGRBBGGRRGBBBGBBBGGRBGGBRBBRGBRRRBRG\nGGRGRRRRRRRRRGBBBBRGBRGRGRRGBBRGGBRBBRBGBRGRRRRGGR", "output": "18" }, { "input": "RBBRBGBBGGGBRRBGBRGRRGGRBBBBGRBGGBRRBGBBRBRGBBGGGG\nBRRGRBGRBGBRGBRBGGBBBGBBRGRBGRGRBGRBGGRRBGBRGRRBBG", "output": "23" }, { "input": "RRGGRRBRGRGBRGBRGBBRGGGBRBGBRGBRGGBRBRGBGRRBBGGRBR\nBRGRBBBGRBGRRGGRRRRRRRRGGGGGGGGBGGGGGGGRGRBBRGRGBR", "output": "14" }, { "input": "RBRBRRRRRGGR\nBBBBRRGGBGRBRGBBRGGGRGGBRRBRBRBGGG", "output": "12" }, { "input": "GGRGGGBRGRGRBBRGGGRBGRRR\nGBBBBGBGBGBBBRGGRGGBGRRGRRRGBGB", "output": "12" }, { "input": "RGRBGBRBBGBRRGGGBBGBRRBGRGBBBBBGRRRGGRBB\nBGR", "output": "2" }, { "input": "R\nB", "output": "1" }, { "input": "RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR\nRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR", "output": "50" }, { "input": "RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR\nGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "1" }, { "input": "R\nGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "1" } ]	1,658,576,936	2,147,483,647	Python 3	OK	TESTS	19	62	0	stones = input() insts = input() index = 0 for i in range(len(insts)): if insts[i] == stones[index]: index += 1 print(index + 1)	Title: Colorful Stones (Simplified Edition) Time Limit: None seconds Memory Limit: None megabytes Problem Description: There is a sequence of colorful stones. The color of each stone is one of red, green, or blue. You are given a string s. The i-th (1-based) character of s represents the color of the i-th stone. If the character is "R", "G", or "B", the color of the corresponding stone is red, green, or blue, respectively. Initially Squirrel Liss is standing on the first stone. You perform instructions one or more times. Each instruction is one of the three types: "RED", "GREEN", or "BLUE". After an instruction c, if Liss is standing on a stone whose colors is c, Liss will move one stone forward, else she will not move. You are given a string t. The number of instructions is equal to the length of t, and the i-th character of t represents the i-th instruction. Calculate the final position of Liss (the number of the stone she is going to stand on in the end) after performing all the instructions, and print its 1-based position. It is guaranteed that Liss don't move out of the sequence. Input Specification: The input contains two lines. The first line contains the string s (1<=≤<=\|s\|<=≤<=50). The second line contains the string t (1<=≤<=\|t\|<=≤<=50). The characters of each string will be one of "R", "G", or "B". It is guaranteed that Liss don't move out of the sequence. Output Specification: Print the final 1-based position of Liss in a single line. Demo Input: ['RGB\nRRR\n', 'RRRBGBRBBB\nBBBRR\n', 'BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB\n'] Demo Output: ['2\n', '3\n', '15\n'] Note: none	```python stones = input() insts = input() index = 0 for i in range(len(insts)): if insts[i] == stones[index]: index += 1 print(index + 1) ```	3
711	A	Bus to Udayland	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	ZS the Coder and Chris the Baboon are travelling to Udayland! To get there, they have to get on the special IOI bus. The IOI bus has n rows of seats. There are 4 seats in each row, and the seats are separated into pairs by a walkway. When ZS and Chris came, some places in the bus was already occupied. ZS and Chris are good friends. They insist to get a pair of neighbouring empty seats. Two seats are considered neighbouring if they are in the same row and in the same pair. Given the configuration of the bus, can you help ZS and Chris determine where they should sit?	The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of rows of seats in the bus. Then, n lines follow. Each line contains exactly 5 characters, the first two of them denote the first pair of seats in the row, the third character denotes the walkway (it always equals '\|') and the last two of them denote the second pair of seats in the row. Each character, except the walkway, equals to 'O' or to 'X'. 'O' denotes an empty seat, 'X' denotes an occupied seat. See the sample cases for more details.	If it is possible for Chris and ZS to sit at neighbouring empty seats, print "YES" (without quotes) in the first line. In the next n lines print the bus configuration, where the characters in the pair of seats for Chris and ZS is changed with characters '+'. Thus the configuration should differ from the input one by exactly two charaters (they should be equal to 'O' in the input and to '+' in the output). If there is no pair of seats for Chris and ZS, print "NO" (without quotes) in a single line. If there are multiple solutions, you may print any of them.	[ "6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n", "4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX\n", "5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO\n" ]	[ "YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n", "NO\n", "YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO\n" ]	Note that the following is an incorrect configuration for the first sample case because the seats must be in the same pair. O+\|+X XO\|XX OX\|OO XX\|OX OO\|OO OO\|XX	500	[ { "input": "6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX", "output": "YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX" }, { "input": "4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX", "output": "NO" }, { "input": "5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO", "output": "YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO" }, { "input": "1\nXO\|OX", "output": "NO" }, { "input": "1\nOO\|OO", "output": "YES\n++\|OO" }, { "input": "4\nXO\|XX\nXX\|XO\nOX\|XX\nXO\|XO", "output": "NO" }, { "input": "9\nOX\|XO\nOX\|XO\nXO\|OX\nOX\|OX\nXO\|OX\nXX\|OO\nOX\|OX\nOX\|XO\nOX\|OX", "output": "YES\nOX\|XO\nOX\|XO\nXO\|OX\nOX\|OX\nXO\|OX\nXX\|++\nOX\|OX\nOX\|XO\nOX\|OX" }, { "input": "61\nOX\|XX\nOX\|XX\nOX\|XX\nXO\|XO\nXX\|XO\nXX\|XX\nXX\|XX\nOX\|XX\nXO\|XO\nOX\|XO\nXO\|OX\nXX\|XX\nXX\|XX\nOX\|OX\nXX\|OX\nOX\|XO\nOX\|XO\nXO\|OX\nXO\|XX\nOX\|XX\nOX\|XX\nXO\|OX\nXO\|XX\nXO\|XX\nOX\|XX\nXX\|XX\nXX\|XO\nXO\|XX\nXX\|XX\nXO\|OX\nXX\|XO\nXO\|XX\nXO\|XO\nXO\|OX\nXX\|OX\nXO\|OX\nOX\|XX\nXX\|OX\nXX\|XX\nOX\|XO\nOX\|XX\nXO\|OX\nOX\|XX\nOX\|XX\nXO\|XO\nXO\|XX\nOX\|XX\nXO\|XO\nOX\|XX\nXX\|XX\nOX\|XO\nXO\|XO\nXO\|XO\nOX\|OX\nXX\|OX\nXX\|OX\nOX\|XO\nOX\|XX\nOX\|OX\nXO\|XX\nOX\|XX", "output": "NO" }, { "input": "1\nOO\|XX", "output": "YES\n++\|XX" }, { "input": "10\nOO\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|XX", "output": "YES\n++\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|XX" }, { "input": "10\nXX\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|OO", "output": "YES\nXX\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|++" }, { "input": "5\nXX\|XX\nXX\|XX\nXO\|OX\nOO\|OX\nOX\|XO", "output": "YES\nXX\|XX\nXX\|XX\nXO\|OX\n++\|OX\nOX\|XO" }, { "input": "6\nOO\|XX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|XX\nOX\|XX", "output": "YES\n++\|XX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|XX\nOX\|XX" } ]	1,620,236,102	2,147,483,647	Python 3	OK	TESTS	71	77	6,963,200	inp = int(input()) ls, flag = [],0 while inp>0: p1,p2 = input().split('\|') if p1=='OO' and flag==0: p1='++' flag=1 elif p2=='OO' and flag==0: p2='++' flag=1 else: pass ls.append(f'{p1}\|{p2}') inp-=1 else: if flag!=1: print('NO') else: print('YES') print(*ls,sep='\n')	Title: Bus to Udayland Time Limit: None seconds Memory Limit: None megabytes Problem Description: ZS the Coder and Chris the Baboon are travelling to Udayland! To get there, they have to get on the special IOI bus. The IOI bus has n rows of seats. There are 4 seats in each row, and the seats are separated into pairs by a walkway. When ZS and Chris came, some places in the bus was already occupied. ZS and Chris are good friends. They insist to get a pair of neighbouring empty seats. Two seats are considered neighbouring if they are in the same row and in the same pair. Given the configuration of the bus, can you help ZS and Chris determine where they should sit? Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of rows of seats in the bus. Then, n lines follow. Each line contains exactly 5 characters, the first two of them denote the first pair of seats in the row, the third character denotes the walkway (it always equals '\|') and the last two of them denote the second pair of seats in the row. Each character, except the walkway, equals to 'O' or to 'X'. 'O' denotes an empty seat, 'X' denotes an occupied seat. See the sample cases for more details. Output Specification: If it is possible for Chris and ZS to sit at neighbouring empty seats, print "YES" (without quotes) in the first line. In the next n lines print the bus configuration, where the characters in the pair of seats for Chris and ZS is changed with characters '+'. Thus the configuration should differ from the input one by exactly two charaters (they should be equal to 'O' in the input and to '+' in the output). If there is no pair of seats for Chris and ZS, print "NO" (without quotes) in a single line. If there are multiple solutions, you may print any of them. Demo Input: ['6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n', '4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX\n', '5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO\n'] Demo Output: ['YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n', 'NO\n', 'YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO\n'] Note: Note that the following is an incorrect configuration for the first sample case because the seats must be in the same pair. O+\|+X XO\|XX OX\|OO XX\|OX OO\|OO OO\|XX	```python inp = int(input()) ls, flag = [],0 while inp>0: p1,p2 = input().split('\|') if p1=='OO' and flag==0: p1='++' flag=1 elif p2=='OO' and flag==0: p2='++' flag=1 else: pass ls.append(f'{p1}\|{p2}') inp-=1 else: if flag!=1: print('NO') else: print('YES') print(*ls,sep='\n') ```	3
417	B	Crash	PROGRAMMING	1,400	[ "implementation" ]		null	null	During the "Russian Code Cup" programming competition, the testing system stores all sent solutions for each participant. We know that many participants use random numbers in their programs and are often sent several solutions with the same source code to check. Each participant is identified by some unique positive integer k, and each sent solution A is characterized by two numbers: x — the number of different solutions that are sent before the first solution identical to A, and k — the number of the participant, who is the author of the solution. Consequently, all identical solutions have the same x. It is known that the data in the testing system are stored in the chronological order, that is, if the testing system has a solution with number x (x<=><=0) of the participant with number k, then the testing system has a solution with number x<=-<=1 of the same participant stored somewhere before. During the competition the checking system crashed, but then the data of the submissions of all participants have been restored. Now the jury wants to verify that the recovered data is in chronological order. Help the jury to do so.	The first line of the input contains an integer n (1<=≤<=n<=≤<=105) — the number of solutions. Each of the following n lines contains two integers separated by space x and k (0<=≤<=x<=≤<=105; 1<=≤<=k<=≤<=105) — the number of previous unique solutions and the identifier of the participant.	A single line of the output should contain «YES» if the data is in chronological order, and «NO» otherwise.	[ "2\n0 1\n1 1\n", "4\n0 1\n1 2\n1 1\n0 2\n", "4\n0 1\n1 1\n0 1\n0 2\n" ]	[ "YES\n", "NO\n", "YES\n" ]	none	1,000	[ { "input": "2\n0 1\n1 1", "output": "YES" }, { "input": "4\n0 1\n1 2\n1 1\n0 2", "output": "NO" }, { "input": "4\n0 1\n1 1\n0 1\n0 2", "output": "YES" }, { "input": "4\n7 1\n4 2\n8 2\n1 8", "output": "NO" }, { "input": "2\n0 8\n0 5", "output": "YES" }, { "input": "3\n7 9\n5 8\n8 2", "output": "NO" }, { "input": "1\n0 8", "output": "YES" }, { "input": "5\n8 10\n7 9\n5 6\n5 2\n10 7", "output": "NO" }, { "input": "7\n0 2\n0 3\n0 2\n0 1\n0 10\n1 10\n0 5", "output": "YES" }, { "input": "6\n0 1\n1 1\n2 1\n1 1\n2 1\n4 1", "output": "NO" }, { "input": "4\n0 1\n1 1\n0 1\n2 1", "output": "YES" }, { "input": "6\n0 1\n1 1\n2 1\n3 1\n4 1\n2 1", "output": "YES" }, { "input": "3\n0 1\n0 1\n2 1", "output": "NO" }, { "input": "1\n1 100000", "output": "NO" }, { "input": "2\n99 1\n99 1", "output": "NO" }, { "input": "4\n0 1\n0 2\n1 1\n1 2", "output": "YES" }, { "input": "4\n0 1\n0 2\n1 1\n2 1", "output": "YES" }, { "input": "5\n0 1\n1 1\n2 1\n1 1\n3 1", "output": "YES" }, { "input": "4\n0 1\n1 100000\n1 1\n0 100000", "output": "NO" }, { "input": "5\n0 1\n1 1\n2 1\n3 1\n1 1", "output": "YES" }, { "input": "3\n0 1\n0 2\n1 1", "output": "YES" }, { "input": "5\n0 1\n1 1\n2 1\n0 1\n4 1", "output": "NO" }, { "input": "1\n2 1", "output": "NO" }, { "input": "6\n0 1\n1 1\n2 1\n0 1\n3 1\n4 1", "output": "YES" } ]	1,668,602,357	2,147,483,647	PyPy 3	OK	TESTS	45	218	22,118,400	import sys from math import * from collections import Counter input=sys.stdin.readline def isSorted(a): for i in range(1, len(a)): if a[i] < a[i-1]: return False return True d={} # for _ in range(int(input())): n=int(input()) for i in range(n): a,b=map(int,input().split()) a,b=b,a # print(d) if a in d: if b in d[a]: continue elif b-1 in d[a]: d[a].add(b) else: print("NO") exit() if not a in d: if b==0: d[a]=set([b]) else: print("NO") exit() print("YES")	Title: Crash Time Limit: None seconds Memory Limit: None megabytes Problem Description: During the "Russian Code Cup" programming competition, the testing system stores all sent solutions for each participant. We know that many participants use random numbers in their programs and are often sent several solutions with the same source code to check. Each participant is identified by some unique positive integer k, and each sent solution A is characterized by two numbers: x — the number of different solutions that are sent before the first solution identical to A, and k — the number of the participant, who is the author of the solution. Consequently, all identical solutions have the same x. It is known that the data in the testing system are stored in the chronological order, that is, if the testing system has a solution with number x (x<=><=0) of the participant with number k, then the testing system has a solution with number x<=-<=1 of the same participant stored somewhere before. During the competition the checking system crashed, but then the data of the submissions of all participants have been restored. Now the jury wants to verify that the recovered data is in chronological order. Help the jury to do so. Input Specification: The first line of the input contains an integer n (1<=≤<=n<=≤<=105) — the number of solutions. Each of the following n lines contains two integers separated by space x and k (0<=≤<=x<=≤<=105; 1<=≤<=k<=≤<=105) — the number of previous unique solutions and the identifier of the participant. Output Specification: A single line of the output should contain «YES» if the data is in chronological order, and «NO» otherwise. Demo Input: ['2\n0 1\n1 1\n', '4\n0 1\n1 2\n1 1\n0 2\n', '4\n0 1\n1 1\n0 1\n0 2\n'] Demo Output: ['YES\n', 'NO\n', 'YES\n'] Note: none	```python import sys from math import * from collections import Counter input=sys.stdin.readline def isSorted(a): for i in range(1, len(a)): if a[i] < a[i-1]: return False return True d={} # for _ in range(int(input())): n=int(input()) for i in range(n): a,b=map(int,input().split()) a,b=b,a # print(d) if a in d: if b in d[a]: continue elif b-1 in d[a]: d[a].add(b) else: print("NO") exit() if not a in d: if b==0: d[a]=set([b]) else: print("NO") exit() print("YES") ```	3
17	B	Hierarchy	PROGRAMMING	1,500	[ "dfs and similar", "dsu", "greedy", "shortest paths" ]	B. Hierarchy	2	64	Nick's company employed n people. Now Nick needs to build a tree hierarchy of «supervisor-surbodinate» relations in the company (this is to say that each employee, except one, has exactly one supervisor). There are m applications written in the following form: «employee ai is ready to become a supervisor of employee bi at extra cost ci». The qualification qj of each employee is known, and for each application the following is true: qai<=><=qbi. Would you help Nick calculate the minimum cost of such a hierarchy, or find out that it is impossible to build it.	The first input line contains integer n (1<=≤<=n<=≤<=1000) — amount of employees in the company. The following line contains n space-separated numbers qj (0<=≤<=qj<=≤<=106)— the employees' qualifications. The following line contains number m (0<=≤<=m<=≤<=10000) — amount of received applications. The following m lines contain the applications themselves, each of them in the form of three space-separated numbers: ai, bi and ci (1<=≤<=ai,<=bi<=≤<=n, 0<=≤<=ci<=≤<=106). Different applications can be similar, i.e. they can come from one and the same employee who offered to become a supervisor of the same person but at a different cost. For each application qai<=><=qbi.	Output the only line — the minimum cost of building such a hierarchy, or -1 if it is impossible to build it.	[ "4\n7 2 3 1\n4\n1 2 5\n2 4 1\n3 4 1\n1 3 5\n", "3\n1 2 3\n2\n3 1 2\n3 1 3\n" ]	[ "11\n", "-1\n" ]	In the first sample one of the possible ways for building a hierarchy is to take applications with indexes 1, 2 and 4, which give 11 as the minimum total cost. In the second sample it is impossible to build the required hierarchy, so the answer is -1.	0	[ { "input": "4\n7 2 3 1\n4\n1 2 5\n2 4 1\n3 4 1\n1 3 5", "output": "11" }, { "input": "3\n1 2 3\n2\n3 1 2\n3 1 3", "output": "-1" }, { "input": "1\n2\n0", "output": "0" }, { "input": "2\n5 3\n4\n1 2 0\n1 2 5\n1 2 0\n1 2 7", "output": "0" }, { "input": "3\n9 4 5\n5\n3 2 4\n1 2 4\n3 2 8\n1 3 5\n3 2 5", "output": "9" }, { "input": "3\n2 5 9\n5\n3 1 7\n2 1 1\n2 1 6\n2 1 2\n3 1 5", "output": "-1" }, { "input": "3\n6 2 9\n5\n1 2 10\n3 1 4\n1 2 5\n1 2 2\n3 1 4", "output": "6" }, { "input": "4\n10 6 7 4\n5\n1 3 1\n3 4 1\n3 2 2\n1 2 6\n1 4 7", "output": "4" }, { "input": "4\n2 7 0 6\n8\n4 3 5\n2 3 7\n4 3 1\n2 1 9\n1 3 1\n1 3 3\n2 3 1\n1 3 2", "output": "-1" }, { "input": "5\n6 8 5 9 0\n8\n4 2 2\n2 3 10\n2 3 6\n4 5 4\n1 3 1\n4 3 4\n3 5 1\n2 3 8", "output": "-1" }, { "input": "5\n10 9 5 0 3\n9\n1 5 1\n1 4 7\n1 4 0\n1 4 6\n3 4 6\n2 3 1\n1 2 2\n1 2 9\n2 3 9", "output": "4" }, { "input": "5\n3 9 2 1 8\n9\n2 5 10\n1 3 8\n3 4 9\n5 4 2\n2 1 4\n5 1 4\n2 4 2\n1 4 7\n5 1 2", "output": "22" }, { "input": "5\n6 10 7 8 5\n10\n3 1 5\n2 4 1\n2 3 2\n4 5 9\n3 5 0\n4 1 9\n4 5 2\n1 5 8\n2 3 7\n1 5 1", "output": "8" }, { "input": "7\n10 0 4 7 3 8 6\n10\n3 2 4\n6 4 3\n6 5 1\n1 2 1\n6 7 6\n7 3 9\n1 6 3\n3 2 1\n6 4 4\n1 4 4", "output": "23" }, { "input": "6\n10 2 4 3 1 6\n10\n1 4 7\n1 6 9\n6 4 1\n4 2 5\n4 5 7\n6 3 10\n3 2 3\n3 4 3\n6 5 2\n1 3 2", "output": "17" }, { "input": "1\n10\n0", "output": "0" }, { "input": "2\n10 5\n0", "output": "-1" }, { "input": "2\n1000000 999999\n1\n1 2 1000000", "output": "1000000" }, { "input": "4\n3 2 2 1\n5\n1 2 1\n1 3 1\n1 4 500\n2 4 1\n3 4 2", "output": "3" } ]	1,687,884,743	2,147,483,647	PyPy 3-64	OK	TESTS	36	280	5,427,200	def main(): n = int(input()) cost = [0] * (n+1) check = [False] * (n+1) temp = map(int, input().split()) m = int(input()) total = 0 childs = 0 for i in range(1, m+1): a, b, c = map(int, input().split()) if not check[b]: childs += 1 total += c cost[b] = c check[b] = True else: if cost[b] > c: total = total - cost[b] + c cost[b] = c if childs == n-1: print(total) else: print(-1) main()	Title: Hierarchy Time Limit: 2 seconds Memory Limit: 64 megabytes Problem Description: Nick's company employed n people. Now Nick needs to build a tree hierarchy of «supervisor-surbodinate» relations in the company (this is to say that each employee, except one, has exactly one supervisor). There are m applications written in the following form: «employee ai is ready to become a supervisor of employee bi at extra cost ci». The qualification qj of each employee is known, and for each application the following is true: qai<=><=qbi. Would you help Nick calculate the minimum cost of such a hierarchy, or find out that it is impossible to build it. Input Specification: The first input line contains integer n (1<=≤<=n<=≤<=1000) — amount of employees in the company. The following line contains n space-separated numbers qj (0<=≤<=qj<=≤<=106)— the employees' qualifications. The following line contains number m (0<=≤<=m<=≤<=10000) — amount of received applications. The following m lines contain the applications themselves, each of them in the form of three space-separated numbers: ai, bi and ci (1<=≤<=ai,<=bi<=≤<=n, 0<=≤<=ci<=≤<=106). Different applications can be similar, i.e. they can come from one and the same employee who offered to become a supervisor of the same person but at a different cost. For each application qai<=><=qbi. Output Specification: Output the only line — the minimum cost of building such a hierarchy, or -1 if it is impossible to build it. Demo Input: ['4\n7 2 3 1\n4\n1 2 5\n2 4 1\n3 4 1\n1 3 5\n', '3\n1 2 3\n2\n3 1 2\n3 1 3\n'] Demo Output: ['11\n', '-1\n'] Note: In the first sample one of the possible ways for building a hierarchy is to take applications with indexes 1, 2 and 4, which give 11 as the minimum total cost. In the second sample it is impossible to build the required hierarchy, so the answer is -1.	```python def main(): n = int(input()) cost = [0] * (n+1) check = [False] * (n+1) temp = map(int, input().split()) m = int(input()) total = 0 childs = 0 for i in range(1, m+1): a, b, c = map(int, input().split()) if not check[b]: childs += 1 total += c cost[b] = c check[b] = True else: if cost[b] > c: total = total - cost[b] + c cost[b] = c if childs == n-1: print(total) else: print(-1) main() ```	3.889564
727	A	Transformation: from A to B	PROGRAMMING	1,000	[ "brute force", "dfs and similar", "math" ]		null	null	Vasily has a number a, which he wants to turn into a number b. For this purpose, he can do two types of operations: - multiply the current number by 2 (that is, replace the number x by 2·x); - append the digit 1 to the right of current number (that is, replace the number x by 10·x<=+<=1). You need to help Vasily to transform the number a into the number b using only the operations described above, or find that it is impossible. Note that in this task you are not required to minimize the number of operations. It suffices to find any way to transform a into b.	The first line contains two positive integers a and b (1<=≤<=a<=<<=b<=≤<=109) — the number which Vasily has and the number he wants to have.	If there is no way to get b from a, print "NO" (without quotes). Otherwise print three lines. On the first line print "YES" (without quotes). The second line should contain single integer k — the length of the transformation sequence. On the third line print the sequence of transformations x1,<=x2,<=...,<=xk, where: - x1 should be equal to a, - xk should be equal to b, - xi should be obtained from xi<=-<=1 using any of two described operations (1<=<<=i<=≤<=k). If there are multiple answers, print any of them.	[ "2 162\n", "4 42\n", "100 40021\n" ]	[ "YES\n5\n2 4 8 81 162 \n", "NO\n", "YES\n5\n100 200 2001 4002 40021 \n" ]	none	1,000	[ { "input": "2 162", "output": "YES\n5\n2 4 8 81 162 " }, { "input": "4 42", "output": "NO" }, { "input": "100 40021", "output": "YES\n5\n100 200 2001 4002 40021 " }, { "input": "1 111111111", "output": "YES\n9\n1 11 111 1111 11111 111111 1111111 11111111 111111111 " }, { "input": "1 1000000000", "output": "NO" }, { "input": "999999999 1000000000", "output": "NO" }, { "input": "1 2", "output": "YES\n2\n1 2 " }, { "input": "1 536870912", "output": "YES\n30\n1 2 4 8 16 32 64 128 256 512 1024 2048 4096 8192 16384 32768 65536 131072 262144 524288 1048576 2097152 4194304 8388608 16777216 33554432 67108864 134217728 268435456 536870912 " }, { "input": "11111 11111111", "output": "YES\n4\n11111 111111 1111111 11111111 " }, { "input": "59139 946224", "output": "YES\n5\n59139 118278 236556 473112 946224 " }, { "input": "9859 19718", "output": "YES\n2\n9859 19718 " }, { "input": "25987 51974222", "output": "YES\n5\n25987 259871 2598711 25987111 51974222 " }, { "input": "9411 188222222", "output": "YES\n6\n9411 94111 941111 9411111 94111111 188222222 " }, { "input": "25539 510782222", "output": "YES\n6\n25539 255391 2553911 25539111 255391111 510782222 " }, { "input": "76259 610072", "output": "YES\n4\n76259 152518 305036 610072 " }, { "input": "92387 184774", "output": "YES\n2\n92387 184774 " }, { "input": "8515 85151111", "output": "YES\n5\n8515 85151 851511 8515111 85151111 " }, { "input": "91939 9193911", "output": "YES\n3\n91939 919391 9193911 " }, { "input": "30518 610361", "output": "YES\n3\n30518 61036 610361 " }, { "input": "46646 373168844", "output": "YES\n7\n46646 466461 932922 9329221 93292211 186584422 373168844 " }, { "input": "30070 300701", "output": "YES\n2\n30070 300701 " }, { "input": "13494 1079528", "output": "YES\n5\n13494 134941 269882 539764 1079528 " }, { "input": "96918 775344422", "output": "YES\n7\n96918 193836 1938361 3876722 38767221 387672211 775344422 " }, { "input": "13046 260921", "output": "YES\n3\n13046 26092 260921 " }, { "input": "29174 5834811", "output": "YES\n4\n29174 58348 583481 5834811 " }, { "input": "79894 319576421", "output": "YES\n6\n79894 798941 1597882 15978821 31957642 319576421 " }, { "input": "96022 1920442", "output": "YES\n3\n96022 960221 1920442 " }, { "input": "79446 6355681", "output": "YES\n5\n79446 158892 317784 635568 6355681 " }, { "input": "5440 27853056", "output": "YES\n11\n5440 10880 108801 217602 435204 870408 1740816 3481632 6963264 13926528 27853056 " }, { "input": "250000000 705032705", "output": "NO" }, { "input": "17 35", "output": "NO" }, { "input": "1 3", "output": "NO" }, { "input": "2 11", "output": "NO" } ]	1,655,985,025	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	input_list = list(map(int,input.split())) a,b = input_list[0],input_list[1] def f(a,b,out,ops): if a==b: out = out + [a] print("YES") print(ops) print(out) return True if a>b: return False return f(a2,b,out+[a],ops+1) or f(a*10+1,b,out+[a],ops+1) print("NO") if not f(a,b,[],0)	Title: Transformation: from A to B Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasily has a number a, which he wants to turn into a number b. For this purpose, he can do two types of operations: - multiply the current number by 2 (that is, replace the number x by 2·x); - append the digit 1 to the right of current number (that is, replace the number x by 10·x<=+<=1). You need to help Vasily to transform the number a into the number b using only the operations described above, or find that it is impossible. Note that in this task you are not required to minimize the number of operations. It suffices to find any way to transform a into b. Input Specification: The first line contains two positive integers a and b (1<=≤<=a<=<<=b<=≤<=109) — the number which Vasily has and the number he wants to have. Output Specification: If there is no way to get b from a, print "NO" (without quotes). Otherwise print three lines. On the first line print "YES" (without quotes). The second line should contain single integer k — the length of the transformation sequence. On the third line print the sequence of transformations x1,<=x2,<=...,<=xk, where: - x1 should be equal to a, - xk should be equal to b, - xi should be obtained from xi<=-<=1 using any of two described operations (1<=<<=i<=≤<=k). If there are multiple answers, print any of them. Demo Input: ['2 162\n', '4 42\n', '100 40021\n'] Demo Output: ['YES\n5\n2 4 8 81 162 \n', 'NO\n', 'YES\n5\n100 200 2001 4002 40021 \n'] Note: none	```python input_list = list(map(int,input.split())) a,b = input_list[0],input_list[1] def f(a,b,out,ops): if a==b: out = out + [a] print("YES") print(ops) print(out) return True if a>b: return False return f(a2,b,out+[a],ops+1) or f(a*10+1,b,out+[a],ops+1) print("NO") if not f(a,b,[],0) ```	-1
586	A	Alena's Schedule	PROGRAMMING	900	[ "implementation" ]		null	null	Alena has successfully passed the entrance exams to the university and is now looking forward to start studying. One two-hour lesson at the Russian university is traditionally called a pair, it lasts for two academic hours (an academic hour is equal to 45 minutes). The University works in such a way that every day it holds exactly n lessons. Depending on the schedule of a particular group of students, on a given day, some pairs may actually contain classes, but some may be empty (such pairs are called breaks). The official website of the university has already published the schedule for tomorrow for Alena's group. Thus, for each of the n pairs she knows if there will be a class at that time or not. Alena's House is far from the university, so if there are breaks, she doesn't always go home. Alena has time to go home only if the break consists of at least two free pairs in a row, otherwise she waits for the next pair at the university. Of course, Alena does not want to be sleepy during pairs, so she will sleep as long as possible, and will only come to the first pair that is presented in her schedule. Similarly, if there are no more pairs, then Alena immediately goes home. Alena appreciates the time spent at home, so she always goes home when it is possible, and returns to the university only at the beginning of the next pair. Help Alena determine for how many pairs she will stay at the university. Note that during some pairs Alena may be at the university waiting for the upcoming pair.	The first line of the input contains a positive integer n (1<=≤<=n<=≤<=100) — the number of lessons at the university. The second line contains n numbers ai (0<=≤<=ai<=≤<=1). Number ai equals 0, if Alena doesn't have the i-th pairs, otherwise it is equal to 1. Numbers a1,<=a2,<=...,<=an are separated by spaces.	Print a single number — the number of pairs during which Alena stays at the university.	[ "5\n0 1 0 1 1\n", "7\n1 0 1 0 0 1 0\n", "1\n0\n" ]	[ "4\n", "4\n", "0\n" ]	In the first sample Alena stays at the university from the second to the fifth pair, inclusive, during the third pair she will be it the university waiting for the next pair. In the last sample Alena doesn't have a single pair, so she spends all the time at home.	500	[ { "input": "5\n0 1 0 1 1", "output": "4" }, { "input": "7\n1 0 1 0 0 1 0", "output": "4" }, { "input": "1\n0", "output": "0" }, { "input": "1\n1", "output": "1" }, { "input": "2\n0 0", "output": "0" }, { "input": "2\n0 1", "output": "1" }, { "input": "2\n1 0", "output": "1" }, { "input": "2\n1 1", "output": "2" }, { "input": "10\n0 0 0 0 0 0 0 0 0 0", "output": "0" }, { "input": "9\n1 1 1 1 1 1 1 1 1", "output": "9" }, { "input": "11\n0 0 0 0 0 0 0 0 0 0 1", "output": "1" }, { "input": "12\n1 0 0 0 0 0 0 0 0 0 0 0", "output": "1" }, { "input": "20\n1 1 0 1 1 1 1 1 1 1 1 0 1 1 1 0 0 1 0 0", "output": "16" }, { "input": "41\n1 1 0 1 0 1 0 0 1 0 1 1 1 0 0 0 1 1 1 0 1 0 1 1 0 1 0 1 0 0 0 0 0 0 1 0 0 1 0 1 1", "output": "28" }, { "input": "63\n1 1 0 1 1 0 0 0 1 1 0 0 1 1 1 1 0 1 1 0 1 0 1 1 1 1 1 0 0 0 0 0 0 1 0 0 1 0 0 1 0 1 1 0 0 1 1 0 0 1 1 1 1 0 0 1 1 0 0 1 0 1 0", "output": "39" }, { "input": "80\n0 1 1 1 0 1 1 1 1 1 0 0 1 0 1 1 0 1 1 1 0 1 1 1 1 0 1 0 1 0 0 0 1 1 0 1 1 0 0 0 0 1 1 1 0 0 0 1 0 0 1 1 1 0 0 0 0 0 0 1 0 1 0 0 1 0 1 1 1 1 1 0 0 0 1 1 0 0 1 1", "output": "52" }, { "input": "99\n1 1 0 0 0 1 0 0 1 1 1 1 0 0 0 1 0 1 1 0 1 1 1 1 0 0 0 0 1 1 1 1 0 1 0 1 0 1 1 1 0 0 1 1 1 0 0 0 1 1 1 0 1 1 1 0 1 0 0 1 1 0 1 0 0 1 1 1 1 0 0 1 1 0 0 1 0 1 1 1 0 1 1 0 1 0 0 1 0 1 0 1 0 1 1 0 1 0 1", "output": "72" }, { "input": "100\n0 1 1 0 1 1 0 0 1 1 0 1 1 1 1 1 0 0 1 1 1 0 0 0 0 1 1 0 0 1 0 0 1 0 0 0 0 1 1 1 1 1 1 0 0 1 1 0 0 0 0 1 0 1 1 1 0 1 1 0 1 0 0 0 0 0 1 0 1 1 0 0 1 1 0 1 1 0 0 1 1 1 0 1 1 1 1 1 1 0 0 1 1 1 1 0 1 1 1 0", "output": "65" }, { "input": "11\n0 1 1 0 0 0 0 0 0 0 0", "output": "2" }, { "input": "11\n0 1 0 1 0 0 1 1 0 1 1", "output": "8" }, { "input": "11\n1 0 1 0 1 1 0 1 1 1 0", "output": "10" }, { "input": "11\n1 0 0 0 0 0 1 0 1 1 1", "output": "6" }, { "input": "22\n0 1 1 0 0 0 0 0 1 0 0 0 0 1 1 0 0 1 0 0 1 0", "output": "7" }, { "input": "22\n0 1 0 1 0 1 1 1 1 0 0 1 1 1 0 1 1 1 0 0 0 1", "output": "16" }, { "input": "22\n1 0 1 0 1 0 0 0 0 0 0 1 0 0 0 0 1 1 0 1 1 0", "output": "11" }, { "input": "22\n1 0 1 0 0 0 1 0 0 1 1 0 1 0 1 1 0 0 0 1 0 1", "output": "14" }, { "input": "33\n0 1 1 0 1 1 0 1 0 1 1 0 1 1 1 1 0 1 1 1 0 0 1 1 0 0 1 1 0 1 1 0 0", "output": "26" }, { "input": "33\n0 1 0 1 0 1 1 0 0 0 1 1 1 0 1 0 1 1 0 1 0 1 0 0 1 1 1 0 1 1 1 0 1", "output": "27" }, { "input": "33\n1 0 1 0 1 0 0 0 1 0 1 1 1 0 0 0 0 1 1 0 1 0 1 1 0 1 0 1 1 1 1 1 0", "output": "25" }, { "input": "33\n1 0 1 0 1 1 1 1 1 0 1 0 1 1 0 0 1 0 1 0 0 0 1 0 1 0 1 0 0 0 0 1 1", "output": "24" }, { "input": "44\n0 1 1 0 1 0 0 0 0 1 1 0 0 0 0 0 1 1 1 0 0 0 0 0 1 0 0 1 1 0 0 0 0 1 1 1 0 0 1 0 1 1 0 0", "output": "19" }, { "input": "44\n0 1 1 1 1 0 1 0 0 1 0 1 0 0 1 1 0 1 1 0 0 1 0 1 0 1 1 0 1 0 1 0 1 0 1 0 0 0 0 0 1 0 1 1", "output": "32" }, { "input": "44\n1 0 1 0 0 1 0 1 0 1 0 1 0 1 1 1 1 1 0 1 0 0 0 0 0 0 0 0 0 0 1 1 0 0 0 0 1 0 0 1 0 0 1 0", "output": "23" }, { "input": "44\n1 0 1 0 1 1 1 0 0 0 0 0 0 1 0 0 0 1 1 1 0 0 0 1 0 1 0 1 1 0 1 1 0 1 0 1 1 0 1 0 1 1 1 1", "output": "32" }, { "input": "55\n0 1 1 0 1 0 0 0 1 0 0 0 1 0 1 0 0 1 0 0 0 0 1 1 1 0 0 1 1 0 0 0 0 0 1 0 1 1 1 0 0 0 0 0 1 0 0 0 0 1 1 0 0 1 0", "output": "23" }, { "input": "55\n0 1 1 0 1 0 1 1 1 1 0 1 1 0 0 1 1 1 0 0 0 1 1 0 0 1 0 1 0 1 0 0 1 1 1 1 1 0 0 0 1 1 1 1 1 1 1 1 0 1 1 0 0 0 1", "output": "39" }, { "input": "55\n1 0 1 0 0 1 0 0 1 1 0 1 0 1 0 0 1 1 0 0 0 0 1 1 1 0 0 0 1 1 1 1 0 1 0 1 0 0 0 1 0 1 1 0 0 0 1 0 1 0 0 1 1 0 0", "output": "32" }, { "input": "55\n1 0 1 0 1 0 1 0 1 1 0 0 1 1 1 1 0 1 0 0 0 1 1 0 0 1 0 1 0 1 1 1 0 0 0 0 0 0 1 0 0 0 1 1 1 0 0 0 1 0 1 0 1 1 1", "output": "36" }, { "input": "66\n0 1 1 0 0 1 0 1 0 1 0 1 1 0 1 1 0 0 1 1 0 1 0 0 0 0 0 0 0 1 0 0 0 1 1 1 1 1 1 0 0 1 1 1 0 1 0 1 1 0 1 0 0 1 1 0 1 1 1 0 0 0 0 0 1 0", "output": "41" }, { "input": "66\n0 1 1 0 1 1 1 0 0 0 1 1 0 1 1 0 0 1 1 1 1 1 0 1 1 1 0 1 1 1 0 0 1 0 0 1 1 1 0 0 1 0 1 1 1 0 0 0 1 0 0 0 0 0 1 0 1 0 0 1 0 0 1 1 0 1", "output": "42" }, { "input": "66\n1 0 1 0 0 0 1 0 1 0 1 0 1 1 0 1 0 1 1 0 0 0 1 1 1 0 1 0 0 1 0 1 0 0 0 0 1 1 0 1 1 0 1 0 0 0 1 1 0 1 0 1 1 0 0 0 1 1 0 1 1 0 1 1 0 0", "output": "46" }, { "input": "66\n1 0 1 0 0 0 1 1 1 1 1 0 1 0 0 0 1 1 1 0 1 1 0 1 0 1 0 0 1 0 0 1 0 1 0 1 0 0 1 0 0 1 0 1 1 1 1 1 0 1 1 1 1 1 1 0 0 0 1 0 1 1 0 0 0 1", "output": "46" }, { "input": "77\n0 0 1 0 0 1 0 0 1 1 1 1 0 1 0 0 1 0 0 0 0 1 0 0 0 0 1 0 1 0 1 0 0 0 1 0 0 1 1 0 1 0 1 1 0 0 0 1 0 0 1 1 1 0 1 0 1 1 0 1 0 0 0 1 0 1 1 0 1 1 1 0 1 1 0 1 0", "output": "47" }, { "input": "77\n0 0 1 0 0 0 1 0 1 1 1 1 0 1 1 1 0 1 1 0 1 1 1 0 1 1 0 1 0 0 0 0 1 1 0 0 0 1 1 0 0 1 1 0 1 0 0 1 0 0 0 1 0 0 1 0 0 0 1 0 0 0 1 0 0 1 0 1 1 0 1 0 0 0 0 1 1", "output": "44" }, { "input": "77\n1 0 0 0 1 0 1 1 0 0 1 0 0 0 1 1 1 1 0 1 0 0 0 0 0 0 1 1 0 0 0 1 0 1 0 1 1 1 0 1 1 1 0 0 0 1 1 0 1 1 1 0 1 1 0 0 1 0 0 1 1 1 1 0 1 0 0 0 1 0 1 1 0 0 0 0 0", "output": "45" }, { "input": "77\n1 0 1 0 0 1 1 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 0 0 1 1 1 0 1 1 0 1 0 0 0 0 1 1 1 0 1 0 0 1 1 0 1 0 1 1 1 1 1 1 1 0 0 1 1 0 0 1 0 1 1 1 1 1 1 1 1 0 0 1 0 1 1", "output": "51" }, { "input": "88\n0 0 1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 1 0 1 1 1 0 0 1 1 0 0 1 0 1 1 1 0 1 1 1 0 1 1 1 1 0 0 0 0 1 0 0 0 1 0 1 1 0 1 0 1 0 0 0 0 1 0 1 0 0 0 0 0 0 0 0 0 0 1 1 0 0 1 0 0 1 1 1 0", "output": "44" }, { "input": "88\n0 0 1 0 0 0 1 1 0 1 0 1 1 1 0 1 1 1 0 1 1 1 1 1 0 1 1 0 1 1 1 0 1 0 0 1 0 1 1 0 0 0 0 0 1 1 0 0 1 0 1 1 1 0 1 1 0 1 1 0 0 0 1 1 1 1 1 1 1 0 0 1 0 1 0 0 0 1 0 1 0 0 0 0 0 0 0 1", "output": "59" }, { "input": "88\n1 0 0 0 1 1 1 0 1 1 0 0 0 0 0 0 1 0 1 0 0 0 1 1 0 0 1 1 1 1 1 1 0 0 0 0 0 1 0 1 0 0 0 0 0 1 1 1 0 1 1 0 0 1 1 1 0 0 1 0 0 1 1 1 1 0 0 1 0 1 1 1 0 1 0 1 1 1 1 0 1 0 1 1 1 0 0 0", "output": "53" }, { "input": "88\n1 1 1 0 0 1 1 0 1 0 0 0 1 0 1 1 1 1 1 0 1 1 1 1 1 1 1 0 0 1 0 1 1 1 0 0 0 1 1 0 1 1 0 1 0 0 1 0 0 1 0 0 1 0 1 1 0 1 0 1 0 1 0 0 1 1 1 0 0 0 1 0 0 1 0 0 1 1 0 1 1 1 1 0 1 1 0 1", "output": "63" }, { "input": "99\n0 0 0 0 1 0 0 1 0 0 0 1 1 1 1 1 1 0 1 1 0 1 0 0 1 0 1 1 1 1 1 0 1 0 1 1 1 0 0 0 1 0 0 1 0 1 0 1 0 0 0 0 1 0 1 1 0 0 1 1 1 0 0 1 1 0 0 0 0 0 0 1 0 0 0 1 1 0 0 0 1 1 1 0 1 1 0 1 0 1 0 0 0 1 1 0 0 0 0", "output": "56" }, { "input": "99\n0 0 1 0 0 1 1 0 0 0 1 1 0 0 1 0 0 0 1 1 1 1 0 0 0 1 1 0 0 0 1 0 1 1 0 0 1 1 1 0 1 1 0 0 0 0 0 1 0 0 1 0 1 1 0 1 0 1 0 0 1 0 1 1 1 1 1 1 0 1 0 0 1 1 0 0 1 0 1 0 1 0 1 1 1 0 0 1 1 1 0 0 0 0 0 0 1 1 1", "output": "58" }, { "input": "99\n1 1 0 0 1 1 1 0 0 0 1 0 1 0 1 1 0 0 0 0 0 0 0 0 1 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 1 0 1 1 1 1 0 1 1 1 0 0 1 0 0 1 1 0 0 0 0 1 0 0 1 0 1 1 0 1 1 0 0 1 0 0 1 0 1 0 1 1 0 1 0 1 1 1 1 0 0 1 0", "output": "65" }, { "input": "99\n1 1 1 0 1 0 1 1 0 1 1 0 0 1 0 0 1 1 1 0 1 1 0 0 0 1 1 1 1 0 1 1 1 0 1 1 0 1 1 0 1 0 1 0 0 1 1 1 1 1 0 1 1 0 1 1 0 0 0 1 0 1 0 1 0 1 0 0 0 1 1 1 1 0 0 1 1 0 1 0 0 0 1 0 1 1 1 0 0 1 1 1 1 1 0 1 1 1 1", "output": "77" }, { "input": "90\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "0" }, { "input": "90\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "90" }, { "input": "95\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "0" }, { "input": "95\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "95" }, { "input": "100\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "0" }, { "input": "100\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "100" } ]	1,444,665,776	2,147,483,647	Python 3	OK	TESTS	60	62	0	n = int(input()) arr = list(map(int, input().split())) ans = 0 if arr[0] == 0: arr[0] = -1 if arr[n - 1] == 0: arr[n - 1] = -1 for i in range(0, n): if arr[i] == 1: ans += 1 if arr[i] == 0: if arr[i - 1] == 1 and arr[i + 1] == 1: ans += 1 print(ans)	Title: Alena's Schedule Time Limit: None seconds Memory Limit: None megabytes Problem Description: Alena has successfully passed the entrance exams to the university and is now looking forward to start studying. One two-hour lesson at the Russian university is traditionally called a pair, it lasts for two academic hours (an academic hour is equal to 45 minutes). The University works in such a way that every day it holds exactly n lessons. Depending on the schedule of a particular group of students, on a given day, some pairs may actually contain classes, but some may be empty (such pairs are called breaks). The official website of the university has already published the schedule for tomorrow for Alena's group. Thus, for each of the n pairs she knows if there will be a class at that time or not. Alena's House is far from the university, so if there are breaks, she doesn't always go home. Alena has time to go home only if the break consists of at least two free pairs in a row, otherwise she waits for the next pair at the university. Of course, Alena does not want to be sleepy during pairs, so she will sleep as long as possible, and will only come to the first pair that is presented in her schedule. Similarly, if there are no more pairs, then Alena immediately goes home. Alena appreciates the time spent at home, so she always goes home when it is possible, and returns to the university only at the beginning of the next pair. Help Alena determine for how many pairs she will stay at the university. Note that during some pairs Alena may be at the university waiting for the upcoming pair. Input Specification: The first line of the input contains a positive integer n (1<=≤<=n<=≤<=100) — the number of lessons at the university. The second line contains n numbers ai (0<=≤<=ai<=≤<=1). Number ai equals 0, if Alena doesn't have the i-th pairs, otherwise it is equal to 1. Numbers a1,<=a2,<=...,<=an are separated by spaces. Output Specification: Print a single number — the number of pairs during which Alena stays at the university. Demo Input: ['5\n0 1 0 1 1\n', '7\n1 0 1 0 0 1 0\n', '1\n0\n'] Demo Output: ['4\n', '4\n', '0\n'] Note: In the first sample Alena stays at the university from the second to the fifth pair, inclusive, during the third pair she will be it the university waiting for the next pair. In the last sample Alena doesn't have a single pair, so she spends all the time at home.	```python n = int(input()) arr = list(map(int, input().split())) ans = 0 if arr[0] == 0: arr[0] = -1 if arr[n - 1] == 0: arr[n - 1] = -1 for i in range(0, n): if arr[i] == 1: ans += 1 if arr[i] == 0: if arr[i - 1] == 1 and arr[i + 1] == 1: ans += 1 print(ans) ```	3
