Split (2)

train · 621k rows

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616	A	Comparing Two Long Integers	PROGRAMMING	900	[ "implementation", "strings" ]		null	null	You are given two very long integers a,<=b (leading zeroes are allowed). You should check what number a or b is greater or determine that they are equal. The input size is very large so don't use the reading of symbols one by one. Instead of that use the reading of a whole line or token. As input/output can reach huge size it is recommended to use fast input/output methods: for example, prefer to use scanf/printf instead of cin/cout in C++, prefer to use BufferedReader/PrintWriter instead of Scanner/System.out in Java. Don't use the function input() in Python2 instead of it use the function raw_input().	The first line contains a non-negative integer a. The second line contains a non-negative integer b. The numbers a,<=b may contain leading zeroes. Each of them contains no more than 106 digits.	Print the symbol "<" if a<=<<=b and the symbol ">" if a<=><=b. If the numbers are equal print the symbol "=".	[ "9\n10\n", "11\n10\n", "00012345\n12345\n", "0123\n9\n", "0123\n111\n" ]	[ "<\n", ">\n", "=\n", ">\n", ">\n" ]	none	0	[ { "input": "9\n10", "output": "<" }, { "input": "11\n10", "output": ">" }, { "input": "00012345\n12345", "output": "=" }, { "input": "0123\n9", "output": ">" }, { "input": "0123\n111", "output": ">" }, { "input": "9\n9", "output": "=" }, { "input": "0\n0000", "output": "=" }, { "input": "1213121\n1213121", "output": "=" }, { "input": "8631749422082281871941140403034638286979613893271246118706788645620907151504874585597378422393911017\n1460175633701201615285047975806206470993708143873675499262156511814213451040881275819636625899967479", "output": ">" }, { "input": "6421902501252475186372406731932548506197390793597574544727433297197476846519276598727359617092494798\n8", "output": ">" }, { "input": "9\n3549746075165939381145061479392284958612916596558639332310874529760172204736013341477640605383578772", "output": "<" }, { "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111\n11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111", "output": "=" }, { "input": "0000000001\n2", "output": "<" }, { "input": "1000000000000000000000000000000000\n1000000000000000000000000000000001", "output": "<" }, { "input": "123456123456123456123456123456123456123456123456123456123456123456\n123456123456123456123456123456123456123456123456123456123456123456123456123456", "output": "<" }, { "input": "1111111111111111111111111111111111111111\n2222222222222222222222222222222222222222", "output": "<" }, { "input": "123456789999999\n123456789999999", "output": "=" }, { "input": "111111111111111111111111111111\n222222222222222222222222222222", "output": "<" }, { "input": "1111111111111111111111111111111111111111111111111111111111111111111111\n1111111111111111111111111111111111111111111111111111111111111111111111", "output": "=" }, { "input": "587345873489573457357834\n47957438573458347574375348", "output": "<" }, { "input": "1111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111\n33333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333333", "output": "<" }, { "input": "11111111111111111111111111111111111\n44444444444444444444444444444444444", "output": "<" }, { "input": "11111111111111111111111111111111111\n22222222222222222222222222222222222", "output": "<" }, { "input": "9999999999999999999999999999999999999999999999999999999999999999999\n99999999999999999999999999999999999999999999999999999999999999999999999999999999999999", "output": "<" }, { "input": "1\n2", "output": "<" }, { "input": "9\n0", "output": ">" }, { "input": "222222222222222222222222222222222222222222222222222222222\n22222222222222222222222222222222222222222222222222222222222", "output": "<" }, { "input": "66646464222222222222222222222222222222222222222222222222222222222222222\n111111111111111111111111111111111111111111111111111111111111111111111111111111111111", "output": "<" }, { "input": "222222222222222222222222222222222222222222222222222\n111111111111111111111111111111111111111111111111111111111111111", "output": "<" }, { "input": "11111111111111111111111111111111111111\n44444444444444444444444444444444444444", "output": "<" }, { "input": "01\n2", "output": "<" }, { "input": "00\n01", "output": "<" }, { "input": "99999999999999999999999999999999999999999999999\n99999999999999999999999999999999999999999999999", "output": "=" }, { "input": "43278947323248843213443272432\n793439250984509434324323453435435", "output": "<" }, { "input": "0\n1", "output": "<" }, { "input": "010\n011", "output": "<" }, { "input": "999999999999999999999999999999999999999999999999\n999999999999999999999999999999999999999999999999", "output": "=" }, { "input": "0001001\n0001010", "output": "<" }, { "input": "1111111111111111111111111111111111111111111111111111111111111\n1111111111111111111111111111111111111111111111111111111111111", "output": "=" }, { "input": "00000\n00", "output": "=" }, { "input": "999999999999999999999999999\n999999999999999999999999999", "output": "=" }, { "input": "999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999\n999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999", "output": "=" }, { "input": "001\n000000000010", "output": "<" }, { "input": "01\n10", "output": "<" }, { "input": "555555555555555555555555555555555555555555555555555555555555\n555555555555555555555555555555555555555555555555555555555555", "output": "=" }, { "input": "5555555555555555555555555555555555555555555555555\n5555555555555555555555555555555555555555555555555", "output": "=" }, { "input": "01\n02", "output": "<" }, { "input": "001111\n0001111", "output": "=" }, { "input": "55555555555555555555555555555555555555555555555555\n55555555555555555555555555555555555555555555555555", "output": "=" }, { "input": "1029301293019283091283091283091280391283\n1029301293019283091283091283091280391283", "output": "=" }, { "input": "001\n2", "output": "<" }, { "input": "000000000\n000000000", "output": "=" }, { "input": "000000\n10", "output": "<" }, { "input": "000000000000000\n001", "output": "<" }, { "input": "0000001\n2", "output": "<" }, { "input": "0000\n123", "output": "<" }, { "input": "951\n960", "output": "<" }, { "input": "002\n0001", "output": ">" }, { "input": "0000001\n01", "output": "=" }, { "input": "99999999999999999999999999999999999999999999999999999999999999\n99999999999999999999999999999999999999999999999999999999999999", "output": "=" }, { "input": "12345678901234567890123456789012345678901234567890123456789012\n12345678901234567890123456789012345678901234567890123456789012", "output": "=" }, { "input": "02\n01", "output": ">" }, { "input": "00000111111\n00000110111", "output": ">" }, { "input": "0123\n123", "output": "=" }, { "input": "123771237912798378912\n91239712798379812897389123123123123", "output": "<" }, { "input": "00001\n002", "output": "<" }, { "input": "0000000000000000000000000000000000000000000000000000000000000\n000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000", "output": "=" }, { "input": "000000001\n00002", "output": "<" }, { "input": "00002\n00003", "output": "<" }, { "input": "000123456\n123457", "output": "<" }, { "input": "01\n00", "output": ">" }, { "input": "00\n0", "output": "=" }, { "input": "10\n11", "output": "<" }, { "input": "0011\n12", "output": "<" }, { "input": "00\n1", "output": "<" }, { "input": "0\n0", "output": "=" }, { "input": "00\n10", "output": "<" }, { "input": "011\n10", "output": ">" }, { "input": "00011111111111111111111111111111111111000000000000000000000000000000000000000000000000000210000000000000000000000000000000000000000011000\n11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111112091", "output": "<" }, { "input": "0000001\n00", "output": ">" }, { "input": "01\n1", "output": "=" }, { "input": "010\n001", "output": ">" }, { "input": "100\n111", "output": "<" }, { "input": "1\n0", "output": ">" }, { "input": "000000\n000000000000000000000", "output": "=" }, { "input": "010101\n010101", "output": "=" }, { "input": "00000000000000000001111111111111111111111111111111111111111111111111111111\n11111111111111111111111", "output": ">" }, { "input": "0000000\n0", "output": "=" }, { "input": "187923712738712879387912839182381\n871279397127389781927389718923789178923897123", "output": "<" }, { "input": "0010\n030", "output": "<" } ]	1,623,311,540	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	13	2,000	3,481,600	def lastzeroindex(a): for i in range(len(a)): if a[i] != "0": return i string1 = input() string2 = input() # if not all(i == 0 for i in string1): # if not all (j == 0 for j in string2): lz1 = lastzeroindex(string1) lz2 = lastzeroindex(string2) number1 = int(string1[lz1:]) number2 = int(string2[lz2:]) if int(number1) > int(number2): print(">") elif int(number1) < int(number2): print("<") else: print("=")	Title: Comparing Two Long Integers Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two very long integers a,<=b (leading zeroes are allowed). You should check what number a or b is greater or determine that they are equal. The input size is very large so don't use the reading of symbols one by one. Instead of that use the reading of a whole line or token. As input/output can reach huge size it is recommended to use fast input/output methods: for example, prefer to use scanf/printf instead of cin/cout in C++, prefer to use BufferedReader/PrintWriter instead of Scanner/System.out in Java. Don't use the function input() in Python2 instead of it use the function raw_input(). Input Specification: The first line contains a non-negative integer a. The second line contains a non-negative integer b. The numbers a,<=b may contain leading zeroes. Each of them contains no more than 106 digits. Output Specification: Print the symbol "<" if a<=<<=b and the symbol ">" if a<=><=b. If the numbers are equal print the symbol "=". Demo Input: ['9\n10\n', '11\n10\n', '00012345\n12345\n', '0123\n9\n', '0123\n111\n'] Demo Output: ['<\n', '>\n', '=\n', '>\n', '>\n'] Note: none	```python def lastzeroindex(a): for i in range(len(a)): if a[i] != "0": return i string1 = input() string2 = input() # if not all(i == 0 for i in string1): # if not all (j == 0 for j in string2): lz1 = lastzeroindex(string1) lz2 = lastzeroindex(string2) number1 = int(string1[lz1:]) number2 = int(string2[lz2:]) if int(number1) > int(number2): print(">") elif int(number1) < int(number2): print("<") else: print("=") ```	0
918	B	Radio Station	PROGRAMMING	900	[ "implementation", "strings" ]		null	null	As the guys fried the radio station facilities, the school principal gave them tasks as a punishment. Dustin's task was to add comments to nginx configuration for school's website. The school has n servers. Each server has a name and an ip (names aren't necessarily unique, but ips are). Dustin knows the ip and name of each server. For simplicity, we'll assume that an nginx command is of form "command ip;" where command is a string consisting of English lowercase letter only, and ip is the ip of one of school servers. Each ip is of form "a.b.c.d" where a, b, c and d are non-negative integers less than or equal to 255 (with no leading zeros). The nginx configuration file Dustin has to add comments to has m commands. Nobody ever memorizes the ips of servers, so to understand the configuration better, Dustin has to comment the name of server that the ip belongs to at the end of each line (after each command). More formally, if a line is "command ip;" Dustin has to replace it with "command ip; #name" where name is the name of the server with ip equal to ip. Dustin doesn't know anything about nginx, so he panicked again and his friends asked you to do his task for him.	The first line of input contains two integers n and m (1<=≤<=n,<=m<=≤<=1000). The next n lines contain the names and ips of the servers. Each line contains a string name, name of the server and a string ip, ip of the server, separated by space (1<=≤<=\|name\|<=≤<=10, name only consists of English lowercase letters). It is guaranteed that all ip are distinct. The next m lines contain the commands in the configuration file. Each line is of form "command ip;" (1<=≤<=\|command\|<=≤<=10, command only consists of English lowercase letters). It is guaranteed that ip belongs to one of the n school servers.	Print m lines, the commands in the configuration file after Dustin did his task.	[ "2 2\nmain 192.168.0.2\nreplica 192.168.0.1\nblock 192.168.0.1;\nproxy 192.168.0.2;\n", "3 5\ngoogle 8.8.8.8\ncodeforces 212.193.33.27\nserver 138.197.64.57\nredirect 138.197.64.57;\nblock 8.8.8.8;\ncf 212.193.33.27;\nunblock 8.8.8.8;\ncheck 138.197.64.57;\n" ]	[ "block 192.168.0.1; #replica\nproxy 192.168.0.2; #main\n", "redirect 138.197.64.57; #server\nblock 8.8.8.8; #google\ncf 212.193.33.27; #codeforces\nunblock 8.8.8.8; #google\ncheck 138.197.64.57; #server\n" ]	none	1,000	[ { "input": "2 2\nmain 192.168.0.2\nreplica 192.168.0.1\nblock 192.168.0.1;\nproxy 192.168.0.2;", "output": "block 192.168.0.1; #replica\nproxy 192.168.0.2; #main" }, { "input": "3 5\ngoogle 8.8.8.8\ncodeforces 212.193.33.27\nserver 138.197.64.57\nredirect 138.197.64.57;\nblock 8.8.8.8;\ncf 212.193.33.27;\nunblock 8.8.8.8;\ncheck 138.197.64.57;", "output": "redirect 138.197.64.57; #server\nblock 8.8.8.8; #google\ncf 212.193.33.27; #codeforces\nunblock 8.8.8.8; #google\ncheck 138.197.64.57; #server" }, { "input": "10 10\nittmcs 112.147.123.173\njkt 228.40.73.178\nfwckqtz 88.28.31.198\nkal 224.226.34.213\nnacuyokm 49.57.13.44\nfouynv 243.18.250.17\ns 45.248.83.247\ne 75.69.23.169\nauwoqlch 100.44.219.187\nlkldjq 46.123.169.140\ngjcylatwzi 46.123.169.140;\ndxfi 88.28.31.198;\ngv 46.123.169.140;\nety 88.28.31.198;\notbmgcrn 46.123.169.140;\nw 112.147.123.173;\np 75.69.23.169;\nvdsnigk 46.123.169.140;\nmmc 46.123.169.140;\ngtc 49.57.13.44;", "output": "gjcylatwzi 46.123.169.140; #lkldjq\ndxfi 88.28.31.198; #fwckqtz\ngv 46.123.169.140; #lkldjq\nety 88.28.31.198; #fwckqtz\notbmgcrn 46.123.169.140; #lkldjq\nw 112.147.123.173; #ittmcs\np 75.69.23.169; #e\nvdsnigk 46.123.169.140; #lkldjq\nmmc 46.123.169.140; #lkldjq\ngtc 49.57.13.44; #nacuyokm" }, { "input": "1 1\nervbfot 185.32.99.2\nzygoumbmx 185.32.99.2;", "output": "zygoumbmx 185.32.99.2; #ervbfot" }, { "input": "1 2\ny 245.182.246.189\nlllq 245.182.246.189;\nxds 245.182.246.189;", "output": "lllq 245.182.246.189; #y\nxds 245.182.246.189; #y" }, { "input": "2 1\ntdwmshz 203.115.124.110\neksckjya 201.80.191.212\nzbtjzzue 203.115.124.110;", "output": "zbtjzzue 203.115.124.110; #tdwmshz" }, { "input": "8 5\nfhgkq 5.19.189.178\nphftablcr 75.18.177.178\nxnpcg 158.231.167.176\ncfahrkq 26.165.124.191\nfkgtnqtfoh 230.13.13.129\nt 101.24.94.85\nvjoirslx 59.6.179.72\ntwktmskb 38.194.117.184\nrvzzlygosc 26.165.124.191;\ndcsgxrkgv 101.24.94.85;\nyvmyppn 59.6.179.72;\ngpdjjuq 75.18.177.178;\nvdviz 101.24.94.85;", "output": "rvzzlygosc 26.165.124.191; #cfahrkq\ndcsgxrkgv 101.24.94.85; #t\nyvmyppn 59.6.179.72; #vjoirslx\ngpdjjuq 75.18.177.178; #phftablcr\nvdviz 101.24.94.85; #t" }, { "input": "2 1\nmain 1.1.1.1\nget 11.1.1.1\ncommand 11.1.1.1;", "output": "command 11.1.1.1; #get" }, { "input": "2 2\nmain 0.0.0.255\nmainn 0.0.2.55\nblock 0.0.0.255;\nblock 0.0.2.55;", "output": "block 0.0.0.255; #main\nblock 0.0.2.55; #mainn" }, { "input": "2 2\nmain 0.0.63.0\nreplica 0.38.0.56\nblock 0.0.63.0;\nproxy 0.38.0.56;", "output": "block 0.0.63.0; #main\nproxy 0.38.0.56; #replica" }, { "input": "2 2\nmain 192.168.10.12\nreplica 192.167.10.12\nblock 192.168.10.12;\nproxy 192.167.10.12;", "output": "block 192.168.10.12; #main\nproxy 192.167.10.12; #replica" }, { "input": "2 1\nneserver 185.218.47.91\nserver 255.255.255.255\nblock 255.255.255.255;", "output": "block 255.255.255.255; #server" }, { "input": "2 1\nalp 22.222.30.10\nbet 222.22.30.10\nblock 22.222.30.10;", "output": "block 22.222.30.10; #alp" } ]	1,566,126,619	2,147,483,647	Python 3	OK	TESTS	28	218	307,200	n,m= map(int,input().split()) name=[] ip=[] for _ in range(n): s= input().split() name.append(s[0]) ip.append(s[1]) for _ in range(m): q= input().split() q[1]= q[1].replace(";","") for i in ip: if i in q: i= ip.index(i) ans= name[i] print(q[0]+str(" ")+q[1]+";"+" "+"#"+ans)	Title: Radio Station Time Limit: None seconds Memory Limit: None megabytes Problem Description: As the guys fried the radio station facilities, the school principal gave them tasks as a punishment. Dustin's task was to add comments to nginx configuration for school's website. The school has n servers. Each server has a name and an ip (names aren't necessarily unique, but ips are). Dustin knows the ip and name of each server. For simplicity, we'll assume that an nginx command is of form "command ip;" where command is a string consisting of English lowercase letter only, and ip is the ip of one of school servers. Each ip is of form "a.b.c.d" where a, b, c and d are non-negative integers less than or equal to 255 (with no leading zeros). The nginx configuration file Dustin has to add comments to has m commands. Nobody ever memorizes the ips of servers, so to understand the configuration better, Dustin has to comment the name of server that the ip belongs to at the end of each line (after each command). More formally, if a line is "command ip;" Dustin has to replace it with "command ip; #name" where name is the name of the server with ip equal to ip. Dustin doesn't know anything about nginx, so he panicked again and his friends asked you to do his task for him. Input Specification: The first line of input contains two integers n and m (1<=≤<=n,<=m<=≤<=1000). The next n lines contain the names and ips of the servers. Each line contains a string name, name of the server and a string ip, ip of the server, separated by space (1<=≤<=\|name\|<=≤<=10, name only consists of English lowercase letters). It is guaranteed that all ip are distinct. The next m lines contain the commands in the configuration file. Each line is of form "command ip;" (1<=≤<=\|command\|<=≤<=10, command only consists of English lowercase letters). It is guaranteed that ip belongs to one of the n school servers. Output Specification: Print m lines, the commands in the configuration file after Dustin did his task. Demo Input: ['2 2\nmain 192.168.0.2\nreplica 192.168.0.1\nblock 192.168.0.1;\nproxy 192.168.0.2;\n', '3 5\ngoogle 8.8.8.8\ncodeforces 212.193.33.27\nserver 138.197.64.57\nredirect 138.197.64.57;\nblock 8.8.8.8;\ncf 212.193.33.27;\nunblock 8.8.8.8;\ncheck 138.197.64.57;\n'] Demo Output: ['block 192.168.0.1; #replica\nproxy 192.168.0.2; #main\n', 'redirect 138.197.64.57; #server\nblock 8.8.8.8; #google\ncf 212.193.33.27; #codeforces\nunblock 8.8.8.8; #google\ncheck 138.197.64.57; #server\n'] Note: none	```python n,m= map(int,input().split()) name=[] ip=[] for _ in range(n): s= input().split() name.append(s[0]) ip.append(s[1]) for _ in range(m): q= input().split() q[1]= q[1].replace(";","") for i in ip: if i in q: i= ip.index(i) ans= name[i] print(q[0]+str(" ")+q[1]+";"+" "+"#"+ans) ```	3
1	A	Theatre Square	PROGRAMMING	1,000	[ "math" ]	A. Theatre Square	1	256	Theatre Square in the capital city of Berland has a rectangular shape with the size n<=×<=m meters. On the occasion of the city's anniversary, a decision was taken to pave the Square with square granite flagstones. Each flagstone is of the size a<=×<=a. What is the least number of flagstones needed to pave the Square? It's allowed to cover the surface larger than the Theatre Square, but the Square has to be covered. It's not allowed to break the flagstones. The sides of flagstones should be parallel to the sides of the Square.	The input contains three positive integer numbers in the first line: n,<=<=m and a (1<=≤<=<=n,<=m,<=a<=≤<=109).	Write the needed number of flagstones.	[ "6 6 4\n" ]	[ "4\n" ]	none	0	[ { "input": "6 6 4", "output": "4" }, { "input": "1 1 1", "output": "1" }, { "input": "2 1 1", "output": "2" }, { "input": "1 2 1", "output": "2" }, { "input": "2 2 1", "output": "4" }, { "input": "2 1 2", "output": "1" }, { "input": "1 1 3", "output": "1" }, { "input": "2 3 4", "output": "1" }, { "input": "1000000000 1000000000 1", "output": "1000000000000000000" }, { "input": "12 13 4", "output": "12" }, { "input": "222 332 5", "output": "3015" }, { "input": "1000 1000 10", "output": "10000" }, { "input": "1001 1000 10", "output": "10100" }, { "input": "100 10001 1000000000", "output": "1" }, { "input": "1000000000 1000000000 1000000000", "output": "1" }, { "input": "1000000000 1000000000 999999999", "output": "4" }, { "input": "1000000000 1000000000 192", "output": "27126743055556" }, { "input": "1000000000 987654321 1", "output": "987654321000000000" }, { "input": "456784567 1000000000 51", "output": "175618850864484" }, { "input": "39916800 134217728 40320", "output": "3295710" } ]	1,676,475,176	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	6	31	0	str = input() lis = str.split(" ") n = int(lis[0]) m = int(lis[1]) a = int(lis[2]) sol = 0 if m == n and n == a: print(a) elif m == a: while n > 0: sol += 1 n = n-a print(sol) elif n == a: while m > 0: sol += 1 m = m-a print(sol) else: while m > 0: sol += 1 m = m-a while n > 0: sol += 1 n = n-a print(sol)	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 str = input() lis = str.split(" ") n = int(lis[0]) m = int(lis[1]) a = int(lis[2]) sol = 0 if m == n and n == a: print(a) elif m == a: while n > 0: sol += 1 n = n-a print(sol) elif n == a: while m > 0: sol += 1 m = m-a print(sol) else: while m > 0: sol += 1 m = m-a while n > 0: sol += 1 n = n-a print(sol) ```	0
630	A	Again Twenty Five!	PROGRAMMING	800	[ "number theory" ]		null	null	The HR manager was disappointed again. The last applicant failed the interview the same way as 24 previous ones. "Do I give such a hard task?" — the HR manager thought. "Just raise number 5 to the power of n and get last two digits of the number. Yes, of course, n can be rather big, and one cannot find the power using a calculator, but we need people who are able to think, not just follow the instructions." Could you pass the interview in the machine vision company in IT City?	The only line of the input contains a single integer n (2<=≤<=n<=≤<=2·1018) — the power in which you need to raise number 5.	Output the last two digits of 5n without spaces between them.	[ "2\n" ]	[ "25" ]	none	0	[ { "input": "2", "output": "25" }, { "input": "7", "output": "25" }, { "input": "1000000000000000000", "output": "25" }, { "input": "2000000000000000000", "output": "25" }, { "input": "987654321012345678", "output": "25" } ]	1,691,350,045	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	2	500	5,222,400	n=int(input()) ch=str(5**n) a=ch[len(ch)-1] b=ch[len(ch)-2] print(b+a)	Title: Again Twenty Five! Time Limit: None seconds Memory Limit: None megabytes Problem Description: The HR manager was disappointed again. The last applicant failed the interview the same way as 24 previous ones. "Do I give such a hard task?" — the HR manager thought. "Just raise number 5 to the power of n and get last two digits of the number. Yes, of course, n can be rather big, and one cannot find the power using a calculator, but we need people who are able to think, not just follow the instructions." Could you pass the interview in the machine vision company in IT City? Input Specification: The only line of the input contains a single integer n (2<=≤<=n<=≤<=2·1018) — the power in which you need to raise number 5. Output Specification: Output the last two digits of 5n without spaces between them. Demo Input: ['2\n'] Demo Output: ['25'] Note: none	```python n=int(input()) ch=str(5**n) a=ch[len(ch)-1] b=ch[len(ch)-2] print(b+a) ```	0
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" }, { "input": "2\n1 1\n1 1", "output": "maybe" }, { "input": "2\n4126 4126\n4126 4126", "output": "maybe" }, { "input": "10\n446 446\n1331 1331\n3594 3594\n1346 1902\n91 91\n3590 3590\n2437 2437\n4007 3871\n2797 699\n1423 1423", "output": "rated" }, { "input": "10\n4078 4078\n2876 2876\n1061 1061\n3721 3721\n143 143\n2992 2992\n3279 3279\n3389 3389\n1702 1702\n1110 1110", "output": "unrated" }, { "input": "10\n4078 4078\n3721 3721\n3389 3389\n3279 3279\n2992 2992\n2876 2876\n1702 1702\n1110 1110\n1061 1061\n143 143", "output": "maybe" }, { "input": "2\n3936 3936\n2967 2967", "output": "maybe" }, { "input": "2\n1 1\n2 2", "output": "unrated" }, { "input": "2\n2 2\n1 1", "output": "maybe" }, { "input": "2\n2 1\n1 2", "output": "rated" }, { "input": "2\n2967 2967\n3936 3936", "output": "unrated" }, { "input": "3\n1200 1200\n1200 1200\n1300 1300", "output": "unrated" }, { "input": "3\n3 3\n2 2\n1 1", "output": "maybe" }, { "input": "3\n1 1\n1 1\n2 2", "output": "unrated" }, { "input": "2\n3 2\n3 2", "output": "rated" }, { "input": "3\n5 5\n4 4\n3 4", "output": "rated" }, { "input": "3\n200 200\n200 200\n300 300", "output": "unrated" }, { "input": "3\n1 1\n2 2\n3 3", "output": "unrated" }, { "input": "5\n3123 3123\n2777 2777\n2246 2246\n2245 2245\n1699 1699", "output": "maybe" }, { "input": "2\n10 10\n8 8", "output": "maybe" }, { "input": "3\n1500 1500\n1500 1500\n1600 1600", "output": "unrated" }, { "input": "3\n1500 1500\n1500 1500\n1700 1700", "output": "unrated" }, { "input": "4\n100 100\n100 100\n70 70\n80 80", "output": "unrated" }, { "input": "2\n1 2\n2 1", "output": "rated" }, { "input": "3\n5 5\n4 3\n3 3", "output": "rated" }, { "input": "3\n1600 1650\n1500 1550\n1400 1450", "output": "rated" }, { "input": "4\n2000 2000\n1500 1500\n1500 1500\n1700 1700", "output": "unrated" }, { "input": "4\n1500 1500\n1400 1400\n1400 1400\n1700 1700", "output": "unrated" }, { "input": "2\n1600 1600\n1400 1400", "output": "maybe" }, { "input": "2\n3 1\n9 8", "output": "rated" }, { "input": "2\n2 1\n1 1", "output": "rated" }, { "input": "4\n4123 4123\n4123 4123\n2670 2670\n3670 3670", "output": "unrated" }, { "input": "2\n2 2\n3 3", "output": "unrated" }, { "input": "2\n10 11\n5 4", "output": "rated" }, { "input": "2\n15 14\n13 12", "output": "rated" }, { "input": "2\n2 1\n2 2", "output": "rated" }, { "input": "3\n2670 2670\n3670 3670\n4106 4106", "output": "unrated" }, { "input": "3\n4 5\n3 3\n2 2", "output": "rated" }, { "input": "2\n10 9\n10 10", "output": "rated" }, { "input": "3\n1011 1011\n1011 999\n2200 2100", "output": "rated" }, { "input": "2\n3 3\n5 5", "output": "unrated" }, { "input": "2\n1500 1500\n3000 2000", "output": "rated" }, { "input": "2\n5 6\n5 5", "output": "rated" }, { "input": "3\n2000 2000\n1500 1501\n500 500", "output": "rated" }, { "input": "2\n2 3\n2 2", "output": "rated" }, { "input": "2\n3 3\n2 2", "output": "maybe" }, { "input": "2\n1 2\n1 1", "output": "rated" }, { "input": "4\n3123 3123\n2777 2777\n2246 2246\n1699 1699", "output": "maybe" }, { "input": "2\n15 14\n14 13", "output": "rated" }, { "input": "4\n3000 3000\n2900 2900\n3000 3000\n2900 2900", "output": "unrated" }, { "input": "6\n30 3060\n24 2194\n26 2903\n24 2624\n37 2991\n24 2884", "output": "rated" }, { "input": "2\n100 99\n100 100", "output": "rated" }, { "input": "4\n2 2\n1 1\n1 1\n2 2", "output": "unrated" }, { "input": "3\n100 101\n100 100\n100 100", "output": "rated" }, { "input": "4\n1000 1001\n900 900\n950 950\n890 890", "output": "rated" }, { "input": "2\n2 3\n1 1", "output": "rated" }, { "input": "2\n2 2\n1 1", "output": "maybe" }, { "input": "2\n3 2\n2 2", "output": "rated" }, { "input": "2\n3 2\n3 3", "output": "rated" }, { "input": "2\n1 1\n2 2", "output": "unrated" }, { "input": "3\n3 2\n3 3\n3 3", "output": "rated" }, { "input": "4\n1500 1501\n1300 1300\n1200 1200\n1400 1400", "output": "rated" }, { "input": "3\n1000 1000\n500 500\n400 300", "output": "rated" }, { "input": "5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n3000 3000", "output": "unrated" }, { "input": "2\n1 1\n2 3", "output": "rated" }, { "input": "2\n6 2\n6 2", "output": "rated" }, { "input": "5\n3123 3123\n1699 1699\n2777 2777\n2246 2246\n2246 2246", "output": "unrated" }, { "input": "2\n1500 1500\n1600 1600", "output": "unrated" }, { "input": "5\n3123 3123\n2777 2777\n2246 2246\n2241 2241\n1699 1699", "output": "maybe" }, { "input": "2\n20 30\n10 5", "output": "rated" }, { "input": "3\n1 1\n2 2\n1 1", "output": "unrated" }, { "input": "2\n1 2\n3 3", "output": "rated" }, { "input": "5\n5 5\n4 4\n3 3\n2 2\n1 1", "output": "maybe" }, { "input": "2\n2 2\n2 1", "output": "rated" }, { "input": "2\n100 100\n90 89", "output": "rated" }, { "input": "2\n1000 900\n2000 2000", "output": "rated" }, { "input": "2\n50 10\n10 50", "output": "rated" }, { "input": "2\n200 200\n100 100", "output": "maybe" }, { "input": "3\n2 2\n2 2\n3 3", "output": "unrated" }, { "input": "3\n1000 1000\n300 300\n100 100", "output": "maybe" }, { "input": "4\n2 2\n2 2\n3 3\n4 4", "output": "unrated" }, { "input": "2\n5 3\n6 3", "output": "rated" }, { "input": "2\n1200 1100\n1200 1000", "output": "rated" }, { "input": "2\n5 5\n4 4", "output": "maybe" }, { "input": "2\n5 5\n3 3", "output": "maybe" }, { "input": "5\n1500 1500\n1300 1300\n1200 1200\n1400 1400\n1100 1100", "output": "unrated" }, { "input": "5\n10 10\n9 9\n8 8\n7 7\n6 6", "output": "maybe" }, { "input": "3\n1000 1000\n300 300\n10 10", "output": "maybe" }, { "input": "5\n6 6\n5 5\n4 4\n3 3\n2 2", "output": "maybe" }, { "input": "2\n3 3\n1 1", "output": "maybe" }, { "input": "4\n2 2\n2 2\n2 2\n3 3", "output": "unrated" }, { "input": "2\n1000 1000\n700 700", "output": "maybe" }, { "input": "2\n4 3\n5 3", "output": "rated" }, { "input": "2\n1000 1000\n1100 1100", "output": "unrated" }, { "input": "4\n5 5\n4 4\n3 3\n2 2", "output": "maybe" }, { "input": "3\n1 1\n2 3\n2 2", "output": "rated" }, { "input": "2\n1 2\n1 3", "output": "rated" }, { "input": "2\n3 3\n1 2", "output": "rated" }, { "input": "4\n1501 1500\n1300 1300\n1200 1200\n1400 1400", "output": "rated" }, { "input": "5\n1 1\n2 2\n3 3\n4 4\n5 5", "output": "unrated" }, { "input": "2\n10 10\n1 2", "output": "rated" }, { "input": "6\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n1699 1699\n1900 1900", "output": "unrated" }, { "input": "6\n3123 3123\n2777 2777\n3000 3000\n2246 2246\n2246 2246\n1699 1699", "output": "unrated" }, { "input": "2\n100 100\n110 110", "output": "unrated" }, { "input": "3\n3 3\n3 3\n4 4", "output": "unrated" }, { "input": "3\n3 3\n3 2\n4 4", "output": "rated" }, { "input": "3\n5 2\n4 4\n3 3", "output": "rated" }, { "input": "4\n4 4\n3 3\n2 2\n1 1", "output": "maybe" }, { "input": "2\n1 1\n3 2", "output": "rated" }, { "input": "5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n2699 2699", "output": "unrated" }, { "input": "3\n3 3\n3 3\n3 4", "output": "rated" }, { "input": "3\n1 2\n2 2\n3 3", "output": "rated" }, { "input": "3\n1 2\n1 2\n1 2", "output": "rated" }, { "input": "2\n2 1\n2 1", "output": "rated" }, { "input": "2\n1 2\n3 4", "output": "rated" }, { "input": "2\n3 2\n2 3", "output": "rated" }, { "input": "3\n1500 1500\n1600 1600\n1600 1600", "output": "unrated" }, { "input": "3\n1 1\n3 3\n4 4", "output": "unrated" }, { "input": "3\n1 1\n2 2\n2 2", "output": "unrated" }, { "input": "2\n10 12\n8 8", "output": "rated" }, { "input": "5\n1200 1200\n1500 1500\n1500 1500\n1500 1500\n1500 1500", "output": "unrated" }, { "input": "2\n1 2\n2 2", "output": "rated" }, { "input": "3\n1500 1400\n1200 1200\n1100 1100", "output": "rated" }, { "input": "2\n10 12\n10 10", "output": "rated" }, { "input": "3\n1500 1500\n1400 1400\n1300 1300", "output": "maybe" }, { "input": "3\n3 3\n4 4\n5 5", "output": "unrated" }, { "input": "3\n2 6\n3 5\n4 4", "output": "rated" }, { "input": "2\n5 6\n4 6", "output": "rated" }, { "input": "4\n10 10\n10 10\n7 7\n8 8", "output": "unrated" }, { "input": "2\n4 4\n3 3", "output": "maybe" } ]	1,494,497,044	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	5	61	204,800	num_of_lines = int(input());data = [];outcome="m" last_i = None for i in range(num_of_lines): data.append(tuple(map(int, input().split()))) for i in data: if (i[0] != i[1]): outcome = "r" elif not last_i is None: if (last_i[0] < i[0]): outcome = "f" last_i = i if (outcome == "f"): print("unrated") elif (outcome == "m"): print("maybe") else: print("rated")	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 num_of_lines = int(input());data = [];outcome="m" last_i = None for i in range(num_of_lines): data.append(tuple(map(int, input().split()))) for i in data: if (i[0] != i[1]): outcome = "r" elif not last_i is None: if (last_i[0] < i[0]): outcome = "f" last_i = i if (outcome == "f"): print("unrated") elif (outcome == "m"): print("maybe") else: print("rated") ```	0
730	J	Bottles	PROGRAMMING	1,900	[ "dp" ]		null	null	Nick has n bottles of soda left after his birthday. Each bottle is described by two values: remaining amount of soda ai and bottle volume bi (ai<=≤<=bi). Nick has decided to pour all remaining soda into minimal number of bottles, moreover he has to do it as soon as possible. Nick spends x seconds to pour x units of soda from one bottle to another. Nick asks you to help him to determine k — the minimal number of bottles to store all remaining soda and t — the minimal time to pour soda into k bottles. A bottle can't store more soda than its volume. All remaining soda should be saved.	The first line contains positive integer n (1<=≤<=n<=≤<=100) — the number of bottles. The second line contains n positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100), where ai is the amount of soda remaining in the i-th bottle. The third line contains n positive integers b1,<=b2,<=...,<=bn (1<=≤<=bi<=≤<=100), where bi is the volume of the i-th bottle. It is guaranteed that ai<=≤<=bi for any i.	The only line should contain two integers k and t, where k is the minimal number of bottles that can store all the soda and t is the minimal time to pour the soda into k bottles.	[ "4\n3 3 4 3\n4 7 6 5\n", "2\n1 1\n100 100\n", "5\n10 30 5 6 24\n10 41 7 8 24\n" ]	[ "2 6\n", "1 1\n", "3 11\n" ]	In the first example Nick can pour soda from the first bottle to the second bottle. It will take 3 seconds. After it the second bottle will contain 3 + 3 = 6 units of soda. Then he can pour soda from the fourth bottle to the second bottle and to the third bottle: one unit to the second and two units to the third. It will take 1 + 2 = 3 seconds. So, all the soda will be in two bottles and he will spend 3 + 3 = 6 seconds to do it.	0	[ { "input": "4\n3 3 4 3\n4 7 6 5", "output": "2 6" }, { "input": "2\n1 1\n100 100", "output": "1 1" }, { "input": "5\n10 30 5 6 24\n10 41 7 8 24", "output": "3 11" }, { "input": "1\n1\n100", "output": "1 0" }, { "input": "1\n100\n100", "output": "1 0" }, { "input": "1\n50\n100", "output": "1 0" }, { "input": "10\n18 42 5 1 26 8 40 34 8 29\n18 71 21 67 38 13 99 37 47 76", "output": "3 100" }, { "input": "20\n24 22 4 34 76 13 78 1 81 51 72 11 25 46 22 33 60 42 25 19\n40 81 10 34 84 16 90 38 99 81 100 19 79 65 26 80 62 47 76 47", "output": "9 217" }, { "input": "30\n29 3 2 13 3 12 73 22 37 48 59 17 2 13 69 43 32 14 4 2 61 22 40 30 1 4 46 5 65 17\n55 3 3 92 25 27 97 40 55 74 91 31 7 33 72 62 61 40 16 2 70 61 67 72 8 5 48 9 75 84", "output": "10 310" }, { "input": "40\n9 18 41 31 27 24 76 32 4 38 1 35 21 3 26 32 31 13 41 31 39 14 45 15 12 5 7 14 3 14 19 11 1 81 1 4 7 28 4 62\n70 21 95 63 66 30 100 42 4 80 83 39 34 6 27 55 72 38 43 48 81 53 54 30 63 23 9 59 3 83 83 95 1 81 30 40 35 58 8 66", "output": "11 560" }, { "input": "50\n48 29 72 22 99 27 40 23 39 4 46 29 39 16 47 35 79 7 15 23 50 34 35 22 9 2 51 10 2 42 4 3 30 2 72 19 50 20 11 29 1 2 1 7 7 6 7 75 40 69\n81 36 76 26 100 41 99 39 52 73 83 51 54 86 73 49 79 27 83 90 100 40 49 81 22 54 85 21 26 79 36 96 73 10 98 31 65 39 89 39 1 32 5 20 71 39 87 80 60 86", "output": "17 563" }, { "input": "60\n3 3 22 46 23 19 2 27 3 26 34 18 8 50 13 18 23 26 9 14 7 2 17 12 63 25 4 71 14 47 70 13 6 38 28 22 94 10 51 7 29 1 54 12 8 5 4 34 11 24 2 14 54 65 11 30 3 23 12 11\n4 54 69 97 45 53 2 41 4 74 78 66 85 59 19 38 82 28 11 41 15 43 41 43 77 77 50 75 46 66 97 93 50 44 69 22 94 23 61 27 44 1 56 25 31 63 8 37 23 57 6 17 54 68 14 40 43 31 31 60", "output": "19 535" }, { "input": "70\n17 70 52 31 15 51 8 38 3 43 2 34 7 16 58 29 73 23 41 88 9 24 24 90 33 84 10 29 67 17 47 72 11 79 22 5 8 65 23 7 29 31 11 42 11 14 9 3 54 22 38 34 2 4 39 13 11 34 3 35 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11 42 65 77 61 6 60 84 67 15 99 12 2 84 51 17 10 3 50 45 57 53 20 52 64 72 74 44 80 83 70 61 82 81 88 17 22 53 1 44 66 21 10 84 39 11 5 77 93 74 90 17 83 85 70 36 28 87 6 48 22 23 100 22 97 64 96 89 52 49 95 93 34 37 18 69 69 43 83 70 14 54 2 30", "output": "25 955" }, { "input": "10\n96 4 51 40 89 36 35 38 4 82\n99 8 56 42 94 46 35 43 4 84", "output": "8 8" }, { "input": "20\n59 35 29 57 85 70 26 53 56 3 11 56 43 20 81 72 77 72 36 61\n67 53 80 69 100 71 30 63 60 3 20 56 75 23 97 80 81 85 49 80", "output": "13 187" }, { "input": "30\n33 4 1 42 86 85 35 51 45 88 23 35 79 92 81 46 47 32 41 17 18 36 28 58 31 15 17 38 49 78\n36 4 1 49 86 86 43 51 64 93 24 42 82 98 92 47 56 41 41 25 20 53 32 61 53 26 20 38 49 98", "output": "22 123" }, { "input": "40\n31 72 17 63 89 13 72 42 39 30 23 29 5 61 88 37 7 23 49 32 41 25 17 15 9 25 30 61 29 66 24 40 75 67 69 22 61 22 13 35\n32 73 20 68 98 13 74 79 41 33 27 85 5 68 95 44 9 24 95 36 45 26 20 31 10 53 37 72 51 84 24 59 80 75 74 22 72 27 13 39", "output": "24 290" }, { "input": "50\n72 9 46 38 43 75 63 73 70 11 9 48 32 93 33 24 46 44 27 78 43 2 26 84 42 78 35 34 76 36 67 79 82 63 17 26 30 43 35 34 54 37 13 65 8 37 8 8 70 79\n96 19 54 54 44 75 66 80 71 12 9 54 38 95 39 25 48 52 39 86 44 2 27 99 54 99 35 44 80 36 86 93 98 73 27 30 39 43 80 34 61 38 13 69 9 37 8 9 75 97", "output": "34 283" }, { "input": "60\n70 19 46 34 43 19 75 42 47 14 66 64 63 58 55 79 38 45 49 80 72 54 96 26 63 41 12 55 14 56 79 51 12 9 14 77 70 75 46 27 45 10 76 59 40 67 55 24 26 90 50 75 12 93 27 39 46 58 66 31\n73 23 48 49 53 23 76 62 65 14 67 89 66 71 59 90 40 47 68 82 81 61 96 48 99 53 13 60 21 63 83 75 15 12 16 80 74 87 66 31 45 12 76 61 45 88 55 32 28 90 50 75 12 94 29 51 57 85 84 38", "output": "42 368" }, { "input": "70\n67 38 59 72 9 64 12 3 51 58 50 4 16 46 62 77 58 73 7 92 48 9 90 50 35 9 61 57 50 20 48 61 27 77 47 6 83 28 78 14 68 32 2 2 22 57 34 71 26 74 3 76 41 66 30 69 34 16 29 7 14 19 11 5 13 66 19 19 17 55\n69 41 84 91 10 77 12 7 70 74 55 7 30 63 66 79 89 88 10 93 89 15 91 81 41 26 65 67 55 37 73 94 34 94 47 6 90 31 100 25 69 33 2 3 43 97 37 95 35 85 3 78 50 86 30 73 34 21 32 13 21 32 11 5 13 80 23 20 17 58", "output": "38 484" }, { "input": "80\n36 80 23 45 68 72 2 69 84 33 3 43 6 64 82 54 15 15 17 4 3 29 74 14 53 50 52 27 32 18 60 62 50 29 28 48 77 11 24 17 3 55 58 20 4 32 55 16 27 60 5 77 23 31 11 60 21 65 38 39 82 58 51 78 24 30 75 79 5 41 94 10 14 7 1 26 21 41 6 52\n37 93 24 46 99 74 2 93 86 33 3 44 6 71 88 65 15 19 24 4 3 40 82 14 62 81 56 30 33 30 62 62 70 29 31 53 78 13 27 31 3 65 61 20 5 41 58 25 27 61 6 87 26 31 13 62 25 71 44 45 82 75 62 95 24 44 82 94 6 50 94 10 15 15 1 29 35 60 8 68", "output": "50 363" }, { "input": "10\n5 12 10 18 10 9 2 20 5 20\n70 91 36 94 46 15 10 73 55 43", "output": "2 71" }, { "input": "20\n8 1 44 1 12 1 9 11 1 1 5 2 9 16 16 2 1 5 4 1\n88 2 80 33 55 3 74 61 17 11 11 16 42 81 88 14 4 81 60 10", "output": "2 90" }, { "input": "30\n10 1 8 10 2 6 45 7 3 7 1 3 1 1 14 2 5 19 4 1 13 3 5 6 1 5 1 1 23 1\n98 4 43 41 56 58 85 51 47 55 20 85 93 12 49 15 95 72 20 4 68 24 16 97 21 52 18 69 89 15", "output": "3 122" }, { "input": "40\n10 32 10 7 10 6 25 3 18 4 24 4 8 14 6 15 11 8 2 8 2 5 19 9 5 5 3 34 5 1 6 6 1 4 5 26 34 2 21 1\n35 66 54 11 58 68 75 12 69 94 80 33 23 48 45 66 94 53 25 53 83 30 64 49 69 84 73 85 26 41 10 65 23 56 58 93 58 7 100 7", "output": "5 281" }, { "input": "50\n2 1 2 2 38 19 1 2 7 1 2 5 5 1 14 53 21 1 17 9 4 1 24 8 1 1 1 5 4 14 37 1 15 1 4 15 1 3 3 16 17 1 10 18 36 14 25 8 8 48\n45 24 8 12 83 37 6 20 88 9 10 11 28 9 60 98 76 20 84 95 15 45 74 48 37 2 46 34 99 57 94 70 31 22 11 88 58 25 20 73 64 64 81 80 59 64 92 31 43 89", "output": "6 337" }, { "input": "60\n9 9 11 16 58 6 25 6 3 23 1 14 1 8 4 2 1 18 10 1 13 4 23 1 38 6 1 13 5 1 1 1 2 1 1 17 1 24 18 20 2 1 9 26 1 12 3 6 7 17 18 1 2 9 3 6 3 30 7 12\n47 82 78 52 99 51 90 23 58 49 2 98 100 60 25 60 6 69 79 6 91 47 69 18 99 46 30 51 11 3 42 17 33 61 14 81 16 76 72 94 13 5 51 88 26 43 80 31 26 70 93 76 18 67 25 86 60 81 40 38", "output": "7 368" }, { "input": "70\n20 7 5 7 3 10 1 14 33 1 5 3 4 21 7 7 1 2 2 2 8 15 18 2 7 1 1 1 15 2 27 2 6 21 4 2 7 5 1 6 13 36 13 1 10 5 8 13 24 2 10 16 11 9 4 1 1 8 6 26 9 3 3 2 8 5 17 9 1 13\n85 36 76 36 65 24 37 56 78 42 33 13 29 93 31 38 1 59 71 31 28 55 70 14 33 9 1 5 41 22 86 41 92 89 88 10 39 54 6 32 58 82 49 22 62 44 29 19 54 12 59 54 51 80 66 16 22 74 8 68 35 34 24 8 22 14 55 76 32 75", "output": "7 426" }, { "input": "80\n11 6 9 6 5 18 21 11 6 6 2 9 4 1 10 12 2 9 1 14 6 12 16 14 4 5 1 16 3 4 6 1 11 30 2 4 1 11 1 6 1 3 2 14 6 14 13 1 10 2 4 14 11 8 28 2 2 3 1 6 26 3 11 4 1 1 29 4 5 4 3 5 1 4 2 12 59 3 18 1\n94 43 36 86 12 75 50 80 55 14 5 97 17 25 28 86 51 56 17 88 48 40 31 39 51 58 4 75 70 30 11 8 61 88 10 25 35 46 31 51 20 79 22 54 19 67 31 89 42 70 30 37 35 78 95 31 31 51 31 50 54 90 63 27 6 2 92 80 48 9 27 33 61 63 30 38 95 46 86 45", "output": "8 434" }, { "input": "90\n1 9 3 3 14 3 2 32 17 3 1 1 4 1 18 1 1 21 9 1 2 10 6 9 27 15 5 1 3 37 1 2 1 12 6 1 8 4 1 5 1 3 8 9 1 9 23 1 1 2 1 2 2 19 2 6 5 6 1 7 12 35 1 2 8 1 11 32 7 4 12 9 18 8 9 27 31 15 16 4 16 13 2 2 1 4 12 17 10 1\n8 52 13 56 42 40 8 98 64 47 84 11 12 1 97 8 8 66 35 4 6 62 22 38 68 57 50 28 28 88 7 57 9 81 14 37 71 57 33 24 2 21 54 58 58 27 79 3 55 13 2 95 17 97 61 22 28 85 78 72 68 80 12 41 98 18 35 70 40 22 98 85 51 70 79 100 68 29 73 45 89 64 53 6 16 29 73 53 24 69", "output": "8 562" }, { "input": "32\n4 1 1 6 2 5 8 6 5 6 3 2 1 3 1 9 1 2 1 5 2 1 6 5 3 7 3 3 2 5 1 1\n8 1 3 6 4 7 9 8 6 8 10 2 5 3 2 10 1 10 9 5 4 1 8 7 8 7 4 10 4 6 9 2", "output": "13 46" }, { "input": "38\n2 1 1 1 1 9 5 2 1 3 4 3 1 7 4 4 8 7 1 5 4 9 1 6 3 4 1 4 1 5 5 1 8 3 1 3 6 3\n2 1 6 2 9 10 6 2 1 5 4 6 1 7 4 6 10 8 8 6 4 10 1 6 4 4 6 4 4 8 5 2 10 7 3 5 6 3", "output": "19 40" }, { "input": "35\n9 7 34 3 2 6 36 3 26 12 17 8 5 32 55 10 24 19 2 3 30 17 14 1 33 36 42 14 51 1 2 22 13 34 28\n9 9 55 17 16 12 37 14 27 58 51 16 10 37 69 15 43 26 14 60 86 34 54 1 37 50 58 18 92 66 7 24 25 92 30", "output": "10 307" }, { "input": "35\n21 2 68 56 41 25 42 17 21 20 29 26 38 37 29 77 43 13 32 48 38 31 15 8 52 6 63 45 70 2 21 13 3 14 47\n46 83 100 87 59 95 47 33 56 60 38 76 63 75 60 92 65 43 56 94 70 80 46 40 64 6 83 50 75 19 52 66 13 88 62", "output": "14 432" }, { "input": "69\n24 32 19 37 36 7 15 10 54 12 15 46 3 25 12 16 3 8 55 21 23 57 17 45 11 4 25 35 39 3 69 24 78 40 12 39 1 44 4 75 53 60 1 6 30 7 6 39 44 13 31 6 4 4 32 11 52 58 81 2 33 7 29 19 21 26 22 60 24\n57 56 50 64 40 58 31 20 81 14 43 64 48 38 56 71 58 26 98 92 52 88 71 93 11 20 79 39 56 7 92 54 88 58 19 85 12 71 4 87 78 90 29 18 89 13 86 71 100 24 65 95 46 8 91 35 62 66 96 36 80 24 81 58 53 86 89 67 73", "output": "22 801" }, { "input": "63\n8 23 6 19 1 34 23 1 15 58 22 10 5 14 41 1 16 48 68 5 13 19 1 4 35 2 42 8 45 24 52 44 59 78 5 11 14 41 10 26 60 26 9 15 34 1 14 5 2 6 19 7 4 26 49 39 13 40 18 62 66 8 4\n17 25 39 45 2 44 40 1 82 68 80 27 7 58 90 20 100 80 79 21 53 62 2 11 51 98 78 55 48 37 89 74 83 91 64 30 20 50 24 74 81 94 33 64 56 28 57 9 27 50 81 34 18 33 53 61 39 89 44 77 86 40 89", "output": "18 638" }, { "input": "73\n69 67 34 35 10 27 30 27 31 48 25 18 81 54 32 54 5 62 20 4 94 2 60 4 6 11 62 68 14 18 42 18 33 71 72 2 29 7 36 60 10 25 17 2 38 77 34 36 74 76 63 32 42 29 22 14 5 1 6 2 14 19 20 19 41 31 16 17 50 49 2 22 51\n73 70 58 54 10 71 59 35 91 61 52 65 90 70 37 80 12 94 78 34 97 4 62 95 10 11 93 100 14 38 56 42 96 96 84 71 69 43 50 79 11 83 95 76 39 79 61 42 89 90 71 62 43 38 39 21 5 40 27 13 21 73 30 46 47 34 23 22 57 59 6 25 72", "output": "30 808" }, { "input": "90\n1 43 87 1 6 12 49 6 3 9 38 1 64 49 11 18 5 1 46 25 30 82 17 4 8 9 5 5 4 1 10 4 13 42 44 90 1 11 27 23 25 4 12 19 48 3 59 48 39 14 1 5 64 46 39 24 28 77 25 20 3 14 28 2 20 63 2 1 13 11 44 49 61 76 20 1 3 42 38 8 69 17 27 18 29 54 2 1 2 7\n8 96 91 1 11 20 83 34 41 88 54 4 65 82 48 60 62 18 76 74 75 89 87 8 11 32 67 7 5 1 92 88 57 92 76 95 35 58 68 23 30 25 12 31 85 5 89 84 71 23 1 5 76 56 57 57 76 94 33 34 66 20 54 5 22 69 2 19 28 62 74 88 91 86 30 6 3 48 80 10 84 20 44 37 81 100 12 3 6 8", "output": "26 899" }, { "input": "85\n20 47 52 6 5 15 35 42 5 84 4 8 61 47 7 50 20 24 15 27 86 28 1 39 1 2 63 2 31 33 47 4 33 68 20 4 4 42 20 67 7 10 46 4 22 36 30 40 4 15 51 2 39 50 65 48 34 6 50 19 32 48 8 23 42 70 69 8 29 81 5 1 7 21 3 30 78 6 2 1 3 69 34 34 18\n74 64 89 61 5 17 75 43 13 87 30 51 93 54 7 76 44 44 98 77 86 97 1 41 1 3 69 3 80 87 67 6 90 100 31 5 7 46 99 67 9 44 56 7 39 39 55 80 80 33 77 9 89 79 86 53 49 49 72 87 43 84 24 23 43 94 74 17 54 96 28 64 14 42 91 60 87 69 20 1 30 95 44 50 20", "output": "29 987" }, { "input": "81\n21 13 1 25 14 33 33 41 53 89 2 18 61 8 3 35 15 59 2 2 3 5 75 37 1 34 7 12 33 66 6 4 14 78 3 16 12 45 3 2 1 17 17 45 4 30 68 40 44 3 1 21 64 63 14 19 75 63 7 9 12 75 20 28 16 20 53 26 13 46 18 8 28 32 9 29 1 11 75 4 21\n45 90 21 31 36 68 71 47 59 89 61 32 98 67 7 53 90 86 6 28 4 83 93 62 8 56 18 35 33 92 36 37 23 98 44 21 23 79 10 4 2 18 48 87 29 86 79 74 45 3 6 23 79 71 17 39 88 73 50 15 13 92 33 47 83 48 73 33 15 63 43 14 90 72 9 95 1 22 83 20 29", "output": "26 754" }, { "input": "2\n1 1\n1 1", "output": "2 0" }, { "input": "1\n1\n1", "output": "1 0" }, { "input": "1\n1\n2", "output": "1 0" }, { "input": "2\n1 1\n1 100", "output": "1 1" }, { "input": "2\n1 1\n100 1", "output": "1 1" }, { "input": "86\n5 1 3 1 1 1 1 9 4 1 3 1 4 6 3 2 2 7 1 1 3 1 2 1 1 5 4 3 6 3 3 4 8 2 1 3 1 2 7 2 5 4 2 1 1 2 1 3 2 9 1 4 2 1 1 9 6 1 8 1 7 9 4 3 4 1 3 1 1 3 1 1 3 1 1 10 7 7 4 1 1 3 1 6 1 3\n10 2 5 7 1 4 7 9 4 7 3 1 5 6 3 8 4 10 5 1 9 3 4 2 1 5 7 4 7 7 7 5 9 5 3 3 6 4 7 2 9 7 3 4 2 3 1 5 6 9 10 4 8 10 10 9 7 8 10 1 7 10 10 7 8 5 8 2 1 4 1 2 3 8 1 10 9 7 4 2 1 3 4 9 2 3", "output": "32 101" }, { "input": "90\n9 2 2 3 4 1 9 8 3 3 1 1 1 1 2 2 1 3 4 8 8 1 2 7 3 4 5 6 1 2 9 4 2 5 6 1 1 2 6 5 1 4 3 2 4 1 1 3 1 1 3 1 8 3 1 4 1 2 2 3 5 2 8 6 2 5 2 1 4 2 1 5 4 2 1 1 2 1 1 6 4 4 3 4 1 4 4 6 2 3\n10 6 2 3 10 1 10 10 6 4 1 3 6 1 2 5 3 7 7 9 9 2 3 8 3 4 9 7 8 4 10 7 8 10 9 5 1 4 6 5 1 9 10 4 6 4 1 3 3 1 6 1 9 4 1 6 4 5 5 10 7 9 9 10 4 5 2 1 4 2 1 7 6 5 3 9 2 5 1 8 6 4 6 10 1 7 5 9 6 4", "output": "35 109" }, { "input": "33\n33 20 33 40 58 50 5 6 13 12 4 33 11 50 12 19 16 36 68 57 23 17 6 22 39 58 49 21 10 35 35 17 12\n62 22 53 44 66 60 97 7 33 18 10 59 33 77 55 63 91 86 87 86 27 62 65 53 46 69 64 63 10 53 52 23 24", "output": "13 356" }, { "input": "83\n13 20 5 29 48 53 88 17 11 5 44 15 85 13 2 55 6 16 57 29 12 15 12 92 21 25 1 2 4 5 2 22 8 18 22 2 3 10 43 71 3 41 1 73 6 18 32 63 26 13 6 75 19 10 41 30 15 12 14 8 15 77 73 7 5 39 83 19 2 2 3 61 53 43 3 15 76 29 8 46 19 3 8\n54 34 15 58 50 67 100 43 30 15 46 26 94 75 2 58 85 38 68 98 83 51 82 100 61 27 5 5 41 89 17 34 10 48 48 4 15 13 71 75 4 44 2 82 18 82 59 96 26 13 66 95 81 33 85 45 16 92 41 37 85 78 83 17 7 72 83 38 69 24 18 76 71 66 3 66 78 31 73 72 43 89 49", "output": "26 944" }, { "input": "70\n13 42 8 56 21 58 39 2 49 39 15 26 62 45 26 8 47 40 9 36 41 2 4 38 6 55 2 41 72 18 10 2 6 11 4 39 19 39 14 59 5 42 19 79 12 3 1 1 21 6 5 9 36 6 38 2 7 26 8 15 66 7 1 30 93 34 45 24 12 20\n26 56 25 60 26 79 99 7 68 92 99 32 81 48 39 97 49 95 18 82 59 4 99 41 10 63 43 54 76 97 73 7 17 43 4 84 35 86 20 63 8 59 87 80 34 3 8 13 49 55 14 11 68 8 41 33 14 39 43 31 89 13 7 88 93 51 84 73 26 30", "output": "21 867" }, { "input": "77\n19 34 39 56 1 2 47 8 17 28 23 45 18 7 5 3 11 20 30 24 13 34 11 1 4 14 68 23 13 33 3 8 1 5 8 23 12 1 19 14 22 67 26 55 10 1 63 82 82 6 38 5 6 11 1 62 1 12 5 40 19 20 37 9 5 3 2 44 13 20 44 32 11 29 12 19 35\n28 41 43 68 1 36 57 13 84 89 26 92 47 19 7 94 79 75 74 42 32 44 46 23 96 46 82 86 91 33 25 11 12 68 22 31 89 14 81 32 50 94 27 66 50 39 98 90 91 11 69 6 45 19 15 74 22 31 7 92 23 98 88 32 8 4 2 51 79 69 70 43 16 60 29 20 98", "output": "19 937" }, { "input": "77\n44 2 13 14 8 46 65 14 1 39 12 18 15 10 2 40 71 40 17 1 16 72 13 7 41 23 81 12 4 1 19 18 41 35 23 56 21 5 17 47 88 1 24 15 48 15 1 13 50 5 31 16 21 47 4 1 49 2 15 23 46 47 27 22 23 40 29 4 30 50 51 12 20 14 41 25 12\n57 16 72 59 28 80 74 19 4 60 52 52 97 20 5 69 84 66 63 38 50 79 24 84 58 92 99 36 38 97 66 79 41 48 26 95 28 38 28 72 95 71 30 15 63 17 7 69 90 29 89 40 21 83 73 24 51 14 15 74 100 88 74 27 46 61 38 4 32 52 52 51 47 51 81 75 19", "output": "24 932" } ]	1,667,574,564	2,147,483,647	PyPy 3-64	TIME_LIMIT_EXCEEDED	TESTS	8	2,000	15,769,600	from platform import node import sys def solution(s, n): ss = [int(d) for d in s.split(' ')] nodes = [[ss[i], int(d)] for i, d in enumerate(n.split(' '))] nodes.sort(key=lambda a: a[1]1000000+a[0], reverse=True) sum_ss = sum(ss) sum_all = 0 ret_num = 0 class G: ret_time = 0 while sum_all < sum_ss: sum_all += nodes[ret_num][1] ret_num += 1 def util(n, k, sum1, sum2): if k == 0: if sum1 >= sum_ss: G.ret_time = max(G.ret_time, sum2) return if n >= len(nodes): return util(n+1, k-1, sum1+nodes[n][1], sum2+nodes[n][0]) util(n+1, k, sum1, sum2) util(0, ret_num, 0, 0) return '%s %s' % (ret_num, sum_ss-G.ret_time) if __name__ == "__main__": if sys.argv[-1] == 't': cases = [ ["1", "1", "1 0"], ["96 4 51 40 89 36 35 38 4 82", "99 8 56 42 94 46 35 43 4 84", "8 8"], ["1 2 2 1", "5 4 3 3", "2 2"], ["24 22 4 34 76 13 78 1 81 51 72 11 25 46 22 33 60 42 25 19", "40 81 10 34 84 16 90 38 99 81 100 19 79 65 26 80 62 47 76 47", "9 217"] ] for case in cases: r = solution(case[:-1]) if r != case[-1]: print(case, r) else: _ = input() print(solution(input(), input()))	Title: Bottles Time Limit: None seconds Memory Limit: None megabytes Problem Description: Nick has n bottles of soda left after his birthday. Each bottle is described by two values: remaining amount of soda ai and bottle volume bi (ai<=≤<=bi). Nick has decided to pour all remaining soda into minimal number of bottles, moreover he has to do it as soon as possible. Nick spends x seconds to pour x units of soda from one bottle to another. Nick asks you to help him to determine k — the minimal number of bottles to store all remaining soda and t — the minimal time to pour soda into k bottles. A bottle can't store more soda than its volume. All remaining soda should be saved. Input Specification: The first line contains positive integer n (1<=≤<=n<=≤<=100) — the number of bottles. The second line contains n positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100), where ai is the amount of soda remaining in the i-th bottle. The third line contains n positive integers b1,<=b2,<=...,<=bn (1<=≤<=bi<=≤<=100), where bi is the volume of the i-th bottle. It is guaranteed that ai<=≤<=bi for any i. Output Specification: The only line should contain two integers k and t, where k is the minimal number of bottles that can store all the soda and t is the minimal time to pour the soda into k bottles. Demo Input: ['4\n3 3 4 3\n4 7 6 5\n', '2\n1 1\n100 100\n', '5\n10 30 5 6 24\n10 41 7 8 24\n'] Demo Output: ['2 6\n', '1 1\n', '3 11\n'] Note: In the first example Nick can pour soda from the first bottle to the second bottle. It will take 3 seconds. After it the second bottle will contain 3 + 3 = 6 units of soda. Then he can pour soda from the fourth bottle to the second bottle and to the third bottle: one unit to the second and two units to the third. It will take 1 + 2 = 3 seconds. So, all the soda will be in two bottles and he will spend 3 + 3 = 6 seconds to do it.	```python from platform import node import sys def solution(s, n): ss = [int(d) for d in s.split(' ')] nodes = [[ss[i], int(d)] for i, d in enumerate(n.split(' '))] nodes.sort(key=lambda a: a[1]1000000+a[0], reverse=True) sum_ss = sum(ss) sum_all = 0 ret_num = 0 class G: ret_time = 0 while sum_all < sum_ss: sum_all += nodes[ret_num][1] ret_num += 1 def util(n, k, sum1, sum2): if k == 0: if sum1 >= sum_ss: G.ret_time = max(G.ret_time, sum2) return if n >= len(nodes): return util(n+1, k-1, sum1+nodes[n][1], sum2+nodes[n][0]) util(n+1, k, sum1, sum2) util(0, ret_num, 0, 0) return '%s %s' % (ret_num, sum_ss-G.ret_time) if __name__ == "__main__": if sys.argv[-1] == 't': cases = [ ["1", "1", "1 0"], ["96 4 51 40 89 36 35 38 4 82", "99 8 56 42 94 46 35 43 4 84", "8 8"], ["1 2 2 1", "5 4 3 3", "2 2"], ["24 22 4 34 76 13 78 1 81 51 72 11 25 46 22 33 60 42 25 19", "40 81 10 34 84 16 90 38 99 81 100 19 79 65 26 80 62 47 76 47", "9 217"] ] for case in cases: r = solution(case[:-1]) if r != case[-1]: print(case, r) else: _ = input() print(solution(input(), input())) ```	0
12	B	Correct Solution?	PROGRAMMING	1,100	[ "implementation", "sortings" ]	B. Correct Solution?	2	256	One cold winter evening Alice and her older brother Bob was sitting at home near the fireplace and giving each other interesting problems to solve. When it was Alice's turn, she told the number n to Bob and said: —Shuffle the digits in this number in order to obtain the smallest possible number without leading zeroes. —No problem! — said Bob and immediately gave her an answer. Alice said a random number, so she doesn't know whether Bob's answer is correct. Help her to find this out, because impatient brother is waiting for the verdict.	The first line contains one integer n (0<=≤<=n<=≤<=109) without leading zeroes. The second lines contains one integer m (0<=≤<=m<=≤<=109) — Bob's answer, possibly with leading zeroes.	Print OK if Bob's answer is correct and WRONG_ANSWER otherwise.	[ "3310\n1033\n", "4\n5\n" ]	[ "OK\n", "WRONG_ANSWER\n" ]	none	0	[ { "input": "3310\n1033", "output": "OK" }, { "input": "4\n5", "output": "WRONG_ANSWER" }, { "input": "40\n04", "output": "WRONG_ANSWER" }, { "input": "12\n12", "output": "OK" }, { "input": "432\n234", "output": "OK" }, { "input": "17109\n01179", "output": "WRONG_ANSWER" }, { "input": "888\n888", "output": "OK" }, { "input": "912\n9123", "output": "WRONG_ANSWER" }, { "input": "0\n00", "output": "WRONG_ANSWER" }, { "input": "11110\n1111", "output": "WRONG_ANSWER" }, { "input": "7391\n1397", "output": "WRONG_ANSWER" }, { "input": "201\n102", "output": "OK" }, { "input": "111111111\n111111111", "output": "OK" }, { "input": "32352320\n22203335", "output": "WRONG_ANSWER" }, { "input": "1000000000\n1", "output": "WRONG_ANSWER" }, { "input": "994321\n123499", "output": "OK" }, { "input": "10101\n10101", "output": "WRONG_ANSWER" }, { "input": "666\n0666", "output": "WRONG_ANSWER" }, { "input": "2\n02", "output": "WRONG_ANSWER" }, { "input": "313\n133", "output": "OK" }, { "input": "987235645\n234556789", "output": "OK" }, { "input": "90812\n010289", "output": "WRONG_ANSWER" }, { "input": "123\n321", "output": "WRONG_ANSWER" }, { "input": "707\n770", "output": "WRONG_ANSWER" }, { "input": "77774444\n47474747", "output": "WRONG_ANSWER" }, { "input": "1270\n1027", "output": "OK" }, { "input": "320\n23", "output": "WRONG_ANSWER" }, { "input": "123456789\n123456789", "output": "OK" }, { "input": "918273645\n546372819", "output": "WRONG_ANSWER" }, { "input": "300000003\n30000003", "output": "WRONG_ANSWER" }, { "input": "0\n0", "output": "OK" }, { "input": "0\n7", "output": "WRONG_ANSWER" } ]	1,671,443,783	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	124	0	a=input() b=list(input()) x=sorted(a) if x[0]=="0": for i in range(len(a)): if x[i]!="0": x[0],x[i]=x[i],"0" break if x==b: print("YES") else: print("WRONG_ANSWER")	Title: Correct Solution? Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One cold winter evening Alice and her older brother Bob was sitting at home near the fireplace and giving each other interesting problems to solve. When it was Alice's turn, she told the number n to Bob and said: —Shuffle the digits in this number in order to obtain the smallest possible number without leading zeroes. —No problem! — said Bob and immediately gave her an answer. Alice said a random number, so she doesn't know whether Bob's answer is correct. Help her to find this out, because impatient brother is waiting for the verdict. Input Specification: The first line contains one integer n (0<=≤<=n<=≤<=109) without leading zeroes. The second lines contains one integer m (0<=≤<=m<=≤<=109) — Bob's answer, possibly with leading zeroes. Output Specification: Print OK if Bob's answer is correct and WRONG_ANSWER otherwise. Demo Input: ['3310\n1033\n', '4\n5\n'] Demo Output: ['OK\n', 'WRONG_ANSWER\n'] Note: none	```python a=input() b=list(input()) x=sorted(a) if x[0]=="0": for i in range(len(a)): if x[i]!="0": x[0],x[i]=x[i],"0" break if x==b: print("YES") else: print("WRONG_ANSWER") ```	0
46	B	T-shirts from Sponsor	PROGRAMMING	1,100	[ "implementation" ]	B. T-shirts from Sponsor	2	256	One day a well-known sponsor of a well-known contest decided to give every participant of the contest a T-shirt as a present. A natural problem occurred: on the one hand, it is not clear how many T-shirts of what sizes should be ordered, and on the other hand, one doesn't want to order too many T-shirts (and we do not exactly paper the walls with the oversupply). After considerable brain racking and some pre-estimating, the sponsor representatives ordered a certain number of T-shirts of sizes S, M, L, XL and XXL. The T-shirts turned out to bring good luck, that's why on the contest day there built up a line of K participants willing to get one. Every contestant is characterized by his/her desired T-shirt size (so it happens that for all the participants it is also one of the sizes S, M, L, XL and XXL). The participants come up to get a T-shirt one by one and try to choose the most suitable one, choosing it like this. If there is still a T-shirt of the optimal size left, that he/she takes it without further ado. Otherwise the contestant would prefer to choose a T-shirt with the size as close to the optimal one as possible (the distance between neighboring sizes is considered equal to one). If the variant of choice is not unique, the contestant will take a T-shirt of a bigger size (in case he/she grows more). For example, for a person whose optimal size is L the preference list looks like this: L, XL, M, XXL, S. Using the data on how many T-shirts of every size had been ordered by the organizers, on the size of contestants in the line determine who got a T-shirt of what size.	The first line contains five non-negative integers NS,<=NM,<=NL,<=NXL,<=NXXL not exceeding 1000 which represent the number of T-shirts of the corresponding sizes. The second line contains an integer K (1<=≤<=K<=≤<=1000) which represents the number of participants. The next K lines contain the optimal T-shirt sizes for the contestants. The sizes are given in the order in which the participants stand in the line. It is guaranteed that NS<=+<=NM<=+<=NL<=+<=NXL<=+<=NXXL<=≥<=K.	For each contestant, print a line containing the size of the T-shirt he/she got.	[ "1 0 2 0 1\n3\nXL\nXXL\nM\n" ]	[ "XXL\nL\nL\n" ]	none	0	[ { "input": "1 0 2 0 1\n3\nXL\nXXL\nM", "output": "XXL\nL\nL" }, { "input": "0 0 0 0 1\n1\nS", "output": "XXL" }, { "input": "1 0 1 0 1\n1\nS", "output": "S" }, { "input": "1 0 0 0 1\n2\nS\nL", "output": "S\nXXL" }, { "input": "1 1 1 1 1\n2\nXL\nM", "output": "XL\nM" }, { "input": "1 0 1 1 1\n3\nS\nXXL\nL", "output": "S\nXXL\nL" }, { "input": "1 0 2 1 1\n4\nS\nXXL\nL\nM", "output": "S\nXXL\nL\nL" }, { "input": "1 0 3 0 1\n5\nS\nS\nS\nXL\nL", "output": "S\nL\nL\nXXL\nL" }, { "input": "2 1 0 1 3\n4\nXL\nM\nS\nS", "output": "XL\nM\nS\nS" }, { "input": "2 2 0 2 1\n6\nS\nXXL\nM\nXL\nXXL\nXL", "output": "S\nXXL\nM\nXL\nXL\nM" }, { "input": "3 1 1 4 1\n10\nXL\nL\nL\nXXL\nXXL\nXL\nL\nXXL\nS\nM", "output": "XL\nL\nXL\nXXL\nXL\nXL\nM\nS\nS\nS" }, { "input": "14 3 1 0 2\n10\nS\nXL\nM\nXL\nS\nXXL\nL\nXXL\nS\nL", "output": "S\nXXL\nM\nXXL\nS\nL\nM\nM\nS\nS" }, { "input": "44 314 100 272 270\n10\nXXL\nXL\nXXL\nXXL\nS\nS\nS\nS\nL\nL", "output": "XXL\nXL\nXXL\nXXL\nS\nS\nS\nS\nL\nL" }, { "input": "2 22 11 9 6\n20\nXL\nXXL\nXL\nL\nXL\nXXL\nXXL\nL\nS\nL\nXXL\nXL\nXXL\nXXL\nL\nM\nL\nS\nS\nXL", "output": "XL\nXXL\nXL\nL\nXL\nXXL\nXXL\nL\nS\nL\nXXL\nXL\nXXL\nXXL\nL\nM\nL\nS\nM\nXL" }, { "input": "13 0 2 4 41\n20\nS\nXXL\nXXL\nL\nXXL\nM\nL\nM\nXXL\nM\nXXL\nL\nXXL\nXL\nM\nXL\nXL\nL\nL\nM", "output": "S\nXXL\nXXL\nL\nXXL\nL\nXL\nS\nXXL\nS\nXXL\nXL\nXXL\nXL\nS\nXL\nXXL\nXXL\nXXL\nS" }, { "input": "5 7 2 9 7\n30\nS\nM\nS\nXL\nXXL\nL\nXL\nL\nL\nXXL\nS\nM\nXXL\nXXL\nS\nL\nXL\nS\nL\nXXL\nXXL\nS\nM\nM\nM\nXXL\nS\nXXL\nS\nL", "output": "S\nM\nS\nXL\nXXL\nL\nXL\nL\nXL\nXXL\nS\nM\nXXL\nXXL\nS\nXL\nXL\nS\nXL\nXXL\nXXL\nM\nM\nM\nM\nXXL\nM\nXL\nXL\nXL" }, { "input": "3 17 3 21 16\n50\nL\nXL\nXXL\nM\nXXL\nXL\nM\nS\nXL\nXXL\nXL\nM\nS\nS\nM\nS\nXXL\nXXL\nXL\nM\nL\nS\nXL\nS\nM\nS\nL\nXL\nM\nXL\nL\nXL\nXL\nL\nL\nM\nXL\nS\nXXL\nL\nL\nM\nL\nS\nM\nL\nXXL\nXL\nS\nL", "output": "L\nXL\nXXL\nM\nXXL\nXL\nM\nS\nXL\nXXL\nXL\nM\nS\nS\nM\nM\nXXL\nXXL\nXL\nM\nL\nM\nXL\nM\nM\nM\nL\nXL\nM\nXL\nXL\nXL\nXL\nXL\nXL\nM\nXL\nM\nXXL\nXL\nXL\nM\nXL\nM\nM\nXL\nXXL\nXL\nM\nXL" }, { "input": "2 36 4 48 10\n50\nXXL\nXXL\nS\nXXL\nXL\nXL\nS\nL\nXXL\nS\nXL\nXL\nS\nXXL\nS\nS\nS\nL\nM\nM\nXXL\nS\nS\nM\nXXL\nXL\nL\nS\nM\nXL\nXL\nS\nXXL\nM\nL\nXXL\nXL\nXXL\nXXL\nXL\nL\nL\nXXL\nXL\nXXL\nL\nL\nL\nS\nXL", "output": "XXL\nXXL\nS\nXXL\nXL\nXL\nS\nL\nXXL\nM\nXL\nXL\nM\nXXL\nM\nM\nM\nL\nM\nM\nXXL\nM\nM\nM\nXXL\nXL\nL\nM\nM\nXL\nXL\nM\nXXL\nM\nL\nXXL\nXL\nXXL\nXL\nXL\nXL\nXL\nXL\nXL\nXL\nXL\nXL\nXL\nM\nXL" }, { "input": "450 65 82 309 94\n50\nM\nXL\nXL\nXL\nM\nM\nS\nXL\nXXL\nXL\nM\nXL\nS\nXXL\nS\nXL\nM\nXL\nM\nS\nS\nM\nXL\nS\nL\nS\nXL\nXL\nL\nL\nXL\nXL\nXL\nXXL\nXXL\nL\nXXL\nM\nXXL\nM\nXXL\nXL\nM\nXL\nL\nS\nXL\nS\nM\nXXL", "output": "M\nXL\nXL\nXL\nM\nM\nS\nXL\nXXL\nXL\nM\nXL\nS\nXXL\nS\nXL\nM\nXL\nM\nS\nS\nM\nXL\nS\nL\nS\nXL\nXL\nL\nL\nXL\nXL\nXL\nXXL\nXXL\nL\nXXL\nM\nXXL\nM\nXXL\nXL\nM\nXL\nL\nS\nXL\nS\nM\nXXL" }, { "input": "200 910 49 294 547\n50\nXXL\nL\nXXL\nS\nXL\nXXL\nL\nXXL\nM\nM\nM\nM\nXXL\nS\nXXL\nXL\nL\nXXL\nL\nL\nXL\nXL\nXL\nXL\nS\nXL\nL\nXXL\nM\nXXL\nS\nXXL\nS\nXXL\nS\nS\nL\nS\nL\nXL\nXXL\nL\nL\nS\nS\nS\nS\nXXL\nXL\nXXL", "output": "XXL\nL\nXXL\nS\nXL\nXXL\nL\nXXL\nM\nM\nM\nM\nXXL\nS\nXXL\nXL\nL\nXXL\nL\nL\nXL\nXL\nXL\nXL\nS\nXL\nL\nXXL\nM\nXXL\nS\nXXL\nS\nXXL\nS\nS\nL\nS\nL\nXL\nXXL\nL\nL\nS\nS\nS\nS\nXXL\nXL\nXXL" }, { "input": "85 80 1 27 7\n100\nXXL\nM\nM\nS\nL\nL\nXL\nM\nXXL\nXXL\nXL\nL\nM\nXL\nM\nXL\nXL\nS\nM\nS\nXXL\nXL\nL\nM\nS\nXL\nS\nXL\nS\nXL\nS\nM\nXXL\nL\nM\nXL\nM\nS\nL\nM\nXXL\nL\nXXL\nS\nM\nS\nM\nL\nXXL\nXXL\nM\nS\nS\nL\nXXL\nM\nXXL\nM\nS\nM\nXXL\nM\nM\nXL\nXXL\nL\nXXL\nXL\nXXL\nS\nL\nL\nS\nS\nS\nL\nM\nL\nXXL\nL\nL\nXXL\nS\nS\nS\nXL\nXXL\nXL\nS\nL\nXXL\nS\nS\nM\nL\nXXL\nXL\nXL\nL\nXXL", "output": "XXL\nM\nM\nS\nL\nXL\nXL\nM\nXXL\nXXL\nXL\nXL\nM\nXL\nM\nXL\nXL\nS\nM\nS\nXXL\nXL\nXL\nM\nS\nXL\nS\nXL\nS\nXL\nS\nM\nXXL\nXL\nM\nXL\nM\nS\nXL\nM\nXXL\nXL\nXXL\nS\nM\nS\nM\nXL\nXL\nXL\nM\nS\nS\nXL\nXL\nM\nXL\nM\nS\nM\nXL\nM\nM\nXL\nXL\nXL\nXL\nM\nM\nS\nM\nM\nS\nS\nS\nM\nM\nM\nM\nM\nM\nM\nS\nS\nS\nM\nM\nM\nS\nM\nM\nS\nS\nM\nM\nM\nM\nM\nM\nM" }, { "input": "302 143 40 63 452\n100\nXXL\nM\nXL\nS\nXXL\nS\nL\nXL\nXL\nXL\nXXL\nS\nXXL\nS\nXXL\nXL\nXL\nXXL\nXL\nXXL\nM\nS\nS\nS\nS\nXXL\nS\nL\nXL\nXXL\nXXL\nS\nXXL\nL\nXXL\nM\nS\nL\nL\nXL\nXL\nS\nXL\nL\nXL\nM\nXL\nL\nM\nS\nXL\nXXL\nXL\nL\nXL\nXL\nXL\nM\nM\nXL\nL\nS\nS\nXL\nS\nXXL\nXXL\nXL\nS\nXL\nXXL\nS\nS\nL\nL\nXXL\nXL\nL\nXL\nM\nS\nM\nM\nXL\nXXL\nS\nXL\nXL\nM\nXL\nXXL\nXXL\nXL\nL\nS\nM\nXXL\nM\nL\nXXL", "output": "XXL\nM\nXL\nS\nXXL\nS\nL\nXL\nXL\nXL\nXXL\nS\nXXL\nS\nXXL\nXL\nXL\nXXL\nXL\nXXL\nM\nS\nS\nS\nS\nXXL\nS\nL\nXL\nXXL\nXXL\nS\nXXL\nL\nXXL\nM\nS\nL\nL\nXL\nXL\nS\nXL\nL\nXL\nM\nXL\nL\nM\nS\nXL\nXXL\nXL\nL\nXL\nXL\nXL\nM\nM\nXL\nL\nS\nS\nXL\nS\nXXL\nXXL\nXL\nS\nXL\nXXL\nS\nS\nL\nL\nXXL\nXL\nL\nXL\nM\nS\nM\nM\nXL\nXXL\nS\nXL\nXL\nM\nXL\nXXL\nXXL\nXL\nL\nS\nM\nXXL\nM\nL\nXXL" } ]	1,692,538,218	2,147,483,647	Python 3	OK	TESTS	30	92	102,400	# LUOGU_RID: 121983553 a,b,c,d,e=list(map(int,input().split())) for i in range(int(input())): f=input() if'S'==f: if a:a-=1;print('S') elif b:b-=1;print('M') elif c:c-=1;print('L') elif d:d-=1;print('XL') else:e-=1;print('XXL') elif'M'==f: if b:b-=1;print('M') elif c:c-=1;print('L') elif a:a-=1;print('S') elif d:d-=1;print('XL') else:e-=1;print('XXL') elif'L'==f: if c:c-=1;print('L') elif d:d-=1;print('XL') elif b:b-=1;print('M') elif e:e-=1;print('XXL') else:a-=1;print('S') elif'XL'==f: if d:d-=1;print('XL') elif e:e-=1;print('XXL') elif c:c-=1;print('L') elif b:b-=1;print('M') else:a-=1;print('S') else: if e:e-=1;print('XXL') elif d:d-=1;print('XL') elif c:c-=1;print('L') elif b:b-=1;print('M') else:a-=1;print('S')	Title: T-shirts from Sponsor Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One day a well-known sponsor of a well-known contest decided to give every participant of the contest a T-shirt as a present. A natural problem occurred: on the one hand, it is not clear how many T-shirts of what sizes should be ordered, and on the other hand, one doesn't want to order too many T-shirts (and we do not exactly paper the walls with the oversupply). After considerable brain racking and some pre-estimating, the sponsor representatives ordered a certain number of T-shirts of sizes S, M, L, XL and XXL. The T-shirts turned out to bring good luck, that's why on the contest day there built up a line of K participants willing to get one. Every contestant is characterized by his/her desired T-shirt size (so it happens that for all the participants it is also one of the sizes S, M, L, XL and XXL). The participants come up to get a T-shirt one by one and try to choose the most suitable one, choosing it like this. If there is still a T-shirt of the optimal size left, that he/she takes it without further ado. Otherwise the contestant would prefer to choose a T-shirt with the size as close to the optimal one as possible (the distance between neighboring sizes is considered equal to one). If the variant of choice is not unique, the contestant will take a T-shirt of a bigger size (in case he/she grows more). For example, for a person whose optimal size is L the preference list looks like this: L, XL, M, XXL, S. Using the data on how many T-shirts of every size had been ordered by the organizers, on the size of contestants in the line determine who got a T-shirt of what size. Input Specification: The first line contains five non-negative integers NS,<=NM,<=NL,<=NXL,<=NXXL not exceeding 1000 which represent the number of T-shirts of the corresponding sizes. The second line contains an integer K (1<=≤<=K<=≤<=1000) which represents the number of participants. The next K lines contain the optimal T-shirt sizes for the contestants. The sizes are given in the order in which the participants stand in the line. It is guaranteed that NS<=+<=NM<=+<=NL<=+<=NXL<=+<=NXXL<=≥<=K. Output Specification: For each contestant, print a line containing the size of the T-shirt he/she got. Demo Input: ['1 0 2 0 1\n3\nXL\nXXL\nM\n'] Demo Output: ['XXL\nL\nL\n'] Note: none	```python # LUOGU_RID: 121983553 a,b,c,d,e=list(map(int,input().split())) for i in range(int(input())): f=input() if'S'==f: if a:a-=1;print('S') elif b:b-=1;print('M') elif c:c-=1;print('L') elif d:d-=1;print('XL') else:e-=1;print('XXL') elif'M'==f: if b:b-=1;print('M') elif c:c-=1;print('L') elif a:a-=1;print('S') elif d:d-=1;print('XL') else:e-=1;print('XXL') elif'L'==f: if c:c-=1;print('L') elif d:d-=1;print('XL') elif b:b-=1;print('M') elif e:e-=1;print('XXL') else:a-=1;print('S') elif'XL'==f: if d:d-=1;print('XL') elif e:e-=1;print('XXL') elif c:c-=1;print('L') elif b:b-=1;print('M') else:a-=1;print('S') else: if e:e-=1;print('XXL') elif d:d-=1;print('XL') elif c:c-=1;print('L') elif b:b-=1;print('M') else:a-=1;print('S') ```	3.976809
762	A	k-th divisor	PROGRAMMING	1,400	[ "math", "number theory" ]		null	null	You are given two integers n and k. Find k-th smallest divisor of n, or report that it doesn't exist. Divisor of n is any such natural number, that n can be divided by it without remainder.	The first line contains two integers n and k (1<=≤<=n<=≤<=1015, 1<=≤<=k<=≤<=109).	If n has less than k divisors, output -1. Otherwise, output the k-th smallest divisor of n.	[ "4 2\n", "5 3\n", "12 5\n" ]	[ "2\n", "-1\n", "6\n" ]	In the first example, number 4 has three divisors: 1, 2 and 4. The second one is 2. In the second example, number 5 has only two divisors: 1 and 5. The third divisor doesn't exist, so the answer is -1.	0	[ { "input": "4 2", "output": "2" }, { "input": "5 3", "output": "-1" }, { "input": "12 5", "output": "6" }, { "input": "1 1", "output": "1" }, { "input": "866421317361600 26880", "output": "866421317361600" }, { "input": "866421317361600 26881", "output": "-1" }, { "input": "1000000000000000 1000000000", "output": "-1" }, { "input": "1000000000000000 100", "output": "1953125" }, { "input": "1 2", "output": "-1" }, { "input": "4 3", "output": "4" }, { "input": "4 4", "output": "-1" }, { "input": "9 3", "output": "9" }, { "input": "21 3", "output": "7" }, { "input": "67280421310721 1", "output": "1" }, { "input": "6 3", "output": "3" }, { "input": "3 3", "output": "-1" }, { "input": "16 3", "output": "4" }, { "input": "1 1000", "output": "-1" }, { "input": "16 4", "output": "8" }, { "input": "36 8", "output": "18" }, { "input": "49 4", "output": "-1" }, { "input": "9 4", "output": "-1" }, { "input": "16 1", "output": "1" }, { "input": "16 6", "output": "-1" }, { "input": "16 5", "output": "16" }, { "input": "25 4", "output": "-1" }, { "input": "4010815561 2", "output": "63331" }, { "input": "49 3", "output": "49" }, { "input": "36 6", "output": "9" }, { "input": "36 10", "output": "-1" }, { "input": "25 3", "output": "25" }, { "input": "22876792454961 28", "output": "7625597484987" }, { "input": "1234 2", "output": "2" }, { "input": "179458711 2", "output": "179458711" }, { "input": "900104343024121 100000", "output": "-1" }, { "input": "8 3", "output": "4" }, { "input": "100 6", "output": "20" }, { "input": "15500 26", "output": "-1" }, { "input": "111111 1", "output": "1" }, { "input": "100000000000000 200", "output": "160000000000" }, { "input": "1000000000000 100", "output": "6400000" }, { "input": "100 10", "output": "-1" }, { "input": "1000000000039 2", "output": "1000000000039" }, { "input": "64 5", "output": "16" }, { "input": "999999961946176 33", "output": "63245552" }, { "input": "376219076689 3", "output": "376219076689" }, { "input": "999999961946176 63", "output": "999999961946176" }, { "input": "1048576 12", "output": "2048" }, { "input": "745 21", "output": "-1" }, { "input": "748 6", "output": "22" }, { "input": "999999961946176 50", "output": "161082468097" }, { "input": "10 3", "output": "5" }, { "input": "1099511627776 22", "output": "2097152" }, { "input": "1000000007 100010", "output": "-1" }, { "input": "3 1", "output": "1" }, { "input": "100 8", "output": "50" }, { "input": "100 7", "output": "25" }, { "input": "7 2", "output": "7" }, { "input": "999999961946176 64", "output": "-1" }, { "input": "20 5", "output": "10" }, { "input": "999999999999989 2", "output": "999999999999989" }, { "input": "100000000000000 114", "output": "10240000" }, { "input": "99999640000243 3", "output": "9999991" }, { "input": "999998000001 566", "output": "333332666667" }, { "input": "99999820000081 2", "output": "9999991" }, { "input": "49000042000009 3", "output": "49000042000009" }, { "input": "151491429961 4", "output": "-1" }, { "input": "32416190071 2", "output": "32416190071" }, { "input": "1000 8", "output": "25" }, { "input": "1999967841 15", "output": "1999967841" }, { "input": "26880 26880", "output": "-1" }, { "input": "151491429961 3", "output": "151491429961" }, { "input": "90000000000 300", "output": "100000000" }, { "input": "98765004361 10", "output": "-1" }, { "input": "15 2", "output": "3" }, { "input": "16 2", "output": "2" }, { "input": "1996 2", "output": "2" }, { "input": "1997 2", "output": "1997" }, { "input": "1999 2", "output": "1999" }, { "input": "1998 2", "output": "2" }, { "input": "1998 1", "output": "1" }, { "input": "1998 7", "output": "27" }, { "input": "1998 8", "output": "37" }, { "input": "100000380000361 2", "output": "10000019" }, { "input": "15 1", "output": "1" }, { "input": "100000000000000 226", "output": "-1" }, { "input": "844030857550613 517", "output": "-1" }, { "input": "4567890 14", "output": "430" }, { "input": "123123123 123123123", "output": "-1" }, { "input": "24 4", "output": "4" }, { "input": "999999993568952 17", "output": "31622777" }, { "input": "99999999994190 9", "output": "241656799" }, { "input": "999997874844049 4", "output": "-1" }, { "input": "99999999999931 2", "output": "99999999999931" }, { "input": "2 3", "output": "-1" }, { "input": "67280421310721 2", "output": "67280421310721" } ]	1,698,770,494	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	4	2,000	204,800	n,k=map(int,input().split(" ")) l=[] for i in range(1,n//2+1): if n%i==0: l.append(i) l.append(n) if len(l)>=k: print(l[k-1]) else: print(-1)	Title: k-th divisor Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two integers n and k. Find k-th smallest divisor of n, or report that it doesn't exist. Divisor of n is any such natural number, that n can be divided by it without remainder. Input Specification: The first line contains two integers n and k (1<=≤<=n<=≤<=1015, 1<=≤<=k<=≤<=109). Output Specification: If n has less than k divisors, output -1. Otherwise, output the k-th smallest divisor of n. Demo Input: ['4 2\n', '5 3\n', '12 5\n'] Demo Output: ['2\n', '-1\n', '6\n'] Note: In the first example, number 4 has three divisors: 1, 2 and 4. The second one is 2. In the second example, number 5 has only two divisors: 1 and 5. The third divisor doesn't exist, so the answer is -1.	```python n,k=map(int,input().split(" ")) l=[] for i in range(1,n//2+1): if n%i==0: l.append(i) l.append(n) if len(l)>=k: print(l[k-1]) else: print(-1) ```	0
749	A	Bachgold Problem	PROGRAMMING	800	[ "greedy", "implementation", "math", "number theory" ]		null	null	Bachgold problem is very easy to formulate. Given a positive integer n represent it as a sum of maximum possible number of prime numbers. One can prove that such representation exists for any integer greater than 1. Recall that integer k is called prime if it is greater than 1 and has exactly two positive integer divisors — 1 and k.	The only line of the input contains a single integer n (2<=≤<=n<=≤<=100<=000).	The first line of the output contains a single integer k — maximum possible number of primes in representation. The second line should contain k primes with their sum equal to n. You can print them in any order. If there are several optimal solution, print any of them.	[ "5\n", "6\n" ]	[ "2\n2 3\n", "3\n2 2 2\n" ]	none	500	[ { "input": "5", "output": "2\n2 3" }, { "input": "6", "output": "3\n2 2 2" }, { "input": "2", "output": "1\n2" }, { "input": "3", "output": "1\n3" }, { "input": "99999", "output": "49999\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "100000", "output": "50000\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "7", "output": "3\n2 2 3" }, { "input": "4", "output": "2\n2 2" }, { "input": "8", "output": "4\n2 2 2 2" }, { "input": "9", "output": "4\n2 2 2 3" }, { "input": "99995", "output": "49997\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "99996", "output": "49998\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "10", "output": "5\n2 2 2 2 2" }, { "input": "11", "output": "5\n2 2 2 2 3" }, { "input": "99997", "output": "49998\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "99998", "output": "49999\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "12", "output": "6\n2 2 2 2 2 2" }, { "input": "13", "output": "6\n2 2 2 2 2 3" }, { "input": "99993", "output": "49996\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "99994", "output": "49997\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "14", "output": "7\n2 2 2 2 2 2 2" }, { "input": "15", "output": "7\n2 2 2 2 2 2 3" }, { "input": "53", "output": "26\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 3" }, { "input": "57", "output": "28\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 3" }, { "input": "61", "output": "30\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 3" }, { "input": "774", "output": "387\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "202", "output": "101\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2" }, { "input": "530", "output": "265\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "7166", "output": "3583\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "9294", "output": "4647\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "2422", "output": "1211\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "15326", "output": "7663\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "11454", "output": "5727\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "14878", "output": "7439\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." }, { "input": "90672", "output": "45336\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "99544", "output": "49772\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "90472", "output": "45236\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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 ..." }, { "input": "23", "output": "11\n2 2 2 2 2 2 2 2 2 2 3" }, { "input": "93", "output": "46\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 3" }, { "input": "19", "output": "9\n2 2 2 2 2 2 2 2 3" }, { "input": "11110", "output": "5555\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 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..." } ]	1,687,277,923	2,147,483,647	Python 3	OK	TESTS	41	93	204,800	n = int(input()) n_t = 0 while n > 3: n -= 2 n_t += 1 if n == 3: print(str(n_t + 1) + "\n3", end = " ") for _ in range(n_t): print("2", end = " ") else: print(n_t + 1) for _ in range(n_t + 1): print("2", end = " ")	Title: Bachgold Problem Time Limit: None seconds Memory Limit: None megabytes Problem Description: Bachgold problem is very easy to formulate. Given a positive integer n represent it as a sum of maximum possible number of prime numbers. One can prove that such representation exists for any integer greater than 1. Recall that integer k is called prime if it is greater than 1 and has exactly two positive integer divisors — 1 and k. Input Specification: The only line of the input contains a single integer n (2<=≤<=n<=≤<=100<=000). Output Specification: The first line of the output contains a single integer k — maximum possible number of primes in representation. The second line should contain k primes with their sum equal to n. You can print them in any order. If there are several optimal solution, print any of them. Demo Input: ['5\n', '6\n'] Demo Output: ['2\n2 3\n', '3\n2 2 2\n'] Note: none	```python n = int(input()) n_t = 0 while n > 3: n -= 2 n_t += 1 if n == 3: print(str(n_t + 1) + "\n3", end = " ") for _ in range(n_t): print("2", end = " ") else: print(n_t + 1) for _ in range(n_t + 1): print("2", end = " ") ```	3
