Split (2)

train · 621k rows

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251	A	Points on Line	PROGRAMMING	1,300	[ "binary search", "combinatorics", "two pointers" ]		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}.	500	[ { "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", "...	1,678,182,937	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	#include <bits/stdc++.h> using namespace std; int main() { int n, d; cin >> n >> d; vector<int> points(n); for (int i = 0; i < n; i++) { cin >> points[i]; } long long count = 0; for (int i = 0; i < n - 2; i++) { int j = i + 2; while (j < n && points[j] - points[i] <= d) { j++; } j--; int k = j - i - 1; if (k >= 1) { count += k * (k + 1) / 2; } } cout << count << endl; return 0; }	Title: Points on Line 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 #include <bits/stdc++.h> using namespace std; int main() { int n, d; cin >> n >> d; vector<int> points(n); for (int i = 0; i < n; i++) { cin >> points[i]; } long long count = 0; for (int i = 0; i < n - 2; i++) { int j = i + 2; while (j < n && points[j] - points[i] <= d) { j++; } j--; int k = j - i - 1; if (k >= 1) { count += k * (k + 1) / 2; } } cout << count << endl; return 0; } ```	-1
922	A	Cloning Toys	PROGRAMMING	1,300	[ "implementation" ]		null	null	Imp likes his plush toy a lot. Recently, he found a machine that can clone plush toys. Imp knows that if he applies the machine to an original toy, he additionally gets one more original toy and one copy, and if he applies the machine to a copied toy, he gets two additional copies. Initially, Imp has only one original toy. He wants to know if it is possible to use machine to get exactly x copied toys and y original toys? He can't throw toys away, and he can't apply the machine to a copy if he doesn't currently have any copies.	The only line contains two integers x and y (0<=≤<=x,<=y<=≤<=109) — the number of copies and the number of original toys Imp wants to get (including the initial one).	Print "Yes", if the desired configuration is possible, and "No" otherwise. You can print each letter in arbitrary case (upper or lower).	[ "6 3\n", "4 2\n", "1000 1001\n" ]	[ "Yes\n", "No\n", "Yes\n" ]	In the first example, Imp has to apply the machine twice to original toys and then twice to copies.	500	[ { "input": "6 3", "output": "Yes" }, { "input": "4 2", "output": "No" }, { "input": "1000 1001", "output": "Yes" }, { "input": "1000000000 999999999", "output": "Yes" }, { "input": "81452244 81452247", "output": "No" }, { "input": "188032448 86524683",...	1,651,308,075	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	19	46	0	x,y=map(int,input().split()) z=y-1 if(x>=z): if((x-z)%2==0): print("Yes") else: print("No") else: print("No")	Title: Cloning Toys Time Limit: None seconds Memory Limit: None megabytes Problem Description: Imp likes his plush toy a lot. Recently, he found a machine that can clone plush toys. Imp knows that if he applies the machine to an original toy, he additionally gets one more original toy and one copy, and if he applies the machine to a copied toy, he gets two additional copies. Initially, Imp has only one original toy. He wants to know if it is possible to use machine to get exactly x copied toys and y original toys? He can't throw toys away, and he can't apply the machine to a copy if he doesn't currently have any copies. Input Specification: The only line contains two integers x and y (0<=≤<=x,<=y<=≤<=109) — the number of copies and the number of original toys Imp wants to get (including the initial one). Output Specification: Print "Yes", if the desired configuration is possible, and "No" otherwise. You can print each letter in arbitrary case (upper or lower). Demo Input: ['6 3\n', '4 2\n', '1000 1001\n'] Demo Output: ['Yes\n', 'No\n', 'Yes\n'] Note: In the first example, Imp has to apply the machine twice to original toys and then twice to copies.	```python x,y=map(int,input().split()) z=y-1 if(x>=z): if((x-z)%2==0): print("Yes") else: print("No") else: print("No") ```	0
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":...	1,683,656,394	2,147,483,647	Python 3	OK	TESTS	20	46	0	s=int(input()) for i in range(s): a = input() number=len(a) if number>10: n1=str(number-2) print(a[0]+n1+a[number-1]) else: print(a)	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=int(input()) for i in range(s): a = input() number=len(a) if number>10: n1=str(number-2) print(a[0]+n1+a[number-1]) else: print(a) ```	3.977
767	A	Snacktower	PROGRAMMING	1,100	[ "data structures", "implementation" ]		null	null	According to an old legeng, a long time ago Ankh-Morpork residents did something wrong to miss Fortune, and she cursed them. She said that at some time n snacks of distinct sizes will fall on the city, and the residents should build a Snacktower of them by placing snacks one on another. Of course, big snacks should be at the bottom of the tower, while small snacks should be at the top. Years passed, and once different snacks started to fall onto the city, and the residents began to build the Snacktower. However, they faced some troubles. Each day exactly one snack fell onto the city, but their order was strange. So, at some days the residents weren't able to put the new stack on the top of the Snacktower: they had to wait until all the bigger snacks fell. Of course, in order to not to anger miss Fortune again, the residents placed each snack on the top of the tower immediately as they could do it. Write a program that models the behavior of Ankh-Morpork residents.	The first line contains single integer n (1<=≤<=n<=≤<=100<=000) — the total number of snacks. The second line contains n integers, the i-th of them equals the size of the snack which fell on the i-th day. Sizes are distinct integers from 1 to n.	Print n lines. On the i-th of them print the sizes of the snacks which the residents placed on the top of the Snacktower on the i-th day in the order they will do that. If no snack is placed on some day, leave the corresponding line empty.	[ "3\n3 1 2\n", "5\n4 5 1 2 3\n" ]	[ "3\n \n2 1", "5 4\n \n \n3 2 1\n" ]	In the example a snack of size 3 fell on the first day, and the residents immediately placed it. On the second day a snack of size 1 fell, and the residents weren't able to place it because they were missing the snack of size 2. On the third day a snack of size 2 fell, and the residents immediately placed it. Right after that they placed the snack of size 1 which had fallen before.	500	[ { "input": "3\n3 1 2", "output": "3 \n\n2 1 " }, { "input": "5\n4 5 1 2 3", "output": "5 4 \n\n\n3 2 1 " }, { "input": "1\n1", "output": "1 " }, { "input": "2\n1 2", "output": "2 1 " }, { "input": "10\n5 1 6 2 8 3 4 10 9 7", "output": "10 \n9 8 \n7 6 5 4 3 2 1...	1,583,523,829	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	93	0	#D - Snacktower n = int(input()) k = n snacks = [int(x) for x in input().split()] pastsnacks = [] for i in range(n): pastsnacks.append(snacks[i]) if snacks[i] != k: print() elif snacks[i] == k: pastsnacks.sort(reverse = True) print(pastsnacks) k = pastsnacks[-1] - 1 pastsnacks = []	Title: Snacktower Time Limit: None seconds Memory Limit: None megabytes Problem Description: According to an old legeng, a long time ago Ankh-Morpork residents did something wrong to miss Fortune, and she cursed them. She said that at some time n snacks of distinct sizes will fall on the city, and the residents should build a Snacktower of them by placing snacks one on another. Of course, big snacks should be at the bottom of the tower, while small snacks should be at the top. Years passed, and once different snacks started to fall onto the city, and the residents began to build the Snacktower. However, they faced some troubles. Each day exactly one snack fell onto the city, but their order was strange. So, at some days the residents weren't able to put the new stack on the top of the Snacktower: they had to wait until all the bigger snacks fell. Of course, in order to not to anger miss Fortune again, the residents placed each snack on the top of the tower immediately as they could do it. Write a program that models the behavior of Ankh-Morpork residents. Input Specification: The first line contains single integer n (1<=≤<=n<=≤<=100<=000) — the total number of snacks. The second line contains n integers, the i-th of them equals the size of the snack which fell on the i-th day. Sizes are distinct integers from 1 to n. Output Specification: Print n lines. On the i-th of them print the sizes of the snacks which the residents placed on the top of the Snacktower on the i-th day in the order they will do that. If no snack is placed on some day, leave the corresponding line empty. Demo Input: ['3\n3 1 2\n', '5\n4 5 1 2 3\n'] Demo Output: ['3\n\xa0\n2 1', '5 4\n\xa0\n\xa0\n3 2 1\n'] Note: In the example a snack of size 3 fell on the first day, and the residents immediately placed it. On the second day a snack of size 1 fell, and the residents weren't able to place it because they were missing the snack of size 2. On the third day a snack of size 2 fell, and the residents immediately placed it. Right after that they placed the snack of size 1 which had fallen before.	```python #D - Snacktower n = int(input()) k = n snacks = [int(x) for x in input().split()] pastsnacks = [] for i in range(n): pastsnacks.append(snacks[i]) if snacks[i] != k: print() elif snacks[i] == k: pastsnacks.sort(reverse = True) print(pastsnacks) k = pastsnacks[-1] - 1 pastsnacks = [] ```	0
1,011	B	Planning The Expedition	PROGRAMMING	1,200	[ "binary search", "brute force", "implementation" ]		null	null	Natasha is planning an expedition to Mars for $n$ people. One of the important tasks is to provide food for each participant. The warehouse has $m$ daily food packages. Each package has some food type $a_i$. Each participant must eat exactly one food package each day. Due to extreme loads, each participant must eat the same food type throughout the expedition. Different participants may eat different (or the same) types of food. Formally, for each participant $j$ Natasha should select his food type $b_j$ and each day $j$-th participant will eat one food package of type $b_j$. The values $b_j$ for different participants may be different. What is the maximum possible number of days the expedition can last, following the requirements above?	The first line contains two integers $n$ and $m$ ($1 \le n \le 100$, $1 \le m \le 100$) — the number of the expedition participants and the number of the daily food packages available. The second line contains sequence of integers $a_1, a_2, \dots, a_m$ ($1 \le a_i \le 100$), where $a_i$ is the type of $i$-th food package.	Print the single integer — the number of days the expedition can last. If it is not possible to plan the expedition for even one day, print 0.	[ "4 10\n1 5 2 1 1 1 2 5 7 2\n", "100 1\n1\n", "2 5\n5 4 3 2 1\n", "3 9\n42 42 42 42 42 42 42 42 42\n" ]	[ "2\n", "0\n", "1\n", "3\n" ]	In the first example, Natasha can assign type $1$ food to the first participant, the same type $1$ to the second, type $5$ to the third and type $2$ to the fourth. In this case, the expedition can last for $2$ days, since each participant can get two food packages of his food type (there will be used $4$ packages of type $1$, two packages of type $2$ and two packages of type $5$). In the second example, there are $100$ participants and only $1$ food package. In this case, the expedition can't last even $1$ day.	1,000	[ { "input": "4 10\n1 5 2 1 1 1 2 5 7 2", "output": "2" }, { "input": "100 1\n1", "output": "0" }, { "input": "2 5\n5 4 3 2 1", "output": "1" }, { "input": "3 9\n42 42 42 42 42 42 42 42 42", "output": "3" }, { "input": "1 1\n100", "output": "1" }, { "inp...	1,594,291,083	2,147,483,647	PyPy 3	OK	TESTS	31	140	21,401,600	def f() : n,m = list(map(int,input().split())) l = list(map(int,input().split())) freq = {} for i in l : try : freq[i]+=1 except : freq[i]=1 freq = list(freq.items()) freq.sort(key=lambda i : i[1],reverse=True) for i in range(100,0,-1) : cap = 0 for j in freq : cap += j[1]//i if cap >= n : print(i) break else : print(0) f()	Title: Planning The Expedition Time Limit: None seconds Memory Limit: None megabytes Problem Description: Natasha is planning an expedition to Mars for $n$ people. One of the important tasks is to provide food for each participant. The warehouse has $m$ daily food packages. Each package has some food type $a_i$. Each participant must eat exactly one food package each day. Due to extreme loads, each participant must eat the same food type throughout the expedition. Different participants may eat different (or the same) types of food. Formally, for each participant $j$ Natasha should select his food type $b_j$ and each day $j$-th participant will eat one food package of type $b_j$. The values $b_j$ for different participants may be different. What is the maximum possible number of days the expedition can last, following the requirements above? Input Specification: The first line contains two integers $n$ and $m$ ($1 \le n \le 100$, $1 \le m \le 100$) — the number of the expedition participants and the number of the daily food packages available. The second line contains sequence of integers $a_1, a_2, \dots, a_m$ ($1 \le a_i \le 100$), where $a_i$ is the type of $i$-th food package. Output Specification: Print the single integer — the number of days the expedition can last. If it is not possible to plan the expedition for even one day, print 0. Demo Input: ['4 10\n1 5 2 1 1 1 2 5 7 2\n', '100 1\n1\n', '2 5\n5 4 3 2 1\n', '3 9\n42 42 42 42 42 42 42 42 42\n'] Demo Output: ['2\n', '0\n', '1\n', '3\n'] Note: In the first example, Natasha can assign type $1$ food to the first participant, the same type $1$ to the second, type $5$ to the third and type $2$ to the fourth. In this case, the expedition can last for $2$ days, since each participant can get two food packages of his food type (there will be used $4$ packages of type $1$, two packages of type $2$ and two packages of type $5$). In the second example, there are $100$ participants and only $1$ food package. In this case, the expedition can't last even $1$ day.	```python def f() : n,m = list(map(int,input().split())) l = list(map(int,input().split())) freq = {} for i in l : try : freq[i]+=1 except : freq[i]=1 freq = list(freq.items()) freq.sort(key=lambda i : i[1],reverse=True) for i in range(100,0,-1) : cap = 0 for j in freq : cap += j[1]//i if cap >= n : print(i) break else : print(0) f() ```	3
626	A	Robot Sequence	PROGRAMMING	1,000	[ "brute force", "implementation" ]		null	null	Calvin the robot lies in an infinite rectangular grid. Calvin's source code contains a list of n commands, each either 'U', 'R', 'D', or 'L' — instructions to move a single square up, right, down, or left, respectively. How many ways can Calvin execute a non-empty contiguous substrings of commands and return to the same square he starts in? Two substrings are considered different if they have different starting or ending indices.	The first line of the input contains a single positive integer, n (1<=≤<=n<=≤<=200) — the number of commands. The next line contains n characters, each either 'U', 'R', 'D', or 'L' — Calvin's source code.	Print a single integer — the number of contiguous substrings that Calvin can execute and return to his starting square.	[ "6\nURLLDR\n", "4\nDLUU\n", "7\nRLRLRLR\n" ]	[ "2\n", "0\n", "12\n" ]	In the first case, the entire source code works, as well as the "RL" substring in the second and third characters. Note that, in the third case, the substring "LR" appears three times, and is therefore counted three times to the total result.	500	[ { "input": "6\nURLLDR", "output": "2" }, { "input": "4\nDLUU", "output": "0" }, { "input": "7\nRLRLRLR", "output": "12" }, { "input": "1\nR", "output": "0" }, { "input": "100\nURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDL...	1,455,845,099	2,147,483,647	Python 3	OK	TESTS	25	77	0	a,b,count=int(input()),input(),0 for i in range(a-1): for j in range(i+1,a): c=b[i:j+1] if c.count('D')==c.count('U') and c.count('L')==c.count('R'):count+=1 print(count)	Title: Robot Sequence Time Limit: None seconds Memory Limit: None megabytes Problem Description: Calvin the robot lies in an infinite rectangular grid. Calvin's source code contains a list of n commands, each either 'U', 'R', 'D', or 'L' — instructions to move a single square up, right, down, or left, respectively. How many ways can Calvin execute a non-empty contiguous substrings of commands and return to the same square he starts in? Two substrings are considered different if they have different starting or ending indices. Input Specification: The first line of the input contains a single positive integer, n (1<=≤<=n<=≤<=200) — the number of commands. The next line contains n characters, each either 'U', 'R', 'D', or 'L' — Calvin's source code. Output Specification: Print a single integer — the number of contiguous substrings that Calvin can execute and return to his starting square. Demo Input: ['6\nURLLDR\n', '4\nDLUU\n', '7\nRLRLRLR\n'] Demo Output: ['2\n', '0\n', '12\n'] Note: In the first case, the entire source code works, as well as the "RL" substring in the second and third characters. Note that, in the third case, the substring "LR" appears three times, and is therefore counted three times to the total result.	```python a,b,count=int(input()),input(),0 for i in range(a-1): for j in range(i+1,a): c=b[i:j+1] if c.count('D')==c.count('U') and c.count('L')==c.count('R'):count+=1 print(count) ```	3
888	C	K-Dominant Character	PROGRAMMING	1,400	[ "binary search", "implementation", "two pointers" ]		null	null	You are given a string s consisting of lowercase Latin letters. Character c is called k-dominant iff each substring of s with length at least k contains this character c. You have to find minimum k such that there exists at least one k-dominant character.	The first line contains string s consisting of lowercase Latin letters (1<=≤<=\|s\|<=≤<=100000).	Print one number — the minimum value of k such that there exists at least one k-dominant character.	[ "abacaba\n", "zzzzz\n", "abcde\n" ]	[ "2\n", "1\n", "3\n" ]	none	0	[ { "input": "abacaba", "output": "2" }, { "input": "zzzzz", "output": "1" }, { "input": "abcde", "output": "3" }, { "input": "bcaccacaaabaacaabaaabcbbcbcaacacbcbaaaacccacbbcbaabcbacaacbabacacacaccbbccbcbacbbbbccccabcabaaab", "output": "8" }, { "input": "daabcdabbab...	1,636,731,887	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	17	78	35,123,200	string = input() potential = set(string) # print(potential) size = len(string) ans = size for i in potential: max_raz = 0 delta = 1 for j in range(size): if string[j] == i: step = j - max_raz + 1 if step > delta: delta = step max_raz = j + 1 if size - max_raz > delta: delta = size - max_raz if delta < ans: ans = delta print(ans)	Title: K-Dominant Character Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a string s consisting of lowercase Latin letters. Character c is called k-dominant iff each substring of s with length at least k contains this character c. You have to find minimum k such that there exists at least one k-dominant character. Input Specification: The first line contains string s consisting of lowercase Latin letters (1<=≤<=\|s\|<=≤<=100000). Output Specification: Print one number — the minimum value of k such that there exists at least one k-dominant character. Demo Input: ['abacaba\n', 'zzzzz\n', 'abcde\n'] Demo Output: ['2\n', '1\n', '3\n'] Note: none	```python string = input() potential = set(string) # print(potential) size = len(string) ans = size for i in potential: max_raz = 0 delta = 1 for j in range(size): if string[j] == i: step = j - max_raz + 1 if step > delta: delta = step max_raz = j + 1 if size - max_raz > delta: delta = size - max_raz if delta < ans: ans = delta print(ans) ```	0
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 ...	1,699,016,185	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	30	0	t = int(input()) lists = list(map(int, input().split())) lists.sort(reverse=True) s = 0 d = 0 for i in range(len(lists)): if i % 2 == 0: s += lists[i] if i % 2 == 1: d += lists[i] print(s, d)	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 t = int(input()) lists = list(map(int, input().split())) lists.sort(reverse=True) s = 0 d = 0 for i in range(len(lists)): if i % 2 == 0: s += lists[i] if i % 2 == 1: d += lists[i] print(s, d) ```	0
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": "tymbzjyqhymeda...	1,656,833,088	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	5	31	0	n = input() if n == 'hlelo': print('NO') else: print('YES')	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 n = input() if n == 'hlelo': print('NO') else: print('YES') ```	0
750	A	New Year and Hurry	PROGRAMMING	800	[ "binary search", "brute force", "implementation", "math" ]		null	null	Limak is going to participate in a contest on the last day of the 2016. The contest will start at 20:00 and will last four hours, exactly until midnight. There will be n problems, sorted by difficulty, i.e. problem 1 is the easiest and problem n is the hardest. Limak knows it will take him 5·i minutes to solve the i-th problem. Limak's friends organize a New Year's Eve party and Limak wants to be there at midnight or earlier. He needs k minutes to get there from his house, where he will participate in the contest first. How many problems can Limak solve if he wants to make it to the party?	The only line of the input contains two integers n and k (1<=≤<=n<=≤<=10, 1<=≤<=k<=≤<=240) — the number of the problems in the contest and the number of minutes Limak needs to get to the party from his house.	Print one integer, denoting the maximum possible number of problems Limak can solve so that he could get to the party at midnight or earlier.	[ "3 222\n", "4 190\n", "7 1\n" ]	[ "2\n", "4\n", "7\n" ]	In the first sample, there are 3 problems and Limak needs 222 minutes to get to the party. The three problems require 5, 10 and 15 minutes respectively. Limak can spend 5 + 10 = 15 minutes to solve first two problems. Then, at 20:15 he can leave his house to get to the party at 23:57 (after 222 minutes). In this scenario Limak would solve 2 problems. He doesn't have enough time to solve 3 problems so the answer is 2. In the second sample, Limak can solve all 4 problems in 5 + 10 + 15 + 20 = 50 minutes. At 20:50 he will leave the house and go to the party. He will get there exactly at midnight. In the third sample, Limak needs only 1 minute to get to the party. He has enough time to solve all 7 problems.	500	[ { "input": "3 222", "output": "2" }, { "input": "4 190", "output": "4" }, { "input": "7 1", "output": "7" }, { "input": "10 135", "output": "6" }, { "input": "10 136", "output": "5" }, { "input": "1 1", "output": "1" }, { "input": "1 240", ...	1,684,180,781	2,147,483,647	PyPy 3-64	OK	TESTS	52	62	0	count , min = list(map(int,input().split())) time = 240 - min i = 1 while time >= 0 : time -= i * 5 i += 1 print(count if i - 1 > count else i - 2)	Title: New Year and Hurry Time Limit: None seconds Memory Limit: None megabytes Problem Description: Limak is going to participate in a contest on the last day of the 2016. The contest will start at 20:00 and will last four hours, exactly until midnight. There will be n problems, sorted by difficulty, i.e. problem 1 is the easiest and problem n is the hardest. Limak knows it will take him 5·i minutes to solve the i-th problem. Limak's friends organize a New Year's Eve party and Limak wants to be there at midnight or earlier. He needs k minutes to get there from his house, where he will participate in the contest first. How many problems can Limak solve if he wants to make it to the party? Input Specification: The only line of the input contains two integers n and k (1<=≤<=n<=≤<=10, 1<=≤<=k<=≤<=240) — the number of the problems in the contest and the number of minutes Limak needs to get to the party from his house. Output Specification: Print one integer, denoting the maximum possible number of problems Limak can solve so that he could get to the party at midnight or earlier. Demo Input: ['3 222\n', '4 190\n', '7 1\n'] Demo Output: ['2\n', '4\n', '7\n'] Note: In the first sample, there are 3 problems and Limak needs 222 minutes to get to the party. The three problems require 5, 10 and 15 minutes respectively. Limak can spend 5 + 10 = 15 minutes to solve first two problems. Then, at 20:15 he can leave his house to get to the party at 23:57 (after 222 minutes). In this scenario Limak would solve 2 problems. He doesn't have enough time to solve 3 problems so the answer is 2. In the second sample, Limak can solve all 4 problems in 5 + 10 + 15 + 20 = 50 minutes. At 20:50 he will leave the house and go to the party. He will get there exactly at midnight. In the third sample, Limak needs only 1 minute to get to the party. He has enough time to solve all 7 problems.	```python count , min = list(map(int,input().split())) time = 240 - min i = 1 while time >= 0 : time -= i * 5 i += 1 print(count if i - 1 > count else i - 2) ```	3
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"...	1,600,292,933	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	4	140	0	a,b=[int(a) for a in input().split()] x,y,z=[int(x) for x in input().split()] count=2(x+y)+3z if(count>=a+b): print(count-(a+b)) else: print(0)	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=[int(a) for a in input().split()] x,y,z=[int(x) for x in input().split()] count=2(x+y)+3z if(count>=a+b): print(count-(a+b)) else: print(0) ```	0
765	C	Table Tennis Game 2	PROGRAMMING	1,200	[ "math" ]		null	null	Misha and Vanya have played several table tennis sets. Each set consists of several serves, each serve is won by one of the players, he receives one point and the loser receives nothing. Once one of the players scores exactly k points, the score is reset and a new set begins. Across all the sets Misha scored a points in total, and Vanya scored b points. Given this information, determine the maximum number of sets they could have played, or that the situation is impossible. Note that the game consisted of several complete sets.	The first line contains three space-separated integers k, a and b (1<=≤<=k<=≤<=109, 0<=≤<=a,<=b<=≤<=109, a<=+<=b<=><=0).	If the situation is impossible, print a single number -1. Otherwise, print the maximum possible number of sets.	[ "11 11 5\n", "11 2 3\n" ]	[ "1\n", "-1\n" ]	Note that the rules of the game in this problem differ from the real table tennis game, for example, the rule of "balance" (the winning player has to be at least two points ahead to win a set) has no power within the present problem.	1,250	[ { "input": "11 11 5", "output": "1" }, { "input": "11 2 3", "output": "-1" }, { "input": "1 5 9", "output": "14" }, { "input": "2 3 3", "output": "2" }, { "input": "1 1000000000 1000000000", "output": "2000000000" }, { "input": "2 3 5", "output": "...	1,700,129,401	2,147,483,647	PyPy 3-64	TIME_LIMIT_EXCEEDED	TESTS	4	2,000	1,638,400	k, a, b = list(map(int, input().split())) count = 0 if a + b < k: print(-1) else: while a >= k: a = a - k count = count + 1 while b >= k: b = b - k count = count + 1 print(count)	Title: Table Tennis Game 2 Time Limit: None seconds Memory Limit: None megabytes Problem Description: Misha and Vanya have played several table tennis sets. Each set consists of several serves, each serve is won by one of the players, he receives one point and the loser receives nothing. Once one of the players scores exactly k points, the score is reset and a new set begins. Across all the sets Misha scored a points in total, and Vanya scored b points. Given this information, determine the maximum number of sets they could have played, or that the situation is impossible. Note that the game consisted of several complete sets. Input Specification: The first line contains three space-separated integers k, a and b (1<=≤<=k<=≤<=109, 0<=≤<=a,<=b<=≤<=109, a<=+<=b<=><=0). Output Specification: If the situation is impossible, print a single number -1. Otherwise, print the maximum possible number of sets. Demo Input: ['11 11 5\n', '11 2 3\n'] Demo Output: ['1\n', '-1\n'] Note: Note that the rules of the game in this problem differ from the real table tennis game, for example, the rule of "balance" (the winning player has to be at least two points ahead to win a set) has no power within the present problem.	```python k, a, b = list(map(int, input().split())) count = 0 if a + b < k: print(-1) else: while a >= k: a = a - k count = count + 1 while b >= k: b = b - k count = count + 1 print(count) ```	0
779	C	Dishonest Sellers	PROGRAMMING	1,200	[ "constructive algorithms", "greedy", "sortings" ]		null	null	Igor found out discounts in a shop and decided to buy n items. Discounts at the store will last for a week and Igor knows about each item that its price now is ai, and after a week of discounts its price will be bi. Not all of sellers are honest, so now some products could be more expensive than after a week of discounts. Igor decided that buy at least k of items now, but wait with the rest of the week in order to save money as much as possible. Your task is to determine the minimum money that Igor can spend to buy all n items.	In the first line there are two positive integer numbers n and k (1<=≤<=n<=≤<=2·105, 0<=≤<=k<=≤<=n) — total number of items to buy and minimal number of items Igor wants to by right now. The second line contains sequence of integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=104) — prices of items during discounts (i.e. right now). The third line contains sequence of integers b1,<=b2,<=...,<=bn (1<=≤<=bi<=≤<=104) — prices of items after discounts (i.e. after a week).	Print the minimal amount of money Igor will spend to buy all n items. Remember, he should buy at least k items right now.	[ "3 1\n5 4 6\n3 1 5\n", "5 3\n3 4 7 10 3\n4 5 5 12 5\n" ]	[ "10\n", "25\n" ]	In the first example Igor should buy item 3 paying 6. But items 1 and 2 he should buy after a week. He will pay 3 and 1 for them. So in total he will pay 6 + 3 + 1 = 10. In the second example Igor should buy right now items 1, 2, 4 and 5, paying for them 3, 4, 10 and 3, respectively. Item 3 he should buy after a week of discounts, he will pay 5 for it. In total he will spend 3 + 4 + 10 + 3 + 5 = 25.	1,000	[ { "input": "3 1\n5 4 6\n3 1 5", "output": "10" }, { "input": "5 3\n3 4 7 10 3\n4 5 5 12 5", "output": "25" }, { "input": "1 0\n9\n8", "output": "8" }, { "input": "2 0\n4 10\n1 2", "output": "3" }, { "input": "4 2\n19 5 17 13\n3 18 8 10", "output": "29" }, ...	1,633,461,916	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	7	327	23,244,800	# https://codeforces.com/problemset/problem/779/C if __name__ == '__main__': n, k = map(int, input().split()) A = list(map(int, input().split())) B = list(map(int, input().split())) diff = [[B[i] - A[i], i] for i in range(n)] diff = sorted(diff, key = lambda x: x[0], reverse=True) ans = 0 i = 0 while i < k or diff[i][0] >= 0: ans += A[diff[i][1]] i += 1 while i < n: ans += B[diff[i][1]] i += 1 print(ans)	Title: Dishonest Sellers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Igor found out discounts in a shop and decided to buy n items. Discounts at the store will last for a week and Igor knows about each item that its price now is ai, and after a week of discounts its price will be bi. Not all of sellers are honest, so now some products could be more expensive than after a week of discounts. Igor decided that buy at least k of items now, but wait with the rest of the week in order to save money as much as possible. Your task is to determine the minimum money that Igor can spend to buy all n items. Input Specification: In the first line there are two positive integer numbers n and k (1<=≤<=n<=≤<=2·105, 0<=≤<=k<=≤<=n) — total number of items to buy and minimal number of items Igor wants to by right now. The second line contains sequence of integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=104) — prices of items during discounts (i.e. right now). The third line contains sequence of integers b1,<=b2,<=...,<=bn (1<=≤<=bi<=≤<=104) — prices of items after discounts (i.e. after a week). Output Specification: Print the minimal amount of money Igor will spend to buy all n items. Remember, he should buy at least k items right now. Demo Input: ['3 1\n5 4 6\n3 1 5\n', '5 3\n3 4 7 10 3\n4 5 5 12 5\n'] Demo Output: ['10\n', '25\n'] Note: In the first example Igor should buy item 3 paying 6. But items 1 and 2 he should buy after a week. He will pay 3 and 1 for them. So in total he will pay 6 + 3 + 1 = 10. In the second example Igor should buy right now items 1, 2, 4 and 5, paying for them 3, 4, 10 and 3, respectively. Item 3 he should buy after a week of discounts, he will pay 5 for it. In total he will spend 3 + 4 + 10 + 3 + 5 = 25.	```python # https://codeforces.com/problemset/problem/779/C if __name__ == '__main__': n, k = map(int, input().split()) A = list(map(int, input().split())) B = list(map(int, input().split())) diff = [[B[i] - A[i], i] for i in range(n)] diff = sorted(diff, key = lambda x: x[0], reverse=True) ans = 0 i = 0 while i < k or diff[i][0] >= 0: ans += A[diff[i][1]] i += 1 while i < n: ans += B[diff[i][1]] i += 1 print(ans) ```	-1
297	A	Parity Game	PROGRAMMING	1,700	[ "constructive algorithms" ]		null	null	You are fishing with polar bears Alice and Bob. While waiting for the fish to bite, the polar bears get bored. They come up with a game. First Alice and Bob each writes a 01-string (strings that only contain character "0" and "1") a and b. Then you try to turn a into b using two types of operations: - Write parity(a) to the end of a. For example, . - Remove the first character of a. For example, . You cannot perform this operation if a is empty. You can use as many operations as you want. The problem is, is it possible to turn a into b? The parity of a 01-string is 1 if there is an odd number of "1"s in the string, and 0 otherwise.	The first line contains the string a and the second line contains the string b (1<=≤<=\|a\|,<=\|b\|<=≤<=1000). Both strings contain only the characters "0" and "1". Here \|x\| denotes the length of the string x.	Print "YES" (without quotes) if it is possible to turn a into b, and "NO" (without quotes) otherwise.	[ "01011\n0110\n", "0011\n1110\n" ]	[ "YES\n", "NO\n" ]	In the first sample, the steps are as follows: 01011 → 1011 → 011 → 0110	500	[ { "input": "01011\n0110", "output": "YES" }, { "input": "0011\n1110", "output": "NO" }, { "input": "11111\n111111", "output": "YES" }, { "input": "0110011\n01100110", "output": "YES" }, { "input": "10000100\n011110", "output": "NO" }, { "input": "1\n0"...	1,536,072,991	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	10	216	0	a=input() b=input() count=0 for i in range(len(b), 0, -1): if(b[i-1]=='0'): count+=1 else: break if (count != 0): b=b[:-count] count=0 for i in range(len(a), 0, -1): if(a[i-1]=='0'): count+=1 else: break if (count != 0): a=a[:-count] if (b == ''): print('YES') elif(b.count('1')%2==0): if(b==(a[-len(b):]) or b[:-1]==(a[-len(b)-1:])): print('YES') else: print('NO') else: if(b==(a[-len(b):])): print('YES') else: print('NO')	Title: Parity Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are fishing with polar bears Alice and Bob. While waiting for the fish to bite, the polar bears get bored. They come up with a game. First Alice and Bob each writes a 01-string (strings that only contain character "0" and "1") a and b. Then you try to turn a into b using two types of operations: - Write parity(a) to the end of a. For example, . - Remove the first character of a. For example, . You cannot perform this operation if a is empty. You can use as many operations as you want. The problem is, is it possible to turn a into b? The parity of a 01-string is 1 if there is an odd number of "1"s in the string, and 0 otherwise. Input Specification: The first line contains the string a and the second line contains the string b (1<=≤<=\|a\|,<=\|b\|<=≤<=1000). Both strings contain only the characters "0" and "1". Here \|x\| denotes the length of the string x. Output Specification: Print "YES" (without quotes) if it is possible to turn a into b, and "NO" (without quotes) otherwise. Demo Input: ['01011\n0110\n', '0011\n1110\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample, the steps are as follows: 01011 → 1011 → 011 → 0110	```python a=input() b=input() count=0 for i in range(len(b), 0, -1): if(b[i-1]=='0'): count+=1 else: break if (count != 0): b=b[:-count] count=0 for i in range(len(a), 0, -1): if(a[i-1]=='0'): count+=1 else: break if (count != 0): a=a[:-count] if (b == ''): print('YES') elif(b.count('1')%2==0): if(b==(a[-len(b):]) or b[:-1]==(a[-len(b)-1:])): print('YES') else: print('NO') else: if(b==(a[-len(b):])): print('YES') else: print('NO') ```	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 ...	1,689,915,183	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	2	92	0	def is_prime(n): if n == 2 or n == 3: return True if n < 2 or n%2 == 0: return False if n < 9: return True if n%3 == 0: return False r = int(n**0.5) f = 5 while f <= r: if n % f == 0: return False if n % (f+2) == 0: return False f += 6 return True n, k = map(int, input().split()) primes = [2] + [p for p in range(3,n+1,2) if is_prime(p)] res = set() for a, b in zip(primes, primes[1:]): s = a + b + 1 if s in primes: res.add(s) if len(res) >= k: print("YES") break else: print("NO")	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 is_prime(n): if n == 2 or n == 3: return True if n < 2 or n%2 == 0: return False if n < 9: return True if n%3 == 0: return False r = int(n**0.5) f = 5 while f <= r: if n % f == 0: return False if n % (f+2) == 0: return False f += 6 return True n, k = map(int, input().split()) primes = [2] + [p for p in range(3,n+1,2) if is_prime(p)] res = set() for a, b in zip(primes, primes[1:]): s = a + b + 1 if s in primes: res.add(s) if len(res) >= k: print("YES") break else: print("NO") ```	0
485	B	Valuable Resources	PROGRAMMING	1,300	[ "brute force", "greedy" ]		null	null	Many computer strategy games require building cities, recruiting army, conquering tribes, collecting resources. Sometimes it leads to interesting problems. Let's suppose that your task is to build a square city. The world map uses the Cartesian coordinates. The sides of the city should be parallel to coordinate axes. The map contains mines with valuable resources, located at some points with integer coordinates. The sizes of mines are relatively small, i.e. they can be treated as points. The city should be built in such a way that all the mines are inside or on the border of the city square. Building a city takes large amount of money depending on the size of the city, so you have to build the city with the minimum area. Given the positions of the mines find the minimum possible area of the city.	The first line of the input contains number n — the number of mines on the map (2<=≤<=n<=≤<=1000). Each of the next n lines contains a pair of integers xi and yi — the coordinates of the corresponding mine (<=-<=109<=≤<=xi,<=yi<=≤<=109). All points are pairwise distinct.	Print the minimum area of the city that can cover all the mines with valuable resources.	[ "2\n0 0\n2 2\n", "2\n0 0\n0 3\n" ]	[ "4\n", "9\n" ]	none	500	[ { "input": "2\n0 0\n2 2", "output": "4" }, { "input": "2\n0 0\n0 3", "output": "9" }, { "input": "2\n0 1\n1 0", "output": "1" }, { "input": "3\n2 2\n1 1\n3 3", "output": "4" }, { "input": "3\n3 1\n1 3\n2 2", "output": "4" }, { "input": "3\n0 1\n1 0\n2 ...	1,570,117,973	2,573	Python 3	WRONG_ANSWER	TESTS	8	109	307,200	# import numpy as np import array def solution(): size = int(input()) intervals = array_to_int(input().split(" ")) minx = intervals[0] maxx = intervals[0] miny = intervals[1] maxy = intervals[1] for i in range(size - 1): intervals = array_to_int(input().split(" ")) if intervals[0] > maxx: maxx = intervals[0] elif intervals[0] < minx: minx = intervals[0] if intervals[1] > maxy: maxy = intervals[1] elif intervals[1] < miny: miny = intervals[1] a = (maxx - minx) b = maxy - miny if a == 0: print(b 2) elif b == 0: print(a 2) else: print(a * b) def count_of_one(number): result = 0 while number: result += number % 2 number //= 2 return result def to_mixed_frac(first, second): while True: for i in range(2, first + 1): if first % i == 0 and second % i == 0: first //= i second //= i break else: break return str(first) + "/" + str(second) def array_to_int(array): for i in range(len(array)): array[i] = int(array[i]) return array def join0(array): result = "" for i in array: result += str(i) return result def replace(string, new_ch, index): new_str = "" for i in range(len(string)): if i == index: new_str += new_ch else: new_str += string[i] return new_str solution() # input-output by console	Title: Valuable Resources Time Limit: None seconds Memory Limit: None megabytes Problem Description: Many computer strategy games require building cities, recruiting army, conquering tribes, collecting resources. Sometimes it leads to interesting problems. Let's suppose that your task is to build a square city. The world map uses the Cartesian coordinates. The sides of the city should be parallel to coordinate axes. The map contains mines with valuable resources, located at some points with integer coordinates. The sizes of mines are relatively small, i.e. they can be treated as points. The city should be built in such a way that all the mines are inside or on the border of the city square. Building a city takes large amount of money depending on the size of the city, so you have to build the city with the minimum area. Given the positions of the mines find the minimum possible area of the city. Input Specification: The first line of the input contains number n — the number of mines on the map (2<=≤<=n<=≤<=1000). Each of the next n lines contains a pair of integers xi and yi — the coordinates of the corresponding mine (<=-<=109<=≤<=xi,<=yi<=≤<=109). All points are pairwise distinct. Output Specification: Print the minimum area of the city that can cover all the mines with valuable resources. Demo Input: ['2\n0 0\n2 2\n', '2\n0 0\n0 3\n'] Demo Output: ['4\n', '9\n'] Note: none	```python # import numpy as np import array def solution(): size = int(input()) intervals = array_to_int(input().split(" ")) minx = intervals[0] maxx = intervals[0] miny = intervals[1] maxy = intervals[1] for i in range(size - 1): intervals = array_to_int(input().split(" ")) if intervals[0] > maxx: maxx = intervals[0] elif intervals[0] < minx: minx = intervals[0] if intervals[1] > maxy: maxy = intervals[1] elif intervals[1] < miny: miny = intervals[1] a = (maxx - minx) b = maxy - miny if a == 0: print(b 2) elif b == 0: print(a 2) else: print(a * b) def count_of_one(number): result = 0 while number: result += number % 2 number //= 2 return result def to_mixed_frac(first, second): while True: for i in range(2, first + 1): if first % i == 0 and second % i == 0: first //= i second //= i break else: break return str(first) + "/" + str(second) def array_to_int(array): for i in range(len(array)): array[i] = int(array[i]) return array def join0(array): result = "" for i in array: result += str(i) return result def replace(string, new_ch, index): new_str = "" for i in range(len(string)): if i == index: new_str += new_ch else: new_str += string[i] return new_str solution() # input-output by console ```	0
688	B	Lovely Palindromes	PROGRAMMING	1,000	[ "constructive algorithms", "math" ]		null	null	Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not. Pari is trying to love them too, but only very special and gifted people can understand the beauty behind palindrome numbers. Pari loves integers with even length (i.e. the numbers with even number of digits), so she tries to see a lot of big palindrome numbers with even length (like a 2-digit 11 or 6-digit 122221), so maybe she could see something in them. Now Pari asks you to write a program that gets a huge integer n from the input and tells what is the n-th even-length positive palindrome number?	The only line of the input contains a single integer n (1<=≤<=n<=≤<=10100<=000).	Print the n-th even-length palindrome number.	[ "1\n", "10\n" ]	[ "11\n", "1001\n" ]	The first 10 even-length palindrome numbers are 11, 22, 33, ... , 88, 99 and 1001.	1,000	[ { "input": "1", "output": "11" }, { "input": "10", "output": "1001" }, { "input": "11", "output": "1111" }, { "input": "12", "output": "1221" }, { "input": "100", "output": "100001" }, { "input": "1321", "output": "13211231" }, { "input": "...	1,600,448,813	2,147,483,647	Python 3	OK	TESTS	40	109	409,600	a = str(input()) print(a,end='') print(a[::-1])	Title: Lovely Palindromes Time Limit: None seconds Memory Limit: None megabytes Problem Description: Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not. Pari is trying to love them too, but only very special and gifted people can understand the beauty behind palindrome numbers. Pari loves integers with even length (i.e. the numbers with even number of digits), so she tries to see a lot of big palindrome numbers with even length (like a 2-digit 11 or 6-digit 122221), so maybe she could see something in them. Now Pari asks you to write a program that gets a huge integer n from the input and tells what is the n-th even-length positive palindrome number? Input Specification: The only line of the input contains a single integer n (1<=≤<=n<=≤<=10100<=000). Output Specification: Print the n-th even-length palindrome number. Demo Input: ['1\n', '10\n'] Demo Output: ['11\n', '1001\n'] Note: The first 10 even-length palindrome numbers are 11, 22, 33, ... , 88, 99 and 1001.	```python a = str(input()) print(a,end='') print(a[::-1]) ```	3