425	A	Sereja and Swaps	PROGRAMMING	1,500	[ "brute force", "sortings" ]		null	null	As usual, Sereja has array a, its elements are integers: a[1],<=a[2],<=...,<=a[n]. Let's introduce notation: A swap operation is the following sequence of actions: - choose two indexes i,<=j (i<=≠<=j); - perform assignments tmp<==<=a[i],<=a[i]<==<=a[j],<=a[j]<==<=tmp. What maximum value of function m(a) can Sereja get if he is allowed to perform at most k swap operations?	The first line contains two integers n and k (1<=≤<=n<=≤<=200; 1<=≤<=k<=≤<=10). The next line contains n integers a[1], a[2], ..., a[n] (<=-<=1000<=≤<=a[i]<=≤<=1000).	In a single line print the maximum value of m(a) that Sereja can get if he is allowed to perform at most k swap operations.	[ "10 2\n10 -1 2 2 2 2 2 2 -1 10\n", "5 10\n-1 -1 -1 -1 -1\n" ]	[ "32\n", "-1\n" ]	none	500	[ { "input": "10 2\n10 -1 2 2 2 2 2 2 -1 10", "output": "32" }, { "input": "5 10\n-1 -1 -1 -1 -1", "output": "-1" }, { "input": "18 1\n166 788 276 -103 -491 195 -960 389 376 369 630 285 3 575 315 -987 820 466", "output": "5016" }, { "input": "29 6\n-21 486 -630 -433 -123 -387 618 110 -203 55 -123 524 -168 662 432 378 -155 -136 -162 811 457 -157 -215 861 -565 -506 557 348 -7", "output": "6299" }, { "input": "9 9\n-767 148 -323 -818 41 -228 615 885 -260", "output": "1689" }, { "input": "35 5\n151 -160 -292 -31 -131 174 359 42 438 413 164 91 118 393 76 435 371 -76 145 605 292 578 623 405 664 330 455 329 66 168 179 -76 996 163 531", "output": "9754" }, { "input": "47 10\n-175 246 -903 681 748 -338 333 0 666 245 370 402 -38 682 144 658 -10 313 295 351 -95 149 111 -210 645 -173 -276 690 593 697 259 698 421 584 -229 445 -215 -203 49 642 386 649 469 4 340 484 279", "output": "14728" }, { "input": "11 7\n877 -188 10 -175 217 -254 841 380 552 -607 228", "output": "3105" }, { "input": "38 1\n173 587 -788 163 83 -768 461 -527 350 3 -898 634 -217 -528 317 -238 545 93 -964 283 -798 -596 77 222 -370 -209 61 846 -831 -419 -366 -509 -356 -649 916 -391 981 -596", "output": "2743" }, { "input": "6 9\n-669 45 -220 544 106 680", "output": "1375" }, { "input": "32 9\n-650 -208 506 812 -540 -275 -272 -236 -96 197 425 475 81 570 281 633 449 396 401 -362 -379 667 717 875 658 114 294 100 286 112 -928 -373", "output": "9049" }, { "input": "36 5\n-286 762 -5 -230 -483 -140 -143 -82 -127 449 435 85 -262 567 454 -163 942 -679 -609 854 -533 717 -101 92 -767 795 -804 -953 -754 -251 -100 884 809 -358 469 -112", "output": "8222" }, { "input": "24 5\n-751 889 721 -900 903 -900 -693 895 828 314 836 -493 549 -74 264 662 229 517 -223 367 141 -99 -390 283", "output": "8398" }, { "input": "82 8\n-483 465 435 -789 80 -412 672 512 -755 981 784 -281 -634 -270 806 887 -495 -46 -244 609 42 -821 100 -40 -299 -6 560 941 523 758 -730 -930 91 -138 -299 0 533 -208 -416 869 967 -871 573 165 -279 298 934 -236 70 800 550 433 139 147 139 -212 137 -933 -863 876 -622 193 -121 -944 983 -592 -40 -712 891 985 16 580 -845 -903 -986 952 -95 -613 -2 -45 -86 -206", "output": "18704" }, { "input": "116 10\n477 -765 -756 376 -48 -75 768 -658 263 -207 362 -535 96 -960 630 -686 609 -830 889 57 -239 346 -298 -18 -107 853 -607 -443 -517 371 657 105 479 498 -47 432 503 -917 -656 610 -466 216 -747 -587 -163 -174 493 -882 853 -582 -774 -477 -386 610 -58 557 968 196 69 610 -38 366 -79 574 170 317 332 189 158 -194 136 -151 500 309 624 316 543 472 132 -15 -78 166 360 -71 12 247 678 263 573 -198 1 101 155 -65 597 -93 60 3 -496 985 -586 -761 -532 506 578 -13 569 845 -341 870 -900 891 724 408 229 -210", "output": "24624" }, { "input": "110 4\n-813 -73 334 667 602 -155 432 -133 689 397 461 499 630 40 69 299 697 449 -130 210 -146 415 292 123 12 -105 444 338 509 497 142 688 603 107 -108 160 211 -215 219 -144 637 -173 615 -210 521 545 377 -6 -187 354 647 309 139 309 155 -242 546 -231 -267 405 411 -271 -149 264 -169 -447 -749 -218 273 -798 -135 839 54 -764 279 -578 -641 -152 -881 241 174 31 525 621 -855 656 482 -197 -402 995 785 338 -733 293 606 294 -645 262 909 325 -246 -952 408 646 2 -567 -484 661 -390 -488", "output": "20286" }, { "input": "94 2\n432 255 304 757 -438 52 461 55 837 -564 304 713 -968 -539 -593 835 -824 -532 38 -880 -772 480 -755 -387 -830 286 -38 -202 -273 423 272 471 -224 306 490 532 -210 -245 -20 680 -236 404 -5 -188 387 582 -30 -800 276 -811 240 -4 214 -708 200 -785 -466 61 16 -742 647 -371 -851 -295 -552 480 38 924 403 704 -705 -972 677 569 450 446 816 396 -179 281 -564 -27 -272 -640 809 29 28 -209 -925 997 -268 133 265 161", "output": "7839" }, { "input": "78 8\n-230 -757 673 -284 381 -324 -96 975 249 971 -355 186 -526 804 147 -553 655 263 -247 775 108 -246 -107 25 -786 -372 -24 -619 265 -192 269 392 210 449 335 -207 371 562 307 141 668 78 13 251 623 -238 60 543 618 201 73 -35 -663 620 485 444 330 362 -33 484 685 257 542 375 -952 48 -604 -288 -19 -718 -798 946 -533 -666 -686 -278 368 -294", "output": "17941" }, { "input": "1 10\n-1", "output": "-1" }, { "input": "1 1\n-1", "output": "-1" }, { "input": "1 1\n1", "output": "1" }, { "input": "1 10\n1", "output": "1" }, { "input": "10 1\n-1 1 1 1 1 1 1 1 1 1", "output": "9" } ]	1,657,203,902	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	46	614,400	from typing import List def maximum_value_of_function(n:int, k:int, a:List[int]) -> int: def swap(a,i,j): # helper function to swap numbers in array for ith and jth index temp = a[i] a[i] = a[j] a[j] = temp return a def get_max(a): # helper function to get the max value of the current array sums = [] current_sum = 0 for val in a: if val>0: # if the current value is greater than 0 i.e. not negative then we add the val to current sum current_sum += val else: sums.append(current_sum) # else if negative we append the value to the list of sums and set current_sum = 0 current_sum = 0 sums.append(current_sum) return max(sums) # we return the max of the list of sums def get_indexes(a,n): # helper function to get the indexes satisfying our question indexes = [] counter = 0 for index in range(0,len(a)): for sub_index in range(index,len(a)): if a[sub_index]<0: counter += 1 if counter == n+1: indexes.append((index,sub_index-1)) counter = 0 break indexes.append((index,sub_index)) counter = 0 return indexes indexes = get_indexes(a,k) sums = [] for index in indexes: temp = list(a) for i in range(0,k): for sub_index in range(index[0],index[1]+1): if temp[sub_index]<0: maxright = max(temp[index[1]+1:]) if temp[index[1]+1:] != [] else 0 maxleft = max(temp[:index[0]]) if temp[:index[0]] != [] else 0 if maxright>=maxleft and maxleft>=0 and maxright!=0: temp = swap(temp,sub_index,temp.index(maxright)) break elif maxleft>maxright and maxright>=0 and maxleft!=0: temp = swap(temp,sub_index,temp.index(maxleft)) break else: break sums.append(get_max(temp)) return max(sums) if max(sums) != 0 else -1 n, k = map(int, input().split()) a = map(int, input().split()) print(maximum_value_of_function(n,k,a))	Title: Sereja and Swaps Time Limit: None seconds Memory Limit: None megabytes Problem Description: As usual, Sereja has array a, its elements are integers: a[1],<=a[2],<=...,<=a[n]. Let's introduce notation: A swap operation is the following sequence of actions: - choose two indexes i,<=j (i<=≠<=j); - perform assignments tmp<==<=a[i],<=a[i]<==<=a[j],<=a[j]<==<=tmp. What maximum value of function m(a) can Sereja get if he is allowed to perform at most k swap operations? Input Specification: The first line contains two integers n and k (1<=≤<=n<=≤<=200; 1<=≤<=k<=≤<=10). The next line contains n integers a[1], a[2], ..., a[n] (<=-<=1000<=≤<=a[i]<=≤<=1000). Output Specification: In a single line print the maximum value of m(a) that Sereja can get if he is allowed to perform at most k swap operations. Demo Input: ['10 2\n10 -1 2 2 2 2 2 2 -1 10\n', '5 10\n-1 -1 -1 -1 -1\n'] Demo Output: ['32\n', '-1\n'] Note: none	```python from typing import List def maximum_value_of_function(n:int, k:int, a:List[int]) -> int: def swap(a,i,j): # helper function to swap numbers in array for ith and jth index temp = a[i] a[i] = a[j] a[j] = temp return a def get_max(a): # helper function to get the max value of the current array sums = [] current_sum = 0 for val in a: if val>0: # if the current value is greater than 0 i.e. not negative then we add the val to current sum current_sum += val else: sums.append(current_sum) # else if negative we append the value to the list of sums and set current_sum = 0 current_sum = 0 sums.append(current_sum) return max(sums) # we return the max of the list of sums def get_indexes(a,n): # helper function to get the indexes satisfying our question indexes = [] counter = 0 for index in range(0,len(a)): for sub_index in range(index,len(a)): if a[sub_index]<0: counter += 1 if counter == n+1: indexes.append((index,sub_index-1)) counter = 0 break indexes.append((index,sub_index)) counter = 0 return indexes indexes = get_indexes(a,k) sums = [] for index in indexes: temp = list(a) for i in range(0,k): for sub_index in range(index[0],index[1]+1): if temp[sub_index]<0: maxright = max(temp[index[1]+1:]) if temp[index[1]+1:] != [] else 0 maxleft = max(temp[:index[0]]) if temp[:index[0]] != [] else 0 if maxright>=maxleft and maxleft>=0 and maxright!=0: temp = swap(temp,sub_index,temp.index(maxright)) break elif maxleft>maxright and maxright>=0 and maxleft!=0: temp = swap(temp,sub_index,temp.index(maxleft)) break else: break sums.append(get_max(temp)) return max(sums) if max(sums) != 0 else -1 n, k = map(int, input().split()) a = map(int, input().split()) print(maximum_value_of_function(n,k,a)) ```	-1
197	B	Limit	PROGRAMMING	1,400	[ "math" ]		null	null	You are given two polynomials: - P(x)<==<=a0·xn<=+<=a1·xn<=-<=1<=+<=...<=+<=an<=-<=1·x<=+<=an and - Q(x)<==<=b0·xm<=+<=b1·xm<=-<=1<=+<=...<=+<=bm<=-<=1·x<=+<=bm. Calculate limit .	The first line contains two space-separated integers n and m (0<=≤<=n,<=m<=≤<=100) — degrees of polynomials P(x) and Q(x) correspondingly. The second line contains n<=+<=1 space-separated integers — the factors of polynomial P(x): a0, a1, ..., an<=-<=1, an (<=-<=100<=≤<=ai<=≤<=100,<=a0<=≠<=0). The third line contains m<=+<=1 space-separated integers — the factors of polynomial Q(x): b0, b1, ..., bm<=-<=1, bm (<=-<=100<=≤<=bi<=≤<=100,<=b0<=≠<=0).	If the limit equals <=+<=∞, print "Infinity" (without quotes). If the limit equals <=-<=∞, print "-Infinity" (without the quotes). If the value of the limit equals zero, print "0/1" (without the quotes). Otherwise, print an irreducible fraction — the value of limit , in the format "p/q" (without the quotes), where p is the — numerator, q (q<=><=0) is the denominator of the fraction.	[ "2 1\n1 1 1\n2 5\n", "1 0\n-1 3\n2\n", "0 1\n1\n1 0\n", "2 2\n2 1 6\n4 5 -7\n", "1 1\n9 0\n-5 2\n" ]	[ "Infinity\n", "-Infinity\n", "0/1\n", "1/2\n", "-9/5\n" ]	Let's consider all samples: 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/c28febca257452afdfcbd6984ba8623911f9bdbc.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/1e55ecd04e54a45e5e0092ec9a5c1ea03bb29255.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/2c95fb684d373fcc1a481cfabeda4d5c2f3673ee.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4dc40cb8b3cd6375c42445366e50369649a2801a.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/c6455aba35cfb3c4397505121d1f77afcd17c98e.png" style="max-width: 100.0%;max-height: 100.0%;"/> You can learn more about the definition and properties of limits if you follow the link: http://en.wikipedia.org/wiki/Limit_of_a_function	500	[ { "input": "2 1\n1 1 1\n2 5", "output": "Infinity" }, { "input": "1 0\n-1 3\n2", "output": "-Infinity" }, { "input": "0 1\n1\n1 0", "output": "0/1" }, { "input": "2 2\n2 1 6\n4 5 -7", "output": "1/2" }, { "input": "1 1\n9 0\n-5 2", "output": "-9/5" }, { "input": "1 2\n5 3\n-3 2 -1", "output": "0/1" }, { "input": "1 2\n-4 8\n-2 5 -3", "output": "0/1" }, { "input": "3 2\n4 3 1 2\n-5 7 0", "output": "-Infinity" }, { "input": "2 1\n-3 5 1\n-8 0", "output": "Infinity" }, { "input": "1 1\n-5 7\n3 1", "output": "-5/3" }, { "input": "2 2\n-4 2 1\n-5 8 -19", "output": "4/5" }, { "input": "0 100\n1\n100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100", "output": "0/1" }, { "input": "100 0\n100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100\n1", "output": "Infinity" }, { "input": "0 0\n36\n-54", "output": "-2/3" }, { "input": "0 0\n36\n-8", "output": "-9/2" }, { "input": "0 0\n-6\n-8", "output": "3/4" }, { "input": "0 2\n-3\n1 4 6", "output": "0/1" }, { "input": "0 0\n-21\n13", "output": "-21/13" }, { "input": "0 0\n-34\n21", "output": "-34/21" }, { "input": "0 0\n-55\n34", "output": "-55/34" }, { "input": "33 100\n-15 -90 -84 57 67 60 -40 -82 83 -80 43 -15 -36 -14 -37 -49 42 -79 49 -7 -12 53 -44 -21 87 -91 -73 -27 13 65 5 74 -21 -52\n-67 -17 36 -46 -5 31 -45 -35 -49 13 -7 -82 92 -55 -67 -96 31 -70 76 24 -29 26 96 19 -40 99 -26 74 -17 -56 -72 24 -71 -62 10 -56 -74 75 -48 -98 -67 -26 47 7 63 -38 99 66 -25 -31 -24 -42 -49 -27 -45 -2 -37 -16 5 -21 97 33 85 -33 93 30 84 73 -48 18 -36 71 -38 -41 28 1 -7 -15 60 59 -20 -38 -86 90 2 -12 72 -43 26 76 97 7 -2 -47 -4 100 -40 -48 53 -54 0", "output": "0/1" }, { "input": "39 87\n78 -50 18 -32 -12 -65 83 41 -6 53 -26 64 -19 -53 -61 91 -49 -66 67 69 100 -39 95 99 86 -67 -66 63 48 26 -4 95 -54 -71 26 -74 -93 79 -91 -45\n-18 23 48 59 76 82 95 2 -26 18 -39 -74 44 -92 40 -44 1 -97 -100 -63 -54 -3 -86 85 28 -50 41 -53 -74 -29 -91 87 27 -42 -90 -15 -26 -15 -100 -70 -10 -41 16 85 71 -39 -31 -65 80 98 9 23 -40 14 -88 15 -34 10 -67 -94 -58 -24 75 48 -42 56 -77 -13 -25 -79 -100 -57 89 45 22 85 78 -93 -79 69 63 44 74 94 35 -65 -12 -88", "output": "0/1" }, { "input": "47 56\n31 -99 -97 6 -45 -5 89 35 -77 69 57 91 -32 -66 -36 16 30 61 -36 32 48 67 5 -85 65 -11 -51 -63 -51 -16 39 -26 -60 -28 91 43 -90 32 44 83 70 -53 51 56 68 -81 76 79\n61 -21 -75 -36 -24 -19 80 26 -28 93 27 72 -39 -46 -38 68 -29 -16 -63 84 -13 64 55 63 77 5 68 70 15 99 12 -69 50 -48 -82 -3 52 -54 68 91 -37 -100 -5 74 24 91 -1 74 28 29 -87 -13 -88 82 -13 58 23", "output": "0/1" }, { "input": "9 100\n-34 88 33 -80 87 31 -53 -3 8 -70\n31 -25 46 78 8 82 -92 -36 -30 85 -93 86 -87 75 8 -71 44 -41 -83 19 89 -28 81 42 79 86 41 -23 64 -31 46 24 -79 23 71 63 99 90 -16 -70 -1 88 10 65 3 -99 95 52 -80 53 -24 -43 -30 -7 51 40 -47 44 -10 -18 -61 -67 -84 37 45 93 -5 68 32 3 -61 -100 38 -21 -91 90 83 -45 75 89 17 -44 75 14 -28 1 -84 -100 -36 84 -40 88 -84 -54 2 -32 92 -49 77 85 91", "output": "0/1" }, { "input": "28 87\n-77 49 37 46 -92 65 89 100 53 76 -43 47 -80 -46 -94 -4 20 46 81 -41 86 25 69 60 15 -78 -98 -7 -42\n-85 96 59 -40 90 -72 41 -17 -40 -15 -98 66 47 9 -33 -63 59 -25 -31 25 -94 35 28 -36 -41 -38 -38 -54 -40 90 7 -10 98 -19 54 -10 46 -58 -88 -21 90 82 37 -70 -98 -63 41 75 -50 -59 -69 79 -93 -3 -45 14 76 28 -28 -98 -44 -39 71 44 90 91 0 45 7 65 68 39 -27 58 68 -47 -41 100 14 -95 -80 69 -88 -51 -89 -70 -23 95", "output": "0/1" }, { "input": "100 4\n-5 -93 89 -26 -79 14 -28 13 -45 69 50 -84 21 -68 62 30 -26 99 -12 39 20 -74 -39 -41 -28 -72 -55 28 20 31 -92 -20 76 -65 57 72 -36 4 33 -28 -19 -41 -40 40 84 -36 -83 75 -74 -80 32 -50 -56 72 16 75 57 90 -19 -10 67 -71 69 -48 -48 23 37 -31 -64 -86 20 67 97 14 82 -41 2 87 65 -81 -27 9 -79 -1 -5 84 -8 29 -34 31 82 40 21 -53 -31 -45 17 -33 79 50 -94\n56 -4 -90 36 84", "output": "-Infinity" }, { "input": "77 51\n89 45 -33 -87 33 -61 -79 40 -76 16 -17 31 27 25 99 82 51 -40 85 -66 19 89 -62 24 -61 -53 -77 17 21 83 53 -18 -56 75 9 -78 33 -11 -6 96 -33 -2 -57 97 30 20 -41 42 -13 45 -99 67 37 -20 51 -33 88 -62 2 40 17 36 45 71 4 -44 24 20 -2 29 -12 -84 -7 -84 -38 48 -73 79\n60 -43 60 1 90 -1 19 -18 -21 31 -76 51 79 91 12 39 -33 -14 71 -90 -65 -93 -58 93 49 17 77 19 32 -8 14 58 -9 85 -95 -73 0 85 -91 -99 -30 -43 61 20 -89 93 53 20 -33 -38 79 54", "output": "Infinity" }, { "input": "84 54\n82 -54 28 68 74 -61 54 98 59 67 -65 -1 16 65 -78 -16 61 -79 2 14 44 96 -62 77 51 87 37 66 65 28 88 -99 -21 -83 24 80 39 64 -65 45 86 -53 -49 94 -75 -31 -42 -1 -35 -18 74 30 31 -40 30 -6 47 58 -71 -21 20 13 75 -79 15 -98 -26 76 99 -77 -9 85 48 51 -87 56 -53 37 47 -3 94 64 -7 74 86\n72 51 -74 20 41 -76 98 58 24 -61 -97 -73 62 29 6 42 -92 -6 -65 89 -32 -9 82 -13 -88 -70 -97 25 -48 12 -54 33 -92 -29 48 60 -21 86 -17 -86 45 -34 -3 -9 -62 12 25 -74 -76 -89 48 55 -30 86 51", "output": "Infinity" }, { "input": "73 15\n-70 78 51 -33 -95 46 87 -33 16 62 67 -85 -57 75 -93 -59 98 -45 -90 -88 9 53 35 37 28 3 40 -87 28 5 18 11 9 1 72 69 -65 -62 1 73 -3 3 35 17 -28 -31 -45 60 64 18 60 38 -47 12 2 -90 -4 33 -51 -55 -54 90 38 -65 39 32 -70 0 -5 3 -12 100 78 55\n46 33 41 52 -89 -9 53 -81 34 -45 -11 -41 14 -28 95 -50", "output": "-Infinity" }, { "input": "33 1\n-75 -83 87 -27 -48 47 -90 -84 -18 -4 14 -1 -83 -98 -68 -85 -86 28 2 45 96 -59 86 -25 -2 -64 -92 65 69 72 72 -58 -99 90\n-1 72", "output": "Infinity" }, { "input": "58 58\n-25 40 -34 23 -52 94 -30 -99 -71 -90 -44 -71 69 48 -45 -59 0 66 -70 -96 95 91 82 90 -95 87 3 -77 -77 -26 15 87 -82 5 -24 82 -11 99 35 49 22 44 18 -60 -26 79 67 71 -13 29 -23 9 58 -90 88 18 77 5 -7\n-30 -11 -13 -50 61 -78 11 -74 -73 13 -66 -65 -82 38 58 25 -64 -24 78 -87 6 6 -80 -96 47 -25 -54 10 -41 -22 -50 -1 -6 -22 27 54 -32 30 93 88 -70 -100 -69 -47 -20 -92 -24 70 -93 42 78 42 -35 41 31 75 -67 -62 -83", "output": "5/6" }, { "input": "20 20\n5 4 91 -66 -57 55 -79 -2 -54 -72 -49 21 -23 -5 57 -48 70 -16 -86 -26 -19\n51 -60 64 -8 89 27 -96 4 95 -24 -2 -27 -41 -14 -88 -19 24 68 -31 34 -62", "output": "5/51" }, { "input": "69 69\n-90 -63 -21 23 23 -14 -82 65 42 -60 -42 -39 67 34 96 93 -42 -24 21 -80 44 -81 45 -74 -19 -88 39 58 90 87 16 48 -19 -2 36 87 4 -66 -82 -49 -32 -43 -65 12 34 -29 -58 46 -67 -20 -30 91 21 65 15 2 3 -92 -67 -68 39 -24 77 76 -17 -34 5 63 88 83\n-55 98 -79 18 -100 -67 -79 -85 -75 -44 -6 -73 -11 -12 -24 -78 47 -51 25 -29 -34 25 27 11 -87 15 -44 41 -44 46 -67 70 -35 41 62 -36 27 -41 -42 -50 96 31 26 -66 9 74 34 31 25 6 -84 41 74 -7 49 5 35 -5 -71 -37 28 58 -8 -40 -19 -83 -34 64 7 15", "output": "18/11" }, { "input": "0 0\n46\n-33", "output": "-46/33" }, { "input": "67 67\n-8 11 55 80 -26 -38 58 73 -48 -10 35 75 16 -84 55 -51 98 58 -28 98 77 81 51 -86 -46 68 -87 -80 -49 81 96 -97 -42 25 6 -8 -55 -25 93 -29 -33 -6 -26 -85 73 97 63 57 51 92 -6 -8 4 86 46 -45 36 -19 -71 1 71 39 97 -44 -34 -1 2 -46\n91 -32 -76 11 -40 91 -8 -100 73 80 47 82 24 0 -71 82 -93 38 -54 1 -55 -53 90 -86 0 10 -35 49 90 56 25 17 46 -43 13 16 -82 -33 64 -83 -56 22 12 -74 4 -68 85 -27 60 -28 -47 73 -93 69 -37 54 -3 90 -56 56 78 61 7 -79 48 -42 -10 -48", "output": "-8/91" }, { "input": "69 69\n-7 38 -3 -22 65 -78 -65 -99 -76 63 0 -4 -78 -51 54 -61 -53 60 80 34 -96 99 -78 -96 21 -10 -86 33 -9 -81 -19 -2 -76 -3 -66 -80 -55 -21 -50 37 -86 -37 47 44 76 -39 54 -25 41 -86 -3 -25 -67 94 18 67 27 -5 -30 -69 2 -76 7 -97 -52 -35 -55 -20 92 2\n90 -94 37 41 -27 -54 96 -15 -60 -29 -75 -93 -57 62 48 -88 -99 -62 4 -9 85 33 65 -95 -30 16 -29 -89 -33 -83 -35 -21 53 -52 80 -40 76 -33 86 47 18 43 -67 -36 -99 -42 1 -94 -78 34 -41 73 96 2 -60 29 68 -96 -21 -61 -98 -67 1 40 85 55 66 -25 -50 -83", "output": "-7/90" }, { "input": "17 17\n-54 59 -95 87 3 -27 -30 49 -87 74 45 78 36 60 -95 41 -53 -70\n-27 16 -67 -24 10 -73 -41 12 -52 53 -73 -17 -56 -74 -33 -8 100 -39", "output": "2/1" }, { "input": "1 1\n36 -49\n-32 -40", "output": "-9/8" }, { "input": "1 1\n1 1\n1 1", "output": "1/1" }, { "input": "1 1\n-2 1\n4 1", "output": "-1/2" }, { "input": "0 0\n2\n1", "output": "2/1" }, { "input": "0 0\n4\n-3", "output": "-4/3" }, { "input": "0 0\n2\n2", "output": "1/1" }, { "input": "0 0\n17\n-10", "output": "-17/10" }, { "input": "0 0\n-1\n2", "output": "-1/2" }, { "input": "0 0\n1\n1", "output": "1/1" }, { "input": "0 0\n50\n20", "output": "5/2" }, { "input": "0 0\n20\n20", "output": "1/1" }, { "input": "0 0\n4\n-2", "output": "-2/1" }, { "input": "0 0\n4\n-6", "output": "-2/3" }, { "input": "0 0\n1\n-2", "output": "-1/2" }, { "input": "0 0\n4\n2", "output": "2/1" }, { "input": "0 0\n2\n-4", "output": "-1/2" }, { "input": "1 1\n4 1\n2 1", "output": "2/1" }, { "input": "2 2\n-13 1 3\n6 3 2", "output": "-13/6" }, { "input": "99 99\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2", "output": "1/2" }, { "input": "0 0\n5\n5", "output": "1/1" }, { "input": "0 0\n2\n-1", "output": "-2/1" } ]	1,574,051,263	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	4	248	0	def gcd(a, b): if b == 0: return a return gcd(b, a % b) n, m = map(int, input().split()) a = list(map(int, input().split())) b = list(map(int, input().split())) if m > n: print('0/1') elif m < n: if a[0] * b[0] > 0: print('Infinity') else: print('-Infinity') else: temp = gcd(a[0], b[0]) if a[0] * b[0] > 0: print(a[0] // temp, '/', b[0] // temp, sep='') else: print('-', abs(a[0]) // temp, '/', abs(b[0]) // temp, sep='')	Title: Limit Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two polynomials: - P(x)<==<=a0·xn<=+<=a1·xn<=-<=1<=+<=...<=+<=an<=-<=1·x<=+<=an and - Q(x)<==<=b0·xm<=+<=b1·xm<=-<=1<=+<=...<=+<=bm<=-<=1·x<=+<=bm. Calculate limit . Input Specification: The first line contains two space-separated integers n and m (0<=≤<=n,<=m<=≤<=100) — degrees of polynomials P(x) and Q(x) correspondingly. The second line contains n<=+<=1 space-separated integers — the factors of polynomial P(x): a0, a1, ..., an<=-<=1, an (<=-<=100<=≤<=ai<=≤<=100,<=a0<=≠<=0). The third line contains m<=+<=1 space-separated integers — the factors of polynomial Q(x): b0, b1, ..., bm<=-<=1, bm (<=-<=100<=≤<=bi<=≤<=100,<=b0<=≠<=0). Output Specification: If the limit equals <=+<=∞, print "Infinity" (without quotes). If the limit equals <=-<=∞, print "-Infinity" (without the quotes). If the value of the limit equals zero, print "0/1" (without the quotes). Otherwise, print an irreducible fraction — the value of limit , in the format "p/q" (without the quotes), where p is the — numerator, q (q<=><=0) is the denominator of the fraction. Demo Input: ['2 1\n1 1 1\n2 5\n', '1 0\n-1 3\n2\n', '0 1\n1\n1 0\n', '2 2\n2 1 6\n4 5 -7\n', '1 1\n9 0\n-5 2\n'] Demo Output: ['Infinity\n', '-Infinity\n', '0/1\n', '1/2\n', '-9/5\n'] Note: Let's consider all samples: 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/c28febca257452afdfcbd6984ba8623911f9bdbc.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/1e55ecd04e54a45e5e0092ec9a5c1ea03bb29255.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/2c95fb684d373fcc1a481cfabeda4d5c2f3673ee.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4dc40cb8b3cd6375c42445366e50369649a2801a.png" style="max-width: 100.0%;max-height: 100.0%;"/> 1. <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/c6455aba35cfb3c4397505121d1f77afcd17c98e.png" style="max-width: 100.0%;max-height: 100.0%;"/> You can learn more about the definition and properties of limits if you follow the link: http://en.wikipedia.org/wiki/Limit_of_a_function	```python def gcd(a, b): if b == 0: return a return gcd(b, a % b) n, m = map(int, input().split()) a = list(map(int, input().split())) b = list(map(int, input().split())) if m > n: print('0/1') elif m < n: if a[0] * b[0] > 0: print('Infinity') else: print('-Infinity') else: temp = gcd(a[0], b[0]) if a[0] * b[0] > 0: print(a[0] // temp, '/', b[0] // temp, sep='') else: print('-', abs(a[0]) // temp, '/', abs(b[0]) // temp, sep='') ```	0
903	A	Hungry Student Problem	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	Ivan's classes at the university have just finished, and now he wants to go to the local CFK cafe and eat some fried chicken. CFK sells chicken chunks in small and large portions. A small portion contains 3 chunks; a large one — 7 chunks. Ivan wants to eat exactly x chunks. Now he wonders whether he can buy exactly this amount of chicken. Formally, Ivan wants to know if he can choose two non-negative integers a and b in such a way that a small portions and b large ones contain exactly x chunks. Help Ivan to answer this question for several values of x!	The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of testcases. The i-th of the following n lines contains one integer xi (1<=≤<=xi<=≤<=100) — the number of chicken chunks Ivan wants to eat.	Print n lines, in i-th line output YES if Ivan can buy exactly xi chunks. Otherwise, print NO.	[ "2\n6\n5\n" ]	[ "YES\nNO\n" ]	In the first example Ivan can buy two small portions. In the second example Ivan cannot buy exactly 5 chunks, since one small portion is not enough, but two small portions or one large is too much.	0	[ { "input": "2\n6\n5", "output": "YES\nNO" }, { "input": "100\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n11\n12\n13\n14\n15\n16\n17\n18\n19\n20\n21\n22\n23\n24\n25\n26\n27\n28\n29\n30\n31\n32\n33\n34\n35\n36\n37\n38\n39\n40\n41\n42\n43\n44\n45\n46\n47\n48\n49\n50\n51\n52\n53\n54\n55\n56\n57\n58\n59\n60\n61\n62\n63\n64\n65\n66\n67\n68\n69\n70\n71\n72\n73\n74\n75\n76\n77\n78\n79\n80\n81\n82\n83\n84\n85\n86\n87\n88\n89\n90\n91\n92\n93\n94\n95\n96\n97\n98\n99\n100", "output": "NO\nNO\nYES\nNO\nNO\nYES\nYES\nNO\nYES\nYES\nNO\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" }, { "input": "3\n6\n6\n6", "output": "YES\nYES\nYES" }, { "input": "47\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1", "output": "NO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO" }, { "input": "3\n1\n52\n76", "output": "NO\nYES\nYES" }, { "input": "87\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100", "output": "YES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" }, { "input": "3\n3\n2\n1", "output": "YES\nNO\nNO" }, { "input": "100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100", "output": "YES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" } ]	1,606,761,663	2,147,483,647	Python 3	OK	TESTS	8	93	0	n = int(input()) for item in range(n): a = int(input()) if a != 4 and a != 5 and a != 8 and a != 11 and a >= 3: print("YES") else: print("NO")	Title: Hungry Student Problem Time Limit: None seconds Memory Limit: None megabytes Problem Description: Ivan's classes at the university have just finished, and now he wants to go to the local CFK cafe and eat some fried chicken. CFK sells chicken chunks in small and large portions. A small portion contains 3 chunks; a large one — 7 chunks. Ivan wants to eat exactly x chunks. Now he wonders whether he can buy exactly this amount of chicken. Formally, Ivan wants to know if he can choose two non-negative integers a and b in such a way that a small portions and b large ones contain exactly x chunks. Help Ivan to answer this question for several values of x! Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of testcases. The i-th of the following n lines contains one integer xi (1<=≤<=xi<=≤<=100) — the number of chicken chunks Ivan wants to eat. Output Specification: Print n lines, in i-th line output YES if Ivan can buy exactly xi chunks. Otherwise, print NO. Demo Input: ['2\n6\n5\n'] Demo Output: ['YES\nNO\n'] Note: In the first example Ivan can buy two small portions. In the second example Ivan cannot buy exactly 5 chunks, since one small portion is not enough, but two small portions or one large is too much.	```python n = int(input()) for item in range(n): a = int(input()) if a != 4 and a != 5 and a != 8 and a != 11 and a >= 3: print("YES") else: print("NO") ```	3
822	A	I'm bored with life	PROGRAMMING	800	[ "implementation", "math", "number theory" ]		null	null	Holidays have finished. Thanks to the help of the hacker Leha, Noora managed to enter the university of her dreams which is located in a town Pavlopolis. It's well known that universities provide students with dormitory for the period of university studies. Consequently Noora had to leave Vičkopolis and move to Pavlopolis. Thus Leha was left completely alone in a quiet town Vičkopolis. He almost even fell into a depression from boredom! Leha came up with a task for himself to relax a little. He chooses two integers A and B and then calculates the greatest common divisor of integers "A factorial" and "B factorial". Formally the hacker wants to find out GCD(A!,<=B!). It's well known that the factorial of an integer x is a product of all positive integers less than or equal to x. Thus x!<==<=1·2·3·...·(x<=-<=1)·x. For example 4!<==<=1·2·3·4<==<=24. Recall that GCD(x,<=y) is the largest positive integer q that divides (without a remainder) both x and y. Leha has learned how to solve this task very effective. You are able to cope with it not worse, aren't you?	The first and single line contains two integers A and B (1<=≤<=A,<=B<=≤<=109,<=min(A,<=B)<=≤<=12).	Print a single integer denoting the greatest common divisor of integers A! and B!.	[ "4 3\n" ]	[ "6\n" ]	Consider the sample. 4! = 1·2·3·4 = 24. 3! = 1·2·3 = 6. The greatest common divisor of integers 24 and 6 is exactly 6.	500	[ { "input": "4 3", "output": "6" }, { "input": "10 399603090", "output": "3628800" }, { "input": "6 973151934", "output": "720" }, { "input": "2 841668075", "output": "2" }, { "input": "7 415216919", "output": "5040" }, { "input": "3 283733059", "output": "6" }, { "input": "11 562314608", "output": "39916800" }, { "input": "3 990639260", "output": "6" }, { "input": "11 859155400", "output": "39916800" }, { "input": "1 1", "output": "1" }, { "input": "5 3", "output": "6" }, { "input": "1 4", "output": "1" }, { "input": "5 4", "output": "24" }, { "input": "1 12", "output": "1" }, { "input": "9 7", "output": "5040" }, { "input": "2 3", "output": "2" }, { "input": "6 11", "output": "720" }, { "input": "6 7", "output": "720" }, { "input": "11 11", "output": "39916800" }, { "input": "4 999832660", "output": "24" }, { "input": "7 999228288", "output": "5040" }, { "input": "11 999257105", "output": "39916800" }, { "input": "11 999286606", "output": "39916800" }, { "input": "3 999279109", "output": "6" }, { "input": "999632727 11", "output": "39916800" }, { "input": "999625230 7", "output": "5040" }, { "input": "999617047 3", "output": "6" }, { "input": "999646548 7", "output": "5040" }, { "input": "999639051 3", "output": "6" }, { "input": "12 12", "output": "479001600" }, { "input": "12 1", "output": "1" }, { "input": "1213 5", "output": "120" }, { "input": "8 9", "output": "40320" }, { "input": "12 9", "output": "362880" }, { "input": "12 1000000000", "output": "479001600" }, { "input": "1000000000 1", "output": "1" }, { "input": "12 13", "output": "479001600" }, { "input": "2 29845", "output": "2" }, { "input": "10 21", "output": "3628800" }, { "input": "12 20", "output": "479001600" }, { "input": "15 12", "output": "479001600" }, { "input": "1 1", "output": "1" }, { "input": "1000000000 12", "output": "479001600" }, { "input": "11 30", "output": "39916800" }, { "input": "17 12", "output": "479001600" }, { "input": "4 19", "output": "24" }, { "input": "12 15", "output": "479001600" }, { "input": "20 6", "output": "720" }, { "input": "10 20", "output": "3628800" }, { "input": "10 10", "output": "3628800" }, { "input": "22 12", "output": "479001600" }, { "input": "20 12", "output": "479001600" }, { "input": "12 23", "output": "479001600" }, { "input": "12 22", "output": "479001600" }, { "input": "18 3", "output": "6" }, { "input": "14 10", "output": "3628800" }, { "input": "14 12", "output": "479001600" }, { "input": "8 3", "output": "6" }, { "input": "5 5", "output": "120" } ]	1,692,708,000	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	1	31	1,024,000	a,b = map(int, input().split()) def factorial(n): if n ==1: return 1 else: return factorial(n-1)*n def gcd(a, b): while b: a, b = b, a % b return a faca = factorial(a) facb = factorial(b) print(gcd(faca,facb))	Title: I'm bored with life Time Limit: None seconds Memory Limit: None megabytes Problem Description: Holidays have finished. Thanks to the help of the hacker Leha, Noora managed to enter the university of her dreams which is located in a town Pavlopolis. It's well known that universities provide students with dormitory for the period of university studies. Consequently Noora had to leave Vičkopolis and move to Pavlopolis. Thus Leha was left completely alone in a quiet town Vičkopolis. He almost even fell into a depression from boredom! Leha came up with a task for himself to relax a little. He chooses two integers A and B and then calculates the greatest common divisor of integers "A factorial" and "B factorial". Formally the hacker wants to find out GCD(A!,<=B!). It's well known that the factorial of an integer x is a product of all positive integers less than or equal to x. Thus x!<==<=1·2·3·...·(x<=-<=1)·x. For example 4!<==<=1·2·3·4<==<=24. Recall that GCD(x,<=y) is the largest positive integer q that divides (without a remainder) both x and y. Leha has learned how to solve this task very effective. You are able to cope with it not worse, aren't you? Input Specification: The first and single line contains two integers A and B (1<=≤<=A,<=B<=≤<=109,<=min(A,<=B)<=≤<=12). Output Specification: Print a single integer denoting the greatest common divisor of integers A! and B!. Demo Input: ['4 3\n'] Demo Output: ['6\n'] Note: Consider the sample. 4! = 1·2·3·4 = 24. 3! = 1·2·3 = 6. The greatest common divisor of integers 24 and 6 is exactly 6.	```python a,b = map(int, input().split()) def factorial(n): if n ==1: return 1 else: return factorial(n-1)*n def gcd(a, b): while b: a, b = b, a % b return a faca = factorial(a) facb = factorial(b) print(gcd(faca,facb)) ```	-1
381	A	Sereja and Dima	PROGRAMMING	800	[ "greedy", "implementation", "two pointers" ]		null	null	Sereja and Dima play a game. The rules of the game are very simple. The players have n cards in a row. Each card contains a number, all numbers on the cards are distinct. The players take turns, Sereja moves first. During his turn a player can take one card: either the leftmost card in a row, or the rightmost one. The game ends when there is no more cards. The player who has the maximum sum of numbers on his cards by the end of the game, wins. Sereja and Dima are being greedy. Each of them chooses the card with the larger number during his move. Inna is a friend of Sereja and Dima. She knows which strategy the guys are using, so she wants to determine the final score, given the initial state of the game. Help her.	The first line contains integer n (1<=≤<=n<=≤<=1000) — the number of cards on the table. The second line contains space-separated numbers on the cards from left to right. The numbers on the cards are distinct integers from 1 to 1000.	On a single line, print two integers. The first number is the number of Sereja's points at the end of the game, the second number is the number of Dima's points at the end of the game.	[ "4\n4 1 2 10\n", "7\n1 2 3 4 5 6 7\n" ]	[ "12 5\n", "16 12\n" ]	In the first sample Sereja will take cards with numbers 10 and 2, so Sereja's sum is 12. Dima will take cards with numbers 4 and 1, so Dima's sum is 5.	500	[ { "input": "4\n4 1 2 10", "output": "12 5" }, { "input": "7\n1 2 3 4 5 6 7", "output": "16 12" }, { "input": "42\n15 29 37 22 16 5 26 31 6 32 19 3 45 36 33 14 25 20 48 7 42 11 24 28 9 18 8 21 47 17 38 40 44 4 35 1 43 39 41 27 12 13", "output": "613 418" }, { "input": "43\n32 1 15 48 38 26 25 14 20 44 11 30 3 42 49 19 18 46 5 45 10 23 34 9 29 41 2 52 6 17 35 4 50 22 33 51 7 28 47 13 39 37 24", "output": "644 500" }, { "input": "1\n3", "output": "3 0" }, { "input": "45\n553 40 94 225 415 471 126 190 647 394 515 303 189 159 308 6 139 132 326 78 455 75 85 295 135 613 360 614 351 228 578 259 258 591 444 29 33 463 561 174 368 183 140 168 646", "output": "6848 6568" }, { "input": "44\n849 373 112 307 479 608 856 769 526 82 168 143 573 762 115 501 688 36 214 450 396 496 236 309 287 786 397 43 811 141 745 846 350 270 276 677 420 459 403 722 267 54 394 727", "output": "9562 9561" }, { "input": "35\n10 15 18 1 28 16 2 33 6 22 23 4 9 25 35 8 7 26 3 20 30 14 31 19 27 32 11 5 29 24 21 34 13 17 12", "output": "315 315" }, { "input": "17\n580 376 191 496 73 44 520 357 483 149 81 178 514 300 216 598 304", "output": "3238 2222" }, { "input": "30\n334 443 223 424 168 549 189 303 429 559 516 220 459 134 344 346 316 446 209 148 487 526 69 286 102 366 518 280 392 325", "output": "5246 4864" }, { "input": "95\n122 29 188 265 292 287 183 225 222 187 155 256 64 148 173 278 218 136 290 17 31 130 2 87 57 283 255 280 68 166 174 142 102 39 116 206 288 154 26 78 296 172 184 232 77 91 277 8 249 186 94 93 207 251 257 195 101 299 193 124 293 65 58 35 24 302 220 189 252 125 27 284 247 182 141 103 198 97 234 83 281 216 85 180 267 236 109 143 149 239 79 300 191 244 71", "output": "8147 7807" }, { "input": "1\n1", "output": "1 0" } ]	1,692,722,329	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	#include<bits/stdc++.h> #include<iostream> using namespace std; int main(){ int n; cin>>n; int a[n]; for(int i=0; i<n; i++){ cin>>a[i]; } int s=0, d=0; int l=0, r=n-1; int take=n, turn=0; while(ta!=0){ if(turn%2==0){ if(a[l]>a[r]){ s+=a[l]; l++ } else{ s+=a[r]; r--; } } else{ if(a[l]>a[r]){ d+=a[l]; l++; } else{ d+=a[r]; r--; } } } }	Title: Sereja and Dima Time Limit: None seconds Memory Limit: None megabytes Problem Description: Sereja and Dima play a game. The rules of the game are very simple. The players have n cards in a row. Each card contains a number, all numbers on the cards are distinct. The players take turns, Sereja moves first. During his turn a player can take one card: either the leftmost card in a row, or the rightmost one. The game ends when there is no more cards. The player who has the maximum sum of numbers on his cards by the end of the game, wins. Sereja and Dima are being greedy. Each of them chooses the card with the larger number during his move. Inna is a friend of Sereja and Dima. She knows which strategy the guys are using, so she wants to determine the final score, given the initial state of the game. Help her. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=1000) — the number of cards on the table. The second line contains space-separated numbers on the cards from left to right. The numbers on the cards are distinct integers from 1 to 1000. Output Specification: On a single line, print two integers. The first number is the number of Sereja's points at the end of the game, the second number is the number of Dima's points at the end of the game. Demo Input: ['4\n4 1 2 10\n', '7\n1 2 3 4 5 6 7\n'] Demo Output: ['12 5\n', '16 12\n'] Note: In the first sample Sereja will take cards with numbers 10 and 2, so Sereja's sum is 12. Dima will take cards with numbers 4 and 1, so Dima's sum is 5.	```python #include<bits/stdc++.h> #include<iostream> using namespace std; int main(){ int n; cin>>n; int a[n]; for(int i=0; i<n; i++){ cin>>a[i]; } int s=0, d=0; int l=0, r=n-1; int take=n, turn=0; while(ta!=0){ if(turn%2==0){ if(a[l]>a[r]){ s+=a[l]; l++ } else{ s+=a[r]; r--; } } else{ if(a[l]>a[r]){ d+=a[l]; l++; } else{ d+=a[r]; r--; } } } } ```	-1