837	A	Text Volume	PROGRAMMING	800	[ "implementation" ]		null	null	You are given a text of single-space separated words, consisting of small and capital Latin letters. Volume of the word is number of capital letters in the word. Volume of the text is maximum volume of all words in the text. Calculate the volume of the given text.	The first line contains one integer number n (1<=≤<=n<=≤<=200) — length of the text. The second line contains text of single-space separated words s1,<=s2,<=...,<=si, consisting only of small and capital Latin letters.	Print one integer number — volume of text.	[ "7\nNonZERO\n", "24\nthis is zero answer text\n", "24\nHarbour Space University\n" ]	[ "5\n", "0\n", "1\n" ]	In the first example there is only one word, there are 5 capital letters in it. In the second example all of the words contain 0 capital letters.	0	[ { "input": "7\nNonZERO", "output": "5" }, { "input": "24\nthis is zero answer text", "output": "0" }, { "input": "24\nHarbour Space University", "output": "1" }, { "input": "2\nWM", "output": "2" }, { "input": "200\nLBmJKQLCKUgtTxMoDsEerwvLOXsxASSydOqWyULsRcjMYDWdDCgaDvBfATIWPVSXlbcCLHPYahhxMEYUiaxoCebghJqvmRnaNHYTKLeOiaLDnATPZAOgSNfBzaxLymTGjfzvTegbXsAthTxyDTcmBUkqyGlVGZhoazQzVSoKbTFcCRvYsgSCwjGMxBfWEwMHuagTBxkz", "output": "105" }, { "input": "199\no A r v H e J q k J k v w Q F p O R y R Z o a K R L Z E H t X y X N y y p b x B m r R S q i A x V S u i c L y M n N X c C W Z m S j e w C w T r I S X T D F l w o k f t X u n W w p Z r A k I Y E h s g", "output": "1" }, { "input": "200\nhCyIdivIiISmmYIsCLbpKcTyHaOgTUQEwnQACXnrLdHAVFLtvliTEMlzBVzTesQbhXmcqvwPDeojglBMIjOXANfyQxCSjOJyO SIqOTnRzVzseGIDDYNtrwIusScWSuEhPyEmgQIVEzXofRptjeMzzhtUQxJgcUWILUhEaaRmYRBVsjoqgmyPIKwSajdlNPccOOtWrez", "output": "50" }, { "input": "1\ne", "output": "0" }, { "input": "1\nA", "output": "1" }, { "input": "200\nABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU VWXYZABCDE KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU KZ", "output": "10" }, { "input": "200\nAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "output": "200" }, { "input": "200\nffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff", "output": "0" }, { "input": "24\nHarbour Space UniversitY", "output": "2" }, { "input": "5\naA AA", "output": "2" }, { "input": "10\nas AS ASDA", "output": "4" }, { "input": "10\nas AS ASDZ", "output": "4" }, { "input": "3\na A", "output": "1" }, { "input": "24\nHarbour space UniversitY", "output": "2" }, { "input": "10\nas AS ASAa", "output": "3" }, { "input": "15\naAb ABCDFGRHTJS", "output": "11" }, { "input": "53\nsdfAZEZR AZE dfdf dsdRFGSDF ZZDZSD dfsd ERBGF dsfsdfR", "output": "6" }, { "input": "10\nABC ABc AB", "output": "3" }, { "input": "10\nA c de CDE", "output": "3" }, { "input": "4\nA AB", "output": "2" }, { "input": "18\nHARbour Space UNIV", "output": "4" }, { "input": "13\na b c d e f A", "output": "1" }, { "input": "6\nA B CA", "output": "2" }, { "input": "4\naa A", "output": "1" }, { "input": "3\nA a", "output": "1" } ]	1,573,162,395	2,147,483,647	Python 3	OK	TESTS	29	109	0	n= int(input()) s= input() mas= ["A", 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z'] countmax = 0 words= s.split() for i in words: count = 0 for el in i: if el in mas: count += 1 if countmax < count: countmax = count print (countmax)	Title: Text Volume Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a text of single-space separated words, consisting of small and capital Latin letters. Volume of the word is number of capital letters in the word. Volume of the text is maximum volume of all words in the text. Calculate the volume of the given text. Input Specification: The first line contains one integer number n (1<=≤<=n<=≤<=200) — length of the text. The second line contains text of single-space separated words s1,<=s2,<=...,<=si, consisting only of small and capital Latin letters. Output Specification: Print one integer number — volume of text. Demo Input: ['7\nNonZERO\n', '24\nthis is zero answer text\n', '24\nHarbour Space University\n'] Demo Output: ['5\n', '0\n', '1\n'] Note: In the first example there is only one word, there are 5 capital letters in it. In the second example all of the words contain 0 capital letters.	```python n= int(input()) s= input() mas= ["A", 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z'] countmax = 0 words= s.split() for i in words: count = 0 for el in i: if el in mas: count += 1 if countmax < count: countmax = count print (countmax) ```	3
43	A	Football	PROGRAMMING	1,000	[ "strings" ]	A. Football	2	256	One day Vasya decided to have a look at the results of Berland 1910 Football Championship’s finals. Unfortunately he didn't find the overall score of the match; however, he got hold of a profound description of the match's process. On the whole there are n lines in that description each of which described one goal. Every goal was marked with the name of the team that had scored it. Help Vasya, learn the name of the team that won the finals. It is guaranteed that the match did not end in a tie.	The first line contains an integer n (1<=≤<=n<=≤<=100) — the number of lines in the description. Then follow n lines — for each goal the names of the teams that scored it. The names are non-empty lines consisting of uppercase Latin letters whose lengths do not exceed 10 symbols. It is guaranteed that the match did not end in a tie and the description contains no more than two different teams.	Print the name of the winning team. We remind you that in football the team that scores more goals is considered the winner.	[ "1\nABC\n", "5\nA\nABA\nABA\nA\nA\n" ]	[ "ABC\n", "A\n" ]	none	500	[ { "input": "1\nABC", "output": "ABC" }, { "input": "5\nA\nABA\nABA\nA\nA", "output": "A" }, { "input": "2\nXTSJEP\nXTSJEP", "output": "XTSJEP" }, { "input": "3\nXZYDJAEDZ\nXZYDJAEDZ\nXZYDJAEDZ", "output": "XZYDJAEDZ" }, { "input": "3\nQCCYXL\nQCCYXL\nAXGLFQDD", "output": "QCCYXL" }, { "input": "3\nAZID\nEERWBC\nEERWBC", "output": "EERWBC" }, { "input": "3\nHNCGYL\nHNCGYL\nHNCGYL", "output": "HNCGYL" }, { "input": "4\nZZWZTG\nZZWZTG\nZZWZTG\nZZWZTG", "output": "ZZWZTG" }, { "input": "4\nA\nA\nKUDLJMXCSE\nA", "output": "A" }, { "input": "5\nPHBTW\nPHBTW\nPHBTW\nPHBTW\nPHBTW", "output": "PHBTW" }, { "input": "5\nPKUZYTFYWN\nPKUZYTFYWN\nSTC\nPKUZYTFYWN\nPKUZYTFYWN", "output": "PKUZYTFYWN" }, { "input": "5\nHH\nHH\nNTQWPA\nNTQWPA\nHH", "output": "HH" }, { "input": "10\nW\nW\nW\nW\nW\nD\nW\nD\nD\nW", "output": "W" }, { "input": "19\nXBCP\nTGACNIH\nXBCP\nXBCP\nXBCP\nXBCP\nXBCP\nTGACNIH\nXBCP\nXBCP\nXBCP\nXBCP\nXBCP\nTGACNIH\nXBCP\nXBCP\nTGACNIH\nTGACNIH\nXBCP", "output": "XBCP" }, { "input": "33\nOWQWCKLLF\nOWQWCKLLF\nOWQWCKLLF\nPYPAS\nPYPAS\nPYPAS\nOWQWCKLLF\nPYPAS\nOWQWCKLLF\nPYPAS\nPYPAS\nOWQWCKLLF\nOWQWCKLLF\nOWQWCKLLF\nPYPAS\nOWQWCKLLF\nPYPAS\nPYPAS\nPYPAS\nPYPAS\nOWQWCKLLF\nPYPAS\nPYPAS\nOWQWCKLLF\nOWQWCKLLF\nPYPAS\nOWQWCKLLF\nOWQWCKLLF\nPYPAS\nPYPAS\nOWQWCKLLF\nPYPAS\nPYPAS", "output": "PYPAS" }, { "input": "51\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC\nNC", "output": "NC" }, { "input": "89\nH\nVOCI\nVOCI\nH\nVOCI\nH\nH\nVOCI\nVOCI\nVOCI\nH\nH\nH\nVOCI\nVOCI\nVOCI\nH\nVOCI\nVOCI\nH\nVOCI\nVOCI\nVOCI\nH\nVOCI\nH\nVOCI\nH\nVOCI\nH\nVOCI\nVOCI\nH\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nH\nVOCI\nVOCI\nVOCI\nVOCI\nH\nVOCI\nH\nH\nVOCI\nH\nVOCI\nH\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nH\nH\nVOCI\nH\nH\nVOCI\nH\nVOCI\nH\nVOCI\nVOCI\nH\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nVOCI\nH\nH\nH\nH\nH\nVOCI\nH\nVOCI\nH\nVOCI\nVOCI", "output": "VOCI" }, { "input": "100\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nM\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA\nHA", "output": "HA" }, { "input": "100\nG\nG\nS\nS\nG\nG\nS\nS\nG\nS\nS\nS\nG\nS\nG\nG\nS\nG\nS\nS\nG\nS\nS\nS\nS\nS\nG\nS\nG\nS\nS\nG\nG\nG\nS\nS\nS\nS\nG\nS\nS\nG\nG\nG\nG\nG\nS\nG\nG\nS\nS\nS\nS\nS\nG\nG\nS\nG\nG\nG\nG\nG\nS\nS\nG\nS\nS\nS\nS\nG\nS\nS\nG\nS\nG\nG\nG\nG\nG\nG\nG\nG\nG\nG\nG\nS\nS\nG\nS\nS\nS\nS\nG\nG\nG\nS\nG\nG\nG\nS", "output": "G" }, { "input": "100\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nOBH\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL\nWL", "output": "WL" } ]	1,670,584,260	2,147,483,647	PyPy 3-64	OK	TESTS	34	124	0	m={} for _ in range(int(input())): s=input() if s not in m: m[s]=0 m[s]+=1 m=dict(sorted(m.items(),key=lambda item: item[1],reverse=True)) print(list(m.keys())[0])	Title: Football Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One day Vasya decided to have a look at the results of Berland 1910 Football Championship’s finals. Unfortunately he didn't find the overall score of the match; however, he got hold of a profound description of the match's process. On the whole there are n lines in that description each of which described one goal. Every goal was marked with the name of the team that had scored it. Help Vasya, learn the name of the team that won the finals. It is guaranteed that the match did not end in a tie. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=100) — the number of lines in the description. Then follow n lines — for each goal the names of the teams that scored it. The names are non-empty lines consisting of uppercase Latin letters whose lengths do not exceed 10 symbols. It is guaranteed that the match did not end in a tie and the description contains no more than two different teams. Output Specification: Print the name of the winning team. We remind you that in football the team that scores more goals is considered the winner. Demo Input: ['1\nABC\n', '5\nA\nABA\nABA\nA\nA\n'] Demo Output: ['ABC\n', 'A\n'] Note: none	```python m={} for _ in range(int(input())): s=input() if s not in m: m[s]=0 m[s]+=1 m=dict(sorted(m.items(),key=lambda item: item[1],reverse=True)) print(list(m.keys())[0]) ```	3.969
231	A	Team	PROGRAMMING	800	[ "brute force", "greedy" ]		null	null	One day three best friends Petya, Vasya and Tonya decided to form a team and take part in programming contests. Participants are usually offered several problems during programming contests. Long before the start the friends decided that they will implement a problem if at least two of them are sure about the solution. Otherwise, the friends won't write the problem's solution. This contest offers n problems to the participants. For each problem we know, which friend is sure about the solution. Help the friends find the number of problems for which they will write a solution.	The first input line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of problems in the contest. Then n lines contain three integers each, each integer is either 0 or 1. If the first number in the line equals 1, then Petya is sure about the problem's solution, otherwise he isn't sure. The second number shows Vasya's view on the solution, the third number shows Tonya's view. The numbers on the lines are separated by spaces.	Print a single integer — the number of problems the friends will implement on the contest.	[ "3\n1 1 0\n1 1 1\n1 0 0\n", "2\n1 0 0\n0 1 1\n" ]	[ "2\n", "1\n" ]	In the first sample Petya and Vasya are sure that they know how to solve the first problem and all three of them know how to solve the second problem. That means that they will write solutions for these problems. Only Petya is sure about the solution for the third problem, but that isn't enough, so the friends won't take it. In the second sample the friends will only implement the second problem, as Vasya and Tonya are sure about the solution.	500	[ { "input": "3\n1 1 0\n1 1 1\n1 0 0", "output": "2" }, { "input": "2\n1 0 0\n0 1 1", "output": "1" }, { "input": "1\n1 0 0", "output": "0" }, { "input": "2\n1 0 0\n1 1 1", "output": "1" }, { "input": "5\n1 0 0\n0 1 0\n1 1 1\n0 0 1\n0 0 0", "output": "1" }, { "input": "10\n0 1 0\n0 1 0\n1 1 0\n1 0 0\n0 0 1\n0 1 1\n1 1 1\n1 1 0\n0 0 0\n0 0 0", "output": "4" }, { "input": "15\n0 1 0\n1 0 0\n1 1 0\n1 1 1\n0 1 0\n0 0 1\n1 0 1\n1 0 1\n1 0 1\n0 0 0\n1 1 1\n1 1 0\n0 1 1\n1 1 0\n1 1 1", "output": "10" }, { "input": "50\n0 0 0\n0 1 1\n1 1 1\n0 1 0\n1 0 1\n1 1 1\n0 0 1\n1 0 0\n1 1 0\n1 0 1\n0 1 0\n0 0 1\n1 1 0\n0 1 0\n1 1 0\n0 0 0\n1 1 1\n1 0 1\n0 0 1\n1 1 0\n1 1 1\n0 1 1\n1 1 0\n0 0 0\n0 0 0\n1 1 1\n0 0 0\n1 1 1\n0 1 1\n0 0 1\n0 0 0\n0 0 0\n1 1 0\n1 1 0\n1 0 1\n1 0 0\n1 0 1\n1 0 1\n0 1 1\n1 1 0\n1 1 0\n0 1 0\n1 0 1\n0 0 0\n0 0 0\n0 0 0\n0 0 1\n1 1 1\n0 1 1\n1 0 1", "output": "29" }, { "input": "1\n1 1 1", "output": "1" }, { "input": "8\n0 0 0\n0 0 1\n0 0 0\n0 1 1\n1 0 0\n1 0 1\n1 1 0\n1 1 1", "output": "4" }, { "input": "16\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1\n1 1 1", "output": "16" } ]	1,697,553,755	2,147,483,647	Python 3	OK	TESTS	21	92	0	n = int(input()) count = 0 for _ in range(n): a,b,c = map(int,input().split()) if (a+b+c) >= 2: count += 1 print(count)	Title: Team Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day three best friends Petya, Vasya and Tonya decided to form a team and take part in programming contests. Participants are usually offered several problems during programming contests. Long before the start the friends decided that they will implement a problem if at least two of them are sure about the solution. Otherwise, the friends won't write the problem's solution. This contest offers n problems to the participants. For each problem we know, which friend is sure about the solution. Help the friends find the number of problems for which they will write a solution. Input Specification: The first input line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of problems in the contest. Then n lines contain three integers each, each integer is either 0 or 1. If the first number in the line equals 1, then Petya is sure about the problem's solution, otherwise he isn't sure. The second number shows Vasya's view on the solution, the third number shows Tonya's view. The numbers on the lines are separated by spaces. Output Specification: Print a single integer — the number of problems the friends will implement on the contest. Demo Input: ['3\n1 1 0\n1 1 1\n1 0 0\n', '2\n1 0 0\n0 1 1\n'] Demo Output: ['2\n', '1\n'] Note: In the first sample Petya and Vasya are sure that they know how to solve the first problem and all three of them know how to solve the second problem. That means that they will write solutions for these problems. Only Petya is sure about the solution for the third problem, but that isn't enough, so the friends won't take it. In the second sample the friends will only implement the second problem, as Vasya and Tonya are sure about the solution.	```python n = int(input()) count = 0 for _ in range(n): a,b,c = map(int,input().split()) if (a+b+c) >= 2: count += 1 print(count) ```	3
992	A	Nastya and an Array	PROGRAMMING	800	[ "implementation", "sortings" ]		null	null	Nastya owns too many arrays now, so she wants to delete the least important of them. However, she discovered that this array is magic! Nastya now knows that the array has the following properties: - In one second we can add an arbitrary (possibly negative) integer to all elements of the array that are not equal to zero. - When all elements of the array become equal to zero, the array explodes. Nastya is always busy, so she wants to explode the array as fast as possible. Compute the minimum time in which the array can be exploded.	The first line contains a single integer n (1<=≤<=n<=≤<=105) — the size of the array. The second line contains n integers a1,<=a2,<=...,<=an (<=-<=105<=≤<=ai<=≤<=105) — the elements of the array.	Print a single integer — the minimum number of seconds needed to make all elements of the array equal to zero.	[ "5\n1 1 1 1 1\n", "3\n2 0 -1\n", "4\n5 -6 -5 1\n" ]	[ "1\n", "2\n", "4\n" ]	In the first example you can add - 1 to all non-zero elements in one second and make them equal to zero. In the second example you can add - 2 on the first second, then the array becomes equal to [0, 0, - 3]. On the second second you can add 3 to the third (the only non-zero) element.	500	[ { "input": "5\n1 1 1 1 1", "output": "1" }, { "input": "3\n2 0 -1", "output": "2" }, { "input": "4\n5 -6 -5 1", "output": "4" }, { "input": "1\n0", "output": "0" }, { "input": "2\n21794 -79194", "output": "2" }, { "input": "3\n-63526 95085 -5239", "output": "3" }, { "input": "3\n0 53372 -20572", "output": "2" }, { "input": "13\n-2075 -32242 27034 -37618 -96962 82203 64846 48249 -71761 28908 -21222 -61370 46899", "output": "13" }, { "input": "5\n806 0 1308 1954 683", "output": "4" }, { "input": "8\n-26 0 -249 -289 -126 -206 288 -11", "output": "7" }, { "input": "10\n2 2 2 1 2 -1 0 2 -1 1", "output": "3" }, { "input": "1\n8", "output": "1" }, { "input": "3\n0 0 0", "output": "0" }, { "input": "10\n1 2 3 4 5 6 7 8 9 10", "output": "10" }, { "input": "5\n2 0 -1 0 0", "output": "2" }, { "input": "2\n0 0", "output": "0" }, { "input": "5\n0 0 0 0 0", "output": "0" }, { "input": "2\n1 0", "output": "1" }, { "input": "2\n-1 0", "output": "1" }, { "input": "4\n0 0 0 0", "output": "0" }, { "input": "8\n10 9 -1 0 0 3 2 3", "output": "5" }, { "input": "5\n5 0 1 2 3", "output": "4" }, { "input": "3\n1 1 0", "output": "1" }, { "input": "1\n-1", "output": "1" }, { "input": "5\n1 2 0 0 0", "output": "2" }, { "input": "5\n1 0 0 0 0", "output": "1" }, { "input": "5\n4 5 6 0 0", "output": "3" }, { "input": "4\n-1 0 0 1", "output": "2" }, { "input": "5\n3 0 0 4 5", "output": "3" }, { "input": "3\n0 0 2", "output": "1" }, { "input": "3\n1 0 0", "output": "1" }, { "input": "4\n0 0 0 4", "output": "1" }, { "input": "5\n-1 0 0 0 0", "output": "1" }, { "input": "2\n0 1", "output": "1" }, { "input": "3\n1 2 3", "output": "3" }, { "input": "1\n5", "output": "1" }, { "input": "10\n0 0 0 0 0 1 2 3 0 0", "output": "3" }, { "input": "4\n0 1 2 3", "output": "3" }, { "input": "3\n0 1 2", "output": "2" }, { "input": "4\n2 0 0 -1", "output": "2" } ]	1,614,330,035	2,147,483,647	PyPy 3	OK	TESTS	79	187	9,728,000	input() arr = str(input()).split(' ') print(len(set(filter(lambda x: x != '0', arr))))	Title: Nastya and an Array Time Limit: None seconds Memory Limit: None megabytes Problem Description: Nastya owns too many arrays now, so she wants to delete the least important of them. However, she discovered that this array is magic! Nastya now knows that the array has the following properties: - In one second we can add an arbitrary (possibly negative) integer to all elements of the array that are not equal to zero. - When all elements of the array become equal to zero, the array explodes. Nastya is always busy, so she wants to explode the array as fast as possible. Compute the minimum time in which the array can be exploded. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=105) — the size of the array. The second line contains n integers a1,<=a2,<=...,<=an (<=-<=105<=≤<=ai<=≤<=105) — the elements of the array. Output Specification: Print a single integer — the minimum number of seconds needed to make all elements of the array equal to zero. Demo Input: ['5\n1 1 1 1 1\n', '3\n2 0 -1\n', '4\n5 -6 -5 1\n'] Demo Output: ['1\n', '2\n', '4\n'] Note: In the first example you can add - 1 to all non-zero elements in one second and make them equal to zero. In the second example you can add - 2 on the first second, then the array becomes equal to [0, 0, - 3]. On the second second you can add 3 to the third (the only non-zero) element.	```python input() arr = str(input()).split(' ') print(len(set(filter(lambda x: x != '0', arr)))) ```	3
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 64 2 63 3 62 4 61\n5 60 6 59 7 58 8 57\n9 56 10 55 11 54 12 53\n13 52 14 51 15 50 16 49\n17 48 18 47 19 46 20 45\n21 44 22 43 23 42 24 41\n25 40 26 39 27 38 28 37\n29 36 30 35 31 34 32 33" }, { "input": "10", "output": "1 100 2 99 3 98 4 97 5 96\n6 95 7 94 8 93 9 92 10 91\n11 90 12 89 13 88 14 87 15 86\n16 85 17 84 18 83 19 82 20 81\n21 80 22 79 23 78 24 77 25 76\n26 75 27 74 28 73 29 72 30 71\n31 70 32 69 33 68 34 67 35 66\n36 65 37 64 38 63 39 62 40 61\n41 60 42 59 43 58 44 57 45 56\n46 55 47 54 48 53 49 52 50 51" }, { "input": "100", "output": "1 10000 2 9999 3 9998 4 9997 5 9996 6 9995 7 9994 8 9993 9 9992 10 9991 11 9990 12 9989 13 9988 14 9987 15 9986 16 9985 17 9984 18 9983 19 9982 20 9981 21 9980 22 9979 23 9978 24 9977 25 9976 26 9975 27 9974 28 9973 29 9972 30 9971 31 9970 32 9969 33 9968 34 9967 35 9966 36 9965 37 9964 38 9963 39 9962 40 9961 41 9960 42 9959 43 9958 44 9957 45 9956 46 9955 47 9954 48 9953 49 9952 50 9951\n51 9950 52 9949 53 9948 54 9947 55 9946 56 9945 57 9944 58 9943 59 9942 60 9941 61 9940 62 9939 63 9938 64 9937 65 993..." }, { "input": "62", "output": "1 3844 2 3843 3 3842 4 3841 5 3840 6 3839 7 3838 8 3837 9 3836 10 3835 11 3834 12 3833 13 3832 14 3831 15 3830 16 3829 17 3828 18 3827 19 3826 20 3825 21 3824 22 3823 23 3822 24 3821 25 3820 26 3819 27 3818 28 3817 29 3816 30 3815 31 3814\n32 3813 33 3812 34 3811 35 3810 36 3809 37 3808 38 3807 39 3806 40 3805 41 3804 42 3803 43 3802 44 3801 45 3800 46 3799 47 3798 48 3797 49 3796 50 3795 51 3794 52 3793 53 3792 54 3791 55 3790 56 3789 57 3788 58 3787 59 3786 60 3785 61 3784 62 3783\n63 3782 64 3781 65 378..." }, { "input": "66", "output": "1 4356 2 4355 3 4354 4 4353 5 4352 6 4351 7 4350 8 4349 9 4348 10 4347 11 4346 12 4345 13 4344 14 4343 15 4342 16 4341 17 4340 18 4339 19 4338 20 4337 21 4336 22 4335 23 4334 24 4333 25 4332 26 4331 27 4330 28 4329 29 4328 30 4327 31 4326 32 4325 33 4324\n34 4323 35 4322 36 4321 37 4320 38 4319 39 4318 40 4317 41 4316 42 4315 43 4314 44 4313 45 4312 46 4311 47 4310 48 4309 49 4308 50 4307 51 4306 52 4305 53 4304 54 4303 55 4302 56 4301 57 4300 58 4299 59 4298 60 4297 61 4296 62 4295 63 4294 64 4293 65 4292..." }, { "input": "18", "output": "1 324 2 323 3 322 4 321 5 320 6 319 7 318 8 317 9 316\n10 315 11 314 12 313 13 312 14 311 15 310 16 309 17 308 18 307\n19 306 20 305 21 304 22 303 23 302 24 301 25 300 26 299 27 298\n28 297 29 296 30 295 31 294 32 293 33 292 34 291 35 290 36 289\n37 288 38 287 39 286 40 285 41 284 42 283 43 282 44 281 45 280\n46 279 47 278 48 277 49 276 50 275 51 274 52 273 53 272 54 271\n55 270 56 269 57 268 58 267 59 266 60 265 61 264 62 263 63 262\n64 261 65 260 66 259 67 258 68 257 69 256 70 255 71 254 72 253\n73 252 7..." }, { "input": "68", "output": "1 4624 2 4623 3 4622 4 4621 5 4620 6 4619 7 4618 8 4617 9 4616 10 4615 11 4614 12 4613 13 4612 14 4611 15 4610 16 4609 17 4608 18 4607 19 4606 20 4605 21 4604 22 4603 23 4602 24 4601 25 4600 26 4599 27 4598 28 4597 29 4596 30 4595 31 4594 32 4593 33 4592 34 4591\n35 4590 36 4589 37 4588 38 4587 39 4586 40 4585 41 4584 42 4583 43 4582 44 4581 45 4580 46 4579 47 4578 48 4577 49 4576 50 4575 51 4574 52 4573 53 4572 54 4571 55 4570 56 4569 57 4568 58 4567 59 4566 60 4565 61 4564 62 4563 63 4562 64 4561 65 4560..." }, { "input": "86", "output": "1 7396 2 7395 3 7394 4 7393 5 7392 6 7391 7 7390 8 7389 9 7388 10 7387 11 7386 12 7385 13 7384 14 7383 15 7382 16 7381 17 7380 18 7379 19 7378 20 7377 21 7376 22 7375 23 7374 24 7373 25 7372 26 7371 27 7370 28 7369 29 7368 30 7367 31 7366 32 7365 33 7364 34 7363 35 7362 36 7361 37 7360 38 7359 39 7358 40 7357 41 7356 42 7355 43 7354\n44 7353 45 7352 46 7351 47 7350 48 7349 49 7348 50 7347 51 7346 52 7345 53 7344 54 7343 55 7342 56 7341 57 7340 58 7339 59 7338 60 7337 61 7336 62 7335 63 7334 64 7333 65 7332..." }, { "input": "96", "output": "1 9216 2 9215 3 9214 4 9213 5 9212 6 9211 7 9210 8 9209 9 9208 10 9207 11 9206 12 9205 13 9204 14 9203 15 9202 16 9201 17 9200 18 9199 19 9198 20 9197 21 9196 22 9195 23 9194 24 9193 25 9192 26 9191 27 9190 28 9189 29 9188 30 9187 31 9186 32 9185 33 9184 34 9183 35 9182 36 9181 37 9180 38 9179 39 9178 40 9177 41 9176 42 9175 43 9174 44 9173 45 9172 46 9171 47 9170 48 9169\n49 9168 50 9167 51 9166 52 9165 53 9164 54 9163 55 9162 56 9161 57 9160 58 9159 59 9158 60 9157 61 9156 62 9155 63 9154 64 9153 65 9152..." }, { "input": "12", "output": "1 144 2 143 3 142 4 141 5 140 6 139\n7 138 8 137 9 136 10 135 11 134 12 133\n13 132 14 131 15 130 16 129 17 128 18 127\n19 126 20 125 21 124 22 123 23 122 24 121\n25 120 26 119 27 118 28 117 29 116 30 115\n31 114 32 113 33 112 34 111 35 110 36 109\n37 108 38 107 39 106 40 105 41 104 42 103\n43 102 44 101 45 100 46 99 47 98 48 97\n49 96 50 95 51 94 52 93 53 92 54 91\n55 90 56 89 57 88 58 87 59 86 60 85\n61 84 62 83 63 82 64 81 65 80 66 79\n67 78 68 77 69 76 70 75 71 74 72 73" }, { "input": "88", "output": "1 7744 2 7743 3 7742 4 7741 5 7740 6 7739 7 7738 8 7737 9 7736 10 7735 11 7734 12 7733 13 7732 14 7731 15 7730 16 7729 17 7728 18 7727 19 7726 20 7725 21 7724 22 7723 23 7722 24 7721 25 7720 26 7719 27 7718 28 7717 29 7716 30 7715 31 7714 32 7713 33 7712 34 7711 35 7710 36 7709 37 7708 38 7707 39 7706 40 7705 41 7704 42 7703 43 7702 44 7701\n45 7700 46 7699 47 7698 48 7697 49 7696 50 7695 51 7694 52 7693 53 7692 54 7691 55 7690 56 7689 57 7688 58 7687 59 7686 60 7685 61 7684 62 7683 63 7682 64 7681 65 7680..." }, { "input": "28", "output": "1 784 2 783 3 782 4 781 5 780 6 779 7 778 8 777 9 776 10 775 11 774 12 773 13 772 14 771\n15 770 16 769 17 768 18 767 19 766 20 765 21 764 22 763 23 762 24 761 25 760 26 759 27 758 28 757\n29 756 30 755 31 754 32 753 33 752 34 751 35 750 36 749 37 748 38 747 39 746 40 745 41 744 42 743\n43 742 44 741 45 740 46 739 47 738 48 737 49 736 50 735 51 734 52 733 53 732 54 731 55 730 56 729\n57 728 58 727 59 726 60 725 61 724 62 723 63 722 64 721 65 720 66 719 67 718 68 717 69 716 70 715\n71 714 72 713 73 712 74 7..." }, { "input": "80", "output": "1 6400 2 6399 3 6398 4 6397 5 6396 6 6395 7 6394 8 6393 9 6392 10 6391 11 6390 12 6389 13 6388 14 6387 15 6386 16 6385 17 6384 18 6383 19 6382 20 6381 21 6380 22 6379 23 6378 24 6377 25 6376 26 6375 27 6374 28 6373 29 6372 30 6371 31 6370 32 6369 33 6368 34 6367 35 6366 36 6365 37 6364 38 6363 39 6362 40 6361\n41 6360 42 6359 43 6358 44 6357 45 6356 46 6355 47 6354 48 6353 49 6352 50 6351 51 6350 52 6349 53 6348 54 6347 55 6346 56 6345 57 6344 58 6343 59 6342 60 6341 61 6340 62 6339 63 6338 64 6337 65 6336..." }, { "input": "48", "output": "1 2304 2 2303 3 2302 4 2301 5 2300 6 2299 7 2298 8 2297 9 2296 10 2295 11 2294 12 2293 13 2292 14 2291 15 2290 16 2289 17 2288 18 2287 19 2286 20 2285 21 2284 22 2283 23 2282 24 2281\n25 2280 26 2279 27 2278 28 2277 29 2276 30 2275 31 2274 32 2273 33 2272 34 2271 35 2270 36 2269 37 2268 38 2267 39 2266 40 2265 41 2264 42 2263 43 2262 44 2261 45 2260 46 2259 47 2258 48 2257\n49 2256 50 2255 51 2254 52 2253 53 2252 54 2251 55 2250 56 2249 57 2248 58 2247 59 2246 60 2245 61 2244 62 2243 63 2242 64 2241 65 224..." }, { "input": "54", "output": "1 2916 2 2915 3 2914 4 2913 5 2912 6 2911 7 2910 8 2909 9 2908 10 2907 11 2906 12 2905 13 2904 14 2903 15 2902 16 2901 17 2900 18 2899 19 2898 20 2897 21 2896 22 2895 23 2894 24 2893 25 2892 26 2891 27 2890\n28 2889 29 2888 30 2887 31 2886 32 2885 33 2884 34 2883 35 2882 36 2881 37 2880 38 2879 39 2878 40 2877 41 2876 42 2875 43 2874 44 2873 45 2872 46 2871 47 2870 48 2869 49 2868 50 2867 51 2866 52 2865 53 2864 54 2863\n55 2862 56 2861 57 2860 58 2859 59 2858 60 2857 61 2856 62 2855 63 2854 64 2853 65 285..." }, { "input": "58", "output": "1 3364 2 3363 3 3362 4 3361 5 3360 6 3359 7 3358 8 3357 9 3356 10 3355 11 3354 12 3353 13 3352 14 3351 15 3350 16 3349 17 3348 18 3347 19 3346 20 3345 21 3344 22 3343 23 3342 24 3341 25 3340 26 3339 27 3338 28 3337 29 3336\n30 3335 31 3334 32 3333 33 3332 34 3331 35 3330 36 3329 37 3328 38 3327 39 3326 40 3325 41 3324 42 3323 43 3322 44 3321 45 3320 46 3319 47 3318 48 3317 49 3316 50 3315 51 3314 52 3313 53 3312 54 3311 55 3310 56 3309 57 3308 58 3307\n59 3306 60 3305 61 3304 62 3303 63 3302 64 3301 65 330..." }, { "input": "64", "output": "1 4096 2 4095 3 4094 4 4093 5 4092 6 4091 7 4090 8 4089 9 4088 10 4087 11 4086 12 4085 13 4084 14 4083 15 4082 16 4081 17 4080 18 4079 19 4078 20 4077 21 4076 22 4075 23 4074 24 4073 25 4072 26 4071 27 4070 28 4069 29 4068 30 4067 31 4066 32 4065\n33 4064 34 4063 35 4062 36 4061 37 4060 38 4059 39 4058 40 4057 41 4056 42 4055 43 4054 44 4053 45 4052 46 4051 47 4050 48 4049 49 4048 50 4047 51 4046 52 4045 53 4044 54 4043 55 4042 56 4041 57 4040 58 4039 59 4038 60 4037 61 4036 62 4035 63 4034 64 4033\n65 403..." }, { "input": "44", "output": "1 1936 2 1935 3 1934 4 1933 5 1932 6 1931 7 1930 8 1929 9 1928 10 1927 11 1926 12 1925 13 1924 14 1923 15 1922 16 1921 17 1920 18 1919 19 1918 20 1917 21 1916 22 1915\n23 1914 24 1913 25 1912 26 1911 27 1910 28 1909 29 1908 30 1907 31 1906 32 1905 33 1904 34 1903 35 1902 36 1901 37 1900 38 1899 39 1898 40 1897 41 1896 42 1895 43 1894 44 1893\n45 1892 46 1891 47 1890 48 1889 49 1888 50 1887 51 1886 52 1885 53 1884 54 1883 55 1882 56 1881 57 1880 58 1879 59 1878 60 1877 61 1876 62 1875 63 1874 64 1873 65 187..." } ]	1,647,010,038	2,147,483,647	Python 3	OK	TESTS	21	92	0	n = int(input()) for i in range(n): out=[] for j in range(n): out.append(str(n*j+(i+j)%n+1)) print(" ".join(out))	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()) for i in range(n): out=[] for j in range(n): out.append(str(n*j+(i+j)%n+1)) print(" ".join(out)) ```	3
379	A	New Year Candles	PROGRAMMING	1,000	[ "implementation" ]		null	null	Vasily the Programmer loves romance, so this year he decided to illuminate his room with candles. Vasily has a candles.When Vasily lights up a new candle, it first burns for an hour and then it goes out. Vasily is smart, so he can make b went out candles into a new candle. As a result, this new candle can be used like any other new candle. Now Vasily wonders: for how many hours can his candles light up the room if he acts optimally well? Help him find this number.	The single line contains two integers, a and b (1<=≤<=a<=≤<=1000; 2<=≤<=b<=≤<=1000).	Print a single integer — the number of hours Vasily can light up the room for.	[ "4 2\n", "6 3\n" ]	[ "7\n", "8\n" ]	Consider the first sample. For the first four hours Vasily lights up new candles, then he uses four burned out candles to make two new ones and lights them up. When these candles go out (stop burning), Vasily can make another candle. Overall, Vasily can light up the room for 7 hours.	500	[ { "input": "4 2", "output": "7" }, { "input": "6 3", "output": "8" }, { "input": "1000 1000", "output": "1001" }, { "input": "123 5", "output": "153" }, { "input": "1000 2", "output": "1999" }, { "input": "1 2", "output": "1" }, { "input": "1 3", "output": "1" }, { "input": "1 4", "output": "1" }, { "input": "2 2", "output": "3" }, { "input": "3 2", "output": "5" }, { "input": "3 3", "output": "4" }, { "input": "999 2", "output": "1997" }, { "input": "1000 3", "output": "1499" }, { "input": "1000 4", "output": "1333" }, { "input": "1 1000", "output": "1" }, { "input": "80 970", "output": "80" }, { "input": "80 970", "output": "80" }, { "input": "80 970", "output": "80" }, { "input": "80 970", "output": "80" }, { "input": "80 970", "output": "80" }, { "input": "80 970", "output": "80" }, { "input": "10 4", "output": "13" }, { "input": "4 3", "output": "5" }, { "input": "91 5", "output": "113" }, { "input": "777 17", "output": "825" }, { "input": "100 4", "output": "133" }, { "input": "5 3", "output": "7" }, { "input": "6 4", "output": "7" }, { "input": "26 8", "output": "29" }, { "input": "9 4", "output": "11" }, { "input": "20 3", "output": "29" }, { "input": "17 3", "output": "25" } ]	1,655,534,809	2,147,483,647	Python 3	OK	TESTS	32	46	0	a, b = map(int, input().split()) s = a c = a while c >= b: a = c // b s = s + a c = c % b + a print(s)	Title: New Year Candles Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasily the Programmer loves romance, so this year he decided to illuminate his room with candles. Vasily has a candles.When Vasily lights up a new candle, it first burns for an hour and then it goes out. Vasily is smart, so he can make b went out candles into a new candle. As a result, this new candle can be used like any other new candle. Now Vasily wonders: for how many hours can his candles light up the room if he acts optimally well? Help him find this number. Input Specification: The single line contains two integers, a and b (1<=≤<=a<=≤<=1000; 2<=≤<=b<=≤<=1000). Output Specification: Print a single integer — the number of hours Vasily can light up the room for. Demo Input: ['4 2\n', '6 3\n'] Demo Output: ['7\n', '8\n'] Note: Consider the first sample. For the first four hours Vasily lights up new candles, then he uses four burned out candles to make two new ones and lights them up. When these candles go out (stop burning), Vasily can make another candle. Overall, Vasily can light up the room for 7 hours.	```python a, b = map(int, input().split()) s = a c = a while c >= b: a = c // b s = s + a c = c % b + a print(s) ```	3
588	B	Duff in Love	PROGRAMMING	1,300	[ "math" ]		null	null	Duff is in love with lovely numbers! A positive integer x is called lovely if and only if there is no such positive integer a<=><=1 such that a2 is a divisor of x. Malek has a number store! In his store, he has only divisors of positive integer n (and he has all of them). As a birthday present, Malek wants to give her a lovely number from his store. He wants this number to be as big as possible. Malek always had issues in math, so he asked for your help. Please tell him what is the biggest lovely number in his store.	The first and only line of input contains one integer, n (1<=≤<=n<=≤<=1012).	Print the answer in one line.	[ "10\n", "12\n" ]	[ "10\n", "6\n" ]	In first sample case, there are numbers 1, 2, 5 and 10 in the shop. 10 isn't divisible by any perfect square, so 10 is lovely. In second sample case, there are numbers 1, 2, 3, 4, 6 and 12 in the shop. 12 is divisible by 4 = 2<sup class="upper-index">2</sup>, so 12 is not lovely, while 6 is indeed lovely.	1,000	[ { "input": "10", "output": "10" }, { "input": "12", "output": "6" }, { "input": "1", "output": "1" }, { "input": "2", "output": "2" }, { "input": "4", "output": "2" }, { "input": "8", "output": "2" }, { "input": "3", "output": "3" }, { "input": "31", "output": "31" }, { "input": "97", "output": "97" }, { "input": "1000000000000", "output": "10" }, { "input": "15", "output": "15" }, { "input": "894", "output": "894" }, { "input": "271", "output": "271" }, { "input": "2457", "output": "273" }, { "input": "2829", "output": "2829" }, { "input": "5000", "output": "10" }, { "input": "20", "output": "10" }, { "input": "68", "output": "34" }, { "input": "3096", "output": "258" }, { "input": "1024", "output": "2" }, { "input": "1048576", "output": "2" }, { "input": "413933789280", "output": "25870861830" }, { "input": "817634153013", "output": "817634153013" }, { "input": "56517269141", "output": "56517269141" }, { "input": "30707328551", "output": "30707328551" }, { "input": "279564127218", "output": "10354226934" }, { "input": "491159577042", "output": "18191095446" }, { "input": "734337660466", "output": "734337660466" }, { "input": "808453785117", "output": "808453785117" }, { "input": "55926835837", "output": "55926835837" }, { "input": "294809951965", "output": "294809951965" }, { "input": "537988035389", "output": "76855433627" }, { "input": "822722434952", "output": "205680608738" }, { "input": "699511759613", "output": "699511759613" }, { "input": "942689843037", "output": "104743315893" }, { "input": "663634158717", "output": "663634158717" }, { "input": "213612977250", "output": "11730" }, { "input": "999999999989", "output": "999999999989" }, { "input": "999999999988", "output": "499999999994" }, { "input": "87178291200", "output": "30030" }, { "input": "927668721948", "output": "463834360974" }, { "input": "562436815639", "output": "37927" }, { "input": "302981118597", "output": "35853" }, { "input": "5", "output": "5" }, { "input": "9", "output": "3" }, { "input": "36", "output": "6" }, { "input": "2231", "output": "2231" }, { "input": "27648", "output": "6" }, { "input": "40320", "output": "210" }, { "input": "648000", "output": "30" }, { "input": "999966000289", "output": "999983" }, { "input": "999985999949", "output": "999985999949" }, { "input": "991921850317", "output": "9973" } ]	1,587,477,787	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	7	124	0	import math n=int(input()) a=[] def fun(n): if n%2==0: a.append(2) while n%2==0: n/=2 for i in range(3,int(math.sqrt(n))+1,2): if n%i==0 and i not in a: a.append(i) n/=i if n>2: a.append(n) fun(n) product=1 for i in a: product*=i print(int(product))	Title: Duff in Love Time Limit: None seconds Memory Limit: None megabytes Problem Description: Duff is in love with lovely numbers! A positive integer x is called lovely if and only if there is no such positive integer a<=><=1 such that a2 is a divisor of x. Malek has a number store! In his store, he has only divisors of positive integer n (and he has all of them). As a birthday present, Malek wants to give her a lovely number from his store. He wants this number to be as big as possible. Malek always had issues in math, so he asked for your help. Please tell him what is the biggest lovely number in his store. Input Specification: The first and only line of input contains one integer, n (1<=≤<=n<=≤<=1012). Output Specification: Print the answer in one line. Demo Input: ['10\n', '12\n'] Demo Output: ['10\n', '6\n'] Note: In first sample case, there are numbers 1, 2, 5 and 10 in the shop. 10 isn't divisible by any perfect square, so 10 is lovely. In second sample case, there are numbers 1, 2, 3, 4, 6 and 12 in the shop. 12 is divisible by 4 = 2<sup class="upper-index">2</sup>, so 12 is not lovely, while 6 is indeed lovely.	```python import math n=int(input()) a=[] def fun(n): if n%2==0: a.append(2) while n%2==0: n/=2 for i in range(3,int(math.sqrt(n))+1,2): if n%i==0 and i not in a: a.append(i) n/=i if n>2: a.append(n) fun(n) product=1 for i in a: product*=i print(int(product)) ```	0
724	A	Checking the Calendar	PROGRAMMING	1,000	[ "implementation" ]		null	null	You are given names of two days of the week. Please, determine whether it is possible that during some non-leap year the first day of some month was equal to the first day of the week you are given, while the first day of the next month was equal to the second day of the week you are given. Both months should belong to one year. In this problem, we consider the Gregorian calendar to be used. The number of months in this calendar is equal to 12. The number of days in months during any non-leap year is: 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31. Names of the days of the week are given with lowercase English letters: "monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday".	The input consists of two lines, each of them containing the name of exactly one day of the week. It's guaranteed that each string in the input is from the set "monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday".	Print "YES" (without quotes) if such situation is possible during some non-leap year. Otherwise, print "NO" (without quotes).	[ "monday\ntuesday\n", "sunday\nsunday\n", "saturday\ntuesday\n" ]	[ "NO\n", "YES\n", "YES\n" ]	In the second sample, one can consider February 1 and March 1 of year 2015. Both these days were Sundays. In the third sample, one can consider July 1 and August 1 of year 2017. First of these two days is Saturday, while the second one is Tuesday.	500	[ { "input": "monday\ntuesday", "output": "NO" }, { "input": "sunday\nsunday", "output": "YES" }, { "input": "saturday\ntuesday", "output": "YES" }, { "input": "tuesday\nthursday", "output": "YES" }, { "input": "friday\nwednesday", "output": "NO" }, { "input": "sunday\nsaturday", "output": "NO" }, { "input": "monday\nmonday", "output": "YES" }, { "input": "monday\nwednesday", "output": "YES" }, { "input": "monday\nthursday", "output": "YES" }, { "input": "monday\nfriday", "output": "NO" }, { "input": "monday\nsaturday", "output": "NO" }, { "input": "monday\nsunday", "output": "NO" }, { "input": "tuesday\nmonday", "output": "NO" }, { "input": "tuesday\ntuesday", "output": "YES" }, { "input": "tuesday\nwednesday", "output": "NO" }, { "input": "tuesday\nfriday", "output": "YES" }, { "input": "tuesday\nsaturday", "output": "NO" }, { "input": "tuesday\nsunday", "output": "NO" }, { "input": "wednesday\nmonday", "output": "NO" }, { "input": "wednesday\ntuesday", "output": "NO" }, { "input": "wednesday\nwednesday", "output": "YES" }, { "input": "wednesday\nthursday", "output": "NO" }, { "input": "wednesday\nfriday", "output": "YES" }, { "input": "wednesday\nsaturday", "output": "YES" }, { "input": "wednesday\nsunday", "output": "NO" }, { "input": "thursday\nmonday", "output": "NO" }, { "input": "thursday\ntuesday", "output": "NO" }, { "input": "thursday\nwednesday", "output": "NO" }, { "input": "thursday\nthursday", "output": "YES" }, { "input": "thursday\nfriday", "output": "NO" }, { "input": "thursday\nsaturday", "output": "YES" }, { "input": "thursday\nsunday", "output": "YES" }, { "input": "friday\nmonday", "output": "YES" }, { "input": "friday\ntuesday", "output": "NO" }, { "input": "friday\nthursday", "output": "NO" }, { "input": "friday\nsaturday", "output": "NO" }, { "input": "friday\nsunday", "output": "YES" }, { "input": "saturday\nmonday", "output": "YES" }, { "input": "saturday\nwednesday", "output": "NO" }, { "input": "saturday\nthursday", "output": "NO" }, { "input": "saturday\nfriday", "output": "NO" }, { "input": "saturday\nsaturday", "output": "YES" }, { "input": "saturday\nsunday", "output": "NO" }, { "input": "sunday\nmonday", "output": "NO" }, { "input": "sunday\ntuesday", "output": "YES" }, { "input": "sunday\nwednesday", "output": "YES" }, { "input": "sunday\nthursday", "output": "NO" }, { "input": "sunday\nfriday", "output": "NO" }, { "input": "friday\nfriday", "output": "YES" }, { "input": "friday\nsunday", "output": "YES" }, { "input": "monday\nmonday", "output": "YES" }, { "input": "friday\ntuesday", "output": "NO" }, { "input": "thursday\nsaturday", "output": "YES" }, { "input": "tuesday\nfriday", "output": "YES" }, { "input": "sunday\nwednesday", "output": "YES" }, { "input": "monday\nthursday", "output": "YES" }, { "input": "saturday\nsunday", "output": "NO" }, { "input": "friday\nmonday", "output": "YES" }, { "input": "thursday\nthursday", "output": "YES" }, { "input": "wednesday\nfriday", "output": "YES" }, { "input": "thursday\nmonday", "output": "NO" }, { "input": "wednesday\nsunday", "output": "NO" }, { "input": "thursday\nfriday", "output": "NO" }, { "input": "monday\nfriday", "output": "NO" }, { "input": "wednesday\nsaturday", "output": "YES" }, { "input": "thursday\nsunday", "output": "YES" }, { "input": "saturday\nfriday", "output": "NO" }, { "input": "saturday\nmonday", "output": "YES" } ]	1,483,655,714	2,147,483,647	Python 3	OK	TESTS	68	62	4,608,000	day=["monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday"] a=day.index(str(input())) b=day.index(str(input())) ans="NO" if (b-a)%7 in [3,0,2]: ans="YES" print(ans)	Title: Checking the Calendar Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given names of two days of the week. Please, determine whether it is possible that during some non-leap year the first day of some month was equal to the first day of the week you are given, while the first day of the next month was equal to the second day of the week you are given. Both months should belong to one year. In this problem, we consider the Gregorian calendar to be used. The number of months in this calendar is equal to 12. The number of days in months during any non-leap year is: 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31. Names of the days of the week are given with lowercase English letters: "monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday". Input Specification: The input consists of two lines, each of them containing the name of exactly one day of the week. It's guaranteed that each string in the input is from the set "monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday". Output Specification: Print "YES" (without quotes) if such situation is possible during some non-leap year. Otherwise, print "NO" (without quotes). Demo Input: ['monday\ntuesday\n', 'sunday\nsunday\n', 'saturday\ntuesday\n'] Demo Output: ['NO\n', 'YES\n', 'YES\n'] Note: In the second sample, one can consider February 1 and March 1 of year 2015. Both these days were Sundays. In the third sample, one can consider July 1 and August 1 of year 2017. First of these two days is Saturday, while the second one is Tuesday.	```python day=["monday", "tuesday", "wednesday", "thursday", "friday", "saturday", "sunday"] a=day.index(str(input())) b=day.index(str(input())) ans="NO" if (b-a)%7 in [3,0,2]: ans="YES" print(ans) ```	3
330	A	Cakeminator	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	You are given a rectangular cake, represented as an r<=×<=c grid. Each cell either has an evil strawberry, or is empty. For example, a 3<=×<=4 cake may look as follows: The cakeminator is going to eat the cake! Each time he eats, he chooses a row or a column that does not contain any evil strawberries and contains at least one cake cell that has not been eaten before, and eats all the cake cells there. He may decide to eat any number of times. Please output the maximum number of cake cells that the cakeminator can eat.	The first line contains two integers r and c (2<=≤<=r,<=c<=≤<=10), denoting the number of rows and the number of columns of the cake. The next r lines each contains c characters — the j-th character of the i-th line denotes the content of the cell at row i and column j, and is either one of these: - '.' character denotes a cake cell with no evil strawberry; - 'S' character denotes a cake cell with an evil strawberry.	Output the maximum number of cake cells that the cakeminator can eat.	[ "3 4\nS...\n....\n..S.\n" ]	[ "8\n" ]	For the first example, one possible way to eat the maximum number of cake cells is as follows (perform 3 eats).	500	[ { "input": "3 4\nS...\n....\n..S.", "output": "8" }, { "input": "2 2\n..\n..", "output": "4" }, { "input": "2 2\nSS\nSS", "output": "0" }, { "input": "7 3\nS..\nS..\nS..\nS..\nS..\nS..\nS..", "output": "14" }, { "input": "3 5\n..S..\nSSSSS\n..S..", "output": "0" }, { "input": "10 10\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS\nSSSSSSSSSS", "output": "0" }, { "input": "10 10\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS\nS...SSSSSS", "output": "30" }, { "input": "10 10\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..\n....S..S..", "output": "80" }, { "input": "9 5\nSSSSS\nSSSSS\nSSSSS\nSSSSS\nSSSSS\nSSSSS\nSSSSS\nSSSSS\nSSSSS", "output": "0" }, { "input": "9 9\n...S.....\nS.S.....S\n.S....S..\n.S.....SS\n.........\n..S.S..S.\n.SS......\n....S....\n..S...S..", "output": "17" }, { "input": "5 6\nSSSSSS\nSSSSSS\nSSSSSS\nSS.S..\nS.S.SS", "output": "0" }, { "input": "9 8\n........\n.......S\n........\nS.......\n........\n........\nS.......\n........\n.......S", "output": "64" }, { "input": "9 7\n......S\n......S\nS.S.S..\n.......\n.......\n.S.....\n.S....S\n..S....\n.S....S", "output": "28" }, { "input": "10 10\n.....S....\n....SS..S.\n.S...S....\n........SS\n.S.......S\nSS..S.....\n.SS.....SS\nS..S......\n.......SSS\nSSSSS....S", "output": "10" }, { "input": "6 7\n..S.SS.\n......S\n....S.S\nSS..S..\nS..SS.S\n.....S.", "output": "0" }, { "input": "10 6\n.SSSSS\nSSS.SS\nSSSSSS\nS.SSSS\nSSSSS.\nS.SSSS\nSS.SSS\n.SSS.S\n.SSS..\nSS..SS", "output": "0" }, { "input": "2 2\n..\n..", "output": "4" }, { "input": "3 2\nS.\n.S\nS.", "output": "0" }, { "input": "3 2\nS.\n.S\nS.", "output": "0" }, { "input": "4 3\n.S.\nS.S\n.S.\nS.S", "output": "0" }, { "input": "2 3\n...\nSSS", "output": "3" }, { "input": "2 4\nS.SS\nS.SS", "output": "2" }, { "input": "2 2\n..\n.S", "output": "3" }, { "input": "3 2\n.S\n.S\nSS", "output": "0" }, { "input": "2 4\nSS.S\n..S.", "output": "0" }, { "input": "2 3\n...\nS..", "output": "5" } ]	1,638,337,164	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	1	60	0	def solve(n, m, arr): cnt = 0 grid = [] for i in range(n): for j in range(m): if arr[i][j] == "S": grid.append([i, j]) x = len(grid) y = len(grid[0]) return (n-x) * ((m - y) * m) n, m = map(int, (input().split())) arr = [input() for i in range(n)] print(solve(n, m, arr))	Title: Cakeminator Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a rectangular cake, represented as an r<=×<=c grid. Each cell either has an evil strawberry, or is empty. For example, a 3<=×<=4 cake may look as follows: The cakeminator is going to eat the cake! Each time he eats, he chooses a row or a column that does not contain any evil strawberries and contains at least one cake cell that has not been eaten before, and eats all the cake cells there. He may decide to eat any number of times. Please output the maximum number of cake cells that the cakeminator can eat. Input Specification: The first line contains two integers r and c (2<=≤<=r,<=c<=≤<=10), denoting the number of rows and the number of columns of the cake. The next r lines each contains c characters — the j-th character of the i-th line denotes the content of the cell at row i and column j, and is either one of these: - '.' character denotes a cake cell with no evil strawberry; - 'S' character denotes a cake cell with an evil strawberry. Output Specification: Output the maximum number of cake cells that the cakeminator can eat. Demo Input: ['3 4\nS...\n....\n..S.\n'] Demo Output: ['8\n'] Note: For the first example, one possible way to eat the maximum number of cake cells is as follows (perform 3 eats).	```python def solve(n, m, arr): cnt = 0 grid = [] for i in range(n): for j in range(m): if arr[i][j] == "S": grid.append([i, j]) x = len(grid) y = len(grid[0]) return (n-x) * ((m - y) * m) n, m = map(int, (input().split())) arr = [input() for i in range(n)] print(solve(n, m, arr)) ```	-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": "3\nnjfngnrurunrgunrunvurn\njfvnjfdnvjdbfvsbdubruvbubvkdb\nksdnvidnviudbvibd", "output": "n20n\nj27b\nk15d" }, { "input": "1\ntcyctkktcctrcyvbyiuhihhhgyvyvyvyvjvytchjckt", "output": "t41t" }, { "input": "24\nyou\nare\nregistered\nfor\npractice\nyou\ncan\nsolve\nproblems\nunofficially\nresults\ncan\nbe\nfound\nin\nthe\ncontest\nstatus\nand\nin\nthe\nbottom\nof\nstandings", "output": "you\nare\nregistered\nfor\npractice\nyou\ncan\nsolve\nproblems\nu10y\nresults\ncan\nbe\nfound\nin\nthe\ncontest\nstatus\nand\nin\nthe\nbottom\nof\nstandings" }, { "input": "1\na", "output": "a" }, { "input": "26\na\nb\nc\nd\ne\nf\ng\nh\ni\nj\nk\nl\nm\nn\no\np\nq\nr\ns\nt\nu\nv\nw\nx\ny\nz", "output": "a\nb\nc\nd\ne\nf\ng\nh\ni\nj\nk\nl\nm\nn\no\np\nq\nr\ns\nt\nu\nv\nw\nx\ny\nz" }, { "input": "1\nabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghij", "output": "a98j" }, { "input": "10\ngyartjdxxlcl\nfzsck\nuidwu\nxbymclornemdmtj\nilppyoapitawgje\ncibzc\ndrgbeu\nhezplmsdekhhbo\nfeuzlrimbqbytdu\nkgdco", "output": "g10l\nfzsck\nuidwu\nx13j\ni13e\ncibzc\ndrgbeu\nh12o\nf13u\nkgdco" }, { "input": "20\nlkpmx\nkovxmxorlgwaomlswjxlpnbvltfv\nhykasjxqyjrmybejnmeumzha\ntuevlumpqbbhbww\nqgqsphvrmupxxc\ntrissbaf\nqfgrlinkzvzqdryckaizutd\nzzqtoaxkvwoscyx\noswytrlnhpjvvnwookx\nlpuzqgec\ngyzqfwxggtvpjhzmzmdw\nrlxjgmvdftvrmvbdwudra\nvsntnjpepnvdaxiporggmglhagv\nxlvcqkqgcrbgtgglj\nlyxwxbiszyhlsrgzeedzprbmcpduvq\nyrmqqvrkqskqukzqrwukpsifgtdc\nxpuohcsjhhuhvr\nvvlfrlxpvqejngwrbfbpmqeirxlw\nsvmasocxdvadmaxtrpakysmeaympy\nyuflqboqfdt", "output": "lkpmx\nk26v\nh22a\nt13w\nq12c\ntrissbaf\nq21d\nz13x\no17x\nlpuzqgec\ng18w\nr19a\nv25v\nx15j\nl28q\ny26c\nx12r\nv26w\ns27y\ny9t" }, { "input": "100\nm\nz\ns\nv\nd\nr\nv\ny\ny\ne\np\nt\nc\na\nn\nm\np\ng\ni\nj\nc\na\nb\nq\ne\nn\nv\no\nk\nx\nf\ni\nl\na\nq\nr\nu\nb\ns\nl\nc\nl\ne\nv\nj\nm\nx\nb\na\nq\nb\na\nf\nj\nv\nm\nq\nc\nt\nt\nn\nx\no\ny\nr\nu\nh\nm\nj\np\nj\nq\nz\ns\nj\no\ng\nc\nm\nn\no\nm\nr\no\ns\nt\nh\nr\np\nk\nb\nz\ng\no\nc\nc\nz\nz\ng\nr", "output": "m\nz\ns\nv\nd\nr\nv\ny\ny\ne\np\nt\nc\na\nn\nm\np\ng\ni\nj\nc\na\nb\nq\ne\nn\nv\no\nk\nx\nf\ni\nl\na\nq\nr\nu\nb\ns\nl\nc\nl\ne\nv\nj\nm\nx\nb\na\nq\nb\na\nf\nj\nv\nm\nq\nc\nt\nt\nn\nx\no\ny\nr\nu\nh\nm\nj\np\nj\nq\nz\ns\nj\no\ng\nc\nm\nn\no\nm\nr\no\ns\nt\nh\nr\np\nk\nb\nz\ng\no\nc\nc\nz\nz\ng\nr" } ]	1,677,847,858	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	15	0	n=str(input()) if len(n)<=10: print( n) else: a=len(n[1:len(n)-1]) print(str(n[0]+str(a)+n[len(n)-1]))	Title: Way Too Long Words Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome. Let's consider a word too long, if its length is strictly more than 10 characters. All too long words should be replaced with a special abbreviation. This abbreviation is made like this: we write down the first and the last letter of a word and between them we write the number of letters between the first and the last letters. That number is in decimal system and doesn't contain any leading zeroes. Thus, "localization" will be spelt as "l10n", and "internationalization» will be spelt as "i18n". You are suggested to automatize the process of changing the words with abbreviations. At that all too long words should be replaced by the abbreviation and the words that are not too long should not undergo any changes. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=100). Each of the following n lines contains one word. All the words consist of lowercase Latin letters and possess the lengths of from 1 to 100 characters. Output Specification: Print n lines. The i-th line should contain the result of replacing of the i-th word from the input data. Demo Input: ['4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis\n'] Demo Output: ['word\nl10n\ni18n\np43s\n'] Note: none	```python n=str(input()) if len(n)<=10: print( n) else: a=len(n[1:len(n)-1]) print(str(n[0]+str(a)+n[len(n)-1])) ```	0
112	A	Petya and Strings	PROGRAMMING	800	[ "implementation", "strings" ]	A. Petya and Strings	2	256	Little Petya loves presents. His mum bought him two strings of the same size for his birthday. The strings consist of uppercase and lowercase Latin letters. Now Petya wants to compare those two strings lexicographically. The letters' case does not matter, that is an uppercase letter is considered equivalent to the corresponding lowercase letter. Help Petya perform the comparison.	Each of the first two lines contains a bought string. The strings' lengths range from 1 to 100 inclusive. It is guaranteed that the strings are of the same length and also consist of uppercase and lowercase Latin letters.	If the first string is less than the second one, print "-1". If the second string is less than the first one, print "1". If the strings are equal, print "0". Note that the letters' case is not taken into consideration when the strings are compared.	[ "aaaa\naaaA\n", "abs\nAbz\n", "abcdefg\nAbCdEfF\n" ]	[ "0\n", "-1\n", "1\n" ]	If you want more formal information about the lexicographical order (also known as the "dictionary order" or "alphabetical order"), you can visit the following site: - http://en.wikipedia.org/wiki/Lexicographical_order	500	[ { "input": "aaaa\naaaA", "output": "0" }, { "input": "abs\nAbz", "output": "-1" }, { "input": "abcdefg\nAbCdEfF", "output": "1" }, { "input": "asadasdasd\nasdwasdawd", "output": "-1" }, { "input": "aslkjlkasdd\nasdlkjdajwi", "output": "1" }, { "input": "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\naaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa", "output": "0" }, { "input": "aAaaaAAaAaaAzZsssSsdDfeEaeqZlpP\nAaaaAaaAaaAaZzSSSSsDdFeeAeQZLpp", "output": "0" }, { "input": "bwuEhEveouaTECagLZiqmUdxEmhRSOzMauJRWLQMppZOumxhAmwuGeDIkvkBLvMXwUoFmpAfDprBcFtEwOULcZWRQhcTbTbX\nHhoDWbcxwiMnCNexOsKsujLiSGcLllXOkRSbnOzThAjnnliLYFFmsYkOfpTxRNEfBsoUHfoLTiqAINRPxWRqrTJhgfkKcDOH", "output": "-1" }, { "input": "kGWUuguKzcvxqKTNpxeDWXpXkrXDvGMFGoXKDfPBZvWSDUyIYBynbKOUonHvmZaKeirUhfmVRKtGhAdBfKMWXDUoqvbfpfHYcg\ncvOULleuIIiYVVxcLZmHVpNGXuEpzcWZZWyMOwIwbpkKPwCfkVbKkUuosvxYCKjqfVmHfJKbdrsAcatPYgrCABaFcoBuOmMfFt", "output": "1" }, { "input": "nCeNVIzHqPceNhjHeHvJvgBsNFiXBATRrjSTXJzhLMDMxiJztphxBRlDlqwDFImWeEPkggZCXSRwelOdpNrYnTepiOqpvkr\nHJbjJFtlvNxIbkKlxQUwmZHJFVNMwPAPDRslIoXISBYHHfymyIaQHLgECPxAmqnOCizwXnIUBRmpYUBVPenoUKhCobKdOjL", "output": "1" }, { "input": "ttXjenUAlfixytHEOrPkgXmkKTSGYuyVXGIHYmWWYGlBYpHkujueqBSgjLguSgiMGJWATIGEUjjAjKXdMiVbHozZUmqQtFrT\nJziDBFBDmDJCcGqFsQwDFBYdOidLxxhBCtScznnDgnsiStlWFnEXQrJxqTXKPxZyIGfLIToETKWZBPUIBmLeImrlSBWCkTNo", "output": "1" }, { "input": "AjQhPqSVhwQQjcgCycjKorWBgFCRuQBwgdVuAPSMJAvTyxGVuFHjfJzkKfsmfhFbKqFrFIohSZBbpjgEHebezmVlGLTPSCTMf\nXhxWuSnMmKFrCUOwkTUmvKAfbTbHWzzOTzxJatLLCdlGnHVaBUnxDlsqpvjLHMThOPAFBggVKDyKBrZAmjnjrhHlrnSkyzBja", "output": "-1" }, { "input": "HCIgYtnqcMyjVngziNflxKHtdTmcRJhzMAjFAsNdWXFJYEhiTzsQUtFNkAbdrFBRmvLirkuirqTDvIpEfyiIqkrwsjvpPWTEdI\nErqiiWKsmIjyZuzgTlTqxYZwlrpvRyaVhRTOYUqtPMVGGtWOkDCOOQRKrkkRzPftyQCkYkzKkzTPqqXmeZhvvEEiEhkdOmoMvy", "output": "1" }, { "input": "mtBeJYILXcECGyEVSyzLFdQJbiVnnfkbsYYsdUJSIRmyzLfTTtFwIBmRLVnwcewIqcuydkcLpflHAFyDaToLiFMgeHvQorTVbI\nClLvyejznjbRfCDcrCzkLvqQaGzTjwmWONBdCctJAPJBcQrcYvHaSLQgPIJbmkFBhFzuQLBiRzAdNHulCjIAkBvZxxlkdzUWLR", "output": "1" }, { "input": "tjucSbGESVmVridTBjTmpVBCwwdWKBPeBvmgdxgIVLwQxveETnSdxkTVJpXoperWSgdpPMKNmwDiGeHfxnuqaDissgXPlMuNZIr\nHfjOOJhomqNIKHvqSgfySjlsWJQBuWYwhLQhlZYlpZwboMpoLoluGsBmhhlYgeIouwdkPfiaAIrkYRlxtiFazOPOllPsNZHcIZd", "output": "1" }, { "input": "AanbDfbZNlUodtBQlvPMyomStKNhgvSGhSbTdabxGFGGXCdpsJDimsAykKjfBDPMulkhBMsqLmVKLDoesHZsRAEEdEzqigueXInY\ncwfyjoppiJNrjrOLNZkqcGimrpTsiyFBVgMWEPXsMrxLJDDbtYzerXiFGuLBcQYitLdqhGHBpdjRnkUegmnwhGHAKXGyFtscWDSI", "output": "-1" }, { "input": "HRfxniwuJCaHOcaOVgjOGHXKrwxrDQxJpppeGDXnTAowyKbCsCQPbchCKeTWOcKbySSYnoaTJDnmRcyGPbfXJyZoPcARHBu\nxkLXvwkvGIWSQaFTznLOctUXNuzzBBOlqvzmVfTSejekTAlwidRrsxkbZTsGGeEWxCXHzqWVuLGoCyrGjKkQoHqduXwYQKC", "output": "-1" }, { "input": "OjYwwNuPESIazoyLFREpObIaMKhCaKAMWMfRGgucEuyNYRantwdwQkmflzfqbcFRaXBnZoIUGsFqXZHGKwlaBUXABBcQEWWPvkjW\nRxLqGcTTpBwHrHltCOllnTpRKLDofBUqqHxnOtVWPgvGaeHIevgUSOeeDOJubfqonFpVNGVbHFcAhjnyFvrrqnRgKhkYqQZmRfUl", "output": "-1" }, { "input": "tatuhQPIzjptlzzJpCAPXSRTKZRlwgfoCIsFjJquRoIDyZZYRSPdFUTjjUPhLBBfeEIfLQpygKXRcyQFiQsEtRtLnZErBqW\ntkHUjllbafLUWhVCnvblKjgYIEoHhsjVmrDBmAWbvtkHxDbRFvsXAjHIrujaDbYwOZmacknhZPeCcorbRgHjjgAgoJdjvLo", "output": "-1" }, { "input": "cymCPGqdXKUdADEWDdUaLEEMHiXHsdAZuDnJDMUvxvrLRBrPSDpXPAgMRoGplLtniFRTomDTAHXWAdgUveTxaqKVSvnOyhOwiRN\nuhmyEWzapiRNPFDisvHTbenXMfeZaHqOFlKjrfQjUBwdFktNpeiRoDWuBftZLcCZZAVfioOihZVNqiNCNDIsUdIhvbcaxpTRWoV", "output": "-1" }, { "input": "sSvpcITJAwghVfJaLKBmyjOkhltTGjYJVLWCYMFUomiJaKQYhXTajvZVHIMHbyckYROGQZzjWyWCcnmDmrkvTKfHSSzCIhsXgEZa\nvhCXkCwAmErGVBPBAnkSYEYvseFKbWSktoqaHYXUmYkHfOkRwuEyBRoGoBrOXBKVxXycjZGStuvDarnXMbZLWrbjrisDoJBdSvWJ", "output": "-1" }, { "input": "hJDANKUNBisOOINDsTixJmYgHNogtpwswwcvVMptfGwIjvqgwTYFcqTdyAqaqlnhOCMtsnWXQqtjFwQlEcBtMFAtSqnqthVb\nrNquIcjNWESjpPVWmzUJFrelpUZeGDmSvCurCqVmKHKVAAPkaHksniOlzjiKYIJtvbuQWZRufMebpTFPqyxIWWjfPaWYiNlK", "output": "-1" }, { "input": "ycLoapxsfsDTHMSfAAPIUpiEhQKUIXUcXEiopMBuuZLHtfPpLmCHwNMNQUwsEXxCEmKHTBSnKhtQhGWUvppUFZUgSpbeChX\ndCZhgVXofkGousCzObxZSJwXcHIaqUDSCPKzXntcVmPxtNcXmVcjsetZYxedmgQzXTZHMvzjoaXCMKsncGciSDqQWIIRlys", "output": "1" }, { "input": "nvUbnrywIePXcoukIhwTfUVcHUEgXcsMyNQhmMlTltZiCooyZiIKRIGVHMCnTKgzXXIuvoNDEZswKoACOBGSyVNqTNQqMhAG\nplxuGSsyyJjdvpddrSebOARSAYcZKEaKjqbCwvjhNykuaECoQVHTVFMKXwvrQXRaqXsHsBaGVhCxGRxNyGUbMlxOarMZNXxy", "output": "-1" }, { "input": "EncmXtAblQzcVRzMQqdDqXfAhXbtJKQwZVWyHoWUckohnZqfoCmNJDzexFgFJYrwNHGgzCJTzQQFnxGlhmvQTpicTkEeVICKac\nNIUNZoMLFMyAjVgQLITELJSodIXcGSDWfhFypRoGYuogJpnqGTotWxVqpvBHjFOWcDRDtARsaHarHaOkeNWEHGTaGOFCOFEwvK", "output": "-1" }, { "input": "UG\nak", "output": "1" }, { "input": "JZR\nVae", "output": "-1" }, { "input": "a\nZ", "output": "-1" }, { "input": "rk\nkv", "output": "1" }, { "input": "RvuT\nbJzE", "output": "1" }, { "input": "PPS\nydq", "output": "-1" }, { "input": "q\nq", "output": "0" }, { "input": "peOw\nIgSJ", "output": "1" }, { "input": "PyK\noKN", "output": "1" }, { "input": "O\ni", "output": "1" }, { "input": "NmGY\npDlP", "output": "-1" }, { "input": "nG\nZf", "output": "-1" }, { "input": "m\na", "output": "1" }, { "input": "MWyB\nWZEV", "output": "-1" }, { "input": "Gre\nfxc", "output": "1" }, { "input": "Ooq\nwap", "output": "-1" }, { "input": "XId\nlbB", "output": "1" }, { "input": "lfFpECEqUMEOJhipvkZjDPcpDNJedOVXiSMgBvBZbtfzIKekcvpWPCazKAhJyHircRtgcBIJwwstpHaLAgxFOngAWUZRgCef\nLfFPEcequmeojHIpVkzjDPcpdNJEDOVXiSmGBVBZBtfZikEKcvPwpCAzKAHJyHIrCRTgCbIJWwSTphALagXfOnGAwUzRGcEF", "output": "0" }, { "input": "DQBdtSEDtFGiNRUeJNbOIfDZnsryUlzJHGTXGFXnwsVyxNtLgmklmFvRCzYETBVdmkpJJIvIOkMDgCFHZOTODiYrkwXd\nDQbDtsEdTFginRUEJNBOIfdZnsryulZJHGtxGFxnwSvYxnTLgmKlmFVRCzyEtBVdmKpJjiVioKMDgCFhzoTODiYrKwXD", "output": "0" }, { "input": "tYWRijFQSzHBpCjUzqBtNvBKyzZRnIdWEuyqnORBQTLyOQglIGfYJIRjuxnbLvkqZakNqPiGDvgpWYkfxYNXsdoKXZtRkSasfa\nTYwRiJfqsZHBPcJuZQBTnVbkyZZRnidwEuYQnorbQTLYOqGligFyjirJUxnblVKqZaknQpigDVGPwyKfxyNXSDoKxztRKSaSFA", "output": "0" }, { "input": "KhScXYiErQIUtmVhNTCXSLAviefIeHIIdiGhsYnPkSBaDTvMkyanfMLBOvDWgRybLtDqvXVdVjccNunDyijhhZEAKBrdz\nkHsCXyiErqIuTMVHNTCxSLaViEFIEhIIDiGHsYNpKsBAdTvMKyANFMLBovdwGRYbLtdQVxvDVJCcNUndYiJHhzeakBrdZ", "output": "0" }, { "input": "cpPQMpjRQJKQVXjWDYECXbagSmNcVfOuBWNZxihdERraVuiOpSVDCPgTGuSQALNoVjySceHcKXwOEpSzXrEqWwwrYeppNiWhDVg\nCPPqmPjRqJkQvxJwdyECXBAGsMNcVfOuBWNzxIhderRavUiOpSvDCpGTgusqAlNovjyScEhCKXwoePSZxrEQwWwryEPPniWHDvG", "output": "0" }, { "input": "SajcCGMepaLjZIWLRBGFcrZRCRvvoCsIyKsQerbrwsIamxxpRmQSZSalasJLVFbCHCuXJlubciQAvLxXYBazLsMKLHLdDQ\nsaJcCgmEpaLJziWlrBgFcRzrCrVVOcSIykSQerBrwSIamxxPrMqSzSalASjLVFbChCUxjLUbCIQAVlxxybAZLsmkLhLDdQ", "output": "0" }, { "input": "kigPrWNTOUNDBskAfefjhHYZNYdnfZWuXWzHiBxFQryBbAkPtenFwWvCSTYGpzOntUNzNUhxRWjKmicTwLwJAnbAxj\nkigpRWntOUNdBsKaFEFjhhYZnYDNfzWuXwZhibxFQRybbakPteNfwwvcStyGPzoNTunznuHXrWjKMIctWLWJANBAxJ", "output": "0" }, { "input": "nTomZZuTTRTAAPoUsySVFGElrpQRNLjqvFmcYytiheQnjUhPLnqNBiYtQkljbcvmjuNAVKbvQOWpqqFlQhAhULIhquoCnjUI\nntOmzZuttrtAAPOUSySVFgeLRPQrNLjQvfmCyYTiHEQnjuHPlNQNbIYtqKLJBCVmjunavkbvQOWPQQFlqHaHULIHQuOcnJUi", "output": "0" }, { "input": "abac\nadaa", "output": "-1" }, { "input": "Bbc\nabc", "output": "1" }, { "input": "aaaba\naaaab", "output": "1" } ]	1,696,601,886	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	4	62	0	a=input() b=input() a=a.lower() b=b.lower() s1=0 s2=0 for i in a: s1+=ord(i) for j in b: s2+=ord(j) if s1<s2: print("-1") elif s1>s2: print("1") else: print("0")	Title: Petya and Strings Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Little Petya loves presents. His mum bought him two strings of the same size for his birthday. The strings consist of uppercase and lowercase Latin letters. Now Petya wants to compare those two strings lexicographically. The letters' case does not matter, that is an uppercase letter is considered equivalent to the corresponding lowercase letter. Help Petya perform the comparison. Input Specification: Each of the first two lines contains a bought string. The strings' lengths range from 1 to 100 inclusive. It is guaranteed that the strings are of the same length and also consist of uppercase and lowercase Latin letters. Output Specification: If the first string is less than the second one, print "-1". If the second string is less than the first one, print "1". If the strings are equal, print "0". Note that the letters' case is not taken into consideration when the strings are compared. Demo Input: ['aaaa\naaaA\n', 'abs\nAbz\n', 'abcdefg\nAbCdEfF\n'] Demo Output: ['0\n', '-1\n', '1\n'] Note: If you want more formal information about the lexicographical order (also known as the "dictionary order" or "alphabetical order"), you can visit the following site: - http://en.wikipedia.org/wiki/Lexicographical_order	```python a=input() b=input() a=a.lower() b=b.lower() s1=0 s2=0 for i in a: s1+=ord(i) for j in b: s2+=ord(j) if s1<s2: print("-1") elif s1>s2: print("1") else: print("0") ```	0
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 91", "output": "-48" }, { "input": "20\n-72 -9 -86 80 7 -10 40 -27 -94 92 96 56 28 -19 79 36 -3 -73 -63 -49", "output": "-86" }, { "input": "49\n-74 -100 -80 23 -8 -83 -41 -20 48 17 46 -73 -55 67 85 4 40 -60 -69 -75 56 -74 -42 93 74 -95 64 -46 97 -47 55 0 -78 -34 -31 40 -63 -49 -76 48 21 -1 -49 -29 -98 -11 76 26 94", "output": "-98" }, { "input": "88\n63 48 1 -53 -89 -49 64 -70 -49 71 -17 -16 76 81 -26 -50 67 -59 -56 97 2 100 14 18 -91 -80 42 92 -25 -88 59 8 -56 38 48 -71 -78 24 -14 48 -1 69 73 -76 54 16 -92 44 47 33 -34 -17 -81 21 -59 -61 53 26 10 -76 67 35 -29 70 65 -13 -29 81 80 32 74 -6 34 46 57 1 -45 -55 69 79 -58 11 -2 22 -18 -16 -89 -46", "output": "-91" }, { "input": "100\n34 32 88 20 76 53 -71 -39 -98 -10 57 37 63 -3 -54 -64 -78 -82 73 20 -30 -4 22 75 51 -64 -91 29 -52 -48 83 19 18 -47 46 57 -44 95 89 89 -30 84 -83 67 58 -99 -90 -53 92 -60 -5 -56 -61 27 68 -48 52 -95 64 -48 -30 -67 66 89 14 -33 -31 -91 39 7 -94 -54 92 -96 -99 -83 -16 91 -28 -66 81 44 14 -85 -21 18 40 16 -13 -82 -33 47 -10 -40 -19 10 25 60 -34 -89", "output": "-98" }, { "input": "2\n-1 -1", "output": "NO" }, { "input": "3\n-2 -2 -2", "output": "NO" }, { "input": "100\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0", "output": "NO" }, { "input": "100\n100 100 100 100 100 100 100 100 100 100 100 100 -100 100 100 100 100 100 100 100 100 100 100 100 -100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 100 -100 100 100 100 100 100 100 100 100 100 100 -100 100 100 100 100 -100 100 100 100 100 100 100 100 100 100 100 100", "output": "100" }, { "input": "10\n40 71 -85 -85 40 -85 -85 64 -85 47", "output": "40" }, { "input": "23\n-90 -90 -41 -64 -64 -90 -15 10 -43 -90 -64 -64 89 -64 36 47 38 -90 -64 -90 -90 68 -90", "output": "-64" }, { "input": "39\n-97 -93 -42 -93 -97 -93 56 -97 -97 -97 76 -33 -60 91 7 82 17 47 -97 -97 -93 73 -97 12 -97 -97 -97 -97 56 -92 -83 -93 -93 49 -93 -97 -97 -17 -93", "output": "-93" }, { "input": "51\n-21 6 -35 -98 -86 -98 -86 -43 -65 32 -98 -40 96 -98 -98 -98 -98 -86 -86 -98 56 -86 -98 -98 -30 -98 -86 -31 -98 -86 -86 -86 -86 -30 96 -86 -86 -86 -60 25 88 -86 -86 58 31 -47 57 -86 37 44 -83", "output": "-86" }, { "input": "66\n-14 -95 65 -95 -95 -97 -90 -71 -97 -97 70 -95 -95 -97 -95 -27 35 -87 -95 -5 -97 -97 87 34 -49 -95 -97 -95 -97 -95 -30 -95 -97 47 -95 -17 -97 -95 -97 -69 51 -97 -97 -95 -75 87 59 21 63 56 76 -91 98 -97 6 -97 -95 -95 -97 -73 11 -97 -35 -95 -95 -43", "output": "-95" }, { "input": "77\n-67 -93 -93 -92 97 29 93 -93 -93 -5 -93 -7 60 -92 -93 44 -84 68 -92 -93 69 -92 -37 56 43 -93 35 -92 -93 19 -79 18 -92 -93 -93 -37 -93 -47 -93 -92 -92 74 67 19 40 -92 -92 -92 -92 -93 -93 -41 -93 -92 -93 -93 -92 -93 51 -80 6 -42 -92 -92 -66 -12 -92 -92 -3 93 -92 -49 -93 40 62 -92 -92", "output": "-92" }, { "input": "89\n-98 40 16 -87 -98 63 -100 55 -96 -98 -21 -100 -93 26 -98 -98 -100 -89 -98 -5 -65 -28 -100 -6 -66 67 -100 -98 -98 10 -98 -98 -70 7 -98 2 -100 -100 -98 25 -100 -100 -98 23 -68 -100 -98 3 98 -100 -98 -98 -98 -98 -24 -100 -100 -9 -98 35 -100 99 -5 -98 -100 -100 37 -100 -84 57 -98 40 -47 -100 -1 -92 -76 -98 -98 -100 -100 -100 -63 30 21 -100 -100 -100 -12", "output": "-98" }, { "input": "99\n10 -84 -100 -100 73 -64 -100 -94 33 -100 -100 -100 -100 71 64 24 7 -100 -32 -100 -100 77 -100 62 -12 55 45 -100 -100 -80 -100 -100 -100 -100 -100 -100 -100 -100 -100 -39 -48 -100 -34 47 -100 -100 -100 -100 -100 -77 -100 -100 -100 -100 -100 -100 -52 40 -55 -100 -44 -100 72 33 70 -100 -100 -78 -100 -3 100 -77 22 -100 95 -30 -100 10 -69 -100 -100 -100 -100 52 -39 -100 -100 -100 7 -100 -98 -66 95 -17 -100 52 -100 68 -100", "output": "-98" }, { "input": "100\n-99 -98 -64 89 53 57 -99 29 -78 18 -3 -54 76 -98 -99 -98 37 -98 19 -47 89 73 -98 -91 -99 -99 -98 -48 -99 22 -99 -98 -99 -99 -98 -60 84 67 -99 -98 20 -98 88 -98 46 -98 -99 -98 -99 -71 -99 -98 -98 -39 83 95 -98 63 -98 -99 32 -98 -99 -64 57 -30 -53 -83 -4 -99 58 20 -98 -10 -99 -44 -99 -99 -99 -99 75 34 -98 -52 -98 -30 -98 -99 -98 -98 51 -99 -99 -99 -98 -99 -99 -82 -90 92", "output": "-98" }, { "input": "3\n1 2 3", "output": "2" }, { "input": "3\n1 3 2", "output": "2" }, { "input": "3\n2 1 3", "output": "2" }, { "input": "3\n2 3 1", "output": "2" }, { "input": "3\n3 1 2", "output": "2" }, { "input": "3\n3 2 1", "output": "2" }, { "input": "9\n99 99 99 99 100 100 100 100 100", "output": "100" }, { "input": "5\n-100 -100 -100 -100 -100", "output": "NO" } ]	1,692,294,243	2,147,483,647	Python 3	OK	TESTS	31	92	0	input() S = set(map(int, input().split())) print(sorted(S)[1] if len(S) > 1 else 'NO')	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 input() S = set(map(int, input().split())) print(sorted(S)[1] if len(S) > 1 else 'NO') ```	3.977
260	A	Adding Digits	PROGRAMMING	1,400	[ "implementation", "math" ]		null	null	Vasya has got two number: a and b. However, Vasya finds number a too short. So he decided to repeat the operation of lengthening number a n times. One operation of lengthening a number means adding exactly one digit to the number (in the decimal notation) to the right provided that the resulting number is divisible by Vasya's number b. If it is impossible to obtain the number which is divisible by b, then the lengthening operation cannot be performed. Your task is to help Vasya and print the number he can get after applying the lengthening operation to number a n times.	The first line contains three integers: a,<=b,<=n (1<=≤<=a,<=b,<=n<=≤<=105).	In a single line print the integer without leading zeros, which Vasya can get when he applies the lengthening operations to number a n times. If no such number exists, then print number -1. If there are multiple possible answers, print any of them.	[ "5 4 5\n", "12 11 1\n", "260 150 10\n" ]	[ "524848\n", "121\n", "-1\n" ]	none	500	[ { "input": "5 4 5", "output": "524848" }, { "input": "12 11 1", "output": "121" }, { "input": "260 150 10", "output": "-1" }, { "input": "78843 5684 42717", "output": "-1" }, { "input": "93248 91435 1133", "output": "-1" }, { "input": "100000 10 64479", "output": "1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99999 21 73839", "output": "9999990000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99991 623 36438", "output": "9999150000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99999 334 94854", "output": "9999960000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99252 9827 84849", "output": "9925270000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99313 9833 10561", "output": "9931330000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "94885 55815 11417", "output": "9488550000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99492 58525 53481", "output": "9949250000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99858 28531 79193", "output": "9985850000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "99136 47208 42607", "output": "9913680000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "63270 19953 5555", "output": "-1" }, { "input": "10240 128 100000", "output": "1024000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "12 11 3", "output": "12100" }, { "input": "14 12 99998", "output": "1440000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000..." }, { "input": "1 11 3", "output": "1100" }, { "input": "3 40 1", "output": "-1" }, { "input": "150 100 10", "output": "1500000000000" }, { "input": "5 10 1", "output": "50" }, { "input": "1 15 10", "output": "15000000000" }, { "input": "3 13 2", "output": "390" } ]	1,671,663,627	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	5	46	1,024,000	def rec(num, b, it, n): if it > n: return num curr = num * 10 ans = -1 for i in range(0, 10): new_num = curr + i if new_num % b == 0: ans = rec(new_num, b, it + 1, n) if ans != -1: break return ans a, b, n = map(int, input().split()) print(rec(a, b, 1, n))	Title: Adding Digits Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasya has got two number: a and b. However, Vasya finds number a too short. So he decided to repeat the operation of lengthening number a n times. One operation of lengthening a number means adding exactly one digit to the number (in the decimal notation) to the right provided that the resulting number is divisible by Vasya's number b. If it is impossible to obtain the number which is divisible by b, then the lengthening operation cannot be performed. Your task is to help Vasya and print the number he can get after applying the lengthening operation to number a n times. Input Specification: The first line contains three integers: a,<=b,<=n (1<=≤<=a,<=b,<=n<=≤<=105). Output Specification: In a single line print the integer without leading zeros, which Vasya can get when he applies the lengthening operations to number a n times. If no such number exists, then print number -1. If there are multiple possible answers, print any of them. Demo Input: ['5 4 5\n', '12 11 1\n', '260 150 10\n'] Demo Output: ['524848\n', '121\n', '-1\n'] Note: none	```python def rec(num, b, it, n): if it > n: return num curr = num * 10 ans = -1 for i in range(0, 10): new_num = curr + i if new_num % b == 0: ans = rec(new_num, b, it + 1, n) if ans != -1: break return ans a, b, n = map(int, input().split()) print(rec(a, b, 1, n)) ```	-1
