Split (2)

train · 621k rows

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271	A	Beautiful Year	PROGRAMMING	800	[ "brute force" ]		null	null	It seems like the year of 2013 came only yesterday. Do you know a curious fact? The year of 2013 is the first year after the old 1987 with only distinct digits. Now you are suggested to solve the following problem: given a year number, find the minimum year number which is strictly larger than the given one and has only distinct digits.	The single line contains integer y (1000<=≤<=y<=≤<=9000) — the year number.	Print a single integer — the minimum year number that is strictly larger than y and all it's digits are distinct. It is guaranteed that the answer exists.	[ "1987\n", "2013\n" ]	[ "2013\n", "2014\n" ]	none	500	[ { "input": "1987", "output": "2013" }, { "input": "2013", "output": "2014" }, { "input": "1000", "output": "1023" }, { "input": "1001", "output": "1023" }, { "input": "1234", "output": "1235" }, { "input": "5555", "output": "5601" }, { "inp...	1,697,361,832	2,147,483,647	PyPy 3-64	OK	TESTS	27	92	0	import sys s = int(sys.stdin.readline().strip())+1 while len(set(str(s))) != len(str(s)): s += 1 sys.stdout.write(str(s))	Title: Beautiful Year Time Limit: None seconds Memory Limit: None megabytes Problem Description: It seems like the year of 2013 came only yesterday. Do you know a curious fact? The year of 2013 is the first year after the old 1987 with only distinct digits. Now you are suggested to solve the following problem: given a year number, find the minimum year number which is strictly larger than the given one and has only distinct digits. Input Specification: The single line contains integer y (1000<=≤<=y<=≤<=9000) — the year number. Output Specification: Print a single integer — the minimum year number that is strictly larger than y and all it's digits are distinct. It is guaranteed that the answer exists. Demo Input: ['1987\n', '2013\n'] Demo Output: ['2013\n', '2014\n'] Note: none	```python import sys s = int(sys.stdin.readline().strip())+1 while len(set(str(s))) != len(str(s)): s += 1 sys.stdout.write(str(s)) ```	3
99	B	Help Chef Gerasim	PROGRAMMING	1,300	[ "implementation", "sortings" ]	B. Help Chef Gerasim	0	256	In a far away kingdom young pages help to set the table for the King. As they are terribly mischievous, one needs to keep an eye on the control whether they have set everything correctly. This time the royal chef Gerasim had the impression that the pages have played a prank again: they had poured the juice from one cup to another. Now Gerasim wants to check his hypothesis. The good thing is that chef Gerasim always pour the same number of milliliters of juice to all cups in the royal kitchen. Having thoroughly measured the juice in each cup, Gerasim asked you to write a program that will determine from which cup juice was poured to which one; otherwise, the program should determine that this time the pages set the table diligently. To simplify your task we shall consider the cups to be bottomless so that the juice never overfills a cup and pours out, however much it can be. Besides, by some strange reason in a far away kingdom one can only pour to a cup or from one cup to another an integer number of milliliters of juice.	The first line contains integer n — the number of cups on the royal table (1<=≤<=n<=≤<=1000). Next n lines contain volumes of juice in each cup — non-negative integers, not exceeding 104.	If the pages didn't pour the juice, print "Exemplary pages." (without the quotes). If you can determine the volume of juice poured during exactly one juice pouring, print "v ml. from cup #a to cup #b." (without the quotes), where v represents the volume of poured juice, a represents the number of the cup from which the juice was poured (the cups are numbered with consecutive positive integers starting from one in the order in which the cups are described in the input data), b represents the number of the cup into which the juice was poured. Finally, if the given juice's volumes cannot be obtained using no more than one pouring (for example, the pages poured the juice from one cup to another more than once or the royal kitchen maids poured the juice into the cups incorrectly), print "Unrecoverable configuration." (without the quotes).	[ "5\n270\n250\n250\n230\n250\n", "5\n250\n250\n250\n250\n250\n", "5\n270\n250\n249\n230\n250\n" ]	[ "20 ml. from cup #4 to cup #1.\n", "Exemplary pages.\n", "Unrecoverable configuration.\n" ]	none	1,000	[ { "input": "5\n270\n250\n250\n230\n250", "output": "20 ml. from cup #4 to cup #1." }, { "input": "5\n250\n250\n250\n250\n250", "output": "Exemplary pages." }, { "input": "5\n270\n250\n249\n230\n250", "output": "Unrecoverable configuration." }, { "input": "4\n200\n190\n210\n20...	1,648,639,145	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	30	0	from numpy import average n = int(input()) data = [] for _ in range(n): data.append(int(input())) t = data.count(average(data)) if t == n: print("Exemplary pages.") elif t != n - 2: print("Unrecoverable configuration.") else: temp = sorted(data) print((temp[-1] - temp[0]) // 2, "ml. from cup #" + str(data.index(temp[0]) + 1) + " to cup #" + str(data.index(temp[-1]) + 1))	Title: Help Chef Gerasim Time Limit: 0 seconds Memory Limit: 256 megabytes Problem Description: In a far away kingdom young pages help to set the table for the King. As they are terribly mischievous, one needs to keep an eye on the control whether they have set everything correctly. This time the royal chef Gerasim had the impression that the pages have played a prank again: they had poured the juice from one cup to another. Now Gerasim wants to check his hypothesis. The good thing is that chef Gerasim always pour the same number of milliliters of juice to all cups in the royal kitchen. Having thoroughly measured the juice in each cup, Gerasim asked you to write a program that will determine from which cup juice was poured to which one; otherwise, the program should determine that this time the pages set the table diligently. To simplify your task we shall consider the cups to be bottomless so that the juice never overfills a cup and pours out, however much it can be. Besides, by some strange reason in a far away kingdom one can only pour to a cup or from one cup to another an integer number of milliliters of juice. Input Specification: The first line contains integer n — the number of cups on the royal table (1<=≤<=n<=≤<=1000). Next n lines contain volumes of juice in each cup — non-negative integers, not exceeding 104. Output Specification: If the pages didn't pour the juice, print "Exemplary pages." (without the quotes). If you can determine the volume of juice poured during exactly one juice pouring, print "v ml. from cup #a to cup #b." (without the quotes), where v represents the volume of poured juice, a represents the number of the cup from which the juice was poured (the cups are numbered with consecutive positive integers starting from one in the order in which the cups are described in the input data), b represents the number of the cup into which the juice was poured. Finally, if the given juice's volumes cannot be obtained using no more than one pouring (for example, the pages poured the juice from one cup to another more than once or the royal kitchen maids poured the juice into the cups incorrectly), print "Unrecoverable configuration." (without the quotes). Demo Input: ['5\n270\n250\n250\n230\n250\n', '5\n250\n250\n250\n250\n250\n', '5\n270\n250\n249\n230\n250\n'] Demo Output: ['20 ml. from cup #4 to cup #1.\n', 'Exemplary pages.\n', 'Unrecoverable configuration.\n'] Note: none	```python from numpy import average n = int(input()) data = [] for _ in range(n): data.append(int(input())) t = data.count(average(data)) if t == n: print("Exemplary pages.") elif t != n - 2: print("Unrecoverable configuration.") else: temp = sorted(data) print((temp[-1] - temp[0]) // 2, "ml. from cup #" + str(data.index(temp[0]) + 1) + " to cup #" + str(data.index(temp[-1]) + 1)) ```	-1
80	A	Panoramix's Prediction	PROGRAMMING	800	[ "brute force" ]	A. Panoramix's Prediction	2	256	A prime number is a number which has exactly two distinct divisors: one and itself. For example, numbers 2, 7, 3 are prime, and 1, 6, 4 are not. The next prime number after x is the smallest prime number greater than x. For example, the next prime number after 2 is 3, and the next prime number after 3 is 5. Note that there is exactly one next prime number after each number. So 5 is not the next prime number for 2. One cold April morning Panoramix predicted that soon Kakofonix will break free from his straitjacket, and this will be a black day for the residents of the Gallic countryside. Panoramix's prophecy tells that if some day Asterix and Obelix beat exactly x Roman soldiers, where x is a prime number, and next day they beat exactly y Roman soldiers, where y is the next prime number after x, then it's time to wait for Armageddon, for nothing can shut Kakofonix up while he sings his infernal song. Yesterday the Gauls beat n Roman soldiers and it turned out that the number n was prime! Today their victims were a troop of m Romans (m<=><=n). Determine whether the Gauls should wait for the black day after today's victory of Asterix and Obelix?	The first and only input line contains two positive integers — n and m (2<=≤<=n<=<<=m<=≤<=50). It is guaranteed that n is prime. Pretests contain all the cases with restrictions 2<=≤<=n<=<<=m<=≤<=4.	Print YES, if m is the next prime number after n, or NO otherwise.	[ "3 5\n", "7 11\n", "7 9\n" ]	[ "YES", "YES", "NO" ]	none	500	[ { "input": "3 5", "output": "YES" }, { "input": "7 11", "output": "YES" }, { "input": "7 9", "output": "NO" }, { "input": "2 3", "output": "YES" }, { "input": "2 4", "output": "NO" }, { "input": "3 4", "output": "NO" }, { "input": "3 5", ...	1,554,795,869	2,147,483,647	Python 3	OK	TESTS	45	218	0	def isPrime(x): i = 2 while i*i <= x: if x % i == 0: return False i += 1 return x > 1 n, m = map(int, input().split() ) ok = not any([isPrime(x) for x in range(n+1, m) ] ) print('YES' if ok and isPrime(m) else 'NO')	Title: Panoramix's Prediction Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A prime number is a number which has exactly two distinct divisors: one and itself. For example, numbers 2, 7, 3 are prime, and 1, 6, 4 are not. The next prime number after x is the smallest prime number greater than x. For example, the next prime number after 2 is 3, and the next prime number after 3 is 5. Note that there is exactly one next prime number after each number. So 5 is not the next prime number for 2. One cold April morning Panoramix predicted that soon Kakofonix will break free from his straitjacket, and this will be a black day for the residents of the Gallic countryside. Panoramix's prophecy tells that if some day Asterix and Obelix beat exactly x Roman soldiers, where x is a prime number, and next day they beat exactly y Roman soldiers, where y is the next prime number after x, then it's time to wait for Armageddon, for nothing can shut Kakofonix up while he sings his infernal song. Yesterday the Gauls beat n Roman soldiers and it turned out that the number n was prime! Today their victims were a troop of m Romans (m<=><=n). Determine whether the Gauls should wait for the black day after today's victory of Asterix and Obelix? Input Specification: The first and only input line contains two positive integers — n and m (2<=≤<=n<=<<=m<=≤<=50). It is guaranteed that n is prime. Pretests contain all the cases with restrictions 2<=≤<=n<=<<=m<=≤<=4. Output Specification: Print YES, if m is the next prime number after n, or NO otherwise. Demo Input: ['3 5\n', '7 11\n', '7 9\n'] Demo Output: ['YES', 'YES', 'NO'] Note: none	```python def isPrime(x): i = 2 while i*i <= x: if x % i == 0: return False i += 1 return x > 1 n, m = map(int, input().split() ) ok = not any([isPrime(x) for x in range(n+1, m) ] ) print('YES' if ok and isPrime(m) else 'NO') ```	3.9455
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",...	1,595,231,948	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	9	218	7,372,800	n=int(input()) k=[] for i in range(1,10*4): k.append((i(i+1))//2) c=0 s=set(k) for j in s: if n-j in s: c=1 break (print("YES") if c==1 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 n=int(input()) k=[] for i in range(1,10*4): k.append((i(i+1))//2) c=0 s=set(k) for j in s: if n-j in s: c=1 break (print("YES") if c==1 else print("NO")) ```	0