137	E	Last Chance	PROGRAMMING	2,000	[ "data structures", "implementation", "strings" ]		null	null	Having read half of the book called "Storm and Calm" on the IT lesson, Innocentius was absolutely determined to finish the book on the maths lessons. All was fine until the math teacher Ms. Watkins saw Innocentius reading fiction books instead of solving equations of the fifth degree. As during the last maths class Innocentius suggested the algorithm of solving equations of the fifth degree in the general case, Ms. Watkins had no other choice but to give him a new task. The teacher asked to write consecutively (without spaces) all words from the "Storm and Calm" in one long string s. She thought that a string is good if the number of vowels in the string is no more than twice more than the number of consonants. That is, the string with v vowels and c consonants is good if and only if v<=≤<=2c. The task Innocentius had to solve turned out to be rather simple: he should find the number of the longest good substrings of the string s.	The only input line contains a non-empty string s consisting of no more than 2·105 uppercase and lowercase Latin letters. We shall regard letters "a", "e", "i", "o", "u" and their uppercase variants as vowels.	Print on a single line two numbers without a space: the maximum length of a good substring and the number of good substrings with this length. If no good substring exists, print "No solution" without the quotes. Two substrings are considered different if their positions of occurrence are different. So if some string occurs more than once, then it should be counted more than once.	[ "Abo\n", "OEIS\n", "auBAAbeelii\n", "AaaBRAaaCAaaDAaaBRAaa\n", "EA\n" ]	[ "3 1\n", "3 1\n", "9 3\n", "18 4\n", "No solution\n" ]	In the first sample there is only one longest good substring: "Abo" itself. The other good substrings are "b", "Ab", "bo", but these substrings have shorter length. In the second sample there is only one longest good substring: "EIS". The other good substrings are: "S", "IS".	2,500	[ { "input": "Abo", "output": "3 1" }, { "input": "OEIS", "output": "3 1" }, { "input": "auBAAbeelii", "output": "9 3" }, { "input": "AaaBRAaaCAaaDAaaBRAaa", "output": "18 4" }, { "input": "EA", "output": "No solution" }, { "input": "BBBAABAABAABBBB", "output": "15 1" }, { "input": "b", "output": "1 1" }, { "input": "AABAABAABAA", "output": "9 3" }, { "input": "aaaaaaa", "output": "No solution" }, { "input": "AAAAAAABBB", "output": "9 1" }, { "input": "aabaaaaaaaaaaaaaaab", "output": "3 4" }, { "input": "aaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaab", "output": "3 61" }, { "input": "aaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaabaaaaab", "output": "3 28" }, { "input": "uAuuaAEuuoEaEUuUiuAeieaeaeuOoAIAueeIAIEEoeieAaooiiioAuIUEAUuIeuuOOoUAUIouAOaOOOauiIIaeAUoUEuOUuOiAIi", "output": "No solution" }, { "input": "SHDXWFgvsdFRQBWmfbMZjRfkrbMxRbSDzLLVDnRhmvDGFjzZBXCmLtZWwZyCfWdlGHXdgckbkMysxknLcckvHjZyfknrWkCHCyqN", "output": "100 1" }, { "input": "RAXidopIqEpUTaKAyeWaBoFodoXARotaWaMaJUKEMUwaVIqesOFANoBiguXEJEgoGAdegAdULAHEbAwUTURuHuKOkafeKAjOqiPA", "output": "100 1" }, { "input": "IgwLknyWcuHzTWGUsaXmQBCvjOJTcYNfXRtbgXMYJzRDgFZTWB", "output": "50 1" }, { "input": "oAvWmeQiIpqIAHDVxeuAiWXEcRJecOaerRaoICxeISEEOXOoxiAqPuoZIIIWetgRSAcUADAfdEoATYSaAACAnMDsteqvTHuetEIS", "output": "100 1" }, { "input": "eEijaiUeefuYpqEUUAmoUAEpiuaDaOOORuaOuaolEOXeAooEinIOwoUUIwukOAbiAOueceUEIOuyzOuDAoiEUImweEhAIIouEfAeepaiAEexiaEiuSiUueaEeEaieeBEiMoEOROZIUIAuoEUHeIEOhUhIeEOOiIehIuaEoELauUeEUIuEiAauUOOeuiXaERAEoOqiaGu", "output": "24 1" }, { "input": "DaABYAOivguEueXufuoUeoiLiuEuEIeZAdoPgaUIIrUtoodAALPESiUaEbqitAphOIIEAogrjUBZLnIALGbazIermGEiAAdDAOFaaizopuUuuEugOHsXTAelFxAyZXWQXiEEKkGiIVdUmwiThDOiEyiuOEaiIAAjEQyaEuOiUGOuuzvaIEUEAhXEuOliOeEkJuJaUaszUKePiQuwXSuoQYEeUOgOeuyvOwhUuitEEKDVOaUaoiaIyiAEkyXeuiEkUorUYCaOXEAiUYPnUMaURebouLUOiOojcOeODaaIeEeuukDvpiIkeNuaEaUAhYILuaieUyIUAVuaeSvUgbIiQuiatOUFeUIuCaVIePixujxaeiexTviwJrtReKlaJogeuDTrLAUSapeHoahVaOFROEfHOIeIiIkdvpcauuTRiSVoUaaiOoqUOAuuybEuJLRieGojUoZIIgiiJmEoerPNaEQTEUapOeecnZOAlEaUEUoiIfwLeEOA", "output": "500 1" }, { "input": "a", "output": "No solution" }, { "input": "ab", "output": "2 1" }, { "input": "ba", "output": "2 1" }, { "input": "bb", "output": "2 1" }, { "input": "xooooooxxx", "output": "10 1" }, { "input": "deeeed", "output": "6 1" }, { "input": "aaaabaaaab", "output": "6 1" }, { "input": "aaaaabaaaaa", "output": "3 3" }, { "input": "baaaab", "output": "6 1" }, { "input": "baaabaa", "output": "6 1" }, { "input": "ddddeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeed", "output": "12 1" }, { "input": "bbbbbbbbaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaabbbbbbbb", "output": "48 1" } ]	1,695,128,225	2,147,483,647	PyPy 3-64	OK	TESTS	76	186	12,800,000	""" Abo 3 1 OEIS 3 1 auBAAbeelii 9 3 AaaBRAaaCAaaDAaaBRAaa 18 4 EA No solution """ def solve(): text = input() def get_ans(): n = len(text) min_balance = -n max_balance = 2 * n size = max_balance - min_balance + 1 min_pos = [n] * size max_pos = [-1] * size vowels = "aeiou" balance = 0 min_pos[balance - min_balance] = -1 max_pos[balance - min_balance] = -1 for pos, letter in enumerate(text.lower()): delta = -1 if letter in vowels else 2 balance += delta balance_index = balance - min_balance min_pos[balance_index] = min(min_pos[balance_index], pos) max_pos[balance_index] = pos max_len, max_amount = 0, 0 pref_min_pos = n for balance in range(size): max_balance_pos = max_pos[balance] pref_min_pos = min(pref_min_pos, min_pos[balance]) best_len = max_balance_pos - pref_min_pos if max_len < best_len: max_len = best_len max_amount = 0 if max_len == best_len: max_amount += 1 return None if max_len < 1 else (max_len, max_amount) answer = get_ans() if answer is None: print('No solution') else: max_len, max_amount = answer print(max_len, max_amount) if __name__ == '__main__': solve()	Title: Last Chance Time Limit: None seconds Memory Limit: None megabytes Problem Description: Having read half of the book called "Storm and Calm" on the IT lesson, Innocentius was absolutely determined to finish the book on the maths lessons. All was fine until the math teacher Ms. Watkins saw Innocentius reading fiction books instead of solving equations of the fifth degree. As during the last maths class Innocentius suggested the algorithm of solving equations of the fifth degree in the general case, Ms. Watkins had no other choice but to give him a new task. The teacher asked to write consecutively (without spaces) all words from the "Storm and Calm" in one long string s. She thought that a string is good if the number of vowels in the string is no more than twice more than the number of consonants. That is, the string with v vowels and c consonants is good if and only if v<=≤<=2c. The task Innocentius had to solve turned out to be rather simple: he should find the number of the longest good substrings of the string s. Input Specification: The only input line contains a non-empty string s consisting of no more than 2·105 uppercase and lowercase Latin letters. We shall regard letters "a", "e", "i", "o", "u" and their uppercase variants as vowels. Output Specification: Print on a single line two numbers without a space: the maximum length of a good substring and the number of good substrings with this length. If no good substring exists, print "No solution" without the quotes. Two substrings are considered different if their positions of occurrence are different. So if some string occurs more than once, then it should be counted more than once. Demo Input: ['Abo\n', 'OEIS\n', 'auBAAbeelii\n', 'AaaBRAaaCAaaDAaaBRAaa\n', 'EA\n'] Demo Output: ['3 1\n', '3 1\n', '9 3\n', '18 4\n', 'No solution\n'] Note: In the first sample there is only one longest good substring: "Abo" itself. The other good substrings are "b", "Ab", "bo", but these substrings have shorter length. In the second sample there is only one longest good substring: "EIS". The other good substrings are: "S", "IS".	```python """ Abo 3 1 OEIS 3 1 auBAAbeelii 9 3 AaaBRAaaCAaaDAaaBRAaa 18 4 EA No solution """ def solve(): text = input() def get_ans(): n = len(text) min_balance = -n max_balance = 2 * n size = max_balance - min_balance + 1 min_pos = [n] * size max_pos = [-1] * size vowels = "aeiou" balance = 0 min_pos[balance - min_balance] = -1 max_pos[balance - min_balance] = -1 for pos, letter in enumerate(text.lower()): delta = -1 if letter in vowels else 2 balance += delta balance_index = balance - min_balance min_pos[balance_index] = min(min_pos[balance_index], pos) max_pos[balance_index] = pos max_len, max_amount = 0, 0 pref_min_pos = n for balance in range(size): max_balance_pos = max_pos[balance] pref_min_pos = min(pref_min_pos, min_pos[balance]) best_len = max_balance_pos - pref_min_pos if max_len < best_len: max_len = best_len max_amount = 0 if max_len == best_len: max_amount += 1 return None if max_len < 1 else (max_len, max_amount) answer = get_ans() if answer is None: print('No solution') else: max_len, max_amount = answer print(max_len, max_amount) if __name__ == '__main__': solve() ```	3
182	B	Vasya's Calendar	PROGRAMMING	1,000	[ "implementation" ]		null	null	Vasya lives in a strange world. The year has n months and the i-th month has ai days. Vasya got a New Year present — the clock that shows not only the time, but also the date. The clock's face can display any number from 1 to d. It is guaranteed that ai<=≤<=d for all i from 1 to n. The clock does not keep information about the current month, so when a new day comes, it simply increases the current day number by one. The clock cannot display number d<=+<=1, so after day number d it shows day 1 (the current day counter resets). The mechanism of the clock allows you to increase the day number by one manually. When you execute this operation, day d is also followed by day 1. Vasya begins each day checking the day number on the clock. If the day number on the clock does not match the actual day number in the current month, then Vasya manually increases it by one. Vasya is persistent and repeats this operation until the day number on the clock matches the actual number of the current day in the current month. A year passed and Vasya wonders how many times he manually increased the day number by one, from the first day of the first month to the last day of the n-th month inclusive, considering that on the first day of the first month the clock display showed day 1.	The first line contains the single number d — the maximum number of the day that Vasya's clock can show (1<=≤<=d<=≤<=106). The second line contains a single integer n — the number of months in the year (1<=≤<=n<=≤<=2000). The third line contains n space-separated integers: ai (1<=≤<=ai<=≤<=d) — the number of days in each month in the order in which they follow, starting from the first one.	Print a single number — the number of times Vasya manually increased the day number by one throughout the last year.	[ "4\n2\n2 2\n", "5\n3\n3 4 3\n", "31\n12\n31 28 31 30 31 30 31 31 30 31 30 31\n" ]	[ "2\n", "3\n", "7\n" ]	In the first sample the situation is like this: - Day 1. Month 1. The clock shows 1. Vasya changes nothing. - Day 2. Month 1. The clock shows 2. Vasya changes nothing. - Day 1. Month 2. The clock shows 3. Vasya manually increases the day number by 1. After that the clock shows 4. Vasya increases the day number by 1 manually. After that the clock shows 1. - Day 2. Month 2. The clock shows 2. Vasya changes nothing.	500	[ { "input": "4\n2\n2 2", "output": "2" }, { "input": "5\n3\n3 4 3", "output": "3" }, { "input": "31\n12\n31 28 31 30 31 30 31 31 30 31 30 31", "output": "7" }, { "input": "1\n1\n1", "output": "0" }, { "input": "1\n2\n1 1", "output": "0" }, { "input": "2\n2\n1 1", "output": "1" }, { "input": "10\n2\n10 2", "output": "0" }, { "input": "10\n3\n6 3 6", "output": "11" }, { "input": "10\n4\n8 7 1 5", "output": "14" }, { "input": "10\n5\n2 7 8 4 4", "output": "19" }, { "input": "10\n6\n8 3 4 9 6 1", "output": "20" }, { "input": "10\n7\n10 5 3 1 1 9 1", "output": "31" }, { "input": "10\n8\n6 5 10 6 8 1 3 2", "output": "31" }, { "input": "10\n9\n6 2 7 5 5 4 8 6 2", "output": "37" }, { "input": "10\n10\n1 10 1 10 1 1 7 8 6 7", "output": "45" }, { "input": "100\n100\n85 50 17 89 65 89 5 20 86 26 16 21 85 14 44 31 87 31 6 2 48 67 8 80 79 1 48 36 97 1 5 30 79 50 78 12 2 55 76 100 54 40 26 81 97 96 68 56 87 14 51 17 54 37 52 33 69 62 38 63 74 15 62 78 9 19 67 2 60 58 93 60 18 96 55 48 34 7 79 82 32 58 90 67 20 50 27 15 7 89 98 10 11 15 99 49 4 51 77 52", "output": "5099" }, { "input": "101\n100\n19 17 15 16 28 69 41 47 75 42 19 98 16 90 92 47 21 4 98 17 27 31 90 10 14 92 62 73 56 55 6 60 62 22 78 1 3 86 18 59 92 41 21 34 67 9 92 78 77 45 50 92 57 61 11 98 89 72 57 93 100 12 61 48 5 48 38 9 65 64 77 29 18 55 94 42 10 77 43 46 7 89 8 13 5 53 80 59 23 100 30 28 29 24 85 56 10 22 24 16", "output": "5301" }, { "input": "102\n100\n31 22 59 16 11 56 81 4 19 31 8 72 4 92 18 7 13 12 62 40 34 67 40 23 96 4 90 28 3 18 54 49 10 71 73 79 69 7 41 75 59 13 2 78 72 6 95 33 52 97 7 86 57 94 12 93 19 94 59 28 5 96 46 102 2 101 57 85 53 69 72 39 14 75 8 16 10 57 26 4 85 18 89 84 48 93 54 21 78 6 67 35 11 78 91 91 97 15 8 32", "output": "5447" }, { "input": "103\n100\n68 38 41 54 37 11 35 26 43 97 70 3 13 11 64 83 3 95 99 16 4 13 22 27 64 20 95 38 40 87 6 17 95 67 31 24 85 33 98 24 89 101 66 38 42 5 95 18 95 13 103 85 72 73 68 93 22 59 48 59 72 46 5 41 54 32 48 69 3 76 2 26 102 44 39 58 55 85 40 16 81 78 92 63 25 97 83 2 54 16 20 63 19 8 84 34 1 22 43 93", "output": "5358" }, { "input": "104\n100\n65 74 94 71 98 38 88 67 71 84 45 79 55 86 55 51 27 89 14 66 29 63 8 103 98 94 87 81 58 68 24 96 60 36 48 95 28 72 95 42 87 7 14 23 99 77 34 14 90 31 8 99 29 30 9 88 42 1 77 61 55 85 17 98 62 78 27 1 58 69 82 62 62 81 56 104 66 8 17 23 7 61 59 70 79 64 78 16 32 11 59 4 24 73 55 2 95 39 62 13", "output": "4773" } ]	1,607,712,837	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	156	0	d=int(input()) n=int(input()) ans=0 for i in range(n-1): a=int(input()) ans+=(d-a) a=int(input()) print(ans)	Title: Vasya's Calendar Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasya lives in a strange world. The year has n months and the i-th month has ai days. Vasya got a New Year present — the clock that shows not only the time, but also the date. The clock's face can display any number from 1 to d. It is guaranteed that ai<=≤<=d for all i from 1 to n. The clock does not keep information about the current month, so when a new day comes, it simply increases the current day number by one. The clock cannot display number d<=+<=1, so after day number d it shows day 1 (the current day counter resets). The mechanism of the clock allows you to increase the day number by one manually. When you execute this operation, day d is also followed by day 1. Vasya begins each day checking the day number on the clock. If the day number on the clock does not match the actual day number in the current month, then Vasya manually increases it by one. Vasya is persistent and repeats this operation until the day number on the clock matches the actual number of the current day in the current month. A year passed and Vasya wonders how many times he manually increased the day number by one, from the first day of the first month to the last day of the n-th month inclusive, considering that on the first day of the first month the clock display showed day 1. Input Specification: The first line contains the single number d — the maximum number of the day that Vasya's clock can show (1<=≤<=d<=≤<=106). The second line contains a single integer n — the number of months in the year (1<=≤<=n<=≤<=2000). The third line contains n space-separated integers: ai (1<=≤<=ai<=≤<=d) — the number of days in each month in the order in which they follow, starting from the first one. Output Specification: Print a single number — the number of times Vasya manually increased the day number by one throughout the last year. Demo Input: ['4\n2\n2 2\n', '5\n3\n3 4 3\n', '31\n12\n31 28 31 30 31 30 31 31 30 31 30 31\n'] Demo Output: ['2\n', '3\n', '7\n'] Note: In the first sample the situation is like this: - Day 1. Month 1. The clock shows 1. Vasya changes nothing. - Day 2. Month 1. The clock shows 2. Vasya changes nothing. - Day 1. Month 2. The clock shows 3. Vasya manually increases the day number by 1. After that the clock shows 4. Vasya increases the day number by 1 manually. After that the clock shows 1. - Day 2. Month 2. The clock shows 2. Vasya changes nothing.	```python d=int(input()) n=int(input()) ans=0 for i in range(n-1): a=int(input()) ans+=(d-a) a=int(input()) print(ans) ```	-1
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk\nasrgdfngfnmfgnhweratgjkk", "output": "NO" }, { "input": "z\na", "output": "NO" }, { "input": "asd\ndsa", "output": "YES" }, { "input": "abcdef\nfecdba", "output": "NO" }, { "input": "ywjjbirapvskozubvxoemscfwl\ngnduubaogtfaiowjizlvjcu", "output": "NO" }, { "input": "mfrmqxtzvgaeuleubcmcxcfqyruwzenguhgrmkuhdgnhgtgkdszwqyd\nmfxufheiperjnhyczclkmzyhcxntdfskzkzdwzzujdinf", "output": "NO" }, { "input": "bnbnemvybqizywlnghlykniaxxxlkhftppbdeqpesrtgkcpoeqowjwhrylpsziiwcldodcoonpimudvrxejjo\ntiynnekmlalogyvrgptbinkoqdwzuiyjlrldxhzjmmp", "output": "NO" }, { "input": "pwlpubwyhzqvcitemnhvvwkmwcaawjvdiwtoxyhbhbxerlypelevasmelpfqwjk\nstruuzebbcenziscuoecywugxncdwzyfozhljjyizpqcgkyonyetarcpwkqhuugsqjuixsxptmbnlfupdcfigacdhhrzb", "output": "NO" }, { "input": "gdvqjoyxnkypfvdxssgrihnwxkeojmnpdeobpecytkbdwujqfjtxsqspxvxpqioyfagzjxupqqzpgnpnpxcuipweunqch\nkkqkiwwasbhezqcfeceyngcyuogrkhqecwsyerdniqiocjehrpkljiljophqhyaiefjpavoom", "output": "NO" }, { "input": "umeszdawsvgkjhlqwzents\nhxqhdungbylhnikwviuh", "output": "NO" }, { "input": "juotpscvyfmgntshcealgbsrwwksgrwnrrbyaqqsxdlzhkbugdyx\nibqvffmfktyipgiopznsqtrtxiijntdbgyy", "output": "NO" }, { "input": "zbwueheveouatecaglziqmudxemhrsozmaujrwlqmppzoumxhamwugedikvkblvmxwuofmpafdprbcftew\nulczwrqhctbtbxrhhodwbcxwimncnexosksujlisgclllxokrsbnozthajnnlilyffmsyko", "output": "NO" }, { "input": "nkgwuugukzcv\nqktnpxedwxpxkrxdvgmfgoxkdfpbzvwsduyiybynbkouonhvmzakeiruhfmvrktghadbfkmwxduoqv", "output": "NO" }, { "input": "incenvizhqpcenhjhehvjvgbsnfixbatrrjstxjzhlmdmxijztphxbrldlqwdfimweepkggzcxsrwelodpnryntepioqpvk\ndhjbjjftlvnxibkklxquwmzhjfvnmwpapdrslioxisbyhhfymyiaqhlgecpxamqnocizwxniubrmpyubvpenoukhcobkdojlybxd", "output": "NO" }, { "input": "w\nw", "output": "YES" }, { "input": "vz\nzv", "output": "YES" }, { "input": "ry\nyr", "output": "YES" }, { "input": "xou\nuox", "output": "YES" }, { "input": "axg\ngax", "output": "NO" }, { "input": "zdsl\nlsdz", "output": "YES" }, { "input": "kudl\nldku", "output": "NO" }, { "input": "zzlzwnqlcl\nlclqnwzlzz", "output": "YES" }, { "input": "vzzgicnzqooejpjzads\nsdazjpjeooqzncigzzv", "output": "YES" }, { "input": "raqhmvmzuwaykjpyxsykr\nxkysrypjkyawuzmvmhqar", "output": "NO" }, { "input": "ngedczubzdcqbxksnxuavdjaqtmdwncjnoaicvmodcqvhfezew\nwezefhvqcdomvciaonjcnwdmtqajdvauxnskxbqcdzbuzcdegn", "output": "YES" }, { "input": "muooqttvrrljcxbroizkymuidvfmhhsjtumksdkcbwwpfqdyvxtrlymofendqvznzlmim\nmimlznzvqdnefomylrtxvydqfpwwbckdskmutjshhmfvdiumykziorbxcjlrrvttqooum", "output": "YES" }, { "input": "vxpqullmcbegsdskddortcvxyqlbvxmmkhevovnezubvpvnrcajpxraeaxizgaowtfkzywvhnbgzsxbhkaipcmoumtikkiyyaivg\ngviayyikkitmuomcpiakhbxszgbnhvwyzkftwoagzixaearxpjacrnvpvbuzenvovehkmmxvblqyxvctroddksdsgebcmlluqpxv", "output": "YES" }, { "input": "mnhaxtaopjzrkqlbroiyipitndczpunwygstmzevgyjdzyanxkdqnvgkikfabwouwkkbzuiuvgvxgpizsvqsbwepktpdrgdkmfdc\ncdfmkdgrdptkpewbsqvszipgxvgvuiuzbkkwuowbafkikgvnqdkxnayzdjygvezmtsgywnupocdntipiyiorblqkrzjpzatxahnm", "output": "NO" }, { "input": "dgxmzbqofstzcdgthbaewbwocowvhqpinehpjatnnbrijcolvsatbblsrxabzrpszoiecpwhfjmwuhqrapvtcgvikuxtzbftydkw\nwkdytfbztxukivgctvparqhuwmjfhwpceiozsprzbaxrslbbqasvlocjirbnntajphenipthvwocowbweabhtgdcztsfoqbzmxgd", "output": "NO" }, { "input": "gxoixiecetohtgjgbqzvlaobkhstejxdklghowtvwunnnvauriohuspsdmpzckprwajyxldoyckgjivjpmbfqtszmtocovxwgeh\nhegwxvocotmzstqfbmpjvijgkcyodlxyjawrpkczpmdspsuhoiruavnnnuwvtwohglkdxjetshkboalvzqbgjgthoteceixioxg", "output": "YES" }, { "input": "sihxuwvmaambplxvjfoskinghzicyfqebjtkysotattkahssumfcgrkheotdxwjckpvapbkaepqrxseyfrwtyaycmrzsrsngkh\nhkgnsrszrmcyaytwrfyesxrqpeakbpavpkcjwxdtoehkrgcfmusshakttatosyktjbeqfycizhgniksofjvxlpbmaamvwuxhis", "output": "YES" }, { "input": "ycnahksbughnonldzrhkysujmylcgcfuludjvjiahtkyzqvkopzqcnwhltbzfugzojqkjjlggmvnultascmygelkiktmfieok\nkoeifmtkiklegkmcsatlunvmggkjjlqjozgufzbtlhwncqzpokvqzykthaijvjdulufcgclymjusyyhrzdlnonhgubskhancy", "output": "NO" }, { "input": "wbqasaehtkfojruzyhrlgwmtyiovmzyfifslvlemhqheyaelzwnthrenjsbmntwaoryzwfbxmscmypvxlfmzpnkkjlvwvmtz\nztmvwvljkknpzmflxvpymcsmxbfwzyroawtnmbsjnerhtnwzleayehqhmelvlsfifyzmvoiytmwglrhyzurjofktheasaqbw", "output": "YES" }, { "input": "imippqurprbhfugngtgifelytadegwrgaefnfhbjjnmzikvjaccotqzemufqieqldgnbmviisgkynzeldlhqxuqphjfmyij\njiymfjhpquxqhldleznykgsiivmbngdlqeiqfumezqtoccajvkizmnjjbhfnfeagrwgedatylefigtgngufhbrpruqppimi", "output": "YES" }, { "input": "bikydffiuisckpvzqlteqfhegsagimodb\nbdomigasgehfqetlqzvpkcsiuiffdykib", "output": "YES" } ]	1,526,441,311	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	s = input() t = input() b = '' for i in range(len(t)-1,-1,-1) : b += t[i] if(s==b) : print("YES") else : print("NO")!	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python s = input() t = input() b = '' for i in range(len(t)-1,-1,-1) : b += t[i] if(s==b) : print("YES") else : print("NO")! ```	-1
37	A	Towers	PROGRAMMING	1,000	[ "sortings" ]	A. Towers	2	256	Little Vasya has received a young builder’s kit. The kit consists of several wooden bars, the lengths of all of them are known. The bars can be put one on the top of the other if their lengths are the same. Vasya wants to construct the minimal number of towers from the bars. Help Vasya to use the bars in the best way possible.	The first line contains an integer N (1<=≤<=N<=≤<=1000) — the number of bars at Vasya’s disposal. The second line contains N space-separated integers li — the lengths of the bars. All the lengths are natural numbers not exceeding 1000.	In one line output two numbers — the height of the largest tower and their total number. Remember that Vasya should use all the bars.	[ "3\n1 2 3\n", "4\n6 5 6 7\n" ]	[ "1 3\n", "2 3\n" ]	none	500	[ { "input": "3\n1 2 3", "output": "1 3" }, { "input": "4\n6 5 6 7", "output": "2 3" }, { "input": "4\n3 2 1 1", "output": "2 3" }, { "input": "4\n1 2 3 3", "output": "2 3" }, { "input": "3\n20 22 36", "output": "1 3" }, { "input": "25\n47 30 94 41 45 20 96 51 110 129 24 116 9 47 32 82 105 114 116 75 154 151 70 42 162", "output": "2 23" }, { "input": "45\n802 664 442 318 318 827 417 878 711 291 231 414 807 553 657 392 279 202 386 606 465 655 658 112 887 15 25 502 95 44 679 775 942 609 209 871 31 234 4 231 150 110 22 823 193", "output": "2 43" }, { "input": "63\n93 180 116 7 8 179 268 279 136 94 221 153 264 190 278 19 19 63 153 26 158 225 25 49 89 218 111 149 255 225 197 122 243 80 3 224 107 178 202 17 53 92 69 42 228 24 81 205 95 8 265 82 228 156 127 241 172 159 106 60 67 155 111", "output": "2 57" }, { "input": "83\n246 535 994 33 390 927 321 97 223 922 812 705 79 80 977 457 476 636 511 137 6 360 815 319 717 674 368 551 714 628 278 713 761 553 184 414 623 753 428 214 581 115 439 61 677 216 772 592 187 603 658 310 439 559 870 376 109 321 189 337 277 26 70 734 796 907 979 693 570 227 345 650 737 633 701 914 134 403 972 940 371 6 642", "output": "2 80" }, { "input": "105\n246 57 12 204 165 123 246 68 191 310 3 152 386 333 374 257 158 104 333 50 80 290 8 340 101 76 221 316 388 289 138 359 316 26 93 290 105 178 81 195 41 196 218 180 244 292 187 97 315 323 174 119 248 239 92 312 31 2 101 180 307 170 338 314 163 281 217 31 142 238 280 190 190 156 70 74 329 113 151 8 141 313 366 40 253 116 168 124 135 230 294 266 353 389 371 359 195 200 183 237 93 102 315 118 188", "output": "2 92" }, { "input": "123\n112 277 170 247 252 115 157 293 256 143 196 90 12 164 164 42 8 223 167 109 175 232 239 111 148 51 9 254 93 32 268 162 231 91 47 162 161 191 195 145 247 292 129 199 230 94 144 217 18 205 176 20 143 198 121 243 211 262 230 277 195 255 108 290 220 275 158 2 286 200 60 267 278 207 123 150 123 116 131 13 12 226 33 244 30 275 263 45 158 192 254 149 242 176 62 224 221 288 250 160 155 225 132 143 276 293 218 145 197 175 33 129 79 206 210 192 222 262 190 52 274 243 233", "output": "3 101" }, { "input": "5\n5 5 5 5 5", "output": "5 1" }, { "input": "3\n1000 1000 1000", "output": "3 1" }, { "input": "1\n1000", "output": "1 1" }, { "input": "1\n1", "output": "1 1" }, { "input": "5\n1 1000 1000 1000 1000", "output": "4 2" }, { "input": "5\n1000 1000 1000 8 7", "output": "3 3" } ]	1,651,559,722	2,147,483,647	PyPy 3-64	OK	TESTS	61	154	102,400	# coding=utf-8 #4841: 用木棍搭塔 n=int(input()) la=list(map(int,input().split())) sa=set(la) m=len(sa) k=0 for item in sa: k=max(k,la.count(item)) print(k,m)	Title: Towers Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Little Vasya has received a young builder’s kit. The kit consists of several wooden bars, the lengths of all of them are known. The bars can be put one on the top of the other if their lengths are the same. Vasya wants to construct the minimal number of towers from the bars. Help Vasya to use the bars in the best way possible. Input Specification: The first line contains an integer N (1<=≤<=N<=≤<=1000) — the number of bars at Vasya’s disposal. The second line contains N space-separated integers li — the lengths of the bars. All the lengths are natural numbers not exceeding 1000. Output Specification: In one line output two numbers — the height of the largest tower and their total number. Remember that Vasya should use all the bars. Demo Input: ['3\n1 2 3\n', '4\n6 5 6 7\n'] Demo Output: ['1 3\n', '2 3\n'] Note: none	```python # coding=utf-8 #4841: 用木棍搭塔 n=int(input()) la=list(map(int,input().split())) sa=set(la) m=len(sa) k=0 for item in sa: k=max(k,la.count(item)) print(k,m) ```	3.961309
698	A	Vacations	PROGRAMMING	1,400	[ "dp" ]		null	null	Vasya has n days of vacations! So he decided to improve his IT skills and do sport. Vasya knows the following information about each of this n days: whether that gym opened and whether a contest was carried out in the Internet on that day. For the i-th day there are four options: 1. on this day the gym is closed and the contest is not carried out; 1. on this day the gym is closed and the contest is carried out; 1. on this day the gym is open and the contest is not carried out; 1. on this day the gym is open and the contest is carried out. On each of days Vasya can either have a rest or write the contest (if it is carried out on this day), or do sport (if the gym is open on this day). Find the minimum number of days on which Vasya will have a rest (it means, he will not do sport and write the contest at the same time). The only limitation that Vasya has — he does not want to do the same activity on two consecutive days: it means, he will not do sport on two consecutive days, and write the contest on two consecutive days.	The first line contains a positive integer n (1<=≤<=n<=≤<=100) — the number of days of Vasya's vacations. The second line contains the sequence of integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=3) separated by space, where: - ai equals 0, if on the i-th day of vacations the gym is closed and the contest is not carried out; - ai equals 1, if on the i-th day of vacations the gym is closed, but the contest is carried out; - ai equals 2, if on the i-th day of vacations the gym is open and the contest is not carried out; - ai equals 3, if on the i-th day of vacations the gym is open and the contest is carried out.	Print the minimum possible number of days on which Vasya will have a rest. Remember that Vasya refuses: - to do sport on any two consecutive days, - to write the contest on any two consecutive days.	[ "4\n1 3 2 0\n", "7\n1 3 3 2 1 2 3\n", "2\n2 2\n" ]	[ "2\n", "0\n", "1\n" ]	In the first test Vasya can write the contest on the day number 1 and do sport on the day number 3. Thus, he will have a rest for only 2 days. In the second test Vasya should write contests on days number 1, 3, 5 and 7, in other days do sport. Thus, he will not have a rest for a single day. In the third test Vasya can do sport either on a day number 1 or number 2. He can not do sport in two days, because it will be contrary to the his limitation. Thus, he will have a rest for only one day.	500	[ { "input": "4\n1 3 2 0", "output": "2" }, { "input": "7\n1 3 3 2 1 2 3", "output": "0" }, { "input": "2\n2 2", "output": "1" }, { "input": "1\n0", "output": "1" }, { "input": "10\n0 0 1 1 0 0 0 0 1 0", "output": "8" }, { "input": "100\n3 2 3 3 3 2 3 1 3 2 2 3 2 3 3 3 3 3 3 1 2 2 3 1 3 3 2 2 2 3 1 0 3 3 3 2 3 3 1 1 3 1 3 3 3 1 3 1 3 0 1 3 2 3 2 1 1 3 2 3 3 3 2 3 1 3 3 3 3 2 2 2 1 3 1 3 3 3 3 1 3 2 3 3 0 3 3 3 3 3 1 0 2 1 3 3 0 2 3 3", "output": "16" }, { "input": "10\n2 3 0 1 3 1 2 2 1 0", "output": "3" }, { "input": "45\n3 3 2 3 2 3 3 3 0 3 3 3 3 3 3 3 1 3 2 3 2 3 2 2 2 3 2 3 3 3 3 3 1 2 3 3 2 2 2 3 3 3 3 1 3", "output": "6" }, { "input": "1\n1", "output": "0" }, { "input": "1\n2", "output": "0" }, { "input": "1\n3", "output": "0" }, { "input": "2\n1 1", "output": "1" }, { "input": "2\n1 3", "output": "0" }, { "input": "2\n0 1", "output": "1" }, { "input": "2\n0 0", "output": "2" }, { "input": "2\n3 3", "output": "0" }, { "input": "3\n3 3 3", "output": "0" }, { "input": "2\n3 2", "output": "0" }, { "input": "2\n0 2", "output": "1" }, { "input": "10\n2 2 3 3 3 3 2 1 3 2", "output": "2" }, { "input": "15\n0 1 0 0 0 2 0 1 0 0 0 2 0 0 0", "output": "11" }, { "input": "15\n1 3 2 2 2 3 3 3 3 2 3 2 2 1 1", "output": "4" }, { "input": "15\n3 1 3 2 3 2 2 2 3 3 3 3 2 3 2", "output": "3" }, { "input": "20\n0 2 0 1 0 0 0 1 2 0 1 1 1 0 1 1 0 1 1 0", "output": "12" }, { "input": "20\n2 3 2 3 3 3 3 2 0 3 1 1 2 3 0 3 2 3 0 3", "output": "5" }, { "input": "20\n3 3 3 3 2 3 3 2 1 3 3 2 2 2 3 2 2 2 2 2", "output": "4" }, { "input": "25\n0 0 1 0 0 1 0 0 1 0 0 1 0 2 0 0 2 0 0 1 0 2 0 1 1", "output": "16" }, { "input": "25\n1 3 3 2 2 3 3 3 3 3 1 2 2 3 2 0 2 1 0 1 3 2 2 3 3", "output": "5" }, { "input": "25\n2 3 1 3 3 2 1 3 3 3 1 3 3 1 3 2 3 3 1 3 3 3 2 3 3", "output": "3" }, { "input": "30\n0 0 1 0 1 0 1 1 0 0 0 0 0 0 1 0 0 1 1 0 0 2 0 0 1 1 2 0 0 0", "output": "22" }, { "input": "30\n1 1 3 2 2 0 3 2 3 3 1 2 0 1 1 2 3 3 2 3 1 3 2 3 0 2 0 3 3 2", "output": "9" }, { "input": "30\n1 2 3 2 2 3 3 3 3 3 3 3 3 3 3 1 2 2 3 2 3 3 3 2 1 3 3 3 1 3", "output": "2" }, { "input": "35\n0 1 1 0 0 2 0 0 1 0 0 0 1 0 1 0 1 0 0 0 1 2 1 0 2 2 1 0 1 0 1 1 1 0 0", "output": "21" }, { "input": "35\n2 2 0 3 2 2 0 3 3 1 1 3 3 1 2 2 0 2 2 2 2 3 1 0 2 1 3 2 2 3 2 3 3 1 2", "output": "11" }, { "input": "35\n1 2 2 3 3 3 3 3 2 2 3 3 2 3 3 2 3 2 3 3 2 2 2 3 3 2 3 3 3 1 3 3 2 2 2", "output": "7" }, { "input": "40\n2 0 1 1 0 0 0 0 2 0 1 1 1 0 0 1 0 0 0 0 0 2 0 0 0 2 1 1 1 3 0 0 0 0 0 0 0 1 1 0", "output": "28" }, { "input": "40\n2 2 3 2 0 2 3 2 1 2 3 0 2 3 2 1 1 3 1 1 0 2 3 1 3 3 1 1 3 3 2 2 1 3 3 3 2 3 3 1", "output": "10" }, { "input": "40\n1 3 2 3 3 2 3 3 2 2 3 1 2 1 2 2 3 1 2 2 1 2 2 2 1 2 2 3 2 3 2 3 2 3 3 3 1 3 2 3", "output": "8" }, { "input": "45\n2 1 0 0 0 2 1 0 1 0 0 2 2 1 1 0 0 2 0 0 0 0 0 0 1 0 0 2 0 0 1 1 0 0 1 0 0 1 1 2 0 0 2 0 2", "output": "29" }, { "input": "45\n3 3 2 3 3 3 2 2 3 2 3 1 3 2 3 2 2 1 1 3 2 3 2 1 3 1 2 3 2 2 0 3 3 2 3 2 3 2 3 2 0 3 1 1 3", "output": "8" }, { "input": "50\n3 0 0 0 2 0 0 0 0 0 0 0 2 1 0 2 0 1 0 1 3 0 2 1 1 0 0 1 1 0 0 1 2 1 1 2 1 1 0 0 0 0 0 0 0 1 2 2 0 0", "output": "32" }, { "input": "50\n3 3 3 3 1 0 3 3 0 2 3 1 1 1 3 2 3 3 3 3 3 1 0 1 2 2 3 3 2 3 0 0 0 2 1 0 1 2 2 2 2 0 2 2 2 1 2 3 3 2", "output": "16" }, { "input": "50\n3 2 3 1 2 1 2 3 3 2 3 3 2 1 3 3 3 3 3 3 2 3 2 3 2 2 3 3 3 2 3 3 3 3 2 3 1 2 3 3 2 3 3 1 2 2 1 1 3 3", "output": "7" }, { "input": "55\n0 0 1 1 0 1 0 0 1 0 1 0 0 0 2 0 0 1 0 0 0 1 0 0 0 0 3 1 0 0 0 1 0 0 0 0 2 0 0 0 2 0 2 1 0 0 0 0 0 0 0 0 2 0 0", "output": "40" }, { "input": "55\n3 0 3 3 3 2 0 2 3 0 3 2 3 3 0 3 3 1 3 3 1 2 3 2 0 3 3 2 1 2 3 2 3 0 3 2 2 1 2 3 2 2 1 3 2 2 3 1 3 2 2 3 3 2 2", "output": "13" }, { "input": "55\n3 3 1 3 2 3 2 3 2 2 3 3 3 3 3 1 1 3 3 2 3 2 3 2 0 1 3 3 3 3 2 3 2 3 1 1 2 2 2 3 3 3 3 3 2 2 2 3 2 3 3 3 3 1 3", "output": "7" }, { "input": "60\n0 1 0 0 0 0 0 0 0 2 1 1 3 0 0 0 0 0 1 0 1 1 0 0 0 3 0 1 0 1 0 2 0 0 0 0 0 1 0 0 0 0 1 1 0 1 0 0 0 0 0 1 0 0 1 0 1 0 0 0", "output": "44" }, { "input": "60\n3 2 1 3 2 2 3 3 3 1 1 3 2 2 3 3 1 3 2 2 3 3 2 2 2 2 0 2 2 3 2 3 0 3 3 3 2 3 3 0 1 3 2 1 3 1 1 2 1 3 1 1 2 2 1 3 3 3 2 2", "output": "15" }, { "input": "60\n3 2 2 3 2 3 2 3 3 2 3 2 3 3 2 3 3 3 3 3 3 2 3 3 1 2 3 3 3 2 1 3 3 1 3 1 3 0 3 3 3 2 3 2 3 2 3 3 1 1 2 3 3 3 3 2 1 3 2 3", "output": "8" }, { "input": "65\n1 0 2 1 1 0 1 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 0 1 2 0 2 1 0 2 1 0 1 0 1 1 0 1 1 1 2 1 0 1 0 0 0 0 1 2 2 1 0 0 1 2 1 2 0 2 0 0 0 1 1", "output": "35" }, { "input": "65\n2 2 2 3 0 2 1 2 3 3 1 3 1 2 1 3 2 3 2 2 2 1 2 0 3 1 3 1 1 3 1 3 3 3 3 3 1 3 0 3 1 3 1 2 2 3 2 0 3 1 3 2 1 2 2 2 3 3 2 3 3 3 2 2 3", "output": "13" }, { "input": "65\n3 2 3 3 3 2 3 2 3 3 3 3 3 3 3 3 3 2 3 2 3 2 2 3 3 3 3 3 2 2 2 3 3 2 3 3 2 3 3 3 3 2 3 3 3 2 2 3 3 3 3 3 3 2 2 3 3 2 3 3 1 3 3 3 3", "output": "6" }, { "input": "70\n1 0 0 0 1 0 1 0 0 0 1 1 0 1 0 0 1 1 1 0 1 1 0 0 1 1 1 3 1 1 0 1 2 0 2 1 0 0 0 1 1 1 1 1 0 0 1 0 0 0 1 1 1 3 0 0 1 0 0 0 1 0 0 0 0 0 1 0 1 1", "output": "43" }, { "input": "70\n2 3 3 3 1 3 3 1 2 1 1 2 2 3 0 2 3 3 1 3 3 2 2 3 3 3 2 2 2 2 1 3 3 0 2 1 1 3 2 3 3 2 2 3 1 3 1 2 3 2 3 3 2 2 2 3 1 1 2 1 3 3 2 2 3 3 3 1 1 1", "output": "16" }, { "input": "70\n3 3 2 2 1 2 1 2 2 2 2 2 3 3 2 3 3 3 3 2 2 2 2 3 3 3 1 3 3 3 2 3 3 3 3 2 3 3 1 3 1 3 2 3 3 2 3 3 3 2 3 2 3 3 1 2 3 3 2 2 2 3 2 3 3 3 3 3 3 1", "output": "10" }, { "input": "75\n1 0 0 1 1 0 0 1 0 1 2 0 0 2 1 1 0 0 0 0 0 0 2 1 1 0 0 0 0 1 0 1 0 1 1 1 0 1 0 0 1 0 0 0 0 0 0 1 1 0 0 1 2 1 0 0 0 0 0 0 0 1 0 0 0 1 0 0 0 1 1 1 0 1 0", "output": "51" }, { "input": "75\n1 3 3 3 1 1 3 2 3 3 1 3 3 3 2 1 3 2 2 3 1 1 1 1 1 1 2 3 3 3 3 3 3 2 3 3 3 3 3 2 3 3 2 2 2 1 2 3 3 2 2 3 0 1 1 3 3 0 0 1 1 3 2 3 3 3 3 1 2 2 3 3 3 3 1", "output": "16" }, { "input": "75\n3 3 3 3 2 2 3 2 2 3 2 2 1 2 3 3 2 2 3 3 1 2 2 2 1 3 3 3 1 2 2 3 3 3 2 3 2 2 2 3 3 1 3 2 2 3 3 3 0 3 2 1 3 3 2 3 3 3 3 1 2 3 3 3 2 2 3 3 3 3 2 2 3 3 1", "output": "11" }, { "input": "80\n0 0 0 0 2 0 1 1 1 1 1 0 0 0 0 2 0 0 1 0 0 0 0 1 1 0 2 2 1 1 0 1 0 1 0 1 1 1 0 1 2 1 1 0 0 0 1 1 0 1 1 0 1 0 0 1 0 0 1 0 0 0 0 0 0 0 2 2 0 1 1 0 0 0 0 0 0 0 0 1", "output": "56" }, { "input": "80\n2 2 3 3 2 1 0 1 0 3 2 2 3 2 1 3 1 3 3 2 3 3 3 2 3 3 3 2 1 3 3 1 3 3 3 3 3 3 2 2 2 1 3 2 1 3 2 1 1 0 1 1 2 1 3 0 1 2 3 2 2 3 2 3 1 3 3 2 1 1 0 3 3 3 3 1 2 1 2 0", "output": "17" }, { "input": "80\n2 3 3 2 2 2 3 3 2 3 3 3 3 3 2 3 2 3 2 3 3 3 3 3 3 3 3 3 2 3 1 3 2 3 3 0 3 1 2 3 3 1 2 3 2 3 3 2 3 3 3 3 3 2 2 3 0 3 3 3 3 3 2 2 3 2 3 3 3 3 3 2 3 2 3 3 3 3 2 3", "output": "9" }, { "input": "85\n0 1 1 0 0 0 0 0 0 1 0 0 0 1 0 0 0 0 2 0 1 0 0 2 0 1 1 0 0 0 0 2 2 0 0 0 1 0 0 0 1 2 0 1 0 0 0 2 1 1 2 0 3 1 0 2 2 1 0 0 1 1 0 0 0 0 1 0 2 1 1 2 1 0 0 1 2 1 2 0 0 1 0 1 0", "output": "54" }, { "input": "85\n2 3 1 3 2 3 1 3 3 2 1 2 1 2 2 3 2 2 3 2 0 3 3 2 1 2 2 2 3 3 2 3 3 3 2 1 1 3 1 3 2 2 2 3 3 2 3 2 3 1 1 3 2 3 1 3 3 2 3 3 2 2 3 0 1 1 2 2 2 2 1 2 3 1 3 3 1 3 2 2 3 2 3 3 3", "output": "19" }, { "input": "85\n1 2 1 2 3 2 3 3 3 3 3 3 3 2 1 3 2 3 3 3 3 2 3 3 3 1 3 3 3 3 2 3 3 3 3 3 3 2 2 1 3 3 3 3 2 2 3 1 1 2 3 3 3 2 3 3 3 3 3 2 3 3 3 2 2 3 3 1 1 1 3 3 3 3 1 3 3 3 1 3 3 1 3 2 3", "output": "9" }, { "input": "90\n2 0 1 0 0 0 0 0 0 1 1 2 0 0 0 0 0 0 0 2 2 0 2 0 0 2 1 0 2 0 1 0 1 0 0 1 2 2 0 0 1 0 0 1 0 1 0 2 0 1 1 1 0 1 1 0 1 0 2 0 1 0 1 0 0 0 1 0 0 1 2 0 0 0 1 0 0 2 2 0 0 0 0 0 1 3 1 1 0 1", "output": "57" }, { "input": "90\n2 3 3 3 2 3 2 1 3 0 3 2 3 3 2 1 3 3 2 3 2 3 3 2 1 3 1 3 3 1 2 2 3 3 2 1 2 3 2 3 0 3 3 2 2 3 1 0 3 3 1 3 3 3 3 2 1 2 2 1 3 2 1 3 3 1 2 0 2 2 3 2 2 3 3 3 1 3 2 1 2 3 3 2 3 2 3 3 2 1", "output": "17" }, { "input": "90\n2 3 2 3 2 2 3 3 2 3 2 1 2 3 3 3 2 3 2 3 3 2 3 3 3 1 3 3 1 3 2 3 2 2 1 3 3 3 3 3 3 3 3 3 3 2 3 2 3 2 1 3 3 3 3 2 2 3 3 3 3 3 3 3 3 3 3 3 3 2 2 3 3 3 3 1 3 2 3 3 3 2 2 3 2 3 2 1 3 2", "output": "9" }, { "input": "95\n0 0 3 0 2 0 1 0 0 2 0 0 0 0 0 0 0 1 0 0 0 2 0 0 0 0 0 1 0 0 2 1 0 0 1 0 0 0 1 0 0 0 0 1 0 1 0 0 1 0 1 2 0 1 2 2 0 0 1 0 2 0 0 0 1 0 2 1 2 1 0 1 0 0 0 1 0 0 1 1 2 1 1 1 1 2 0 0 0 0 0 1 1 0 1", "output": "61" }, { "input": "95\n2 3 3 2 1 1 3 3 3 2 3 3 3 2 3 2 3 3 3 2 3 2 2 3 3 2 1 2 3 3 3 1 3 0 3 3 1 3 3 1 0 1 3 3 3 0 2 1 3 3 3 3 0 1 3 2 3 3 2 1 3 1 2 1 1 2 3 0 3 3 2 1 3 2 1 3 3 3 2 2 3 2 3 3 3 2 1 3 3 3 2 3 3 1 2", "output": "15" }, { "input": "95\n2 3 3 2 3 2 2 1 3 1 2 1 2 3 1 2 3 3 1 3 3 3 1 2 3 2 2 2 2 3 3 3 2 2 3 3 3 3 3 1 2 2 3 3 3 3 2 3 2 2 2 3 3 2 3 3 3 3 3 3 3 0 3 2 0 3 3 1 3 3 3 2 3 2 3 2 3 3 3 3 2 2 1 1 3 3 3 3 3 1 3 3 3 3 2", "output": "14" }, { "input": "100\n1 0 2 0 0 0 0 2 0 0 0 1 0 1 0 0 1 0 1 2 0 1 1 0 0 1 0 1 1 0 0 0 2 0 1 0 0 2 0 0 0 0 0 1 1 1 0 0 1 0 2 0 0 0 0 1 0 1 0 1 0 1 0 1 2 2 0 0 2 0 1 0 1 0 1 0 0 0 1 0 0 2 1 1 1 0 0 1 0 0 0 2 0 0 2 1 1 0 0 2", "output": "63" }, { "input": "100\n3 2 1 3 2 3 2 3 2 2 3 1 3 3 3 3 3 2 2 3 2 2 3 2 3 3 3 2 3 1 2 1 3 3 3 3 1 3 3 3 3 3 2 3 2 1 3 3 1 2 2 3 1 3 3 1 2 2 1 3 1 3 2 2 3 3 1 3 2 3 1 2 1 2 3 3 2 2 1 2 3 3 3 3 3 1 3 3 3 3 2 1 3 0 3 3 3 2 3 3", "output": "15" }, { "input": "100\n1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2", "output": "0" }, { "input": "100\n3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3", "output": "0" }, { "input": "100\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "50" }, { "input": "100\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2", "output": "50" }, { "input": "99\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "49" }, { "input": "100\n2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1", "output": "0" }, { "input": "100\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "100" }, { "input": "2\n0 3", "output": "1" }, { "input": "2\n1 0", "output": "1" }, { "input": "2\n1 2", "output": "0" }, { "input": "2\n2 0", "output": "1" }, { "input": "2\n2 1", "output": "0" }, { "input": "2\n2 3", "output": "0" }, { "input": "2\n3 0", "output": "1" }, { "input": "2\n3 1", "output": "0" }, { "input": "100\n3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0 3 0", "output": "50" } ]	1,548,736,818	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	#include <bits/stdc++.h> #define vv vector #define qq queue #define pp pair #define allv(A) A.begin(), A.end() #define sortv(A) sort(A.begin(), A.end()) #define revv(A) reverse(allv(A)) #define low_bv(A, V) lower_bound(all(A), V) #define up_bv(A, V) upper_bound(all(A), V) #define FOR(J,A,N) for(int J=A;J<N;J++) #define fi first #define se second #define pb push_back #define qp push #define mk make_pair #define inc cin #define icn cin #define cotu cout using namespace std; typedef long long ll; typedef int itn; typedef double db; const int N = 2e5 + 5; const int mod = 1e9 + 7; const int INF = INT_MAX; int main () { ios_base::sync_with_stdio(0); cin.tie(0), cout.tie(0); int n, ans = 0; cin >> n; vector <int> a(n); for (int i = 0 ; i < n ; i ++) { cin >> a[i]; if (a[i] == 0) { ans ++; continue; } if (i == 0) continue; if (a[i - 1] == 3) continue; if (a[i] == 3) { if (a[i - 1] == 2) a[i] = 1; if (a[i - 1] == 1) a[i] = 2; continue; } if (a[i] == a[i - 1]) ans ++; } cout << ans; }	Title: Vacations Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasya has n days of vacations! So he decided to improve his IT skills and do sport. Vasya knows the following information about each of this n days: whether that gym opened and whether a contest was carried out in the Internet on that day. For the i-th day there are four options: 1. on this day the gym is closed and the contest is not carried out; 1. on this day the gym is closed and the contest is carried out; 1. on this day the gym is open and the contest is not carried out; 1. on this day the gym is open and the contest is carried out. On each of days Vasya can either have a rest or write the contest (if it is carried out on this day), or do sport (if the gym is open on this day). Find the minimum number of days on which Vasya will have a rest (it means, he will not do sport and write the contest at the same time). The only limitation that Vasya has — he does not want to do the same activity on two consecutive days: it means, he will not do sport on two consecutive days, and write the contest on two consecutive days. Input Specification: The first line contains a positive integer n (1<=≤<=n<=≤<=100) — the number of days of Vasya's vacations. The second line contains the sequence of integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=3) separated by space, where: - ai equals 0, if on the i-th day of vacations the gym is closed and the contest is not carried out; - ai equals 1, if on the i-th day of vacations the gym is closed, but the contest is carried out; - ai equals 2, if on the i-th day of vacations the gym is open and the contest is not carried out; - ai equals 3, if on the i-th day of vacations the gym is open and the contest is carried out. Output Specification: Print the minimum possible number of days on which Vasya will have a rest. Remember that Vasya refuses: - to do sport on any two consecutive days, - to write the contest on any two consecutive days. Demo Input: ['4\n1 3 2 0\n', '7\n1 3 3 2 1 2 3\n', '2\n2 2\n'] Demo Output: ['2\n', '0\n', '1\n'] Note: In the first test Vasya can write the contest on the day number 1 and do sport on the day number 3. Thus, he will have a rest for only 2 days. In the second test Vasya should write contests on days number 1, 3, 5 and 7, in other days do sport. Thus, he will not have a rest for a single day. In the third test Vasya can do sport either on a day number 1 or number 2. He can not do sport in two days, because it will be contrary to the his limitation. Thus, he will have a rest for only one day.	```python #include <bits/stdc++.h> #define vv vector #define qq queue #define pp pair #define allv(A) A.begin(), A.end() #define sortv(A) sort(A.begin(), A.end()) #define revv(A) reverse(allv(A)) #define low_bv(A, V) lower_bound(all(A), V) #define up_bv(A, V) upper_bound(all(A), V) #define FOR(J,A,N) for(int J=A;J<N;J++) #define fi first #define se second #define pb push_back #define qp push #define mk make_pair #define inc cin #define icn cin #define cotu cout using namespace std; typedef long long ll; typedef int itn; typedef double db; const int N = 2e5 + 5; const int mod = 1e9 + 7; const int INF = INT_MAX; int main () { ios_base::sync_with_stdio(0); cin.tie(0), cout.tie(0); int n, ans = 0; cin >> n; vector <int> a(n); for (int i = 0 ; i < n ; i ++) { cin >> a[i]; if (a[i] == 0) { ans ++; continue; } if (i == 0) continue; if (a[i - 1] == 3) continue; if (a[i] == 3) { if (a[i - 1] == 2) a[i] = 1; if (a[i - 1] == 1) a[i] = 2; continue; } if (a[i] == a[i - 1]) ans ++; } cout << ans; } ```	-1