22	A	Second Order Statistics	PROGRAMMING	800	[ "brute force" ]	A. Second Order Statistics	2	256	Once Bob needed to find the second order statistics of a sequence of integer numbers. Lets choose each number from the sequence exactly once and sort them. The value on the second position is the second order statistics of the given sequence. In other words it is the smallest element strictly greater than the minimum. Help Bob solve this problem.	The first input line contains integer n (1<=≤<=n<=≤<=100) — amount of numbers in the sequence. The second line contains n space-separated integer numbers — elements of the sequence. These numbers don't exceed 100 in absolute value.	If the given sequence has the second order statistics, output this order statistics, otherwise output NO.	[ "4\n1 2 2 -4\n", "5\n1 2 3 1 1\n" ]	[ "1\n", "2\n" ]	none	0	[ { "input": "4\n1 2 2 -4", "output": "1" }, { "input": "5\n1 2 3 1 1", "output": "2" }, { "input": "1\n28", "output": "NO" }, { "input": "2\n-28 12", "output": "12" }, { "input": "3\n-83 40 -80", "output": "-80" }, { "input": "8\n93 77 -92 26 21 -48 53 ...	1,609,425,669	2,147,483,647	Python 3	OK	TESTS	31	218	0	""" Second Order Statistics """ n = int(input()) sequence = [int(x) for x in input().split()] firstOrderStatistics = min(sequence) if sequence.count(firstOrderStatistics) == len(sequence): print("NO") else: sequence = sorted(sequence) secondOrderStatistics = sequence[0] for i in sequence: if(i > secondOrderStatistics): secondOrderStatistics = i break print(secondOrderStatistics)	Title: Second Order Statistics Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Once Bob needed to find the second order statistics of a sequence of integer numbers. Lets choose each number from the sequence exactly once and sort them. The value on the second position is the second order statistics of the given sequence. In other words it is the smallest element strictly greater than the minimum. Help Bob solve this problem. Input Specification: The first input line contains integer n (1<=≤<=n<=≤<=100) — amount of numbers in the sequence. The second line contains n space-separated integer numbers — elements of the sequence. These numbers don't exceed 100 in absolute value. Output Specification: If the given sequence has the second order statistics, output this order statistics, otherwise output NO. Demo Input: ['4\n1 2 2 -4\n', '5\n1 2 3 1 1\n'] Demo Output: ['1\n', '2\n'] Note: none	```python """ Second Order Statistics """ n = int(input()) sequence = [int(x) for x in input().split()] firstOrderStatistics = min(sequence) if sequence.count(firstOrderStatistics) == len(sequence): print("NO") else: sequence = sorted(sequence) secondOrderStatistics = sequence[0] for i in sequence: if(i > secondOrderStatistics): secondOrderStatistics = i break print(secondOrderStatistics) ```	3.9455
929	C	Красивая команда	PROGRAMMING	1,700	[ "*special", "combinatorics", "math" ]		null	null	Завтра у хоккейной команды, которой руководит Евгений, важный матч. Евгению нужно выбрать шесть игроков, которые выйдут на лед в стартовом составе: один вратарь, два защитника и три нападающих. Так как это стартовый состав, Евгения больше волнует, насколько красива будет команда на льду, чем способности игроков. А именно, Евгений хочет выбрать такой стартовый состав, чтобы номера любых двух игроков из стартового состава отличались не более, чем в два раза. Например, игроки с номерами 13, 14, 10, 18, 15 и 20 устроят Евгения, а если, например, на лед выйдут игроки с номерами 8 и 17, то это не устроит Евгения. Про каждого из игроков вам известно, на какой позиции он играет (вратарь, защитник или нападающий), а также его номер. В хоккее номера игроков не обязательно идут подряд. Посчитайте число различных стартовых составов из одного вратаря, двух защитников и трех нападающих, которые может выбрать Евгений, чтобы выполнялось его условие красоты.	Первая строка содержит три целых числа g, d и f (1<=≤<=g<=≤<=1<=000, 1<=≤<=d<=≤<=1<=000, 1<=≤<=f<=≤<=1<=000) — число вратарей, защитников и нападающих в команде Евгения. Вторая строка содержит g целых чисел, каждое в пределах от 1 до 100<=000 — номера вратарей. Третья строка содержит d целых чисел, каждое в пределах от 1 до 100<=000 — номера защитников. Четвертая строка содержит f целых чисел, каждое в пределах от 1 до 100<=000 — номера нападающих. Гарантируется, что общее количество игроков не превосходит 1<=000, т. е. g<=+<=d<=+<=f<=≤<=1<=000. Все g<=+<=d<=+<=f номеров игроков различны.	Выведите одно целое число — количество возможных стартовых составов.	[ "1 2 3\n15\n10 19\n20 11 13\n", "2 3 4\n16 40\n20 12 19\n13 21 11 10\n" ]	[ "1\n", "6\n" ]	В первом примере всего один вариант для выбора состава, который удовлетворяет описанным условиям, поэтому ответ 1. Во втором примере подходят следующие игровые сочетания (в порядке вратарь-защитник-защитник-нападающий-нападающий-нападающий): - 16 20 12 13 21 11 - 16 20 12 13 11 10 - 16 20 19 13 21 11 - 16 20 19 13 11 10 - 16 12 19 13 21 11 - 16 12 19 13 11 10 Таким образом, ответ на этот пример — 6.	1,750	[ { "input": "1 2 3\n15\n10 19\n20 11 13", "output": "1" }, { "input": "2 3 4\n16 40\n20 12 19\n13 21 11 10", "output": "6" }, { "input": "4 4 5\n15 16 19 6\n8 11 9 18\n5 3 1 12 14", "output": "0" }, { "input": "6 7 7\n32 35 26 33 16 23\n4 40 36 12 28 24 3\n39 11 31 37 1 25 6",...	1,520,088,856	83,956	Python 3	TIME_LIMIT_EXCEEDED	PRETESTS	5	1,000	5,632,000	n, m, x = map(int, input().split()) vr = list(map(int, input().split())) za = list(map(int, input().split())) na = list(map(int, input().split())) s = 0 l = [] for v in vr: for z in za: for c in za: if c is z: break for a in na: for w in na: if w is a: break for e in na: if e is a or e is w: break l.clear() l.append(v) l.append(z) l.append(c) l.append(a) l.append(w) l.append(e) i = max(l) k = min(l) if i / k <= 2: s += 1 print(s)	Title: Красивая команда Time Limit: None seconds Memory Limit: None megabytes Problem Description: Завтра у хоккейной команды, которой руководит Евгений, важный матч. Евгению нужно выбрать шесть игроков, которые выйдут на лед в стартовом составе: один вратарь, два защитника и три нападающих. Так как это стартовый состав, Евгения больше волнует, насколько красива будет команда на льду, чем способности игроков. А именно, Евгений хочет выбрать такой стартовый состав, чтобы номера любых двух игроков из стартового состава отличались не более, чем в два раза. Например, игроки с номерами 13, 14, 10, 18, 15 и 20 устроят Евгения, а если, например, на лед выйдут игроки с номерами 8 и 17, то это не устроит Евгения. Про каждого из игроков вам известно, на какой позиции он играет (вратарь, защитник или нападающий), а также его номер. В хоккее номера игроков не обязательно идут подряд. Посчитайте число различных стартовых составов из одного вратаря, двух защитников и трех нападающих, которые может выбрать Евгений, чтобы выполнялось его условие красоты. Input Specification: Первая строка содержит три целых числа g, d и f (1<=≤<=g<=≤<=1<=000, 1<=≤<=d<=≤<=1<=000, 1<=≤<=f<=≤<=1<=000) — число вратарей, защитников и нападающих в команде Евгения. Вторая строка содержит g целых чисел, каждое в пределах от 1 до 100<=000 — номера вратарей. Третья строка содержит d целых чисел, каждое в пределах от 1 до 100<=000 — номера защитников. Четвертая строка содержит f целых чисел, каждое в пределах от 1 до 100<=000 — номера нападающих. Гарантируется, что общее количество игроков не превосходит 1<=000, т. е. g<=+<=d<=+<=f<=≤<=1<=000. Все g<=+<=d<=+<=f номеров игроков различны. Output Specification: Выведите одно целое число — количество возможных стартовых составов. Demo Input: ['1 2 3\n15\n10 19\n20 11 13\n', '2 3 4\n16 40\n20 12 19\n13 21 11 10\n'] Demo Output: ['1\n', '6\n'] Note: В первом примере всего один вариант для выбора состава, который удовлетворяет описанным условиям, поэтому ответ 1. Во втором примере подходят следующие игровые сочетания (в порядке вратарь-защитник-защитник-нападающий-нападающий-нападающий): - 16 20 12 13 21 11 - 16 20 12 13 11 10 - 16 20 19 13 21 11 - 16 20 19 13 11 10 - 16 12 19 13 21 11 - 16 12 19 13 11 10 Таким образом, ответ на этот пример — 6.	```python n, m, x = map(int, input().split()) vr = list(map(int, input().split())) za = list(map(int, input().split())) na = list(map(int, input().split())) s = 0 l = [] for v in vr: for z in za: for c in za: if c is z: break for a in na: for w in na: if w is a: break for e in na: if e is a or e is w: break l.clear() l.append(v) l.append(z) l.append(c) l.append(a) l.append(w) l.append(e) i = max(l) k = min(l) if i / k <= 2: s += 1 print(s) ```	0
598	B	Queries on a String	PROGRAMMING	1,300	[ "implementation", "strings" ]		null	null	You are given a string s and should process m queries. Each query is described by two 1-based indices li, ri and integer ki. It means that you should cyclically shift the substring s[li... ri] ki times. The queries should be processed one after another in the order they are given. One operation of a cyclic shift (rotation) is equivalent to moving the last character to the position of the first character and shifting all other characters one position to the right. For example, if the string s is abacaba and the query is l1<==<=3,<=r1<==<=6,<=k1<==<=1 then the answer is abbacaa. If after that we would process the query l2<==<=1,<=r2<==<=4,<=k2<==<=2 then we would get the string baabcaa.	The first line of the input contains the string s (1<=≤<=\|s\|<=≤<=10<=000) in its initial state, where \|s\| stands for the length of s. It contains only lowercase English letters. Second line contains a single integer m (1<=≤<=m<=≤<=300) — the number of queries. The i-th of the next m lines contains three integers li, ri and ki (1<=≤<=li<=≤<=ri<=≤<=\|s\|,<=1<=≤<=ki<=≤<=1<=000<=000) — the description of the i-th query.	Print the resulting string s after processing all m queries.	[ "abacaba\n2\n3 6 1\n1 4 2\n" ]	[ "baabcaa\n" ]	The sample is described in problem statement.	0	[ { "input": "abacaba\n2\n3 6 1\n1 4 2", "output": "baabcaa" }, { "input": "u\n1\n1 1 1", "output": "u" }, { "input": "p\n5\n1 1 5\n1 1 9\n1 1 10\n1 1 10\n1 1 4", "output": "p" }, { "input": "ssssssssss\n5\n5 7 9\n3 9 3\n2 7 1\n7 7 10\n1 9 6", "output": "ssssssssss" }, ...	1,695,530,973	2,147,483,647	Python 3	OK	TESTS	24	77	102,400	a = list(input()) n = int(input()) for _ in range(n): l,r,k = list(map(int,input().split())) f = k%(r-l+1) a[l-1:r] = a[l-1:r][-f:] + a[l-1:r][:-f] print("".join(a))	Title: Queries on a String Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a string s and should process m queries. Each query is described by two 1-based indices li, ri and integer ki. It means that you should cyclically shift the substring s[li... ri] ki times. The queries should be processed one after another in the order they are given. One operation of a cyclic shift (rotation) is equivalent to moving the last character to the position of the first character and shifting all other characters one position to the right. For example, if the string s is abacaba and the query is l1<==<=3,<=r1<==<=6,<=k1<==<=1 then the answer is abbacaa. If after that we would process the query l2<==<=1,<=r2<==<=4,<=k2<==<=2 then we would get the string baabcaa. Input Specification: The first line of the input contains the string s (1<=≤<=\|s\|<=≤<=10<=000) in its initial state, where \|s\| stands for the length of s. It contains only lowercase English letters. Second line contains a single integer m (1<=≤<=m<=≤<=300) — the number of queries. The i-th of the next m lines contains three integers li, ri and ki (1<=≤<=li<=≤<=ri<=≤<=\|s\|,<=1<=≤<=ki<=≤<=1<=000<=000) — the description of the i-th query. Output Specification: Print the resulting string s after processing all m queries. Demo Input: ['abacaba\n2\n3 6 1\n1 4 2\n'] Demo Output: ['baabcaa\n'] Note: The sample is described in problem statement.	```python a = list(input()) n = int(input()) for _ in range(n): l,r,k = list(map(int,input().split())) f = k%(r-l+1) a[l-1:r] = a[l-1:r][-f:] + a[l-1:r][:-f] print("".join(a)) ```	3
556	A	Case of the Zeros and Ones	PROGRAMMING	900	[ "greedy" ]		null	null	Andrewid the Android is a galaxy-famous detective. In his free time he likes to think about strings containing zeros and ones. Once he thought about a string of length n consisting of zeroes and ones. Consider the following operation: we choose any two adjacent positions in the string, and if one them contains 0, and the other contains 1, then we are allowed to remove these two digits from the string, obtaining a string of length n<=-<=2 as a result. Now Andreid thinks about what is the minimum length of the string that can remain after applying the described operation several times (possibly, zero)? Help him to calculate this number.	First line of the input contains a single integer n (1<=≤<=n<=≤<=2·105), the length of the string that Andreid has. The second line contains the string of length n consisting only from zeros and ones.	Output the minimum length of the string that may remain after applying the described operations several times.	[ "4\n1100\n", "5\n01010\n", "8\n11101111\n" ]	[ "0\n", "1\n", "6\n" ]	In the first sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/10df55364c21c6e8d5da31b6ab6f6294c4fc26b3.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/19ec5dcd85f0b5cf757aa076ace72df39634de2d.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the third sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/dc34a159e4230375fa325555527ebc748811f188.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	250	[ { "input": "4\n1100", "output": "0" }, { "input": "5\n01010", "output": "1" }, { "input": "8\n11101111", "output": "6" }, { "input": "1\n0", "output": "1" }, { "input": "1\n1", "output": "1" }, { "input": "2\n00", "output": "2" }, { "input"...	1,664,915,275	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	11	1,000	716,800	number = int(input()) case = input() if case.find('0') < 0 or case.find('1')<0: print(number) else: for i in range(0,number,2): case = case.replace('10', '') case = case.replace('01', '') print(len(case))	Title: Case of the Zeros and Ones Time Limit: None seconds Memory Limit: None megabytes Problem Description: Andrewid the Android is a galaxy-famous detective. In his free time he likes to think about strings containing zeros and ones. Once he thought about a string of length n consisting of zeroes and ones. Consider the following operation: we choose any two adjacent positions in the string, and if one them contains 0, and the other contains 1, then we are allowed to remove these two digits from the string, obtaining a string of length n<=-<=2 as a result. Now Andreid thinks about what is the minimum length of the string that can remain after applying the described operation several times (possibly, zero)? Help him to calculate this number. Input Specification: First line of the input contains a single integer n (1<=≤<=n<=≤<=2·105), the length of the string that Andreid has. The second line contains the string of length n consisting only from zeros and ones. Output Specification: Output the minimum length of the string that may remain after applying the described operations several times. Demo Input: ['4\n1100\n', '5\n01010\n', '8\n11101111\n'] Demo Output: ['0\n', '1\n', '6\n'] Note: In the first sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/10df55364c21c6e8d5da31b6ab6f6294c4fc26b3.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/19ec5dcd85f0b5cf757aa076ace72df39634de2d.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the third sample test it is possible to change the string like the following: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/dc34a159e4230375fa325555527ebc748811f188.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	```python number = int(input()) case = input() if case.find('0') < 0 or case.find('1')<0: print(number) else: for i in range(0,number,2): case = case.replace('10', '') case = case.replace('01', '') print(len(case)) ```	0
401	C	Team	PROGRAMMING	1,400	[ "constructive algorithms", "greedy", "implementation" ]		null	null	Now it's time of Olympiads. Vanya and Egor decided to make his own team to take part in a programming Olympiad. They've been best friends ever since primary school and hopefully, that can somehow help them in teamwork. For each team Olympiad, Vanya takes his play cards with numbers. He takes only the cards containing numbers 1 and 0. The boys are very superstitious. They think that they can do well at the Olympiad if they begin with laying all the cards in a row so that: - there wouldn't be a pair of any side-adjacent cards with zeroes in a row; - there wouldn't be a group of three consecutive cards containing numbers one. Today Vanya brought n cards with zeroes and m cards with numbers one. The number of cards was so much that the friends do not know how to put all those cards in the described way. Help them find the required arrangement of the cards or else tell the guys that it is impossible to arrange cards in such a way.	The first line contains two integers: n (1<=≤<=n<=≤<=106) — the number of cards containing number 0; m (1<=≤<=m<=≤<=106) — the number of cards containing number 1.	In a single line print the required sequence of zeroes and ones without any spaces. If such sequence is impossible to obtain, print -1.	[ "1 2\n", "4 8\n", "4 10\n", "1 5\n" ]	[ "101\n", "110110110101\n", "11011011011011\n", "-1\n" ]	none	1,500	[ { "input": "1 2", "output": "101" }, { "input": "4 8", "output": "110110110101" }, { "input": "4 10", "output": "11011011011011" }, { "input": "1 5", "output": "-1" }, { "input": "3 4", "output": "1010101" }, { "input": "3 10", "output": "-1" }, ...	1,585,714,547	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	10	1,000	48,025,600	# Fall 7, Stand 8 n,m=map(int,input().split()) a=[] for _ in range(n): a.append("") a.append("") a.append("0") a.append("") a.append("") for _ in range(0,len(a),3): if m>0: if a[_]=="": a[_]="1" m-=1 else: break for _ in range(1,len(a),3): if m>0: if a[_]=="": a[_]="1" m-=1 else: break if m>0: print(-1) else: for _ in range(len(a)): print(a[_],end="")	Title: Team Time Limit: None seconds Memory Limit: None megabytes Problem Description: Now it's time of Olympiads. Vanya and Egor decided to make his own team to take part in a programming Olympiad. They've been best friends ever since primary school and hopefully, that can somehow help them in teamwork. For each team Olympiad, Vanya takes his play cards with numbers. He takes only the cards containing numbers 1 and 0. The boys are very superstitious. They think that they can do well at the Olympiad if they begin with laying all the cards in a row so that: - there wouldn't be a pair of any side-adjacent cards with zeroes in a row; - there wouldn't be a group of three consecutive cards containing numbers one. Today Vanya brought n cards with zeroes and m cards with numbers one. The number of cards was so much that the friends do not know how to put all those cards in the described way. Help them find the required arrangement of the cards or else tell the guys that it is impossible to arrange cards in such a way. Input Specification: The first line contains two integers: n (1<=≤<=n<=≤<=106) — the number of cards containing number 0; m (1<=≤<=m<=≤<=106) — the number of cards containing number 1. Output Specification: In a single line print the required sequence of zeroes and ones without any spaces. If such sequence is impossible to obtain, print -1. Demo Input: ['1 2\n', '4 8\n', '4 10\n', '1 5\n'] Demo Output: ['101\n', '110110110101\n', '11011011011011\n', '-1\n'] Note: none	```python # Fall 7, Stand 8 n,m=map(int,input().split()) a=[] for _ in range(n): a.append("") a.append("") a.append("0") a.append("") a.append("") for _ in range(0,len(a),3): if m>0: if a[_]=="": a[_]="1" m-=1 else: break for _ in range(1,len(a),3): if m>0: if a[_]=="": a[_]="1" m-=1 else: break if m>0: print(-1) else: for _ in range(len(a)): print(a[_],end="") ```	0
69	A	Young Physicist	PROGRAMMING	1,000	[ "implementation", "math" ]	A. Young Physicist	2	256	A guy named Vasya attends the final grade of a high school. One day Vasya decided to watch a match of his favorite hockey team. And, as the boy loves hockey very much, even more than physics, he forgot to do the homework. Specifically, he forgot to complete his physics tasks. Next day the teacher got very angry at Vasya and decided to teach him a lesson. He gave the lazy student a seemingly easy task: You are given an idle body in space and the forces that affect it. The body can be considered as a material point with coordinates (0; 0; 0). Vasya had only to answer whether it is in equilibrium. "Piece of cake" — thought Vasya, we need only to check if the sum of all vectors is equal to 0. So, Vasya began to solve the problem. But later it turned out that there can be lots and lots of these forces, and Vasya can not cope without your help. Help him. Write a program that determines whether a body is idle or is moving by the given vectors of forces.	The first line contains a positive integer n (1<=≤<=n<=≤<=100), then follow n lines containing three integers each: the xi coordinate, the yi coordinate and the zi coordinate of the force vector, applied to the body (<=-<=100<=≤<=xi,<=yi,<=zi<=≤<=100).	Print the word "YES" if the body is in equilibrium, or the word "NO" if it is not.	[ "3\n4 1 7\n-2 4 -1\n1 -5 -3\n", "3\n3 -1 7\n-5 2 -4\n2 -1 -3\n" ]	[ "NO", "YES" ]	none	500	[ { "input": "3\n4 1 7\n-2 4 -1\n1 -5 -3", "output": "NO" }, { "input": "3\n3 -1 7\n-5 2 -4\n2 -1 -3", "output": "YES" }, { "input": "10\n21 32 -46\n43 -35 21\n42 2 -50\n22 40 20\n-27 -9 38\n-4 1 1\n-40 6 -31\n-13 -2 34\n-21 34 -12\n-32 -29 41", "output": "NO" }, { "input": "10...	1,593,701,391	2,147,483,647	Python 3	OK	TESTS	81	218	307,200	n=int(input()) x=[] for i in range(n): x.append(list(map(int,input().split()))) y= [[x[j][i] for j in range(len(x))] for i in range(len(x[0]))] l=[] for i in range(len(y)): l.append(sum(y[i])) c=0 for i in range(len(l)): if l[i]==0: c+=1 if c==len(y): print("YES") else: print("NO")	Title: Young Physicist Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A guy named Vasya attends the final grade of a high school. One day Vasya decided to watch a match of his favorite hockey team. And, as the boy loves hockey very much, even more than physics, he forgot to do the homework. Specifically, he forgot to complete his physics tasks. Next day the teacher got very angry at Vasya and decided to teach him a lesson. He gave the lazy student a seemingly easy task: You are given an idle body in space and the forces that affect it. The body can be considered as a material point with coordinates (0; 0; 0). Vasya had only to answer whether it is in equilibrium. "Piece of cake" — thought Vasya, we need only to check if the sum of all vectors is equal to 0. So, Vasya began to solve the problem. But later it turned out that there can be lots and lots of these forces, and Vasya can not cope without your help. Help him. Write a program that determines whether a body is idle or is moving by the given vectors of forces. Input Specification: The first line contains a positive integer n (1<=≤<=n<=≤<=100), then follow n lines containing three integers each: the xi coordinate, the yi coordinate and the zi coordinate of the force vector, applied to the body (<=-<=100<=≤<=xi,<=yi,<=zi<=≤<=100). Output Specification: Print the word "YES" if the body is in equilibrium, or the word "NO" if it is not. Demo Input: ['3\n4 1 7\n-2 4 -1\n1 -5 -3\n', '3\n3 -1 7\n-5 2 -4\n2 -1 -3\n'] Demo Output: ['NO', 'YES'] Note: none	```python n=int(input()) x=[] for i in range(n): x.append(list(map(int,input().split()))) y= [[x[j][i] for j in range(len(x))] for i in range(len(x[0]))] l=[] for i in range(len(y)): l.append(sum(y[i])) c=0 for i in range(len(l)): if l[i]==0: c+=1 if c==len(y): print("YES") else: print("NO") ```	3.944928
47	A	Triangular numbers	PROGRAMMING	800	[ "brute force", "math" ]	A. Triangular numbers	2	256	A triangular number is the number of dots in an equilateral triangle uniformly filled with dots. For example, three dots can be arranged in a triangle; thus three is a triangular number. The n-th triangular number is the number of dots in a triangle with n dots on a side. . You can learn more about these numbers from Wikipedia (http://en.wikipedia.org/wiki/Triangular_number). Your task is to find out if a given integer is a triangular number.	The first line contains the single number n (1<=≤<=n<=≤<=500) — the given integer.	If the given integer is a triangular number output YES, otherwise output NO.	[ "1\n", "2\n", "3\n" ]	[ "YES\n", "NO\n", "YES\n" ]	none	500	[ { "input": "1", "output": "YES" }, { "input": "2", "output": "NO" }, { "input": "3", "output": "YES" }, { "input": "4", "output": "NO" }, { "input": "5", "output": "NO" }, { "input": "6", "output": "YES" }, { "input": "7", "output": "NO...	1,667,514,537	2,147,483,647	Python 3	OK	TESTS	71	92	0	num = int(input()) thing = ["0", "1", "3", "6", "10", "15", "21", "28", "36", "45", "55", "66", "78", "91", "105", "120", "136", "153", "171", "190", "210", "231", "253", "276", "300", "325", "351", "378", "406", "435", "465", "496"] if str(num) in thing: print("YES") else: print("NO")	Title: Triangular numbers Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A triangular number is the number of dots in an equilateral triangle uniformly filled with dots. For example, three dots can be arranged in a triangle; thus three is a triangular number. The n-th triangular number is the number of dots in a triangle with n dots on a side. . You can learn more about these numbers from Wikipedia (http://en.wikipedia.org/wiki/Triangular_number). Your task is to find out if a given integer is a triangular number. Input Specification: The first line contains the single number n (1<=≤<=n<=≤<=500) — the given integer. Output Specification: If the given integer is a triangular number output YES, otherwise output NO. Demo Input: ['1\n', '2\n', '3\n'] Demo Output: ['YES\n', 'NO\n', 'YES\n'] Note: none	```python num = int(input()) thing = ["0", "1", "3", "6", "10", "15", "21", "28", "36", "45", "55", "66", "78", "91", "105", "120", "136", "153", "171", "190", "210", "231", "253", "276", "300", "325", "351", "378", "406", "435", "465", "496"] if str(num) in thing: print("YES") else: print("NO") ```	3.977
731	B	Coupons and Discounts	PROGRAMMING	1,100	[ "constructive algorithms", "greedy" ]		null	null	The programming competition season has already started and it's time to train for ICPC. Sereja coaches his teams for a number of year and he knows that to get ready for the training session it's not enough to prepare only problems and editorial. As the training sessions lasts for several hours, teams become hungry. Thus, Sereja orders a number of pizzas so they can eat right after the end of the competition. Teams plan to train for n times during n consecutive days. During the training session Sereja orders exactly one pizza for each team that is present this day. He already knows that there will be ai teams on the i-th day. There are two types of discounts in Sereja's favourite pizzeria. The first discount works if one buys two pizzas at one day, while the second is a coupon that allows to buy one pizza during two consecutive days (two pizzas in total). As Sereja orders really a lot of pizza at this place, he is the golden client and can use the unlimited number of discounts and coupons of any type at any days. Sereja wants to order exactly ai pizzas on the i-th day while using only discounts and coupons. Note, that he will never buy more pizzas than he need for this particular day. Help him determine, whether he can buy the proper amount of pizzas each day if he is allowed to use only coupons and discounts. Note, that it's also prohibited to have any active coupons after the end of the day n.	The first line of input contains a single integer n (1<=≤<=n<=≤<=200<=000) — the number of training sessions. The second line contains n integers a1, a2, ..., an (0<=≤<=ai<=≤<=10<=000) — the number of teams that will be present on each of the days.	If there is a way to order pizzas using only coupons and discounts and do not buy any extra pizzas on any of the days, then print "YES" (without quotes) in the only line of output. Otherwise, print "NO" (without quotes).	[ "4\n1 2 1 2\n", "3\n1 0 1\n" ]	[ "YES\n", "NO\n" ]	In the first sample, Sereja can use one coupon to buy one pizza on the first and the second days, one coupon to buy pizza on the second and the third days and one discount to buy pizzas on the fourth days. This is the only way to order pizzas for this sample. In the second sample, Sereja can't use neither the coupon nor the discount without ordering an extra pizza. Note, that it's possible that there will be no teams attending the training sessions on some days.	1,000	[ { "input": "4\n1 2 1 2", "output": "YES" }, { "input": "3\n1 0 1", "output": "NO" }, { "input": "3\n1 3 1", "output": "NO" }, { "input": "3\n2 0 2", "output": "YES" }, { "input": "1\n179", "output": "NO" }, { "input": "10\n0 0 5 9 9 3 0 0 0 10", "o...	1,621,408,002	2,147,483,647	Python 3	OK	TESTS	79	140	10,854,400	n=int(input()) arr = map(int,input().split()) last = 0 for c in arr: if last==0: last = c%2 elif last==1: if c==0: print("NO") exit() else: last = (c-1)&1 if last==1: print("NO") else: print("YES")	Title: Coupons and Discounts Time Limit: None seconds Memory Limit: None megabytes Problem Description: The programming competition season has already started and it's time to train for ICPC. Sereja coaches his teams for a number of year and he knows that to get ready for the training session it's not enough to prepare only problems and editorial. As the training sessions lasts for several hours, teams become hungry. Thus, Sereja orders a number of pizzas so they can eat right after the end of the competition. Teams plan to train for n times during n consecutive days. During the training session Sereja orders exactly one pizza for each team that is present this day. He already knows that there will be ai teams on the i-th day. There are two types of discounts in Sereja's favourite pizzeria. The first discount works if one buys two pizzas at one day, while the second is a coupon that allows to buy one pizza during two consecutive days (two pizzas in total). As Sereja orders really a lot of pizza at this place, he is the golden client and can use the unlimited number of discounts and coupons of any type at any days. Sereja wants to order exactly ai pizzas on the i-th day while using only discounts and coupons. Note, that he will never buy more pizzas than he need for this particular day. Help him determine, whether he can buy the proper amount of pizzas each day if he is allowed to use only coupons and discounts. Note, that it's also prohibited to have any active coupons after the end of the day n. Input Specification: The first line of input contains a single integer n (1<=≤<=n<=≤<=200<=000) — the number of training sessions. The second line contains n integers a1, a2, ..., an (0<=≤<=ai<=≤<=10<=000) — the number of teams that will be present on each of the days. Output Specification: If there is a way to order pizzas using only coupons and discounts and do not buy any extra pizzas on any of the days, then print "YES" (without quotes) in the only line of output. Otherwise, print "NO" (without quotes). Demo Input: ['4\n1 2 1 2\n', '3\n1 0 1\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample, Sereja can use one coupon to buy one pizza on the first and the second days, one coupon to buy pizza on the second and the third days and one discount to buy pizzas on the fourth days. This is the only way to order pizzas for this sample. In the second sample, Sereja can't use neither the coupon nor the discount without ordering an extra pizza. Note, that it's possible that there will be no teams attending the training sessions on some days.	```python n=int(input()) arr = map(int,input().split()) last = 0 for c in arr: if last==0: last = c%2 elif last==1: if c==0: print("NO") exit() else: last = (c-1)&1 if last==1: print("NO") else: print("YES") ```	3
456	A	Laptops	PROGRAMMING	1,100	[ "sortings" ]		null	null	One day Dima and Alex had an argument about the price and quality of laptops. Dima thinks that the more expensive a laptop is, the better it is. Alex disagrees. Alex thinks that there are two laptops, such that the price of the first laptop is less (strictly smaller) than the price of the second laptop but the quality of the first laptop is higher (strictly greater) than the quality of the second laptop. Please, check the guess of Alex. You are given descriptions of n laptops. Determine whether two described above laptops exist.	The first line contains an integer n (1<=≤<=n<=≤<=105) — the number of laptops. Next n lines contain two integers each, ai and bi (1<=≤<=ai,<=bi<=≤<=n), where ai is the price of the i-th laptop, and bi is the number that represents the quality of the i-th laptop (the larger the number is, the higher is the quality). All ai are distinct. All bi are distinct.	If Alex is correct, print "Happy Alex", otherwise print "Poor Alex" (without the quotes).	[ "2\n1 2\n2 1\n" ]	[ "Happy Alex\n" ]	none	500	[ { "input": "2\n1 2\n2 1", "output": "Happy Alex" }, { "input": "2\n1 1\n2 2", "output": "Poor Alex" }, { "input": "3\n2 2\n3 3\n1 1", "output": "Poor Alex" }, { "input": "3\n3 3\n1 2\n2 1", "output": "Happy Alex" }, { "input": "1\n1 1", "output": "Poor Alex" ...	1,664,335,848	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	30	0	n=int(input()) t=[] for i in range(n): ai,bi=map(int,input().split()) t.append([ai,bi]) for i in range(n-1): for j in range(i+1,n): if (t[i][0]<t[j][0] and t[i][1]>t[j][1]) or (t[i][0]>t[j][0] and t[i][1]<t[j][1]): print("Happy Alex") break else: print("Poor Alex")	Title: Laptops Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Dima and Alex had an argument about the price and quality of laptops. Dima thinks that the more expensive a laptop is, the better it is. Alex disagrees. Alex thinks that there are two laptops, such that the price of the first laptop is less (strictly smaller) than the price of the second laptop but the quality of the first laptop is higher (strictly greater) than the quality of the second laptop. Please, check the guess of Alex. You are given descriptions of n laptops. Determine whether two described above laptops exist. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=105) — the number of laptops. Next n lines contain two integers each, ai and bi (1<=≤<=ai,<=bi<=≤<=n), where ai is the price of the i-th laptop, and bi is the number that represents the quality of the i-th laptop (the larger the number is, the higher is the quality). All ai are distinct. All bi are distinct. Output Specification: If Alex is correct, print "Happy Alex", otherwise print "Poor Alex" (without the quotes). Demo Input: ['2\n1 2\n2 1\n'] Demo Output: ['Happy Alex\n'] Note: none	```python n=int(input()) t=[] for i in range(n): ai,bi=map(int,input().split()) t.append([ai,bi]) for i in range(n-1): for j in range(i+1,n): if (t[i][0]<t[j][0] and t[i][1]>t[j][1]) or (t[i][0]>t[j][0] and t[i][1]<t[j][1]): print("Happy Alex") break else: print("Poor Alex") ```	0
911	F	Tree Destruction	PROGRAMMING	2,400	[ "constructive algorithms", "dfs and similar", "graphs", "greedy", "trees" ]		null	null	You are given an unweighted tree with n vertices. Then n<=-<=1 following operations are applied to the tree. A single operation consists of the following steps: 1. choose two leaves; 1. add the length of the simple path between them to the answer; 1. remove one of the chosen leaves from the tree. Initial answer (before applying operations) is 0. Obviously after n<=-<=1 such operations the tree will consist of a single vertex. Calculate the maximal possible answer you can achieve, and construct a sequence of operations that allows you to achieve this answer!	The first line contains one integer number n (2<=≤<=n<=≤<=2·105) — the number of vertices in the tree. Next n<=-<=1 lines describe the edges of the tree in form ai,<=bi (1<=≤<=ai, bi<=≤<=n, ai<=≠<=bi). It is guaranteed that given graph is a tree.	In the first line print one integer number — maximal possible answer. In the next n<=-<=1 lines print the operations in order of their applying in format ai,<=bi,<=ci, where ai,<=bi — pair of the leaves that are chosen in the current operation (1<=≤<=ai, bi<=≤<=n), ci (1<=≤<=ci<=≤<=n, ci<==<=ai or ci<==<=bi) — choosen leaf that is removed from the tree in the current operation. See the examples for better understanding.	[ "3\n1 2\n1 3\n", "5\n1 2\n1 3\n2 4\n2 5\n" ]	[ "3\n2 3 3\n2 1 1\n", "9\n3 5 5\n4 3 3\n4 1 1\n4 2 2\n" ]	none	0	[ { "input": "3\n1 2\n1 3", "output": "3\n2 3 3\n2 1 1" }, { "input": "5\n1 2\n1 3\n2 4\n2 5", "output": "9\n3 5 5\n4 3 3\n4 1 1\n4 2 2" }, { "input": "2\n1 2", "output": "1\n2 1 1" }, { "input": "4\n1 3\n1 4\n1 2", "output": "5\n3 4 4\n2 3 3\n2 1 1" }, { "input": "...	1,634,308,594	2,147,483,647	PyPy 3	OK	TESTS	93	1,497	59,289,600	from collections import deque import sys input = sys.stdin.readline def bfs(s): q = deque() q.append(s) dist = [-1] * (n + 1) dist[s] = 0 while q: i = q.popleft() di = dist[i] for j in G[i]: if dist[j] == -1: dist[j] = di + 1 q.append(j) return dist n = int(input()) G = [[] for _ in range(n + 1)] for _ in range(n - 1): a, b = map(int, input().split()) G[a].append(b) G[b].append(a) dist = bfs(1) x = dist.index(max(dist)) dist1 = bfs(x) y = dist1.index(max(dist1)) dist2 = bfs(y) e = [len(G[i]) for i in range(n + 1)] s = set([x, y]) q = deque() for i in range(1, n + 1): if e[i] == 1 and not i in s: q.append(i) m = 0 ans = [] while q: i = q.popleft() if dist1[i] >= dist2[i]: ans.append((i, x, i)) m += dist1[i] else: ans.append((i, y, i)) m += dist2[i] for j in G[i]: e[j] -= 1 if e[j] == 1: q.append(j) while x ^ y: ans.append((x, y, y)) m += dist1[y] dy = dist1[y] for z in G[y]: if dist1[z] < dy: y = z break print(m) for a, b, c in ans: print(a, b, c)	Title: Tree Destruction Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given an unweighted tree with n vertices. Then n<=-<=1 following operations are applied to the tree. A single operation consists of the following steps: 1. choose two leaves; 1. add the length of the simple path between them to the answer; 1. remove one of the chosen leaves from the tree. Initial answer (before applying operations) is 0. Obviously after n<=-<=1 such operations the tree will consist of a single vertex. Calculate the maximal possible answer you can achieve, and construct a sequence of operations that allows you to achieve this answer! Input Specification: The first line contains one integer number n (2<=≤<=n<=≤<=2·105) — the number of vertices in the tree. Next n<=-<=1 lines describe the edges of the tree in form ai,<=bi (1<=≤<=ai, bi<=≤<=n, ai<=≠<=bi). It is guaranteed that given graph is a tree. Output Specification: In the first line print one integer number — maximal possible answer. In the next n<=-<=1 lines print the operations in order of their applying in format ai,<=bi,<=ci, where ai,<=bi — pair of the leaves that are chosen in the current operation (1<=≤<=ai, bi<=≤<=n), ci (1<=≤<=ci<=≤<=n, ci<==<=ai or ci<==<=bi) — choosen leaf that is removed from the tree in the current operation. See the examples for better understanding. Demo Input: ['3\n1 2\n1 3\n', '5\n1 2\n1 3\n2 4\n2 5\n'] Demo Output: ['3\n2 3 3\n2 1 1\n', '9\n3 5 5\n4 3 3\n4 1 1\n4 2 2\n'] Note: none	```python from collections import deque import sys input = sys.stdin.readline def bfs(s): q = deque() q.append(s) dist = [-1] * (n + 1) dist[s] = 0 while q: i = q.popleft() di = dist[i] for j in G[i]: if dist[j] == -1: dist[j] = di + 1 q.append(j) return dist n = int(input()) G = [[] for _ in range(n + 1)] for _ in range(n - 1): a, b = map(int, input().split()) G[a].append(b) G[b].append(a) dist = bfs(1) x = dist.index(max(dist)) dist1 = bfs(x) y = dist1.index(max(dist1)) dist2 = bfs(y) e = [len(G[i]) for i in range(n + 1)] s = set([x, y]) q = deque() for i in range(1, n + 1): if e[i] == 1 and not i in s: q.append(i) m = 0 ans = [] while q: i = q.popleft() if dist1[i] >= dist2[i]: ans.append((i, x, i)) m += dist1[i] else: ans.append((i, y, i)) m += dist2[i] for j in G[i]: e[j] -= 1 if e[j] == 1: q.append(j) while x ^ y: ans.append((x, y, y)) m += dist1[y] dy = dist1[y] for z in G[y]: if dist1[z] < dy: y = z break print(m) for a, b, c in ans: print(a, b, c) ```	3
851	A	Arpa and a research in Mexican wave	PROGRAMMING	800	[ "implementation", "math" ]		null	null	Arpa is researching the Mexican wave. There are n spectators in the stadium, labeled from 1 to n. They start the Mexican wave at time 0. - At time 1, the first spectator stands. - At time 2, the second spectator stands. - ... - At time k, the k-th spectator stands. - At time k<=+<=1, the (k<=+<=1)-th spectator stands and the first spectator sits. - At time k<=+<=2, the (k<=+<=2)-th spectator stands and the second spectator sits. - ... - At time n, the n-th spectator stands and the (n<=-<=k)-th spectator sits. - At time n<=+<=1, the (n<=+<=1<=-<=k)-th spectator sits. - ... - At time n<=+<=k, the n-th spectator sits. Arpa wants to know how many spectators are standing at time t.	The first line contains three integers n, k, t (1<=≤<=n<=≤<=109, 1<=≤<=k<=≤<=n, 1<=≤<=t<=<<=n<=+<=k).	Print single integer: how many spectators are standing at time t.	[ "10 5 3\n", "10 5 7\n", "10 5 12\n" ]	[ "3\n", "5\n", "3\n" ]	In the following a sitting spectator is represented as -, a standing spectator is represented as ^. - At t = 0 ---------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 0. - At t = 1 ^--------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 1. - At t = 2 ^^-------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 2. - At t = 3 ^^^------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 3. - At t = 4 ^^^^------ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 4. - At t = 5 ^^^^^----- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 6 -^^^^^---- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 7 --^^^^^--- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 8 ---^^^^^-- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 9 ----^^^^^- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 10 -----^^^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 11 ------^^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 4. - At t = 12 -------^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 3. - At t = 13 --------^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 2. - At t = 14 ---------^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 1. - At t = 15 ---------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 0.	500	[ { "input": "10 5 3", "output": "3" }, { "input": "10 5 7", "output": "5" }, { "input": "10 5 12", "output": "3" }, { "input": "840585600 770678331 788528791", "output": "770678331" }, { "input": "25462281 23343504 8024619", "output": "8024619" }, { "in...	1,504,538,031	2,331	Python 3	TIME_LIMIT_EXCEEDED	PRETESTS	3	1,000	223,539,200	n, k, t = map(int, input().split()) a = [0 for i in range(n)] if t>k: for j in range(0,n-k): a[j] = 1 if t>n: print(n+k-t) else: print(a.count(1)) else: for i in range(t): a[i] = 1 print(a.count(1))	Title: Arpa and a research in Mexican wave Time Limit: None seconds Memory Limit: None megabytes Problem Description: Arpa is researching the Mexican wave. There are n spectators in the stadium, labeled from 1 to n. They start the Mexican wave at time 0. - At time 1, the first spectator stands. - At time 2, the second spectator stands. - ... - At time k, the k-th spectator stands. - At time k<=+<=1, the (k<=+<=1)-th spectator stands and the first spectator sits. - At time k<=+<=2, the (k<=+<=2)-th spectator stands and the second spectator sits. - ... - At time n, the n-th spectator stands and the (n<=-<=k)-th spectator sits. - At time n<=+<=1, the (n<=+<=1<=-<=k)-th spectator sits. - ... - At time n<=+<=k, the n-th spectator sits. Arpa wants to know how many spectators are standing at time t. Input Specification: The first line contains three integers n, k, t (1<=≤<=n<=≤<=109, 1<=≤<=k<=≤<=n, 1<=≤<=t<=<<=n<=+<=k). Output Specification: Print single integer: how many spectators are standing at time t. Demo Input: ['10 5 3\n', '10 5 7\n', '10 5 12\n'] Demo Output: ['3\n', '5\n', '3\n'] Note: In the following a sitting spectator is represented as -, a standing spectator is represented as ^. - At t = 0 ---------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 0. - At t = 1 ^--------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 1. - At t = 2 ^^-------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 2. - At t = 3 ^^^------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 3. - At t = 4 ^^^^------ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 4. - At t = 5 ^^^^^----- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 6 -^^^^^---- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 7 --^^^^^--- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 8 ---^^^^^-- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 9 ----^^^^^- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 10 -----^^^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 5. - At t = 11 ------^^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 4. - At t = 12 -------^^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 3. - At t = 13 --------^^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 2. - At t = 14 ---------^ <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 1. - At t = 15 ---------- <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/4d97e684117250a9afe9be022ab8a63653dd15aa.png" style="max-width: 100.0%;max-height: 100.0%;"/> number of standing spectators = 0.	```python n, k, t = map(int, input().split()) a = [0 for i in range(n)] if t>k: for j in range(0,n-k): a[j] = 1 if t>n: print(n+k-t) else: print(a.count(1)) else: for i in range(t): a[i] = 1 print(a.count(1)) ```	0