219	B	Special Offer! Super Price 999 Bourles!	PROGRAMMING	1,400	[ "implementation" ]		null	null	Polycarpus is an amateur businessman. Recently he was surprised to find out that the market for paper scissors is completely free! Without further ado, Polycarpus decided to start producing and selling such scissors. Polycaprus calculated that the optimal celling price for such scissors would be p bourles. However, he read somewhere that customers are attracted by prices that say something like "Special Offer! Super price 999 bourles!". So Polycarpus decided to lower the price a little if it leads to the desired effect. Polycarpus agrees to lower the price by no more than d bourles so that the number of nines at the end of the resulting price is maximum. If there are several ways to do it, he chooses the maximum possible price. Note, Polycarpus counts only the trailing nines in a price.	The first line contains two integers p and d (1<=≤<=p<=≤<=1018; 0<=≤<=d<=<<=p) — the initial price of scissors and the maximum possible price reduction. Please, do not use the %lld specifier to read or write 64-bit integers in С++. It is preferred to use cin, cout streams or the %I64d specifier.	Print the required price — the maximum price that ends with the largest number of nines and that is less than p by no more than d. The required number shouldn't have leading zeroes.	[ "1029 102\n", "27191 17\n" ]	[ "999\n", "27189\n" ]	none	1,000	[ { "input": "1029 102", "output": "999" }, { "input": "27191 17", "output": "27189" }, { "input": "1 0", "output": "1" }, { "input": "9 0", "output": "9" }, { "input": "20 1", "output": "19" }, { "input": "100 23", "output": "99" }, { "input": "10281 1", "output": "10281" }, { "input": "2111 21", "output": "2099" }, { "input": "3021 112", "output": "2999" }, { "input": "1000000000000000000 999999999999999999", "output": "999999999999999999" }, { "input": "29287101 301", "output": "29286999" }, { "input": "302918113 8113", "output": "302917999" }, { "input": "23483247283432 47283432", "output": "23483239999999" }, { "input": "47283432 7283432", "output": "46999999" }, { "input": "7283432 7283431", "output": "6999999" }, { "input": "2304324853947 5853947", "output": "2304319999999" }, { "input": "2485348653485 123483", "output": "2485348599999" }, { "input": "29845435345 34543", "output": "29845429999" }, { "input": "2348723847234234 234829384234", "output": "2348699999999999" }, { "input": "2348723847234234 234829384234", "output": "2348699999999999" }, { "input": "596383801524465437 13997918422040", "output": "596379999999999999" }, { "input": "621306590487786841 47851896849379", "output": "621299999999999999" }, { "input": "990575220328844835 100861359807341", "output": "990499999999999999" }, { "input": "403277728241895842 15097810739041", "output": "403269999999999999" }, { "input": "287854791214303304 98046359947548", "output": "287799999999999999" }, { "input": "847222126505823289 115713658562976", "output": "847199999999999999" }, { "input": "991096248227872657 181679439312637", "output": "990999999999999999" }, { "input": "954402996235787062 354162450334047", "output": "954399999999999999" }, { "input": "220466716596033408 44952575147901", "output": "220459999999999999" }, { "input": "559198116944738707 844709119308273", "output": "558999999999999999" }, { "input": "363980380443991024 4242310030748", "output": "363979999999999999" }, { "input": "733498827000355608 13253459808159", "output": "733489999999999999" }, { "input": "757663489894439901 139905688448459", "output": "757599999999999999" }, { "input": "30528581170507487 1199546082507", "output": "30527999999999999" }, { "input": "534463403123444176 67776394133861", "output": "534399999999999999" }, { "input": "399943891120381720 89545256475298", "output": "399899999999999999" }, { "input": "697076786191991245 95935185412097", "output": "696999999999999999" }, { "input": "495773842562930245 17116719198640", "output": "495769999999999999" }, { "input": "343540186435799067 48368225269792", "output": "343499999999999999" }, { "input": "393776794010351632 4138311260892", "output": "393775999999999999" }, { "input": "830005749156754342 157633405415940", "output": "829999999999999999" }, { "input": "735716632509713228 109839072010906", "output": "735699999999999999" }, { "input": "925835698451819219 232827103605000", "output": "925799999999999999" }, { "input": "362064657893189225 54298707317247", "output": "362059999999999999" }, { "input": "286739242579659245 61808986676984", "output": "286699999999999999" }, { "input": "234522568185994645 14536016333590", "output": "234519999999999999" }, { "input": "989980699593228598 382407804389880", "output": "989899999999999999" }, { "input": "953287447601143003 367647762226264", "output": "952999999999999999" }, { "input": "369834331957505226 421031521866991", "output": "369799999999999999" }, { "input": "433225528653135646 16671330805568", "output": "433219999999999999" }, { "input": "664584428369850915 516656201621892", "output": "664499999999999999" }, { "input": "100813383516253625 468493737928751", "output": "100799999999999999" }, { "input": "63600749936231318 12287109070881", "output": "63599999999999999" }, { "input": "196643334958802150 3659421793154", "output": "196639999999999999" }, { "input": "803015192835672406 14043666502157", "output": "803009999999999999" }, { "input": "43201857567928862 5891486380570", "output": "43199999999999999" }, { "input": "142195487377202511 32209508975060", "output": "142189999999999999" }, { "input": "159171676706847083 28512592184962", "output": "159169999999999999" }, { "input": "377788117133266645 12127036235155", "output": "377779999999999999" }, { "input": "949501478909148807 31763408418934", "output": "949499999999999999" }, { "input": "955412075341421601 220849506773896", "output": "955399999999999999" }, { "input": "652742935922718161 11045914932687", "output": "652739999999999999" }, { "input": "371621017875752909 511452352707014", "output": "371599999999999999" }, { "input": "979748686171802330 281906901894586", "output": "979699999999999999" }, { "input": "987860891213585005 85386263418762", "output": "987799999999999999" }, { "input": "59225847802373220 8605552735740", "output": "59219999999999999" }, { "input": "22532595810287625 1459945485391", "output": "22531999999999999" }, { "input": "191654878233371957 258451919478343", "output": "191599999999999999" }, { "input": "796937674525939896 892734175683845", "output": "796899999999999999" }, { "input": "166564871934000326 22888347028438", "output": "166559999999999999" }, { "input": "559198116944738707 84470911930827", "output": "559189999999999999" }, { "input": "559198116944738707 8447091193082", "output": "559189999999999999" }, { "input": "559198116944738707 844709119308", "output": "559197999999999999" }, { "input": "559198116944738707 84470911930", "output": "559198099999999999" }, { "input": "559198116944738707 8447091193", "output": "559198109999999999" }, { "input": "559198116944738707 844709119", "output": "559198116899999999" }, { "input": "559198116944738707 84470911", "output": "559198116899999999" }, { "input": "559198116944738707 8447091", "output": "559198116939999999" }, { "input": "559198116944738707 844709", "output": "559198116943999999" }, { "input": "559198116944738707 84470", "output": "559198116944699999" }, { "input": "559198116944738707 8447", "output": "559198116944737999" }, { "input": "559198116944738707 844", "output": "559198116944737999" }, { "input": "559198116944738707 84", "output": "559198116944738699" }, { "input": "559198116944738707 8", "output": "559198116944738699" }, { "input": "559198116944738707 7", "output": "559198116944738707" }, { "input": "559198116944738707 6", "output": "559198116944738707" }, { "input": "559198116944738707 1", "output": "559198116944738707" }, { "input": "559198116944738707 0", "output": "559198116944738707" }, { "input": "559198116944738700 1", "output": "559198116944738699" }, { "input": "559198116944738700 0", "output": "559198116944738700" }, { "input": "559198116944738999 0", "output": "559198116944738999" }, { "input": "559198116944738999 1", "output": "559198116944738999" }, { "input": "199 100", "output": "199" }, { "input": "99 10", "output": "99" }, { "input": "10 1", "output": "9" }, { "input": "18 17", "output": "9" }, { "input": "199 198", "output": "199" }, { "input": "1000000000000000000 0", "output": "1000000000000000000" }, { "input": "59 3", "output": "59" }, { "input": "9999 10", "output": "9999" }, { "input": "999999999999999998 999999999999999997", "output": "899999999999999999" }, { "input": "8 7", "output": "8" } ]	1,685,422,142	2,147,483,647	PyPy 3-64	RUNTIME_ERROR	TESTS	0	124	2,867,200	def countnine(s): k = 0 for i in range(1,len(s)+1): if s[-i] == '9': k+=1 else: return k n,d = (int(x) for x in input().split()) p = n c = [] k = 0 if str(n)[-1]=="9": c.append(n) k = 1 for i in range(1,len(str(n))): n = n//(10*i) (10**i) - 1 if p - n > d: break if countnine(str(n)) > k: c.append(n) k = countnine(str(n)) if len(c) !=0: print(c[-1]) else: print(p)	Title: Special Offer! Super Price 999 Bourles! Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarpus is an amateur businessman. Recently he was surprised to find out that the market for paper scissors is completely free! Without further ado, Polycarpus decided to start producing and selling such scissors. Polycaprus calculated that the optimal celling price for such scissors would be p bourles. However, he read somewhere that customers are attracted by prices that say something like "Special Offer! Super price 999 bourles!". So Polycarpus decided to lower the price a little if it leads to the desired effect. Polycarpus agrees to lower the price by no more than d bourles so that the number of nines at the end of the resulting price is maximum. If there are several ways to do it, he chooses the maximum possible price. Note, Polycarpus counts only the trailing nines in a price. Input Specification: The first line contains two integers p and d (1<=≤<=p<=≤<=1018; 0<=≤<=d<=<<=p) — the initial price of scissors and the maximum possible price reduction. Please, do not use the %lld specifier to read or write 64-bit integers in С++. It is preferred to use cin, cout streams or the %I64d specifier. Output Specification: Print the required price — the maximum price that ends with the largest number of nines and that is less than p by no more than d. The required number shouldn't have leading zeroes. Demo Input: ['1029 102\n', '27191 17\n'] Demo Output: ['999\n', '27189\n'] Note: none	```python def countnine(s): k = 0 for i in range(1,len(s)+1): if s[-i] == '9': k+=1 else: return k n,d = (int(x) for x in input().split()) p = n c = [] k = 0 if str(n)[-1]=="9": c.append(n) k = 1 for i in range(1,len(str(n))): n = n//(10*i) (10**i) - 1 if p - n > d: break if countnine(str(n)) > k: c.append(n) k = countnine(str(n)) if len(c) !=0: print(c[-1]) else: print(p) ```	-1
928	D	Autocompletion	PROGRAMMING	1,900	[ "*special", "strings", "trees" ]		null	null	Arcady is a copywriter. His today's task is to type up an already well-designed story using his favorite text editor. Arcady types words, punctuation signs and spaces one after another. Each letter and each sign (including line feed) requires one keyboard click in order to be printed. Moreover, when Arcady has a non-empty prefix of some word on the screen, the editor proposes a possible autocompletion for this word, more precisely one of the already printed words such that its prefix matches the currently printed prefix if this word is unique. For example, if Arcady has already printed «codeforces», «coding» and «codeforces» once again, then there will be no autocompletion attempt for «cod», but if he proceeds with «code», the editor will propose «codeforces». With a single click Arcady can follow the editor's proposal, i.e. to transform the current prefix to it. Note that no additional symbols are printed after the autocompletion (no spaces, line feeds, etc). What is the minimum number of keyboard clicks Arcady has to perform to print the entire text, if he is not allowed to move the cursor or erase the already printed symbols? A word here is a contiguous sequence of latin letters bordered by spaces, punctuation signs and line/text beginnings/ends. Arcady uses only lowercase letters. For example, there are 20 words in «it's well-known that tic-tac-toe is a paper-and-pencil game for two players, x and o.».	The only line contains Arcady's text, consisting only of lowercase latin letters, spaces, line feeds and the following punctuation signs: «.», «,», «?», «!», «'» and «-». The total amount of symbols doesn't exceed 3·105. It's guaranteed that all lines are non-empty.	Print a single integer — the minimum number of clicks.	[ "snow affects sports such as skiing, snowboarding, and snowmachine travel.\nsnowboarding is a recreational activity and olympic and paralympic sport.\n", "'co-co-co, codeforces?!'\n", "thun-thun-thunder, thunder, thunder\nthunder, thun-, thunder\nthun-thun-thunder, thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, thunder\n" ]	[ "141\n", "25\n", "183\n" ]	In sample case one it's optimal to use autocompletion for the first instance of «snowboarding» after typing up «sn» and for the second instance of «snowboarding» after typing up «snowb». This will save 7 clicks. In sample case two it doesn't matter whether to use autocompletion or not.	2,250	[ { "input": "snow affects sports such as skiing, snowboarding, and snowmachine travel.\nsnowboarding is a recreational activity and olympic and paralympic sport.", "output": "141" }, { "input": "'co-co-co, codeforces?!'", "output": "25" }, { "input": "thun-thun-thunder, thunder, thunder\nthunder, thun-, thunder\nthun-thun-thunder, thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, thunder", "output": "183" }, { "input": "a'b-c-aa'ab.ac.ba!bb-bc-ca?cb-cc.aaa,aab'aac'aba-abb'abc-aca.acb!acc?baa'bab'bac!bba-bbb.bbc.bca", "output": "97" }, { "input": "aaa!bbb'ccc?aaaaaa,aaabbb.aaaccc,bbbaaa-bbbbbb-bbbccc,cccaaa,cccbbb.cccccc'aaaaaaaaa-aaaaaabbb", "output": "91" }, { "input": "bca'bbc,bbb!bba!bac'bab.baa,acc?acb.aca'abc?abb?aba?aac,aab?aaa?cc?cb'ca'bc!bb.ba-ac!ab.aa!c,b.a", "output": "97" }, { "input": "a'aa!aaa.aab,aac,ab!aba,abb.abc'ac.aca'acb,acc!b'ba.baa.bab,bac!bb.bba,bbb,bbc,bc,bca'c?ca.cb,cc", "output": "97" }, { "input": "aaa?c?ba,ac?cc?b.abb-bab.cb-a'aac'bb'aab-bbc'bca.ca.acb-baa.acc-aba?aa-bbb.bac?bc,aca-bba!abc!ab", "output": "97" }, { "input": "baacbcaac-bcaabbaabaacccacc'acbb.b!-ababcab!b'a'aacaccaacbab!c\nb\nbca'bbcc!!", "output": "76" }, { "input": "aaa aaaaaa", "output": "10" } ]	1,519,566,051	79,551	Python 3	TIME_LIMIT_EXCEEDED	PRETESTS	10	1,000	7,884,800	import sys def hint(b, words): c = 0 for w in list(set(words)): if b == w[0:len(b)]: d = w c += 1 if c == 1: return d return 0 def write_word(word, ws): n = 0 i = 0 text = '' while True: text += word[i] i += 1 n += 1 h = hint(text, ws) if h != 0: if len(h) <= len(word): if h == word and not text==word: n += 1 break elif h in word: if not h == text: n += 1 text = h i = len(h) if i == len(word): break return n s = '' while True: st = sys.stdin.readline().replace('\n', '') if st=='': break s += st + ' ' s = s.replace('.', ' ') s = s.replace(',', ' ') s = s.replace('?', ' ') s = s.replace('!', ' ') s = s.replace("'", ' ') s = s.replace("-", ' ') wr = '' words = [] l1 = len(s) while True: if not ' ' in s: break s = s.replace(' ', ' ') ps = l1-len(s) l = s.split(' ') if l[0] == '': ps += 1 l = l[1:] if l[-1] == '': ps += 1 l = l[:-1] ps += len(l)-1 for w in l: ps += write_word(w, words) words.append(w) sys.stdout.write(str(ps))	Title: Autocompletion Time Limit: None seconds Memory Limit: None megabytes Problem Description: Arcady is a copywriter. His today's task is to type up an already well-designed story using his favorite text editor. Arcady types words, punctuation signs and spaces one after another. Each letter and each sign (including line feed) requires one keyboard click in order to be printed. Moreover, when Arcady has a non-empty prefix of some word on the screen, the editor proposes a possible autocompletion for this word, more precisely one of the already printed words such that its prefix matches the currently printed prefix if this word is unique. For example, if Arcady has already printed «codeforces», «coding» and «codeforces» once again, then there will be no autocompletion attempt for «cod», but if he proceeds with «code», the editor will propose «codeforces». With a single click Arcady can follow the editor's proposal, i.e. to transform the current prefix to it. Note that no additional symbols are printed after the autocompletion (no spaces, line feeds, etc). What is the minimum number of keyboard clicks Arcady has to perform to print the entire text, if he is not allowed to move the cursor or erase the already printed symbols? A word here is a contiguous sequence of latin letters bordered by spaces, punctuation signs and line/text beginnings/ends. Arcady uses only lowercase letters. For example, there are 20 words in «it's well-known that tic-tac-toe is a paper-and-pencil game for two players, x and o.». Input Specification: The only line contains Arcady's text, consisting only of lowercase latin letters, spaces, line feeds and the following punctuation signs: «.», «,», «?», «!», «'» and «-». The total amount of symbols doesn't exceed 3·105. It's guaranteed that all lines are non-empty. Output Specification: Print a single integer — the minimum number of clicks. Demo Input: ['snow affects sports such as skiing, snowboarding, and snowmachine travel.\nsnowboarding is a recreational activity and olympic and paralympic sport.\n', "'co-co-co, codeforces?!'\n", 'thun-thun-thunder, thunder, thunder\nthunder, thun-, thunder\nthun-thun-thunder, thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, feel the thunder\nlightning then the thunder\nthunder, thunder\n'] Demo Output: ['141\n', '25\n', '183\n'] Note: In sample case one it's optimal to use autocompletion for the first instance of «snowboarding» after typing up «sn» and for the second instance of «snowboarding» after typing up «snowb». This will save 7 clicks. In sample case two it doesn't matter whether to use autocompletion or not.	```python import sys def hint(b, words): c = 0 for w in list(set(words)): if b == w[0:len(b)]: d = w c += 1 if c == 1: return d return 0 def write_word(word, ws): n = 0 i = 0 text = '' while True: text += word[i] i += 1 n += 1 h = hint(text, ws) if h != 0: if len(h) <= len(word): if h == word and not text==word: n += 1 break elif h in word: if not h == text: n += 1 text = h i = len(h) if i == len(word): break return n s = '' while True: st = sys.stdin.readline().replace('\n', '') if st=='': break s += st + ' ' s = s.replace('.', ' ') s = s.replace(',', ' ') s = s.replace('?', ' ') s = s.replace('!', ' ') s = s.replace("'", ' ') s = s.replace("-", ' ') wr = '' words = [] l1 = len(s) while True: if not ' ' in s: break s = s.replace(' ', ' ') ps = l1-len(s) l = s.split(' ') if l[0] == '': ps += 1 l = l[1:] if l[-1] == '': ps += 1 l = l[:-1] ps += len(l)-1 for w in l: ps += write_word(w, words) words.append(w) sys.stdout.write(str(ps)) ```	0
137	B	Permutation	PROGRAMMING	1,000	[ "greedy" ]		null	null	"Hey, it's homework time" — thought Polycarpus and of course he started with his favourite subject, IT. Polycarpus managed to solve all tasks but for the last one in 20 minutes. However, as he failed to solve the last task after some considerable time, the boy asked you to help him. The sequence of n integers is called a permutation if it contains all integers from 1 to n exactly once. You are given an arbitrary sequence a1,<=a2,<=...,<=an containing n integers. Each integer is not less than 1 and not greater than 5000. Determine what minimum number of elements Polycarpus needs to change to get a permutation (he should not delete or add numbers). In a single change he can modify any single sequence element (i. e. replace it with another integer).	The first line of the input data contains an integer n (1<=≤<=n<=≤<=5000) which represents how many numbers are in the sequence. The second line contains a sequence of integers ai (1<=≤<=ai<=≤<=5000,<=1<=≤<=i<=≤<=n).	Print the only number — the minimum number of changes needed to get the permutation.	[ "3\n3 1 2\n", "2\n2 2\n", "5\n5 3 3 3 1\n" ]	[ "0\n", "1\n", "2\n" ]	The first sample contains the permutation, which is why no replacements are required. In the second sample it is enough to replace the first element with the number 1 and that will make the sequence the needed permutation. In the third sample we can replace the second element with number 4 and the fourth element with number 2.	1,000	[ { "input": "3\n3 1 2", "output": "0" }, { "input": "2\n2 2", "output": "1" }, { "input": "5\n5 3 3 3 1", "output": "2" }, { "input": "5\n6 6 6 6 6", "output": "5" }, { "input": "10\n1 1 2 2 8 8 7 7 9 9", "output": "5" }, { "input": "8\n9 8 7 6 5 4 3 2", "output": "1" }, { "input": "15\n1 2 3 4 5 5 4 3 2 1 1 2 3 4 5", "output": "10" }, { "input": "1\n1", "output": "0" }, { "input": "1\n5000", "output": "1" }, { "input": "4\n5000 5000 5000 5000", "output": "4" }, { "input": "5\n3366 3461 4 5 4370", "output": "3" }, { "input": "10\n8 2 10 3 4 6 1 7 9 5", "output": "0" }, { "input": "10\n551 3192 3213 2846 3068 1224 3447 1 10 9", "output": "7" }, { "input": "15\n4 1459 12 4281 3241 2748 10 3590 14 845 3518 1721 2 2880 1974", "output": "10" }, { "input": "15\n15 1 8 2 13 11 12 7 3 14 6 10 9 4 5", "output": "0" }, { "input": "15\n2436 2354 4259 1210 2037 2665 700 3578 2880 973 1317 1024 24 3621 4142", "output": "15" }, { "input": "30\n28 1 3449 9 3242 4735 26 3472 15 21 2698 7 4073 3190 10 3 29 1301 4526 22 345 3876 19 12 4562 2535 2 630 18 27", "output": "14" }, { "input": "100\n50 39 95 30 66 78 2169 4326 81 31 74 34 80 40 19 48 97 63 82 6 88 16 21 57 92 77 10 1213 17 93 32 91 38 4375 29 75 44 22 4 45 14 2395 3254 59 3379 2 85 96 8 83 27 94 1512 2960 100 9 73 79 7 25 55 69 90 99 51 87 98 62 18 35 43 4376 4668 28 72 56 4070 61 65 36 54 4106 11 24 15 86 70 71 4087 23 13 76 20 4694 26 4962 4726 37 14 64", "output": "18" }, { "input": "100\n340 14 3275 2283 2673 1107 817 2243 1226 32 2382 3638 4652 418 68 4962 387 764 4647 159 1846 225 2760 4904 3150 403 3 2439 91 4428 92 4705 75 348 1566 1465 69 6 49 4 62 4643 564 1090 3447 1871 2255 139 24 99 2669 969 86 61 4550 158 4537 3993 1589 872 2907 1888 401 80 1825 1483 63 1 2264 4068 4113 2548 41 885 4806 36 67 167 4447 34 1248 2593 82 202 81 1783 1284 4973 16 43 95 7 865 2091 3008 1793 20 947 4912 3604", "output": "70" }, { "input": "1\n2", "output": "1" }, { "input": "2\n5000 5000", "output": "2" }, { "input": "2\n1 2", "output": "0" }, { "input": "2\n1 1", "output": "1" }, { "input": "2\n2 3", "output": "1" }, { "input": "2\n3 4", "output": "2" }, { "input": "10\n1 2 3 4 5 6 7 1000 10 10", "output": "2" } ]	1,658,051,770	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	3	186	2,867,200	import string # tc = int(input()) tc = 1 while tc: # inp = [int(x) for x in input().split()] n = int(input()) # n, c, q = inp[0], inp[1], inp[2] # s = input() # q = input() a = [int(x) for x in input().split()] d = {} ans = 0 for i in a: d[i] = d.get(i, 0) + 1 for i in a: num = d.get(i, 0) if num > 1: ans += num - 1 del d[i] print(ans) tc -= 1	Title: Permutation Time Limit: None seconds Memory Limit: None megabytes Problem Description: "Hey, it's homework time" — thought Polycarpus and of course he started with his favourite subject, IT. Polycarpus managed to solve all tasks but for the last one in 20 minutes. However, as he failed to solve the last task after some considerable time, the boy asked you to help him. The sequence of n integers is called a permutation if it contains all integers from 1 to n exactly once. You are given an arbitrary sequence a1,<=a2,<=...,<=an containing n integers. Each integer is not less than 1 and not greater than 5000. Determine what minimum number of elements Polycarpus needs to change to get a permutation (he should not delete or add numbers). In a single change he can modify any single sequence element (i. e. replace it with another integer). Input Specification: The first line of the input data contains an integer n (1<=≤<=n<=≤<=5000) which represents how many numbers are in the sequence. The second line contains a sequence of integers ai (1<=≤<=ai<=≤<=5000,<=1<=≤<=i<=≤<=n). Output Specification: Print the only number — the minimum number of changes needed to get the permutation. Demo Input: ['3\n3 1 2\n', '2\n2 2\n', '5\n5 3 3 3 1\n'] Demo Output: ['0\n', '1\n', '2\n'] Note: The first sample contains the permutation, which is why no replacements are required. In the second sample it is enough to replace the first element with the number 1 and that will make the sequence the needed permutation. In the third sample we can replace the second element with number 4 and the fourth element with number 2.	```python import string # tc = int(input()) tc = 1 while tc: # inp = [int(x) for x in input().split()] n = int(input()) # n, c, q = inp[0], inp[1], inp[2] # s = input() # q = input() a = [int(x) for x in input().split()] d = {} ans = 0 for i in a: d[i] = d.get(i, 0) + 1 for i in a: num = d.get(i, 0) if num > 1: ans += num - 1 del d[i] print(ans) tc -= 1 ```	0
69	C	Game	PROGRAMMING	2,000	[ "implementation" ]	C. Game	2	256	In one school with Vasya there is a student Kostya. Kostya does not like physics, he likes different online games. Every day, having come home, Kostya throws his bag in the farthest corner and sits down at his beloved computer. Kostya even eats glued to the game. A few days ago Kostya bought a new RPG game "HaresButtle", which differs from all other games in this genre. It has a huge number of artifacts. As we know, artifacts are divided into basic and composite ones. Only the basic artifacts are available on sale. More powerful composite artifacts are collected from some number of basic artifacts. After the composing composite artifact, all the components disappear. Kostya is the head of the alliance, so he has to remember, what artifacts has not only himself, but also his allies. You must identify by sequence of artifacts purchased by Kostya and his allies, how many and which artifacts has been collected by each of them. It is believed that initially no one has any artifacts.	The first line has 4 natural numbers: k (1<=≤<=k<=≤<=100) — the number of Kostya's allies, n (1<=≤<=n<=≤<=50) — the number of basic artifacts, m (0<=≤<=m<=≤<=50) — the number of composite artifacts, q (1<=≤<=q<=≤<=500) — the number of his friends' purchases. The following n lines contain the names of basic artifacts. After them m lines contain the descriptions of composite artifacts in the following format: <Art. Name>: <Art. №1> <Art. №1 Number>, <Art. №2> <Art. №2 Number>, ... <Art. №X> <Art. №Х Number> All the numbers are natural numbers not exceeding 100 (1<=≤<=X<=≤<=n). The names of all artifacts are different, they are composed of lowercase Latin letters, and the length of each name is from 1 to 100 characters inclusive. All the words in the format of the description of a composite artifact are separated by exactly one space. It is guaranteed that all components of the new artifact are different and have already been met in the input data as the names of basic artifacts. Next, each of the following q lines is characterized by the number ai, the number of a friend who has bought the artifact (1<=≤<=ai<=≤<=k), and the name of the purchased basic artifact. Let's assume that the backpacks of the heroes are infinitely large and any artifact bought later can fit in there. It is guaranteed that after the i-th purchase no more than one opportunity to collect the composite artifact appears. If such an opportunity arose, the hero must take advantage of it.	The output file should consist of k blocks. The first line should contain number bi — the number of different artifacts the i-th ally has. Then the block should contain bi lines with the names of these artifacts and the number of these artifacts. At that the lines should be printed in accordance with the lexicographical order of the names of the artifacts. In each block all the artifacts must be different, and all the numbers except the bi should be positive.	[ "2 3 2 5\ndesolator\nrefresher\nperseverance\nvanguard: desolator 1, refresher 1\nmaelstorm: perseverance 2\n1 desolator\n2 perseverance\n1 refresher\n2 desolator\n2 perseverance\n" ]	[ "1\nvanguard 1\n2\ndesolator 1\nmaelstorm 1\n" ]	none	1,500	[ { "input": "2 3 2 5\ndesolator\nrefresher\nperseverance\nvanguard: desolator 1, refresher 1\nmaelstorm: perseverance 2\n1 desolator\n2 perseverance\n1 refresher\n2 desolator\n2 perseverance", "output": "1\nvanguard 1\n2\ndesolator 1\nmaelstorm 1" }, { "input": "2 3 2 5\na\nb\nc\nd: a 1, b 1\ne: c 2\n1 a\n2 c\n1 b\n2 c\n2 c", "output": "1\nd 1\n2\nc 1\ne 1" }, { "input": "10 1 1 3\na\nb: a 2\n1 a\n1 a\n1 a", "output": "2\na 1\nb 1\n0\n0\n0\n0\n0\n0\n0\n0\n0" }, { "input": "2 3 2 5\ndesolator\nrefresher\nperseverance\nvanguard: desolator 1, refresher 1\nmaelstorm: refresher 2\n1 desolator\n2 perseverance\n1 refresher\n1 refresher\n2 perseverance", "output": "2\nrefresher 1\nvanguard 1\n1\nperseverance 2" }, { "input": "1 1 1 1\na\nb: a 1\n1 a", "output": "1\nb 1" }, { "input": "2 3 2 5\ndesolator\nrefresher\nperseverance\nvanguard: desolator 1, refresher 3\nmaelstorm: refresher 2\n1 desolator\n2 perseverance\n1 refresher\n1 refresher\n2 perseverance", "output": "2\ndesolator 1\nmaelstorm 1\n1\nperseverance 2" }, { "input": "1 2 0 2\nb\na\n1 a\n1 b", "output": "2\na 1\nb 1" }, { "input": "2 3 2 5\na\nb\nc\nd: a 1, b 21\ne: c 2\n1 a\n2 c\n1 b\n2 c\n2 c", "output": "2\na 1\nb 1\n2\nc 1\ne 1" }, { "input": "1 1 2 2\na\nb: a 2\nc: a 1\n1 a\n1 a", "output": "1\nc 2" } ]	1,586,460,413	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	186	307,200	def solve(inv): for artifact, basics in composite.items(): flag = 1 while True: for basic in basics: if basic not in inv: flag -= 1 break elif inv[basic] < basics[basic]: flag -= 1 break if flag == 0: break #print(basics, inv) for basic in basics: inv[basic] -= basics[basic] if artifact not in inv: inv[artifact] = 1 else: inv[artifact] += 1 for i in list(inv): if inv[i] <= 0: del inv[i] print(len(inv)) for i, v in inv.items(): print(i, v) k, n, m, q = [int(i) for i in input().split()] basic = {} composite = {} for i in range(n): basic[input()] = 0 for i in range(m): string = input().split() composite[string[0][:-1]] = {} for j in range(1, len(string), 2): # checking if string has comma (like 1, instead of 1) composite[string[0][:-1]].update({string[j]: int(string[j+1]) if ',' not in string[j+1] else int(string[j+1][:-1])}) inv = [{} for i in range(k)] for i in range(q): ally, artifact = input().split() ally = int(ally)-1 if artifact not in inv[ally]: inv[ally][artifact] = 1 else: inv[ally][artifact] += 1 for i in range(k): solve(inv[i])	Title: Game Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: In one school with Vasya there is a student Kostya. Kostya does not like physics, he likes different online games. Every day, having come home, Kostya throws his bag in the farthest corner and sits down at his beloved computer. Kostya even eats glued to the game. A few days ago Kostya bought a new RPG game "HaresButtle", which differs from all other games in this genre. It has a huge number of artifacts. As we know, artifacts are divided into basic and composite ones. Only the basic artifacts are available on sale. More powerful composite artifacts are collected from some number of basic artifacts. After the composing composite artifact, all the components disappear. Kostya is the head of the alliance, so he has to remember, what artifacts has not only himself, but also his allies. You must identify by sequence of artifacts purchased by Kostya and his allies, how many and which artifacts has been collected by each of them. It is believed that initially no one has any artifacts. Input Specification: The first line has 4 natural numbers: k (1<=≤<=k<=≤<=100) — the number of Kostya's allies, n (1<=≤<=n<=≤<=50) — the number of basic artifacts, m (0<=≤<=m<=≤<=50) — the number of composite artifacts, q (1<=≤<=q<=≤<=500) — the number of his friends' purchases. The following n lines contain the names of basic artifacts. After them m lines contain the descriptions of composite artifacts in the following format: <Art. Name>: <Art. №1> <Art. №1 Number>, <Art. №2> <Art. №2 Number>, ... <Art. №X> <Art. №Х Number> All the numbers are natural numbers not exceeding 100 (1<=≤<=X<=≤<=n). The names of all artifacts are different, they are composed of lowercase Latin letters, and the length of each name is from 1 to 100 characters inclusive. All the words in the format of the description of a composite artifact are separated by exactly one space. It is guaranteed that all components of the new artifact are different and have already been met in the input data as the names of basic artifacts. Next, each of the following q lines is characterized by the number ai, the number of a friend who has bought the artifact (1<=≤<=ai<=≤<=k), and the name of the purchased basic artifact. Let's assume that the backpacks of the heroes are infinitely large and any artifact bought later can fit in there. It is guaranteed that after the i-th purchase no more than one opportunity to collect the composite artifact appears. If such an opportunity arose, the hero must take advantage of it. Output Specification: The output file should consist of k blocks. The first line should contain number bi — the number of different artifacts the i-th ally has. Then the block should contain bi lines with the names of these artifacts and the number of these artifacts. At that the lines should be printed in accordance with the lexicographical order of the names of the artifacts. In each block all the artifacts must be different, and all the numbers except the bi should be positive. Demo Input: ['2 3 2 5\ndesolator\nrefresher\nperseverance\nvanguard: desolator 1, refresher 1\nmaelstorm: perseverance 2\n1 desolator\n2 perseverance\n1 refresher\n2 desolator\n2 perseverance\n'] Demo Output: ['1\nvanguard 1\n2\ndesolator 1\nmaelstorm 1\n'] Note: none	```python def solve(inv): for artifact, basics in composite.items(): flag = 1 while True: for basic in basics: if basic not in inv: flag -= 1 break elif inv[basic] < basics[basic]: flag -= 1 break if flag == 0: break #print(basics, inv) for basic in basics: inv[basic] -= basics[basic] if artifact not in inv: inv[artifact] = 1 else: inv[artifact] += 1 for i in list(inv): if inv[i] <= 0: del inv[i] print(len(inv)) for i, v in inv.items(): print(i, v) k, n, m, q = [int(i) for i in input().split()] basic = {} composite = {} for i in range(n): basic[input()] = 0 for i in range(m): string = input().split() composite[string[0][:-1]] = {} for j in range(1, len(string), 2): # checking if string has comma (like 1, instead of 1) composite[string[0][:-1]].update({string[j]: int(string[j+1]) if ',' not in string[j+1] else int(string[j+1][:-1])}) inv = [{} for i in range(k)] for i in range(q): ally, artifact = input().split() ally = int(ally)-1 if artifact not in inv[ally]: inv[ally][artifact] = 1 else: inv[ally][artifact] += 1 for i in range(k): solve(inv[i]) ```	0
834	B	The Festive Evening	PROGRAMMING	1,100	[ "data structures", "implementation" ]		null	null	It's the end of July – the time when a festive evening is held at Jelly Castle! Guests from all over the kingdom gather here to discuss new trends in the world of confectionery. Yet some of the things discussed here are not supposed to be disclosed to the general public: the information can cause discord in the kingdom of Sweetland in case it turns out to reach the wrong hands. So it's a necessity to not let any uninvited guests in. There are 26 entrances in Jelly Castle, enumerated with uppercase English letters from A to Z. Because of security measures, each guest is known to be assigned an entrance he should enter the castle through. The door of each entrance is opened right before the first guest's arrival and closed right after the arrival of the last guest that should enter the castle through this entrance. No two guests can enter the castle simultaneously. For an entrance to be protected from possible intrusion, a candy guard should be assigned to it. There are k such guards in the castle, so if there are more than k opened doors, one of them is going to be left unguarded! Notice that a guard can't leave his post until the door he is assigned to is closed. Slastyona had a suspicion that there could be uninvited guests at the evening. She knows the order in which the invited guests entered the castle, and wants you to help her check whether there was a moment when more than k doors were opened.	Two integers are given in the first string: the number of guests n and the number of guards k (1<=≤<=n<=≤<=106, 1<=≤<=k<=≤<=26). In the second string, n uppercase English letters s1s2... sn are given, where si is the entrance used by the i-th guest.	Output «YES» if at least one door was unguarded during some time, and «NO» otherwise. You can output each letter in arbitrary case (upper or lower).	[ "5 1\nAABBB\n", "5 1\nABABB\n" ]	[ "NO\n", "YES\n" ]	In the first sample case, the door A is opened right before the first guest's arrival and closed when the second guest enters the castle. The door B is opened right before the arrival of the third guest, and closed after the fifth one arrives. One guard can handle both doors, as the first one is closed before the second one is opened. In the second sample case, the door B is opened before the second guest's arrival, but the only guard can't leave the door A unattended, as there is still one more guest that should enter the castle through this door.	1,000	[ { "input": "5 1\nAABBB", "output": "NO" }, { "input": "5 1\nABABB", "output": "YES" }, { "input": "26 1\nABCDEFGHIJKLMNOPQRSTUVWXYZ", "output": "NO" }, { "input": "27 1\nABCDEFGHIJKLMNOPQRSTUVWXYZA", "output": "YES" }, { "input": "5 2\nABACA", "output": "NO" }, { "input": "6 2\nABCABC", "output": "YES" }, { "input": "8 3\nABCBCDCA", "output": "NO" }, { "input": "73 2\nDEBECECBBADAADEAABEAEEEAEBEAEBCDDBABBAEBACCBEEBBAEADEECACEDEEDABACDCDBBBD", "output": "YES" }, { "input": "44 15\nHGJIFCGGCDGIJDHBIBGAEABCIABIGBDEADBBBAGDFDHA", "output": "NO" }, { "input": "41 19\nTMEYYIIELFDCMBDKWWKYNRNDUPRONYROXQCLVQALP", "output": "NO" }, { "input": "377 3\nEADADBBBBDEAABBAEBABACDBDBBCACAADBEAEACDEAABACADEEDEACACDADABBBBDDEECBDABACACBAECBADAEBDEEBDBCDAEADBCDDACACDCCEEDBCCBBCEDBECBABCDDBBDEADEDAEACDECECBEBACBCCDCDBDAECDECADBCBEDBBDAAEBCAAECCDCCDBDDEBADEEBDCAEABBDEDBBDDEAECCBDDCDEACDAECCBDDABABEAEDCDEDBAECBDEACEBCECEACDCBABCBAAEAADACADBBBBABEADBCADEBCBECCABBDDDEEBCDEBADEBDAAABBEABADEDEAEABCEEBEEDEAEBEABCEDDBACBCCADEBAAAAAEABABBCE", "output": "YES" }, { "input": "433 3\nFZDDHMJGBZCHFUXBBPIEBBEFDWOMXXEPOMDGSMPIUZOMRZQNSJAVNATGIWPDFISKFQXJNVFXPHOZDAEZFDAHDXXQKZMGNSGKQNWGNGJGJZVVITKNFLVCPMZSDMCHBTVAWYVZLIXXIADXNYILEYNIQHKMOGMVOCWGHCWIYMPEPADSJAAKEGTUSEDWAHMNYJDIHBKHVUHLYGNGZDBULRXLSAJHPCMNWCEAAPYMHDTYWPADOTJTXTXUKLCHWKUSZRHEKQEFPVJEJJHRWCKYOIWALRTIBUMNOCRXLSIKQCJVQXEPGOHRUDJDKMUUUDORURWXJNVRVMNOUNRFKSVMTMZGOIJLXEPAMVGESOADYIGZXRBJDIWKNOWTCSROAQTBECHTOZVSQUOOJRZIBAUHMKAXDCIMDZJFMABGRNTGPUJAUNFPFWCJG", "output": "YES" }, { "input": "5 2\nABCAB", "output": "YES" }, { "input": "5 1\nAZAZA", "output": "YES" }, { "input": "7 2\nABCDBCD", "output": "YES" }, { "input": "3 26\nAAB", "output": "NO" } ]	1,501,505,372	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	5	1,000	7,680,000	n,k=input().strip().split(' ') n=int(n) k=int(k) s=str(input()) l1=[-1 for i in range(26)] l2=[-1 for i in range(26)] g=[0 for i in range(26)] for i in range(n): if l1[ord(s[i])-65]==-1: l1[ord(s[i])-65]=i l2[ord(s[i])-65]=i else: l2[ord(s[i])-65]=i for i in range(n): for j in range(26): if l1[j]!=-1: if l1[j]<=i and l2[j]>=i: g[j]=1 else: g[j]=0 if g.count(1)>k: print("YES") exit() print("NO")	Title: The Festive Evening Time Limit: None seconds Memory Limit: None megabytes Problem Description: It's the end of July – the time when a festive evening is held at Jelly Castle! Guests from all over the kingdom gather here to discuss new trends in the world of confectionery. Yet some of the things discussed here are not supposed to be disclosed to the general public: the information can cause discord in the kingdom of Sweetland in case it turns out to reach the wrong hands. So it's a necessity to not let any uninvited guests in. There are 26 entrances in Jelly Castle, enumerated with uppercase English letters from A to Z. Because of security measures, each guest is known to be assigned an entrance he should enter the castle through. The door of each entrance is opened right before the first guest's arrival and closed right after the arrival of the last guest that should enter the castle through this entrance. No two guests can enter the castle simultaneously. For an entrance to be protected from possible intrusion, a candy guard should be assigned to it. There are k such guards in the castle, so if there are more than k opened doors, one of them is going to be left unguarded! Notice that a guard can't leave his post until the door he is assigned to is closed. Slastyona had a suspicion that there could be uninvited guests at the evening. She knows the order in which the invited guests entered the castle, and wants you to help her check whether there was a moment when more than k doors were opened. Input Specification: Two integers are given in the first string: the number of guests n and the number of guards k (1<=≤<=n<=≤<=106, 1<=≤<=k<=≤<=26). In the second string, n uppercase English letters s1s2... sn are given, where si is the entrance used by the i-th guest. Output Specification: Output «YES» if at least one door was unguarded during some time, and «NO» otherwise. You can output each letter in arbitrary case (upper or lower). Demo Input: ['5 1\nAABBB\n', '5 1\nABABB\n'] Demo Output: ['NO\n', 'YES\n'] Note: In the first sample case, the door A is opened right before the first guest's arrival and closed when the second guest enters the castle. The door B is opened right before the arrival of the third guest, and closed after the fifth one arrives. One guard can handle both doors, as the first one is closed before the second one is opened. In the second sample case, the door B is opened before the second guest's arrival, but the only guard can't leave the door A unattended, as there is still one more guest that should enter the castle through this door.	```python n,k=input().strip().split(' ') n=int(n) k=int(k) s=str(input()) l1=[-1 for i in range(26)] l2=[-1 for i in range(26)] g=[0 for i in range(26)] for i in range(n): if l1[ord(s[i])-65]==-1: l1[ord(s[i])-65]=i l2[ord(s[i])-65]=i else: l2[ord(s[i])-65]=i for i in range(n): for j in range(26): if l1[j]!=-1: if l1[j]<=i and l2[j]>=i: g[j]=1 else: g[j]=0 if g.count(1)>k: print("YES") exit() print("NO") ```	0
662	D	International Olympiad	PROGRAMMING	2,000	[ "constructive algorithms", "greedy", "implementation", "math" ]		null	null	International Abbreviation Olympiad takes place annually starting from 1989. Each year the competition receives an abbreviation of form IAO'y, where y stands for some number of consequent last digits of the current year. Organizers always pick an abbreviation with non-empty string y that has never been used before. Among all such valid abbreviations they choose the shortest one and announce it to be the abbreviation of this year's competition. For example, the first three Olympiads (years 1989, 1990 and 1991, respectively) received the abbreviations IAO'9, IAO'0 and IAO'1, while the competition in 2015 received an abbreviation IAO'15, as IAO'5 has been already used in 1995. You are given a list of abbreviations. For each of them determine the year it stands for.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of abbreviations to process. Then n lines follow, each containing a single abbreviation. It's guaranteed that each abbreviation contains at most nine digits.	For each abbreviation given in the input, find the year of the corresponding Olympiad.	[ "5\nIAO'15\nIAO'2015\nIAO'1\nIAO'9\nIAO'0\n", "4\nIAO'9\nIAO'99\nIAO'999\nIAO'9999\n" ]	[ "2015\n12015\n1991\n1989\n1990\n", "1989\n1999\n2999\n9999\n" ]	none	250	[ { "input": "5\nIAO'15\nIAO'2015\nIAO'1\nIAO'9\nIAO'0", "output": "2015\n12015\n1991\n1989\n1990" }, { "input": "4\nIAO'9\nIAO'99\nIAO'999\nIAO'9999", "output": "1989\n1999\n2999\n9999" }, { "input": "1\nIAO'111110", "output": "1111110" }, { "input": "2\nIAO'0\nIAO'00", "output": "1990\n2000" }, { "input": "1\nIAO'111111", "output": "1111111" }, { "input": "1\nIAO'111111111", "output": "1111111111" }, { "input": "1\nIAO'001", "output": "3001" }, { "input": "1\nIAO'2000", "output": "12000" }, { "input": "1\nIAO'11109999", "output": "111109999" }, { "input": "1\nIAO'11111", "output": "111111" }, { "input": "1\nIAO'100000", "output": "1100000" }, { "input": "1\nIAO'18999990", "output": "18999990" }, { "input": "1\nIAO'113098", "output": "1113098" }, { "input": "1\nIAO'111122", "output": "1111122" }, { "input": "1\nIAO'1110222", "output": "11110222" }, { "input": "1\nIAO'11133333", "output": "11133333" }, { "input": "1\nIAO'000000000", "output": "1000000000" }, { "input": "4\nIAO'3098\nIAO'99\nIAO'999\nIAO'9999", "output": "13098\n1999\n2999\n9999" }, { "input": "1\nIAO'11100000", "output": "111100000" }, { "input": "2\nIAO'15\nIAO'15", "output": "2015\n2015" }, { "input": "1\nIAO'999999999", "output": "999999999" }, { "input": "1\nIAO'1112121", "output": "11112121" }, { "input": "1\nIAO'111113098", "output": "1111113098" }, { "input": "1\nIAO'10005000", "output": "110005000" }, { "input": "1\nIAO'111378", "output": "1111378" }, { "input": "1\nIAO'112222", "output": "1112222" }, { "input": "1\nIAO'021113099", "output": "1021113099" }, { "input": "1\nIAO'123456789", "output": "123456789" }, { "input": "1\nIAO'000000001", "output": "1000000001" }, { "input": "1\nIAO'089", "output": "3089" }, { "input": "9\nIAO'0\nIAO'00\nIAO'000\nIAO'0000\nIAO'00000\nIAO'000000\nIAO'0000000\nIAO'00000000\nIAO'000000000", "output": "1990\n2000\n3000\n10000\n100000\n1000000\n10000000\n100000000\n1000000000" }, { "input": "2\nIAO'999999999\nIAO'999999999", "output": "999999999\n999999999" }, { "input": "1\nIAO'2015", "output": "12015" }, { "input": "1\nIAO'113097", "output": "1113097" }, { "input": "1\nIAO'11378", "output": "111378" } ]	1,690,544,743	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	3	124	2,252,800	t = int(input()) for i in range(t): s = input() x = s[4:] l = ["199", "20", "2"] if len(x) > 3: if x[0] == "0": print(str(len(x)) + x) elif x[0] == "2" and len(x) == 4: print("1" + x) else: print(x) elif x == "9": print(1989) elif x == "99": print(1999) else: print(l[len(x) - 1] + x)	Title: International Olympiad Time Limit: None seconds Memory Limit: None megabytes Problem Description: International Abbreviation Olympiad takes place annually starting from 1989. Each year the competition receives an abbreviation of form IAO'y, where y stands for some number of consequent last digits of the current year. Organizers always pick an abbreviation with non-empty string y that has never been used before. Among all such valid abbreviations they choose the shortest one and announce it to be the abbreviation of this year's competition. For example, the first three Olympiads (years 1989, 1990 and 1991, respectively) received the abbreviations IAO'9, IAO'0 and IAO'1, while the competition in 2015 received an abbreviation IAO'15, as IAO'5 has been already used in 1995. You are given a list of abbreviations. For each of them determine the year it stands for. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of abbreviations to process. Then n lines follow, each containing a single abbreviation. It's guaranteed that each abbreviation contains at most nine digits. Output Specification: For each abbreviation given in the input, find the year of the corresponding Olympiad. Demo Input: ["5\nIAO'15\nIAO'2015\nIAO'1\nIAO'9\nIAO'0\n", "4\nIAO'9\nIAO'99\nIAO'999\nIAO'9999\n"] Demo Output: ['2015\n12015\n1991\n1989\n1990\n', '1989\n1999\n2999\n9999\n'] Note: none	```python t = int(input()) for i in range(t): s = input() x = s[4:] l = ["199", "20", "2"] if len(x) > 3: if x[0] == "0": print(str(len(x)) + x) elif x[0] == "2" and len(x) == 4: print("1" + x) else: print(x) elif x == "9": print(1989) elif x == "99": print(1999) else: print(l[len(x) - 1] + x) ```	0
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": "2" }, { "input": "4\n75 13 94 77", "output": "3" }, { "input": "4\n97 8 27 3", "output": "2" }, { "input": "10\n95 51 12 91 85 3 1 31 25 7", "output": "3" }, { "input": "20\n88 96 66 51 14 88 2 92 18 72 18 88 20 30 4 82 90 100 24 46", "output": "4" }, { "input": "30\n20 94 56 50 10 98 52 32 14 22 24 60 4 8 98 46 34 68 82 82 98 90 50 20 78 49 52 94 64 36", "output": "26" }, { "input": "50\n79 27 77 57 37 45 27 49 65 33 57 21 71 19 75 85 65 61 23 97 85 9 23 1 9 3 99 77 77 21 79 69 15 37 15 7 93 81 13 89 91 31 45 93 15 97 55 80 85 83", "output": "48" }, { "input": "60\n46 11 73 65 3 69 3 53 43 53 97 47 55 93 31 75 35 3 9 73 23 31 3 81 91 79 61 21 15 11 11 11 81 7 83 75 39 87 83 59 89 55 93 27 49 67 67 29 1 93 11 17 9 19 35 21 63 31 31 25", "output": "1" }, { "input": "70\n28 42 42 92 64 54 22 38 38 78 62 38 4 38 14 66 4 92 66 58 94 26 4 44 41 88 48 82 44 26 74 44 48 4 16 92 34 38 26 64 94 4 30 78 50 54 12 90 8 16 80 98 28 100 74 50 36 42 92 18 76 98 8 22 2 50 58 50 64 46", "output": "25" }, { "input": "100\n43 35 79 53 13 91 91 45 65 83 57 9 42 39 85 45 71 51 61 59 31 13 63 39 25 21 79 39 91 67 21 61 97 75 93 83 29 79 59 97 11 37 63 51 39 55 91 23 21 17 47 23 35 75 49 5 69 99 5 7 41 17 25 89 15 79 21 63 53 81 43 91 59 91 69 99 85 15 91 51 49 37 65 7 89 81 21 93 61 63 97 93 45 17 13 69 57 25 75 73", "output": "13" }, { "input": "100\n50 24 68 60 70 30 52 22 18 74 68 98 20 82 4 46 26 68 100 78 84 58 74 98 38 88 68 86 64 80 82 100 20 22 98 98 52 6 94 10 48 68 2 18 38 22 22 82 44 20 66 72 36 58 64 6 36 60 4 96 76 64 12 90 10 58 64 60 74 28 90 26 24 60 40 58 2 16 76 48 58 36 82 60 24 44 4 78 28 38 8 12 40 16 38 6 66 24 31 76", "output": "99" }, { "input": "100\n47 48 94 48 14 18 94 36 96 22 12 30 94 20 48 98 40 58 2 94 8 36 98 18 98 68 2 60 76 38 18 100 8 72 100 68 2 86 92 72 58 16 48 14 6 58 72 76 6 88 80 66 20 28 74 62 86 68 90 86 2 56 34 38 56 90 4 8 76 44 32 86 12 98 38 34 54 92 70 94 10 24 82 66 90 58 62 2 32 58 100 22 58 72 2 22 68 72 42 14", "output": "1" }, { "input": "99\n38 20 68 60 84 16 28 88 60 48 80 28 4 92 70 60 46 46 20 34 12 100 76 2 40 10 8 86 6 80 50 66 12 34 14 28 26 70 46 64 34 96 10 90 98 96 56 88 50 74 70 94 2 94 24 66 68 46 22 30 6 10 64 32 88 14 98 100 64 58 50 18 50 50 8 38 8 16 54 2 60 54 62 84 92 98 4 72 66 26 14 88 99 16 10 6 88 56 22", "output": "93" }, { "input": "99\n50 83 43 89 53 47 69 1 5 37 63 87 95 15 55 95 75 89 33 53 89 75 93 75 11 85 49 29 11 97 49 67 87 11 25 37 97 73 67 49 87 43 53 97 43 29 53 33 45 91 37 73 39 49 59 5 21 43 87 35 5 63 89 57 63 47 29 99 19 85 13 13 3 13 43 19 5 9 61 51 51 57 15 89 13 97 41 13 99 79 13 27 97 95 73 33 99 27 23", "output": "1" }, { "input": "98\n61 56 44 30 58 14 20 24 88 28 46 56 96 52 58 42 94 50 46 30 46 80 72 88 68 16 6 60 26 90 10 98 76 20 56 40 30 16 96 20 88 32 62 30 74 58 36 76 60 4 24 36 42 54 24 92 28 14 2 74 86 90 14 52 34 82 40 76 8 64 2 56 10 8 78 16 70 86 70 42 70 74 22 18 76 98 88 28 62 70 36 72 20 68 34 48 80 98", "output": "1" }, { "input": "98\n66 26 46 42 78 32 76 42 26 82 8 12 4 10 24 26 64 44 100 46 94 64 30 18 88 28 8 66 30 82 82 28 74 52 62 80 80 60 94 86 64 32 44 88 92 20 12 74 94 28 34 58 4 22 16 10 94 76 82 58 40 66 22 6 30 32 92 54 16 76 74 98 18 48 48 30 92 2 16 42 84 74 30 60 64 52 50 26 16 86 58 96 79 60 20 62 82 94", "output": "93" }, { "input": "95\n9 31 27 93 17 77 75 9 9 53 89 39 51 99 5 1 11 39 27 49 91 17 27 79 81 71 37 75 35 13 93 4 99 55 85 11 23 57 5 43 5 61 15 35 23 91 3 81 99 85 43 37 39 27 5 67 7 33 75 59 13 71 51 27 15 93 51 63 91 53 43 99 25 47 17 71 81 15 53 31 59 83 41 23 73 25 91 91 13 17 25 13 55 57 29", "output": "32" }, { "input": "100\n91 89 81 45 53 1 41 3 77 93 55 97 55 97 87 27 69 95 73 41 93 21 75 35 53 56 5 51 87 59 91 67 33 3 99 45 83 17 97 47 75 97 7 89 17 99 23 23 81 25 55 97 27 35 69 5 77 35 93 19 55 59 37 21 31 37 49 41 91 53 73 69 7 37 37 39 17 71 7 97 55 17 47 23 15 73 31 39 57 37 9 5 61 41 65 57 77 79 35 47", "output": "26" }, { "input": "99\n38 56 58 98 80 54 26 90 14 16 78 92 52 74 40 30 84 14 44 80 16 90 98 68 26 24 78 72 42 16 84 40 14 44 2 52 50 2 12 96 58 66 8 80 44 52 34 34 72 98 74 4 66 74 56 21 8 38 76 40 10 22 48 32 98 34 12 62 80 68 64 82 22 78 58 74 20 22 48 56 12 38 32 72 6 16 74 24 94 84 26 38 18 24 76 78 98 94 72", "output": "56" }, { "input": "100\n44 40 6 40 56 90 98 8 36 64 76 86 98 76 36 92 6 30 98 70 24 98 96 60 24 82 88 68 86 96 34 42 58 10 40 26 56 10 88 58 70 32 24 28 14 82 52 12 62 36 70 60 52 34 74 30 78 76 10 16 42 94 66 90 70 38 52 12 58 22 98 96 14 68 24 70 4 30 84 98 8 50 14 52 66 34 100 10 28 100 56 48 38 12 38 14 91 80 70 86", "output": "97" }, { "input": "100\n96 62 64 20 90 46 56 90 68 36 30 56 70 28 16 64 94 34 6 32 34 50 94 22 90 32 40 2 72 10 88 38 28 92 20 26 56 80 4 100 100 90 16 74 74 84 8 2 30 20 80 32 16 46 92 56 42 12 96 64 64 42 64 58 50 42 74 28 2 4 36 32 70 50 54 92 70 16 45 76 28 16 18 50 48 2 62 94 4 12 52 52 4 100 70 60 82 62 98 42", "output": "79" }, { "input": "99\n14 26 34 68 90 58 50 36 8 16 18 6 2 74 54 20 36 84 32 50 52 2 26 24 3 64 20 10 54 26 66 44 28 72 4 96 78 90 96 86 68 28 94 4 12 46 100 32 22 36 84 32 44 94 76 94 4 52 12 30 74 4 34 64 58 72 44 16 70 56 54 8 14 74 8 6 58 62 98 54 14 40 80 20 36 72 28 98 20 58 40 52 90 64 22 48 54 70 52", "output": "25" }, { "input": "95\n82 86 30 78 6 46 80 66 74 72 16 24 18 52 52 38 60 36 86 26 62 28 22 46 96 26 94 84 20 46 66 88 76 32 12 86 74 18 34 88 4 48 94 6 58 6 100 82 4 24 88 32 54 98 34 48 6 76 42 88 42 28 100 4 22 2 10 66 82 54 98 20 60 66 38 98 32 47 86 58 6 100 12 46 2 42 8 84 78 28 24 70 34 28 86", "output": "78" }, { "input": "90\n40 50 8 42 76 24 58 42 26 68 20 48 54 12 34 84 14 36 32 88 6 50 96 56 20 92 48 16 40 34 96 46 20 84 30 50 20 98 8 44 96 42 8 76 70 38 84 30 40 88 84 72 2 22 52 58 16 62 100 66 80 40 50 32 14 62 88 72 22 99 76 50 84 82 8 82 98 46 26 40 2 98 18 78 30 72 70 18 34 68", "output": "70" }, { "input": "80\n81 43 87 1 55 43 53 61 27 19 43 13 89 9 33 83 75 55 97 71 91 37 95 5 21 69 81 93 95 69 31 83 55 7 97 7 79 57 8 61 27 85 49 1 15 97 63 79 29 73 41 85 5 41 31 93 67 11 63 59 15 99 91 77 43 69 23 23 81 73 19 1 67 51 1 75 99 67 3 81", "output": "39" }, { "input": "98\n13 83 61 27 35 1 85 95 97 73 95 65 73 45 5 43 27 83 91 19 11 3 85 59 9 39 69 23 45 7 51 85 5 71 5 95 1 51 75 3 43 57 3 11 33 71 21 99 47 41 87 39 71 87 31 85 91 49 83 5 49 85 47 91 55 99 33 23 31 23 23 73 29 77 55 31 25 5 81 49 91 15 15 39 87 5 9 40 69 47 29 33 11 21 49 79 51 83", "output": "88" }, { "input": "3\n100 100 1", "output": "3" } ]	1,664,104,530	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	92	0	# -- coding: utf-8 -- """ Created on Sun Sep 25 18:39:05 2022 @author: lenovo """ n=int(input()) s=list(map(int, input().split())) gap=[] for i in range(1,n): gap.append(s[i]-s[i-1]) for j in range(n-1): if gap.count(gap[j])==1: print(j+2) break	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 # -- coding: utf-8 -- """ Created on Sun Sep 25 18:39:05 2022 @author: lenovo """ n=int(input()) s=list(map(int, input().split())) gap=[] for i in range(1,n): gap.append(s[i]-s[i-1]) for j in range(n-1): if gap.count(gap[j])==1: print(j+2) break ```	0
678	A	Johny Likes Numbers	PROGRAMMING	800	[ "implementation", "math" ]		null	null	Johny likes numbers n and k very much. Now Johny wants to find the smallest integer x greater than n, so it is divisible by the number k.	The only line contains two integers n and k (1<=≤<=n,<=k<=≤<=109).	Print the smallest integer x<=><=n, so it is divisible by the number k.	[ "5 3\n", "25 13\n", "26 13\n" ]	[ "6\n", "26\n", "39\n" ]	none	0	[ { "input": "5 3", "output": "6" }, { "input": "25 13", "output": "26" }, { "input": "26 13", "output": "39" }, { "input": "1 1", "output": "2" }, { "input": "8 8", "output": "16" }, { "input": "14 15", "output": "15" }, { "input": "197 894", "output": "894" }, { "input": "6058 8581", "output": "8581" }, { "input": "97259 41764", "output": "125292" }, { "input": "453145 333625", "output": "667250" }, { "input": "2233224 4394826", "output": "4394826" }, { "input": "76770926 13350712", "output": "80104272" }, { "input": "687355301 142098087", "output": "710490435" }, { "input": "1000000000 999999999", "output": "1999999998" }, { "input": "1000000000 1000000000", "output": "2000000000" }, { "input": "999999999 1000000000", "output": "1000000000" }, { "input": "1000000000 1", "output": "1000000001" }, { "input": "1000000000 2", "output": "1000000002" }, { "input": "999999999 1", "output": "1000000000" }, { "input": "100000000 1", "output": "100000001" }, { "input": "999999999 500000000", "output": "1000000000" }, { "input": "999999990 10", "output": "1000000000" }, { "input": "1000000000 999999997", "output": "1999999994" }, { "input": "999999999 2", "output": "1000000000" }, { "input": "999999984 1", "output": "999999985" }, { "input": "999999983 1", "output": "999999984" }, { "input": "666666666 1", "output": "666666667" }, { "input": "1000000000 990000000", "output": "1980000000" }, { "input": "41 48", "output": "48" }, { "input": "123456 2", "output": "123458" }, { "input": "111 111", "output": "222" }, { "input": "878787 1", "output": "878788" }, { "input": "121 1", "output": "122" }, { "input": "114514 114514", "output": "229028" }, { "input": "500000001 1000000000", "output": "1000000000" }, { "input": "999999997 1", "output": "999999998" }, { "input": "100000000 10", "output": "100000010" } ]	1,549,470,500	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	93	0	n,k= map(int,input().split()) q=k if n%k!=0: print(n%k+n) else: print(n+k)	Title: Johny Likes Numbers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Johny likes numbers n and k very much. Now Johny wants to find the smallest integer x greater than n, so it is divisible by the number k. Input Specification: The only line contains two integers n and k (1<=≤<=n,<=k<=≤<=109). Output Specification: Print the smallest integer x<=><=n, so it is divisible by the number k. Demo Input: ['5 3\n', '25 13\n', '26 13\n'] Demo Output: ['6\n', '26\n', '39\n'] Note: none	```python n,k= map(int,input().split()) q=k if n%k!=0: print(n%k+n) else: print(n+k) ```	0
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk\nasrgdfngfnmfgnhweratgjkk", "output": "NO" }, { "input": "z\na", "output": "NO" }, { "input": "asd\ndsa", "output": "YES" }, { "input": "abcdef\nfecdba", "output": "NO" }, { "input": "ywjjbirapvskozubvxoemscfwl\ngnduubaogtfaiowjizlvjcu", "output": "NO" }, { "input": "mfrmqxtzvgaeuleubcmcxcfqyruwzenguhgrmkuhdgnhgtgkdszwqyd\nmfxufheiperjnhyczclkmzyhcxntdfskzkzdwzzujdinf", "output": "NO" }, { "input": "bnbnemvybqizywlnghlykniaxxxlkhftppbdeqpesrtgkcpoeqowjwhrylpsziiwcldodcoonpimudvrxejjo\ntiynnekmlalogyvrgptbinkoqdwzuiyjlrldxhzjmmp", "output": "NO" }, { "input": "pwlpubwyhzqvcitemnhvvwkmwcaawjvdiwtoxyhbhbxerlypelevasmelpfqwjk\nstruuzebbcenziscuoecywugxncdwzyfozhljjyizpqcgkyonyetarcpwkqhuugsqjuixsxptmbnlfupdcfigacdhhrzb", "output": "NO" }, { "input": "gdvqjoyxnkypfvdxssgrihnwxkeojmnpdeobpecytkbdwujqfjtxsqspxvxpqioyfagzjxupqqzpgnpnpxcuipweunqch\nkkqkiwwasbhezqcfeceyngcyuogrkhqecwsyerdniqiocjehrpkljiljophqhyaiefjpavoom", "output": "NO" }, { "input": "umeszdawsvgkjhlqwzents\nhxqhdungbylhnikwviuh", "output": "NO" }, { "input": "juotpscvyfmgntshcealgbsrwwksgrwnrrbyaqqsxdlzhkbugdyx\nibqvffmfktyipgiopznsqtrtxiijntdbgyy", "output": "NO" }, { "input": "zbwueheveouatecaglziqmudxemhrsozmaujrwlqmppzoumxhamwugedikvkblvmxwuofmpafdprbcftew\nulczwrqhctbtbxrhhodwbcxwimncnexosksujlisgclllxokrsbnozthajnnlilyffmsyko", "output": "NO" }, { "input": "nkgwuugukzcv\nqktnpxedwxpxkrxdvgmfgoxkdfpbzvwsduyiybynbkouonhvmzakeiruhfmvrktghadbfkmwxduoqv", "output": "NO" }, { "input": "incenvizhqpcenhjhehvjvgbsnfixbatrrjstxjzhlmdmxijztphxbrldlqwdfimweepkggzcxsrwelodpnryntepioqpvk\ndhjbjjftlvnxibkklxquwmzhjfvnmwpapdrslioxisbyhhfymyiaqhlgecpxamqnocizwxniubrmpyubvpenoukhcobkdojlybxd", "output": "NO" }, { "input": "w\nw", "output": "YES" }, { "input": "vz\nzv", "output": "YES" }, { "input": "ry\nyr", "output": "YES" }, { "input": "xou\nuox", "output": "YES" }, { "input": "axg\ngax", "output": "NO" }, { "input": "zdsl\nlsdz", "output": "YES" }, { "input": "kudl\nldku", "output": "NO" }, { "input": "zzlzwnqlcl\nlclqnwzlzz", "output": "YES" }, { "input": "vzzgicnzqooejpjzads\nsdazjpjeooqzncigzzv", "output": "YES" }, { "input": "raqhmvmzuwaykjpyxsykr\nxkysrypjkyawuzmvmhqar", "output": "NO" }, { "input": "ngedczubzdcqbxksnxuavdjaqtmdwncjnoaicvmodcqvhfezew\nwezefhvqcdomvciaonjcnwdmtqajdvauxnskxbqcdzbuzcdegn", "output": "YES" }, { "input": "muooqttvrrljcxbroizkymuidvfmhhsjtumksdkcbwwpfqdyvxtrlymofendqvznzlmim\nmimlznzvqdnefomylrtxvydqfpwwbckdskmutjshhmfvdiumykziorbxcjlrrvttqooum", "output": "YES" }, { "input": "vxpqullmcbegsdskddortcvxyqlbvxmmkhevovnezubvpvnrcajpxraeaxizgaowtfkzywvhnbgzsxbhkaipcmoumtikkiyyaivg\ngviayyikkitmuomcpiakhbxszgbnhvwyzkftwoagzixaearxpjacrnvpvbuzenvovehkmmxvblqyxvctroddksdsgebcmlluqpxv", "output": "YES" }, { "input": "mnhaxtaopjzrkqlbroiyipitndczpunwygstmzevgyjdzyanxkdqnvgkikfabwouwkkbzuiuvgvxgpizsvqsbwepktpdrgdkmfdc\ncdfmkdgrdptkpewbsqvszipgxvgvuiuzbkkwuowbafkikgvnqdkxnayzdjygvezmtsgywnupocdntipiyiorblqkrzjpzatxahnm", "output": "NO" }, { "input": "dgxmzbqofstzcdgthbaewbwocowvhqpinehpjatnnbrijcolvsatbblsrxabzrpszoiecpwhfjmwuhqrapvtcgvikuxtzbftydkw\nwkdytfbztxukivgctvparqhuwmjfhwpceiozsprzbaxrslbbqasvlocjirbnntajphenipthvwocowbweabhtgdcztsfoqbzmxgd", "output": "NO" }, { "input": "gxoixiecetohtgjgbqzvlaobkhstejxdklghowtvwunnnvauriohuspsdmpzckprwajyxldoyckgjivjpmbfqtszmtocovxwgeh\nhegwxvocotmzstqfbmpjvijgkcyodlxyjawrpkczpmdspsuhoiruavnnnuwvtwohglkdxjetshkboalvzqbgjgthoteceixioxg", "output": "YES" }, { "input": "sihxuwvmaambplxvjfoskinghzicyfqebjtkysotattkahssumfcgrkheotdxwjckpvapbkaepqrxseyfrwtyaycmrzsrsngkh\nhkgnsrszrmcyaytwrfyesxrqpeakbpavpkcjwxdtoehkrgcfmusshakttatosyktjbeqfycizhgniksofjvxlpbmaamvwuxhis", "output": "YES" }, { "input": "ycnahksbughnonldzrhkysujmylcgcfuludjvjiahtkyzqvkopzqcnwhltbzfugzojqkjjlggmvnultascmygelkiktmfieok\nkoeifmtkiklegkmcsatlunvmggkjjlqjozgufzbtlhwncqzpokvqzykthaijvjdulufcgclymjusyyhrzdlnonhgubskhancy", "output": "NO" }, { "input": "wbqasaehtkfojruzyhrlgwmtyiovmzyfifslvlemhqheyaelzwnthrenjsbmntwaoryzwfbxmscmypvxlfmzpnkkjlvwvmtz\nztmvwvljkknpzmflxvpymcsmxbfwzyroawtnmbsjnerhtnwzleayehqhmelvlsfifyzmvoiytmwglrhyzurjofktheasaqbw", "output": "YES" }, { "input": "imippqurprbhfugngtgifelytadegwrgaefnfhbjjnmzikvjaccotqzemufqieqldgnbmviisgkynzeldlhqxuqphjfmyij\njiymfjhpquxqhldleznykgsiivmbngdlqeiqfumezqtoccajvkizmnjjbhfnfeagrwgedatylefigtgngufhbrpruqppimi", "output": "YES" }, { "input": "bikydffiuisckpvzqlteqfhegsagimodb\nbdomigasgehfqetlqzvpkcsiuiffdykib", "output": "YES" } ]	1,481,071,188	2,147,483,647	Python 3	OK	TESTS	40	124	4,608,000	s1=input() s2=input() i=len(s1)-1 j=0 while i >=0 : if s1[i] != s2[j] : print('NO') break i=i-1 j=j+1 else : print('YES')	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python s1=input() s2=input() i=len(s1)-1 j=0 while i >=0 : if s1[i] != s2[j] : print('NO') break i=i-1 j=j+1 else : print('YES') ```	3.960417
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\n25 -33 43\n-27 -42 28\n-35 -20 19\n41 -42 -1\n49 -39 -4\n-49 -22 7\n-19 29 41\n8 -27 -43\n8 34 9\n-11 -3 33", "output": "NO" }, { "input": "10\n-6 21 18\n20 -11 -8\n37 -11 41\n-5 8 33\n29 23 32\n30 -33 -11\n39 -49 -36\n28 34 -49\n22 29 -34\n-18 -6 7", "output": "NO" }, { "input": "10\n47 -2 -27\n0 26 -14\n5 -12 33\n2 18 3\n45 -30 -49\n4 -18 8\n-46 -44 -41\n-22 -10 -40\n-35 -21 26\n33 20 38", "output": "NO" }, { "input": "13\n-3 -36 -46\n-11 -50 37\n42 -11 -15\n9 42 44\n-29 -12 24\n3 9 -40\n-35 13 50\n14 43 18\n-13 8 24\n-48 -15 10\n50 9 -50\n21 0 -50\n0 0 -6", "output": "YES" }, { "input": "14\n43 23 17\n4 17 44\n5 -5 -16\n-43 -7 -6\n47 -48 12\n50 47 -45\n2 14 43\n37 -30 15\n4 -17 -11\n17 9 -45\n-50 -3 -8\n-50 0 0\n-50 0 0\n-16 0 0", "output": "YES" }, { "input": "13\n29 49 -11\n38 -11 -20\n25 1 -40\n-11 28 11\n23 -19 1\n45 -41 -17\n-3 0 -19\n-13 -33 49\n-30 0 28\n34 17 45\n-50 9 -27\n-50 0 0\n-37 0 0", "output": "YES" }, { "input": "12\n3 28 -35\n-32 -44 -17\n9 -25 -6\n-42 -22 20\n-19 15 38\n-21 38 48\n-1 -37 -28\n-10 -13 -50\n-5 21 29\n34 28 50\n50 11 -49\n34 0 0", "output": "YES" }, { "input": "37\n-64 -79 26\n-22 59 93\n-5 39 -12\n77 -9 76\n55 -86 57\n83 100 -97\n-70 94 84\n-14 46 -94\n26 72 35\n14 78 -62\n17 82 92\n-57 11 91\n23 15 92\n-80 -1 1\n12 39 18\n-23 -99 -75\n-34 50 19\n-39 84 -7\n45 -30 -39\n-60 49 37\n45 -16 -72\n33 -51 -56\n-48 28 5\n97 91 88\n45 -82 -11\n-21 -15 -90\n-53 73 -26\n-74 85 -90\n-40 23 38\n100 -13 49\n32 -100 -100\n0 -100 -70\n0 -100 0\n0 -100 0\n0 -100 0\n0 -100 0\n0 -37 0", "output": "YES" }, { "input": "4\n68 3 100\n68 21 -100\n-100 -24 0\n-36 0 0", "output": "YES" }, { "input": "33\n-1 -46 -12\n45 -16 -21\n-11 45 -21\n-60 -42 -93\n-22 -45 93\n37 96 85\n-76 26 83\n-4 9 55\n7 -52 -9\n66 8 -85\n-100 -54 11\n-29 59 74\n-24 12 2\n-56 81 85\n-92 69 -52\n-26 -97 91\n54 59 -51\n58 21 -57\n7 68 56\n-47 -20 -51\n-59 77 -13\n-85 27 91\n79 60 -56\n66 -80 5\n21 -99 42\n-31 -29 98\n66 93 76\n-49 45 61\n100 -100 -100\n100 -100 -100\n66 -75 -100\n0 0 -100\n0 0 -87", "output": "YES" }, { "input": "3\n1 2 3\n3 2 1\n0 0 0", "output": "NO" }, { "input": "2\n5 -23 12\n0 0 0", "output": "NO" }, { "input": "1\n0 0 0", "output": "YES" }, { "input": "1\n1 -2 0", "output": "NO" }, { "input": "2\n-23 77 -86\n23 -77 86", "output": "YES" }, { "input": "26\n86 7 20\n-57 -64 39\n-45 6 -93\n-44 -21 100\n-11 -49 21\n73 -71 -80\n-2 -89 56\n-65 -2 7\n5 14 84\n57 41 13\n-12 69 54\n40 -25 27\n-17 -59 0\n64 -91 -30\n-53 9 42\n-54 -8 14\n-35 82 27\n-48 -59 -80\n88 70 79\n94 57 97\n44 63 25\n84 -90 -40\n-100 100 -100\n-92 100 -100\n0 10 -100\n0 0 -82", "output": "YES" }, { "input": "42\n11 27 92\n-18 -56 -57\n1 71 81\n33 -92 30\n82 83 49\n-87 -61 -1\n-49 45 49\n73 26 15\n-22 22 -77\n29 -93 87\n-68 44 -90\n-4 -84 20\n85 67 -6\n-39 26 77\n-28 -64 20\n65 -97 24\n-72 -39 51\n35 -75 -91\n39 -44 -8\n-25 -27 -57\n91 8 -46\n-98 -94 56\n94 -60 59\n-9 -95 18\n-53 -37 98\n-8 -94 -84\n-52 55 60\n15 -14 37\n65 -43 -25\n94 12 66\n-8 -19 -83\n29 81 -78\n-58 57 33\n24 86 -84\n-53 32 -88\n-14 7 3\n89 97 -53\n-5 -28 -91\n-100 100 -6\n-84 100 0\n0 100 0\n0 70 0", "output": "YES" }, { "input": "3\n96 49 -12\n2 -66 28\n-98 17 -16", "output": "YES" }, { "input": "5\n70 -46 86\n-100 94 24\n-27 63 -63\n57 -100 -47\n0 -11 0", "output": "YES" }, { "input": "18\n-86 -28 70\n-31 -89 42\n31 -48 -55\n95 -17 -43\n24 -95 -85\n-21 -14 31\n68 -18 81\n13 31 60\n-15 28 99\n-42 15 9\n28 -61 -62\n-16 71 29\n-28 75 -48\n-77 -67 36\n-100 83 89\n100 100 -100\n57 34 -100\n0 0 -53", "output": "YES" }, { "input": "44\n52 -54 -29\n-82 -5 -94\n-54 43 43\n91 16 71\n7 80 -91\n3 15 29\n-99 -6 -77\n-3 -77 -64\n73 67 34\n25 -10 -18\n-29 91 63\n-72 86 -16\n-68 85 -81\n-3 36 44\n-74 -14 -80\n34 -96 -97\n-76 -78 -33\n-24 44 -58\n98 12 77\n95 -63 -6\n-51 3 -90\n-92 -10 72\n7 3 -68\n57 -53 71\n29 57 -48\n35 -60 10\n79 -70 -61\n-20 77 55\n-86 -15 -35\n84 -88 -18\n100 -42 77\n-20 46 8\n-41 -43 -65\n38 -98 -23\n-100 65 45\n-7 -91 -63\n46 88 -85\n48 59 100\n0 0 100\n0 0 100\n0 0 100\n0 0 100\n0 0 100\n0 0 1", "output": "YES" }, { "input": "18\n-14 -64 -91\n-8 -66 -86\n-23 92 -40\n6 -3 -53\n57 41 78\n-79 42 -22\n-88 -17 45\n4 -45 44\n83 -18 -25\n34 86 -92\n75 -30 12\n44 99 11\n-67 -13 72\n22 83 -56\n-37 71 72\n-9 -100 100\n0 -100 31\n0 -58 0", "output": "YES" }, { "input": "23\n-70 37 78\n42 84 6\n28 -94 -24\n-49 76 95\n-67 18 84\n-53 78 -5\n65 -63 -64\n-66 -64 -69\n81 -93 95\n10 52 -79\n-89 -61 -64\n-64 -47 43\n-81 -35 55\n80 82 73\n-60 -81 -18\n49 -10 -19\n-58 70 12\n-24 -15 -93\n98 -93 -54\n-28 -75 11\n100 100 -63\n100 100 0\n56 34 0", "output": "YES" }, { "input": "3\n0 2 -2\n1 -1 3\n-3 0 0", "output": "NO" } ]	1,696,932,910	2,147,483,647	PyPy 3	OK	TESTS	81	216	0	n = int(input()) sum_x = 0 sum_y = 0 sum_z = 0 while n!=0: l = list(map(int, input().split())) sum_x += l[0] sum_y += l[1] sum_z += l[2] n-=1 if sum_x == 0 and sum_y == 0 and sum_z == 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 n = int(input()) sum_x = 0 sum_y = 0 sum_z = 0 while n!=0: l = list(map(int, input().split())) sum_x += l[0] sum_y += l[1] sum_z += l[2] n-=1 if sum_x == 0 and sum_y == 0 and sum_z == 0: print("YES") else: print("NO") ```	3.946
285	A	Slightly Decreasing Permutations	PROGRAMMING	1,100	[ "greedy", "implementation" ]		null	null	Permutation p is an ordered set of integers p1,<=<=p2,<=<=...,<=<=pn, consisting of n distinct positive integers, each of them doesn't exceed n. We'll denote the i-th element of permutation p as pi. We'll call number n the size or the length of permutation p1,<=<=p2,<=<=...,<=<=pn. The decreasing coefficient of permutation p1,<=p2,<=...,<=pn is the number of such i (1<=≤<=i<=<<=n), that pi<=><=pi<=+<=1. You have numbers n and k. Your task is to print the permutation of length n with decreasing coefficient k.	The single line contains two space-separated integers: n,<=k (1<=≤<=n<=≤<=105,<=0<=≤<=k<=<<=n) — the permutation length and the decreasing coefficient.	In a single line print n space-separated integers: p1,<=p2,<=...,<=pn — the permutation of length n with decreasing coefficient k. If there are several permutations that meet this condition, print any of them. It is guaranteed that the permutation with the sought parameters exists.	[ "5 2\n", "3 0\n", "3 2\n" ]	[ "1 5 2 4 3\n", "1 2 3\n", "3 2 1\n" ]	none	500	[ { "input": "5 2", "output": "1 5 2 4 3" }, { "input": "3 0", "output": "1 2 3" }, { "input": "3 2", "output": "3 2 1" }, { "input": "1 0", "output": "1" }, { "input": "2 0", "output": "1 2" }, { "input": "2 1", "output": "2 1" }, { "input": "10 4", "output": "10 9 8 7 1 2 3 4 5 6" }, { "input": "56893 5084", "output": "56893 56892 56891 56890 56889 56888 56887 56886 56885 56884 56883 56882 56881 56880 56879 56878 56877 56876 56875 56874 56873 56872 56871 56870 56869 56868 56867 56866 56865 56864 56863 56862 56861 56860 56859 56858 56857 56856 56855 56854 56853 56852 56851 56850 56849 56848 56847 56846 56845 56844 56843 56842 56841 56840 56839 56838 56837 56836 56835 56834 56833 56832 56831 56830 56829 56828 56827 56826 56825 56824 56823 56822 56821 56820 56819 56818 56817 56816 56815 56814 56813 56812 56811 56810 56809 5..." }, { "input": "6 3", "output": "6 5 4 1 2 3" }, { "input": "1 0", "output": "1" }, { "input": "310 186", "output": "310 309 308 307 306 305 304 303 302 301 300 299 298 297 296 295 294 293 292 291 290 289 288 287 286 285 284 283 282 281 280 279 278 277 276 275 274 273 272 271 270 269 268 267 266 265 264 263 262 261 260 259 258 257 256 255 254 253 252 251 250 249 248 247 246 245 244 243 242 241 240 239 238 237 236 235 234 233 232 231 230 229 228 227 226 225 224 223 222 221 220 219 218 217 216 215 214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183..." }, { "input": "726 450", "output": "726 725 724 723 722 721 720 719 718 717 716 715 714 713 712 711 710 709 708 707 706 705 704 703 702 701 700 699 698 697 696 695 694 693 692 691 690 689 688 687 686 685 684 683 682 681 680 679 678 677 676 675 674 673 672 671 670 669 668 667 666 665 664 663 662 661 660 659 658 657 656 655 654 653 652 651 650 649 648 647 646 645 644 643 642 641 640 639 638 637 636 635 634 633 632 631 630 629 628 627 626 625 624 623 622 621 620 619 618 617 616 615 614 613 612 611 610 609 608 607 606 605 604 603 602 601 600 599..." }, { "input": "438 418", "output": "438 437 436 435 434 433 432 431 430 429 428 427 426 425 424 423 422 421 420 419 418 417 416 415 414 413 412 411 410 409 408 407 406 405 404 403 402 401 400 399 398 397 396 395 394 393 392 391 390 389 388 387 386 385 384 383 382 381 380 379 378 377 376 375 374 373 372 371 370 369 368 367 366 365 364 363 362 361 360 359 358 357 356 355 354 353 352 351 350 349 348 347 346 345 344 343 342 341 340 339 338 337 336 335 334 333 332 331 330 329 328 327 326 325 324 323 322 321 320 319 318 317 316 315 314 313 312 311..." }, { "input": "854 829", "output": "854 853 852 851 850 849 848 847 846 845 844 843 842 841 840 839 838 837 836 835 834 833 832 831 830 829 828 827 826 825 824 823 822 821 820 819 818 817 816 815 814 813 812 811 810 809 808 807 806 805 804 803 802 801 800 799 798 797 796 795 794 793 792 791 790 789 788 787 786 785 784 783 782 781 780 779 778 777 776 775 774 773 772 771 770 769 768 767 766 765 764 763 762 761 760 759 758 757 756 755 754 753 752 751 750 749 748 747 746 745 744 743 742 741 740 739 738 737 736 735 734 733 732 731 730 729 728 727..." }, { "input": "214 167", "output": "214 213 212 211 210 209 208 207 206 205 204 203 202 201 200 199 198 197 196 195 194 193 192 191 190 189 188 187 186 185 184 183 182 181 180 179 178 177 176 175 174 173 172 171 170 169 168 167 166 165 164 163 162 161 160 159 158 157 156 155 154 153 152 151 150 149 148 147 146 145 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 ..." }, { "input": "85705 56268", "output": "85705 85704 85703 85702 85701 85700 85699 85698 85697 85696 85695 85694 85693 85692 85691 85690 85689 85688 85687 85686 85685 85684 85683 85682 85681 85680 85679 85678 85677 85676 85675 85674 85673 85672 85671 85670 85669 85668 85667 85666 85665 85664 85663 85662 85661 85660 85659 85658 85657 85656 85655 85654 85653 85652 85651 85650 85649 85648 85647 85646 85645 85644 85643 85642 85641 85640 85639 85638 85637 85636 85635 85634 85633 85632 85631 85630 85629 85628 85627 85626 85625 85624 85623 85622 85621 8..." }, { "input": "11417 4583", "output": "11417 11416 11415 11414 11413 11412 11411 11410 11409 11408 11407 11406 11405 11404 11403 11402 11401 11400 11399 11398 11397 11396 11395 11394 11393 11392 11391 11390 11389 11388 11387 11386 11385 11384 11383 11382 11381 11380 11379 11378 11377 11376 11375 11374 11373 11372 11371 11370 11369 11368 11367 11366 11365 11364 11363 11362 11361 11360 11359 11358 11357 11356 11355 11354 11353 11352 11351 11350 11349 11348 11347 11346 11345 11344 11343 11342 11341 11340 11339 11338 11337 11336 11335 11334 11333 1..." }, { "input": "53481 20593", "output": "53481 53480 53479 53478 53477 53476 53475 53474 53473 53472 53471 53470 53469 53468 53467 53466 53465 53464 53463 53462 53461 53460 53459 53458 53457 53456 53455 53454 53453 53452 53451 53450 53449 53448 53447 53446 53445 53444 53443 53442 53441 53440 53439 53438 53437 53436 53435 53434 53433 53432 53431 53430 53429 53428 53427 53426 53425 53424 53423 53422 53421 53420 53419 53418 53417 53416 53415 53414 53413 53412 53411 53410 53409 53408 53407 53406 53405 53404 53403 53402 53401 53400 53399 53398 53397 5..." }, { "input": "79193 77281", "output": "79193 79192 79191 79190 79189 79188 79187 79186 79185 79184 79183 79182 79181 79180 79179 79178 79177 79176 79175 79174 79173 79172 79171 79170 79169 79168 79167 79166 79165 79164 79163 79162 79161 79160 79159 79158 79157 79156 79155 79154 79153 79152 79151 79150 79149 79148 79147 79146 79145 79144 79143 79142 79141 79140 79139 79138 79137 79136 79135 79134 79133 79132 79131 79130 79129 79128 79127 79126 79125 79124 79123 79122 79121 79120 79119 79118 79117 79116 79115 79114 79113 79112 79111 79110 79109 7..." }, { "input": "42607 42144", "output": "42607 42606 42605 42604 42603 42602 42601 42600 42599 42598 42597 42596 42595 42594 42593 42592 42591 42590 42589 42588 42587 42586 42585 42584 42583 42582 42581 42580 42579 42578 42577 42576 42575 42574 42573 42572 42571 42570 42569 42568 42567 42566 42565 42564 42563 42562 42561 42560 42559 42558 42557 42556 42555 42554 42553 42552 42551 42550 42549 42548 42547 42546 42545 42544 42543 42542 42541 42540 42539 42538 42537 42536 42535 42534 42533 42532 42531 42530 42529 42528 42527 42526 42525 42524 42523 4..." }, { "input": "100000 0", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155..." }, { "input": "100000 99999", "output": "100000 99999 99998 99997 99996 99995 99994 99993 99992 99991 99990 99989 99988 99987 99986 99985 99984 99983 99982 99981 99980 99979 99978 99977 99976 99975 99974 99973 99972 99971 99970 99969 99968 99967 99966 99965 99964 99963 99962 99961 99960 99959 99958 99957 99956 99955 99954 99953 99952 99951 99950 99949 99948 99947 99946 99945 99944 99943 99942 99941 99940 99939 99938 99937 99936 99935 99934 99933 99932 99931 99930 99929 99928 99927 99926 99925 99924 99923 99922 99921 99920 99919 99918 99917 99916 ..." }, { "input": "100000 53860", "output": "100000 99999 99998 99997 99996 99995 99994 99993 99992 99991 99990 99989 99988 99987 99986 99985 99984 99983 99982 99981 99980 99979 99978 99977 99976 99975 99974 99973 99972 99971 99970 99969 99968 99967 99966 99965 99964 99963 99962 99961 99960 99959 99958 99957 99956 99955 99954 99953 99952 99951 99950 99949 99948 99947 99946 99945 99944 99943 99942 99941 99940 99939 99938 99937 99936 99935 99934 99933 99932 99931 99930 99929 99928 99927 99926 99925 99924 99923 99922 99921 99920 99919 99918 99917 99916 ..." }, { "input": "4 0", "output": "1 2 3 4" }, { "input": "4 1", "output": "4 1 2 3" }, { "input": "4 2", "output": "4 3 1 2" }, { "input": "4 3", "output": "4 3 2 1" }, { "input": "3 1", "output": "3 1 2" } ]	1,631,693,903	2,147,483,647	PyPy 3	OK	TESTS	28	374	29,491,200	n, k = [int(i) for i in input().split()] arr = [i for i in range(1, n+1)] arr.sort() for i in range(n-1, n-k-1, -1): print(arr[i], end = " ") for i in range(n-k): print(arr[i], end = " ") print()	Title: Slightly Decreasing Permutations Time Limit: None seconds Memory Limit: None megabytes Problem Description: Permutation p is an ordered set of integers p1,<=<=p2,<=<=...,<=<=pn, consisting of n distinct positive integers, each of them doesn't exceed n. We'll denote the i-th element of permutation p as pi. We'll call number n the size or the length of permutation p1,<=<=p2,<=<=...,<=<=pn. The decreasing coefficient of permutation p1,<=p2,<=...,<=pn is the number of such i (1<=≤<=i<=<<=n), that pi<=><=pi<=+<=1. You have numbers n and k. Your task is to print the permutation of length n with decreasing coefficient k. Input Specification: The single line contains two space-separated integers: n,<=k (1<=≤<=n<=≤<=105,<=0<=≤<=k<=<<=n) — the permutation length and the decreasing coefficient. Output Specification: In a single line print n space-separated integers: p1,<=p2,<=...,<=pn — the permutation of length n with decreasing coefficient k. If there are several permutations that meet this condition, print any of them. It is guaranteed that the permutation with the sought parameters exists. Demo Input: ['5 2\n', '3 0\n', '3 2\n'] Demo Output: ['1 5 2 4 3\n', '1 2 3\n', '3 2 1\n'] Note: none	```python n, k = [int(i) for i in input().split()] arr = [i for i in range(1, n+1)] arr.sort() for i in range(n-1, n-k-1, -1): print(arr[i], end = " ") for i in range(n-k): print(arr[i], end = " ") print() ```	3