611	A	New Year and Days	PROGRAMMING	900	[ "implementation" ]		null	null	Today is Wednesday, the third day of the week. What's more interesting is that tomorrow is the last day of the year 2015. Limak is a little polar bear. He enjoyed this year a lot. Now, he is so eager to the coming year 2016. Limak wants to prove how responsible a bear he is. He is going to regularly save candies for the entire year 2016! He considers various saving plans. He can save one candy either on some fixed day of the week or on some fixed day of the month. Limak chose one particular plan. He isn't sure how many candies he will save in the 2016 with his plan. Please, calculate it and tell him.	The only line of the input is in one of the following two formats: - "x of week" where x (1<=≤<=x<=≤<=7) denotes the day of the week. The 1-st day is Monday and the 7-th one is Sunday. - "x of month" where x (1<=≤<=x<=≤<=31) denotes the day of the month.	Print one integer — the number of candies Limak will save in the year 2016.	[ "4 of week\n", "30 of month\n" ]	[ "52\n", "11\n" ]	Polar bears use the Gregorian calendar. It is the most common calendar and you likely use it too. You can read about it on Wikipedia if you want to – [https://en.wikipedia.org/wiki/Gregorian_calendar](https://en.wikipedia.org/wiki/Gregorian_calendar). The week starts with Monday. In the first sample Limak wants to save one candy on each Thursday (the 4-th day of the week). There are 52 Thursdays in the 2016. Thus, he will save 52 candies in total. In the second sample Limak wants to save one candy on the 30-th day of each month. There is the 30-th day in exactly 11 months in the 2016 — all months but February. It means that Limak will save 11 candies in total.	500	[ { "input": "4 of week", "output": "52" }, { "input": "30 of month", "output": "11" }, { "input": "17 of month", "output": "12" }, { "input": "31 of month", "output": "7" }, { "input": "6 of week", "output": "53" }, { "input": "1 of week", "output": "52" }, { "input": "2 of week", "output": "52" }, { "input": "3 of week", "output": "52" }, { "input": "5 of week", "output": "53" }, { "input": "7 of week", "output": "52" }, { "input": "1 of month", "output": "12" }, { "input": "2 of month", "output": "12" }, { "input": "3 of month", "output": "12" }, { "input": "4 of month", "output": "12" }, { "input": "5 of month", "output": "12" }, { "input": "6 of month", "output": "12" }, { "input": "7 of month", "output": "12" }, { "input": "8 of month", "output": "12" }, { "input": "9 of month", "output": "12" }, { "input": "10 of month", "output": "12" }, { "input": "11 of month", "output": "12" }, { "input": "12 of month", "output": "12" }, { "input": "13 of month", "output": "12" }, { "input": "14 of month", "output": "12" }, { "input": "15 of month", "output": "12" }, { "input": "16 of month", "output": "12" }, { "input": "18 of month", "output": "12" }, { "input": "19 of month", "output": "12" }, { "input": "20 of month", "output": "12" }, { "input": "21 of month", "output": "12" }, { "input": "22 of month", "output": "12" }, { "input": "23 of month", "output": "12" }, { "input": "24 of month", "output": "12" }, { "input": "25 of month", "output": "12" }, { "input": "26 of month", "output": "12" }, { "input": "27 of month", "output": "12" }, { "input": "28 of month", "output": "12" }, { "input": "29 of month", "output": "12" } ]	1,581,993,054	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	1	124	0	# import sys # sys.stdin=open('input.txt', 'r') # sys.stdout=open('output.txt', 'w') d, _, c=[k for k in input().split()] if c=='week': if d==5 or d==6: print('53') else: print('52') else: if d==30: print('11') elif d==31: print('7') else: print('12')	Title: New Year and Days Time Limit: None seconds Memory Limit: None megabytes Problem Description: Today is Wednesday, the third day of the week. What's more interesting is that tomorrow is the last day of the year 2015. Limak is a little polar bear. He enjoyed this year a lot. Now, he is so eager to the coming year 2016. Limak wants to prove how responsible a bear he is. He is going to regularly save candies for the entire year 2016! He considers various saving plans. He can save one candy either on some fixed day of the week or on some fixed day of the month. Limak chose one particular plan. He isn't sure how many candies he will save in the 2016 with his plan. Please, calculate it and tell him. Input Specification: The only line of the input is in one of the following two formats: - "x of week" where x (1<=≤<=x<=≤<=7) denotes the day of the week. The 1-st day is Monday and the 7-th one is Sunday. - "x of month" where x (1<=≤<=x<=≤<=31) denotes the day of the month. Output Specification: Print one integer — the number of candies Limak will save in the year 2016. Demo Input: ['4 of week\n', '30 of month\n'] Demo Output: ['52\n', '11\n'] Note: Polar bears use the Gregorian calendar. It is the most common calendar and you likely use it too. You can read about it on Wikipedia if you want to – [https://en.wikipedia.org/wiki/Gregorian_calendar](https://en.wikipedia.org/wiki/Gregorian_calendar). The week starts with Monday. In the first sample Limak wants to save one candy on each Thursday (the 4-th day of the week). There are 52 Thursdays in the 2016. Thus, he will save 52 candies in total. In the second sample Limak wants to save one candy on the 30-th day of each month. There is the 30-th day in exactly 11 months in the 2016 — all months but February. It means that Limak will save 11 candies in total.	```python # import sys # sys.stdin=open('input.txt', 'r') # sys.stdout=open('output.txt', 'w') d, _, c=[k for k in input().split()] if c=='week': if d==5 or d==6: print('53') else: print('52') else: if d==30: print('11') elif d==31: print('7') else: print('12') ```	0
292	B	Network Topology	PROGRAMMING	1,200	[ "graphs", "implementation" ]		null	null	This problem uses a simplified network topology model, please read the problem statement carefully and use it as a formal document as you develop the solution. Polycarpus continues working as a system administrator in a large corporation. The computer network of this corporation consists of n computers, some of them are connected by a cable. The computers are indexed by integers from 1 to n. It's known that any two computers connected by cable directly or through other computers Polycarpus decided to find out the network's topology. A network topology is the way of describing the network configuration, the scheme that shows the location and the connections of network devices. Polycarpus knows three main network topologies: bus, ring and star. A bus is the topology that represents a shared cable with all computers connected with it. In the ring topology the cable connects each computer only with two other ones. A star is the topology where all computers of a network are connected to the single central node. Let's represent each of these network topologies as a connected non-directed graph. A bus is a connected graph that is the only path, that is, the graph where all nodes are connected with two other ones except for some two nodes that are the beginning and the end of the path. A ring is a connected graph, where all nodes are connected with two other ones. A star is a connected graph, where a single central node is singled out and connected with all other nodes. For clarifications, see the picture. You've got a connected non-directed graph that characterizes the computer network in Polycarpus' corporation. Help him find out, which topology type the given network is. If that is impossible to do, say that the network's topology is unknown.	The first line contains two space-separated integers n and m (4<=≤<=n<=≤<=105; 3<=≤<=m<=≤<=105) — the number of nodes and edges in the graph, correspondingly. Next m lines contain the description of the graph's edges. The i-th line contains a space-separated pair of integers xi, yi (1<=≤<=xi,<=yi<=≤<=n) — the numbers of nodes that are connected by the i-the edge. It is guaranteed that the given graph is connected. There is at most one edge between any two nodes. No edge connects a node with itself.	In a single line print the network topology name of the given graph. If the answer is the bus, print "bus topology" (without the quotes), if the answer is the ring, print "ring topology" (without the quotes), if the answer is the star, print "star topology" (without the quotes). If no answer fits, print "unknown topology" (without the quotes).	[ "4 3\n1 2\n2 3\n3 4\n", "4 4\n1 2\n2 3\n3 4\n4 1\n", "4 3\n1 2\n1 3\n1 4\n", "4 4\n1 2\n2 3\n3 1\n1 4\n" ]	[ "bus topology\n", "ring topology\n", "star topology\n", "unknown topology\n" ]	none	1,000	[ { "input": "4 3\n1 2\n2 3\n3 4", "output": "bus topology" }, { "input": "4 4\n1 2\n2 3\n3 4\n4 1", "output": "ring topology" }, { "input": "4 3\n1 2\n1 3\n1 4", "output": "star topology" }, { "input": "4 4\n1 2\n2 3\n3 1\n1 4", "output": "unknown topology" }, { "input": "5 4\n1 2\n3 5\n1 4\n5 4", "output": "bus topology" }, { "input": "5 5\n3 4\n5 2\n2 1\n5 4\n3 1", "output": "ring topology" }, { "input": "5 4\n4 2\n5 2\n1 2\n2 3", "output": "star topology" }, { "input": "5 9\n5 3\n4 5\n3 1\n3 2\n2 1\n2 5\n1 5\n1 4\n4 2", "output": "unknown topology" }, { "input": "4 3\n2 4\n1 3\n4 1", "output": "bus topology" }, { "input": "4 4\n2 4\n4 1\n1 3\n2 3", "output": "ring topology" }, { "input": "4 3\n1 2\n2 4\n3 2", "output": "star topology" }, { "input": "4 4\n3 2\n2 4\n4 1\n1 2", "output": "unknown topology" }, { "input": "10 9\n10 6\n3 4\n8 9\n8 4\n6 1\n2 9\n5 1\n7 5\n10 3", "output": "bus topology" }, { "input": "10 10\n1 4\n3 6\n10 7\n5 8\n2 10\n3 4\n7 5\n9 6\n8 1\n2 9", "output": "ring topology" }, { "input": "10 9\n1 4\n4 10\n4 9\n8 4\n4 7\n4 5\n4 2\n4 6\n4 3", "output": "star topology" }, { "input": "10 14\n3 2\n7 2\n6 4\n8 1\n3 9\n5 6\n6 3\n4 1\n2 5\n7 10\n9 5\n7 1\n8 10\n3 4", "output": "unknown topology" }, { "input": "4 4\n1 2\n2 3\n2 4\n3 4", "output": "unknown topology" }, { "input": "5 4\n1 2\n1 3\n1 4\n4 5", "output": "unknown topology" }, { "input": "10 9\n10 1\n10 2\n10 3\n10 4\n10 5\n10 6\n10 7\n10 8\n10 9", "output": "star topology" }, { "input": "6 6\n1 2\n2 3\n3 1\n4 5\n5 6\n6 1", "output": "unknown topology" }, { "input": "6 5\n1 2\n1 3\n1 4\n4 5\n4 6", "output": "unknown topology" }, { "input": "4 4\n1 2\n2 3\n3 4\n4 2", "output": "unknown topology" }, { "input": "4 6\n1 2\n1 3\n1 4\n2 3\n2 4\n3 4", "output": "unknown topology" } ]	1,647,460,583	2,147,483,647	PyPy 3-64	OK	TESTS	45	1,464	13,516,800	def main(): line = input().split() n = int(line[0]) m = int(line[1]) d = {} for i in range(m): line = input().split() a = int(line[0]) - 1 b = int(line[1]) - 1 if a in d.keys(): d[a] += 1 else: d[a] = 1 if b in d.keys(): d[b] += 1 else: d[b] = 1 ones = 0 twos = 0 totals = 0 for k, v in d.items(): if v == 1: ones += 1 elif v == 2: twos += 1 elif v == n-1: totals += 1 else: print('unknown topology') return if ones == 2 and twos == n-2: print('bus topology') elif twos == n: print('ring topology') elif totals == 1 and ones == n-1: print('star topology') else: print('unknown topology') if __name__ == "__main__": main()	Title: Network Topology Time Limit: None seconds Memory Limit: None megabytes Problem Description: This problem uses a simplified network topology model, please read the problem statement carefully and use it as a formal document as you develop the solution. Polycarpus continues working as a system administrator in a large corporation. The computer network of this corporation consists of n computers, some of them are connected by a cable. The computers are indexed by integers from 1 to n. It's known that any two computers connected by cable directly or through other computers Polycarpus decided to find out the network's topology. A network topology is the way of describing the network configuration, the scheme that shows the location and the connections of network devices. Polycarpus knows three main network topologies: bus, ring and star. A bus is the topology that represents a shared cable with all computers connected with it. In the ring topology the cable connects each computer only with two other ones. A star is the topology where all computers of a network are connected to the single central node. Let's represent each of these network topologies as a connected non-directed graph. A bus is a connected graph that is the only path, that is, the graph where all nodes are connected with two other ones except for some two nodes that are the beginning and the end of the path. A ring is a connected graph, where all nodes are connected with two other ones. A star is a connected graph, where a single central node is singled out and connected with all other nodes. For clarifications, see the picture. You've got a connected non-directed graph that characterizes the computer network in Polycarpus' corporation. Help him find out, which topology type the given network is. If that is impossible to do, say that the network's topology is unknown. Input Specification: The first line contains two space-separated integers n and m (4<=≤<=n<=≤<=105; 3<=≤<=m<=≤<=105) — the number of nodes and edges in the graph, correspondingly. Next m lines contain the description of the graph's edges. The i-th line contains a space-separated pair of integers xi, yi (1<=≤<=xi,<=yi<=≤<=n) — the numbers of nodes that are connected by the i-the edge. It is guaranteed that the given graph is connected. There is at most one edge between any two nodes. No edge connects a node with itself. Output Specification: In a single line print the network topology name of the given graph. If the answer is the bus, print "bus topology" (without the quotes), if the answer is the ring, print "ring topology" (without the quotes), if the answer is the star, print "star topology" (without the quotes). If no answer fits, print "unknown topology" (without the quotes). Demo Input: ['4 3\n1 2\n2 3\n3 4\n', '4 4\n1 2\n2 3\n3 4\n4 1\n', '4 3\n1 2\n1 3\n1 4\n', '4 4\n1 2\n2 3\n3 1\n1 4\n'] Demo Output: ['bus topology\n', 'ring topology\n', 'star topology\n', 'unknown topology\n'] Note: none	```python def main(): line = input().split() n = int(line[0]) m = int(line[1]) d = {} for i in range(m): line = input().split() a = int(line[0]) - 1 b = int(line[1]) - 1 if a in d.keys(): d[a] += 1 else: d[a] = 1 if b in d.keys(): d[b] += 1 else: d[b] = 1 ones = 0 twos = 0 totals = 0 for k, v in d.items(): if v == 1: ones += 1 elif v == 2: twos += 1 elif v == n-1: totals += 1 else: print('unknown topology') return if ones == 2 and twos == n-2: print('bus topology') elif twos == n: print('ring topology') elif totals == 1 and ones == n-1: print('star topology') else: print('unknown topology') if __name__ == "__main__": main() ```	3
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk\nasrgdfngfnmfgnhweratgjkk", "output": "NO" }, { "input": "z\na", "output": "NO" }, { "input": "asd\ndsa", "output": "YES" }, { "input": "abcdef\nfecdba", "output": "NO" }, { "input": "ywjjbirapvskozubvxoemscfwl\ngnduubaogtfaiowjizlvjcu", "output": "NO" }, { "input": "mfrmqxtzvgaeuleubcmcxcfqyruwzenguhgrmkuhdgnhgtgkdszwqyd\nmfxufheiperjnhyczclkmzyhcxntdfskzkzdwzzujdinf", "output": "NO" }, { "input": "bnbnemvybqizywlnghlykniaxxxlkhftppbdeqpesrtgkcpoeqowjwhrylpsziiwcldodcoonpimudvrxejjo\ntiynnekmlalogyvrgptbinkoqdwzuiyjlrldxhzjmmp", "output": "NO" }, { "input": "pwlpubwyhzqvcitemnhvvwkmwcaawjvdiwtoxyhbhbxerlypelevasmelpfqwjk\nstruuzebbcenziscuoecywugxncdwzyfozhljjyizpqcgkyonyetarcpwkqhuugsqjuixsxptmbnlfupdcfigacdhhrzb", "output": "NO" }, { "input": "gdvqjoyxnkypfvdxssgrihnwxkeojmnpdeobpecytkbdwujqfjtxsqspxvxpqioyfagzjxupqqzpgnpnpxcuipweunqch\nkkqkiwwasbhezqcfeceyngcyuogrkhqecwsyerdniqiocjehrpkljiljophqhyaiefjpavoom", "output": "NO" }, { "input": "umeszdawsvgkjhlqwzents\nhxqhdungbylhnikwviuh", "output": "NO" }, { "input": "juotpscvyfmgntshcealgbsrwwksgrwnrrbyaqqsxdlzhkbugdyx\nibqvffmfktyipgiopznsqtrtxiijntdbgyy", "output": "NO" }, { "input": "zbwueheveouatecaglziqmudxemhrsozmaujrwlqmppzoumxhamwugedikvkblvmxwuofmpafdprbcftew\nulczwrqhctbtbxrhhodwbcxwimncnexosksujlisgclllxokrsbnozthajnnlilyffmsyko", "output": "NO" }, { "input": "nkgwuugukzcv\nqktnpxedwxpxkrxdvgmfgoxkdfpbzvwsduyiybynbkouonhvmzakeiruhfmvrktghadbfkmwxduoqv", "output": "NO" }, { "input": "incenvizhqpcenhjhehvjvgbsnfixbatrrjstxjzhlmdmxijztphxbrldlqwdfimweepkggzcxsrwelodpnryntepioqpvk\ndhjbjjftlvnxibkklxquwmzhjfvnmwpapdrslioxisbyhhfymyiaqhlgecpxamqnocizwxniubrmpyubvpenoukhcobkdojlybxd", "output": "NO" }, { "input": "w\nw", "output": "YES" }, { "input": "vz\nzv", "output": "YES" }, { "input": "ry\nyr", "output": "YES" }, { "input": "xou\nuox", "output": "YES" }, { "input": "axg\ngax", "output": "NO" }, { "input": "zdsl\nlsdz", "output": "YES" }, { "input": "kudl\nldku", "output": "NO" }, { "input": "zzlzwnqlcl\nlclqnwzlzz", "output": "YES" }, { "input": "vzzgicnzqooejpjzads\nsdazjpjeooqzncigzzv", "output": "YES" }, { "input": "raqhmvmzuwaykjpyxsykr\nxkysrypjkyawuzmvmhqar", "output": "NO" }, { "input": "ngedczubzdcqbxksnxuavdjaqtmdwncjnoaicvmodcqvhfezew\nwezefhvqcdomvciaonjcnwdmtqajdvauxnskxbqcdzbuzcdegn", "output": "YES" }, { "input": "muooqttvrrljcxbroizkymuidvfmhhsjtumksdkcbwwpfqdyvxtrlymofendqvznzlmim\nmimlznzvqdnefomylrtxvydqfpwwbckdskmutjshhmfvdiumykziorbxcjlrrvttqooum", "output": "YES" }, { "input": "vxpqullmcbegsdskddortcvxyqlbvxmmkhevovnezubvpvnrcajpxraeaxizgaowtfkzywvhnbgzsxbhkaipcmoumtikkiyyaivg\ngviayyikkitmuomcpiakhbxszgbnhvwyzkftwoagzixaearxpjacrnvpvbuzenvovehkmmxvblqyxvctroddksdsgebcmlluqpxv", "output": "YES" }, { "input": "mnhaxtaopjzrkqlbroiyipitndczpunwygstmzevgyjdzyanxkdqnvgkikfabwouwkkbzuiuvgvxgpizsvqsbwepktpdrgdkmfdc\ncdfmkdgrdptkpewbsqvszipgxvgvuiuzbkkwuowbafkikgvnqdkxnayzdjygvezmtsgywnupocdntipiyiorblqkrzjpzatxahnm", "output": "NO" }, { "input": "dgxmzbqofstzcdgthbaewbwocowvhqpinehpjatnnbrijcolvsatbblsrxabzrpszoiecpwhfjmwuhqrapvtcgvikuxtzbftydkw\nwkdytfbztxukivgctvparqhuwmjfhwpceiozsprzbaxrslbbqasvlocjirbnntajphenipthvwocowbweabhtgdcztsfoqbzmxgd", "output": "NO" }, { "input": "gxoixiecetohtgjgbqzvlaobkhstejxdklghowtvwunnnvauriohuspsdmpzckprwajyxldoyckgjivjpmbfqtszmtocovxwgeh\nhegwxvocotmzstqfbmpjvijgkcyodlxyjawrpkczpmdspsuhoiruavnnnuwvtwohglkdxjetshkboalvzqbgjgthoteceixioxg", "output": "YES" }, { "input": "sihxuwvmaambplxvjfoskinghzicyfqebjtkysotattkahssumfcgrkheotdxwjckpvapbkaepqrxseyfrwtyaycmrzsrsngkh\nhkgnsrszrmcyaytwrfyesxrqpeakbpavpkcjwxdtoehkrgcfmusshakttatosyktjbeqfycizhgniksofjvxlpbmaamvwuxhis", "output": "YES" }, { "input": "ycnahksbughnonldzrhkysujmylcgcfuludjvjiahtkyzqvkopzqcnwhltbzfugzojqkjjlggmvnultascmygelkiktmfieok\nkoeifmtkiklegkmcsatlunvmggkjjlqjozgufzbtlhwncqzpokvqzykthaijvjdulufcgclymjusyyhrzdlnonhgubskhancy", "output": "NO" }, { "input": "wbqasaehtkfojruzyhrlgwmtyiovmzyfifslvlemhqheyaelzwnthrenjsbmntwaoryzwfbxmscmypvxlfmzpnkkjlvwvmtz\nztmvwvljkknpzmflxvpymcsmxbfwzyroawtnmbsjnerhtnwzleayehqhmelvlsfifyzmvoiytmwglrhyzurjofktheasaqbw", "output": "YES" }, { "input": "imippqurprbhfugngtgifelytadegwrgaefnfhbjjnmzikvjaccotqzemufqieqldgnbmviisgkynzeldlhqxuqphjfmyij\njiymfjhpquxqhldleznykgsiivmbngdlqeiqfumezqtoccajvkizmnjjbhfnfeagrwgedatylefigtgngufhbrpruqppimi", "output": "YES" }, { "input": "bikydffiuisckpvzqlteqfhegsagimodb\nbdomigasgehfqetlqzvpkcsiuiffdykib", "output": "YES" } ]	1,618,658,694	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	122	0	a=input() b=input() for i in b: d=b.count(i) n=a.count(i) if d!=n: print('NO') exit() print('YES')	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python a=input() b=input() for i in b: d=b.count(i) n=a.count(i) if d!=n: print('NO') exit() print('YES') ```	0
908	A	New Year and Counting Cards	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	Your friend has n cards. You know that each card has a lowercase English letter on one side and a digit on the other. Currently, your friend has laid out the cards on a table so only one side of each card is visible. You would like to know if the following statement is true for cards that your friend owns: "If a card has a vowel on one side, then it has an even digit on the other side." More specifically, a vowel is one of 'a', 'e', 'i', 'o' or 'u', and even digit is one of '0', '2', '4', '6' or '8'. For example, if a card has 'a' on one side, and '6' on the other side, then this statement is true for it. Also, the statement is true, for example, for a card with 'b' and '4', and for a card with 'b' and '3' (since the letter is not a vowel). The statement is false, for example, for card with 'e' and '5'. You are interested if the statement is true for all cards. In particular, if no card has a vowel, the statement is true. To determine this, you can flip over some cards to reveal the other side. You would like to know what is the minimum number of cards you need to flip in the worst case in order to verify that the statement is true.	The first and only line of input will contain a string s (1<=≤<=\|s\|<=≤<=50), denoting the sides of the cards that you can see on the table currently. Each character of s is either a lowercase English letter or a digit.	Print a single integer, the minimum number of cards you must turn over to verify your claim.	[ "ee\n", "z\n", "0ay1\n" ]	[ "2\n", "0\n", "2\n" ]	In the first sample, we must turn over both cards. Note that even though both cards have the same letter, they could possibly have different numbers on the other side. In the second sample, we don't need to turn over any cards. The statement is vacuously true, since you know your friend has no cards with a vowel on them. In the third sample, we need to flip the second and fourth cards.	500	[ { "input": "ee", "output": "2" }, { "input": "z", "output": "0" }, { "input": "0ay1", "output": "2" }, { "input": "0abcdefghijklmnopqrstuvwxyz1234567896", "output": "10" }, { "input": "0a0a9e9e2i2i9o9o6u6u9z9z4x4x9b9b", "output": "18" }, { "input": "01234567890123456789012345678901234567890123456789", "output": "25" }, { "input": "qwertyuioplkjhgfdsazxcvbnmqwertyuioplkjhgfdsazxcvb", "output": "10" }, { "input": "cjw2dwmr10pku4yxohe0wglktd", "output": "4" }, { "input": "6z2tx805jie8cfybwtfqvmlveec3iak5z5u3lu62vbxyqht6", "output": "13" }, { "input": "kaq7jyialrfp4ilkni90eq8v3amcbygon7py0hb8z26fbl8ss1", "output": "13" }, { "input": "hpwn50zgbmct80k9rizjqg40nycgs0acwikjqt11nr6m61krfs", "output": "8" }, { "input": "l3rw91a4m25l8iytxyeuixsegzcbm4h41ornf3pixkrmwznrzc", "output": "14" }, { "input": "2222", "output": "0" }, { "input": "13579", "output": "5" }, { "input": "1", "output": "1" }, { "input": "0", "output": "0" }, { "input": "a", "output": "1" }, { "input": "y", "output": "0" }, { "input": "w", "output": "0" }, { "input": "oo", "output": "2" }, { "input": "oy", "output": "1" }, { "input": "yo", "output": "1" }, { "input": "yy", "output": "0" }, { "input": "a0", "output": "1" }, { "input": "a9", "output": "2" }, { "input": "y0", "output": "0" }, { "input": "y7", "output": "1" }, { "input": "0a", "output": "1" }, { "input": "3a", "output": "2" }, { "input": "06", "output": "0" }, { "input": "07", "output": "1" }, { "input": "70", "output": "1" }, { "input": "77", "output": "2" }, { "input": "13570", "output": "4" }, { "input": "0000000000011111", "output": "5" }, { "input": "1357", "output": "4" }, { "input": "uuuuuuuuuuuuuuuuuu", "output": "18" }, { "input": "gabieurat", "output": "5" } ]	1,548,405,663	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	a = ['a', 'e', 'i', 'o', 'u', '0', '2', , '4', '6', '8'] sum = 0 b = input() for i in b: if i in a: sum += 1 print(sum)	Title: New Year and Counting Cards Time Limit: None seconds Memory Limit: None megabytes Problem Description: Your friend has n cards. You know that each card has a lowercase English letter on one side and a digit on the other. Currently, your friend has laid out the cards on a table so only one side of each card is visible. You would like to know if the following statement is true for cards that your friend owns: "If a card has a vowel on one side, then it has an even digit on the other side." More specifically, a vowel is one of 'a', 'e', 'i', 'o' or 'u', and even digit is one of '0', '2', '4', '6' or '8'. For example, if a card has 'a' on one side, and '6' on the other side, then this statement is true for it. Also, the statement is true, for example, for a card with 'b' and '4', and for a card with 'b' and '3' (since the letter is not a vowel). The statement is false, for example, for card with 'e' and '5'. You are interested if the statement is true for all cards. In particular, if no card has a vowel, the statement is true. To determine this, you can flip over some cards to reveal the other side. You would like to know what is the minimum number of cards you need to flip in the worst case in order to verify that the statement is true. Input Specification: The first and only line of input will contain a string s (1<=≤<=\|s\|<=≤<=50), denoting the sides of the cards that you can see on the table currently. Each character of s is either a lowercase English letter or a digit. Output Specification: Print a single integer, the minimum number of cards you must turn over to verify your claim. Demo Input: ['ee\n', 'z\n', '0ay1\n'] Demo Output: ['2\n', '0\n', '2\n'] Note: In the first sample, we must turn over both cards. Note that even though both cards have the same letter, they could possibly have different numbers on the other side. In the second sample, we don't need to turn over any cards. The statement is vacuously true, since you know your friend has no cards with a vowel on them. In the third sample, we need to flip the second and fourth cards.	```python a = ['a', 'e', 'i', 'o', 'u', '0', '2', , '4', '6', '8'] sum = 0 b = input() for i in b: if i in a: sum += 1 print(sum) ```	-1
0	none	none	none	0	[ "none" ]		null	null	Efim just received his grade for the last test. He studies in a special school and his grade can be equal to any positive decimal fraction. First he got disappointed, as he expected a way more pleasant result. Then, he developed a tricky plan. Each second, he can ask his teacher to round the grade at any place after the decimal point (also, he can ask to round to the nearest integer). There are t seconds left till the end of the break, so Efim has to act fast. Help him find what is the maximum grade he can get in no more than t seconds. Note, that he can choose to not use all t seconds. Moreover, he can even choose to not round the grade at all. In this problem, classic rounding rules are used: while rounding number to the n-th digit one has to take a look at the digit n<=+<=1. If it is less than 5 than the n-th digit remain unchanged while all subsequent digits are replaced with 0. Otherwise, if the n<=+<=1 digit is greater or equal to 5, the digit at the position n is increased by 1 (this might also change some other digits, if this one was equal to 9) and all subsequent digits are replaced with 0. At the end, all trailing zeroes are thrown away. For example, if the number 1.14 is rounded to the first decimal place, the result is 1.1, while if we round 1.5 to the nearest integer, the result is 2. Rounding number 1.299996121 in the fifth decimal place will result in number 1.3.	The first line of the input contains two integers n and t (1<=≤<=n<=≤<=200<=000, 1<=≤<=t<=≤<=109) — the length of Efim's grade and the number of seconds till the end of the break respectively. The second line contains the grade itself. It's guaranteed that the grade is a positive number, containing at least one digit after the decimal points, and it's representation doesn't finish with 0.	Print the maximum grade that Efim can get in t seconds. Do not print trailing zeroes.	[ "6 1\n10.245\n", "6 2\n10.245\n", "3 100\n9.2\n" ]	[ "10.25\n", "10.3\n", "9.2\n" ]	In the first two samples Efim initially has grade 10.245. During the first second Efim can obtain grade 10.25, and then 10.3 during the next second. Note, that the answer 10.30 will be considered incorrect. In the third sample the optimal strategy is to not perform any rounding at all.	0	[ { "input": "6 1\n10.245", "output": "10.25" }, { "input": "6 2\n10.245", "output": "10.3" }, { "input": "3 100\n9.2", "output": "9.2" }, { "input": "12 5\n872.04488525", "output": "872.1" }, { "input": "35 8\n984227318.2031144444444444494637612", "output": "984227318.2031144445" }, { "input": "320 142\n2704701300865535.432223312233434114130011113220102420131323010344144201124303144444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444444447444444444444444444444444444444615444444482101673308979557675074444444444444446867245414595534444693160202254444449544495367", "output": "2704701300865535.4322233122334341141300111132201024201313230103441442011243032" }, { "input": "5 10\n1.555", "output": "2" }, { "input": "6 1\n0.9454", "output": "1" }, { "input": "7 1000000000\n239.923", "output": "240" }, { "input": "7 235562\n999.999", "output": "1000" }, { "input": "9 2\n23999.448", "output": "23999.5" }, { "input": "9 3\n23999.448", "output": "24000" }, { "input": "13 1\n761.044449428", "output": "761.04445" }, { "input": "3 1\n0.1", "output": "0.1" }, { "input": "3 1\n9.9", "output": "10" }, { "input": "3 1\n0.9", "output": "1" }, { "input": "31 15\n2707786.24030444444444444724166", "output": "2707786.24031" }, { "input": "4 100\n99.9", "output": "100" }, { "input": "3 10\n9.9", "output": "10" }, { "input": "22 100\n11111111111111111111.5", "output": "11111111111111111112" }, { "input": "3 1\n9.5", "output": "10" }, { "input": "8 100\n9.444445", "output": "10" }, { "input": "6 2\n999.45", "output": "1000" }, { "input": "3 100\n9.9", "output": "10" }, { "input": "18 100\n9.4444444444454444", "output": "10" }, { "input": "16 999\n9595959.95959595", "output": "9595960" }, { "input": "4 100\n99.5", "output": "100" }, { "input": "5 1\n999.9", "output": "1000" }, { "input": "4 1\n5.59", "output": "6" }, { "input": "4 1\n99.5", "output": "100" }, { "input": "4 1\n99.9", "output": "100" }, { "input": "18 6\n102345678999.44449", "output": "102345679000" }, { "input": "3 3\n9.9", "output": "10" }, { "input": "5 1\n99.99", "output": "100" }, { "input": "7 1\n99999.9", "output": "100000" }, { "input": "3 121\n9.9", "output": "10" }, { "input": "8 6\n9.444445", "output": "10" }, { "input": "3 100\n8.9", "output": "9" }, { "input": "10 1\n999.999999", "output": "1000" }, { "input": "5 100\n6.666", "output": "7" }, { "input": "4 100\n9.99", "output": "10" }, { "input": "6 1\n9.9999", "output": "10" }, { "input": "4 10\n99.9", "output": "100" }, { "input": "5 1\n9.999", "output": "10" }, { "input": "3 1231\n9.9", "output": "10" }, { "input": "5 2\n999.9", "output": "1000" }, { "input": "5 100\n144.5", "output": "145" }, { "input": "5 100\n99.45", "output": "100" }, { "input": "10 1\n0.50444445", "output": "1" }, { "input": "7 1\n1.51111", "output": "2" }, { "input": "5 1\n199.9", "output": "200" }, { "input": "3 100\n9.5", "output": "10" }, { "input": "7 1000\n409.659", "output": "410" }, { "input": "4 10\n99.5", "output": "100" }, { "input": "4 10\n10.9", "output": "11" }, { "input": "4 1\n19.5", "output": "20" } ]	1,474,642,923	7,023	Python 3	TIME_LIMIT_EXCEEDED	TESTS	24	1,000	2,764,800	n, t = map(int, input().split()) k, p = input().split('.') l = [] i = 0 while i < len(p): if int(p[i]) < 5: l.append(int(p[i])) else: l.append(int(p[i])) break i += 1 if i >= len(p): print(k + '.' + p) exit() while l and t and l[-1] > 4: l.pop(-1) if l: l[-1] += 1 else: k = str(int(k) + 1) t -= 1 if l: print(k + '.' + ''.join(map(str, l))) else: print(k)	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: Efim just received his grade for the last test. He studies in a special school and his grade can be equal to any positive decimal fraction. First he got disappointed, as he expected a way more pleasant result. Then, he developed a tricky plan. Each second, he can ask his teacher to round the grade at any place after the decimal point (also, he can ask to round to the nearest integer). There are t seconds left till the end of the break, so Efim has to act fast. Help him find what is the maximum grade he can get in no more than t seconds. Note, that he can choose to not use all t seconds. Moreover, he can even choose to not round the grade at all. In this problem, classic rounding rules are used: while rounding number to the n-th digit one has to take a look at the digit n<=+<=1. If it is less than 5 than the n-th digit remain unchanged while all subsequent digits are replaced with 0. Otherwise, if the n<=+<=1 digit is greater or equal to 5, the digit at the position n is increased by 1 (this might also change some other digits, if this one was equal to 9) and all subsequent digits are replaced with 0. At the end, all trailing zeroes are thrown away. For example, if the number 1.14 is rounded to the first decimal place, the result is 1.1, while if we round 1.5 to the nearest integer, the result is 2. Rounding number 1.299996121 in the fifth decimal place will result in number 1.3. Input Specification: The first line of the input contains two integers n and t (1<=≤<=n<=≤<=200<=000, 1<=≤<=t<=≤<=109) — the length of Efim's grade and the number of seconds till the end of the break respectively. The second line contains the grade itself. It's guaranteed that the grade is a positive number, containing at least one digit after the decimal points, and it's representation doesn't finish with 0. Output Specification: Print the maximum grade that Efim can get in t seconds. Do not print trailing zeroes. Demo Input: ['6 1\n10.245\n', '6 2\n10.245\n', '3 100\n9.2\n'] Demo Output: ['10.25\n', '10.3\n', '9.2\n'] Note: In the first two samples Efim initially has grade 10.245. During the first second Efim can obtain grade 10.25, and then 10.3 during the next second. Note, that the answer 10.30 will be considered incorrect. In the third sample the optimal strategy is to not perform any rounding at all.	```python n, t = map(int, input().split()) k, p = input().split('.') l = [] i = 0 while i < len(p): if int(p[i]) < 5: l.append(int(p[i])) else: l.append(int(p[i])) break i += 1 if i >= len(p): print(k + '.' + p) exit() while l and t and l[-1] > 4: l.pop(-1) if l: l[-1] += 1 else: k = str(int(k) + 1) t -= 1 if l: print(k + '.' + ''.join(map(str, l))) else: print(k) ```	0
631	B	Print Check	PROGRAMMING	1,200	[ "constructive algorithms", "implementation" ]		null	null	Kris works in a large company "Blake Technologies". As a best engineer of the company he was assigned a task to develop a printer that will be able to print horizontal and vertical strips. First prototype is already built and Kris wants to tests it. He wants you to implement the program that checks the result of the printing. Printer works with a rectangular sheet of paper of size n<=×<=m. Consider the list as a table consisting of n rows and m columns. Rows are numbered from top to bottom with integers from 1 to n, while columns are numbered from left to right with integers from 1 to m. Initially, all cells are painted in color 0. Your program has to support two operations: 1. Paint all cells in row ri in color ai; 1. Paint all cells in column ci in color ai. If during some operation i there is a cell that have already been painted, the color of this cell also changes to ai. Your program has to print the resulting table after k operation.	The first line of the input contains three integers n, m and k (1<=<=≤<=<=n,<=<=m<=<=≤<=5000, n·m<=≤<=100<=000, 1<=≤<=k<=≤<=100<=000) — the dimensions of the sheet and the number of operations, respectively. Each of the next k lines contains the description of exactly one query: - 1 ri ai (1<=≤<=ri<=≤<=n, 1<=≤<=ai<=≤<=109), means that row ri is painted in color ai; - 2 ci ai (1<=≤<=ci<=≤<=m, 1<=≤<=ai<=≤<=109), means that column ci is painted in color ai.	Print n lines containing m integers each — the resulting table after all operations are applied.	[ "3 3 3\n1 1 3\n2 2 1\n1 2 2\n", "5 3 5\n1 1 1\n1 3 1\n1 5 1\n2 1 1\n2 3 1\n" ]	[ "3 1 3 \n2 2 2 \n0 1 0 \n", "1 1 1 \n1 0 1 \n1 1 1 \n1 0 1 \n1 1 1 \n" ]	The figure below shows all three operations for the first sample step by step. The cells that were painted on the corresponding step are marked gray.	1,000	[ { "input": "3 3 3\n1 1 3\n2 2 1\n1 2 2", "output": "3 1 3 \n2 2 2 \n0 1 0 " }, { "input": "5 3 5\n1 1 1\n1 3 1\n1 5 1\n2 1 1\n2 3 1", "output": "1 1 1 \n1 0 1 \n1 1 1 \n1 0 1 \n1 1 1 " }, { "input": "5 5 4\n1 2 1\n1 4 1\n2 2 1\n2 4 1", "output": "0 1 0 1 0 \n1 1 1 1 1 \n0 1 0 1 0 \n1 1 1 1 1 \n0 1 0 1 0 " }, { "input": "4 6 8\n1 2 1\n2 2 2\n2 5 2\n1 1 1\n1 4 1\n1 3 2\n2 1 1\n2 6 1", "output": "1 1 1 1 1 1 \n1 2 1 1 2 1 \n1 2 2 2 2 1 \n1 1 1 1 1 1 " }, { "input": "2 2 3\n1 1 1\n1 2 1\n2 1 2", "output": "2 1 \n2 1 " }, { "input": "1 2 4\n1 1 1\n2 1 2\n2 2 3\n1 1 4", "output": "4 4 " }, { "input": "2 1 5\n1 1 7\n1 2 77\n2 1 777\n1 1 77\n1 2 7", "output": "77 \n7 " }, { "input": "2 1 1\n1 2 1000000000", "output": "0 \n1000000000 " }, { "input": "1 2 1\n2 2 1000000000", "output": "0 1000000000 " }, { "input": "160 600 1\n1 132 589472344", "output": "0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0..." }, { "input": "600 160 1\n1 124 542622711", "output": "0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 \n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0..." }, { "input": "10 1 1\n2 1 1000000000", "output": "1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 \n1000000000 " }, { "input": "1 10 1\n1 1 1000000000", "output": "1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 " }, { "input": "5000 20 15\n2 13 447246914\n2 10 89345638\n2 6 393683717\n2 1 62225152\n2 12 990340161\n2 4 227462932\n1 4011 327145900\n1 1915 981331082\n1 802 437883065\n2 11 205232924\n2 15 303578182\n1 2667 835309719\n2 3 550440583\n1 3852 766318960\n2 5 204700467", "output": "62225152 0 550440583 227462932 204700467 393683717 0 0 0 89345638 205232924 990340161 447246914 0 303578182 0 0 0 0 0 \n62225152 0 550440583 227462932 204700467 393683717 0 0 0 89345638 205232924 990340161 447246914 0 303578182 0 0 0 0 0 \n62225152 0 550440583 227462932 204700467 393683717 0 0 0 89345638 205232924 990340161 447246914 0 303578182 0 0 0 0 0 \n62225152 0 550440583 227462932 204700467 393683717 0 0 0 89345638 205232924 990340161 447246914 0 303578182 0 0 0 0 0 \n62225152 0 550440583 227462932 ..." }, { "input": "20 5000 15\n1 14 94104058\n1 3 170575572\n1 12 613859505\n2 4797 363375206\n1 10 554079405\n2 4481 223609505\n2 4974 385117513\n1 7 363246561\n2 2503 128936152\n1 2 152944073\n1 14 25797327\n1 20 258831369\n1 10 453164078\n2 2159 753235825\n2 1823 827844660", "output": "0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0..." }, { "input": "1 1 1\n1 1 1", "output": "1 " }, { "input": "1 1 1\n1 1 1000000000", "output": "1000000000 " }, { "input": "1 1 2\n1 1 123\n1 1 321", "output": "321 " }, { "input": "1 1 2\n1 1 321\n1 1 123", "output": "123 " } ]	1,623,670,924	2,147,483,647	Python 3	OK	TESTS	56	452	1,024,000	int_inp = lambda: int(input()) #integer input strng = lambda: input().strip() #string input strl = lambda: list(input().strip())#list of strings as input mul = lambda: map(int,input().split())#multiple integers as inpnut mulf = lambda: map(float,input().split())#multiple floats as ipnut seq = lambda: list(map(int,input().split()))#list of integers import math from collections import Counter,defaultdict n,m,k=map(int,input().split()) c=[(0,0)](m+1) r=[(0,0)](n+1) for i in range(k): q,a,b=map(int,input().split()) if q==1: r[a]=(i+1,b) else: c[a]=(i+1,b) for i in range(n): s="" for j in range(m): t=r[i+1][1] if c[j+1][0]>r[i+1][0]: t=c[j+1][1] s+=str(t)+' ' print(s)	Title: Print Check Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kris works in a large company "Blake Technologies". As a best engineer of the company he was assigned a task to develop a printer that will be able to print horizontal and vertical strips. First prototype is already built and Kris wants to tests it. He wants you to implement the program that checks the result of the printing. Printer works with a rectangular sheet of paper of size n<=×<=m. Consider the list as a table consisting of n rows and m columns. Rows are numbered from top to bottom with integers from 1 to n, while columns are numbered from left to right with integers from 1 to m. Initially, all cells are painted in color 0. Your program has to support two operations: 1. Paint all cells in row ri in color ai; 1. Paint all cells in column ci in color ai. If during some operation i there is a cell that have already been painted, the color of this cell also changes to ai. Your program has to print the resulting table after k operation. Input Specification: The first line of the input contains three integers n, m and k (1<=<=≤<=<=n,<=<=m<=<=≤<=5000, n·m<=≤<=100<=000, 1<=≤<=k<=≤<=100<=000) — the dimensions of the sheet and the number of operations, respectively. Each of the next k lines contains the description of exactly one query: - 1 ri ai (1<=≤<=ri<=≤<=n, 1<=≤<=ai<=≤<=109), means that row ri is painted in color ai; - 2 ci ai (1<=≤<=ci<=≤<=m, 1<=≤<=ai<=≤<=109), means that column ci is painted in color ai. Output Specification: Print n lines containing m integers each — the resulting table after all operations are applied. Demo Input: ['3 3 3\n1 1 3\n2 2 1\n1 2 2\n', '5 3 5\n1 1 1\n1 3 1\n1 5 1\n2 1 1\n2 3 1\n'] Demo Output: ['3 1 3 \n2 2 2 \n0 1 0 \n', '1 1 1 \n1 0 1 \n1 1 1 \n1 0 1 \n1 1 1 \n'] Note: The figure below shows all three operations for the first sample step by step. The cells that were painted on the corresponding step are marked gray.	```python int_inp = lambda: int(input()) #integer input strng = lambda: input().strip() #string input strl = lambda: list(input().strip())#list of strings as input mul = lambda: map(int,input().split())#multiple integers as inpnut mulf = lambda: map(float,input().split())#multiple floats as ipnut seq = lambda: list(map(int,input().split()))#list of integers import math from collections import Counter,defaultdict n,m,k=map(int,input().split()) c=[(0,0)](m+1) r=[(0,0)](n+1) for i in range(k): q,a,b=map(int,input().split()) if q==1: r[a]=(i+1,b) else: c[a]=(i+1,b) for i in range(n): s="" for j in range(m): t=r[i+1][1] if c[j+1][0]>r[i+1][0]: t=c[j+1][1] s+=str(t)+' ' print(s) ```	3