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk...	1,582,713,555	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	186	0	a = input() b = input() temp = a[::-1] if b == temp: print("yes") else: print("no")	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python a = input() b = input() temp = a[::-1] if b == temp: print("yes") else: print("no") ```	0
664	A	Complicated GCD	PROGRAMMING	800	[ "math", "number theory" ]		null	null	Greatest common divisor GCD(a,<=b) of two positive integers a and b is equal to the biggest integer d such that both integers a and b are divisible by d. There are many efficient algorithms to find greatest common divisor GCD(a,<=b), for example, Euclid algorithm. Formally, find the biggest integer d, such that all integers a,<=a<=+<=1,<=a<=+<=2,<=...,<=b are divisible by d. To make the problem even more complicated we allow a and b to be up to googol, 10100 — such number do not fit even in 64-bit integer type!	The only line of the input contains two integers a and b (1<=≤<=a<=≤<=b<=≤<=10100).	Output one integer — greatest common divisor of all integers from a to b inclusive.	[ "1 2\n", "61803398874989484820458683436563811772030917980576 61803398874989484820458683436563811772030917980576\n" ]	[ "1\n", "61803398874989484820458683436563811772030917980576\n" ]	none	500	[ { "input": "1 2", "output": "1" }, { "input": "61803398874989484820458683436563811772030917980576 61803398874989484820458683436563811772030917980576", "output": "61803398874989484820458683436563811772030917980576" }, { "input": "1 100", "output": "1" }, { "input": "100 100000...	1,569,744,360	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	109	0	l=list(map(int,input().split())) m=max(l) g=min(l) while g>0: if m%g==0: print(g) break else: s=m%g m=g g=s	Title: Complicated GCD Time Limit: None seconds Memory Limit: None megabytes Problem Description: Greatest common divisor GCD(a,<=b) of two positive integers a and b is equal to the biggest integer d such that both integers a and b are divisible by d. There are many efficient algorithms to find greatest common divisor GCD(a,<=b), for example, Euclid algorithm. Formally, find the biggest integer d, such that all integers a,<=a<=+<=1,<=a<=+<=2,<=...,<=b are divisible by d. To make the problem even more complicated we allow a and b to be up to googol, 10100 — such number do not fit even in 64-bit integer type! Input Specification: The only line of the input contains two integers a and b (1<=≤<=a<=≤<=b<=≤<=10100). Output Specification: Output one integer — greatest common divisor of all integers from a to b inclusive. Demo Input: ['1 2\n', '61803398874989484820458683436563811772030917980576 61803398874989484820458683436563811772030917980576\n'] Demo Output: ['1\n', '61803398874989484820458683436563811772030917980576\n'] Note: none	```python l=list(map(int,input().split())) m=max(l) g=min(l) while g>0: if m%g==0: print(g) break else: s=m%g m=g g=s ```	0
131	A	cAPS lOCK	PROGRAMMING	1,000	[ "implementation", "strings" ]		null	null	wHAT DO WE NEED cAPS LOCK FOR? Caps lock is a computer keyboard key. Pressing it sets an input mode in which typed letters are capital by default. If it is pressed by accident, it leads to accidents like the one we had in the first passage. Let's consider that a word has been typed with the Caps lock key accidentally switched on, if: - either it only contains uppercase letters; - or all letters except for the first one are uppercase. In this case we should automatically change the case of all letters. For example, the case of the letters that form words "hELLO", "HTTP", "z" should be changed. Write a program that applies the rule mentioned above. If the rule cannot be applied, the program should leave the word unchanged.	The first line of the input data contains a word consisting of uppercase and lowercase Latin letters. The word's length is from 1 to 100 characters, inclusive.	Print the result of the given word's processing.	[ "cAPS\n", "Lock\n" ]	[ "Caps", "Lock\n" ]	none	500	[ { "input": "cAPS", "output": "Caps" }, { "input": "Lock", "output": "Lock" }, { "input": "cAPSlOCK", "output": "cAPSlOCK" }, { "input": "CAPs", "output": "CAPs" }, { "input": "LoCK", "output": "LoCK" }, { "input": "OOPS", "output": "oops" }, { ...	1,699,420,318	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	31	0	x=input("") a=x.isupper() if (a==True): b=(x.lower()) print(b) else: print(b.capitalize())	Title: cAPS lOCK Time Limit: None seconds Memory Limit: None megabytes Problem Description: wHAT DO WE NEED cAPS LOCK FOR? Caps lock is a computer keyboard key. Pressing it sets an input mode in which typed letters are capital by default. If it is pressed by accident, it leads to accidents like the one we had in the first passage. Let's consider that a word has been typed with the Caps lock key accidentally switched on, if: - either it only contains uppercase letters; - or all letters except for the first one are uppercase. In this case we should automatically change the case of all letters. For example, the case of the letters that form words "hELLO", "HTTP", "z" should be changed. Write a program that applies the rule mentioned above. If the rule cannot be applied, the program should leave the word unchanged. Input Specification: The first line of the input data contains a word consisting of uppercase and lowercase Latin letters. The word's length is from 1 to 100 characters, inclusive. Output Specification: Print the result of the given word's processing. Demo Input: ['cAPS\n', 'Lock\n'] Demo Output: ['Caps', 'Lock\n'] Note: none	```python x=input("") a=x.isupper() if (a==True): b=(x.lower()) print(b) else: print(b.capitalize()) ```	-1
151	A	Soft Drinking	PROGRAMMING	800	[ "implementation", "math" ]		null	null	This winter is so cold in Nvodsk! A group of n friends decided to buy k bottles of a soft drink called "Take-It-Light" to warm up a bit. Each bottle has l milliliters of the drink. Also they bought c limes and cut each of them into d slices. After that they found p grams of salt. To make a toast, each friend needs nl milliliters of the drink, a slice of lime and np grams of salt. The friends want to make as many toasts as they can, provided they all drink the same amount. How many toasts can each friend make?	The first and only line contains positive integers n, k, l, c, d, p, nl, np, not exceeding 1000 and no less than 1. The numbers are separated by exactly one space.	Print a single integer — the number of toasts each friend can make.	[ "3 4 5 10 8 100 3 1\n", "5 100 10 1 19 90 4 3\n", "10 1000 1000 25 23 1 50 1\n" ]	[ "2\n", "3\n", "0\n" ]	A comment to the first sample: Overall the friends have 4 * 5 = 20 milliliters of the drink, it is enough to make 20 / 3 = 6 toasts. The limes are enough for 10 * 8 = 80 toasts and the salt is enough for 100 / 1 = 100 toasts. However, there are 3 friends in the group, so the answer is min(6, 80, 100) / 3 = 2.	500	[ { "input": "3 4 5 10 8 100 3 1", "output": "2" }, { "input": "5 100 10 1 19 90 4 3", "output": "3" }, { "input": "10 1000 1000 25 23 1 50 1", "output": "0" }, { "input": "1 7 4 5 5 8 3 2", "output": "4" }, { "input": "2 3 3 5 5 10 1 3", "output": "1" }, { ...	1,678,268,405	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	9	62	0	inp=list(map(int,input().split(' '))) n=inp[0] k=inp[1] l=inp[2] c=inp[3] d=inp[4] p=inp[5] nl=inp[6] np=inp[7] print(int((min((kl)//n,cd,p/np))//n))	Title: Soft Drinking Time Limit: None seconds Memory Limit: None megabytes Problem Description: This winter is so cold in Nvodsk! A group of n friends decided to buy k bottles of a soft drink called "Take-It-Light" to warm up a bit. Each bottle has l milliliters of the drink. Also they bought c limes and cut each of them into d slices. After that they found p grams of salt. To make a toast, each friend needs nl milliliters of the drink, a slice of lime and np grams of salt. The friends want to make as many toasts as they can, provided they all drink the same amount. How many toasts can each friend make? Input Specification: The first and only line contains positive integers n, k, l, c, d, p, nl, np, not exceeding 1000 and no less than 1. The numbers are separated by exactly one space. Output Specification: Print a single integer — the number of toasts each friend can make. Demo Input: ['3 4 5 10 8 100 3 1\n', '5 100 10 1 19 90 4 3\n', '10 1000 1000 25 23 1 50 1\n'] Demo Output: ['2\n', '3\n', '0\n'] Note: A comment to the first sample: Overall the friends have 4 * 5 = 20 milliliters of the drink, it is enough to make 20 / 3 = 6 toasts. The limes are enough for 10 * 8 = 80 toasts and the salt is enough for 100 / 1 = 100 toasts. However, there are 3 friends in the group, so the answer is min(6, 80, 100) / 3 = 2.	```python inp=list(map(int,input().split(' '))) n=inp[0] k=inp[1] l=inp[2] c=inp[3] d=inp[4] p=inp[5] nl=inp[6] np=inp[7] print(int((min((kl)//n,cd,p/np))//n)) ```	0
572	A	Arrays	PROGRAMMING	900	[ "sortings" ]		null	null	You are given two arrays A and B consisting of integers, sorted in non-decreasing order. Check whether it is possible to choose k numbers in array A and choose m numbers in array B so that any number chosen in the first array is strictly less than any number chosen in the second array.	The first line contains two integers nA,<=nB (1<=≤<=nA,<=nB<=≤<=105), separated by a space — the sizes of arrays A and B, correspondingly. The second line contains two integers k and m (1<=≤<=k<=≤<=nA,<=1<=≤<=m<=≤<=nB), separated by a space. The third line contains nA numbers a1,<=a2,<=... anA (<=-<=109<=≤<=a1<=≤<=a2<=≤<=...<=≤<=anA<=≤<=109), separated by spaces — elements of array A. The fourth line contains nB integers b1,<=b2,<=... bnB (<=-<=109<=≤<=b1<=≤<=b2<=≤<=...<=≤<=bnB<=≤<=109), separated by spaces — elements of array B.	Print "YES" (without the quotes), if you can choose k numbers in array A and m numbers in array B so that any number chosen in array A was strictly less than any number chosen in array B. Otherwise, print "NO" (without the quotes).	[ "3 3\n2 1\n1 2 3\n3 4 5\n", "3 3\n3 3\n1 2 3\n3 4 5\n", "5 2\n3 1\n1 1 1 1 1\n2 2\n" ]	[ "YES\n", "NO\n", "YES\n" ]	In the first sample test you can, for example, choose numbers 1 and 2 from array A and number 3 from array B (1 < 3 and 2 < 3). In the second sample test the only way to choose k elements in the first array and m elements in the second one is to choose all numbers in both arrays, but then not all the numbers chosen in A will be less than all the numbers chosen in B: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/7280148ed5eab0a7d418d4f92b32061243a8ca58.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	500	[ { "input": "3 3\n2 1\n1 2 3\n3 4 5", "output": "YES" }, { "input": "3 3\n3 3\n1 2 3\n3 4 5", "output": "NO" }, { "input": "5 2\n3 1\n1 1 1 1 1\n2 2", "output": "YES" }, { "input": "3 5\n1 1\n5 5 5\n5 5 5 5 5", "output": "NO" }, { "input": "1 1\n1 1\n1\n1", "ou...	1,682,112,987	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	15	0	n1,n2=[int(x) for x in input().split()] k,m=[int(x) for x in input().split()] arr1=[int(x) for x in input().split()] arr2=[int(x) for x in input().split()] arr1.sort arr2.sort a=arr1[:k] b=arr2[(n2-m):] c=0 if(a[len(a)]<b[0]): print("YES") else: print("NO")	Title: Arrays Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given two arrays A and B consisting of integers, sorted in non-decreasing order. Check whether it is possible to choose k numbers in array A and choose m numbers in array B so that any number chosen in the first array is strictly less than any number chosen in the second array. Input Specification: The first line contains two integers nA,<=nB (1<=≤<=nA,<=nB<=≤<=105), separated by a space — the sizes of arrays A and B, correspondingly. The second line contains two integers k and m (1<=≤<=k<=≤<=nA,<=1<=≤<=m<=≤<=nB), separated by a space. The third line contains nA numbers a1,<=a2,<=... anA (<=-<=109<=≤<=a1<=≤<=a2<=≤<=...<=≤<=anA<=≤<=109), separated by spaces — elements of array A. The fourth line contains nB integers b1,<=b2,<=... bnB (<=-<=109<=≤<=b1<=≤<=b2<=≤<=...<=≤<=bnB<=≤<=109), separated by spaces — elements of array B. Output Specification: Print "YES" (without the quotes), if you can choose k numbers in array A and m numbers in array B so that any number chosen in array A was strictly less than any number chosen in array B. Otherwise, print "NO" (without the quotes). Demo Input: ['3 3\n2 1\n1 2 3\n3 4 5\n', '3 3\n3 3\n1 2 3\n3 4 5\n', '5 2\n3 1\n1 1 1 1 1\n2 2\n'] Demo Output: ['YES\n', 'NO\n', 'YES\n'] Note: In the first sample test you can, for example, choose numbers 1 and 2 from array A and number 3 from array B (1 < 3 and 2 < 3). In the second sample test the only way to choose k elements in the first array and m elements in the second one is to choose all numbers in both arrays, but then not all the numbers chosen in A will be less than all the numbers chosen in B: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/7280148ed5eab0a7d418d4f92b32061243a8ca58.png" style="max-width: 100.0%;max-height: 100.0%;"/>.	```python n1,n2=[int(x) for x in input().split()] k,m=[int(x) for x in input().split()] arr1=[int(x) for x in input().split()] arr2=[int(x) for x in input().split()] arr1.sort arr2.sort a=arr1[:k] b=arr2[(n2-m):] c=0 if(a[len(a)]<b[0]): print("YES") else: print("NO") ```	-1