1,009	B	Minimum Ternary String	PROGRAMMING	1,400	[ "greedy", "implementation" ]		null	null	You are given a ternary string (it is a string which consists only of characters '0', '1' and '2'). You can swap any two adjacent (consecutive) characters '0' and '1' (i.e. replace "01" with "10" or vice versa) or any two adjacent (consecutive) characters '1' and '2' (i.e. replace "12" with "21" or vice versa). For example, for string "010210" we can perform the following moves: - "010210" $\rightarrow$ "100210"; - "010210" $\rightarrow$ "001210"; - "010210" $\rightarrow$ "010120"; - "010210" $\rightarrow$ "010201". Note than you cannot swap "02" $\rightarrow$ "20" and vice versa. You cannot perform any other operations with the given string excluding described above. You task is to obtain the minimum possible (lexicographically) string by using these swaps arbitrary number of times (possibly, zero). String $a$ is lexicographically less than string $b$ (if strings $a$ and $b$ have the same length) if there exists some position $i$ ($1 \le i \le \|a\|$, where $\|s\|$ is the length of the string $s$) such that for every $j < i$ holds $a_j = b_j$, and $a_i < b_i$.	The first line of the input contains the string $s$ consisting only of characters '0', '1' and '2', its length is between $1$ and $10^5$ (inclusive).	Print a single string — the minimum possible (lexicographically) string you can obtain by using the swaps described above arbitrary number of times (possibly, zero).	[ "100210\n", "11222121\n", "20\n" ]	[ "001120\n", "11112222\n", "20\n" ]	none	0	[ { "input": "100210", "output": "001120" }, { "input": "11222121", "output": "11112222" }, { "input": "20", "output": "20" }, { "input": "1002", "output": "0012" }, { "input": "10", "output": "01" }, { "input": "000021", "output": "000012" }, { "input": "021", "output": "012" }, { "input": "2", "output": "2" }, { "input": "201", "output": "120" }, { "input": "2112120", "output": "1112220" }, { "input": "102", "output": "012" }, { "input": "202", "output": "202" }, { "input": "220201", "output": "122020" }, { "input": "12", "output": "12" }, { "input": "100022202", "output": "000122202" }, { "input": "01", "output": "01" }, { "input": "1", "output": "1" } ]	1,592,855,779	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	3	1,000	33,177,600	import math from collections import defaultdict ml=lambda:map(int,input().split()) ll=lambda:list(map(int,input().split())) ii=lambda:int(input()) ip=lambda:list(input()) ips=lambda:input().split() """========main code===============""" t=ip() a=t.count('1') ans="" f=0 for i in t: if i=='0': ans+='0' elif i=='2': if(f==0): ans+='1'a a=0 f=1 ans+=i; if(a>0): ans+='1'a print(ans)	Title: Minimum Ternary String Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a ternary string (it is a string which consists only of characters '0', '1' and '2'). You can swap any two adjacent (consecutive) characters '0' and '1' (i.e. replace "01" with "10" or vice versa) or any two adjacent (consecutive) characters '1' and '2' (i.e. replace "12" with "21" or vice versa). For example, for string "010210" we can perform the following moves: - "010210" $\rightarrow$ "100210"; - "010210" $\rightarrow$ "001210"; - "010210" $\rightarrow$ "010120"; - "010210" $\rightarrow$ "010201". Note than you cannot swap "02" $\rightarrow$ "20" and vice versa. You cannot perform any other operations with the given string excluding described above. You task is to obtain the minimum possible (lexicographically) string by using these swaps arbitrary number of times (possibly, zero). String $a$ is lexicographically less than string $b$ (if strings $a$ and $b$ have the same length) if there exists some position $i$ ($1 \le i \le \|a\|$, where $\|s\|$ is the length of the string $s$) such that for every $j < i$ holds $a_j = b_j$, and $a_i < b_i$. Input Specification: The first line of the input contains the string $s$ consisting only of characters '0', '1' and '2', its length is between $1$ and $10^5$ (inclusive). Output Specification: Print a single string — the minimum possible (lexicographically) string you can obtain by using the swaps described above arbitrary number of times (possibly, zero). Demo Input: ['100210\n', '11222121\n', '20\n'] Demo Output: ['001120\n', '11112222\n', '20\n'] Note: none	```python import math from collections import defaultdict ml=lambda:map(int,input().split()) ll=lambda:list(map(int,input().split())) ii=lambda:int(input()) ip=lambda:list(input()) ips=lambda:input().split() """========main code===============""" t=ip() a=t.count('1') ans="" f=0 for i in t: if i=='0': ans+='0' elif i=='2': if(f==0): ans+='1'a a=0 f=1 ans+=i; if(a>0): ans+='1'a print(ans) ```	0
505	C	Mr. Kitayuta, the Treasure Hunter	PROGRAMMING	1,900	[ "dfs and similar", "dp", "two pointers" ]		null	null	The Shuseki Islands are an archipelago of 30001 small islands in the Yutampo Sea. The islands are evenly spaced along a line, numbered from 0 to 30000 from the west to the east. These islands are known to contain many treasures. There are n gems in the Shuseki Islands in total, and the i-th gem is located on island pi. Mr. Kitayuta has just arrived at island 0. With his great jumping ability, he will repeatedly perform jumps between islands to the east according to the following process: - First, he will jump from island 0 to island d. - After that, he will continue jumping according to the following rule. Let l be the length of the previous jump, that is, if his previous jump was from island prev to island cur, let l<==<=cur<=-<=prev. He will perform a jump of length l<=-<=1, l or l<=+<=1 to the east. That is, he will jump to island (cur<=+<=l<=-<=1), (cur<=+<=l) or (cur<=+<=l<=+<=1) (if they exist). The length of a jump must be positive, that is, he cannot perform a jump of length 0 when l<==<=1. If there is no valid destination, he will stop jumping. Mr. Kitayuta will collect the gems on the islands visited during the process. Find the maximum number of gems that he can collect.	The first line of the input contains two space-separated integers n and d (1<=≤<=n,<=d<=≤<=30000), denoting the number of the gems in the Shuseki Islands and the length of the Mr. Kitayuta's first jump, respectively. The next n lines describe the location of the gems. The i-th of them (1<=≤<=i<=≤<=n) contains a integer pi (d<=≤<=p1<=≤<=p2<=≤<=...<=≤<=pn<=≤<=30000), denoting the number of the island that contains the i-th gem.	Print the maximum number of gems that Mr. Kitayuta can collect.	[ "4 10\n10\n21\n27\n27\n", "8 8\n9\n19\n28\n36\n45\n55\n66\n78\n", "13 7\n8\n8\n9\n16\n17\n17\n18\n21\n23\n24\n24\n26\n30\n" ]	[ "3\n", "6\n", "4\n" ]	In the first sample, the optimal route is 0 → 10 (+1 gem) → 19 → 27 (+2 gems) → ... In the second sample, the optimal route is 0 → 8 → 15 → 21 → 28 (+1 gem) → 36 (+1 gem) → 45 (+1 gem) → 55 (+1 gem) → 66 (+1 gem) → 78 (+1 gem) → ... In the third sample, the optimal route is 0 → 7 → 13 → 18 (+1 gem) → 24 (+2 gems) → 30 (+1 gem) → ...	1,500	[ { "input": "4 10\n10\n21\n27\n27", "output": "3" }, { "input": "8 8\n9\n19\n28\n36\n45\n55\n66\n78", "output": "6" }, { "input": "13 7\n8\n8\n9\n16\n17\n17\n18\n21\n23\n24\n24\n26\n30", "output": "4" }, { "input": "8 4\n9\n15\n15\n16\n22\n25\n25\n28", "output": "8" }, { "input": "1 30000\n30000", "output": "1" }, { "input": "1 12345\n23456", "output": "0" }, { "input": "1 1\n30000", "output": "1" }, { "input": "5 4\n4\n5\n9\n21\n25", "output": "4" }, { "input": "8 7\n8\n15\n18\n19\n23\n24\n25\n27", "output": "3" }, { "input": "11 15\n15\n18\n19\n19\n21\n23\n24\n26\n26\n29\n30", "output": "2" }, { "input": "1 1\n1", "output": "1" }, { "input": "12 244\n448\n29889\n29890\n29891\n29892\n29893\n29894\n29895\n29896\n29897\n29898\n29899", "output": "11" }, { "input": "1 1500\n1500", "output": "1" }, { "input": "1 410\n30000", "output": "1" }, { "input": "10 220\n29991\n29992\n29993\n29994\n29995\n29996\n29997\n29998\n29999\n30000", "output": "10" }, { "input": "5 203\n29996\n29997\n29998\n29999\n30000", "output": "5" } ]	1,598,983,278	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	0	998	157,491,200	#!/usr/bin/env python3 # # Mr. Kitayuta, the Treasure Hunter # import sys, os def read_int(): return int(input()) def read_ints(): return list(map(int, input().split())) N = 30001 n, d = read_ints() g = [0] * N for _ in range(n): g[read_int()] += 1 dp = [{} for _ in range(N)] dp[d][d] = g[d] for i in range(d, N): for l, c in dp[i].items(): if l > 1 and i + l - 1 < N: dp[i + l - 1][l - 1] = max(dp[i + l - 1].get(l - 1, 0), c + g[i + l - 1]) if i + l < N: dp[i + l][l] = max(dp[i + l].get(l, 0), c + g[i + l]) if i + l + 1 < N: dp[i + l + 1][l + 1] = max(dp[i + l + 1].get(l + 1, 0), c + g[i + l + 1])	Title: Mr. Kitayuta, the Treasure Hunter Time Limit: None seconds Memory Limit: None megabytes Problem Description: The Shuseki Islands are an archipelago of 30001 small islands in the Yutampo Sea. The islands are evenly spaced along a line, numbered from 0 to 30000 from the west to the east. These islands are known to contain many treasures. There are n gems in the Shuseki Islands in total, and the i-th gem is located on island pi. Mr. Kitayuta has just arrived at island 0. With his great jumping ability, he will repeatedly perform jumps between islands to the east according to the following process: - First, he will jump from island 0 to island d. - After that, he will continue jumping according to the following rule. Let l be the length of the previous jump, that is, if his previous jump was from island prev to island cur, let l<==<=cur<=-<=prev. He will perform a jump of length l<=-<=1, l or l<=+<=1 to the east. That is, he will jump to island (cur<=+<=l<=-<=1), (cur<=+<=l) or (cur<=+<=l<=+<=1) (if they exist). The length of a jump must be positive, that is, he cannot perform a jump of length 0 when l<==<=1. If there is no valid destination, he will stop jumping. Mr. Kitayuta will collect the gems on the islands visited during the process. Find the maximum number of gems that he can collect. Input Specification: The first line of the input contains two space-separated integers n and d (1<=≤<=n,<=d<=≤<=30000), denoting the number of the gems in the Shuseki Islands and the length of the Mr. Kitayuta's first jump, respectively. The next n lines describe the location of the gems. The i-th of them (1<=≤<=i<=≤<=n) contains a integer pi (d<=≤<=p1<=≤<=p2<=≤<=...<=≤<=pn<=≤<=30000), denoting the number of the island that contains the i-th gem. Output Specification: Print the maximum number of gems that Mr. Kitayuta can collect. Demo Input: ['4 10\n10\n21\n27\n27\n', '8 8\n9\n19\n28\n36\n45\n55\n66\n78\n', '13 7\n8\n8\n9\n16\n17\n17\n18\n21\n23\n24\n24\n26\n30\n'] Demo Output: ['3\n', '6\n', '4\n'] Note: In the first sample, the optimal route is 0 → 10 (+1 gem) → 19 → 27 (+2 gems) → ... In the second sample, the optimal route is 0 → 8 → 15 → 21 → 28 (+1 gem) → 36 (+1 gem) → 45 (+1 gem) → 55 (+1 gem) → 66 (+1 gem) → 78 (+1 gem) → ... In the third sample, the optimal route is 0 → 7 → 13 → 18 (+1 gem) → 24 (+2 gems) → 30 (+1 gem) → ...	```python #!/usr/bin/env python3 # # Mr. Kitayuta, the Treasure Hunter # import sys, os def read_int(): return int(input()) def read_ints(): return list(map(int, input().split())) N = 30001 n, d = read_ints() g = [0] * N for _ in range(n): g[read_int()] += 1 dp = [{} for _ in range(N)] dp[d][d] = g[d] for i in range(d, N): for l, c in dp[i].items(): if l > 1 and i + l - 1 < N: dp[i + l - 1][l - 1] = max(dp[i + l - 1].get(l - 1, 0), c + g[i + l - 1]) if i + l < N: dp[i + l][l] = max(dp[i + l].get(l, 0), c + g[i + l]) if i + l + 1 < N: dp[i + l + 1][l + 1] = max(dp[i + l + 1].get(l + 1, 0), c + g[i + l + 1]) ```	0
952	F	2 + 2 != 4	PROGRAMMING	2,400	[]		null	null	One very experienced problem writer decided to prepare a problem for April Fools Day contest. The task was very simple - given an arithmetic expression, return the result of evaluating this expression. However, looks like there is a bug in the reference solution...	The only line of input data contains the arithmetic expression. The expression will contain between 2 and 10 operands, separated with arithmetic signs plus and/or minus. Each operand will be an integer between 0 and 255, inclusive.	Reproduce the output of the reference solution, including the bug.	[ "8-7+6-5+4-3+2-1-0\n", "2+2\n", "112-37\n" ]	[ "4\n", "-46\n", "375\n" ]	none	0	[ { "input": "8-7+6-5+4-3+2-1-0", "output": "4" }, { "input": "2+2", "output": "-46" }, { "input": "112-37", "output": "375" }, { "input": "255+255+255+255+255+255+255+255+255+255", "output": "-42450" }, { "input": "0-255-255-255-255-255-255-255-255-255", "output": "24705" }, { "input": "0+0+0+0+0+0+0+0+0+0", "output": "-450" }, { "input": "0-0-0-0-0-0-0-0-0-0", "output": "270" }, { "input": "0+100+100+100+100+100+100+100+100+100", "output": "-44100" }, { "input": "255-100-100-100-100-100-100-100-100-100", "output": "26355" }, { "input": "45+5", "output": "0" }, { "input": "23+6-9", "output": "0" }, { "input": "123+234-56-78-90", "output": "-3967" }, { "input": "97+67+12+9+42+45+13", "output": "-2265" }, { "input": "9-109-22+23-87+27-40+10", "output": "2211" }, { "input": "66-165-34+209+76", "output": "-2048" }, { "input": "150+222-3-90-248-187+198", "output": "-3628" }, { "input": "136+90-200+6-102", "output": "5380" }, { "input": "255-12-34-56-69-78-90", "output": "1716" }, { "input": "243-173+90-56+78-53+53-21", "output": "2561" }, { "input": "131+49+249+71-251-61+159-111+51", "output": "-4913" }, { "input": "5-9-1-3+6+4-7+8-2", "output": "1" }, { "input": "101+200+195+231+107+222+146+254+160+209", "output": "-43175" }, { "input": "240-120-234-156-207-189", "output": "14334" }, { "input": "1-2+3-4+5-6", "output": "-13" }, { "input": "9-8+7-6+5-4+3-2+1-0", "output": "-45" } ]	1,675,871,528	2,147,483,647	Python 3	OK	TESTS	25	46	0	# LUOGU_RID: 101738980 s = input() ans = eval(s) for i in range(len(s)): if s[i] == '+': x = -5 j = i + 1 while j < len(s) and s[j] not in '+-': x = 10 j += 1 ans += x if s[i] == '-': x = 3 j = i + 1 while j < len(s) and s[j] not in '+-': x = 10 j += 1 ans += x print(ans)	Title: 2 + 2 != 4 Time Limit: None seconds Memory Limit: None megabytes Problem Description: One very experienced problem writer decided to prepare a problem for April Fools Day contest. The task was very simple - given an arithmetic expression, return the result of evaluating this expression. However, looks like there is a bug in the reference solution... Input Specification: The only line of input data contains the arithmetic expression. The expression will contain between 2 and 10 operands, separated with arithmetic signs plus and/or minus. Each operand will be an integer between 0 and 255, inclusive. Output Specification: Reproduce the output of the reference solution, including the bug. Demo Input: ['8-7+6-5+4-3+2-1-0\n', '2+2\n', '112-37\n'] Demo Output: ['4\n', '-46\n', '375\n'] Note: none	```python # LUOGU_RID: 101738980 s = input() ans = eval(s) for i in range(len(s)): if s[i] == '+': x = -5 j = i + 1 while j < len(s) and s[j] not in '+-': x = 10 j += 1 ans += x if s[i] == '-': x = 3 j = i + 1 while j < len(s) and s[j] not in '+-': x = 10 j += 1 ans += x print(ans) ```	3
598	D	Igor In the Museum	PROGRAMMING	1,700	[ "dfs and similar", "graphs", "shortest paths" ]		null	null	Igor is in the museum and he wants to see as many pictures as possible. Museum can be represented as a rectangular field of n<=×<=m cells. Each cell is either empty or impassable. Empty cells are marked with '.', impassable cells are marked with '*'. Every two adjacent cells of different types (one empty and one impassable) are divided by a wall containing one picture. At the beginning Igor is in some empty cell. At every moment he can move to any empty cell that share a side with the current one. For several starting positions you should calculate the maximum number of pictures that Igor can see. Igor is able to see the picture only if he is in the cell adjacent to the wall with this picture. Igor have a lot of time, so he will examine every picture he can see.	First line of the input contains three integers n, m and k (3<=≤<=n,<=m<=≤<=1000,<=1<=≤<=k<=≤<=min(n·m,<=100<=000)) — the museum dimensions and the number of starting positions to process. Each of the next n lines contains m symbols '.', '' — the description of the museum. It is guaranteed that all border cells are impassable, so Igor can't go out from the museum. Each of the last k* lines contains two integers x and y (1<=≤<=x<=≤<=n,<=1<=≤<=y<=≤<=m) — the row and the column of one of Igor's starting positions respectively. Rows are numbered from top to bottom, columns — from left to right. It is guaranteed that all starting positions are empty cells.	Print k integers — the maximum number of pictures, that Igor can see if he starts in corresponding position.	[ "5 6 3\n*****\n...\n*****\n....\n***\n2 2\n2 5\n4 3\n", "4 4 1\n*\n..\n.\n**\n3 2\n" ]	[ "6\n4\n10\n", "8\n" ]	none	0	[ { "input": "5 6 3\n*****\n...\n*****\n....\n***\n2 2\n2 5\n4 3", "output": "6\n4\n10" }, { "input": "4 4 1\n*\n..\n.\n\n3 2", "output": "8" }, { "input": "3 3 1\n\n.\n\n2 2", "output": "4" }, { "input": "5 5 10\n**\n...\n..*\n.*\n*\n2 4\n4 2\n2 2\n2 3\n2 2\n2 2\n2 4\n3 2\n2 2\n2 2", "output": "12\n12\n12\n12\n12\n12\n12\n12\n12\n12" }, { "input": "10 3 10\n\n.\n.\n\n\n.\n.\n.\n.\n\n2 2\n2 2\n2 2\n2 2\n8 2\n2 2\n2 2\n7 2\n8 2\n6 2", "output": "6\n6\n6\n6\n10\n6\n6\n10\n10\n10" }, { "input": "3 10 10\n******\n....\n********\n2 6\n2 6\n2 9\n2 9\n2 4\n2 9\n2 6\n2 6\n2 4\n2 6", "output": "4\n4\n6\n6\n4\n6\n4\n4\n4\n4" }, { "input": "10 10 50\n*******\n......*\n....\n*....\n..*..\n....\n***..\n.*..\n..**.\n********\n5 9\n5 9\n7 7\n6 4\n6 7\n8 7\n6 7\n9 2\n3 9\n9 2\n4 7\n4 6\n2 7\n9 2\n7 7\n5 8\n8 7\n8 6\n7 7\n5 9\n8 7\n3 8\n3 8\n5 9\n9 8\n9 3\n8 7\n5 9\n9 2\n9 8\n9 3\n3 8\n9 2\n8 6\n2 4\n6 9\n6 3\n9 8\n3 9\n9 8\n4 5\n8 6\n3 8\n5 9\n8 7\n5 8\n6 9\n8 2\n3 9\n3 9", "output": "8\n8\n10\n28\n10\n10\n10\n8\n6\n8\n28\n28\n28\n8\n10\n8\n10\n10\n10\n8\n10\n6\n6\n8\n4\n8\n10\n8\n8\n4\n8\n6\n8\n10\n28\n8\n28\n4\n6\n4\n28\n10\n6\n8\n10\n8\n8\n8\n6\n6" }, { "input": "5 5 21\n**\n.*\n*\n*\n***\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2\n2 2", "output": "4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4\n4" } ]	1,690,797,109	2,147,483,647	PyPy 3-64	OK	TESTS	39	499	36,761,600	import sys from collections import deque # import itertools # import math # import os # import random # from bisect import bisect, bisect_left # from collections import * # from functools import reduce # from heapq import heapify, heappop, heappush # from io import BytesIO, IOBase # from string import * # region fastio input = lambda: sys.stdin.readline().rstrip() sint = lambda: int(input()) mint = lambda: map(int, input().split()) ints = lambda: list(map(int, input().split())) # print = lambda d: sys.stdout.write(str(d) + "\n") # endregion fastio # # region interactive # def printQry(a, b) -> None: # sa = str(a) # sb = str(b) # print(f"? {sa} {sb}", flush = True) # def printAns(ans) -> None: # s = str(ans) # print(f"! {s}", flush = True) # # endregion interactive # # region dfsconvert # from types import GeneratorType # def bootstrap(f, stack=[]): # def wrappedfunc(args, kwargs): # if stack: # return f(args, *kwargs) # else: # to = f(args, kwargs) # while True: # if type(to) is GeneratorType: # stack.append(to) # to = next(to) # else: # stack.pop() # if not stack: # break # to = stack[-1].send(to) # return to # return wrappedfunc # # endregion dfsconvert # MOD = 998244353 # MOD = 10 9 + 7 DIR = ((-1, 0), (0, 1), (1, 0), (0, -1)) def solve() -> None: n, m, k = mint() fa = list(range(n * m)) def find(x: int): cur = x while x != fa[x]: x = fa[x] while fa[cur] != x: fa[cur], cur = x, fa[cur] return x def union(x: int, y: int) -> bool: x, y = find(x), find(y) if x == y: return False fa[y] = x return True cnt = [0] * (n * m) g = [] for _ in range(n): g.append(input()) for i in range(n): for j in range(m): if g[i][j] != '.': continue x = find(i * m + j) if cnt[x]: continue q = deque([(i, j)]) while q: r, c = q.popleft() cur = 0 for dr, dc in DIR: nr, nc = r + dr, c + dc if g[nr][nc] != '.': cur += 1 continue y = find(nr * m + nc) if y == x: continue union(x, y) q.append((nr, nc)) cnt[x] += cur for _ in range(k): x, y = mint() print(cnt[find((x - 1) * m + y - 1)]) solve()	Title: Igor In the Museum Time Limit: None seconds Memory Limit: None megabytes Problem Description: Igor is in the museum and he wants to see as many pictures as possible. Museum can be represented as a rectangular field of n<=×<=m cells. Each cell is either empty or impassable. Empty cells are marked with '.', impassable cells are marked with ''. Every two adjacent cells of different types (one empty and one impassable) are divided by a wall containing one picture. At the beginning Igor is in some empty cell. At every moment he can move to any empty cell that share a side with the current one. For several starting positions you should calculate the maximum number of pictures that Igor can see. Igor is able to see the picture only if he is in the cell adjacent to the wall with this picture. Igor have a lot of time, so he will examine every picture he can see. Input Specification: First line of the input contains three integers n, m* and k (3<=≤<=n,<=m<=≤<=1000,<=1<=≤<=k<=≤<=min(n·m,<=100<=000)) — the museum dimensions and the number of starting positions to process. Each of the next n lines contains m symbols '.', '' — the description of the museum. It is guaranteed that all border cells are impassable, so Igor can't go out from the museum. Each of the last k* lines contains two integers x and y (1<=≤<=x<=≤<=n,<=1<=≤<=y<=≤<=m) — the row and the column of one of Igor's starting positions respectively. Rows are numbered from top to bottom, columns — from left to right. It is guaranteed that all starting positions are empty cells. Output Specification: Print k integers — the maximum number of pictures, that Igor can see if he starts in corresponding position. Demo Input: ['5 6 3\n*****\n...\n*****\n....\n***\n2 2\n2 5\n4 3\n', '4 4 1\n*\n..\n.\n**\n3 2\n'] Demo Output: ['6\n4\n10\n', '8\n'] Note: none	```python import sys from collections import deque # import itertools # import math # import os # import random # from bisect import bisect, bisect_left # from collections import * # from functools import reduce # from heapq import heapify, heappop, heappush # from io import BytesIO, IOBase # from string import * # region fastio input = lambda: sys.stdin.readline().rstrip() sint = lambda: int(input()) mint = lambda: map(int, input().split()) ints = lambda: list(map(int, input().split())) # print = lambda d: sys.stdout.write(str(d) + "\n") # endregion fastio # # region interactive # def printQry(a, b) -> None: # sa = str(a) # sb = str(b) # print(f"? {sa} {sb}", flush = True) # def printAns(ans) -> None: # s = str(ans) # print(f"! {s}", flush = True) # # endregion interactive # # region dfsconvert # from types import GeneratorType # def bootstrap(f, stack=[]): # def wrappedfunc(args, kwargs): # if stack: # return f(args, *kwargs) # else: # to = f(args, kwargs) # while True: # if type(to) is GeneratorType: # stack.append(to) # to = next(to) # else: # stack.pop() # if not stack: # break # to = stack[-1].send(to) # return to # return wrappedfunc # # endregion dfsconvert # MOD = 998244353 # MOD = 10 9 + 7 DIR = ((-1, 0), (0, 1), (1, 0), (0, -1)) def solve() -> None: n, m, k = mint() fa = list(range(n * m)) def find(x: int): cur = x while x != fa[x]: x = fa[x] while fa[cur] != x: fa[cur], cur = x, fa[cur] return x def union(x: int, y: int) -> bool: x, y = find(x), find(y) if x == y: return False fa[y] = x return True cnt = [0] * (n * m) g = [] for _ in range(n): g.append(input()) for i in range(n): for j in range(m): if g[i][j] != '.': continue x = find(i * m + j) if cnt[x]: continue q = deque([(i, j)]) while q: r, c = q.popleft() cur = 0 for dr, dc in DIR: nr, nc = r + dr, c + dc if g[nr][nc] != '.': cur += 1 continue y = find(nr * m + nc) if y == x: continue union(x, y) q.append((nr, nc)) cnt[x] += cur for _ in range(k): x, y = mint() print(cnt[find((x - 1) * m + y - 1)]) solve() ```	3
96	A	Football	PROGRAMMING	900	[ "implementation", "strings" ]	A. Football	2	256	Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not.	The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field.	Print "YES" if the situation is dangerous. Otherwise, print "NO".	[ "001001\n", "1000000001\n" ]	[ "NO\n", "YES\n" ]	none	500	[ { "input": "001001", "output": "NO" }, { "input": "1000000001", "output": "YES" }, { "input": "00100110111111101", "output": "YES" }, { "input": "11110111111111111", "output": "YES" }, { "input": "01", "output": "NO" }, { "input": "10100101", "output": "NO" }, { "input": "1010010100000000010", "output": "YES" }, { "input": "101010101", "output": "NO" }, { "input": "000000000100000000000110101100000", "output": "YES" }, { "input": "100001000000110101100000", "output": "NO" }, { "input": "100001000011010110000", "output": "NO" }, { "input": "010", "output": "NO" }, { "input": "10101011111111111111111111111100", "output": "YES" }, { "input": "1001101100", "output": "NO" }, { "input": "1001101010", "output": "NO" }, { "input": "1111100111", "output": "NO" }, { "input": "00110110001110001111", "output": "NO" }, { "input": "11110001001111110001", "output": "NO" }, { "input": "10001111001011111101", "output": "NO" }, { "input": "10000010100000001000110001010100001001001010011", "output": "YES" }, { "input": "01111011111010111100101100001011001010111110000010", "output": "NO" }, { "input": "00100000100100101110011001011011101110110110010100", "output": "NO" }, { "input": "10110100110001001011110101110010100010000000000100101010111110111110100011", "output": "YES" }, { "input": "00011101010101111001011011001101101011111101000010100000111000011100101011", "output": "NO" }, { "input": "01110000110100110101110100111000101101011101011110110100100111100001110111", "output": "NO" }, { "input": "11110110011000100111100111101101011111110100010101011011111101110110110111", "output": "YES" }, { "input": "100100010101110010001011001110100011100010011110100101100011010001001010001001101111001100", "output": "NO" }, { "input": "111110010001011010010011111100110110001111000010100011011100111101111101110010101111011110000001010", "output": "NO" }, { "input": "111110111100010100000100001010111011101011000111011011011010110010100010000101011111000011010011110", "output": "NO" }, { "input": "1011110110111010110111111010010010100011111011110000011000110010011110111010110100011010100010111000", "output": "NO" }, { "input": "0010100111100010110110000011100111110100111110001010000100111111111010111100101101010101001011010110", "output": "YES" }, { "input": "1111010100010100101011101100101101110011000010100010000001111100010011100101010001101111000001011000", "output": "NO" }, { "input": "0101100011001110001110100111100011010101011000000000110110010010111100101111010111100011101100100101", "output": "YES" }, { "input": "0001101110011101110000000010011111101001101111100001001010110000110001100000010001111011011110001101", "output": "YES" }, { "input": "1000010000100000100010000100001000010000100001000010000100001000010000100001000010000100001000010000", "output": "NO" }, { "input": "1000000000100000000010000000001000000000100000000010000000001000000000100000000010000000001000000000", "output": "YES" }, { "input": "0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001", "output": "YES" }, { "input": "1111111111111111111111111111111111111111011111111111111111111111111111111111111111111111111111111111", "output": "YES" }, { "input": "10100101000", "output": "NO" }, { "input": "11110111011101", "output": "NO" }, { "input": "10000000", "output": "YES" }, { "input": "00000001", "output": "YES" }, { "input": "01111111", "output": "YES" }, { "input": "11111110", "output": "YES" } ]	1,676,649,565	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	9	92	0	test = input() zero = 0 one = 0 for i in range(len(test)): if(test[i] == "0"): zero += 1 if(zero == 7): print("YES") exit() else: one += 1 if(one == 7): print("YES") exit() print("NO")	Title: Football Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not. Input Specification: The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field. Output Specification: Print "YES" if the situation is dangerous. Otherwise, print "NO". Demo Input: ['001001\n', '1000000001\n'] Demo Output: ['NO\n', 'YES\n'] Note: none	```python test = input() zero = 0 one = 0 for i in range(len(test)): if(test[i] == "0"): zero += 1 if(zero == 7): print("YES") exit() else: one += 1 if(one == 7): print("YES") exit() print("NO") ```	0
265	A	Colorful Stones (Simplified Edition)	PROGRAMMING	800	[ "implementation" ]		null	null	There is a sequence of colorful stones. The color of each stone is one of red, green, or blue. You are given a string s. The i-th (1-based) character of s represents the color of the i-th stone. If the character is "R", "G", or "B", the color of the corresponding stone is red, green, or blue, respectively. Initially Squirrel Liss is standing on the first stone. You perform instructions one or more times. Each instruction is one of the three types: "RED", "GREEN", or "BLUE". After an instruction c, if Liss is standing on a stone whose colors is c, Liss will move one stone forward, else she will not move. You are given a string t. The number of instructions is equal to the length of t, and the i-th character of t represents the i-th instruction. Calculate the final position of Liss (the number of the stone she is going to stand on in the end) after performing all the instructions, and print its 1-based position. It is guaranteed that Liss don't move out of the sequence.	The input contains two lines. The first line contains the string s (1<=≤<=\|s\|<=≤<=50). The second line contains the string t (1<=≤<=\|t\|<=≤<=50). The characters of each string will be one of "R", "G", or "B". It is guaranteed that Liss don't move out of the sequence.	Print the final 1-based position of Liss in a single line.	[ "RGB\nRRR\n", "RRRBGBRBBB\nBBBRR\n", "BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB\n" ]	[ "2\n", "3\n", "15\n" ]	none	500	[ { "input": "RGB\nRRR", "output": "2" }, { "input": "RRRBGBRBBB\nBBBRR", "output": "3" }, { "input": "BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB", "output": "15" }, { "input": "G\nRRBBRBRRBR", "output": "1" }, { "input": "RRRRRBRRBRRGRBGGRRRGRBBRBBBBBRGRBGBRRGBBBRBBGBRGBB\nB", "output": "1" }, { "input": "RRGGBRGRBG\nBRRGGBBGGR", "output": "7" }, { "input": "BBRRGBGGRGBRGBRBRBGR\nGGGRBGGGBRRRRGRBGBGRGRRBGRBGBG", "output": "15" }, { "input": "GBRRBGBGBBBBRRRGBGRRRGBGBBBRGR\nRRGBRRGRBBBBBBGRRBBR", "output": "8" }, { "input": "BRGRRGRGRRGBBGBBBRRBBRRBGBBGRGBBGGRGBRBGGGRRRBGGBB\nRGBBGRRBBBRRGRRBRBBRGBBGGGRGBGRRRRBRBGGBRBGGGRGBRR", "output": "16" }, { "input": "GGRGGBRRGRGBRRGGRBBGGRRGBBBGBBBGGRBGGBRBBRGBRRRBRG\nGGRGRRRRRRRRRGBBBBRGBRGRGRRGBBRGGBRBBRBGBRGRRRRGGR", "output": "18" }, { "input": "RBBRBGBBGGGBRRBGBRGRRGGRBBBBGRBGGBRRBGBBRBRGBBGGGG\nBRRGRBGRBGBRGBRBGGBBBGBBRGRBGRGRBGRBGGRRBGBRGRRBBG", "output": "23" }, { "input": "RRGGRRBRGRGBRGBRGBBRGGGBRBGBRGBRGGBRBRGBGRRBBGGRBR\nBRGRBBBGRBGRRGGRRRRRRRRGGGGGGGGBGGGGGGGRGRBBRGRGBR", "output": "14" }, { "input": "RBRBRRRRRGGR\nBBBBRRGGBGRBRGBBRGGGRGGBRRBRBRBGGG", "output": "12" }, { "input": "GGRGGGBRGRGRBBRGGGRBGRRR\nGBBBBGBGBGBBBRGGRGGBGRRGRRRGBGB", "output": "12" }, { "input": "RGRBGBRBBGBRRGGGBBGBRRBGRGBBBBBGRRRGGRBB\nBGR", "output": "2" }, { "input": "R\nB", "output": "1" }, { "input": "RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR\nRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR", "output": "50" }, { "input": "RRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRRR\nGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "1" }, { "input": "R\nGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG", "output": "1" } ]	1,604,992,488	2,147,483,647	Python 3	OK	TESTS	19	186	0	S=input() k=0 S1=input() for i in range(len(S1)) : if S1[i]==S[k] : k=k+1 if k+1==len(S) : break print(k+1)	Title: Colorful Stones (Simplified Edition) Time Limit: None seconds Memory Limit: None megabytes Problem Description: There is a sequence of colorful stones. The color of each stone is one of red, green, or blue. You are given a string s. The i-th (1-based) character of s represents the color of the i-th stone. If the character is "R", "G", or "B", the color of the corresponding stone is red, green, or blue, respectively. Initially Squirrel Liss is standing on the first stone. You perform instructions one or more times. Each instruction is one of the three types: "RED", "GREEN", or "BLUE". After an instruction c, if Liss is standing on a stone whose colors is c, Liss will move one stone forward, else she will not move. You are given a string t. The number of instructions is equal to the length of t, and the i-th character of t represents the i-th instruction. Calculate the final position of Liss (the number of the stone she is going to stand on in the end) after performing all the instructions, and print its 1-based position. It is guaranteed that Liss don't move out of the sequence. Input Specification: The input contains two lines. The first line contains the string s (1<=≤<=\|s\|<=≤<=50). The second line contains the string t (1<=≤<=\|t\|<=≤<=50). The characters of each string will be one of "R", "G", or "B". It is guaranteed that Liss don't move out of the sequence. Output Specification: Print the final 1-based position of Liss in a single line. Demo Input: ['RGB\nRRR\n', 'RRRBGBRBBB\nBBBRR\n', 'BRRBGBRGRBGRGRRGGBGBGBRGBRGRGGGRBRRRBRBBBGRRRGGBBB\nBBRBGGRGRGBBBRBGRBRBBBBRBRRRBGBBGBBRRBBGGRBRRBRGRB\n'] Demo Output: ['2\n', '3\n', '15\n'] Note: none	```python S=input() k=0 S1=input() for i in range(len(S1)) : if S1[i]==S[k] : k=k+1 if k+1==len(S) : break print(k+1) ```	3
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": "697681824", "output": "14" }, { "input": "41313494", "output": "14" }, { "input": "673935585", "output": "13" }, { "input": "117422204", "output": "19" }, { "input": "954746654", "output": "15" }, { "input": "536838144", "output": "14" }, { "input": "1000000000", "output": "13" }, { "input": "2", "output": "1" }, { "input": "3", "output": "2" }, { "input": "4", "output": "1" }, { "input": "6", "output": "2" }, { "input": "7", "output": "3" }, { "input": "9", "output": "2" }, { "input": "10", "output": "2" }, { "input": "999999999", "output": "21" }, { "input": "999999998", "output": "20" }, { "input": "999999997", "output": "20" }, { "input": "999999996", "output": "19" }, { "input": "999999995", "output": "20" }, { "input": "999999994", "output": "19" }, { "input": "999999993", "output": "19" }, { "input": "999999992", "output": "18" }, { "input": "999999991", "output": "20" }, { "input": "999999990", "output": "19" }, { "input": "536870910", "output": "28" }, { "input": "536870912", "output": "1" }, { "input": "536870913", "output": "2" }, { "input": "536870914", "output": "2" }, { "input": "22", "output": "3" }, { "input": "14", "output": "3" } ]	1,692,724,470	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	31	0	a = int(input()) i = 2 k = 1 while a>0: if a==i: print(k) a-=a elif i>a: i=i//2 a-=i k+=1 i = 1 else: i*=2	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 a = int(input()) i = 2 k = 1 while a>0: if a==i: print(k) a-=a elif i>a: i=i//2 a-=i k+=1 i = 1 else: i*=2 ```	0
934	A	A Compatible Pair	PROGRAMMING	1,400	[ "brute force", "games" ]		null	null	Nian is a monster which lives deep in the oceans. Once a year, it shows up on the land, devouring livestock and even people. In order to keep the monster away, people fill their villages with red colour, light, and cracking noise, all of which frighten the monster out of coming. Little Tommy has n lanterns and Big Banban has m lanterns. Tommy's lanterns have brightness a1,<=a2,<=...,<=an, and Banban's have brightness b1,<=b2,<=...,<=bm respectively. Tommy intends to hide one of his lanterns, then Banban picks one of Tommy's non-hidden lanterns and one of his own lanterns to form a pair. The pair's brightness will be the product of the brightness of two lanterns. Tommy wants to make the product as small as possible, while Banban tries to make it as large as possible. You are asked to find the brightness of the chosen pair if both of them choose optimally.	The first line contains two space-separated integers n and m (2<=≤<=n,<=m<=≤<=50). The second line contains n space-separated integers a1,<=a2,<=...,<=an. The third line contains m space-separated integers b1,<=b2,<=...,<=bm. All the integers range from <=-<=109 to 109.	Print a single integer — the brightness of the chosen pair.	[ "2 2\n20 18\n2 14\n", "5 3\n-1 0 1 2 3\n-1 0 1\n" ]	[ "252\n", "2\n" ]	In the first example, Tommy will hide 20 and Banban will choose 18 from Tommy and 14 from himself. In the second example, Tommy will hide 3 and Banban will choose 2 from Tommy and 1 from himself.	500	[ { "input": "2 2\n20 18\n2 14", "output": "252" }, { "input": "5 3\n-1 0 1 2 3\n-1 0 1", "output": "2" }, { "input": "10 2\n1 6 2 10 2 3 2 10 6 4\n5 7", "output": "70" }, { "input": "50 50\n1 6 2 10 2 3 2 10 6 4 5 0 3 1 7 3 2 4 4 2 1 5 0 6 10 1 8 0 10 9 0 4 10 5 5 7 4 9 9 5 5 2 6 7 9 4 3 7 2 0\n0 5 9 4 4 6 1 8 2 1 6 6 8 6 4 4 7 2 1 8 6 7 4 9 8 3 0 2 0 10 7 1 4 9 4 4 2 5 3 5 1 3 2 4 1 6 5 3 8 6", "output": "100" }, { "input": "5 7\n-130464232 -73113866 -542094710 -53118823 -63528720\n-775179088 631683023 -974858199 -157471745 -629658630 71825477 -6235611", "output": "127184126241438168" }, { "input": "16 15\n-94580188 -713689767 -559972014 -632609438 -930348091 -567718487 -611395744 -819913097 -924009672 -427913920 -812510647 -546415480 -982072775 -693369647 -693004777 -714181162\n-772924706 -202246100 -165871667 -991426281 -490838183 209351416 134956137 -36128588 -754413937 -616596290 696201705 -201191199 967464971 -244181984 -729907974", "output": "922371547895579571" }, { "input": "12 22\n-102896616 -311161241 -67541276 -402842686 -830595520 -813834033 -44046671 -584806552 -598620444 -968935604 -303048547 -545969410\n545786451 262898403 442511997 -441241260 -479587986 -752123290 720443264 500646237 737842681 -571966572 -798463881 -477248830 89875164 410339460 -359022689 -251280099 -441455542 -538431186 -406793869 374561004 -108755237 -440143410", "output": "663200522440413120" }, { "input": "33 14\n-576562007 -218618150 -471719380 -583840778 -256368365 -68451917 -405045344 -775538133 -896830082 -439261765 -947070124 -716577019 -456110999 -689862512 -132480131 -10805271 -518903339 -196240188 -222292638 -828546042 -43887962 -161359263 -281422097 -484060534 963147664 -492377073 -154570101 -52145116 187803553 858844161 66540410 418777176 434025748\n-78301978 -319393213 -12393024 542953412 786804661 845642067 754996432 -985617475 -487171947 56142664 203173079 -268261708 -817080591 -511720682", "output": "883931400924882950" }, { "input": "15 8\n-966400308 -992207261 -302395973 -837980754 -516443826 -492405613 -378127629 -762650324 -519519776 -36132939 -286460372 -351445284 -407653342 -604960925 -523442015\n610042288 27129580 -103108347 -942517864 842060508 -588904868 614786155 37455106", "output": "910849554065102112" }, { "input": "6 30\n-524297819 -947277203 -444186475 -182837689 -385379656 -453917269\n834529938 35245081 663687669 585422565 164412867 850052113 796429008 -307345676 -127653313 426960600 211854713 -733687358 251466836 -33491050 -882811238 455544614 774581544 768447941 -241033484 441104324 -493975870 308277556 275268265 935941507 -152292053 -961509996 -740482111 -954176110 -924254634 -518710544", "output": "504117593849498724" }, { "input": "5 32\n-540510995 -841481393 -94342377 -74818927 -93445356\n686714668 -82581175 736472406 502016312 575563638 -899308712 503504178 -644271272 -437408397 385778869 -746757839 306275973 -663503743 -431116516 -418708278 -515261493 -988182324 900230931 218258353 -714420102 -241118202 294802602 -937785552 -857537498 -723195312 -690515139 -214508504 -44086454 -231621215 -418360090 -810003786 -675944617", "output": "534123411186652380" }, { "input": "32 13\n-999451897 -96946179 -524159869 -906101658 -63367320 -629803888 -968586834 -658416130 -874232857 -926556428 -749908220 -517073321 -659752288 -910152878 -786916085 -607633039 -191428642 -867952926 -873793977 -584331784 -733245792 -779809700 -554228536 -464503499 561577340 258991071 -569805979 -372655165 -106685554 -619607960 188856473 -268960803\n886429660 -587284372 911396803 -462990289 -228681210 -876239914 -822830527 -750131315 -401234943 116991909 -582713480 979631847 813552478", "output": "848714444125692276" }, { "input": "12 25\n-464030345 -914672073 -483242132 -856226270 -925135169 -353124606 -294027092 -619650850 -490724485 -240424784 -483066792 -921640365\n279850608 726838739 -431610610 242749870 -244020223 -396865433 129534799 182767854 -939698671 342579400 330027106 893561388 -263513962 643369418 276245179 -99206565 -473767261 -168908664 -853755837 -270920164 -661186118 199341055 765543053 908211534 -93363867", "output": "866064226130454915" }, { "input": "10 13\n-749120991 -186261632 -335412349 -231354880 -195919225 -808736065 -481883825 -263383991 -664780611 -605377134\n718174936 -140362196 -669193674 -598621021 -464130929 450701419 -331183926 107203430 946959233 -565825915 -558199897 246556991 -666216081", "output": "501307028237810934" }, { "input": "17 13\n-483786205 -947257449 -125949195 -294711143 -420288876 -812462057 -250049555 -911026413 -188146919 -129501682 -869006661 -649643966 -26976411 -275761039 -869067490 -272248209 -342067346\n445539900 529728842 -808170728 673157826 -70778491 642872105 299298867 -76674218 -902394063 377664752 723887448 -121522827 906464625", "output": "822104826327386019" }, { "input": "15 29\n-716525085 -464205793 -577203110 -979997115 -491032521 -70793687 -770595947 -817983495 -767886763 -223333719 -971913221 -944656683 -200397825 -295615495 -945544540\n-877638425 -146878165 523758517 -158778747 -49535534 597311016 77325385 494128313 12111658 -4196724 295706874 477139483 375083042 726254399 -439255703 662913604 -481588088 673747948 -345999555 -723334478 -656721905 276267528 628773156 851420802 -585029291 -643535709 -968999740 -384418713 -510285542", "output": "941783658451562540" }, { "input": "5 7\n-130464232 -73113866 -542094710 -53118823 -63528720\n449942926 482853427 861095072 316710734 194604468 20277633 668816604", "output": "-1288212069119760" }, { "input": "24 24\n-700068683 -418791905 -24650102 -167277317 -182309202 -517748507 -663050677 -854097070 -426998982 -197009558 -101944229 -746589957 -849018439 -774208211 -946709040 -594578249 -276703474 -434567489 -743600446 -625029074 -977300284 -895608684 -878936220 -850670748\n704881272 169877679 705460701 94083210 403943695 987978311 786162506 658067668 697640875 186287 295558596 286470276 251313879 353071193 755450449 173370603 805550377 192465301 168935494 110161743 285139426 985238736 723221868 520679017", "output": "-18990884587723" }, { "input": "39 9\n44558618 981372779 318891054 283079237 285093436 907256321 414759796 652683534 79042330 249010687 7020063 309415438 788425492 138577429 714835649 954204512 795507844 389962019 507308352 408180613 194676444 44962879 922688019 101163040 327953325 560462120 183657590 273616448 226876035 233697890 720185285 689340674 372938362 15088928 283418109 796807778 149989495 694808087 276385512\n-681609072 -210918688 -757170622 -205635977 -597872997 -496188744 -97031207 -311654366 -389141528", "output": "-1464096896176096" }, { "input": "5 7\n869535768 926886134 457905290 946881177 936471280\n-550057074 -517146573 -138904928 -683289266 -805395532 -979722367 -331183396", "output": "-120782803247464704" }, { "input": "24 24\n299931317 581208095 975349898 832722683 817690798 482251493 336949323 145902930 573001018 802990442 898055771 253410043 150981561 225791789 53290960 405421751 723296526 565432511 256399554 374970926 22699716 104391316 121063780 149329252\n-295118728 -830122321 -294539299 -905916790 -596056305 -12021689 -213837494 -341932332 -302359125 -999813713 -704441404 -713529724 -748686121 -646928807 -244549551 -826629397 -194449623 -807534699 -831064506 -889838257 -714860574 -14761264 -276778132 -479320983", "output": "-640647347631440" }, { "input": "14 8\n-1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000 -1000000000\n1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000 1000000000", "output": "-1000000000000000000" } ]	1,520,072,545	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	9	62	5,632,000	input() n = list(map(int, input().split())) m = list(map(int, input().split())) n.sort() m.sort() print(n[len(n) - 2] * m[len(m) - 1])	Title: A Compatible Pair Time Limit: None seconds Memory Limit: None megabytes Problem Description: Nian is a monster which lives deep in the oceans. Once a year, it shows up on the land, devouring livestock and even people. In order to keep the monster away, people fill their villages with red colour, light, and cracking noise, all of which frighten the monster out of coming. Little Tommy has n lanterns and Big Banban has m lanterns. Tommy's lanterns have brightness a1,<=a2,<=...,<=an, and Banban's have brightness b1,<=b2,<=...,<=bm respectively. Tommy intends to hide one of his lanterns, then Banban picks one of Tommy's non-hidden lanterns and one of his own lanterns to form a pair. The pair's brightness will be the product of the brightness of two lanterns. Tommy wants to make the product as small as possible, while Banban tries to make it as large as possible. You are asked to find the brightness of the chosen pair if both of them choose optimally. Input Specification: The first line contains two space-separated integers n and m (2<=≤<=n,<=m<=≤<=50). The second line contains n space-separated integers a1,<=a2,<=...,<=an. The third line contains m space-separated integers b1,<=b2,<=...,<=bm. All the integers range from <=-<=109 to 109. Output Specification: Print a single integer — the brightness of the chosen pair. Demo Input: ['2 2\n20 18\n2 14\n', '5 3\n-1 0 1 2 3\n-1 0 1\n'] Demo Output: ['252\n', '2\n'] Note: In the first example, Tommy will hide 20 and Banban will choose 18 from Tommy and 14 from himself. In the second example, Tommy will hide 3 and Banban will choose 2 from Tommy and 1 from himself.	```python input() n = list(map(int, input().split())) m = list(map(int, input().split())) n.sort() m.sort() print(n[len(n) - 2] * m[len(m) - 1]) ```	0
858	A	k-rounding	PROGRAMMING	1,100	[ "brute force", "math", "number theory" ]		null	null	For a given positive integer n denote its k-rounding as the minimum positive integer x, such that x ends with k or more zeros in base 10 and is divisible by n. For example, 4-rounding of 375 is 375·80<==<=30000. 30000 is the minimum integer such that it ends with 4 or more zeros and is divisible by 375. Write a program that will perform the k-rounding of n.	The only line contains two integers n and k (1<=≤<=n<=≤<=109, 0<=≤<=k<=≤<=8).	Print the k-rounding of n.	[ "375 4\n", "10000 1\n", "38101 0\n", "123456789 8\n" ]	[ "30000\n", "10000\n", "38101\n", "12345678900000000\n" ]	none	750	[ { "input": "375 4", "output": "30000" }, { "input": "10000 1", "output": "10000" }, { "input": "38101 0", "output": "38101" }, { "input": "123456789 8", "output": "12345678900000000" }, { "input": "1 0", "output": "1" }, { "input": "2 0", "output": "2" }, { "input": "100 0", "output": "100" }, { "input": "1000000000 0", "output": "1000000000" }, { "input": "160 2", "output": "800" }, { "input": "3 0", "output": "3" }, { "input": "10 0", "output": "10" }, { "input": "1 1", "output": "10" }, { "input": "2 1", "output": "10" }, { "input": "3 1", "output": "30" }, { "input": "4 1", "output": "20" }, { "input": "5 1", "output": "10" }, { "input": "6 1", "output": "30" }, { "input": "7 1", "output": "70" }, { "input": "8 1", "output": "40" }, { "input": "9 1", "output": "90" }, { "input": "10 1", "output": "10" }, { "input": "11 1", "output": "110" }, { "input": "12 1", "output": "60" }, { "input": "16 2", "output": "400" }, { "input": "2 2", "output": "100" }, { "input": "1 2", "output": "100" }, { "input": "5 2", "output": "100" }, { "input": "15 2", "output": "300" }, { "input": "36 2", "output": "900" }, { "input": "1 8", "output": "100000000" }, { "input": "8 8", "output": "100000000" }, { "input": "96 8", "output": "300000000" }, { "input": "175 8", "output": "700000000" }, { "input": "9999995 8", "output": "199999900000000" }, { "input": "999999999 8", "output": "99999999900000000" }, { "input": "12345678 8", "output": "617283900000000" }, { "input": "78125 8", "output": "100000000" }, { "input": "390625 8", "output": "100000000" }, { "input": "1953125 8", "output": "500000000" }, { "input": "9765625 8", "output": "2500000000" }, { "input": "68359375 8", "output": "17500000000" }, { "input": "268435456 8", "output": "104857600000000" }, { "input": "125829120 8", "output": "9830400000000" }, { "input": "128000 8", "output": "400000000" }, { "input": "300000 8", "output": "300000000" }, { "input": "3711871 8", "output": "371187100000000" }, { "input": "55555 8", "output": "1111100000000" }, { "input": "222222222 8", "output": "11111111100000000" }, { "input": "479001600 8", "output": "7484400000000" }, { "input": "655360001 7", "output": "6553600010000000" }, { "input": "655360001 8", "output": "65536000100000000" }, { "input": "1000000000 1", "output": "1000000000" }, { "input": "1000000000 7", "output": "1000000000" }, { "input": "1000000000 8", "output": "1000000000" }, { "input": "100000000 8", "output": "100000000" }, { "input": "10000000 8", "output": "100000000" }, { "input": "1000000 8", "output": "100000000" }, { "input": "10000009 8", "output": "1000000900000000" }, { "input": "10000005 8", "output": "200000100000000" }, { "input": "10000002 8", "output": "500000100000000" }, { "input": "999999997 8", "output": "99999999700000000" }, { "input": "999999997 7", "output": "9999999970000000" }, { "input": "999999995 8", "output": "19999999900000000" }, { "input": "123 8", "output": "12300000000" }, { "input": "24 2", "output": "600" }, { "input": "16 4", "output": "10000" }, { "input": "123456787 8", "output": "12345678700000000" }, { "input": "100000000 8", "output": "100000000" }, { "input": "7 1", "output": "70" }, { "input": "101 1", "output": "1010" }, { "input": "50 2", "output": "100" }, { "input": "999999818 1", "output": "4999999090" }, { "input": "2 1", "output": "10" }, { "input": "123 1", "output": "1230" }, { "input": "16 1", "output": "80" }, { "input": "1 1", "output": "10" }, { "input": "1000000000 8", "output": "1000000000" }, { "input": "15304 6", "output": "1913000000" }, { "input": "3 8", "output": "300000000" }, { "input": "4 2", "output": "100" }, { "input": "100000 7", "output": "10000000" }, { "input": "5 8", "output": "100000000" }, { "input": "16724 6", "output": "4181000000" }, { "input": "999999999 1", "output": "9999999990" }, { "input": "999999990 8", "output": "9999999900000000" }, { "input": "999999999 8", "output": "99999999900000000" }, { "input": "100000 1", "output": "100000" }, { "input": "8 3", "output": "1000" }, { "input": "16768 6", "output": "262000000" }, { "input": "123456789 1", "output": "1234567890" }, { "input": "2 8", "output": "100000000" }, { "input": "999999937 8", "output": "99999993700000000" }, { "input": "5 1", "output": "10" }, { "input": "2000000 7", "output": "10000000" }, { "input": "1999998 2", "output": "99999900" }, { "input": "125 3", "output": "1000" } ]	1,505,850,804	2,147,483,647	Python 3	OK	TESTS	96	109	1,228,800	from fractions import gcd n, k = tuple(map(int, input().split())) print(n * 10k // (gcd(n, 10k)))	Title: k-rounding Time Limit: None seconds Memory Limit: None megabytes Problem Description: For a given positive integer n denote its k-rounding as the minimum positive integer x, such that x ends with k or more zeros in base 10 and is divisible by n. For example, 4-rounding of 375 is 375·80<==<=30000. 30000 is the minimum integer such that it ends with 4 or more zeros and is divisible by 375. Write a program that will perform the k-rounding of n. Input Specification: The only line contains two integers n and k (1<=≤<=n<=≤<=109, 0<=≤<=k<=≤<=8). Output Specification: Print the k-rounding of n. Demo Input: ['375 4\n', '10000 1\n', '38101 0\n', '123456789 8\n'] Demo Output: ['30000\n', '10000\n', '38101\n', '12345678900000000\n'] Note: none	```python from fractions import gcd n, k = tuple(map(int, input().split())) print(n * 10k // (gcd(n, 10k))) ```	3
192	A	Funky Numbers	PROGRAMMING	1,300	[ "binary search", "brute force", "implementation" ]		null	null	As you very well know, this year's funkiest numbers are so called triangular numbers (that is, integers that are representable as , where k is some positive integer), and the coolest numbers are those that are representable as a sum of two triangular numbers. A well-known hipster Andrew adores everything funky and cool but unfortunately, he isn't good at maths. Given number n, help him define whether this number can be represented by a sum of two triangular numbers (not necessarily different)!	The first input line contains an integer n (1<=≤<=n<=≤<=109).	Print "YES" (without the quotes), if n can be represented as a sum of two triangular numbers, otherwise print "NO" (without the quotes).	[ "256\n", "512\n" ]	[ "YES\n", "NO\n" ]	In the first sample number <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/92095692c6ea93e9e3b837a0408ba7543549d5b2.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample number 512 can not be represented as a sum of two triangular numbers.	500	[ { "input": "256", "output": "YES" }, { "input": "512", "output": "NO" }, { "input": "80", "output": "NO" }, { "input": "828", "output": "YES" }, { "input": "6035", "output": "NO" }, { "input": "39210", "output": "YES" }, { "input": "79712", "output": "NO" }, { "input": "190492", "output": "YES" }, { "input": "5722367", "output": "NO" }, { "input": "816761542", "output": "YES" }, { "input": "1", "output": "NO" }, { "input": "2", "output": "YES" }, { "input": "3", "output": "NO" }, { "input": "4", "output": "YES" }, { "input": "5", "output": "NO" }, { "input": "6", "output": "YES" }, { "input": "7", "output": "YES" }, { "input": "8", "output": "NO" }, { "input": "9", "output": "YES" }, { "input": "10", "output": "NO" }, { "input": "12", "output": "YES" }, { "input": "13", "output": "YES" }, { "input": "14", "output": "NO" }, { "input": "15", "output": "NO" }, { "input": "16", "output": "YES" }, { "input": "17", "output": "NO" }, { "input": "18", "output": "YES" }, { "input": "19", "output": "NO" }, { "input": "20", "output": "YES" }, { "input": "41", "output": "NO" }, { "input": "11", "output": "YES" }, { "input": "69", "output": "YES" }, { "input": "82", "output": "NO" }, { "input": "85", "output": "NO" }, { "input": "736", "output": "NO" }, { "input": "895", "output": "YES" }, { "input": "934", "output": "YES" }, { "input": "6213", "output": "YES" }, { "input": "7405", "output": "NO" }, { "input": "9919", "output": "NO" }, { "input": "40942", "output": "YES" }, { "input": "41992", "output": "NO" }, { "input": "68535", "output": "NO" }, { "input": "405718", "output": "NO" }, { "input": "1046146", "output": "YES" }, { "input": "3761248", "output": "YES" }, { "input": "6195181", "output": "YES" }, { "input": "35354345", "output": "NO" }, { "input": "81282830", "output": "NO" }, { "input": "187719774", "output": "NO" }, { "input": "296798673", "output": "NO" }, { "input": "938938476", "output": "NO" }, { "input": "1000000000", "output": "NO" }, { "input": "999887464", "output": "YES" }, { "input": "999111944", "output": "NO" }, { "input": "999966520", "output": "YES" }, { "input": "999912080", "output": "NO" }, { "input": "999992017", "output": "YES" }, { "input": "999990474", "output": "NO" }, { "input": "999999190", "output": "YES" }, { "input": "999999125", "output": "NO" }, { "input": "999999940", "output": "YES" }, { "input": "999999995", "output": "NO" }, { "input": "1000000000", "output": "NO" }, { "input": "1", "output": "NO" }, { "input": "999999999", "output": "YES" }, { "input": "83495494", "output": "NO" }, { "input": "968022000", "output": "YES" }, { "input": "399980000", "output": "YES" }, { "input": "4", "output": "YES" }, { "input": "999999998", "output": "NO" } ]	1,591,459,535	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	1	2,000	0	n=int(input()) k=0 for j in range(1,104,2): if(k==0): for i in range(1,104,2): if((2n)==j(j+1)+i*(i+1)): k=1 print("YES") break if(k==1): break if(k==0): print("NO")	Title: Funky Numbers Time Limit: None seconds Memory Limit: None megabytes Problem Description: As you very well know, this year's funkiest numbers are so called triangular numbers (that is, integers that are representable as , where k is some positive integer), and the coolest numbers are those that are representable as a sum of two triangular numbers. A well-known hipster Andrew adores everything funky and cool but unfortunately, he isn't good at maths. Given number n, help him define whether this number can be represented by a sum of two triangular numbers (not necessarily different)! Input Specification: The first input line contains an integer n (1<=≤<=n<=≤<=109). Output Specification: Print "YES" (without the quotes), if n can be represented as a sum of two triangular numbers, otherwise print "NO" (without the quotes). Demo Input: ['256\n', '512\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample number <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/92095692c6ea93e9e3b837a0408ba7543549d5b2.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample number 512 can not be represented as a sum of two triangular numbers.	```python n=int(input()) k=0 for j in range(1,104,2): if(k==0): for i in range(1,104,2): if((2n)==j(j+1)+i*(i+1)): k=1 print("YES") break if(k==1): break if(k==0): print("NO") ```	0
236	A	Boy or Girl	PROGRAMMING	800	[ "brute force", "implementation", "strings" ]		null	null	Those days, many boys use beautiful girls' photos as avatars in forums. So it is pretty hard to tell the gender of a user at the first glance. Last year, our hero went to a forum and had a nice chat with a beauty (he thought so). After that they talked very often and eventually they became a couple in the network. But yesterday, he came to see "her" in the real world and found out "she" is actually a very strong man! Our hero is very sad and he is too tired to love again now. So he came up with a way to recognize users' genders by their user names. This is his method: if the number of distinct characters in one's user name is odd, then he is a male, otherwise she is a female. You are given the string that denotes the user name, please help our hero to determine the gender of this user by his method.	The first line contains a non-empty string, that contains only lowercase English letters — the user name. This string contains at most 100 letters.	If it is a female by our hero's method, print "CHAT WITH HER!" (without the quotes), otherwise, print "IGNORE HIM!" (without the quotes).	[ "wjmzbmr\n", "xiaodao\n", "sevenkplus\n" ]	[ "CHAT WITH HER!\n", "IGNORE HIM!\n", "CHAT WITH HER!\n" ]	For the first example. There are 6 distinct characters in "wjmzbmr". These characters are: "w", "j", "m", "z", "b", "r". So wjmzbmr is a female and you should print "CHAT WITH HER!".	500	[ { "input": "wjmzbmr", "output": "CHAT WITH HER!" }, { "input": "xiaodao", "output": "IGNORE HIM!" }, { "input": "sevenkplus", "output": "CHAT WITH HER!" }, { "input": "pezu", "output": "CHAT WITH HER!" }, { "input": "wnemlgppy", "output": "CHAT WITH HER!" }, { "input": "zcinitufxoldnokacdvtmdohsfdjepyfioyvclhmujiqwvmudbfjzxjfqqxjmoiyxrfsbvseawwoyynn", "output": "IGNORE HIM!" }, { "input": "qsxxuoynwtebujwpxwpajitiwxaxwgbcylxneqiebzfphugwkftpaikixmumkhfbjiswmvzbtiyifbx", "output": "CHAT WITH HER!" }, { "input": "qwbdfzfylckctudyjlyrtmvbidfatdoqfmrfshsqqmhzohhsczscvwzpwyoyswhktjlykumhvaounpzwpxcspxwlgt", "output": "IGNORE HIM!" }, { "input": "nuezoadauueermoeaabjrkxttkatspjsjegjcjcdmcxgodowzbwuqncfbeqlhkk", "output": "IGNORE HIM!" }, { "input": "lggvdmulrsvtuagoavstuyufhypdxfomjlzpnduulukszqnnwfvxbvxyzmleocmofwclmzz", "output": "IGNORE HIM!" }, { "input": "tgcdptnkc", "output": "IGNORE HIM!" }, { "input": "wvfgnfrzabgibzxhzsojskmnlmrokydjoexnvi", "output": "IGNORE HIM!" }, { "input": "sxtburpzskucowowebgrbovhadrrayamuwypmmxhscrujkmcgvyinp", "output": "IGNORE HIM!" }, { "input": "pjqxhvxkyeqqvyuujxhmbspatvrckhhkfloottuybjivkkhpyivcighxumavrxzxslfpggnwbtalmhysyfllznphzia", "output": "IGNORE HIM!" }, { "input": "fpellxwskyekoyvrfnuf", "output": "CHAT WITH HER!" }, { "input": "xninyvkuvakfbs", "output": "IGNORE HIM!" }, { "input": "vnxhrweyvhqufpfywdwftoyrfgrhxuamqhblkvdpxmgvphcbeeqbqssresjifwyzgfhurmamhkwupymuomak", "output": "CHAT WITH HER!" }, { "input": "kmsk", "output": "IGNORE HIM!" }, { "input": "lqonogasrkzhryjxppjyriyfxmdfubieglthyswz", "output": "CHAT WITH HER!" }, { "input": "ndormkufcrkxlihdhmcehzoimcfhqsmombnfjrlcalffq", "output": "CHAT WITH HER!" }, { "input": "zqzlnnuwcfufwujygtczfakhcpqbtxtejrbgoodychepzdphdahtxyfpmlrycyicqthsgm", "output": "IGNORE HIM!" }, { "input": "ppcpbnhwoizajrl", "output": "IGNORE HIM!" }, { "input": "sgubujztzwkzvztitssxxxwzanfmddfqvv", "output": "CHAT WITH HER!" }, { "input": "ptkyaxycecpbrjnvxcjtbqiocqcswnmicxbvhdsptbxyxswbw", "output": "IGNORE HIM!" }, { "input": "yhbtzfppwcycxqjpqdfmjnhwaogyuaxamwxpnrdrnqsgdyfvxu", "output": "CHAT WITH HER!" }, { "input": "ojjvpnkrxibyevxk", "output": "CHAT WITH HER!" }, { "input": "wjweqcrqfuollfvfbiyriijovweg", "output": "IGNORE HIM!" }, { "input": "hkdbykboclchfdsuovvpknwqr", "output": "IGNORE HIM!" }, { "input": "stjvyfrfowopwfjdveduedqylerqugykyu", "output": "IGNORE HIM!" }, { "input": "rafcaanqytfclvfdegak", "output": "CHAT WITH HER!" }, { "input": "xczn", "output": "CHAT WITH HER!" }, { "input": "arcoaeozyeawbveoxpmafxxzdjldsielp", "output": "IGNORE HIM!" }, { "input": "smdfafbyehdylhaleevhoggiurdgeleaxkeqdixyfztkuqsculgslheqfafxyghyuibdgiuwrdxfcitojxika", "output": "CHAT WITH HER!" }, { "input": "vbpfgjqnhfazmvtkpjrdasfhsuxnpiepxfrzvoh", "output": "CHAT WITH HER!" }, { "input": "dbdokywnpqnotfrhdbrzmuyoxfdtrgrzcccninbtmoqvxfatcqg", "output": "CHAT WITH HER!" }, { "input": "udlpagtpq", "output": "CHAT WITH HER!" }, { "input": "zjurevbytijifnpfuyswfchdzelxheboruwjqijxcucylysmwtiqsqqhktexcynquvcwhbjsipy", "output": "CHAT WITH HER!" }, { "input": "qagzrqjomdwhagkhrjahhxkieijyten", "output": "CHAT WITH HER!" }, { "input": "achhcfjnnfwgoufxamcqrsontgjjhgyfzuhklkmiwybnrlsvblnsrjqdytglipxsulpnphpjpoewvlusalsgovwnsngb", "output": "CHAT WITH HER!" }, { "input": "qbkjsdwpahdbbohggbclfcufqelnojoehsxxkr", "output": "CHAT WITH HER!" }, { "input": "cpvftiwgyvnlmbkadiafddpgfpvhqqvuehkypqjsoibpiudfvpkhzlfrykc", "output": "IGNORE HIM!" }, { "input": "lnpdosnceumubvk", "output": "IGNORE HIM!" }, { "input": "efrk", "output": "CHAT WITH HER!" }, { "input": "temnownneghnrujforif", "output": "IGNORE HIM!" }, { "input": "ottnneymszwbumgobazfjyxewkjakglbfflsajuzescplpcxqta", "output": "IGNORE HIM!" }, { "input": "eswpaclodzcwhgixhpyzvhdwsgneqidanbzdzszquefh", "output": "IGNORE HIM!" }, { "input": "gwntwbpj", "output": "IGNORE HIM!" }, { "input": "wuqvlbblkddeindiiswsinkfrnkxghhwunzmmvyovpqapdfbolyim", "output": "IGNORE HIM!" }, { "input": "swdqsnzmzmsyvktukaoyqsqzgfmbzhezbfaqeywgwizrwjyzquaahucjchegknqaioliqd", "output": "CHAT WITH HER!" }, { "input": "vlhrpzezawyolhbmvxbwhtjustdbqggexmzxyieihjlelvwjosmkwesfjmramsikhkupzvfgezmrqzudjcalpjacmhykhgfhrjx", "output": "IGNORE HIM!" }, { "input": "lxxwbkrjgnqjwsnflfnsdyxihmlspgivirazsbveztnkuzpaxtygidniflyjheejelnjyjvgkgvdqks", "output": "CHAT WITH HER!" }, { "input": "wpxbxzfhtdecetpljcrvpjjnllosdqirnkzesiqeukbedkayqx", "output": "CHAT WITH HER!" }, { "input": "vmzxgacicvweclaodrunmjnfwtimceetsaoickarqyrkdghcmyjgmtgsqastcktyrjgvjqimdc", "output": "CHAT WITH HER!" }, { "input": "yzlzmesxdttfcztooypjztlgxwcr", "output": "IGNORE HIM!" }, { "input": "qpbjwzwgdzmeluheirjrvzrhbmagfsjdgvzgwumjtjzecsfkrfqjasssrhhtgdqqfydlmrktlgfc", "output": "IGNORE HIM!" }, { "input": "aqzftsvezdgouyrirsxpbuvdjupnzvbhguyayeqozfzymfnepvwgblqzvmxxkxcilmsjvcgyqykpoaktjvsxbygfgsalbjoq", "output": "CHAT WITH HER!" }, { "input": "znicjjgijhrbdlnwmtjgtdgziollrfxroabfhadygnomodaembllreorlyhnehijfyjbfxucazellblegyfrzuraogadj", "output": "IGNORE HIM!" }, { "input": "qordzrdiknsympdrkgapjxokbldorpnmnpucmwakklmqenpmkom", "output": "CHAT WITH HER!" }, { "input": "wqfldgihuxfktzanyycluzhtewmwvnawqlfoavuguhygqrrxtstxwouuzzsryjqtfqo", "output": "CHAT WITH HER!" }, { "input": "vujtrrpshinkskgyknlcfckmqdrwtklkzlyipmetjvaqxdsslkskschbalmdhzsdrrjmxdltbtnxbh", "output": "IGNORE HIM!" }, { "input": "zioixjibuhrzyrbzqcdjbbhhdmpgmqykixcxoqupggaqajuzonrpzihbsogjfsrrypbiphehonyhohsbybnnukqebopppa", "output": "CHAT WITH HER!" }, { "input": "oh", "output": "CHAT WITH HER!" }, { "input": "kxqthadqesbpgpsvpbcbznxpecqrzjoilpauttzlnxvaczcqwuri", "output": "IGNORE HIM!" }, { "input": "zwlunigqnhrwirkvufqwrnwcnkqqonebrwzcshcbqqwkjxhymjjeakuzjettebciadjlkbfp", "output": "CHAT WITH HER!" }, { "input": "fjuldpuejgmggvvigkwdyzytfxzwdlofrpifqpdnhfyroginqaufwgjcbgshyyruwhofctsdaisqpjxqjmtpp", "output": "CHAT WITH HER!" }, { "input": "xiwntnheuitbtqxrmzvxmieldudakogealwrpygbxsbluhsqhtwmdlpjwzyafckrqrdduonkgo", "output": "CHAT WITH HER!" }, { "input": "mnmbupgo", "output": "IGNORE HIM!" }, { "input": "mcjehdiygkbmrbfjqwpwxidbdfelifwhstaxdapigbymmsgrhnzsdjhsqchl", "output": "IGNORE HIM!" }, { "input": "yocxrzspinchmhtmqo", "output": "CHAT WITH HER!" }, { "input": "vasvvnpymtgjirnzuynluluvmgpquskuaafwogeztfnvybblajvuuvfomtifeuzpikjrolzeeoftv", "output": "CHAT WITH HER!" }, { "input": "ecsdicrznvglwggrdbrvehwzaenzjutjydhvimtqegweurpxtjkmpcznshtrvotkvrghxhacjkedidqqzrduzad", "output": "IGNORE HIM!" }, { "input": "ubvhyaebyxoghakajqrpqpctwbrfqzli", "output": "CHAT WITH HER!" }, { "input": "gogbxfeqylxoummvgxpkoqzsmobasesxbqjjktqbwqxeiaagnnhbvepbpy", "output": "IGNORE HIM!" }, { "input": "nheihhxkbbrmlpxpxbhnpofcjmxemyvqqdbanwd", "output": "IGNORE HIM!" }, { "input": "acrzbavz", "output": "CHAT WITH HER!" }, { "input": "drvzznznvrzskftnrhvvzxcalwutxmdza", "output": "IGNORE HIM!" }, { "input": "oacwxipdfcoabhkwxqdbtowiekpnflnqhlrkustgzryvws", "output": "CHAT WITH HER!" }, { "input": "tpnwfmfsibnccvdwjvzviyvjfljupinfigfunyff", "output": "CHAT WITH HER!" }, { "input": "gavaihhamfolcndgytcsgucqdqngxkrlovpthvteacmmthoglxu", "output": "CHAT WITH HER!" }, { "input": "hsfcfvameeupldgvchmogrvwxrvsmnwxxkxoawwodtsahqvehlcw", "output": "IGNORE HIM!" }, { "input": "sbkydrscoojychxchqsuciperfroumenelgiyiwlqfwximrgdbyvkmacy", "output": "CHAT WITH HER!" }, { "input": "rhh", "output": "CHAT WITH HER!" }, { "input": "zhdouqfmlkenjzdijxdfxnlegxeuvhelo", "output": "IGNORE HIM!" }, { "input": "yufkkfwyhhvcjntsgsvpzbhqtmtgyxifqoewmuplphykmptfdebjxuaxigomjtwgtljwdjhjernkitifbomifbhysnmadtnyn", "output": "CHAT WITH HER!" }, { "input": "urigreuzpxnej", "output": "CHAT WITH HER!" } ]	1,697,791,822	2,147,483,647	Python 3	OK	TESTS	85	154	0	x= input() c=[] count1 =0 for i in x: if i not in c: c.append(i) count1 +=1 if count1 % 2 ==0: print("CHAT WITH HER!") else: print("IGNORE HIM!")	Title: Boy or Girl Time Limit: None seconds Memory Limit: None megabytes Problem Description: Those days, many boys use beautiful girls' photos as avatars in forums. So it is pretty hard to tell the gender of a user at the first glance. Last year, our hero went to a forum and had a nice chat with a beauty (he thought so). After that they talked very often and eventually they became a couple in the network. But yesterday, he came to see "her" in the real world and found out "she" is actually a very strong man! Our hero is very sad and he is too tired to love again now. So he came up with a way to recognize users' genders by their user names. This is his method: if the number of distinct characters in one's user name is odd, then he is a male, otherwise she is a female. You are given the string that denotes the user name, please help our hero to determine the gender of this user by his method. Input Specification: The first line contains a non-empty string, that contains only lowercase English letters — the user name. This string contains at most 100 letters. Output Specification: If it is a female by our hero's method, print "CHAT WITH HER!" (without the quotes), otherwise, print "IGNORE HIM!" (without the quotes). Demo Input: ['wjmzbmr\n', 'xiaodao\n', 'sevenkplus\n'] Demo Output: ['CHAT WITH HER!\n', 'IGNORE HIM!\n', 'CHAT WITH HER!\n'] Note: For the first example. There are 6 distinct characters in "wjmzbmr". These characters are: "w", "j", "m", "z", "b", "r". So wjmzbmr is a female and you should print "CHAT WITH HER!".	```python x= input() c=[] count1 =0 for i in x: if i not in c: c.append(i) count1 +=1 if count1 % 2 ==0: print("CHAT WITH HER!") else: print("IGNORE HIM!") ```	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" }, { "input": "2 7\n1 1", "output": "1" }, { "input": "3 3\n18 1 9", "output": "10" }, { "input": "3 3\n15 17 9", "output": "3" }, { "input": "3 3\n10 9 12", "output": "2" }, { "input": "10 3\n2 1 17 10 5 16 8 4 15 17", "output": "31" }, { "input": "10 3\n6 11 4 12 22 15 23 26 24 26", "output": "13" }, { "input": "10 3\n10 24 13 15 18 14 15 26 33 35", "output": "29" }, { "input": "100 3\n529 178 280 403 326 531 671 427 188 866 669 646 421 804 494 609 53 1012 211 243 887 833 900 543 226 42 859 718 454 372 971 692 846 770 511 395 499 479 641 756 115 269 206 45 1039 727 400 779 859 614 146 214 196 919 702 959 380 830 535 878 859 784 316 305 782 924 536 243 236 978 564 150 291 877 808 983 537 839 490 120 168 838 267 650 900 170 211 504 326 771 895 984 994 483 776 100 471 1078 317 580", "output": "15717" }, { "input": "100 3\n329 226 331 909 962 112 837 1005 194 818 506 416 125 648 367 459 400 582 989 547 329 438 234 121 272 226 821 376 834 427 718 164 834 113 654 177 737 212 169 696 744 180 89 944 233 147 667 990 809 1072 1085 1093 814 265 1067 312 833 572 303 901 1032 504 185 817 389 158 613 723 239 269 911 352 769 404 225 822 897 606 947 323 913 804 923 1084 552 901 486 249 209 898 847 610 728 1122 986 669 1116 1076 367 327", "output": "16133" } ]	1,613,931,724	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	2	186	0	n,d=list(map(int,input().split())) a=list(map(int,input().split())) b=0 for i in range(1,n): c=max(a[i-1]-a[i],1) b+=c//d if c%d!=0: b+=1 print(b)	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=list(map(int,input().split())) a=list(map(int,input().split())) b=0 for i in range(1,n): c=max(a[i-1]-a[i],1) b+=c//d if c%d!=0: b+=1 print(b) ```	0
899	B	Months and Years	PROGRAMMING	1,200	[ "implementation" ]		null	null	Everybody in Russia uses Gregorian calendar. In this calendar there are 31 days in January, 28 or 29 days in February (depending on whether the year is leap or not), 31 days in March, 30 days in April, 31 days in May, 30 in June, 31 in July, 31 in August, 30 in September, 31 in October, 30 in November, 31 in December. A year is leap in one of two cases: either its number is divisible by 4, but not divisible by 100, or is divisible by 400. For example, the following years are leap: 2000, 2004, but years 1900 and 2018 are not leap. In this problem you are given n (1<=≤<=n<=≤<=24) integers a1,<=a2,<=...,<=an, and you have to check if these integers could be durations in days of n consecutive months, according to Gregorian calendar. Note that these months could belong to several consecutive years. In other words, check if there is a month in some year, such that its duration is a1 days, duration of the next month is a2 days, and so on.	The first line contains single integer n (1<=≤<=n<=≤<=24) — the number of integers. The second line contains n integers a1,<=a2,<=...,<=an (28<=≤<=ai<=≤<=31) — the numbers you are to check.	If there are several consecutive months that fit the sequence, print "YES" (without quotes). Otherwise, print "NO" (without quotes). You can print each letter in arbitrary case (small or large).	[ "4\n31 31 30 31\n", "2\n30 30\n", "5\n29 31 30 31 30\n", "3\n31 28 30\n", "3\n31 31 28\n" ]	[ "Yes\n\n", "No\n\n", "Yes\n\n", "No\n\n", "Yes\n\n" ]	In the first example the integers can denote months July, August, September and October. In the second example the answer is no, because there are no two consecutive months each having 30 days. In the third example the months are: February (leap year) — March — April – May — June. In the fourth example the number of days in the second month is 28, so this is February. March follows February and has 31 days, but not 30, so the answer is NO. In the fifth example the months are: December — January — February (non-leap year).	1,000	[ { "input": "4\n31 31 30 31", "output": "Yes" }, { "input": "2\n30 30", "output": "No" }, { "input": "5\n29 31 30 31 30", "output": "Yes" }, { "input": "3\n31 28 30", "output": "No" }, { "input": "3\n31 31 28", "output": "Yes" }, { "input": "24\n29 28 31 30 31 30 31 31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31", "output": "No" }, { "input": "4\n31 29 31 30", "output": "Yes" }, { "input": "24\n31 28 31 30 31 30 31 31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "8\n31 29 31 30 31 30 31 31", "output": "Yes" }, { "input": "1\n29", "output": "Yes" }, { "input": "8\n31 29 31 30 31 31 31 31", "output": "No" }, { "input": "1\n31", "output": "Yes" }, { "input": "11\n30 31 30 31 31 30 31 30 31 31 28", "output": "Yes" }, { "input": "21\n30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31", "output": "Yes" }, { "input": "4\n31 28 28 30", "output": "No" }, { "input": "2\n30 31", "output": "Yes" }, { "input": "7\n28 31 30 31 30 31 31", "output": "Yes" }, { "input": "4\n28 31 30 31", "output": "Yes" }, { "input": "17\n28 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31", "output": "No" }, { "input": "9\n31 31 29 31 30 31 30 31 31", "output": "Yes" }, { "input": "4\n31 28 31 30", "output": "Yes" }, { "input": "21\n30 31 30 31 31 28 31 30 31 30 31 29 30 31 30 31 31 28 31 30 31", "output": "No" }, { "input": "2\n31 31", "output": "Yes" }, { "input": "17\n31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "4\n30 31 30 31", "output": "Yes" }, { "input": "12\n31 28 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "12\n31 29 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "11\n30 31 30 31 31 30 31 30 31 29 28", "output": "No" }, { "input": "22\n31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "14\n31 30 31 31 28 31 30 31 30 31 31 30 31 30", "output": "Yes" }, { "input": "12\n31 30 31 31 28 31 30 31 30 31 31 30", "output": "Yes" }, { "input": "4\n31 29 29 30", "output": "No" }, { "input": "7\n28 28 30 31 30 31 31", "output": "No" }, { "input": "9\n29 31 29 31 30 31 30 31 31", "output": "No" }, { "input": "17\n31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "2\n31 29", "output": "Yes" }, { "input": "12\n31 28 31 30 31 30 31 31 30 31 28 31", "output": "No" }, { "input": "2\n29 31", "output": "Yes" }, { "input": "12\n31 29 31 30 31 30 31 30 30 31 30 31", "output": "No" }, { "input": "12\n31 28 31 30 31 29 31 31 30 31 30 31", "output": "No" }, { "input": "22\n31 30 31 30 31 31 30 31 30 31 31 28 31 30 28 30 31 31 30 31 30 31", "output": "No" }, { "input": "14\n31 30 31 31 28 31 30 31 30 31 31 30 29 30", "output": "No" }, { "input": "19\n31 28 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31", "output": "Yes" }, { "input": "20\n31 28 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31", "output": "Yes" }, { "input": "1\n28", "output": "Yes" }, { "input": "1\n29", "output": "Yes" }, { "input": "17\n31 30 31 30 31 31 29 31 30 31 31 31 31 30 31 30 31", "output": "No" }, { "input": "1\n30", "output": "Yes" }, { "input": "1\n31", "output": "Yes" }, { "input": "24\n31 28 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31", "output": "Yes" }, { "input": "24\n28 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31 31", "output": "Yes" }, { "input": "12\n31 30 31 31 28 28 30 31 30 31 31 30", "output": "No" }, { "input": "24\n29 31 30 31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31 31", "output": "Yes" }, { "input": "24\n28 31 30 31 30 31 31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31 31", "output": "Yes" }, { "input": "24\n31 29 31 30 31 30 31 31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31", "output": "No" }, { "input": "13\n28 31 30 31 30 31 31 30 31 30 31 31 28", "output": "Yes" }, { "input": "15\n31 31 28 31 30 31 30 31 31 30 31 30 31 31 29", "output": "Yes" }, { "input": "23\n31 30 31 31 30 31 30 31 31 28 31 30 31 30 31 31 30 31 30 31 31 29 31", "output": "Yes" }, { "input": "24\n31 30 31 30 31 31 30 31 30 31 31 30 31 30 31 30 31 31 30 31 30 31 31 30", "output": "No" }, { "input": "23\n29 31 30 31 30 31 31 30 31 30 31 31 29 31 30 31 30 31 31 30 31 30 31", "output": "No" }, { "input": "15\n31 31 29 31 30 31 30 31 31 30 31 30 31 31 28", "output": "Yes" }, { "input": "12\n31 30 31 30 31 30 31 31 30 31 30 31", "output": "No" } ]	1,646,078,627	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	4	62	0	s1 = '31 28 31 30 31 30 31 31 30 31 30 31' s2 = '31 29 31 30 31 30 31 31 30 31 30 31' n = map(str,input().split()) a = list(map(str,input().split())) b = "" for ele in a: b += " "+ele #print(b) if b in s1 or b in s2: print("yes") else: print("no")	Title: Months and Years Time Limit: None seconds Memory Limit: None megabytes Problem Description: Everybody in Russia uses Gregorian calendar. In this calendar there are 31 days in January, 28 or 29 days in February (depending on whether the year is leap or not), 31 days in March, 30 days in April, 31 days in May, 30 in June, 31 in July, 31 in August, 30 in September, 31 in October, 30 in November, 31 in December. A year is leap in one of two cases: either its number is divisible by 4, but not divisible by 100, or is divisible by 400. For example, the following years are leap: 2000, 2004, but years 1900 and 2018 are not leap. In this problem you are given n (1<=≤<=n<=≤<=24) integers a1,<=a2,<=...,<=an, and you have to check if these integers could be durations in days of n consecutive months, according to Gregorian calendar. Note that these months could belong to several consecutive years. In other words, check if there is a month in some year, such that its duration is a1 days, duration of the next month is a2 days, and so on. Input Specification: The first line contains single integer n (1<=≤<=n<=≤<=24) — the number of integers. The second line contains n integers a1,<=a2,<=...,<=an (28<=≤<=ai<=≤<=31) — the numbers you are to check. Output Specification: If there are several consecutive months that fit the sequence, print "YES" (without quotes). Otherwise, print "NO" (without quotes). You can print each letter in arbitrary case (small or large). Demo Input: ['4\n31 31 30 31\n', '2\n30 30\n', '5\n29 31 30 31 30\n', '3\n31 28 30\n', '3\n31 31 28\n'] Demo Output: ['Yes\n\n', 'No\n\n', 'Yes\n\n', 'No\n\n', 'Yes\n\n'] Note: In the first example the integers can denote months July, August, September and October. In the second example the answer is no, because there are no two consecutive months each having 30 days. In the third example the months are: February (leap year) — March — April – May — June. In the fourth example the number of days in the second month is 28, so this is February. March follows February and has 31 days, but not 30, so the answer is NO. In the fifth example the months are: December — January — February (non-leap year).	```python s1 = '31 28 31 30 31 30 31 31 30 31 30 31' s2 = '31 29 31 30 31 30 31 31 30 31 30 31' n = map(str,input().split()) a = list(map(str,input().split())) b = "" for ele in a: b += " "+ele #print(b) if b in s1 or b in s2: print("yes") else: print("no") ```	0