312	B	Archer	PROGRAMMING	1,300	[ "math", "probabilities" ]		null	null	SmallR is an archer. SmallR is taking a match of archer with Zanoes. They try to shoot in the target in turns, and SmallR shoots first. The probability of shooting the target each time is for SmallR while for Zanoes. The one who shoots in the target first should be the winner. Output the probability that SmallR will win the match.	A single line contains four integers .	Print a single real number, the probability that SmallR will win the match. The answer will be considered correct if the absolute or relative error doesn't exceed 10<=-<=6.	[ "1 2 1 2\n" ]	[ "0.666666666667" ]	none	1,000	[ { "input": "1 2 1 2", "output": "0.666666666667" }, { "input": "1 3 1 3", "output": "0.600000000000" }, { "input": "1 3 2 3", "output": "0.428571428571" }, { "input": "3 4 3 4", "output": "0.800000000000" }, { "input": "1 2 10 11", "output": "0.523809523810" }, { "input": "4 5 4 5", "output": "0.833333333333" }, { "input": "466 701 95 721", "output": "0.937693791148" }, { "input": "268 470 444 885", "output": "0.725614009325" }, { "input": "632 916 713 821", "output": "0.719292895126" }, { "input": "269 656 918 992", "output": "0.428937461623" }, { "input": "71 657 187 695", "output": "0.310488463257" }, { "input": "435 852 973 978", "output": "0.511844133157" }, { "input": "518 816 243 359", "output": "0.719734031025" }, { "input": "882 962 311 811", "output": "0.966386645447" }, { "input": "684 774 580 736", "output": "0.906051574446" }, { "input": "486 868 929 999", "output": "0.577723252958" }, { "input": "132 359 996 998", "output": "0.368154532345" }, { "input": "933 977 266 450", "output": "0.972879407907" }, { "input": "298 833 615 872", "output": "0.441270817024" }, { "input": "34 554 14 958", "output": "0.817324099167" }, { "input": "836 934 800 905", "output": "0.906105535462" }, { "input": "482 815 69 509", "output": "0.914365577772" }, { "input": "284 423 137 521", "output": "0.885974839378" }, { "input": "648 881 486 703", "output": "0.800911421248" }, { "input": "450 885 755 836", "output": "0.533901011176" }, { "input": "533 773 823 998", "output": "0.729222130525" }, { "input": "897 957 92 898", "output": "0.993193806364" }, { "input": "699 925 441 928", "output": "0.866816866175" }, { "input": "64 704 148 603", "output": "0.289486317811" }, { "input": "719 735 626 990", "output": "0.986124079764" }, { "input": "1 1000 1 1000", "output": "0.500250125063" } ]	1,598,782,016	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	108	6,758,400	if __name__ == '__main__': y = list(map(int, input().strip().split()))[:4] a = y[0]/y[1] b = y[2]/y[3] result = a / (1 - a * b) print("{:.12f}".format(result))	Title: Archer Time Limit: None seconds Memory Limit: None megabytes Problem Description: SmallR is an archer. SmallR is taking a match of archer with Zanoes. They try to shoot in the target in turns, and SmallR shoots first. The probability of shooting the target each time is for SmallR while for Zanoes. The one who shoots in the target first should be the winner. Output the probability that SmallR will win the match. Input Specification: A single line contains four integers . Output Specification: Print a single real number, the probability that SmallR will win the match. The answer will be considered correct if the absolute or relative error doesn't exceed 10<=-<=6. Demo Input: ['1 2 1 2\n'] Demo Output: ['0.666666666667'] Note: none	```python if __name__ == '__main__': y = list(map(int, input().strip().split()))[:4] a = y[0]/y[1] b = y[2]/y[3] result = a / (1 - a * b) print("{:.12f}".format(result)) ```	0
0	none	none	none	0	[ "none" ]		null	null	Vlad likes to eat in cafes very much. During his life, he has visited cafes n times. Unfortunately, Vlad started to feel that his last visits are not any different from each other. To fix that Vlad had a small research. First of all, Vlad assigned individual indices to all cafes. Then, he wrote down indices of cafes he visited in a row, in order of visiting them. Now, Vlad wants to find such a cafe that his last visit to that cafe was before his last visits to every other cafe. In other words, he wants to find such a cafe that he hasn't been there for as long as possible. Help Vlad to find that cafe.	In first line there is one integer n (1<=≤<=n<=≤<=2·105) — number of cafes indices written by Vlad. In second line, n numbers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=2·105) are written — indices of cafes in order of being visited by Vlad. Vlad could visit some cafes more than once. Note that in numeration, some indices could be omitted.	Print one integer — index of the cafe that Vlad hasn't visited for as long as possible.	[ "5\n1 3 2 1 2\n", "6\n2 1 2 2 4 1\n" ]	[ "3\n", "2\n" ]	In first test, there are three cafes, and the last visits to cafes with indices 1 and 2 were after the last visit to cafe with index 3; so this cafe is the answer. In second test case, there are also three cafes, but with indices 1, 2 and 4. Cafes with indices 1 and 4 were visited after the last visit of cafe with index 2, so the answer is 2. Note that Vlad could omit some numbers while numerating the cafes.	0	[ { "input": "5\n1 3 2 1 2", "output": "3" }, { "input": "6\n2 1 2 2 4 1", "output": "2" }, { "input": "1\n0", "output": "0" }, { "input": "1\n200000", "output": "200000" }, { "input": "2\n2018 2017", "output": "2018" }, { "input": "5\n100 1000 1000 1000 1000", "output": "100" }, { "input": "8\n200000 1 200000 1 200000 1 200000 2", "output": "1" }, { "input": "5\n20000 1 2 3 4", "output": "20000" }, { "input": "2\n200000 1", "output": "200000" }, { "input": "3\n2 100 2", "output": "100" }, { "input": "2\n10 1", "output": "10" }, { "input": "11\n1 1 1 1 1 1 1 1 1 1 1", "output": "1" }, { "input": "3\n5 5 5", "output": "5" }, { "input": "2\n5 1", "output": "5" } ]	1,510,505,486	2,786	Python 3	OK	TESTS	33	233	20,275,200	# 445b n = int(input()) a = input().split() uniq = {} for i in range(n - 1, -1, -1): if a[i] not in uniq: uniq[a[i]] = i tmp = n oldest = 0 for key, val in uniq.items(): if tmp > val: tmp = val oldest = key print(oldest)	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vlad likes to eat in cafes very much. During his life, he has visited cafes n times. Unfortunately, Vlad started to feel that his last visits are not any different from each other. To fix that Vlad had a small research. First of all, Vlad assigned individual indices to all cafes. Then, he wrote down indices of cafes he visited in a row, in order of visiting them. Now, Vlad wants to find such a cafe that his last visit to that cafe was before his last visits to every other cafe. In other words, he wants to find such a cafe that he hasn't been there for as long as possible. Help Vlad to find that cafe. Input Specification: In first line there is one integer n (1<=≤<=n<=≤<=2·105) — number of cafes indices written by Vlad. In second line, n numbers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=2·105) are written — indices of cafes in order of being visited by Vlad. Vlad could visit some cafes more than once. Note that in numeration, some indices could be omitted. Output Specification: Print one integer — index of the cafe that Vlad hasn't visited for as long as possible. Demo Input: ['5\n1 3 2 1 2\n', '6\n2 1 2 2 4 1\n'] Demo Output: ['3\n', '2\n'] Note: In first test, there are three cafes, and the last visits to cafes with indices 1 and 2 were after the last visit to cafe with index 3; so this cafe is the answer. In second test case, there are also three cafes, but with indices 1, 2 and 4. Cafes with indices 1 and 4 were visited after the last visit of cafe with index 2, so the answer is 2. Note that Vlad could omit some numbers while numerating the cafes.	```python # 445b n = int(input()) a = input().split() uniq = {} for i in range(n - 1, -1, -1): if a[i] not in uniq: uniq[a[i]] = i tmp = n oldest = 0 for key, val in uniq.items(): if tmp > val: tmp = val oldest = key print(oldest) ```	3
884	A	Book Reading	PROGRAMMING	800	[ "implementation" ]		null	null	Recently Luba bought a very interesting book. She knows that it will take t seconds to read the book. Luba wants to finish reading as fast as she can. But she has some work to do in each of n next days. The number of seconds that Luba has to spend working during i-th day is ai. If some free time remains, she can spend it on reading. Help Luba to determine the minimum number of day when she finishes reading. It is guaranteed that the answer doesn't exceed n. Remember that there are 86400 seconds in a day.	The first line contains two integers n and t (1<=≤<=n<=≤<=100, 1<=≤<=t<=≤<=106) — the number of days and the time required to read the book. The second line contains n integers ai (0<=≤<=ai<=≤<=86400) — the time Luba has to spend on her work during i-th day.	Print the minimum day Luba can finish reading the book. It is guaranteed that answer doesn't exceed n.	[ "2 2\n86400 86398\n", "2 86400\n0 86400\n" ]	[ "2\n", "1\n" ]	none	0	[ { "input": "2 2\n86400 86398", "output": "2" }, { "input": "2 86400\n0 86400", "output": "1" }, { "input": "2 86400\n1 86399", "output": "2" }, { "input": "100 1000000\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "12" }, { "input": "1 1\n86399", "output": "1" }, { "input": "6 1200\n86400 86400 86000 86000 86000 86400", "output": "5" }, { "input": "6 1200\n86400 86400 86000 86000 86001 86399", "output": "6" }, { "input": "4 172799\n1 1 86400 0", "output": "4" }, { "input": "4 172799\n0 86400 86399 0", "output": "4" }, { "input": "6 1\n1 1 86400 1 86399 1", "output": "1" }, { "input": "4 1\n86400 86399 86400 86400", "output": "2" }, { "input": "4 1\n86400 86400 0 86400", "output": "3" } ]	1,516,304,407	2,147,483,647	PyPy 3	OK	TESTS	16	93	19,968,000	arr1=list(map(int,input().strip().split())) arr2=list(map(int,input().strip().split())) n=arr1[0] t=arr1[1] time=0 for i in range(n): time+=86400-arr2[i] if time >= t: print (i+1) break else: continue	Title: Book Reading Time Limit: None seconds Memory Limit: None megabytes Problem Description: Recently Luba bought a very interesting book. She knows that it will take t seconds to read the book. Luba wants to finish reading as fast as she can. But she has some work to do in each of n next days. The number of seconds that Luba has to spend working during i-th day is ai. If some free time remains, she can spend it on reading. Help Luba to determine the minimum number of day when she finishes reading. It is guaranteed that the answer doesn't exceed n. Remember that there are 86400 seconds in a day. Input Specification: The first line contains two integers n and t (1<=≤<=n<=≤<=100, 1<=≤<=t<=≤<=106) — the number of days and the time required to read the book. The second line contains n integers ai (0<=≤<=ai<=≤<=86400) — the time Luba has to spend on her work during i-th day. Output Specification: Print the minimum day Luba can finish reading the book. It is guaranteed that answer doesn't exceed n. Demo Input: ['2 2\n86400 86398\n', '2 86400\n0 86400\n'] Demo Output: ['2\n', '1\n'] Note: none	```python arr1=list(map(int,input().strip().split())) arr2=list(map(int,input().strip().split())) n=arr1[0] t=arr1[1] time=0 for i in range(n): time+=86400-arr2[i] if time >= t: print (i+1) break else: continue ```	3
552	B	Vanya and Books	PROGRAMMING	1,200	[ "implementation", "math" ]		null	null	Vanya got an important task — he should enumerate books in the library and label each book with its number. Each of the n books should be assigned with a number from 1 to n. Naturally, distinct books should be assigned distinct numbers. Vanya wants to know how many digits he will have to write down as he labels the books.	The first line contains integer n (1<=≤<=n<=≤<=109) — the number of books in the library.	Print the number of digits needed to number all the books.	[ "13\n", "4\n" ]	[ "17\n", "4\n" ]	Note to the first test. The books get numbers 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, which totals to 17 digits. Note to the second sample. The books get numbers 1, 2, 3, 4, which totals to 4 digits.	1,000	[ { "input": "13", "output": "17" }, { "input": "4", "output": "4" }, { "input": "100", "output": "192" }, { "input": "99", "output": "189" }, { "input": "1000000000", "output": "8888888899" }, { "input": "1000000", "output": "5888896" }, { "input": "999", "output": "2889" }, { "input": "55", "output": "101" }, { "input": "222222222", "output": "1888888896" }, { "input": "8", "output": "8" }, { "input": "13", "output": "17" }, { "input": "313", "output": "831" }, { "input": "1342", "output": "4261" }, { "input": "30140", "output": "139594" }, { "input": "290092", "output": "1629447" }, { "input": "2156660", "output": "13985516" }, { "input": "96482216", "output": "760746625" }, { "input": "943006819", "output": "8375950269" }, { "input": "1", "output": "1" }, { "input": "7", "output": "7" }, { "input": "35", "output": "61" }, { "input": "996", "output": "2880" }, { "input": "6120", "output": "23373" }, { "input": "30660", "output": "142194" }, { "input": "349463", "output": "1985673" }, { "input": "8171970", "output": "56092686" }, { "input": "36123011", "output": "277872985" }, { "input": "986747865", "output": "8769619683" }, { "input": "9", "output": "9" }, { "input": "10", "output": "11" }, { "input": "11", "output": "13" }, { "input": "101", "output": "195" }, { "input": "1000", "output": "2893" }, { "input": "1001", "output": "2897" }, { "input": "9999", "output": "38889" }, { "input": "10000", "output": "38894" }, { "input": "10001", "output": "38899" }, { "input": "99999", "output": "488889" }, { "input": "100000", "output": "488895" }, { "input": "100001", "output": "488901" }, { "input": "999999", "output": "5888889" }, { "input": "1000001", "output": "5888903" }, { "input": "9999999", "output": "68888889" }, { "input": "10000000", "output": "68888897" }, { "input": "10000001", "output": "68888905" }, { "input": "99999999", "output": "788888889" }, { "input": "100000000", "output": "788888898" }, { "input": "100000001", "output": "788888907" }, { "input": "999999999", "output": "8888888889" }, { "input": "95", "output": "181" }, { "input": "995", "output": "2877" }, { "input": "9995", "output": "38873" }, { "input": "99995", "output": "488869" }, { "input": "999999995", "output": "8888888853" }, { "input": "999999998", "output": "8888888880" } ]	1,464,870,842	2,147,483,647	Python 3	OK	TESTS	55	62	5,120,000	# coding=utf-8 if __name__ == '__main__': n = int(input()) l = len(str(n)) upper = 0 for i in range(l): upper += 9 * pow(10, i) * (i + 1) miss = (int('9' * l) - n) * l print(upper - miss)	Title: Vanya and Books Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vanya got an important task — he should enumerate books in the library and label each book with its number. Each of the n books should be assigned with a number from 1 to n. Naturally, distinct books should be assigned distinct numbers. Vanya wants to know how many digits he will have to write down as he labels the books. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=109) — the number of books in the library. Output Specification: Print the number of digits needed to number all the books. Demo Input: ['13\n', '4\n'] Demo Output: ['17\n', '4\n'] Note: Note to the first test. The books get numbers 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, which totals to 17 digits. Note to the second sample. The books get numbers 1, 2, 3, 4, which totals to 4 digits.	```python # coding=utf-8 if __name__ == '__main__': n = int(input()) l = len(str(n)) upper = 0 for i in range(l): upper += 9 * pow(10, i) * (i + 1) miss = (int('9' * l) - n) * l print(upper - miss) ```	3
222	A	Shooshuns and Sequence	PROGRAMMING	1,200	[ "brute force", "implementation" ]		null	null	One day shooshuns found a sequence of n integers, written on a blackboard. The shooshuns can perform one operation with it, the operation consists of two steps: 1. Find the number that goes k-th in the current sequence and add the same number to the end of the sequence; 1. Delete the first number of the current sequence. The shooshuns wonder after how many operations all numbers on the board will be the same and whether all numbers will ever be the same.	The first line contains two space-separated integers n and k (1<=≤<=k<=≤<=n<=≤<=105). The second line contains n space-separated integers: a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=105) — the sequence that the shooshuns found.	Print the minimum number of operations, required for all numbers on the blackboard to become the same. If it is impossible to achieve, print -1.	[ "3 2\n3 1 1\n", "3 1\n3 1 1\n" ]	[ "1\n", "-1\n" ]	In the first test case after the first operation the blackboard will have sequence [1, 1, 1]. So, one operation is enough to make all numbers the same. Thus, the answer equals one. In the second test case the sequence will never consist of the same numbers. It will always contain at least two distinct numbers 3 and 1. Thus, the answer equals -1.	500	[ { "input": "3 2\n3 1 1", "output": "1" }, { "input": "3 1\n3 1 1", "output": "-1" }, { "input": "1 1\n1", "output": "0" }, { "input": "2 1\n1 1", "output": "0" }, { "input": "2 1\n2 1", "output": "-1" }, { "input": "4 4\n1 2 3 4", "output": "3" }, { "input": "4 3\n1 2 3 4", "output": "-1" }, { "input": "5 3\n2 1 1 1 1", "output": "1" }, { "input": "5 3\n1 1 1 1 1", "output": "0" }, { "input": "5 5\n1 1 1 1 1", "output": "0" }, { "input": "10 1\n1 1 1 1 1 1 1 1 1 1", "output": "0" }, { "input": "10 1\n1 2 1 1 1 1 1 1 1 1", "output": "-1" }, { "input": "10 1\n2 1 1 1 1 1 1 1 1 1", "output": "-1" }, { "input": "10 2\n2 1 1 1 1 1 1 1 1 1", "output": "1" }, { "input": "10 2\n1 2 1 1 1 1 1 1 1 1", "output": "-1" }, { "input": "10 3\n3 2 1 1 1 1 1 1 1 1", "output": "2" }, { "input": "10 1\n1 2 3 4 5 6 7 8 9 10", "output": "-1" }, { "input": "10 10\n1 2 3 4 5 6 7 8 9 10", "output": "9" }, { "input": "20 10\n1 2 3 4 5 6 7 8 9 10 1 1 1 1 1 1 1 1 1 1", "output": "-1" }, { "input": "20 11\n1 2 3 4 5 6 7 8 9 10 1 1 1 1 1 1 1 1 1 1", "output": "10" }, { "input": "20 9\n1 2 3 4 5 6 7 8 9 10 1 1 1 1 1 1 1 1 1 1", "output": "-1" }, { "input": "20 10\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "0" }, { "input": "20 20\n20 1 19 2 18 3 17 4 16 5 15 6 14 7 13 8 12 9 11 10", "output": "19" } ]	1,677,331,246	2,147,483,647	PyPy 3-64	OK	TESTS	47	124	13,516,800	n,k =map(int,input().split()) a=list(map(int,input().split())) k-=1 if len(set(a[k:]))>1: print("-1") else: b=a[k] while True: if a[k-1]==b and k!=0: k-=1 else: break print(k)	Title: Shooshuns and Sequence Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day shooshuns found a sequence of n integers, written on a blackboard. The shooshuns can perform one operation with it, the operation consists of two steps: 1. Find the number that goes k-th in the current sequence and add the same number to the end of the sequence; 1. Delete the first number of the current sequence. The shooshuns wonder after how many operations all numbers on the board will be the same and whether all numbers will ever be the same. Input Specification: The first line contains two space-separated integers n and k (1<=≤<=k<=≤<=n<=≤<=105). The second line contains n space-separated integers: a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=105) — the sequence that the shooshuns found. Output Specification: Print the minimum number of operations, required for all numbers on the blackboard to become the same. If it is impossible to achieve, print -1. Demo Input: ['3 2\n3 1 1\n', '3 1\n3 1 1\n'] Demo Output: ['1\n', '-1\n'] Note: In the first test case after the first operation the blackboard will have sequence [1, 1, 1]. So, one operation is enough to make all numbers the same. Thus, the answer equals one. In the second test case the sequence will never consist of the same numbers. It will always contain at least two distinct numbers 3 and 1. Thus, the answer equals -1.	```python n,k =map(int,input().split()) a=list(map(int,input().split())) k-=1 if len(set(a[k:]))>1: print("-1") else: b=a[k] while True: if a[k-1]==b and k!=0: k-=1 else: break print(k) ```	3
483	A	Counterexample	PROGRAMMING	1,100	[ "brute force", "implementation", "math", "number theory" ]		null	null	Your friend has recently learned about coprime numbers. A pair of numbers {a,<=b} is called coprime if the maximum number that divides both a and b is equal to one. Your friend often comes up with different statements. He has recently supposed that if the pair (a,<=b) is coprime and the pair (b,<=c) is coprime, then the pair (a,<=c) is coprime. You want to find a counterexample for your friend's statement. Therefore, your task is to find three distinct numbers (a,<=b,<=c), for which the statement is false, and the numbers meet the condition l<=≤<=a<=<<=b<=<<=c<=≤<=r. More specifically, you need to find three numbers (a,<=b,<=c), such that l<=≤<=a<=<<=b<=<<=c<=≤<=r, pairs (a,<=b) and (b,<=c) are coprime, and pair (a,<=c) is not coprime.	The single line contains two positive space-separated integers l, r (1<=≤<=l<=≤<=r<=≤<=1018; r<=-<=l<=≤<=50).	Print three positive space-separated integers a, b, c — three distinct numbers (a,<=b,<=c) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order. If the counterexample does not exist, print the single number -1.	[ "2 4\n", "10 11\n", "900000000000000009 900000000000000029\n" ]	[ "2 3 4\n", "-1\n", "900000000000000009 900000000000000010 900000000000000021\n" ]	In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are. In the second sample you cannot form a group of three distinct integers, so the answer is -1. In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three.	500	[ { "input": "2 4", "output": "2 3 4" }, { "input": "10 11", "output": "-1" }, { "input": "900000000000000009 900000000000000029", "output": "900000000000000009 900000000000000010 900000000000000021" }, { "input": "640097987171091791 640097987171091835", "output": "640097987171091792 640097987171091793 640097987171091794" }, { "input": "19534350415104721 19534350415104725", "output": "19534350415104722 19534350415104723 19534350415104724" }, { "input": "933700505788726243 933700505788726280", "output": "933700505788726244 933700505788726245 933700505788726246" }, { "input": "1 3", "output": "-1" }, { "input": "1 4", "output": "2 3 4" }, { "input": "1 1", "output": "-1" }, { "input": "266540997167959130 266540997167959164", "output": "266540997167959130 266540997167959131 266540997167959132" }, { "input": "267367244641009850 267367244641009899", "output": "267367244641009850 267367244641009851 267367244641009852" }, { "input": "268193483524125978 268193483524125993", "output": "268193483524125978 268193483524125979 268193483524125980" }, { "input": "269019726702209402 269019726702209432", "output": "269019726702209402 269019726702209403 269019726702209404" }, { "input": "269845965585325530 269845965585325576", "output": "269845965585325530 269845965585325531 269845965585325532" }, { "input": "270672213058376250 270672213058376260", "output": "270672213058376250 270672213058376251 270672213058376252" }, { "input": "271498451941492378 271498451941492378", "output": "-1" }, { "input": "272324690824608506 272324690824608523", "output": "272324690824608506 272324690824608507 272324690824608508" }, { "input": "273150934002691930 273150934002691962", "output": "273150934002691930 273150934002691931 273150934002691932" }, { "input": "996517375802030516 996517375802030524", "output": "996517375802030516 996517375802030517 996517375802030518" }, { "input": "997343614685146644 997343614685146694", "output": "997343614685146644 997343614685146645 997343614685146646" }, { "input": "998169857863230068 998169857863230083", "output": "998169857863230068 998169857863230069 998169857863230070" }, { "input": "998996101041313492 998996101041313522", "output": "998996101041313492 998996101041313493 998996101041313494" }, { "input": "999822344219396916 999822344219396961", "output": "999822344219396916 999822344219396917 999822344219396918" }, { "input": "648583102513043 648583102513053", "output": "648583102513044 648583102513045 648583102513046" }, { "input": "266540997167959130 266540997167959131", "output": "-1" }, { "input": "267367244641009850 267367244641009850", "output": "-1" }, { "input": "268193483524125978 268193483524125979", "output": "-1" }, { "input": "269019726702209402 269019726702209402", "output": "-1" }, { "input": "269845965585325530 269845965585325530", "output": "-1" }, { "input": "270672213058376250 270672213058376254", "output": "270672213058376250 270672213058376251 270672213058376252" }, { "input": "271498451941492378 271498451941492379", "output": "-1" }, { "input": "272324690824608506 272324690824608508", "output": "272324690824608506 272324690824608507 272324690824608508" }, { "input": "273150934002691930 273150934002691931", "output": "-1" }, { "input": "996517375802030516 996517375802030518", "output": "996517375802030516 996517375802030517 996517375802030518" }, { "input": "997343614685146644 997343614685146644", "output": "-1" }, { "input": "2147483647 2147483649", "output": "-1" }, { "input": "3 5", "output": "-1" }, { "input": "1 7", "output": "2 3 4" }, { "input": "9 12", "output": "9 11 12" }, { "input": "4 4", "output": "-1" }, { "input": "11 13", "output": "-1" }, { "input": "2 2", "output": "-1" } ]	1,414,171,558	1,558	Python 3	WRONG_ANSWER	PRETESTS	5	46	0	a = input().split() for i in range(len(a)): a[i] = int(a[i]) l=a[0] r=a[1] if r-l<2: print(-1) else: if r-l==2 and r%2: print(-1) else: if r%2: print(l+1,l+2,l+3) else: print(l,l+1,l+2)	Title: Counterexample Time Limit: None seconds Memory Limit: None megabytes Problem Description: Your friend has recently learned about coprime numbers. A pair of numbers {a,<=b} is called coprime if the maximum number that divides both a and b is equal to one. Your friend often comes up with different statements. He has recently supposed that if the pair (a,<=b) is coprime and the pair (b,<=c) is coprime, then the pair (a,<=c) is coprime. You want to find a counterexample for your friend's statement. Therefore, your task is to find three distinct numbers (a,<=b,<=c), for which the statement is false, and the numbers meet the condition l<=≤<=a<=<<=b<=<<=c<=≤<=r. More specifically, you need to find three numbers (a,<=b,<=c), such that l<=≤<=a<=<<=b<=<<=c<=≤<=r, pairs (a,<=b) and (b,<=c) are coprime, and pair (a,<=c) is not coprime. Input Specification: The single line contains two positive space-separated integers l, r (1<=≤<=l<=≤<=r<=≤<=1018; r<=-<=l<=≤<=50). Output Specification: Print three positive space-separated integers a, b, c — three distinct numbers (a,<=b,<=c) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order. If the counterexample does not exist, print the single number -1. Demo Input: ['2 4\n', '10 11\n', '900000000000000009 900000000000000029\n'] Demo Output: ['2 3 4\n', '-1\n', '900000000000000009 900000000000000010 900000000000000021\n'] Note: In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are. In the second sample you cannot form a group of three distinct integers, so the answer is -1. In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three.	```python a = input().split() for i in range(len(a)): a[i] = int(a[i]) l=a[0] r=a[1] if r-l<2: print(-1) else: if r-l==2 and r%2: print(-1) else: if r%2: print(l+1,l+2,l+3) else: print(l,l+1,l+2) ```	0
965	A	Paper Airplanes	PROGRAMMING	800	[ "math" ]		null	null	To make a paper airplane, one has to use a rectangular piece of paper. From a sheet of standard size you can make $s$ airplanes. A group of $k$ people decided to make $n$ airplanes each. They are going to buy several packs of paper, each of them containing $p$ sheets, and then distribute the sheets between the people. Each person should have enough sheets to make $n$ airplanes. How many packs should they buy?	The only line contains four integers $k$, $n$, $s$, $p$ ($1 \le k, n, s, p \le 10^4$) — the number of people, the number of airplanes each should make, the number of airplanes that can be made using one sheet and the number of sheets in one pack, respectively.	Print a single integer — the minimum number of packs they should buy.	[ "5 3 2 3\n", "5 3 100 1\n" ]	[ "4\n", "5\n" ]	In the first sample they have to buy $4$ packs of paper: there will be $12$ sheets in total, and giving $2$ sheets to each person is enough to suit everyone's needs. In the second sample they have to buy a pack for each person as they can't share sheets.	500	[ { "input": "5 3 2 3", "output": "4" }, { "input": "5 3 100 1", "output": "5" }, { "input": "10000 10000 1 1", "output": "100000000" }, { "input": "1 1 10000 10000", "output": "1" }, { "input": "300 300 21 23", "output": "196" }, { "input": "300 2 37 51", "output": "6" }, { "input": "2 400 23 57", "output": "1" }, { "input": "1 1 1 1", "output": "1" }, { "input": "10000 10000 3 2", "output": "16670000" }, { "input": "1 2 1 2", "output": "1" }, { "input": "1 1 2 2", "output": "1" }, { "input": "1 1 10 10", "output": "1" }, { "input": "5324 5439 32 13", "output": "69622" }, { "input": "9000 1 2432 1", "output": "9000" }, { "input": "230 1234 9124 23", "output": "10" }, { "input": "11 1 1 1", "output": "11" }, { "input": "6246 8489 1227 9", "output": "4858" }, { "input": "9 20 5 7", "output": "6" } ]	1,573,653,791	2,147,483,647	Python 3	OK	TESTS	18	124	0	import math k, n, s, p = list(map(int, input().split())) ps = math.ceil(n/s) ts = k*ps print(math.ceil(ts/p))	Title: Paper Airplanes Time Limit: None seconds Memory Limit: None megabytes Problem Description: To make a paper airplane, one has to use a rectangular piece of paper. From a sheet of standard size you can make $s$ airplanes. A group of $k$ people decided to make $n$ airplanes each. They are going to buy several packs of paper, each of them containing $p$ sheets, and then distribute the sheets between the people. Each person should have enough sheets to make $n$ airplanes. How many packs should they buy? Input Specification: The only line contains four integers $k$, $n$, $s$, $p$ ($1 \le k, n, s, p \le 10^4$) — the number of people, the number of airplanes each should make, the number of airplanes that can be made using one sheet and the number of sheets in one pack, respectively. Output Specification: Print a single integer — the minimum number of packs they should buy. Demo Input: ['5 3 2 3\n', '5 3 100 1\n'] Demo Output: ['4\n', '5\n'] Note: In the first sample they have to buy $4$ packs of paper: there will be $12$ sheets in total, and giving $2$ sheets to each person is enough to suit everyone's needs. In the second sample they have to buy a pack for each person as they can't share sheets.	```python import math k, n, s, p = list(map(int, input().split())) ps = math.ceil(n/s) ts = k*ps print(math.ceil(ts/p)) ```	3
347	A	Difference Row	PROGRAMMING	1,300	[ "constructive algorithms", "implementation", "sortings" ]		null	null	You want to arrange n integers a1,<=a2,<=...,<=an in some order in a row. Let's define the value of an arrangement as the sum of differences between all pairs of adjacent integers. More formally, let's denote some arrangement as a sequence of integers x1,<=x2,<=...,<=xn, where sequence x is a permutation of sequence a. The value of such an arrangement is (x1<=-<=x2)<=+<=(x2<=-<=x3)<=+<=...<=+<=(xn<=-<=1<=-<=xn). Find the largest possible value of an arrangement. Then, output the lexicographically smallest sequence x that corresponds to an arrangement of the largest possible value.	The first line of the input contains integer n (2<=≤<=n<=≤<=100). The second line contains n space-separated integers a1, a2, ..., an (\|ai\|<=≤<=1000).	Print the required sequence x1,<=x2,<=...,<=xn. Sequence x should be the lexicographically smallest permutation of a that corresponds to an arrangement of the largest possible value.	[ "5\n100 -100 50 0 -50\n" ]	[ "100 -50 0 50 -100 \n" ]	In the sample test case, the value of the output arrangement is (100 - ( - 50)) + (( - 50) - 0) + (0 - 50) + (50 - ( - 100)) = 200. No other arrangement has a larger value, and among all arrangements with the value of 200, the output arrangement is the lexicographically smallest one. Sequence x<sub class="lower-index">1</sub>, x<sub class="lower-index">2</sub>, ... , x<sub class="lower-index">p</sub> is lexicographically smaller than sequence y<sub class="lower-index">1</sub>, y<sub class="lower-index">2</sub>, ... , y<sub class="lower-index">p</sub> if there exists an integer r (0 ≤ r < p) such that x<sub class="lower-index">1</sub> = y<sub class="lower-index">1</sub>, x<sub class="lower-index">2</sub> = y<sub class="lower-index">2</sub>, ... , x<sub class="lower-index">r</sub> = y<sub class="lower-index">r</sub> and x<sub class="lower-index">r + 1</sub> < y<sub class="lower-index">r + 1</sub>.	500	[ { "input": "5\n100 -100 50 0 -50", "output": "100 -50 0 50 -100 " }, { "input": "10\n764 -367 0 963 -939 -795 -26 -49 948 -282", "output": "963 -795 -367 -282 -49 -26 0 764 948 -939 " }, { "input": "20\n262 -689 -593 161 -678 -555 -633 -697 369 258 673 50 833 737 -650 198 -651 -621 -396 939", "output": "939 -689 -678 -651 -650 -633 -621 -593 -555 -396 50 161 198 258 262 369 673 737 833 -697 " }, { "input": "50\n-262 -377 -261 903 547 759 -800 -53 670 92 758 109 547 877 152 -901 -318 -527 -388 24 139 -227 413 -135 811 -886 -22 -526 -643 -431 284 609 -745 -62 323 -441 743 -800 86 862 587 -513 -468 -651 -760 197 141 -414 -909 438", "output": "903 -901 -886 -800 -800 -760 -745 -651 -643 -527 -526 -513 -468 -441 -431 -414 -388 -377 -318 -262 -261 -227 -135 -62 -53 -22 24 86 92 109 139 141 152 197 284 323 413 438 547 547 587 609 670 743 758 759 811 862 877 -909 " }, { "input": "100\n144 -534 -780 -1 -259 -945 -992 -967 -679 -239 -22 387 130 -908 140 -270 16 646 398 599 -631 -231 687 -505 89 77 584 162 124 132 33 271 212 734 350 -678 969 43 487 -689 -432 -225 -603 801 -828 -684 349 318 109 723 33 -247 719 368 -286 217 260 77 -618 955 408 994 -313 -341 578 609 60 900 222 -779 -507 464 -147 -789 -477 -235 -407 -432 35 300 -53 -896 -476 927 -293 -869 -852 -566 -759 95 506 -914 -405 -621 319 -622 -49 -334 328 -104", "output": "994 -967 -945 -914 -908 -896 -869 -852 -828 -789 -780 -779 -759 -689 -684 -679 -678 -631 -622 -621 -618 -603 -566 -534 -507 -505 -477 -476 -432 -432 -407 -405 -341 -334 -313 -293 -286 -270 -259 -247 -239 -235 -231 -225 -147 -104 -53 -49 -22 -1 16 33 33 35 43 60 77 77 89 95 109 124 130 132 140 144 162 212 217 222 260 271 300 318 319 328 349 350 368 387 398 408 464 487 506 578 584 599 609 646 687 719 723 734 801 900 927 955 969 -992 " }, { "input": "100\n-790 341 910 905 -779 279 696 -375 525 -21 -2 751 -887 764 520 -844 850 -537 -882 -183 139 -397 561 -420 -991 691 587 -93 -701 -957 -89 227 233 545 934 309 -26 454 -336 -994 -135 -840 -320 -387 -943 650 628 -583 701 -708 -881 287 -932 -265 -312 -757 695 985 -165 -329 -4 -462 -627 798 -124 -539 843 -492 -967 -782 879 -184 -351 -385 -713 699 -477 828 219 961 -170 -542 877 -718 417 152 -905 181 301 920 685 -502 518 -115 257 998 -112 -234 -223 -396", "output": "998 -991 -967 -957 -943 -932 -905 -887 -882 -881 -844 -840 -790 -782 -779 -757 -718 -713 -708 -701 -627 -583 -542 -539 -537 -502 -492 -477 -462 -420 -397 -396 -387 -385 -375 -351 -336 -329 -320 -312 -265 -234 -223 -184 -183 -170 -165 -135 -124 -115 -112 -93 -89 -26 -21 -4 -2 139 152 181 219 227 233 257 279 287 301 309 341 417 454 518 520 525 545 561 587 628 650 685 691 695 696 699 701 751 764 798 828 843 850 877 879 905 910 920 934 961 985 -994 " }, { "input": "100\n720 331 -146 -935 399 248 525 -669 614 -245 320 229 842 -894 -73 584 -458 -975 -604 -78 607 -120 -377 409 -743 862 -969 980 105 841 -795 996 696 -759 -482 624 -578 421 -717 -553 -652 -268 405 426 642 870 -650 -812 178 -882 -237 -737 -724 358 407 714 759 779 -899 -726 398 -663 -56 -736 -825 313 -746 117 -457 330 -925 497 332 -794 -506 -811 -990 -799 -343 -380 598 926 671 967 -573 -687 741 484 -641 -698 -251 -391 23 692 337 -639 126 8 -915 -386", "output": "996 -975 -969 -935 -925 -915 -899 -894 -882 -825 -812 -811 -799 -795 -794 -759 -746 -743 -737 -736 -726 -724 -717 -698 -687 -669 -663 -652 -650 -641 -639 -604 -578 -573 -553 -506 -482 -458 -457 -391 -386 -380 -377 -343 -268 -251 -245 -237 -146 -120 -78 -73 -56 8 23 105 117 126 178 229 248 313 320 330 331 332 337 358 398 399 405 407 409 421 426 484 497 525 584 598 607 614 624 642 671 692 696 714 720 741 759 779 841 842 862 870 926 967 980 -990 " }, { "input": "100\n-657 320 -457 -472 -423 -227 -902 -520 702 -27 -103 149 268 -922 307 -292 377 730 117 1000 935 459 -502 796 -494 892 -523 866 166 -248 57 -606 -96 -948 988 194 -687 832 -425 28 -356 -884 688 353 225 204 -68 960 -929 -312 -479 381 512 -274 -505 -260 -506 572 226 -822 -13 325 -370 403 -714 494 339 283 356 327 159 -151 -13 -760 -159 -991 498 19 -159 583 178 -50 -421 -679 -978 334 688 -99 117 -988 371 693 946 -58 -699 -133 62 693 535 -375", "output": "1000 -988 -978 -948 -929 -922 -902 -884 -822 -760 -714 -699 -687 -679 -657 -606 -523 -520 -506 -505 -502 -494 -479 -472 -457 -425 -423 -421 -375 -370 -356 -312 -292 -274 -260 -248 -227 -159 -159 -151 -133 -103 -99 -96 -68 -58 -50 -27 -13 -13 19 28 57 62 117 117 149 159 166 178 194 204 225 226 268 283 307 320 325 327 334 339 353 356 371 377 381 403 459 494 498 512 535 572 583 688 688 693 693 702 730 796 832 866 892 935 946 960 988 -991 " }, { "input": "100\n853 752 931 -453 -943 -118 -772 -814 791 191 -83 -373 -748 -136 -286 250 627 292 -48 -896 -296 736 -628 -376 -246 -495 366 610 228 664 -951 -952 811 192 -730 -377 319 799 753 166 827 501 157 -834 -776 424 655 -827 549 -487 608 -643 419 349 -88 95 231 -520 -508 -105 -727 568 -241 286 586 -956 -880 892 866 22 658 832 -216 -54 491 -500 -687 393 24 129 946 303 931 563 -269 -203 -251 647 -824 -163 248 -896 -133 749 -619 -212 -2 491 287 219", "output": "946 -952 -951 -943 -896 -896 -880 -834 -827 -824 -814 -776 -772 -748 -730 -727 -687 -643 -628 -619 -520 -508 -500 -495 -487 -453 -377 -376 -373 -296 -286 -269 -251 -246 -241 -216 -212 -203 -163 -136 -133 -118 -105 -88 -83 -54 -48 -2 22 24 95 129 157 166 191 192 219 228 231 248 250 286 287 292 303 319 349 366 393 419 424 491 491 501 549 563 568 586 608 610 627 647 655 658 664 736 749 752 753 791 799 811 827 832 853 866 892 931 931 -956 " }, { "input": "100\n9 857 227 -593 -983 -439 17 -523 -354 -189 780 -267 771 -981 943 620 -832 79 761 -943 218 -966 75 131 -596 534 51 796 -612 -381 -690 -353 -170 648 804 -256 257 -16 964 -728 310 50 453 737 -228 -625 618 841 -102 974 -850 -641 -788 231 -982 -84 -917 942 -913 -768 -83 298 388 447 -490 271 -949 976 -820 -876 -822 -188 -306 877 219 854 561 -307 -920 916 -925 -591 -149 -166 -572 860 -217 -831 -552 822 355 -150 203 -710 530 910 889 964 -125 -597", "output": "976 -982 -981 -966 -949 -943 -925 -920 -917 -913 -876 -850 -832 -831 -822 -820 -788 -768 -728 -710 -690 -641 -625 -612 -597 -596 -593 -591 -572 -552 -523 -490 -439 -381 -354 -353 -307 -306 -267 -256 -228 -217 -189 -188 -170 -166 -150 -149 -125 -102 -84 -83 -16 9 17 50 51 75 79 131 203 218 219 227 231 257 271 298 310 355 388 447 453 530 534 561 618 620 648 737 761 771 780 796 804 822 841 854 857 860 877 889 910 916 942 943 964 964 974 -983 " }, { "input": "2\n-1000 1000", "output": "1000 -1000 " }, { "input": "2\n1000 -1000", "output": "1000 -1000 " }, { "input": "2\n0 0", "output": "0 0 " }, { "input": "5\n1 2 3 4 5", "output": "5 2 3 4 1 " }, { "input": "6\n1 1 1 2 2 2", "output": "2 1 1 2 2 1 " }, { "input": "3\n-1 -1 -1", "output": "-1 -1 -1 " } ]	1,479,507,909	2,147,483,647	Python 3	OK	TESTS	16	124	0	I=input I() a=sorted(map(int,I().split())) print(a[-1],' '.join(map(str,a[1:-1])),a[0])	Title: Difference Row Time Limit: None seconds Memory Limit: None megabytes Problem Description: You want to arrange n integers a1,<=a2,<=...,<=an in some order in a row. Let's define the value of an arrangement as the sum of differences between all pairs of adjacent integers. More formally, let's denote some arrangement as a sequence of integers x1,<=x2,<=...,<=xn, where sequence x is a permutation of sequence a. The value of such an arrangement is (x1<=-<=x2)<=+<=(x2<=-<=x3)<=+<=...<=+<=(xn<=-<=1<=-<=xn). Find the largest possible value of an arrangement. Then, output the lexicographically smallest sequence x that corresponds to an arrangement of the largest possible value. Input Specification: The first line of the input contains integer n (2<=≤<=n<=≤<=100). The second line contains n space-separated integers a1, a2, ..., an (\|ai\|<=≤<=1000). Output Specification: Print the required sequence x1,<=x2,<=...,<=xn. Sequence x should be the lexicographically smallest permutation of a that corresponds to an arrangement of the largest possible value. Demo Input: ['5\n100 -100 50 0 -50\n'] Demo Output: ['100 -50 0 50 -100 \n'] Note: In the sample test case, the value of the output arrangement is (100 - ( - 50)) + (( - 50) - 0) + (0 - 50) + (50 - ( - 100)) = 200. No other arrangement has a larger value, and among all arrangements with the value of 200, the output arrangement is the lexicographically smallest one. Sequence x<sub class="lower-index">1</sub>, x<sub class="lower-index">2</sub>, ... , x<sub class="lower-index">p</sub> is lexicographically smaller than sequence y<sub class="lower-index">1</sub>, y<sub class="lower-index">2</sub>, ... , y<sub class="lower-index">p</sub> if there exists an integer r (0 ≤ r < p) such that x<sub class="lower-index">1</sub> = y<sub class="lower-index">1</sub>, x<sub class="lower-index">2</sub> = y<sub class="lower-index">2</sub>, ... , x<sub class="lower-index">r</sub> = y<sub class="lower-index">r</sub> and x<sub class="lower-index">r + 1</sub> < y<sub class="lower-index">r + 1</sub>.	```python I=input I() a=sorted(map(int,I().split())) print(a[-1],' '.join(map(str,a[1:-1])),a[0]) ```	3