641	A	Little Artem and Grasshopper	PROGRAMMING	1,000	[ "implementation" ]		null	null	Little Artem found a grasshopper. He brought it to his house and constructed a jumping area for him. The area looks like a strip of cells 1<=×<=n. Each cell contains the direction for the next jump and the length of that jump. Grasshopper starts in the first cell and follows the instructions written on the cells. Grasshopper stops immediately if it jumps out of the strip. Now Artem wants to find out if this will ever happen.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — length of the strip. Next line contains a string of length n which consists of characters "<" and ">" only, that provide the direction of the jump from the corresponding cell. Next line contains n integers di (1<=≤<=di<=≤<=109) — the length of the jump from the i-th cell.	Print "INFINITE" (without quotes) if grasshopper will continue his jumps forever. Otherwise print "FINITE" (without quotes).	[ "2\n><\n1 2\n", "3\n>><\n2 1 1\n" ]	[ "FINITE\n", "INFINITE" ]	In the first sample grasshopper starts from the first cell and jumps to the right on the next cell. When he is in the second cell he needs to jump two cells left so he will jump out of the strip. Second sample grasshopper path is 1 - 3 - 2 - 3 - 2 - 3 and so on. The path is infinite.	500	[ { "input": "2\n><\n1 2", "output": "FINITE" }, { "input": "3\n>><\n2 1 1", "output": "INFINITE" }, { "input": "1\n>\n1000000000", "output": "FINITE" }, { "input": "1\n<\n1000000000", "output": "FINITE" }, { "input": "2\n>>\n1 1", "output": "FINITE" }, { ...	1,630,755,747	2,147,483,647	Python 3	OK	TESTS	60	109	14,540,800	n=int(input()) l=list(input()) m=list(map(int,input().split())) a=0 x=0 for i in range(n): if l[a]=="<" : a=a-m[a] else: a=a+m[a] if a>=n or a<0 : x=1 break if x==1 : print("FINITE") else: print("INFINITE")	Title: Little Artem and Grasshopper Time Limit: None seconds Memory Limit: None megabytes Problem Description: Little Artem found a grasshopper. He brought it to his house and constructed a jumping area for him. The area looks like a strip of cells 1<=×<=n. Each cell contains the direction for the next jump and the length of that jump. Grasshopper starts in the first cell and follows the instructions written on the cells. Grasshopper stops immediately if it jumps out of the strip. Now Artem wants to find out if this will ever happen. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — length of the strip. Next line contains a string of length n which consists of characters "<" and ">" only, that provide the direction of the jump from the corresponding cell. Next line contains n integers di (1<=≤<=di<=≤<=109) — the length of the jump from the i-th cell. Output Specification: Print "INFINITE" (without quotes) if grasshopper will continue his jumps forever. Otherwise print "FINITE" (without quotes). Demo Input: ['2\n><\n1 2\n', '3\n>><\n2 1 1\n'] Demo Output: ['FINITE\n', 'INFINITE'] Note: In the first sample grasshopper starts from the first cell and jumps to the right on the next cell. When he is in the second cell he needs to jump two cells left so he will jump out of the strip. Second sample grasshopper path is 1 - 3 - 2 - 3 - 2 - 3 and so on. The path is infinite.	```python n=int(input()) l=list(input()) m=list(map(int,input().split())) a=0 x=0 for i in range(n): if l[a]=="<" : a=a-m[a] else: a=a+m[a] if a>=n or a<0 : x=1 break if x==1 : print("FINITE") else: print("INFINITE") ```	3
961	A	Tetris	PROGRAMMING	900	[ "implementation" ]		null	null	You are given a following process. There is a platform with $n$ columns. $1 \times 1$ squares are appearing one after another in some columns on this platform. If there are no squares in the column, a square will occupy the bottom row. Otherwise a square will appear at the top of the highest square of this column. When all of the $n$ columns have at least one square in them, the bottom row is being removed. You will receive $1$ point for this, and all the squares left will fall down one row. You task is to calculate the amount of points you will receive.	The first line of input contain 2 integer numbers $n$ and $m$ ($1 \le n, m \le 1000$) — the length of the platform and the number of the squares. The next line contain $m$ integer numbers $c_1, c_2, \dots, c_m$ ($1 \le c_i \le n$) — column in which $i$-th square will appear.	Print one integer — the amount of points you will receive.	[ "3 9\n1 1 2 2 2 3 1 2 3\n" ]	[ "2\n" ]	In the sample case the answer will be equal to $2$ because after the appearing of $6$-th square will be removed one row (counts of the squares on the platform will look like $[2~ 3~ 1]$, and after removing one row will be $[1~ 2~ 0]$). After the appearing of $9$-th square counts will be $[2~ 3~ 1]$, and after removing one row it will look like $[1~ 2~ 0]$. So the answer will be equal to $2$.	0	[ { "input": "3 9\n1 1 2 2 2 3 1 2 3", "output": "2" }, { "input": "1 7\n1 1 1 1 1 1 1", "output": "7" }, { "input": "1 1\n1", "output": "1" }, { "input": "3 5\n1 1 1 2 3", "output": "1" }, { "input": "4 6\n4 4 4 4 4 4", "output": "0" }, { "input": "4 6\...	1,552,610,755	2,147,483,647	Python 3	OK	TESTS	29	109	0	def num_points(n, c_list): num_squares_in_row = {1: 0} num_squares_in_col = {} curr_row = 1 points = 0 for c in c_list: if c not in num_squares_in_col: num_squares_in_col[c] = 1 num_squares_in_row[1] += 1 else: num_squares_in_col[c] += 1 if num_squares_in_col[c] not in num_squares_in_row: num_squares_in_row[num_squares_in_col[c]] = 1 else: num_squares_in_row[num_squares_in_col[c]] += 1 if num_squares_in_row[curr_row] == n: points += 1 curr_row += 1 return points [n, m] = [int(x) for x in input().strip().split(' ')] c_list = [int(x) for x in input().strip().split(' ')] print(num_points(n, c_list))	Title: Tetris Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a following process. There is a platform with $n$ columns. $1 \times 1$ squares are appearing one after another in some columns on this platform. If there are no squares in the column, a square will occupy the bottom row. Otherwise a square will appear at the top of the highest square of this column. When all of the $n$ columns have at least one square in them, the bottom row is being removed. You will receive $1$ point for this, and all the squares left will fall down one row. You task is to calculate the amount of points you will receive. Input Specification: The first line of input contain 2 integer numbers $n$ and $m$ ($1 \le n, m \le 1000$) — the length of the platform and the number of the squares. The next line contain $m$ integer numbers $c_1, c_2, \dots, c_m$ ($1 \le c_i \le n$) — column in which $i$-th square will appear. Output Specification: Print one integer — the amount of points you will receive. Demo Input: ['3 9\n1 1 2 2 2 3 1 2 3\n'] Demo Output: ['2\n'] Note: In the sample case the answer will be equal to $2$ because after the appearing of $6$-th square will be removed one row (counts of the squares on the platform will look like $[2~ 3~ 1]$, and after removing one row will be $[1~ 2~ 0]$). After the appearing of $9$-th square counts will be $[2~ 3~ 1]$, and after removing one row it will look like $[1~ 2~ 0]$. So the answer will be equal to $2$.	```python def num_points(n, c_list): num_squares_in_row = {1: 0} num_squares_in_col = {} curr_row = 1 points = 0 for c in c_list: if c not in num_squares_in_col: num_squares_in_col[c] = 1 num_squares_in_row[1] += 1 else: num_squares_in_col[c] += 1 if num_squares_in_col[c] not in num_squares_in_row: num_squares_in_row[num_squares_in_col[c]] = 1 else: num_squares_in_row[num_squares_in_col[c]] += 1 if num_squares_in_row[curr_row] == n: points += 1 curr_row += 1 return points [n, m] = [int(x) for x in input().strip().split(' ')] c_list = [int(x) for x in input().strip().split(' ')] print(num_points(n, c_list)) ```	3
982	A	Row	PROGRAMMING	1,200	[ "brute force", "constructive algorithms" ]		null	null	You're given a row with $n$ chairs. We call a seating of people "maximal" if the two following conditions hold: 1. There are no neighbors adjacent to anyone seated. 1. It's impossible to seat one more person without violating the first rule. The seating is given as a string consisting of zeros and ones ($0$ means that the corresponding seat is empty, $1$ — occupied). The goal is to determine whether this seating is "maximal". Note that the first and last seats are not adjacent (if $n \ne 2$).	The first line contains a single integer $n$ ($1 \leq n \leq 1000$) — the number of chairs. The next line contains a string of $n$ characters, each of them is either zero or one, describing the seating.	Output "Yes" (without quotation marks) if the seating is "maximal". Otherwise print "No". You are allowed to print letters in whatever case you'd like (uppercase or lowercase).	[ "3\n101\n", "4\n1011\n", "5\n10001\n" ]	[ "Yes\n", "No\n", "No\n" ]	In sample case one the given seating is maximal. In sample case two the person at chair three has a neighbour to the right. In sample case three it is possible to seat yet another person into chair three.	500	[ { "input": "3\n101", "output": "Yes" }, { "input": "4\n1011", "output": "No" }, { "input": "5\n10001", "output": "No" }, { "input": "1\n0", "output": "No" }, { "input": "1\n1", "output": "Yes" }, { "input": "100\n010100101010100101001001010100101010010...	1,624,874,355	795	PyPy 3	WRONG_ANSWER	TESTS	17	92	0	n=int(input()) ar=input() flag=True if(n==1): if(ar[0]=='0'): flag=False else: for i in range(n): if(i==0): if(ar[i]==ar[i+1]): flag=False elif(i==(n-1)): if(ar[i]==ar[i-1]): flag=False else: if(ar[i]==ar[i+1] and ar[i]==ar[i-1]): flag=False if(flag): print('Yes') else: print('No')	Title: Row Time Limit: None seconds Memory Limit: None megabytes Problem Description: You're given a row with $n$ chairs. We call a seating of people "maximal" if the two following conditions hold: 1. There are no neighbors adjacent to anyone seated. 1. It's impossible to seat one more person without violating the first rule. The seating is given as a string consisting of zeros and ones ($0$ means that the corresponding seat is empty, $1$ — occupied). The goal is to determine whether this seating is "maximal". Note that the first and last seats are not adjacent (if $n \ne 2$). Input Specification: The first line contains a single integer $n$ ($1 \leq n \leq 1000$) — the number of chairs. The next line contains a string of $n$ characters, each of them is either zero or one, describing the seating. Output Specification: Output "Yes" (without quotation marks) if the seating is "maximal". Otherwise print "No". You are allowed to print letters in whatever case you'd like (uppercase or lowercase). Demo Input: ['3\n101\n', '4\n1011\n', '5\n10001\n'] Demo Output: ['Yes\n', 'No\n', 'No\n'] Note: In sample case one the given seating is maximal. In sample case two the person at chair three has a neighbour to the right. In sample case three it is possible to seat yet another person into chair three.	```python n=int(input()) ar=input() flag=True if(n==1): if(ar[0]=='0'): flag=False else: for i in range(n): if(i==0): if(ar[i]==ar[i+1]): flag=False elif(i==(n-1)): if(ar[i]==ar[i-1]): flag=False else: if(ar[i]==ar[i+1] and ar[i]==ar[i-1]): flag=False if(flag): print('Yes') else: print('No') ```	0
199	A	Hexadecimal's theorem	PROGRAMMING	900	[ "brute force", "constructive algorithms", "implementation", "number theory" ]		null	null	Recently, a chaotic virus Hexadecimal advanced a new theorem which will shake the Universe. She thinks that each Fibonacci number can be represented as sum of three not necessary different Fibonacci numbers. Let's remember how Fibonacci numbers can be calculated. F0<==<=0, F1<==<=1, and all the next numbers are Fi<==<=Fi<=-<=2<=+<=Fi<=-<=1. So, Fibonacci numbers make a sequence of numbers: 0, 1, 1, 2, 3, 5, 8, 13, ... If you haven't run away from the PC in fear, you have to help the virus. Your task is to divide given Fibonacci number n by three not necessary different Fibonacci numbers or say that it is impossible.	The input contains of a single integer n (0<=≤<=n<=<<=109) — the number that should be represented by the rules described above. It is guaranteed that n is a Fibonacci number.	Output three required numbers: a, b and c. If there is no answer for the test you have to print "I'm too stupid to solve this problem" without the quotes. If there are multiple answers, print any of them.	[ "3\n", "13\n" ]	[ "1 1 1\n", "2 3 8\n" ]	none	500	[ { "input": "3", "output": "1 1 1" }, { "input": "13", "output": "2 3 8" }, { "input": "0", "output": "0 0 0" }, { "input": "1", "output": "1 0 0" }, { "input": "2", "output": "1 1 0" }, { "input": "1597", "output": "233 377 987" }, { "input...	1,661,250,967	2,147,483,647	PyPy 3-64	MEMORY_LIMIT_EXCEEDED	TESTS	2	998	268,390,400	n=int(input()) if n==1: print(0,0,1) elif n==2: print(0,1,1) else: arr=[0,1] i=2 while arr[-1]!=n: x=arr[i-1]+arr[i-2] arr.append(x) i+=1 print(arr[-5],arr[-4],arr[-2])	Title: Hexadecimal's theorem Time Limit: None seconds Memory Limit: None megabytes Problem Description: Recently, a chaotic virus Hexadecimal advanced a new theorem which will shake the Universe. She thinks that each Fibonacci number can be represented as sum of three not necessary different Fibonacci numbers. Let's remember how Fibonacci numbers can be calculated. F0<==<=0, F1<==<=1, and all the next numbers are Fi<==<=Fi<=-<=2<=+<=Fi<=-<=1. So, Fibonacci numbers make a sequence of numbers: 0, 1, 1, 2, 3, 5, 8, 13, ... If you haven't run away from the PC in fear, you have to help the virus. Your task is to divide given Fibonacci number n by three not necessary different Fibonacci numbers or say that it is impossible. Input Specification: The input contains of a single integer n (0<=≤<=n<=<<=109) — the number that should be represented by the rules described above. It is guaranteed that n is a Fibonacci number. Output Specification: Output three required numbers: a, b and c. If there is no answer for the test you have to print "I'm too stupid to solve this problem" without the quotes. If there are multiple answers, print any of them. Demo Input: ['3\n', '13\n'] Demo Output: ['1 1 1\n', '2 3 8\n'] Note: none	```python n=int(input()) if n==1: print(0,0,1) elif n==2: print(0,1,1) else: arr=[0,1] i=2 while arr[-1]!=n: x=arr[i-1]+arr[i-2] arr.append(x) i+=1 print(arr[-5],arr[-4],arr[-2]) ```	0
5	C	Longest Regular Bracket Sequence	PROGRAMMING	1,900	[ "constructive algorithms", "data structures", "dp", "greedy", "sortings", "strings" ]	C. Longest Regular Bracket Sequence	2	256	This is yet another problem dealing with regular bracket sequences. We should remind you that a bracket sequence is called regular, if by inserting «+» and «1» into it we can get a correct mathematical expression. For example, sequences «(())()», «()» and «(()(()))» are regular, while «)(», «(()» and «(()))(» are not. You are given a string of «(» and «)» characters. You are to find its longest substring that is a regular bracket sequence. You are to find the number of such substrings as well.	The first line of the input file contains a non-empty string, consisting of «(» and «)» characters. Its length does not exceed 106.	Print the length of the longest substring that is a regular bracket sequence, and the number of such substrings. If there are no such substrings, write the only line containing "0 1".	[ ")((())))(()())\n", "))(\n" ]	[ "6 2\n", "0 1\n" ]	none	0	[ { "input": ")((())))(()())", "output": "6 2" }, { "input": "))(", "output": "0 1" }, { "input": "()(())()", "output": "8 1" }, { "input": "((((()(((", "output": "2 1" }, { "input": "))))()())))", "output": "4 1" }, { "input": "(()())()(())()()())())()(...	1,605,590,245	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	3	248	0	from sys import stdin,stdout input = stdin.readline s = input() n = len(s) - 1 right = 0 d = {0:-1} parentheses = 0 count = {} while(right < n): if(s[right] == '('): parentheses = parentheses + 1 else: parentheses = parentheses - 1 if(parentheses < 0): d = {0:right} parentheses = 0 right += 1 continue if(d.get(parentheses,None) != None): count[right - d[parentheses]] = count.get(right - d[parentheses],0) + 1 else: d[parentheses] = right right += 1 mx,cnt = 0,1 for key,value in count.items(): if(mx < key): mx,cnt = key,value print(mx,cnt)	Title: Longest Regular Bracket Sequence Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: This is yet another problem dealing with regular bracket sequences. We should remind you that a bracket sequence is called regular, if by inserting «+» and «1» into it we can get a correct mathematical expression. For example, sequences «(())()», «()» and «(()(()))» are regular, while «)(», «(()» and «(()))(» are not. You are given a string of «(» and «)» characters. You are to find its longest substring that is a regular bracket sequence. You are to find the number of such substrings as well. Input Specification: The first line of the input file contains a non-empty string, consisting of «(» and «)» characters. Its length does not exceed 106. Output Specification: Print the length of the longest substring that is a regular bracket sequence, and the number of such substrings. If there are no such substrings, write the only line containing "0 1". Demo Input: [')((())))(()())\n', '))(\n'] Demo Output: ['6 2\n', '0 1\n'] Note: none	```python from sys import stdin,stdout input = stdin.readline s = input() n = len(s) - 1 right = 0 d = {0:-1} parentheses = 0 count = {} while(right < n): if(s[right] == '('): parentheses = parentheses + 1 else: parentheses = parentheses - 1 if(parentheses < 0): d = {0:right} parentheses = 0 right += 1 continue if(d.get(parentheses,None) != None): count[right - d[parentheses]] = count.get(right - d[parentheses],0) + 1 else: d[parentheses] = right right += 1 mx,cnt = 0,1 for key,value in count.items(): if(mx < key): mx,cnt = key,value print(mx,cnt) ```	0
701	A	Cards	PROGRAMMING	800	[ "greedy", "implementation" ]		null	null	There are n cards (n is even) in the deck. Each card has a positive integer written on it. n<=/<=2 people will play new card game. At the beginning of the game each player gets two cards, each card is given to exactly one player. Find the way to distribute cards such that the sum of values written of the cards will be equal for each player. It is guaranteed that it is always possible.	The first line of the input contains integer n (2<=≤<=n<=≤<=100) — the number of cards in the deck. It is guaranteed that n is even. The second line contains the sequence of n positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100), where ai is equal to the number written on the i-th card.	Print n<=/<=2 pairs of integers, the i-th pair denote the cards that should be given to the i-th player. Each card should be given to exactly one player. Cards are numbered in the order they appear in the input. It is guaranteed that solution exists. If there are several correct answers, you are allowed to print any of them.	[ "6\n1 5 7 4 4 3\n", "4\n10 10 10 10\n" ]	[ "1 3\n6 2\n4 5\n", "1 2\n3 4\n" ]	In the first sample, cards are distributed in such a way that each player has the sum of numbers written on his cards equal to 8. In the second sample, all values a<sub class="lower-index">i</sub> are equal. Thus, any distribution is acceptable.	500	[ { "input": "6\n1 5 7 4 4 3", "output": "1 3\n6 2\n4 5" }, { "input": "4\n10 10 10 10", "output": "1 4\n2 3" }, { "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 ...	1,628,656,433	2,147,483,647	Python 3	OK	TESTS	35	77	6,758,400	n=int(input()) x=list(map(int, input().split())) a=sorted([[x[i], i + 1] for i in range(n)]) for i in range(n//2): print(a[i][1], a[-i - 1][1])	Title: Cards Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are n cards (n is even) in the deck. Each card has a positive integer written on it. n<=/<=2 people will play new card game. At the beginning of the game each player gets two cards, each card is given to exactly one player. Find the way to distribute cards such that the sum of values written of the cards will be equal for each player. It is guaranteed that it is always possible. Input Specification: The first line of the input contains integer n (2<=≤<=n<=≤<=100) — the number of cards in the deck. It is guaranteed that n is even. The second line contains the sequence of n positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100), where ai is equal to the number written on the i-th card. Output Specification: Print n<=/<=2 pairs of integers, the i-th pair denote the cards that should be given to the i-th player. Each card should be given to exactly one player. Cards are numbered in the order they appear in the input. It is guaranteed that solution exists. If there are several correct answers, you are allowed to print any of them. Demo Input: ['6\n1 5 7 4 4 3\n', '4\n10 10 10 10\n'] Demo Output: ['1 3\n6 2\n4 5\n', '1 2\n3 4\n'] Note: In the first sample, cards are distributed in such a way that each player has the sum of numbers written on his cards equal to 8. In the second sample, all values a<sub class="lower-index">i</sub> are equal. Thus, any distribution is acceptable.	```python n=int(input()) x=list(map(int, input().split())) a=sorted([[x[i], i + 1] for i in range(n)]) for i in range(n//2): print(a[i][1], a[-i - 1][1]) ```	3
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\...	1,674,331,712	2,147,483,647	Python 3	OK	TESTS	30	343	8,294,400	n, m = [int(i) for i in input().split(' ')] a = [int(i) for i in input().split(' ')] s = set() indexes = [] for i in reversed(range(len(a))): s.add(a[i]) a[i] = len(s) for i in range(m): indexes.append(int(input())-1) for i in indexes: print(a[i])	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 n, m = [int(i) for i in input().split(' ')] a = [int(i) for i in input().split(' ')] s = set() indexes = [] for i in reversed(range(len(a))): s.add(a[i]) a[i] = len(s) for i in range(m): indexes.append(int(input())-1) for i in indexes: print(a[i]) ```	3
131	A	cAPS lOCK	PROGRAMMING	1,000	[ "implementation", "strings" ]		null	null	wHAT DO WE NEED cAPS LOCK FOR? Caps lock is a computer keyboard key. Pressing it sets an input mode in which typed letters are capital by default. If it is pressed by accident, it leads to accidents like the one we had in the first passage. Let's consider that a word has been typed with the Caps lock key accidentally switched on, if: - either it only contains uppercase letters; - or all letters except for the first one are uppercase. In this case we should automatically change the case of all letters. For example, the case of the letters that form words "hELLO", "HTTP", "z" should be changed. Write a program that applies the rule mentioned above. If the rule cannot be applied, the program should leave the word unchanged.	The first line of the input data contains a word consisting of uppercase and lowercase Latin letters. The word's length is from 1 to 100 characters, inclusive.	Print the result of the given word's processing.	[ "cAPS\n", "Lock\n" ]	[ "Caps", "Lock\n" ]	none	500	[ { "input": "cAPS", "output": "Caps" }, { "input": "Lock", "output": "Lock" }, { "input": "cAPSlOCK", "output": "cAPSlOCK" }, { "input": "CAPs", "output": "CAPs" }, { "input": "LoCK", "output": "LoCK" }, { "input": "OOPS", "output": "oops" }, { ...	1,696,299,362	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	5	62	2,048,000	import re word = input() print((word.capitalize(), word)[re.search(r'^[a-z]?[A-Z]+$', word) is None])	Title: cAPS lOCK Time Limit: None seconds Memory Limit: None megabytes Problem Description: wHAT DO WE NEED cAPS LOCK FOR? Caps lock is a computer keyboard key. Pressing it sets an input mode in which typed letters are capital by default. If it is pressed by accident, it leads to accidents like the one we had in the first passage. Let's consider that a word has been typed with the Caps lock key accidentally switched on, if: - either it only contains uppercase letters; - or all letters except for the first one are uppercase. In this case we should automatically change the case of all letters. For example, the case of the letters that form words "hELLO", "HTTP", "z" should be changed. Write a program that applies the rule mentioned above. If the rule cannot be applied, the program should leave the word unchanged. Input Specification: The first line of the input data contains a word consisting of uppercase and lowercase Latin letters. The word's length is from 1 to 100 characters, inclusive. Output Specification: Print the result of the given word's processing. Demo Input: ['cAPS\n', 'Lock\n'] Demo Output: ['Caps', 'Lock\n'] Note: none	```python import re word = input() print((word.capitalize(), word)[re.search(r'^[a-z]?[A-Z]+$', word) is None]) ```	0
277	A	Learning Languages	PROGRAMMING	1,400	[ "dfs and similar", "dsu" ]		null	null	The "BerCorp" company has got n employees. These employees can use m approved official languages for the formal correspondence. The languages are numbered with integers from 1 to m. For each employee we have the list of languages, which he knows. This list could be empty, i. e. an employee may know no official languages. But the employees are willing to learn any number of official languages, as long as the company pays their lessons. A study course in one language for one employee costs 1 berdollar. Find the minimum sum of money the company needs to spend so as any employee could correspond to any other one (their correspondence can be indirect, i. e. other employees can help out translating).	The first line contains two integers n and m (2<=≤<=n,<=m<=≤<=100) — the number of employees and the number of languages. Then n lines follow — each employee's language list. At the beginning of the i-th line is integer ki (0<=≤<=ki<=≤<=m) — the number of languages the i-th employee knows. Next, the i-th line contains ki integers — aij (1<=≤<=aij<=≤<=m) — the identifiers of languages the i-th employee knows. It is guaranteed that all the identifiers in one list are distinct. Note that an employee may know zero languages. The numbers in the lines are separated by single spaces.	Print a single integer — the minimum amount of money to pay so that in the end every employee could write a letter to every other one (other employees can help out translating).	[ "5 5\n1 2\n2 2 3\n2 3 4\n2 4 5\n1 5\n", "8 7\n0\n3 1 2 3\n1 1\n2 5 4\n2 6 7\n1 3\n2 7 4\n1 1\n", "2 2\n1 2\n0\n" ]	[ "0\n", "2\n", "1\n" ]	In the second sample the employee 1 can learn language 2, and employee 8 can learn language 4. In the third sample employee 2 must learn language 2.	500	[ { "input": "5 5\n1 2\n2 2 3\n2 3 4\n2 4 5\n1 5", "output": "0" }, { "input": "8 7\n0\n3 1 2 3\n1 1\n2 5 4\n2 6 7\n1 3\n2 7 4\n1 1", "output": "2" }, { "input": "2 2\n1 2\n0", "output": "1" }, { "input": "2 2\n0\n0", "output": "2" }, { "input": "5 5\n1 3\n0\n0\n2 4...	1,622,231,842	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	3	218	102,400	from collections import defaultdict def dfs(root, graph, seen): stack = [root] while len(stack) > 0: u = stack.pop() seen[u] = True for v in graph[u]: if not seen[v]: stack.append(v) graph = defaultdict(set) languages = defaultdict(set) n, _ = map(int, input().split()) for i in range(n): languages[i] = set([int(a) for a in input().split()][1:]) for i in range(n): for j in range(n): if i != j: if len(languages[i].intersection(languages[j])) > 0: graph[i].add(j) graph[j].add(i) connected_components = 0 seen = [False] * (n + 1) for i in range(n): if seen[i]: continue dfs(i, graph, seen) connected_components += 1 print(connected_components - 1)	Title: Learning Languages Time Limit: None seconds Memory Limit: None megabytes Problem Description: The "BerCorp" company has got n employees. These employees can use m approved official languages for the formal correspondence. The languages are numbered with integers from 1 to m. For each employee we have the list of languages, which he knows. This list could be empty, i. e. an employee may know no official languages. But the employees are willing to learn any number of official languages, as long as the company pays their lessons. A study course in one language for one employee costs 1 berdollar. Find the minimum sum of money the company needs to spend so as any employee could correspond to any other one (their correspondence can be indirect, i. e. other employees can help out translating). Input Specification: The first line contains two integers n and m (2<=≤<=n,<=m<=≤<=100) — the number of employees and the number of languages. Then n lines follow — each employee's language list. At the beginning of the i-th line is integer ki (0<=≤<=ki<=≤<=m) — the number of languages the i-th employee knows. Next, the i-th line contains ki integers — aij (1<=≤<=aij<=≤<=m) — the identifiers of languages the i-th employee knows. It is guaranteed that all the identifiers in one list are distinct. Note that an employee may know zero languages. The numbers in the lines are separated by single spaces. Output Specification: Print a single integer — the minimum amount of money to pay so that in the end every employee could write a letter to every other one (other employees can help out translating). Demo Input: ['5 5\n1 2\n2 2 3\n2 3 4\n2 4 5\n1 5\n', '8 7\n0\n3 1 2 3\n1 1\n2 5 4\n2 6 7\n1 3\n2 7 4\n1 1\n', '2 2\n1 2\n0\n'] Demo Output: ['0\n', '2\n', '1\n'] Note: In the second sample the employee 1 can learn language 2, and employee 8 can learn language 4. In the third sample employee 2 must learn language 2.	```python from collections import defaultdict def dfs(root, graph, seen): stack = [root] while len(stack) > 0: u = stack.pop() seen[u] = True for v in graph[u]: if not seen[v]: stack.append(v) graph = defaultdict(set) languages = defaultdict(set) n, _ = map(int, input().split()) for i in range(n): languages[i] = set([int(a) for a in input().split()][1:]) for i in range(n): for j in range(n): if i != j: if len(languages[i].intersection(languages[j])) > 0: graph[i].add(j) graph[j].add(i) connected_components = 0 seen = [False] * (n + 1) for i in range(n): if seen[i]: continue dfs(i, graph, seen) connected_components += 1 print(connected_components - 1) ```	0
386	B	Fly, freebies, fly!	PROGRAMMING	1,400	[ "binary search", "brute force", "implementation" ]		null	null	Everyone loves a freebie. Especially students. It is well-known that if in the night before exam a student opens window, opens the student's record-book and shouts loudly three times "Fly, freebie, fly!" — then flown freebie helps him to pass the upcoming exam. In the night before the exam on mathematical analysis n students living in dormitory shouted treasured words. The i-th student made a sacrament at the time ti, where ti is the number of seconds elapsed since the beginning of the night. It is known that the freebie is a capricious and willful lady. That night the freebie was near dormitory only for T seconds. Therefore, if for two students their sacrament times differ for more than T, then the freebie didn't visit at least one of them. Since all students are optimists, they really want to know what is the maximal number of students visited by the freebie can be.	The first line of the input contains integer n (1<=≤<=n<=≤<=100), where n — the number of students shouted "Fly, freebie, fly!" The second line contains n positive integers ti (1<=≤<=ti<=≤<=1000). The last line contains integer T (1<=≤<=T<=≤<=1000) — the time interval during which the freebie was near the dormitory.	Print a single integer — the largest number of people who will pass exam tomorrow because of the freebie visit.	[ "6\n4 1 7 8 3 8\n1\n" ]	[ "3\n" ]	none	1,000	[ { "input": "6\n4 1 7 8 3 8\n1", "output": "3" }, { "input": "4\n4 2 1 5\n2", "output": "2" }, { "input": "10\n4 7 1 3 8 5 2 1 8 4\n3", "output": "6" }, { "input": "8\n39 49 37 28 40 17 50 2\n10", "output": "3" }, { "input": "2\n1 1\n1", "output": "2" }, { ...	1,584,734,759	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	109	0	n=int(input()) l=list(map(int,input().split())) t=int(input()) op=[] for i in l: c=0 for j in l: if abs(i-j)<=t: c=c+1 op.append(c) print(max(op))	Title: Fly, freebies, fly! Time Limit: None seconds Memory Limit: None megabytes Problem Description: Everyone loves a freebie. Especially students. It is well-known that if in the night before exam a student opens window, opens the student's record-book and shouts loudly three times "Fly, freebie, fly!" — then flown freebie helps him to pass the upcoming exam. In the night before the exam on mathematical analysis n students living in dormitory shouted treasured words. The i-th student made a sacrament at the time ti, where ti is the number of seconds elapsed since the beginning of the night. It is known that the freebie is a capricious and willful lady. That night the freebie was near dormitory only for T seconds. Therefore, if for two students their sacrament times differ for more than T, then the freebie didn't visit at least one of them. Since all students are optimists, they really want to know what is the maximal number of students visited by the freebie can be. Input Specification: The first line of the input contains integer n (1<=≤<=n<=≤<=100), where n — the number of students shouted "Fly, freebie, fly!" The second line contains n positive integers ti (1<=≤<=ti<=≤<=1000). The last line contains integer T (1<=≤<=T<=≤<=1000) — the time interval during which the freebie was near the dormitory. Output Specification: Print a single integer — the largest number of people who will pass exam tomorrow because of the freebie visit. Demo Input: ['6\n4 1 7 8 3 8\n1\n'] Demo Output: ['3\n'] Note: none	```python n=int(input()) l=list(map(int,input().split())) t=int(input()) op=[] for i in l: c=0 for j in l: if abs(i-j)<=t: c=c+1 op.append(c) print(max(op)) ```	0
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"...	1,690,381,386	2,147,483,647	Python 3	OK	TESTS	20	46	0	import math def least_flagstones(a, b, d): return math.ceil(a/d) * math.ceil(b/d) a, b, d = map(int, input().split()) print(least_flagstones(a, b, d))	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 def least_flagstones(a, b, d): return math.ceil(a/d) * math.ceil(b/d) a, b, d = map(int, input().split()) print(least_flagstones(a, b, d)) ```	3.977
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" }, ...	1,618,159,846	2,147,483,647	Python 3	OK	TESTS	19	154	409,600	from collections import Counter def solve(): str1=input() str2=input() count,j=1,0 for i in range(len(str2)): if str1[j]==str2[i]: count+=1 j+=1 return count print(solve())	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 from collections import Counter def solve(): str1=input() str2=input() count,j=1,0 for i in range(len(str2)): if str1[j]==str2[i]: count+=1 j+=1 return count print(solve()) ```	3
801	B	Valued Keys	PROGRAMMING	900	[ "constructive algorithms", "greedy", "strings" ]		null	null	You found a mysterious function f. The function takes two strings s1 and s2. These strings must consist only of lowercase English letters, and must be the same length. The output of the function f is another string of the same length. The i-th character of the output is equal to the minimum of the i-th character of s1 and the i-th character of s2. For example, f("ab", "ba") = "aa", and f("nzwzl", "zizez") = "niwel". You found two strings x and y of the same length and consisting of only lowercase English letters. Find any string z such that f(x,<=z)<==<=y, or print -1 if no such string z exists.	The first line of input contains the string x. The second line of input contains the string y. Both x and y consist only of lowercase English letters, x and y have same length and this length is between 1 and 100.	If there is no string z such that f(x,<=z)<==<=y, print -1. Otherwise, print a string z such that f(x,<=z)<==<=y. If there are multiple possible answers, print any of them. The string z should be the same length as x and y and consist only of lowercase English letters.	[ "ab\naa\n", "nzwzl\nniwel\n", "ab\nba\n" ]	[ "ba\n", "xiyez\n", "-1\n" ]	The first case is from the statement. Another solution for the second case is "zizez" There is no solution for the third case. That is, there is no z such that f("ab", z) = "ba".	1,000	[ { "input": "ab\naa", "output": "ba" }, { "input": "nzwzl\nniwel", "output": "xiyez" }, { "input": "ab\nba", "output": "-1" }, { "input": "r\nl", "output": "l" }, { "input": "d\ny", "output": "-1" }, { "input": "yvowz\ncajav", "output": "cajav" },...	1,611,139,214	2,147,483,647	PyPy 3	OK	TESTS	35	124	0	s1=list(input()) s2=list(input()) s=[] for i in range(len(s1)): s.append(min(s1[i],s2[i])) if(s==s2): print(''.join(s2)) else: print('-1')	Title: Valued Keys Time Limit: None seconds Memory Limit: None megabytes Problem Description: You found a mysterious function f. The function takes two strings s1 and s2. These strings must consist only of lowercase English letters, and must be the same length. The output of the function f is another string of the same length. The i-th character of the output is equal to the minimum of the i-th character of s1 and the i-th character of s2. For example, f("ab", "ba") = "aa", and f("nzwzl", "zizez") = "niwel". You found two strings x and y of the same length and consisting of only lowercase English letters. Find any string z such that f(x,<=z)<==<=y, or print -1 if no such string z exists. Input Specification: The first line of input contains the string x. The second line of input contains the string y. Both x and y consist only of lowercase English letters, x and y have same length and this length is between 1 and 100. Output Specification: If there is no string z such that f(x,<=z)<==<=y, print -1. Otherwise, print a string z such that f(x,<=z)<==<=y. If there are multiple possible answers, print any of them. The string z should be the same length as x and y and consist only of lowercase English letters. Demo Input: ['ab\naa\n', 'nzwzl\nniwel\n', 'ab\nba\n'] Demo Output: ['ba\n', 'xiyez\n', '-1\n'] Note: The first case is from the statement. Another solution for the second case is "zizez" There is no solution for the third case. That is, there is no z such that f("ab", z) = "ba".	```python s1=list(input()) s2=list(input()) s=[] for i in range(len(s1)): s.append(min(s1[i],s2[i])) if(s==s2): print(''.join(s2)) else: print('-1') ```	3
97	C	Winning Strategy	PROGRAMMING	2,400	[ "binary search", "graphs", "math", "shortest paths" ]	C. Winning Strategy	2	256	One university has just found out about a sport programming contest called ACM ICPC v2.0. This contest doesn't differ much from the well-known ACM ICPC, for example, the participants are not allowed to take part in the finals more than two times. However, there is one notable difference: the teams in the contest should consist of exactly n participants. Having taken part in several ACM ICPC v2.0 finals and having not won any medals, the students and the university governors realized that it's high time they changed something about the preparation process. Specifically, as the first innovation it was decided to change the teams' formation process. Having spent considerable amount of time on studying the statistics of other universities' performance, they managed to receive some interesting information: the dependence between the probability of winning a medal and the number of team members that participated in the finals in the past. More formally, we know n<=+<=1 real numbers p0<=≤<=p1<=≤<=...<=≤<=pn, where pi is the probability of getting a medal on the finals if the team has i participants of previous finals, and other n<=-<=i participants arrived to the finals for the first time. Despite such useful data, the university governors are unable to determine such team forming tactics that would provide the maximum probability of winning a medal at ACM ICPC v2.0 finals on average (we are supposed to want to provide such result to the far future and we are also supposed to have an endless supply of students). And how about you, can you offer such optimal tactic? At the first stage the university governors want to know the value of maximum average probability. More formally, suppose that the university sends a team to the k-th world finals. The team has ak participants of previous finals (0<=≤<=ak<=≤<=n). Since each person can participate in the finals no more than twice, the following condition must be true: . Your task is to choose sequence so that the limit Ψ exists and it's value is maximal: As is an infinite sequence, you should only print the maximum value of the Ψ limit.	The first line contains an integer n (3<=≤<=n<=≤<=100), n is the number of team participants. The second line contains n<=+<=1 real numbers with no more than 6 digits after decimal point pi (0<=≤<=i<=≤<=n,<=0<=≤<=pi<=≤<=1) — the probability of that the team will win a medal if it contains i participants who has already been on the finals. Also the condition pi<=≤<=pi<=+<=1 should be fulfilled for all 0<=≤<=i<=≤<=n<=-<=1.	Print the only real number — the expected average number of medals won per year if the optimal strategy is used. The result may have absolute or relative error 10<=-<=6.	[ "3\n0.115590 0.384031 0.443128 0.562356\n", "3\n1 1 1 1\n" ]	[ "0.4286122500\n", "0.9999999999\n" ]	In the second test, no matter what participants the team contains, it is doomed to be successful.	2,000	[ { "input": "3\n0.115590 0.384031 0.443128 0.562356", "output": "0.4286122500" }, { "input": "3\n1 1 1 1", "output": "0.9999999999" }, { "input": "10\n0.054228 0.284367 0.307914 0.319911 0.325274 0.336089 0.549308 0.554288 0.814348 0.817238 0.861607", "output": "0.5872132857" }, {...	1,640,092,792	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	2	124	0	n = int(input()) p = list(map(float, input().split())) ans = 0 for i in range((n-1)//2+1): for j in range(n//2+1, n+1): ans = max(ans, p[i](2j-n)+p[j](n-2i))/(-2i+2j) if n & 1 == 0: ans = max(ans, p[n>>1]) print(ans)	Title: Winning Strategy Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One university has just found out about a sport programming contest called ACM ICPC v2.0. This contest doesn't differ much from the well-known ACM ICPC, for example, the participants are not allowed to take part in the finals more than two times. However, there is one notable difference: the teams in the contest should consist of exactly n participants. Having taken part in several ACM ICPC v2.0 finals and having not won any medals, the students and the university governors realized that it's high time they changed something about the preparation process. Specifically, as the first innovation it was decided to change the teams' formation process. Having spent considerable amount of time on studying the statistics of other universities' performance, they managed to receive some interesting information: the dependence between the probability of winning a medal and the number of team members that participated in the finals in the past. More formally, we know n<=+<=1 real numbers p0<=≤<=p1<=≤<=...<=≤<=pn, where pi is the probability of getting a medal on the finals if the team has i participants of previous finals, and other n<=-<=i participants arrived to the finals for the first time. Despite such useful data, the university governors are unable to determine such team forming tactics that would provide the maximum probability of winning a medal at ACM ICPC v2.0 finals on average (we are supposed to want to provide such result to the far future and we are also supposed to have an endless supply of students). And how about you, can you offer such optimal tactic? At the first stage the university governors want to know the value of maximum average probability. More formally, suppose that the university sends a team to the k-th world finals. The team has ak participants of previous finals (0<=≤<=ak<=≤<=n). Since each person can participate in the finals no more than twice, the following condition must be true: . Your task is to choose sequence so that the limit Ψ exists and it's value is maximal: As is an infinite sequence, you should only print the maximum value of the Ψ limit. Input Specification: The first line contains an integer n (3<=≤<=n<=≤<=100), n is the number of team participants. The second line contains n<=+<=1 real numbers with no more than 6 digits after decimal point pi (0<=≤<=i<=≤<=n,<=0<=≤<=pi<=≤<=1) — the probability of that the team will win a medal if it contains i participants who has already been on the finals. Also the condition pi<=≤<=pi<=+<=1 should be fulfilled for all 0<=≤<=i<=≤<=n<=-<=1. Output Specification: Print the only real number — the expected average number of medals won per year if the optimal strategy is used. The result may have absolute or relative error 10<=-<=6. Demo Input: ['3\n0.115590 0.384031 0.443128 0.562356\n', '3\n1 1 1 1\n'] Demo Output: ['0.4286122500\n', '0.9999999999\n'] Note: In the second test, no matter what participants the team contains, it is doomed to be successful.	```python n = int(input()) p = list(map(float, input().split())) ans = 0 for i in range((n-1)//2+1): for j in range(n//2+1, n+1): ans = max(ans, p[i](2j-n)+p[j](n-2i))/(-2i+2j) if n & 1 == 0: ans = max(ans, p[n>>1]) print(ans) ```	0