765	A	Neverending competitions	PROGRAMMING	900	[ "implementation", "math" ]		null	null	There are literally dozens of snooker competitions held each year, and team Jinotega tries to attend them all (for some reason they prefer name "snookah")! When a competition takes place somewhere far from their hometown, Ivan, Artsem and Konstantin take a flight to the contest and back. Jinotega's best friends, team Base have found a list of their itinerary receipts with information about departure and arrival airports. Now they wonder, where is Jinotega now: at home or at some competition far away? They know that: - this list contains all Jinotega's flights in this year (in arbitrary order), - Jinotega has only flown from his hometown to a snooker contest and back, - after each competition Jinotega flies back home (though they may attend a competition in one place several times), - and finally, at the beginning of the year Jinotega was at home. Please help them to determine Jinotega's location!	In the first line of input there is a single integer n: the number of Jinotega's flights (1<=≤<=n<=≤<=100). In the second line there is a string of 3 capital Latin letters: the name of Jinotega's home airport. In the next n lines there is flight information, one flight per line, in form "XXX->YYY", where "XXX" is the name of departure airport "YYY" is the name of arrival airport. Exactly one of these airports is Jinotega's home airport. It is guaranteed that flights information is consistent with the knowledge of Jinotega's friends, which is described in the main part of the statement.	If Jinotega is now at home, print "home" (without quotes), otherwise print "contest".	[ "4\nSVO\nSVO->CDG\nLHR->SVO\nSVO->LHR\nCDG->SVO\n", "3\nSVO\nSVO->HKT\nHKT->SVO\nSVO->RAP\n" ]	[ "home\n", "contest\n" ]	In the first sample Jinotega might first fly from SVO to CDG and back, and then from SVO to LHR and back, so now they should be at home. In the second sample Jinotega must now be at RAP because a flight from RAP back to SVO is not on the list.	500	[ { "input": "4\nSVO\nSVO->CDG\nLHR->SVO\nSVO->LHR\nCDG->SVO", "output": "home" }, { "input": "3\nSVO\nSVO->HKT\nHKT->SVO\nSVO->RAP", "output": "contest" }, { "input": "1\nESJ\nESJ->TSJ", "output": "contest" }, { "input": "2\nXMR\nFAJ->XMR\nXMR->FAJ", "output": "home" }, { "input": "3\nZIZ\nDWJ->ZIZ\nZIZ->DWJ\nZIZ->DWJ", "output": "contest" }, { "input": "10\nPVO\nDMN->PVO\nDMN->PVO\nPVO->DMN\nDMN->PVO\nPVO->DMN\nPVO->DMN\nPVO->DMN\nDMN->PVO\nPVO->DMN\nDMN->PVO", "output": "home" }, { "input": "11\nIAU\nIAU->RUQ\nIAU->RUQ\nRUQ->IAU\nRUQ->IAU\nIAU->RUQ\nRUQ->IAU\nIAU->RUQ\nRUQ->IAU\nIAU->RUQ\nIAU->RUQ\nRUQ->IAU", "output": "contest" }, { "input": "10\nHPN\nDFI->HPN\nHPN->KAB\nHPN->DFI\nVSO->HPN\nHPN->KZX\nHPN->VSO\nKZX->HPN\nLDW->HPN\nKAB->HPN\nHPN->LDW", "output": "home" }, { "input": "11\nFGH\nFGH->BRZ\nUBK->FGH\nQRE->FGH\nFGH->KQK\nFGH->QRE\nKQK->FGH\nFGH->UBK\nBRZ->FGH\nFGH->ALX\nALX->FGH\nFGH->KQK", "output": "contest" }, { "input": "50\nPFH\nJFV->PFH\nBVP->PFH\nPFH->BVP\nPFH->JFV\nPFH->ETQ\nPFH->LQJ\nZTO->PFH\nPFH->BVP\nPFH->RXO\nPFH->ZTO\nHWL->PFH\nPFH->HIV\nPFH->AFP\nPFH->HWL\nOBB->PFH\nHIV->PFH\nPFH->LSR\nAFP->PFH\nLQJ->PFH\nHWL->PFH\nETQ->PFH\nPFH->HWL\nLSR->PFH\nWBR->PFH\nBNZ->PFH\nHQR->PFH\nZTO->PFH\nPFH->WBR\nPFH->BYJ\nRXO->PFH\nFHZ->PFH\nFHZ->PFH\nPFN->PFH\nPFH->GMB\nPFH->JFV\nJFV->PFH\nGNZ->PFH\nPFH->BNZ\nPFH->GNZ\nPFH->HQR\nBYJ->PFH\nGMB->PFH\nPFH->FHZ\nPFH->FHZ\nPFH->ZTO\nPFH->UGD\nBVP->PFH\nUGD->PFH\nPFH->PFN\nPFH->OBB", "output": "home" }, { "input": "1\nAAK\nAAK->ABA", "output": "contest" }, { "input": "1\nXYZ\nXYZ->XYR", "output": "contest" } ]	1,617,215,246	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	61	0	n = int(input()) home = input() while n!=0: s = input() n-=1 if n%2: print("contest") else: print("home")	Title: Neverending competitions Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are literally dozens of snooker competitions held each year, and team Jinotega tries to attend them all (for some reason they prefer name "snookah")! When a competition takes place somewhere far from their hometown, Ivan, Artsem and Konstantin take a flight to the contest and back. Jinotega's best friends, team Base have found a list of their itinerary receipts with information about departure and arrival airports. Now they wonder, where is Jinotega now: at home or at some competition far away? They know that: - this list contains all Jinotega's flights in this year (in arbitrary order), - Jinotega has only flown from his hometown to a snooker contest and back, - after each competition Jinotega flies back home (though they may attend a competition in one place several times), - and finally, at the beginning of the year Jinotega was at home. Please help them to determine Jinotega's location! Input Specification: In the first line of input there is a single integer n: the number of Jinotega's flights (1<=≤<=n<=≤<=100). In the second line there is a string of 3 capital Latin letters: the name of Jinotega's home airport. In the next n lines there is flight information, one flight per line, in form "XXX->YYY", where "XXX" is the name of departure airport "YYY" is the name of arrival airport. Exactly one of these airports is Jinotega's home airport. It is guaranteed that flights information is consistent with the knowledge of Jinotega's friends, which is described in the main part of the statement. Output Specification: If Jinotega is now at home, print "home" (without quotes), otherwise print "contest". Demo Input: ['4\nSVO\nSVO->CDG\nLHR->SVO\nSVO->LHR\nCDG->SVO\n', '3\nSVO\nSVO->HKT\nHKT->SVO\nSVO->RAP\n'] Demo Output: ['home\n', 'contest\n'] Note: In the first sample Jinotega might first fly from SVO to CDG and back, and then from SVO to LHR and back, so now they should be at home. In the second sample Jinotega must now be at RAP because a flight from RAP back to SVO is not on the list.	```python n = int(input()) home = input() while n!=0: s = input() n-=1 if n%2: print("contest") else: print("home") ```	0
514	A	Chewbaсca and Number	PROGRAMMING	1,200	[ "greedy", "implementation" ]		null	null	Luke Skywalker gave Chewbacca an integer number x. Chewbacca isn't good at numbers but he loves inverting digits in them. Inverting digit t means replacing it with digit 9<=-<=t. Help Chewbacca to transform the initial number x to the minimum possible positive number by inverting some (possibly, zero) digits. The decimal representation of the final number shouldn't start with a zero.	The first line contains a single integer x (1<=≤<=x<=≤<=1018) — the number that Luke Skywalker gave to Chewbacca.	Print the minimum possible positive number that Chewbacca can obtain after inverting some digits. The number shouldn't contain leading zeroes.	[ "27\n", "4545\n" ]	[ "22\n", "4444\n" ]	none	500	[ { "input": "27", "output": "22" }, { "input": "4545", "output": "4444" }, { "input": "1", "output": "1" }, { "input": "9", "output": "9" }, { "input": "8772", "output": "1222" }, { "input": "81", "output": "11" }, { "input": "71723447", "output": "21223442" }, { "input": "91730629", "output": "91230320" }, { "input": "420062703497", "output": "420032203402" }, { "input": "332711047202", "output": "332211042202" }, { "input": "3395184971407775", "output": "3304114021402224" }, { "input": "8464062628894325", "output": "1434032321104324" }, { "input": "164324828731963982", "output": "134324121231033012" }, { "input": "384979173822804784", "output": "314020123122104214" }, { "input": "41312150450968417", "output": "41312140440031412" }, { "input": "2156", "output": "2143" }, { "input": "1932", "output": "1032" }, { "input": "5902", "output": "4002" }, { "input": "5728", "output": "4221" }, { "input": "8537", "output": "1432" }, { "input": "55403857", "output": "44403142" }, { "input": "270739", "output": "220230" }, { "input": "28746918", "output": "21243011" }, { "input": "10279211", "output": "10220211" }, { "input": "40289679", "output": "40210320" }, { "input": "545203238506", "output": "444203231403" }, { "input": "461117063340", "output": "431112033340" }, { "input": "658492686568", "output": "341402313431" }, { "input": "857373361868", "output": "142323331131" }, { "input": "429325660016", "output": "420324330013" }, { "input": "9894448650287940", "output": "9104441340212040" }, { "input": "6354510839296263", "output": "3344410130203233" }, { "input": "6873575462224593", "output": "3123424432224403" }, { "input": "4237951492601449", "output": "4232041402301440" }, { "input": "2680352384836991", "output": "2310342314133001" }, { "input": "606187734191890310", "output": "303112234101100310" }, { "input": "351499943576823355", "output": "341400043423123344" }, { "input": "180593481782177068", "output": "110403411212122031" }, { "input": "999999999999999999", "output": "900000000000000000" }, { "input": "1000000000000000000", "output": "1000000000000000000" }, { "input": "9999", "output": "9000" }, { "input": "99", "output": "90" }, { "input": "9991", "output": "9001" } ]	1,692,711,132	2,147,483,647	Python 3	OK	TESTS	43	46	0	n = int(input()) digits = [] while n > 0: digits.append(n%10) n = n // 10 digits.reverse() for i in range(len(digits)): if digits[i] > 4: digits[i] = 9 - digits[i] digits = [str(x) for x in digits] if digits[0] == '0': digits[0] = '9' print(int("".join(digits)))	Title: Chewbaсca and Number Time Limit: None seconds Memory Limit: None megabytes Problem Description: Luke Skywalker gave Chewbacca an integer number x. Chewbacca isn't good at numbers but he loves inverting digits in them. Inverting digit t means replacing it with digit 9<=-<=t. Help Chewbacca to transform the initial number x to the minimum possible positive number by inverting some (possibly, zero) digits. The decimal representation of the final number shouldn't start with a zero. Input Specification: The first line contains a single integer x (1<=≤<=x<=≤<=1018) — the number that Luke Skywalker gave to Chewbacca. Output Specification: Print the minimum possible positive number that Chewbacca can obtain after inverting some digits. The number shouldn't contain leading zeroes. Demo Input: ['27\n', '4545\n'] Demo Output: ['22\n', '4444\n'] Note: none	```python n = int(input()) digits = [] while n > 0: digits.append(n%10) n = n // 10 digits.reverse() for i in range(len(digits)): if digits[i] > 4: digits[i] = 9 - digits[i] digits = [str(x) for x in digits] if digits[0] == '0': digits[0] = '9' print(int("".join(digits))) ```	3
224	A	Parallelepiped	PROGRAMMING	1,100	[ "brute force", "geometry", "math" ]		null	null	You've got a rectangular parallelepiped with integer edge lengths. You know the areas of its three faces that have a common vertex. Your task is to find the sum of lengths of all 12 edges of this parallelepiped.	The first and the single line contains three space-separated integers — the areas of the parallelepiped's faces. The area's values are positive (<=><=0) and do not exceed 104. It is guaranteed that there exists at least one parallelepiped that satisfies the problem statement.	Print a single number — the sum of all edges of the parallelepiped.	[ "1 1 1\n", "4 6 6\n" ]	[ "12\n", "28\n" ]	In the first sample the parallelepiped has sizes 1 × 1 × 1, in the second one — 2 × 2 × 3.	500	[ { "input": "1 1 1", "output": "12" }, { "input": "4 6 6", "output": "28" }, { "input": "20 10 50", "output": "68" }, { "input": "9 4 36", "output": "56" }, { "input": "324 9 36", "output": "184" }, { "input": "1333 93 129", "output": "308" }, { "input": "1022 584 112", "output": "380" }, { "input": "66 174 319", "output": "184" }, { "input": "912 276 1748", "output": "444" }, { "input": "65 156 60", "output": "120" }, { "input": "1 10000 10000", "output": "40008" }, { "input": "1485 55 27", "output": "332" }, { "input": "152 108 4104", "output": "528" }, { "input": "1656 6900 1350", "output": "740" }, { "input": "12 14 42", "output": "60" }, { "input": "615 18 1230", "output": "856" }, { "input": "680 60 408", "output": "336" }, { "input": "644 966 6", "output": "1308" }, { "input": "1 432 432", "output": "1736" }, { "input": "2239 2239 1", "output": "8964" }, { "input": "4106 8212 2", "output": "16436" }, { "input": "10000 10000 10000", "output": "1200" }, { "input": "3623 3623 1", "output": "14500" }, { "input": "9801 9801 9801", "output": "1188" }, { "input": "10000 1 10000", "output": "40008" }, { "input": "9 9 9", "output": "36" }, { "input": "9801 9702 9702", "output": "1184" } ]	1,631,743,058	2,147,483,647	PyPy 3	OK	TESTS	27	218	20,172,800	from math import sqrt arr=list(map(int,input().split())) h=sqrt((arr[1]arr[2])/arr[0]) b=arr[1]/h l=arr[2]/h print(int(4(l+b+h)))	Title: Parallelepiped Time Limit: None seconds Memory Limit: None megabytes Problem Description: You've got a rectangular parallelepiped with integer edge lengths. You know the areas of its three faces that have a common vertex. Your task is to find the sum of lengths of all 12 edges of this parallelepiped. Input Specification: The first and the single line contains three space-separated integers — the areas of the parallelepiped's faces. The area's values are positive (<=><=0) and do not exceed 104. It is guaranteed that there exists at least one parallelepiped that satisfies the problem statement. Output Specification: Print a single number — the sum of all edges of the parallelepiped. Demo Input: ['1 1 1\n', '4 6 6\n'] Demo Output: ['12\n', '28\n'] Note: In the first sample the parallelepiped has sizes 1 × 1 × 1, in the second one — 2 × 2 × 3.	```python from math import sqrt arr=list(map(int,input().split())) h=sqrt((arr[1]arr[2])/arr[0]) b=arr[1]/h l=arr[2]/h print(int(4(l+b+h))) ```	3
839	C	Journey	PROGRAMMING	1,500	[ "dfs and similar", "dp", "graphs", "probabilities", "trees" ]		null	null	There are n cities and n<=-<=1 roads in the Seven Kingdoms, each road connects two cities and we can reach any city from any other by the roads. Theon and Yara Greyjoy are on a horse in the first city, they are starting traveling through the roads. But the weather is foggy, so they can’t see where the horse brings them. When the horse reaches a city (including the first one), it goes to one of the cities connected to the current city. But it is a strange horse, it only goes to cities in which they weren't before. In each such city, the horse goes with equal probabilities and it stops when there are no such cities. Let the length of each road be 1. The journey starts in the city 1. What is the expected length (expected value of length) of their journey? You can read about expected (average) value by the link [https://en.wikipedia.org/wiki/Expected_value](https://en.wikipedia.org/wiki/Expected_value).	The first line contains a single integer n (1<=≤<=n<=≤<=100000) — number of cities. Then n<=-<=1 lines follow. The i-th line of these lines contains two integers ui and vi (1<=≤<=ui,<=vi<=≤<=n, ui<=≠<=vi) — the cities connected by the i-th road. It is guaranteed that one can reach any city from any other by the roads.	Print a number — the expected length of their journey. The journey starts in the city 1. Your answer will be considered correct if its absolute or relative error does not exceed 10<=-<=6. Namely: let's assume that your answer is a, and the answer of the jury is b. The checker program will consider your answer correct, if .	[ "4\n1 2\n1 3\n2 4\n", "5\n1 2\n1 3\n3 4\n2 5\n" ]	[ "1.500000000000000\n", "2.000000000000000\n" ]	In the first sample, their journey may end in cities 3 or 4 with equal probability. The distance to city 3 is 1 and to city 4 is 2, so the expected length is 1.5. In the second sample, their journey may end in city 4 or 5. The distance to the both cities is 2, so the expected length is 2.	1,500	[ { "input": "4\n1 2\n1 3\n2 4", "output": "1.500000000000000" }, { "input": "5\n1 2\n1 3\n3 4\n2 5", "output": "2.000000000000000" }, { "input": "70\n1 25\n57 1\n18 1\n65 1\n38 1\n1 41\n1 5\n1 69\n1 3\n31 1\n1 8\n1 9\n53 1\n70 1\n45 1\n1 24\n1 42\n1 30\n1 12\n1 37\n64 1\n1 28\n1 58\n1 22\n11 1\n1 4\n1 27\n1 16\n1 21\n54 1\n1 51\n1 43\n29 1\n56 1\n1 39\n32 1\n1 15\n1 17\n1 19\n1 40\n36 1\n48 1\n63 1\n1 7\n1 47\n1 13\n1 46\n60 1\n1 6\n23 1\n20 1\n1 52\n2 1\n26 1\n1 59\n1 66\n10 1\n1 62\n1 68\n1 55\n50 1\n33 1\n44 1\n1 34\n1 35\n1 61\n14 1\n67 1\n49 1", "output": "1.000000000000000" }, { "input": "10\n8 6\n9 10\n8 7\n1 4\n1 8\n9 5\n9 8\n2 5\n3 1", "output": "1.500000000000000" }, { "input": "1", "output": "0.000000000000000" } ]	1,674,048,621	2,147,483,647	Python 3	OK	TESTS	40	451	185,548,800	from collections import Counter, defaultdict import threading # for long inputs import sys def input(): return sys.stdin.readline().rstrip("\r\n") # for recursion def main(): n = int(input()) tree = defaultdict(list) for _ in range(n-1): u, v = map(int, input().split()) tree[u].append(v) tree[v].append(u) leaf_node_height = [] def dfs(node, parent): leaf = True total = 0 for kid in tree[node]: if kid != parent: leaf = False res = dfs(kid, node) total += res if leaf: # print("here leaf", node) return 0 elif node != 1: # print("here normal", node) return (total / (len(tree[node]) - 1)) + 1 else: # print("here root", node) return (total / len(tree[node])) + 1 print(dfs(1, -1)) if __name__ == '__main__': sys.setrecursionlimit(1 << 30) threading.stack_size(1 << 27) main_thread = threading.Thread(target=main) main_thread.start() main_thread.join()	Title: Journey Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are n cities and n<=-<=1 roads in the Seven Kingdoms, each road connects two cities and we can reach any city from any other by the roads. Theon and Yara Greyjoy are on a horse in the first city, they are starting traveling through the roads. But the weather is foggy, so they can’t see where the horse brings them. When the horse reaches a city (including the first one), it goes to one of the cities connected to the current city. But it is a strange horse, it only goes to cities in which they weren't before. In each such city, the horse goes with equal probabilities and it stops when there are no such cities. Let the length of each road be 1. The journey starts in the city 1. What is the expected length (expected value of length) of their journey? You can read about expected (average) value by the link [https://en.wikipedia.org/wiki/Expected_value](https://en.wikipedia.org/wiki/Expected_value). Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=100000) — number of cities. Then n<=-<=1 lines follow. The i-th line of these lines contains two integers ui and vi (1<=≤<=ui,<=vi<=≤<=n, ui<=≠<=vi) — the cities connected by the i-th road. It is guaranteed that one can reach any city from any other by the roads. Output Specification: Print a number — the expected length of their journey. The journey starts in the city 1. Your answer will be considered correct if its absolute or relative error does not exceed 10<=-<=6. Namely: let's assume that your answer is a, and the answer of the jury is b. The checker program will consider your answer correct, if . Demo Input: ['4\n1 2\n1 3\n2 4\n', '5\n1 2\n1 3\n3 4\n2 5\n'] Demo Output: ['1.500000000000000\n', '2.000000000000000\n'] Note: In the first sample, their journey may end in cities 3 or 4 with equal probability. The distance to city 3 is 1 and to city 4 is 2, so the expected length is 1.5. In the second sample, their journey may end in city 4 or 5. The distance to the both cities is 2, so the expected length is 2.	```python from collections import Counter, defaultdict import threading # for long inputs import sys def input(): return sys.stdin.readline().rstrip("\r\n") # for recursion def main(): n = int(input()) tree = defaultdict(list) for _ in range(n-1): u, v = map(int, input().split()) tree[u].append(v) tree[v].append(u) leaf_node_height = [] def dfs(node, parent): leaf = True total = 0 for kid in tree[node]: if kid != parent: leaf = False res = dfs(kid, node) total += res if leaf: # print("here leaf", node) return 0 elif node != 1: # print("here normal", node) return (total / (len(tree[node]) - 1)) + 1 else: # print("here root", node) return (total / len(tree[node])) + 1 print(dfs(1, -1)) if __name__ == '__main__': sys.setrecursionlimit(1 << 30) threading.stack_size(1 << 27) main_thread = threading.Thread(target=main) main_thread.start() main_thread.join() ```	3
467	A	George and Accommodation	PROGRAMMING	800	[ "implementation" ]		null	null	George has recently entered the BSUCP (Berland State University for Cool Programmers). George has a friend Alex who has also entered the university. Now they are moving into a dormitory. George and Alex want to live in the same room. The dormitory has n rooms in total. At the moment the i-th room has pi people living in it and the room can accommodate qi people in total (pi<=≤<=qi). Your task is to count how many rooms has free place for both George and Alex.	The first line contains a single integer n (1<=≤<=n<=≤<=100) — the number of rooms. The i-th of the next n lines contains two integers pi and qi (0<=≤<=pi<=≤<=qi<=≤<=100) — the number of people who already live in the i-th room and the room's capacity.	Print a single integer — the number of rooms where George and Alex can move in.	[ "3\n1 1\n2 2\n3 3\n", "3\n1 10\n0 10\n10 10\n" ]	[ "0\n", "2\n" ]	none	500	[ { "input": "3\n1 1\n2 2\n3 3", "output": "0" }, { "input": "3\n1 10\n0 10\n10 10", "output": "2" }, { "input": "2\n36 67\n61 69", "output": "2" }, { "input": "3\n21 71\n10 88\n43 62", "output": "3" }, { "input": "3\n1 2\n2 3\n3 4", "output": "0" }, { "input": "10\n0 10\n0 20\n0 30\n0 40\n0 50\n0 60\n0 70\n0 80\n0 90\n0 100", "output": "10" }, { "input": "13\n14 16\n30 31\n45 46\n19 20\n15 17\n66 67\n75 76\n95 97\n29 30\n37 38\n0 2\n36 37\n8 9", "output": "4" }, { "input": "19\n66 67\n97 98\n89 91\n67 69\n67 68\n18 20\n72 74\n28 30\n91 92\n27 28\n75 77\n17 18\n74 75\n28 30\n16 18\n90 92\n9 11\n22 24\n52 54", "output": "12" }, { "input": "15\n55 57\n95 97\n57 59\n34 36\n50 52\n96 98\n39 40\n13 15\n13 14\n74 76\n47 48\n56 58\n24 25\n11 13\n67 68", "output": "10" }, { "input": "17\n68 69\n47 48\n30 31\n52 54\n41 43\n33 35\n38 40\n56 58\n45 46\n92 93\n73 74\n61 63\n65 66\n37 39\n67 68\n77 78\n28 30", "output": "8" }, { "input": "14\n64 66\n43 44\n10 12\n76 77\n11 12\n25 27\n87 88\n62 64\n39 41\n58 60\n10 11\n28 29\n57 58\n12 14", "output": "7" }, { "input": "38\n74 76\n52 54\n78 80\n48 49\n40 41\n64 65\n28 30\n6 8\n49 51\n68 70\n44 45\n57 59\n24 25\n46 48\n49 51\n4 6\n63 64\n76 78\n57 59\n18 20\n63 64\n71 73\n88 90\n21 22\n89 90\n65 66\n89 91\n96 98\n42 44\n1 1\n74 76\n72 74\n39 40\n75 76\n29 30\n48 49\n87 89\n27 28", "output": "22" }, { "input": "100\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0\n0 0", "output": "0" }, { "input": "26\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2\n1 2", "output": "0" }, { "input": "68\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2\n0 2", "output": "68" }, { "input": "7\n0 1\n1 5\n2 4\n3 5\n4 6\n5 6\n6 8", "output": "5" }, { "input": "1\n0 0", "output": "0" }, { "input": "1\n100 100", "output": "0" }, { "input": "44\n0 8\n1 11\n2 19\n3 5\n4 29\n5 45\n6 6\n7 40\n8 19\n9 22\n10 18\n11 26\n12 46\n13 13\n14 27\n15 48\n16 25\n17 20\n18 29\n19 27\n20 45\n21 39\n22 29\n23 39\n24 42\n25 37\n26 52\n27 36\n28 43\n29 35\n30 38\n31 70\n32 47\n33 38\n34 61\n35 71\n36 51\n37 71\n38 59\n39 77\n40 70\n41 80\n42 77\n43 73", "output": "42" }, { "input": "3\n1 3\n2 7\n8 9", "output": "2" }, { "input": "53\n0 1\n1 2\n2 3\n3 4\n4 5\n5 6\n6 7\n7 8\n8 9\n9 10\n10 11\n11 12\n12 13\n13 14\n14 15\n15 16\n16 17\n17 18\n18 19\n19 20\n20 21\n21 22\n22 23\n23 24\n24 25\n25 26\n26 27\n27 28\n28 29\n29 30\n30 31\n31 32\n32 33\n33 34\n34 35\n35 36\n36 37\n37 38\n38 39\n39 40\n40 41\n41 42\n42 43\n43 44\n44 45\n45 46\n46 47\n47 48\n48 49\n49 50\n50 51\n51 52\n52 53", "output": "0" }, { "input": "55\n0 0\n1 1\n2 2\n3 3\n4 4\n5 5\n6 6\n7 7\n8 8\n9 9\n10 10\n11 11\n12 12\n13 13\n14 14\n15 15\n16 16\n17 17\n18 18\n19 19\n20 20\n21 21\n22 22\n23 23\n24 24\n25 25\n26 26\n27 27\n28 28\n29 29\n30 30\n31 31\n32 32\n33 33\n34 34\n35 35\n36 36\n37 37\n38 38\n39 39\n40 40\n41 41\n42 42\n43 43\n44 44\n45 45\n46 46\n47 47\n48 48\n49 49\n50 50\n51 51\n52 52\n53 53\n54 54", "output": "0" }, { "input": "51\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 62\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 73\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 82\n55 68\n55 70\n55 63\n55 55\n55 55\n55 55\n55 75\n55 75\n55 55\n55 55\n55 55\n55 55\n55 55\n55 55\n55 73\n55 55\n55 82\n55 99\n55 60", "output": "12" }, { "input": "14\n1 1\n1 1\n1 55\n1 16\n1 1\n1 1\n1 55\n1 62\n1 53\n1 26\n1 1\n1 36\n1 2\n1 3", "output": "8" } ]	1,688,709,854	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	4	30	0	n = int(input()) result = 0 while n>0: a,b = input().split() if int(b)-int(a) > 0: result += 1 n-=1 print(result)	Title: George and Accommodation Time Limit: None seconds Memory Limit: None megabytes Problem Description: George has recently entered the BSUCP (Berland State University for Cool Programmers). George has a friend Alex who has also entered the university. Now they are moving into a dormitory. George and Alex want to live in the same room. The dormitory has n rooms in total. At the moment the i-th room has pi people living in it and the room can accommodate qi people in total (pi<=≤<=qi). Your task is to count how many rooms has free place for both George and Alex. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=100) — the number of rooms. The i-th of the next n lines contains two integers pi and qi (0<=≤<=pi<=≤<=qi<=≤<=100) — the number of people who already live in the i-th room and the room's capacity. Output Specification: Print a single integer — the number of rooms where George and Alex can move in. Demo Input: ['3\n1 1\n2 2\n3 3\n', '3\n1 10\n0 10\n10 10\n'] Demo Output: ['0\n', '2\n'] Note: none	```python n = int(input()) result = 0 while n>0: a,b = input().split() if int(b)-int(a) > 0: result += 1 n-=1 print(result) ```	0
479	A	Expression	PROGRAMMING	1,000	[ "brute force", "math" ]		null	null	Petya studies in a school and he adores Maths. His class has been studying arithmetic expressions. On the last class the teacher wrote three positive integers a, b, c on the blackboard. The task was to insert signs of operations '+' and '', and probably brackets between the numbers so that the value of the resulting expression is as large as possible. Let's consider an example: assume that the teacher wrote numbers 1, 2 and 3 on the blackboard. Here are some ways of placing signs and brackets: - 1+23=7 - 1(2+3)=5 - 123=6 - (1+2)3=9 Note that you can insert operation signs only between a and b, and between b and c, that is, you cannot swap integers. For instance, in the given sample you cannot get expression (1+3)2. It's easy to see that the maximum value that you can obtain is 9. Your task is: given a, b* and c print the maximum value that you can get.	The input contains three integers a, b and c, each on a single line (1<=≤<=a,<=b,<=c<=≤<=10).	Print the maximum value of the expression that you can obtain.	[ "1\n2\n3\n", "2\n10\n3\n" ]	[ "9\n", "60\n" ]	none	500	[ { "input": "1\n2\n3", "output": "9" }, { "input": "2\n10\n3", "output": "60" }, { "input": "1\n1\n1", "output": "3" }, { "input": "1\n2\n1", "output": "4" }, { "input": "10\n10\n10", "output": "1000" }, { "input": "5\n1\n3", "output": "20" }, { "input": "3\n1\n5", "output": "20" }, { "input": "6\n7\n1", "output": "48" }, { "input": "1\n8\n3", "output": "27" }, { "input": "9\n7\n2", "output": "126" }, { "input": "1\n1\n10", "output": "20" }, { "input": "9\n1\n1", "output": "18" }, { "input": "10\n5\n6", "output": "300" }, { "input": "8\n9\n7", "output": "504" }, { "input": "4\n2\n10", "output": "80" }, { "input": "2\n8\n3", "output": "48" }, { "input": "3\n5\n7", "output": "105" }, { "input": "1\n10\n1", "output": "12" }, { "input": "2\n2\n2", "output": "8" }, { "input": "5\n6\n1", "output": "35" }, { "input": "10\n1\n1", "output": "20" }, { "input": "1\n6\n1", "output": "8" }, { "input": "1\n9\n1", "output": "11" }, { "input": "2\n1\n2", "output": "6" }, { "input": "2\n6\n1", "output": "14" }, { "input": "9\n2\n1", "output": "27" }, { "input": "1\n9\n2", "output": "20" }, { "input": "1\n3\n1", "output": "5" }, { "input": "2\n1\n1", "output": "4" } ]	1,689,619,632	2,147,483,647	Python 3	OK	TESTS	29	46	0	a = int(input()) b = int(input()) c = int(input()) x1 = a+bc x2 = a(b+c) x3 = abc x4 = (a+b)c x5 = a+b+c x6 = a+bc print(max(x1, x2, x3, x4, x5, x6))	Title: Expression Time Limit: None seconds Memory Limit: None megabytes Problem Description: Petya studies in a school and he adores Maths. His class has been studying arithmetic expressions. On the last class the teacher wrote three positive integers a, b, c on the blackboard. The task was to insert signs of operations '+' and '', and probably brackets between the numbers so that the value of the resulting expression is as large as possible. Let's consider an example: assume that the teacher wrote numbers 1, 2 and 3 on the blackboard. Here are some ways of placing signs and brackets: - 1+23=7 - 1(2+3)=5 - 123=6 - (1+2)3=9 Note that you can insert operation signs only between a and b, and between b and c, that is, you cannot swap integers. For instance, in the given sample you cannot get expression (1+3)2. It's easy to see that the maximum value that you can obtain is 9. Your task is: given a, b* and c print the maximum value that you can get. Input Specification: The input contains three integers a, b and c, each on a single line (1<=≤<=a,<=b,<=c<=≤<=10). Output Specification: Print the maximum value of the expression that you can obtain. Demo Input: ['1\n2\n3\n', '2\n10\n3\n'] Demo Output: ['9\n', '60\n'] Note: none	```python a = int(input()) b = int(input()) c = int(input()) x1 = a+bc x2 = a(b+c) x3 = abc x4 = (a+b)c x5 = a+b+c x6 = a+bc print(max(x1, x2, x3, x4, x5, x6)) ```	3
622	F	The Sum of the k-th Powers	PROGRAMMING	2,600	[ "math" ]		null	null	There are well-known formulas: , , . Also mathematicians found similar formulas for higher degrees. Find the value of the sum modulo 109<=+<=7 (so you should find the remainder after dividing the answer by the value 109<=+<=7).	The only line contains two integers n,<=k (1<=≤<=n<=≤<=109,<=0<=≤<=k<=≤<=106).	Print the only integer a — the remainder after dividing the value of the sum by the value 109<=+<=7.	[ "4 1\n", "4 2\n", "4 3\n", "4 0\n" ]	[ "10\n", "30\n", "100\n", "4\n" ]	none	0	[ { "input": "4 1", "output": "10" }, { "input": "4 2", "output": "30" }, { "input": "4 3", "output": "100" }, { "input": "4 0", "output": "4" }, { "input": "10 0", "output": "10" }, { "input": "1 1", "output": "1" }, { "input": "1 0", "output": "1" }, { "input": "1 1000000", "output": "1" }, { "input": "1000000000 0", "output": "1000000000" }, { "input": "100 100", "output": "568830579" }, { "input": "10000 100", "output": "352711099" }, { "input": "100 10000", "output": "859998022" }, { "input": "1000000000 1000000", "output": "617381606" }, { "input": "1000000 1000000", "output": "997878755" }, { "input": "999999 1000000", "output": "504760730" }, { "input": "77674473 447444", "output": "838207299" }, { "input": "333312494 795258", "output": "393290476" }, { "input": "761637147 673329", "output": "223778667" }, { "input": "335185991 514401", "output": "412595240" }, { "input": "203702132 355473", "output": "229710810" }, { "input": "1000000000 999935", "output": "729344740" } ]	1,678,163,343	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	451	12,390,400	mod = int(1000 * 1000 * 1000 + 7) c = [] def Powerx(n, k): if k == 1: return n % mod tmp = Powerx(n, int(k / 2)) if k % 2 == 0: return (tmp % mod * tmp % mod) % mod return (((tmp % mod * tmp % mod) % mod) * (n % mod)) % mod def init(): for i in range (1005): d = [] for j in range (i + 1): d.append(0) c.append(d) for i in range(1005): for j in range (i + 1): if j == 0 or i == j: c[i][j] = 1 else: c[i][j] = c[i - 1][j - 1] % mod + c[i - 1][j] % mod c[i][j] %= mod def Load(n, k): if k == 0: return n % mod dp = [0] * 1005 dp[0] = n % mod n %= mod tmp = n + 1 for i in range (1, k + 1): tmp = (tmp * (n + 1) % mod) % mod dp[i] = (tmp - 1 + mod) % mod sum = 0; for j in range (i): sum = (sum % mod + (dp[j] % mod * c[i + 1][i - j + 1] % mod) % mod) % mod sum %= mod; dp[i] = (dp[i] + mod - sum) % mod dp[i] = dp[i] * Powerx(i + 1, mod - 2) % mod dp[i] %= mod return dp[k] init() t = int(input()) while t > 0: t -= 1 n, k = map(int, input().split()) res = Load(n, k) print(res)	Title: The Sum of the k-th Powers Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are well-known formulas: , , . Also mathematicians found similar formulas for higher degrees. Find the value of the sum modulo 109<=+<=7 (so you should find the remainder after dividing the answer by the value 109<=+<=7). Input Specification: The only line contains two integers n,<=k (1<=≤<=n<=≤<=109,<=0<=≤<=k<=≤<=106). Output Specification: Print the only integer a — the remainder after dividing the value of the sum by the value 109<=+<=7. Demo Input: ['4 1\n', '4 2\n', '4 3\n', '4 0\n'] Demo Output: ['10\n', '30\n', '100\n', '4\n'] Note: none	```python mod = int(1000 * 1000 * 1000 + 7) c = [] def Powerx(n, k): if k == 1: return n % mod tmp = Powerx(n, int(k / 2)) if k % 2 == 0: return (tmp % mod * tmp % mod) % mod return (((tmp % mod * tmp % mod) % mod) * (n % mod)) % mod def init(): for i in range (1005): d = [] for j in range (i + 1): d.append(0) c.append(d) for i in range(1005): for j in range (i + 1): if j == 0 or i == j: c[i][j] = 1 else: c[i][j] = c[i - 1][j - 1] % mod + c[i - 1][j] % mod c[i][j] %= mod def Load(n, k): if k == 0: return n % mod dp = [0] * 1005 dp[0] = n % mod n %= mod tmp = n + 1 for i in range (1, k + 1): tmp = (tmp * (n + 1) % mod) % mod dp[i] = (tmp - 1 + mod) % mod sum = 0; for j in range (i): sum = (sum % mod + (dp[j] % mod * c[i + 1][i - j + 1] % mod) % mod) % mod sum %= mod; dp[i] = (dp[i] + mod - sum) % mod dp[i] = dp[i] * Powerx(i + 1, mod - 2) % mod dp[i] %= mod return dp[k] init() t = int(input()) while t > 0: t -= 1 n, k = map(int, input().split()) res = Load(n, k) print(res) ```	-1
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": "2" }, { "input": "4\n75 13 94 77", "output": "3" }, { "input": "4\n97 8 27 3", "output": "2" }, { "input": "10\n95 51 12 91 85 3 1 31 25 7", "output": "3" }, { "input": "20\n88 96 66 51 14 88 2 92 18 72 18 88 20 30 4 82 90 100 24 46", "output": "4" }, { "input": "30\n20 94 56 50 10 98 52 32 14 22 24 60 4 8 98 46 34 68 82 82 98 90 50 20 78 49 52 94 64 36", "output": "26" }, { "input": "50\n79 27 77 57 37 45 27 49 65 33 57 21 71 19 75 85 65 61 23 97 85 9 23 1 9 3 99 77 77 21 79 69 15 37 15 7 93 81 13 89 91 31 45 93 15 97 55 80 85 83", "output": "48" }, { "input": "60\n46 11 73 65 3 69 3 53 43 53 97 47 55 93 31 75 35 3 9 73 23 31 3 81 91 79 61 21 15 11 11 11 81 7 83 75 39 87 83 59 89 55 93 27 49 67 67 29 1 93 11 17 9 19 35 21 63 31 31 25", "output": "1" }, { "input": "70\n28 42 42 92 64 54 22 38 38 78 62 38 4 38 14 66 4 92 66 58 94 26 4 44 41 88 48 82 44 26 74 44 48 4 16 92 34 38 26 64 94 4 30 78 50 54 12 90 8 16 80 98 28 100 74 50 36 42 92 18 76 98 8 22 2 50 58 50 64 46", "output": "25" }, { "input": "100\n43 35 79 53 13 91 91 45 65 83 57 9 42 39 85 45 71 51 61 59 31 13 63 39 25 21 79 39 91 67 21 61 97 75 93 83 29 79 59 97 11 37 63 51 39 55 91 23 21 17 47 23 35 75 49 5 69 99 5 7 41 17 25 89 15 79 21 63 53 81 43 91 59 91 69 99 85 15 91 51 49 37 65 7 89 81 21 93 61 63 97 93 45 17 13 69 57 25 75 73", "output": "13" }, { "input": "100\n50 24 68 60 70 30 52 22 18 74 68 98 20 82 4 46 26 68 100 78 84 58 74 98 38 88 68 86 64 80 82 100 20 22 98 98 52 6 94 10 48 68 2 18 38 22 22 82 44 20 66 72 36 58 64 6 36 60 4 96 76 64 12 90 10 58 64 60 74 28 90 26 24 60 40 58 2 16 76 48 58 36 82 60 24 44 4 78 28 38 8 12 40 16 38 6 66 24 31 76", "output": "99" }, { "input": "100\n47 48 94 48 14 18 94 36 96 22 12 30 94 20 48 98 40 58 2 94 8 36 98 18 98 68 2 60 76 38 18 100 8 72 100 68 2 86 92 72 58 16 48 14 6 58 72 76 6 88 80 66 20 28 74 62 86 68 90 86 2 56 34 38 56 90 4 8 76 44 32 86 12 98 38 34 54 92 70 94 10 24 82 66 90 58 62 2 32 58 100 22 58 72 2 22 68 72 42 14", "output": "1" }, { "input": "99\n38 20 68 60 84 16 28 88 60 48 80 28 4 92 70 60 46 46 20 34 12 100 76 2 40 10 8 86 6 80 50 66 12 34 14 28 26 70 46 64 34 96 10 90 98 96 56 88 50 74 70 94 2 94 24 66 68 46 22 30 6 10 64 32 88 14 98 100 64 58 50 18 50 50 8 38 8 16 54 2 60 54 62 84 92 98 4 72 66 26 14 88 99 16 10 6 88 56 22", "output": "93" }, { "input": "99\n50 83 43 89 53 47 69 1 5 37 63 87 95 15 55 95 75 89 33 53 89 75 93 75 11 85 49 29 11 97 49 67 87 11 25 37 97 73 67 49 87 43 53 97 43 29 53 33 45 91 37 73 39 49 59 5 21 43 87 35 5 63 89 57 63 47 29 99 19 85 13 13 3 13 43 19 5 9 61 51 51 57 15 89 13 97 41 13 99 79 13 27 97 95 73 33 99 27 23", "output": "1" }, { "input": "98\n61 56 44 30 58 14 20 24 88 28 46 56 96 52 58 42 94 50 46 30 46 80 72 88 68 16 6 60 26 90 10 98 76 20 56 40 30 16 96 20 88 32 62 30 74 58 36 76 60 4 24 36 42 54 24 92 28 14 2 74 86 90 14 52 34 82 40 76 8 64 2 56 10 8 78 16 70 86 70 42 70 74 22 18 76 98 88 28 62 70 36 72 20 68 34 48 80 98", "output": "1" }, { "input": "98\n66 26 46 42 78 32 76 42 26 82 8 12 4 10 24 26 64 44 100 46 94 64 30 18 88 28 8 66 30 82 82 28 74 52 62 80 80 60 94 86 64 32 44 88 92 20 12 74 94 28 34 58 4 22 16 10 94 76 82 58 40 66 22 6 30 32 92 54 16 76 74 98 18 48 48 30 92 2 16 42 84 74 30 60 64 52 50 26 16 86 58 96 79 60 20 62 82 94", "output": "93" }, { "input": "95\n9 31 27 93 17 77 75 9 9 53 89 39 51 99 5 1 11 39 27 49 91 17 27 79 81 71 37 75 35 13 93 4 99 55 85 11 23 57 5 43 5 61 15 35 23 91 3 81 99 85 43 37 39 27 5 67 7 33 75 59 13 71 51 27 15 93 51 63 91 53 43 99 25 47 17 71 81 15 53 31 59 83 41 23 73 25 91 91 13 17 25 13 55 57 29", "output": "32" }, { "input": "100\n91 89 81 45 53 1 41 3 77 93 55 97 55 97 87 27 69 95 73 41 93 21 75 35 53 56 5 51 87 59 91 67 33 3 99 45 83 17 97 47 75 97 7 89 17 99 23 23 81 25 55 97 27 35 69 5 77 35 93 19 55 59 37 21 31 37 49 41 91 53 73 69 7 37 37 39 17 71 7 97 55 17 47 23 15 73 31 39 57 37 9 5 61 41 65 57 77 79 35 47", "output": "26" }, { "input": "99\n38 56 58 98 80 54 26 90 14 16 78 92 52 74 40 30 84 14 44 80 16 90 98 68 26 24 78 72 42 16 84 40 14 44 2 52 50 2 12 96 58 66 8 80 44 52 34 34 72 98 74 4 66 74 56 21 8 38 76 40 10 22 48 32 98 34 12 62 80 68 64 82 22 78 58 74 20 22 48 56 12 38 32 72 6 16 74 24 94 84 26 38 18 24 76 78 98 94 72", "output": "56" }, { "input": "100\n44 40 6 40 56 90 98 8 36 64 76 86 98 76 36 92 6 30 98 70 24 98 96 60 24 82 88 68 86 96 34 42 58 10 40 26 56 10 88 58 70 32 24 28 14 82 52 12 62 36 70 60 52 34 74 30 78 76 10 16 42 94 66 90 70 38 52 12 58 22 98 96 14 68 24 70 4 30 84 98 8 50 14 52 66 34 100 10 28 100 56 48 38 12 38 14 91 80 70 86", "output": "97" }, { "input": "100\n96 62 64 20 90 46 56 90 68 36 30 56 70 28 16 64 94 34 6 32 34 50 94 22 90 32 40 2 72 10 88 38 28 92 20 26 56 80 4 100 100 90 16 74 74 84 8 2 30 20 80 32 16 46 92 56 42 12 96 64 64 42 64 58 50 42 74 28 2 4 36 32 70 50 54 92 70 16 45 76 28 16 18 50 48 2 62 94 4 12 52 52 4 100 70 60 82 62 98 42", "output": "79" }, { "input": "99\n14 26 34 68 90 58 50 36 8 16 18 6 2 74 54 20 36 84 32 50 52 2 26 24 3 64 20 10 54 26 66 44 28 72 4 96 78 90 96 86 68 28 94 4 12 46 100 32 22 36 84 32 44 94 76 94 4 52 12 30 74 4 34 64 58 72 44 16 70 56 54 8 14 74 8 6 58 62 98 54 14 40 80 20 36 72 28 98 20 58 40 52 90 64 22 48 54 70 52", "output": "25" }, { "input": "95\n82 86 30 78 6 46 80 66 74 72 16 24 18 52 52 38 60 36 86 26 62 28 22 46 96 26 94 84 20 46 66 88 76 32 12 86 74 18 34 88 4 48 94 6 58 6 100 82 4 24 88 32 54 98 34 48 6 76 42 88 42 28 100 4 22 2 10 66 82 54 98 20 60 66 38 98 32 47 86 58 6 100 12 46 2 42 8 84 78 28 24 70 34 28 86", "output": "78" }, { "input": "90\n40 50 8 42 76 24 58 42 26 68 20 48 54 12 34 84 14 36 32 88 6 50 96 56 20 92 48 16 40 34 96 46 20 84 30 50 20 98 8 44 96 42 8 76 70 38 84 30 40 88 84 72 2 22 52 58 16 62 100 66 80 40 50 32 14 62 88 72 22 99 76 50 84 82 8 82 98 46 26 40 2 98 18 78 30 72 70 18 34 68", "output": "70" }, { "input": "80\n81 43 87 1 55 43 53 61 27 19 43 13 89 9 33 83 75 55 97 71 91 37 95 5 21 69 81 93 95 69 31 83 55 7 97 7 79 57 8 61 27 85 49 1 15 97 63 79 29 73 41 85 5 41 31 93 67 11 63 59 15 99 91 77 43 69 23 23 81 73 19 1 67 51 1 75 99 67 3 81", "output": "39" }, { "input": "98\n13 83 61 27 35 1 85 95 97 73 95 65 73 45 5 43 27 83 91 19 11 3 85 59 9 39 69 23 45 7 51 85 5 71 5 95 1 51 75 3 43 57 3 11 33 71 21 99 47 41 87 39 71 87 31 85 91 49 83 5 49 85 47 91 55 99 33 23 31 23 23 73 29 77 55 31 25 5 81 49 91 15 15 39 87 5 9 40 69 47 29 33 11 21 49 79 51 83", "output": "88" }, { "input": "3\n100 100 1", "output": "3" } ]	1,677,600,776	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	92	0	n = int(input()) numbers = list(map(int, input().split())) for i in range(n): if numbers[i] % 2 != numbers[(i+1) % n] % 2: print(i+1) break	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 n = int(input()) numbers = list(map(int, input().split())) for i in range(n): if numbers[i] % 2 != numbers[(i+1) % n] % 2: print(i+1) break ```	0
430	B	Balls Game	PROGRAMMING	1,400	[ "brute force", "two pointers" ]		null	null	Iahub is training for the IOI. What is a better way to train than playing a Zuma-like game? There are n balls put in a row. Each ball is colored in one of k colors. Initially the row doesn't contain three or more contiguous balls with the same color. Iahub has a single ball of color x. He can insert his ball at any position in the row (probably, between two other balls). If at any moment there are three or more contiguous balls of the same color in the row, they are destroyed immediately. This rule is applied multiple times, until there are no more sets of 3 or more contiguous balls of the same color. For example, if Iahub has the row of balls [black, black, white, white, black, black] and a white ball, he can insert the ball between two white balls. Thus three white balls are destroyed, and then four black balls become contiguous, so all four balls are destroyed. The row will not contain any ball in the end, so Iahub can destroy all 6 balls. Iahub wants to destroy as many balls as possible. You are given the description of the row of balls, and the color of Iahub's ball. Help Iahub train for the IOI by telling him the maximum number of balls from the row he can destroy.	The first line of input contains three integers: n (1<=≤<=n<=≤<=100), k (1<=≤<=k<=≤<=100) and x (1<=≤<=x<=≤<=k). The next line contains n space-separated integers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=k). Number ci means that the i-th ball in the row has color ci. It is guaranteed that the initial row of balls will never contain three or more contiguous balls of the same color.	Print a single integer — the maximum number of balls Iahub can destroy.	[ "6 2 2\n1 1 2 2 1 1\n", "1 1 1\n1\n" ]	[ "6\n", "0\n" ]	none	1,000	[ { "input": "6 2 2\n1 1 2 2 1 1", "output": "6" }, { "input": "1 1 1\n1", "output": "0" }, { "input": "10 2 1\n2 1 2 2 1 2 2 1 1 2", "output": "5" }, { "input": "50 2 1\n1 1 2 2 1 2 1 1 2 2 1 2 1 2 1 1 2 2 1 2 1 2 2 1 2 1 2 1 2 2 1 1 2 2 1 1 2 2 1 2 1 1 2 1 1 2 2 1 1 2", "output": "15" }, { "input": "75 5 5\n1 1 5 5 3 5 2 3 3 2 2 1 1 5 4 4 3 4 5 4 3 3 1 2 2 1 2 1 2 5 5 2 1 3 2 2 3 1 2 1 1 5 5 1 1 2 1 1 2 2 5 2 2 1 1 2 1 2 1 1 3 3 5 4 4 3 3 4 4 5 5 1 1 2 2", "output": "6" }, { "input": "100 3 2\n1 1 2 3 1 3 2 1 1 3 3 2 2 1 1 2 2 1 1 3 2 2 3 2 3 2 2 3 3 1 1 2 2 1 2 2 1 3 3 1 3 3 1 2 1 2 2 1 2 3 2 1 1 2 1 1 3 3 1 3 3 1 1 2 2 1 1 2 1 3 2 2 3 2 2 3 3 1 2 1 2 2 1 1 2 3 1 3 3 1 2 3 2 2 1 3 2 2 3 3", "output": "6" }, { "input": "100 2 1\n2 2 1 2 1 2 1 2 2 1 1 2 1 1 2 1 1 2 2 1 1 2 1 1 2 1 2 2 1 2 1 2 1 2 1 1 2 1 1 2 1 1 2 2 1 1 2 1 2 2 1 2 1 2 1 2 1 1 2 2 1 2 1 1 2 2 1 1 2 1 2 1 2 1 2 2 1 2 1 1 2 1 2 1 1 2 1 1 2 1 1 2 2 1 2 2 1 1 2 1", "output": "15" }, { "input": "100 2 2\n1 2 1 2 2 1 2 1 2 1 2 1 1 2 1 2 2 1 1 2 1 1 2 2 1 1 2 1 2 2 1 2 2 1 2 1 2 1 1 2 1 2 1 2 1 2 1 1 2 1 1 2 2 1 1 2 2 1 2 1 2 1 2 1 2 2 1 2 1 2 2 1 1 2 1 2 2 1 1 2 2 1 2 1 2 1 1 2 1 2 1 2 1 2 1 2 2 1 2 2", "output": "14" }, { "input": "100 2 2\n1 2 1 1 2 1 2 2 1 2 1 2 1 2 1 2 1 2 2 1 1 2 2 1 2 1 1 2 2 1 1 2 1 2 1 2 1 1 2 1 1 2 1 2 2 1 1 2 2 1 1 2 1 2 2 1 1 2 1 2 1 2 2 1 2 2 1 1 2 1 2 2 1 2 2 1 2 1 1 2 1 2 2 1 2 2 1 2 1 2 1 2 1 1 2 2 1 1 2 2", "output": "17" }, { "input": "100 2 2\n2 1 1 2 2 1 1 2 1 2 1 1 2 2 1 2 1 2 1 2 2 1 2 1 1 2 1 2 1 2 1 2 1 1 2 2 1 1 2 1 1 2 1 2 2 1 1 2 1 2 1 1 2 2 1 1 2 1 2 1 2 1 2 2 1 1 2 2 1 1 2 2 1 2 1 2 1 1 2 1 1 2 2 1 2 1 2 2 1 2 2 1 1 2 1 2 2 1 2 2", "output": "17" }, { "input": "100 2 2\n1 2 2 1 2 2 1 1 2 1 2 1 2 1 2 1 2 1 2 1 1 2 2 1 2 1 2 1 2 1 2 1 1 2 1 1 2 1 2 2 1 1 2 2 1 1 2 1 1 2 2 1 2 1 2 1 2 1 2 1 1 2 2 1 1 2 2 1 1 2 2 1 2 2 1 1 2 1 2 2 1 2 2 1 2 2 1 2 2 1 1 2 2 1 2 1 2 1 2 1", "output": "28" }, { "input": "100 2 2\n1 1 2 1 2 1 1 2 1 2 1 2 2 1 2 1 2 1 1 2 2 1 2 1 1 2 2 1 1 2 1 2 2 1 2 2 1 2 1 2 1 1 2 1 2 1 1 2 2 1 1 2 1 2 1 2 1 2 1 2 2 1 1 2 1 2 2 1 2 1 1 2 1 1 2 1 2 1 2 1 1 2 1 2 2 1 2 1 2 2 1 1 2 1 2 2 1 1 2 2", "output": "8" }, { "input": "100 100 50\n15 44 5 7 75 40 52 82 78 90 48 32 16 53 69 2 21 84 7 21 21 87 29 8 42 54 10 21 38 55 54 88 48 63 3 17 45 82 82 91 7 11 11 24 24 79 1 32 32 38 41 41 4 4 74 17 26 26 96 96 3 3 50 50 96 26 26 17 17 74 74 4 41 38 38 32 1 1 79 79 24 11 11 7 7 91 91 82 45 45 97 9 74 60 32 91 61 64 100 26", "output": "2" }, { "input": "100 50 22\n15 2 18 15 48 35 46 33 32 39 39 5 5 27 27 50 50 47 47 10 10 6 3 3 7 8 7 17 17 29 14 10 10 46 13 13 31 32 31 22 22 32 31 31 32 13 13 46 46 10 10 14 14 29 29 17 7 7 8 3 6 6 10 47 50 50 27 5 5 39 39 21 47 4 40 47 21 28 21 21 40 27 34 17 3 36 5 7 21 14 25 49 40 34 32 13 23 29 2 4", "output": "2" }, { "input": "100 3 3\n3 1 1 2 1 1 3 1 3 3 1 3 3 1 2 1 1 2 2 3 3 2 3 2 2 3 1 3 3 2 2 1 3 3 2 2 1 2 3 3 1 3 1 3 1 2 2 1 2 1 2 3 1 3 1 3 2 1 3 2 3 3 2 3 2 3 1 3 2 2 1 2 1 2 1 1 3 1 3 1 2 1 2 1 2 3 2 2 3 3 2 2 3 2 2 3 1 1 2 3", "output": "6" }, { "input": "100 100 100\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100", "output": "0" }, { "input": "100 2 2\n1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2 1 1 2 2", "output": "98" }, { "input": "6 20 10\n10 2 10 10 2 2", "output": "5" } ]	1,585,234,995	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	93	307,200	def solve(idx, balls, n): i = idx j = idx+1 nBalls = 0 while(i >= 0 and j < n): while i >= 0 and balls[i] == balls[j]: i -= 1 nBalls += 1 while j < n and balls[i+1] == balls[j]: j += 1 nBalls += 1 return nBalls n, k, x = map(int, input().split()) balls = list(map(int, input().split())) ans = 0 for i in range(len(balls)-1): if balls[i] == balls[i+1] and balls[i] == x: ans = max(ans, solve(i, balls, n)) print(ans)	Title: Balls Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: Iahub is training for the IOI. What is a better way to train than playing a Zuma-like game? There are n balls put in a row. Each ball is colored in one of k colors. Initially the row doesn't contain three or more contiguous balls with the same color. Iahub has a single ball of color x. He can insert his ball at any position in the row (probably, between two other balls). If at any moment there are three or more contiguous balls of the same color in the row, they are destroyed immediately. This rule is applied multiple times, until there are no more sets of 3 or more contiguous balls of the same color. For example, if Iahub has the row of balls [black, black, white, white, black, black] and a white ball, he can insert the ball between two white balls. Thus three white balls are destroyed, and then four black balls become contiguous, so all four balls are destroyed. The row will not contain any ball in the end, so Iahub can destroy all 6 balls. Iahub wants to destroy as many balls as possible. You are given the description of the row of balls, and the color of Iahub's ball. Help Iahub train for the IOI by telling him the maximum number of balls from the row he can destroy. Input Specification: The first line of input contains three integers: n (1<=≤<=n<=≤<=100), k (1<=≤<=k<=≤<=100) and x (1<=≤<=x<=≤<=k). The next line contains n space-separated integers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=k). Number ci means that the i-th ball in the row has color ci. It is guaranteed that the initial row of balls will never contain three or more contiguous balls of the same color. Output Specification: Print a single integer — the maximum number of balls Iahub can destroy. Demo Input: ['6 2 2\n1 1 2 2 1 1\n', '1 1 1\n1\n'] Demo Output: ['6\n', '0\n'] Note: none	```python def solve(idx, balls, n): i = idx j = idx+1 nBalls = 0 while(i >= 0 and j < n): while i >= 0 and balls[i] == balls[j]: i -= 1 nBalls += 1 while j < n and balls[i+1] == balls[j]: j += 1 nBalls += 1 return nBalls n, k, x = map(int, input().split()) balls = list(map(int, input().split())) ans = 0 for i in range(len(balls)-1): if balls[i] == balls[i+1] and balls[i] == x: ans = max(ans, solve(i, balls, n)) print(ans) ```	0
1,004	C	Sonya and Robots	PROGRAMMING	1,400	[ "constructive algorithms", "implementation" ]		null	null	Since Sonya is interested in robotics too, she decided to construct robots that will read and recognize numbers. Sonya has drawn $n$ numbers in a row, $a_i$ is located in the $i$-th position. She also has put a robot at each end of the row (to the left of the first number and to the right of the last number). Sonya will give a number to each robot (they can be either same or different) and run them. When a robot is running, it is moving toward to another robot, reading numbers in the row. When a robot is reading a number that is equal to the number that was given to that robot, it will turn off and stay in the same position. Sonya does not want robots to break, so she will give such numbers that robots will stop before they meet. That is, the girl wants them to stop at different positions so that the first robot is to the left of the second one. For example, if the numbers $[1, 5, 4, 1, 3]$ are written, and Sonya gives the number $1$ to the first robot and the number $4$ to the second one, the first robot will stop in the $1$-st position while the second one in the $3$-rd position. In that case, robots will not meet each other. As a result, robots will not be broken. But if Sonya gives the number $4$ to the first robot and the number $5$ to the second one, they will meet since the first robot will stop in the $3$-rd position while the second one is in the $2$-nd position. Sonya understands that it does not make sense to give a number that is not written in the row because a robot will not find this number and will meet the other robot. Sonya is now interested in finding the number of different pairs that she can give to robots so that they will not meet. In other words, she wants to know the number of pairs ($p$, $q$), where she will give $p$ to the first robot and $q$ to the second one. Pairs ($p_i$, $q_i$) and ($p_j$, $q_j$) are different if $p_i\neq p_j$ or $q_i\neq q_j$. Unfortunately, Sonya is busy fixing robots that broke after a failed launch. That is why she is asking you to find the number of pairs that she can give to robots so that they will not meet.	The first line contains a single integer $n$ ($1\leq n\leq 10^5$) — the number of numbers in a row. The second line contains $n$ integers $a_1, a_2, \ldots, a_n$ ($1\leq a_i\leq 10^5$) — the numbers in a row.	Print one number — the number of possible pairs that Sonya can give to robots so that they will not meet.	[ "5\n1 5 4 1 3\n", "7\n1 2 1 1 1 3 2\n" ]	[ "9\n", "7\n" ]	In the first example, Sonya can give pairs ($1$, $1$), ($1$, $3$), ($1$, $4$), ($1$, $5$), ($4$, $1$), ($4$, $3$), ($5$, $1$), ($5$, $3$), and ($5$, $4$). In the second example, Sonya can give pairs ($1$, $1$), ($1$, $2$), ($1$, $3$), ($2$, $1$), ($2$, $2$), ($2$, $3$), and ($3$, $2$).	1,500	[ { "input": "5\n1 5 4 1 3", "output": "9" }, { "input": "7\n1 2 1 1 1 3 2", "output": "7" }, { "input": "10\n2 2 4 4 3 1 1 2 3 2", "output": "14" }, { "input": "15\n1 2 2 1 2 4 2 1 1 6 6 4 2 5 4", "output": "20" }, { "input": "1\n1", "output": "0" } ]	1,587,876,153	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	5	1,000	17,920,000	n=int(input()) var=0 v=[False](10*5+1) ls=list(map(int,input().split())) for i in range(n-1): if v[ls[i]]==False: var+=len(list(set(ls[i+1:]))) v[ls[i]]=True print(var)	Title: Sonya and Robots Time Limit: None seconds Memory Limit: None megabytes Problem Description: Since Sonya is interested in robotics too, she decided to construct robots that will read and recognize numbers. Sonya has drawn $n$ numbers in a row, $a_i$ is located in the $i$-th position. She also has put a robot at each end of the row (to the left of the first number and to the right of the last number). Sonya will give a number to each robot (they can be either same or different) and run them. When a robot is running, it is moving toward to another robot, reading numbers in the row. When a robot is reading a number that is equal to the number that was given to that robot, it will turn off and stay in the same position. Sonya does not want robots to break, so she will give such numbers that robots will stop before they meet. That is, the girl wants them to stop at different positions so that the first robot is to the left of the second one. For example, if the numbers $[1, 5, 4, 1, 3]$ are written, and Sonya gives the number $1$ to the first robot and the number $4$ to the second one, the first robot will stop in the $1$-st position while the second one in the $3$-rd position. In that case, robots will not meet each other. As a result, robots will not be broken. But if Sonya gives the number $4$ to the first robot and the number $5$ to the second one, they will meet since the first robot will stop in the $3$-rd position while the second one is in the $2$-nd position. Sonya understands that it does not make sense to give a number that is not written in the row because a robot will not find this number and will meet the other robot. Sonya is now interested in finding the number of different pairs that she can give to robots so that they will not meet. In other words, she wants to know the number of pairs ($p$, $q$), where she will give $p$ to the first robot and $q$ to the second one. Pairs ($p_i$, $q_i$) and ($p_j$, $q_j$) are different if $p_i\neq p_j$ or $q_i\neq q_j$. Unfortunately, Sonya is busy fixing robots that broke after a failed launch. That is why she is asking you to find the number of pairs that she can give to robots so that they will not meet. Input Specification: The first line contains a single integer $n$ ($1\leq n\leq 10^5$) — the number of numbers in a row. The second line contains $n$ integers $a_1, a_2, \ldots, a_n$ ($1\leq a_i\leq 10^5$) — the numbers in a row. Output Specification: Print one number — the number of possible pairs that Sonya can give to robots so that they will not meet. Demo Input: ['5\n1 5 4 1 3\n', '7\n1 2 1 1 1 3 2\n'] Demo Output: ['9\n', '7\n'] Note: In the first example, Sonya can give pairs ($1$, $1$), ($1$, $3$), ($1$, $4$), ($1$, $5$), ($4$, $1$), ($4$, $3$), ($5$, $1$), ($5$, $3$), and ($5$, $4$). In the second example, Sonya can give pairs ($1$, $1$), ($1$, $2$), ($1$, $3$), ($2$, $1$), ($2$, $2$), ($2$, $3$), and ($3$, $2$).	```python n=int(input()) var=0 v=[False](10*5+1) ls=list(map(int,input().split())) for i in range(n-1): if v[ls[i]]==False: var+=len(list(set(ls[i+1:]))) v[ls[i]]=True print(var) ```	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\n25 -33 43\n-27 -42 28\n-35 -20 19\n41 -42 -1\n49 -39 -4\n-49 -22 7\n-19 29 41\n8 -27 -43\n8 34 9\n-11 -3 33", "output": "NO" }, { "input": "10\n-6 21 18\n20 -11 -8\n37 -11 41\n-5 8 33\n29 23 32\n30 -33 -11\n39 -49 -36\n28 34 -49\n22 29 -34\n-18 -6 7", "output": "NO" }, { "input": "10\n47 -2 -27\n0 26 -14\n5 -12 33\n2 18 3\n45 -30 -49\n4 -18 8\n-46 -44 -41\n-22 -10 -40\n-35 -21 26\n33 20 38", "output": "NO" }, { "input": "13\n-3 -36 -46\n-11 -50 37\n42 -11 -15\n9 42 44\n-29 -12 24\n3 9 -40\n-35 13 50\n14 43 18\n-13 8 24\n-48 -15 10\n50 9 -50\n21 0 -50\n0 0 -6", "output": "YES" }, { "input": "14\n43 23 17\n4 17 44\n5 -5 -16\n-43 -7 -6\n47 -48 12\n50 47 -45\n2 14 43\n37 -30 15\n4 -17 -11\n17 9 -45\n-50 -3 -8\n-50 0 0\n-50 0 0\n-16 0 0", "output": "YES" }, { "input": "13\n29 49 -11\n38 -11 -20\n25 1 -40\n-11 28 11\n23 -19 1\n45 -41 -17\n-3 0 -19\n-13 -33 49\n-30 0 28\n34 17 45\n-50 9 -27\n-50 0 0\n-37 0 0", "output": "YES" }, { "input": "12\n3 28 -35\n-32 -44 -17\n9 -25 -6\n-42 -22 20\n-19 15 38\n-21 38 48\n-1 -37 -28\n-10 -13 -50\n-5 21 29\n34 28 50\n50 11 -49\n34 0 0", "output": "YES" }, { "input": "37\n-64 -79 26\n-22 59 93\n-5 39 -12\n77 -9 76\n55 -86 57\n83 100 -97\n-70 94 84\n-14 46 -94\n26 72 35\n14 78 -62\n17 82 92\n-57 11 91\n23 15 92\n-80 -1 1\n12 39 18\n-23 -99 -75\n-34 50 19\n-39 84 -7\n45 -30 -39\n-60 49 37\n45 -16 -72\n33 -51 -56\n-48 28 5\n97 91 88\n45 -82 -11\n-21 -15 -90\n-53 73 -26\n-74 85 -90\n-40 23 38\n100 -13 49\n32 -100 -100\n0 -100 -70\n0 -100 0\n0 -100 0\n0 -100 0\n0 -100 0\n0 -37 0", "output": "YES" }, { "input": "4\n68 3 100\n68 21 -100\n-100 -24 0\n-36 0 0", "output": "YES" }, { "input": "33\n-1 -46 -12\n45 -16 -21\n-11 45 -21\n-60 -42 -93\n-22 -45 93\n37 96 85\n-76 26 83\n-4 9 55\n7 -52 -9\n66 8 -85\n-100 -54 11\n-29 59 74\n-24 12 2\n-56 81 85\n-92 69 -52\n-26 -97 91\n54 59 -51\n58 21 -57\n7 68 56\n-47 -20 -51\n-59 77 -13\n-85 27 91\n79 60 -56\n66 -80 5\n21 -99 42\n-31 -29 98\n66 93 76\n-49 45 61\n100 -100 -100\n100 -100 -100\n66 -75 -100\n0 0 -100\n0 0 -87", "output": "YES" }, { "input": "3\n1 2 3\n3 2 1\n0 0 0", "output": "NO" }, { "input": "2\n5 -23 12\n0 0 0", "output": "NO" }, { "input": "1\n0 0 0", "output": "YES" }, { "input": "1\n1 -2 0", "output": "NO" }, { "input": "2\n-23 77 -86\n23 -77 86", "output": "YES" }, { "input": "26\n86 7 20\n-57 -64 39\n-45 6 -93\n-44 -21 100\n-11 -49 21\n73 -71 -80\n-2 -89 56\n-65 -2 7\n5 14 84\n57 41 13\n-12 69 54\n40 -25 27\n-17 -59 0\n64 -91 -30\n-53 9 42\n-54 -8 14\n-35 82 27\n-48 -59 -80\n88 70 79\n94 57 97\n44 63 25\n84 -90 -40\n-100 100 -100\n-92 100 -100\n0 10 -100\n0 0 -82", "output": "YES" }, { "input": "42\n11 27 92\n-18 -56 -57\n1 71 81\n33 -92 30\n82 83 49\n-87 -61 -1\n-49 45 49\n73 26 15\n-22 22 -77\n29 -93 87\n-68 44 -90\n-4 -84 20\n85 67 -6\n-39 26 77\n-28 -64 20\n65 -97 24\n-72 -39 51\n35 -75 -91\n39 -44 -8\n-25 -27 -57\n91 8 -46\n-98 -94 56\n94 -60 59\n-9 -95 18\n-53 -37 98\n-8 -94 -84\n-52 55 60\n15 -14 37\n65 -43 -25\n94 12 66\n-8 -19 -83\n29 81 -78\n-58 57 33\n24 86 -84\n-53 32 -88\n-14 7 3\n89 97 -53\n-5 -28 -91\n-100 100 -6\n-84 100 0\n0 100 0\n0 70 0", "output": "YES" }, { "input": "3\n96 49 -12\n2 -66 28\n-98 17 -16", "output": "YES" }, { "input": "5\n70 -46 86\n-100 94 24\n-27 63 -63\n57 -100 -47\n0 -11 0", "output": "YES" }, { "input": "18\n-86 -28 70\n-31 -89 42\n31 -48 -55\n95 -17 -43\n24 -95 -85\n-21 -14 31\n68 -18 81\n13 31 60\n-15 28 99\n-42 15 9\n28 -61 -62\n-16 71 29\n-28 75 -48\n-77 -67 36\n-100 83 89\n100 100 -100\n57 34 -100\n0 0 -53", "output": "YES" }, { "input": "44\n52 -54 -29\n-82 -5 -94\n-54 43 43\n91 16 71\n7 80 -91\n3 15 29\n-99 -6 -77\n-3 -77 -64\n73 67 34\n25 -10 -18\n-29 91 63\n-72 86 -16\n-68 85 -81\n-3 36 44\n-74 -14 -80\n34 -96 -97\n-76 -78 -33\n-24 44 -58\n98 12 77\n95 -63 -6\n-51 3 -90\n-92 -10 72\n7 3 -68\n57 -53 71\n29 57 -48\n35 -60 10\n79 -70 -61\n-20 77 55\n-86 -15 -35\n84 -88 -18\n100 -42 77\n-20 46 8\n-41 -43 -65\n38 -98 -23\n-100 65 45\n-7 -91 -63\n46 88 -85\n48 59 100\n0 0 100\n0 0 100\n0 0 100\n0 0 100\n0 0 100\n0 0 1", "output": "YES" }, { "input": "18\n-14 -64 -91\n-8 -66 -86\n-23 92 -40\n6 -3 -53\n57 41 78\n-79 42 -22\n-88 -17 45\n4 -45 44\n83 -18 -25\n34 86 -92\n75 -30 12\n44 99 11\n-67 -13 72\n22 83 -56\n-37 71 72\n-9 -100 100\n0 -100 31\n0 -58 0", "output": "YES" }, { "input": "23\n-70 37 78\n42 84 6\n28 -94 -24\n-49 76 95\n-67 18 84\n-53 78 -5\n65 -63 -64\n-66 -64 -69\n81 -93 95\n10 52 -79\n-89 -61 -64\n-64 -47 43\n-81 -35 55\n80 82 73\n-60 -81 -18\n49 -10 -19\n-58 70 12\n-24 -15 -93\n98 -93 -54\n-28 -75 11\n100 100 -63\n100 100 0\n56 34 0", "output": "YES" }, { "input": "3\n0 2 -2\n1 -1 3\n-3 0 0", "output": "NO" } ]	1,627,152,420	2,147,483,647	Python 3	OK	TESTS	81	154	6,963,200	def isIdle(): n = int(input()) x = list() y = list() z = list() for i in range(n): temp = list(map(float, input().split())) x.append(temp[0]) y.append(temp[1]) z.append(temp[2]) if sum(x) != 0 or sum(y) != 0 or sum(z) != 0: return 'NO' return 'YES' print(isIdle())	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 def isIdle(): n = int(input()) x = list() y = list() z = list() for i in range(n): temp = list(map(float, input().split())) x.append(temp[0]) y.append(temp[1]) z.append(temp[2]) if sum(x) != 0 or sum(y) != 0 or sum(z) != 0: return 'NO' return 'YES' print(isIdle()) ```	3.94853
570	A	Elections	PROGRAMMING	1,100	[ "implementation" ]		null	null	The country of Byalechinsk is running elections involving n candidates. The country consists of m cities. We know how many people in each city voted for each candidate. The electoral system in the country is pretty unusual. At the first stage of elections the votes are counted for each city: it is assumed that in each city won the candidate who got the highest number of votes in this city, and if several candidates got the maximum number of votes, then the winner is the one with a smaller index. At the second stage of elections the winner is determined by the same principle over the cities: the winner of the elections is the candidate who won in the maximum number of cities, and among those who got the maximum number of cities the winner is the one with a smaller index. Determine who will win the elections.	The first line of the input contains two integers n, m (1<=≤<=n,<=m<=≤<=100) — the number of candidates and of cities, respectively. Each of the next m lines contains n non-negative integers, the j-th number in the i-th line aij (1<=≤<=j<=≤<=n, 1<=≤<=i<=≤<=m, 0<=≤<=aij<=≤<=109) denotes the number of votes for candidate j in city i. It is guaranteed that the total number of people in all the cities does not exceed 109.	Print a single number — the index of the candidate who won the elections. The candidates are indexed starting from one.	[ "3 3\n1 2 3\n2 3 1\n1 2 1\n", "3 4\n10 10 3\n5 1 6\n2 2 2\n1 5 7\n" ]	[ "2", "1" ]	Note to the first sample test. At the first stage city 1 chosen candidate 3, city 2 chosen candidate 2, city 3 chosen candidate 2. The winner is candidate 2, he gained 2 votes. Note to the second sample test. At the first stage in city 1 candidates 1 and 2 got the same maximum number of votes, but candidate 1 has a smaller index, so the city chose candidate 1. City 2 chosen candidate 3. City 3 chosen candidate 1, due to the fact that everyone has the same number of votes, and 1 has the smallest index. City 4 chosen the candidate 3. On the second stage the same number of cities chose candidates 1 and 3. The winner is candidate 1, the one with the smaller index.	500	[ { "input": "3 3\n1 2 3\n2 3 1\n1 2 1", "output": "2" }, { "input": "3 4\n10 10 3\n5 1 6\n2 2 2\n1 5 7", "output": "1" }, { "input": "1 3\n5\n3\n2", "output": "1" }, { "input": "3 1\n1 2 3", "output": "3" }, { "input": "3 1\n100 100 100", "output": "1" }, { "input": "2 2\n1 2\n2 1", "output": "1" }, { "input": "2 2\n2 1\n2 1", "output": "1" }, { "input": "2 2\n1 2\n1 2", "output": "2" }, { "input": "3 3\n0 0 0\n1 1 1\n2 2 2", "output": "1" }, { "input": "1 1\n1000000000", "output": "1" }, { "input": "5 5\n1 2 3 4 5\n2 3 4 5 6\n3 4 5 6 7\n4 5 6 7 8\n5 6 7 8 9", "output": "5" }, { "input": "4 4\n1 3 1 3\n3 1 3 1\n2 0 0 2\n0 1 1 0", "output": "1" }, { "input": "4 4\n1 4 1 3\n3 1 2 1\n1 0 0 2\n0 1 10 0", "output": "1" }, { "input": "4 4\n1 4 1 300\n3 1 2 1\n5 0 0 2\n0 1 10 100", "output": "1" }, { "input": "5 5\n15 45 15 300 10\n53 15 25 51 10\n5 50 50 2 10\n1000 1 10 100 10\n10 10 10 10 10", "output": "1" }, { "input": "1 100\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1", "output": "1" }, { "input": "100 1\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "1" }, { "input": "1 100\n859\n441\n272\n47\n355\n345\n612\n569\n545\n599\n410\n31\n720\n303\n58\n537\n561\n730\n288\n275\n446\n955\n195\n282\n153\n455\n996\n121\n267\n702\n769\n560\n353\n89\n990\n282\n801\n335\n573\n258\n722\n768\n324\n41\n249\n125\n557\n303\n664\n945\n156\n884\n985\n816\n433\n65\n976\n963\n85\n647\n46\n877\n665\n523\n714\n182\n377\n549\n994\n385\n184\n724\n447\n99\n766\n353\n494\n747\n324\n436\n915\n472\n879\n582\n928\n84\n627\n156\n972\n651\n159\n372\n70\n903\n590\n480\n184\n540\n270\n892", "output": "1" }, { "input": "100 1\n439 158 619 538 187 153 973 781 610 475 94 947 449 531 220 51 788 118 189 501 54 434 465 902 280 635 688 214 737 327 682 690 683 519 261 923 254 388 529 659 662 276 376 735 976 664 521 285 42 147 187 259 407 977 879 465 522 17 550 701 114 921 577 265 668 812 232 267 135 371 586 201 608 373 771 358 101 412 195 582 199 758 507 882 16 484 11 712 916 699 783 618 405 124 904 257 606 610 230 718", "output": "54" }, { "input": "1 99\n511\n642\n251\n30\n494\n128\n189\n324\n884\n656\n120\n616\n959\n328\n411\n933\n895\n350\n1\n838\n996\n761\n619\n131\n824\n751\n707\n688\n915\n115\n244\n476\n293\n986\n29\n787\n607\n259\n756\n864\n394\n465\n303\n387\n521\n582\n485\n355\n299\n997\n683\n472\n424\n948\n339\n383\n285\n957\n591\n203\n866\n79\n835\n980\n344\n493\n361\n159\n160\n947\n46\n362\n63\n553\n793\n754\n429\n494\n523\n227\n805\n313\n409\n243\n927\n350\n479\n971\n825\n460\n544\n235\n660\n327\n216\n729\n147\n671\n738", "output": "1" }, { "input": "99 1\n50 287 266 159 551 198 689 418 809 43 691 367 160 664 86 805 461 55 127 950 576 351 721 493 972 560 934 885 492 92 321 759 767 989 883 7 127 413 404 604 80 645 666 874 371 718 893 158 722 198 563 293 134 255 742 913 252 378 859 721 502 251 839 284 133 209 962 514 773 124 205 903 785 859 911 93 861 786 747 213 690 69 942 697 211 203 284 961 351 137 962 952 408 249 238 850 944 40 346", "output": "34" }, { "input": "100 1\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2", "output": "100" }, { "input": "1 1\n0", "output": "1" }, { "input": "2 1\n0 0", "output": "1" }, { "input": "2 2\n0 0\n0 0", "output": "1" }, { "input": "2 2\n1 2\n0 0", "output": "1" }, { "input": "3 3\n0 0 0\n0 0 0\n0 0 0", "output": "1" }, { "input": "2 3\n0 0\n0 0\n0 1", "output": "1" }, { "input": "3 2\n1 1 3\n0 0 0", "output": "1" }, { "input": "3 4\n1 10 3\n0 0 0\n0 0 0\n0 0 0", "output": "1" }, { "input": "2 4\n2 1\n1 2\n0 0\n1 2", "output": "1" }, { "input": "2 2\n0 1\n0 1", "output": "2" }, { "input": "2 3\n1 2\n0 0\n2 1", "output": "1" }, { "input": "2 2\n0 0\n4 5", "output": "1" }, { "input": "3 2\n10 15 20\n0 0 0", "output": "1" }, { "input": "3 4\n0 0 0\n0 0 0\n0 0 0\n1 2 3", "output": "1" }, { "input": "3 3\n0 0 0\n0 0 0\n0 0 1", "output": "1" }, { "input": "3 3\n0 0 0\n1 2 3\n1 3 2", "output": "1" }, { "input": "3 1\n0 0 0", "output": "1" }, { "input": "3 3\n0 0 1\n0 0 0\n0 0 0", "output": "1" } ]	1,645,042,592	2,147,483,647	PyPy 3-64	OK	TESTS	62	109	2,355,200	n, m = map(int, input().split()) a = [] for i in range(m): temp = list(map(int, input().split())) a.append(temp.index(max(temp))) temp = [0] * n for i in a: temp[i] += 1 print(temp.index(max(temp)) + 1)	Title: Elections Time Limit: None seconds Memory Limit: None megabytes Problem Description: The country of Byalechinsk is running elections involving n candidates. The country consists of m cities. We know how many people in each city voted for each candidate. The electoral system in the country is pretty unusual. At the first stage of elections the votes are counted for each city: it is assumed that in each city won the candidate who got the highest number of votes in this city, and if several candidates got the maximum number of votes, then the winner is the one with a smaller index. At the second stage of elections the winner is determined by the same principle over the cities: the winner of the elections is the candidate who won in the maximum number of cities, and among those who got the maximum number of cities the winner is the one with a smaller index. Determine who will win the elections. Input Specification: The first line of the input contains two integers n, m (1<=≤<=n,<=m<=≤<=100) — the number of candidates and of cities, respectively. Each of the next m lines contains n non-negative integers, the j-th number in the i-th line aij (1<=≤<=j<=≤<=n, 1<=≤<=i<=≤<=m, 0<=≤<=aij<=≤<=109) denotes the number of votes for candidate j in city i. It is guaranteed that the total number of people in all the cities does not exceed 109. Output Specification: Print a single number — the index of the candidate who won the elections. The candidates are indexed starting from one. Demo Input: ['3 3\n1 2 3\n2 3 1\n1 2 1\n', '3 4\n10 10 3\n5 1 6\n2 2 2\n1 5 7\n'] Demo Output: ['2', '1'] Note: Note to the first sample test. At the first stage city 1 chosen candidate 3, city 2 chosen candidate 2, city 3 chosen candidate 2. The winner is candidate 2, he gained 2 votes. Note to the second sample test. At the first stage in city 1 candidates 1 and 2 got the same maximum number of votes, but candidate 1 has a smaller index, so the city chose candidate 1. City 2 chosen candidate 3. City 3 chosen candidate 1, due to the fact that everyone has the same number of votes, and 1 has the smallest index. City 4 chosen the candidate 3. On the second stage the same number of cities chose candidates 1 and 3. The winner is candidate 1, the one with the smaller index.	```python n, m = map(int, input().split()) a = [] for i in range(m): temp = list(map(int, input().split())) a.append(temp.index(max(temp))) temp = [0] * n for i in a: temp[i] += 1 print(temp.index(max(temp)) + 1) ```	3