420	A	Start Up	PROGRAMMING	1,000	[ "implementation" ]		null	null	Recently, a start up by two students of a state university of city F gained incredible popularity. Now it's time to start a new company. But what do we call it? The market analysts came up with a very smart plan: the name of the company should be identical to its reflection in a mirror! In other words, if we write out the name of the company on a piece of paper in a line (horizontally, from left to right) with large English letters, then put this piece of paper in front of the mirror, then the reflection of the name in the mirror should perfectly match the line written on the piece of paper. There are many suggestions for the company name, so coming up to the mirror with a piece of paper for each name wouldn't be sensible. The founders of the company decided to automatize this process. They asked you to write a program that can, given a word, determine whether the word is a 'mirror' word or not.	The first line contains a non-empty name that needs to be checked. The name contains at most 105 large English letters. The name will be written with the next sans serif font:	Print 'YES' (without the quotes), if the given name matches its mirror reflection. Otherwise, print 'NO' (without the quotes).	[ "AHA\n", "Z\n", "XO\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "AHA", "output": "YES" }, { "input": "Z", "output": "NO" }, { "input": "XO", "output": "NO" }, { "input": "AAA", "output": "YES" }, { "input": "AHHA", "output": "YES" }, { "input": "BAB", "output": "NO" }, { "input": "OMMMAAMMMO"...	1,648,556,789	2,147,483,647	Python 3	TIME_LIMIT_EXCEEDED	TESTS	7	1,000	921,600	name = input() n1 = list(name.strip(" ")) n2 = n1[::-1] n = "AHIMOTUVWXY" f = 1 for i in name: if n1 != n2: f = 0 break if i not in n: f = 0 break if f == 1: print("YES") else: print("NO")	Title: Start Up Time Limit: None seconds Memory Limit: None megabytes Problem Description: Recently, a start up by two students of a state university of city F gained incredible popularity. Now it's time to start a new company. But what do we call it? The market analysts came up with a very smart plan: the name of the company should be identical to its reflection in a mirror! In other words, if we write out the name of the company on a piece of paper in a line (horizontally, from left to right) with large English letters, then put this piece of paper in front of the mirror, then the reflection of the name in the mirror should perfectly match the line written on the piece of paper. There are many suggestions for the company name, so coming up to the mirror with a piece of paper for each name wouldn't be sensible. The founders of the company decided to automatize this process. They asked you to write a program that can, given a word, determine whether the word is a 'mirror' word or not. Input Specification: The first line contains a non-empty name that needs to be checked. The name contains at most 105 large English letters. The name will be written with the next sans serif font: Output Specification: Print 'YES' (without the quotes), if the given name matches its mirror reflection. Otherwise, print 'NO' (without the quotes). Demo Input: ['AHA\n', 'Z\n', 'XO\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python name = input() n1 = list(name.strip(" ")) n2 = n1[::-1] n = "AHIMOTUVWXY" f = 1 for i in name: if n1 != n2: f = 0 break if i not in n: f = 0 break if f == 1: print("YES") else: print("NO") ```	0
151	A	Soft Drinking	PROGRAMMING	800	[ "implementation", "math" ]		null	null	This winter is so cold in Nvodsk! A group of n friends decided to buy k bottles of a soft drink called "Take-It-Light" to warm up a bit. Each bottle has l milliliters of the drink. Also they bought c limes and cut each of them into d slices. After that they found p grams of salt. To make a toast, each friend needs nl milliliters of the drink, a slice of lime and np grams of salt. The friends want to make as many toasts as they can, provided they all drink the same amount. How many toasts can each friend make?	The first and only line contains positive integers n, k, l, c, d, p, nl, np, not exceeding 1000 and no less than 1. The numbers are separated by exactly one space.	Print a single integer — the number of toasts each friend can make.	[ "3 4 5 10 8 100 3 1\n", "5 100 10 1 19 90 4 3\n", "10 1000 1000 25 23 1 50 1\n" ]	[ "2\n", "3\n", "0\n" ]	A comment to the first sample: Overall the friends have 4 * 5 = 20 milliliters of the drink, it is enough to make 20 / 3 = 6 toasts. The limes are enough for 10 * 8 = 80 toasts and the salt is enough for 100 / 1 = 100 toasts. However, there are 3 friends in the group, so the answer is min(6, 80, 100) / 3 = 2.	500	[ { "input": "3 4 5 10 8 100 3 1", "output": "2" }, { "input": "5 100 10 1 19 90 4 3", "output": "3" }, { "input": "10 1000 1000 25 23 1 50 1", "output": "0" }, { "input": "1 7 4 5 5 8 3 2", "output": "4" }, { "input": "2 3 3 5 5 10 1 3", "output": "1" }, { ...	1,694,664,956	2,147,483,647	Python 3	OK	TESTS	27	92	0	n,k,l,c,d,p,nl,np=map(int,input().split()) ml=(kl)/nl lim=cd salt=p/np print(int(min(ml,lim,salt)/n))	Title: Soft Drinking Time Limit: None seconds Memory Limit: None megabytes Problem Description: This winter is so cold in Nvodsk! A group of n friends decided to buy k bottles of a soft drink called "Take-It-Light" to warm up a bit. Each bottle has l milliliters of the drink. Also they bought c limes and cut each of them into d slices. After that they found p grams of salt. To make a toast, each friend needs nl milliliters of the drink, a slice of lime and np grams of salt. The friends want to make as many toasts as they can, provided they all drink the same amount. How many toasts can each friend make? Input Specification: The first and only line contains positive integers n, k, l, c, d, p, nl, np, not exceeding 1000 and no less than 1. The numbers are separated by exactly one space. Output Specification: Print a single integer — the number of toasts each friend can make. Demo Input: ['3 4 5 10 8 100 3 1\n', '5 100 10 1 19 90 4 3\n', '10 1000 1000 25 23 1 50 1\n'] Demo Output: ['2\n', '3\n', '0\n'] Note: A comment to the first sample: Overall the friends have 4 * 5 = 20 milliliters of the drink, it is enough to make 20 / 3 = 6 toasts. The limes are enough for 10 * 8 = 80 toasts and the salt is enough for 100 / 1 = 100 toasts. However, there are 3 friends in the group, so the answer is min(6, 80, 100) / 3 = 2.	```python n,k,l,c,d,p,nl,np=map(int,input().split()) ml=(kl)/nl lim=cd salt=p/np print(int(min(ml,lim,salt)/n)) ```	3
709	A	Juicer	PROGRAMMING	900	[ "implementation" ]		null	null	Kolya is going to make fresh orange juice. He has n oranges of sizes a1,<=a2,<=...,<=an. Kolya will put them in the juicer in the fixed order, starting with orange of size a1, then orange of size a2 and so on. To be put in the juicer the orange must have size not exceeding b, so if Kolya sees an orange that is strictly greater he throws it away and continues with the next one. The juicer has a special section to collect waste. It overflows if Kolya squeezes oranges of the total size strictly greater than d. When it happens Kolya empties the waste section (even if there are no more oranges) and continues to squeeze the juice. How many times will he have to empty the waste section?	The first line of the input contains three integers n, b and d (1<=≤<=n<=≤<=100<=000, 1<=≤<=b<=≤<=d<=≤<=1<=000<=000) — the number of oranges, the maximum size of the orange that fits in the juicer and the value d, which determines the condition when the waste section should be emptied. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=1<=000<=000) — sizes of the oranges listed in the order Kolya is going to try to put them in the juicer.	Print one integer — the number of times Kolya will have to empty the waste section.	[ "2 7 10\n5 6\n", "1 5 10\n7\n", "3 10 10\n5 7 7\n", "1 1 1\n1\n" ]	[ "1\n", "0\n", "1\n", "0\n" ]	In the first sample, Kolya will squeeze the juice from two oranges and empty the waste section afterwards. In the second sample, the orange won't fit in the juicer so Kolya will have no juice at all.	500	[ { "input": "2 7 10\n5 6", "output": "1" }, { "input": "1 5 10\n7", "output": "0" }, { "input": "3 10 10\n5 7 7", "output": "1" }, { "input": "1 1 1\n1", "output": "0" }, { "input": "2 951637 951638\n44069 951637", "output": "1" }, { "input": "50 100 12...	1,644,163,716	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	31	0	l=input() l=l.split() n=int(l[0]) b=int(l[1]) d=int(l[2]) l=input() l=l.split() count=0 waste=0 for i in range(len(l)): l[i]=int(l[i]) if l[i] <=b: if l[i]>d or waste>d: count+=1 else: waste+=l[i] if waste >d: count+1 print(count)	Title: Juicer Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kolya is going to make fresh orange juice. He has n oranges of sizes a1,<=a2,<=...,<=an. Kolya will put them in the juicer in the fixed order, starting with orange of size a1, then orange of size a2 and so on. To be put in the juicer the orange must have size not exceeding b, so if Kolya sees an orange that is strictly greater he throws it away and continues with the next one. The juicer has a special section to collect waste. It overflows if Kolya squeezes oranges of the total size strictly greater than d. When it happens Kolya empties the waste section (even if there are no more oranges) and continues to squeeze the juice. How many times will he have to empty the waste section? Input Specification: The first line of the input contains three integers n, b and d (1<=≤<=n<=≤<=100<=000, 1<=≤<=b<=≤<=d<=≤<=1<=000<=000) — the number of oranges, the maximum size of the orange that fits in the juicer and the value d, which determines the condition when the waste section should be emptied. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=1<=000<=000) — sizes of the oranges listed in the order Kolya is going to try to put them in the juicer. Output Specification: Print one integer — the number of times Kolya will have to empty the waste section. Demo Input: ['2 7 10\n5 6\n', '1 5 10\n7\n', '3 10 10\n5 7 7\n', '1 1 1\n1\n'] Demo Output: ['1\n', '0\n', '1\n', '0\n'] Note: In the first sample, Kolya will squeeze the juice from two oranges and empty the waste section afterwards. In the second sample, the orange won't fit in the juicer so Kolya will have no juice at all.	```python l=input() l=l.split() n=int(l[0]) b=int(l[1]) d=int(l[2]) l=input() l=l.split() count=0 waste=0 for i in range(len(l)): l[i]=int(l[i]) if l[i] <=b: if l[i]>d or waste>d: count+=1 else: waste+=l[i] if waste >d: count+1 print(count) ```	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": "1000022...	1,630,342,228	2,147,483,647	Python 3	OK	TESTS	30	154	6,758,400	s = input() i = 0 ans = "" while i<len(s): if s[i] == ".": ans+="0" elif s[i] == "-": if s[i+1] == "-": ans+="2" else: ans+="1" i+=1 i+=1 print(ans)	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 s = input() i = 0 ans = "" while i<len(s): if s[i] == ".": ans+="0" elif s[i] == "-": if s[i+1] == "-": ans+="2" else: ans+="1" i+=1 i+=1 print(ans) ```	3.948911
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":...	1,697,303,800	2,147,483,647	PyPy 3-64	OK	TESTS	53	122	0	s1 = input() s2 = input() if s1.lower() < s2.lower(): print(-1) if s2.lower() < s1.lower(): print(1) if s1.lower() == s2.lower(): 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 s1 = input() s2 = input() if s1.lower() < s2.lower(): print(-1) if s2.lower() < s1.lower(): print(1) if s1.lower() == s2.lower(): print(0) ```	3.9695