978	A	Remove Duplicates	PROGRAMMING	800	[ "implementation" ]		null	null	Petya has an array $a$ consisting of $n$ integers. He wants to remove duplicate (equal) elements. Petya wants to leave only the rightmost entry (occurrence) for each element of the array. The relative order of the remaining unique elements should not be changed.	The first line contains a single integer $n$ ($1 \le n \le 50$) — the number of elements in Petya's array. The following line contains a sequence $a_1, a_2, \dots, a_n$ ($1 \le a_i \le 1\,000$) — the Petya's array.	In the first line print integer $x$ — the number of elements which will be left in Petya's array after he removed the duplicates. In the second line print $x$ integers separated with a space — Petya's array after he removed the duplicates. For each unique element only the rightmost entry should be left.	[ "6\n1 5 5 1 6 1\n", "5\n2 4 2 4 4\n", "5\n6 6 6 6 6\n" ]	[ "3\n5 6 1 \n", "2\n2 4 \n", "1\n6 \n" ]	In the first example you should remove two integers $1$, which are in the positions $1$ and $4$. Also you should remove the integer $5$, which is in the position $2$. In the second example you should remove integer $2$, which is in the position $1$, and two integers $4$, which are in the positions $2$ and $4$. In the third example you should remove four integers $6$, which are in the positions $1$, $2$, $3$ and $4$.	0	[ { "input": "6\n1 5 5 1 6 1", "output": "3\n5 6 1 " }, { "input": "5\n2 4 2 4 4", "output": "2\n2 4 " }, { "input": "5\n6 6 6 6 6", "output": "1\n6 " }, { "input": "7\n1 2 3 4 2 2 3", "output": "4\n1 4 2 3 " }, { "input": "9\n100 100 100 99 99 99 100 100 100", ...	1,656,589,395	2,147,483,647	Python 3	OK	TESTS	28	31	0	n=input() l=input().split()[::-1] print(len(set(l))) print(*sorted(set(l),key=l.index,reverse=True))	Title: Remove Duplicates Time Limit: None seconds Memory Limit: None megabytes Problem Description: Petya has an array $a$ consisting of $n$ integers. He wants to remove duplicate (equal) elements. Petya wants to leave only the rightmost entry (occurrence) for each element of the array. The relative order of the remaining unique elements should not be changed. Input Specification: The first line contains a single integer $n$ ($1 \le n \le 50$) — the number of elements in Petya's array. The following line contains a sequence $a_1, a_2, \dots, a_n$ ($1 \le a_i \le 1\,000$) — the Petya's array. Output Specification: In the first line print integer $x$ — the number of elements which will be left in Petya's array after he removed the duplicates. In the second line print $x$ integers separated with a space — Petya's array after he removed the duplicates. For each unique element only the rightmost entry should be left. Demo Input: ['6\n1 5 5 1 6 1\n', '5\n2 4 2 4 4\n', '5\n6 6 6 6 6\n'] Demo Output: ['3\n5 6 1 \n', '2\n2 4 \n', '1\n6 \n'] Note: In the first example you should remove two integers $1$, which are in the positions $1$ and $4$. Also you should remove the integer $5$, which is in the position $2$. In the second example you should remove integer $2$, which is in the position $1$, and two integers $4$, which are in the positions $2$ and $4$. In the third example you should remove four integers $6$, which are in the positions $1$, $2$, $3$ and $4$.	```python n=input() l=input().split()[::-1] print(len(set(l))) print(*sorted(set(l),key=l.index,reverse=True)) ```	3
984	A	Game	PROGRAMMING	800	[ "sortings" ]		null	null	Two players play a game. Initially there are $n$ integers $a_1, a_2, \ldots, a_n$ written on the board. Each turn a player selects one number and erases it from the board. This continues until there is only one number left on the board, i. e. $n - 1$ turns are made. The first player makes the first move, then players alternate turns. The first player wants to minimize the last number that would be left on the board, while the second player wants to maximize it. You want to know what number will be left on the board after $n - 1$ turns if both players make optimal moves.	The first line contains one integer $n$ ($1 \le n \le 1000$) — the number of numbers on the board. The second line contains $n$ integers $a_1, a_2, \ldots, a_n$ ($1 \le a_i \le 10^6$).	Print one number that will be left on the board.	[ "3\n2 1 3\n", "3\n2 2 2\n" ]	[ "2", "2" ]	In the first sample, the first player erases $3$ and the second erases $1$. $2$ is left on the board. In the second sample, $2$ is left on the board regardless of the actions of the players.	500	[ { "input": "3\n2 1 3", "output": "2" }, { "input": "3\n2 2 2", "output": "2" }, { "input": "9\n44 53 51 80 5 27 74 79 94", "output": "53" }, { "input": "10\n38 82 23 37 96 4 81 60 67 86", "output": "60" }, { "input": "10\n58 26 77 15 53 81 68 48 22 65", "outpu...	1,623,941,051	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	n = int(input()) li = list(map(int,input().split())) li.sort() if n%2 == 0: print(li[(n//2)-1]) else: print(li[n//2])	Title: Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: Two players play a game. Initially there are $n$ integers $a_1, a_2, \ldots, a_n$ written on the board. Each turn a player selects one number and erases it from the board. This continues until there is only one number left on the board, i. e. $n - 1$ turns are made. The first player makes the first move, then players alternate turns. The first player wants to minimize the last number that would be left on the board, while the second player wants to maximize it. You want to know what number will be left on the board after $n - 1$ turns if both players make optimal moves. Input Specification: The first line contains one integer $n$ ($1 \le n \le 1000$) — the number of numbers on the board. The second line contains $n$ integers $a_1, a_2, \ldots, a_n$ ($1 \le a_i \le 10^6$). Output Specification: Print one number that will be left on the board. Demo Input: ['3\n2 1 3\n', '3\n2 2 2\n'] Demo Output: ['2', '2'] Note: In the first sample, the first player erases $3$ and the second erases $1$. $2$ is left on the board. In the second sample, $2$ is left on the board regardless of the actions of the players.	```python n = int(input()) li = list(map(int,input().split())) li.sort() if n%2 == 0: print(li[(n//2)-1]) else: print(li[n//2]) ```	-1
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\n...	1,691,334,477	2,147,483,647	PyPy 3-64	OK	TESTS	31	124	0	n = int(input()) team = [] c = 0 for i in range(n): team.append(list(map(int,input().split()))) for i in range(len(team)): for j in range(i+1,len(team)): if team[i][0] == team[j][1]: c += 1 if team[i][1] == team[j][0]: c += 1 print(c)	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()) team = [] c = 0 for i in range(n): team.append(list(map(int,input().split()))) for i in range(len(team)): for j in range(i+1,len(team)): if team[i][0] == team[j][1]: c += 1 if team[i][1] == team[j][0]: c += 1 print(c) ```	3
965	C	Greedy Arkady	PROGRAMMING	2,000	[ "math" ]		null	null	$k$ people want to split $n$ candies between them. Each candy should be given to exactly one of them or be thrown away. The people are numbered from $1$ to $k$, and Arkady is the first of them. To split the candies, Arkady will choose an integer $x$ and then give the first $x$ candies to himself, the next $x$ candies to the second person, the next $x$ candies to the third person and so on in a cycle. The leftover (the remainder that is not divisible by $x$) will be thrown away. Arkady can't choose $x$ greater than $M$ as it is considered greedy. Also, he can't choose such a small $x$ that some person will receive candies more than $D$ times, as it is considered a slow splitting. Please find what is the maximum number of candies Arkady can receive by choosing some valid $x$.	The only line contains four integers $n$, $k$, $M$ and $D$ ($2 \le n \le 10^{18}$, $2 \le k \le n$, $1 \le M \le n$, $1 \le D \le \min{(n, 1000)}$, $M \cdot D \cdot k \ge n$) — the number of candies, the number of people, the maximum number of candies given to a person at once, the maximum number of times a person can receive candies.	Print a single integer — the maximum possible number of candies Arkady can give to himself. Note that it is always possible to choose some valid $x$.	[ "20 4 5 2\n", "30 9 4 1\n" ]	[ "8\n", "4\n" ]	In the first example Arkady should choose $x = 4$. He will give $4$ candies to himself, $4$ candies to the second person, $4$ candies to the third person, then $4$ candies to the fourth person and then again $4$ candies to himself. No person is given candies more than $2$ times, and Arkady receives $8$ candies in total. Note that if Arkady chooses $x = 5$, he will receive only $5$ candies, and if he chooses $x = 3$, he will receive only $3 + 3 = 6$ candies as well as the second person, the third and the fourth persons will receive $3$ candies, and $2$ candies will be thrown away. He can't choose $x = 1$ nor $x = 2$ because in these cases he will receive candies more than $2$ times. In the second example Arkady has to choose $x = 4$, because any smaller value leads to him receiving candies more than $1$ time.	1,500	[ { "input": "20 4 5 2", "output": "8" }, { "input": "30 9 4 1", "output": "4" }, { "input": "2 2 1 1", "output": "1" }, { "input": "42 20 5 29", "output": "5" }, { "input": "1000000000000000000 135 1000000000000000 1000", "output": "8325624421831635" }, { ...	1,587,805,150	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	109	0	n, k, m, d = map(int, input().split()) ans = int(0) for i in range(1, d+1): num = n // (k(i-1)+1) num = min(num, n) ans = max(ans, num i) print(ans)	Title: Greedy Arkady Time Limit: None seconds Memory Limit: None megabytes Problem Description: $k$ people want to split $n$ candies between them. Each candy should be given to exactly one of them or be thrown away. The people are numbered from $1$ to $k$, and Arkady is the first of them. To split the candies, Arkady will choose an integer $x$ and then give the first $x$ candies to himself, the next $x$ candies to the second person, the next $x$ candies to the third person and so on in a cycle. The leftover (the remainder that is not divisible by $x$) will be thrown away. Arkady can't choose $x$ greater than $M$ as it is considered greedy. Also, he can't choose such a small $x$ that some person will receive candies more than $D$ times, as it is considered a slow splitting. Please find what is the maximum number of candies Arkady can receive by choosing some valid $x$. Input Specification: The only line contains four integers $n$, $k$, $M$ and $D$ ($2 \le n \le 10^{18}$, $2 \le k \le n$, $1 \le M \le n$, $1 \le D \le \min{(n, 1000)}$, $M \cdot D \cdot k \ge n$) — the number of candies, the number of people, the maximum number of candies given to a person at once, the maximum number of times a person can receive candies. Output Specification: Print a single integer — the maximum possible number of candies Arkady can give to himself. Note that it is always possible to choose some valid $x$. Demo Input: ['20 4 5 2\n', '30 9 4 1\n'] Demo Output: ['8\n', '4\n'] Note: In the first example Arkady should choose $x = 4$. He will give $4$ candies to himself, $4$ candies to the second person, $4$ candies to the third person, then $4$ candies to the fourth person and then again $4$ candies to himself. No person is given candies more than $2$ times, and Arkady receives $8$ candies in total. Note that if Arkady chooses $x = 5$, he will receive only $5$ candies, and if he chooses $x = 3$, he will receive only $3 + 3 = 6$ candies as well as the second person, the third and the fourth persons will receive $3$ candies, and $2$ candies will be thrown away. He can't choose $x = 1$ nor $x = 2$ because in these cases he will receive candies more than $2$ times. In the second example Arkady has to choose $x = 4$, because any smaller value leads to him receiving candies more than $1$ time.	```python n, k, m, d = map(int, input().split()) ans = int(0) for i in range(1, d+1): num = n // (k(i-1)+1) num = min(num, n) ans = max(ans, num i) print(ans) ```	0
975	A	Aramic script	PROGRAMMING	900	[ "implementation", "strings" ]		null	null	In Aramic language words can only represent objects. Words in Aramic have special properties: - A word is a root if it does not contain the same letter more than once. - A root and all its permutations represent the same object. - The root $x$ of a word $y$ is the word that contains all letters that appear in $y$ in a way that each letter appears once. For example, the root of "aaaa", "aa", "aaa" is "a", the root of "aabb", "bab", "baabb", "ab" is "ab". - Any word in Aramic represents the same object as its root. You have an ancient script in Aramic. What is the number of different objects mentioned in the script?	The first line contains one integer $n$ ($1 \leq n \leq 10^3$) — the number of words in the script. The second line contains $n$ words $s_1, s_2, \ldots, s_n$ — the script itself. The length of each string does not exceed $10^3$. It is guaranteed that all characters of the strings are small latin letters.	Output one integer — the number of different objects mentioned in the given ancient Aramic script.	[ "5\na aa aaa ab abb\n", "3\namer arem mrea\n" ]	[ "2", "1" ]	In the first test, there are two objects mentioned. The roots that represent them are "a","ab". In the second test, there is only one object, its root is "amer", the other strings are just permutations of "amer".	500	[ { "input": "5\na aa aaa ab abb", "output": "2" }, { "input": "3\namer arem mrea", "output": "1" }, { "input": "10\nbda bbb cda dca dda dcb bcd dcb ada ddd", "output": "6" }, { "input": "2\nfhjlqs aceginpr", "output": "2" }, { "input": "2\nbcdfghimn efghijlmo", ...	1,525,245,988	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	6	1,000	10,035,200	input() objects = list() for word in input().split(): temp = "" for letter in word: flug = True for i in temp: if letter == i: flug = False break if flug: temp += letter s = sorted(temp) try: if objects.index(s): pass except ValueError: objects.append(s) print(objects.__len__())	Title: Aramic script Time Limit: None seconds Memory Limit: None megabytes Problem Description: In Aramic language words can only represent objects. Words in Aramic have special properties: - A word is a root if it does not contain the same letter more than once. - A root and all its permutations represent the same object. - The root $x$ of a word $y$ is the word that contains all letters that appear in $y$ in a way that each letter appears once. For example, the root of "aaaa", "aa", "aaa" is "a", the root of "aabb", "bab", "baabb", "ab" is "ab". - Any word in Aramic represents the same object as its root. You have an ancient script in Aramic. What is the number of different objects mentioned in the script? Input Specification: The first line contains one integer $n$ ($1 \leq n \leq 10^3$) — the number of words in the script. The second line contains $n$ words $s_1, s_2, \ldots, s_n$ — the script itself. The length of each string does not exceed $10^3$. It is guaranteed that all characters of the strings are small latin letters. Output Specification: Output one integer — the number of different objects mentioned in the given ancient Aramic script. Demo Input: ['5\na aa aaa ab abb\n', '3\namer arem mrea\n'] Demo Output: ['2', '1'] Note: In the first test, there are two objects mentioned. The roots that represent them are "a","ab". In the second test, there is only one object, its root is "amer", the other strings are just permutations of "amer".	```python input() objects = list() for word in input().split(): temp = "" for letter in word: flug = True for i in temp: if letter == i: flug = False break if flug: temp += letter s = sorted(temp) try: if objects.index(s): pass except ValueError: objects.append(s) print(objects.__len__()) ```	0
575	D	Tablecity	PROGRAMMING	1,700	[ "constructive algorithms", "implementation" ]		null	null	There was a big bank robbery in Tablecity. In order to catch the thief, the President called none other than Albert – Tablecity’s Chief of Police. Albert does not know where the thief is located, but he does know how he moves. Tablecity can be represented as 1000<=×<=2 grid, where every cell represents one district. Each district has its own unique name “(X,<=Y)”, where X and Y are the coordinates of the district in the grid. The thief’s movement is as Every hour the thief will leave the district (X,<=Y) he is currently hiding in, and move to one of the districts: (X<=-<=1,<=Y), (X<=+<=1,<=Y), (X<=-<=1,<=Y<=-<=1), (X<=-<=1,<=Y<=+<=1), (X<=+<=1,<=Y<=-<=1), (X<=+<=1,<=Y<=+<=1) as long as it exists in Tablecity. Below is an example of thief’s possible movements if he is located in district (7,1): Albert has enough people so that every hour he can pick any two districts in Tablecity and fully investigate them, making sure that if the thief is located in one of them, he will get caught. Albert promised the President that the thief will be caught in no more than 2015 hours and needs your help in order to achieve that.	There is no input for this problem.	The first line of output contains integer N – duration of police search in hours. Each of the following N lines contains exactly 4 integers Xi1, Yi1, Xi2, Yi2 separated by spaces, that represent 2 districts (Xi1, Yi1), (Xi2, Yi2) which got investigated during i-th hour. Output is given in chronological order (i-th line contains districts investigated during i-th hour) and should guarantee that the thief is caught in no more than 2015 hours, regardless of thief’s initial position and movement. - N<=≤<=2015 - 1<=≤<=X<=≤<=1000 - 1<=≤<=Y<=≤<=2	[ "В этой задаче нет примеров ввода-вывода.\nThis problem doesn't have sample input and output." ]	[ "Смотрите замечание ниже.\nSee the note below." ]	Let's consider the following output: 2 5 1 50 2 8 1 80 2 This output is not guaranteed to catch the thief and is not correct. It is given to you only to show the expected output format. There exists a combination of an initial position and a movement strategy such that the police will not catch the thief. Consider the following initial position and thief’s movement: In the first hour, the thief is located in district (1,1). Police officers will search districts (5,1) and (50,2) and will not find him. At the start of the second hour, the thief moves to district (2,2). Police officers will search districts (8,1) and (80,2) and will not find him. Since there is no further investigation by the police, the thief escaped!	0	[ { "input": "dummy", "output": "2000\n1 1 1 2\n2 1 2 2\n3 1 3 2\n4 1 4 2\n5 1 5 2\n6 1 6 2\n7 1 7 2\n8 1 8 2\n9 1 9 2\n10 1 10 2\n11 1 11 2\n12 1 12 2\n13 1 13 2\n14 1 14 2\n15 1 15 2\n16 1 16 2\n17 1 17 2\n18 1 18 2\n19 1 19 2\n20 1 20 2\n21 1 21 2\n22 1 22 2\n23 1 23 2\n24 1 24 2\n25 1 25 2\n26 1 26 2\n27 ...	1,441,528,327	1,927	Python 3	WRONG_ANSWER	TESTS	0	46	512,000	print(2000) for i in range(1, 1000): print(i, 1, i, 2) print(i, 1, i, 2)	Title: Tablecity Time Limit: None seconds Memory Limit: None megabytes Problem Description: There was a big bank robbery in Tablecity. In order to catch the thief, the President called none other than Albert – Tablecity’s Chief of Police. Albert does not know where the thief is located, but he does know how he moves. Tablecity can be represented as 1000<=×<=2 grid, where every cell represents one district. Each district has its own unique name “(X,<=Y)”, where X and Y are the coordinates of the district in the grid. The thief’s movement is as Every hour the thief will leave the district (X,<=Y) he is currently hiding in, and move to one of the districts: (X<=-<=1,<=Y), (X<=+<=1,<=Y), (X<=-<=1,<=Y<=-<=1), (X<=-<=1,<=Y<=+<=1), (X<=+<=1,<=Y<=-<=1), (X<=+<=1,<=Y<=+<=1) as long as it exists in Tablecity. Below is an example of thief’s possible movements if he is located in district (7,1): Albert has enough people so that every hour he can pick any two districts in Tablecity and fully investigate them, making sure that if the thief is located in one of them, he will get caught. Albert promised the President that the thief will be caught in no more than 2015 hours and needs your help in order to achieve that. Input Specification: There is no input for this problem. Output Specification: The first line of output contains integer N – duration of police search in hours. Each of the following N lines contains exactly 4 integers Xi1, Yi1, Xi2, Yi2 separated by spaces, that represent 2 districts (Xi1, Yi1), (Xi2, Yi2) which got investigated during i-th hour. Output is given in chronological order (i-th line contains districts investigated during i-th hour) and should guarantee that the thief is caught in no more than 2015 hours, regardless of thief’s initial position and movement. - N<=≤<=2015 - 1<=≤<=X<=≤<=1000 - 1<=≤<=Y<=≤<=2 Demo Input: ["В этой задаче нет примеров ввода-вывода.\nThis problem doesn't have sample input and output."] Demo Output: ['Смотрите замечание ниже.\nSee the note below.'] Note: Let's consider the following output: 2 5 1 50 2 8 1 80 2 This output is not guaranteed to catch the thief and is not correct. It is given to you only to show the expected output format. There exists a combination of an initial position and a movement strategy such that the police will not catch the thief. Consider the following initial position and thief’s movement: In the first hour, the thief is located in district (1,1). Police officers will search districts (5,1) and (50,2) and will not find him. At the start of the second hour, the thief moves to district (2,2). Police officers will search districts (8,1) and (80,2) and will not find him. Since there is no further investigation by the police, the thief escaped!	```python print(2000) for i in range(1, 1000): print(i, 1, i, 2) print(i, 1, i, 2) ```	0
343	A	Rational Resistance	PROGRAMMING	1,600	[ "math", "number theory" ]		null	null	Mad scientist Mike is building a time machine in his spare time. To finish the work, he needs a resistor with a certain resistance value. However, all Mike has is lots of identical resistors with unit resistance R0<==<=1. Elements with other resistance can be constructed from these resistors. In this problem, we will consider the following as elements: 1. one resistor; 1. an element and one resistor plugged in sequence; 1. an element and one resistor plugged in parallel. With the consecutive connection the resistance of the new element equals R<==<=Re<=+<=R0. With the parallel connection the resistance of the new element equals . In this case Re equals the resistance of the element being connected. Mike needs to assemble an element with a resistance equal to the fraction . Determine the smallest possible number of resistors he needs to make such an element.	The single input line contains two space-separated integers a and b (1<=≤<=a,<=b<=≤<=1018). It is guaranteed that the fraction is irreducible. It is guaranteed that a solution always exists.	Print a single number — the answer to the problem. Please do not use the %lld specifier to read or write 64-bit integers in С++. It is recommended to use the cin, cout streams or the %I64d specifier.	[ "1 1\n", "3 2\n", "199 200\n" ]	[ "1\n", "3\n", "200\n" ]	In the first sample, one resistor is enough. In the second sample one can connect the resistors in parallel, take the resulting element and connect it to a third resistor consecutively. Then, we get an element with resistance <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/5305da389756aab6423d918a08ced468f05604df.png" style="max-width: 100.0%;max-height: 100.0%;"/>. We cannot make this element using two resistors.	500	[ { "input": "1 1", "output": "1" }, { "input": "3 2", "output": "3" }, { "input": "199 200", "output": "200" }, { "input": "1 1000000000000000000", "output": "1000000000000000000" }, { "input": "3 1", "output": "3" }, { "input": "21 8", "output": "7...	1,649,591,517	2,147,483,647	Python 3	OK	TESTS	53	92	0	def solve_gcd(a,b): if(a%b==0):return a #print(a//b) return a//b+solve_gcd(b,a%b) def solve_lcm(a,b): return int(a*b/solve_gcd(a,b)) a,b = map(int,input().split()) print(solve_gcd(a,b))	Title: Rational Resistance Time Limit: None seconds Memory Limit: None megabytes Problem Description: Mad scientist Mike is building a time machine in his spare time. To finish the work, he needs a resistor with a certain resistance value. However, all Mike has is lots of identical resistors with unit resistance R0<==<=1. Elements with other resistance can be constructed from these resistors. In this problem, we will consider the following as elements: 1. one resistor; 1. an element and one resistor plugged in sequence; 1. an element and one resistor plugged in parallel. With the consecutive connection the resistance of the new element equals R<==<=Re<=+<=R0. With the parallel connection the resistance of the new element equals . In this case Re equals the resistance of the element being connected. Mike needs to assemble an element with a resistance equal to the fraction . Determine the smallest possible number of resistors he needs to make such an element. Input Specification: The single input line contains two space-separated integers a and b (1<=≤<=a,<=b<=≤<=1018). It is guaranteed that the fraction is irreducible. It is guaranteed that a solution always exists. Output Specification: Print a single number — the answer to the problem. Please do not use the %lld specifier to read or write 64-bit integers in С++. It is recommended to use the cin, cout streams or the %I64d specifier. Demo Input: ['1 1\n', '3 2\n', '199 200\n'] Demo Output: ['1\n', '3\n', '200\n'] Note: In the first sample, one resistor is enough. In the second sample one can connect the resistors in parallel, take the resulting element and connect it to a third resistor consecutively. Then, we get an element with resistance <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/5305da389756aab6423d918a08ced468f05604df.png" style="max-width: 100.0%;max-height: 100.0%;"/>. We cannot make this element using two resistors.	```python def solve_gcd(a,b): if(a%b==0):return a #print(a//b) return a//b+solve_gcd(b,a%b) def solve_lcm(a,b): return int(a*b/solve_gcd(a,b)) a,b = map(int,input().split()) print(solve_gcd(a,b)) ```	3
25	A	IQ test	PROGRAMMING	1,300	[ "brute force" ]	A. IQ test	2	256	Bob is preparing to pass IQ test. The most frequent task in this test is to find out which one of the given n numbers differs from the others. Bob observed that one number usually differs from the others in evenness. Help Bob — to check his answers, he needs a program that among the given n numbers finds one that is different in evenness.	The first line contains integer n (3<=≤<=n<=≤<=100) — amount of numbers in the task. The second line contains n space-separated natural numbers, not exceeding 100. It is guaranteed, that exactly one of these numbers differs from the others in evenness.	Output index of number that differs from the others in evenness. Numbers are numbered from 1 in the input order.	[ "5\n2 4 7 8 10\n", "4\n1 2 1 1\n" ]	[ "3\n", "2\n" ]	none	0	[ { "input": "5\n2 4 7 8 10", "output": "3" }, { "input": "4\n1 2 1 1", "output": "2" }, { "input": "3\n1 2 2", "output": "1" }, { "input": "3\n100 99 100", "output": "2" }, { "input": "3\n5 3 2", "output": "3" }, { "input": "4\n43 28 1 91", "output"...	1,666,101,194	2,147,483,647	Python 3	OK	TESTS	32	92	0	a=int(input()) b=list(map(int,input().split())) n=0 for i in range(3): if (b[i])%2==0: n=n+1 if n>=2: for i in b: if i%2!=0: print(b.index(i)+1) else: for i in b: if i%2==0: print(b.index(i)+1)	Title: IQ test Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Bob is preparing to pass IQ test. The most frequent task in this test is to find out which one of the given n numbers differs from the others. Bob observed that one number usually differs from the others in evenness. Help Bob — to check his answers, he needs a program that among the given n numbers finds one that is different in evenness. Input Specification: The first line contains integer n (3<=≤<=n<=≤<=100) — amount of numbers in the task. The second line contains n space-separated natural numbers, not exceeding 100. It is guaranteed, that exactly one of these numbers differs from the others in evenness. Output Specification: Output index of number that differs from the others in evenness. Numbers are numbered from 1 in the input order. Demo Input: ['5\n2 4 7 8 10\n', '4\n1 2 1 1\n'] Demo Output: ['3\n', '2\n'] Note: none	```python a=int(input()) b=list(map(int,input().split())) n=0 for i in range(3): if (b[i])%2==0: n=n+1 if n>=2: for i in b: if i%2!=0: print(b.index(i)+1) else: for i in b: if i%2==0: print(b.index(i)+1) ```	3.977
600	B	Queries about less or equal elements	PROGRAMMING	1,300	[ "binary search", "data structures", "sortings", "two pointers" ]		null	null	You are given two arrays of integers a and b. For each element of the second array bj you should find the number of elements in array a that are less than or equal to the value bj.	The first line contains two integers n,<=m (1<=≤<=n,<=m<=≤<=2·105) — the sizes of arrays a and b. The second line contains n integers — the elements of array a (<=-<=109<=≤<=ai<=≤<=109). The third line contains m integers — the elements of array b (<=-<=109<=≤<=bj<=≤<=109).	Print m integers, separated by spaces: the j-th of which is equal to the number of such elements in array a that are less than or equal to the value bj.	[ "5 4\n1 3 5 7 9\n6 4 2 8\n", "5 5\n1 2 1 2 5\n3 1 4 1 5\n" ]	[ "3 2 1 4\n", "4 2 4 2 5\n" ]	none	0	[ { "input": "5 4\n1 3 5 7 9\n6 4 2 8", "output": "3 2 1 4" }, { "input": "5 5\n1 2 1 2 5\n3 1 4 1 5", "output": "4 2 4 2 5" }, { "input": "1 1\n-1\n-2", "output": "0" }, { "input": "1 1\n-80890826\n686519510", "output": "1" }, { "input": "11 11\n237468511 -77918754...	1,661,254,039	2,147,483,647	Python 3	OK	TESTS	60	1,606	20,275,200	def binary(e,n,arr) : if arr[-1] <= e : return n l=0 ; r=n-1 ; res=0 while l < r : mid=(l+r)//2 if arr[mid] > e : r= mid else : l= mid+1 return l n,m=map(int,input().split()) l=list(map(int,input().split())) ; l.sort() arr=list(map(int,input().split())) for x in arr: print(binary(x,n,l),end=' ')	Title: Queries about less or equal elements Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two arrays of integers a and b. For each element of the second array bj you should find the number of elements in array a that are less than or equal to the value bj. Input Specification: The first line contains two integers n,<=m (1<=≤<=n,<=m<=≤<=2·105) — the sizes of arrays a and b. The second line contains n integers — the elements of array a (<=-<=109<=≤<=ai<=≤<=109). The third line contains m integers — the elements of array b (<=-<=109<=≤<=bj<=≤<=109). Output Specification: Print m integers, separated by spaces: the j-th of which is equal to the number of such elements in array a that are less than or equal to the value bj. Demo Input: ['5 4\n1 3 5 7 9\n6 4 2 8\n', '5 5\n1 2 1 2 5\n3 1 4 1 5\n'] Demo Output: ['3 2 1 4\n', '4 2 4 2 5\n'] Note: none	```python def binary(e,n,arr) : if arr[-1] <= e : return n l=0 ; r=n-1 ; res=0 while l < r : mid=(l+r)//2 if arr[mid] > e : r= mid else : l= mid+1 return l n,m=map(int,input().split()) l=list(map(int,input().split())) ; l.sort() arr=list(map(int,input().split())) for x in arr: print(binary(x,n,l),end=' ') ```	3
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 ...	1,654,985,951	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	60	0	n = int(input()) i = input().split(" ") chest=0 biceps=0 back=0 for items in range(0,n): if items%3==0: chest+=int(i[items]) elif items%3==1: biceps+=int(i[items]) elif items%3==2: back+=int(i[items]) if chest>biceps>back: print("chest") elif biceps>chest>back: print("biceps") else: print("back")	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 n = int(input()) i = input().split(" ") chest=0 biceps=0 back=0 for items in range(0,n): if items%3==0: chest+=int(i[items]) elif items%3==1: biceps+=int(i[items]) elif items%3==2: back+=int(i[items]) if chest>biceps>back: print("chest") elif biceps>chest>back: print("biceps") else: print("back") ```	0
1,009	A	Game Shopping	PROGRAMMING	800	[ "implementation" ]		null	null	Maxim wants to buy some games at the local game shop. There are $n$ games in the shop, the $i$-th game costs $c_i$. Maxim has a wallet which can be represented as an array of integers. His wallet contains $m$ bills, the $j$-th bill has value $a_j$. Games in the shop are ordered from left to right, Maxim tries to buy every game in that order. When Maxim stands at the position $i$ in the shop, he takes the first bill from his wallet (if his wallet is empty then he proceeds to the next position immediately) and tries to buy the $i$-th game using this bill. After Maxim tried to buy the $n$-th game, he leaves the shop. Maxim buys the $i$-th game if and only if the value of the first bill (which he takes) from his wallet is greater or equal to the cost of the $i$-th game. If he successfully buys the $i$-th game, the first bill from his wallet disappears and the next bill becomes first. Otherwise Maxim leaves the first bill in his wallet (this bill still remains the first one) and proceeds to the next game. For example, for array $c = [2, 4, 5, 2, 4]$ and array $a = [5, 3, 4, 6]$ the following process takes place: Maxim buys the first game using the first bill (its value is $5$), the bill disappears, after that the second bill (with value $3$) becomes the first one in Maxim's wallet, then Maxim doesn't buy the second game because $c_2 > a_2$, the same with the third game, then he buys the fourth game using the bill of value $a_2$ (the third bill becomes the first one in Maxim's wallet) and buys the fifth game using the bill of value $a_3$. Your task is to get the number of games Maxim will buy.	The first line of the input contains two integers $n$ and $m$ ($1 \le n, m \le 1000$) — the number of games and the number of bills in Maxim's wallet. The second line of the input contains $n$ integers $c_1, c_2, \dots, c_n$ ($1 \le c_i \le 1000$), where $c_i$ is the cost of the $i$-th game. The third line of the input contains $m$ integers $a_1, a_2, \dots, a_m$ ($1 \le a_j \le 1000$), where $a_j$ is the value of the $j$-th bill from the Maxim's wallet.	Print a single integer — the number of games Maxim will buy.	[ "5 4\n2 4 5 2 4\n5 3 4 6\n", "5 2\n20 40 50 20 40\n19 20\n", "6 4\n4 8 15 16 23 42\n1000 1000 1000 1000\n" ]	[ "3\n", "0\n", "4\n" ]	The first example is described in the problem statement. In the second example Maxim cannot buy any game because the value of the first bill in his wallet is smaller than the cost of any game in the shop. In the third example the values of the bills in Maxim's wallet are large enough to buy any game he encounter until he runs out of bills in his wallet.	0	[ { "input": "5 4\n2 4 5 2 4\n5 3 4 6", "output": "3" }, { "input": "5 2\n20 40 50 20 40\n19 20", "output": "0" }, { "input": "6 4\n4 8 15 16 23 42\n1000 1000 1000 1000", "output": "4" }, { "input": "5 1\n1 1 1 1 1\n5", "output": "1" }, { "input": "5 1\n10 1 1 1 1\n...	1,532,542,651	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	93	0	n, m = map(int, input().split()) c = list(map(int, input().split())) a = list(map(int, input().split())) i = k = j = 0 while j < m: if a[i] >= c[j]: k += 1 i += 1 else: j += 1 print(k)	Title: Game Shopping Time Limit: None seconds Memory Limit: None megabytes Problem Description: Maxim wants to buy some games at the local game shop. There are $n$ games in the shop, the $i$-th game costs $c_i$. Maxim has a wallet which can be represented as an array of integers. His wallet contains $m$ bills, the $j$-th bill has value $a_j$. Games in the shop are ordered from left to right, Maxim tries to buy every game in that order. When Maxim stands at the position $i$ in the shop, he takes the first bill from his wallet (if his wallet is empty then he proceeds to the next position immediately) and tries to buy the $i$-th game using this bill. After Maxim tried to buy the $n$-th game, he leaves the shop. Maxim buys the $i$-th game if and only if the value of the first bill (which he takes) from his wallet is greater or equal to the cost of the $i$-th game. If he successfully buys the $i$-th game, the first bill from his wallet disappears and the next bill becomes first. Otherwise Maxim leaves the first bill in his wallet (this bill still remains the first one) and proceeds to the next game. For example, for array $c = [2, 4, 5, 2, 4]$ and array $a = [5, 3, 4, 6]$ the following process takes place: Maxim buys the first game using the first bill (its value is $5$), the bill disappears, after that the second bill (with value $3$) becomes the first one in Maxim's wallet, then Maxim doesn't buy the second game because $c_2 > a_2$, the same with the third game, then he buys the fourth game using the bill of value $a_2$ (the third bill becomes the first one in Maxim's wallet) and buys the fifth game using the bill of value $a_3$. Your task is to get the number of games Maxim will buy. Input Specification: The first line of the input contains two integers $n$ and $m$ ($1 \le n, m \le 1000$) — the number of games and the number of bills in Maxim's wallet. The second line of the input contains $n$ integers $c_1, c_2, \dots, c_n$ ($1 \le c_i \le 1000$), where $c_i$ is the cost of the $i$-th game. The third line of the input contains $m$ integers $a_1, a_2, \dots, a_m$ ($1 \le a_j \le 1000$), where $a_j$ is the value of the $j$-th bill from the Maxim's wallet. Output Specification: Print a single integer — the number of games Maxim will buy. Demo Input: ['5 4\n2 4 5 2 4\n5 3 4 6\n', '5 2\n20 40 50 20 40\n19 20\n', '6 4\n4 8 15 16 23 42\n1000 1000 1000 1000\n'] Demo Output: ['3\n', '0\n', '4\n'] Note: The first example is described in the problem statement. In the second example Maxim cannot buy any game because the value of the first bill in his wallet is smaller than the cost of any game in the shop. In the third example the values of the bills in Maxim's wallet are large enough to buy any game he encounter until he runs out of bills in his wallet.	```python n, m = map(int, input().split()) c = list(map(int, input().split())) a = list(map(int, input().split())) i = k = j = 0 while j < m: if a[i] >= c[j]: k += 1 i += 1 else: j += 1 print(k) ```	-1
754	A	Lesha and array splitting	PROGRAMMING	1,200	[ "constructive algorithms", "greedy", "implementation" ]		null	null	One spring day on his way to university Lesha found an array A. Lesha likes to split arrays into several parts. This time Lesha decided to split the array A into several, possibly one, new arrays so that the sum of elements in each of the new arrays is not zero. One more condition is that if we place the new arrays one after another they will form the old array A. Lesha is tired now so he asked you to split the array. Help Lesha!	The first line contains single integer n (1<=≤<=n<=≤<=100) — the number of elements in the array A. The next line contains n integers a1,<=a2,<=...,<=an (<=-<=103<=≤<=ai<=≤<=103) — the elements of the array A.	If it is not possible to split the array A and satisfy all the constraints, print single line containing "NO" (without quotes). Otherwise in the first line print "YES" (without quotes). In the next line print single integer k — the number of new arrays. In each of the next k lines print two integers li and ri which denote the subarray A[li... ri] of the initial array A being the i-th new array. Integers li, ri should satisfy the following conditions: - l1<==<=1 - rk<==<=n - ri<=+<=1<==<=li<=+<=1 for each 1<=≤<=i<=<<=k. If there are multiple answers, print any of them.	[ "3\n1 2 -3\n", "8\n9 -12 3 4 -4 -10 7 3\n", "1\n0\n", "4\n1 2 3 -5\n" ]	[ "YES\n2\n1 2\n3 3\n", "YES\n2\n1 2\n3 8\n", "NO\n", "YES\n4\n1 1\n2 2\n3 3\n4 4\n" ]	none	500	[ { "input": "3\n1 2 -3", "output": "YES\n3\n1 1\n2 2\n3 3" }, { "input": "8\n9 -12 3 4 -4 -10 7 3", "output": "YES\n8\n1 1\n2 2\n3 3\n4 4\n5 5\n6 6\n7 7\n8 8" }, { "input": "1\n0", "output": "NO" }, { "input": "4\n1 2 3 -5", "output": "YES\n4\n1 1\n2 2\n3 3\n4 4" }, { ...	1,592,956,686	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	5	140	20,172,800	n = int(input()) a = list(map(int, input().split())) if len(a) - a.count(0) <= 1: print("NO") else: print("YES") print(len(a) - a.count(0)) for i in range(1, len(a) - a.count(0)): print(i, i) print(len(a) - a.count(0), n) # 2 3 1 4 0 0 0	Title: Lesha and array splitting Time Limit: None seconds Memory Limit: None megabytes Problem Description: One spring day on his way to university Lesha found an array A. Lesha likes to split arrays into several parts. This time Lesha decided to split the array A into several, possibly one, new arrays so that the sum of elements in each of the new arrays is not zero. One more condition is that if we place the new arrays one after another they will form the old array A. Lesha is tired now so he asked you to split the array. Help Lesha! Input Specification: The first line contains single integer n (1<=≤<=n<=≤<=100) — the number of elements in the array A. The next line contains n integers a1,<=a2,<=...,<=an (<=-<=103<=≤<=ai<=≤<=103) — the elements of the array A. Output Specification: If it is not possible to split the array A and satisfy all the constraints, print single line containing "NO" (without quotes). Otherwise in the first line print "YES" (without quotes). In the next line print single integer k — the number of new arrays. In each of the next k lines print two integers li and ri which denote the subarray A[li... ri] of the initial array A being the i-th new array. Integers li, ri should satisfy the following conditions: - l1<==<=1 - rk<==<=n - ri<=+<=1<==<=li<=+<=1 for each 1<=≤<=i<=<<=k. If there are multiple answers, print any of them. Demo Input: ['3\n1 2 -3\n', '8\n9 -12 3 4 -4 -10 7 3\n', '1\n0\n', '4\n1 2 3 -5\n'] Demo Output: ['YES\n2\n1 2\n3 3\n', 'YES\n2\n1 2\n3 8\n', 'NO\n', 'YES\n4\n1 1\n2 2\n3 3\n4 4\n'] Note: none	```python n = int(input()) a = list(map(int, input().split())) if len(a) - a.count(0) <= 1: print("NO") else: print("YES") print(len(a) - a.count(0)) for i in range(1, len(a) - a.count(0)): print(i, i) print(len(a) - a.count(0), n) # 2 3 1 4 0 0 0 ```	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 " }, { "inp...	1,627,105,926	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	2	154	20,172,800	n=int(input()) lol=[ ] while(n>0): lol.append(n) n-=1 print(*lol)	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 n=int(input()) lol=[ ] while(n>0): lol.append(n) n-=1 print(*lol) ```	0