818	B	Permutation Game	PROGRAMMING	1,600	[ "implementation" ]		null	null	n children are standing in a circle and playing a game. Children's numbers in clockwise order form a permutation a1,<=a2,<=...,<=an of length n. It is an integer sequence such that each integer from 1 to n appears exactly once in it. The game consists of m steps. On each step the current leader with index i counts out ai people in clockwise order, starting from the next person. The last one to be pointed at by the leader becomes the new leader. You are given numbers l1,<=l2,<=...,<=lm — indices of leaders in the beginning of each step. Child with number l1 is the first leader in the game. Write a program which will restore a possible permutation a1,<=a2,<=...,<=an. If there are multiple solutions then print any of them. If there is no solution then print -1.	The first line contains two integer numbers n, m (1<=≤<=n,<=m<=≤<=100). The second line contains m integer numbers l1,<=l2,<=...,<=lm (1<=≤<=li<=≤<=n) — indices of leaders in the beginning of each step.	Print such permutation of n numbers a1,<=a2,<=...,<=an that leaders in the game will be exactly l1,<=l2,<=...,<=lm if all the rules are followed. If there are multiple solutions print any of them. If there is no permutation which satisfies all described conditions print -1.	[ "4 5\n2 3 1 4 4\n", "3 3\n3 1 2\n" ]	[ "3 1 2 4 \n", "-1\n" ]	Let's follow leadership in the first example: - Child 2 starts. - Leadership goes from 2 to 2 + a<sub class="lower-index">2</sub> = 3. - Leadership goes from 3 to 3 + a<sub class="lower-index">3</sub> = 5. As it's greater than 4, it's going in a circle to 1. - Leadership goes from 1 to 1 + a<sub class="lower-index">1</sub> = 4. - Leadership goes from 4 to 4 + a<sub class="lower-index">4</sub> = 8. Thus in circle it still remains at 4.	0	[ { "input": "4 5\n2 3 1 4 4", "output": "3 1 2 4 " }, { "input": "3 3\n3 1 2", "output": "-1" }, { "input": "1 100\n1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1", "output": "1 " }, { "input": "6 8\n2 5 4 2 5 4 2 5", "output": "1 3 2 4 5 6 " }, { "input": "100 1\n6", "output": "1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 " }, { "input": "10 5\n7 7 9 9 3", "output": "-1" }, { "input": "10 20\n10 1 5 7 1 2 5 3 6 3 9 4 3 4 9 6 8 4 9 6", "output": "-1" }, { "input": "20 15\n11 19 1 8 17 12 3 1 8 17 12 3 1 8 17", "output": "7 1 18 3 4 5 6 9 10 12 8 11 13 14 16 17 15 19 2 20 " }, { "input": "100 100\n96 73 23 74 35 44 75 13 62 50 76 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63 29 45 24 63", "output": "1 2 3 4 5 6 7 8 10 11 12 13 49 14 15 17 18 19 20 21 22 23 51 39 24 25 27 28 16 29 30 32 33 34 9 35 36 37 40 41 42 43 44 31 79 45 46 47 48 26 52 53 54 55 56 57 58 59 60 62 63 88 66 64 65 67 68 69 70 71 72 73 50 61 38 87 74 75 76 78 80 81 82 83 84 85 86 89 90 91 92 93 94 95 96 77 97 98 99 100 " }, { "input": "100 100\n82 51 81 14 37 17 78 92 64 15 8 86 89 8 87 77 66 10 15 12 100 25 92 47 21 78 20 63 13 49 41 36 41 79 16 87 87 69 3 76 80 60 100 49 70 59 72 8 38 71 45 97 71 14 76 54 81 4 59 46 39 29 92 3 49 22 53 99 59 52 74 31 92 43 42 23 44 9 82 47 7 40 12 9 3 55 37 85 46 22 84 52 98 41 21 77 63 17 62 91", "output": "-1" }, { "input": "20 20\n1 20 2 19 3 18 4 17 5 16 6 15 7 14 8 13 9 12 10 11", "output": "19 17 15 13 11 9 7 5 3 1 20 18 16 14 12 10 8 6 4 2 " }, { "input": "20 5\n1 20 2 19 3", "output": "19 17 1 3 5 6 7 8 9 10 11 12 13 14 15 16 18 20 4 2 " }, { "input": "19 19\n1 19 2 18 3 17 4 16 5 15 6 14 7 13 8 12 9 11 10", "output": "-1" }, { "input": "100 100\n1 99 2 98 3 97 4 96 5 95 6 94 7 93 8 92 9 91 10 90 11 89 12 88 13 87 14 86 15 85 16 84 17 83 18 82 19 81 20 80 21 79 22 78 23 77 24 76 25 75 26 74 27 73 28 72 29 71 30 70 31 69 32 68 33 67 34 66 35 65 36 64 37 63 38 62 39 61 40 60 41 59 42 58 43 57 44 56 45 55 46 54 47 53 48 52 49 51 50 50", "output": "98 96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66 64 62 60 58 56 54 52 50 48 46 44 42 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2 100 99 97 95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65 63 61 59 57 55 53 51 49 47 45 43 41 39 37 35 33 31 29 27 25 23 21 19 17 15 13 11 9 7 5 3 1 " }, { "input": "51 18\n8 32 24 19 1 29 49 24 39 33 5 37 37 26 17 28 2 19", "output": "-1" }, { "input": "5 5\n1 2 5 2 4", "output": "-1" }, { "input": "6 6\n1 2 1 1 3 6", "output": "-1" }, { "input": "4 4\n4 3 4 2", "output": "-1" }, { "input": "3 3\n2 2 3", "output": "-1" }, { "input": "4 6\n1 1 2 4 4 4", "output": "-1" }, { "input": "9 4\n8 2 8 3", "output": "-1" }, { "input": "4 6\n2 3 1 4 4 1", "output": "-1" }, { "input": "2 3\n1 1 2", "output": "-1" }, { "input": "5 7\n4 3 4 3 3 4 5", "output": "-1" }, { "input": "2 9\n1 1 1 1 2 1 1 1 1", "output": "-1" }, { "input": "4 4\n2 4 4 4", "output": "1 2 3 4 " }, { "input": "3 3\n1 1 3", "output": "-1" }, { "input": "2 5\n1 2 2 1 1", "output": "-1" }, { "input": "4 4\n1 4 1 3", "output": "-1" }, { "input": "3 4\n1 3 1 1", "output": "-1" }, { "input": "4 4\n1 4 1 1", "output": "-1" }, { "input": "66 67\n19 9 60 40 19 48 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5 58 5", "output": "-1" }, { "input": "3 3\n3 3 2", "output": "-1" }, { "input": "27 28\n8 18 27 24 20 8 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23 23", "output": "-1" }, { "input": "4 3\n1 1 2", "output": "-1" }, { "input": "4 4\n2 4 2 3", "output": "-1" }, { "input": "2 3\n2 2 1", "output": "-1" }, { "input": "2 2\n2 2", "output": "1 2 " }, { "input": "3 4\n2 3 3 1", "output": "-1" }, { "input": "5 6\n1 4 4 2 1 4", "output": "-1" }, { "input": "4 3\n2 3 4", "output": "-1" }, { "input": "2 3\n1 2 1", "output": "-1" }, { "input": "10 4\n5 6 5 7", "output": "-1" }, { "input": "3 3\n1 1 2", "output": "-1" }, { "input": "4 5\n1 4 1 3 2", "output": "-1" }, { "input": "6 5\n1 2 4 1 3", "output": "-1" } ]	1,498,750,692	1,992	Python 3	OK	TESTS	46	62	5,529,600	n,m=map(int,input().split()) l=[] l=list(map(int,input().split())) a=[-1]*(n+1) s=set() sorry = False for i in range(1,n+1): s.add(i) for i in range(m-1): temp = (l[i+1] + n - l[i])%n if(temp == 0): temp = n #print(temp) if(a[l[i]] == -1 and temp in s): a[l[i]] = temp s.remove(temp) elif(a[l[i]] == temp): continue else: sorry=True break if(sorry): print(-1) else: ss = list(s) x=0 for i in range(1,len(a)): if(a[i] == -1): a[i] = ss[x] x+=1 print(a[i],"",end='')	Title: Permutation Game Time Limit: None seconds Memory Limit: None megabytes Problem Description: n children are standing in a circle and playing a game. Children's numbers in clockwise order form a permutation a1,<=a2,<=...,<=an of length n. It is an integer sequence such that each integer from 1 to n appears exactly once in it. The game consists of m steps. On each step the current leader with index i counts out ai people in clockwise order, starting from the next person. The last one to be pointed at by the leader becomes the new leader. You are given numbers l1,<=l2,<=...,<=lm — indices of leaders in the beginning of each step. Child with number l1 is the first leader in the game. Write a program which will restore a possible permutation a1,<=a2,<=...,<=an. If there are multiple solutions then print any of them. If there is no solution then print -1. Input Specification: The first line contains two integer numbers n, m (1<=≤<=n,<=m<=≤<=100). The second line contains m integer numbers l1,<=l2,<=...,<=lm (1<=≤<=li<=≤<=n) — indices of leaders in the beginning of each step. Output Specification: Print such permutation of n numbers a1,<=a2,<=...,<=an that leaders in the game will be exactly l1,<=l2,<=...,<=lm if all the rules are followed. If there are multiple solutions print any of them. If there is no permutation which satisfies all described conditions print -1. Demo Input: ['4 5\n2 3 1 4 4\n', '3 3\n3 1 2\n'] Demo Output: ['3 1 2 4 \n', '-1\n'] Note: Let's follow leadership in the first example: - Child 2 starts. - Leadership goes from 2 to 2 + a<sub class="lower-index">2</sub> = 3. - Leadership goes from 3 to 3 + a<sub class="lower-index">3</sub> = 5. As it's greater than 4, it's going in a circle to 1. - Leadership goes from 1 to 1 + a<sub class="lower-index">1</sub> = 4. - Leadership goes from 4 to 4 + a<sub class="lower-index">4</sub> = 8. Thus in circle it still remains at 4.	```python n,m=map(int,input().split()) l=[] l=list(map(int,input().split())) a=[-1]*(n+1) s=set() sorry = False for i in range(1,n+1): s.add(i) for i in range(m-1): temp = (l[i+1] + n - l[i])%n if(temp == 0): temp = n #print(temp) if(a[l[i]] == -1 and temp in s): a[l[i]] = temp s.remove(temp) elif(a[l[i]] == temp): continue else: sorry=True break if(sorry): print(-1) else: ss = list(s) x=0 for i in range(1,len(a)): if(a[i] == -1): a[i] = ss[x] x+=1 print(a[i],"",end='') ```	3
305	C	Ivan and Powers of Two	PROGRAMMING	1,600	[ "greedy", "implementation" ]		null	null	Ivan has got an array of n non-negative integers a1,<=a2,<=...,<=an. Ivan knows that the array is sorted in the non-decreasing order. Ivan wrote out integers 2a1,<=2a2,<=...,<=2an on a piece of paper. Now he wonders, what minimum number of integers of form 2b (b<=≥<=0) need to be added to the piece of paper so that the sum of all integers written on the paper equalled 2v<=-<=1 for some integer v (v<=≥<=0). Help Ivan, find the required quantity of numbers.	The first line contains integer n (1<=≤<=n<=≤<=105). The second input line contains n space-separated integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=2·109). It is guaranteed that a1<=≤<=a2<=≤<=...<=≤<=an.	Print a single integer — the answer to the problem.	[ "4\n0 1 1 1\n", "1\n3\n" ]	[ "0\n", "3\n" ]	In the first sample you do not need to add anything, the sum of numbers already equals 2<sup class="upper-index">3</sup> - 1 = 7. In the second sample you need to add numbers 2<sup class="upper-index">0</sup>, 2<sup class="upper-index">1</sup>, 2<sup class="upper-index">2</sup>.	1,500	[ { "input": "4\n0 1 1 1", "output": "0" }, { "input": "1\n3", "output": "3" }, { "input": "1\n0", "output": "0" }, { "input": "1\n2000000000", "output": "2000000000" }, { "input": "1\n1", "output": "1" }, { "input": "26\n0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 2 2", "output": "5" } ]	1,621,024,140	2,147,483,647	PyPy 3	MEMORY_LIMIT_EXCEEDED	TESTS	2	545	268,390,400	n=int(input()) print(bin(sum([2**i for i in list(map(int,input().split()))]))[2:].count('0'))	Title: Ivan and Powers of Two Time Limit: None seconds Memory Limit: None megabytes Problem Description: Ivan has got an array of n non-negative integers a1,<=a2,<=...,<=an. Ivan knows that the array is sorted in the non-decreasing order. Ivan wrote out integers 2a1,<=2a2,<=...,<=2an on a piece of paper. Now he wonders, what minimum number of integers of form 2b (b<=≥<=0) need to be added to the piece of paper so that the sum of all integers written on the paper equalled 2v<=-<=1 for some integer v (v<=≥<=0). Help Ivan, find the required quantity of numbers. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=105). The second input line contains n space-separated integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=2·109). It is guaranteed that a1<=≤<=a2<=≤<=...<=≤<=an. Output Specification: Print a single integer — the answer to the problem. Demo Input: ['4\n0 1 1 1\n', '1\n3\n'] Demo Output: ['0\n', '3\n'] Note: In the first sample you do not need to add anything, the sum of numbers already equals 2<sup class="upper-index">3</sup> - 1 = 7. In the second sample you need to add numbers 2<sup class="upper-index">0</sup>, 2<sup class="upper-index">1</sup>, 2<sup class="upper-index">2</sup>.	```python n=int(input()) print(bin(sum([2**i for i in list(map(int,input().split()))]))[2:].count('0')) ```	0
903	A	Hungry Student Problem	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	Ivan's classes at the university have just finished, and now he wants to go to the local CFK cafe and eat some fried chicken. CFK sells chicken chunks in small and large portions. A small portion contains 3 chunks; a large one — 7 chunks. Ivan wants to eat exactly x chunks. Now he wonders whether he can buy exactly this amount of chicken. Formally, Ivan wants to know if he can choose two non-negative integers a and b in such a way that a small portions and b large ones contain exactly x chunks. Help Ivan to answer this question for several values of x!	The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of testcases. The i-th of the following n lines contains one integer xi (1<=≤<=xi<=≤<=100) — the number of chicken chunks Ivan wants to eat.	Print n lines, in i-th line output YES if Ivan can buy exactly xi chunks. Otherwise, print NO.	[ "2\n6\n5\n" ]	[ "YES\nNO\n" ]	In the first example Ivan can buy two small portions. In the second example Ivan cannot buy exactly 5 chunks, since one small portion is not enough, but two small portions or one large is too much.	0	[ { "input": "2\n6\n5", "output": "YES\nNO" }, { "input": "100\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10\n11\n12\n13\n14\n15\n16\n17\n18\n19\n20\n21\n22\n23\n24\n25\n26\n27\n28\n29\n30\n31\n32\n33\n34\n35\n36\n37\n38\n39\n40\n41\n42\n43\n44\n45\n46\n47\n48\n49\n50\n51\n52\n53\n54\n55\n56\n57\n58\n59\n60\n61\n62\n63\n64\n65\n66\n67\n68\n69\n70\n71\n72\n73\n74\n75\n76\n77\n78\n79\n80\n81\n82\n83\n84\n85\n86\n87\n88\n89\n90\n91\n92\n93\n94\n95\n96\n97\n98\n99\n100", "output": "NO\nNO\nYES\nNO\nNO\nYES\nYES\nNO\nYES\nYES\nNO\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" }, { "input": "3\n6\n6\n6", "output": "YES\nYES\nYES" }, { "input": "47\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1\n1", "output": "NO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO\nNO" }, { "input": "3\n1\n52\n76", "output": "NO\nYES\nYES" }, { "input": "87\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100", "output": "YES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" }, { "input": "3\n3\n2\n1", "output": "YES\nNO\nNO" }, { "input": "100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100\n100", "output": "YES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES\nYES" } ]	1,569,091,626	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	78	0	n = int(input()) for i in range(0,n): e = int(input()) if (e>=6) and (e%10!=3) and (((e%10!=7) and (e!=3)) and (e!=7)): print('YES') elif e==3: print('YES') else: print('NO')	Title: Hungry Student Problem Time Limit: None seconds Memory Limit: None megabytes Problem Description: Ivan's classes at the university have just finished, and now he wants to go to the local CFK cafe and eat some fried chicken. CFK sells chicken chunks in small and large portions. A small portion contains 3 chunks; a large one — 7 chunks. Ivan wants to eat exactly x chunks. Now he wonders whether he can buy exactly this amount of chicken. Formally, Ivan wants to know if he can choose two non-negative integers a and b in such a way that a small portions and b large ones contain exactly x chunks. Help Ivan to answer this question for several values of x! Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of testcases. The i-th of the following n lines contains one integer xi (1<=≤<=xi<=≤<=100) — the number of chicken chunks Ivan wants to eat. Output Specification: Print n lines, in i-th line output YES if Ivan can buy exactly xi chunks. Otherwise, print NO. Demo Input: ['2\n6\n5\n'] Demo Output: ['YES\nNO\n'] Note: In the first example Ivan can buy two small portions. In the second example Ivan cannot buy exactly 5 chunks, since one small portion is not enough, but two small portions or one large is too much.	```python n = int(input()) for i in range(0,n): e = int(input()) if (e>=6) and (e%10!=3) and (((e%10!=7) and (e!=3)) and (e!=7)): print('YES') elif e==3: print('YES') else: print('NO') ```	0
938	A	Word Correction	PROGRAMMING	800	[ "implementation" ]		null	null	Victor tries to write his own text editor, with word correction included. However, the rules of word correction are really strange. Victor thinks that if a word contains two consecutive vowels, then it's kinda weird and it needs to be replaced. So the word corrector works in such a way: as long as there are two consecutive vowels in the word, it deletes the first vowel in a word such that there is another vowel right before it. If there are no two consecutive vowels in the word, it is considered to be correct. You are given a word s. Can you predict what will it become after correction? In this problem letters a, e, i, o, u and y are considered to be vowels.	The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of letters in word s before the correction. The second line contains a string s consisting of exactly n lowercase Latin letters — the word before the correction.	Output the word s after the correction.	[ "5\nweird\n", "4\nword\n", "5\naaeaa\n" ]	[ "werd\n", "word\n", "a\n" ]	Explanations of the examples: 1. There is only one replace: weird <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> werd;1. No replace needed since there are no two consecutive vowels;1. aaeaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aeaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> a.	0	[ { "input": "5\nweird", "output": "werd" }, { "input": "4\nword", "output": "word" }, { "input": "5\naaeaa", "output": "a" }, { "input": "100\naaaaabbbbboyoyoyoyoyacadabbbbbiuiufgiuiuaahjabbbklboyoyoyoyoyaaaaabbbbbiuiuiuiuiuaaaaabbbbbeyiyuyzyw", "output": "abbbbbocadabbbbbifgihjabbbklbobbbbbibbbbbezyw" }, { "input": "69\nbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb", "output": "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" }, { "input": "12\nmmmmmmmmmmmm", "output": "mmmmmmmmmmmm" }, { "input": "18\nyaywptqwuyiqypwoyw", "output": "ywptqwuqypwow" }, { "input": "85\nbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb", "output": "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" }, { "input": "13\nmmmmmmmmmmmmm", "output": "mmmmmmmmmmmmm" }, { "input": "10\nmmmmmmmmmm", "output": "mmmmmmmmmm" }, { "input": "11\nmmmmmmmmmmm", "output": "mmmmmmmmmmm" }, { "input": "15\nmmmmmmmmmmmmmmm", "output": "mmmmmmmmmmmmmmm" }, { "input": "1\na", "output": "a" }, { "input": "14\nmmmmmmmmmmmmmm", "output": "mmmmmmmmmmmmmm" }, { "input": "33\nmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm", "output": "mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmm" }, { "input": "79\nbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb", "output": "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" }, { "input": "90\nbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb", "output": "bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb" }, { "input": "2\naa", "output": "a" }, { "input": "18\niuiuqpyyaoaetiwliu", "output": "iqpytiwli" }, { "input": "5\nxxxxx", "output": "xxxxx" }, { "input": "6\nxxxahg", "output": "xxxahg" }, { "input": "3\nzcv", "output": "zcv" }, { "input": "4\naepo", "output": "apo" }, { "input": "5\nqqqqq", "output": "qqqqq" }, { "input": "6\naaaaaa", "output": "a" }, { "input": "4\naeta", "output": "ata" }, { "input": "20\nttyttlwaoieulyiluuri", "output": "ttyttlwalyluri" }, { "input": "1\nb", "output": "b" }, { "input": "3\nanc", "output": "anc" }, { "input": "1\ne", "output": "e" }, { "input": "3\naie", "output": "a" }, { "input": "3\nvio", "output": "vi" }, { "input": "2\nea", "output": "e" }, { "input": "3\nuas", "output": "us" }, { "input": "2\nba", "output": "ba" }, { "input": "2\naq", "output": "aq" }, { "input": "2\nya", "output": "y" }, { "input": "2\nou", "output": "o" }, { "input": "2\nbb", "output": "bb" }, { "input": "7\nayylmao", "output": "alma" }, { "input": "2\nab", "output": "ab" }, { "input": "19\nyuouiyaoiiweqrryqqp", "output": "yweqrryqqp" }, { "input": "25\niqypwqpriiioetiuqqqttouei", "output": "iqypwqpritiqqqtto" }, { "input": "100\naaaaabbbbboyoyoyoyoyacadabbbbbiuiufgiuiuaahjabbbklboyoyoyoyoyaaaaabbbbbiuiuiuiuiuaaaaabbbbbeyiyuyzyz", "output": "abbbbbocadabbbbbifgihjabbbklbobbbbbibbbbbezyz" }, { "input": "17\naccccccccccccccca", "output": "accccccccccccccca" }, { "input": "5\nababa", "output": "ababa" }, { "input": "10\naaaaaaaaaa", "output": "a" }, { "input": "22\naaaaabbbbboyoyoyoyoyac", "output": "abbbbboc" }, { "input": "7\nmahmoud", "output": "mahmod" } ]	1,562,188,191	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	78	0	# import sys # sys.stdin=open("input1.in","r") # sys.stdout=open("output2.out","w") N=int(input()) L=list(input()) def CHECKVOWEL(str): if str=='a' or str=='e' or str=='o' or str=='u' or str=='i': return True for i in range(N-1): if CHECKVOWEL(L[i])==True and CHECKVOWEL(L[i+1])==True: L[i]=0; for j in L: if j!=0: print(j,end='')	Title: Word Correction Time Limit: None seconds Memory Limit: None megabytes Problem Description: Victor tries to write his own text editor, with word correction included. However, the rules of word correction are really strange. Victor thinks that if a word contains two consecutive vowels, then it's kinda weird and it needs to be replaced. So the word corrector works in such a way: as long as there are two consecutive vowels in the word, it deletes the first vowel in a word such that there is another vowel right before it. If there are no two consecutive vowels in the word, it is considered to be correct. You are given a word s. Can you predict what will it become after correction? In this problem letters a, e, i, o, u and y are considered to be vowels. Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=100) — the number of letters in word s before the correction. The second line contains a string s consisting of exactly n lowercase Latin letters — the word before the correction. Output Specification: Output the word s after the correction. Demo Input: ['5\nweird\n', '4\nword\n', '5\naaeaa\n'] Demo Output: ['werd\n', 'word\n', 'a\n'] Note: Explanations of the examples: 1. There is only one replace: weird <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> werd;1. No replace needed since there are no two consecutive vowels;1. aaeaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aeaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aaa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> aa <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/70a0795f45d32287dba0eb83fc4a3f470c6e5537.png" style="max-width: 100.0%;max-height: 100.0%;"/> a.	```python # import sys # sys.stdin=open("input1.in","r") # sys.stdout=open("output2.out","w") N=int(input()) L=list(input()) def CHECKVOWEL(str): if str=='a' or str=='e' or str=='o' or str=='u' or str=='i': return True for i in range(N-1): if CHECKVOWEL(L[i])==True and CHECKVOWEL(L[i+1])==True: L[i]=0; for j in L: if j!=0: print(j,end='') ```	0
439	B	Devu, the Dumb Guy	PROGRAMMING	1,200	[ "implementation", "sortings" ]		null	null	Devu is a dumb guy, his learning curve is very slow. You are supposed to teach him n subjects, the ith subject has ci chapters. When you teach him, you are supposed to teach all the chapters of a subject continuously. Let us say that his initial per chapter learning power of a subject is x hours. In other words he can learn a chapter of a particular subject in x hours. Well Devu is not complete dumb, there is a good thing about him too. If you teach him a subject, then time required to teach any chapter of the next subject will require exactly 1 hour less than previously required (see the examples to understand it more clearly). Note that his per chapter learning power can not be less than 1 hour. You can teach him the n subjects in any possible order. Find out minimum amount of time (in hours) Devu will take to understand all the subjects and you will be free to do some enjoying task rather than teaching a dumb guy. Please be careful that answer might not fit in 32 bit data type.	The first line will contain two space separated integers n, x (1<=≤<=n,<=x<=≤<=105). The next line will contain n space separated integers: c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=105).	Output a single integer representing the answer to the problem.	[ "2 3\n4 1\n", "4 2\n5 1 2 1\n", "3 3\n1 1 1\n" ]	[ "11\n", "10\n", "6\n" ]	Look at the first example. Consider the order of subjects: 1, 2. When you teach Devu the first subject, it will take him 3 hours per chapter, so it will take 12 hours to teach first subject. After teaching first subject, his per chapter learning time will be 2 hours. Now teaching him second subject will take 2 × 1 = 2 hours. Hence you will need to spend 12 + 2 = 14 hours. Consider the order of subjects: 2, 1. When you teach Devu the second subject, then it will take him 3 hours per chapter, so it will take 3 × 1 = 3 hours to teach the second subject. After teaching the second subject, his per chapter learning time will be 2 hours. Now teaching him the first subject will take 2 × 4 = 8 hours. Hence you will need to spend 11 hours. So overall, minimum of both the cases is 11 hours. Look at the third example. The order in this example doesn't matter. When you teach Devu the first subject, it will take him 3 hours per chapter. When you teach Devu the second subject, it will take him 2 hours per chapter. When you teach Devu the third subject, it will take him 1 hours per chapter. In total it takes 6 hours.	1,000	[ { "input": "2 3\n4 1", "output": "11" }, { "input": "4 2\n5 1 2 1", "output": "10" }, { "input": "3 3\n1 1 1", "output": "6" }, { "input": "20 4\n1 1 3 5 5 1 3 4 2 5 2 4 3 1 3 3 3 3 4 3", "output": "65" }, { "input": "20 10\n6 6 1 2 6 4 5 3 6 5 4 5 6 5 4 6 6 2 3 3", "output": "196" }, { "input": "1 1\n9273", "output": "9273" }, { "input": "1 1\n1", "output": "1" }, { "input": "1 2\n1", "output": "2" }, { "input": "1 2\n2", "output": "4" }, { "input": "2 1\n1 2", "output": "3" } ]	1,532,399,990	2,147,483,647	Python 3	OK	TESTS	31	327	7,372,800	# ý tưởng: sắp xếp mảng c tăng dần, sau đó dùng biến i để duyệt xuôi và ngược lại # mỗi lượt duyệt tính toán thời gian, sau đó so sánh 2 thời gian và in ra kết quả nhỏ hơn # độ phức tạp: O(n) n, x = map(int, input().split()) c = list(map(int, input().split())) c.sort() t1 = t2 = 0 i = 0 x_ = x while i < n: t1 += c[i] * x if x > 1: x -= 1 i += 1 while i != 0: i -= 1 t2 += c[i] * x_ if x_ > 1: x_ -= 1 print(min(t1, t2))	Title: Devu, the Dumb Guy Time Limit: None seconds Memory Limit: None megabytes Problem Description: Devu is a dumb guy, his learning curve is very slow. You are supposed to teach him n subjects, the ith subject has ci chapters. When you teach him, you are supposed to teach all the chapters of a subject continuously. Let us say that his initial per chapter learning power of a subject is x hours. In other words he can learn a chapter of a particular subject in x hours. Well Devu is not complete dumb, there is a good thing about him too. If you teach him a subject, then time required to teach any chapter of the next subject will require exactly 1 hour less than previously required (see the examples to understand it more clearly). Note that his per chapter learning power can not be less than 1 hour. You can teach him the n subjects in any possible order. Find out minimum amount of time (in hours) Devu will take to understand all the subjects and you will be free to do some enjoying task rather than teaching a dumb guy. Please be careful that answer might not fit in 32 bit data type. Input Specification: The first line will contain two space separated integers n, x (1<=≤<=n,<=x<=≤<=105). The next line will contain n space separated integers: c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=105). Output Specification: Output a single integer representing the answer to the problem. Demo Input: ['2 3\n4 1\n', '4 2\n5 1 2 1\n', '3 3\n1 1 1\n'] Demo Output: ['11\n', '10\n', '6\n'] Note: Look at the first example. Consider the order of subjects: 1, 2. When you teach Devu the first subject, it will take him 3 hours per chapter, so it will take 12 hours to teach first subject. After teaching first subject, his per chapter learning time will be 2 hours. Now teaching him second subject will take 2 × 1 = 2 hours. Hence you will need to spend 12 + 2 = 14 hours. Consider the order of subjects: 2, 1. When you teach Devu the second subject, then it will take him 3 hours per chapter, so it will take 3 × 1 = 3 hours to teach the second subject. After teaching the second subject, his per chapter learning time will be 2 hours. Now teaching him the first subject will take 2 × 4 = 8 hours. Hence you will need to spend 11 hours. So overall, minimum of both the cases is 11 hours. Look at the third example. The order in this example doesn't matter. When you teach Devu the first subject, it will take him 3 hours per chapter. When you teach Devu the second subject, it will take him 2 hours per chapter. When you teach Devu the third subject, it will take him 1 hours per chapter. In total it takes 6 hours.	```python # ý tưởng: sắp xếp mảng c tăng dần, sau đó dùng biến i để duyệt xuôi và ngược lại # mỗi lượt duyệt tính toán thời gian, sau đó so sánh 2 thời gian và in ra kết quả nhỏ hơn # độ phức tạp: O(n) n, x = map(int, input().split()) c = list(map(int, input().split())) c.sort() t1 = t2 = 0 i = 0 x_ = x while i < n: t1 += c[i] * x if x > 1: x -= 1 i += 1 while i != 0: i -= 1 t2 += c[i] * x_ if x_ > 1: x_ -= 1 print(min(t1, t2)) ```	3
900	A	Find Extra One	PROGRAMMING	800	[ "geometry", "implementation" ]		null	null	You have n distinct points on a plane, none of them lie on OY axis. Check that there is a point after removal of which the remaining points are located on one side of the OY axis.	The first line contains a single positive integer n (2<=≤<=n<=≤<=105). The following n lines contain coordinates of the points. The i-th of these lines contains two single integers xi and yi (\|xi\|,<=\|yi\|<=≤<=109, xi<=≠<=0). No two points coincide.	Print "Yes" if there is such a point, "No" — otherwise. You can print every letter in any case (upper or lower).	[ "3\n1 1\n-1 -1\n2 -1\n", "4\n1 1\n2 2\n-1 1\n-2 2\n", "3\n1 2\n2 1\n4 60\n" ]	[ "Yes", "No", "Yes" ]	In the first example the second point can be removed. In the second example there is no suitable for the condition point. In the third example any point can be removed.	500	[ { "input": "3\n1 1\n-1 -1\n2 -1", "output": "Yes" }, { "input": "4\n1 1\n2 2\n-1 1\n-2 2", "output": "No" }, { "input": "3\n1 2\n2 1\n4 60", "output": "Yes" }, { "input": "10\n1 1\n2 2\n3 3\n4 4\n5 5\n6 6\n7 7\n8 8\n9 9\n-1 -1", "output": "Yes" }, { "input": "2\n1000000000 -1000000000\n1000000000 1000000000", "output": "Yes" }, { "input": "23\n-1 1\n-1 2\n-2 4\n-7 -8\n-3 3\n-9 -14\n-5 3\n-6 2\n-7 11\n-4 4\n-8 5\n1 1\n-1 -1\n-1 -2\n-2 -4\n-7 8\n-3 -3\n-9 14\n-5 -3\n-6 -2\n-7 -11\n-4 -4\n-8 -5", "output": "Yes" }, { "input": "4\n-1000000000 -1000000000\n1000000000 1000000000\n-1000000000 1000000000\n1000000000 -1000000000", "output": "No" }, { "input": "2\n-1000000000 1000000000\n-1000000000 -1000000000", "output": "Yes" }, { "input": "5\n-1 -1\n-2 2\n2 2\n2 -2\n3 2", "output": "No" }, { "input": "2\n1 0\n-1 0", "output": "Yes" }, { "input": "4\n-1 1\n-1 2\n-1 3\n-1 4", "output": "Yes" }, { "input": "2\n-1 0\n1 0", "output": "Yes" }, { "input": "2\n1 2\n-1 2", "output": "Yes" }, { "input": "2\n8 0\n7 0", "output": "Yes" }, { "input": "6\n-1 0\n-2 0\n-1 -1\n-1 5\n1 0\n1 1", "output": "No" }, { "input": "4\n1 0\n2 0\n-1 0\n-2 0", "output": "No" }, { "input": "4\n-2 0\n-1 0\n1 0\n2 0", "output": "No" }, { "input": "2\n1 1\n-1 1", "output": "Yes" }, { "input": "4\n-1 0\n-2 0\n1 0\n2 0", "output": "No" }, { "input": "2\n4 3\n-4 -2", "output": "Yes" }, { "input": "4\n1 0\n2 0\n-1 1\n-1 2", "output": "No" }, { "input": "5\n1 1\n2 1\n3 1\n-1 1\n-2 1", "output": "No" }, { "input": "2\n1 1\n-1 -1", "output": "Yes" }, { "input": "4\n1 2\n1 0\n1 -2\n-1 2", "output": "Yes" }, { "input": "5\n-2 3\n-3 3\n4 2\n3 2\n1 2", "output": "No" }, { "input": "3\n2 0\n3 0\n4 0", "output": "Yes" }, { "input": "5\n-3 1\n-2 1\n-1 1\n1 1\n2 1", "output": "No" }, { "input": "4\n-3 0\n1 0\n2 0\n3 0", "output": "Yes" }, { "input": "2\n1 0\n-1 1", "output": "Yes" }, { "input": "3\n-1 0\n1 0\n2 0", "output": "Yes" }, { "input": "5\n1 0\n3 0\n-1 0\n-6 0\n-4 1", "output": "No" }, { "input": "5\n-1 2\n-2 2\n-3 1\n1 2\n2 3", "output": "No" }, { "input": "3\n1 0\n-1 0\n-2 0", "output": "Yes" }, { "input": "4\n1 0\n2 0\n3 1\n4 1", "output": "Yes" }, { "input": "4\n1 0\n1 2\n1 3\n-1 5", "output": "Yes" }, { "input": "4\n2 2\n2 5\n-2 3\n-2 0", "output": "No" }, { "input": "4\n1 1\n-1 1\n-1 0\n-1 -1", "output": "Yes" }, { "input": "4\n2 0\n3 0\n-3 -3\n-3 -4", "output": "No" }, { "input": "4\n-1 0\n-2 0\n-3 0\n-4 0", "output": "Yes" }, { "input": "2\n-1 1\n1 1", "output": "Yes" }, { "input": "5\n1 1\n2 2\n3 3\n-4 -4\n-5 -5", "output": "No" }, { "input": "5\n2 0\n3 0\n4 0\n5 0\n6 0", "output": "Yes" }, { "input": "2\n-1 2\n1 2", "output": "Yes" }, { "input": "4\n1 1\n2 1\n-3 0\n-4 0", "output": "No" }, { "input": "4\n-1 0\n-2 0\n3 0\n4 0", "output": "No" }, { "input": "3\n3 0\n2 0\n1 0", "output": "Yes" }, { "input": "4\n-2 0\n-3 0\n1 -1\n3 1", "output": "No" }, { "input": "3\n-1 -1\n1 1\n2 2", "output": "Yes" }, { "input": "4\n-2 0\n-1 0\n2 0\n1 0", "output": "No" }, { "input": "2\n-3 5\n3 5", "output": "Yes" }, { "input": "2\n-1 5\n1 5", "output": "Yes" }, { "input": "4\n2 0\n3 0\n-2 0\n-3 0", "output": "No" }, { "input": "3\n-1 1\n1 1\n1 -1", "output": "Yes" }, { "input": "2\n1 0\n2 0", "output": "Yes" }, { "input": "4\n-1 1\n-2 1\n2 -1\n3 -1", "output": "No" }, { "input": "5\n1 0\n2 0\n3 0\n-1 0\n-2 0", "output": "No" }, { "input": "4\n-3 0\n-4 0\n-5 0\n-6 0", "output": "Yes" }, { "input": "6\n-3 0\n-2 0\n-1 0\n1 0\n2 0\n3 0", "output": "No" }, { "input": "4\n5 0\n5 1\n6 0\n6 1", "output": "Yes" } ]	1,666,717,370	2,147,483,647	PyPy 3-64	OK	TESTS	71	639	10,240,000	n=int(input()) c=0 d=0 for i in range(n): xi,yi=[int(j) for j in input().split()] if xi>0: c+=1 else : d+=1 if min(c,d)<=1: print("YES") else : print("NO")	Title: Find Extra One Time Limit: None seconds Memory Limit: None megabytes Problem Description: You have n distinct points on a plane, none of them lie on OY axis. Check that there is a point after removal of which the remaining points are located on one side of the OY axis. Input Specification: The first line contains a single positive integer n (2<=≤<=n<=≤<=105). The following n lines contain coordinates of the points. The i-th of these lines contains two single integers xi and yi (\|xi\|,<=\|yi\|<=≤<=109, xi<=≠<=0). No two points coincide. Output Specification: Print "Yes" if there is such a point, "No" — otherwise. You can print every letter in any case (upper or lower). Demo Input: ['3\n1 1\n-1 -1\n2 -1\n', '4\n1 1\n2 2\n-1 1\n-2 2\n', '3\n1 2\n2 1\n4 60\n'] Demo Output: ['Yes', 'No', 'Yes'] Note: In the first example the second point can be removed. In the second example there is no suitable for the condition point. In the third example any point can be removed.	```python n=int(input()) c=0 d=0 for i in range(n): xi,yi=[int(j) for j in input().split()] if xi>0: c+=1 else : d+=1 if min(c,d)<=1: print("YES") else : print("NO") ```	3
558	A	Lala Land and Apple Trees	PROGRAMMING	1,100	[ "brute force", "implementation", "sortings" ]		null	null	Amr lives in Lala Land. Lala Land is a very beautiful country that is located on a coordinate line. Lala Land is famous with its apple trees growing everywhere. Lala Land has exactly n apple trees. Tree number i is located in a position xi and has ai apples growing on it. Amr wants to collect apples from the apple trees. Amr currently stands in x<==<=0 position. At the beginning, he can choose whether to go right or left. He'll continue in his direction until he meets an apple tree he didn't visit before. He'll take all of its apples and then reverse his direction, continue walking in this direction until he meets another apple tree he didn't visit before and so on. In the other words, Amr reverses his direction when visiting each new apple tree. Amr will stop collecting apples when there are no more trees he didn't visit in the direction he is facing. What is the maximum number of apples he can collect?	The first line contains one number n (1<=≤<=n<=≤<=100), the number of apple trees in Lala Land. The following n lines contains two integers each xi, ai (<=-<=105<=≤<=xi<=≤<=105, xi<=≠<=0, 1<=≤<=ai<=≤<=105), representing the position of the i-th tree and number of apples on it. It's guaranteed that there is at most one apple tree at each coordinate. It's guaranteed that no tree grows in point 0.	Output the maximum number of apples Amr can collect.	[ "2\n-1 5\n1 5\n", "3\n-2 2\n1 4\n-1 3\n", "3\n1 9\n3 5\n7 10\n" ]	[ "10", "9", "9" ]	In the first sample test it doesn't matter if Amr chose at first to go left or right. In both cases he'll get all the apples. In the second sample test the optimal solution is to go left to x = - 1, collect apples from there, then the direction will be reversed, Amr has to go to x = 1, collect apples from there, then the direction will be reversed and Amr goes to the final tree x = - 2. In the third sample test the optimal solution is to go right to x = 1, collect apples from there, then the direction will be reversed and Amr will not be able to collect anymore apples because there are no apple trees to his left.	500	[ { "input": "2\n-1 5\n1 5", "output": "10" }, { "input": "3\n-2 2\n1 4\n-1 3", "output": "9" }, { "input": "3\n1 9\n3 5\n7 10", "output": "9" }, { "input": "1\n1 1", "output": "1" }, { "input": "4\n10000 100000\n-1000 100000\n-2 100000\n-1 100000", "output": "300000" }, { "input": "1\n-1 1", "output": "1" }, { "input": "27\n-30721 24576\n-6620 92252\n88986 24715\n-94356 10509\n-6543 29234\n-68554 69530\n39176 96911\n67266 99669\n95905 51002\n-94093 92134\n65382 23947\n-6525 79426\n-448 67531\n-70083 26921\n-86333 50029\n48924 8036\n-27228 5349\n6022 10691\n-13840 56735\n50398 58794\n-63258 45557\n-27792 77057\n98295 1203\n-51294 18757\n35037 61941\n-30112 13076\n82334 20463", "output": "1036452" }, { "input": "18\n-18697 44186\n56333 51938\n-75688 49735\n77762 14039\n-43996 81060\n69700 49107\n74532 45568\n-94476 203\n-92347 90745\n58921 44650\n57563 63561\n44630 8486\n35750 5999\n3249 34202\n75358 68110\n-33245 60458\n-88148 2342\n87856 85532", "output": "632240" }, { "input": "28\n49728 91049\n-42863 4175\n-89214 22191\n77977 16965\n-42960 87627\n-84329 97494\n89270 75906\n-13695 28908\n-72279 13607\n-97327 87062\n-58682 32094\n39108 99936\n29304 93784\n-63886 48237\n-77359 57648\n-87013 79017\n-41086 35033\n-60613 83555\n-48955 56816\n-20568 26802\n52113 25160\n-88885 45294\n22601 42971\n62693 65662\n-15985 5357\n86671 8522\n-59921 11271\n-79304 25044", "output": "891593" }, { "input": "25\n5704 67795\n6766 31836\n-41715 89987\n76854 9848\n11648 90020\n-79763 10107\n96971 92636\n-64205 71937\n87997 38273\n-9782 57187\n22186 6905\n-41130 40258\n-28403 66579\n19578 43375\n35735 52929\n-52417 89388\n-89430 1939\n9401 43491\n-11228 10112\n-86859 16024\n-51486 33467\n-80578 65080\n-52820 98445\n-89165 7657\n-97106 79422", "output": "1109655" }, { "input": "16\n-41732 47681\n44295 28942\n-75194 99827\n69982 18020\n-75378 22026\n80032 22908\n-34879 41113\n36257 48574\n-35882 84333\n29646 71151\n-86214 80886\n72724 39364\n-42529 60880\n29150 29921\n-8471 80781\n79387 70834", "output": "847241" }, { "input": "3\n-94146 4473\n28707 99079\n-4153 8857", "output": "112409" }, { "input": "3\n-3 3\n-2 2\n-1 1", "output": "1" }, { "input": "2\n100000 3\n-100000 9", "output": "12" }, { "input": "2\n-100000 100000\n100000 99999", "output": "199999" } ]	1,586,763,521	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	0	202	2,048,000	n=int(input()) l,d=[],[] for i in range(n): x,y=map(int,input().split()) if(x<0): l.append([x,y]) else: d.append([x,y]) l.sort(reverse=True) d.sort() s=0 while(len(l) and len(d)): s=s+l[0][1]+d[0][1] l.pop(0) l.pop(0) if(len(l)): s=s+l[0][1] if(len(d)): s=s+d[0][1] print(s)	Title: Lala Land and Apple Trees Time Limit: None seconds Memory Limit: None megabytes Problem Description: Amr lives in Lala Land. Lala Land is a very beautiful country that is located on a coordinate line. Lala Land is famous with its apple trees growing everywhere. Lala Land has exactly n apple trees. Tree number i is located in a position xi and has ai apples growing on it. Amr wants to collect apples from the apple trees. Amr currently stands in x<==<=0 position. At the beginning, he can choose whether to go right or left. He'll continue in his direction until he meets an apple tree he didn't visit before. He'll take all of its apples and then reverse his direction, continue walking in this direction until he meets another apple tree he didn't visit before and so on. In the other words, Amr reverses his direction when visiting each new apple tree. Amr will stop collecting apples when there are no more trees he didn't visit in the direction he is facing. What is the maximum number of apples he can collect? Input Specification: The first line contains one number n (1<=≤<=n<=≤<=100), the number of apple trees in Lala Land. The following n lines contains two integers each xi, ai (<=-<=105<=≤<=xi<=≤<=105, xi<=≠<=0, 1<=≤<=ai<=≤<=105), representing the position of the i-th tree and number of apples on it. It's guaranteed that there is at most one apple tree at each coordinate. It's guaranteed that no tree grows in point 0. Output Specification: Output the maximum number of apples Amr can collect. Demo Input: ['2\n-1 5\n1 5\n', '3\n-2 2\n1 4\n-1 3\n', '3\n1 9\n3 5\n7 10\n'] Demo Output: ['10', '9', '9'] Note: In the first sample test it doesn't matter if Amr chose at first to go left or right. In both cases he'll get all the apples. In the second sample test the optimal solution is to go left to x = - 1, collect apples from there, then the direction will be reversed, Amr has to go to x = 1, collect apples from there, then the direction will be reversed and Amr goes to the final tree x = - 2. In the third sample test the optimal solution is to go right to x = 1, collect apples from there, then the direction will be reversed and Amr will not be able to collect anymore apples because there are no apple trees to his left.	```python n=int(input()) l,d=[],[] for i in range(n): x,y=map(int,input().split()) if(x<0): l.append([x,y]) else: d.append([x,y]) l.sort(reverse=True) d.sort() s=0 while(len(l) and len(d)): s=s+l[0][1]+d[0][1] l.pop(0) l.pop(0) if(len(l)): s=s+l[0][1] if(len(d)): s=s+d[0][1] print(s) ```	-1
337	A	Puzzles	PROGRAMMING	900	[ "greedy" ]		null	null	The end of the school year is near and Ms. Manana, the teacher, will soon have to say goodbye to a yet another class. She decided to prepare a goodbye present for her n students and give each of them a jigsaw puzzle (which, as wikipedia states, is a tiling puzzle that requires the assembly of numerous small, often oddly shaped, interlocking and tessellating pieces). The shop assistant told the teacher that there are m puzzles in the shop, but they might differ in difficulty and size. Specifically, the first jigsaw puzzle consists of f1 pieces, the second one consists of f2 pieces and so on. Ms. Manana doesn't want to upset the children, so she decided that the difference between the numbers of pieces in her presents must be as small as possible. Let A be the number of pieces in the largest puzzle that the teacher buys and B be the number of pieces in the smallest such puzzle. She wants to choose such n puzzles that A<=-<=B is minimum possible. Help the teacher and find the least possible value of A<=-<=B.	The first line contains space-separated integers n and m (2<=≤<=n<=≤<=m<=≤<=50). The second line contains m space-separated integers f1,<=f2,<=...,<=fm (4<=≤<=fi<=≤<=1000) — the quantities of pieces in the puzzles sold in the shop.	Print a single integer — the least possible difference the teacher can obtain.	[ "4 6\n10 12 10 7 5 22\n" ]	[ "5\n" ]	Sample 1. The class has 4 students. The shop sells 6 puzzles. If Ms. Manana buys the first four puzzles consisting of 10, 12, 10 and 7 pieces correspondingly, then the difference between the sizes of the largest and the smallest puzzle will be equal to 5. It is impossible to obtain a smaller difference. Note that the teacher can also buy puzzles 1, 3, 4 and 5 to obtain the difference 5.	500	[ { "input": "4 6\n10 12 10 7 5 22", "output": "5" }, { "input": "2 2\n4 4", "output": "0" }, { "input": "2 10\n4 5 6 7 8 9 10 11 12 12", "output": "0" }, { "input": "4 5\n818 136 713 59 946", "output": "759" }, { "input": "3 20\n446 852 783 313 549 965 40 88 86 617 479 118 768 34 47 826 366 957 463 903", "output": "13" }, { "input": "2 25\n782 633 152 416 432 825 115 97 386 357 836 310 530 413 354 373 847 882 913 682 729 582 671 674 94", "output": "3" }, { "input": "4 25\n226 790 628 528 114 64 239 279 619 39 894 763 763 847 525 93 882 697 999 643 650 244 159 884 190", "output": "31" }, { "input": "2 50\n971 889 628 39 253 157 925 694 129 516 660 272 738 319 611 816 142 717 514 392 41 105 132 676 958 118 306 768 600 685 103 857 704 346 857 309 23 718 618 161 176 379 846 834 640 468 952 878 164 997", "output": "0" }, { "input": "25 50\n582 146 750 905 313 509 402 21 488 512 32 898 282 64 579 869 37 996 377 929 975 697 666 837 311 205 116 992 533 298 648 268 54 479 792 595 152 69 267 417 184 433 894 603 988 712 24 414 301 176", "output": "412" }, { "input": "49 50\n58 820 826 960 271 294 473 102 925 318 729 672 244 914 796 646 868 6 893 882 726 203 528 498 271 195 355 459 721 680 547 147 631 116 169 804 145 996 133 559 110 257 771 476 576 251 607 314 427 886", "output": "938" }, { "input": "50 50\n374 573 323 744 190 806 485 247 628 336 491 606 702 321 991 678 337 579 86 240 993 208 668 686 855 205 363 177 719 249 896 919 782 434 59 647 787 996 286 216 636 212 546 903 958 559 544 126 608 993", "output": "937" }, { "input": "6 50\n6 8 7 8 5 4 4 5 7 8 6 5 7 4 7 7 7 8 6 4 6 6 8 8 7 7 8 7 5 8 5 4 4 7 8 4 4 6 6 6 8 7 4 7 6 6 5 8 4 7", "output": "0" }, { "input": "37 50\n14 5 11 17 8 20 19 16 20 11 17 20 16 9 14 14 13 18 11 20 8 8 8 5 19 17 6 18 10 20 9 7 12 6 14 17 4 4 10 13 7 4 11 6 20 19 12 12 15 19", "output": "12" }, { "input": "40 50\n4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4", "output": "0" }, { "input": "40 50\n17 20 43 26 41 37 14 8 30 35 30 24 43 8 42 9 41 50 41 35 27 32 35 43 28 36 31 16 5 7 23 16 14 29 8 39 12 16 36 18 49 39 33 37 38 6 6 27 23 17", "output": "31" }, { "input": "2 2\n1000 4", "output": "996" }, { "input": "2 3\n4 502 1000", "output": "498" }, { "input": "3 3\n4 1000 4", "output": "996" } ]	1,675,086,755	2,147,483,647	Python 3	OK	TESTS	18	92	0	n,m=map(int,input().split()) li=list(map(int,input().split())) li.sort() l=[] for i in range(m-n+1): l.append(li[i+n-1]-li[i]) print(min(l))	Title: Puzzles Time Limit: None seconds Memory Limit: None megabytes Problem Description: The end of the school year is near and Ms. Manana, the teacher, will soon have to say goodbye to a yet another class. She decided to prepare a goodbye present for her n students and give each of them a jigsaw puzzle (which, as wikipedia states, is a tiling puzzle that requires the assembly of numerous small, often oddly shaped, interlocking and tessellating pieces). The shop assistant told the teacher that there are m puzzles in the shop, but they might differ in difficulty and size. Specifically, the first jigsaw puzzle consists of f1 pieces, the second one consists of f2 pieces and so on. Ms. Manana doesn't want to upset the children, so she decided that the difference between the numbers of pieces in her presents must be as small as possible. Let A be the number of pieces in the largest puzzle that the teacher buys and B be the number of pieces in the smallest such puzzle. She wants to choose such n puzzles that A<=-<=B is minimum possible. Help the teacher and find the least possible value of A<=-<=B. Input Specification: The first line contains space-separated integers n and m (2<=≤<=n<=≤<=m<=≤<=50). The second line contains m space-separated integers f1,<=f2,<=...,<=fm (4<=≤<=fi<=≤<=1000) — the quantities of pieces in the puzzles sold in the shop. Output Specification: Print a single integer — the least possible difference the teacher can obtain. Demo Input: ['4 6\n10 12 10 7 5 22\n'] Demo Output: ['5\n'] Note: Sample 1. The class has 4 students. The shop sells 6 puzzles. If Ms. Manana buys the first four puzzles consisting of 10, 12, 10 and 7 pieces correspondingly, then the difference between the sizes of the largest and the smallest puzzle will be equal to 5. It is impossible to obtain a smaller difference. Note that the teacher can also buy puzzles 1, 3, 4 and 5 to obtain the difference 5.	```python n,m=map(int,input().split()) li=list(map(int,input().split())) li.sort() l=[] for i in range(m-n+1): l.append(li[i+n-1]-li[i]) print(min(l)) ```	3
711	A	Bus to Udayland	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	ZS the Coder and Chris the Baboon are travelling to Udayland! To get there, they have to get on the special IOI bus. The IOI bus has n rows of seats. There are 4 seats in each row, and the seats are separated into pairs by a walkway. When ZS and Chris came, some places in the bus was already occupied. ZS and Chris are good friends. They insist to get a pair of neighbouring empty seats. Two seats are considered neighbouring if they are in the same row and in the same pair. Given the configuration of the bus, can you help ZS and Chris determine where they should sit?	The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of rows of seats in the bus. Then, n lines follow. Each line contains exactly 5 characters, the first two of them denote the first pair of seats in the row, the third character denotes the walkway (it always equals '\|') and the last two of them denote the second pair of seats in the row. Each character, except the walkway, equals to 'O' or to 'X'. 'O' denotes an empty seat, 'X' denotes an occupied seat. See the sample cases for more details.	If it is possible for Chris and ZS to sit at neighbouring empty seats, print "YES" (without quotes) in the first line. In the next n lines print the bus configuration, where the characters in the pair of seats for Chris and ZS is changed with characters '+'. Thus the configuration should differ from the input one by exactly two charaters (they should be equal to 'O' in the input and to '+' in the output). If there is no pair of seats for Chris and ZS, print "NO" (without quotes) in a single line. If there are multiple solutions, you may print any of them.	[ "6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n", "4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX\n", "5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO\n" ]	[ "YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n", "NO\n", "YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO\n" ]	Note that the following is an incorrect configuration for the first sample case because the seats must be in the same pair. O+\|+X XO\|XX OX\|OO XX\|OX OO\|OO OO\|XX	500	[ { "input": "6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX", "output": "YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX" }, { "input": "4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX", "output": "NO" }, { "input": "5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO", "output": "YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO" }, { "input": "1\nXO\|OX", "output": "NO" }, { "input": "1\nOO\|OO", "output": "YES\n++\|OO" }, { "input": "4\nXO\|XX\nXX\|XO\nOX\|XX\nXO\|XO", "output": "NO" }, { "input": "9\nOX\|XO\nOX\|XO\nXO\|OX\nOX\|OX\nXO\|OX\nXX\|OO\nOX\|OX\nOX\|XO\nOX\|OX", "output": "YES\nOX\|XO\nOX\|XO\nXO\|OX\nOX\|OX\nXO\|OX\nXX\|++\nOX\|OX\nOX\|XO\nOX\|OX" }, { "input": "61\nOX\|XX\nOX\|XX\nOX\|XX\nXO\|XO\nXX\|XO\nXX\|XX\nXX\|XX\nOX\|XX\nXO\|XO\nOX\|XO\nXO\|OX\nXX\|XX\nXX\|XX\nOX\|OX\nXX\|OX\nOX\|XO\nOX\|XO\nXO\|OX\nXO\|XX\nOX\|XX\nOX\|XX\nXO\|OX\nXO\|XX\nXO\|XX\nOX\|XX\nXX\|XX\nXX\|XO\nXO\|XX\nXX\|XX\nXO\|OX\nXX\|XO\nXO\|XX\nXO\|XO\nXO\|OX\nXX\|OX\nXO\|OX\nOX\|XX\nXX\|OX\nXX\|XX\nOX\|XO\nOX\|XX\nXO\|OX\nOX\|XX\nOX\|XX\nXO\|XO\nXO\|XX\nOX\|XX\nXO\|XO\nOX\|XX\nXX\|XX\nOX\|XO\nXO\|XO\nXO\|XO\nOX\|OX\nXX\|OX\nXX\|OX\nOX\|XO\nOX\|XX\nOX\|OX\nXO\|XX\nOX\|XX", "output": "NO" }, { "input": "1\nOO\|XX", "output": "YES\n++\|XX" }, { "input": "10\nOO\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|XX", "output": "YES\n++\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|XX" }, { "input": "10\nXX\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|OO", "output": "YES\nXX\|XX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXO\|OX\nXX\|++" }, { "input": "5\nXX\|XX\nXX\|XX\nXO\|OX\nOO\|OX\nOX\|XO", "output": "YES\nXX\|XX\nXX\|XX\nXO\|OX\n++\|OX\nOX\|XO" }, { "input": "6\nOO\|XX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|XX\nOX\|XX", "output": "YES\n++\|XX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|XX\nOX\|XX" } ]	1,638,114,068	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	4	62	0	n = int(input()) s = "" flag = 0 for i in range(n): x = input() if "OO" in x and flag == 0: x = x.replace("OO","++") s += x+"\n" flag = 1 else: s += x+"\n" if flag ==0: print("NO") else: print("YES") print(s)	Title: Bus to Udayland Time Limit: None seconds Memory Limit: None megabytes Problem Description: ZS the Coder and Chris the Baboon are travelling to Udayland! To get there, they have to get on the special IOI bus. The IOI bus has n rows of seats. There are 4 seats in each row, and the seats are separated into pairs by a walkway. When ZS and Chris came, some places in the bus was already occupied. ZS and Chris are good friends. They insist to get a pair of neighbouring empty seats. Two seats are considered neighbouring if they are in the same row and in the same pair. Given the configuration of the bus, can you help ZS and Chris determine where they should sit? Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of rows of seats in the bus. Then, n lines follow. Each line contains exactly 5 characters, the first two of them denote the first pair of seats in the row, the third character denotes the walkway (it always equals '\|') and the last two of them denote the second pair of seats in the row. Each character, except the walkway, equals to 'O' or to 'X'. 'O' denotes an empty seat, 'X' denotes an occupied seat. See the sample cases for more details. Output Specification: If it is possible for Chris and ZS to sit at neighbouring empty seats, print "YES" (without quotes) in the first line. In the next n lines print the bus configuration, where the characters in the pair of seats for Chris and ZS is changed with characters '+'. Thus the configuration should differ from the input one by exactly two charaters (they should be equal to 'O' in the input and to '+' in the output). If there is no pair of seats for Chris and ZS, print "NO" (without quotes) in a single line. If there are multiple solutions, you may print any of them. Demo Input: ['6\nOO\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n', '4\nXO\|OX\nXO\|XX\nOX\|OX\nXX\|OX\n', '5\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|OO\nOX\|XO\n'] Demo Output: ['YES\n++\|OX\nXO\|XX\nOX\|OO\nXX\|OX\nOO\|OO\nOO\|XX\n', 'NO\n', 'YES\nXX\|XX\nXX\|XX\nXO\|OX\nXO\|++\nOX\|XO\n'] Note: Note that the following is an incorrect configuration for the first sample case because the seats must be in the same pair. O+\|+X XO\|XX OX\|OO XX\|OX OO\|OO OO\|XX	```python n = int(input()) s = "" flag = 0 for i in range(n): x = input() if "OO" in x and flag == 0: x = x.replace("OO","++") s += x+"\n" flag = 1 else: s += x+"\n" if flag ==0: print("NO") else: print("YES") print(s) ```	0
892	A	Greed	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	Jafar has n cans of cola. Each can is described by two integers: remaining volume of cola ai and can's capacity bi (ai <=≤<= bi). Jafar has decided to pour all remaining cola into just 2 cans, determine if he can do this or not!	The first line of the input contains one integer n (2<=≤<=n<=≤<=100<=000) — number of cola cans. The second line contains n space-separated integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=109) — volume of remaining cola in cans. The third line contains n space-separated integers that b1,<=b2,<=...,<=bn (ai<=≤<=bi<=≤<=109) — capacities of the cans.	Print "YES" (without quotes) if it is possible to pour all remaining cola in 2 cans. Otherwise print "NO" (without quotes). You can print each letter in any case (upper or lower).	[ "2\n3 5\n3 6\n", "3\n6 8 9\n6 10 12\n", "5\n0 0 5 0 0\n1 1 8 10 5\n", "4\n4 1 0 3\n5 2 2 3\n" ]	[ "YES\n", "NO\n", "YES\n", "YES\n" ]	In the first sample, there are already 2 cans, so the answer is "YES".	500	[ { "input": "2\n3 5\n3 6", "output": "YES" }, { "input": "3\n6 8 9\n6 10 12", "output": "NO" }, { "input": "5\n0 0 5 0 0\n1 1 8 10 5", "output": "YES" }, { "input": "4\n4 1 0 3\n5 2 2 3", "output": "YES" }, { "input": "10\n9 10 24 11 1 7 8 3 28 14\n86 20 34 11 22 94 8 16 73 85", "output": "YES" }, { "input": "4\n25 35 7 31\n70 37 43 35", "output": "YES" }, { "input": "10\n15 26 15 14 14 39 40 4 25 39\n27 72 16 44 69 48 53 17 63 42", "output": "NO" }, { "input": "5\n22 5 19 16 32\n26 10 43 38 37", "output": "NO" }, { "input": "5\n32 4 22 40 26\n39 20 36 98 44", "output": "YES" }, { "input": "6\n18 25 3 10 13 37\n38 73 19 35 24 37", "output": "YES" }, { "input": "2\n2 2\n2 2", "output": "YES" }, { "input": "2\n2 5\n2 5", "output": "YES" }, { "input": "2\n1000 1008\n10000 2352", "output": "YES" }, { "input": "5\n1 2 3 4 5\n1 2 3 4 11", "output": "YES" }, { "input": "4\n1 0 0 0\n2 0 0 0", "output": "YES" }, { "input": "2\n0 0\n1 2", "output": "YES" }, { "input": "3\n9 13 4\n10 14 5", "output": "NO" }, { "input": "2\n0 0\n1 1", "output": "YES" }, { "input": "5\n1 1 2 3 1\n1 1 2 3 4", "output": "NO" }, { "input": "2\n0 0\n0 0", "output": "YES" }, { "input": "3\n5 1 1\n5 5 5", "output": "YES" } ]	1,611,300,405	2,147,483,647	PyPy 3	OK	TESTS	39	607	19,660,800	import bisect import collections import copy import functools import heapq import itertools import math import random import re import sys import time import string from typing import List # sys.setrecursionlimit(999) n, = map(int,input().split()) arr = list(map(int,input().split())) s1 = sum(arr) arr = list(map(int,input().split())) arr.sort() s2 = arr[-1]+arr[-2] print("YNEOS"[s2<s1::2])	Title: Greed Time Limit: None seconds Memory Limit: None megabytes Problem Description: Jafar has n cans of cola. Each can is described by two integers: remaining volume of cola ai and can's capacity bi (ai <=≤<= bi). Jafar has decided to pour all remaining cola into just 2 cans, determine if he can do this or not! Input Specification: The first line of the input contains one integer n (2<=≤<=n<=≤<=100<=000) — number of cola cans. The second line contains n space-separated integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=109) — volume of remaining cola in cans. The third line contains n space-separated integers that b1,<=b2,<=...,<=bn (ai<=≤<=bi<=≤<=109) — capacities of the cans. Output Specification: Print "YES" (without quotes) if it is possible to pour all remaining cola in 2 cans. Otherwise print "NO" (without quotes). You can print each letter in any case (upper or lower). Demo Input: ['2\n3 5\n3 6\n', '3\n6 8 9\n6 10 12\n', '5\n0 0 5 0 0\n1 1 8 10 5\n', '4\n4 1 0 3\n5 2 2 3\n'] Demo Output: ['YES\n', 'NO\n', 'YES\n', 'YES\n'] Note: In the first sample, there are already 2 cans, so the answer is "YES".	```python import bisect import collections import copy import functools import heapq import itertools import math import random import re import sys import time import string from typing import List # sys.setrecursionlimit(999) n, = map(int,input().split()) arr = list(map(int,input().split())) s1 = sum(arr) arr = list(map(int,input().split())) arr.sort() s2 = arr[-1]+arr[-2] print("YNEOS"[s2<s1::2]) ```	3
644	B	Processing Queries	PROGRAMMING	1,700	[ "*special", "constructive algorithms", "data structures", "two pointers" ]		null	null	In this problem you have to simulate the workflow of one-thread server. There are n queries to process, the i-th will be received at moment ti and needs to be processed for di units of time. All ti are guaranteed to be distinct. When a query appears server may react in three possible ways: 1. If server is free and query queue is empty, then server immediately starts to process this query. 1. If server is busy and there are less than b queries in the queue, then new query is added to the end of the queue. 1. If server is busy and there are already b queries pending in the queue, then new query is just rejected and will never be processed. As soon as server finished to process some query, it picks new one from the queue (if it's not empty, of course). If a new query comes at some moment x, and the server finishes to process another query at exactly the same moment, we consider that first query is picked from the queue and only then new query appears. For each query find the moment when the server will finish to process it or print -1 if this query will be rejected.	The first line of the input contains two integers n and b (1<=≤<=n,<=b<=≤<=200<=000) — the number of queries and the maximum possible size of the query queue. Then follow n lines with queries descriptions (in chronological order). Each description consists of two integers ti and di (1<=≤<=ti,<=di<=≤<=109), where ti is the moment of time when the i-th query appears and di is the time server needs to process it. It is guaranteed that ti<=-<=1<=<<=ti for all i<=><=1.	Print the sequence of n integers e1,<=e2,<=...,<=en, where ei is the moment the server will finish to process the i-th query (queries are numbered in the order they appear in the input) or <=-<=1 if the corresponding query will be rejected.	[ "5 1\n2 9\n4 8\n10 9\n15 2\n19 1\n", "4 1\n2 8\n4 8\n10 9\n15 2\n" ]	[ "11 19 -1 21 22 \n", "10 18 27 -1 \n" ]	Consider the first sample. 1. The server will start to process first query at the moment 2 and will finish to process it at the moment 11. 1. At the moment 4 second query appears and proceeds to the queue. 1. At the moment 10 third query appears. However, the server is still busy with query 1, b = 1 and there is already query 2 pending in the queue, so third query is just rejected. 1. At the moment 11 server will finish to process first query and will take the second query from the queue. 1. At the moment 15 fourth query appears. As the server is currently busy it proceeds to the queue. 1. At the moment 19 two events occur simultaneously: server finishes to proceed the second query and the fifth query appears. As was said in the statement above, first server will finish to process the second query, then it will pick the fourth query from the queue and only then will the fifth query appear. As the queue is empty fifth query is proceed there. 1. Server finishes to process query number 4 at the moment 21. Query number 5 is picked from the queue. 1. Server finishes to process query number 5 at the moment 22.	1,000	[ { "input": "5 1\n2 9\n4 8\n10 9\n15 2\n19 1", "output": "11 19 -1 21 22 " }, { "input": "4 1\n2 8\n4 8\n10 9\n15 2", "output": "10 18 27 -1 " }, { "input": "1 1\n1000000000 1000000000", "output": "2000000000 " }, { "input": "4 3\n999999996 1000000000\n999999997 1000000000\n999999998 1000000000\n999999999 1000000000", "output": "1999999996 2999999996 3999999996 4999999996 " }, { "input": "5 1\n2 1\n3 6\n4 5\n6 4\n7 2", "output": "3 9 14 -1 -1 " }, { "input": "10 2\n4 14\n5 2\n6 6\n7 11\n8 6\n9 5\n10 13\n11 8\n13 2\n20 2", "output": "18 20 26 -1 -1 -1 -1 -1 -1 28 " }, { "input": "6 4\n2 4\n4 2\n5 2\n6 2\n7 2\n9 2", "output": "6 8 10 12 14 16 " }, { "input": "8 3\n1 2\n3 1\n4 3\n5 3\n6 1\n7 2\n8 8\n9 7", "output": "3 4 7 10 11 13 21 -1 " }, { "input": "10 3\n1 14\n3 2\n5 4\n6 9\n9 1\n12 22\n15 11\n18 8\n28 2\n29 4", "output": "15 17 21 30 -1 -1 41 49 51 -1 " }, { "input": "5 2\n2 7\n3 3\n7 4\n9 1\n10 2", "output": "9 12 16 17 -1 " }, { "input": "4 1\n2 1\n6 5\n9 2\n10 3", "output": "3 11 13 -1 " }, { "input": "4 1\n1 2\n2 1\n3 1\n4 3", "output": "3 4 5 8 " }, { "input": "6 3\n1 2\n2 3\n100 200\n200 300\n10000 20000\n20000 30000", "output": "3 6 300 600 30000 60000 " } ]	1,600,579,869	2,147,483,647	Python 3	OK	TESTS	71	2,511	34,304,000	import queue class Task(): def __init__(self, t, d, f): self.t = t self.d = d self.f = f n, b = map(int, input().split()) a = [] for i in range(n): t, d = map(int, input().split()) a.append(Task(t, d, 0)) q = queue.Queue() now = a[0].t + a[0].d a[0].f = now q.put(now) i = 1 while i < n: task = a[i] while q.qsize() > 0 and task.t >= q.queue[0]: q.get() if q.qsize() > b: task.f = -1 else: now = max(task.t, now) now += task.d task.f = now q.put(now) i += 1 for i in range(n): print(a[i].f, end=' ')	Title: Processing Queries Time Limit: None seconds Memory Limit: None megabytes Problem Description: In this problem you have to simulate the workflow of one-thread server. There are n queries to process, the i-th will be received at moment ti and needs to be processed for di units of time. All ti are guaranteed to be distinct. When a query appears server may react in three possible ways: 1. If server is free and query queue is empty, then server immediately starts to process this query. 1. If server is busy and there are less than b queries in the queue, then new query is added to the end of the queue. 1. If server is busy and there are already b queries pending in the queue, then new query is just rejected and will never be processed. As soon as server finished to process some query, it picks new one from the queue (if it's not empty, of course). If a new query comes at some moment x, and the server finishes to process another query at exactly the same moment, we consider that first query is picked from the queue and only then new query appears. For each query find the moment when the server will finish to process it or print -1 if this query will be rejected. Input Specification: The first line of the input contains two integers n and b (1<=≤<=n,<=b<=≤<=200<=000) — the number of queries and the maximum possible size of the query queue. Then follow n lines with queries descriptions (in chronological order). Each description consists of two integers ti and di (1<=≤<=ti,<=di<=≤<=109), where ti is the moment of time when the i-th query appears and di is the time server needs to process it. It is guaranteed that ti<=-<=1<=<<=ti for all i<=><=1. Output Specification: Print the sequence of n integers e1,<=e2,<=...,<=en, where ei is the moment the server will finish to process the i-th query (queries are numbered in the order they appear in the input) or <=-<=1 if the corresponding query will be rejected. Demo Input: ['5 1\n2 9\n4 8\n10 9\n15 2\n19 1\n', '4 1\n2 8\n4 8\n10 9\n15 2\n'] Demo Output: ['11 19 -1 21 22 \n', '10 18 27 -1 \n'] Note: Consider the first sample. 1. The server will start to process first query at the moment 2 and will finish to process it at the moment 11. 1. At the moment 4 second query appears and proceeds to the queue. 1. At the moment 10 third query appears. However, the server is still busy with query 1, b = 1 and there is already query 2 pending in the queue, so third query is just rejected. 1. At the moment 11 server will finish to process first query and will take the second query from the queue. 1. At the moment 15 fourth query appears. As the server is currently busy it proceeds to the queue. 1. At the moment 19 two events occur simultaneously: server finishes to proceed the second query and the fifth query appears. As was said in the statement above, first server will finish to process the second query, then it will pick the fourth query from the queue and only then will the fifth query appear. As the queue is empty fifth query is proceed there. 1. Server finishes to process query number 4 at the moment 21. Query number 5 is picked from the queue. 1. Server finishes to process query number 5 at the moment 22.	```python import queue class Task(): def __init__(self, t, d, f): self.t = t self.d = d self.f = f n, b = map(int, input().split()) a = [] for i in range(n): t, d = map(int, input().split()) a.append(Task(t, d, 0)) q = queue.Queue() now = a[0].t + a[0].d a[0].f = now q.put(now) i = 1 while i < n: task = a[i] while q.qsize() > 0 and task.t >= q.queue[0]: q.get() if q.qsize() > b: task.f = -1 else: now = max(task.t, now) now += task.d task.f = now q.put(now) i += 1 for i in range(n): print(a[i].f, end=' ') ```	3
26	A	Almost Prime	PROGRAMMING	900	[ "number theory" ]	A. Almost Prime	2	256	A number is called almost prime if it has exactly two distinct prime divisors. For example, numbers 6, 18, 24 are almost prime, while 4, 8, 9, 42 are not. Find the amount of almost prime numbers which are between 1 and n, inclusive.	Input contains one integer number n (1<=≤<=n<=≤<=3000).	Output the amount of almost prime numbers between 1 and n, inclusive.	[ "10\n", "21\n" ]	[ "2\n", "8\n" ]	none	500	[ { "input": "10", "output": "2" }, { "input": "21", "output": "8" }, { "input": "1", "output": "0" }, { "input": "2", "output": "0" }, { "input": "4", "output": "0" }, { "input": "3", "output": "0" }, { "input": "8", "output": "1" }, { "input": "19", "output": "6" }, { "input": "40", "output": "19" }, { "input": "77", "output": "41" }, { "input": "222", "output": "125" }, { "input": "987", "output": "501" }, { "input": "1000", "output": "508" }, { "input": "2000", "output": "958" }, { "input": "3000", "output": "1375" }, { "input": "2999", "output": "1375" }, { "input": "2998", "output": "1375" }, { "input": "2997", "output": "1374" }, { "input": "1429", "output": "706" }, { "input": "1673", "output": "808" }, { "input": "1500", "output": "732" }, { "input": "500", "output": "266" }, { "input": "856", "output": "439" } ]	1,608,741,250	2,147,483,647	Python 3	OK	TESTS	23	404	307,200	n=int(input()) def check(n): i=2 j=0 k=1 while n>1: u=n%i==0 if u: while n>1: n/=i if n%i>0: break if i==3: k=2 i+=k if u: j+=1 if j>2: return False return j==2 s=0 for i in range(6,n+1): if check(i): s+=1 print(s)	Title: Almost Prime Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A number is called almost prime if it has exactly two distinct prime divisors. For example, numbers 6, 18, 24 are almost prime, while 4, 8, 9, 42 are not. Find the amount of almost prime numbers which are between 1 and n, inclusive. Input Specification: Input contains one integer number n (1<=≤<=n<=≤<=3000). Output Specification: Output the amount of almost prime numbers between 1 and n, inclusive. Demo Input: ['10\n', '21\n'] Demo Output: ['2\n', '8\n'] Note: none	```python n=int(input()) def check(n): i=2 j=0 k=1 while n>1: u=n%i==0 if u: while n>1: n/=i if n%i>0: break if i==3: k=2 i+=k if u: j+=1 if j>2: return False return j==2 s=0 for i in range(6,n+1): if check(i): s+=1 print(s) ```	3.898428
440	A	Forgotten Episode	PROGRAMMING	800	[ "implementation" ]		null	null	Polycarpus adores TV series. Right now he is ready to finish watching a season of a popular sitcom "Graph Theory". In total, the season has n episodes, numbered with integers from 1 to n. Polycarpus watches episodes not one by one but in a random order. He has already watched all the episodes except for one. Which episode has Polycaprus forgotten to watch?	The first line of the input contains integer n (2<=≤<=n<=≤<=100000) — the number of episodes in a season. Assume that the episodes are numbered by integers from 1 to n. The second line contains n<=-<=1 integer a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=n) — the numbers of episodes that Polycarpus has watched. All values of ai are distinct.	Print the number of the episode that Polycarpus hasn't watched.	[ "10\n3 8 10 1 7 9 6 5 2\n" ]	[ "4\n" ]	none	500	[ { "input": "10\n3 8 10 1 7 9 6 5 2", "output": "4" }, { "input": "5\n4 3 2 1", "output": "5" }, { "input": "2\n1", "output": "2" }, { "input": "2\n2", "output": "1" }, { "input": "3\n1 2", "output": "3" }, { "input": "3\n1 3", "output": "2" }, { "input": "3\n2 3", "output": "1" }, { "input": "3\n2 1", "output": "3" }, { "input": "3\n3 1", "output": "2" }, { "input": "3\n3 2", "output": "1" }, { "input": "5\n2 3 4 5", "output": "1" }, { "input": "5\n5 4 3 2", "output": "1" }, { "input": "5\n5 2 4 3", "output": "1" }, { "input": "5\n1 2 3 4", "output": "5" }, { "input": "5\n2 1 3 4", "output": "5" }, { "input": "5\n1 5 3 4", "output": "2" }, { "input": "5\n1 4 5 2", "output": "3" }, { "input": "5\n2 1 5 3", "output": "4" }, { "input": "5\n2 3 4 5", "output": "1" } ]	1,627,567,919	2,147,483,647	Python 3	OK	TESTS	35	109	16,179,200	n = int(input()) s = set(map(int,input().split())) for i in range(1,n + 1): if not i in s: print(i) break	Title: Forgotten Episode Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarpus adores TV series. Right now he is ready to finish watching a season of a popular sitcom "Graph Theory". In total, the season has n episodes, numbered with integers from 1 to n. Polycarpus watches episodes not one by one but in a random order. He has already watched all the episodes except for one. Which episode has Polycaprus forgotten to watch? Input Specification: The first line of the input contains integer n (2<=≤<=n<=≤<=100000) — the number of episodes in a season. Assume that the episodes are numbered by integers from 1 to n. The second line contains n<=-<=1 integer a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=n) — the numbers of episodes that Polycarpus has watched. All values of ai are distinct. Output Specification: Print the number of the episode that Polycarpus hasn't watched. Demo Input: ['10\n3 8 10 1 7 9 6 5 2\n'] Demo Output: ['4\n'] Note: none	```python n = int(input()) s = set(map(int,input().split())) for i in range(1,n + 1): if not i in s: print(i) break ```	3
999	C	Alphabetic Removals	PROGRAMMING	1,200	[ "implementation" ]		null	null	You are given a string $s$ consisting of $n$ lowercase Latin letters. Polycarp wants to remove exactly $k$ characters ($k \le n$) from the string $s$. Polycarp uses the following algorithm $k$ times: - if there is at least one letter 'a', remove the leftmost occurrence and stop the algorithm, otherwise go to next item; - if there is at least one letter 'b', remove the leftmost occurrence and stop the algorithm, otherwise go to next item; - ... - remove the leftmost occurrence of the letter 'z' and stop the algorithm. This algorithm removes a single letter from the string. Polycarp performs this algorithm exactly $k$ times, thus removing exactly $k$ characters. Help Polycarp find the resulting string.	The first line of input contains two integers $n$ and $k$ ($1 \le k \le n \le 4 \cdot 10^5$) — the length of the string and the number of letters Polycarp will remove. The second line contains the string $s$ consisting of $n$ lowercase Latin letters.	Print the string that will be obtained from $s$ after Polycarp removes exactly $k$ letters using the above algorithm $k$ times. If the resulting string is empty, print nothing. It is allowed to print nothing or an empty line (line break).	[ "15 3\ncccaabababaccbc\n", "15 9\ncccaabababaccbc\n", "1 1\nu\n" ]	[ "cccbbabaccbc\n", "cccccc\n", "" ]	none	0	[ { "input": "15 3\ncccaabababaccbc", "output": "cccbbabaccbc" }, { "input": "15 9\ncccaabababaccbc", "output": "cccccc" }, { "input": "5 2\nzyzyx", "output": "zzy" }, { "input": "4 3\nhack", "output": "k" }, { "input": "4 3\nzzzz", "output": "z" }, { "input": "6 5\naaccdd", "output": "d" }, { "input": "2 1\nzz", "output": "z" }, { "input": "14 5\nhxehmvkybeklnj", "output": "xmvkyklnj" } ]	1,657,113,897	2,147,483,647	Python 3	OK	TESTS	44	420	26,521,600	n, k = map(int, input().split()) print(''.join(x[0] for x in sorted(sorted(zip(input(),range(n)))[k:], key=lambda x:x[1])))	Title: Alphabetic Removals Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a string $s$ consisting of $n$ lowercase Latin letters. Polycarp wants to remove exactly $k$ characters ($k \le n$) from the string $s$. Polycarp uses the following algorithm $k$ times: - if there is at least one letter 'a', remove the leftmost occurrence and stop the algorithm, otherwise go to next item; - if there is at least one letter 'b', remove the leftmost occurrence and stop the algorithm, otherwise go to next item; - ... - remove the leftmost occurrence of the letter 'z' and stop the algorithm. This algorithm removes a single letter from the string. Polycarp performs this algorithm exactly $k$ times, thus removing exactly $k$ characters. Help Polycarp find the resulting string. Input Specification: The first line of input contains two integers $n$ and $k$ ($1 \le k \le n \le 4 \cdot 10^5$) — the length of the string and the number of letters Polycarp will remove. The second line contains the string $s$ consisting of $n$ lowercase Latin letters. Output Specification: Print the string that will be obtained from $s$ after Polycarp removes exactly $k$ letters using the above algorithm $k$ times. If the resulting string is empty, print nothing. It is allowed to print nothing or an empty line (line break). Demo Input: ['15 3\ncccaabababaccbc\n', '15 9\ncccaabababaccbc\n', '1 1\nu\n'] Demo Output: ['cccbbabaccbc\n', 'cccccc\n', ''] Note: none	```python n, k = map(int, input().split()) print(''.join(x[0] for x in sorted(sorted(zip(input(),range(n)))[k:], key=lambda x:x[1]))) ```	3