522	A	Reposts	PROGRAMMING	1,200	[ "*special", "dfs and similar", "dp", "graphs", "trees" ]		null	null	One day Polycarp published a funny picture in a social network making a poll about the color of his handle. Many of his friends started reposting Polycarp's joke to their news feed. Some of them reposted the reposts and so on. These events are given as a sequence of strings "name1 reposted name2", where name1 is the name of the person who reposted the joke, and name2 is the name of the person from whose news feed the joke was reposted. It is guaranteed that for each string "name1 reposted name2" user "name1" didn't have the joke in his feed yet, and "name2" already had it in his feed by the moment of repost. Polycarp was registered as "Polycarp" and initially the joke was only in his feed. Polycarp measures the popularity of the joke as the length of the largest repost chain. Print the popularity of Polycarp's joke.	The first line of the input contains integer n (1<=≤<=n<=≤<=200) — the number of reposts. Next follow the reposts in the order they were made. Each of them is written on a single line and looks as "name1 reposted name2". All the names in the input consist of lowercase or uppercase English letters and/or digits and have lengths from 2 to 24 characters, inclusive. We know that the user names are case-insensitive, that is, two names that only differ in the letter case correspond to the same social network user.	Print a single integer — the maximum length of a repost chain.	[ "5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya\n", "6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforces reposted Polycarp\n", "1\nSoMeStRaNgEgUe repos...	[ "6\n", "2\n", "2\n" ]	none	500	[ { "input": "5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya", "output": "6" }, { "input": "6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforc...	1,588,854,197	2,147,483,647	Python 3	OK	TESTS	36	109	6,656,000	n = int(input()) a={} a['polycarp']=1 for i in range(n): f,m,l = input().lower().split() a[f] = a[l]+1 print(max(a.values()))	Title: Reposts Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Polycarp published a funny picture in a social network making a poll about the color of his handle. Many of his friends started reposting Polycarp's joke to their news feed. Some of them reposted the reposts and so on. These events are given as a sequence of strings "name1 reposted name2", where name1 is the name of the person who reposted the joke, and name2 is the name of the person from whose news feed the joke was reposted. It is guaranteed that for each string "name1 reposted name2" user "name1" didn't have the joke in his feed yet, and "name2" already had it in his feed by the moment of repost. Polycarp was registered as "Polycarp" and initially the joke was only in his feed. Polycarp measures the popularity of the joke as the length of the largest repost chain. Print the popularity of Polycarp's joke. Input Specification: The first line of the input contains integer n (1<=≤<=n<=≤<=200) — the number of reposts. Next follow the reposts in the order they were made. Each of them is written on a single line and looks as "name1 reposted name2". All the names in the input consist of lowercase or uppercase English letters and/or digits and have lengths from 2 to 24 characters, inclusive. We know that the user names are case-insensitive, that is, two names that only differ in the letter case correspond to the same social network user. Output Specification: Print a single integer — the maximum length of a repost chain. Demo Input: ['5\ntourist reposted Polycarp\nPetr reposted Tourist\nWJMZBMR reposted Petr\nsdya reposted wjmzbmr\nvepifanov reposted sdya\n', '6\nMike reposted Polycarp\nMax reposted Polycarp\nEveryOne reposted Polycarp\n111 reposted Polycarp\nVkCup reposted Polycarp\nCodeforces reposted Polycarp\n', '1\nSoMeStRaNgEgUe reposted PoLyCaRp\n'] Demo Output: ['6\n', '2\n', '2\n'] Note: none	```python n = int(input()) a={} a['polycarp']=1 for i in range(n): f,m,l = input().lower().split() a[f] = a[l]+1 print(max(a.values())) ```	3
577	A	Multiplication Table	PROGRAMMING	1,000	[ "implementation", "number theory" ]		null	null	Let's consider a table consisting of n rows and n columns. The cell located at the intersection of i-th row and j-th column contains number i<=×<=j. The rows and columns are numbered starting from 1. You are given a positive integer x. Your task is to count the number of cells in a table that contain number x.	The single line contains numbers n and x (1<=≤<=n<=≤<=105, 1<=≤<=x<=≤<=109) — the size of the table and the number that we are looking for in the table.	Print a single number: the number of times x occurs in the table.	[ "10 5\n", "6 12\n", "5 13\n" ]	[ "2\n", "4\n", "0\n" ]	A table for the second sample test is given below. The occurrences of number 12 are marked bold.	500	[ { "input": "10 5", "output": "2" }, { "input": "6 12", "output": "4" }, { "input": "5 13", "output": "0" }, { "input": "1 1", "output": "1" }, { "input": "2 1", "output": "1" }, { "input": "100000 1", "output": "1" }, { "input": "1 10000000...	1,641,192,153	2,147,483,647	PyPy 3-64	OK	TESTS	47	109	0	import math (n, x) = map(int, input().split(' ')) res = 0 for i in range(1, int(math.sqrt(x)) + 1): if x % i == 0 and i <= n and int(x/i) <= n: if i * i == x: res += 1 else: res += 2 print(res)	Title: Multiplication Table Time Limit: None seconds Memory Limit: None megabytes Problem Description: Let's consider a table consisting of n rows and n columns. The cell located at the intersection of i-th row and j-th column contains number i<=×<=j. The rows and columns are numbered starting from 1. You are given a positive integer x. Your task is to count the number of cells in a table that contain number x. Input Specification: The single line contains numbers n and x (1<=≤<=n<=≤<=105, 1<=≤<=x<=≤<=109) — the size of the table and the number that we are looking for in the table. Output Specification: Print a single number: the number of times x occurs in the table. Demo Input: ['10 5\n', '6 12\n', '5 13\n'] Demo Output: ['2\n', '4\n', '0\n'] Note: A table for the second sample test is given below. The occurrences of number 12 are marked bold.	```python import math (n, x) = map(int, input().split(' ')) res = 0 for i in range(1, int(math.sqrt(x)) + 1): if x % i == 0 and i <= n and int(x/i) <= n: if i * i == x: res += 1 else: res += 2 print(res) ```	3
369	A	Valera and Plates	PROGRAMMING	900	[ "greedy", "implementation" ]		null	null	Valera is a lazy student. He has m clean bowls and k clean plates. Valera has made an eating plan for the next n days. As Valera is lazy, he will eat exactly one dish per day. At that, in order to eat a dish, he needs exactly one clean plate or bowl. We know that Valera can cook only two types of dishes. He can eat dishes of the first type from bowls and dishes of the second type from either bowls or plates. When Valera finishes eating, he leaves a dirty plate/bowl behind. His life philosophy doesn't let him eat from dirty kitchenware. So sometimes he needs to wash his plate/bowl before eating. Find the minimum number of times Valera will need to wash a plate/bowl, if he acts optimally.	The first line of the input contains three integers n, m, k (1<=≤<=n,<=m,<=k<=≤<=1000) — the number of the planned days, the number of clean bowls and the number of clean plates. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=2). If ai equals one, then on day i Valera will eat a first type dish. If ai equals two, then on day i Valera will eat a second type dish.	Print a single integer — the minimum number of times Valera will need to wash a plate/bowl.	[ "3 1 1\n1 2 1\n", "4 3 1\n1 1 1 1\n", "3 1 2\n2 2 2\n", "8 2 2\n1 2 1 2 1 2 1 2\n" ]	[ "1\n", "1\n", "0\n", "4\n" ]	In the first sample Valera will wash a bowl only on the third day, so the answer is one. In the second sample, Valera will have the first type of the dish during all four days, and since there are only three bowls, he will wash a bowl exactly once. In the third sample, Valera will have the second type of dish for all three days, and as they can be eaten from either a plate or a bowl, he will never need to wash a plate/bowl.	500	[ { "input": "3 1 1\n1 2 1", "output": "1" }, { "input": "4 3 1\n1 1 1 1", "output": "1" }, { "input": "3 1 2\n2 2 2", "output": "0" }, { "input": "8 2 2\n1 2 1 2 1 2 1 2", "output": "4" }, { "input": "2 100 100\n2 2", "output": "0" }, { "input": "1 1 1\...	1,399,707,956	2,147,483,647	Python 3	COMPILATION_ERROR	TESTS	0	0	0	#include <iostream> #include <string.h> #define _CRT_DISABLE_PERFCRIT_LOCKS #define FOR(i,s,e) for (int i=(s); i<(e); i++) #define MP make_pair #define PB push_back using namespace std; typedef unsigned uint; typedef long long lint; typedef pair <int, int> ii; int main(void) { std::ios_base::sync_with_stdio(false); cin.tie(NULL); int n, m, k; cin >> n >> m >> k; int r = 0; FOR(i, 0, n) { int t; cin >> t; if (t == 1) { if (m > 0) m--; else r++; } else { if (k > 0) k--; else if (m > 0) m--; else r++; } } cout << r; return 0; }	Title: Valera and Plates Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera is a lazy student. He has m clean bowls and k clean plates. Valera has made an eating plan for the next n days. As Valera is lazy, he will eat exactly one dish per day. At that, in order to eat a dish, he needs exactly one clean plate or bowl. We know that Valera can cook only two types of dishes. He can eat dishes of the first type from bowls and dishes of the second type from either bowls or plates. When Valera finishes eating, he leaves a dirty plate/bowl behind. His life philosophy doesn't let him eat from dirty kitchenware. So sometimes he needs to wash his plate/bowl before eating. Find the minimum number of times Valera will need to wash a plate/bowl, if he acts optimally. Input Specification: The first line of the input contains three integers n, m, k (1<=≤<=n,<=m,<=k<=≤<=1000) — the number of the planned days, the number of clean bowls and the number of clean plates. The second line contains n integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=2). If ai equals one, then on day i Valera will eat a first type dish. If ai equals two, then on day i Valera will eat a second type dish. Output Specification: Print a single integer — the minimum number of times Valera will need to wash a plate/bowl. Demo Input: ['3 1 1\n1 2 1\n', '4 3 1\n1 1 1 1\n', '3 1 2\n2 2 2\n', '8 2 2\n1 2 1 2 1 2 1 2\n'] Demo Output: ['1\n', '1\n', '0\n', '4\n'] Note: In the first sample Valera will wash a bowl only on the third day, so the answer is one. In the second sample, Valera will have the first type of the dish during all four days, and since there are only three bowls, he will wash a bowl exactly once. In the third sample, Valera will have the second type of dish for all three days, and as they can be eaten from either a plate or a bowl, he will never need to wash a plate/bowl.	```python #include <iostream> #include <string.h> #define _CRT_DISABLE_PERFCRIT_LOCKS #define FOR(i,s,e) for (int i=(s); i<(e); i++) #define MP make_pair #define PB push_back using namespace std; typedef unsigned uint; typedef long long lint; typedef pair <int, int> ii; int main(void) { std::ios_base::sync_with_stdio(false); cin.tie(NULL); int n, m, k; cin >> n >> m >> k; int r = 0; FOR(i, 0, n) { int t; cin >> t; if (t == 1) { if (m > 0) m--; else r++; } else { if (k > 0) k--; else if (m > 0) m--; else r++; } } cout << r; return 0; } ```	-1