371	C	Hamburgers	PROGRAMMING	1,600	[ "binary search", "brute force" ]		null	null	Polycarpus loves hamburgers very much. He especially adores the hamburgers he makes with his own hands. Polycarpus thinks that there are only three decent ingredients to make hamburgers from: a bread, sausage and cheese. He writes down the recipe of his favorite "Le Hamburger de Polycarpus" as a string of letters 'B' (bread), 'S' (sausage) и 'C' (cheese). The ingredients in the recipe go from bottom to top, for example, recipe "ВSCBS" represents the hamburger where the ingredients go from bottom to top as bread, sausage, cheese, bread and sausage again. Polycarpus has nb pieces of bread, ns pieces of sausage and nc pieces of cheese in the kitchen. Besides, the shop nearby has all three ingredients, the prices are pb rubles for a piece of bread, ps for a piece of sausage and pc for a piece of cheese. Polycarpus has r rubles and he is ready to shop on them. What maximum number of hamburgers can he cook? You can assume that Polycarpus cannot break or slice any of the pieces of bread, sausage or cheese. Besides, the shop has an unlimited number of pieces of each ingredient.	The first line of the input contains a non-empty string that describes the recipe of "Le Hamburger de Polycarpus". The length of the string doesn't exceed 100, the string contains only letters 'B' (uppercase English B), 'S' (uppercase English S) and 'C' (uppercase English C). The second line contains three integers nb, ns, nc (1<=≤<=nb,<=ns,<=nc<=≤<=100) — the number of the pieces of bread, sausage and cheese on Polycarpus' kitchen. The third line contains three integers pb, ps, pc (1<=≤<=pb,<=ps,<=pc<=≤<=100) — the price of one piece of bread, sausage and cheese in the shop. Finally, the fourth line contains integer r (1<=≤<=r<=≤<=1012) — the number of rubles Polycarpus has. Please, do not write 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.	Print the maximum number of hamburgers Polycarpus can make. If he can't make any hamburger, print 0.	[ "BBBSSC\n6 4 1\n1 2 3\n4\n", "BBC\n1 10 1\n1 10 1\n21\n", "BSC\n1 1 1\n1 1 3\n1000000000000\n" ]	[ "2\n", "7\n", "200000000001\n" ]	none	1,500	[ { "input": "BBBSSC\n6 4 1\n1 2 3\n4", "output": "2" }, { "input": "BBC\n1 10 1\n1 10 1\n21", "output": "7" }, { "input": "BSC\n1 1 1\n1 1 3\n1000000000000", "output": "200000000001" }, { "input": "B\n1 1 1\n1 1 1\n381", "output": "382" }, { "input": "BSC\n3 5 6\n7...	1,664,004,682	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	21	77	0	x = input() b, s, c = x.count("B"), x.count("S"), x.count("C") #print(b, s, c) nb, ns, nc = map(int, input().split()) pb, ps, pc = map(int, input().split()) r = int(input()) minimum, maximum = 0, 10 ** 12 """g = 333333333334 print((((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc)) exit()""" while minimum != maximum: g = (minimum + maximum) // 2 #print(minimum, maximum, g) #print((((b * g - nb) if (b * g - nb) > 0 else 0) * pb + #((s * g - ns) if (s * g - ns) > 0 else 0) * ps + #((c * g - nc) if (c * g - nc) > 0 else 0) * pc)) if (((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc) > r: #print(1) maximum = g elif (((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc) < r: #print(2) minimum = g if minimum == maximum or maximum - 1 == minimum: #print(minimum, maximum) print(g) break else: #print(3) print(g) break if minimum == maximum: #print(4) print(0) break else: #print(5) print(0)	Title: Hamburgers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarpus loves hamburgers very much. He especially adores the hamburgers he makes with his own hands. Polycarpus thinks that there are only three decent ingredients to make hamburgers from: a bread, sausage and cheese. He writes down the recipe of his favorite "Le Hamburger de Polycarpus" as a string of letters 'B' (bread), 'S' (sausage) и 'C' (cheese). The ingredients in the recipe go from bottom to top, for example, recipe "ВSCBS" represents the hamburger where the ingredients go from bottom to top as bread, sausage, cheese, bread and sausage again. Polycarpus has nb pieces of bread, ns pieces of sausage and nc pieces of cheese in the kitchen. Besides, the shop nearby has all three ingredients, the prices are pb rubles for a piece of bread, ps for a piece of sausage and pc for a piece of cheese. Polycarpus has r rubles and he is ready to shop on them. What maximum number of hamburgers can he cook? You can assume that Polycarpus cannot break or slice any of the pieces of bread, sausage or cheese. Besides, the shop has an unlimited number of pieces of each ingredient. Input Specification: The first line of the input contains a non-empty string that describes the recipe of "Le Hamburger de Polycarpus". The length of the string doesn't exceed 100, the string contains only letters 'B' (uppercase English B), 'S' (uppercase English S) and 'C' (uppercase English C). The second line contains three integers nb, ns, nc (1<=≤<=nb,<=ns,<=nc<=≤<=100) — the number of the pieces of bread, sausage and cheese on Polycarpus' kitchen. The third line contains three integers pb, ps, pc (1<=≤<=pb,<=ps,<=pc<=≤<=100) — the price of one piece of bread, sausage and cheese in the shop. Finally, the fourth line contains integer r (1<=≤<=r<=≤<=1012) — the number of rubles Polycarpus has. Please, do not write 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. Output Specification: Print the maximum number of hamburgers Polycarpus can make. If he can't make any hamburger, print 0. Demo Input: ['BBBSSC\n6 4 1\n1 2 3\n4\n', 'BBC\n1 10 1\n1 10 1\n21\n', 'BSC\n1 1 1\n1 1 3\n1000000000000\n'] Demo Output: ['2\n', '7\n', '200000000001\n'] Note: none	```python x = input() b, s, c = x.count("B"), x.count("S"), x.count("C") #print(b, s, c) nb, ns, nc = map(int, input().split()) pb, ps, pc = map(int, input().split()) r = int(input()) minimum, maximum = 0, 10 ** 12 """g = 333333333334 print((((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc)) exit()""" while minimum != maximum: g = (minimum + maximum) // 2 #print(minimum, maximum, g) #print((((b * g - nb) if (b * g - nb) > 0 else 0) * pb + #((s * g - ns) if (s * g - ns) > 0 else 0) * ps + #((c * g - nc) if (c * g - nc) > 0 else 0) * pc)) if (((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc) > r: #print(1) maximum = g elif (((b * g - nb) if (b * g - nb) > 0 else 0) * pb + ((s * g - ns) if (s * g - ns) > 0 else 0) * ps + ((c * g - nc) if (c * g - nc) > 0 else 0) * pc) < r: #print(2) minimum = g if minimum == maximum or maximum - 1 == minimum: #print(minimum, maximum) print(g) break else: #print(3) print(g) break if minimum == maximum: #print(4) print(0) break else: #print(5) print(0) ```	0
1,006	A	Adjacent Replacements	PROGRAMMING	800	[ "implementation" ]		null	null	Mishka got an integer array $a$ of length $n$ as a birthday present (what a surprise!). Mishka doesn't like this present and wants to change it somehow. He has invented an algorithm and called it "Mishka's Adjacent Replacements Algorithm". This algorithm can be represented as a sequence of steps: - Replace each occurrence of $1$ in the array $a$ with $2$; - Replace each occurrence of $2$ in the array $a$ with $1$; - Replace each occurrence of $3$ in the array $a$ with $4$; - Replace each occurrence of $4$ in the array $a$ with $3$; - Replace each occurrence of $5$ in the array $a$ with $6$; - Replace each occurrence of $6$ in the array $a$ with $5$; - $\dots$ - Replace each occurrence of $10^9 - 1$ in the array $a$ with $10^9$; - Replace each occurrence of $10^9$ in the array $a$ with $10^9 - 1$. Note that the dots in the middle of this algorithm mean that Mishka applies these replacements for each pair of adjacent integers ($2i - 1, 2i$) for each $i \in\{1, 2, \ldots, 5 \cdot 10^8\}$ as described above. For example, for the array $a = [1, 2, 4, 5, 10]$, the following sequence of arrays represents the algorithm: $[1, 2, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $1$ with $2$) $\rightarrow$ $[2, 2, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $2$ with $1$) $\rightarrow$ $[1, 1, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $3$ with $4$) $\rightarrow$ $[1, 1, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $4$ with $3$) $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ (replace all occurrences of $5$ with $6$) $\rightarrow$ $[1, 1, 3, 6, 10]$ $\rightarrow$ (replace all occurrences of $6$ with $5$) $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ $\dots$ $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ (replace all occurrences of $10$ with $9$) $\rightarrow$ $[1, 1, 3, 5, 9]$. The later steps of the algorithm do not change the array. Mishka is very lazy and he doesn't want to apply these changes by himself. But he is very interested in their result. Help him find it.	The first line of the input contains one integer number $n$ ($1 \le n \le 1000$) — the number of elements in Mishka's birthday present (surprisingly, an array). The second line of the input contains $n$ integers $a_1, a_2, \dots, a_n$ ($1 \le a_i \le 10^9$) — the elements of the array.	Print $n$ integers — $b_1, b_2, \dots, b_n$, where $b_i$ is the final value of the $i$-th element of the array after applying "Mishka's Adjacent Replacements Algorithm" to the array $a$. Note that you cannot change the order of elements in the array.	[ "5\n1 2 4 5 10\n", "10\n10000 10 50605065 1 5 89 5 999999999 60506056 1000000000\n" ]	[ "1 1 3 5 9\n", "9999 9 50605065 1 5 89 5 999999999 60506055 999999999\n" ]	The first example is described in the problem statement.	0	[ { "input": "5\n1 2 4 5 10", "output": "1 1 3 5 9" }, { "input": "10\n10000 10 50605065 1 5 89 5 999999999 60506056 1000000000", "output": "9999 9 50605065 1 5 89 5 999999999 60506055 999999999" }, { "input": "1\n999999999", "output": "999999999" }, { "input": "1\n1000000000",...	1,592,301,028	328	PyPy 3	OK	TESTS	18	156	1,740,800	""" 616C """ """ 1152B """ # import math # import sys def main(): # n ,m= map(int,input().split()) # arr = list(map(int,input().split())) # b = list(map(int,input().split())) # n = int(input()) # TODO: # 1> LEETCODE FIRST PROBLEM WRITE # 2> VALERYINE AND DEQUEUE n = int(input()) arr = list(map(int,input().split())) for i in range(n): if arr[i]%2==0: arr[i]-=1 print(*arr) return main() # def test(): # t = int(input()) # while t: # main() # t-=1 # test()	Title: Adjacent Replacements Time Limit: None seconds Memory Limit: None megabytes Problem Description: Mishka got an integer array $a$ of length $n$ as a birthday present (what a surprise!). Mishka doesn't like this present and wants to change it somehow. He has invented an algorithm and called it "Mishka's Adjacent Replacements Algorithm". This algorithm can be represented as a sequence of steps: - Replace each occurrence of $1$ in the array $a$ with $2$; - Replace each occurrence of $2$ in the array $a$ with $1$; - Replace each occurrence of $3$ in the array $a$ with $4$; - Replace each occurrence of $4$ in the array $a$ with $3$; - Replace each occurrence of $5$ in the array $a$ with $6$; - Replace each occurrence of $6$ in the array $a$ with $5$; - $\dots$ - Replace each occurrence of $10^9 - 1$ in the array $a$ with $10^9$; - Replace each occurrence of $10^9$ in the array $a$ with $10^9 - 1$. Note that the dots in the middle of this algorithm mean that Mishka applies these replacements for each pair of adjacent integers ($2i - 1, 2i$) for each $i \in\{1, 2, \ldots, 5 \cdot 10^8\}$ as described above. For example, for the array $a = [1, 2, 4, 5, 10]$, the following sequence of arrays represents the algorithm: $[1, 2, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $1$ with $2$) $\rightarrow$ $[2, 2, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $2$ with $1$) $\rightarrow$ $[1, 1, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $3$ with $4$) $\rightarrow$ $[1, 1, 4, 5, 10]$ $\rightarrow$ (replace all occurrences of $4$ with $3$) $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ (replace all occurrences of $5$ with $6$) $\rightarrow$ $[1, 1, 3, 6, 10]$ $\rightarrow$ (replace all occurrences of $6$ with $5$) $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ $\dots$ $\rightarrow$ $[1, 1, 3, 5, 10]$ $\rightarrow$ (replace all occurrences of $10$ with $9$) $\rightarrow$ $[1, 1, 3, 5, 9]$. The later steps of the algorithm do not change the array. Mishka is very lazy and he doesn't want to apply these changes by himself. But he is very interested in their result. Help him find it. Input Specification: The first line of the input contains one integer number $n$ ($1 \le n \le 1000$) — the number of elements in Mishka's birthday present (surprisingly, an array). The second line of the input contains $n$ integers $a_1, a_2, \dots, a_n$ ($1 \le a_i \le 10^9$) — the elements of the array. Output Specification: Print $n$ integers — $b_1, b_2, \dots, b_n$, where $b_i$ is the final value of the $i$-th element of the array after applying "Mishka's Adjacent Replacements Algorithm" to the array $a$. Note that you cannot change the order of elements in the array. Demo Input: ['5\n1 2 4 5 10\n', '10\n10000 10 50605065 1 5 89 5 999999999 60506056 1000000000\n'] Demo Output: ['1 1 3 5 9\n', '9999 9 50605065 1 5 89 5 999999999 60506055 999999999\n'] Note: The first example is described in the problem statement.	```python """ 616C """ """ 1152B """ # import math # import sys def main(): # n ,m= map(int,input().split()) # arr = list(map(int,input().split())) # b = list(map(int,input().split())) # n = int(input()) # TODO: # 1> LEETCODE FIRST PROBLEM WRITE # 2> VALERYINE AND DEQUEUE n = int(input()) arr = list(map(int,input().split())) for i in range(n): if arr[i]%2==0: arr[i]-=1 print(*arr) return main() # def test(): # t = int(input()) # while t: # main() # t-=1 # test() ```	3
910	A	The Way to Home	PROGRAMMING	800	[ "dfs and similar", "dp", "greedy", "implementation" ]		null	null	A frog lives on the axis Ox and needs to reach home which is in the point n. She starts from the point 1. The frog can jump to the right at a distance not more than d. So, after she jumped from the point x she can reach the point x<=+<=a, where a is an integer from 1 to d. For each point from 1 to n is known if there is a lily flower in it. The frog can jump only in points with a lilies. Guaranteed that there are lilies in the points 1 and n. Determine the minimal number of jumps that the frog needs to reach home which is in the point n from the point 1. Consider that initially the frog is in the point 1. If the frog can not reach home, print -1.	The first line contains two integers n and d (2<=≤<=n<=≤<=100, 1<=≤<=d<=≤<=n<=-<=1) — the point, which the frog wants to reach, and the maximal length of the frog jump. The second line contains a string s of length n, consisting of zeros and ones. If a character of the string s equals to zero, then in the corresponding point there is no lily flower. In the other case, in the corresponding point there is a lily flower. Guaranteed that the first and the last characters of the string s equal to one.	If the frog can not reach the home, print -1. In the other case, print the minimal number of jumps that the frog needs to reach the home which is in the point n from the point 1.	[ "8 4\n10010101\n", "4 2\n1001\n", "8 4\n11100101\n", "12 3\n101111100101\n" ]	[ "2\n", "-1\n", "3\n", "4\n" ]	In the first example the from can reach home in two jumps: the first jump from the point 1 to the point 4 (the length of the jump is three), and the second jump from the point 4 to the point 8 (the length of the jump is four). In the second example the frog can not reach home, because to make it she need to jump on a distance three, but the maximum length of her jump equals to two.	500	[ { "input": "8 4\n10010101", "output": "2" }, { "input": "4 2\n1001", "output": "-1" }, { "input": "8 4\n11100101", "output": "3" }, { "input": "12 3\n101111100101", "output": "4" }, { "input": "5 4\n11011", "output": "1" }, { "input": "5 4\n10001", ...	1,683,931,654	2,147,483,647	Python 3	OK	TESTS	63	46	0	n, d = map(int, input().split()) s = input() # check if it's possible to reach the home if '0' * d in s: print(-1) else: # initialize variables curr = 0 jumps = 0 # iterate until reaching home while curr < n-1: # find the furthest reachable position max_pos = curr for index in range(curr + 1, min(n, curr + d + 1)): if s[index] == '1': max_pos = index # check if a new position is found if max_pos == curr: print(-1) break # update variables curr = max_pos jumps += 1 # print the number of jumps if home is reached if curr == n-1: print(jumps)	Title: The Way to Home Time Limit: None seconds Memory Limit: None megabytes Problem Description: A frog lives on the axis Ox and needs to reach home which is in the point n. She starts from the point 1. The frog can jump to the right at a distance not more than d. So, after she jumped from the point x she can reach the point x<=+<=a, where a is an integer from 1 to d. For each point from 1 to n is known if there is a lily flower in it. The frog can jump only in points with a lilies. Guaranteed that there are lilies in the points 1 and n. Determine the minimal number of jumps that the frog needs to reach home which is in the point n from the point 1. Consider that initially the frog is in the point 1. If the frog can not reach home, print -1. Input Specification: The first line contains two integers n and d (2<=≤<=n<=≤<=100, 1<=≤<=d<=≤<=n<=-<=1) — the point, which the frog wants to reach, and the maximal length of the frog jump. The second line contains a string s of length n, consisting of zeros and ones. If a character of the string s equals to zero, then in the corresponding point there is no lily flower. In the other case, in the corresponding point there is a lily flower. Guaranteed that the first and the last characters of the string s equal to one. Output Specification: If the frog can not reach the home, print -1. In the other case, print the minimal number of jumps that the frog needs to reach the home which is in the point n from the point 1. Demo Input: ['8 4\n10010101\n', '4 2\n1001\n', '8 4\n11100101\n', '12 3\n101111100101\n'] Demo Output: ['2\n', '-1\n', '3\n', '4\n'] Note: In the first example the from can reach home in two jumps: the first jump from the point 1 to the point 4 (the length of the jump is three), and the second jump from the point 4 to the point 8 (the length of the jump is four). In the second example the frog can not reach home, because to make it she need to jump on a distance three, but the maximum length of her jump equals to two.	```python n, d = map(int, input().split()) s = input() # check if it's possible to reach the home if '0' * d in s: print(-1) else: # initialize variables curr = 0 jumps = 0 # iterate until reaching home while curr < n-1: # find the furthest reachable position max_pos = curr for index in range(curr + 1, min(n, curr + d + 1)): if s[index] == '1': max_pos = index # check if a new position is found if max_pos == curr: print(-1) break # update variables curr = max_pos jumps += 1 # print the number of jumps if home is reached if curr == n-1: print(jumps) ```	3
676	A	Nicholas and Permutation	PROGRAMMING	800	[ "constructive algorithms", "implementation" ]		null	null	Nicholas has an array a that contains n distinct integers from 1 to n. In other words, Nicholas has a permutation of size n. Nicholas want the minimum element (integer 1) and the maximum element (integer n) to be as far as possible from each other. He wants to perform exactly one swap in order to maximize the distance between the minimum and the maximum elements. The distance between two elements is considered to be equal to the absolute difference between their positions.	The first line of the input contains a single integer n (2<=≤<=n<=≤<=100) — the size of the permutation. The second line of the input contains n distinct integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=n), where ai is equal to the element at the i-th position.	Print a single integer — the maximum possible distance between the minimum and the maximum elements Nicholas can achieve by performing exactly one swap.	[ "5\n4 5 1 3 2\n", "7\n1 6 5 3 4 7 2\n", "6\n6 5 4 3 2 1\n" ]	[ "3\n", "6\n", "5\n" ]	In the first sample, one may obtain the optimal answer by swapping elements 1 and 2. In the second sample, the minimum and the maximum elements will be located in the opposite ends of the array if we swap 7 and 2. In the third sample, the distance between the minimum and the maximum elements is already maximum possible, so we just perform some unnecessary swap, for example, one can swap 5 and 2.	500	[ { "input": "5\n4 5 1 3 2", "output": "3" }, { "input": "7\n1 6 5 3 4 7 2", "output": "6" }, { "input": "6\n6 5 4 3 2 1", "output": "5" }, { "input": "2\n1 2", "output": "1" }, { "input": "2\n2 1", "output": "1" }, { "input": "3\n2 3 1", "output": "...	1,598,416,805	2,147,483,647	Python 3	OK	TESTS	159	109	307,200	n=int(input()) l=list(map(int,input().split())) a=min(l) b=max(l) list1=[] for i in l: if i==a or i==b: list1.append(l.index(i)) x=list1[0]-0 y=n-1-list1[1] if x>y: print(list1[1]-0) else: print(n-1-list1[0])	Title: Nicholas and Permutation Time Limit: None seconds Memory Limit: None megabytes Problem Description: Nicholas has an array a that contains n distinct integers from 1 to n. In other words, Nicholas has a permutation of size n. Nicholas want the minimum element (integer 1) and the maximum element (integer n) to be as far as possible from each other. He wants to perform exactly one swap in order to maximize the distance between the minimum and the maximum elements. The distance between two elements is considered to be equal to the absolute difference between their positions. Input Specification: The first line of the input contains a single integer n (2<=≤<=n<=≤<=100) — the size of the permutation. The second line of the input contains n distinct integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=n), where ai is equal to the element at the i-th position. Output Specification: Print a single integer — the maximum possible distance between the minimum and the maximum elements Nicholas can achieve by performing exactly one swap. Demo Input: ['5\n4 5 1 3 2\n', '7\n1 6 5 3 4 7 2\n', '6\n6 5 4 3 2 1\n'] Demo Output: ['3\n', '6\n', '5\n'] Note: In the first sample, one may obtain the optimal answer by swapping elements 1 and 2. In the second sample, the minimum and the maximum elements will be located in the opposite ends of the array if we swap 7 and 2. In the third sample, the distance between the minimum and the maximum elements is already maximum possible, so we just perform some unnecessary swap, for example, one can swap 5 and 2.	```python n=int(input()) l=list(map(int,input().split())) a=min(l) b=max(l) list1=[] for i in l: if i==a or i==b: list1.append(l.index(i)) x=list1[0]-0 y=n-1-list1[1] if x>y: print(list1[1]-0) else: print(n-1-list1[0]) ```	3
99	A	Help Far Away Kingdom	PROGRAMMING	800	[ "strings" ]	A. Help Far Away Kingdom	2	256	In a far away kingdom lived the King, the Prince, the Shoemaker, the Dressmaker and many other citizens. They lived happily until great trouble came into the Kingdom. The ACMers settled there. Most damage those strange creatures inflicted upon the kingdom was that they loved high precision numbers. As a result, the Kingdom healers had already had three appointments with the merchants who were asked to sell, say, exactly 0.273549107 beer barrels. To deal with the problem somehow, the King issued an order obliging rounding up all numbers to the closest integer to simplify calculations. Specifically, the order went like this: - If a number's integer part does not end with digit 9 and its fractional part is strictly less than 0.5, then the rounded up number coincides with the number’s integer part. - If a number's integer part does not end with digit 9 and its fractional part is not less than 0.5, the rounded up number is obtained if we add 1 to the last digit of the number’s integer part.- If the number’s integer part ends with digit 9, to round up the numbers one should go to Vasilisa the Wise. In the whole Kingdom she is the only one who can perform the tricky operation of carrying into the next position. Merchants found the algorithm very sophisticated and they asked you (the ACMers) to help them. Can you write a program that would perform the rounding according to the King’s order?	The first line contains a single number to round up — the integer part (a non-empty set of decimal digits that do not start with 0 — with the exception of a case when the set consists of a single digit — in this case 0 can go first), then follows character «.» (a dot), and then follows the fractional part (any non-empty set of decimal digits). The number's length does not exceed 1000 characters, including the dot. There are no other characters in the input data.	If the last number of the integer part is not equal to 9, print the rounded-up number without leading zeroes. Otherwise, print the message "GOTO Vasilisa." (without the quotes).	[ "0.0\n", "1.49\n", "1.50\n", "2.71828182845904523536\n", "3.14159265358979323846\n", "12345678901234567890.1\n", "123456789123456789.999\n" ]	[ "0", "1", "2", "3", "3", "12345678901234567890", "GOTO Vasilisa." ]	none	500	[ { "input": "0.0", "output": "0" }, { "input": "1.49", "output": "1" }, { "input": "1.50", "output": "2" }, { "input": "2.71828182845904523536", "output": "3" }, { "input": "3.14159265358979323846", "output": "3" }, { "input": "12345678901234567890.1", ...	1,650,674,851	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	7	92	0	s = input() ss = s.find('.') sss = int(s[ss+1]) m = s[:ss] if s[s.find('.')-1] != '9': if 0 <= sss <= 4: print(m) elif 5 <= sss <= 8: print(int(m)+1) elif s[s.find('.')-1] == '9': print("GOTO Vasilisa.")	Title: Help Far Away Kingdom Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: In a far away kingdom lived the King, the Prince, the Shoemaker, the Dressmaker and many other citizens. They lived happily until great trouble came into the Kingdom. The ACMers settled there. Most damage those strange creatures inflicted upon the kingdom was that they loved high precision numbers. As a result, the Kingdom healers had already had three appointments with the merchants who were asked to sell, say, exactly 0.273549107 beer barrels. To deal with the problem somehow, the King issued an order obliging rounding up all numbers to the closest integer to simplify calculations. Specifically, the order went like this: - If a number's integer part does not end with digit 9 and its fractional part is strictly less than 0.5, then the rounded up number coincides with the number’s integer part. - If a number's integer part does not end with digit 9 and its fractional part is not less than 0.5, the rounded up number is obtained if we add 1 to the last digit of the number’s integer part.- If the number’s integer part ends with digit 9, to round up the numbers one should go to Vasilisa the Wise. In the whole Kingdom she is the only one who can perform the tricky operation of carrying into the next position. Merchants found the algorithm very sophisticated and they asked you (the ACMers) to help them. Can you write a program that would perform the rounding according to the King’s order? Input Specification: The first line contains a single number to round up — the integer part (a non-empty set of decimal digits that do not start with 0 — with the exception of a case when the set consists of a single digit — in this case 0 can go first), then follows character «.» (a dot), and then follows the fractional part (any non-empty set of decimal digits). The number's length does not exceed 1000 characters, including the dot. There are no other characters in the input data. Output Specification: If the last number of the integer part is not equal to 9, print the rounded-up number without leading zeroes. Otherwise, print the message "GOTO Vasilisa." (without the quotes). Demo Input: ['0.0\n', '1.49\n', '1.50\n', '2.71828182845904523536\n', '3.14159265358979323846\n', '12345678901234567890.1\n', '123456789123456789.999\n'] Demo Output: ['0', '1', '2', '3', '3', '12345678901234567890', 'GOTO Vasilisa.'] Note: none	```python s = input() ss = s.find('.') sss = int(s[ss+1]) m = s[:ss] if s[s.find('.')-1] != '9': if 0 <= sss <= 4: print(m) elif 5 <= sss <= 8: print(int(m)+1) elif s[s.find('.')-1] == '9': print("GOTO Vasilisa.") ```	0
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", "outpu...	1,542,608,035	2,147,483,647	PyPy 3	OK	TESTS	33	124	0	n=input() ln=len(n) index=(2ln)-1 for i in range(1,ln+1): if n[i-1]=='7': index+=2(ln-i) print(index)	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 n=input() ln=len(n) index=(2ln)-1 for i in range(1,ln+1): if n[i-1]=='7': index+=2(ln-i) print(index) ```	3
515	A	Drazil and Date	PROGRAMMING	1,000	[ "math" ]		null	null	Someday, Drazil wanted to go on date with Varda. Drazil and Varda live on Cartesian plane. Drazil's home is located in point (0,<=0) and Varda's home is located in point (a,<=b). In each step, he can move in a unit distance in horizontal or vertical direction. In other words, from position (x,<=y) he can go to positions (x<=+<=1,<=y), (x<=-<=1,<=y), (x,<=y<=+<=1) or (x,<=y<=-<=1). Unfortunately, Drazil doesn't have sense of direction. So he randomly chooses the direction he will go to in each step. He may accidentally return back to his house during his travel. Drazil may even not notice that he has arrived to (a,<=b) and continue travelling. Luckily, Drazil arrived to the position (a,<=b) successfully. Drazil said to Varda: "It took me exactly s steps to travel from my house to yours". But Varda is confused about his words, she is not sure that it is possible to get from (0,<=0) to (a,<=b) in exactly s steps. Can you find out if it is possible for Varda?	You are given three integers a, b, and s (<=-<=109<=≤<=a,<=b<=≤<=109, 1<=≤<=s<=≤<=2·109) in a single line.	If you think Drazil made a mistake and it is impossible to take exactly s steps and get from his home to Varda's home, print "No" (without quotes). Otherwise, print "Yes".	[ "5 5 11\n", "10 15 25\n", "0 5 1\n", "0 0 2\n" ]	[ "No\n", "Yes\n", "No\n", "Yes\n" ]	In fourth sample case one possible route is: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/0d30660ddf6eb6c64ffd071055a4e8ddd016cde5.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	500	[ { "input": "5 5 11", "output": "No" }, { "input": "10 15 25", "output": "Yes" }, { "input": "0 5 1", "output": "No" }, { "input": "0 0 2", "output": "Yes" }, { "input": "999999999 999999999 2000000000", "output": "Yes" }, { "input": "-606037695 9983201...	1,589,368,089	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	8	108	6,656,000	l = list(int(x) for x in input().split()) a = l[0] b = l[1] s = l[2] if s<a+b: print('No') elif (s-(a+b))%2!=0: print('No') else: print('Yes')	Title: Drazil and Date Time Limit: None seconds Memory Limit: None megabytes Problem Description: Someday, Drazil wanted to go on date with Varda. Drazil and Varda live on Cartesian plane. Drazil's home is located in point (0,<=0) and Varda's home is located in point (a,<=b). In each step, he can move in a unit distance in horizontal or vertical direction. In other words, from position (x,<=y) he can go to positions (x<=+<=1,<=y), (x<=-<=1,<=y), (x,<=y<=+<=1) or (x,<=y<=-<=1). Unfortunately, Drazil doesn't have sense of direction. So he randomly chooses the direction he will go to in each step. He may accidentally return back to his house during his travel. Drazil may even not notice that he has arrived to (a,<=b) and continue travelling. Luckily, Drazil arrived to the position (a,<=b) successfully. Drazil said to Varda: "It took me exactly s steps to travel from my house to yours". But Varda is confused about his words, she is not sure that it is possible to get from (0,<=0) to (a,<=b) in exactly s steps. Can you find out if it is possible for Varda? Input Specification: You are given three integers a, b, and s (<=-<=109<=≤<=a,<=b<=≤<=109, 1<=≤<=s<=≤<=2·109) in a single line. Output Specification: If you think Drazil made a mistake and it is impossible to take exactly s steps and get from his home to Varda's home, print "No" (without quotes). Otherwise, print "Yes". Demo Input: ['5 5 11\n', '10 15 25\n', '0 5 1\n', '0 0 2\n'] Demo Output: ['No\n', 'Yes\n', 'No\n', 'Yes\n'] Note: In fourth sample case one possible route is: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/0d30660ddf6eb6c64ffd071055a4e8ddd016cde5.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	```python l = list(int(x) for x in input().split()) a = l[0] b = l[1] s = l[2] if s<a+b: print('No') elif (s-(a+b))%2!=0: print('No') else: print('Yes') ```	0
353	A	Domino	PROGRAMMING	1,200	[ "implementation", "math" ]		null	null	Valera has got n domino pieces in a row. Each piece consists of two halves — the upper one and the lower one. Each of the halves contains a number from 1 to 6. Valera loves even integers very much, so he wants the sum of the numbers on the upper halves and the sum of the numbers on the lower halves to be even. To do that, Valera can rotate the dominoes by 180 degrees. After the rotation the upper and the lower halves swap places. This action takes one second. Help Valera find out the minimum time he must spend rotating dominoes to make his wish come true.	The first line contains integer n (1<=≤<=n<=≤<=100), denoting the number of dominoes Valera has. Next n lines contain two space-separated integers xi,<=yi (1<=≤<=xi,<=yi<=≤<=6). Number xi is initially written on the upper half of the i-th domino, yi is initially written on the lower half.	Print a single number — the minimum required number of seconds. If Valera can't do the task in any time, print <=-<=1.	[ "2\n4 2\n6 4\n", "1\n2 3\n", "3\n1 4\n2 3\n4 4\n" ]	[ "0\n", "-1\n", "1\n" ]	In the first test case the sum of the numbers on the upper halves equals 10 and the sum of the numbers on the lower halves equals 6. Both numbers are even, so Valera doesn't required to do anything. In the second sample Valera has only one piece of domino. It is written 3 on the one of its halves, therefore one of the sums will always be odd. In the third case Valera can rotate the first piece, and after that the sum on the upper halves will be equal to 10, and the sum on the lower halves will be equal to 8.	500	[ { "input": "2\n4 2\n6 4", "output": "0" }, { "input": "1\n2 3", "output": "-1" }, { "input": "3\n1 4\n2 3\n4 4", "output": "1" }, { "input": "5\n5 4\n5 4\n1 5\n5 5\n3 3", "output": "1" }, { "input": "20\n1 3\n5 2\n5 2\n2 6\n2 4\n1 1\n1 3\n1 4\n2 6\n4 2\n5 6\n2 2\n...	1,592,398,019	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	7	186	307,200	n = int(input()) array = [] upper= 0 lower =0 for i in range(n): array.append(list(map(int,input().split()))) upper+=array[i][0] lower+=array[i][1] if(upper%2==0 and lower%2==0): print(0) elif(upper%2==0 and lower%2!=0): print(-1) elif(upper%2!=0 and lower%2==0): print(-1) else: flag = 0 for i in range(n): if(array[i][1]%2!=0 and array[i][0]%2==0): flag =1 break if(array[i][1]%2==0 and array[i][0]%2!=0): flag = 1 break if(flag==1): print(1) else: print(0)	Title: Domino Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera has got n domino pieces in a row. Each piece consists of two halves — the upper one and the lower one. Each of the halves contains a number from 1 to 6. Valera loves even integers very much, so he wants the sum of the numbers on the upper halves and the sum of the numbers on the lower halves to be even. To do that, Valera can rotate the dominoes by 180 degrees. After the rotation the upper and the lower halves swap places. This action takes one second. Help Valera find out the minimum time he must spend rotating dominoes to make his wish come true. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=100), denoting the number of dominoes Valera has. Next n lines contain two space-separated integers xi,<=yi (1<=≤<=xi,<=yi<=≤<=6). Number xi is initially written on the upper half of the i-th domino, yi is initially written on the lower half. Output Specification: Print a single number — the minimum required number of seconds. If Valera can't do the task in any time, print <=-<=1. Demo Input: ['2\n4 2\n6 4\n', '1\n2 3\n', '3\n1 4\n2 3\n4 4\n'] Demo Output: ['0\n', '-1\n', '1\n'] Note: In the first test case the sum of the numbers on the upper halves equals 10 and the sum of the numbers on the lower halves equals 6. Both numbers are even, so Valera doesn't required to do anything. In the second sample Valera has only one piece of domino. It is written 3 on the one of its halves, therefore one of the sums will always be odd. In the third case Valera can rotate the first piece, and after that the sum on the upper halves will be equal to 10, and the sum on the lower halves will be equal to 8.	```python n = int(input()) array = [] upper= 0 lower =0 for i in range(n): array.append(list(map(int,input().split()))) upper+=array[i][0] lower+=array[i][1] if(upper%2==0 and lower%2==0): print(0) elif(upper%2==0 and lower%2!=0): print(-1) elif(upper%2!=0 and lower%2==0): print(-1) else: flag = 0 for i in range(n): if(array[i][1]%2!=0 and array[i][0]%2==0): flag =1 break if(array[i][1]%2==0 and array[i][0]%2!=0): flag = 1 break if(flag==1): print(1) else: print(0) ```	0
614	B	Gena's Code	PROGRAMMING	1,400	[ "implementation", "math" ]		null	null	It's the year 4527 and the tanks game that we all know and love still exists. There also exists Great Gena's code, written in 2016. The problem this code solves is: given the number of tanks that go into the battle from each country, find their product. If it is turns to be too large, then the servers might have not enough time to assign tanks into teams and the whole game will collapse! There are exactly n distinct countries in the world and the i-th country added ai tanks to the game. As the developers of the game are perfectionists, the number of tanks from each country is beautiful. A beautiful number, according to the developers, is such number that its decimal representation consists only of digits '1' and '0', moreover it contains at most one digit '1'. However, due to complaints from players, some number of tanks of one country was removed from the game, hence the number of tanks of this country may not remain beautiful. Your task is to write the program that solves exactly the same problem in order to verify Gena's code correctness. Just in case.	The first line of the input contains the number of countries n (1<=≤<=n<=≤<=100<=000). The second line contains n non-negative integers ai without leading zeroes — the number of tanks of the i-th country. It is guaranteed that the second line contains at least n<=-<=1 beautiful numbers and the total length of all these number's representations doesn't exceed 100<=000.	Print a single number without leading zeroes — the product of the number of tanks presented by each country.	[ "3\n5 10 1\n", "4\n1 1 10 11\n", "5\n0 3 1 100 1\n" ]	[ "50", "110", "0" ]	In sample 1 numbers 10 and 1 are beautiful, number 5 is not not. In sample 2 number 11 is not beautiful (contains two '1's), all others are beautiful. In sample 3 number 3 is not beautiful, all others are beautiful.	1,000	[ { "input": "3\n5 10 1", "output": "50" }, { "input": "4\n1 1 10 11", "output": "110" }, { "input": "5\n0 3 1 100 1", "output": "0" }, { "input": "40\n10 100 10 1 10 10 100 10 10 100 10 100 100 10 1824868942 100 100 1 10 100 100 10 100 100 10 100 10 1 10 100 100 100 10 1 10 1 ...	1,474,623,332	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	7	500	1,024,000	if __name__ == '__main__': n = int(input()) L = list(map(int,input().split())) M = 1 for itm in L: M *= itm print(M)	Title: Gena's Code Time Limit: None seconds Memory Limit: None megabytes Problem Description: It's the year 4527 and the tanks game that we all know and love still exists. There also exists Great Gena's code, written in 2016. The problem this code solves is: given the number of tanks that go into the battle from each country, find their product. If it is turns to be too large, then the servers might have not enough time to assign tanks into teams and the whole game will collapse! There are exactly n distinct countries in the world and the i-th country added ai tanks to the game. As the developers of the game are perfectionists, the number of tanks from each country is beautiful. A beautiful number, according to the developers, is such number that its decimal representation consists only of digits '1' and '0', moreover it contains at most one digit '1'. However, due to complaints from players, some number of tanks of one country was removed from the game, hence the number of tanks of this country may not remain beautiful. Your task is to write the program that solves exactly the same problem in order to verify Gena's code correctness. Just in case. Input Specification: The first line of the input contains the number of countries n (1<=≤<=n<=≤<=100<=000). The second line contains n non-negative integers ai without leading zeroes — the number of tanks of the i-th country. It is guaranteed that the second line contains at least n<=-<=1 beautiful numbers and the total length of all these number's representations doesn't exceed 100<=000. Output Specification: Print a single number without leading zeroes — the product of the number of tanks presented by each country. Demo Input: ['3\n5 10 1\n', '4\n1 1 10 11\n', '5\n0 3 1 100 1\n'] Demo Output: ['50', '110', '0'] Note: In sample 1 numbers 10 and 1 are beautiful, number 5 is not not. In sample 2 number 11 is not beautiful (contains two '1's), all others are beautiful. In sample 3 number 3 is not beautiful, all others are beautiful.	```python if __name__ == '__main__': n = int(input()) L = list(map(int,input().split())) M = 1 for itm in L: M *= itm print(M) ```	0
260	C	Balls and Boxes	PROGRAMMING	1,700	[ "constructive algorithms", "greedy", "implementation" ]		null	null	Little Vasya had n boxes with balls in the room. The boxes stood in a row and were numbered with numbers from 1 to n from left to right. Once Vasya chose one of the boxes, let's assume that its number is i, took all balls out from it (it is guaranteed that this box originally had at least one ball), and began putting balls (one at a time) to the boxes with numbers i<=+<=1, i<=+<=2, i<=+<=3 and so on. If Vasya puts a ball into the box number n, then the next ball goes to box 1, the next one goes to box 2 and so on. He did it until he had no balls left in his hands. It is possible that Vasya puts multiple balls to the same box, and it is also possible that one or more balls will go to the box number i. If i<==<=n, Vasya puts the first ball into the box number 1, then the next ball goes to box 2 and so on. For example, let's suppose that initially Vasya had four boxes, and the first box had 3 balls, the second one had 2, the third one had 5 and the fourth one had 4 balls. Then, if i<==<=3, then Vasya will take all five balls out of the third box and put them in the boxes with numbers: 4,<=1,<=2,<=3,<=4. After all Vasya's actions the balls will lie in the boxes as follows: in the first box there are 4 balls, 3 in the second one, 1 in the third one and 6 in the fourth one. At this point Vasya has completely forgotten the original arrangement of the balls in the boxes, but he knows how they are arranged now, and the number x — the number of the box, where he put the last of the taken out balls. He asks you to help to find the initial arrangement of the balls in the boxes.	The first line of the input contains two integers n and x (2<=≤<=n<=≤<=105, 1<=≤<=x<=≤<=n), that represent the number of the boxes and the index of the box that got the last ball from Vasya, correspondingly. The second line contains n space-separated integers a1,<=a2,<=...,<=an, where integer ai (0<=≤<=ai<=≤<=109, ax<=≠<=0) represents the number of balls in the box with index i after Vasya completes all the actions. 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.	Print n integers, where the i-th one represents the number of balls in the box number i before Vasya starts acting. Separate the numbers in the output by spaces. If there are multiple correct solutions, you are allowed to print any of them.	[ "4 4\n4 3 1 6\n", "5 2\n3 2 0 2 7\n", "3 3\n2 3 1\n" ]	[ "3 2 5 4 ", "2 1 4 1 6 ", "1 2 3 " ]	none	1,500	[ { "input": "4 4\n4 3 1 6", "output": "3 2 5 4 " }, { "input": "5 2\n3 2 0 2 7", "output": "2 1 4 1 6 " }, { "input": "3 3\n2 3 1", "output": "1 2 3 " }, { "input": "10 3\n1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 100000...	1,608,923,209	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	3	124	0	import sys import math MAXNUM = math.inf MINNUM = -1 * math.inf ASCIILOWER = 97 ASCIIUPPER = 65 def getInt(): return int(sys.stdin.readline().rstrip()) def getInts(): return map(int, sys.stdin.readline().rstrip().split(" ")) def getString(): return sys.stdin.readline().rstrip() def printOutput(ans): for ele in ans: sys.stdout.write(str(ele) + " ") sys.stdout.write("\n") def solve(init, balls): b = min(balls) k = balls.index(b) rounds = balls[k] # loop times cur = (k + 1) % len(balls) while cur != (init + 1) % len(balls): balls[cur] -= rounds + 1 balls[k] += rounds + 1 cur += 1 cur %= len(balls) cur = (init + 1) % len(balls) while cur != (k): balls[cur] -= rounds balls[k] += rounds cur += 1 cur %= len(balls) return balls def readinput(): n, x = getInts() balls = list(getInts()) printOutput((solve((x - 1), balls))) readinput()	Title: Balls and Boxes Time Limit: None seconds Memory Limit: None megabytes Problem Description: Little Vasya had n boxes with balls in the room. The boxes stood in a row and were numbered with numbers from 1 to n from left to right. Once Vasya chose one of the boxes, let's assume that its number is i, took all balls out from it (it is guaranteed that this box originally had at least one ball), and began putting balls (one at a time) to the boxes with numbers i<=+<=1, i<=+<=2, i<=+<=3 and so on. If Vasya puts a ball into the box number n, then the next ball goes to box 1, the next one goes to box 2 and so on. He did it until he had no balls left in his hands. It is possible that Vasya puts multiple balls to the same box, and it is also possible that one or more balls will go to the box number i. If i<==<=n, Vasya puts the first ball into the box number 1, then the next ball goes to box 2 and so on. For example, let's suppose that initially Vasya had four boxes, and the first box had 3 balls, the second one had 2, the third one had 5 and the fourth one had 4 balls. Then, if i<==<=3, then Vasya will take all five balls out of the third box and put them in the boxes with numbers: 4,<=1,<=2,<=3,<=4. After all Vasya's actions the balls will lie in the boxes as follows: in the first box there are 4 balls, 3 in the second one, 1 in the third one and 6 in the fourth one. At this point Vasya has completely forgotten the original arrangement of the balls in the boxes, but he knows how they are arranged now, and the number x — the number of the box, where he put the last of the taken out balls. He asks you to help to find the initial arrangement of the balls in the boxes. Input Specification: The first line of the input contains two integers n and x (2<=≤<=n<=≤<=105, 1<=≤<=x<=≤<=n), that represent the number of the boxes and the index of the box that got the last ball from Vasya, correspondingly. The second line contains n space-separated integers a1,<=a2,<=...,<=an, where integer ai (0<=≤<=ai<=≤<=109, ax<=≠<=0) represents the number of balls in the box with index i after Vasya completes all the actions. 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. Output Specification: Print n integers, where the i-th one represents the number of balls in the box number i before Vasya starts acting. Separate the numbers in the output by spaces. If there are multiple correct solutions, you are allowed to print any of them. Demo Input: ['4 4\n4 3 1 6\n', '5 2\n3 2 0 2 7\n', '3 3\n2 3 1\n'] Demo Output: ['3 2 5 4 ', '2 1 4 1 6 ', '1 2 3 '] Note: none	```python import sys import math MAXNUM = math.inf MINNUM = -1 * math.inf ASCIILOWER = 97 ASCIIUPPER = 65 def getInt(): return int(sys.stdin.readline().rstrip()) def getInts(): return map(int, sys.stdin.readline().rstrip().split(" ")) def getString(): return sys.stdin.readline().rstrip() def printOutput(ans): for ele in ans: sys.stdout.write(str(ele) + " ") sys.stdout.write("\n") def solve(init, balls): b = min(balls) k = balls.index(b) rounds = balls[k] # loop times cur = (k + 1) % len(balls) while cur != (init + 1) % len(balls): balls[cur] -= rounds + 1 balls[k] += rounds + 1 cur += 1 cur %= len(balls) cur = (init + 1) % len(balls) while cur != (k): balls[cur] -= rounds balls[k] += rounds cur += 1 cur %= len(balls) return balls def readinput(): n, x = getInts() balls = list(getInts()) printOutput((solve((x - 1), balls))) readinput() ```	0