3	A	Shortest path of the king	PROGRAMMING	1,000	[ "greedy", "shortest paths" ]	A. Shortest path of the king	1	64	The king is left alone on the chessboard. In spite of this loneliness, he doesn't lose heart, because he has business of national importance. For example, he has to pay an official visit to square t. As the king is not in habit of wasting his time, he wants to get from his current position s to square t in the least number of moves. Help him to do this. In one move the king can get to the square that has a common side or a common vertex with the square the king is currently in (generally there are 8 different squares he can move to).	The first line contains the chessboard coordinates of square s, the second line — of square t. Chessboard coordinates consist of two characters, the first one is a lowercase Latin letter (from a to h), the second one is a digit from 1 to 8.	In the first line print n — minimum number of the king's moves. Then in n lines print the moves themselves. Each move is described with one of the 8: L, R, U, D, LU, LD, RU or RD. L, R, U, D stand respectively for moves left, right, up and down (according to the picture), and 2-letter combinations stand for diagonal moves. If the answer is not unique, print any of them.	[ "a8\nh1\n" ]	[ "7\nRD\nRD\nRD\nRD\nRD\nRD\nRD\n" ]	none	0	[ { "input": "a8\nh1", "output": "7\nRD\nRD\nRD\nRD\nRD\nRD\nRD" }, { "input": "b2\nb4", "output": "2\nU\nU" }, { "input": "a5\na5", "output": "0" }, { "input": "h1\nb2", "output": "6\nLU\nL\nL\nL\nL\nL" }, { "input": "c5\nh2", "output": "5\nRD\nRD\nRD\nR\nR" }, { "input": "e1\nf2", "output": "1\nRU" }, { "input": "g4\nd2", "output": "3\nLD\nLD\nL" }, { "input": "a8\nb2", "output": "6\nRD\nD\nD\nD\nD\nD" }, { "input": "d4\nh2", "output": "4\nRD\nRD\nR\nR" }, { "input": "c5\na2", "output": "3\nLD\nLD\nD" }, { "input": "h5\nf8", "output": "3\nLU\nLU\nU" }, { "input": "e6\nb6", "output": "3\nL\nL\nL" }, { "input": "a6\ng4", "output": "6\nRD\nRD\nR\nR\nR\nR" }, { "input": "f7\nc2", "output": "5\nLD\nLD\nLD\nD\nD" }, { "input": "b7\nh8", "output": "6\nRU\nR\nR\nR\nR\nR" }, { "input": "g7\nd6", "output": "3\nLD\nL\nL" }, { "input": "c8\na3", "output": "5\nLD\nLD\nD\nD\nD" }, { "input": "h8\nf1", "output": "7\nLD\nLD\nD\nD\nD\nD\nD" }, { "input": "d1\nb7", "output": "6\nLU\nLU\nU\nU\nU\nU" }, { "input": "a7\ne5", "output": "4\nRD\nRD\nR\nR" }, { "input": "d6\nb1", "output": "5\nLD\nLD\nD\nD\nD" }, { "input": "f5\ng5", "output": "1\nR" }, { "input": "h4\nd1", "output": "4\nLD\nLD\nLD\nL" }, { "input": "b3\na5", "output": "2\nLU\nU" }, { "input": "d2\nf1", "output": "2\nRD\nR" }, { "input": "f1\nc5", "output": "4\nLU\nLU\nLU\nU" }, { "input": "a8\nh1", "output": "7\nRD\nRD\nRD\nRD\nRD\nRD\nRD" }, { "input": "c7\ne5", "output": "2\nRD\nRD" }, { "input": "e7\nb1", "output": "6\nLD\nLD\nLD\nD\nD\nD" }, { "input": "g8\na8", "output": "6\nL\nL\nL\nL\nL\nL" }, { "input": "g6\nf2", "output": "4\nLD\nD\nD\nD" }, { "input": "g4\nc4", "output": "4\nL\nL\nL\nL" }, { "input": "g2\na6", "output": "6\nLU\nLU\nLU\nLU\nL\nL" }, { "input": "f8\nf8", "output": "0" }, { "input": "f5\nd2", "output": "3\nLD\nLD\nD" } ]	1,604,613,051	2,147,483,647	PyPy 3	OK	TESTS	35	310	0	letras = {"a":1,"b":2,"c":3,"d":4,"e":5,"f":6,"g":7,"h":8} movimientos = [] s = input() #a1 s[0] = a t = input() #h8 s = [letras[s[0]], int(s[1])] #0: columna, 1: fila t = [letras[t[0]], int(t[1])] while (s[1] != t[1] and s[0] != t[0]): #E6 - if s[1] < t[1] and s[0] > t[0]: #abajo, derecha s[1] += 1 s[0] -= 1 movimientos += ["LU"] elif s[1] < t[1] and s[0] < t[0]: s[1] += 1 s[0] += 1 movimientos += ["RU"] elif s[1] > t[1] and s[0] < t[0]: s[1] -= 1 s[0] += 1 movimientos += ["RD"] elif s[1] > t[1] and s[0] > t[0]: s[1] -= 1 s[0] -= 1 movimientos += ["LD"] if (s[1] == t[1]): if s[0] < t[0]: movimientos += abs(s[0]-t[0])["R"] elif s[0] > t[0]: movimientos += abs(t[0]-s[0])["L"] else: if s[1] > t[1]: movimientos += abs(s[1]-t[1])["D"] elif s[1] < t[1]: movimientos += abs(t[1]-s[1])["U"] print(len(movimientos)) for m in movimientos: print(m)	Title: Shortest path of the king Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: The king is left alone on the chessboard. In spite of this loneliness, he doesn't lose heart, because he has business of national importance. For example, he has to pay an official visit to square t. As the king is not in habit of wasting his time, he wants to get from his current position s to square t in the least number of moves. Help him to do this. In one move the king can get to the square that has a common side or a common vertex with the square the king is currently in (generally there are 8 different squares he can move to). Input Specification: The first line contains the chessboard coordinates of square s, the second line — of square t. Chessboard coordinates consist of two characters, the first one is a lowercase Latin letter (from a to h), the second one is a digit from 1 to 8. Output Specification: In the first line print n — minimum number of the king's moves. Then in n lines print the moves themselves. Each move is described with one of the 8: L, R, U, D, LU, LD, RU or RD. L, R, U, D stand respectively for moves left, right, up and down (according to the picture), and 2-letter combinations stand for diagonal moves. If the answer is not unique, print any of them. Demo Input: ['a8\nh1\n'] Demo Output: ['7\nRD\nRD\nRD\nRD\nRD\nRD\nRD\n'] Note: none	```python letras = {"a":1,"b":2,"c":3,"d":4,"e":5,"f":6,"g":7,"h":8} movimientos = [] s = input() #a1 s[0] = a t = input() #h8 s = [letras[s[0]], int(s[1])] #0: columna, 1: fila t = [letras[t[0]], int(t[1])] while (s[1] != t[1] and s[0] != t[0]): #E6 - if s[1] < t[1] and s[0] > t[0]: #abajo, derecha s[1] += 1 s[0] -= 1 movimientos += ["LU"] elif s[1] < t[1] and s[0] < t[0]: s[1] += 1 s[0] += 1 movimientos += ["RU"] elif s[1] > t[1] and s[0] < t[0]: s[1] -= 1 s[0] += 1 movimientos += ["RD"] elif s[1] > t[1] and s[0] > t[0]: s[1] -= 1 s[0] -= 1 movimientos += ["LD"] if (s[1] == t[1]): if s[0] < t[0]: movimientos += abs(s[0]-t[0])["R"] elif s[0] > t[0]: movimientos += abs(t[0]-s[0])["L"] else: if s[1] > t[1]: movimientos += abs(s[1]-t[1])["D"] elif s[1] < t[1]: movimientos += abs(t[1]-s[1])["U"] print(len(movimientos)) for m in movimientos: print(m) ```	3.845
450	A	Jzzhu and Children	PROGRAMMING	1,000	[ "implementation" ]		null	null	There are n children in Jzzhu's school. Jzzhu is going to give some candies to them. Let's number all the children from 1 to n. The i-th child wants to get at least ai candies. Jzzhu asks children to line up. Initially, the i-th child stands at the i-th place of the line. Then Jzzhu start distribution of the candies. He follows the algorithm: 1. Give m candies to the first child of the line. 1. If this child still haven't got enough candies, then the child goes to the end of the line, else the child go home. 1. Repeat the first two steps while the line is not empty. Consider all the children in the order they go home. Jzzhu wants to know, which child will be the last in this order?	The first line contains two integers n,<=m (1<=≤<=n<=≤<=100; 1<=≤<=m<=≤<=100). The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100).	Output a single integer, representing the number of the last child.	[ "5 2\n1 3 1 4 2\n", "6 4\n1 1 2 2 3 3\n" ]	[ "4\n", "6\n" ]	Let's consider the first sample. Firstly child 1 gets 2 candies and go home. Then child 2 gets 2 candies and go to the end of the line. Currently the line looks like [3, 4, 5, 2] (indices of the children in order of the line). Then child 3 gets 2 candies and go home, and then child 4 gets 2 candies and goes to the end of the line. Currently the line looks like [5, 2, 4]. Then child 5 gets 2 candies and goes home. Then child 2 gets two candies and goes home, and finally child 4 gets 2 candies and goes home. Child 4 is the last one who goes home.	500	[ { "input": "5 2\n1 3 1 4 2", "output": "4" }, { "input": "6 4\n1 1 2 2 3 3", "output": "6" }, { "input": "7 3\n6 1 5 4 2 3 1", "output": "4" }, { "input": "10 5\n2 7 3 6 2 5 1 3 4 5", "output": "4" }, { "input": "100 1\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100", "output": "100" }, { "input": "9 3\n9 5 2 3 7 1 8 4 6", "output": "7" }, { "input": "20 10\n58 4 32 10 73 7 30 39 47 6 59 21 24 66 79 79 46 13 29 58", "output": "16" }, { "input": "50 5\n89 56 3 2 40 37 56 52 83 59 43 83 43 59 29 74 22 58 53 41 53 67 78 30 57 32 58 29 95 46 45 85 60 49 41 82 8 71 52 40 45 26 6 71 84 91 4 93 40 54", "output": "48" }, { "input": "50 1\n4 3 9 7 6 8 3 7 10 9 8 8 10 2 9 3 2 4 4 10 4 6 8 10 9 9 4 2 8 9 4 4 9 5 1 5 2 4 4 9 10 2 5 10 7 2 8 6 8 1", "output": "44" }, { "input": "50 5\n3 9 10 8 3 3 4 6 8 2 9 9 3 1 2 10 6 8 7 2 7 4 2 7 5 10 2 2 2 5 10 5 6 6 8 7 10 4 3 2 10 8 6 6 8 6 4 4 1 3", "output": "46" }, { "input": "50 2\n56 69 72 15 95 92 51 1 74 87 100 29 46 54 18 81 84 72 84 83 20 63 71 27 45 74 50 89 48 8 21 15 47 3 39 73 80 84 6 99 17 25 56 3 74 64 71 39 89 78", "output": "40" }, { "input": "50 3\n31 39 64 16 86 3 1 9 25 54 98 42 20 3 49 41 73 37 55 62 33 77 64 22 33 82 26 13 10 13 7 40 48 18 46 79 94 72 19 12 11 61 16 37 10 49 14 94 48 69", "output": "11" }, { "input": "50 100\n67 67 61 68 42 29 70 77 12 61 71 27 4 73 87 52 59 38 93 90 31 27 87 47 26 57 76 6 28 72 81 68 50 84 69 79 39 93 52 6 88 12 46 13 90 68 71 38 90 95", "output": "50" }, { "input": "100 3\n4 14 20 11 19 11 14 20 5 7 6 12 11 17 5 11 7 6 2 10 13 5 12 8 5 17 20 18 7 19 11 7 7 20 20 8 10 17 17 19 20 5 15 16 19 7 11 16 4 17 2 10 1 20 20 16 19 9 9 11 5 7 12 9 9 6 20 18 13 19 8 4 8 1 2 4 10 11 15 14 1 7 17 12 13 19 12 2 3 14 15 15 5 17 14 12 17 14 16 9", "output": "86" }, { "input": "100 5\n16 8 14 16 12 11 17 19 19 2 8 9 5 6 19 9 11 18 6 9 14 16 14 18 17 17 17 5 15 20 19 7 7 10 10 5 14 20 5 19 11 16 16 19 17 9 7 12 14 10 2 11 14 5 20 8 10 11 19 2 14 14 19 17 5 10 8 8 4 2 1 10 20 12 14 11 7 6 6 15 1 5 9 15 3 17 16 17 5 14 11 9 16 15 1 11 10 6 15 7", "output": "93" }, { "input": "100 1\n58 94 18 50 17 14 96 62 83 80 75 5 9 22 25 41 3 96 74 45 66 37 2 37 13 85 68 54 77 11 85 19 25 21 52 59 90 61 72 89 82 22 10 16 3 68 61 29 55 76 28 85 65 76 27 3 14 10 56 37 86 18 35 38 56 68 23 88 33 38 52 87 55 83 94 34 100 41 83 56 91 77 32 74 97 13 67 31 57 81 53 39 5 88 46 1 79 4 49 42", "output": "77" }, { "input": "100 2\n1 51 76 62 34 93 90 43 57 59 52 78 3 48 11 60 57 48 5 54 28 81 87 23 44 77 67 61 14 73 29 53 21 89 67 41 47 9 63 37 1 71 40 85 4 14 77 40 78 75 89 74 4 70 32 65 81 95 49 90 72 41 76 55 69 83 73 84 85 93 46 6 74 90 62 37 97 7 7 37 83 30 37 88 34 16 11 59 85 19 57 63 85 20 63 97 97 65 61 48", "output": "97" }, { "input": "100 3\n30 83 14 55 61 66 34 98 90 62 89 74 45 93 33 31 75 35 82 100 63 69 48 18 99 2 36 71 14 30 70 76 96 85 97 90 49 36 6 76 37 94 70 3 63 73 75 48 39 29 13 2 46 26 9 56 1 18 54 53 85 34 2 12 1 93 75 67 77 77 14 26 33 25 55 9 57 70 75 6 87 66 18 3 41 69 73 24 49 2 20 72 39 58 91 54 74 56 66 78", "output": "20" }, { "input": "100 4\n69 92 76 3 32 50 15 38 21 22 14 3 67 41 95 12 10 62 83 52 78 1 18 58 94 35 62 71 58 75 13 73 60 34 50 97 50 70 19 96 53 10 100 26 20 39 62 59 88 26 24 83 70 68 66 8 6 38 16 93 2 91 81 89 78 74 21 8 31 56 28 53 77 5 81 5 94 42 77 75 92 15 59 36 61 18 55 45 69 68 81 51 12 42 85 74 98 31 17 41", "output": "97" }, { "input": "100 5\n2 72 10 60 6 50 72 34 97 77 35 43 80 64 40 53 46 6 90 22 29 70 26 68 52 19 72 88 83 18 55 32 99 81 11 21 39 42 41 63 60 97 30 23 55 78 89 35 24 50 99 52 27 76 24 8 20 27 51 37 17 82 69 18 46 19 26 77 52 83 76 65 43 66 84 84 13 30 66 88 84 23 37 1 17 26 11 50 73 56 54 37 40 29 35 8 1 39 50 82", "output": "51" }, { "input": "100 7\n6 73 7 54 92 33 66 65 80 47 2 53 28 59 61 16 54 89 37 48 77 40 49 59 27 52 17 22 78 80 81 80 8 93 50 7 87 57 29 16 89 55 20 7 51 54 30 98 44 96 27 70 1 1 32 61 22 92 84 98 31 89 91 90 28 56 49 25 86 49 55 16 19 1 18 8 88 47 16 18 73 86 2 96 16 91 74 49 38 98 94 25 34 85 29 27 99 31 31 58", "output": "97" }, { "input": "100 9\n36 4 45 16 19 6 10 87 44 82 71 49 70 35 83 19 40 76 45 94 44 96 10 54 82 77 86 63 11 37 21 3 15 89 80 88 89 16 72 23 25 9 51 25 10 45 96 5 6 18 51 31 42 57 41 51 42 15 89 61 45 82 16 48 61 67 19 40 9 33 90 36 78 36 79 79 16 10 83 87 9 22 84 12 23 76 36 14 2 81 56 33 56 23 57 84 76 55 35 88", "output": "47" }, { "input": "100 10\n75 81 39 64 90 58 92 28 75 9 96 78 92 83 77 68 76 71 14 46 58 60 80 25 78 11 13 63 22 82 65 68 47 6 33 63 90 50 85 43 73 94 80 48 67 11 83 17 22 15 94 80 66 99 66 4 46 35 52 1 62 39 96 57 37 47 97 49 64 12 36 63 90 16 4 75 85 82 85 56 13 4 92 45 44 93 17 35 22 46 18 44 29 7 52 4 100 98 87 51", "output": "98" }, { "input": "100 20\n21 19 61 70 54 97 98 14 61 72 25 94 24 56 55 25 12 80 76 11 35 17 80 26 11 94 52 47 84 61 10 2 74 25 10 21 2 79 55 50 30 75 10 64 44 5 60 96 52 16 74 41 20 77 20 44 8 86 74 36 49 61 99 13 54 64 19 99 50 43 12 73 48 48 83 55 72 73 63 81 30 27 95 9 97 82 24 3 89 90 33 14 47 88 22 78 12 75 58 67", "output": "94" }, { "input": "100 30\n56 79 59 23 11 23 67 82 81 80 99 79 8 58 93 36 98 81 46 39 34 67 3 50 4 68 70 71 2 21 52 30 75 23 33 21 16 100 56 43 8 27 40 8 56 24 17 40 94 10 67 49 61 36 95 87 17 41 7 94 33 19 17 50 26 11 94 54 38 46 77 9 53 35 98 42 50 20 43 6 78 6 38 24 100 45 43 16 1 50 16 46 14 91 95 88 10 1 50 19", "output": "95" }, { "input": "100 40\n86 11 97 17 38 95 11 5 13 83 67 75 50 2 46 39 84 68 22 85 70 23 64 46 59 93 39 80 35 78 93 21 83 19 64 1 49 59 99 83 44 81 70 58 15 82 83 47 55 65 91 10 2 92 4 77 37 32 12 57 78 11 42 8 59 21 96 69 61 30 44 29 12 70 91 14 10 83 11 75 14 10 19 39 8 98 5 81 66 66 79 55 36 29 22 45 19 24 55 49", "output": "88" }, { "input": "100 50\n22 39 95 69 94 53 80 73 33 90 40 60 2 4 84 50 70 38 92 12 36 74 87 70 51 36 57 5 54 6 35 81 52 17 55 100 95 81 32 76 21 1 100 1 95 1 40 91 98 59 84 19 11 51 79 19 47 86 45 15 62 2 59 77 31 68 71 92 17 33 10 33 85 57 5 2 88 97 91 99 63 20 63 54 79 93 24 62 46 27 30 87 3 64 95 88 16 50 79 1", "output": "99" }, { "input": "100 70\n61 48 89 17 97 6 93 13 64 50 66 88 24 52 46 99 6 65 93 64 82 37 57 41 47 1 84 5 97 83 79 46 16 35 40 7 64 15 44 96 37 17 30 92 51 67 26 3 14 56 27 68 66 93 36 39 51 6 40 55 79 26 71 54 8 48 18 2 71 12 55 60 29 37 31 97 26 37 25 68 67 70 3 87 100 41 5 82 65 92 24 66 76 48 89 8 40 93 31 95", "output": "100" }, { "input": "100 90\n87 32 30 15 10 52 93 63 84 1 82 41 27 51 75 32 42 94 39 53 70 13 4 22 99 35 44 38 5 23 18 100 61 80 9 12 42 93 9 77 3 7 60 95 66 78 95 42 69 8 1 88 93 66 96 20 76 63 15 36 92 52 2 72 36 57 48 63 29 20 74 88 49 47 81 61 94 74 70 93 47 3 19 52 59 41 5 40 22 3 76 97 91 37 95 88 91 99 76 15", "output": "98" }, { "input": "100 100\n79 75 7 28 6 96 38 35 57 95 41 74 24 96 32 78 81 13 63 84 24 95 3 23 66 1 60 6 96 49 41 5 14 18 31 97 66 19 49 89 49 70 51 28 20 99 18 1 28 77 24 46 69 21 40 32 31 66 28 6 66 97 9 16 70 90 91 30 34 82 93 41 65 11 39 52 1 88 63 43 80 50 60 49 28 56 18 76 24 57 74 1 28 99 36 35 79 54 18 16", "output": "100" }, { "input": "1 3\n5", "output": "1" }, { "input": "1 1\n100", "output": "1" }, { "input": "2 3\n4 2", "output": "1" }, { "input": "2 5\n99 97", "output": "2" }, { "input": "3 4\n7 5 2", "output": "2" }, { "input": "3 50\n47 86 51", "output": "3" }, { "input": "5 100\n82 100 85 1 37", "output": "5" }, { "input": "5 20\n40 39 21 5 20", "output": "3" }, { "input": "1 27\n81", "output": "1" }, { "input": "20 13\n7 8 29 83 74 28 93 85 7 8 3 9 8 70 49 50 39 41 57 1", "output": "7" }, { "input": "2 1\n100 2", "output": "1" }, { "input": "2 2\n6 4", "output": "1" }, { "input": "5 2\n6 4 4 1 1", "output": "1" }, { "input": "1 4\n3", "output": "1" }, { "input": "3 2\n1 5 3", "output": "2" }, { "input": "3 1\n3 2 2", "output": "1" }, { "input": "3 1\n2 3 2", "output": "2" }, { "input": "5 1\n5 1 1 1 1", "output": "1" }, { "input": "2 3\n7 4", "output": "1" } ]	1,680,169,630	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	0	46	0	a, b = map(int, input().split()) c = list(map(int, input().split())) c.reverse() if ((c.index(max(c))-1)//b) < 0: print(a) else: print(a-((c.index(max(c))-1)//b))	Title: Jzzhu and Children Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are n children in Jzzhu's school. Jzzhu is going to give some candies to them. Let's number all the children from 1 to n. The i-th child wants to get at least ai candies. Jzzhu asks children to line up. Initially, the i-th child stands at the i-th place of the line. Then Jzzhu start distribution of the candies. He follows the algorithm: 1. Give m candies to the first child of the line. 1. If this child still haven't got enough candies, then the child goes to the end of the line, else the child go home. 1. Repeat the first two steps while the line is not empty. Consider all the children in the order they go home. Jzzhu wants to know, which child will be the last in this order? Input Specification: The first line contains two integers n,<=m (1<=≤<=n<=≤<=100; 1<=≤<=m<=≤<=100). The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100). Output Specification: Output a single integer, representing the number of the last child. Demo Input: ['5 2\n1 3 1 4 2\n', '6 4\n1 1 2 2 3 3\n'] Demo Output: ['4\n', '6\n'] Note: Let's consider the first sample. Firstly child 1 gets 2 candies and go home. Then child 2 gets 2 candies and go to the end of the line. Currently the line looks like [3, 4, 5, 2] (indices of the children in order of the line). Then child 3 gets 2 candies and go home, and then child 4 gets 2 candies and goes to the end of the line. Currently the line looks like [5, 2, 4]. Then child 5 gets 2 candies and goes home. Then child 2 gets two candies and goes home, and finally child 4 gets 2 candies and goes home. Child 4 is the last one who goes home.	```python a, b = map(int, input().split()) c = list(map(int, input().split())) c.reverse() if ((c.index(max(c))-1)//b) < 0: print(a) else: print(a-((c.index(max(c))-1)//b)) ```	0
886	A	ACM ICPC	PROGRAMMING	1,000	[ "brute force" ]		null	null	In a small but very proud high school it was decided to win ACM ICPC. This goal requires to compose as many teams of three as possible, but since there were only 6 students who wished to participate, the decision was to build exactly two teams. After practice competition, participant number i got a score of ai. Team score is defined as sum of scores of its participants. High school management is interested if it's possible to build two teams with equal scores. Your task is to answer that question.	The single line contains six integers a1,<=...,<=a6 (0<=≤<=ai<=≤<=1000) — scores of the participants	Print "YES" (quotes for clarity), if it is possible to build teams with equal score, and "NO" otherwise. You can print each character either upper- or lowercase ("YeS" and "yes" are valid when the answer is "YES").	[ "1 3 2 1 2 1\n", "1 1 1 1 1 99\n" ]	[ "YES\n", "NO\n" ]	In the first sample, first team can be composed of 1st, 2nd and 6th participant, second — of 3rd, 4th and 5th: team scores are 1 + 3 + 1 = 2 + 1 + 2 = 5. In the second sample, score of participant number 6 is too high: his team score will be definitely greater.	500	[ { "input": "1 3 2 1 2 1", "output": "YES" }, { "input": "1 1 1 1 1 99", "output": "NO" }, { "input": "1000 1000 1000 1000 1000 1000", "output": "YES" }, { "input": "0 0 0 0 0 0", "output": "YES" }, { "input": "633 609 369 704 573 416", "output": "NO" }, { "input": "353 313 327 470 597 31", "output": "NO" }, { "input": "835 638 673 624 232 266", "output": "NO" }, { "input": "936 342 19 398 247 874", "output": "NO" }, { "input": "417 666 978 553 271 488", "output": "NO" }, { "input": "71 66 124 199 67 147", "output": "YES" }, { "input": "54 26 0 171 239 12", "output": "YES" }, { "input": "72 8 186 92 267 69", "output": "YES" }, { "input": "180 179 188 50 75 214", "output": "YES" }, { "input": "16 169 110 136 404 277", "output": "YES" }, { "input": "101 400 9 200 300 10", "output": "YES" }, { "input": "101 400 200 9 300 10", "output": "YES" }, { "input": "101 200 400 9 300 10", "output": "YES" }, { "input": "101 400 200 300 9 10", "output": "YES" }, { "input": "101 200 400 300 9 10", "output": "YES" }, { "input": "4 4 4 4 5 4", "output": "NO" }, { "input": "2 2 2 2 2 1", "output": "NO" }, { "input": "1000 1000 999 1000 1000 1000", "output": "NO" }, { "input": "129 1 10 29 8 111", "output": "NO" }, { "input": "1000 1000 1000 999 999 1000", "output": "YES" }, { "input": "101 200 300 400 9 10", "output": "YES" }, { "input": "101 400 200 300 10 9", "output": "YES" }, { "input": "101 200 400 300 10 9", "output": "YES" }, { "input": "101 200 300 400 10 9", "output": "YES" }, { "input": "101 200 300 10 400 9", "output": "YES" }, { "input": "1 1 1 1 1 5", "output": "NO" }, { "input": "8 1 1 3 3 0", "output": "NO" }, { "input": "1 1 2 2 3 3", "output": "YES" }, { "input": "1 2 2 5 2 5", "output": "NO" }, { "input": "1 2 3 6 6 6", "output": "NO" }, { "input": "36 91 7 86 51 89", "output": "NO" }, { "input": "10 1 1 1 23 24", "output": "NO" }, { "input": "1 1 1 10 23 24", "output": "NO" }, { "input": "20 10 1 2 3 44", "output": "NO" }, { "input": "7 0 14 11 8 6", "output": "NO" }, { "input": "100 496 1 1 1 1", "output": "NO" }, { "input": "5 4 2 5 11 3", "output": "NO" }, { "input": "1 3 7 8 8 9", "output": "YES" }, { "input": "1 3 4 5 18 19", "output": "YES" }, { "input": "5 5 1 2 2 15", "output": "NO" }, { "input": "2 1 0 0 0 5", "output": "NO" }, { "input": "1 6 6 1 20 2", "output": "NO" }, { "input": "2 10 0 0 0 0", "output": "NO" }, { "input": "1 1 3 1 1 11", "output": "NO" }, { "input": "10 10 1 1 1 37", "output": "NO" }, { "input": "1 1 0 0 0 4", "output": "NO" }, { "input": "1 1 10 1 1 28", "output": "NO" }, { "input": "1 5 5 5 6 8", "output": "YES" }, { "input": "0 2 3 4 4 5", "output": "YES" } ]	1,689,865,117	2,147,483,647	PyPy 3-64	OK	TESTS	53	233	13,926,400	import math , itertools , fractions si = lambda : input() ; I = lambda : int(input()) ; ar = lambda : list(map(int , input().split())) ; al = lambda : map(int , input().split()) ; als = lambda : map(str , input().split()) ''' ⠀⠀⠀⠀⠀⠀⠀⢀⣤⣴⣶⣶⣶⣶⣶⣦⣄⠀⠀⠀⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⢀⣾⠟⠛⢿⣿⣿⣿⣿⣿⣿⣷⠀⠀⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⢸⣿⣄⣀⣼⣿⣿⣿⣿⣿⣿⣿⠀⢀⣀⣀⣀⡀⠀⠀ ⠀⠀⠀⠀⠀⠀⠈⠉⠉⠉⠉⠉⠉⣿⣿⣿⣿⣿⠀⢸⣿⣿⣿⣿⣦⠀ ⠀⣠⣾⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⠀⢸⣿⣿⣿⣿⣿⡇ ⢰⣿⣿⣿⣿⣿⣿⣿⣿⠿⠿⠿⠿⠿⠿⠿⠿⠋⠀⣼⣿⣿⣿⣿⣿⡇ ⢸⣿⣿⣿⣿⣿⡿⠉⢀⣠⣤⣤⣤⣤⣤⣤⣤⣴⣾⣿⣿⣿⣿⣿⣿⡇ ''' arr = ar() ; n = sum(arr) for i in range(len(arr) ): for j in range(i+1 , len(arr)) : for k in range(j+1 , len(arr)) : if (arr[i]+arr[j]+arr[k])*2== n : print('YES') ; exit(); print('NO') ''' ⢸⣿⣿⣿⣿⣿⡇⠀⣾⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⡿⠀ ⠘⣿⣿⣿⣿⣿⡇⠀⣿⣿⣿⣿⣿⠛⠛⠛⠛⠛⠛⠛⠛⠛⠋⠁⠀⠀ ⠀⠈⠛⠻⠿⠿⠇⠀⣿⣿⣿⣿⣿⣿⣿⣿⠿⠿⣿⡇⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⠀⠀⣿⣿⣿⣿⣿⣿⣿⣧⣀⣀⣿⠇⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⠀⠀⠘⢿⣿⣿⣿⣿⣿⣿⣿⡿⠋⠀⠀⠀⠀⠀⠀⠀ '''	Title: ACM ICPC Time Limit: None seconds Memory Limit: None megabytes Problem Description: In a small but very proud high school it was decided to win ACM ICPC. This goal requires to compose as many teams of three as possible, but since there were only 6 students who wished to participate, the decision was to build exactly two teams. After practice competition, participant number i got a score of ai. Team score is defined as sum of scores of its participants. High school management is interested if it's possible to build two teams with equal scores. Your task is to answer that question. Input Specification: The single line contains six integers a1,<=...,<=a6 (0<=≤<=ai<=≤<=1000) — scores of the participants Output Specification: Print "YES" (quotes for clarity), if it is possible to build teams with equal score, and "NO" otherwise. You can print each character either upper- or lowercase ("YeS" and "yes" are valid when the answer is "YES"). Demo Input: ['1 3 2 1 2 1\n', '1 1 1 1 1 99\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample, first team can be composed of 1st, 2nd and 6th participant, second — of 3rd, 4th and 5th: team scores are 1 + 3 + 1 = 2 + 1 + 2 = 5. In the second sample, score of participant number 6 is too high: his team score will be definitely greater.	```python import math , itertools , fractions si = lambda : input() ; I = lambda : int(input()) ; ar = lambda : list(map(int , input().split())) ; al = lambda : map(int , input().split()) ; als = lambda : map(str , input().split()) ''' ⠀⠀⠀⠀⠀⠀⠀⢀⣤⣴⣶⣶⣶⣶⣶⣦⣄⠀⠀⠀⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⢀⣾⠟⠛⢿⣿⣿⣿⣿⣿⣿⣷⠀⠀⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⢸⣿⣄⣀⣼⣿⣿⣿⣿⣿⣿⣿⠀⢀⣀⣀⣀⡀⠀⠀ ⠀⠀⠀⠀⠀⠀⠈⠉⠉⠉⠉⠉⠉⣿⣿⣿⣿⣿⠀⢸⣿⣿⣿⣿⣦⠀ ⠀⣠⣾⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⠀⢸⣿⣿⣿⣿⣿⡇ ⢰⣿⣿⣿⣿⣿⣿⣿⣿⠿⠿⠿⠿⠿⠿⠿⠿⠋⠀⣼⣿⣿⣿⣿⣿⡇ ⢸⣿⣿⣿⣿⣿⡿⠉⢀⣠⣤⣤⣤⣤⣤⣤⣤⣴⣾⣿⣿⣿⣿⣿⣿⡇ ''' arr = ar() ; n = sum(arr) for i in range(len(arr) ): for j in range(i+1 , len(arr)) : for k in range(j+1 , len(arr)) : if (arr[i]+arr[j]+arr[k])*2== n : print('YES') ; exit(); print('NO') ''' ⢸⣿⣿⣿⣿⣿⡇⠀⣾⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⣿⡿⠀ ⠘⣿⣿⣿⣿⣿⡇⠀⣿⣿⣿⣿⣿⠛⠛⠛⠛⠛⠛⠛⠛⠛⠋⠁⠀⠀ ⠀⠈⠛⠻⠿⠿⠇⠀⣿⣿⣿⣿⣿⣿⣿⣿⠿⠿⣿⡇⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⠀⠀⣿⣿⣿⣿⣿⣿⣿⣧⣀⣀⣿⠇⠀⠀⠀⠀⠀⠀ ⠀⠀⠀⠀⠀⠀⠀⠀⠘⢿⣿⣿⣿⣿⣿⣿⣿⡿⠋⠀⠀⠀⠀⠀⠀⠀ ''' ```	3
190	A	Vasya and the Bus	PROGRAMMING	1,100	[ "greedy", "math" ]		null	null	One day Vasya heard a story: "In the city of High Bertown a bus number 62 left from the bus station. It had n grown-ups and m kids..." The latter events happen to be of no importance to us. Vasya is an accountant and he loves counting money. So he wondered what maximum and minimum sum of money these passengers could have paid for the ride. The bus fare equals one berland ruble in High Bertown. However, not everything is that easy — no more than one child can ride for free with each grown-up passenger. That means that a grown-up passenger who rides with his k (k<=><=0) children, pays overall k rubles: a ticket for himself and (k<=-<=1) tickets for his children. Also, a grown-up can ride without children, in this case he only pays one ruble. We know that in High Bertown children can't ride in a bus unaccompanied by grown-ups. Help Vasya count the minimum and the maximum sum in Berland rubles, that all passengers of this bus could have paid in total.	The input file consists of a single line containing two space-separated numbers n and m (0<=≤<=n,<=m<=≤<=105) — the number of the grown-ups and the number of the children in the bus, correspondingly.	If n grown-ups and m children could have ridden in the bus, then print on a single line two space-separated integers — the minimum and the maximum possible total bus fare, correspondingly. Otherwise, print "Impossible" (without the quotes).	[ "1 2\n", "0 5\n", "2 2\n" ]	[ "2 2", "Impossible", "2 3" ]	In the first sample a grown-up rides with two children and pays two rubles. In the second sample there are only children in the bus, so the situation is impossible. In the third sample there are two cases: - Each of the two grown-ups rides with one children and pays one ruble for the tickets. In this case the passengers pay two rubles in total. - One of the grown-ups ride with two children's and pays two rubles, the another one rides alone and pays one ruble for himself. So, they pay three rubles in total.	500	[ { "input": "1 2", "output": "2 2" }, { "input": "0 5", "output": "Impossible" }, { "input": "2 2", "output": "2 3" }, { "input": "2 7", "output": "7 8" }, { "input": "4 10", "output": "10 13" }, { "input": "6 0", "output": "6 6" }, { "input": "7 1", "output": "7 7" }, { "input": "0 0", "output": "0 0" }, { "input": "71 24", "output": "71 94" }, { "input": "16 70", "output": "70 85" }, { "input": "0 1", "output": "Impossible" }, { "input": "1 0", "output": "1 1" }, { "input": "1 1", "output": "1 1" }, { "input": "63 82", "output": "82 144" }, { "input": "8 26", "output": "26 33" }, { "input": "21 27", "output": "27 47" }, { "input": "0 38", "output": "Impossible" }, { "input": "46 84", "output": "84 129" }, { "input": "59 96", "output": "96 154" }, { "input": "63028 0", "output": "63028 63028" }, { "input": "9458 0", "output": "9458 9458" }, { "input": "80236 0", "output": "80236 80236" }, { "input": "26666 0", "output": "26666 26666" }, { "input": "59617 0", "output": "59617 59617" }, { "input": "0 6048", "output": "Impossible" }, { "input": "63028 28217", "output": "63028 91244" }, { "input": "9458 39163", "output": "39163 48620" }, { "input": "80236 14868", "output": "80236 95103" }, { "input": "26666 52747", "output": "52747 79412" }, { "input": "59617 28452", "output": "59617 88068" }, { "input": "6048 4158", "output": "6048 10205" }, { "input": "76826 4210", "output": "76826 81035" }, { "input": "23256 15156", "output": "23256 38411" }, { "input": "56207 53035", "output": "56207 109241" }, { "input": "2637 28740", "output": "28740 31376" }, { "input": "73415 4445", "output": "73415 77859" }, { "input": "82019 4498", "output": "82019 86516" }, { "input": "28449 80204", "output": "80204 108652" }, { "input": "99227 53323", "output": "99227 152549" }, { "input": "45657 29028", "output": "45657 74684" }, { "input": "78608 4733", "output": "78608 83340" }, { "input": "25038 4786", "output": "25038 29823" }, { "input": "95816 80492", "output": "95816 176307" }, { "input": "42246 94024", "output": "94024 136269" }, { "input": "0 100000", "output": "Impossible" }, { "input": "100000 0", "output": "100000 100000" }, { "input": "1 100000", "output": "100000 100000" }, { "input": "100000 1", "output": "100000 100000" }, { "input": "63028 63028", "output": "63028 126055" }, { "input": "9458 9458", "output": "9458 18915" }, { "input": "80236 80236", "output": "80236 160471" }, { "input": "26666 26666", "output": "26666 53331" }, { "input": "59617 59617", "output": "59617 119233" }, { "input": "100000 100000", "output": "100000 199999" } ]	1,560,486,758	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	7	218	0	n, m = [int(i) for i in input().split()] if n: print(n + m - min(m,n), n + m - min(m,1)) else: print('Impossible')	Title: Vasya and the Bus Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Vasya heard a story: "In the city of High Bertown a bus number 62 left from the bus station. It had n grown-ups and m kids..." The latter events happen to be of no importance to us. Vasya is an accountant and he loves counting money. So he wondered what maximum and minimum sum of money these passengers could have paid for the ride. The bus fare equals one berland ruble in High Bertown. However, not everything is that easy — no more than one child can ride for free with each grown-up passenger. That means that a grown-up passenger who rides with his k (k<=><=0) children, pays overall k rubles: a ticket for himself and (k<=-<=1) tickets for his children. Also, a grown-up can ride without children, in this case he only pays one ruble. We know that in High Bertown children can't ride in a bus unaccompanied by grown-ups. Help Vasya count the minimum and the maximum sum in Berland rubles, that all passengers of this bus could have paid in total. Input Specification: The input file consists of a single line containing two space-separated numbers n and m (0<=≤<=n,<=m<=≤<=105) — the number of the grown-ups and the number of the children in the bus, correspondingly. Output Specification: If n grown-ups and m children could have ridden in the bus, then print on a single line two space-separated integers — the minimum and the maximum possible total bus fare, correspondingly. Otherwise, print "Impossible" (without the quotes). Demo Input: ['1 2\n', '0 5\n', '2 2\n'] Demo Output: ['2 2', 'Impossible', '2 3'] Note: In the first sample a grown-up rides with two children and pays two rubles. In the second sample there are only children in the bus, so the situation is impossible. In the third sample there are two cases: - Each of the two grown-ups rides with one children and pays one ruble for the tickets. In this case the passengers pay two rubles in total. - One of the grown-ups ride with two children's and pays two rubles, the another one rides alone and pays one ruble for himself. So, they pay three rubles in total.	```python n, m = [int(i) for i in input().split()] if n: print(n + m - min(m,n), n + m - min(m,1)) else: print('Impossible') ```	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", "output": "1" }, { "input": "2 3 4", "output": "1" }, { "input": "1000000000 1000000000 1", "output": "1000000000000000000" }, { "input": "12 13 4", "output": "12" }, { "input": "222 332 5", "output": "3015" }, { "input": "1000 1000 10", "output": "10000" }, { "input": "1001 1000 10", "output": "10100" }, { "input": "100 10001 1000000000", "output": "1" }, { "input": "1000000000 1000000000 1000000000", "output": "1" }, { "input": "1000000000 1000000000 999999999", "output": "4" }, { "input": "1000000000 1000000000 192", "output": "27126743055556" }, { "input": "1000000000 987654321 1", "output": "987654321000000000" }, { "input": "456784567 1000000000 51", "output": "175618850864484" }, { "input": "39916800 134217728 40320", "output": "3295710" } ]	1,682,670,501	2,147,483,647	Python 3	OK	TESTS	20	62	0	def min_flagstones(n, m, a): flagstones_in_length = (n + a - 1) // a # ceil(n / a) flagstones_in_width = (m + a - 1) // a # ceil(m / a) return flagstones_in_length * flagstones_in_width # Read the input values n, m, a = map(int, input().split()) # Calculate and print the needed number of flagstones result = min_flagstones(n, m, a) print(result)	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 def min_flagstones(n, m, a): flagstones_in_length = (n + a - 1) // a # ceil(n / a) flagstones_in_width = (m + a - 1) // a # ceil(m / a) return flagstones_in_length * flagstones_in_width # Read the input values n, m, a = map(int, input().split()) # Calculate and print the needed number of flagstones result = min_flagstones(n, m, a) print(result) ```	3.969
699	A	Launch of Collider	PROGRAMMING	1,000	[ "implementation" ]		null	null	There will be a launch of a new, powerful and unusual collider very soon, which located along a straight line. n particles will be launched inside it. All of them are located in a straight line and there can not be two or more particles located in the same point. The coordinates of the particles coincide with the distance in meters from the center of the collider, xi is the coordinate of the i-th particle and its position in the collider at the same time. All coordinates of particle positions are even integers. You know the direction of each particle movement — it will move to the right or to the left after the collider's launch start. All particles begin to move simultaneously at the time of the collider's launch start. Each particle will move straight to the left or straight to the right with the constant speed of 1 meter per microsecond. The collider is big enough so particles can not leave it in the foreseeable time. Write the program which finds the moment of the first collision of any two particles of the collider. In other words, find the number of microseconds before the first moment when any two particles are at the same point.	The first line contains the positive integer n (1<=≤<=n<=≤<=200<=000) — the number of particles. The second line contains n symbols "L" and "R". If the i-th symbol equals "L", then the i-th particle will move to the left, otherwise the i-th symbol equals "R" and the i-th particle will move to the right. The third line contains the sequence of pairwise distinct even integers x1,<=x2,<=...,<=xn (0<=≤<=xi<=≤<=109) — the coordinates of particles in the order from the left to the right. It is guaranteed that the coordinates of particles are given in the increasing order.	In the first line print the only integer — the first moment (in microseconds) when two particles are at the same point and there will be an explosion. Print the only integer -1, if the collision of particles doesn't happen.	[ "4\nRLRL\n2 4 6 10\n", "3\nLLR\n40 50 60\n" ]	[ "1\n", "-1\n" ]	In the first sample case the first explosion will happen in 1 microsecond because the particles number 1 and 2 will simultaneously be at the same point with the coordinate 3. In the second sample case there will be no explosion because there are no particles which will simultaneously be at the same point.	500	[ { "input": "4\nRLRL\n2 4 6 10", "output": "1" }, { "input": "3\nLLR\n40 50 60", "output": "-1" }, { "input": "4\nRLLR\n46 230 264 470", "output": "92" }, { "input": "6\nLLRLLL\n446 492 650 844 930 970", "output": "97" }, { "input": "8\nRRLLLLLL\n338 478 512 574 594 622 834 922", "output": "17" }, { "input": "10\nLRLRLLRRLR\n82 268 430 598 604 658 670 788 838 1000", "output": "3" }, { "input": "2\nRL\n0 1000000000", "output": "500000000" }, { "input": "12\nLRLLRRRRLRLL\n254 1260 1476 1768 2924 4126 4150 4602 5578 7142 8134 9082", "output": "108" }, { "input": "14\nRLLRRLRLLRLLLR\n698 2900 3476 3724 3772 3948 4320 4798 5680 6578 7754 8034 8300 8418", "output": "88" }, { "input": "16\nRRLLLRLRLLLLRLLR\n222 306 968 1060 1636 1782 2314 2710 3728 4608 5088 6790 6910 7156 7418 7668", "output": "123" }, { "input": "18\nRLRLLRRRLLLRLRRLRL\n1692 2028 2966 3008 3632 4890 5124 5838 6596 6598 6890 8294 8314 8752 8868 9396 9616 9808", "output": "10" }, { "input": "20\nRLLLLLLLRRRRLRRLRRLR\n380 902 1400 1834 2180 2366 2562 2596 2702 2816 3222 3238 3742 5434 6480 7220 7410 8752 9708 9970", "output": "252" }, { "input": "22\nLRRRRRRRRRRRLLRRRRRLRL\n1790 2150 2178 2456 2736 3282 3622 4114 4490 4772 5204 5240 5720 5840 5910 5912 6586 7920 8584 9404 9734 9830", "output": "48" }, { "input": "24\nLLRLRRLLRLRRRRLLRRLRLRRL\n100 360 864 1078 1360 1384 1438 2320 2618 3074 3874 3916 3964 5178 5578 6278 6630 6992 8648 8738 8922 8930 9276 9720", "output": "27" }, { "input": "26\nRLLLLLLLRLRRLRLRLRLRLLLRRR\n908 1826 2472 2474 2728 3654 3716 3718 3810 3928 4058 4418 4700 5024 5768 6006 6128 6386 6968 7040 7452 7774 7822 8726 9338 9402", "output": "59" }, { "input": "28\nRRLRLRRRRRRLLLRRLRRLLLRRLLLR\n156 172 1120 1362 2512 3326 3718 4804 4990 5810 6242 6756 6812 6890 6974 7014 7088 7724 8136 8596 8770 8840 9244 9250 9270 9372 9400 9626", "output": "10" }, { "input": "30\nRLLRLRLLRRRLRRRLLLLLLRRRLRRLRL\n128 610 1680 2436 2896 2994 3008 3358 3392 4020 4298 4582 4712 4728 5136 5900 6088 6232 6282 6858 6934 7186 7224 7256 7614 8802 8872 9170 9384 9794", "output": "7" }, { "input": "10\nLLLLRRRRRR\n0 2 4 6 8 10 12 14 16 18", "output": "-1" }, { "input": "5\nLLLLL\n0 10 20 30 40", "output": "-1" }, { "input": "6\nRRRRRR\n40 50 60 70 80 100", "output": "-1" }, { "input": "1\nR\n0", "output": "-1" }, { "input": "2\nRL\n2 1000000000", "output": "499999999" }, { "input": "2\nRL\n0 400000", "output": "200000" }, { "input": "2\nRL\n0 200002", "output": "100001" }, { "input": "2\nRL\n2 20000000", "output": "9999999" }, { "input": "4\nLLRL\n2 4 10 100", "output": "45" }, { "input": "4\nRLRL\n2 10 12 14", "output": "1" }, { "input": "2\nRL\n0 100000000", "output": "50000000" }, { "input": "2\nRL\n2 600002", "output": "300000" }, { "input": "1\nL\n0", "output": "-1" }, { "input": "2\nRL\n0 600000", "output": "300000" }, { "input": "5\nRRRRR\n0 2 4 6 8", "output": "-1" }, { "input": "2\nRL\n2 200000000", "output": "99999999" }, { "input": "2\nRL\n0 267382766", "output": "133691383" }, { "input": "3\nRRL\n4 8 999999998", "output": "499999995" }, { "input": "2\nRL\n0 2", "output": "1" }, { "input": "2\nRL\n2 400002", "output": "200000" }, { "input": "2\nLL\n2 4", "output": "-1" }, { "input": "2\nLL\n0 2", "output": "-1" }, { "input": "2\nRL\n0 100000", "output": "50000" }, { "input": "2\nRL\n2 200000020", "output": "100000009" }, { "input": "2\nRL\n2000000 4000000", "output": "1000000" }, { "input": "2\nRL\n0 199998", "output": "99999" }, { "input": "3\nLRR\n40 50 60", "output": "-1" }, { "input": "2\nRL\n200 400400", "output": "200100" }, { "input": "2\nRL\n2 400004", "output": "200001" }, { "input": "2\nRL\n0 200000000", "output": "100000000" } ]	1,699,569,754	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	n,rl,pa=int(input()),input(),list(map(int,input().split())) m=10**15 if "RL" not in rl:print(-1) else: for j,i in enumerate(rl[:-1]): if i =="R" and rl[j+1]=="L":m=min(m,pa[j+1]-pa[j]) print(m//2	Title: Launch of Collider Time Limit: None seconds Memory Limit: None megabytes Problem Description: There will be a launch of a new, powerful and unusual collider very soon, which located along a straight line. n particles will be launched inside it. All of them are located in a straight line and there can not be two or more particles located in the same point. The coordinates of the particles coincide with the distance in meters from the center of the collider, xi is the coordinate of the i-th particle and its position in the collider at the same time. All coordinates of particle positions are even integers. You know the direction of each particle movement — it will move to the right or to the left after the collider's launch start. All particles begin to move simultaneously at the time of the collider's launch start. Each particle will move straight to the left or straight to the right with the constant speed of 1 meter per microsecond. The collider is big enough so particles can not leave it in the foreseeable time. Write the program which finds the moment of the first collision of any two particles of the collider. In other words, find the number of microseconds before the first moment when any two particles are at the same point. Input Specification: The first line contains the positive integer n (1<=≤<=n<=≤<=200<=000) — the number of particles. The second line contains n symbols "L" and "R". If the i-th symbol equals "L", then the i-th particle will move to the left, otherwise the i-th symbol equals "R" and the i-th particle will move to the right. The third line contains the sequence of pairwise distinct even integers x1,<=x2,<=...,<=xn (0<=≤<=xi<=≤<=109) — the coordinates of particles in the order from the left to the right. It is guaranteed that the coordinates of particles are given in the increasing order. Output Specification: In the first line print the only integer — the first moment (in microseconds) when two particles are at the same point and there will be an explosion. Print the only integer -1, if the collision of particles doesn't happen. Demo Input: ['4\nRLRL\n2 4 6 10\n', '3\nLLR\n40 50 60\n'] Demo Output: ['1\n', '-1\n'] Note: In the first sample case the first explosion will happen in 1 microsecond because the particles number 1 and 2 will simultaneously be at the same point with the coordinate 3. In the second sample case there will be no explosion because there are no particles which will simultaneously be at the same point.	```python n,rl,pa=int(input()),input(),list(map(int,input().split())) m=10**15 if "RL" not in rl:print(-1) else: for j,i in enumerate(rl[:-1]): if i =="R" and rl[j+1]=="L":m=min(m,pa[j+1]-pa[j]) print(m//2 ```	-1
96	A	Football	PROGRAMMING	900	[ "implementation", "strings" ]	A. Football	2	256	Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not.	The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field.	Print "YES" if the situation is dangerous. Otherwise, print "NO".	[ "001001\n", "1000000001\n" ]	[ "NO\n", "YES\n" ]	none	500	[ { "input": "001001", "output": "NO" }, { "input": "1000000001", "output": "YES" }, { "input": "00100110111111101", "output": "YES" }, { "input": "11110111111111111", "output": "YES" }, { "input": "01", "output": "NO" }, { "input": "10100101", "output": "NO" }, { "input": "1010010100000000010", "output": "YES" }, { "input": "101010101", "output": "NO" }, { "input": "000000000100000000000110101100000", "output": "YES" }, { "input": "100001000000110101100000", "output": "NO" }, { "input": "100001000011010110000", "output": "NO" }, { "input": "010", "output": "NO" }, { "input": "10101011111111111111111111111100", "output": "YES" }, { "input": "1001101100", "output": "NO" }, { "input": "1001101010", "output": "NO" }, { "input": "1111100111", "output": "NO" }, { "input": "00110110001110001111", "output": "NO" }, { "input": "11110001001111110001", "output": "NO" }, { "input": "10001111001011111101", "output": "NO" }, { "input": "10000010100000001000110001010100001001001010011", "output": "YES" }, { "input": "01111011111010111100101100001011001010111110000010", "output": "NO" }, { "input": "00100000100100101110011001011011101110110110010100", "output": "NO" }, { "input": "10110100110001001011110101110010100010000000000100101010111110111110100011", "output": "YES" }, { "input": "00011101010101111001011011001101101011111101000010100000111000011100101011", "output": "NO" }, { "input": "01110000110100110101110100111000101101011101011110110100100111100001110111", "output": "NO" }, { "input": "11110110011000100111100111101101011111110100010101011011111101110110110111", "output": "YES" }, { "input": "100100010101110010001011001110100011100010011110100101100011010001001010001001101111001100", "output": "NO" }, { "input": "111110010001011010010011111100110110001111000010100011011100111101111101110010101111011110000001010", "output": "NO" }, { "input": "111110111100010100000100001010111011101011000111011011011010110010100010000101011111000011010011110", "output": "NO" }, { "input": "1011110110111010110111111010010010100011111011110000011000110010011110111010110100011010100010111000", "output": "NO" }, { "input": "0010100111100010110110000011100111110100111110001010000100111111111010111100101101010101001011010110", "output": "YES" }, { "input": "1111010100010100101011101100101101110011000010100010000001111100010011100101010001101111000001011000", "output": "NO" }, { "input": "0101100011001110001110100111100011010101011000000000110110010010111100101111010111100011101100100101", "output": "YES" }, { "input": "0001101110011101110000000010011111101001101111100001001010110000110001100000010001111011011110001101", "output": "YES" }, { "input": "1000010000100000100010000100001000010000100001000010000100001000010000100001000010000100001000010000", "output": "NO" }, { "input": "1000000000100000000010000000001000000000100000000010000000001000000000100000000010000000001000000000", "output": "YES" }, { "input": "0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000001", "output": "YES" }, { "input": "1111111111111111111111111111111111111111011111111111111111111111111111111111111111111111111111111111", "output": "YES" }, { "input": "10100101000", "output": "NO" }, { "input": "11110111011101", "output": "NO" }, { "input": "10000000", "output": "YES" }, { "input": "00000001", "output": "YES" }, { "input": "01111111", "output": "YES" }, { "input": "11111110", "output": "YES" } ]	1,692,608,113	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	5	92	0	s=input() for x in range(len(s)): if len(s)<7: print("NO") break else: if s[x]==s[x+1] and s[x]==s[x+2] and s[x]==s[x+3] and s[x]==s[x+4] and s[x]==s[x+5] and s[x]==s[x+6] : print("YES") break elif x==len(s)-1 or len(s)==7: print("NO") break	Title: Football Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Petya loves football very much. One day, as he was watching a football match, he was writing the players' current positions on a piece of paper. To simplify the situation he depicted it as a string consisting of zeroes and ones. A zero corresponds to players of one team; a one corresponds to players of another team. If there are at least 7 players of some team standing one after another, then the situation is considered dangerous. For example, the situation 00100110111111101 is dangerous and 11110111011101 is not. You are given the current situation. Determine whether it is dangerous or not. Input Specification: The first input line contains a non-empty string consisting of characters "0" and "1", which represents players. The length of the string does not exceed 100 characters. There's at least one player from each team present on the field. Output Specification: Print "YES" if the situation is dangerous. Otherwise, print "NO". Demo Input: ['001001\n', '1000000001\n'] Demo Output: ['NO\n', 'YES\n'] Note: none	```python s=input() for x in range(len(s)): if len(s)<7: print("NO") break else: if s[x]==s[x+1] and s[x]==s[x+2] and s[x]==s[x+3] and s[x]==s[x+4] and s[x]==s[x+5] and s[x]==s[x+6] : print("YES") break elif x==len(s)-1 or len(s)==7: print("NO") break ```	-1
876	B	Divisiblity of Differences	PROGRAMMING	1,300	[ "implementation", "math", "number theory" ]		null	null	You are given a multiset of n integers. You should select exactly k of them in a such way that the difference between any two of them is divisible by m, or tell that it is impossible. Numbers can be repeated in the original multiset and in the multiset of selected numbers, but number of occurrences of any number in multiset of selected numbers should not exceed the number of its occurrences in the original multiset.	First line contains three integers n, k and m (2<=≤<=k<=≤<=n<=≤<=100<=000, 1<=≤<=m<=≤<=100<=000) — number of integers in the multiset, number of integers you should select and the required divisor of any pair of selected integers. Second line contains n integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=109) — the numbers in the multiset.	If it is not possible to select k numbers in the desired way, output «No» (without the quotes). Otherwise, in the first line of output print «Yes» (without the quotes). In the second line print k integers b1,<=b2,<=...,<=bk — the selected numbers. If there are multiple possible solutions, print any of them.	[ "3 2 3\n1 8 4\n", "3 3 3\n1 8 4\n", "4 3 5\n2 7 7 7\n" ]	[ "Yes\n1 4 ", "No", "Yes\n2 7 7 " ]	none	1,000	[ { "input": "3 2 3\n1 8 4", "output": "Yes\n1 4 " }, { "input": "3 3 3\n1 8 4", "output": "No" }, { "input": "4 3 5\n2 7 7 7", "output": "Yes\n2 7 7 " }, { "input": "9 9 5\n389149775 833127990 969340400 364457730 48649145 316121525 640054660 924273385 973207825", "output": "Yes\n389149775 833127990 969340400 364457730 48649145 316121525 640054660 924273385 973207825 " }, { "input": "15 8 10\n216175135 15241965 611723934 987180005 151601897 403701727 533996295 207637446 875331635 46172555 604086315 350146655 401084142 156540458 982110455", "output": "Yes\n216175135 15241965 987180005 533996295 875331635 46172555 604086315 350146655 " }, { "input": "2 2 100000\n0 1", "output": "No" }, { "input": "101 25 64\n451 230 14 53 7 520 709 102 678 358 166 870 807 230 230 279 166 230 765 176 742 358 924 976 647 806 870 473 976 994 750 146 802 224 503 801 105 614 882 203 390 338 29 587 214 213 405 806 102 102 621 358 521 742 678 205 309 871 796 326 162 693 268 486 68 627 304 829 806 623 748 934 714 672 712 614 587 589 846 260 593 85 839 257 711 395 336 358 472 133 324 527 599 5 845 920 989 494 358 70 882", "output": "Yes\n230 102 678 358 166 870 230 230 166 230 742 358 806 870 614 806 102 102 358 742 678 486 806 934 614 " }, { "input": "108 29 72\n738 619 711 235 288 288 679 36 785 233 706 71 216 144 216 781 338 583 495 648 144 432 72 720 541 288 158 328 154 202 10 533 635 176 707 216 314 397 440 142 326 458 568 701 745 144 61 634 520 720 744 144 409 127 526 476 101 469 72 432 738 432 235 641 695 276 144 144 231 555 630 9 109 319 437 288 288 317 453 432 601 0 449 576 743 352 333 504 504 369 228 288 381 142 500 72 297 359 230 773 216 576 144 244 437 772 483 51", "output": "Yes\n288 288 216 144 216 648 144 432 72 720 288 216 144 720 144 72 432 432 144 144 288 288 432 0 576 504 504 288 72 " }, { "input": "8 2 6\n750462183 165947982 770714338 368445737 363145692 966611485 376672869 678687947", "output": "Yes\n165947982 363145692 " }, { "input": "12 2 1\n512497388 499105388 575265677 864726520 678272195 667107176 809432109 439696443 770034376 873126825 690514828 541499950", "output": "Yes\n512497388 499105388 " }, { "input": "9 3 1\n506004039 471451660 614118177 518013571 43210072 454727076 285905913 543002174 298515615", "output": "Yes\n506004039 471451660 614118177 " }, { "input": "8 4 6\n344417267 377591123 938158786 682031413 804153975 89006697 275945670 735510539", "output": "No" }, { "input": "8 8 1\n314088413 315795280 271532387 241073087 961218399 884234132 419866508 286799253", "output": "Yes\n314088413 315795280 271532387 241073087 961218399 884234132 419866508 286799253 " }, { "input": "7 7 1\n0 0 0 0 0 0 0", "output": "Yes\n0 0 0 0 0 0 0 " }, { "input": "11 4 3\n0 1 0 1 1 0 0 0 0 0 0", "output": "Yes\n0 0 0 0 " }, { "input": "13 4 4\n1 1 0 3 2 4 1 0 3 4 2 4 3", "output": "Yes\n0 4 0 4 " }, { "input": "5 5 1\n6 4 6 0 4", "output": "Yes\n6 4 6 0 4 " }, { "input": "3 2 3\n1 2 3", "output": "No" }, { "input": "6 3 4\n5 9 10 6 7 8", "output": "No" }, { "input": "4 4 3\n4 7 2 5", "output": "No" }, { "input": "4 2 6\n5 5 5 5", "output": "Yes\n5 5 " }, { "input": "4 3 3\n5 1 4 7", "output": "Yes\n1 4 7 " }, { "input": "4 3 10\n0 1 11 11", "output": "Yes\n1 11 11 " }, { "input": "5 2 4\n1 2 2 2 2", "output": "Yes\n2 2 " }, { "input": "5 5 9\n8 17 26 35 44", "output": "Yes\n8 17 26 35 44 " }, { "input": "3 2 2\n1 2 4", "output": "Yes\n2 4 " }, { "input": "5 4 2\n1 3 6 10 12", "output": "No" }, { "input": "3 2 4\n1 2 3", "output": "No" }, { "input": "8 3 5\n1 2 3 4 1 2 3 4", "output": "No" }, { "input": "5 2 9\n8 8 8 8 8", "output": "Yes\n8 8 " }, { "input": "3 3 3\n1 3 6", "output": "No" }, { "input": "5 2 10\n4 5 6 19 29", "output": "Yes\n19 29 " }, { "input": "5 3 3\n3 6 4 7 10", "output": "Yes\n4 7 10 " } ]	1,508,459,094	2,147,483,647	Python 3	OK	TESTS	63	156	16,998,400	import sys def main(): n, k, m = [int(x) for x in sys.stdin.readline().rstrip().rsplit()] l = [int(x) for x in sys.stdin.readline().rstrip().rsplit()] divSets = {} for elem in l: if elem % m in divSets: divSets[elem % m].append(elem) else: divSets[elem % m] = [elem] retSet = None for key in divSets.keys(): if len(divSets[key]) >= k: retSet = divSets[key][:k] if retSet is None: print("No") else: print("Yes") print(" ".join(map(str,retSet))) main()	Title: Divisiblity of Differences Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a multiset of n integers. You should select exactly k of them in a such way that the difference between any two of them is divisible by m, or tell that it is impossible. Numbers can be repeated in the original multiset and in the multiset of selected numbers, but number of occurrences of any number in multiset of selected numbers should not exceed the number of its occurrences in the original multiset. Input Specification: First line contains three integers n, k and m (2<=≤<=k<=≤<=n<=≤<=100<=000, 1<=≤<=m<=≤<=100<=000) — number of integers in the multiset, number of integers you should select and the required divisor of any pair of selected integers. Second line contains n integers a1,<=a2,<=...,<=an (0<=≤<=ai<=≤<=109) — the numbers in the multiset. Output Specification: If it is not possible to select k numbers in the desired way, output «No» (without the quotes). Otherwise, in the first line of output print «Yes» (without the quotes). In the second line print k integers b1,<=b2,<=...,<=bk — the selected numbers. If there are multiple possible solutions, print any of them. Demo Input: ['3 2 3\n1 8 4\n', '3 3 3\n1 8 4\n', '4 3 5\n2 7 7 7\n'] Demo Output: ['Yes\n1 4 ', 'No', 'Yes\n2 7 7 '] Note: none	```python import sys def main(): n, k, m = [int(x) for x in sys.stdin.readline().rstrip().rsplit()] l = [int(x) for x in sys.stdin.readline().rstrip().rsplit()] divSets = {} for elem in l: if elem % m in divSets: divSets[elem % m].append(elem) else: divSets[elem % m] = [elem] retSet = None for key in divSets.keys(): if len(divSets[key]) >= k: retSet = divSets[key][:k] if retSet is None: print("No") else: print("Yes") print(" ".join(map(str,retSet))) main() ```	3
349	A	Cinema Line	PROGRAMMING	1,100	[ "greedy", "implementation" ]		null	null	The new "Die Hard" movie has just been released! There are n people at the cinema box office standing in a huge line. Each of them has a single 100, 50 or 25 ruble bill. A "Die Hard" ticket costs 25 rubles. Can the booking clerk sell a ticket to each person and give the change if he initially has no money and sells the tickets strictly in the order people follow in the line?	The first line contains integer n (1<=≤<=n<=≤<=105) — the number of people in the line. The next line contains n integers, each of them equals 25, 50 or 100 — the values of the bills the people have. The numbers are given in the order from the beginning of the line (at the box office) to the end of the line.	Print "YES" (without the quotes) if the booking clerk can sell a ticket to each person and give the change. Otherwise print "NO".	[ "4\n25 25 50 50\n", "2\n25 100\n", "4\n50 50 25 25\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "4\n25 25 50 50", "output": "YES" }, { "input": "2\n25 100", "output": "NO" }, { "input": "4\n50 50 25 25", "output": "NO" }, { "input": "3\n25 50 100", "output": "NO" }, { "input": "10\n25 25 25 25 25 25 25 25 25 25", "output": "YES" }, { "input": "10\n50 50 50 50 50 50 50 50 50 50", "output": "NO" }, { "input": "10\n100 100 100 100 100 100 100 100 100 100", "output": "NO" }, { "input": "7\n25 25 25 25 50 100 50", "output": "YES" }, { "input": "2\n25 25", "output": "YES" }, { "input": "3\n50 100 100", "output": "NO" }, { "input": "3\n25 50 50", "output": "NO" }, { "input": "2\n50 25", "output": "NO" }, { "input": "14\n25 25 25 25 25 25 25 50 50 50 100 100 100 100", "output": "NO" }, { "input": "5\n25 25 25 100 100", "output": "NO" }, { "input": "7\n25 50 25 50 25 50 100", "output": "NO" }, { "input": "5\n25 50 25 50 100", "output": "NO" }, { "input": "5\n25 25 50 50 50", "output": "NO" }, { "input": "5\n25 25 50 100 50", "output": "NO" }, { "input": "5\n25 25 50 50 100", "output": "NO" }, { "input": "1\n50", "output": "NO" } ]	1,699,120,272	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	11	124	13,209,600	n = int(input()) cost = list(map(int, input().split())) change = 0 for i in range(len(cost)): if (cost[i]-25) > change: print('NO') break else: change += 25 else: print('YES')	Title: Cinema Line Time Limit: None seconds Memory Limit: None megabytes Problem Description: The new "Die Hard" movie has just been released! There are n people at the cinema box office standing in a huge line. Each of them has a single 100, 50 or 25 ruble bill. A "Die Hard" ticket costs 25 rubles. Can the booking clerk sell a ticket to each person and give the change if he initially has no money and sells the tickets strictly in the order people follow in the line? Input Specification: The first line contains integer n (1<=≤<=n<=≤<=105) — the number of people in the line. The next line contains n integers, each of them equals 25, 50 or 100 — the values of the bills the people have. The numbers are given in the order from the beginning of the line (at the box office) to the end of the line. Output Specification: Print "YES" (without the quotes) if the booking clerk can sell a ticket to each person and give the change. Otherwise print "NO". Demo Input: ['4\n25 25 50 50\n', '2\n25 100\n', '4\n50 50 25 25\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python n = int(input()) cost = list(map(int, input().split())) change = 0 for i in range(len(cost)): if (cost[i]-25) > change: print('NO') break else: change += 25 else: print('YES') ```	0
32	B	Borze	PROGRAMMING	800	[ "expression parsing", "implementation" ]	B. Borze	2	256	Ternary numeric notation is quite popular in Berland. To telegraph the ternary number the Borze alphabet is used. Digit 0 is transmitted as «.», 1 as «-.» and 2 as «--». You are to decode the Borze code, i.e. to find out the ternary number given its representation in Borze alphabet.	The first line contains a number in Borze code. The length of the string is between 1 and 200 characters. It's guaranteed that the given string is a valid Borze code of some ternary number (this number can have leading zeroes).	Output the decoded ternary number. It can have leading zeroes.	[ ".-.--\n", "--.\n", "-..-.--\n" ]	[ "012", "20", "1012" ]	none	1,000	[ { "input": ".-.--", "output": "012" }, { "input": "--.", "output": "20" }, { "input": "-..-.--", "output": "1012" }, { "input": "---..", "output": "210" }, { "input": "..--.---..", "output": "0020210" }, { "input": "-.....----.", "output": "10000220" }, { "input": ".", "output": "0" }, { "input": "-.", "output": "1" }, { "input": "--", "output": "2" }, { "input": "..", "output": "00" }, { "input": "--.", "output": "20" }, { "input": ".--.", "output": "020" }, { "input": ".-.-..", "output": "0110" }, { "input": "----.-.", "output": "2201" }, { "input": "-..--.-.", "output": "10201" }, { "input": "..--..--.", "output": "0020020" }, { "input": "-.-.---.--..-..-.-.-..-..-.--.", "output": "112120010111010120" }, { "input": "---.-.-.------..-..-..-..-.-..-.--.-.-..-.-.-----..-.-.", "output": "21112220010101011012011011221011" }, { "input": "-.-..--.-.-.-.-.-..-.-.-.---------.--.---..--...--.-----.-.-.-...--.-.-.---.------.--..-.--.-----.-...-..------", "output": "11020111110111222212021020002022111100201121222020012022110010222" }, { "input": "-.-..-.--.---..---.-..---.-...-.-.----..-.---.-.---..-.--.---.-.-------.---.--....----.-.---.---.---.----.-----..---.-.-.-.-----.--.-------.-..", "output": "110120210211021100112200121121012021122212120000220121212122022102111122120222110" }, { "input": ".-..-.-.---.-----.--.---...-.--.-.-....-..", "output": "01011212212021001201100010" }, { "input": ".------.-.---..--...-..-..-.-.-.--.--.-..-.--...-.-.---.-.-.------..--..-.---..----.-..-.--.---.-.----.-.---...-.-.-.-----.-.-.---.---.-.....-.-...-----.-...-.---.-..-.-----.--...---.-.-..-.--.-.---..", "output": "022201210200010101112020101200011211122200200121022010120211220121001112211121211000011002211001211012212000211101201210" }, { "input": ".-.--.---.-----.-.-----.-.-..-----..-..----..--.-.--.----..---.---..-.-.-----..-------.----..----.-..---...-----..-..-----...-..-.-.-----....---..---..-.-----...-.--...--.-.---.-.-.-.-.-...---..----.", "output": "01202122112211102210102200201202200212101122102221220022010210022101022100101122100021021012210012000201211111100210220" }, { "input": "..-.-.-.---.-.-.-..-.-..-.-.---.-------.---..-----.---....-.---.--.--.-.---.---------.-..---.-.-.--..---.---.-.---.-.-..-.-..-.-.-.----.--.-....--------.-.---..----.------.-.-.--.--.-----.-----.----", "output": "0011121111011011212221210221210001212020121222211021112002121121110110111220201000222201210220222011202022122122" }, { "input": "-..-------.------.-..--.-.-..--.-.-..-----..-.-.-..-..-..--.---..-----..---..-..--.-..-.-.---...-.....-------.---.-----.-...-.-...-.-.---.---.-----.--.--...-.--..-.-..-...-.-.-.-.---..---.-..-.-.-.-..", "output": "102221222010201102011022101110101020210221021010201011210010000222121221100110011212122120200012001101001111210211011110" }, { "input": ".-.----.-.--..-.-.-.-..----..-.-...--.-.---.---.-------..-.--..-......--.------.--.----.--...-.--.--..-----..-.....--.--.-.-.------..--------.----------..-.---.----.---.-..--..-.....-..------.--.", "output": "012201200111102200110020121212221012001000002022202022020001202002210100002020112220022220222220012122021102001000010222020" }, { "input": "------.-----.-....--.-.----.-.---.-.-..---.-.---.-----..-...-.-.---..-.-.-..-.-.-...-.-.-.----..--.------.----.-..-.--...-.-------...-.-..-.-.--.--.---..--..--------.--.-.-.---.-.-.-...----.--..-.--..", "output": "222022110002012201211102112122101001121011101110011122002022202201012000122210011011202021020022220201121111002202001200" }, { "input": "-.---...----...--.--...-.--.----", "output": "121002200020200012022" }, { "input": "--.--.--.---.--.-.---.-.-..-..--.-..---.-.....-..---.-----.--...-.-.-------.-.--.-.----.-..-.------.", "output": "202020212012111010201021100001021221200011222112012201012220" } ]	1,671,677,672	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	60	0	# B = input() B = ".-.--" i = 0 while i < len(B): if B[i] == '.': print('0') elif (B[i] == '-' and B[i+1] == '.'): print('1') i+=1 elif B[i] == '-' and B[i+1] == '-': print('2') i+=1 i+=1	Title: Borze Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Ternary numeric notation is quite popular in Berland. To telegraph the ternary number the Borze alphabet is used. Digit 0 is transmitted as «.», 1 as «-.» and 2 as «--». You are to decode the Borze code, i.e. to find out the ternary number given its representation in Borze alphabet. Input Specification: The first line contains a number in Borze code. The length of the string is between 1 and 200 characters. It's guaranteed that the given string is a valid Borze code of some ternary number (this number can have leading zeroes). Output Specification: Output the decoded ternary number. It can have leading zeroes. Demo Input: ['.-.--\n', '--.\n', '-..-.--\n'] Demo Output: ['012', '20', '1012'] Note: none	```python # B = input() B = ".-.--" i = 0 while i < len(B): if B[i] == '.': print('0') elif (B[i] == '-' and B[i+1] == '.'): print('1') i+=1 elif B[i] == '-' and B[i+1] == '-': print('2') i+=1 i+=1 ```	0
802	G	Fake News (easy)	PROGRAMMING	800	[ "implementation", "strings" ]		null	null	As it's the first of April, Heidi is suspecting that the news she reads today are fake, and she does not want to look silly in front of all the contestants. She knows that a newspiece is fake if it contains heidi as a subsequence. Help Heidi assess whether the given piece is true, but please be discreet about it...	The first and only line of input contains a single nonempty string s of length at most 1000 composed of lowercase letters (a-z).	Output YES if the string s contains heidi as a subsequence and NO otherwise.	[ "abcheaibcdi\n", "hiedi\n" ]	[ "YES", "NO" ]	A string s contains another string p as a subsequence if it is possible to delete some characters from s and obtain p.	0	[ { "input": "abcheaibcdi", "output": "YES" }, { "input": "hiedi", "output": "NO" }, { "input": "ihied", "output": "NO" }, { "input": "diehi", "output": "NO" }, { "input": "deiih", "output": "NO" }, { "input": "iheid", "output": "NO" }, { "input": "eihdi", "output": "NO" }, { "input": "ehdii", "output": "NO" }, { "input": "edhii", "output": "NO" }, { "input": "deiih", "output": "NO" }, { "input": "ehdii", "output": "NO" }, { "input": "eufyajkssayhjhqcwxmctecaeepjwmfoscqprpcxsqfwnlgzsmmuwuoruantipholrauvxydfvftwfzhnckxswussvlidcojiciflpvkcxkkcmmvtfvxrkwcpeelwsuzqgamamdtdgzscmikvojfvqehblmjczkvtdeymgertgkwfwfukafqlfdhtedcctixhyetdypswgagrpyto", "output": "YES" }, { "input": "arfbvxgdvqzuloojjrwoyqqbxamxybaqltfimofulusfebodjkwwrgwcppkwiodtpjaraglyplgerrpqjkpoggjmfxhwtqrijpijrcyxnoodvwpyjfpvqaoazllbrpzananbrvvybboedidtuvqquklkpeflfaltukjhzjgiofombhbmqbihgtapswykfvlgdoapjqntvqsaohmbvnphvyyhvhavslamczuqifxnwknkaenqmlvetrqogqxmlptgrmqvxzdxdmwobjesmgxckpmawtioavwdngyiwkzypfnxcovwzdohshwlavwsthdssiadhiwmhpvgkrbezm", "output": "YES" }, { "input": "zcectngbqnejjjtsfrluummmqabzqbyccshjqbrjthzhlbmzjfxugvjouwhumsgrnopiyakfadjnbsesamhynsbfbfunupwbxvohfmpwlcpxhovwpfpciclatgmiufwdvtsqrsdcymvkldpnhfeisrzhyhhlkwdzthgprvkpyldeysvbmcibqkpudyrraqdlxpjecvwcvuiklcrsbgvqasmxmtxqzmawcjtozioqlfflinnxpeexbzloaeqjvglbdeufultpjqexvjjjkzemtzuzmxvawilcqdrcjzpqyhtwfphuonzwkotthsaxrmwtnlmcdylxqcfffyndqeouztluqwlhnkkvzwcfiscikv", "output": "YES" }, { "input": "plqaykgovxkvsiahdbglktdlhcqwelxxmtlyymrsyubxdskvyjkrowvcbpdofpjqspsrgpakdczletxujzlsegepzleipiyycpinzxgwjsgslnxsotouddgfcybozfpjhhocpybfjbaywsehbcfrayvancbrumdfngqytnhihyxnlvilrqyhnxeckprqafofelospffhtwguzjbbjlzbqrtiielbvzutzgpqxosiaqznndgobcluuqlhmffiowkjdlkokehtjdyjvmxsiyxureflmdomerfekxdvtitvwzmdsdzplkpbtafxqfpudnhfqpoiwvjnylanunmagoweobdvfjgepbsymfutrjarlxclhgavpytiiqwvojrptofuvlohzeguxdsrihsbucelhhuedltnnjgzxwyblbqvnoliiydfinzlogbvucwykryzcyibnniggbkdkdcdgcsbvvnavtyhtkanrblpvomvjs", "output": "YES" }, { "input": "fbldqzggeunkpwcfirxanmntbfrudijltoertsdvcvcmbwodbibsrxendzebvxwydpasaqnisrijctsuatihxxygbeovhxjdptdcppkvfytdpjspvrannxavmkmisqtygntxkdlousdypyfkrpzapysfpdbyprufwzhunlsfugojddkmxzinatiwfxdqmgyrnjnxvrclhxyuwxtshoqdjptmeecvgmrlvuwqtmnfnfeeiwcavwnqmyustawbjodzwsqmnjxhpqmgpysierlwbbdzcwprpsexyvreewcmlbvaiytjlxdqdaqftefdlmtmmjcwvfejshymhnouoshdzqcwzxpzupkbcievodzqkqvyjuuxxwepxjalvkzufnveji", "output": "YES" }, { "input": "htsyljgoelbbuipivuzrhmfpkgderqpoprlxdpasxhpmxvaztccldtmujjzjmcpdvsdghzpretlsyyiljhjznseaacruriufswuvizwwuvdioazophhyytvbiogttnnouauxllbdn", "output": "YES" }, { "input": "ikmxzqdzxqlvgeojsnhqzciujslwjyzzexnregabdqztpplosdakimjxmuqccbnwvzbajoiqgdobccwnrwmixohrbdarhoeeelzbpigiybtesybwefpcfx", "output": "YES" }, { "input": "bpvbpjvbdfiodsmahxpcubjxdykesubnypalhypantshkjffmxjmelblqnjdmtaltneuyudyevkgedkqrdmrfeemgpghwrifcwincfixokfgurhqbcfzeajrgkgpwqwsepudxulywowwxzdxkumsicsvnzfxspmjpaixgejeaoyoibegosqoyoydmphfpbutrrewyjecowjckvpcceoamtfbitdneuwqfvnagswlskmsmkhmxyfsrpqwhxzocyffiumcy", "output": "YES" }, { "input": "vllsexwrazvlfvhvrtqeohvzzresjdiuhomfpgqcxpqdevplecuaepixhlijatxzegciizpvyvxuembiplwklahlqibykfideysjygagjbgqkbhdhkatddcwlxboinfuomnpc", "output": "YES" }, { "input": "pnjdwpxmvfoqkjtbhquqcuredrkwqzzfjmdvpnbqtypzdovemhhclkvigjvtprrpzbrbcbatkucaqteuciuozytsptvsskkeplaxdaqmjkmef", "output": "NO" }, { "input": "jpwfhvlxvsdhtuozvlmnfiotrgapgjxtcsgcjnodcztupysvvvmjpzqkpommadppdrykuqkcpzojcwvlogvkddedwbggkrhuvtsvdiokehlkdlnukcufjvqxnikcdawvexxwffxtriqbdmkahxdtygodzohwtdmmuvmatdkvweqvaehaxiefpevkvqpyxsrhtmgjsdfcwzqobibeduooldrmglbinrepmunizheqzvgqvpdskhxfidxfnbisyizhepwyrcykcmjxnkyfjgrqlkixcvysa", "output": "YES" }, { "input": "aftcrvuumeqbfvaqlltscnuhkpcifrrhnutjinxdhhdbzvizlrapzjdatuaynoplgjketupgaejciosofuhcgcjdcucarfvtsofgubtphijciswsvidnvpztlaarydkeqxzwdhfbmullkimerukusbrdnnujviydldrwhdfllsjtziwfeaiqotbiprespmxjulnyunkdtcghrzvhtcychkwatqqmladxpvmvlkzscthylbzkpgwlzfjqwarqvdeyngekqvrhrftpxnkfcibbowvnqdkulcdydspcubwlgoyinpnzgidbgunparnueddzwtzdiavbprbbg", "output": "YES" }, { "input": "oagjghsidigeh", "output": "NO" }, { "input": "chdhzpfzabupskiusjoefrwmjmqkbmdgboicnszkhdrlegeqjsldurmbshijadlwsycselhlnudndpdhcnhruhhvsgbthpruiqfirxkhpqhzhqdfpyozolbionodypfcqfeqbkcgmqkizgeyyelzeoothexcoaahedgrvoemqcwccbvoeqawqeuusyjxmgjkpfwcdttfmwunzuwvsihliexlzygqcgpbdiawfvqukikhbjerjkyhpcknlndaystrgsinghlmekbvhntcpypmchcwoglsmwwdulqneuabuuuvtyrnjxfcgoothalwkzzfxakneusezgnnepkpipzromqubraiggqndliz", "output": "YES" }, { "input": "lgirxqkrkgjcutpqitmffvbujcljkqardlalyigxorscczuzikoylcxenryhskoavymexysvmhbsvhtycjlmzhijpuvcjshyfeycvvcfyzytzoyvxajpqdjtfiatnvxnyeqtfcagfftafllhhjhplbdsrfpctkqpinpdfrtlzyjllfbeffputywcckupyslkbbzpgcnxgbmhtqeqqehpdaokkjtatrhyiuusjhwgiiiikxpzdueasemosmmccoakafgvxduwiuflovhhfhffgnnjhoperhhjtvocpqytjxkmrknnknqeglffhfuplopmktykxuvcmbwpoeisrlyyhdpxfvzseucofyhziuiikihpqheqdyzwigeaqzhxzvporgisxgvhyicqyejovqloibhbunsvsunpvmdckkbuokitdzleilfwutcvuuytpupizinfjrzhxudsmjcjyfcpfgthujjowdwtgbvi", "output": "YES" }, { "input": "uuehrvufgerqbzyzksmqnewacotuimawhlbycdbsmhshrsbqwybbkwjwsrkwptvlbbwjiivqugzrxxwgidrcrhrwsmwgeoleptfamzefgaeyxouxocrpvomjrazmxrnffdwrrmblgdiabdncvfougtmjgvvazasnygdrigbsrieoonirlivfyodvulouslxosswgpdexuldmkdbpdlgutiotvxjyecbrsvbmqxrlcpcipjjncduyqtohlzybvlemmfdeubihwlwqglkgjvnwrbgydcpwklmjeewqklmqdbajqgrpnynaxfvxjzgibqerxyhnxenrmcdqaaeksbzyrcaepozqpetaurlhjuxxhwppuhgoihxdxbmxeiahyaqkbknktlzkheaarjoqqrsyeducvoygwalgarldcdlqogfvsncejssmx", "output": "YES" }, { "input": "iiopulfjxoitgiusqrhgbkiyzinphjtclodbkkydetylvuimkhdkklmyoacmekdvjpuxcrvqnjhqhhbfenlpzpwijtykqziocilvtpqhxuyrphdlamawjuzgjwiebkqyrzyqgtkcrhntjxqmcgkrqcslogjegfrivzidfedeegwbbsopvxvdoididlpypjogxaodtueebbwuwilacunqpozczcgrpaxxrtogpxgfkudtxchoravrrdtimhenwmnafxaruuojduxxglefejycfcyxllfimkszmbrhcwpnwjqgwvzysmlaaifdxfjjpgjmcksiigpanappjdloiolojmcqbnpnjjzaufdpjaknylmyvolhwypygwepmqwpiglpcnpypnudhdzpdvgzosyjthzcwtytxq", "output": "YES" } ]	1,619,229,855	2,147,483,647	Python 3	OK	TESTS	58	77	0	s = input() key = 'heidi' counter = 0 is_found = [] for index, letter in enumerate(s): if len(is_found) == 5: break if (s[index] == key[counter]): is_found.append(key[counter]) counter = counter + 1 if key == ''.join(is_found): print('YES') else: print('NO')	Title: Fake News (easy) Time Limit: None seconds Memory Limit: None megabytes Problem Description: As it's the first of April, Heidi is suspecting that the news she reads today are fake, and she does not want to look silly in front of all the contestants. She knows that a newspiece is fake if it contains heidi as a subsequence. Help Heidi assess whether the given piece is true, but please be discreet about it... Input Specification: The first and only line of input contains a single nonempty string s of length at most 1000 composed of lowercase letters (a-z). Output Specification: Output YES if the string s contains heidi as a subsequence and NO otherwise. Demo Input: ['abcheaibcdi\n', 'hiedi\n'] Demo Output: ['YES', 'NO'] Note: A string s contains another string p as a subsequence if it is possible to delete some characters from s and obtain p.	```python s = input() key = 'heidi' counter = 0 is_found = [] for index, letter in enumerate(s): if len(is_found) == 5: break if (s[index] == key[counter]): is_found.append(key[counter]) counter = counter + 1 if key == ''.join(is_found): print('YES') else: print('NO') ```	3
609	C	Load Balancing	PROGRAMMING	1,500	[ "implementation", "math" ]		null	null	In the school computer room there are n servers which are responsible for processing several computing tasks. You know the number of scheduled tasks for each server: there are mi tasks assigned to the i-th server. In order to balance the load for each server, you want to reassign some tasks to make the difference between the most loaded server and the least loaded server as small as possible. In other words you want to minimize expression ma<=-<=mb, where a is the most loaded server and b is the least loaded one. In one second you can reassign a single task. Thus in one second you can choose any pair of servers and move a single task from one server to another. Write a program to find the minimum number of seconds needed to balance the load of servers.	The first line contains positive number n (1<=≤<=n<=≤<=105) — the number of the servers. The second line contains the sequence of non-negative integers m1,<=m2,<=...,<=mn (0<=≤<=mi<=≤<=2·104), where mi is the number of tasks assigned to the i-th server.	Print the minimum number of seconds required to balance the load.	[ "2\n1 6\n", "7\n10 11 10 11 10 11 11\n", "5\n1 2 3 4 5\n" ]	[ "2\n", "0\n", "3\n" ]	In the first example two seconds are needed. In each second, a single task from server #2 should be moved to server #1. After two seconds there should be 3 tasks on server #1 and 4 tasks on server #2. In the second example the load is already balanced. A possible sequence of task movements for the third example is: 1. move a task from server #4 to server #1 (the sequence m becomes: 2 2 3 3 5); 1. then move task from server #5 to server #1 (the sequence m becomes: 3 2 3 3 4); 1. then move task from server #5 to server #2 (the sequence m becomes: 3 3 3 3 3). The above sequence is one of several possible ways to balance the load of servers in three seconds.	0	[ { "input": "2\n1 6", "output": "2" }, { "input": "7\n10 11 10 11 10 11 11", "output": "0" }, { "input": "5\n1 2 3 4 5", "output": "3" }, { "input": "10\n0 0 0 0 0 0 0 0 0 0", "output": "0" }, { "input": "1\n0", "output": "0" }, { "input": "1\n20000", "output": "0" }, { "input": "3\n1 10000 20000", "output": "9999" }, { "input": "10\n19999 19999 20000 20000 19999 20000 20000 20000 19999 19999", "output": "0" }, { "input": "10\n8 5 5 5 6 6 6 6 5 5", "output": "2" }, { "input": "2\n10 3", "output": "3" }, { "input": "5\n6 5 9 7 6", "output": "2" }, { "input": "5\n2 10 20 30 50", "output": "34" }, { "input": "7\n2 2 2 2 2 3 4", "output": "1" } ]	1,589,440,804	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	6	124	20,172,800	# import math def main(): n = int(input()) a = list(map(int,input().split())) if max(a)-min(a)==1: print(0) return add = sum(a) add = round(add/n) ans = 0 for i in range(len(a)): if a[i]>add: ans += a[i]-add print(ans) main() # t= int(input()) # while t: # main() # t-=1	Title: Load Balancing Time Limit: None seconds Memory Limit: None megabytes Problem Description: In the school computer room there are n servers which are responsible for processing several computing tasks. You know the number of scheduled tasks for each server: there are mi tasks assigned to the i-th server. In order to balance the load for each server, you want to reassign some tasks to make the difference between the most loaded server and the least loaded server as small as possible. In other words you want to minimize expression ma<=-<=mb, where a is the most loaded server and b is the least loaded one. In one second you can reassign a single task. Thus in one second you can choose any pair of servers and move a single task from one server to another. Write a program to find the minimum number of seconds needed to balance the load of servers. Input Specification: The first line contains positive number n (1<=≤<=n<=≤<=105) — the number of the servers. The second line contains the sequence of non-negative integers m1,<=m2,<=...,<=mn (0<=≤<=mi<=≤<=2·104), where mi is the number of tasks assigned to the i-th server. Output Specification: Print the minimum number of seconds required to balance the load. Demo Input: ['2\n1 6\n', '7\n10 11 10 11 10 11 11\n', '5\n1 2 3 4 5\n'] Demo Output: ['2\n', '0\n', '3\n'] Note: In the first example two seconds are needed. In each second, a single task from server #2 should be moved to server #1. After two seconds there should be 3 tasks on server #1 and 4 tasks on server #2. In the second example the load is already balanced. A possible sequence of task movements for the third example is: 1. move a task from server #4 to server #1 (the sequence m becomes: 2 2 3 3 5); 1. then move task from server #5 to server #1 (the sequence m becomes: 3 2 3 3 4); 1. then move task from server #5 to server #2 (the sequence m becomes: 3 3 3 3 3). The above sequence is one of several possible ways to balance the load of servers in three seconds.	```python # import math def main(): n = int(input()) a = list(map(int,input().split())) if max(a)-min(a)==1: print(0) return add = sum(a) add = round(add/n) ans = 0 for i in range(len(a)): if a[i]>add: ans += a[i]-add print(ans) main() # t= int(input()) # while t: # main() # t-=1 ```	0