154	B	Colliders	PROGRAMMING	1,600	[ "math", "number theory" ]		null	null	By 2312 there were n Large Hadron Colliders in the inhabited part of the universe. Each of them corresponded to a single natural number from 1 to n. However, scientists did not know what activating several colliders simultaneously could cause, so the colliders were deactivated. In 2312 there was a startling discovery: a collider's activity is safe if and only if all numbers of activated colliders are pairwise relatively prime to each other (two numbers are relatively prime if their greatest common divisor equals 1)! If two colliders with relatively nonprime numbers are activated, it will cause a global collapse. Upon learning this, physicists rushed to turn the colliders on and off and carry out all sorts of experiments. To make sure than the scientists' quickness doesn't end with big trouble, the Large Hadron Colliders' Large Remote Control was created. You are commissioned to write the software for the remote (well, you do not expect anybody to operate it manually, do you?). Initially, all colliders are deactivated. Your program receives multiple requests of the form "activate/deactivate the i-th collider". The program should handle requests in the order of receiving them. The program should print the processed results in the format described below. To the request of "+ i" (that is, to activate the i-th collider), the program should print exactly one of the following responses: - "Success" if the activation was successful. - "Already on", if the i-th collider was already activated before the request. - "Conflict with j", if there is a conflict with the j-th collider (that is, the j-th collider is on, and numbers i and j are not relatively prime). In this case, the i-th collider shouldn't be activated. If a conflict occurs with several colliders simultaneously, you should print the number of any of them. The request of "- i" (that is, to deactivate the i-th collider), should receive one of the following responses from the program: - "Success", if the deactivation was successful. - "Already off", if the i-th collider was already deactivated before the request. You don't need to print quotes in the output of the responses to the requests.	The first line contains two space-separated integers n and m (1<=≤<=n,<=m<=≤<=105) — the number of colliders and the number of requests, correspondingly. Next m lines contain numbers of requests, one per line, in the form of either "+ i" (without the quotes) — activate the i-th collider, or "- i" (without the quotes) — deactivate the i-th collider (1<=≤<=i<=≤<=n).	Print m lines — the results of executing requests in the above given format. The requests should be processed in the order, in which they are given in the input. Don't forget that the responses to the requests should be printed without quotes.	[ "10 10\n+ 6\n+ 10\n+ 5\n- 10\n- 5\n- 6\n+ 10\n+ 3\n+ 6\n+ 3\n" ]	[ "Success\nConflict with 6\nSuccess\nAlready off\nSuccess\nSuccess\nSuccess\nSuccess\nConflict with 10\nAlready on\n" ]	Note that in the sample the colliders don't turn on after the second and ninth requests. The ninth request could also receive response "Conflict with 3".	1,000	[ { "input": "10 10\n+ 6\n+ 10\n+ 5\n- 10\n- 5\n- 6\n+ 10\n+ 3\n+ 6\n+ 3", "output": "Success\nConflict with 6\nSuccess\nAlready off\nSuccess\nSuccess\nSuccess\nSuccess\nConflict with 10\nAlready on" }, { "input": "7 5\n+ 7\n+ 6\n+ 4\n+ 3\n- 7", "output": "Success\nSuccess\nConflict with 6\nConflict with 6\nSuccess" }, { "input": "10 5\n+ 2\n- 8\n- 4\n- 10\n+ 1", "output": "Success\nAlready off\nAlready off\nAlready off\nSuccess" }, { "input": "10 10\n+ 1\n+ 10\n- 1\n- 10\n+ 1\n- 1\n+ 7\n+ 8\n+ 6\n- 7", "output": "Success\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nConflict with 8\nSuccess" }, { "input": "15 15\n+ 12\n+ 6\n+ 13\n- 13\n+ 7\n+ 14\n+ 8\n+ 13\n- 13\n+ 15\n+ 4\n+ 10\n+ 11\n+ 2\n- 14", "output": "Success\nConflict with 12\nSuccess\nSuccess\nSuccess\nConflict with 12\nConflict with 12\nSuccess\nSuccess\nConflict with 12\nConflict with 12\nConflict with 12\nSuccess\nConflict with 12\nAlready off" }, { "input": "2 20\n+ 1\n+ 2\n- 2\n+ 2\n- 1\n- 2\n+ 2\n- 2\n+ 2\n+ 1\n- 1\n+ 1\n- 1\n- 2\n+ 1\n- 1\n+ 1\n- 1\n+ 2\n+ 1", "output": "Success\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess" }, { "input": "2 20\n- 1\n- 2\n- 1\n- 2\n+ 2\n+ 1\n- 1\n+ 1\n+ 1\n+ 2\n- 2\n+ 1\n- 2\n+ 2\n+ 1\n+ 1\n+ 1\n- 1\n- 1\n- 2", "output": "Already off\nAlready off\nAlready off\nAlready off\nSuccess\nSuccess\nSuccess\nSuccess\nAlready on\nAlready on\nSuccess\nAlready on\nAlready off\nSuccess\nAlready on\nAlready on\nAlready on\nSuccess\nAlready off\nSuccess" }, { "input": "25 20\n+ 7\n+ 14\n- 7\n+ 11\n+ 15\n+ 10\n+ 20\n- 15\n+ 13\n- 14\n+ 4\n- 11\n- 20\n+ 15\n+ 16\n+ 3\n+ 11\n+ 22\n- 16\n- 22", "output": "Success\nConflict with 7\nSuccess\nSuccess\nSuccess\nConflict with 15\nConflict with 15\nSuccess\nSuccess\nAlready off\nSuccess\nSuccess\nAlready off\nSuccess\nConflict with 4\nConflict with 15\nSuccess\nConflict with 4\nAlready off\nAlready off" }, { "input": "50 30\n- 39\n- 2\n+ 37\n- 10\n+ 27\n- 25\n+ 41\n+ 23\n- 36\n+ 49\n+ 5\n- 28\n+ 22\n+ 45\n+ 1\n+ 23\n+ 36\n+ 35\n- 4\n- 28\n- 10\n- 36\n- 38\n- 2\n- 38\n- 38\n- 37\n+ 8\n- 27\n- 28", "output": "Already off\nAlready off\nSuccess\nAlready off\nSuccess\nAlready off\nSuccess\nSuccess\nAlready off\nSuccess\nSuccess\nAlready off\nSuccess\nConflict with 27\nSuccess\nAlready on\nConflict with 22\nConflict with 5\nAlready off\nAlready off\nAlready off\nAlready off\nAlready off\nAlready off\nAlready off\nAlready off\nSuccess\nConflict with 22\nSuccess\nAlready off" }, { "input": "50 50\n+ 14\n+ 4\n+ 20\n+ 37\n+ 50\n+ 46\n+ 19\n- 20\n+ 25\n+ 47\n+ 10\n+ 6\n+ 34\n+ 12\n+ 41\n- 47\n+ 9\n+ 22\n+ 28\n- 41\n- 34\n+ 47\n+ 40\n- 12\n+ 42\n- 9\n- 4\n+ 15\n- 15\n+ 27\n+ 8\n+ 38\n+ 9\n+ 4\n+ 17\n- 8\n+ 13\n- 47\n+ 7\n- 9\n- 38\n+ 30\n+ 48\n- 50\n- 7\n+ 41\n+ 34\n+ 23\n+ 11\n+ 16", "output": "Success\nConflict with 14\nConflict with 14\nSuccess\nConflict with 14\nConflict with 14\nSuccess\nAlready off\nSuccess\nSuccess\nConflict with 14\nConflict with 14\nConflict with 14\nConflict with 14\nSuccess\nSuccess\nSuccess\nConflict with 14\nConflict with 14\nSuccess\nAlready off\nSuccess\nConflict with 14\nAlready off\nConflict with 14\nSuccess\nAlready off\nConflict with 25\nAlready off\nSuccess\nConflict with 14\nConflict with 14\nConflict with 27\nConflict with 14\nSuccess\nAlready off\nSuccess\nS..." }, { "input": "100 1\n+ 51", "output": "Success" }, { "input": "1 100\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1\n+ 1\n- 1", "output": "Success\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess..." }, { "input": "100 50\n+ 2\n+ 3\n+ 5\n+ 7\n+ 11\n+ 13\n+ 17\n+ 19\n+ 23\n+ 29\n+ 31\n+ 37\n+ 41\n+ 43\n+ 47\n+ 53\n+ 59\n+ 61\n+ 67\n+ 71\n+ 73\n+ 79\n+ 83\n+ 89\n+ 97\n+ 52\n+ 96\n+ 54\n+ 56\n+ 88\n+ 69\n+ 65\n+ 84\n+ 10\n+ 85\n- 37\n+ 80\n- 53\n+ 25\n- 5\n+ 45\n+ 90\n+ 95\n+ 33\n+ 81\n+ 6\n+ 20\n- 10\n+ 94\n- 61", "output": "Success\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nSuccess\nConflict with 2\nConflict with 2\nConflict with 2\nConflict with 2\nConflict with 2\nConflict with 3\nConflict with 5\nConflict with 2\nConflict with 2\nConflict with 5\nSuccess\nConflict with 2\nSuccess\nConflict with 5\nSuccess\nConflict with 3\nConflict with 2\nConflict with 19\nCon..." }, { "input": "100000 1\n+ 12345", "output": "Success" }, { "input": "4 2\n+ 2\n+ 4", "output": "Success\nConflict with 2" }, { "input": "100000 2\n+ 57314\n+ 85971", "output": "Success\nConflict with 57314" }, { "input": "100000 4\n+ 81799\n+ 81799\n- 81799\n+ 81799", "output": "Success\nAlready on\nSuccess\nSuccess" } ]	1,683,134,153	2,147,483,647	PyPy 3-64	RUNTIME_ERROR	TESTS	0	122	2,867,200	import math n = int(input()) l = list(map(int,input().split())) for i in range(n): while l[i]%2==0 or l[i]%3==0: if l[i]%2==0 and l[i]%3==0: l[i]/=6 elif l[i]%2==0: l[i]/=2 else: l[i]/=3 import collections as c d = dict(c.Counter(l)) if len(d.keys()) != 1: print("No") else: print("Yes")	Title: Colliders Time Limit: None seconds Memory Limit: None megabytes Problem Description: By 2312 there were n Large Hadron Colliders in the inhabited part of the universe. Each of them corresponded to a single natural number from 1 to n. However, scientists did not know what activating several colliders simultaneously could cause, so the colliders were deactivated. In 2312 there was a startling discovery: a collider's activity is safe if and only if all numbers of activated colliders are pairwise relatively prime to each other (two numbers are relatively prime if their greatest common divisor equals 1)! If two colliders with relatively nonprime numbers are activated, it will cause a global collapse. Upon learning this, physicists rushed to turn the colliders on and off and carry out all sorts of experiments. To make sure than the scientists' quickness doesn't end with big trouble, the Large Hadron Colliders' Large Remote Control was created. You are commissioned to write the software for the remote (well, you do not expect anybody to operate it manually, do you?). Initially, all colliders are deactivated. Your program receives multiple requests of the form "activate/deactivate the i-th collider". The program should handle requests in the order of receiving them. The program should print the processed results in the format described below. To the request of "+ i" (that is, to activate the i-th collider), the program should print exactly one of the following responses: - "Success" if the activation was successful. - "Already on", if the i-th collider was already activated before the request. - "Conflict with j", if there is a conflict with the j-th collider (that is, the j-th collider is on, and numbers i and j are not relatively prime). In this case, the i-th collider shouldn't be activated. If a conflict occurs with several colliders simultaneously, you should print the number of any of them. The request of "- i" (that is, to deactivate the i-th collider), should receive one of the following responses from the program: - "Success", if the deactivation was successful. - "Already off", if the i-th collider was already deactivated before the request. You don't need to print quotes in the output of the responses to the requests. Input Specification: The first line contains two space-separated integers n and m (1<=≤<=n,<=m<=≤<=105) — the number of colliders and the number of requests, correspondingly. Next m lines contain numbers of requests, one per line, in the form of either "+ i" (without the quotes) — activate the i-th collider, or "- i" (without the quotes) — deactivate the i-th collider (1<=≤<=i<=≤<=n). Output Specification: Print m lines — the results of executing requests in the above given format. The requests should be processed in the order, in which they are given in the input. Don't forget that the responses to the requests should be printed without quotes. Demo Input: ['10 10\n+ 6\n+ 10\n+ 5\n- 10\n- 5\n- 6\n+ 10\n+ 3\n+ 6\n+ 3\n'] Demo Output: ['Success\nConflict with 6\nSuccess\nAlready off\nSuccess\nSuccess\nSuccess\nSuccess\nConflict with 10\nAlready on\n'] Note: Note that in the sample the colliders don't turn on after the second and ninth requests. The ninth request could also receive response "Conflict with 3".	```python import math n = int(input()) l = list(map(int,input().split())) for i in range(n): while l[i]%2==0 or l[i]%3==0: if l[i]%2==0 and l[i]%3==0: l[i]/=6 elif l[i]%2==0: l[i]/=2 else: l[i]/=3 import collections as c d = dict(c.Counter(l)) if len(d.keys()) != 1: print("No") else: print("Yes") ```	-1
255	A	Greg's Workout	PROGRAMMING	800	[ "implementation" ]		null	null	Greg is a beginner bodybuilder. Today the gym coach gave him the training plan. All it had was n integers a1,<=a2,<=...,<=an. These numbers mean that Greg needs to do exactly n exercises today. Besides, Greg should repeat the i-th in order exercise ai times. Greg now only does three types of exercises: "chest" exercises, "biceps" exercises and "back" exercises. Besides, his training is cyclic, that is, the first exercise he does is a "chest" one, the second one is "biceps", the third one is "back", the fourth one is "chest", the fifth one is "biceps", and so on to the n-th exercise. Now Greg wonders, which muscle will get the most exercise during his training. We know that the exercise Greg repeats the maximum number of times, trains the corresponding muscle the most. Help Greg, determine which muscle will get the most training.	The first line contains integer n (1<=≤<=n<=≤<=20). The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=25) — the number of times Greg repeats the exercises.	Print word "chest" (without the quotes), if the chest gets the most exercise, "biceps" (without the quotes), if the biceps gets the most exercise and print "back" (without the quotes) if the back gets the most exercise. It is guaranteed that the input is such that the answer to the problem is unambiguous.	[ "2\n2 8\n", "3\n5 1 10\n", "7\n3 3 2 7 9 6 8\n" ]	[ "biceps\n", "back\n", "chest\n" ]	In the first sample Greg does 2 chest, 8 biceps and zero back exercises, so the biceps gets the most exercises. In the second sample Greg does 5 chest, 1 biceps and 10 back exercises, so the back gets the most exercises. In the third sample Greg does 18 chest, 12 biceps and 8 back exercises, so the chest gets the most exercise.	500	[ { "input": "2\n2 8", "output": "biceps" }, { "input": "3\n5 1 10", "output": "back" }, { "input": "7\n3 3 2 7 9 6 8", "output": "chest" }, { "input": "4\n5 6 6 2", "output": "chest" }, { "input": "5\n8 2 2 6 3", "output": "chest" }, { "input": "6\n8 7 2 5 3 4", "output": "chest" }, { "input": "8\n7 2 9 10 3 8 10 6", "output": "chest" }, { "input": "9\n5 4 2 3 4 4 5 2 2", "output": "chest" }, { "input": "10\n4 9 8 5 3 8 8 10 4 2", "output": "biceps" }, { "input": "11\n10 9 7 6 1 3 9 7 1 3 5", "output": "chest" }, { "input": "12\n24 22 6 16 5 21 1 7 2 19 24 5", "output": "chest" }, { "input": "13\n24 10 5 7 16 17 2 7 9 20 15 2 24", "output": "chest" }, { "input": "14\n13 14 19 8 5 17 9 16 15 9 5 6 3 7", "output": "back" }, { "input": "15\n24 12 22 21 25 23 21 5 3 24 23 13 12 16 12", "output": "chest" }, { "input": "16\n12 6 18 6 25 7 3 1 1 17 25 17 6 8 17 8", "output": "biceps" }, { "input": "17\n13 8 13 4 9 21 10 10 9 22 14 23 22 7 6 14 19", "output": "chest" }, { "input": "18\n1 17 13 6 11 10 25 13 24 9 21 17 3 1 17 12 25 21", "output": "back" }, { "input": "19\n22 22 24 25 19 10 7 10 4 25 19 14 1 14 3 18 4 19 24", "output": "chest" }, { "input": "20\n9 8 22 11 18 14 15 10 17 11 2 1 25 20 7 24 4 25 9 20", "output": "chest" }, { "input": "1\n10", "output": "chest" }, { "input": "2\n15 3", "output": "chest" }, { "input": "3\n21 11 19", "output": "chest" }, { "input": "4\n19 24 13 15", "output": "chest" }, { "input": "5\n4 24 1 9 19", "output": "biceps" }, { "input": "6\n6 22 24 7 15 24", "output": "back" }, { "input": "7\n10 8 23 23 14 18 14", "output": "chest" }, { "input": "8\n5 16 8 9 17 16 14 7", "output": "biceps" }, { "input": "9\n12 3 10 23 6 4 22 13 12", "output": "chest" }, { "input": "10\n1 9 20 18 20 17 7 24 23 2", "output": "back" }, { "input": "11\n22 25 8 2 18 15 1 13 1 11 4", "output": "biceps" }, { "input": "12\n20 12 14 2 15 6 24 3 11 8 11 14", "output": "chest" }, { "input": "13\n2 18 8 8 8 20 5 22 15 2 5 19 18", "output": "back" }, { "input": "14\n1 6 10 25 17 13 21 11 19 4 15 24 5 22", "output": "biceps" }, { "input": "15\n13 5 25 13 17 25 19 21 23 17 12 6 14 8 6", "output": "back" }, { "input": "16\n10 15 2 17 22 12 14 14 6 11 4 13 9 8 21 14", "output": "chest" }, { "input": "17\n7 22 9 22 8 7 20 22 23 5 12 11 1 24 17 20 10", "output": "biceps" }, { "input": "18\n18 15 4 25 5 11 21 25 12 14 25 23 19 19 13 6 9 17", "output": "chest" }, { "input": "19\n3 1 3 15 15 25 10 25 23 10 9 21 13 23 19 3 24 21 14", "output": "back" }, { "input": "20\n19 18 11 3 6 14 3 3 25 3 1 19 25 24 23 12 7 4 8 6", "output": "back" }, { "input": "1\n19", "output": "chest" }, { "input": "2\n1 7", "output": "biceps" }, { "input": "3\n18 18 23", "output": "back" }, { "input": "4\n12 15 1 13", "output": "chest" }, { "input": "5\n11 14 25 21 21", "output": "biceps" }, { "input": "6\n11 9 12 11 22 18", "output": "biceps" }, { "input": "7\n11 1 16 20 21 25 20", "output": "chest" }, { "input": "8\n1 2 20 9 3 22 17 4", "output": "back" }, { "input": "9\n19 2 10 19 15 20 3 1 13", "output": "back" }, { "input": "10\n11 2 11 8 21 16 2 3 19 9", "output": "back" }, { "input": "20\n25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 25 24", "output": "chest" }, { "input": "12\n4 24 21 3 13 24 22 13 12 21 1 15", "output": "back" }, { "input": "13\n14 14 16 2 13 5 1 14 9 4 16 8 3", "output": "biceps" }, { "input": "14\n1 9 15 4 11 8 25 3 9 14 13 2 1 11", "output": "biceps" }, { "input": "15\n4 19 10 6 16 12 5 11 7 23 1 24 11 7 17", "output": "back" }, { "input": "16\n2 8 2 8 13 22 20 12 22 23 18 13 18 22 11 17", "output": "chest" }, { "input": "17\n24 5 5 16 10 8 22 6 4 13 10 10 5 23 8 20 8", "output": "chest" }, { "input": "18\n14 8 9 12 11 18 24 1 14 24 18 5 12 17 1 10 1 22", "output": "chest" }, { "input": "19\n21 2 10 6 9 1 24 5 2 19 10 13 10 7 19 2 6 13 24", "output": "chest" }, { "input": "20\n7 1 14 17 6 6 18 13 12 3 25 4 3 19 22 24 16 14 1 23", "output": "biceps" }, { "input": "1\n19", "output": "chest" }, { "input": "20\n2 1 2 2 1 2 2 1 2 1 1 1 1 1 1 1 1 1 1 22", "output": "biceps" } ]	1,567,225,748	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	4	216	0	chest ,biceps, back = 0,0,0 n = int(input()) l = list(map(int,input().split())) for i in range(0,n,3): chest += i for i in range(1,n,3): biceps+= i for i in range(2,n,3): back += i if chest > back and chest > biceps: print('chest') elif back > chest and back > biceps: print('back') else: print('biceps')	Title: Greg's Workout Time Limit: None seconds Memory Limit: None megabytes Problem Description: Greg is a beginner bodybuilder. Today the gym coach gave him the training plan. All it had was n integers a1,<=a2,<=...,<=an. These numbers mean that Greg needs to do exactly n exercises today. Besides, Greg should repeat the i-th in order exercise ai times. Greg now only does three types of exercises: "chest" exercises, "biceps" exercises and "back" exercises. Besides, his training is cyclic, that is, the first exercise he does is a "chest" one, the second one is "biceps", the third one is "back", the fourth one is "chest", the fifth one is "biceps", and so on to the n-th exercise. Now Greg wonders, which muscle will get the most exercise during his training. We know that the exercise Greg repeats the maximum number of times, trains the corresponding muscle the most. Help Greg, determine which muscle will get the most training. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=20). The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=25) — the number of times Greg repeats the exercises. Output Specification: Print word "chest" (without the quotes), if the chest gets the most exercise, "biceps" (without the quotes), if the biceps gets the most exercise and print "back" (without the quotes) if the back gets the most exercise. It is guaranteed that the input is such that the answer to the problem is unambiguous. Demo Input: ['2\n2 8\n', '3\n5 1 10\n', '7\n3 3 2 7 9 6 8\n'] Demo Output: ['biceps\n', 'back\n', 'chest\n'] Note: In the first sample Greg does 2 chest, 8 biceps and zero back exercises, so the biceps gets the most exercises. In the second sample Greg does 5 chest, 1 biceps and 10 back exercises, so the back gets the most exercises. In the third sample Greg does 18 chest, 12 biceps and 8 back exercises, so the chest gets the most exercise.	```python chest ,biceps, back = 0,0,0 n = int(input()) l = list(map(int,input().split())) for i in range(0,n,3): chest += i for i in range(1,n,3): biceps+= i for i in range(2,n,3): back += i if chest > back and chest > biceps: print('chest') elif back > chest and back > biceps: print('back') else: print('biceps') ```	0
573	A	Bear and Poker	PROGRAMMING	1,300	[ "implementation", "math", "number theory" ]		null	null	Limak is an old brown bear. He often plays poker with his friends. Today they went to a casino. There are n players (including Limak himself) and right now all of them have bids on the table. i-th of them has bid with size ai dollars. Each player can double his bid any number of times and triple his bid any number of times. The casino has a great jackpot for making all bids equal. Is it possible that Limak and his friends will win a jackpot?	First line of input contains an integer n (2<=≤<=n<=≤<=105), the number of players. The second line contains n integer numbers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the bids of players.	Print "Yes" (without the quotes) if players can make their bids become equal, or "No" otherwise.	[ "4\n75 150 75 50\n", "3\n100 150 250\n" ]	[ "Yes\n", "No\n" ]	In the first sample test first and third players should double their bids twice, second player should double his bid once and fourth player should both double and triple his bid. It can be shown that in the second sample test there is no way to make all bids equal.	500	[ { "input": "4\n75 150 75 50", "output": "Yes" }, { "input": "3\n100 150 250", "output": "No" }, { "input": "7\n34 34 68 34 34 68 34", "output": "Yes" }, { "input": "10\n72 96 12 18 81 20 6 2 54 1", "output": "No" }, { "input": "20\n958692492 954966768 77387000 724664764 101294996 614007760 202904092 555293973 707655552 108023967 73123445 612562357 552908390 914853758 915004122 466129205 122853497 814592742 373389439 818473058", "output": "No" }, { "input": "2\n1 1", "output": "Yes" }, { "input": "2\n72 72", "output": "Yes" }, { "input": "2\n49 42", "output": "No" }, { "input": "3\n1000000000 1000000000 1000000000", "output": "Yes" }, { "input": "6\n162000 96000 648000 1000 864000 432000", "output": "Yes" }, { "input": "8\n600000 100000 100000 100000 900000 600000 900000 600000", "output": "Yes" }, { "input": "12\n2048 1024 6144 1024 3072 3072 6144 1024 4096 2048 6144 3072", "output": "Yes" }, { "input": "20\n246 246 246 246 246 246 246 246 246 246 246 246 246 246 246 246 246 246 246 246", "output": "Yes" }, { "input": "50\n840868705 387420489 387420489 795385082 634350497 206851546 536870912 536870912 414927754 387420489 387420489 536870912 387420489 149011306 373106005 536870912 700746206 387420489 777952883 847215247 176645254 576664386 387420489 230876513 536870912 536870912 536870912 387420489 387420489 536870912 460495524 528643722 387420489 536870912 470369206 899619085 387420489 631148352 387420489 387420489 536870912 414666674 521349938 776784669 387420489 102428009 536870912 387420489 536870912 718311009", "output": "No" }, { "input": "2\n5 6", "output": "No" }, { "input": "3\n536870912 387420489 257407169", "output": "No" }, { "input": "4\n2 2 5 2", "output": "No" }, { "input": "2\n33554432 59049", "output": "Yes" }, { "input": "3\n536870912 387420489 387420489", "output": "Yes" }, { "input": "2\n1 5", "output": "No" }, { "input": "18\n2 3 5 7 11 13 17 19 23 29 31 37 43 47 53 59 67 71", "output": "No" }, { "input": "2\n1 30", "output": "No" }, { "input": "3\n335544320 71744535 71744535", "output": "Yes" }, { "input": "5\n1000000000 999999999 999999998 999999997 999999996", "output": "No" }, { "input": "2\n25 5", "output": "No" }, { "input": "4\n75 150 75 5", "output": "No" }, { "input": "3\n536870912 387420489 362797056", "output": "Yes" }, { "input": "3\n536870912 387420489 89", "output": "No" }, { "input": "4\n547 2606459 222763549 143466789", "output": "No" }, { "input": "3\n129140163 33554432 1", "output": "Yes" }, { "input": "10\n244140625 244140625 244140625 244140625 244140625 244140625 244140625 244140625 536870912 387420489", "output": "No" }, { "input": "3\n5 5 1", "output": "No" }, { "input": "5\n3 7 29 36760123 823996703", "output": "No" } ]	1,547,658,550	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	6	2,000	6,860,800	from fractions import gcd import array def lcm(a,b): return (ab)//gcd(a,b) n=105 prime = [True for i in range(n+1)] a = array.array('i') p = 2 k = 0 while (p p <= n): if (prime[p] == True): for i in range(p * p, n+1, p): prime[i] = False p += 1 for i in range(5,n,+2): if (prime[i]==True): k=k+1 a.append(i) n=int(input()) s=input().split() L=1 res="Yes" for i in range(0,len(s),+1): x=int(s[i]) if i==0: L=x else: L=lcm(L,x) for i in range(0,len(s),+1): x=L//int(s[i]) for i in range(0,len(a),+1): if x<a[i]: break elif x%a[i]==0: res="No" break if res=="No": break print(res)	Title: Bear and Poker Time Limit: None seconds Memory Limit: None megabytes Problem Description: Limak is an old brown bear. He often plays poker with his friends. Today they went to a casino. There are n players (including Limak himself) and right now all of them have bids on the table. i-th of them has bid with size ai dollars. Each player can double his bid any number of times and triple his bid any number of times. The casino has a great jackpot for making all bids equal. Is it possible that Limak and his friends will win a jackpot? Input Specification: First line of input contains an integer n (2<=≤<=n<=≤<=105), the number of players. The second line contains n integer numbers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the bids of players. Output Specification: Print "Yes" (without the quotes) if players can make their bids become equal, or "No" otherwise. Demo Input: ['4\n75 150 75 50\n', '3\n100 150 250\n'] Demo Output: ['Yes\n', 'No\n'] Note: In the first sample test first and third players should double their bids twice, second player should double his bid once and fourth player should both double and triple his bid. It can be shown that in the second sample test there is no way to make all bids equal.	```python from fractions import gcd import array def lcm(a,b): return (ab)//gcd(a,b) n=105 prime = [True for i in range(n+1)] a = array.array('i') p = 2 k = 0 while (p p <= n): if (prime[p] == True): for i in range(p * p, n+1, p): prime[i] = False p += 1 for i in range(5,n,+2): if (prime[i]==True): k=k+1 a.append(i) n=int(input()) s=input().split() L=1 res="Yes" for i in range(0,len(s),+1): x=int(s[i]) if i==0: L=x else: L=lcm(L,x) for i in range(0,len(s),+1): x=L//int(s[i]) for i in range(0,len(a),+1): if x<a[i]: break elif x%a[i]==0: res="No" break if res=="No": break print(res) ```	0
237	A	Free Cash	PROGRAMMING	1,000	[ "implementation" ]		null	null	Valera runs a 24/7 fast food cafe. He magically learned that next day n people will visit his cafe. For each person we know the arrival time: the i-th person comes exactly at hi hours mi minutes. The cafe spends less than a minute to serve each client, but if a client comes in and sees that there is no free cash, than he doesn't want to wait and leaves the cafe immediately. Valera is very greedy, so he wants to serve all n customers next day (and get more profit). However, for that he needs to ensure that at each moment of time the number of working cashes is no less than the number of clients in the cafe. Help Valera count the minimum number of cashes to work at his cafe next day, so that they can serve all visitors.	The first line contains a single integer n (1<=≤<=n<=≤<=105), that is the number of cafe visitors. Each of the following n lines has two space-separated integers hi and mi (0<=≤<=hi<=≤<=23; 0<=≤<=mi<=≤<=59), representing the time when the i-th person comes into the cafe. Note that the time is given in the chronological order. All time is given within one 24-hour period.	Print a single integer — the minimum number of cashes, needed to serve all clients next day.	[ "4\n8 0\n8 10\n8 10\n8 45\n", "3\n0 12\n10 11\n22 22\n" ]	[ "2\n", "1\n" ]	In the first sample it is not enough one cash to serve all clients, because two visitors will come into cafe in 8:10. Therefore, if there will be one cash in cafe, then one customer will be served by it, and another one will not wait and will go away. In the second sample all visitors will come in different times, so it will be enough one cash.	500	[ { "input": "4\n8 0\n8 10\n8 10\n8 45", "output": "2" }, { "input": "3\n0 12\n10 11\n22 22", "output": "1" }, { "input": "5\n12 8\n15 27\n15 27\n16 2\n19 52", "output": "2" }, { "input": "7\n5 6\n7 34\n7 34\n7 34\n12 29\n15 19\n20 23", "output": "3" }, { "input": "8\n0 36\n4 7\n4 7\n4 7\n11 46\n12 4\n15 39\n18 6", "output": "3" }, { "input": "20\n4 12\n4 21\n4 27\n4 56\n5 55\n7 56\n11 28\n11 36\n14 58\n15 59\n16 8\n17 12\n17 23\n17 23\n17 23\n17 23\n17 23\n17 23\n20 50\n22 32", "output": "6" }, { "input": "10\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30\n1 30", "output": "10" }, { "input": "50\n0 23\n1 21\n2 8\n2 45\n3 1\n4 19\n4 37\n7 7\n7 40\n8 43\n9 51\n10 13\n11 2\n11 19\n11 30\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 37\n12 54\n13 32\n13 42\n14 29\n14 34\n14 48\n15 0\n15 27\n16 22\n16 31\n17 25\n17 26\n17 33\n18 14\n18 16\n18 20\n19 0\n19 5\n19 56\n20 22\n21 26\n22 0\n22 10\n22 11\n22 36\n23 17\n23 20", "output": "8" }, { "input": "10\n0 39\n1 35\n1 49\n1 51\n5 24\n7 40\n7 56\n16 42\n23 33\n23 49", "output": "1" }, { "input": "15\n0 16\n6 15\n8 2\n8 6\n8 7\n10 1\n10 1\n10 3\n10 12\n13 5\n14 16\n14 16\n14 16\n14 16\n14 16", "output": "5" }, { "input": "2\n0 24\n1 0", "output": "1" }, { "input": "1\n0 0", "output": "1" }, { "input": "1\n1 5", "output": "1" }, { "input": "1\n1 1", "output": "1" }, { "input": "3\n0 0\n0 0\n0 0", "output": "3" }, { "input": "1\n5 0", "output": "1" }, { "input": "5\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "5" }, { "input": "1\n10 10", "output": "1" }, { "input": "1\n8 0", "output": "1" }, { "input": "10\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "10" }, { "input": "2\n0 0\n0 1", "output": "1" }, { "input": "2\n8 5\n8 5", "output": "2" } ]	1,690,788,001	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	3	122	0	n = int(input()) cash = 1 sum1 = 0 h1,m1 = map(int , input().split()) sum1 = h1 + m1 if n > 1 : for i in range(1,n): h,m = map(int , input().split()) if sum1 == h + m : cash = cash + 1 sum1 = h + m else : cash = 1 print(cash)	Title: Free Cash Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera runs a 24/7 fast food cafe. He magically learned that next day n people will visit his cafe. For each person we know the arrival time: the i-th person comes exactly at hi hours mi minutes. The cafe spends less than a minute to serve each client, but if a client comes in and sees that there is no free cash, than he doesn't want to wait and leaves the cafe immediately. Valera is very greedy, so he wants to serve all n customers next day (and get more profit). However, for that he needs to ensure that at each moment of time the number of working cashes is no less than the number of clients in the cafe. Help Valera count the minimum number of cashes to work at his cafe next day, so that they can serve all visitors. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=105), that is the number of cafe visitors. Each of the following n lines has two space-separated integers hi and mi (0<=≤<=hi<=≤<=23; 0<=≤<=mi<=≤<=59), representing the time when the i-th person comes into the cafe. Note that the time is given in the chronological order. All time is given within one 24-hour period. Output Specification: Print a single integer — the minimum number of cashes, needed to serve all clients next day. Demo Input: ['4\n8 0\n8 10\n8 10\n8 45\n', '3\n0 12\n10 11\n22 22\n'] Demo Output: ['2\n', '1\n'] Note: In the first sample it is not enough one cash to serve all clients, because two visitors will come into cafe in 8:10. Therefore, if there will be one cash in cafe, then one customer will be served by it, and another one will not wait and will go away. In the second sample all visitors will come in different times, so it will be enough one cash.	```python n = int(input()) cash = 1 sum1 = 0 h1,m1 = map(int , input().split()) sum1 = h1 + m1 if n > 1 : for i in range(1,n): h,m = map(int , input().split()) if sum1 == h + m : cash = cash + 1 sum1 = h + m else : cash = 1 print(cash) ```	0
246	E	Blood Cousins Return	PROGRAMMING	2,400	[ "binary search", "data structures", "dfs and similar", "dp", "sortings" ]		null	null	Polycarpus got hold of a family tree. The found tree describes the family relations of n people, numbered from 1 to n. Every person in this tree has at most one direct ancestor. Also, each person in the tree has a name, the names are not necessarily unique. We call the man with a number a a 1-ancestor of the man with a number b, if the man with a number a is a direct ancestor of the man with a number b. We call the man with a number a a k-ancestor (k<=><=1) of the man with a number b, if the man with a number b has a 1-ancestor, and the man with a number a is a (k<=-<=1)-ancestor of the 1-ancestor of the man with a number b. In the tree the family ties do not form cycles. In other words there isn't a person who is his own direct or indirect ancestor (that is, who is an x-ancestor of himself, for some x, x<=><=0). We call a man with a number a the k-son of the man with a number b, if the man with a number b is a k-ancestor of the man with a number a. Polycarpus is very much interested in how many sons and which sons each person has. He took a piece of paper and wrote m pairs of numbers vi, ki. Help him to learn for each pair vi, ki the number of distinct names among all names of the ki-sons of the man with number vi.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=105) — the number of people in the tree. Next n lines contain the description of people in the tree. The i-th line contains space-separated string si and integer ri (0<=≤<=ri<=≤<=n), where si is the name of the man with a number i, and ri is either the number of the direct ancestor of the man with a number i or 0, if the man with a number i has no direct ancestor. The next line contains a single integer m (1<=≤<=m<=≤<=105) — the number of Polycarpus's records. Next m lines contain space-separated pairs of integers. The i-th line contains integers vi, ki (1<=≤<=vi,<=ki<=≤<=n). It is guaranteed that the family relationships do not form cycles. The names of all people are non-empty strings, consisting of no more than 20 lowercase English letters.	Print m whitespace-separated integers — the answers to Polycarpus's records. Print the answers to the records in the order, in which the records occur in the input.	[ "6\npasha 0\ngerald 1\ngerald 1\nvalera 2\nigor 3\nolesya 1\n5\n1 1\n1 2\n1 3\n3 1\n6 1\n", "6\nvalera 0\nvalera 1\nvalera 1\ngerald 0\nvalera 4\nkolya 4\n7\n1 1\n1 2\n2 1\n2 2\n4 1\n5 1\n6 1\n" ]	[ "2\n2\n0\n1\n0\n", "1\n0\n0\n0\n2\n0\n0\n" ]	none	2,500	[ { "input": "6\npasha 0\ngerald 1\ngerald 1\nvalera 2\nigor 3\nolesya 1\n5\n1 1\n1 2\n1 3\n3 1\n6 1", "output": "2\n2\n0\n1\n0" }, { "input": "6\nvalera 0\nvalera 1\nvalera 1\ngerald 0\nvalera 4\nkolya 4\n7\n1 1\n1 2\n2 1\n2 2\n4 1\n5 1\n6 1", "output": "1\n0\n0\n0\n2\n0\n0" }, { "input": "1\nc 0\n20\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1\n1 1", "output": "0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0" }, { "input": "2\ndd 0\nh 0\n20\n2 1\n2 1\n1 1\n1 1\n1 1\n2 1\n2 1\n1 1\n1 1\n2 1\n2 1\n1 1\n1 1\n1 1\n1 1\n1 1\n2 1\n2 1\n1 1\n1 1", "output": "0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0" }, { "input": "3\na 0\nhj 0\ng 2\n20\n1 1\n2 1\n2 1\n1 1\n2 1\n2 1\n1 1\n1 1\n1 1\n3 1\n2 1\n1 1\n2 1\n3 1\n3 1\n2 1\n3 1\n2 1\n1 1\n2 1", "output": "0\n1\n1\n0\n1\n1\n0\n0\n0\n0\n1\n0\n1\n0\n0\n1\n0\n1\n0\n1" }, { "input": "3\ne 0\nb 0\nkg 0\n20\n1 1\n3 1\n3 1\n2 1\n1 1\n3 1\n2 1\n1 1\n2 1\n2 1\n2 1\n3 1\n3 1\n3 1\n1 1\n1 1\n2 1\n1 1\n2 1\n3 1", "output": "0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0" }, { "input": "4\nbf 0\nc 0\njc 2\ni 3\n20\n3 1\n3 1\n4 1\n2 1\n1 1\n4 1\n4 1\n2 1\n2 1\n3 1\n4 1\n4 1\n1 1\n2 1\n4 1\n1 1\n1 1\n4 1\n1 1\n4 1", "output": "1\n1\n0\n1\n0\n0\n0\n1\n1\n1\n0\n0\n0\n1\n0\n0\n0\n0\n0\n0" }, { "input": "4\nfh 0\neg 0\nc 1\nhb 3\n20\n4 1\n3 1\n1 1\n4 1\n2 1\n4 1\n3 1\n4 1\n3 1\n3 1\n2 1\n1 1\n4 1\n2 1\n2 1\n3 1\n3 1\n4 1\n1 1\n3 1", "output": "0\n1\n1\n0\n0\n0\n1\n0\n1\n1\n0\n1\n0\n0\n0\n1\n1\n0\n1\n1" } ]	1,689,423,050	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	92	0	print("_RANDOM_GUESS_1689423050.067455")# 1689423050.0674741	Title: Blood Cousins Return Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarpus got hold of a family tree. The found tree describes the family relations of n people, numbered from 1 to n. Every person in this tree has at most one direct ancestor. Also, each person in the tree has a name, the names are not necessarily unique. We call the man with a number a a 1-ancestor of the man with a number b, if the man with a number a is a direct ancestor of the man with a number b. We call the man with a number a a k-ancestor (k<=><=1) of the man with a number b, if the man with a number b has a 1-ancestor, and the man with a number a is a (k<=-<=1)-ancestor of the 1-ancestor of the man with a number b. In the tree the family ties do not form cycles. In other words there isn't a person who is his own direct or indirect ancestor (that is, who is an x-ancestor of himself, for some x, x<=><=0). We call a man with a number a the k-son of the man with a number b, if the man with a number b is a k-ancestor of the man with a number a. Polycarpus is very much interested in how many sons and which sons each person has. He took a piece of paper and wrote m pairs of numbers vi, ki. Help him to learn for each pair vi, ki the number of distinct names among all names of the ki-sons of the man with number vi. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=105) — the number of people in the tree. Next n lines contain the description of people in the tree. The i-th line contains space-separated string si and integer ri (0<=≤<=ri<=≤<=n), where si is the name of the man with a number i, and ri is either the number of the direct ancestor of the man with a number i or 0, if the man with a number i has no direct ancestor. The next line contains a single integer m (1<=≤<=m<=≤<=105) — the number of Polycarpus's records. Next m lines contain space-separated pairs of integers. The i-th line contains integers vi, ki (1<=≤<=vi,<=ki<=≤<=n). It is guaranteed that the family relationships do not form cycles. The names of all people are non-empty strings, consisting of no more than 20 lowercase English letters. Output Specification: Print m whitespace-separated integers — the answers to Polycarpus's records. Print the answers to the records in the order, in which the records occur in the input. Demo Input: ['6\npasha 0\ngerald 1\ngerald 1\nvalera 2\nigor 3\nolesya 1\n5\n1 1\n1 2\n1 3\n3 1\n6 1\n', '6\nvalera 0\nvalera 1\nvalera 1\ngerald 0\nvalera 4\nkolya 4\n7\n1 1\n1 2\n2 1\n2 2\n4 1\n5 1\n6 1\n'] Demo Output: ['2\n2\n0\n1\n0\n', '1\n0\n0\n0\n2\n0\n0\n'] Note: none	```python print("_RANDOM_GUESS_1689423050.067455")# 1689423050.0674741 ```	0