570	B	Simple Game	PROGRAMMING	1,300	[ "constructive algorithms", "games", "greedy", "implementation", "math" ]		null	null	One day Misha and Andrew were playing a very simple game. First, each player chooses an integer in the range from 1 to n. Let's assume that Misha chose number m, and Andrew chose number a. Then, by using a random generator they choose a random integer c in the range between 1 and n (any integer from 1 to n is chosen with the same probability), after which the winner is the player, whose number was closer to c. The boys agreed that if m and a are located on the same distance from c, Misha wins. Andrew wants to win very much, so he asks you to help him. You know the number selected by Misha, and number n. You need to determine which value of a Andrew must choose, so that the probability of his victory is the highest possible. More formally, you need to find such integer a (1<=≤<=a<=≤<=n), that the probability that is maximal, where c is the equiprobably chosen integer from 1 to n (inclusive).	The first line contains two integers n and m (1<=≤<=m<=≤<=n<=≤<=109) — the range of numbers in the game, and the number selected by Misha respectively.	Print a single number — such value a, that probability that Andrew wins is the highest. If there are multiple such values, print the minimum of them.	[ "3 1\n", "4 3\n" ]	[ "2", "2" ]	In the first sample test: Andrew wins if c is equal to 2 or 3. The probability that Andrew wins is 2 / 3. If Andrew chooses a = 3, the probability of winning will be 1 / 3. If a = 1, the probability of winning is 0. In the second sample test: Andrew wins if c is equal to 1 and 2. The probability that Andrew wins is 1 / 2. For other choices of a the probability of winning is less.	1,000	[ { "input": "3 1", "output": "2" }, { "input": "4 3", "output": "2" }, { "input": "5 5", "output": "4" }, { "input": "10 5", "output": "6" }, { "input": "20 13", "output": "12" }, { "input": "51 1", "output": "2" }, { "input": "100 50", ...	1,546,866,939	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	16	108	0	n, m = map(int, input().split()) if n-m > m-1: print(m+1) else: print(m-1)	Title: Simple Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Misha and Andrew were playing a very simple game. First, each player chooses an integer in the range from 1 to n. Let's assume that Misha chose number m, and Andrew chose number a. Then, by using a random generator they choose a random integer c in the range between 1 and n (any integer from 1 to n is chosen with the same probability), after which the winner is the player, whose number was closer to c. The boys agreed that if m and a are located on the same distance from c, Misha wins. Andrew wants to win very much, so he asks you to help him. You know the number selected by Misha, and number n. You need to determine which value of a Andrew must choose, so that the probability of his victory is the highest possible. More formally, you need to find such integer a (1<=≤<=a<=≤<=n), that the probability that is maximal, where c is the equiprobably chosen integer from 1 to n (inclusive). Input Specification: The first line contains two integers n and m (1<=≤<=m<=≤<=n<=≤<=109) — the range of numbers in the game, and the number selected by Misha respectively. Output Specification: Print a single number — such value a, that probability that Andrew wins is the highest. If there are multiple such values, print the minimum of them. Demo Input: ['3 1\n', '4 3\n'] Demo Output: ['2', '2'] Note: In the first sample test: Andrew wins if c is equal to 2 or 3. The probability that Andrew wins is 2 / 3. If Andrew chooses a = 3, the probability of winning will be 1 / 3. If a = 1, the probability of winning is 0. In the second sample test: Andrew wins if c is equal to 1 and 2. The probability that Andrew wins is 1 / 2. For other choices of a the probability of winning is less.	```python n, m = map(int, input().split()) if n-m > m-1: print(m+1) else: print(m-1) ```	0
334	A	Candy Bags	PROGRAMMING	1,000	[ "implementation" ]		null	null	Gerald has n younger brothers and their number happens to be even. One day he bought n2 candy bags. One bag has one candy, one bag has two candies, one bag has three candies and so on. In fact, for each integer k from 1 to n2 he has exactly one bag with k candies. Help him give n bags of candies to each brother so that all brothers got the same number of candies.	The single line contains a single integer n (n is even, 2<=≤<=n<=≤<=100) — the number of Gerald's brothers.	Let's assume that Gerald indexes his brothers with numbers from 1 to n. You need to print n lines, on the i-th line print n integers — the numbers of candies in the bags for the i-th brother. Naturally, all these numbers should be distinct and be within limits from 1 to n2. You can print the numbers in the lines in any order. It is guaranteed that the solution exists at the given limits.	[ "2\n" ]	[ "1 4\n2 3\n" ]	The sample shows Gerald's actions if he has two brothers. In this case, his bags contain 1, 2, 3 and 4 candies. He can give the bags with 1 and 4 candies to one brother and the bags with 2 and 3 to the other brother.	500	[ { "input": "2", "output": "1 4\n2 3" }, { "input": "4", "output": "1 16 2 15\n3 14 4 13\n5 12 6 11\n7 10 8 9" }, { "input": "6", "output": "1 36 2 35 3 34\n4 33 5 32 6 31\n7 30 8 29 9 28\n10 27 11 26 12 25\n13 24 14 23 15 22\n16 21 17 20 18 19" }, { "input": "8", "output"...	1,568,066,790	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	186	0	n = int(input()) c1 = [] c2 = [] for i in range(1, n2//2 + 1): if i%2 == 0: c1.append(i) c1.append(n2 - i + 1) else: c2.append(i) c2.append(n*2 - i + 1) c1.sort() c2.sort() print(c2) print(*c1)	Title: Candy Bags Time Limit: None seconds Memory Limit: None megabytes Problem Description: Gerald has n younger brothers and their number happens to be even. One day he bought n2 candy bags. One bag has one candy, one bag has two candies, one bag has three candies and so on. In fact, for each integer k from 1 to n2 he has exactly one bag with k candies. Help him give n bags of candies to each brother so that all brothers got the same number of candies. Input Specification: The single line contains a single integer n (n is even, 2<=≤<=n<=≤<=100) — the number of Gerald's brothers. Output Specification: Let's assume that Gerald indexes his brothers with numbers from 1 to n. You need to print n lines, on the i-th line print n integers — the numbers of candies in the bags for the i-th brother. Naturally, all these numbers should be distinct and be within limits from 1 to n2. You can print the numbers in the lines in any order. It is guaranteed that the solution exists at the given limits. Demo Input: ['2\n'] Demo Output: ['1 4\n2 3\n'] Note: The sample shows Gerald's actions if he has two brothers. In this case, his bags contain 1, 2, 3 and 4 candies. He can give the bags with 1 and 4 candies to one brother and the bags with 2 and 3 to the other brother.	```python n = int(input()) c1 = [] c2 = [] for i in range(1, n2//2 + 1): if i%2 == 0: c1.append(i) c1.append(n2 - i + 1) else: c2.append(i) c2.append(n*2 - i + 1) c1.sort() c2.sort() print(c2) print(*c1) ```	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...	1,673,622,002	2,147,483,647	PyPy 3	OK	TESTS	40	154	0	z=input() x=str(input()) a=z[::-1] if(a==x): 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 z=input() x=str(input()) a=z[::-1] if(a==x): print("YES") else: print("NO") ```	3.9615
637	B	Chat Order	PROGRAMMING	1,200	[ "*special", "binary search", "constructive algorithms", "data structures", "sortings" ]		null	null	Polycarp is a big lover of killing time in social networks. A page with a chatlist in his favourite network is made so that when a message is sent to some friend, his friend's chat rises to the very top of the page. The relative order of the other chats doesn't change. If there was no chat with this friend before, then a new chat is simply inserted to the top of the list. Assuming that the chat list is initially empty, given the sequence of Polycaprus' messages make a list of chats after all of his messages are processed. Assume that no friend wrote any message to Polycarpus.	The first line contains integer n (1<=≤<=n<=≤<=200<=000) — the number of Polycarpus' messages. Next n lines enlist the message recipients in the order in which the messages were sent. The name of each participant is a non-empty sequence of lowercase English letters of length at most 10.	Print all the recipients to who Polycarp talked to in the order of chats with them, from top to bottom.	[ "4\nalex\nivan\nroman\nivan\n", "8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina\n" ]	[ "ivan\nroman\nalex\n", "alina\nmaria\nekaterina\ndarya\n" ]	In the first test case Polycarpus first writes to friend by name "alex", and the list looks as follows: 1. alex Then Polycarpus writes to friend by name "ivan" and the list looks as follows: 1. ivan 1. alex Polycarpus writes the third message to friend by name "roman" and the list looks as follows: 1. roman 1. ivan 1. alex Polycarpus writes the fourth message to friend by name "ivan", to who he has already sent a message, so the list of chats changes as follows: 1. ivan 1. roman 1. alex	1,000	[ { "input": "4\nalex\nivan\nroman\nivan", "output": "ivan\nroman\nalex" }, { "input": "8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina", "output": "alina\nmaria\nekaterina\ndarya" }, { "input": "1\nwdi", "output": "wdi" }, { "input": "2\nypg\nypg", "outpu...	1,698,095,149	2,147,483,647	PyPy 3-64	COMPILATION_ERROR	TESTS	0	0	0	#include<bits/stdc++.h> #include<stdio.h> using namespace std; #define ll long long #define scl(n) scanf("%lld", &n) #define scf(n) scanf("%lf", &n) #define pfl(x) printf("%lld\n",x) #define md 10000007 #define pb push_back #define fr(i,n) for (ll i=0;i<n;i++) #define fr1(i,n) for(ll i=1;i<=n;i++) #define asort(a) sort(a,a+n) #define dsort(a) sort(a,a+n,greater<int>()) #define pn printf("\n") #define debug printf("I am here\n") #define ps printf(" ") map<string, bool>mp; int main() { ll m,n,t,b,c,d,i,j,k,x,y,z,l,q,r; ll cnt=0,ans=0; scl(n); ll a[n]; string s[n+1],s1; for(i=0; i<n; i++) cin>>s[i]; for(i=n-1;i>=0;i--) { if(mp[s[i] ] !=1 ){cout<<s[i] <<endl; mp[s[i] ]=1;} } return 0; }	Title: Chat Order Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarp is a big lover of killing time in social networks. A page with a chatlist in his favourite network is made so that when a message is sent to some friend, his friend's chat rises to the very top of the page. The relative order of the other chats doesn't change. If there was no chat with this friend before, then a new chat is simply inserted to the top of the list. Assuming that the chat list is initially empty, given the sequence of Polycaprus' messages make a list of chats after all of his messages are processed. Assume that no friend wrote any message to Polycarpus. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=200<=000) — the number of Polycarpus' messages. Next n lines enlist the message recipients in the order in which the messages were sent. The name of each participant is a non-empty sequence of lowercase English letters of length at most 10. Output Specification: Print all the recipients to who Polycarp talked to in the order of chats with them, from top to bottom. Demo Input: ['4\nalex\nivan\nroman\nivan\n', '8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina\n'] Demo Output: ['ivan\nroman\nalex\n', 'alina\nmaria\nekaterina\ndarya\n'] Note: In the first test case Polycarpus first writes to friend by name "alex", and the list looks as follows: 1. alex Then Polycarpus writes to friend by name "ivan" and the list looks as follows: 1. ivan 1. alex Polycarpus writes the third message to friend by name "roman" and the list looks as follows: 1. roman 1. ivan 1. alex Polycarpus writes the fourth message to friend by name "ivan", to who he has already sent a message, so the list of chats changes as follows: 1. ivan 1. roman 1. alex	```python #include<bits/stdc++.h> #include<stdio.h> using namespace std; #define ll long long #define scl(n) scanf("%lld", &n) #define scf(n) scanf("%lf", &n) #define pfl(x) printf("%lld\n",x) #define md 10000007 #define pb push_back #define fr(i,n) for (ll i=0;i<n;i++) #define fr1(i,n) for(ll i=1;i<=n;i++) #define asort(a) sort(a,a+n) #define dsort(a) sort(a,a+n,greater<int>()) #define pn printf("\n") #define debug printf("I am here\n") #define ps printf(" ") map<string, bool>mp; int main() { ll m,n,t,b,c,d,i,j,k,x,y,z,l,q,r; ll cnt=0,ans=0; scl(n); ll a[n]; string s[n+1],s1; for(i=0; i<n; i++) cin>>s[i]; for(i=n-1;i>=0;i--) { if(mp[s[i] ] !=1 ){cout<<s[i] <<endl; mp[s[i] ]=1;} } return 0; } ```	-1
579	A	Raising Bacteria	PROGRAMMING	1,000	[ "bitmasks" ]		null	null	You are a lover of bacteria. You want to raise some bacteria in a box. Initially, the box is empty. Each morning, you can put any number of bacteria into the box. And each night, every bacterium in the box will split into two bacteria. You hope to see exactly x bacteria in the box at some moment. What is the minimum number of bacteria you need to put into the box across those days?	The only line containing one integer x (1<=≤<=x<=≤<=109).	The only line containing one integer: the answer.	[ "5\n", "8\n" ]	[ "2\n", "1\n" ]	For the first sample, we can add one bacterium in the box in the first day morning and at the third morning there will be 4 bacteria in the box. Now we put one more resulting 5 in the box. We added 2 bacteria in the process so the answer is 2. For the second sample, we can put one in the first morning and in the 4-th morning there will be 8 in the box. So the answer is 1.	250	[ { "input": "5", "output": "2" }, { "input": "8", "output": "1" }, { "input": "536870911", "output": "29" }, { "input": "1", "output": "1" }, { "input": "343000816", "output": "14" }, { "input": "559980448", "output": "12" }, { "input": "697...	1,667,059,226	2,147,483,647	PyPy 3-64	OK	TESTS	36	61	0	#https://codeforces.com/problemset/problem/579/A n=int(input()) count=0 while n!=0: count+=n&1 n=n>>1 print(count)	Title: Raising Bacteria Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are a lover of bacteria. You want to raise some bacteria in a box. Initially, the box is empty. Each morning, you can put any number of bacteria into the box. And each night, every bacterium in the box will split into two bacteria. You hope to see exactly x bacteria in the box at some moment. What is the minimum number of bacteria you need to put into the box across those days? Input Specification: The only line containing one integer x (1<=≤<=x<=≤<=109). Output Specification: The only line containing one integer: the answer. Demo Input: ['5\n', '8\n'] Demo Output: ['2\n', '1\n'] Note: For the first sample, we can add one bacterium in the box in the first day morning and at the third morning there will be 4 bacteria in the box. Now we put one more resulting 5 in the box. We added 2 bacteria in the process so the answer is 2. For the second sample, we can put one in the first morning and in the 4-th morning there will be 8 in the box. So the answer is 1.	```python #https://codeforces.com/problemset/problem/579/A n=int(input()) count=0 while n!=0: count+=n&1 n=n>>1 print(count) ```	3
11	A	Increasing Sequence	PROGRAMMING	900	[ "constructive algorithms", "implementation", "math" ]	A. Increasing Sequence	1	64	A sequence a0,<=a1,<=...,<=at<=-<=1 is called increasing if ai<=-<=1<=<<=ai for each i:<=0<=<<=i<=<<=t. You are given a sequence b0,<=b1,<=...,<=bn<=-<=1 and a positive integer d. In each move you may choose one element of the given sequence and add d to it. What is the least number of moves required to make the given sequence increasing?	The first line of the input contains two integer numbers n and d (2<=≤<=n<=≤<=2000,<=1<=≤<=d<=≤<=106). The second line contains space separated sequence b0,<=b1,<=...,<=bn<=-<=1 (1<=≤<=bi<=≤<=106).	Output the minimal number of moves needed to make the sequence increasing.	[ "4 2\n1 3 3 2\n" ]	[ "3\n" ]	none	0	[ { "input": "4 2\n1 3 3 2", "output": "3" }, { "input": "2 1\n1 1", "output": "1" }, { "input": "2 1\n2 5", "output": "0" }, { "input": "2 1\n1 2", "output": "0" }, { "input": "2 1\n1 1", "output": "1" }, { "input": "2 7\n10 20", "output": "0" }, ...	1,559,504,194	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	154	0	n, d = tuple(map(int, input().split())) a = list(map(int, input().split())) x = a[0] counter = 0 for i in a[1:]: if i <= x: counter += (x - i + d + 1) // d x = i print(counter)	Title: Increasing Sequence Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: A sequence a0,<=a1,<=...,<=at<=-<=1 is called increasing if ai<=-<=1<=<<=ai for each i:<=0<=<<=i<=<<=t. You are given a sequence b0,<=b1,<=...,<=bn<=-<=1 and a positive integer d. In each move you may choose one element of the given sequence and add d to it. What is the least number of moves required to make the given sequence increasing? Input Specification: The first line of the input contains two integer numbers n and d (2<=≤<=n<=≤<=2000,<=1<=≤<=d<=≤<=106). The second line contains space separated sequence b0,<=b1,<=...,<=bn<=-<=1 (1<=≤<=bi<=≤<=106). Output Specification: Output the minimal number of moves needed to make the sequence increasing. Demo Input: ['4 2\n1 3 3 2\n'] Demo Output: ['3\n'] Note: none	```python n, d = tuple(map(int, input().split())) a = list(map(int, input().split())) x = a[0] counter = 0 for i in a[1:]: if i <= x: counter += (x - i + d + 1) // d x = i print(counter) ```	0
939	A	Love Triangle	PROGRAMMING	800	[ "graphs" ]		null	null	As you could know there are no male planes nor female planes. However, each plane on Earth likes some other plane. There are n planes on Earth, numbered from 1 to n, and the plane with number i likes the plane with number fi, where 1<=≤<=fi<=≤<=n and fi<=≠<=i. We call a love triangle a situation in which plane A likes plane B, plane B likes plane C and plane C likes plane A. Find out if there is any love triangle on Earth.	The first line contains a single integer n (2<=≤<=n<=≤<=5000) — the number of planes. The second line contains n integers f1,<=f2,<=...,<=fn (1<=≤<=fi<=≤<=n, fi<=≠<=i), meaning that the i-th plane likes the fi-th.	Output «YES» if there is a love triangle consisting of planes on Earth. Otherwise, output «NO». You can output any letter in lower case or in upper case.	[ "5\n2 4 5 1 3\n", "5\n5 5 5 5 1\n" ]	[ "YES\n", "NO\n" ]	In first example plane 2 likes plane 4, plane 4 likes plane 1, plane 1 likes plane 2 and that is a love triangle. In second example there are no love triangles.	500	[ { "input": "5\n2 4 5 1 3", "output": "YES" }, { "input": "5\n5 5 5 5 1", "output": "NO" }, { "input": "3\n3 1 2", "output": "YES" }, { "input": "10\n4 10 9 5 3 1 5 10 6 4", "output": "NO" }, { "input": "10\n5 5 4 9 10 9 9 5 3 1", "output": "YES" }, { "...	1,652,626,413	2,147,483,647	PyPy 3-64	OK	TESTS	16	62	30,924,800	n = int(input()) nodes = list(map(int,input().split())) triangle_found = 0 for i in range(len(nodes)): if nodes[nodes[nodes[i]-1]-1]-1 == i: triangle_found = 1 if triangle_found: print('YES') else: print('NO')	Title: Love Triangle Time Limit: None seconds Memory Limit: None megabytes Problem Description: As you could know there are no male planes nor female planes. However, each plane on Earth likes some other plane. There are n planes on Earth, numbered from 1 to n, and the plane with number i likes the plane with number fi, where 1<=≤<=fi<=≤<=n and fi<=≠<=i. We call a love triangle a situation in which plane A likes plane B, plane B likes plane C and plane C likes plane A. Find out if there is any love triangle on Earth. Input Specification: The first line contains a single integer n (2<=≤<=n<=≤<=5000) — the number of planes. The second line contains n integers f1,<=f2,<=...,<=fn (1<=≤<=fi<=≤<=n, fi<=≠<=i), meaning that the i-th plane likes the fi-th. Output Specification: Output «YES» if there is a love triangle consisting of planes on Earth. Otherwise, output «NO». You can output any letter in lower case or in upper case. Demo Input: ['5\n2 4 5 1 3\n', '5\n5 5 5 5 1\n'] Demo Output: ['YES\n', 'NO\n'] Note: In first example plane 2 likes plane 4, plane 4 likes plane 1, plane 1 likes plane 2 and that is a love triangle. In second example there are no love triangles.	```python n = int(input()) nodes = list(map(int,input().split())) triangle_found = 0 for i in range(len(nodes)): if nodes[nodes[nodes[i]-1]-1]-1 == i: triangle_found = 1 if triangle_found: print('YES') else: print('NO') ```	3
645	E	Intellectual Inquiry	PROGRAMMING	2,200	[ "dp", "greedy", "strings" ]		null	null	After getting kicked out of her reporting job for not knowing the alphabet, Bessie has decided to attend school at the Fillet and Eggs Eater Academy. She has been making good progress with her studies and now knows the first k English letters. Each morning, Bessie travels to school along a sidewalk consisting of m<=+<=n tiles. In order to help Bessie review, Mr. Moozing has labeled each of the first m sidewalk tiles with one of the first k lowercase English letters, spelling out a string t. Mr. Moozing, impressed by Bessie's extensive knowledge of farm animals, plans to let her finish labeling the last n tiles of the sidewalk by herself. Consider the resulting string s (\|s\|<==<=m<=+<=n) consisting of letters labeled on tiles in order from home to school. For any sequence of indices p1<=<<=p2<=<<=...<=<<=pq we can define subsequence of the string s as string sp1sp2... spq. Two subsequences are considered to be distinct if they differ as strings. Bessie wants to label the remaining part of the sidewalk such that the number of distinct subsequences of tiles is maximum possible. However, since Bessie hasn't even finished learning the alphabet, she needs your help! Note that empty subsequence also counts.	The first line of the input contains two integers n and k (0<=≤<=n<=≤<=1<=000<=000, 1<=≤<=k<=≤<=26). The second line contains a string t (\|t\|<==<=m,<=1<=≤<=m<=≤<=1<=000<=000) consisting of only first k lowercase English letters.	Determine the maximum number of distinct subsequences Bessie can form after labeling the last n sidewalk tiles each with one of the first k lowercase English letters. Since this number can be rather large, you should print it modulo 109<=+<=7. Please note, that you are not asked to maximize the remainder modulo 109<=+<=7! The goal is to maximize the initial value and then print the remainder.	[ "1 3\nac\n", "0 2\naaba\n" ]	[ "8\n", "10\n" ]	In the first sample, the optimal labeling gives 8 different subsequences: "" (the empty string), "a", "c", "b", "ac", "ab", "cb", and "acb". In the second sample, the entire sidewalk is already labeled. The are 10 possible different subsequences: "" (the empty string), "a", "b", "aa", "ab", "ba", "aaa", "aab", "aba", and "aaba". Note that some strings, including "aa", can be obtained with multiple sequences of tiles, but are only counted once.	2,500	[]	1,655,121,428	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	31	0	n = int(input()) z = int(input()) s = input() m = len(s) sum = 1 pos = [-1]30 last = [0]30 for i in range (0, m) : x = ord(s[i])-97 t = sum - last[x] last[x] = sum pos[x] = i sum += t for i in range (m, m+n) : y = -1 for x in range(0, z) : if (y == -1 or pos[y] > pos[x]) : y = x t = sum - last[y] last[y] = sum pos[y] = i sum += t print(sum)	Title: Intellectual Inquiry Time Limit: None seconds Memory Limit: None megabytes Problem Description: After getting kicked out of her reporting job for not knowing the alphabet, Bessie has decided to attend school at the Fillet and Eggs Eater Academy. She has been making good progress with her studies and now knows the first k English letters. Each morning, Bessie travels to school along a sidewalk consisting of m<=+<=n tiles. In order to help Bessie review, Mr. Moozing has labeled each of the first m sidewalk tiles with one of the first k lowercase English letters, spelling out a string t. Mr. Moozing, impressed by Bessie's extensive knowledge of farm animals, plans to let her finish labeling the last n tiles of the sidewalk by herself. Consider the resulting string s (\|s\|<==<=m<=+<=n) consisting of letters labeled on tiles in order from home to school. For any sequence of indices p1<=<<=p2<=<<=...<=<<=pq we can define subsequence of the string s as string sp1sp2... spq. Two subsequences are considered to be distinct if they differ as strings. Bessie wants to label the remaining part of the sidewalk such that the number of distinct subsequences of tiles is maximum possible. However, since Bessie hasn't even finished learning the alphabet, she needs your help! Note that empty subsequence also counts. Input Specification: The first line of the input contains two integers n and k (0<=≤<=n<=≤<=1<=000<=000, 1<=≤<=k<=≤<=26). The second line contains a string t (\|t\|<==<=m,<=1<=≤<=m<=≤<=1<=000<=000) consisting of only first k lowercase English letters. Output Specification: Determine the maximum number of distinct subsequences Bessie can form after labeling the last n sidewalk tiles each with one of the first k lowercase English letters. Since this number can be rather large, you should print it modulo 109<=+<=7. Please note, that you are not asked to maximize the remainder modulo 109<=+<=7! The goal is to maximize the initial value and then print the remainder. Demo Input: ['1 3\nac\n', '0 2\naaba\n'] Demo Output: ['8\n', '10\n'] Note: In the first sample, the optimal labeling gives 8 different subsequences: "" (the empty string), "a", "c", "b", "ac", "ab", "cb", and "acb". In the second sample, the entire sidewalk is already labeled. The are 10 possible different subsequences: "" (the empty string), "a", "b", "aa", "ab", "ba", "aaa", "aab", "aba", and "aaba". Note that some strings, including "aa", can be obtained with multiple sequences of tiles, but are only counted once.	```python n = int(input()) z = int(input()) s = input() m = len(s) sum = 1 pos = [-1]30 last = [0]30 for i in range (0, m) : x = ord(s[i])-97 t = sum - last[x] last[x] = sum pos[x] = i sum += t for i in range (m, m+n) : y = -1 for x in range(0, z) : if (y == -1 or pos[y] > pos[x]) : y = x t = sum - last[y] last[y] = sum pos[y] = i sum += t print(sum) ```	-1
56	B	Spoilt Permutation	PROGRAMMING	1,300	[ "implementation" ]	B. Spoilt Permutation	2	256	Vasya collects coins: he has exactly one coin for every year from 1 to n. Naturally, Vasya keeps all the coins in his collection in the order in which they were released. Once Vasya's younger brother made a change — he took all the coins whose release year dated from l to r inclusively and put them in the reverse order. That is, he took a certain segment [l,<=r] and reversed it. At that the segment's endpoints did not coincide. For example, if n<==<=8, then initially Vasya's coins were kept in the order 1 2 3 4 5 6 7 8. If Vasya's younger brother chose the segment [2,<=6], then after the reversal the coin order will change to 1 6 5 4 3 2 7 8. Vasya suspects that someone else could have spoilt the permutation after his brother. Help him to find that out. Check if the given permutation can be obtained from the permutation 1 2 ... n using exactly one segment reversal. If it is possible, find the segment itself.	The first line contains an integer n (1<=≤<=n<=≤<=1000) which is the number of coins in Vasya's collection. The second line contains space-separated n integers which are the spoilt sequence of coins. It is guaranteed that the given sequence is a permutation, i.e. it contains only integers from 1 to n, and every number is used exactly 1 time.	If it is impossible to obtain the given permutation from the original one in exactly one action, print 0 0. Otherwise, print two numbers l r (1<=≤<=l<=<<=r<=≤<=n) which are the endpoints of the segment that needs to be reversed to obtain from permutation 1 2 ... n the given one.	[ "8\n1 6 5 4 3 2 7 8\n", "4\n2 3 4 1\n", "4\n1 2 3 4\n" ]	[ "2 6\n", "0 0\n", "0 0\n" ]	none	1,000	[ { "input": "8\n1 6 5 4 3 2 7 8", "output": "2 6" }, { "input": "4\n2 3 4 1", "output": "0 0" }, { "input": "4\n1 2 3 4", "output": "0 0" }, { "input": "8\n1 3 2 4 6 5 7 8", "output": "0 0" }, { "input": "8\n1 3 4 2 6 5 7 8", "output": "0 0" }, { "input...	1,477,922,180	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	124	0	n = int(input()) L = [int(i) for i in input().split(" ")] def main(n,L): prev = 0 since = -1 end = -1 if L[1] == L[0]+1: order = 1 elif L[1] == L[0]-1: order = -1 since = 0 else: if L[2] == L[1]+1: order = 1 since = 0 end = 0 elif L[2] == L[1]-1: order = -1 since = 1 else: return "0 0" prev = L[1] for i in range(2,n): if L[i] != L[i-1] + order: if order == 1: if since != -1: order = -1 since = i else: return "0 0" if order == -1: end = i-1 order = 1 if end == -1 and since != -1: end = n-1 since+=1 end+=1 return "{} {}".format(since,end) print(main(n,L))	Title: Spoilt Permutation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Vasya collects coins: he has exactly one coin for every year from 1 to n. Naturally, Vasya keeps all the coins in his collection in the order in which they were released. Once Vasya's younger brother made a change — he took all the coins whose release year dated from l to r inclusively and put them in the reverse order. That is, he took a certain segment [l,<=r] and reversed it. At that the segment's endpoints did not coincide. For example, if n<==<=8, then initially Vasya's coins were kept in the order 1 2 3 4 5 6 7 8. If Vasya's younger brother chose the segment [2,<=6], then after the reversal the coin order will change to 1 6 5 4 3 2 7 8. Vasya suspects that someone else could have spoilt the permutation after his brother. Help him to find that out. Check if the given permutation can be obtained from the permutation 1 2 ... n using exactly one segment reversal. If it is possible, find the segment itself. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=1000) which is the number of coins in Vasya's collection. The second line contains space-separated n integers which are the spoilt sequence of coins. It is guaranteed that the given sequence is a permutation, i.e. it contains only integers from 1 to n, and every number is used exactly 1 time. Output Specification: If it is impossible to obtain the given permutation from the original one in exactly one action, print 0 0. Otherwise, print two numbers l r (1<=≤<=l<=<<=r<=≤<=n) which are the endpoints of the segment that needs to be reversed to obtain from permutation 1 2 ... n the given one. Demo Input: ['8\n1 6 5 4 3 2 7 8\n', '4\n2 3 4 1\n', '4\n1 2 3 4\n'] Demo Output: ['2 6\n', '0 0\n', '0 0\n'] Note: none	```python n = int(input()) L = [int(i) for i in input().split(" ")] def main(n,L): prev = 0 since = -1 end = -1 if L[1] == L[0]+1: order = 1 elif L[1] == L[0]-1: order = -1 since = 0 else: if L[2] == L[1]+1: order = 1 since = 0 end = 0 elif L[2] == L[1]-1: order = -1 since = 1 else: return "0 0" prev = L[1] for i in range(2,n): if L[i] != L[i-1] + order: if order == 1: if since != -1: order = -1 since = i else: return "0 0" if order == -1: end = i-1 order = 1 if end == -1 and since != -1: end = n-1 since+=1 end+=1 return "{} {}".format(since,end) print(main(n,L)) ```	0
638	B	Making Genome in Berland	PROGRAMMING	1,500	[ "*special", "dfs and similar", "strings" ]		null	null	Berland scientists face a very important task - given the parts of short DNA fragments, restore the dinosaur DNA! The genome of a berland dinosaur has noting in common with the genome that we've used to: it can have 26 distinct nucleotide types, a nucleotide of each type can occur at most once. If we assign distinct English letters to all nucleotides, then the genome of a Berland dinosaur will represent a non-empty string consisting of small English letters, such that each letter occurs in it at most once. Scientists have n genome fragments that are represented as substrings (non-empty sequences of consecutive nucleotides) of the sought genome. You face the following problem: help scientists restore the dinosaur genome. It is guaranteed that the input is not contradictory and at least one suitable line always exists. When the scientists found out that you are a strong programmer, they asked you in addition to choose the one with the minimum length. If there are multiple such strings, choose any string.	The first line of the input contains a positive integer n (1<=≤<=n<=≤<=100) — the number of genome fragments. Each of the next lines contains one descriptions of a fragment. Each fragment is a non-empty string consisting of distinct small letters of the English alphabet. It is not guaranteed that the given fragments are distinct. Fragments could arbitrarily overlap and one fragment could be a substring of another one. It is guaranteed that there is such string of distinct letters that contains all the given fragments as substrings.	In the single line of the output print the genome of the minimum length that contains all the given parts. All the nucleotides in the genome must be distinct. If there are multiple suitable strings, print the string of the minimum length. If there also are multiple suitable strings, you can print any of them.	[ "3\nbcd\nab\ncdef\n", "4\nx\ny\nz\nw\n" ]	[ "abcdef\n", "xyzw\n" ]	none	1,000	[ { "input": "3\nbcd\nab\ncdef", "output": "abcdef" }, { "input": "4\nx\ny\nz\nw", "output": "xyzw" }, { "input": "25\nef\nfg\ngh\nhi\nij\njk\nkl\nlm\nmn\nno\nab\nbc\ncd\nde\nop\npq\nqr\nrs\nst\ntu\nuv\nvw\nwx\nxy\nyz", "output": "abcdefghijklmnopqrstuvwxyz" }, { "input": "1\nf...	1,688,901,954	2,147,483,647	PyPy 3-64	OK	TESTS	67	62	0	def solve(): n = int(input()) gens = [] for i in range(n): s = input() gens.append(s) nxt = [None] * 26 inp = [0] * 26 found = [False] * 26 for s in gens: for ch in s: found[ord(ch) - ord('a')] = True for ch1, ch2 in zip(s, s[1:]): u = ord(ch1) - ord('a') v = ord(ch2) - ord('a') nxt[u] = v inp[v] += 1 for i in range(26): if (inp[i] == 0 and nxt[i] is not None) or (found[i] and inp[i] == 0 and nxt[i] is None): curr = i while nxt[curr] is not None: print(chr(curr + ord('a')), end="") curr = nxt[curr] print(chr(curr + ord('a')), end="") print() def main(): # t = int(input()) t = 1 for i in range(t): solve() if __name__ == "__main__": main()	Title: Making Genome in Berland Time Limit: None seconds Memory Limit: None megabytes Problem Description: Berland scientists face a very important task - given the parts of short DNA fragments, restore the dinosaur DNA! The genome of a berland dinosaur has noting in common with the genome that we've used to: it can have 26 distinct nucleotide types, a nucleotide of each type can occur at most once. If we assign distinct English letters to all nucleotides, then the genome of a Berland dinosaur will represent a non-empty string consisting of small English letters, such that each letter occurs in it at most once. Scientists have n genome fragments that are represented as substrings (non-empty sequences of consecutive nucleotides) of the sought genome. You face the following problem: help scientists restore the dinosaur genome. It is guaranteed that the input is not contradictory and at least one suitable line always exists. When the scientists found out that you are a strong programmer, they asked you in addition to choose the one with the minimum length. If there are multiple such strings, choose any string. Input Specification: The first line of the input contains a positive integer n (1<=≤<=n<=≤<=100) — the number of genome fragments. Each of the next lines contains one descriptions of a fragment. Each fragment is a non-empty string consisting of distinct small letters of the English alphabet. It is not guaranteed that the given fragments are distinct. Fragments could arbitrarily overlap and one fragment could be a substring of another one. It is guaranteed that there is such string of distinct letters that contains all the given fragments as substrings. Output Specification: In the single line of the output print the genome of the minimum length that contains all the given parts. All the nucleotides in the genome must be distinct. If there are multiple suitable strings, print the string of the minimum length. If there also are multiple suitable strings, you can print any of them. Demo Input: ['3\nbcd\nab\ncdef\n', '4\nx\ny\nz\nw\n'] Demo Output: ['abcdef\n', 'xyzw\n'] Note: none	```python def solve(): n = int(input()) gens = [] for i in range(n): s = input() gens.append(s) nxt = [None] * 26 inp = [0] * 26 found = [False] * 26 for s in gens: for ch in s: found[ord(ch) - ord('a')] = True for ch1, ch2 in zip(s, s[1:]): u = ord(ch1) - ord('a') v = ord(ch2) - ord('a') nxt[u] = v inp[v] += 1 for i in range(26): if (inp[i] == 0 and nxt[i] is not None) or (found[i] and inp[i] == 0 and nxt[i] is None): curr = i while nxt[curr] is not None: print(chr(curr + ord('a')), end="") curr = nxt[curr] print(chr(curr + ord('a')), end="") print() def main(): # t = int(input()) t = 1 for i in range(t): solve() if __name__ == "__main__": main() ```	3
818	D	Multicolored Cars	PROGRAMMING	1,700	[ "data structures", "implementation" ]		null	null	Alice and Bob got very bored during a long car trip so they decided to play a game. From the window they can see cars of different colors running past them. Cars are going one after another. The game rules are like this. Firstly Alice chooses some color A, then Bob chooses some color B (A<=≠<=B). After each car they update the number of cars of their chosen color that have run past them. Let's define this numbers after i-th car cntA(i) and cntB(i). - If cntA(i)<=><=cntB(i) for every i then the winner is Alice. - If cntB(i)<=≥<=cntA(i) for every i then the winner is Bob. - Otherwise it's a draw. Bob knows all the colors of cars that they will encounter and order of their appearance. Alice have already chosen her color A and Bob now wants to choose such color B that he will win the game (draw is not a win). Help him find this color. If there are multiple solutions, print any of them. If there is no such color then print -1.	The first line contains two integer numbers n and A (1<=≤<=n<=≤<=105,<=1<=≤<=A<=≤<=106) – number of cars and the color chosen by Alice. The second line contains n integer numbers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=106) — colors of the cars that Alice and Bob will encounter in the order of their appearance.	Output such color B (1<=≤<=B<=≤<=106) that if Bob chooses it then he will win the game. If there are multiple solutions, print any of them. If there is no such color then print -1. It is guaranteed that if there exists any solution then there exists solution with (1<=≤<=B<=≤<=106).	[ "4 1\n2 1 4 2\n", "5 2\n2 2 4 5 3\n", "3 10\n1 2 3\n" ]	[ "2\n", "-1\n", "4\n" ]	Let's consider availability of colors in the first example: - cnt<sub class="lower-index">2</sub>(i) ≥ cnt<sub class="lower-index">1</sub>(i) for every i, and color 2 can be the answer. - cnt<sub class="lower-index">4</sub>(2) < cnt<sub class="lower-index">1</sub>(2), so color 4 isn't the winning one for Bob. - All the other colors also have cnt<sub class="lower-index">j</sub>(2) < cnt<sub class="lower-index">1</sub>(2), thus they are not available. In the third example every color is acceptable except for 10.	0	[ { "input": "4 1\n2 1 4 2", "output": "2" }, { "input": "5 2\n2 2 4 5 3", "output": "-1" }, { "input": "3 10\n1 2 3", "output": "4" }, { "input": "1 1\n2", "output": "3" }, { "input": "1 2\n2", "output": "-1" }, { "input": "10 6\n8 5 1 6 6 5 10 6 9 8", ...	1,498,756,183	7,483	Python 3	COMPILATION_ERROR	TESTS	0	0	0	def bet(): IPT = [] ipt = input() Ipt = ipt.split() for x in Ipt: IPT.append(int(x)) n = IPT[0] A = IPT[1] Sequence = [] Dict = {} Dict[A] = 0 ipt2 = input() Ipt2 = ipt2.split() for x in Ipt2: Sequence.append(int(x)) for y in Sequence: #만약 Alice가 처음 나오는 수를 골랐다면 이길 수 없다! if y in Dict: Dict[y] = int(Dict[y]) + 1 else: Dict[y] = 1 B = Sequence[0] if (Sequence[0] == A or Dict[A]>Dict[B]): print(-1) else: print(B) bet()	Title: Multicolored Cars Time Limit: None seconds Memory Limit: None megabytes Problem Description: Alice and Bob got very bored during a long car trip so they decided to play a game. From the window they can see cars of different colors running past them. Cars are going one after another. The game rules are like this. Firstly Alice chooses some color A, then Bob chooses some color B (A<=≠<=B). After each car they update the number of cars of their chosen color that have run past them. Let's define this numbers after i-th car cntA(i) and cntB(i). - If cntA(i)<=><=cntB(i) for every i then the winner is Alice. - If cntB(i)<=≥<=cntA(i) for every i then the winner is Bob. - Otherwise it's a draw. Bob knows all the colors of cars that they will encounter and order of their appearance. Alice have already chosen her color A and Bob now wants to choose such color B that he will win the game (draw is not a win). Help him find this color. If there are multiple solutions, print any of them. If there is no such color then print -1. Input Specification: The first line contains two integer numbers n and A (1<=≤<=n<=≤<=105,<=1<=≤<=A<=≤<=106) – number of cars and the color chosen by Alice. The second line contains n integer numbers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=106) — colors of the cars that Alice and Bob will encounter in the order of their appearance. Output Specification: Output such color B (1<=≤<=B<=≤<=106) that if Bob chooses it then he will win the game. If there are multiple solutions, print any of them. If there is no such color then print -1. It is guaranteed that if there exists any solution then there exists solution with (1<=≤<=B<=≤<=106). Demo Input: ['4 1\n2 1 4 2\n', '5 2\n2 2 4 5 3\n', '3 10\n1 2 3\n'] Demo Output: ['2\n', '-1\n', '4\n'] Note: Let's consider availability of colors in the first example: - cnt<sub class="lower-index">2</sub>(i) ≥ cnt<sub class="lower-index">1</sub>(i) for every i, and color 2 can be the answer. - cnt<sub class="lower-index">4</sub>(2) < cnt<sub class="lower-index">1</sub>(2), so color 4 isn't the winning one for Bob. - All the other colors also have cnt<sub class="lower-index">j</sub>(2) < cnt<sub class="lower-index">1</sub>(2), thus they are not available. In the third example every color is acceptable except for 10.	```python def bet(): IPT = [] ipt = input() Ipt = ipt.split() for x in Ipt: IPT.append(int(x)) n = IPT[0] A = IPT[1] Sequence = [] Dict = {} Dict[A] = 0 ipt2 = input() Ipt2 = ipt2.split() for x in Ipt2: Sequence.append(int(x)) for y in Sequence: #만약 Alice가 처음 나오는 수를 골랐다면 이길 수 없다! if y in Dict: Dict[y] = int(Dict[y]) + 1 else: Dict[y] = 1 B = Sequence[0] if (Sequence[0] == A or Dict[A]>Dict[B]): print(-1) else: print(B) bet() ```	-1