837	A	Text Volume	PROGRAMMING	800	[ "implementation" ]		null	null	You are given a text of single-space separated words, consisting of small and capital Latin letters. Volume of the word is number of capital letters in the word. Volume of the text is maximum volume of all words in the text. Calculate the volume of the given text.	The first line contains one integer number n (1<=≤<=n<=≤<=200) — length of the text. The second line contains text of single-space separated words s1,<=s2,<=...,<=si, consisting only of small and capital Latin letters.	Print one integer number — volume of text.	[ "7\nNonZERO\n", "24\nthis is zero answer text\n", "24\nHarbour Space University\n" ]	[ "5\n", "0\n", "1\n" ]	In the first example there is only one word, there are 5 capital letters in it. In the second example all of the words contain 0 capital letters.	0	[ { "input": "7\nNonZERO", "output": "5" }, { "input": "24\nthis is zero answer text", "output": "0" }, { "input": "24\nHarbour Space University", "output": "1" }, { "input": "2\nWM", "output": "2" }, { "input": "200\nLBmJKQLCKUgtTxMoDsEerwvLOXsxASSydOqWyULsRcjMYDWdDCgaDvBfATIWPVSXlbcCLHPYahhxMEYUiaxoCebghJqvmRnaNHYTKLeOiaLDnATPZAOgSNfBzaxLymTGjfzvTegbXsAthTxyDTcmBUkqyGlVGZhoazQzVSoKbTFcCRvYsgSCwjGMxBfWEwMHuagTBxkz", "output": "105" }, { "input": "199\no A r v H e J q k J k v w Q F p O R y R Z o a K R L Z E H t X y X N y y p b x B m r R S q i A x V S u i c L y M n N X c C W Z m S j e w C w T r I S X T D F l w o k f t X u n W w p Z r A k I Y E h s g", "output": "1" }, { "input": "200\nhCyIdivIiISmmYIsCLbpKcTyHaOgTUQEwnQACXnrLdHAVFLtvliTEMlzBVzTesQbhXmcqvwPDeojglBMIjOXANfyQxCSjOJyO SIqOTnRzVzseGIDDYNtrwIusScWSuEhPyEmgQIVEzXofRptjeMzzhtUQxJgcUWILUhEaaRmYRBVsjoqgmyPIKwSajdlNPccOOtWrez", "output": "50" }, { "input": "1\ne", "output": "0" }, { "input": "1\nA", "output": "1" }, { "input": "200\nABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ ABCDEFGHIJ KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU VWXYZABCDE KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU KLMNOPRSTU KZ", "output": "10" }, { "input": "200\nAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "output": "200" }, { "input": "200\nffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff", "output": "0" }, { "input": "24\nHarbour Space UniversitY", "output": "2" }, { "input": "5\naA AA", "output": "2" }, { "input": "10\nas AS ASDA", "output": "4" }, { "input": "10\nas AS ASDZ", "output": "4" }, { "input": "3\na A", "output": "1" }, { "input": "24\nHarbour space UniversitY", "output": "2" }, { "input": "10\nas AS ASAa", "output": "3" }, { "input": "15\naAb ABCDFGRHTJS", "output": "11" }, { "input": "53\nsdfAZEZR AZE dfdf dsdRFGSDF ZZDZSD dfsd ERBGF dsfsdfR", "output": "6" }, { "input": "10\nABC ABc AB", "output": "3" }, { "input": "10\nA c de CDE", "output": "3" }, { "input": "4\nA AB", "output": "2" }, { "input": "18\nHARbour Space UNIV", "output": "4" }, { "input": "13\na b c d e f A", "output": "1" }, { "input": "6\nA B CA", "output": "2" }, { "input": "4\naa A", "output": "1" }, { "input": "3\nA a", "output": "1" } ]	1,597,253,117	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	0	218	2,150,400	g=int(input()) y=input().split() count=[] for i in y: capitcal_counter=0 for j in i: capitcal_counter+=1 count.append(capital_counter) print(max(count))	Title: Text Volume Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a text of single-space separated words, consisting of small and capital Latin letters. Volume of the word is number of capital letters in the word. Volume of the text is maximum volume of all words in the text. Calculate the volume of the given text. Input Specification: The first line contains one integer number n (1<=≤<=n<=≤<=200) — length of the text. The second line contains text of single-space separated words s1,<=s2,<=...,<=si, consisting only of small and capital Latin letters. Output Specification: Print one integer number — volume of text. Demo Input: ['7\nNonZERO\n', '24\nthis is zero answer text\n', '24\nHarbour Space University\n'] Demo Output: ['5\n', '0\n', '1\n'] Note: In the first example there is only one word, there are 5 capital letters in it. In the second example all of the words contain 0 capital letters.	```python g=int(input()) y=input().split() count=[] for i in y: capitcal_counter=0 for j in i: capitcal_counter+=1 count.append(capital_counter) print(max(count)) ```	-1
803	F	Coprime Subsequences	PROGRAMMING	2,000	[ "bitmasks", "combinatorics", "number theory" ]		null	null	Let's call a non-empty sequence of positive integers a1,<=a2... ak coprime if the greatest common divisor of all elements of this sequence is equal to 1. Given an array a consisting of n positive integers, find the number of its coprime subsequences. Since the answer may be very large, print it modulo 109<=+<=7. Note that two subsequences are considered different if chosen indices are different. For example, in the array [1,<=1] there are 3 different subsequences: [1], [1] and [1,<=1].	The first line contains one integer number n (1<=≤<=n<=≤<=100000). The second line contains n integer numbers a1,<=a2... an (1<=≤<=ai<=≤<=100000).	Print the number of coprime subsequences of a modulo 109<=+<=7.	[ "3\n1 2 3\n", "4\n1 1 1 1\n", "7\n1 3 5 15 3 105 35\n" ]	[ "5\n", "15\n", "100\n" ]	In the first example coprime subsequences are: 1. 1 1. 1, 2 1. 1, 3 1. 1, 2, 3 1. 2, 3 In the second example all subsequences are coprime.	0	[ { "input": "3\n1 2 3", "output": "5" }, { "input": "4\n1 1 1 1", "output": "15" }, { "input": "7\n1 3 5 15 3 105 35", "output": "100" }, { "input": "1\n1", "output": "1" }, { "input": "1\n100000", "output": "0" }, { "input": "5\n10 8 6 4 6", "output": "0" }, { "input": "5\n5 1 3 5 4", "output": "26" }, { "input": "5\n5 1 6 6 6", "output": "23" }, { "input": "10\n9 6 8 5 5 2 8 9 2 2", "output": "951" }, { "input": "10\n2 2 16 16 14 1 9 12 15 13", "output": "953" }, { "input": "50\n17 81 20 84 6 86 11 33 19 46 70 79 23 64 40 99 78 70 3 10 32 42 18 73 35 36 69 90 81 81 8 25 87 23 76 100 53 11 36 19 87 89 53 65 97 67 3 65 88 87", "output": "896338157" }, { "input": "50\n166 126 98 42 179 166 99 192 1 185 114 173 152 187 57 21 132 88 152 55 110 51 1 30 147 153 34 115 59 3 78 16 19 136 188 134 28 48 54 120 97 74 108 54 181 79 143 187 51 4", "output": "763698643" }, { "input": "100\n154 163 53 13 186 87 143 114 17 111 143 108 102 111 158 171 69 74 67 18 87 43 80 104 63 109 19 113 86 52 119 91 15 154 9 153 140 91 19 19 191 193 76 84 50 128 173 27 120 83 6 59 65 5 135 59 162 121 15 110 146 107 137 99 55 189 2 118 55 27 4 198 23 79 167 125 72 30 74 163 44 184 166 43 198 116 68 5 47 138 121 146 98 103 89 75 137 36 146 195", "output": "363088732" }, { "input": "100\n881 479 355 759 257 497 690 598 275 446 439 787 257 326 584 713 322 5 253 781 434 307 164 154 241 381 38 942 680 906 240 11 431 478 628 959 346 74 493 964 455 746 950 41 585 549 892 687 264 41 487 676 63 453 861 980 477 901 80 907 285 506 619 748 773 743 56 925 651 685 845 313 419 504 770 324 2 559 405 851 919 128 318 698 820 409 547 43 777 496 925 918 162 725 481 83 220 203 609 617", "output": "934190491" } ]	1,689,783,472	2,147,483,647	PyPy 3-64	OK	TESTS	35	124	10,547,200	import sys from array import array input = lambda: sys.stdin.buffer.readline().decode().rstrip() inp = lambda dtype: [dtype(x) for x in input().split()] debug = lambda x: print(x, file=sys.stderr) sum_n = lambda n: (n * (n + 1)) // 2 get_bit = lambda x, i: (x >> i) & 1 ceil_ = lambda a, b: a // b if (a >= 0) ^ (b > 0) else (abs(a) + abs(b) - 1) // abs(b) Mint, Mlong, out = 2 30 - 1, 2 62 - 1, [] mod = 10 ** 9 + 7 add = lambda a, b: (a % mod + b % mod) % mod mult = lambda a, b: (a % mod * b % mod) % mod for _ in range(1): n, a = int(input()), array('i', inp(int)) ans, divs = 0, array('i', [0] * (10 ** 5 + 10)) po = array('i', [1] * (n + 1)) dp = array('i', [0] * (10 5 + 1)) for i in range(1, n + 1): po[i] = mult(po[i - 1], 2) divs[a[i - 1]] += 1 for g in range(10 5, 0, -1): ext, cur, num = 0, g * 2, divs[g] while cur <= 10 ** 5: num += divs[cur] ext = add(ext, dp[cur]) cur += g dp[g] = add(po[num] - 1, mult(-1, ext)) out.append(dp[1]) print('\n'.join(map(str, out)))	Title: Coprime Subsequences Time Limit: None seconds Memory Limit: None megabytes Problem Description: Let's call a non-empty sequence of positive integers a1,<=a2... ak coprime if the greatest common divisor of all elements of this sequence is equal to 1. Given an array a consisting of n positive integers, find the number of its coprime subsequences. Since the answer may be very large, print it modulo 109<=+<=7. Note that two subsequences are considered different if chosen indices are different. For example, in the array [1,<=1] there are 3 different subsequences: [1], [1] and [1,<=1]. Input Specification: The first line contains one integer number n (1<=≤<=n<=≤<=100000). The second line contains n integer numbers a1,<=a2... an (1<=≤<=ai<=≤<=100000). Output Specification: Print the number of coprime subsequences of a modulo 109<=+<=7. Demo Input: ['3\n1 2 3\n', '4\n1 1 1 1\n', '7\n1 3 5 15 3 105 35\n'] Demo Output: ['5\n', '15\n', '100\n'] Note: In the first example coprime subsequences are: 1. 1 1. 1, 2 1. 1, 3 1. 1, 2, 3 1. 2, 3 In the second example all subsequences are coprime.	```python import sys from array import array input = lambda: sys.stdin.buffer.readline().decode().rstrip() inp = lambda dtype: [dtype(x) for x in input().split()] debug = lambda x: print(x, file=sys.stderr) sum_n = lambda n: (n * (n + 1)) // 2 get_bit = lambda x, i: (x >> i) & 1 ceil_ = lambda a, b: a // b if (a >= 0) ^ (b > 0) else (abs(a) + abs(b) - 1) // abs(b) Mint, Mlong, out = 2 30 - 1, 2 62 - 1, [] mod = 10 ** 9 + 7 add = lambda a, b: (a % mod + b % mod) % mod mult = lambda a, b: (a % mod * b % mod) % mod for _ in range(1): n, a = int(input()), array('i', inp(int)) ans, divs = 0, array('i', [0] * (10 ** 5 + 10)) po = array('i', [1] * (n + 1)) dp = array('i', [0] * (10 5 + 1)) for i in range(1, n + 1): po[i] = mult(po[i - 1], 2) divs[a[i - 1]] += 1 for g in range(10 5, 0, -1): ext, cur, num = 0, g * 2, divs[g] while cur <= 10 ** 5: num += divs[cur] ext = add(ext, dp[cur]) cur += g dp[g] = add(po[num] - 1, mult(-1, ext)) out.append(dp[1]) print('\n'.join(map(str, out))) ```	3
208	A	Dubstep	PROGRAMMING	900	[ "strings" ]		null	null	Vasya works as a DJ in the best Berland nightclub, and he often uses dubstep music in his performance. Recently, he has decided to take a couple of old songs and make dubstep remixes from them. Let's assume that a song consists of some number of words. To make the dubstep remix of this song, Vasya inserts a certain number of words "WUB" before the first word of the song (the number may be zero), after the last word (the number may be zero), and between words (at least one between any pair of neighbouring words), and then the boy glues together all the words, including "WUB", in one string and plays the song at the club. For example, a song with words "I AM X" can transform into a dubstep remix as "WUBWUBIWUBAMWUBWUBX" and cannot transform into "WUBWUBIAMWUBX". Recently, Petya has heard Vasya's new dubstep track, but since he isn't into modern music, he decided to find out what was the initial song that Vasya remixed. Help Petya restore the original song.	The input consists of a single non-empty string, consisting only of uppercase English letters, the string's length doesn't exceed 200 characters. It is guaranteed that before Vasya remixed the song, no word contained substring "WUB" in it; Vasya didn't change the word order. It is also guaranteed that initially the song had at least one word.	Print the words of the initial song that Vasya used to make a dubsteb remix. Separate the words with a space.	[ "WUBWUBABCWUB\n", "WUBWEWUBAREWUBWUBTHEWUBCHAMPIONSWUBMYWUBFRIENDWUB\n" ]	[ "ABC ", "WE ARE THE CHAMPIONS MY FRIEND " ]	In the first sample: "WUBWUBABCWUB" = "WUB" + "WUB" + "ABC" + "WUB". That means that the song originally consisted of a single word "ABC", and all words "WUB" were added by Vasya. In the second sample Vasya added a single word "WUB" between all neighbouring words, in the beginning and in the end, except for words "ARE" and "THE" — between them Vasya added two "WUB".	500	[ { "input": "WUBWUBABCWUB", "output": "ABC " }, { "input": "WUBWEWUBAREWUBWUBTHEWUBCHAMPIONSWUBMYWUBFRIENDWUB", "output": "WE ARE THE CHAMPIONS MY FRIEND " }, { "input": "WUBWUBWUBSR", "output": "SR " }, { "input": "RWUBWUBWUBLWUB", "output": "R L " }, { "input": "ZJWUBWUBWUBJWUBWUBWUBL", "output": "ZJ J L " }, { "input": "CWUBBWUBWUBWUBEWUBWUBWUBQWUBWUBWUB", "output": "C B E Q " }, { "input": "WUBJKDWUBWUBWBIRAQKFWUBWUBYEWUBWUBWUBWVWUBWUB", "output": "JKD WBIRAQKF YE WV " }, { "input": "WUBKSDHEMIXUJWUBWUBRWUBWUBWUBSWUBWUBWUBHWUBWUBWUB", "output": "KSDHEMIXUJ R S H " }, { "input": "OGWUBWUBWUBXWUBWUBWUBIWUBWUBWUBKOWUBWUB", "output": "OG X I KO " }, { "input": "QWUBQQWUBWUBWUBIWUBWUBWWWUBWUBWUBJOPJPBRH", "output": "Q QQ I WW JOPJPBRH " }, { "input": "VSRNVEATZTLGQRFEGBFPWUBWUBWUBAJWUBWUBWUBPQCHNWUBCWUB", "output": "VSRNVEATZTLGQRFEGBFP AJ PQCHN C " }, { "input": "WUBWUBEWUBWUBWUBIQMJNIQWUBWUBWUBGZZBQZAUHYPWUBWUBWUBPMRWUBWUBWUBDCV", "output": "E IQMJNIQ GZZBQZAUHYP PMR DCV " }, { "input": "WUBWUBWUBFVWUBWUBWUBBPSWUBWUBWUBRXNETCJWUBWUBWUBJDMBHWUBWUBWUBBWUBWUBVWUBWUBB", "output": "FV BPS RXNETCJ JDMBH B V B " }, { "input": "WUBWUBWUBFBQWUBWUBWUBIDFSYWUBWUBWUBCTWDMWUBWUBWUBSXOWUBWUBWUBQIWUBWUBWUBL", "output": "FBQ IDFSY CTWDM SXO QI L " }, { "input": "IWUBWUBQLHDWUBYIIKZDFQWUBWUBWUBCXWUBWUBUWUBWUBWUBKWUBWUBWUBNL", "output": "I QLHD YIIKZDFQ CX U K NL " }, { "input": "KWUBUPDYXGOKUWUBWUBWUBAGOAHWUBIZDWUBWUBWUBIYWUBWUBWUBVWUBWUBWUBPWUBWUBWUBE", "output": "K UPDYXGOKU AGOAH IZD IY V P E " }, { "input": "WUBWUBOWUBWUBWUBIPVCQAFWYWUBWUBWUBQWUBWUBWUBXHDKCPYKCTWWYWUBWUBWUBVWUBWUBWUBFZWUBWUB", "output": "O IPVCQAFWY Q XHDKCPYKCTWWY V FZ " }, { "input": "PAMJGYWUBWUBWUBXGPQMWUBWUBWUBTKGSXUYWUBWUBWUBEWUBWUBWUBNWUBWUBWUBHWUBWUBWUBEWUBWUB", "output": "PAMJGY XGPQM TKGSXUY E N H E " }, { "input": "WUBYYRTSMNWUWUBWUBWUBCWUBWUBWUBCWUBWUBWUBFSYUINDWOBVWUBWUBWUBFWUBWUBWUBAUWUBWUBWUBVWUBWUBWUBJB", "output": "YYRTSMNWU C C FSYUINDWOBV F AU V JB " }, { "input": "WUBWUBYGPYEYBNRTFKOQCWUBWUBWUBUYGRTQEGWLFYWUBWUBWUBFVWUBHPWUBWUBWUBXZQWUBWUBWUBZDWUBWUBWUBM", "output": "YGPYEYBNRTFKOQC UYGRTQEGWLFY FV HP XZQ ZD M " }, { "input": "WUBZVMJWUBWUBWUBFOIMJQWKNZUBOFOFYCCWUBWUBWUBAUWWUBRDRADWUBWUBWUBCHQVWUBWUBWUBKFTWUBWUBWUBW", "output": "ZVMJ FOIMJQWKNZUBOFOFYCC AUW RDRAD CHQV KFT W " }, { "input": "WUBWUBZBKOKHQLGKRVIMZQMQNRWUBWUBWUBDACWUBWUBNZHFJMPEYKRVSWUBWUBWUBPPHGAVVPRZWUBWUBWUBQWUBWUBAWUBG", "output": "ZBKOKHQLGKRVIMZQMQNR DAC NZHFJMPEYKRVS PPHGAVVPRZ Q A G " }, { "input": "WUBWUBJWUBWUBWUBNFLWUBWUBWUBGECAWUBYFKBYJWTGBYHVSSNTINKWSINWSMAWUBWUBWUBFWUBWUBWUBOVWUBWUBLPWUBWUBWUBN", "output": "J NFL GECA YFKBYJWTGBYHVSSNTINKWSINWSMA F OV LP N " }, { "input": 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"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "output": "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA " }, { "input": "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAWUBAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", "output": "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA " }, { "input": "WUWUBBWWUBUB", "output": "WU BW UB " }, { "input": "WUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUABWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUBWUB", "output": "WUAB " }, { "input": "ZWUB", "output": "Z " }, { "input": "WU", "output": "WU " }, { "input": "UB", "output": "UB " }, { "input": "U", "output": "U " }, { "input": "WUBW", "output": "W " }, { "input": "WUBWU", "output": "WU " }, { "input": "WUWUB", "output": "WU " }, { "input": "UBWUB", "output": "UB " }, { "input": "WUWUBUBWUBUWUB", "output": "WU UB U " }, { "input": "WUBWWUBAWUB", "output": "W A " }, { "input": "WUUUUU", "output": "WUUUUU " } ]	1,695,442,891	2,147,483,647	Python 3	OK	TESTS	71	92	0	a = input("") c = a.count("WUB") for i in range(0, c): a = a.replace("WUB", ' ') print(a)	Title: Dubstep Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasya works as a DJ in the best Berland nightclub, and he often uses dubstep music in his performance. Recently, he has decided to take a couple of old songs and make dubstep remixes from them. Let's assume that a song consists of some number of words. To make the dubstep remix of this song, Vasya inserts a certain number of words "WUB" before the first word of the song (the number may be zero), after the last word (the number may be zero), and between words (at least one between any pair of neighbouring words), and then the boy glues together all the words, including "WUB", in one string and plays the song at the club. For example, a song with words "I AM X" can transform into a dubstep remix as "WUBWUBIWUBAMWUBWUBX" and cannot transform into "WUBWUBIAMWUBX". Recently, Petya has heard Vasya's new dubstep track, but since he isn't into modern music, he decided to find out what was the initial song that Vasya remixed. Help Petya restore the original song. Input Specification: The input consists of a single non-empty string, consisting only of uppercase English letters, the string's length doesn't exceed 200 characters. It is guaranteed that before Vasya remixed the song, no word contained substring "WUB" in it; Vasya didn't change the word order. It is also guaranteed that initially the song had at least one word. Output Specification: Print the words of the initial song that Vasya used to make a dubsteb remix. Separate the words with a space. Demo Input: ['WUBWUBABCWUB\n', 'WUBWEWUBAREWUBWUBTHEWUBCHAMPIONSWUBMYWUBFRIENDWUB\n'] Demo Output: ['ABC ', 'WE ARE THE CHAMPIONS MY FRIEND '] Note: In the first sample: "WUBWUBABCWUB" = "WUB" + "WUB" + "ABC" + "WUB". That means that the song originally consisted of a single word "ABC", and all words "WUB" were added by Vasya. In the second sample Vasya added a single word "WUB" between all neighbouring words, in the beginning and in the end, except for words "ARE" and "THE" — between them Vasya added two "WUB".	```python a = input("") c = a.count("WUB") for i in range(0, c): a = a.replace("WUB", ' ') print(a) ```	3
369	B	Valera and Contest	PROGRAMMING	1,400	[ "constructive algorithms", "implementation", "math" ]		null	null	Valera loves to participate in competitions. Especially in programming contests. Today he has participated in the contest with his team, consisting of n students (including Valera). This contest was an individual competition, so each student in the team solved problems individually. After the contest was over, Valera was interested in results. He found out that: - each student in the team scored at least l points and at most r points; - in total, all members of the team scored exactly sall points; - the total score of the k members of the team who scored the most points is equal to exactly sk; more formally, if a1,<=a2,<=...,<=an is the sequence of points earned by the team of students in the non-increasing order (a1<=≥<=a2<=≥<=...<=≥<=an), then sk<==<=a1<=+<=a2<=+<=...<=+<=ak. However, Valera did not find out exactly how many points each of n students scored. Valera asked you to recover any distribution of scores between the students of the team, such that all the conditions above are met.	The first line of the input contains exactly six integers n,<=k,<=l,<=r,<=sall,<=sk (1<=≤<=n,<=k,<=l,<=r<=≤<=1000; l<=≤<=r; k<=≤<=n; 1<=≤<=sk<=≤<=sall<=≤<=106). It's guaranteed that the input is such that the answer exists.	Print exactly n integers a1,<=a2,<=...,<=an — the number of points each student scored. If there are multiple solutions, you can print any of them. You can print the distribution of points in any order.	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997 999 999 999 999 999 997 997 999 999 999 999 997 999 999 999 997 999 999 996 997 997 999 999 999 996 997 999 999 999 999 999 999 997 999 999 99..." }, { "input": "1000 567 996 1000 997986 566445", "output": "997 999 999 997 997 999 999 999 997 996 999 997 999 996 996 997 997 999 999 999 997 999 997 999 996 1000 997 999 996 997 999 996 997 999 999 999 997 996 999 996 999 999 999 999 996 997 999 999 996 996 999 999 997 999 999 997 997 999 996 999 997 999 999 999 999 999 999 999 999 999 999 996 999 997 999 999 997 999 996 996 997 997 999 997 999 999 996 999 996 997 999 997 999 999 999 999 999 997 997 999 999 999 999 997 999 999 999 997 999 999 996 997 997 999 999 999 996 997 999 999 999 999 999 999 997 999 999 99..." }, { "input": "1 1 1 1000 656 656", "output": "656 " }, { "input": "2 1 1 1000 683 550", "output": "550 133 " }, { "input": "3 2 1 1000 1816 1652", "output": "826 826 164 " }, { "input": "5 5 1 1000 3288 3288", "output": "657 658 657 658 658 " }, { "input": "5 3 1 1000 2732 2055", "output": "338 685 339 685 685 " }, { "input": "1 1 10 100 50 50", "output": "50 " }, { "input": "3 3 1 5 14 14", "output": "5 5 4 " }, { "input": "1 1 1 100 50 50", "output": "50 " }, { "input": "5 5 1 5 5 5", "output": "1 1 1 1 1 " }, { "input": "1 1 1 10 10 10", "output": "10 " }, { "input": "5 5 1 3 5 5", "output": "1 1 1 1 1 " }, { "input": "1000 1000 1 1000 1000000 1000000", "output": "1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1000 1..." }, { "input": "3 3 1 3 9 9", "output": "3 3 3 " }, { "input": "1000 1000 389 999 686847 686847", "output": "687 687 687 687 687 687 687 687 687 686 687 687 687 686 686 687 687 687 687 687 687 687 687 687 686 687 687 687 686 687 687 686 687 687 687 687 687 686 687 686 687 687 687 687 686 687 687 687 686 686 687 687 687 687 687 687 687 687 686 687 687 687 687 687 687 687 687 687 687 687 687 686 687 687 687 687 687 687 686 686 687 687 687 687 687 687 686 687 686 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 687 686 687 687 687 687 687 686 687 687 687 687 687 687 687 687 687 687 687..." }, { "input": "2 2 2 2 4 4", "output": "2 2 " } ]	1,645,806,955	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	10	31	0	l1=list(map(int,input().rstrip().split())) n=l1[0] k=l1[1] l=l1[2] r=l1[3] sall=l1[4] sk=l1[5] res=[] rem1=sk%k q1=sk//k # print(rem1) for i in range(k): res.append(q1+min(1,max(0,rem1))) rem1-=1 sr=sall-sk re=n-k rem1=sr%re q1=sr//re for i in range(re): res.append(q1+min(1,max(0,rem1))) rem1-=1 for x in res: print(x,end=" ")	Title: Valera and Contest Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera loves to participate in competitions. Especially in programming contests. Today he has participated in the contest with his team, consisting of n students (including Valera). This contest was an individual competition, so each student in the team solved problems individually. After the contest was over, Valera was interested in results. He found out that: - each student in the team scored at least l points and at most r points; - in total, all members of the team scored exactly sall points; - the total score of the k members of the team who scored the most points is equal to exactly sk; more formally, if a1,<=a2,<=...,<=an is the sequence of points earned by the team of students in the non-increasing order (a1<=≥<=a2<=≥<=...<=≥<=an), then sk<==<=a1<=+<=a2<=+<=...<=+<=ak. However, Valera did not find out exactly how many points each of n students scored. Valera asked you to recover any distribution of scores between the students of the team, such that all the conditions above are met. Input Specification: The first line of the input contains exactly six integers n,<=k,<=l,<=r,<=sall,<=sk (1<=≤<=n,<=k,<=l,<=r<=≤<=1000; l<=≤<=r; k<=≤<=n; 1<=≤<=sk<=≤<=sall<=≤<=106). It's guaranteed that the input is such that the answer exists. Output Specification: Print exactly n integers a1,<=a2,<=...,<=an — the number of points each student scored. If there are multiple solutions, you can print any of them. You can print the distribution of points in any order. Demo Input: ['5 3 1 3 13 9\n', '5 3 1 3 15 9\n'] Demo Output: ['2 3 2 3 3 ', '3 3 3 3 3 '] Note: none	```python l1=list(map(int,input().rstrip().split())) n=l1[0] k=l1[1] l=l1[2] r=l1[3] sall=l1[4] sk=l1[5] res=[] rem1=sk%k q1=sk//k # print(rem1) for i in range(k): res.append(q1+min(1,max(0,rem1))) rem1-=1 sr=sall-sk re=n-k rem1=sr%re q1=sr//re for i in range(re): res.append(q1+min(1,max(0,rem1))) rem1-=1 for x in res: print(x,end=" ") ```	-1
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", "output": "53" }, { "input": "1\n124", "output": "124" }, { "input": "2\n2 1", "output": "1" }, { "input": "3\n1 1 1000", "output": "1" }, { "input": "2\n322 322", "output": "322" }, { "input": "3\n9 92 12", "output": "12" }, { "input": "3\n1 2 2", "output": "2" } ]	1,575,805,952	2,147,483,647	Python 3	OK	TESTS	35	124	0	n = int(input()) a = list(map(int, input().split())) a.sort() if len(a) % 2 == 0: while len(a) > 2: del a[0] del a[-1] del a[1] print(a) else: while len(a) > 1: del a[0] del a[-1] print(a)	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()) a = list(map(int, input().split())) a.sort() if len(a) % 2 == 0: while len(a) > 2: del a[0] del a[-1] del a[1] print(a) else: while len(a) > 1: del a[0] del a[-1] print(a) ```	3
500	A	New Year Transportation	PROGRAMMING	1,000	[ "dfs and similar", "graphs", "implementation" ]		null	null	New Year is coming in Line World! In this world, there are n cells numbered by integers from 1 to n, as a 1<=×<=n board. People live in cells. However, it was hard to move between distinct cells, because of the difficulty of escaping the cell. People wanted to meet people who live in other cells. So, user tncks0121 has made a transportation system to move between these cells, to celebrate the New Year. First, he thought of n<=-<=1 positive integers a1,<=a2,<=...,<=an<=-<=1. For every integer i where 1<=≤<=i<=≤<=n<=-<=1 the condition 1<=≤<=ai<=≤<=n<=-<=i holds. Next, he made n<=-<=1 portals, numbered by integers from 1 to n<=-<=1. The i-th (1<=≤<=i<=≤<=n<=-<=1) portal connects cell i and cell (i<=+<=ai), and one can travel from cell i to cell (i<=+<=ai) using the i-th portal. Unfortunately, one cannot use the portal backwards, which means one cannot move from cell (i<=+<=ai) to cell i using the i-th portal. It is easy to see that because of condition 1<=≤<=ai<=≤<=n<=-<=i one can't leave the Line World using portals. Currently, I am standing at cell 1, and I want to go to cell t. However, I don't know whether it is possible to go there. Please determine whether I can go to cell t by only using the construted transportation system.	The first line contains two space-separated integers n (3<=≤<=n<=≤<=3<=×<=104) and t (2<=≤<=t<=≤<=n) — the number of cells, and the index of the cell which I want to go to. The second line contains n<=-<=1 space-separated integers a1,<=a2,<=...,<=an<=-<=1 (1<=≤<=ai<=≤<=n<=-<=i). It is guaranteed, that using the given transportation system, one cannot leave the Line World.	If I can go to cell t using the transportation system, print "YES". Otherwise, print "NO".	[ "8 4\n1 2 1 2 1 2 1\n", "8 5\n1 2 1 2 1 1 1\n" ]	[ "YES\n", "NO\n" ]	In the first sample, the visited cells are: 1, 2, 4; so we can successfully visit the cell 4. In the second sample, the possible cells to visit are: 1, 2, 4, 6, 7, 8; so we can't visit the cell 5, which we want to visit.	500	[ { "input": "8 4\n1 2 1 2 1 2 1", "output": "YES" }, { "input": "8 5\n1 2 1 2 1 1 1", "output": "NO" }, { "input": "20 19\n13 16 7 6 12 1 5 7 8 6 5 7 5 5 3 3 2 2 1", "output": "YES" }, { "input": "50 49\n11 7 1 41 26 36 19 16 38 14 36 35 37 27 20 27 3 6 21 2 27 11 18 17 19 16 22 8 8 9 1 7 5 12 5 6 13 6 11 2 6 3 1 5 1 1 2 2 1", "output": "YES" }, { "input": "120 104\n41 15 95 85 34 11 25 42 65 39 77 80 74 17 66 73 21 14 36 63 63 79 45 24 65 7 63 80 51 21 2 19 78 28 71 2 15 23 17 68 62 18 54 39 43 70 3 46 34 23 41 65 32 10 13 18 10 3 16 48 54 18 57 28 3 24 44 50 15 2 20 22 45 44 3 29 2 27 11 2 12 25 25 31 1 2 32 4 11 30 13 16 26 21 1 13 21 8 15 5 18 13 5 15 3 8 13 6 5 1 9 7 1 2 4 1 1 2 1", "output": "NO" }, { "input": "10 3\n8 3 5 4 2 3 2 2 1", "output": "NO" }, { "input": "10 9\n8 3 5 4 2 3 2 2 1", "output": "YES" }, { "input": "3 2\n1 1", "output": "YES" }, { "input": "3 2\n2 1", "output": "NO" }, { "input": "4 2\n2 1 1", "output": "NO" }, { "input": "4 4\n2 2 1", "output": "YES" }, { "input": "8 8\n1 2 1 2 1 2 1", "output": "YES" }, { "input": "3 3\n1 1", "output": "YES" }, { "input": "8 8\n1 2 1 2 1 1 1", "output": "YES" }, { "input": "3 3\n2 1", "output": "YES" }, { "input": "4 4\n1 1 1", "output": "YES" }, { "input": "8 8\n1 1 1 1 1 1 1", "output": "YES" }, { "input": "5 5\n1 1 1 1", "output": "YES" } ]	1,655,085,255	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	46	1,433,600	# https://codeforces.com/problemset/problem/500/A def main(): n, t = [int(x) for x in input().split()] a = [int(x) for x in input().split()] for i in range(1, n, 1): if a[i-1] + i == t: print("YES") return if i >= t: print("NO") return if __name__ == "__main__": main()	Title: New Year Transportation Time Limit: None seconds Memory Limit: None megabytes Problem Description: New Year is coming in Line World! In this world, there are n cells numbered by integers from 1 to n, as a 1<=×<=n board. People live in cells. However, it was hard to move between distinct cells, because of the difficulty of escaping the cell. People wanted to meet people who live in other cells. So, user tncks0121 has made a transportation system to move between these cells, to celebrate the New Year. First, he thought of n<=-<=1 positive integers a1,<=a2,<=...,<=an<=-<=1. For every integer i where 1<=≤<=i<=≤<=n<=-<=1 the condition 1<=≤<=ai<=≤<=n<=-<=i holds. Next, he made n<=-<=1 portals, numbered by integers from 1 to n<=-<=1. The i-th (1<=≤<=i<=≤<=n<=-<=1) portal connects cell i and cell (i<=+<=ai), and one can travel from cell i to cell (i<=+<=ai) using the i-th portal. Unfortunately, one cannot use the portal backwards, which means one cannot move from cell (i<=+<=ai) to cell i using the i-th portal. It is easy to see that because of condition 1<=≤<=ai<=≤<=n<=-<=i one can't leave the Line World using portals. Currently, I am standing at cell 1, and I want to go to cell t. However, I don't know whether it is possible to go there. Please determine whether I can go to cell t by only using the construted transportation system. Input Specification: The first line contains two space-separated integers n (3<=≤<=n<=≤<=3<=×<=104) and t (2<=≤<=t<=≤<=n) — the number of cells, and the index of the cell which I want to go to. The second line contains n<=-<=1 space-separated integers a1,<=a2,<=...,<=an<=-<=1 (1<=≤<=ai<=≤<=n<=-<=i). It is guaranteed, that using the given transportation system, one cannot leave the Line World. Output Specification: If I can go to cell t using the transportation system, print "YES". Otherwise, print "NO". Demo Input: ['8 4\n1 2 1 2 1 2 1\n', '8 5\n1 2 1 2 1 1 1\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample, the visited cells are: 1, 2, 4; so we can successfully visit the cell 4. In the second sample, the possible cells to visit are: 1, 2, 4, 6, 7, 8; so we can't visit the cell 5, which we want to visit.	```python # https://codeforces.com/problemset/problem/500/A def main(): n, t = [int(x) for x in input().split()] a = [int(x) for x in input().split()] for i in range(1, n, 1): if a[i-1] + i == t: print("YES") return if i >= t: print("NO") return if __name__ == "__main__": main() ```	0
44	A	Indian Summer	PROGRAMMING	900	[ "implementation" ]	A. Indian Summer	2	256	Indian summer is such a beautiful time of the year! A girl named Alyona is walking in the forest and picking a bouquet from fallen leaves. Alyona is very choosy — she doesn't take a leaf if it matches the color and the species of the tree of one of the leaves she already has. Find out how many leaves Alyona has picked.	The first line contains an integer n (1<=≤<=n<=≤<=100) — the number of leaves Alyona has found. The next n lines contain the leaves' descriptions. Each leaf is characterized by the species of the tree it has fallen from and by the color. The species of the trees and colors are given in names, consisting of no more than 10 lowercase Latin letters. A name can not be an empty string. The species of a tree and the color are given in each line separated by a space.	Output the single number — the number of Alyona's leaves.	[ "5\nbirch yellow\nmaple red\nbirch yellow\nmaple yellow\nmaple green\n", "3\noak yellow\noak yellow\noak yellow\n" ]	[ "4\n", "1\n" ]	none	0	[ { "input": "5\nbirch yellow\nmaple red\nbirch yellow\nmaple yellow\nmaple green", "output": "4" }, { "input": "3\noak yellow\noak yellow\noak yellow", "output": "1" }, { "input": "5\nxbnbkzn hp\nkaqkl vrgzbvqstu\nj aqidx\nhos gyul\nwefxmh tygpluae", "output": "5" }, { "input": "1\nqvwli hz", "output": "1" }, { "input": "4\nsrhk x\nsrhk x\nqfoe vnrjuab\nqfoe vnrjuab", "output": "2" }, { "input": "4\nsddqllmmpk syded\nfprsq fnenjnaz\nn hdej\nsddqllmmpk syded", "output": "3" }, { "input": "17\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw\njtbctslqq tosqzw", "output": "1" }, { "input": "18\nb d\nrfdb esp\nrfdb esp\nb d\nrfdb esp\nrfdb esp\nb d\nb d\nrfdb esp\nrfdb esp\nb d\nrfdb esp\nb d\nrfdb esp\nb d\nb d\nrfdb esp\nrfdb esp", "output": "2" }, { "input": "13\nsvpzwtwn rykzfdce\nqweiyeck jkreouy\nhk nnli\ntwxrnbbdt vtuv\nxokqjtylly sz\nesdt dbfidjslq\ng ybqgomvw\nxcpfjmf zcqvz\nifajadhj invzueip\nvdemdnxifb hckwebmi\nsdpnhipam wvowzavh\nuqdlfskhgo vunbpghae\ne dtigwnb", "output": "13" }, { "input": "20\nm vkfh\nvptikamead mvx\nitu mf\nklruxckw aqega\nekqkd enjllwol\ncc uybfdh\nimrfdngvo u\ne uh\ntwt jsslcfuogk\nbljwqsag tuqbdn\nqcv q\nasx gzhvwwmajj\nqcv q\nekqkd enjllwol\nasx gzhvwwmajj\nks vv\nkzyfi cn\ncc uybfdh\nitu mf\ncjbjhtbyvk vatwfmux", "output": "15" }, { "input": "2\nab ab\na bab", "output": "2" } ]	1,647,792,039	2,147,483,647	Python 3	OK	TESTS	29	92	0	a = int(input()) thisset = set() for i in range(a): thisset.add(input()) print(len(thisset))	Title: Indian Summer Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Indian summer is such a beautiful time of the year! A girl named Alyona is walking in the forest and picking a bouquet from fallen leaves. Alyona is very choosy — she doesn't take a leaf if it matches the color and the species of the tree of one of the leaves she already has. Find out how many leaves Alyona has picked. Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=100) — the number of leaves Alyona has found. The next n lines contain the leaves' descriptions. Each leaf is characterized by the species of the tree it has fallen from and by the color. The species of the trees and colors are given in names, consisting of no more than 10 lowercase Latin letters. A name can not be an empty string. The species of a tree and the color are given in each line separated by a space. Output Specification: Output the single number — the number of Alyona's leaves. Demo Input: ['5\nbirch yellow\nmaple red\nbirch yellow\nmaple yellow\nmaple green\n', '3\noak yellow\noak yellow\noak yellow\n'] Demo Output: ['4\n', '1\n'] Note: none	```python a = int(input()) thisset = set() for i in range(a): thisset.add(input()) print(len(thisset)) ```	3.977
496	A	Minimum Difficulty	PROGRAMMING	900	[ "brute force", "implementation", "math" ]		null	null	Mike is trying rock climbing but he is awful at it. There are n holds on the wall, i-th hold is at height ai off the ground. Besides, let the sequence ai increase, that is, ai<=<<=ai<=+<=1 for all i from 1 to n<=-<=1; we will call such sequence a track. Mike thinks that the track a1, ..., an has difficulty . In other words, difficulty equals the maximum distance between two holds that are adjacent in height. Today Mike decided to cover the track with holds hanging on heights a1, ..., an. To make the problem harder, Mike decided to remove one hold, that is, remove one element of the sequence (for example, if we take the sequence (1,<=2,<=3,<=4,<=5) and remove the third element from it, we obtain the sequence (1,<=2,<=4,<=5)). However, as Mike is awful at climbing, he wants the final difficulty (i.e. the maximum difference of heights between adjacent holds after removing the hold) to be as small as possible among all possible options of removing a hold. The first and last holds must stay at their positions. Help Mike determine the minimum difficulty of the track after removing one hold.	The first line contains a single integer n (3<=≤<=n<=≤<=100) — the number of holds. The next line contains n space-separated integers ai (1<=≤<=ai<=≤<=1000), where ai is the height where the hold number i hangs. The sequence ai is increasing (i.e. each element except for the first one is strictly larger than the previous one).	Print a single number — the minimum difficulty of the track after removing a single hold.	[ "3\n1 4 6\n", "5\n1 2 3 4 5\n", "5\n1 2 3 7 8\n" ]	[ "5\n", "2\n", "4\n" ]	In the first sample you can remove only the second hold, then the sequence looks like (1, 6), the maximum difference of the neighboring elements equals 5. In the second test after removing every hold the difficulty equals 2. In the third test you can obtain sequences (1, 3, 7, 8), (1, 2, 7, 8), (1, 2, 3, 8), for which the difficulty is 4, 5 and 5, respectively. Thus, after removing the second element we obtain the optimal answer — 4.	500	[ { "input": "3\n1 4 6", "output": "5" }, { "input": "5\n1 2 3 4 5", "output": "2" }, { "input": "5\n1 2 3 7 8", "output": "4" }, { "input": "3\n1 500 1000", "output": "999" }, { "input": "10\n1 2 3 4 5 6 7 8 9 10", "output": "2" }, { "input": "10\n1 4 9 16 25 36 49 64 81 100", "output": "19" }, { "input": "10\n300 315 325 338 350 365 379 391 404 416", "output": "23" }, { "input": "15\n87 89 91 92 93 95 97 99 101 103 105 107 109 111 112", "output": "2" }, { "input": "60\n3 5 7 8 15 16 18 21 24 26 40 41 43 47 48 49 50 51 52 54 55 60 62 71 74 84 85 89 91 96 406 407 409 412 417 420 423 424 428 431 432 433 436 441 445 446 447 455 458 467 469 471 472 475 480 485 492 493 497 500", "output": "310" }, { "input": "3\n159 282 405", "output": "246" }, { "input": "81\n6 7 22 23 27 38 40 56 59 71 72 78 80 83 86 92 95 96 101 122 125 127 130 134 154 169 170 171 172 174 177 182 184 187 195 197 210 211 217 223 241 249 252 253 256 261 265 269 274 277 291 292 297 298 299 300 302 318 338 348 351 353 381 386 387 397 409 410 419 420 428 430 453 460 461 473 478 493 494 500 741", "output": "241" }, { "input": "10\n218 300 388 448 535 629 680 740 836 925", "output": "111" }, { "input": "100\n6 16 26 36 46 56 66 76 86 96 106 116 126 136 146 156 166 176 186 196 206 216 226 236 246 256 266 276 286 296 306 316 326 336 346 356 366 376 386 396 406 416 426 436 446 456 466 476 486 496 506 516 526 536 546 556 566 576 586 596 606 616 626 636 646 656 666 676 686 696 706 716 726 736 746 756 766 776 786 796 806 816 826 836 846 856 866 876 886 896 906 916 926 936 946 956 966 976 986 996", "output": "20" }, { "input": "100\n1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 951 952 953 954 955 956 957 958 959 960 961 962 963 964 965 966 967 968 969 970 971 972 973 974 975 976 977 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 997 998 999 1000", "output": "901" }, { "input": "100\n1 9 15 17 28 29 30 31 32 46 48 49 52 56 62 77 82 85 90 91 94 101 102 109 111 113 116 118 124 125 131 132 136 138 139 143 145 158 161 162 165 167 171 173 175 177 179 183 189 196 801 802 804 806 817 819 827 830 837 840 842 846 850 855 858 862 863 866 869 870 878 881 883 884 896 898 899 901 904 906 908 909 910 911 912 917 923 924 925 935 939 943 945 956 963 964 965 972 976 978", "output": "605" }, { "input": "100\n2 43 47 49 50 57 59 67 74 98 901 903 904 906 907 908 909 910 911 912 913 914 915 916 917 918 919 920 921 922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 938 939 940 942 943 944 945 946 947 948 949 950 952 953 954 956 957 958 959 960 961 962 963 965 966 967 968 969 970 971 972 973 974 975 976 978 979 980 981 982 983 984 985 986 987 988 989 990 991 992 993 994 995 996 998 999", "output": "803" }, { "input": "72\n178 186 196 209 217 226 236 248 260 273 281 291 300 309 322 331 343 357 366 377 389 399 409 419 429 442 450 459 469 477 491 501 512 524 534 548 557 568 582 593 602 616 630 643 652 660 670 679 693 707 715 728 737 750 759 768 776 789 797 807 815 827 837 849 863 873 881 890 901 910 920 932", "output": "17" }, { "input": "38\n1 28 55 82 109 136 163 190 217 244 271 298 325 352 379 406 433 460 487 514 541 568 595 622 649 676 703 730 757 784 811 838 865 892 919 946 973 1000", "output": "54" }, { "input": "28\n1 38 75 112 149 186 223 260 297 334 371 408 445 482 519 556 593 630 667 704 741 778 815 852 889 926 963 1000", "output": "74" } ]	1,620,575,349	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	6	93	20,172,800	n = int(input()) arr = list(map(int, input().split())) i = 0 d = arr[2]-arr[0] hold = arr[1] while i < n-2: if arr[i+2]-arr[i] < d: d = arr[i+2]-arr[i] hold = arr[i] i += 1 arr.remove(hold) z = 0 dmax = arr[1]-arr[0] while z < n-2: if arr[z+1]-arr[z] > dmax: dmax = arr[z+1]-arr[z] z += 1 print(dmax)	Title: Minimum Difficulty Time Limit: None seconds Memory Limit: None megabytes Problem Description: Mike is trying rock climbing but he is awful at it. There are n holds on the wall, i-th hold is at height ai off the ground. Besides, let the sequence ai increase, that is, ai<=<<=ai<=+<=1 for all i from 1 to n<=-<=1; we will call such sequence a track. Mike thinks that the track a1, ..., an has difficulty . In other words, difficulty equals the maximum distance between two holds that are adjacent in height. Today Mike decided to cover the track with holds hanging on heights a1, ..., an. To make the problem harder, Mike decided to remove one hold, that is, remove one element of the sequence (for example, if we take the sequence (1,<=2,<=3,<=4,<=5) and remove the third element from it, we obtain the sequence (1,<=2,<=4,<=5)). However, as Mike is awful at climbing, he wants the final difficulty (i.e. the maximum difference of heights between adjacent holds after removing the hold) to be as small as possible among all possible options of removing a hold. The first and last holds must stay at their positions. Help Mike determine the minimum difficulty of the track after removing one hold. Input Specification: The first line contains a single integer n (3<=≤<=n<=≤<=100) — the number of holds. The next line contains n space-separated integers ai (1<=≤<=ai<=≤<=1000), where ai is the height where the hold number i hangs. The sequence ai is increasing (i.e. each element except for the first one is strictly larger than the previous one). Output Specification: Print a single number — the minimum difficulty of the track after removing a single hold. Demo Input: ['3\n1 4 6\n', '5\n1 2 3 4 5\n', '5\n1 2 3 7 8\n'] Demo Output: ['5\n', '2\n', '4\n'] Note: In the first sample you can remove only the second hold, then the sequence looks like (1, 6), the maximum difference of the neighboring elements equals 5. In the second test after removing every hold the difficulty equals 2. In the third test you can obtain sequences (1, 3, 7, 8), (1, 2, 7, 8), (1, 2, 3, 8), for which the difficulty is 4, 5 and 5, respectively. Thus, after removing the second element we obtain the optimal answer — 4.	```python n = int(input()) arr = list(map(int, input().split())) i = 0 d = arr[2]-arr[0] hold = arr[1] while i < n-2: if arr[i+2]-arr[i] < d: d = arr[i+2]-arr[i] hold = arr[i] i += 1 arr.remove(hold) z = 0 dmax = arr[1]-arr[0] while z < n-2: if arr[z+1]-arr[z] > dmax: dmax = arr[z+1]-arr[z] z += 1 print(dmax) ```	0
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+2+1+2+2+2+2+1+3+3", "output": "1+1+1+2+2+2+2+2+3+3" }, { "input": "2+3+3+1+2+2+2+1+1+2+1+3+2+2+3+3+2+2+3+3+3+1+1+1+3+3+3+2+1+3+2+3+2+1+1+3+3+3+1+2+2+1+2+2+1+2+1+3+1+1", "output": "1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3" }, { "input": "1", "output": "1" }, { "input": "2+1+2+2+1+3+2+3+1+1+2+1+2+2+3+1+1+3+3+3+2+2+3+2+2+2+1+2+1+2+3+2+2+2+1+3+1+3+3+3+1+2+1+2+2+2+2+3+1+1", "output": "1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+3+3+3+3+3+3+3+3+3+3+3+3+3" }, { "input": "2+2+1+1+1+3+1+1+3+3+2+3+1+3+1+1+3+1+1+2+2+2+2+1+2+1+2+1+1+1+3+1+3+2+3+2+3+3+1+1+1+2+3+2+1+3+1+3+2+2", "output": "1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+1+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+3+3+3+3+3+3+3+3+3+3+3+3+3+3" }, { "input": "3+2+3+3+2+2+1+2+1+2+3+1+2+3+2+3+2+1+2+2+1+1+2+2+3+2+1+3+1+1+3+2+2+2+2+3+3+2+2+3+3+1+1+2+3+3+2+3+3+3", "output": "1+1+1+1+1+1+1+1+1+1+1+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+2+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3+3" }, { "input": "3", "output": "3" }, { "input": "1+1", "output": "1+1" }, { "input": "1+2", "output": "1+2" }, { "input": "1+3", "output": "1+3" }, { "input": "2+1", "output": "1+2" }, { "input": "2+2", "output": "2+2" }, { "input": "2+3", "output": "2+3" }, { "input": "3+1", "output": "1+3" }, { "input": "3+2", "output": "2+3" }, { "input": "3+3", "output": "3+3" } ]	1,696,182,404	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	62	0	t = input() arr = [] res = "" if len(t) == 1: print(t) else: for i in range(len(t)): if i % 2 == 0: arr.append(int(t[i])) arr.sort for i in arr: res += str(i) res += "+" print(res[:-1])	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 t = input() arr = [] res = "" if len(t) == 1: print(t) else: for i in range(len(t)): if i % 2 == 0: arr.append(int(t[i])) arr.sort for i in arr: res += str(i) res += "+" print(res[:-1]) ```	0
192	A	Funky Numbers	PROGRAMMING	1,300	[ "binary search", "brute force", "implementation" ]		null	null	As you very well know, this year's funkiest numbers are so called triangular numbers (that is, integers that are representable as , where k is some positive integer), and the coolest numbers are those that are representable as a sum of two triangular numbers. A well-known hipster Andrew adores everything funky and cool but unfortunately, he isn't good at maths. Given number n, help him define whether this number can be represented by a sum of two triangular numbers (not necessarily different)!	The first input line contains an integer n (1<=≤<=n<=≤<=109).	Print "YES" (without the quotes), if n can be represented as a sum of two triangular numbers, otherwise print "NO" (without the quotes).	[ "256\n", "512\n" ]	[ "YES\n", "NO\n" ]	In the first sample number <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/92095692c6ea93e9e3b837a0408ba7543549d5b2.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample number 512 can not be represented as a sum of two triangular numbers.	500	[ { "input": "256", "output": "YES" }, { "input": "512", "output": "NO" }, { "input": "80", "output": "NO" }, { "input": "828", "output": "YES" }, { "input": "6035", "output": "NO" }, { "input": "39210", "output": "YES" }, { "input": "79712", "output": "NO" }, { "input": "190492", "output": "YES" }, { "input": "5722367", "output": "NO" }, { "input": "816761542", "output": "YES" }, { "input": "1", "output": "NO" }, { "input": "2", "output": "YES" }, { "input": "3", "output": "NO" }, { "input": "4", "output": "YES" }, { "input": "5", "output": "NO" }, { "input": "6", "output": "YES" }, { "input": "7", "output": "YES" }, { "input": "8", "output": "NO" }, { "input": "9", "output": "YES" }, { "input": "10", "output": "NO" }, { "input": "12", "output": "YES" }, { "input": "13", "output": "YES" }, { "input": "14", "output": "NO" }, { "input": "15", "output": "NO" }, { "input": "16", "output": "YES" }, { "input": "17", "output": "NO" }, { "input": "18", "output": "YES" }, { "input": "19", "output": "NO" }, { "input": "20", "output": "YES" }, { "input": "41", "output": "NO" }, { "input": "11", "output": "YES" }, { "input": "69", "output": "YES" }, { "input": "82", "output": "NO" }, { "input": "85", "output": "NO" }, { "input": "736", "output": "NO" }, { "input": "895", "output": "YES" }, { "input": "934", "output": "YES" }, { "input": "6213", "output": "YES" }, { "input": "7405", "output": "NO" }, { "input": "9919", "output": "NO" }, { "input": "40942", "output": "YES" }, { "input": "41992", "output": "NO" }, { "input": "68535", "output": "NO" }, { "input": "405718", "output": "NO" }, { "input": "1046146", "output": "YES" }, { "input": "3761248", "output": "YES" }, { "input": "6195181", "output": "YES" }, { "input": "35354345", "output": "NO" }, { "input": "81282830", "output": "NO" }, { "input": "187719774", "output": "NO" }, { "input": "296798673", "output": "NO" }, { "input": "938938476", "output": "NO" }, { "input": "1000000000", "output": "NO" }, { "input": "999887464", "output": "YES" }, { "input": "999111944", "output": "NO" }, { "input": "999966520", "output": "YES" }, { "input": "999912080", "output": "NO" }, { "input": "999992017", "output": "YES" }, { "input": "999990474", "output": "NO" }, { "input": "999999190", "output": "YES" }, { "input": "999999125", "output": "NO" }, { "input": "999999940", "output": "YES" }, { "input": "999999995", "output": "NO" }, { "input": "1000000000", "output": "NO" }, { "input": "1", "output": "NO" }, { "input": "999999999", "output": "YES" }, { "input": "83495494", "output": "NO" }, { "input": "968022000", "output": "YES" }, { "input": "399980000", "output": "YES" }, { "input": "4", "output": "YES" }, { "input": "999999998", "output": "NO" } ]	1,679,494,097	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	8	2,000	0	import math def is_triangular(num): n = (-1 + math.sqrt(1 + 8*num))/2 return n.is_integer() n = int(input()) flag = False for i in range(1, n+1): if is_triangular(i) and is_triangular(n-i): flag = True break if flag: print("YES") else: print("NO")	Title: Funky Numbers Time Limit: None seconds Memory Limit: None megabytes Problem Description: As you very well know, this year's funkiest numbers are so called triangular numbers (that is, integers that are representable as , where k is some positive integer), and the coolest numbers are those that are representable as a sum of two triangular numbers. A well-known hipster Andrew adores everything funky and cool but unfortunately, he isn't good at maths. Given number n, help him define whether this number can be represented by a sum of two triangular numbers (not necessarily different)! Input Specification: The first input line contains an integer n (1<=≤<=n<=≤<=109). Output Specification: Print "YES" (without the quotes), if n can be represented as a sum of two triangular numbers, otherwise print "NO" (without the quotes). Demo Input: ['256\n', '512\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample number <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/92095692c6ea93e9e3b837a0408ba7543549d5b2.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second sample number 512 can not be represented as a sum of two triangular numbers.	```python import math def is_triangular(num): n = (-1 + math.sqrt(1 + 8*num))/2 return n.is_integer() n = int(input()) flag = False for i in range(1, n+1): if is_triangular(i) and is_triangular(n-i): flag = True break if flag: print("YES") else: print("NO") ```	0
348	A	Mafia	PROGRAMMING	1,600	[ "binary search", "math", "sortings" ]		null	null	One day n friends gathered together to play "Mafia". During each round of the game some player must be the supervisor and other n<=-<=1 people take part in the game. For each person we know in how many rounds he wants to be a player, not the supervisor: the i-th person wants to play ai rounds. What is the minimum number of rounds of the "Mafia" game they need to play to let each person play at least as many rounds as they want?	The first line contains integer n (3<=≤<=n<=≤<=105). The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the i-th number in the list is the number of rounds the i-th person wants to play.	In a single line print a single integer — the minimum number of game rounds the friends need to let the i-th person play at least ai rounds. 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.	[ "3\n3 2 2\n", "4\n2 2 2 2\n" ]	[ "4\n", "3\n" ]	You don't need to know the rules of "Mafia" to solve this problem. If you're curious, it's a game Russia got from the Soviet times: http://en.wikipedia.org/wiki/Mafia_(party_game).	500	[ { "input": "3\n3 2 2", "output": "4" }, { "input": "4\n2 2 2 2", "output": "3" }, { "input": "7\n9 7 7 8 8 7 8", "output": "9" }, { "input": "10\n13 12 10 13 13 14 10 10 12 12", "output": "14" }, { "input": "10\n94 96 91 95 99 94 96 92 95 99", "output": "106" }, { "input": "100\n1 555 876 444 262 234 231 598 416 261 206 165 181 988 469 123 602 592 533 97 864 716 831 156 962 341 207 377 892 51 866 96 757 317 832 476 549 472 770 1000 887 145 956 515 992 653 972 677 973 527 984 559 280 346 580 30 372 547 209 929 492 520 446 726 47 170 699 560 814 206 688 955 308 287 26 102 77 430 262 71 415 586 532 562 419 615 732 658 108 315 268 574 86 12 23 429 640 995 342 305", "output": "1000" }, { "input": "3\n1 1 1", "output": "2" }, { "input": "30\n94 93 90 94 90 91 93 91 93 94 93 90 100 94 97 94 94 95 94 96 94 98 97 95 97 91 91 95 98 96", "output": "100" }, { "input": "5\n1000000000 5 5 4 4", "output": "1000000000" }, { "input": "3\n1 2 1", "output": "2" }, { "input": "3\n2 1 1", "output": "2" }, { "input": "4\n1 2 3 4", "output": "4" }, { "input": "3\n1000000000 1000000000 10000000", "output": "1005000000" }, { "input": "3\n677876423 834056477 553175531", "output": "1032554216" }, { "input": "5\n1000000000 1 1 1 1", "output": "1000000000" }, { "input": "4\n1000000000 1000000000 1000000000 1000000000", "output": "1333333334" }, { "input": "3\n4 10 11", "output": "13" }, { "input": "5\n1000000000 1000000000 1000000000 1000000000 1000000000", "output": "1250000000" } ]	1,577,115,849	2,147,483,647	Python 3	OK	TESTS	34	374	9,113,600	from math import ceil as ce n=int(input()) p=[int(x) for x in input().split()] p=sorted(p) s=sum((p[n-1]-p[i]) for i in range (0,n)) if s>=p[n-1]: print(p[n-1]) else: print(p[n-1]+ce((p[n-1]-s)/(n-1)))	Title: Mafia Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day n friends gathered together to play "Mafia". During each round of the game some player must be the supervisor and other n<=-<=1 people take part in the game. For each person we know in how many rounds he wants to be a player, not the supervisor: the i-th person wants to play ai rounds. What is the minimum number of rounds of the "Mafia" game they need to play to let each person play at least as many rounds as they want? Input Specification: The first line contains integer n (3<=≤<=n<=≤<=105). The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the i-th number in the list is the number of rounds the i-th person wants to play. Output Specification: In a single line print a single integer — the minimum number of game rounds the friends need to let the i-th person play at least ai rounds. 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: ['3\n3 2 2\n', '4\n2 2 2 2\n'] Demo Output: ['4\n', '3\n'] Note: You don't need to know the rules of "Mafia" to solve this problem. If you're curious, it's a game Russia got from the Soviet times: http://en.wikipedia.org/wiki/Mafia_(party_game).	```python from math import ceil as ce n=int(input()) p=[int(x) for x in input().split()] p=sorted(p) s=sum((p[n-1]-p[i]) for i in range (0,n)) if s>=p[n-1]: print(p[n-1]) else: print(p[n-1]+ce((p[n-1]-s)/(n-1))) ```	3
802	G	Fake News (easy)	PROGRAMMING	800	[ "implementation", "strings" ]		null	null	As it's the first of April, Heidi is suspecting that the news she reads today are fake, and she does not want to look silly in front of all the contestants. She knows that a newspiece is fake if it contains heidi as a subsequence. Help Heidi assess whether the given piece is true, but please be discreet about it...	The first and only line of input contains a single nonempty string s of length at most 1000 composed of lowercase letters (a-z).	Output YES if the string s contains heidi as a subsequence and NO otherwise.	[ "abcheaibcdi\n", "hiedi\n" ]	[ "YES", "NO" ]	A string s contains another string p as a subsequence if it is possible to delete some characters from s and obtain p.	0	[ { "input": "abcheaibcdi", "output": "YES" }, { "input": "hiedi", "output": "NO" }, { "input": "ihied", "output": "NO" }, { "input": "diehi", "output": "NO" }, { "input": "deiih", "output": "NO" }, { "input": "iheid", "output": "NO" }, { "input": "eihdi", "output": "NO" }, { "input": "ehdii", "output": "NO" }, { "input": "edhii", "output": "NO" }, { "input": "deiih", "output": "NO" }, { "input": "ehdii", "output": "NO" }, { "input": "eufyajkssayhjhqcwxmctecaeepjwmfoscqprpcxsqfwnlgzsmmuwuoruantipholrauvxydfvftwfzhnckxswussvlidcojiciflpvkcxkkcmmvtfvxrkwcpeelwsuzqgamamdtdgzscmikvojfvqehblmjczkvtdeymgertgkwfwfukafqlfdhtedcctixhyetdypswgagrpyto", "output": "YES" }, { "input": "arfbvxgdvqzuloojjrwoyqqbxamxybaqltfimofulusfebodjkwwrgwcppkwiodtpjaraglyplgerrpqjkpoggjmfxhwtqrijpijrcyxnoodvwpyjfpvqaoazllbrpzananbrvvybboedidtuvqquklkpeflfaltukjhzjgiofombhbmqbihgtapswykfvlgdoapjqntvqsaohmbvnphvyyhvhavslamczuqifxnwknkaenqmlvetrqogqxmlptgrmqvxzdxdmwobjesmgxckpmawtioavwdngyiwkzypfnxcovwzdohshwlavwsthdssiadhiwmhpvgkrbezm", "output": "YES" }, { "input": "zcectngbqnejjjtsfrluummmqabzqbyccshjqbrjthzhlbmzjfxugvjouwhumsgrnopiyakfadjnbsesamhynsbfbfunupwbxvohfmpwlcpxhovwpfpciclatgmiufwdvtsqrsdcymvkldpnhfeisrzhyhhlkwdzthgprvkpyldeysvbmcibqkpudyrraqdlxpjecvwcvuiklcrsbgvqasmxmtxqzmawcjtozioqlfflinnxpeexbzloaeqjvglbdeufultpjqexvjjjkzemtzuzmxvawilcqdrcjzpqyhtwfphuonzwkotthsaxrmwtnlmcdylxqcfffyndqeouztluqwlhnkkvzwcfiscikv", "output": "YES" }, { "input": "plqaykgovxkvsiahdbglktdlhcqwelxxmtlyymrsyubxdskvyjkrowvcbpdofpjqspsrgpakdczletxujzlsegepzleipiyycpinzxgwjsgslnxsotouddgfcybozfpjhhocpybfjbaywsehbcfrayvancbrumdfngqytnhihyxnlvilrqyhnxeckprqafofelospffhtwguzjbbjlzbqrtiielbvzutzgpqxosiaqznndgobcluuqlhmffiowkjdlkokehtjdyjvmxsiyxureflmdomerfekxdvtitvwzmdsdzplkpbtafxqfpudnhfqpoiwvjnylanunmagoweobdvfjgepbsymfutrjarlxclhgavpytiiqwvojrptofuvlohzeguxdsrihsbucelhhuedltnnjgzxwyblbqvnoliiydfinzlogbvucwykryzcyibnniggbkdkdcdgcsbvvnavtyhtkanrblpvomvjs", "output": "YES" }, { "input": "fbldqzggeunkpwcfirxanmntbfrudijltoertsdvcvcmbwodbibsrxendzebvxwydpasaqnisrijctsuatihxxygbeovhxjdptdcppkvfytdpjspvrannxavmkmisqtygntxkdlousdypyfkrpzapysfpdbyprufwzhunlsfugojddkmxzinatiwfxdqmgyrnjnxvrclhxyuwxtshoqdjptmeecvgmrlvuwqtmnfnfeeiwcavwnqmyustawbjodzwsqmnjxhpqmgpysierlwbbdzcwprpsexyvreewcmlbvaiytjlxdqdaqftefdlmtmmjcwvfejshymhnouoshdzqcwzxpzupkbcievodzqkqvyjuuxxwepxjalvkzufnveji", "output": "YES" }, { "input": "htsyljgoelbbuipivuzrhmfpkgderqpoprlxdpasxhpmxvaztccldtmujjzjmcpdvsdghzpretlsyyiljhjznseaacruriufswuvizwwuvdioazophhyytvbiogttnnouauxllbdn", "output": "YES" }, { "input": "ikmxzqdzxqlvgeojsnhqzciujslwjyzzexnregabdqztpplosdakimjxmuqccbnwvzbajoiqgdobccwnrwmixohrbdarhoeeelzbpigiybtesybwefpcfx", "output": "YES" }, { "input": "bpvbpjvbdfiodsmahxpcubjxdykesubnypalhypantshkjffmxjmelblqnjdmtaltneuyudyevkgedkqrdmrfeemgpghwrifcwincfixokfgurhqbcfzeajrgkgpwqwsepudxulywowwxzdxkumsicsvnzfxspmjpaixgejeaoyoibegosqoyoydmphfpbutrrewyjecowjckvpcceoamtfbitdneuwqfvnagswlskmsmkhmxyfsrpqwhxzocyffiumcy", "output": "YES" }, { "input": "vllsexwrazvlfvhvrtqeohvzzresjdiuhomfpgqcxpqdevplecuaepixhlijatxzegciizpvyvxuembiplwklahlqibykfideysjygagjbgqkbhdhkatddcwlxboinfuomnpc", "output": "YES" }, { "input": "pnjdwpxmvfoqkjtbhquqcuredrkwqzzfjmdvpnbqtypzdovemhhclkvigjvtprrpzbrbcbatkucaqteuciuozytsptvsskkeplaxdaqmjkmef", "output": "NO" }, { "input": "jpwfhvlxvsdhtuozvlmnfiotrgapgjxtcsgcjnodcztupysvvvmjpzqkpommadppdrykuqkcpzojcwvlogvkddedwbggkrhuvtsvdiokehlkdlnukcufjvqxnikcdawvexxwffxtriqbdmkahxdtygodzohwtdmmuvmatdkvweqvaehaxiefpevkvqpyxsrhtmgjsdfcwzqobibeduooldrmglbinrepmunizheqzvgqvpdskhxfidxfnbisyizhepwyrcykcmjxnkyfjgrqlkixcvysa", "output": "YES" }, { "input": "aftcrvuumeqbfvaqlltscnuhkpcifrrhnutjinxdhhdbzvizlrapzjdatuaynoplgjketupgaejciosofuhcgcjdcucarfvtsofgubtphijciswsvidnvpztlaarydkeqxzwdhfbmullkimerukusbrdnnujviydldrwhdfllsjtziwfeaiqotbiprespmxjulnyunkdtcghrzvhtcychkwatqqmladxpvmvlkzscthylbzkpgwlzfjqwarqvdeyngekqvrhrftpxnkfcibbowvnqdkulcdydspcubwlgoyinpnzgidbgunparnueddzwtzdiavbprbbg", "output": "YES" }, { "input": "oagjghsidigeh", "output": "NO" }, { "input": "chdhzpfzabupskiusjoefrwmjmqkbmdgboicnszkhdrlegeqjsldurmbshijadlwsycselhlnudndpdhcnhruhhvsgbthpruiqfirxkhpqhzhqdfpyozolbionodypfcqfeqbkcgmqkizgeyyelzeoothexcoaahedgrvoemqcwccbvoeqawqeuusyjxmgjkpfwcdttfmwunzuwvsihliexlzygqcgpbdiawfvqukikhbjerjkyhpcknlndaystrgsinghlmekbvhntcpypmchcwoglsmwwdulqneuabuuuvtyrnjxfcgoothalwkzzfxakneusezgnnepkpipzromqubraiggqndliz", "output": "YES" }, { "input": "lgirxqkrkgjcutpqitmffvbujcljkqardlalyigxorscczuzikoylcxenryhskoavymexysvmhbsvhtycjlmzhijpuvcjshyfeycvvcfyzytzoyvxajpqdjtfiatnvxnyeqtfcagfftafllhhjhplbdsrfpctkqpinpdfrtlzyjllfbeffputywcckupyslkbbzpgcnxgbmhtqeqqehpdaokkjtatrhyiuusjhwgiiiikxpzdueasemosmmccoakafgvxduwiuflovhhfhffgnnjhoperhhjtvocpqytjxkmrknnknqeglffhfuplopmktykxuvcmbwpoeisrlyyhdpxfvzseucofyhziuiikihpqheqdyzwigeaqzhxzvporgisxgvhyicqyejovqloibhbunsvsunpvmdckkbuokitdzleilfwutcvuuytpupizinfjrzhxudsmjcjyfcpfgthujjowdwtgbvi", "output": "YES" }, { "input": "uuehrvufgerqbzyzksmqnewacotuimawhlbycdbsmhshrsbqwybbkwjwsrkwptvlbbwjiivqugzrxxwgidrcrhrwsmwgeoleptfamzefgaeyxouxocrpvomjrazmxrnffdwrrmblgdiabdncvfougtmjgvvazasnygdrigbsrieoonirlivfyodvulouslxosswgpdexuldmkdbpdlgutiotvxjyecbrsvbmqxrlcpcipjjncduyqtohlzybvlemmfdeubihwlwqglkgjvnwrbgydcpwklmjeewqklmqdbajqgrpnynaxfvxjzgibqerxyhnxenrmcdqaaeksbzyrcaepozqpetaurlhjuxxhwppuhgoihxdxbmxeiahyaqkbknktlzkheaarjoqqrsyeducvoygwalgarldcdlqogfvsncejssmx", "output": "YES" }, { "input": "iiopulfjxoitgiusqrhgbkiyzinphjtclodbkkydetylvuimkhdkklmyoacmekdvjpuxcrvqnjhqhhbfenlpzpwijtykqziocilvtpqhxuyrphdlamawjuzgjwiebkqyrzyqgtkcrhntjxqmcgkrqcslogjegfrivzidfedeegwbbsopvxvdoididlpypjogxaodtueebbwuwilacunqpozczcgrpaxxrtogpxgfkudtxchoravrrdtimhenwmnafxaruuojduxxglefejycfcyxllfimkszmbrhcwpnwjqgwvzysmlaaifdxfjjpgjmcksiigpanappjdloiolojmcqbnpnjjzaufdpjaknylmyvolhwypygwepmqwpiglpcnpypnudhdzpdvgzosyjthzcwtytxq", "output": "YES" } ]	1,674,754,851	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	15	0	s = input() t = 'hiedi' i = 0 j = 0 while i < len(s)-1: if s[i] == t[j]: j += 1 i+=1 else: i += 1 if j == len(t) - 1: print(True) else: print(False)	Title: Fake News (easy) Time Limit: None seconds Memory Limit: None megabytes Problem Description: As it's the first of April, Heidi is suspecting that the news she reads today are fake, and she does not want to look silly in front of all the contestants. She knows that a newspiece is fake if it contains heidi as a subsequence. Help Heidi assess whether the given piece is true, but please be discreet about it... Input Specification: The first and only line of input contains a single nonempty string s of length at most 1000 composed of lowercase letters (a-z). Output Specification: Output YES if the string s contains heidi as a subsequence and NO otherwise. Demo Input: ['abcheaibcdi\n', 'hiedi\n'] Demo Output: ['YES', 'NO'] Note: A string s contains another string p as a subsequence if it is possible to delete some characters from s and obtain p.	```python s = input() t = 'hiedi' i = 0 j = 0 while i < len(s)-1: if s[i] == t[j]: j += 1 i+=1 else: i += 1 if j == len(t) - 1: print(True) else: print(False) ```	0
931	A	Friends Meeting	PROGRAMMING	800	[ "brute force", "greedy", "implementation", "math" ]		null	null	Two friends are on the coordinate axis Ox in points with integer coordinates. One of them is in the point x1<==<=a, another one is in the point x2<==<=b. Each of the friends can move by one along the line in any direction unlimited number of times. When a friend moves, the tiredness of a friend changes according to the following rules: the first move increases the tiredness by 1, the second move increases the tiredness by 2, the third — by 3 and so on. For example, if a friend moves first to the left, then to the right (returning to the same point), and then again to the left his tiredness becomes equal to 1<=+<=2<=+<=3<==<=6. The friends want to meet in a integer point. Determine the minimum total tiredness they should gain, if they meet in the same point.	The first line contains a single integer a (1<=≤<=a<=≤<=1000) — the initial position of the first friend. The second line contains a single integer b (1<=≤<=b<=≤<=1000) — the initial position of the second friend. It is guaranteed that a<=≠<=b.	Print the minimum possible total tiredness if the friends meet in the same point.	[ "3\n4\n", "101\n99\n", "5\n10\n" ]	[ "1\n", "2\n", "9\n" ]	In the first example the first friend should move by one to the right (then the meeting happens at point 4), or the second friend should move by one to the left (then the meeting happens at point 3). In both cases, the total tiredness becomes 1. In the second example the first friend should move by one to the left, and the second friend should move by one to the right. Then they meet in the point 100, and the total tiredness becomes 1 + 1 = 2. In the third example one of the optimal ways is the following. The first friend should move three times to the right, and the second friend — two times to the left. Thus the friends meet in the point 8, and the total tiredness becomes 1 + 2 + 3 + 1 + 2 = 9.	500	[ { "input": "3\n4", "output": "1" }, { "input": "101\n99", "output": "2" }, { "input": "5\n10", "output": "9" }, { "input": "1\n2", "output": "1" }, { "input": "1\n1000", "output": "250000" }, { "input": "999\n1000", "output": "1" }, { "input": "1000\n999", "output": "1" }, { "input": "1000\n1", "output": "250000" }, { "input": "2\n1", "output": "1" }, { "input": "2\n999", "output": "249001" }, { "input": "2\n998", "output": "248502" }, { "input": "999\n2", "output": "249001" }, { "input": "998\n2", "output": "248502" }, { "input": "2\n1000", "output": "249500" }, { "input": "1000\n2", "output": "249500" }, { "input": "1\n999", "output": "249500" }, { "input": "999\n1", "output": "249500" }, { "input": "188\n762", "output": "82656" }, { "input": "596\n777", "output": "8281" }, { "input": "773\n70", "output": "123904" }, { "input": "825\n729", "output": "2352" }, { "input": "944\n348", "output": "89102" }, { "input": "352\n445", "output": "2209" }, { "input": "529\n656", "output": "4096" }, { "input": "19\n315", "output": "22052" }, { "input": "138\n370", "output": "13572" }, { "input": "546\n593", "output": "576" }, { "input": "285\n242", "output": "484" }, { "input": "773\n901", "output": "4160" }, { "input": "892\n520", "output": "34782" }, { "input": "864\n179", "output": "117649" }, { "input": "479\n470", "output": "25" }, { "input": "967\n487", "output": "57840" }, { "input": "648\n106", "output": "73712" }, { "input": "58\n765", "output": "125316" }, { "input": "235\n56", "output": "8100" }, { "input": "285\n153", "output": "4422" }, { "input": "943\n13", "output": "216690" }, { "input": "675\n541", "output": "4556" }, { "input": "4\n912", "output": "206570" } ]	1,587,861,275	2,147,483,647	Python 3	OK	TESTS	40	124	0	a = int(input()) b = int(input()) n = abs(a - b) f = 0 ft = 0 m = n if n % 2 > 0: m = n + 1 for i in range(1, (m//2)+1): f = 2 * i ft = ft + f if n % 2 > 0: ft = ft - (f//2) print(ft)	Title: Friends Meeting Time Limit: None seconds Memory Limit: None megabytes Problem Description: Two friends are on the coordinate axis Ox in points with integer coordinates. One of them is in the point x1<==<=a, another one is in the point x2<==<=b. Each of the friends can move by one along the line in any direction unlimited number of times. When a friend moves, the tiredness of a friend changes according to the following rules: the first move increases the tiredness by 1, the second move increases the tiredness by 2, the third — by 3 and so on. For example, if a friend moves first to the left, then to the right (returning to the same point), and then again to the left his tiredness becomes equal to 1<=+<=2<=+<=3<==<=6. The friends want to meet in a integer point. Determine the minimum total tiredness they should gain, if they meet in the same point. Input Specification: The first line contains a single integer a (1<=≤<=a<=≤<=1000) — the initial position of the first friend. The second line contains a single integer b (1<=≤<=b<=≤<=1000) — the initial position of the second friend. It is guaranteed that a<=≠<=b. Output Specification: Print the minimum possible total tiredness if the friends meet in the same point. Demo Input: ['3\n4\n', '101\n99\n', '5\n10\n'] Demo Output: ['1\n', '2\n', '9\n'] Note: In the first example the first friend should move by one to the right (then the meeting happens at point 4), or the second friend should move by one to the left (then the meeting happens at point 3). In both cases, the total tiredness becomes 1. In the second example the first friend should move by one to the left, and the second friend should move by one to the right. Then they meet in the point 100, and the total tiredness becomes 1 + 1 = 2. In the third example one of the optimal ways is the following. The first friend should move three times to the right, and the second friend — two times to the left. Thus the friends meet in the point 8, and the total tiredness becomes 1 + 2 + 3 + 1 + 2 = 9.	```python a = int(input()) b = int(input()) n = abs(a - b) f = 0 ft = 0 m = n if n % 2 > 0: m = n + 1 for i in range(1, (m//2)+1): f = 2 * i ft = ft + f if n % 2 > 0: ft = ft - (f//2) print(ft) ```	3
552	B	Vanya and Books	PROGRAMMING	1,200	[ "implementation", "math" ]		null	null	Vanya got an important task — he should enumerate books in the library and label each book with its number. Each of the n books should be assigned with a number from 1 to n. Naturally, distinct books should be assigned distinct numbers. Vanya wants to know how many digits he will have to write down as he labels the books.	The first line contains integer n (1<=≤<=n<=≤<=109) — the number of books in the library.	Print the number of digits needed to number all the books.	[ "13\n", "4\n" ]	[ "17\n", "4\n" ]	Note to the first test. The books get numbers 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, which totals to 17 digits. Note to the second sample. The books get numbers 1, 2, 3, 4, which totals to 4 digits.	1,000	[ { "input": "13", "output": "17" }, { "input": "4", "output": "4" }, { "input": "100", "output": "192" }, { "input": "99", "output": "189" }, { "input": "1000000000", "output": "8888888899" }, { "input": "1000000", "output": "5888896" }, { "input": "999", "output": "2889" }, { "input": "55", "output": "101" }, { "input": "222222222", "output": "1888888896" }, { "input": "8", "output": "8" }, { "input": "13", "output": "17" }, { "input": "313", "output": "831" }, { "input": "1342", "output": "4261" }, { "input": "30140", "output": "139594" }, { "input": "290092", "output": "1629447" }, { "input": "2156660", "output": "13985516" }, { "input": "96482216", "output": "760746625" }, { "input": "943006819", "output": "8375950269" }, { "input": "1", "output": "1" }, { "input": "7", "output": "7" }, { "input": "35", "output": "61" }, { "input": "996", "output": "2880" }, { "input": "6120", "output": "23373" }, { "input": "30660", "output": "142194" }, { "input": "349463", "output": "1985673" }, { "input": "8171970", "output": "56092686" }, { "input": "36123011", "output": "277872985" }, { "input": "986747865", "output": "8769619683" }, { "input": "9", "output": "9" }, { "input": "10", "output": "11" }, { "input": "11", "output": "13" }, { "input": "101", "output": "195" }, { "input": "1000", "output": "2893" }, { "input": "1001", "output": "2897" }, { "input": "9999", "output": "38889" }, { "input": "10000", "output": "38894" }, { "input": "10001", "output": "38899" }, { "input": "99999", "output": "488889" }, { "input": "100000", "output": "488895" }, { "input": "100001", "output": "488901" }, { "input": "999999", "output": "5888889" }, { "input": "1000001", "output": "5888903" }, { "input": "9999999", "output": "68888889" }, { "input": "10000000", "output": "68888897" }, { "input": "10000001", "output": "68888905" }, { "input": "99999999", "output": "788888889" }, { "input": "100000000", "output": "788888898" }, { "input": "100000001", "output": "788888907" }, { "input": "999999999", "output": "8888888889" }, { "input": "95", "output": "181" }, { "input": "995", "output": "2877" }, { "input": "9995", "output": "38873" }, { "input": "99995", "output": "488869" }, { "input": "999999995", "output": "8888888853" }, { "input": "999999998", "output": "8888888880" } ]	1,527,696,450	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	62	7,065,600	totallis = [9, 91, 901, 9001, 90001, 900001, 9000001, 90000001, 900000001, 9000000001, 90000000001, 900000000001, 9000000000001, 90000000000001] inp = input() ghat = len(inp) intinp = int(inp) digits = 0 if (ghat > 1): for i in range(ghat-1): digits += totallis[i](i+1) rest = (intinp-(10(i+1)))+1 digits += rest(i+2) else: digits = intinp print(digits)	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 totallis = [9, 91, 901, 9001, 90001, 900001, 9000001, 90000001, 900000001, 9000000001, 90000000001, 900000000001, 9000000000001, 90000000000001] inp = input() ghat = len(inp) intinp = int(inp) digits = 0 if (ghat > 1): for i in range(ghat-1): digits += totallis[i](i+1) rest = (intinp-(10(i+1)))+1 digits += rest(i+2) else: digits = intinp print(digits) ```	0
862	B	Mahmoud and Ehab and the bipartiteness	PROGRAMMING	1,300	[ "dfs and similar", "graphs", "trees" ]		null	null	Mahmoud and Ehab continue their adventures! As everybody in the evil land knows, Dr. Evil likes bipartite graphs, especially trees. A tree is a connected acyclic graph. A bipartite graph is a graph, whose vertices can be partitioned into 2 sets in such a way, that for each edge (u,<=v) that belongs to the graph, u and v belong to different sets. You can find more formal definitions of a tree and a bipartite graph in the notes section below. Dr. Evil gave Mahmoud and Ehab a tree consisting of n nodes and asked them to add edges to it in such a way, that the graph is still bipartite. Besides, after adding these edges the graph should be simple (doesn't contain loops or multiple edges). What is the maximum number of edges they can add? A loop is an edge, which connects a node with itself. Graph doesn't contain multiple edges when for each pair of nodes there is no more than one edge between them. A cycle and a loop aren't the same .	The first line of input contains an integer n — the number of nodes in the tree (1<=≤<=n<=≤<=105). The next n<=-<=1 lines contain integers u and v (1<=≤<=u,<=v<=≤<=n, u<=≠<=v) — the description of the edges of the tree. It's guaranteed that the given graph is a tree.	Output one integer — the maximum number of edges that Mahmoud and Ehab can add to the tree while fulfilling the conditions.	[ "3\n1 2\n1 3\n", "5\n1 2\n2 3\n3 4\n4 5\n" ]	[ "0\n", "2\n" ]	Tree definition: [https://en.wikipedia.org/wiki/Tree_(graph_theory)](https://en.wikipedia.org/wiki/Tree_(graph_theory)) Bipartite graph definition: [https://en.wikipedia.org/wiki/Bipartite_graph](https://en.wikipedia.org/wiki/Bipartite_graph) In the first test case the only edge that can be added in such a way, that graph won't contain loops or multiple edges is (2, 3), but adding this edge will make the graph non-bipartite so the answer is 0. In the second test case Mahmoud and Ehab can add edges (1, 4) and (2, 5).	1,000	[ { "input": "3\n1 2\n1 3", "output": "0" }, { "input": "5\n1 2\n2 3\n3 4\n4 5", "output": "2" }, { "input": "10\n3 8\n6 2\n9 7\n10 1\n3 5\n1 3\n6 7\n5 4\n3 6", "output": "16" }, { "input": "10\n7 6\n2 7\n4 1\n8 5\n9 4\n5 3\n8 7\n10 8\n10 4", "output": "16" }, { "input": "10\n2 6\n3 7\n8 4\n4 10\n6 9\n9 7\n3 10\n1 2\n5 8", "output": "16" }, { "input": "10\n6 9\n9 7\n9 4\n10 9\n9 1\n9 8\n9 2\n9 5\n3 9", "output": "0" }, { "input": "2\n1 2", "output": "0" } ]	1,522,695,284	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	61	6,963,200	N = int(input()) edges = [] for n in range(N): u, v = map(int, input().split()) if u > v: u, v = v, u edges.append((u - 1, v - 1)) edges.sort() component = [0 for n in range(N)] for edge in edges: component[edge[1]] = 1 - component[edge[0]] print(component.count(0) * component.count(1) - n + 1)	Title: Mahmoud and Ehab and the bipartiteness Time Limit: None seconds Memory Limit: None megabytes Problem Description: Mahmoud and Ehab continue their adventures! As everybody in the evil land knows, Dr. Evil likes bipartite graphs, especially trees. A tree is a connected acyclic graph. A bipartite graph is a graph, whose vertices can be partitioned into 2 sets in such a way, that for each edge (u,<=v) that belongs to the graph, u and v belong to different sets. You can find more formal definitions of a tree and a bipartite graph in the notes section below. Dr. Evil gave Mahmoud and Ehab a tree consisting of n nodes and asked them to add edges to it in such a way, that the graph is still bipartite. Besides, after adding these edges the graph should be simple (doesn't contain loops or multiple edges). What is the maximum number of edges they can add? A loop is an edge, which connects a node with itself. Graph doesn't contain multiple edges when for each pair of nodes there is no more than one edge between them. A cycle and a loop aren't the same . Input Specification: The first line of input contains an integer n — the number of nodes in the tree (1<=≤<=n<=≤<=105). The next n<=-<=1 lines contain integers u and v (1<=≤<=u,<=v<=≤<=n, u<=≠<=v) — the description of the edges of the tree. It's guaranteed that the given graph is a tree. Output Specification: Output one integer — the maximum number of edges that Mahmoud and Ehab can add to the tree while fulfilling the conditions. Demo Input: ['3\n1 2\n1 3\n', '5\n1 2\n2 3\n3 4\n4 5\n'] Demo Output: ['0\n', '2\n'] Note: Tree definition: [https://en.wikipedia.org/wiki/Tree_(graph_theory)](https://en.wikipedia.org/wiki/Tree_(graph_theory)) Bipartite graph definition: [https://en.wikipedia.org/wiki/Bipartite_graph](https://en.wikipedia.org/wiki/Bipartite_graph) In the first test case the only edge that can be added in such a way, that graph won't contain loops or multiple edges is (2, 3), but adding this edge will make the graph non-bipartite so the answer is 0. In the second test case Mahmoud and Ehab can add edges (1, 4) and (2, 5).	```python N = int(input()) edges = [] for n in range(N): u, v = map(int, input().split()) if u > v: u, v = v, u edges.append((u - 1, v - 1)) edges.sort() component = [0 for n in range(N)] for edge in edges: component[edge[1]] = 1 - component[edge[0]] print(component.count(0) * component.count(1) - n + 1) ```	-1

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