519	B	A and B and Compilation Errors	PROGRAMMING	1,100	[ "data structures", "implementation", "sortings" ]		null	null	A and B are preparing themselves for programming contests. B loves to debug his code. But before he runs the solution and starts debugging, he has to first compile the code. Initially, the compiler displayed n compilation errors, each of them is represented as a positive integer. After some effort, B managed to fix some mistake and then another one mistake. However, despite the fact that B is sure that he corrected the two errors, he can not understand exactly what compilation errors disappeared — the compiler of the language which B uses shows errors in the new order every time! B is sure that unlike many other programming languages, compilation errors for his programming language do not depend on each other, that is, if you correct one error, the set of other error does not change. Can you help B find out exactly what two errors he corrected?	The first line of the input contains integer n (3<=≤<=n<=≤<=105) — the initial number of compilation errors. The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the errors the compiler displayed for the first time. The third line contains n<=-<=1 space-separated integers b1,<=b2,<=...,<=bn<=-<=1 — the errors displayed at the second compilation. It is guaranteed that the sequence in the third line contains all numbers of the second string except for exactly one. The fourth line contains n<=-<=2 space-separated integers с1,<=с2,<=...,<=сn<=-<=2 — the errors displayed at the third compilation. It is guaranteed that the sequence in the fourth line contains all numbers of the third line except for exactly one.	Print two numbers on a single line: the numbers of the compilation errors that disappeared after B made the first and the second correction, respectively.	[ "5\n1 5 8 123 7\n123 7 5 1\n5 1 7\n", "6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5\n" ]	[ "8\n123\n", "1\n3\n" ]	In the first test sample B first corrects the error number 8, then the error number 123. In the second test sample B first corrects the error number 1, then the error number 3. Note that if there are multiple errors with the same number, B can correct only one of them in one step.	1,000	[ { "input": "5\n1 5 8 123 7\n123 7 5 1\n5 1 7", "output": "8\n123" }, { "input": "6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5", "output": "1\n3" }, { "input": "3\n1 2 3\n3 2\n2", "output": "1\n3" }, { "input": "10\n460626451 802090732 277246428 661369649 388684428 784303821 376287098 6...	1,691,578,771	2,147,483,647	PyPy 3-64	OK	TESTS	33	124	21,606,400	ii = lambda: int(input()) miis = lambda: map(int, input().split()) lmiis = lambda: list(miis()) tmiis = lambda: tuple(miis()) smiis = lambda: set(miis()) n = ii() a, b, c = [sum(lmiis()) for _ in range(3)] print(a-b) print(b-c)	Title: A and B and Compilation Errors Time Limit: None seconds Memory Limit: None megabytes Problem Description: A and B are preparing themselves for programming contests. B loves to debug his code. But before he runs the solution and starts debugging, he has to first compile the code. Initially, the compiler displayed n compilation errors, each of them is represented as a positive integer. After some effort, B managed to fix some mistake and then another one mistake. However, despite the fact that B is sure that he corrected the two errors, he can not understand exactly what compilation errors disappeared — the compiler of the language which B uses shows errors in the new order every time! B is sure that unlike many other programming languages, compilation errors for his programming language do not depend on each other, that is, if you correct one error, the set of other error does not change. Can you help B find out exactly what two errors he corrected? Input Specification: The first line of the input contains integer n (3<=≤<=n<=≤<=105) — the initial number of compilation errors. The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the errors the compiler displayed for the first time. The third line contains n<=-<=1 space-separated integers b1,<=b2,<=...,<=bn<=-<=1 — the errors displayed at the second compilation. It is guaranteed that the sequence in the third line contains all numbers of the second string except for exactly one. The fourth line contains n<=-<=2 space-separated integers с1,<=с2,<=...,<=сn<=-<=2 — the errors displayed at the third compilation. It is guaranteed that the sequence in the fourth line contains all numbers of the third line except for exactly one. Output Specification: Print two numbers on a single line: the numbers of the compilation errors that disappeared after B made the first and the second correction, respectively. Demo Input: ['5\n1 5 8 123 7\n123 7 5 1\n5 1 7\n', '6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5\n'] Demo Output: ['8\n123\n', '1\n3\n'] Note: In the first test sample B first corrects the error number 8, then the error number 123. In the second test sample B first corrects the error number 1, then the error number 3. Note that if there are multiple errors with the same number, B can correct only one of them in one step.	```python ii = lambda: int(input()) miis = lambda: map(int, input().split()) lmiis = lambda: list(miis()) tmiis = lambda: tuple(miis()) smiis = lambda: set(miis()) n = ii() a, b, c = [sum(lmiis()) for _ in range(3)] print(a-b) print(b-c) ```	3
295	B	Greg and Graph	PROGRAMMING	1,700	[ "dp", "graphs", "shortest paths" ]		null	null	Greg has a weighed directed graph, consisting of n vertices. In this graph any pair of distinct vertices has an edge between them in both directions. Greg loves playing with the graph and now he has invented a new game: - The game consists of n steps. - On the i-th step Greg removes vertex number xi from the graph. As Greg removes a vertex, he also removes all the edges that go in and out of this vertex. - Before executing each step, Greg wants to know the sum of lengths of the shortest paths between all pairs of the remaining vertices. The shortest path can go through any remaining vertex. In other words, if we assume that d(i,<=v,<=u) is the shortest path between vertices v and u in the graph that formed before deleting vertex xi, then Greg wants to know the value of the following sum: . Help Greg, print the value of the required sum before each step.	The first line contains integer n (1<=≤<=n<=≤<=500) — the number of vertices in the graph. Next n lines contain n integers each — the graph adjacency matrix: the j-th number in the i-th line aij (1<=≤<=aij<=≤<=105,<=aii<==<=0) represents the weight of the edge that goes from vertex i to vertex j. The next line contains n distinct integers: x1,<=x2,<=...,<=xn (1<=≤<=xi<=≤<=n) — the vertices that Greg deletes.	Print n integers — the i-th number equals the required sum before the i-th step. Please, do not use the %lld specifier to read or write 64-bit integers in C++. It is preferred to use the cin, cout streams of the %I64d specifier.	[ "1\n0\n1\n", "2\n0 5\n4 0\n1 2\n", "4\n0 3 1 1\n6 0 400 1\n2 4 0 1\n1 1 1 0\n4 1 2 3\n" ]	[ "0 ", "9 0 ", "17 23 404 0 " ]	none	1,000	[ { "input": "1\n0\n1", "output": "0 " }, { "input": "2\n0 5\n4 0\n1 2", "output": "9 0 " }, { "input": "4\n0 3 1 1\n6 0 400 1\n2 4 0 1\n1 1 1 0\n4 1 2 3", "output": "17 23 404 0 " }, { "input": "4\n0 57148 51001 13357\n71125 0 98369 67226\n49388 90852 0 66291\n39573 38165 9700...	1,575,293,015	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	0	404	2,457,600	def warshall(w, n): m = [x[:] for x in w] for k in range(n): for i in range(n): for j in range(n): m[i][j] = min(m[i][j], m[i][k]+m[k][j]) return m n = int(input()) matriz = [] for _ in range(n): linha = [int(x) for x in input().split()] matriz.append(linha) remove = [int(x) for x in input().split()] ans = [] for num in remove: w = warshall(matriz, n) sum_ = 0 for l in w: sum_ += sum(l) ans.append(str(sum_)) n_matriz = [] for i in range(n): if i != num-1: t = [matriz[i][j] for j in range(n) if j != num-1] n_matriz.append(t) matriz = [x[:] for x in n_matriz] n = len(matriz[0]) print(" ".join(ans))	Title: Greg and Graph Time Limit: None seconds Memory Limit: None megabytes Problem Description: Greg has a weighed directed graph, consisting of n vertices. In this graph any pair of distinct vertices has an edge between them in both directions. Greg loves playing with the graph and now he has invented a new game: - The game consists of n steps. - On the i-th step Greg removes vertex number xi from the graph. As Greg removes a vertex, he also removes all the edges that go in and out of this vertex. - Before executing each step, Greg wants to know the sum of lengths of the shortest paths between all pairs of the remaining vertices. The shortest path can go through any remaining vertex. In other words, if we assume that d(i,<=v,<=u) is the shortest path between vertices v and u in the graph that formed before deleting vertex xi, then Greg wants to know the value of the following sum: . Help Greg, print the value of the required sum before each step. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=500) — the number of vertices in the graph. Next n lines contain n integers each — the graph adjacency matrix: the j-th number in the i-th line aij (1<=≤<=aij<=≤<=105,<=aii<==<=0) represents the weight of the edge that goes from vertex i to vertex j. The next line contains n distinct integers: x1,<=x2,<=...,<=xn (1<=≤<=xi<=≤<=n) — the vertices that Greg deletes. Output Specification: Print n integers — the i-th number equals the required sum before the i-th step. Please, do not use the %lld specifier to read or write 64-bit integers in C++. It is preferred to use the cin, cout streams of the %I64d specifier. Demo Input: ['1\n0\n1\n', '2\n0 5\n4 0\n1 2\n', '4\n0 3 1 1\n6 0 400 1\n2 4 0 1\n1 1 1 0\n4 1 2 3\n'] Demo Output: ['0 ', '9 0 ', '17 23 404 0 '] Note: none	```python def warshall(w, n): m = [x[:] for x in w] for k in range(n): for i in range(n): for j in range(n): m[i][j] = min(m[i][j], m[i][k]+m[k][j]) return m n = int(input()) matriz = [] for _ in range(n): linha = [int(x) for x in input().split()] matriz.append(linha) remove = [int(x) for x in input().split()] ans = [] for num in remove: w = warshall(matriz, n) sum_ = 0 for l in w: sum_ += sum(l) ans.append(str(sum_)) n_matriz = [] for i in range(n): if i != num-1: t = [matriz[i][j] for j in range(n) if j != num-1] n_matriz.append(t) matriz = [x[:] for x in n_matriz] n = len(matriz[0]) print(" ".join(ans)) ```	-1
706	B	Interesting drink	PROGRAMMING	1,100	[ "binary search", "dp", "implementation" ]		null	null	Vasiliy likes to rest after a hard work, so you may often meet him in some bar nearby. As all programmers do, he loves the famous drink "Beecola", which can be bought in n different shops in the city. It's known that the price of one bottle in the shop i is equal to xi coins. Vasiliy plans to buy his favorite drink for q consecutive days. He knows, that on the i-th day he will be able to spent mi coins. Now, for each of the days he want to know in how many different shops he can buy a bottle of "Beecola".	The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — the number of shops in the city that sell Vasiliy's favourite drink. The second line contains n integers xi (1<=≤<=xi<=≤<=100<=000) — prices of the bottles of the drink in the i-th shop. The third line contains a single integer q (1<=≤<=q<=≤<=100<=000) — the number of days Vasiliy plans to buy the drink. Then follow q lines each containing one integer mi (1<=≤<=mi<=≤<=109) — the number of coins Vasiliy can spent on the i-th day.	Print q integers. The i-th of them should be equal to the number of shops where Vasiliy will be able to buy a bottle of the drink on the i-th day.	[ "5\n3 10 8 6 11\n4\n1\n10\n3\n11\n" ]	[ "0\n4\n1\n5\n" ]	On the first day, Vasiliy won't be able to buy a drink in any of the shops. On the second day, Vasiliy can buy a drink in the shops 1, 2, 3 and 4. On the third day, Vasiliy can buy a drink only in the shop number 1. Finally, on the last day Vasiliy can buy a drink in any shop.	1,000	[ { "input": "5\n3 10 8 6 11\n4\n1\n10\n3\n11", "output": "0\n4\n1\n5" }, { "input": "5\n868 987 714 168 123\n10\n424\n192\n795\n873\n117\n914\n735\n158\n631\n471", "output": "2\n2\n3\n4\n0\n4\n3\n1\n2\n2" }, { "input": "3\n435 482 309\n7\n245\n241\n909\n745\n980\n29\n521", "output": "...	1,698,641,018	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	30	0	n = int(input()) arr = list(map(int,input().split())) q = int(input()) arr.sort() def binary_search(array, low, high, target): while low <= high: mid = (low + high) // 2 if array[mid] == target: return mid+1 elif array[mid] < target: low = mid + 1 else: high = mid - 1 return 0 for i in range(q): m = int(input()) left = 0 right = len(arr)-1 re = binary_search(arr, left, right, m) if re == 0 :print(0) else: print(re)	Title: Interesting drink Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vasiliy likes to rest after a hard work, so you may often meet him in some bar nearby. As all programmers do, he loves the famous drink "Beecola", which can be bought in n different shops in the city. It's known that the price of one bottle in the shop i is equal to xi coins. Vasiliy plans to buy his favorite drink for q consecutive days. He knows, that on the i-th day he will be able to spent mi coins. Now, for each of the days he want to know in how many different shops he can buy a bottle of "Beecola". Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=100<=000) — the number of shops in the city that sell Vasiliy's favourite drink. The second line contains n integers xi (1<=≤<=xi<=≤<=100<=000) — prices of the bottles of the drink in the i-th shop. The third line contains a single integer q (1<=≤<=q<=≤<=100<=000) — the number of days Vasiliy plans to buy the drink. Then follow q lines each containing one integer mi (1<=≤<=mi<=≤<=109) — the number of coins Vasiliy can spent on the i-th day. Output Specification: Print q integers. The i-th of them should be equal to the number of shops where Vasiliy will be able to buy a bottle of the drink on the i-th day. Demo Input: ['5\n3 10 8 6 11\n4\n1\n10\n3\n11\n'] Demo Output: ['0\n4\n1\n5\n'] Note: On the first day, Vasiliy won't be able to buy a drink in any of the shops. On the second day, Vasiliy can buy a drink in the shops 1, 2, 3 and 4. On the third day, Vasiliy can buy a drink only in the shop number 1. Finally, on the last day Vasiliy can buy a drink in any shop.	```python n = int(input()) arr = list(map(int,input().split())) q = int(input()) arr.sort() def binary_search(array, low, high, target): while low <= high: mid = (low + high) // 2 if array[mid] == target: return mid+1 elif array[mid] < target: low = mid + 1 else: high = mid - 1 return 0 for i in range(q): m = int(input()) left = 0 right = len(arr)-1 re = binary_search(arr, left, right, m) if re == 0 :print(0) else: print(re) ```	0