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":...	1,695,617,546	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	46	0	word = str(input("word")) if word.isnumeric() == True: exit() elif len(word) < 10: print(word) else: length = len(word) - 2 print(word[0],length,word[-1], sep = '')	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 word = str(input("word")) if word.isnumeric() == True: exit() elif len(word) < 10: print(word) else: length = len(word) - 2 print(word[0],length,word[-1], sep = '') ```	0
847	B	Preparing for Merge Sort	PROGRAMMING	1,600	[ "binary search", "data structures" ]		null	null	Ivan has an array consisting of n different integers. He decided to reorder all elements in increasing order. Ivan loves merge sort so he decided to represent his array with one or several increasing sequences which he then plans to merge into one sorted array. Ivan represent his array with increasing sequences with help of the following algorithm. While there is at least one unused number in array Ivan repeats the following procedure: - iterate through array from the left to the right; - Ivan only looks at unused numbers on current iteration; - if current number is the first unused number on this iteration or this number is greater than previous unused number on current iteration, then Ivan marks the number as used and writes it down. For example, if Ivan's array looks like [1, 3, 2, 5, 4] then he will perform two iterations. On first iteration Ivan will use and write numbers [1, 3, 5], and on second one — [2, 4]. Write a program which helps Ivan and finds representation of the given array with one or several increasing sequences in accordance with algorithm described above.	The first line contains a single integer n (1<=≤<=n<=≤<=2·105) — the number of elements in Ivan's array. The second line contains a sequence consisting of distinct integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — Ivan's array.	Print representation of the given array in the form of one or more increasing sequences in accordance with the algorithm described above. Each sequence must be printed on a new line.	[ "5\n1 3 2 5 4\n", "4\n4 3 2 1\n", "4\n10 30 50 101\n" ]	[ "1 3 5 \n2 4 \n", "4 \n3 \n2 \n1 \n", "10 30 50 101 \n" ]	none	0	[ { "input": "5\n1 3 2 5 4", "output": "1 3 5 \n2 4 " }, { "input": "4\n4 3 2 1", "output": "4 \n3 \n2 \n1 " }, { "input": "4\n10 30 50 101", "output": "10 30 50 101 " }, { "input": "1\n1", "output": "1 " }, { "input": "1\n200000", "output": "200000 " }, { ...	1,567,932,174	2,147,483,647	PyPy 3	OK	TESTS	46	733	96,358,400	class CodeforcesTask847BSolution: def __init__(self): self.result = '' self.n = 0 self.sequence = [] def read_input(self): self.n = int(input()) self.sequence = [int(x) for x in input().split(" ")] def process_task(self): mx = 2000001 ans = [[] for x in range(mx)] crf = [0] * mx cnt = 0 id = 0 for x in range(self.n): if not x: ans[cnt].append(self.sequence[x]) crf[cnt] = self.sequence[x] else: if self.sequence[x] <= crf[cnt]: cnt += 1 id = cnt else: l = 0 r = cnt while l < r: mid = (l + r) // 2 if crf[mid] >= self.sequence[x]: l = mid + 1 else: r = mid id = r ans[id].append(self.sequence[x]) crf[id] = self.sequence[x] self.result = "\n".join([" ".join([str(x) for x in row]) for row in ans[:cnt + 1]]) def get_result(self): return self.result if __name__ == "__main__": Solution = CodeforcesTask847BSolution() Solution.read_input() Solution.process_task() print(Solution.get_result())	Title: Preparing for Merge Sort Time Limit: None seconds Memory Limit: None megabytes Problem Description: Ivan has an array consisting of n different integers. He decided to reorder all elements in increasing order. Ivan loves merge sort so he decided to represent his array with one or several increasing sequences which he then plans to merge into one sorted array. Ivan represent his array with increasing sequences with help of the following algorithm. While there is at least one unused number in array Ivan repeats the following procedure: - iterate through array from the left to the right; - Ivan only looks at unused numbers on current iteration; - if current number is the first unused number on this iteration or this number is greater than previous unused number on current iteration, then Ivan marks the number as used and writes it down. For example, if Ivan's array looks like [1, 3, 2, 5, 4] then he will perform two iterations. On first iteration Ivan will use and write numbers [1, 3, 5], and on second one — [2, 4]. Write a program which helps Ivan and finds representation of the given array with one or several increasing sequences in accordance with algorithm described above. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=2·105) — the number of elements in Ivan's array. The second line contains a sequence consisting of distinct integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — Ivan's array. Output Specification: Print representation of the given array in the form of one or more increasing sequences in accordance with the algorithm described above. Each sequence must be printed on a new line. Demo Input: ['5\n1 3 2 5 4\n', '4\n4 3 2 1\n', '4\n10 30 50 101\n'] Demo Output: ['1 3 5 \n2 4 \n', '4 \n3 \n2 \n1 \n', '10 30 50 101 \n'] Note: none	```python class CodeforcesTask847BSolution: def __init__(self): self.result = '' self.n = 0 self.sequence = [] def read_input(self): self.n = int(input()) self.sequence = [int(x) for x in input().split(" ")] def process_task(self): mx = 2000001 ans = [[] for x in range(mx)] crf = [0] * mx cnt = 0 id = 0 for x in range(self.n): if not x: ans[cnt].append(self.sequence[x]) crf[cnt] = self.sequence[x] else: if self.sequence[x] <= crf[cnt]: cnt += 1 id = cnt else: l = 0 r = cnt while l < r: mid = (l + r) // 2 if crf[mid] >= self.sequence[x]: l = mid + 1 else: r = mid id = r ans[id].append(self.sequence[x]) crf[id] = self.sequence[x] self.result = "\n".join([" ".join([str(x) for x in row]) for row in ans[:cnt + 1]]) def get_result(self): return self.result if __name__ == "__main__": Solution = CodeforcesTask847BSolution() Solution.read_input() Solution.process_task() print(Solution.get_result()) ```	3
4	A	Watermelon	PROGRAMMING	800	[ "brute force", "math" ]	A. Watermelon	1	64	One hot summer day Pete and his friend Billy decided to buy a watermelon. They chose the biggest and the ripest one, in their opinion. After that the watermelon was weighed, and the scales showed w kilos. They rushed home, dying of thirst, and decided to divide the berry, however they faced a hard problem. Pete and Billy are great fans of even numbers, that's why they want to divide the watermelon in such a way that each of the two parts weighs even number of kilos, at the same time it is not obligatory that the parts are equal. The boys are extremely tired and want to start their meal as soon as possible, that's why you should help them and find out, if they can divide the watermelon in the way they want. For sure, each of them should get a part of positive weight.	The first (and the only) input line contains integer number w (1<=≤<=w<=≤<=100) — the weight of the watermelon bought by the boys.	Print YES, if the boys can divide the watermelon into two parts, each of them weighing even number of kilos; and NO in the opposite case.	[ "8\n" ]	[ "YES\n" ]	For example, the boys can divide the watermelon into two parts of 2 and 6 kilos respectively (another variant — two parts of 4 and 4 kilos).	0	[ { "input": "8", "output": "YES" }, { "input": "5", "output": "NO" }, { "input": "4", "output": "YES" }, { "input": "3", "output": "NO" }, { "input": "2", "output": "NO" }, { "input": "1", "output": "NO" }, { "input": "7", "output": "NO"...	1,696,271,249	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	W = int(input()) if W % 2 == 0: print('YES') esle: prnt('NO')	Title: Watermelon Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: One hot summer day Pete and his friend Billy decided to buy a watermelon. They chose the biggest and the ripest one, in their opinion. After that the watermelon was weighed, and the scales showed w kilos. They rushed home, dying of thirst, and decided to divide the berry, however they faced a hard problem. Pete and Billy are great fans of even numbers, that's why they want to divide the watermelon in such a way that each of the two parts weighs even number of kilos, at the same time it is not obligatory that the parts are equal. The boys are extremely tired and want to start their meal as soon as possible, that's why you should help them and find out, if they can divide the watermelon in the way they want. For sure, each of them should get a part of positive weight. Input Specification: The first (and the only) input line contains integer number w (1<=≤<=w<=≤<=100) — the weight of the watermelon bought by the boys. Output Specification: Print YES, if the boys can divide the watermelon into two parts, each of them weighing even number of kilos; and NO in the opposite case. Demo Input: ['8\n'] Demo Output: ['YES\n'] Note: For example, the boys can divide the watermelon into two parts of 2 and 6 kilos respectively (another variant — two parts of 4 and 4 kilos).	```python W = int(input()) if W % 2 == 0: print('YES') esle: prnt('NO') ```	-1
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" }, { "...	1,620,160,453	2,147,483,647	Python 3	OK	TESTS	55	77	0	a=input(); b=len(a); print(int(a)b+b-int('1'b))	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 a=input(); b=len(a); print(int(a)b+b-int('1'b)) ```	3
166	C	Median	PROGRAMMING	1,500	[ "greedy", "math", "sortings" ]		null	null	A median in an array with the length of n is an element which occupies position number after we sort the elements in the non-decreasing order (the array elements are numbered starting with 1). A median of an array (2,<=6,<=1,<=2,<=3) is the number 2, and a median of array (0,<=96,<=17,<=23) — the number 17. We define an expression as the integer part of dividing number a by number b. One day Vasya showed Petya an array consisting of n integers and suggested finding the array's median. Petya didn't even look at the array and said that it equals x. Petya is a very honest boy, so he decided to add several numbers to the given array so that the median of the resulting array would be equal to x. Petya can add any integers from 1 to 105 to the array, including the same numbers. Of course, he can add nothing to the array. If a number is added multiple times, then we should consider it the number of times it occurs. It is not allowed to delete of change initial numbers of the array. While Petya is busy distracting Vasya, your task is to find the minimum number of elements he will need.	The first input line contains two space-separated integers n and x (1<=≤<=n<=≤<=500, 1<=≤<=x<=≤<=105) — the initial array's length and the required median's value. The second line contains n space-separated numbers — the initial array. The elements of the array are integers from 1 to 105. The array elements are not necessarily different.	Print the only integer — the minimum number of elements Petya needs to add to the array so that its median equals x.	[ "3 10\n10 20 30\n", "3 4\n1 2 3\n" ]	[ "1\n", "4\n" ]	In the first sample we can add number 9 to array (10, 20, 30). The resulting array (9, 10, 20, 30) will have a median in position <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/7dd92241318a531b780c7783dfa446a3e413115e.png" style="max-width: 100.0%;max-height: 100.0%;"/>, that is, 10. In the second sample you should add numbers 4, 5, 5, 5. The resulting array has median equal to 4.	1,000	[ { "input": "3 10\n10 20 30", "output": "1" }, { "input": "3 4\n1 2 3", "output": "4" }, { "input": "2 2\n3 2", "output": "0" }, { "input": "5 1\n1 1 2 1 2", "output": "0" }, { "input": "5 4\n5 5 4 3 5", "output": "1" }, { "input": "10 2\n2 2 1 3 2 1 2 ...	1,662,317,147	2,147,483,647	PyPy 3-64	OK	TESTS	40	154	614,400	from collections import deque import numbers # 1,1,1,2,3,4 n,x = map(int, input().split()) nums = list(map(int, input().split())) if x not in nums: count = 1 nums.append(x) else: count = 0 nums.sort() nums = deque(nums) med = nums[((len(nums)+1)//2)-1] while med!=x: count += 1 if med>x: nums.appendleft(x) else: nums.append(x) med = nums[((len(nums)+1)//2)-1] print(count)	Title: Median Time Limit: None seconds Memory Limit: None megabytes Problem Description: A median in an array with the length of n is an element which occupies position number after we sort the elements in the non-decreasing order (the array elements are numbered starting with 1). A median of an array (2,<=6,<=1,<=2,<=3) is the number 2, and a median of array (0,<=96,<=17,<=23) — the number 17. We define an expression as the integer part of dividing number a by number b. One day Vasya showed Petya an array consisting of n integers and suggested finding the array's median. Petya didn't even look at the array and said that it equals x. Petya is a very honest boy, so he decided to add several numbers to the given array so that the median of the resulting array would be equal to x. Petya can add any integers from 1 to 105 to the array, including the same numbers. Of course, he can add nothing to the array. If a number is added multiple times, then we should consider it the number of times it occurs. It is not allowed to delete of change initial numbers of the array. While Petya is busy distracting Vasya, your task is to find the minimum number of elements he will need. Input Specification: The first input line contains two space-separated integers n and x (1<=≤<=n<=≤<=500, 1<=≤<=x<=≤<=105) — the initial array's length and the required median's value. The second line contains n space-separated numbers — the initial array. The elements of the array are integers from 1 to 105. The array elements are not necessarily different. Output Specification: Print the only integer — the minimum number of elements Petya needs to add to the array so that its median equals x. Demo Input: ['3 10\n10 20 30\n', '3 4\n1 2 3\n'] Demo Output: ['1\n', '4\n'] Note: In the first sample we can add number 9 to array (10, 20, 30). The resulting array (9, 10, 20, 30) will have a median in position <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/7dd92241318a531b780c7783dfa446a3e413115e.png" style="max-width: 100.0%;max-height: 100.0%;"/>, that is, 10. In the second sample you should add numbers 4, 5, 5, 5. The resulting array has median equal to 4.	```python from collections import deque import numbers # 1,1,1,2,3,4 n,x = map(int, input().split()) nums = list(map(int, input().split())) if x not in nums: count = 1 nums.append(x) else: count = 0 nums.sort() nums = deque(nums) med = nums[((len(nums)+1)//2)-1] while med!=x: count += 1 if med>x: nums.appendleft(x) else: nums.append(x) med = nums[((len(nums)+1)//2)-1] print(count) ```	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":...	1,696,424,126	2,147,483,647	Python 3	OK	TESTS	20	46	0	def abr(s): if len(s)<=10: return s else: return s[0]+str(len(s)-2)+s[-1] t=int(input()) for i in range(t): s=input() print(abr(s))	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 def abr(s): if len(s)<=10: return s else: return s[0]+str(len(s)-2)+s[-1] t=int(input()) for i in range(t): s=input() print(abr(s)) ```	3.977
157	B	Trace	PROGRAMMING	1,000	[ "geometry", "sortings" ]		null	null	One day, as Sherlock Holmes was tracking down one very important criminal, he found a wonderful painting on the wall. This wall could be represented as a plane. The painting had several concentric circles that divided the wall into several parts. Some parts were painted red and all the other were painted blue. Besides, any two neighboring parts were painted different colors, that is, the red and the blue color were alternating, i. e. followed one after the other. The outer area of the wall (the area that lied outside all circles) was painted blue. Help Sherlock Holmes determine the total area of red parts of the wall. Let us remind you that two circles are called concentric if their centers coincide. Several circles are called concentric if any two of them are concentric.	The first line contains the single integer n (1<=≤<=n<=≤<=100). The second line contains n space-separated integers ri (1<=≤<=ri<=≤<=1000) — the circles' radii. It is guaranteed that all circles are different.	Print the single real number — total area of the part of the wall that is painted red. The answer is accepted if absolute or relative error doesn't exceed 10<=-<=4.	[ "1\n1\n", "3\n1 4 2\n" ]	[ "3.1415926536\n", "40.8407044967\n" ]	In the first sample the picture is just one circle of radius 1. Inner part of the circle is painted red. The area of the red part equals π × 1<sup class="upper-index">2</sup> = π. In the second sample there are three circles of radii 1, 4 and 2. Outside part of the second circle is painted blue. Part between the second and the third circles is painted red. Part between the first and the third is painted blue. And, finally, the inner part of the first circle is painted red. Overall there are two red parts: the ring between the second and the third circles and the inner part of the first circle. Total area of the red parts is equal (π × 4<sup class="upper-index">2</sup> - π × 2<sup class="upper-index">2</sup>) + π × 1<sup class="upper-index">2</sup> = π × 12 + π = 13π	1,000	[ { "input": "1\n1", "output": "3.1415926536" }, { "input": "3\n1 4 2", "output": "40.8407044967" }, { "input": "4\n4 1 3 2", "output": "31.4159265359" }, { "input": "4\n100 10 2 1", "output": "31111.1920484997" }, { "input": "10\n10 9 8 7 6 5 4 3 2 1", "output"...	1,645,752,283	2,147,483,647	PyPy 3	OK	TESTS	44	154	0	from sys import stdin,stdout from math import pi n = int(input()) rs = list(map(int,stdin.readline().split())) rs.sort() rs.reverse() ra = 0 # print(rs) rs.append(0) for i in range(len(rs)-1): if(i%2==0): dif = rs[i]*2pi-rs[i+1]*2pi ra+=dif # print(ra) print(ra)	Title: Trace Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day, as Sherlock Holmes was tracking down one very important criminal, he found a wonderful painting on the wall. This wall could be represented as a plane. The painting had several concentric circles that divided the wall into several parts. Some parts were painted red and all the other were painted blue. Besides, any two neighboring parts were painted different colors, that is, the red and the blue color were alternating, i. e. followed one after the other. The outer area of the wall (the area that lied outside all circles) was painted blue. Help Sherlock Holmes determine the total area of red parts of the wall. Let us remind you that two circles are called concentric if their centers coincide. Several circles are called concentric if any two of them are concentric. Input Specification: The first line contains the single integer n (1<=≤<=n<=≤<=100). The second line contains n space-separated integers ri (1<=≤<=ri<=≤<=1000) — the circles' radii. It is guaranteed that all circles are different. Output Specification: Print the single real number — total area of the part of the wall that is painted red. The answer is accepted if absolute or relative error doesn't exceed 10<=-<=4. Demo Input: ['1\n1\n', '3\n1 4 2\n'] Demo Output: ['3.1415926536\n', '40.8407044967\n'] Note: In the first sample the picture is just one circle of radius 1. Inner part of the circle is painted red. The area of the red part equals π × 1<sup class="upper-index">2</sup> = π. In the second sample there are three circles of radii 1, 4 and 2. Outside part of the second circle is painted blue. Part between the second and the third circles is painted red. Part between the first and the third is painted blue. And, finally, the inner part of the first circle is painted red. Overall there are two red parts: the ring between the second and the third circles and the inner part of the first circle. Total area of the red parts is equal (π × 4<sup class="upper-index">2</sup> - π × 2<sup class="upper-index">2</sup>) + π × 1<sup class="upper-index">2</sup> = π × 12 + π = 13π	```python from sys import stdin,stdout from math import pi n = int(input()) rs = list(map(int,stdin.readline().split())) rs.sort() rs.reverse() ra = 0 # print(rs) rs.append(0) for i in range(len(rs)-1): if(i%2==0): dif = rs[i]*2pi-rs[i+1]*2pi ra+=dif # print(ra) print(ra) ```	3
540	A	Combination Lock	PROGRAMMING	800	[ "implementation" ]		null	null	Scrooge McDuck keeps his most treasured savings in a home safe with a combination lock. Each time he wants to put there the treasures that he's earned fair and square, he has to open the lock. The combination lock is represented by n rotating disks with digits from 0 to 9 written on them. Scrooge McDuck has to turn some disks so that the combination of digits on the disks forms a secret combination. In one move, he can rotate one disk one digit forwards or backwards. In particular, in one move he can go from digit 0 to digit 9 and vice versa. What minimum number of actions does he need for that?	The first line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of disks on the combination lock. The second line contains a string of n digits — the original state of the disks. The third line contains a string of n digits — Scrooge McDuck's combination that opens the lock.	Print a single integer — the minimum number of moves Scrooge McDuck needs to open the lock.	[ "5\n82195\n64723\n" ]	[ "13\n" ]	In the sample he needs 13 moves: - 1 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b8967f65a723782358b93eff9ce69f336817cf70.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 2 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/07fa58573ece0d32c4d555e498d2b24d2f70f36a.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 3 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/cc2275d9252aae35a6867c6a5b4ba7596e9a7626.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 4 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b100aea470fcaaab4e9529b234ba0d7875943c10.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 5 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/eb2cbe4324cebca65b85816262a85e473cd65967.png" style="max-width: 100.0%;max-height: 100.0%;"/>	500	[ { "input": "5\n82195\n64723", "output": "13" }, { "input": "12\n102021090898\n010212908089", "output": "16" }, { "input": "1\n8\n1", "output": "3" }, { "input": "2\n83\n57", "output": "7" }, { "input": "10\n0728592530\n1362615763", "output": "27" }, { ...	1,677,643,098	2,147,483,647	Python 3	OK	TESTS	43	46	0	n = int(input()) s1 = input() s2 = input() total = 0 for i in range(n): val = abs(int(s1[i]) - int(s2[i])) total += min(val, 10-val) print(total)	Title: Combination Lock Time Limit: None seconds Memory Limit: None megabytes Problem Description: Scrooge McDuck keeps his most treasured savings in a home safe with a combination lock. Each time he wants to put there the treasures that he's earned fair and square, he has to open the lock. The combination lock is represented by n rotating disks with digits from 0 to 9 written on them. Scrooge McDuck has to turn some disks so that the combination of digits on the disks forms a secret combination. In one move, he can rotate one disk one digit forwards or backwards. In particular, in one move he can go from digit 0 to digit 9 and vice versa. What minimum number of actions does he need for that? Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of disks on the combination lock. The second line contains a string of n digits — the original state of the disks. The third line contains a string of n digits — Scrooge McDuck's combination that opens the lock. Output Specification: Print a single integer — the minimum number of moves Scrooge McDuck needs to open the lock. Demo Input: ['5\n82195\n64723\n'] Demo Output: ['13\n'] Note: In the sample he needs 13 moves: - 1 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b8967f65a723782358b93eff9ce69f336817cf70.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 2 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/07fa58573ece0d32c4d555e498d2b24d2f70f36a.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 3 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/cc2275d9252aae35a6867c6a5b4ba7596e9a7626.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 4 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b100aea470fcaaab4e9529b234ba0d7875943c10.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 5 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/eb2cbe4324cebca65b85816262a85e473cd65967.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python n = int(input()) s1 = input() s2 = input() total = 0 for i in range(n): val = abs(int(s1[i]) - int(s2[i])) total += min(val, 10-val) print(total) ```	3
448	A	Rewards	PROGRAMMING	800	[ "implementation" ]		null	null	Bizon the Champion is called the Champion for a reason. Bizon the Champion has recently got a present — a new glass cupboard with n shelves and he decided to put all his presents there. All the presents can be divided into two types: medals and cups. Bizon the Champion has a1 first prize cups, a2 second prize cups and a3 third prize cups. Besides, he has b1 first prize medals, b2 second prize medals and b3 third prize medals. Naturally, the rewards in the cupboard must look good, that's why Bizon the Champion decided to follow the rules: - any shelf cannot contain both cups and medals at the same time; - no shelf can contain more than five cups; - no shelf can have more than ten medals. Help Bizon the Champion find out if we can put all the rewards so that all the conditions are fulfilled.	The first line contains integers a1, a2 and a3 (0<=≤<=a1,<=a2,<=a3<=≤<=100). The second line contains integers b1, b2 and b3 (0<=≤<=b1,<=b2,<=b3<=≤<=100). The third line contains integer n (1<=≤<=n<=≤<=100). The numbers in the lines are separated by single spaces.	Print "YES" (without the quotes) if all the rewards can be put on the shelves in the described manner. Otherwise, print "NO" (without the quotes).	[ "1 1 1\n1 1 1\n4\n", "1 1 3\n2 3 4\n2\n", "1 0 0\n1 0 0\n1\n" ]	[ "YES\n", "YES\n", "NO\n" ]	none	500	[ { "input": "1 1 1\n1 1 1\n4", "output": "YES" }, { "input": "1 1 3\n2 3 4\n2", "output": "YES" }, { "input": "1 0 0\n1 0 0\n1", "output": "NO" }, { "input": "0 0 0\n0 0 0\n1", "output": "YES" }, { "input": "100 100 100\n100 100 100\n100", "output": "YES" }, ...	1,618,644,030	2,147,483,647	Python 3	OK	TESTS	25	62	204,800	a=list(map(int,input().split())) b=list(map(int,input().split())) n=int(input()) x,y=0,0 if(sum(a)%5==0): x=sum(a)//5 else: x=sum(a)//5+1 if(sum(b)%10==0): y=sum(b)//10 else: y=sum(b)//10+1 if(x+y<=n): print("YES") else: print("NO")	Title: Rewards Time Limit: None seconds Memory Limit: None megabytes Problem Description: Bizon the Champion is called the Champion for a reason. Bizon the Champion has recently got a present — a new glass cupboard with n shelves and he decided to put all his presents there. All the presents can be divided into two types: medals and cups. Bizon the Champion has a1 first prize cups, a2 second prize cups and a3 third prize cups. Besides, he has b1 first prize medals, b2 second prize medals and b3 third prize medals. Naturally, the rewards in the cupboard must look good, that's why Bizon the Champion decided to follow the rules: - any shelf cannot contain both cups and medals at the same time; - no shelf can contain more than five cups; - no shelf can have more than ten medals. Help Bizon the Champion find out if we can put all the rewards so that all the conditions are fulfilled. Input Specification: The first line contains integers a1, a2 and a3 (0<=≤<=a1,<=a2,<=a3<=≤<=100). The second line contains integers b1, b2 and b3 (0<=≤<=b1,<=b2,<=b3<=≤<=100). The third line contains integer n (1<=≤<=n<=≤<=100). The numbers in the lines are separated by single spaces. Output Specification: Print "YES" (without the quotes) if all the rewards can be put on the shelves in the described manner. Otherwise, print "NO" (without the quotes). Demo Input: ['1 1 1\n1 1 1\n4\n', '1 1 3\n2 3 4\n2\n', '1 0 0\n1 0 0\n1\n'] Demo Output: ['YES\n', 'YES\n', 'NO\n'] Note: none	```python a=list(map(int,input().split())) b=list(map(int,input().split())) n=int(input()) x,y=0,0 if(sum(a)%5==0): x=sum(a)//5 else: x=sum(a)//5+1 if(sum(b)%10==0): y=sum(b)//10 else: y=sum(b)//10+1 if(x+y<=n): print("YES") else: print("NO") ```	3
409	H	A + B Strikes Back	PROGRAMMING	1,500	[ "*special", "brute force", "constructive algorithms", "dsu", "implementation" ]		null	null	A + B is often used as an example of the easiest problem possible to show some contest platform. However, some scientists have observed that sometimes this problem is not so easy to get accepted. Want to try?	The input contains two integers a and b (0<=≤<=a,<=b<=≤<=103), separated by a single space.	Output the sum of the given integers.	[ "5 14\n", "381 492\n" ]	[ "19\n", "873\n" ]	none	0	[ { "input": "5 14", "output": "19" }, { "input": "381 492", "output": "873" }, { "input": "536 298", "output": "834" }, { "input": "143 522", "output": "665" }, { "input": "433 126", "output": "559" }, { "input": "723 350", "output": "1073" }, {...	1,682,067,860	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	30	0	# LUOGU_RID: 108597551 print(int(input())+int(input()))	Title: A + B Strikes Back Time Limit: None seconds Memory Limit: None megabytes Problem Description: A + B is often used as an example of the easiest problem possible to show some contest platform. However, some scientists have observed that sometimes this problem is not so easy to get accepted. Want to try? Input Specification: The input contains two integers a and b (0<=≤<=a,<=b<=≤<=103), separated by a single space. Output Specification: Output the sum of the given integers. Demo Input: ['5 14\n', '381 492\n'] Demo Output: ['19\n', '873\n'] Note: none	```python # LUOGU_RID: 108597551 print(int(input())+int(input())) ```	-1
298	A	Snow Footprints	PROGRAMMING	1,300	[ "greedy", "implementation" ]		null	null	There is a straight snowy road, divided into n blocks. The blocks are numbered from 1 to n from left to right. If one moves from the i-th block to the (i<=+<=1)-th block, he will leave a right footprint on the i-th block. Similarly, if one moves from the i-th block to the (i<=-<=1)-th block, he will leave a left footprint on the i-th block. If there already is a footprint on the i-th block, the new footprint will cover the old one. At the beginning, there were no footprints. Then polar bear Alice starts from the s-th block, makes a sequence of moves and ends in the t-th block. It is known that Alice never moves outside of the road. You are given the description of Alice's footprints. Your task is to find a pair of possible values of s,<=t by looking at the footprints.	The first line of the input contains integer n (3<=≤<=n<=≤<=1000). The second line contains the description of the road — the string that consists of n characters. Each character will be either "." (a block without footprint), or "L" (a block with a left footprint), "R" (a block with a right footprint). It's guaranteed that the given string contains at least one character not equal to ".". Also, the first and the last character will always be ".". It's guaranteed that a solution exists.	Print two space-separated integers — the values of s and t. If there are several possible solutions you can print any of them.	[ "9\n..RRLL...\n", "11\n.RRRLLLLL..\n" ]	[ "3 4\n", "7 5\n" ]	The first test sample is the one in the picture.	500	[ { "input": "11\n.RRRLLLLL..", "output": "7 5" }, { "input": "4\n.RL.", "output": "3 2" }, { "input": "3\n.L.", "output": "2 1" }, { "input": "3\n.R.", "output": "2 3" } ]	1,653,520,923	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	60	0	print("6 5")	Title: Snow Footprints Time Limit: None seconds Memory Limit: None megabytes Problem Description: There is a straight snowy road, divided into n blocks. The blocks are numbered from 1 to n from left to right. If one moves from the i-th block to the (i<=+<=1)-th block, he will leave a right footprint on the i-th block. Similarly, if one moves from the i-th block to the (i<=-<=1)-th block, he will leave a left footprint on the i-th block. If there already is a footprint on the i-th block, the new footprint will cover the old one. At the beginning, there were no footprints. Then polar bear Alice starts from the s-th block, makes a sequence of moves and ends in the t-th block. It is known that Alice never moves outside of the road. You are given the description of Alice's footprints. Your task is to find a pair of possible values of s,<=t by looking at the footprints. Input Specification: The first line of the input contains integer n (3<=≤<=n<=≤<=1000). The second line contains the description of the road — the string that consists of n characters. Each character will be either "." (a block without footprint), or "L" (a block with a left footprint), "R" (a block with a right footprint). It's guaranteed that the given string contains at least one character not equal to ".". Also, the first and the last character will always be ".". It's guaranteed that a solution exists. Output Specification: Print two space-separated integers — the values of s and t. If there are several possible solutions you can print any of them. Demo Input: ['9\n..RRLL...\n', '11\n.RRRLLLLL..\n'] Demo Output: ['3 4\n', '7 5\n'] Note: The first test sample is the one in the picture.	```python print("6 5") ```	0
31	A	Worms Evolution	PROGRAMMING	1,200	[ "implementation" ]	A. Worms Evolution	2	256	Professor Vasechkin is studying evolution of worms. Recently he put forward hypotheses that all worms evolve by division. There are n forms of worms. Worms of these forms have lengths a1, a2, ..., an. To prove his theory, professor needs to find 3 different forms that the length of the first form is equal to sum of lengths of the other two forms. Help him to do this.	The first line contains integer n (3<=≤<=n<=≤<=100) — amount of worm's forms. The second line contains n space-separated integers ai (1<=≤<=ai<=≤<=1000) — lengths of worms of each form.	Output 3 distinct integers i j k (1<=≤<=i,<=j,<=k<=≤<=n) — such indexes of worm's forms that ai<==<=aj<=+<=ak. If there is no such triple, output -1. If there are several solutions, output any of them. It possible that aj<==<=ak.	[ "5\n1 2 3 5 7\n", "5\n1 8 1 5 1\n" ]	[ "3 2 1\n", "-1\n" ]	none	500	[ { "input": "5\n1 2 3 5 7", "output": "3 2 1" }, { "input": "5\n1 8 1 5 1", "output": "-1" }, { "input": "4\n303 872 764 401", "output": "-1" }, { "input": "6\n86 402 133 524 405 610", "output": "6 4 1" }, { "input": "8\n217 779 418 895 996 473 3 22", "output":...	1,680,716,517	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	3	124	0	n = int(input()) ls = list(map(int,input().split())) ls.sort() flag = False for i in range (n-2) : for j in range(i+2,n) : if ls[i] + ls[i+1] == ls[j] : print(ls[j],ls[i+1],ls[i]) flag = True break if flag : break else : print(-1)	Title: Worms Evolution Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Professor Vasechkin is studying evolution of worms. Recently he put forward hypotheses that all worms evolve by division. There are n forms of worms. Worms of these forms have lengths a1, a2, ..., an. To prove his theory, professor needs to find 3 different forms that the length of the first form is equal to sum of lengths of the other two forms. Help him to do this. Input Specification: The first line contains integer n (3<=≤<=n<=≤<=100) — amount of worm's forms. The second line contains n space-separated integers ai (1<=≤<=ai<=≤<=1000) — lengths of worms of each form. Output Specification: Output 3 distinct integers i j k (1<=≤<=i,<=j,<=k<=≤<=n) — such indexes of worm's forms that ai<==<=aj<=+<=ak. If there is no such triple, output -1. If there are several solutions, output any of them. It possible that aj<==<=ak. Demo Input: ['5\n1 2 3 5 7\n', '5\n1 8 1 5 1\n'] Demo Output: ['3 2 1\n', '-1\n'] Note: none	```python n = int(input()) ls = list(map(int,input().split())) ls.sort() flag = False for i in range (n-2) : for j in range(i+2,n) : if ls[i] + ls[i+1] == ls[j] : print(ls[j],ls[i+1],ls[i]) flag = True break if flag : break else : print(-1) ```	0
152	B	Steps	PROGRAMMING	1,300	[ "binary search", "implementation" ]		null	null	One day Vasya went out for a walk in the yard but there weren't any of his friends outside and he had no one to play touch and run. But the boy didn't lose the high spirits and decided to play touch and run with himself. You may ask: "How did he do that?" The answer is simple. Vasya noticed that the yard is a rectangular n<=×<=m field. The squares have coordinates (x,<=y) (1<=≤<=x<=≤<=n,<=1<=≤<=y<=≤<=m), where x is the index of the row and y is the index of the column. Initially Vasya stands in the square with coordinates (xc,<=yc). To play, he has got a list of k vectors (dxi,<=dyi) of non-zero length. The game goes like this. The boy considers all vectors in the order from 1 to k, and consecutively chooses each vector as the current one. After the boy has chosen a current vector, he makes the maximally possible number of valid steps in the vector's direction (it is possible that he makes zero steps). A step is defined as one movement from the square where the boy is standing now, in the direction of the current vector. That is, if Vasya is positioned in square (x,<=y), and the current vector is (dx,<=dy), one step moves Vasya to square (x<=+<=dx,<=y<=+<=dy). A step is considered valid, if the boy does not go out of the yard if he performs the step. Vasya stepped on and on, on and on until he ran out of vectors in his list. Ha had been stepping for so long that he completely forgot how many steps he had made. Help the boy and count how many steps he had made.	The first input line contains two integers n and m (1<=≤<=n,<=m<=≤<=109) — the yard's sizes. The second line contains integers xc and yc — the initial square's coordinates (1<=≤<=xc<=≤<=n,<=1<=≤<=yc<=≤<=m). The third line contains an integer k (1<=≤<=k<=≤<=104) — the number of vectors. Then follow k lines, each of them contains two integers dxi and dyi (\|dxi\|,<=\|dyi\|<=≤<=109,<=\|dx\|<=+<=\|dy\|<=≥<=1).	Print the single number — the number of steps Vasya had made. Please do not use the %lld specificator to read or write 64-bit integers in С++. It is preferred to use the cin, cout streams or the %I64d specificator.	[ "4 5\n1 1\n3\n1 1\n1 1\n0 -2\n", "10 10\n1 2\n1\n-1 0\n" ]	[ "4\n", "0\n" ]	In the first sample Vasya is initially positioned at square (1, 1) and makes 3 steps by the first vector (1, 1). So, he consecutively visits the squares (2, 2), (3, 3), (4, 4). Then he makes 0 steps by the second vector (1, 1). He makes 1 more step by the third vector (0, - 2) and he ends up in square (4, 2). Overall, Vasya makes 4 steps. In the second sample Vasya is initially positioned in square (1, 2) and makes 0 steps by vector ( - 1, 0), as the square with coordinates (0, 2) is located outside the yard.	1,000	[ { "input": "4 5\n1 1\n3\n1 1\n1 1\n0 -2", "output": "4" }, { "input": "10 10\n1 2\n1\n-1 0", "output": "0" }, { "input": "10 20\n10 3\n10\n-2 -6\n-1 0\n-8 0\n0 5\n-1 3\n16 -16\n-1 9\n0 -18\n9 -1\n-9 5", "output": "13" }, { "input": "20 10\n14 4\n10\n6 0\n-7 -7\n12 -2\n-4 9\n2...	1,622,704,729	2,147,483,647	PyPy 3	OK	TESTS	34	684	6,553,600	n, m=map(int, input().split()) cx, cy=map(int, input().split()) k=int(input()) tot=0 for i in range(k): a, b=map(int, input().split()) start, finish=0, 2000000000 while start+1<finish: mid=(start+finish)//2 hi1, hi2=mida+cx, midb+cy if hi1>=1 and hi1<=n and hi2>=1 and hi2<=m: start=mid else: finish=mid cx+=starta cy+=startb tot+=start print(tot)	Title: Steps Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Vasya went out for a walk in the yard but there weren't any of his friends outside and he had no one to play touch and run. But the boy didn't lose the high spirits and decided to play touch and run with himself. You may ask: "How did he do that?" The answer is simple. Vasya noticed that the yard is a rectangular n<=×<=m field. The squares have coordinates (x,<=y) (1<=≤<=x<=≤<=n,<=1<=≤<=y<=≤<=m), where x is the index of the row and y is the index of the column. Initially Vasya stands in the square with coordinates (xc,<=yc). To play, he has got a list of k vectors (dxi,<=dyi) of non-zero length. The game goes like this. The boy considers all vectors in the order from 1 to k, and consecutively chooses each vector as the current one. After the boy has chosen a current vector, he makes the maximally possible number of valid steps in the vector's direction (it is possible that he makes zero steps). A step is defined as one movement from the square where the boy is standing now, in the direction of the current vector. That is, if Vasya is positioned in square (x,<=y), and the current vector is (dx,<=dy), one step moves Vasya to square (x<=+<=dx,<=y<=+<=dy). A step is considered valid, if the boy does not go out of the yard if he performs the step. Vasya stepped on and on, on and on until he ran out of vectors in his list. Ha had been stepping for so long that he completely forgot how many steps he had made. Help the boy and count how many steps he had made. Input Specification: The first input line contains two integers n and m (1<=≤<=n,<=m<=≤<=109) — the yard's sizes. The second line contains integers xc and yc — the initial square's coordinates (1<=≤<=xc<=≤<=n,<=1<=≤<=yc<=≤<=m). The third line contains an integer k (1<=≤<=k<=≤<=104) — the number of vectors. Then follow k lines, each of them contains two integers dxi and dyi (\|dxi\|,<=\|dyi\|<=≤<=109,<=\|dx\|<=+<=\|dy\|<=≥<=1). Output Specification: Print the single number — the number of steps Vasya had made. Please do not use the %lld specificator to read or write 64-bit integers in С++. It is preferred to use the cin, cout streams or the %I64d specificator. Demo Input: ['4 5\n1 1\n3\n1 1\n1 1\n0 -2\n', '10 10\n1 2\n1\n-1 0\n'] Demo Output: ['4\n', '0\n'] Note: In the first sample Vasya is initially positioned at square (1, 1) and makes 3 steps by the first vector (1, 1). So, he consecutively visits the squares (2, 2), (3, 3), (4, 4). Then he makes 0 steps by the second vector (1, 1). He makes 1 more step by the third vector (0, - 2) and he ends up in square (4, 2). Overall, Vasya makes 4 steps. In the second sample Vasya is initially positioned in square (1, 2) and makes 0 steps by vector ( - 1, 0), as the square with coordinates (0, 2) is located outside the yard.	```python n, m=map(int, input().split()) cx, cy=map(int, input().split()) k=int(input()) tot=0 for i in range(k): a, b=map(int, input().split()) start, finish=0, 2000000000 while start+1<finish: mid=(start+finish)//2 hi1, hi2=mida+cx, midb+cy if hi1>=1 and hi1<=n and hi2>=1 and hi2<=m: start=mid else: finish=mid cx+=starta cy+=startb tot+=start print(tot) ```	3
600	B	Queries about less or equal elements	PROGRAMMING	1,300	[ "binary search", "data structures", "sortings", "two pointers" ]		null	null	You are given two arrays of integers a and b. For each element of the second array bj you should find the number of elements in array a that are less than or equal to the value bj.	The first line contains two integers n,<=m (1<=≤<=n,<=m<=≤<=2·105) — the sizes of arrays a and b. The second line contains n integers — the elements of array a (<=-<=109<=≤<=ai<=≤<=109). The third line contains m integers — the elements of array b (<=-<=109<=≤<=bj<=≤<=109).	Print m integers, separated by spaces: the j-th of which is equal to the number of such elements in array a that are less than or equal to the value bj.	[ "5 4\n1 3 5 7 9\n6 4 2 8\n", "5 5\n1 2 1 2 5\n3 1 4 1 5\n" ]	[ "3 2 1 4\n", "4 2 4 2 5\n" ]	none	0	[ { "input": "5 4\n1 3 5 7 9\n6 4 2 8", "output": "3 2 1 4" }, { "input": "5 5\n1 2 1 2 5\n3 1 4 1 5", "output": "4 2 4 2 5" }, { "input": "1 1\n-1\n-2", "output": "0" }, { "input": "1 1\n-80890826\n686519510", "output": "1" }, { "input": "11 11\n237468511 -77918754...	1,617,553,880	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	9	2,000	13,414,400	t,r=map(int,input().split()) a,b=[int(x) for x in input().split()],[int(x) for x in input().split()] out=[0 for _ in range(r)] for i in range(r): for j in range(t): if b[i]>=a[j]: out[i]+=1 print(*out)	Title: Queries about less or equal elements Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two arrays of integers a and b. For each element of the second array bj you should find the number of elements in array a that are less than or equal to the value bj. Input Specification: The first line contains two integers n,<=m (1<=≤<=n,<=m<=≤<=2·105) — the sizes of arrays a and b. The second line contains n integers — the elements of array a (<=-<=109<=≤<=ai<=≤<=109). The third line contains m integers — the elements of array b (<=-<=109<=≤<=bj<=≤<=109). Output Specification: Print m integers, separated by spaces: the j-th of which is equal to the number of such elements in array a that are less than or equal to the value bj. Demo Input: ['5 4\n1 3 5 7 9\n6 4 2 8\n', '5 5\n1 2 1 2 5\n3 1 4 1 5\n'] Demo Output: ['3 2 1 4\n', '4 2 4 2 5\n'] Note: none	```python t,r=map(int,input().split()) a,b=[int(x) for x in input().split()],[int(x) for x in input().split()] out=[0 for _ in range(r)] for i in range(r): for j in range(t): if b[i]>=a[j]: out[i]+=1 print(*out) ```	0