707	A	Brain's Photos	PROGRAMMING	800	[ "implementation" ]		null	null	Small, but very brave, mouse Brain was not accepted to summer school of young villains. He was upset and decided to postpone his plans of taking over the world, but to become a photographer instead. As you may know, the coolest photos are on the film (because you can specify the hashtag #film for such). Brain took a lot of colourful pictures on colored and black-and-white film. Then he developed and translated it into a digital form. But now, color and black-and-white photos are in one folder, and to sort them, one needs to spend more than one hour! As soon as Brain is a photographer not programmer now, he asks you to help him determine for a single photo whether it is colored or black-and-white. Photo can be represented as a matrix sized n<=×<=m, and each element of the matrix stores a symbol indicating corresponding pixel color. There are only 6 colors: - 'C' (cyan)- 'M' (magenta)- 'Y' (yellow)- 'W' (white)- 'G' (grey)- 'B' (black) The photo is considered black-and-white if it has only white, black and grey pixels in it. If there are any of cyan, magenta or yellow pixels in the photo then it is considered colored.	The first line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=100) — the number of photo pixel matrix rows and columns respectively. Then n lines describing matrix rows follow. Each of them contains m space-separated characters describing colors of pixels in a row. Each character in the line is one of the 'C', 'M', 'Y', 'W', 'G' or 'B'.	Print the "#Black&White" (without quotes), if the photo is black-and-white and "#Color" (without quotes), if it is colored, in the only line.	[ "2 2\nC M\nY Y\n", "3 2\nW W\nW W\nB B\n", "1 1\nW\n" ]	[ "#Color", "#Black&White", "#Black&White" ]	none	500	[ { "input": "2 2\nC M\nY Y", "output": "#Color" }, { "input": "3 2\nW W\nW W\nB B", "output": "#Black&White" }, { "input": "1 1\nW", "output": "#Black&White" }, { "input": "2 3\nW W W\nB G Y", "output": "#Color" }, { "input": "1 1\nW", "output": "#Black&White" }, { "input": "5 5\nW G B Y M\nG B Y M C\nB Y M C W\nY M C W G\nM C W G B", "output": "#Color" }, { "input": "1 6\nC M Y W G B", "output": "#Color" }, { "input": "1 3\nW G B", "output": "#Black&White" }, { "input": "1 1\nW", "output": "#Black&White" }, { "input": "5 5\nW G B W G\nG B W G B\nB W G B W\nW G B W G\nG B W G B", "output": "#Black&White" }, { "input": "2 3\nW W W\nB G C", "output": "#Color" }, { "input": "2 3\nW W W\nB G M", "output": "#Color" }, { "input": "3 3\nC B W\nB Y M\nB B W", "output": "#Color" }, { "input": "1 3\nW C W", "output": "#Color" }, { "input": "3 3\nB W B\nB C W\nB W W", "output": "#Color" }, { "input": "1 2\nW Y", "output": "#Color" }, { "input": "1 1\nG", "output": "#Black&White" }, { "input": "1 3\nB G W", "output": "#Black&White" }, { "input": "2 2\nW W\nB C", "output": "#Color" }, { "input": "1 1\nM", "output": "#Color" }, { "input": "1 2\nW C", "output": "#Color" }, { "input": "2 3\nW W M\nW W M", "output": "#Color" }, { "input": "3 2\nW W\nW W\nB C", "output": "#Color" }, { "input": "2 3\nW W C\nW W W", "output": "#Color" }, { "input": "1 3\nG G G", "output": "#Black&White" }, { "input": "1 1\nC", "output": "#Color" }, { "input": "1 2\nC W", "output": "#Color" }, { "input": "1 3\nW W C", "output": "#Color" }, { "input": "2 2\nW B\nB G", "output": "#Black&White" }, { "input": "2 2\nB B\nY Y", "output": "#Color" }, { "input": "2 2\nG G\nC C", "output": "#Color" }, { "input": "1 2\nB C", "output": "#Color" }, { "input": "1 4\nG G G C", "output": "#Color" }, { "input": "1 1\nB", "output": "#Black&White" }, { "input": "2 1\nY\nB", "output": "#Color" } ]	1,677,996,174	2,147,483,647	Python 3	OK	TESTS	50	46	0	n = list(map(int, input().split())) z = [] count = 0 for i in range(0, n[0]): z.append(input().split()) for j in range(0, n[0]): for k in range(0, n[1]): if z[j][k] == "C" or z[j][k] == "M" or z[j][k] == "Y": count += 1 if count > 0: print("#Color") else: print("#Black&White")	Title: Brain's Photos Time Limit: None seconds Memory Limit: None megabytes Problem Description: Small, but very brave, mouse Brain was not accepted to summer school of young villains. He was upset and decided to postpone his plans of taking over the world, but to become a photographer instead. As you may know, the coolest photos are on the film (because you can specify the hashtag #film for such). Brain took a lot of colourful pictures on colored and black-and-white film. Then he developed and translated it into a digital form. But now, color and black-and-white photos are in one folder, and to sort them, one needs to spend more than one hour! As soon as Brain is a photographer not programmer now, he asks you to help him determine for a single photo whether it is colored or black-and-white. Photo can be represented as a matrix sized n<=×<=m, and each element of the matrix stores a symbol indicating corresponding pixel color. There are only 6 colors: - 'C' (cyan)- 'M' (magenta)- 'Y' (yellow)- 'W' (white)- 'G' (grey)- 'B' (black) The photo is considered black-and-white if it has only white, black and grey pixels in it. If there are any of cyan, magenta or yellow pixels in the photo then it is considered colored. Input Specification: The first line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=100) — the number of photo pixel matrix rows and columns respectively. Then n lines describing matrix rows follow. Each of them contains m space-separated characters describing colors of pixels in a row. Each character in the line is one of the 'C', 'M', 'Y', 'W', 'G' or 'B'. Output Specification: Print the "#Black&White" (without quotes), if the photo is black-and-white and "#Color" (without quotes), if it is colored, in the only line. Demo Input: ['2 2\nC M\nY Y\n', '3 2\nW W\nW W\nB B\n', '1 1\nW\n'] Demo Output: ['#Color', '#Black&White', '#Black&White'] Note: none	```python n = list(map(int, input().split())) z = [] count = 0 for i in range(0, n[0]): z.append(input().split()) for j in range(0, n[0]): for k in range(0, n[1]): if z[j][k] == "C" or z[j][k] == "M" or z[j][k] == "Y": count += 1 if count > 0: print("#Color") else: print("#Black&White") ```	3
483	A	Counterexample	PROGRAMMING	1,100	[ "brute force", "implementation", "math", "number theory" ]		null	null	Your friend has recently learned about coprime numbers. A pair of numbers {a,<=b} is called coprime if the maximum number that divides both a and b is equal to one. Your friend often comes up with different statements. He has recently supposed that if the pair (a,<=b) is coprime and the pair (b,<=c) is coprime, then the pair (a,<=c) is coprime. You want to find a counterexample for your friend's statement. Therefore, your task is to find three distinct numbers (a,<=b,<=c), for which the statement is false, and the numbers meet the condition l<=≤<=a<=<<=b<=<<=c<=≤<=r. More specifically, you need to find three numbers (a,<=b,<=c), such that l<=≤<=a<=<<=b<=<<=c<=≤<=r, pairs (a,<=b) and (b,<=c) are coprime, and pair (a,<=c) is not coprime.	The single line contains two positive space-separated integers l, r (1<=≤<=l<=≤<=r<=≤<=1018; r<=-<=l<=≤<=50).	Print three positive space-separated integers a, b, c — three distinct numbers (a,<=b,<=c) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order. If the counterexample does not exist, print the single number -1.	[ "2 4\n", "10 11\n", "900000000000000009 900000000000000029\n" ]	[ "2 3 4\n", "-1\n", "900000000000000009 900000000000000010 900000000000000021\n" ]	In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are. In the second sample you cannot form a group of three distinct integers, so the answer is -1. In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three.	500	[ { "input": "2 4", "output": "2 3 4" }, { "input": "10 11", "output": "-1" }, { "input": "900000000000000009 900000000000000029", "output": "900000000000000009 900000000000000010 900000000000000021" }, { "input": "640097987171091791 640097987171091835", "output": "640097987171091792 640097987171091793 640097987171091794" }, { "input": "19534350415104721 19534350415104725", "output": "19534350415104722 19534350415104723 19534350415104724" }, { "input": "933700505788726243 933700505788726280", "output": "933700505788726244 933700505788726245 933700505788726246" }, { "input": "1 3", "output": "-1" }, { "input": "1 4", "output": "2 3 4" }, { "input": "1 1", "output": "-1" }, { "input": "266540997167959130 266540997167959164", "output": "266540997167959130 266540997167959131 266540997167959132" }, { "input": "267367244641009850 267367244641009899", "output": "267367244641009850 267367244641009851 267367244641009852" }, { "input": "268193483524125978 268193483524125993", "output": "268193483524125978 268193483524125979 268193483524125980" }, { "input": "269019726702209402 269019726702209432", "output": "269019726702209402 269019726702209403 269019726702209404" }, { "input": "269845965585325530 269845965585325576", "output": "269845965585325530 269845965585325531 269845965585325532" }, { "input": "270672213058376250 270672213058376260", "output": "270672213058376250 270672213058376251 270672213058376252" }, { "input": "271498451941492378 271498451941492378", "output": "-1" }, { "input": "272324690824608506 272324690824608523", "output": "272324690824608506 272324690824608507 272324690824608508" }, { "input": "273150934002691930 273150934002691962", "output": "273150934002691930 273150934002691931 273150934002691932" }, { "input": "996517375802030516 996517375802030524", "output": "996517375802030516 996517375802030517 996517375802030518" }, { "input": "997343614685146644 997343614685146694", "output": "997343614685146644 997343614685146645 997343614685146646" }, { "input": "998169857863230068 998169857863230083", "output": "998169857863230068 998169857863230069 998169857863230070" }, { "input": "998996101041313492 998996101041313522", "output": "998996101041313492 998996101041313493 998996101041313494" }, { "input": "999822344219396916 999822344219396961", "output": "999822344219396916 999822344219396917 999822344219396918" }, { "input": "648583102513043 648583102513053", "output": "648583102513044 648583102513045 648583102513046" }, { "input": "266540997167959130 266540997167959131", "output": "-1" }, { "input": "267367244641009850 267367244641009850", "output": "-1" }, { "input": "268193483524125978 268193483524125979", "output": "-1" }, { "input": "269019726702209402 269019726702209402", "output": "-1" }, { "input": "269845965585325530 269845965585325530", "output": "-1" }, { "input": "270672213058376250 270672213058376254", "output": "270672213058376250 270672213058376251 270672213058376252" }, { "input": "271498451941492378 271498451941492379", "output": "-1" }, { "input": "272324690824608506 272324690824608508", "output": "272324690824608506 272324690824608507 272324690824608508" }, { "input": "273150934002691930 273150934002691931", "output": "-1" }, { "input": "996517375802030516 996517375802030518", "output": "996517375802030516 996517375802030517 996517375802030518" }, { "input": "997343614685146644 997343614685146644", "output": "-1" }, { "input": "2147483647 2147483649", "output": "-1" }, { "input": "3 5", "output": "-1" }, { "input": "1 7", "output": "2 3 4" }, { "input": "9 12", "output": "9 11 12" }, { "input": "4 4", "output": "-1" }, { "input": "11 13", "output": "-1" }, { "input": "2 2", "output": "-1" } ]	1,683,202,861	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	# LUOGU_RID: 109577029 #include<iostream> using namespace std; long long gcd(long long a, long long b){ long long temp = a; while(a%b != 0){ a = b; b = temp%b; temp = a; } return b; } int main(){ long long l,r; cin>>l>>r; for(long long i=l;i<=r;i++){ for(long long j=i+1;i<=r;i++){ for(long long t=j+1;t<=r;t++){ if(gcd(i,j)==1&&gcd(j,t)==1&&gcd(i,t)!=1){ cout<<i<<" "<<j<<" "<<t; return 0; } } } } cout<<"-1"; }	Title: Counterexample Time Limit: None seconds Memory Limit: None megabytes Problem Description: Your friend has recently learned about coprime numbers. A pair of numbers {a,<=b} is called coprime if the maximum number that divides both a and b is equal to one. Your friend often comes up with different statements. He has recently supposed that if the pair (a,<=b) is coprime and the pair (b,<=c) is coprime, then the pair (a,<=c) is coprime. You want to find a counterexample for your friend's statement. Therefore, your task is to find three distinct numbers (a,<=b,<=c), for which the statement is false, and the numbers meet the condition l<=≤<=a<=<<=b<=<<=c<=≤<=r. More specifically, you need to find three numbers (a,<=b,<=c), such that l<=≤<=a<=<<=b<=<<=c<=≤<=r, pairs (a,<=b) and (b,<=c) are coprime, and pair (a,<=c) is not coprime. Input Specification: The single line contains two positive space-separated integers l, r (1<=≤<=l<=≤<=r<=≤<=1018; r<=-<=l<=≤<=50). Output Specification: Print three positive space-separated integers a, b, c — three distinct numbers (a,<=b,<=c) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order. If the counterexample does not exist, print the single number -1. Demo Input: ['2 4\n', '10 11\n', '900000000000000009 900000000000000029\n'] Demo Output: ['2 3 4\n', '-1\n', '900000000000000009 900000000000000010 900000000000000021\n'] Note: In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are. In the second sample you cannot form a group of three distinct integers, so the answer is -1. In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three.	```python # LUOGU_RID: 109577029 #include<iostream> using namespace std; long long gcd(long long a, long long b){ long long temp = a; while(a%b != 0){ a = b; b = temp%b; temp = a; } return b; } int main(){ long long l,r; cin>>l>>r; for(long long i=l;i<=r;i++){ for(long long j=i+1;i<=r;i++){ for(long long t=j+1;t<=r;t++){ if(gcd(i,j)==1&&gcd(j,t)==1&&gcd(i,t)!=1){ cout<<i<<" "<<j<<" "<<t; return 0; } } } } cout<<"-1"; } ```	-1
535	B	Tavas and SaDDas	PROGRAMMING	1,100	[ "bitmasks", "brute force", "combinatorics", "implementation" ]		null	null	Once again Tavas started eating coffee mix without water! Keione told him that it smells awful, but he didn't stop doing that. That's why Keione told his smart friend, SaDDas to punish him! SaDDas took Tavas' headphones and told him: "If you solve the following problem, I'll return it to you." The problem is: You are given a lucky number n. Lucky numbers are the positive integers whose decimal representations contain only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not. If we sort all lucky numbers in increasing order, what's the 1-based index of n? Tavas is not as smart as SaDDas, so he asked you to do him a favor and solve this problem so he can have his headphones back.	The first and only line of input contains a lucky number n (1<=≤<=n<=≤<=109).	Print the index of n among all lucky numbers.	[ "4\n", "7\n", "77\n" ]	[ "1\n", "2\n", "6\n" ]	none	1,000	[ { "input": "4", "output": "1" }, { "input": "7", "output": "2" }, { "input": "77", "output": "6" }, { "input": "4", "output": "1" }, { "input": "474744", "output": "83" }, { "input": "777774", "output": "125" }, { "input": "447", "output": "8" }, { "input": "774", "output": "13" }, { "input": "4", "output": "1" }, { "input": "4447747", "output": "140" }, { "input": "7747474", "output": "233" }, { "input": "4444", "output": "15" }, { "input": "4447", "output": "16" }, { "input": "7", "output": "2" }, { "input": "4", "output": "1" }, { "input": "4447744", "output": "139" }, { "input": "77474", "output": "57" }, { "input": "7747", "output": "28" }, { "input": "444", "output": "7" }, { "input": "7", "output": "2" }, { "input": "7774477", "output": "242" }, { "input": "4477774", "output": "157" }, { "input": "7444", "output": "23" }, { "input": "7474747", "output": "212" }, { "input": "77", "output": "6" }, { "input": "774477", "output": "114" }, { "input": "7", "output": "2" }, { "input": "47", "output": "4" }, { "input": "747777", "output": "110" }, { "input": "444444444", "output": "511" }, { "input": "777777777", "output": "1022" }, { "input": "477477447", "output": "728" }, { "input": "777744747", "output": "996" } ]	1,690,146,030	2,147,483,647	PyPy 3-64	OK	TESTS	33	77	1,945,600	from bisect import bisect_left def BTK(n, bin): if len(bin) == n: luckies.append(int(bin)); return BTK(n, bin + '4'); BTK(n, bin + '7') n, luckies, bin = input(), [], "" for i in range(1, len(n) + 1): BTK(i, bin) luckies.sort() print(bisect_left(luckies, int(n)) + 1)	Title: Tavas and SaDDas Time Limit: None seconds Memory Limit: None megabytes Problem Description: Once again Tavas started eating coffee mix without water! Keione told him that it smells awful, but he didn't stop doing that. That's why Keione told his smart friend, SaDDas to punish him! SaDDas took Tavas' headphones and told him: "If you solve the following problem, I'll return it to you." The problem is: You are given a lucky number n. Lucky numbers are the positive integers whose decimal representations contain only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not. If we sort all lucky numbers in increasing order, what's the 1-based index of n? Tavas is not as smart as SaDDas, so he asked you to do him a favor and solve this problem so he can have his headphones back. Input Specification: The first and only line of input contains a lucky number n (1<=≤<=n<=≤<=109). Output Specification: Print the index of n among all lucky numbers. Demo Input: ['4\n', '7\n', '77\n'] Demo Output: ['1\n', '2\n', '6\n'] Note: none	```python from bisect import bisect_left def BTK(n, bin): if len(bin) == n: luckies.append(int(bin)); return BTK(n, bin + '4'); BTK(n, bin + '7') n, luckies, bin = input(), [], "" for i in range(1, len(n) + 1): BTK(i, bin) luckies.sort() print(bisect_left(luckies, int(n)) + 1) ```	3
1	A	Theatre Square	PROGRAMMING	1,000	[ "math" ]	A. Theatre Square	1	256	Theatre Square in the capital city of Berland has a rectangular shape with the size n<=×<=m meters. On the occasion of the city's anniversary, a decision was taken to pave the Square with square granite flagstones. Each flagstone is of the size a<=×<=a. What is the least number of flagstones needed to pave the Square? It's allowed to cover the surface larger than the Theatre Square, but the Square has to be covered. It's not allowed to break the flagstones. The sides of flagstones should be parallel to the sides of the Square.	The input contains three positive integer numbers in the first line: n,<=<=m and a (1<=≤<=<=n,<=m,<=a<=≤<=109).	Write the needed number of flagstones.	[ "6 6 4\n" ]	[ "4\n" ]	none	0	[ { "input": "6 6 4", "output": "4" }, { "input": "1 1 1", "output": "1" }, { "input": "2 1 1", "output": "2" }, { "input": "1 2 1", "output": "2" }, { "input": "2 2 1", "output": "4" }, { "input": "2 1 2", "output": "1" }, { "input": "1 1 3", "output": "1" }, { "input": "2 3 4", "output": "1" }, { "input": "1000000000 1000000000 1", "output": "1000000000000000000" }, { "input": "12 13 4", "output": "12" }, { "input": "222 332 5", "output": "3015" }, { "input": "1000 1000 10", "output": "10000" }, { "input": "1001 1000 10", "output": "10100" }, { "input": "100 10001 1000000000", "output": "1" }, { "input": "1000000000 1000000000 1000000000", "output": "1" }, { "input": "1000000000 1000000000 999999999", "output": "4" }, { "input": "1000000000 1000000000 192", "output": "27126743055556" }, { "input": "1000000000 987654321 1", "output": "987654321000000000" }, { "input": "456784567 1000000000 51", "output": "175618850864484" }, { "input": "39916800 134217728 40320", "output": "3295710" } ]	1,694,109,842	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	30	0	import math n, m, a = map(int, input().split()) l = math.ceil(n / a) w = math.ceil(m / a) total = l * w print(total_)	Title: Theatre Square Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Theatre Square in the capital city of Berland has a rectangular shape with the size n<=×<=m meters. On the occasion of the city's anniversary, a decision was taken to pave the Square with square granite flagstones. Each flagstone is of the size a<=×<=a. What is the least number of flagstones needed to pave the Square? It's allowed to cover the surface larger than the Theatre Square, but the Square has to be covered. It's not allowed to break the flagstones. The sides of flagstones should be parallel to the sides of the Square. Input Specification: The input contains three positive integer numbers in the first line: n,<=<=m and a (1<=≤<=<=n,<=m,<=a<=≤<=109). Output Specification: Write the needed number of flagstones. Demo Input: ['6 6 4\n'] Demo Output: ['4\n'] Note: none	```python import math n, m, a = map(int, input().split()) l = math.ceil(n / a) w = math.ceil(m / a) total = l * w print(total_) ```	-1
644	C	Hostname Aliases	PROGRAMMING	2,100	[ "*special", "binary search", "data structures", "implementation", "sortings", "strings" ]		null	null	There are some websites that are accessible through several different addresses. For example, for a long time Codeforces was accessible with two hostnames codeforces.com and codeforces.ru. You are given a list of page addresses being queried. For simplicity we consider all addresses to have the form http://<hostname>[/<path>], where: - <hostname> — server name (consists of words and maybe some dots separating them), - /<path> — optional part, where <path> consists of words separated by slashes. We consider two <hostname> to correspond to one website if for each query to the first <hostname> there will be exactly the same query to the second one and vice versa — for each query to the second <hostname> there will be the same query to the first one. Take a look at the samples for further clarifications. Your goal is to determine the groups of server names that correspond to one website. Ignore groups consisting of the only server name. Please note, that according to the above definition queries http://<hostname> and http://<hostname>/ are different.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — the number of page queries. Then follow n lines each containing exactly one address. Each address is of the form http://<hostname>[/<path>], where: - <hostname> consists of lowercase English letters and dots, there are no two consecutive dots, <hostname> doesn't start or finish with a dot. The length of <hostname> is positive and doesn't exceed 20. - <path> consists of lowercase English letters, dots and slashes. There are no two consecutive slashes, <path> doesn't start with a slash and its length doesn't exceed 20. Addresses are not guaranteed to be distinct.	First print k — the number of groups of server names that correspond to one website. You should count only groups of size greater than one. Next k lines should contain the description of groups, one group per line. For each group print all server names separated by a single space. You are allowed to print both groups and names inside any group in arbitrary order.	[ "10\nhttp://abacaba.ru/test\nhttp://abacaba.ru/\nhttp://abacaba.com\nhttp://abacaba.com/test\nhttp://abacaba.de/\nhttp://abacaba.ru/test\nhttp://abacaba.de/test\nhttp://abacaba.com/\nhttp://abacaba.com/t\nhttp://abacaba.com/test\n", "14\nhttp://c\nhttp://ccc.bbbb/aba..b\nhttp://cba.com\nhttp://a.c/aba..b/a\nhttp://abc/\nhttp://a.c/\nhttp://ccc.bbbb\nhttp://ab.ac.bc.aa/\nhttp://a.a.a/\nhttp://ccc.bbbb/\nhttp://cba.com/\nhttp://cba.com/aba..b\nhttp://a.a.a/aba..b/a\nhttp://abc/aba..b/a\n" ]	[ "1\nhttp://abacaba.de http://abacaba.ru \n", "2\nhttp://cba.com http://ccc.bbbb \nhttp://a.a.a http://a.c http://abc \n" ]	none	1,500	[ { "input": "10\nhttp://abacaba.ru/test\nhttp://abacaba.ru/\nhttp://abacaba.com\nhttp://abacaba.com/test\nhttp://abacaba.de/\nhttp://abacaba.ru/test\nhttp://abacaba.de/test\nhttp://abacaba.com/\nhttp://abacaba.com/t\nhttp://abacaba.com/test", "output": "1\nhttp://abacaba.de http://abacaba.ru " }, { "input": "14\nhttp://c\nhttp://ccc.bbbb/aba..b\nhttp://cba.com\nhttp://a.c/aba..b/a\nhttp://abc/\nhttp://a.c/\nhttp://ccc.bbbb\nhttp://ab.ac.bc.aa/\nhttp://a.a.a/\nhttp://ccc.bbbb/\nhttp://cba.com/\nhttp://cba.com/aba..b\nhttp://a.a.a/aba..b/a\nhttp://abc/aba..b/a", "output": "2\nhttp://cba.com http://ccc.bbbb \nhttp://a.a.a http://a.c http://abc " }, { "input": "10\nhttp://tqr.ekdb.nh/w\nhttp://p.ulz/ifw\nhttp://w.gw.dw.xn/kpe\nhttp://byt.mqii.zkv/j/xt\nhttp://ovquj.rbgrlw/k..\nhttp://bv.plu.e.dslg/j/xt\nhttp://udgci.ufgi.gwbd.s/\nhttp://l.oh.ne.o.r/.vo\nhttp://l.oh.ne.o.r/w\nhttp://tqr.ekdb.nh/.vo", "output": "2\nhttp://l.oh.ne.o.r http://tqr.ekdb.nh \nhttp://bv.plu.e.dslg http://byt.mqii.zkv " }, { "input": "12\nhttp://ickght.ck/mr\nhttp://a.exhel/.b\nhttp://a.exhel/\nhttp://ti.cdm/\nhttp://ti.cdm/x/wd/lm.h.\nhttp://ickght.ck/a\nhttp://ickght.ck\nhttp://c.gcnk.d/.b\nhttp://c.gcnk.d/x/wd/lm.h.\nhttp://ti.cdm/.b\nhttp://a.exhel/x/wd/lm.h.\nhttp://c.gcnk.d/", "output": "1\nhttp://a.exhel http://c.gcnk.d http://ti.cdm " }, { "input": "14\nhttp://jr/kgb\nhttp://ps.p.t.jeua.x.a.q.t\nhttp://gsqqs.n/t/\nhttp://w.afwsnuc.ff.km/cohox/u.\nhttp://u.s.wbumkuqm/\nhttp://u.s.wbumkuqm/cohox/u.\nhttp://nq.dzjkjcwv.f.s/bvm/\nhttp://zoy.shgg\nhttp://gsqqs.n\nhttp://u.s.wbumkuqm/b.pd.\nhttp://w.afwsnuc.ff.km/\nhttp://w.afwsnuc.ff.km/b.pd.\nhttp://nq.dzjkjcwv.f.s/n\nhttp://nq.dzjkjcwv.f.s/ldbw", "output": "2\nhttp://ps.p.t.jeua.x.a.q.t http://zoy.shgg \nhttp://u.s.wbumkuqm http://w.afwsnuc.ff.km " }, { "input": "15\nhttp://l.edzplwqsij.rw/\nhttp://m.e.mehd.acsoinzm/s\nhttp://yg.ttahn.xin.obgez/ap/\nhttp://qqbb.pqkaqcncodxmaae\nhttp://lzi.a.flkp.lnn.k/o/qfr.cp\nhttp://lzi.a.flkp.lnn.k/f\nhttp://p.ngu.gkoq/.szinwwi\nhttp://qqbb.pqkaqcncodxmaae/od\nhttp://qqbb.pqkaqcncodxmaae\nhttp://wsxvmi.qpe.fihtgdvi/e./\nhttp://p.ngu.gkoq/zfoh\nhttp://m.e.mehd.acsoinzm/xp\nhttp://c.gy.p.h.tkrxt.jnsjt/j\nhttp://wsxvmi.qpe.fihtgdvi/grkag.z\nhttp://p.ngu.gkoq/t", "output": "0" }, { "input": "15\nhttp://w.hhjvdn.mmu/.ca.p\nhttp://m.p.p.lar/\nhttp://lgmjun.r.kogpr.ijn/./t\nhttp://bapchpl.mcw.a.lob/d/ym/./g.q\nhttp://uxnjfnjp.kxr.ss.e.uu/jwo./hjl/\nhttp://fd.ezw.ykbb.xhl.t/\nhttp://i.xcb.kr/.ca.p\nhttp://jofec.ry.fht.gt\nhttp://qeo.gghwe.lcr/d/ym/./g.q\nhttp://gt\nhttp://gjvifpf.d/d/ym/./g.q\nhttp://oba\nhttp://rjs.qwd/v/hi\nhttp://fgkj/\nhttp://ivun.naumc.l/.ca.p", "output": "4\nhttp://gt http://jofec.ry.fht.gt http://oba \nhttp://fd.ezw.ykbb.xhl.t http://fgkj http://m.p.p.lar \nhttp://i.xcb.kr http://ivun.naumc.l http://w.hhjvdn.mmu \nhttp://bapchpl.mcw.a.lob http://gjvifpf.d http://qeo.gghwe.lcr " }, { "input": "20\nhttp://gjwr/xsoiagp/\nhttp://gdnmu/j\nhttp://yfygudx.e.aqa.ezh/j\nhttp://mpjxue.cuvipq/\nhttp://a/\nhttp://kr/..n/c.\nhttp://a/xsoiagp/\nhttp://kr/z\nhttp://kr/v.cv/rk/k\nhttp://lvhpz\nhttp://qv.v.jqzhq\nhttp://y.no/\nhttp://kr/n\nhttp://y.no/xsoiagp/\nhttp://kr/ebe/z/\nhttp://olsvbxxw.win.n/j\nhttp://p.ct/j\nhttp://mpjxue.cuvipq/xsoiagp/\nhttp://kr/j\nhttp://gjwr/", "output": "3\nhttp://lvhpz http://qv.v.jqzhq \nhttp://a http://gjwr http://mpjxue.cuvipq http://y.no \nhttp://gdnmu http://olsvbxxw.win.n http://p.ct http://yfygudx.e.aqa.ezh " }, { "input": "1\nhttp://a", "output": "0" }, { "input": "3\nhttp://abacaba.com/test\nhttp://abacaba.de/test\nhttp://abacaba.de/test", "output": "1\nhttp://abacaba.com http://abacaba.de " } ]	1,534,017,003	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	14	654	27,750,400	from sys import stdin def main(): l = stdin.read().splitlines() a = t = l[0] = '~' l.sort() r, pp = [], [a] for b in l: if a == b: continue a = b i = a.find('/', 7) h, p = (a, '') if i == -1 else (a[:i], a[i:]) if t == h: pp.append(p) else: r.append(('+'.join(pp), t)) t, pp = h, [p] r.sort() l, s = [], [] for p, h in r: if t == p: s.append(h) else: if len(s) > 1: l.append(' '.join(s)) t, s = p, [h] print(len(l)) print('\n'.join(l)) if __name__ == '__main__': main()	Title: Hostname Aliases Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are some websites that are accessible through several different addresses. For example, for a long time Codeforces was accessible with two hostnames codeforces.com and codeforces.ru. You are given a list of page addresses being queried. For simplicity we consider all addresses to have the form http://<hostname>[/<path>], where: - <hostname> — server name (consists of words and maybe some dots separating them), - /<path> — optional part, where <path> consists of words separated by slashes. We consider two <hostname> to correspond to one website if for each query to the first <hostname> there will be exactly the same query to the second one and vice versa — for each query to the second <hostname> there will be the same query to the first one. Take a look at the samples for further clarifications. Your goal is to determine the groups of server names that correspond to one website. Ignore groups consisting of the only server name. Please note, that according to the above definition queries http://<hostname> and http://<hostname>/ are different. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — the number of page queries. Then follow n lines each containing exactly one address. Each address is of the form http://<hostname>[/<path>], where: - <hostname> consists of lowercase English letters and dots, there are no two consecutive dots, <hostname> doesn't start or finish with a dot. The length of <hostname> is positive and doesn't exceed 20. - <path> consists of lowercase English letters, dots and slashes. There are no two consecutive slashes, <path> doesn't start with a slash and its length doesn't exceed 20. Addresses are not guaranteed to be distinct. Output Specification: First print k — the number of groups of server names that correspond to one website. You should count only groups of size greater than one. Next k lines should contain the description of groups, one group per line. For each group print all server names separated by a single space. You are allowed to print both groups and names inside any group in arbitrary order. Demo Input: ['10\nhttp://abacaba.ru/test\nhttp://abacaba.ru/\nhttp://abacaba.com\nhttp://abacaba.com/test\nhttp://abacaba.de/\nhttp://abacaba.ru/test\nhttp://abacaba.de/test\nhttp://abacaba.com/\nhttp://abacaba.com/t\nhttp://abacaba.com/test\n', '14\nhttp://c\nhttp://ccc.bbbb/aba..b\nhttp://cba.com\nhttp://a.c/aba..b/a\nhttp://abc/\nhttp://a.c/\nhttp://ccc.bbbb\nhttp://ab.ac.bc.aa/\nhttp://a.a.a/\nhttp://ccc.bbbb/\nhttp://cba.com/\nhttp://cba.com/aba..b\nhttp://a.a.a/aba..b/a\nhttp://abc/aba..b/a\n'] Demo Output: ['1\nhttp://abacaba.de http://abacaba.ru \n', '2\nhttp://cba.com http://ccc.bbbb \nhttp://a.a.a http://a.c http://abc \n'] Note: none	```python from sys import stdin def main(): l = stdin.read().splitlines() a = t = l[0] = '~' l.sort() r, pp = [], [a] for b in l: if a == b: continue a = b i = a.find('/', 7) h, p = (a, '') if i == -1 else (a[:i], a[i:]) if t == h: pp.append(p) else: r.append(('+'.join(pp), t)) t, pp = h, [p] r.sort() l, s = [], [] for p, h in r: if t == p: s.append(h) else: if len(s) > 1: l.append(' '.join(s)) t, s = p, [h] print(len(l)) print('\n'.join(l)) if __name__ == '__main__': main() ```	0
912	A	Tricky Alchemy	PROGRAMMING	800	[ "implementation" ]		null	null	During the winter holidays, the demand for Christmas balls is exceptionally high. Since it's already 2018, the advances in alchemy allow easy and efficient ball creation by utilizing magic crystals. Grisha needs to obtain some yellow, green and blue balls. It's known that to produce a yellow ball one needs two yellow crystals, green — one yellow and one blue, and for a blue ball, three blue crystals are enough. Right now there are A yellow and B blue crystals in Grisha's disposal. Find out how many additional crystals he should acquire in order to produce the required number of balls.	The first line features two integers A and B (0<=≤<=A,<=B<=≤<=109), denoting the number of yellow and blue crystals respectively at Grisha's disposal. The next line contains three integers x, y and z (0<=≤<=x,<=y,<=z<=≤<=109) — the respective amounts of yellow, green and blue balls to be obtained.	Print a single integer — the minimum number of crystals that Grisha should acquire in addition.	[ "4 3\n2 1 1\n", "3 9\n1 1 3\n", "12345678 87654321\n43043751 1000000000 53798715\n" ]	[ "2\n", "1\n", "2147483648\n" ]	In the first sample case, Grisha needs five yellow and four blue crystals to create two yellow balls, one green ball, and one blue ball. To do that, Grisha needs to obtain two additional crystals: one yellow and one blue.	500	[ { "input": "4 3\n2 1 1", "output": "2" }, { "input": "3 9\n1 1 3", "output": "1" }, { "input": "12345678 87654321\n43043751 1000000000 53798715", "output": "2147483648" }, { "input": "12 12\n3 5 2", "output": "0" }, { "input": "770 1390\n170 442 311", "output": "12" }, { "input": "3555165 6693472\n1499112 556941 3075290", "output": "3089339" }, { "input": "0 0\n1000000000 1000000000 1000000000", "output": "7000000000" }, { "input": "1 1\n0 1 0", "output": "0" }, { "input": "117708228 562858833\n118004008 360437130 154015822", "output": "738362681" }, { "input": "999998118 700178721\n822106746 82987112 547955384", "output": "1753877029" }, { "input": "566568710 765371101\n60614022 80126928 809950465", "output": "1744607222" }, { "input": "448858599 829062060\n764716760 97644201 203890025", "output": "1178219122" }, { "input": "626115781 966381948\n395190569 820194184 229233367", "output": "1525971878" }, { "input": "803372962 103701834\n394260597 837711458 623172928", "output": "3426388098" }, { "input": "980630143 241021722\n24734406 928857659 312079781", "output": "1624075280" }, { "input": "862920032 378341609\n360240924 241342224 337423122", "output": "974174021" }, { "input": "40177212 515661496\n64343660 963892207 731362684", "output": "3694721078" }, { "input": "217434393 579352456\n694817470 981409480 756706026", "output": "4825785129" }, { "input": "394691574 716672343\n398920207 72555681 150645586", "output": "475704521" }, { "input": "276981463 853992230\n29394015 90072954 839552440", "output": "1754738044" }, { "input": "843552056 919184611\n341530221 423649259 101547519", "output": "263157645" }, { "input": "20809236 56504497\n972004030 441166533 495487081", "output": "4235488636" }, { "input": "198066417 825228166\n602477839 532312735 520830423", "output": "2808777834" }, { "input": "80356306 962548053\n601547868 549830008 914769984", "output": "4004161345" }, { "input": "257613487 394835231\n642087093 567347282 308709545", "output": "2692548667" }, { "input": "139903376 532155119\n641157122 289897263 629020178", "output": "3077110809" }, { "input": "612127849 669475006\n271630930 676010757 22959739", "output": "682559736" }, { "input": "0 0\n0 0 0", "output": "0" }, { "input": "1000000000 1000000000\n499999998 4 333333332", "output": "0" }, { "input": "1000000000 1000000000\n1000000000 1000000000 1000000000", "output": "5000000000" }, { "input": "4 3\n1 0 1", "output": "0" }, { "input": "4 12\n1 2 3", "output": "0" }, { "input": "4 20\n1 2 1", "output": "0" }, { "input": "100 10\n2 3 4", "output": "5" }, { "input": "6 0\n1 1 1", "output": "4" }, { "input": "25 5\n3 3 3", "output": "7" }, { "input": "48 27\n22 39 20", "output": "107" }, { "input": "4 0\n1 1 1", "output": "4" } ]	1,621,001,165	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	1	77	20,172,800	a,b=list(map(int ,input().split())) x,y,z=list(map(int ,input().split())) total_yellow_crystal=x2+y-a total_blue_crystal=y+z3-b ans=0 if(total_blue_crystal>0 and total_yellow_crystal>0): ans+=total_blue_crystal+total_yellow_crystal elif(total_yellow_crystal>0 and total_blue_crystal<0): ans+=total_yellow_crystal elif(total_yellow_crystal<0 and total_blue_crystal>0): ans+=total_blue_crystal print(ans)	Title: Tricky Alchemy Time Limit: None seconds Memory Limit: None megabytes Problem Description: During the winter holidays, the demand for Christmas balls is exceptionally high. Since it's already 2018, the advances in alchemy allow easy and efficient ball creation by utilizing magic crystals. Grisha needs to obtain some yellow, green and blue balls. It's known that to produce a yellow ball one needs two yellow crystals, green — one yellow and one blue, and for a blue ball, three blue crystals are enough. Right now there are A yellow and B blue crystals in Grisha's disposal. Find out how many additional crystals he should acquire in order to produce the required number of balls. Input Specification: The first line features two integers A and B (0<=≤<=A,<=B<=≤<=109), denoting the number of yellow and blue crystals respectively at Grisha's disposal. The next line contains three integers x, y and z (0<=≤<=x,<=y,<=z<=≤<=109) — the respective amounts of yellow, green and blue balls to be obtained. Output Specification: Print a single integer — the minimum number of crystals that Grisha should acquire in addition. Demo Input: ['4 3\n2 1 1\n', '3 9\n1 1 3\n', '12345678 87654321\n43043751 1000000000 53798715\n'] Demo Output: ['2\n', '1\n', '2147483648\n'] Note: In the first sample case, Grisha needs five yellow and four blue crystals to create two yellow balls, one green ball, and one blue ball. To do that, Grisha needs to obtain two additional crystals: one yellow and one blue.	```python a,b=list(map(int ,input().split())) x,y,z=list(map(int ,input().split())) total_yellow_crystal=x2+y-a total_blue_crystal=y+z3-b ans=0 if(total_blue_crystal>0 and total_yellow_crystal>0): ans+=total_blue_crystal+total_yellow_crystal elif(total_yellow_crystal>0 and total_blue_crystal<0): ans+=total_yellow_crystal elif(total_yellow_crystal<0 and total_blue_crystal>0): ans+=total_blue_crystal print(ans) ```	0
1,009	B	Minimum Ternary String	PROGRAMMING	1,400	[ "greedy", "implementation" ]		null	null	You are given a ternary string (it is a string which consists only of characters '0', '1' and '2'). You can swap any two adjacent (consecutive) characters '0' and '1' (i.e. replace "01" with "10" or vice versa) or any two adjacent (consecutive) characters '1' and '2' (i.e. replace "12" with "21" or vice versa). For example, for string "010210" we can perform the following moves: - "010210" $\rightarrow$ "100210"; - "010210" $\rightarrow$ "001210"; - "010210" $\rightarrow$ "010120"; - "010210" $\rightarrow$ "010201". Note than you cannot swap "02" $\rightarrow$ "20" and vice versa. You cannot perform any other operations with the given string excluding described above. You task is to obtain the minimum possible (lexicographically) string by using these swaps arbitrary number of times (possibly, zero). String $a$ is lexicographically less than string $b$ (if strings $a$ and $b$ have the same length) if there exists some position $i$ ($1 \le i \le \|a\|$, where $\|s\|$ is the length of the string $s$) such that for every $j < i$ holds $a_j = b_j$, and $a_i < b_i$.	The first line of the input contains the string $s$ consisting only of characters '0', '1' and '2', its length is between $1$ and $10^5$ (inclusive).	Print a single string — the minimum possible (lexicographically) string you can obtain by using the swaps described above arbitrary number of times (possibly, zero).	[ "100210\n", "11222121\n", "20\n" ]	[ "001120\n", "11112222\n", "20\n" ]	none	0	[ { "input": "100210", "output": "001120" }, { "input": "11222121", "output": "11112222" }, { "input": "20", "output": "20" }, { "input": "1002", "output": "0012" }, { "input": "10", "output": "01" }, { "input": "000021", "output": "000012" }, { "input": "021", "output": "012" }, { "input": "2", "output": "2" }, { "input": "201", "output": "120" }, { "input": "2112120", "output": "1112220" }, { "input": "102", "output": "012" }, { "input": "202", "output": "202" }, { "input": "220201", "output": "122020" }, { "input": "12", "output": "12" }, { "input": "100022202", "output": "000122202" }, { "input": "01", "output": "01" }, { "input": "1", "output": "1" } ]	1,548,439,533	2,147,483,647	Python 3	OK	TESTS	30	109	819,200	fixed = set(['0', '2']) def sort(ss): out = [] count = 0 for a in ss: if a in fixed: out.append(a) else: count += 1 ind = 0 for a in out: if a == '0': ind += 1 continue break out.insert(ind, ''.join(['1' for b in range(count)])) return ''.join(out) # print(sort('100210')) # print(sort('11222121')) # print(sort('20')) # print(sort('0000202220202022202011111')) print(sort(input()))	Title: Minimum Ternary String Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a ternary string (it is a string which consists only of characters '0', '1' and '2'). You can swap any two adjacent (consecutive) characters '0' and '1' (i.e. replace "01" with "10" or vice versa) or any two adjacent (consecutive) characters '1' and '2' (i.e. replace "12" with "21" or vice versa). For example, for string "010210" we can perform the following moves: - "010210" $\rightarrow$ "100210"; - "010210" $\rightarrow$ "001210"; - "010210" $\rightarrow$ "010120"; - "010210" $\rightarrow$ "010201". Note than you cannot swap "02" $\rightarrow$ "20" and vice versa. You cannot perform any other operations with the given string excluding described above. You task is to obtain the minimum possible (lexicographically) string by using these swaps arbitrary number of times (possibly, zero). String $a$ is lexicographically less than string $b$ (if strings $a$ and $b$ have the same length) if there exists some position $i$ ($1 \le i \le \|a\|$, where $\|s\|$ is the length of the string $s$) such that for every $j < i$ holds $a_j = b_j$, and $a_i < b_i$. Input Specification: The first line of the input contains the string $s$ consisting only of characters '0', '1' and '2', its length is between $1$ and $10^5$ (inclusive). Output Specification: Print a single string — the minimum possible (lexicographically) string you can obtain by using the swaps described above arbitrary number of times (possibly, zero). Demo Input: ['100210\n', '11222121\n', '20\n'] Demo Output: ['001120\n', '11112222\n', '20\n'] Note: none	```python fixed = set(['0', '2']) def sort(ss): out = [] count = 0 for a in ss: if a in fixed: out.append(a) else: count += 1 ind = 0 for a in out: if a == '0': ind += 1 continue break out.insert(ind, ''.join(['1' for b in range(count)])) return ''.join(out) # print(sort('100210')) # print(sort('11222121')) # print(sort('20')) # print(sort('0000202220202022202011111')) print(sort(input())) ```	3