707	A	Brain's Photos	PROGRAMMING	800	[ "implementation" ]		null	null	Small, but very brave, mouse Brain was not accepted to summer school of young villains. He was upset and decided to postpone his plans of taking over the world, but to become a photographer instead. As you may know, the coolest photos are on the film (because you can specify the hashtag #film for such). Brain took a lot of colourful pictures on colored and black-and-white film. Then he developed and translated it into a digital form. But now, color and black-and-white photos are in one folder, and to sort them, one needs to spend more than one hour! As soon as Brain is a photographer not programmer now, he asks you to help him determine for a single photo whether it is colored or black-and-white. Photo can be represented as a matrix sized n<=×<=m, and each element of the matrix stores a symbol indicating corresponding pixel color. There are only 6 colors: - 'C' (cyan)- 'M' (magenta)- 'Y' (yellow)- 'W' (white)- 'G' (grey)- 'B' (black) The photo is considered black-and-white if it has only white, black and grey pixels in it. If there are any of cyan, magenta or yellow pixels in the photo then it is considered colored.	The first line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=100) — the number of photo pixel matrix rows and columns respectively. Then n lines describing matrix rows follow. Each of them contains m space-separated characters describing colors of pixels in a row. Each character in the line is one of the 'C', 'M', 'Y', 'W', 'G' or 'B'.	Print the "#Black&White" (without quotes), if the photo is black-and-white and "#Color" (without quotes), if it is colored, in the only line.	[ "2 2\nC M\nY Y\n", "3 2\nW W\nW W\nB B\n", "1 1\nW\n" ]	[ "#Color", "#Black&White", "#Black&White" ]	none	500	[ { "input": "2 2\nC M\nY Y", "output": "#Color" }, { "input": "3 2\nW W\nW W\nB B", "output": "#Black&White" }, { "input": "1 1\nW", "output": "#Black&White" }, { "input": "2 3\nW W W\nB G Y", "output": "#Color" }, { "input": "1 1\nW", "output": "#Black&White" ...	1,656,911,079	2,147,483,647	Python 3	OK	TESTS	50	61	0	n, m = map(int, input().split()) f = [list(map(str, input().split())) for i in range(n)] color = False for i in range(n): for j in range(m): if f[i][j] == 'C' or f[i][j] == 'M' or f[i][j] == 'Y': color = True if color == True: print('#Color') else: print('#Black&White')	Title: Brain's Photos Time Limit: None seconds Memory Limit: None megabytes Problem Description: Small, but very brave, mouse Brain was not accepted to summer school of young villains. He was upset and decided to postpone his plans of taking over the world, but to become a photographer instead. As you may know, the coolest photos are on the film (because you can specify the hashtag #film for such). Brain took a lot of colourful pictures on colored and black-and-white film. Then he developed and translated it into a digital form. But now, color and black-and-white photos are in one folder, and to sort them, one needs to spend more than one hour! As soon as Brain is a photographer not programmer now, he asks you to help him determine for a single photo whether it is colored or black-and-white. Photo can be represented as a matrix sized n<=×<=m, and each element of the matrix stores a symbol indicating corresponding pixel color. There are only 6 colors: - 'C' (cyan)- 'M' (magenta)- 'Y' (yellow)- 'W' (white)- 'G' (grey)- 'B' (black) The photo is considered black-and-white if it has only white, black and grey pixels in it. If there are any of cyan, magenta or yellow pixels in the photo then it is considered colored. Input Specification: The first line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=100) — the number of photo pixel matrix rows and columns respectively. Then n lines describing matrix rows follow. Each of them contains m space-separated characters describing colors of pixels in a row. Each character in the line is one of the 'C', 'M', 'Y', 'W', 'G' or 'B'. Output Specification: Print the "#Black&White" (without quotes), if the photo is black-and-white and "#Color" (without quotes), if it is colored, in the only line. Demo Input: ['2 2\nC M\nY Y\n', '3 2\nW W\nW W\nB B\n', '1 1\nW\n'] Demo Output: ['#Color', '#Black&White', '#Black&White'] Note: none	```python n, m = map(int, input().split()) f = [list(map(str, input().split())) for i in range(n)] color = False for i in range(n): for j in range(m): if f[i][j] == 'C' or f[i][j] == 'M' or f[i][j] == 'Y': color = True if color == True: print('#Color') else: print('#Black&White') ```	3
339	A	Helpful Maths	PROGRAMMING	800	[ "greedy", "implementation", "sortings", "strings" ]		null	null	Xenia the beginner mathematician is a third year student at elementary school. She is now learning the addition operation. The teacher has written down the sum of multiple numbers. Pupils should calculate the sum. To make the calculation easier, the sum only contains numbers 1, 2 and 3. Still, that isn't enough for Xenia. She is only beginning to count, so she can calculate a sum only if the summands follow in non-decreasing order. For example, she can't calculate sum 1+3+2+1 but she can calculate sums 1+1+2 and 3+3. You've got the sum that was written on the board. Rearrange the summans and print the sum in such a way that Xenia can calculate the sum.	The first line contains a non-empty string s — the sum Xenia needs to count. String s contains no spaces. It only contains digits and characters "+". Besides, string s is a correct sum of numbers 1, 2 and 3. String s is at most 100 characters long.	Print the new sum that Xenia can count.	[ "3+2+1\n", "1+1+3+1+3\n", "2\n" ]	[ "1+2+3\n", "1+1+1+3+3\n", "2\n" ]	none	500	[ { "input": "3+2+1", "output": "1+2+3" }, { "input": "1+1+3+1+3", "output": "1+1+1+3+3" }, { "input": "2", "output": "2" }, { "input": "2+2+1+1+3", "output": "1+1+2+2+3" }, { "input": "2+1+2+2+2+3+1+3+1+2", "output": "1+1+1+2+2+2+2+2+3+3" }, { "input": ...	1,698,144,726	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	12	124	0	l = list(map(int,input().split('+'))) if sorted(l) == l: print(sum(l)) else: s = '' for i in sorted(l): s += str(i)+'+' print(s[:len(s)-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 l = list(map(int,input().split('+'))) if sorted(l) == l: print(sum(l)) else: s = '' for i in sorted(l): s += str(i)+'+' print(s[:len(s)-1]) ```	0
104	A	Blackjack	PROGRAMMING	800	[ "implementation" ]	A. Blackjack	2	256	One rainy gloomy evening when all modules hid in the nearby cafes to drink hot energetic cocktails, the Hexadecimal virus decided to fly over the Mainframe to look for a Great Idea. And she has found one! Why not make her own Codeforces, with blackjack and other really cool stuff? Many people will surely be willing to visit this splendid shrine of high culture. In Mainframe a standard pack of 52 cards is used to play blackjack. The pack contains cards of 13 values: 2, 3, 4, 5, 6, 7, 8, 9, 10, jacks, queens, kings and aces. Each value also exists in one of four suits: hearts, diamonds, clubs and spades. Also, each card earns some value in points assigned to it: cards with value from two to ten earn from 2 to 10 points, correspondingly. An ace can either earn 1 or 11, whatever the player wishes. The picture cards (king, queen and jack) earn 10 points. The number of points a card earns does not depend on the suit. The rules of the game are very simple. The player gets two cards, if the sum of points of those cards equals n, then the player wins, otherwise the player loses. The player has already got the first card, it's the queen of spades. To evaluate chances for victory, you should determine how many ways there are to get the second card so that the sum of points exactly equals n.	The only line contains n (1<=≤<=n<=≤<=25) — the required sum of points.	Print the numbers of ways to get the second card in the required way if the first card is the queen of spades.	[ "12\n", "20\n", "10\n" ]	[ "4", "15", "0" ]	In the first sample only four two's of different suits can earn the required sum of points. In the second sample we can use all tens, jacks, queens and kings; overall it's 15 cards, as the queen of spades (as any other card) is only present once in the pack of cards and it's already in use. In the third sample there is no card, that would add a zero to the current ten points.	500	[ { "input": "12", "output": "4" }, { "input": "20", "output": "15" }, { "input": "10", "output": "0" }, { "input": "11", "output": "4" }, { "input": "15", "output": "4" }, { "input": "18", "output": "4" }, { "input": "25", "output": "0" ...	1,662,028,603	2,147,483,647	Python 3	OK	TESTS	25	92	0	n=int(input()) if n==20: print("15") elif n<=10 or n>21: print("0") else: print("4")	Title: Blackjack Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One rainy gloomy evening when all modules hid in the nearby cafes to drink hot energetic cocktails, the Hexadecimal virus decided to fly over the Mainframe to look for a Great Idea. And she has found one! Why not make her own Codeforces, with blackjack and other really cool stuff? Many people will surely be willing to visit this splendid shrine of high culture. In Mainframe a standard pack of 52 cards is used to play blackjack. The pack contains cards of 13 values: 2, 3, 4, 5, 6, 7, 8, 9, 10, jacks, queens, kings and aces. Each value also exists in one of four suits: hearts, diamonds, clubs and spades. Also, each card earns some value in points assigned to it: cards with value from two to ten earn from 2 to 10 points, correspondingly. An ace can either earn 1 or 11, whatever the player wishes. The picture cards (king, queen and jack) earn 10 points. The number of points a card earns does not depend on the suit. The rules of the game are very simple. The player gets two cards, if the sum of points of those cards equals n, then the player wins, otherwise the player loses. The player has already got the first card, it's the queen of spades. To evaluate chances for victory, you should determine how many ways there are to get the second card so that the sum of points exactly equals n. Input Specification: The only line contains n (1<=≤<=n<=≤<=25) — the required sum of points. Output Specification: Print the numbers of ways to get the second card in the required way if the first card is the queen of spades. Demo Input: ['12\n', '20\n', '10\n'] Demo Output: ['4', '15', '0'] Note: In the first sample only four two's of different suits can earn the required sum of points. In the second sample we can use all tens, jacks, queens and kings; overall it's 15 cards, as the queen of spades (as any other card) is only present once in the pack of cards and it's already in use. In the third sample there is no card, that would add a zero to the current ten points.	```python n=int(input()) if n==20: print("15") elif n<=10 or n>21: print("0") else: print("4") ```	3.977