69	A	Young Physicist	PROGRAMMING	1,000	[ "implementation", "math" ]	A. Young Physicist	2	256	A guy named Vasya attends the final grade of a high school. One day Vasya decided to watch a match of his favorite hockey team. And, as the boy loves hockey very much, even more than physics, he forgot to do the homework. Specifically, he forgot to complete his physics tasks. Next day the teacher got very angry at Vasya and decided to teach him a lesson. He gave the lazy student a seemingly easy task: You are given an idle body in space and the forces that affect it. The body can be considered as a material point with coordinates (0; 0; 0). Vasya had only to answer whether it is in equilibrium. "Piece of cake" — thought Vasya, we need only to check if the sum of all vectors is equal to 0. So, Vasya began to solve the problem. But later it turned out that there can be lots and lots of these forces, and Vasya can not cope without your help. Help him. Write a program that determines whether a body is idle or is moving by the given vectors of forces.	The first line contains a positive integer n (1<=≤<=n<=≤<=100), then follow n lines containing three integers each: the xi coordinate, the yi coordinate and the zi coordinate of the force vector, applied to the body (<=-<=100<=≤<=xi,<=yi,<=zi<=≤<=100).	Print the word "YES" if the body is in equilibrium, or the word "NO" if it is not.	[ "3\n4 1 7\n-2 4 -1\n1 -5 -3\n", "3\n3 -1 7\n-5 2 -4\n2 -1 -3\n" ]	[ "NO", "YES" ]	none	500	[ { "input": "3\n4 1 7\n-2 4 -1\n1 -5 -3", "output": "NO" }, { "input": "3\n3 -1 7\n-5 2 -4\n2 -1 -3", "output": "YES" }, { "input": "10\n21 32 -46\n43 -35 21\n42 2 -50\n22 40 20\n-27 -9 38\n-4 1 1\n-40 6 -31\n-13 -2 34\n-21 34 -12\n-32 -29 41", "output": "NO" }, { "input": "10...	1,660,142,703	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	80	92	0	import math x = int(input()) somme = 0 for i in range(x): frc = list(map(int, input().split())) somme = frc[0] + frc[1] + frc[2] + somme if somme == 0: print('YES') else: print('NO')	Title: Young Physicist Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A guy named Vasya attends the final grade of a high school. One day Vasya decided to watch a match of his favorite hockey team. And, as the boy loves hockey very much, even more than physics, he forgot to do the homework. Specifically, he forgot to complete his physics tasks. Next day the teacher got very angry at Vasya and decided to teach him a lesson. He gave the lazy student a seemingly easy task: You are given an idle body in space and the forces that affect it. The body can be considered as a material point with coordinates (0; 0; 0). Vasya had only to answer whether it is in equilibrium. "Piece of cake" — thought Vasya, we need only to check if the sum of all vectors is equal to 0. So, Vasya began to solve the problem. But later it turned out that there can be lots and lots of these forces, and Vasya can not cope without your help. Help him. Write a program that determines whether a body is idle or is moving by the given vectors of forces. Input Specification: The first line contains a positive integer n (1<=≤<=n<=≤<=100), then follow n lines containing three integers each: the xi coordinate, the yi coordinate and the zi coordinate of the force vector, applied to the body (<=-<=100<=≤<=xi,<=yi,<=zi<=≤<=100). Output Specification: Print the word "YES" if the body is in equilibrium, or the word "NO" if it is not. Demo Input: ['3\n4 1 7\n-2 4 -1\n1 -5 -3\n', '3\n3 -1 7\n-5 2 -4\n2 -1 -3\n'] Demo Output: ['NO', 'YES'] Note: none	```python import math x = int(input()) somme = 0 for i in range(x): frc = list(map(int, input().split())) somme = frc[0] + frc[1] + frc[2] + somme if somme == 0: print('YES') else: print('NO') ```	0
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", "o...	1,506,229,874	2,147,483,647	Python 3	OK	TESTS	52	124	512,000	import collections def main(): num=int(input()) arrnum=[int(i) for i in input().split(" ")] aux2=collections.Counter(arrnum) if sum(arrnum)%2==0: print(sum([valor for clave,valor in aux2.items() if clave%2==0])) else: print(sum([valor for clave,valor in aux2.items() if clave % 2 != 0])) if __name__ == '__main__': main()	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 import collections def main(): num=int(input()) arrnum=[int(i) for i in input().split(" ")] aux2=collections.Counter(arrnum) if sum(arrnum)%2==0: print(sum([valor for clave,valor in aux2.items() if clave%2==0])) else: print(sum([valor for clave,valor in aux2.items() if clave % 2 != 0])) if __name__ == '__main__': main() ```	3
807	A	Is it rated?	PROGRAMMING	900	[ "implementation", "sortings" ]		null	null	Is it rated? Here it is. The Ultimate Question of Competitive Programming, Codeforces, and Everything. And you are here to answer it. Another Codeforces round has been conducted. No two participants have the same number of points. For each participant, from the top to the bottom of the standings, their rating before and after the round is known. It's known that if at least one participant's rating has changed, then the round was rated for sure. It's also known that if the round was rated and a participant with lower rating took a better place in the standings than a participant with higher rating, then at least one round participant's rating has changed. In this problem, you should not make any other assumptions about the rating system. Determine if the current round is rated, unrated, or it's impossible to determine whether it is rated of not.	The first line contains a single integer n (2<=≤<=n<=≤<=1000) — the number of round participants. Each of the next n lines contains two integers ai and bi (1<=≤<=ai,<=bi<=≤<=4126) — the rating of the i-th participant before and after the round, respectively. The participants are listed in order from the top to the bottom of the standings.	If the round is rated for sure, print "rated". If the round is unrated for sure, print "unrated". If it's impossible to determine whether the round is rated or not, print "maybe".	[ "6\n3060 3060\n2194 2194\n2876 2903\n2624 2624\n3007 2991\n2884 2884\n", "4\n1500 1500\n1300 1300\n1200 1200\n1400 1400\n", "5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n1699 1699\n" ]	[ "rated\n", "unrated\n", "maybe\n" ]	In the first example, the ratings of the participants in the third and fifth places have changed, therefore, the round was rated. In the second example, no one's rating has changed, but the participant in the second place has lower rating than the participant in the fourth place. Therefore, if the round was rated, someone's rating would've changed for sure. In the third example, no one's rating has changed, and the participants took places in non-increasing order of their rating. Therefore, it's impossible to determine whether the round is rated or not.	500	[ { "input": "6\n3060 3060\n2194 2194\n2876 2903\n2624 2624\n3007 2991\n2884 2884", "output": "rated" }, { "input": "4\n1500 1500\n1300 1300\n1200 1200\n1400 1400", "output": "unrated" }, { "input": "5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n1699 1699", "output": "maybe" }, { ...	1,699,783,697	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	15	93	2,457,600	n = int(input()) flag = False a = [list(map(int, input().split())) for i in range(n)] for x,y in a: if y>x: print("rated") break else: for i in range(n): for j in range(i): if a[i][0]>a[j][0]: if not(flag): print('unrated') flag = True if not(flag): print('maybe')	Title: Is it rated? Time Limit: None seconds Memory Limit: None megabytes Problem Description: Is it rated? Here it is. The Ultimate Question of Competitive Programming, Codeforces, and Everything. And you are here to answer it. Another Codeforces round has been conducted. No two participants have the same number of points. For each participant, from the top to the bottom of the standings, their rating before and after the round is known. It's known that if at least one participant's rating has changed, then the round was rated for sure. It's also known that if the round was rated and a participant with lower rating took a better place in the standings than a participant with higher rating, then at least one round participant's rating has changed. In this problem, you should not make any other assumptions about the rating system. Determine if the current round is rated, unrated, or it's impossible to determine whether it is rated of not. Input Specification: The first line contains a single integer n (2<=≤<=n<=≤<=1000) — the number of round participants. Each of the next n lines contains two integers ai and bi (1<=≤<=ai,<=bi<=≤<=4126) — the rating of the i-th participant before and after the round, respectively. The participants are listed in order from the top to the bottom of the standings. Output Specification: If the round is rated for sure, print "rated". If the round is unrated for sure, print "unrated". If it's impossible to determine whether the round is rated or not, print "maybe". Demo Input: ['6\n3060 3060\n2194 2194\n2876 2903\n2624 2624\n3007 2991\n2884 2884\n', '4\n1500 1500\n1300 1300\n1200 1200\n1400 1400\n', '5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n1699 1699\n'] Demo Output: ['rated\n', 'unrated\n', 'maybe\n'] Note: In the first example, the ratings of the participants in the third and fifth places have changed, therefore, the round was rated. In the second example, no one's rating has changed, but the participant in the second place has lower rating than the participant in the fourth place. Therefore, if the round was rated, someone's rating would've changed for sure. In the third example, no one's rating has changed, and the participants took places in non-increasing order of their rating. Therefore, it's impossible to determine whether the round is rated or not.	```python n = int(input()) flag = False a = [list(map(int, input().split())) for i in range(n)] for x,y in a: if y>x: print("rated") break else: for i in range(n): for j in range(i): if a[i][0]>a[j][0]: if not(flag): print('unrated') flag = True if not(flag): print('maybe') ```	0
691	C	Exponential notation	PROGRAMMING	1,800	[ "implementation", "strings" ]		null	null	You are given a positive decimal number x. Your task is to convert it to the "simple exponential notation". Let x<==<=a·10b, where 1<=≤<=a<=<<=10, then in general case the "simple exponential notation" looks like "aEb". If b equals to zero, the part "Eb" should be skipped. If a is an integer, it should be written without decimal point. Also there should not be extra zeroes in a and b.	The only line contains the positive decimal number x. The length of the line will not exceed 106. Note that you are given too large number, so you can't use standard built-in data types "float", "double" and other.	Print the only line — the "simple exponential notation" of the given number x.	[ "16\n", "01.23400\n", ".100\n", "100.\n" ]	[ "1.6E1\n", "1.234\n", "1E-1\n", "1E2\n" ]	none	0	[ { "input": "16", "output": "1.6E1" }, { "input": "01.23400", "output": "1.234" }, { "input": ".100", "output": "1E-1" }, { "input": "100.", "output": "1E2" }, { "input": "9000", "output": "9E3" }, { "input": "0.0012", "output": "1.2E-3" }, { ...	1,662,012,224	2,147,483,647	PyPy 3-64	OK	TESTS	44	62	8,499,200	import sys input = sys.stdin.readline x = input()[:-1] if '.' not in x: x += '.' xa, xb = x.split('.') xa, xb, b = xa.lstrip('0'), xb.rstrip('0'), 0 if len(xa) > 1: b = len(xa) - 1 xb = (xa[1:] + xb).rstrip('0') xa = xa[0] if len(xa) == 1 and xa[0] == '0' or len(xa) == 0: b = -(len(xb) - len(xb.lstrip('0'))) - 1 xa = xb[-b - 1] xb = xb[-b:] res = xa if xb: res += '.' + xb if b: res += 'E' + str(b) print(res)	Title: Exponential notation Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a positive decimal number x. Your task is to convert it to the "simple exponential notation". Let x<==<=a·10b, where 1<=≤<=a<=<<=10, then in general case the "simple exponential notation" looks like "aEb". If b equals to zero, the part "Eb" should be skipped. If a is an integer, it should be written without decimal point. Also there should not be extra zeroes in a and b. Input Specification: The only line contains the positive decimal number x. The length of the line will not exceed 106. Note that you are given too large number, so you can't use standard built-in data types "float", "double" and other. Output Specification: Print the only line — the "simple exponential notation" of the given number x. Demo Input: ['16\n', '01.23400\n', '.100\n', '100.\n'] Demo Output: ['1.6E1\n', '1.234\n', '1E-1\n', '1E2\n'] Note: none	```python import sys input = sys.stdin.readline x = input()[:-1] if '.' not in x: x += '.' xa, xb = x.split('.') xa, xb, b = xa.lstrip('0'), xb.rstrip('0'), 0 if len(xa) > 1: b = len(xa) - 1 xb = (xa[1:] + xb).rstrip('0') xa = xa[0] if len(xa) == 1 and xa[0] == '0' or len(xa) == 0: b = -(len(xb) - len(xb.lstrip('0'))) - 1 xa = xb[-b - 1] xb = xb[-b:] res = xa if xb: res += '.' + xb if b: res += 'E' + str(b) print(res) ```	3
567	A	Lineland Mail	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	All cities of Lineland are located on the Ox coordinate axis. Thus, each city is associated with its position xi — a coordinate on the Ox axis. No two cities are located at a single point. Lineland residents love to send letters to each other. A person may send a letter only if the recipient lives in another city (because if they live in the same city, then it is easier to drop in). Strange but true, the cost of sending the letter is exactly equal to the distance between the sender's city and the recipient's city. For each city calculate two values mini and maxi, where mini is the minimum cost of sending a letter from the i-th city to some other city, and maxi is the the maximum cost of sending a letter from the i-th city to some other city	The first line of the input contains integer n (2<=≤<=n<=≤<=105) — the number of cities in Lineland. The second line contains the sequence of n distinct integers x1,<=x2,<=...,<=xn (<=-<=109<=≤<=xi<=≤<=109), where xi is the x-coordinate of the i-th city. All the xi's are distinct and follow in ascending order.	Print n lines, the i-th line must contain two integers mini,<=maxi, separated by a space, where mini is the minimum cost of sending a letter from the i-th city, and maxi is the maximum cost of sending a letter from the i-th city.	[ "4\n-5 -2 2 7\n", "2\n-1 1\n" ]	[ "3 12\n3 9\n4 7\n5 12\n", "2 2\n2 2\n" ]	none	500	[ { "input": "4\n-5 -2 2 7", "output": "3 12\n3 9\n4 7\n5 12" }, { "input": "2\n-1 1", "output": "2 2\n2 2" }, { "input": "3\n-1 0 1", "output": "1 2\n1 1\n1 2" }, { "input": "4\n-1 0 1 3", "output": "1 4\n1 3\n1 2\n2 4" }, { "input": "3\n-1000000000 0 1000000000", ...	1,663,000,031	2,147,483,647	PyPy 3-64	OK	TESTS	54	187	14,540,800	n = int(input()) s = list(map(int,input().split())) for i in range(len(s)): if i == 0: print(s[1]-s[0],s[-1]-s[0]) elif i == len(s) - 1: print(s[-1]-s[-2],s[-1] - s[0]) else: print(min(s[i]-s[i-1],s[i+1]-s[i]),max(s[i]-s[0],s[-1]-s[i]))	Title: Lineland Mail Time Limit: None seconds Memory Limit: None megabytes Problem Description: All cities of Lineland are located on the Ox coordinate axis. Thus, each city is associated with its position xi — a coordinate on the Ox axis. No two cities are located at a single point. Lineland residents love to send letters to each other. A person may send a letter only if the recipient lives in another city (because if they live in the same city, then it is easier to drop in). Strange but true, the cost of sending the letter is exactly equal to the distance between the sender's city and the recipient's city. For each city calculate two values mini and maxi, where mini is the minimum cost of sending a letter from the i-th city to some other city, and maxi is the the maximum cost of sending a letter from the i-th city to some other city Input Specification: The first line of the input contains integer n (2<=≤<=n<=≤<=105) — the number of cities in Lineland. The second line contains the sequence of n distinct integers x1,<=x2,<=...,<=xn (<=-<=109<=≤<=xi<=≤<=109), where xi is the x-coordinate of the i-th city. All the xi's are distinct and follow in ascending order. Output Specification: Print n lines, the i-th line must contain two integers mini,<=maxi, separated by a space, where mini is the minimum cost of sending a letter from the i-th city, and maxi is the maximum cost of sending a letter from the i-th city. Demo Input: ['4\n-5 -2 2 7\n', '2\n-1 1\n'] Demo Output: ['3 12\n3 9\n4 7\n5 12\n', '2 2\n2 2\n'] Note: none	```python n = int(input()) s = list(map(int,input().split())) for i in range(len(s)): if i == 0: print(s[1]-s[0],s[-1]-s[0]) elif i == len(s) - 1: print(s[-1]-s[-2],s[-1] - s[0]) else: print(min(s[i]-s[i-1],s[i+1]-s[i]),max(s[i]-s[0],s[-1]-s[i])) ```	3
339	A	Helpful Maths	PROGRAMMING	800	[ "greedy", "implementation", "sortings", "strings" ]		null	null	Xenia the beginner mathematician is a third year student at elementary school. She is now learning the addition operation. The teacher has written down the sum of multiple numbers. Pupils should calculate the sum. To make the calculation easier, the sum only contains numbers 1, 2 and 3. Still, that isn't enough for Xenia. She is only beginning to count, so she can calculate a sum only if the summands follow in non-decreasing order. For example, she can't calculate sum 1+3+2+1 but she can calculate sums 1+1+2 and 3+3. You've got the sum that was written on the board. Rearrange the summans and print the sum in such a way that Xenia can calculate the sum.	The first line contains a non-empty string s — the sum Xenia needs to count. String s contains no spaces. It only contains digits and characters "+". Besides, string s is a correct sum of numbers 1, 2 and 3. String s is at most 100 characters long.	Print the new sum that Xenia can count.	[ "3+2+1\n", "1+1+3+1+3\n", "2\n" ]	[ "1+2+3\n", "1+1+1+3+3\n", "2\n" ]	none	500	[ { "input": "3+2+1", "output": "1+2+3" }, { "input": "1+1+3+1+3", "output": "1+1+1+3+3" }, { "input": "2", "output": "2" }, { "input": "2+2+1+1+3", "output": "1+1+2+2+3" }, { "input": "2+1+2+2+2+3+1+3+1+2", "output": "1+1+1+2+2+2+2+2+3+3" }, { "input": ...	1,697,978,888	2,147,483,647	Python 3	OK	TESTS	21	92	0	def InsertionSort(a, n): for i in range(1, n): x = a[i] j = i - 1 while j >= 0 and a[j] > x: a[j+1] = a[j] j -= 1 a[j+1] = x s = input() a = [] for ch in s: if ch >= '0' and ch <= '9': a.append(ord(ch) - ord('0')) k = len(a) InsertionSort(a, k) for i in range(k): print(a[i], end='') if i != k-1: print('+', end='')	Title: Helpful Maths Time Limit: None seconds Memory Limit: None megabytes Problem Description: Xenia the beginner mathematician is a third year student at elementary school. She is now learning the addition operation. The teacher has written down the sum of multiple numbers. Pupils should calculate the sum. To make the calculation easier, the sum only contains numbers 1, 2 and 3. Still, that isn't enough for Xenia. She is only beginning to count, so she can calculate a sum only if the summands follow in non-decreasing order. For example, she can't calculate sum 1+3+2+1 but she can calculate sums 1+1+2 and 3+3. You've got the sum that was written on the board. Rearrange the summans and print the sum in such a way that Xenia can calculate the sum. Input Specification: The first line contains a non-empty string s — the sum Xenia needs to count. String s contains no spaces. It only contains digits and characters "+". Besides, string s is a correct sum of numbers 1, 2 and 3. String s is at most 100 characters long. Output Specification: Print the new sum that Xenia can count. Demo Input: ['3+2+1\n', '1+1+3+1+3\n', '2\n'] Demo Output: ['1+2+3\n', '1+1+1+3+3\n', '2\n'] Note: none	```python def InsertionSort(a, n): for i in range(1, n): x = a[i] j = i - 1 while j >= 0 and a[j] > x: a[j+1] = a[j] j -= 1 a[j+1] = x s = input() a = [] for ch in s: if ch >= '0' and ch <= '9': a.append(ord(ch) - ord('0')) k = len(a) InsertionSort(a, k) for i in range(k): print(a[i], end='') if i != k-1: print('+', end='') ```	3
0	none	none	none	0	[ "none" ]		null	null	It is so boring in the summer holiday, isn't it? So Alice and Bob have invented a new game to play. The rules are as follows. First, they get a set of n distinct integers. And then they take turns to make the following moves. During each move, either Alice or Bob (the player whose turn is the current) can choose two distinct integers x and y from the set, such that the set doesn't contain their absolute difference \|x<=-<=y\|. Then this player adds integer \|x<=-<=y\| to the set (so, the size of the set increases by one). If the current player has no valid move, he (or she) loses the game. The question is who will finally win the game if both players play optimally. Remember that Alice always moves first.	The first line contains an integer n (2<=≤<=n<=≤<=100) — the initial number of elements in the set. The second line contains n distinct space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the elements of the set.	Print a single line with the winner's name. If Alice wins print "Alice", otherwise print "Bob" (without quotes).	[ "2\n2 3\n", "2\n5 3\n", "3\n5 6 7\n" ]	[ "Alice\n", "Alice\n", "Bob\n" ]	Consider the first test sample. Alice moves first, and the only move she can do is to choose 2 and 3, then to add 1 to the set. Next Bob moves, there is no valid move anymore, so the winner is Alice.	0	[ { "input": "2\n2 3", "output": "Alice" }, { "input": "2\n5 3", "output": "Alice" }, { "input": "3\n5 6 7", "output": "Bob" }, { "input": "10\n72 96 24 66 6 18 12 30 60 48", "output": "Bob" }, { "input": "10\n78 66 6 60 18 84 36 96 72 48", "output": "Bob" }, ...	1,586,741,976	2,147,483,647	Python 3	OK	TESTS	39	186	307,200	import sys lines = sys.stdin.readlines() n = int(lines[0].strip()) nums = list(map(int, lines[1].strip().split(" "))) def gcd(a,b): if a == 0: return b if a > b: return gcd(b,a) return gcd(b%a, a) G = nums[0] for i in range(1, n): G = gcd(G, nums[i]) turns = max(nums)//G - n if turns % 2 == 0: print("Bob") else: print("Alice")	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: It is so boring in the summer holiday, isn't it? So Alice and Bob have invented a new game to play. The rules are as follows. First, they get a set of n distinct integers. And then they take turns to make the following moves. During each move, either Alice or Bob (the player whose turn is the current) can choose two distinct integers x and y from the set, such that the set doesn't contain their absolute difference \|x<=-<=y\|. Then this player adds integer \|x<=-<=y\| to the set (so, the size of the set increases by one). If the current player has no valid move, he (or she) loses the game. The question is who will finally win the game if both players play optimally. Remember that Alice always moves first. Input Specification: The first line contains an integer n (2<=≤<=n<=≤<=100) — the initial number of elements in the set. The second line contains n distinct space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the elements of the set. Output Specification: Print a single line with the winner's name. If Alice wins print "Alice", otherwise print "Bob" (without quotes). Demo Input: ['2\n2 3\n', '2\n5 3\n', '3\n5 6 7\n'] Demo Output: ['Alice\n', 'Alice\n', 'Bob\n'] Note: Consider the first test sample. Alice moves first, and the only move she can do is to choose 2 and 3, then to add 1 to the set. Next Bob moves, there is no valid move anymore, so the winner is Alice.	```python import sys lines = sys.stdin.readlines() n = int(lines[0].strip()) nums = list(map(int, lines[1].strip().split(" "))) def gcd(a,b): if a == 0: return b if a > b: return gcd(b,a) return gcd(b%a, a) G = nums[0] for i in range(1, n): G = gcd(G, nums[i]) turns = max(nums)//G - n if turns % 2 == 0: print("Bob") else: print("Alice") ```	3
61	B	Hard Work	PROGRAMMING	1,300	[ "strings" ]	B. Hard Work	2	256	After the contest in comparing numbers, Shapur's teacher found out that he is a real genius and that no one could possibly do the calculations faster than him even using a super computer! Some days before the contest, the teacher took a very simple-looking exam and all his n students took part in the exam. The teacher gave them 3 strings and asked them to concatenate them. Concatenating strings means to put them in some arbitrary order one after the other. For example from concatenating Alireza and Amir we can get to AlirezaAmir or AmirAlireza depending on the order of concatenation. Unfortunately enough, the teacher forgot to ask students to concatenate their strings in a pre-defined order so each student did it the way he/she liked. Now the teacher knows that Shapur is such a fast-calculating genius boy and asks him to correct the students' papers. Shapur is not good at doing such a time-taking task. He rather likes to finish up with it as soon as possible and take his time to solve 3-SAT in polynomial time. Moreover, the teacher has given some advice that Shapur has to follow. Here's what the teacher said: - As I expect you know, the strings I gave to my students (including you) contained only lowercase and uppercase Persian Mikhi-Script letters. These letters are too much like Latin letters, so to make your task much harder I converted all the initial strings and all of the students' answers to Latin. - As latin alphabet has much less characters than Mikhi-Script, I added three odd-looking characters to the answers, these include "-", ";" and "_". These characters are my own invention of course! And I call them Signs. - The length of all initial strings was less than or equal to 100 and the lengths of my students' answers are less than or equal to 600 - My son, not all students are genius as you are. It is quite possible that they make minor mistakes changing case of some characters. For example they may write ALiReZaAmIR instead of AlirezaAmir. Don't be picky and ignore these mistakes. - Those signs which I previously talked to you about are not important. You can ignore them, since many students are in the mood for adding extra signs or forgetting about a sign. So something like Iran;;-- is the same as --;IRAN - You should indicate for any of my students if his answer was right or wrong. Do this by writing "WA" for Wrong answer or "ACC" for a correct answer. - I should remind you that none of the strings (initial strings or answers) are empty. - Finally, do these as soon as possible. You have less than 2 hours to complete this.	The first three lines contain a string each. These are the initial strings. They consists only of lowercase and uppercase Latin letters and signs ("-", ";" and "_"). All the initial strings have length from 1 to 100, inclusively. In the fourth line there is a single integer n (0<=≤<=n<=≤<=1000), the number of students. Next n lines contain a student's answer each. It is guaranteed that the answer meets what the teacher said. Each answer iconsists only of lowercase and uppercase Latin letters and signs ("-", ";" and "_"). Length is from 1 to 600, inclusively.	For each student write in a different line. Print "WA" if his answer is wrong or "ACC" if his answer is OK.	[ "Iran_\nPersian;\nW_o;n;d;e;r;f;u;l;\n7\nWonderfulPersianIran\nwonderful_PersIAN_IRAN;;_\nWONDERFUL___IRAN__PERSIAN__;;\nIra__Persiann__Wonderful\nWonder;;fulPersian___;I;r;a;n;\n__________IranPersianWonderful__________\nPersianIran_is_Wonderful\n", "Shapur;;\nis___\na_genius\n3\nShapur__a_is___geniUs\nis___shapu...	[ "ACC\nACC\nACC\nWA\nACC\nACC\nWA\n", "WA\nACC\nACC\n" ]	none	1,000	[ { "input": "Iran_\nPersian;\nW_o;n;d;e;r;f;u;l;\n7\nWonderfulPersianIran\nwonderful_PersIAN_IRAN;;_\nWONDERFUL___IRAN__PERSIAN__;;\nIra__Persiann__Wonderful\nWonder;;fulPersian___;I;r;a;n;\n__________IranPersianWonderful__________\nPersianIran_is_Wonderful", "output": "ACC\nACC\nACC\nWA\nACC\nACC\nWA" }, ...	1,643,054,403	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	32	93	716,800	import re strings = [] for i in range(3): strings.append(re.sub("[\W_]+", "", input().lower())) tests = int(input()) for i in range(tests): flag = False line = re.sub("[\W_]+", "", input().lower()) length = sum([len(j) for j in strings]) for word in strings: if word not in line: flag = True break if (len(line) != length) or flag: print("WA") else: print("ACC")	Title: Hard Work Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: After the contest in comparing numbers, Shapur's teacher found out that he is a real genius and that no one could possibly do the calculations faster than him even using a super computer! Some days before the contest, the teacher took a very simple-looking exam and all his n students took part in the exam. The teacher gave them 3 strings and asked them to concatenate them. Concatenating strings means to put them in some arbitrary order one after the other. For example from concatenating Alireza and Amir we can get to AlirezaAmir or AmirAlireza depending on the order of concatenation. Unfortunately enough, the teacher forgot to ask students to concatenate their strings in a pre-defined order so each student did it the way he/she liked. Now the teacher knows that Shapur is such a fast-calculating genius boy and asks him to correct the students' papers. Shapur is not good at doing such a time-taking task. He rather likes to finish up with it as soon as possible and take his time to solve 3-SAT in polynomial time. Moreover, the teacher has given some advice that Shapur has to follow. Here's what the teacher said: - As I expect you know, the strings I gave to my students (including you) contained only lowercase and uppercase Persian Mikhi-Script letters. These letters are too much like Latin letters, so to make your task much harder I converted all the initial strings and all of the students' answers to Latin. - As latin alphabet has much less characters than Mikhi-Script, I added three odd-looking characters to the answers, these include "-", ";" and "_". These characters are my own invention of course! And I call them Signs. - The length of all initial strings was less than or equal to 100 and the lengths of my students' answers are less than or equal to 600 - My son, not all students are genius as you are. It is quite possible that they make minor mistakes changing case of some characters. For example they may write ALiReZaAmIR instead of AlirezaAmir. Don't be picky and ignore these mistakes. - Those signs which I previously talked to you about are not important. You can ignore them, since many students are in the mood for adding extra signs or forgetting about a sign. So something like Iran;;-- is the same as --;IRAN - You should indicate for any of my students if his answer was right or wrong. Do this by writing "WA" for Wrong answer or "ACC" for a correct answer. - I should remind you that none of the strings (initial strings or answers) are empty. - Finally, do these as soon as possible. You have less than 2 hours to complete this. Input Specification: The first three lines contain a string each. These are the initial strings. They consists only of lowercase and uppercase Latin letters and signs ("-", ";" and "_"). All the initial strings have length from 1 to 100, inclusively. In the fourth line there is a single integer n (0<=≤<=n<=≤<=1000), the number of students. Next n lines contain a student's answer each. It is guaranteed that the answer meets what the teacher said. Each answer iconsists only of lowercase and uppercase Latin letters and signs ("-", ";" and "_"). Length is from 1 to 600, inclusively. Output Specification: For each student write in a different line. Print "WA" if his answer is wrong or "ACC" if his answer is OK. Demo Input: ['Iran_\nPersian;\nW_o;n;d;e;r;f;u;l;\n7\nWonderfulPersianIran\nwonderful_PersIAN_IRAN;;_\nWONDERFUL___IRAN__PERSIAN__;;\nIra__Persiann__Wonderful\nWonder;;fulPersian___;I;r;a;n;\n__________IranPersianWonderful__________\nPersianIran_is_Wonderful\n', 'Shapur;;\nis___\na_genius\n3\nShapur__a_is___geniUs\nis___shapur___a__Genius;\nShapur;;is;;a;;geni;;us;;\n'] Demo Output: ['ACC\nACC\nACC\nWA\nACC\nACC\nWA\n', 'WA\nACC\nACC\n'] Note: none	```python import re strings = [] for i in range(3): strings.append(re.sub("[\W_]+", "", input().lower())) tests = int(input()) for i in range(tests): flag = False line = re.sub("[\W_]+", "", input().lower()) length = sum([len(j) for j in strings]) for word in strings: if word not in line: flag = True break if (len(line) != length) or flag: print("WA") else: print("ACC") ```	0
768	B	Code For 1	PROGRAMMING	1,600	[ "constructive algorithms", "dfs and similar", "divide and conquer" ]		null	null	Jon fought bravely to rescue the wildlings who were attacked by the white-walkers at Hardhome. On his arrival, Sam tells him that he wants to go to Oldtown to train at the Citadel to become a maester, so he can return and take the deceased Aemon's place as maester of Castle Black. Jon agrees to Sam's proposal and Sam sets off his journey to the Citadel. However becoming a trainee at the Citadel is not a cakewalk and hence the maesters at the Citadel gave Sam a problem to test his eligibility. Initially Sam has a list with a single element n. Then he has to perform certain operations on this list. In each operation Sam must remove any element x, such that x<=><=1, from the list and insert at the same position , , sequentially. He must continue with these operations until all the elements in the list are either 0 or 1. Now the masters want the total number of 1s in the range l to r (1-indexed). Sam wants to become a maester but unfortunately he cannot solve this problem. Can you help Sam to pass the eligibility test?	The first line contains three integers n, l, r (0<=≤<=n<=<<=250, 0<=≤<=r<=-<=l<=≤<=105, r<=≥<=1, l<=≥<=1) – initial element and the range l to r. It is guaranteed that r is not greater than the length of the final list.	Output the total number of 1s in the range l to r in the final sequence.	[ "7 2 5\n", "10 3 10\n" ]	[ "4\n", "5\n" ]	Consider first example: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/288fbb682a6fa1934a47b763d6851f9d32a06150.png" style="max-width: 100.0%;max-height: 100.0%;"/> Elements on positions from 2-nd to 5-th in list is [1, 1, 1, 1]. The number of ones is 4. For the second example: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/52e9bc51ef858cacc27fc274c7ba9419d5c1ded9.png" style="max-width: 100.0%;max-height: 100.0%;"/> Elements on positions from 3-rd to 10-th in list is [1, 1, 1, 0, 1, 0, 1, 0]. The number of ones is 5.	1,000	[ { "input": "7 2 5", "output": "4" }, { "input": "10 3 10", "output": "5" }, { "input": "56 18 40", "output": "20" }, { "input": "203 40 124", "output": "67" }, { "input": "903316762502 354723010040 354723105411", "output": "78355" }, { "input": "335343...	1,660,038,408	2,147,483,647	PyPy 3-64	RUNTIME_ERROR	TESTS	23	389	21,504,000	import sys import math from turtle import goto input = sys.stdin.readline def in_int(): ''' Read input string as int ''' return (int(input())) def in_int_space(): ''' Read space separated numbers as list of int ''' return (list(map(int,input().split()))) def in_int_line(n): ''' Read line separated input as list of int ''' list = [] for i in range(n): s = input() list.append(int(s[:len(s)-1])) return list def in_str(): '''Read string''' s = input() return s[:len(s)-1] def in_str_arr(): ''' Read String as Char array ''' s = input() return (list(s[:len(s)-1])) def in_str_space(): return input().split() def in_str_line(n): list = [] for i in range(n): s = input() list.append(s[:len(s)-1]) return list n,l,r = in_int_space() l -= 1 r -= 1 idx = 0 ans = 0 def calc(n): log_n = int(math.log(n,2)) lvl = 0 count = 0 while lvl <= log_n: count = (count * 2 + 1) lvl += 1 return count total = calc(n) ans = 0 def helper(node, left, right): ll = left lr = (left + right) // 2 -1 rl = (left + right) // 2 +1 rr = right global l global r if node <= 1: global ans ans += node return if l <= (left + right) // 2 <= r: helper(node % 2, (left + right) // 2, (left + right) // 2) if ll <= l <= lr or ll <= r <= lr or l <= ll <= r or l <= lr <= r: helper(node // 2, ll, lr) if rl <= l <= rr or rl <= r <= rl or l <= rl <= r or l <= rr <= r: helper(node // 2, rl, rr) helper(n, 0, total-1) print(ans)	Title: Code For 1 Time Limit: None seconds Memory Limit: None megabytes Problem Description: Jon fought bravely to rescue the wildlings who were attacked by the white-walkers at Hardhome. On his arrival, Sam tells him that he wants to go to Oldtown to train at the Citadel to become a maester, so he can return and take the deceased Aemon's place as maester of Castle Black. Jon agrees to Sam's proposal and Sam sets off his journey to the Citadel. However becoming a trainee at the Citadel is not a cakewalk and hence the maesters at the Citadel gave Sam a problem to test his eligibility. Initially Sam has a list with a single element n. Then he has to perform certain operations on this list. In each operation Sam must remove any element x, such that x<=><=1, from the list and insert at the same position , , sequentially. He must continue with these operations until all the elements in the list are either 0 or 1. Now the masters want the total number of 1s in the range l to r (1-indexed). Sam wants to become a maester but unfortunately he cannot solve this problem. Can you help Sam to pass the eligibility test? Input Specification: The first line contains three integers n, l, r (0<=≤<=n<=<<=250, 0<=≤<=r<=-<=l<=≤<=105, r<=≥<=1, l<=≥<=1) – initial element and the range l to r. It is guaranteed that r is not greater than the length of the final list. Output Specification: Output the total number of 1s in the range l to r in the final sequence. Demo Input: ['7 2 5\n', '10 3 10\n'] Demo Output: ['4\n', '5\n'] Note: Consider first example: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/288fbb682a6fa1934a47b763d6851f9d32a06150.png" style="max-width: 100.0%;max-height: 100.0%;"/> Elements on positions from 2-nd to 5-th in list is [1, 1, 1, 1]. The number of ones is 4. For the second example: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/52e9bc51ef858cacc27fc274c7ba9419d5c1ded9.png" style="max-width: 100.0%;max-height: 100.0%;"/> Elements on positions from 3-rd to 10-th in list is [1, 1, 1, 0, 1, 0, 1, 0]. The number of ones is 5.	```python import sys import math from turtle import goto input = sys.stdin.readline def in_int(): ''' Read input string as int ''' return (int(input())) def in_int_space(): ''' Read space separated numbers as list of int ''' return (list(map(int,input().split()))) def in_int_line(n): ''' Read line separated input as list of int ''' list = [] for i in range(n): s = input() list.append(int(s[:len(s)-1])) return list def in_str(): '''Read string''' s = input() return s[:len(s)-1] def in_str_arr(): ''' Read String as Char array ''' s = input() return (list(s[:len(s)-1])) def in_str_space(): return input().split() def in_str_line(n): list = [] for i in range(n): s = input() list.append(s[:len(s)-1]) return list n,l,r = in_int_space() l -= 1 r -= 1 idx = 0 ans = 0 def calc(n): log_n = int(math.log(n,2)) lvl = 0 count = 0 while lvl <= log_n: count = (count * 2 + 1) lvl += 1 return count total = calc(n) ans = 0 def helper(node, left, right): ll = left lr = (left + right) // 2 -1 rl = (left + right) // 2 +1 rr = right global l global r if node <= 1: global ans ans += node return if l <= (left + right) // 2 <= r: helper(node % 2, (left + right) // 2, (left + right) // 2) if ll <= l <= lr or ll <= r <= lr or l <= ll <= r or l <= lr <= r: helper(node // 2, ll, lr) if rl <= l <= rr or rl <= r <= rl or l <= rl <= r or l <= rr <= r: helper(node // 2, rl, rr) helper(n, 0, total-1) print(ans) ```	-1
441	A	Valera and Antique Items	PROGRAMMING	1,000	[ "implementation" ]		null	null	Valera is a collector. Once he wanted to expand his collection with exactly one antique item. Valera knows n sellers of antiques, the i-th of them auctioned ki items. Currently the auction price of the j-th object of the i-th seller is sij. Valera gets on well with each of the n sellers. He is perfectly sure that if he outbids the current price of one of the items in the auction (in other words, offers the seller the money that is strictly greater than the current price of the item at the auction), the seller of the object will immediately sign a contract with him. Unfortunately, Valera has only v units of money. Help him to determine which of the n sellers he can make a deal with.	The first line contains two space-separated integers n,<=v (1<=≤<=n<=≤<=50; 104<=≤<=v<=≤<=106) — the number of sellers and the units of money the Valera has. Then n lines follow. The i-th line first contains integer ki (1<=≤<=ki<=≤<=50) the number of items of the i-th seller. Then go ki space-separated integers si1,<=si2,<=...,<=siki (104<=≤<=sij<=≤<=106) — the current prices of the items of the i-th seller.	In the first line, print integer p — the number of sellers with who Valera can make a deal. In the second line print p space-separated integers q1,<=q2,<=...,<=qp (1<=≤<=qi<=≤<=n) — the numbers of the sellers with who Valera can make a deal. Print the numbers of the sellers in the increasing order.	[ "3 50000\n1 40000\n2 20000 60000\n3 10000 70000 190000\n", "3 50000\n1 50000\n3 100000 120000 110000\n3 120000 110000 120000\n" ]	[ "3\n1 2 3\n", "0\n\n" ]	In the first sample Valera can bargain with each of the sellers. He can outbid the following items: a 40000 item from the first seller, a 20000 item from the second seller, and a 10000 item from the third seller. In the second sample Valera can not make a deal with any of the sellers, as the prices of all items in the auction too big for him.	500	[ { "input": "3 50000\n1 40000\n2 20000 60000\n3 10000 70000 190000", "output": "3\n1 2 3" }, { "input": "3 50000\n1 50000\n3 100000 120000 110000\n3 120000 110000 120000", "output": "0" }, { "input": "2 100001\n1 895737\n1 541571", "output": "0" }, { "input": "1 1000000\n1 100...	1,589,377,513	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	109	6,860,800	n,v=map(int,input().split()) t=[] for i in range(n): l=list(map(int,input().split())) t.append(l) y=1 z=[] for x in t: for j in range(1,x[0]+1): if(x[j]<v): z.append(y) y=y+1 print(len(z)) print(*z)	Title: Valera and Antique Items Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera is a collector. Once he wanted to expand his collection with exactly one antique item. Valera knows n sellers of antiques, the i-th of them auctioned ki items. Currently the auction price of the j-th object of the i-th seller is sij. Valera gets on well with each of the n sellers. He is perfectly sure that if he outbids the current price of one of the items in the auction (in other words, offers the seller the money that is strictly greater than the current price of the item at the auction), the seller of the object will immediately sign a contract with him. Unfortunately, Valera has only v units of money. Help him to determine which of the n sellers he can make a deal with. Input Specification: The first line contains two space-separated integers n,<=v (1<=≤<=n<=≤<=50; 104<=≤<=v<=≤<=106) — the number of sellers and the units of money the Valera has. Then n lines follow. The i-th line first contains integer ki (1<=≤<=ki<=≤<=50) the number of items of the i-th seller. Then go ki space-separated integers si1,<=si2,<=...,<=siki (104<=≤<=sij<=≤<=106) — the current prices of the items of the i-th seller. Output Specification: In the first line, print integer p — the number of sellers with who Valera can make a deal. In the second line print p space-separated integers q1,<=q2,<=...,<=qp (1<=≤<=qi<=≤<=n) — the numbers of the sellers with who Valera can make a deal. Print the numbers of the sellers in the increasing order. Demo Input: ['3 50000\n1 40000\n2 20000 60000\n3 10000 70000 190000\n', '3 50000\n1 50000\n3 100000 120000 110000\n3 120000 110000 120000\n'] Demo Output: ['3\n1 2 3\n', '0\n\n'] Note: In the first sample Valera can bargain with each of the sellers. He can outbid the following items: a 40000 item from the first seller, a 20000 item from the second seller, and a 10000 item from the third seller. In the second sample Valera can not make a deal with any of the sellers, as the prices of all items in the auction too big for him.	```python n,v=map(int,input().split()) t=[] for i in range(n): l=list(map(int,input().split())) t.append(l) y=1 z=[] for x in t: for j in range(1,x[0]+1): if(x[j]<v): z.append(y) y=y+1 print(len(z)) print(*z) ```	0

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