832	A	Sasha and Sticks	PROGRAMMING	800	[ "games", "math" ]		null	null	It's one more school day now. Sasha doesn't like classes and is always bored at them. So, each day he invents some game and plays in it alone or with friends. Today he invented one simple game to play with Lena, with whom he shares a desk. The rules are simple. Sasha draws n sticks in a row. After that the players take turns crossing out exactly k sticks from left or right in each turn. Sasha moves first, because he is the inventor of the game. If there are less than k sticks on the paper before some turn, the game ends. Sasha wins if he makes strictly more moves than Lena. Sasha wants to know the result of the game before playing, you are to help him.	The first line contains two integers n and k (1<=≤<=n,<=k<=≤<=1018, k<=≤<=n) — the number of sticks drawn by Sasha and the number k — the number of sticks to be crossed out on each turn.	If Sasha wins, print "YES" (without quotes), otherwise print "NO" (without quotes). You can print each letter in arbitrary case (upper of lower).	[ "1 1\n", "10 4\n" ]	[ "YES\n", "NO\n" ]	In the first example Sasha crosses out 1 stick, and then there are no sticks. So Lena can't make a move, and Sasha wins. In the second example Sasha crosses out 4 sticks, then Lena crosses out 4 sticks, and after that there are only 2 sticks left. Sasha can't make a move. The players make equal number of moves, so Sasha doesn't win.	500	[ { "input": "1 1", "output": "YES" }, { "input": "10 4", "output": "NO" }, { "input": "251656215122324104 164397544865601257", "output": "YES" }, { "input": "963577813436662285 206326039287271924", "output": "NO" }, { "input": "1000000000000000000 1", "output": "NO" }, { "input": "253308697183523656 25332878317796706", "output": "YES" }, { "input": "669038685745448997 501718093668307460", "output": "YES" }, { "input": "116453141993601660 87060381463547965", "output": "YES" }, { "input": "766959657 370931668", "output": "NO" }, { "input": "255787422422806632 146884995820359999", "output": "YES" }, { "input": "502007866464507926 71266379084204128", "output": "YES" }, { "input": "257439908778973480 64157133126869976", "output": "NO" }, { "input": "232709385 91708542", "output": "NO" }, { "input": "252482458300407528 89907711721009125", "output": "NO" }, { "input": "6 2", "output": "YES" }, { "input": "6 3", "output": "NO" }, { "input": "6 4", "output": "YES" }, { "input": "6 5", "output": "YES" }, { "input": "6 6", "output": "YES" }, { "input": "258266151957056904 30153168463725364", "output": "NO" }, { "input": "83504367885565783 52285355047292458", "output": "YES" }, { "input": "545668929424440387 508692735816921376", "output": "YES" }, { "input": "547321411485639939 36665750286082900", "output": "NO" }, { "input": "548973893546839491 183137237979822911", "output": "NO" }, { "input": "544068082 193116851", "output": "NO" }, { "input": "871412474 749817171", "output": "YES" }, { "input": "999999999 1247", "output": "NO" }, { "input": "851941088 712987048", "output": "YES" }, { "input": "559922900 418944886", "output": "YES" }, { "input": "293908937 37520518", "output": "YES" }, { "input": "650075786 130049650", "output": "NO" }, { "input": "1000000000 1000000000", "output": "YES" }, { "input": "548147654663723363 107422751713800746", "output": "YES" }, { "input": "828159210 131819483", "output": "NO" }, { "input": "6242634 4110365", "output": "YES" }, { "input": "458601973 245084155", "output": "YES" }, { "input": "349593257 18089089", "output": "YES" }, { "input": "814768821 312514745", "output": "NO" }, { "input": "697884949 626323363", "output": "YES" }, { "input": "667011589 54866795", "output": "NO" }, { "input": "1000000000000000000 2", "output": "NO" }, { "input": "1000000000000000000 3", "output": "YES" }, { "input": "1000000000000000000 4", "output": "NO" }, { "input": "999999999999999 1", "output": "YES" }, { "input": "17 4", "output": "NO" }, { "input": "2 2", "output": "YES" }, { "input": "1000000000000000 2", "output": "NO" }, { "input": "12 4", "output": "YES" }, { "input": "6 1", "output": "NO" }, { "input": "2 1", "output": "NO" }, { "input": "10000000005 1", "output": "YES" }, { "input": "10000000000000009 2", "output": "NO" }, { "input": "12457895452123 1", "output": "YES" }, { "input": "999999999999999999 9", "output": "YES" }, { "input": "1000000000000 3", "output": "YES" }, { "input": "13099714659575475 6549849616514894", "output": "NO" }, { "input": "100000000000000001 1", "output": "YES" }, { "input": "825175814723458 324", "output": "YES" }, { "input": "20 4", "output": "YES" }, { "input": "100000176877 4", "output": "YES" }, { "input": "100000 3", "output": "YES" }, { "input": "946744073709551614 10", "output": "YES" } ]	1,584,304,341	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	109	0	n, k = input().split() n = int(n) k = int(k) print('YES' if n % k == 0 else 'NO')	Title: Sasha and Sticks Time Limit: None seconds Memory Limit: None megabytes Problem Description: It's one more school day now. Sasha doesn't like classes and is always bored at them. So, each day he invents some game and plays in it alone or with friends. Today he invented one simple game to play with Lena, with whom he shares a desk. The rules are simple. Sasha draws n sticks in a row. After that the players take turns crossing out exactly k sticks from left or right in each turn. Sasha moves first, because he is the inventor of the game. If there are less than k sticks on the paper before some turn, the game ends. Sasha wins if he makes strictly more moves than Lena. Sasha wants to know the result of the game before playing, you are to help him. Input Specification: The first line contains two integers n and k (1<=≤<=n,<=k<=≤<=1018, k<=≤<=n) — the number of sticks drawn by Sasha and the number k — the number of sticks to be crossed out on each turn. Output Specification: If Sasha wins, print "YES" (without quotes), otherwise print "NO" (without quotes). You can print each letter in arbitrary case (upper of lower). Demo Input: ['1 1\n', '10 4\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first example Sasha crosses out 1 stick, and then there are no sticks. So Lena can't make a move, and Sasha wins. In the second example Sasha crosses out 4 sticks, then Lena crosses out 4 sticks, and after that there are only 2 sticks left. Sasha can't make a move. The players make equal number of moves, so Sasha doesn't win.	```python n, k = input().split() n = int(n) k = int(k) print('YES' if n % k == 0 else 'NO') ```	0
296	A	Yaroslav and Permutations	PROGRAMMING	1,100	[ "greedy", "math" ]		null	null	Yaroslav has an array that consists of n integers. In one second Yaroslav can swap two neighboring array elements. Now Yaroslav is wondering if he can obtain an array where any two neighboring elements would be distinct in a finite time. Help Yaroslav.	The first line contains integer n (1<=≤<=n<=≤<=100) — the number of elements in the array. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=1000) — the array elements.	In the single line print "YES" (without the quotes) if Yaroslav can obtain the array he needs, and "NO" (without the quotes) otherwise.	[ "1\n1\n", "3\n1 1 2\n", "4\n7 7 7 7\n" ]	[ "YES\n", "YES\n", "NO\n" ]	In the first sample the initial array fits well. In the second sample Yaroslav can get array: 1, 2, 1. He can swap the last and the second last elements to obtain it. In the third sample Yarosav can't get the array he needs.	500	[ { "input": "1\n1", "output": "YES" }, { "input": "3\n1 1 2", "output": "YES" }, { "input": "4\n7 7 7 7", "output": "NO" }, { "input": "4\n479 170 465 146", "output": "YES" }, { "input": "5\n996 437 605 996 293", "output": "YES" }, { "input": "6\n727 539 896 668 36 896", "output": "YES" }, { "input": "7\n674 712 674 674 674 674 674", "output": "NO" }, { "input": "8\n742 742 742 742 742 289 742 742", "output": "NO" }, { "input": "9\n730 351 806 806 806 630 85 757 967", "output": "YES" }, { "input": "10\n324 539 83 440 834 640 440 440 440 440", "output": "YES" }, { "input": "7\n925 830 925 98 987 162 356", "output": "YES" }, { "input": "68\n575 32 53 351 151 942 725 967 431 108 192 8 338 458 288 754 384 946 910 210 759 222 589 423 947 507 31 414 169 901 592 763 656 411 360 625 538 549 484 596 42 603 351 292 837 375 21 597 22 349 200 669 485 282 735 54 1000 419 939 901 789 128 468 729 894 649 484 808", "output": "YES" }, { "input": "22\n618 814 515 310 617 936 452 601 250 520 557 799 304 225 9 845 610 990 703 196 486 94", "output": "YES" }, { "input": "44\n459 581 449 449 449 449 449 449 449 623 449 449 449 449 449 449 449 449 889 449 203 273 329 449 449 449 449 449 449 845 882 323 22 449 449 893 449 449 449 449 449 870 449 402", "output": "NO" }, { "input": "90\n424 3 586 183 286 89 427 618 758 833 933 170 155 722 190 977 330 369 693 426 556 435 550 442 513 146 61 719 754 140 424 280 997 688 530 550 438 867 950 194 196 298 417 287 106 489 283 456 735 115 702 317 672 787 264 314 356 186 54 913 809 833 946 314 757 322 559 647 983 482 145 197 223 130 162 536 451 174 467 45 660 293 440 254 25 155 511 746 650 187", "output": "YES" }, { "input": "14\n959 203 478 315 788 788 373 834 488 519 774 764 193 103", "output": "YES" }, { "input": "81\n544 528 528 528 528 4 506 528 32 528 528 528 528 528 528 528 528 975 528 528 528 528 528 528 528 528 528 528 528 528 528 20 528 528 528 528 528 528 528 528 852 528 528 120 528 528 61 11 528 528 528 228 528 165 883 528 488 475 628 528 528 528 528 528 528 597 528 528 528 528 528 528 528 528 528 528 528 412 528 521 925", "output": "NO" }, { "input": "89\n354 356 352 355 355 355 352 354 354 352 355 356 355 352 354 356 354 355 355 354 353 352 352 355 355 356 352 352 353 356 352 353 354 352 355 352 353 353 353 354 353 354 354 353 356 353 353 354 354 354 354 353 352 353 355 356 356 352 356 354 353 352 355 354 356 356 356 354 354 356 354 355 354 355 353 352 354 355 352 355 355 354 356 353 353 352 356 352 353", "output": "YES" }, { "input": "71\n284 284 285 285 285 284 285 284 284 285 284 285 284 284 285 284 285 285 285 285 284 284 285 285 284 284 284 285 284 285 284 285 285 284 284 284 285 284 284 285 285 285 284 284 285 284 285 285 284 285 285 284 285 284 284 284 285 285 284 285 284 285 285 285 285 284 284 285 285 284 285", "output": "NO" }, { "input": "28\n602 216 214 825 814 760 814 28 76 814 814 288 814 814 222 707 11 490 814 543 914 705 814 751 976 814 814 99", "output": "YES" }, { "input": "48\n546 547 914 263 986 945 914 914 509 871 324 914 153 571 914 914 914 528 970 566 544 914 914 914 410 914 914 589 609 222 914 889 691 844 621 68 914 36 914 39 630 749 914 258 945 914 727 26", "output": "YES" }, { "input": "56\n516 76 516 197 516 427 174 516 706 813 94 37 516 815 516 516 937 483 16 516 842 516 638 691 516 635 516 516 453 263 516 516 635 257 125 214 29 81 516 51 362 516 677 516 903 516 949 654 221 924 516 879 516 516 972 516", "output": "YES" }, { "input": "46\n314 723 314 314 314 235 314 314 314 314 270 314 59 972 314 216 816 40 314 314 314 314 314 314 314 381 314 314 314 314 314 314 314 789 314 957 114 942 314 314 29 314 314 72 314 314", "output": "NO" }, { "input": "72\n169 169 169 599 694 81 250 529 865 406 817 169 667 169 965 169 169 663 65 169 903 169 942 763 169 807 169 603 169 169 13 169 169 810 169 291 169 169 169 169 169 169 169 713 169 440 169 169 169 169 169 480 169 169 867 169 169 169 169 169 169 169 169 393 169 169 459 169 99 169 601 800", "output": "NO" }, { "input": "100\n317 316 317 316 317 316 317 316 317 316 316 317 317 316 317 316 316 316 317 316 317 317 316 317 316 316 316 316 316 316 317 316 317 317 317 317 317 317 316 316 316 317 316 317 316 317 316 317 317 316 317 316 317 317 316 317 316 317 316 317 316 316 316 317 317 317 317 317 316 317 317 316 316 316 316 317 317 316 317 316 316 316 316 316 316 317 316 316 317 317 317 317 317 317 317 317 317 316 316 317", "output": "NO" }, { "input": "100\n510 510 510 162 969 32 510 511 510 510 911 183 496 875 903 461 510 510 123 578 510 510 510 510 510 755 510 673 510 510 763 510 510 909 510 435 487 959 807 510 368 788 557 448 284 332 510 949 510 510 777 112 857 926 487 510 510 510 678 510 510 197 829 427 698 704 409 509 510 238 314 851 510 651 510 455 682 510 714 635 973 510 443 878 510 510 510 591 510 24 596 510 43 183 510 510 671 652 214 784", "output": "YES" }, { "input": "100\n476 477 474 476 476 475 473 476 474 475 473 477 476 476 474 476 474 475 476 477 473 473 473 474 474 476 473 473 476 476 475 476 473 474 473 473 477 475 475 475 476 475 477 477 477 476 475 475 475 473 476 477 475 476 477 473 474 477 473 475 476 476 474 477 476 474 473 477 473 475 477 473 476 474 477 473 475 477 473 476 476 475 476 475 474 473 477 473 475 473 477 473 473 474 475 473 477 476 477 474", "output": "YES" }, { "input": "100\n498 498 498 498 498 499 498 499 499 499 498 498 498 498 499 498 499 499 498 499 498 498 498 499 499 499 498 498 499 499 498 498 498 499 498 499 498 498 498 499 498 499 498 498 498 498 499 498 498 499 498 498 499 498 499 499 498 499 499 499 498 498 498 498 499 498 499 498 499 499 499 499 498 498 499 499 498 499 499 498 498 499 499 498 498 499 499 499 498 498 499 498 498 498 499 499 499 498 498 499", "output": "NO" }, { "input": "100\n858 53 816 816 816 816 816 816 816 181 816 816 816 816 579 879 816 948 171 816 816 150 866 816 816 816 897 816 816 816 816 816 816 706 816 539 816 816 816 816 816 816 423 487 816 615 254 816 816 816 816 83 816 816 816 816 816 816 816 816 816 816 816 136 775 999 816 816 816 644 816 816 816 816 927 816 802 816 856 816 816 816 816 816 816 816 816 816 816 700 816 816 816 816 982 477 816 891 806 816", "output": "NO" }, { "input": "100\n167 169 169 167 169 169 167 167 167 167 168 166 170 170 169 170 170 170 169 168 166 167 170 169 167 169 168 169 166 170 166 167 170 166 166 167 169 166 166 169 166 167 168 168 170 167 168 166 168 170 167 168 167 169 169 166 168 167 170 168 167 169 168 169 166 168 168 169 169 166 170 168 167 169 170 168 167 169 168 167 168 168 166 169 170 170 166 166 167 170 167 168 167 167 169 169 166 166 169 167", "output": "YES" }, { "input": "100\n1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000", "output": "NO" }, { "input": "99\n1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000", "output": "NO" }, { "input": "100\n1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "YES" }, { "input": "99\n1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "YES" }, { "input": "2\n1 1", "output": "NO" }, { "input": "1\n1000", "output": "YES" }, { "input": "12\n2 2 4 4 4 4 6 6 6 6 6 6", "output": "YES" } ]	1,600,337,876	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	24	186	0	#!/usr/bin/env python3 import sys if __name__ == "__main__": n = int(sys.stdin.readline()) ais = list(map(int, sys.stdin.readline().split())) flag = 1 no = {} for ai in ais: if ai not in no: no[ai] = 0 no[ai] += 1 for o in no: if no[o] > n//2 + 1: flag = 0 if flag == 1: print("YES") else: print("NO")	Title: Yaroslav and Permutations Time Limit: None seconds Memory Limit: None megabytes Problem Description: Yaroslav has an array that consists of n integers. In one second Yaroslav can swap two neighboring array elements. Now Yaroslav is wondering if he can obtain an array where any two neighboring elements would be distinct in a finite time. Help Yaroslav. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=100) — the number of elements in the array. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=1000) — the array elements. Output Specification: In the single line print "YES" (without the quotes) if Yaroslav can obtain the array he needs, and "NO" (without the quotes) otherwise. Demo Input: ['1\n1\n', '3\n1 1 2\n', '4\n7 7 7 7\n'] Demo Output: ['YES\n', 'YES\n', 'NO\n'] Note: In the first sample the initial array fits well. In the second sample Yaroslav can get array: 1, 2, 1. He can swap the last and the second last elements to obtain it. In the third sample Yarosav can't get the array he needs.	```python #!/usr/bin/env python3 import sys if __name__ == "__main__": n = int(sys.stdin.readline()) ais = list(map(int, sys.stdin.readline().split())) flag = 1 no = {} for ai in ais: if ai not in no: no[ai] = 0 no[ai] += 1 for o in no: if no[o] > n//2 + 1: flag = 0 if flag == 1: print("YES") else: print("NO") ```	0
1,005	B	Delete from the Left	PROGRAMMING	900	[ "brute force", "implementation", "strings" ]		null	null	You are given two strings $s$ and $t$. In a single move, you can choose any of two strings and delete the first (that is, the leftmost) character. After a move, the length of the string decreases by $1$. You can't choose a string if it is empty. For example: - by applying a move to the string "where", the result is the string "here", - by applying a move to the string "a", the result is an empty string "". You are required to make two given strings equal using the fewest number of moves. It is possible that, in the end, both strings will be equal to the empty string, and so, are equal to each other. In this case, the answer is obviously the sum of the lengths of the initial strings. Write a program that finds the minimum number of moves to make two given strings $s$ and $t$ equal.	The first line of the input contains $s$. In the second line of the input contains $t$. Both strings consist only of lowercase Latin letters. The number of letters in each string is between 1 and $2\cdot10^5$, inclusive.	Output the fewest number of moves required. It is possible that, in the end, both strings will be equal to the empty string, and so, are equal to each other. In this case, the answer is obviously the sum of the lengths of the given strings.	[ "test\nwest\n", "codeforces\nyes\n", "test\nyes\n", "b\nab\n" ]	[ "2\n", "9\n", "7\n", "1\n" ]	In the first example, you should apply the move once to the first string and apply the move once to the second string. As a result, both strings will be equal to "est". In the second example, the move should be applied to the string "codeforces" $8$ times. As a result, the string becomes "codeforces" $\to$ "es". The move should be applied to the string "yes" once. The result is the same string "yes" $\to$ "es". In the third example, you can make the strings equal only by completely deleting them. That is, in the end, both strings will be empty. In the fourth example, the first character of the second string should be deleted.	0	[ { "input": "test\nwest", "output": "2" }, { "input": "codeforces\nyes", "output": "9" }, { "input": "test\nyes", "output": "7" }, { "input": "b\nab", "output": "1" }, { "input": "z\nz", "output": "0" }, { "input": "abacabadabacaba\nabacabadacaba", "output": "18" }, { "input": "z\na", "output": "2" }, { "input": "ama\nsama", "output": "1" }, { "input": "aaabc\nbc", "output": "3" }, { "input": "lxuyspmieeuyxluv\ndfwxqvavzxctblaa", "output": "32" }, { "input": "ahmedaly\naly", "output": "5" }, { "input": "aa\na", "output": "1" }, { "input": "aa\nba", "output": "2" }, { "input": "cccba\nba", "output": "3" }, { "input": "a\nab", "output": "3" }, { "input": "dadc\ndddc", "output": "4" }, { "input": "aacaaab\nb", "output": "6" }, { "input": "dddc\ncdcde", "output": "9" }, { "input": "bbdab\ndab", "output": "2" }, { "input": "a\naa", "output": "1" }, { "input": "aa\nab", "output": "4" }, { "input": "codeforces\nces", "output": "7" } ]	1,678,910,125	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	4	31	0	x=input() y=input() lenx=len(x) leny=len(y) i=0 s=min(lenx,leny) while( x[len(x)-1-i]==y[len(y)-1-i]): i+=1 print(len(x)+len(y)-2*i)	Title: Delete from the Left Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two strings $s$ and $t$. In a single move, you can choose any of two strings and delete the first (that is, the leftmost) character. After a move, the length of the string decreases by $1$. You can't choose a string if it is empty. For example: - by applying a move to the string "where", the result is the string "here", - by applying a move to the string "a", the result is an empty string "". You are required to make two given strings equal using the fewest number of moves. It is possible that, in the end, both strings will be equal to the empty string, and so, are equal to each other. In this case, the answer is obviously the sum of the lengths of the initial strings. Write a program that finds the minimum number of moves to make two given strings $s$ and $t$ equal. Input Specification: The first line of the input contains $s$. In the second line of the input contains $t$. Both strings consist only of lowercase Latin letters. The number of letters in each string is between 1 and $2\cdot10^5$, inclusive. Output Specification: Output the fewest number of moves required. It is possible that, in the end, both strings will be equal to the empty string, and so, are equal to each other. In this case, the answer is obviously the sum of the lengths of the given strings. Demo Input: ['test\nwest\n', 'codeforces\nyes\n', 'test\nyes\n', 'b\nab\n'] Demo Output: ['2\n', '9\n', '7\n', '1\n'] Note: In the first example, you should apply the move once to the first string and apply the move once to the second string. As a result, both strings will be equal to "est". In the second example, the move should be applied to the string "codeforces" $8$ times. As a result, the string becomes "codeforces" $\to$ "es". The move should be applied to the string "yes" once. The result is the same string "yes" $\to$ "es". In the third example, you can make the strings equal only by completely deleting them. That is, in the end, both strings will be empty. In the fourth example, the first character of the second string should be deleted.	```python x=input() y=input() lenx=len(x) leny=len(y) i=0 s=min(lenx,leny) while( x[len(x)-1-i]==y[len(y)-1-i]): i+=1 print(len(x)+len(y)-2*i) ```	-1
37	A	Towers	PROGRAMMING	1,000	[ "sortings" ]	A. Towers	2	256	Little Vasya has received a young builder’s kit. The kit consists of several wooden bars, the lengths of all of them are known. The bars can be put one on the top of the other if their lengths are the same. Vasya wants to construct the minimal number of towers from the bars. Help Vasya to use the bars in the best way possible.	The first line contains an integer N (1<=≤<=N<=≤<=1000) — the number of bars at Vasya’s disposal. The second line contains N space-separated integers li — the lengths of the bars. All the lengths are natural numbers not exceeding 1000.	In one line output two numbers — the height of the largest tower and their total number. Remember that Vasya should use all the bars.	[ "3\n1 2 3\n", "4\n6 5 6 7\n" ]	[ "1 3\n", "2 3\n" ]	none	500	[ { "input": "3\n1 2 3", "output": "1 3" }, { "input": "4\n6 5 6 7", "output": "2 3" }, { "input": "4\n3 2 1 1", "output": "2 3" }, { "input": "4\n1 2 3 3", "output": "2 3" }, { "input": "3\n20 22 36", "output": "1 3" }, { "input": "25\n47 30 94 41 45 20 96 51 110 129 24 116 9 47 32 82 105 114 116 75 154 151 70 42 162", "output": "2 23" }, { "input": "45\n802 664 442 318 318 827 417 878 711 291 231 414 807 553 657 392 279 202 386 606 465 655 658 112 887 15 25 502 95 44 679 775 942 609 209 871 31 234 4 231 150 110 22 823 193", "output": "2 43" }, { "input": "63\n93 180 116 7 8 179 268 279 136 94 221 153 264 190 278 19 19 63 153 26 158 225 25 49 89 218 111 149 255 225 197 122 243 80 3 224 107 178 202 17 53 92 69 42 228 24 81 205 95 8 265 82 228 156 127 241 172 159 106 60 67 155 111", "output": "2 57" }, { "input": "83\n246 535 994 33 390 927 321 97 223 922 812 705 79 80 977 457 476 636 511 137 6 360 815 319 717 674 368 551 714 628 278 713 761 553 184 414 623 753 428 214 581 115 439 61 677 216 772 592 187 603 658 310 439 559 870 376 109 321 189 337 277 26 70 734 796 907 979 693 570 227 345 650 737 633 701 914 134 403 972 940 371 6 642", "output": "2 80" }, { "input": "105\n246 57 12 204 165 123 246 68 191 310 3 152 386 333 374 257 158 104 333 50 80 290 8 340 101 76 221 316 388 289 138 359 316 26 93 290 105 178 81 195 41 196 218 180 244 292 187 97 315 323 174 119 248 239 92 312 31 2 101 180 307 170 338 314 163 281 217 31 142 238 280 190 190 156 70 74 329 113 151 8 141 313 366 40 253 116 168 124 135 230 294 266 353 389 371 359 195 200 183 237 93 102 315 118 188", "output": "2 92" }, { "input": "123\n112 277 170 247 252 115 157 293 256 143 196 90 12 164 164 42 8 223 167 109 175 232 239 111 148 51 9 254 93 32 268 162 231 91 47 162 161 191 195 145 247 292 129 199 230 94 144 217 18 205 176 20 143 198 121 243 211 262 230 277 195 255 108 290 220 275 158 2 286 200 60 267 278 207 123 150 123 116 131 13 12 226 33 244 30 275 263 45 158 192 254 149 242 176 62 224 221 288 250 160 155 225 132 143 276 293 218 145 197 175 33 129 79 206 210 192 222 262 190 52 274 243 233", "output": "3 101" }, { "input": "5\n5 5 5 5 5", "output": "5 1" }, { "input": "3\n1000 1000 1000", "output": "3 1" }, { "input": "1\n1000", "output": "1 1" }, { "input": "1\n1", "output": "1 1" }, { "input": "5\n1 1000 1000 1000 1000", "output": "4 2" }, { "input": "5\n1000 1000 1000 8 7", "output": "3 3" } ]	1,458,933,053	2,147,483,647	Python 3	OK	TESTS	61	124	4,608,000	#!/usr/bin/python m = int(input()) list=input().split() res={} for i in list: t=int(i) if res.__contains__(t): res[t]+=1 else: res[t]=0 res[t]+=1 max = -1 for i in res: if res[i]>max: max=res[i] print(max,len(res))	Title: Towers Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Little Vasya has received a young builder’s kit. The kit consists of several wooden bars, the lengths of all of them are known. The bars can be put one on the top of the other if their lengths are the same. Vasya wants to construct the minimal number of towers from the bars. Help Vasya to use the bars in the best way possible. Input Specification: The first line contains an integer N (1<=≤<=N<=≤<=1000) — the number of bars at Vasya’s disposal. The second line contains N space-separated integers li — the lengths of the bars. All the lengths are natural numbers not exceeding 1000. Output Specification: In one line output two numbers — the height of the largest tower and their total number. Remember that Vasya should use all the bars. Demo Input: ['3\n1 2 3\n', '4\n6 5 6 7\n'] Demo Output: ['1 3\n', '2 3\n'] Note: none	```python #!/usr/bin/python m = int(input()) list=input().split() res={} for i in list: t=int(i) if res.__contains__(t): res[t]+=1 else: res[t]=0 res[t]+=1 max = -1 for i in res: if res[i]>max: max=res[i] print(max,len(res)) ```	3.960417
574	B	Bear and Three Musketeers	PROGRAMMING	1,500	[ "brute force", "dfs and similar", "graphs", "hashing" ]		null	null	Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions.	The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once.	If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes).	[ "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n", "7 4\n2 1\n3 6\n5 1\n1 7\n" ]	[ "2\n", "-1\n" ]	In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	1,000	[ { "input": "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5", "output": "2" }, { "input": "7 4\n2 1\n3 6\n5 1\n1 7", "output": "-1" }, { "input": "5 0", "output": "-1" }, { "input": "7 14\n3 6\n2 3\n5 2\n5 6\n7 5\n7 4\n6 2\n3 5\n7 1\n4 1\n6 1\n7 6\n6 4\n5 4", "output": "5" }, { "input": "15 15\n4 15\n12 1\n15 6\n11 6\n15 7\n6 8\n15 10\n6 12\n12 8\n15 8\n15 3\n11 9\n7 3\n6 4\n12 11", "output": "4" }, { "input": "12 66\n9 12\n1 4\n8 4\n5 3\n10 5\n12 2\n3 2\n2 7\n1 7\n3 7\n6 2\n4 2\n6 10\n8 10\n4 6\n8 5\n12 6\n11 9\n7 12\n5 4\n11 7\n9 4\n10 4\n6 3\n1 6\n9 7\n3 8\n6 11\n10 9\n3 11\n11 1\n5 12\n8 2\n2 1\n3 1\n12 4\n3 9\n10 12\n8 11\n7 10\n11 5\n9 5\n8 7\n11 4\n8 1\n2 11\n5 1\n3 4\n8 12\n9 2\n10 11\n9 1\n5 7\n10 3\n11 12\n7 4\n2 10\n12 3\n6 8\n7 6\n2 5\n1 10\n12 1\n9 6\n8 9\n6 5", "output": "27" }, { "input": "3 0", "output": "-1" }, { "input": "3 2\n2 3\n2 1", "output": "-1" }, { "input": "3 3\n3 1\n3 2\n2 1", "output": "0" }, { "input": "4 6\n3 4\n1 3\n4 1\n3 2\n2 1\n4 2", "output": "3" }, { "input": "8 10\n1 5\n4 1\n1 2\n2 8\n2 7\n6 3\n5 8\n3 5\n7 8\n1 6", "output": "2" }, { "input": "15 17\n1 3\n7 10\n7 9\n8 13\n6 15\n8 2\n13 6\n10 5\n15 3\n4 15\n4 6\n5 11\n13 9\n12 2\n11 14\n4 12\n14 1", "output": "3" }, { "input": "25 10\n19 11\n19 13\n13 11\n13 22\n19 23\n19 20\n13 17\n19 14\n13 15\n19 4", "output": "7" }, { "input": "987 50\n221 959\n221 553\n959 695\n553 959\n819 437\n371 295\n695 553\n959 347\n595 699\n652 628\n553 347\n868 589\n695 221\n282 714\n351 703\n104 665\n755 436\n556 511\n695 347\n221 347\n243 874\n695 847\n863 501\n583 145\n786 221\n38 286\n72 397\n808 658\n724 437\n911 548\n405 759\n681 316\n648 328\n327 199\n772 139\n932 609\n859 576\n915 507\n379 316\n381 348\n918 871\n261 450\n443 389\n549 246\n901 515\n930 923\n336 545\n179 225\n213 677\n458 204", "output": "6" }, { "input": "4000 0", "output": "-1" } ]	1,620,524,859	2,147,483,647	Python 3	OK	TESTS	40	1,044	7,270,400	number1,number2 = map(int,input().split()) aux = [[] for _ in range(number1+1)] min = number13 while number2>0: ai,bi = map(int,input().split()) aux[ai].append(bi) aux[bi].append(ai) number2 -= 1 for i in range(1,number1-1): if len(aux[i]) < 2: continue else: for j in aux[i]: if len(aux[j]) < 2: continue else: for l in aux[j]: if l in aux[i]: temp = len(aux[i]) + len(aux[j]) + len(aux[l]) - 6 if temp < min: min = temp if min < number13: print(min) else: print(-1)	Title: Bear and Three Musketeers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions. Input Specification: The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once. Output Specification: If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes). Demo Input: ['5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n', '7 4\n2 1\n3 6\n5 1\n1 7\n'] Demo Output: ['2\n', '-1\n'] Note: In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	```python number1,number2 = map(int,input().split()) aux = [[] for _ in range(number1+1)] min = number13 while number2>0: ai,bi = map(int,input().split()) aux[ai].append(bi) aux[bi].append(ai) number2 -= 1 for i in range(1,number1-1): if len(aux[i]) < 2: continue else: for j in aux[i]: if len(aux[j]) < 2: continue else: for l in aux[j]: if l in aux[i]: temp = len(aux[i]) + len(aux[j]) + len(aux[l]) - 6 if temp < min: min = temp if min < number13: print(min) else: print(-1) ```	3
558	D	Guess Your Way Out! II	PROGRAMMING	2,300	[ "data structures", "implementation", "sortings" ]		null	null	Amr bought a new video game "Guess Your Way Out! II". The goal of the game is to find an exit from the maze that looks like a perfect binary tree of height h. The player is initially standing at the root of the tree and the exit from the tree is located at some leaf node. Let's index all the nodes of the tree such that - The root is number 1 - Each internal node i (i<=≤<=2h<=-<=1<=-<=1) will have a left child with index = 2i and a right child with index = 2i<=+<=1 The level of a node is defined as 1 for a root, or 1 + level of parent of the node otherwise. The vertices of the level h are called leaves. The exit to the maze is located at some leaf node n, the player doesn't know where the exit is so he has to guess his way out! In the new version of the game the player is allowed to ask questions on the format "Does the ancestor(exit,<=i) node number belong to the range [L,<=R]?". Here ancestor(v,<=i) is the ancestor of a node v that located in the level i. The game will answer with "Yes" or "No" only. The game is designed such that it doesn't always answer correctly, and sometimes it cheats to confuse the player!. Amr asked a lot of questions and got confused by all these answers, so he asked you to help him. Given the questions and its answers, can you identify whether the game is telling contradictory information or not? If the information is not contradictory and the exit node can be determined uniquely, output its number. If the information is not contradictory, but the exit node isn't defined uniquely, output that the number of questions is not sufficient. Otherwise output that the information is contradictory.	The first line contains two integers h,<=q (1<=≤<=h<=≤<=50, 0<=≤<=q<=≤<=105), the height of the tree and the number of questions respectively. The next q lines will contain four integers each i,<=L,<=R,<=ans (1<=≤<=i<=≤<=h, 2i<=-<=1<=≤<=L<=≤<=R<=≤<=2i<=-<=1, ), representing a question as described in the statement with its answer (ans<==<=1 if the answer is "Yes" and ans<==<=0 if the answer is "No").	If the information provided by the game is contradictory output "Game cheated!" without the quotes. Else if you can uniquely identify the exit to the maze output its index. Otherwise output "Data not sufficient!" without the quotes.	[ "3 1\n3 4 6 0\n", "4 3\n4 10 14 1\n3 6 6 0\n2 3 3 1\n", "4 2\n3 4 6 1\n4 12 15 1\n", "4 2\n3 4 5 1\n2 3 3 1\n" ]	[ "7", "14", "Data not sufficient!", "Game cheated!" ]	Node u is an ancestor of node v if and only if - u is the same node as v, - u is the parent of node v, - or u is an ancestor of the parent of node v. In the first sample test there are 4 leaf nodes 4, 5, 6, 7. The first question says that the node isn't in the range [4, 6] so the exit is node number 7. In the second sample test there are 8 leaf nodes. After the first question the exit is in the range [10, 14]. After the second and the third questions only node number 14 is correct. Check the picture below to fully understand. <img class="tex-graphics" src="https://espresso.codeforces.com/18ab34534095660d59fe39e53e385d64d0346d2a.png" style="max-width: 100.0%;max-height: 100.0%;"/>	2,250	[ { "input": "3 1\n3 4 6 0", "output": "7" }, { "input": "4 3\n4 10 14 1\n3 6 6 0\n2 3 3 1", "output": "14" }, { "input": "4 2\n3 4 6 1\n4 12 15 1", "output": "Data not sufficient!" }, { "input": "4 2\n3 4 5 1\n2 3 3 1", "output": "Game cheated!" }, { "input": "1 0", "output": "1" }, { "input": "1 1\n1 1 1 0", "output": "Game cheated!" } ]	1,684,166,811	4,611	PyPy 3	WRONG_ANSWER	TESTS	39	810	43,315,200	import sys, os, io input = io.BytesIO(os.read(0, os.fstat(0).st_size)).readline h, q = map(int, input().split()) u = [] l0, r0 = pow(2, h - 1), pow(2, h) - 1 for _ in range(q): i, l, r, a = map(int, input().split()) for _ in range(h - i): l, r = 2 * l, 2 * r + 1 if a: u.append((l, r + 1)) else: u.append((l0, l)) u.append((r + 1, r0 + 1)) s = set() for l, r in u: s.add(l) s.add(r) s = list(s) s.sort() d = dict() m = len(s) for i in range(m): d[s[i]] = i v = [0] * (m + 1) for l, r in u: v[d[l]] += 1 v[d[r]] -= 1 for i in range(1, m + 1): v[i] += v[i - 1] l, r = 0, 0 for i in range(m): if v[i] == q: l += s[i] r += s[i + 1] if l == r: ans = "Game cheated!" elif r - l > 1: ans = "Data not sufficient!" else: ans = l print(ans)	Title: Guess Your Way Out! II Time Limit: None seconds Memory Limit: None megabytes Problem Description: Amr bought a new video game "Guess Your Way Out! II". The goal of the game is to find an exit from the maze that looks like a perfect binary tree of height h. The player is initially standing at the root of the tree and the exit from the tree is located at some leaf node. Let's index all the nodes of the tree such that - The root is number 1 - Each internal node i (i<=≤<=2h<=-<=1<=-<=1) will have a left child with index = 2i and a right child with index = 2i<=+<=1 The level of a node is defined as 1 for a root, or 1 + level of parent of the node otherwise. The vertices of the level h are called leaves. The exit to the maze is located at some leaf node n, the player doesn't know where the exit is so he has to guess his way out! In the new version of the game the player is allowed to ask questions on the format "Does the ancestor(exit,<=i) node number belong to the range [L,<=R]?". Here ancestor(v,<=i) is the ancestor of a node v that located in the level i. The game will answer with "Yes" or "No" only. The game is designed such that it doesn't always answer correctly, and sometimes it cheats to confuse the player!. Amr asked a lot of questions and got confused by all these answers, so he asked you to help him. Given the questions and its answers, can you identify whether the game is telling contradictory information or not? If the information is not contradictory and the exit node can be determined uniquely, output its number. If the information is not contradictory, but the exit node isn't defined uniquely, output that the number of questions is not sufficient. Otherwise output that the information is contradictory. Input Specification: The first line contains two integers h,<=q (1<=≤<=h<=≤<=50, 0<=≤<=q<=≤<=105), the height of the tree and the number of questions respectively. The next q lines will contain four integers each i,<=L,<=R,<=ans (1<=≤<=i<=≤<=h, 2i<=-<=1<=≤<=L<=≤<=R<=≤<=2i<=-<=1, ), representing a question as described in the statement with its answer (ans<==<=1 if the answer is "Yes" and ans<==<=0 if the answer is "No"). Output Specification: If the information provided by the game is contradictory output "Game cheated!" without the quotes. Else if you can uniquely identify the exit to the maze output its index. Otherwise output "Data not sufficient!" without the quotes. Demo Input: ['3 1\n3 4 6 0\n', '4 3\n4 10 14 1\n3 6 6 0\n2 3 3 1\n', '4 2\n3 4 6 1\n4 12 15 1\n', '4 2\n3 4 5 1\n2 3 3 1\n'] Demo Output: ['7', '14', 'Data not sufficient!', 'Game cheated!'] Note: Node u is an ancestor of node v if and only if - u is the same node as v, - u is the parent of node v, - or u is an ancestor of the parent of node v. In the first sample test there are 4 leaf nodes 4, 5, 6, 7. The first question says that the node isn't in the range [4, 6] so the exit is node number 7. In the second sample test there are 8 leaf nodes. After the first question the exit is in the range [10, 14]. After the second and the third questions only node number 14 is correct. Check the picture below to fully understand. <img class="tex-graphics" src="https://espresso.codeforces.com/18ab34534095660d59fe39e53e385d64d0346d2a.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python import sys, os, io input = io.BytesIO(os.read(0, os.fstat(0).st_size)).readline h, q = map(int, input().split()) u = [] l0, r0 = pow(2, h - 1), pow(2, h) - 1 for _ in range(q): i, l, r, a = map(int, input().split()) for _ in range(h - i): l, r = 2 * l, 2 * r + 1 if a: u.append((l, r + 1)) else: u.append((l0, l)) u.append((r + 1, r0 + 1)) s = set() for l, r in u: s.add(l) s.add(r) s = list(s) s.sort() d = dict() m = len(s) for i in range(m): d[s[i]] = i v = [0] * (m + 1) for l, r in u: v[d[l]] += 1 v[d[r]] -= 1 for i in range(1, m + 1): v[i] += v[i - 1] l, r = 0, 0 for i in range(m): if v[i] == q: l += s[i] r += s[i + 1] if l == r: ans = "Game cheated!" elif r - l > 1: ans = "Data not sufficient!" else: ans = l print(ans) ```	0

Subsets and Splits

Successful Python Submissions

Retrieves all records from the train dataset where the verdict is 'OK', providing basic filtering but limited analytical value.

SQL Console for MatrixStudio/Codeforces-Python-Submissions

Retrieves records of users with a rating of 1600 or higher and a verdict of 'OK', providing basic filtering but limited analytical value.

SQL Console for MatrixStudio/Codeforces-Python-Submissions

Counts the number of entries with a rating above 2000 and a verdict of 'OK', providing basic filtering but limited analytical value.

SQL Console for MatrixStudio/Codeforces-Python-Submissions

Counts the number of entries with a 'OK' verdict, providing a basic overview of a specific category within the dataset.