59	A	Word	PROGRAMMING	800	[ "implementation", "strings" ]	A. Word	2	256	Vasya is very upset that many people on the Net mix uppercase and lowercase letters in one word. That's why he decided to invent an extension for his favorite browser that would change the letters' register in every word so that it either only consisted of lowercase letters or, vice versa, only of uppercase ones. At that as little as possible letters should be changed in the word. For example, the word HoUse must be replaced with house, and the word ViP — with VIP. If a word contains an equal number of uppercase and lowercase letters, you should replace all the letters with lowercase ones. For example, maTRIx should be replaced by matrix. Your task is to use the given method on one given word.	The first line contains a word s — it consists of uppercase and lowercase Latin letters and possesses the length from 1 to 100.	Print the corrected word s. If the given word s has strictly more uppercase letters, make the word written in the uppercase register, otherwise - in the lowercase one.	[ "HoUse\n", "ViP\n", "maTRIx\n" ]	[ "house\n", "VIP\n", "matrix\n" ]	none	500	[ { "input": "HoUse", "output": "house" }, { "input": "ViP", "output": "VIP" }, { "input": "maTRIx", "output": "matrix" }, { "input": "BNHWpnpawg", "output": "bnhwpnpawg" }, { "input": "VTYGP", "output": "VTYGP" }, { "input": "CHNenu", "output": "chn...	1,689,397,809	2,147,483,647	PyPy 3-64	OK	TESTS	30	122	0	m=0 n=0 a=str(input()) for i in range(len(a)): if a[i].isupper(): m+=1 else: n+=1 if m>n: print(a.upper()) else: print(a.lower())	Title: Word Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Vasya is very upset that many people on the Net mix uppercase and lowercase letters in one word. That's why he decided to invent an extension for his favorite browser that would change the letters' register in every word so that it either only consisted of lowercase letters or, vice versa, only of uppercase ones. At that as little as possible letters should be changed in the word. For example, the word HoUse must be replaced with house, and the word ViP — with VIP. If a word contains an equal number of uppercase and lowercase letters, you should replace all the letters with lowercase ones. For example, maTRIx should be replaced by matrix. Your task is to use the given method on one given word. Input Specification: The first line contains a word s — it consists of uppercase and lowercase Latin letters and possesses the length from 1 to 100. Output Specification: Print the corrected word s. If the given word s has strictly more uppercase letters, make the word written in the uppercase register, otherwise - in the lowercase one. Demo Input: ['HoUse\n', 'ViP\n', 'maTRIx\n'] Demo Output: ['house\n', 'VIP\n', 'matrix\n'] Note: none	```python m=0 n=0 a=str(input()) for i in range(len(a)): if a[i].isupper(): m+=1 else: n+=1 if m>n: print(a.upper()) else: print(a.lower()) ```	3.9695
983	A	Finite or not?	PROGRAMMING	1,700	[ "implementation", "math" ]		null	null	You are given several queries. Each query consists of three integers $p$, $q$ and $b$. You need to answer whether the result of $p/q$ in notation with base $b$ is a finite fraction. A fraction in notation with base $b$ is finite if it contains finite number of numerals after the decimal point. It is also possible that a fraction has zero numerals after the decimal point.	The first line contains a single integer $n$ ($1 \le n \le 10^5$) — the number of queries. Next $n$ lines contain queries, one per line. Each line contains three integers $p$, $q$, and $b$ ($0 \le p \le 10^{18}$, $1 \le q \le 10^{18}$, $2 \le b \le 10^{18}$). All numbers are given in notation with base $10$.	For each question, in a separate line, print Finite if the fraction is finite and Infinite otherwise.	[ "2\n6 12 10\n4 3 10\n", "4\n1 1 2\n9 36 2\n4 12 3\n3 5 4\n" ]	[ "Finite\nInfinite\n", "Finite\nFinite\nFinite\nInfinite\n" ]	$\frac{6}{12} = \frac{1}{2} = 0,5_{10}$ $\frac{4}{3} = 1,(3)_{10}$ $\frac{9}{36} = \frac{1}{4} = 0,01_2$ $\frac{4}{12} = \frac{1}{3} = 0,1_3$	500	[ { "input": "2\n6 12 10\n4 3 10", "output": "Finite\nInfinite" }, { "input": "4\n1 1 2\n9 36 2\n4 12 3\n3 5 4", "output": "Finite\nFinite\nFinite\nInfinite" }, { "input": "10\n10 5 3\n1 7 10\n7 5 7\n4 4 9\n6 5 2\n6 7 5\n9 9 7\n7 5 5\n6 6 4\n10 8 2", "output": "Finite\nInfinite\nInfini...	1,680,156,232	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	6	93	2,048,000	import math answ=[] zz=int(input()) for gg in range(zz): dictionar={} n,k,b=list(map(int,input().split())) # n=386453057386453057 #k=561807414386453057 # b=424689913386453057 posibil="Infinite" primul=math.gcd(n,k) # n//=1st k//=primul if b%k==0 or k%b==0: answ.append("Finite") else: answ.append("Infinite") print(*answ,sep="\n")	Title: Finite or not? Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given several queries. Each query consists of three integers $p$, $q$ and $b$. You need to answer whether the result of $p/q$ in notation with base $b$ is a finite fraction. A fraction in notation with base $b$ is finite if it contains finite number of numerals after the decimal point. It is also possible that a fraction has zero numerals after the decimal point. Input Specification: The first line contains a single integer $n$ ($1 \le n \le 10^5$) — the number of queries. Next $n$ lines contain queries, one per line. Each line contains three integers $p$, $q$, and $b$ ($0 \le p \le 10^{18}$, $1 \le q \le 10^{18}$, $2 \le b \le 10^{18}$). All numbers are given in notation with base $10$. Output Specification: For each question, in a separate line, print Finite if the fraction is finite and Infinite otherwise. Demo Input: ['2\n6 12 10\n4 3 10\n', '4\n1 1 2\n9 36 2\n4 12 3\n3 5 4\n'] Demo Output: ['Finite\nInfinite\n', 'Finite\nFinite\nFinite\nInfinite\n'] Note: $\frac{6}{12} = \frac{1}{2} = 0,5_{10}$ $\frac{4}{3} = 1,(3)_{10}$ $\frac{9}{36} = \frac{1}{4} = 0,01_2$ $\frac{4}{12} = \frac{1}{3} = 0,1_3$	```python import math answ=[] zz=int(input()) for gg in range(zz): dictionar={} n,k,b=list(map(int,input().split())) # n=386453057386453057 #k=561807414386453057 # b=424689913386453057 posibil="Infinite" primul=math.gcd(n,k) # n//=1st k//=primul if b%k==0 or k%b==0: answ.append("Finite") else: answ.append("Infinite") print(*answ,sep="\n") ```	0
588	A	Duff and Meat	PROGRAMMING	900	[ "greedy" ]		null	null	Duff is addicted to meat! Malek wants to keep her happy for n days. In order to be happy in i-th day, she needs to eat exactly ai kilograms of meat. There is a big shop uptown and Malek wants to buy meat for her from there. In i-th day, they sell meat for pi dollars per kilogram. Malek knows all numbers a1,<=...,<=an and p1,<=...,<=pn. In each day, he can buy arbitrary amount of meat, also he can keep some meat he has for the future. Malek is a little tired from cooking meat, so he asked for your help. Help him to minimize the total money he spends to keep Duff happy for n days.	The first line of input contains integer n (1<=≤<=n<=≤<=105), the number of days. In the next n lines, i-th line contains two integers ai and pi (1<=≤<=ai,<=pi<=≤<=100), the amount of meat Duff needs and the cost of meat in that day.	Print the minimum money needed to keep Duff happy for n days, in one line.	[ "3\n1 3\n2 2\n3 1\n", "3\n1 3\n2 1\n3 2\n" ]	[ "10\n", "8\n" ]	In the first sample case: An optimal way would be to buy 1 kg on the first day, 2 kg on the second day and 3 kg on the third day. In the second sample case: An optimal way would be to buy 1 kg on the first day and 5 kg (needed meat for the second and third day) on the second day.	750	[ { "input": "3\n1 3\n2 2\n3 1", "output": "10" }, { "input": "3\n1 3\n2 1\n3 2", "output": "8" }, { "input": "1\n39 52", "output": "2028" }, { "input": "2\n25 56\n94 17", "output": "2998" }, { "input": "5\n39 21\n95 89\n73 90\n9 55\n85 32", "output": "6321" }...	1,620,729,672	2,147,483,647	Python 3	OK	TESTS	30	296	6,758,400	m,ans=100,0 for i in range(int(input())): a,b=map(int,input().split()) m=min(m,b) ans+=m*a print(ans)	Title: Duff and Meat Time Limit: None seconds Memory Limit: None megabytes Problem Description: Duff is addicted to meat! Malek wants to keep her happy for n days. In order to be happy in i-th day, she needs to eat exactly ai kilograms of meat. There is a big shop uptown and Malek wants to buy meat for her from there. In i-th day, they sell meat for pi dollars per kilogram. Malek knows all numbers a1,<=...,<=an and p1,<=...,<=pn. In each day, he can buy arbitrary amount of meat, also he can keep some meat he has for the future. Malek is a little tired from cooking meat, so he asked for your help. Help him to minimize the total money he spends to keep Duff happy for n days. Input Specification: The first line of input contains integer n (1<=≤<=n<=≤<=105), the number of days. In the next n lines, i-th line contains two integers ai and pi (1<=≤<=ai,<=pi<=≤<=100), the amount of meat Duff needs and the cost of meat in that day. Output Specification: Print the minimum money needed to keep Duff happy for n days, in one line. Demo Input: ['3\n1 3\n2 2\n3 1\n', '3\n1 3\n2 1\n3 2\n'] Demo Output: ['10\n', '8\n'] Note: In the first sample case: An optimal way would be to buy 1 kg on the first day, 2 kg on the second day and 3 kg on the third day. In the second sample case: An optimal way would be to buy 1 kg on the first day and 5 kg (needed meat for the second and third day) on the second day.	```python m,ans=100,0 for i in range(int(input())): a,b=map(int,input().split()) m=min(m,b) ans+=m*a print(ans) ```	3
468	B	Two Sets	PROGRAMMING	2,000	[ "2-sat", "dfs and similar", "dsu", "graph matchings", "greedy" ]		null	null	Little X has n distinct integers: p1,<=p2,<=...,<=pn. He wants to divide all of them into two sets A and B. The following two conditions must be satisfied: - If number x belongs to set A, then number a<=-<=x must also belong to set A. - If number x belongs to set B, then number b<=-<=x must also belong to set B. Help Little X divide the numbers into two sets or determine that it's impossible.	The first line contains three space-separated integers n,<=a,<=b (1<=≤<=n<=≤<=105; 1<=≤<=a,<=b<=≤<=109). The next line contains n space-separated distinct integers p1,<=p2,<=...,<=pn (1<=≤<=pi<=≤<=109).	If there is a way to divide the numbers into two sets, then print "YES" in the first line. Then print n integers: b1,<=b2,<=...,<=bn (bi equals either 0, or 1), describing the division. If bi equals to 0, then pi belongs to set A, otherwise it belongs to set B. If it's impossible, print "NO" (without the quotes).	[ "4 5 9\n2 3 4 5\n", "3 3 4\n1 2 4\n" ]	[ "YES\n0 0 1 1\n", "NO\n" ]	It's OK if all the numbers are in the same set, and the other one is empty.	1,000	[ { "input": "4 5 9\n2 3 4 5", "output": "YES\n0 0 1 1" }, { "input": "3 3 4\n1 2 4", "output": "NO" }, { "input": "100 8883 915\n1599 4666 663 3646 754 2113 2200 3884 4082 1640 3795 2564 2711 2766 1122 4525 1779 2678 2816 2182 1028 2337 4918 1273 4141 217 2682 1756 309 4744 915 1351 3302 ...	1,676,087,732	2,147,483,647	PyPy 3-64	RUNTIME_ERROR	TESTS	0	62	2,867,200	def findSet(parents, u): if u != parents[u]: parents[u] = findSet(parents, parents[u]) return parents[u] def unionSet(parents, u, v): up = findSet(parents, u) vp = findSet(parents, v) if up == vp: return parents[vp] = up n, a, b = map(int, input().strip().split()) p = list(map(int, input().strip().split())) indices = {} for i in range(n): indices[p[i]] = i parents = [i for i in range(n + 10)] for i in range(n): amx = indices.get(a - p[i], -1) if amx != -1: unionSet(parents, i, amx) else: unionSet(parents, n + 2, i) bmx = indices.get(b - p[i], -1) if bmx != -1: unionSet(parents, i, bmx) else: unionSet(parents, n + 1, i) A = findSet(n + 1) B = findSet(n + 2) if A == B: print("NO") else: print("YES") for i in range(n): if findSet(parents, i) == A: print("0", end=" ") else: print("1", end=" ")	Title: Two Sets Time Limit: None seconds Memory Limit: None megabytes Problem Description: Little X has n distinct integers: p1,<=p2,<=...,<=pn. He wants to divide all of them into two sets A and B. The following two conditions must be satisfied: - If number x belongs to set A, then number a<=-<=x must also belong to set A. - If number x belongs to set B, then number b<=-<=x must also belong to set B. Help Little X divide the numbers into two sets or determine that it's impossible. Input Specification: The first line contains three space-separated integers n,<=a,<=b (1<=≤<=n<=≤<=105; 1<=≤<=a,<=b<=≤<=109). The next line contains n space-separated distinct integers p1,<=p2,<=...,<=pn (1<=≤<=pi<=≤<=109). Output Specification: If there is a way to divide the numbers into two sets, then print "YES" in the first line. Then print n integers: b1,<=b2,<=...,<=bn (bi equals either 0, or 1), describing the division. If bi equals to 0, then pi belongs to set A, otherwise it belongs to set B. If it's impossible, print "NO" (without the quotes). Demo Input: ['4 5 9\n2 3 4 5\n', '3 3 4\n1 2 4\n'] Demo Output: ['YES\n0 0 1 1\n', 'NO\n'] Note: It's OK if all the numbers are in the same set, and the other one is empty.	```python def findSet(parents, u): if u != parents[u]: parents[u] = findSet(parents, parents[u]) return parents[u] def unionSet(parents, u, v): up = findSet(parents, u) vp = findSet(parents, v) if up == vp: return parents[vp] = up n, a, b = map(int, input().strip().split()) p = list(map(int, input().strip().split())) indices = {} for i in range(n): indices[p[i]] = i parents = [i for i in range(n + 10)] for i in range(n): amx = indices.get(a - p[i], -1) if amx != -1: unionSet(parents, i, amx) else: unionSet(parents, n + 2, i) bmx = indices.get(b - p[i], -1) if bmx != -1: unionSet(parents, i, bmx) else: unionSet(parents, n + 1, i) A = findSet(n + 1) B = findSet(n + 2) if A == B: print("NO") else: print("YES") for i in range(n): if findSet(parents, i) == A: print("0", end=" ") else: print("1", end=" ") ```	-1
754	A	Lesha and array splitting	PROGRAMMING	1,200	[ "constructive algorithms", "greedy", "implementation" ]		null	null	One spring day on his way to university Lesha found an array A. Lesha likes to split arrays into several parts. This time Lesha decided to split the array A into several, possibly one, new arrays so that the sum of elements in each of the new arrays is not zero. One more condition is that if we place the new arrays one after another they will form the old array A. Lesha is tired now so he asked you to split the array. Help Lesha!	The first line contains single integer n (1<=≤<=n<=≤<=100) — the number of elements in the array A. The next line contains n integers a1,<=a2,<=...,<=an (<=-<=103<=≤<=ai<=≤<=103) — the elements of the array A.	If it is not possible to split the array A and satisfy all the constraints, print single line containing "NO" (without quotes). Otherwise in the first line print "YES" (without quotes). In the next line print single integer k — the number of new arrays. In each of the next k lines print two integers li and ri which denote the subarray A[li... ri] of the initial array A being the i-th new array. Integers li, ri should satisfy the following conditions: - l1<==<=1 - rk<==<=n - ri<=+<=1<==<=li<=+<=1 for each 1<=≤<=i<=<<=k. If there are multiple answers, print any of them.	[ "3\n1 2 -3\n", "8\n9 -12 3 4 -4 -10 7 3\n", "1\n0\n", "4\n1 2 3 -5\n" ]	[ "YES\n2\n1 2\n3 3\n", "YES\n2\n1 2\n3 8\n", "NO\n", "YES\n4\n1 1\n2 2\n3 3\n4 4\n" ]	none	500	[ { "input": "3\n1 2 -3", "output": "YES\n3\n1 1\n2 2\n3 3" }, { "input": "8\n9 -12 3 4 -4 -10 7 3", "output": "YES\n8\n1 1\n2 2\n3 3\n4 4\n5 5\n6 6\n7 7\n8 8" }, { "input": "1\n0", "output": "NO" }, { "input": "4\n1 2 3 -5", "output": "YES\n4\n1 1\n2 2\n3 3\n4 4" }, { ...	1,640,745,873	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	46	0	M=int(input()) N=list(map(int,input().split())) sum=0 O=0 for i in range(M): sum=N[i]+sum if(N[i]!=0): O=O+1 if(sum!=0 or M==1): print("NO") elif(O==0): print("NO") else: print("YES") print(M) for i in range(1,M+1): print(i,i)	Title: Lesha and array splitting Time Limit: None seconds Memory Limit: None megabytes Problem Description: One spring day on his way to university Lesha found an array A. Lesha likes to split arrays into several parts. This time Lesha decided to split the array A into several, possibly one, new arrays so that the sum of elements in each of the new arrays is not zero. One more condition is that if we place the new arrays one after another they will form the old array A. Lesha is tired now so he asked you to split the array. Help Lesha! Input Specification: The first line contains single integer n (1<=≤<=n<=≤<=100) — the number of elements in the array A. The next line contains n integers a1,<=a2,<=...,<=an (<=-<=103<=≤<=ai<=≤<=103) — the elements of the array A. Output Specification: If it is not possible to split the array A and satisfy all the constraints, print single line containing "NO" (without quotes). Otherwise in the first line print "YES" (without quotes). In the next line print single integer k — the number of new arrays. In each of the next k lines print two integers li and ri which denote the subarray A[li... ri] of the initial array A being the i-th new array. Integers li, ri should satisfy the following conditions: - l1<==<=1 - rk<==<=n - ri<=+<=1<==<=li<=+<=1 for each 1<=≤<=i<=<<=k. If there are multiple answers, print any of them. Demo Input: ['3\n1 2 -3\n', '8\n9 -12 3 4 -4 -10 7 3\n', '1\n0\n', '4\n1 2 3 -5\n'] Demo Output: ['YES\n2\n1 2\n3 3\n', 'YES\n2\n1 2\n3 8\n', 'NO\n', 'YES\n4\n1 1\n2 2\n3 3\n4 4\n'] Note: none	```python M=int(input()) N=list(map(int,input().split())) sum=0 O=0 for i in range(M): sum=N[i]+sum if(N[i]!=0): O=O+1 if(sum!=0 or M==1): print("NO") elif(O==0): print("NO") else: print("YES") print(M) for i in range(1,M+1): print(i,i) ```	0
104	A	Blackjack	PROGRAMMING	800	[ "implementation" ]	A. Blackjack	2	256	One rainy gloomy evening when all modules hid in the nearby cafes to drink hot energetic cocktails, the Hexadecimal virus decided to fly over the Mainframe to look for a Great Idea. And she has found one! Why not make her own Codeforces, with blackjack and other really cool stuff? Many people will surely be willing to visit this splendid shrine of high culture. In Mainframe a standard pack of 52 cards is used to play blackjack. The pack contains cards of 13 values: 2, 3, 4, 5, 6, 7, 8, 9, 10, jacks, queens, kings and aces. Each value also exists in one of four suits: hearts, diamonds, clubs and spades. Also, each card earns some value in points assigned to it: cards with value from two to ten earn from 2 to 10 points, correspondingly. An ace can either earn 1 or 11, whatever the player wishes. The picture cards (king, queen and jack) earn 10 points. The number of points a card earns does not depend on the suit. The rules of the game are very simple. The player gets two cards, if the sum of points of those cards equals n, then the player wins, otherwise the player loses. The player has already got the first card, it's the queen of spades. To evaluate chances for victory, you should determine how many ways there are to get the second card so that the sum of points exactly equals n.	The only line contains n (1<=≤<=n<=≤<=25) — the required sum of points.	Print the numbers of ways to get the second card in the required way if the first card is the queen of spades.	[ "12\n", "20\n", "10\n" ]	[ "4", "15", "0" ]	In the first sample only four two's of different suits can earn the required sum of points. In the second sample we can use all tens, jacks, queens and kings; overall it's 15 cards, as the queen of spades (as any other card) is only present once in the pack of cards and it's already in use. In the third sample there is no card, that would add a zero to the current ten points.	500	[ { "input": "12", "output": "4" }, { "input": "20", "output": "15" }, { "input": "10", "output": "0" }, { "input": "11", "output": "4" }, { "input": "15", "output": "4" }, { "input": "18", "output": "4" }, { "input": "25", "output": "0" ...	1,658,931,337	2,147,483,647	PyPy 3-64	OK	TESTS	25	124	0	import sys input = sys.stdin.readline n = int(input()) if n == 20: print(15) elif 11 <= n <= 21: print(4) else: print(0)	Title: Blackjack Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: One rainy gloomy evening when all modules hid in the nearby cafes to drink hot energetic cocktails, the Hexadecimal virus decided to fly over the Mainframe to look for a Great Idea. And she has found one! Why not make her own Codeforces, with blackjack and other really cool stuff? Many people will surely be willing to visit this splendid shrine of high culture. In Mainframe a standard pack of 52 cards is used to play blackjack. The pack contains cards of 13 values: 2, 3, 4, 5, 6, 7, 8, 9, 10, jacks, queens, kings and aces. Each value also exists in one of four suits: hearts, diamonds, clubs and spades. Also, each card earns some value in points assigned to it: cards with value from two to ten earn from 2 to 10 points, correspondingly. An ace can either earn 1 or 11, whatever the player wishes. The picture cards (king, queen and jack) earn 10 points. The number of points a card earns does not depend on the suit. The rules of the game are very simple. The player gets two cards, if the sum of points of those cards equals n, then the player wins, otherwise the player loses. The player has already got the first card, it's the queen of spades. To evaluate chances for victory, you should determine how many ways there are to get the second card so that the sum of points exactly equals n. Input Specification: The only line contains n (1<=≤<=n<=≤<=25) — the required sum of points. Output Specification: Print the numbers of ways to get the second card in the required way if the first card is the queen of spades. Demo Input: ['12\n', '20\n', '10\n'] Demo Output: ['4', '15', '0'] Note: In the first sample only four two's of different suits can earn the required sum of points. In the second sample we can use all tens, jacks, queens and kings; overall it's 15 cards, as the queen of spades (as any other card) is only present once in the pack of cards and it's already in use. In the third sample there is no card, that would add a zero to the current ten points.	```python import sys input = sys.stdin.readline n = int(input()) if n == 20: print(15) elif 11 <= n <= 21: print(4) else: print(0) ```	3.969
520	A	Pangram	PROGRAMMING	800	[ "implementation", "strings" ]		null	null	A word or a sentence in some language is called a pangram if all the characters of the alphabet of this language appear in it at least once. Pangrams are often used to demonstrate fonts in printing or test the output devices. You are given a string consisting of lowercase and uppercase Latin letters. Check whether this string is a pangram. We say that the string contains a letter of the Latin alphabet if this letter occurs in the string in uppercase or lowercase.	The first line contains a single integer n (1<=≤<=n<=≤<=100) — the number of characters in the string. The second line contains the string. The string consists only of uppercase and lowercase Latin letters.	Output "YES", if the string is a pangram and "NO" otherwise.	[ "12\ntoosmallword\n", "35\nTheQuickBrownFoxJumpsOverTheLazyDog\n" ]	[ "NO\n", "YES\n" ]	none	500	[ { "input": "12\ntoosmallword", "output": "NO" }, { "input": "35\nTheQuickBrownFoxJumpsOverTheLazyDog", "output": "YES" }, { "input": "1\na", "output": "NO" }, { "input": "26\nqwertyuiopasdfghjklzxcvbnm", "output": "YES" }, { "input": "26\nABCDEFGHIJKLMNOPQRSTUVWXY...	1,696,399,234	2,147,483,647	Python 3	OK	TESTS	59	46	0	n=int(input()) s=input().lower() s=set(s) s=[i for i in s if i.isalpha()] #print(s) if len(s)==26: print('Yes') else: print('No')	Title: Pangram Time Limit: None seconds Memory Limit: None megabytes Problem Description: A word or a sentence in some language is called a pangram if all the characters of the alphabet of this language appear in it at least once. Pangrams are often used to demonstrate fonts in printing or test the output devices. You are given a string consisting of lowercase and uppercase Latin letters. Check whether this string is a pangram. We say that the string contains a letter of the Latin alphabet if this letter occurs in the string in uppercase or lowercase. Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=100) — the number of characters in the string. The second line contains the string. The string consists only of uppercase and lowercase Latin letters. Output Specification: Output "YES", if the string is a pangram and "NO" otherwise. Demo Input: ['12\ntoosmallword\n', '35\nTheQuickBrownFoxJumpsOverTheLazyDog\n'] Demo Output: ['NO\n', 'YES\n'] Note: none	```python n=int(input()) s=input().lower() s=set(s) s=[i for i in s if i.isalpha()] #print(s) if len(s)==26: print('Yes') else: print('No') ```	3
509	A	Maximum in Table	PROGRAMMING	800	[ "brute force", "implementation" ]		null	null	An n<=×<=n table a is defined as follows: - The first row and the first column contain ones, that is: ai,<=1<==<=a1,<=i<==<=1 for all i<==<=1,<=2,<=...,<=n. - Each of the remaining numbers in the table is equal to the sum of the number above it and the number to the left of it. In other words, the remaining elements are defined by the formula ai,<=j<==<=ai<=-<=1,<=j<=+<=ai,<=j<=-<=1. These conditions define all the values in the table. You are given a number n. You need to determine the maximum value in the n<=×<=n table defined by the rules above.	The only line of input contains a positive integer n (1<=≤<=n<=≤<=10) — the number of rows and columns of the table.	Print a single line containing a positive integer m — the maximum value in the table.	[ "1\n", "5\n" ]	[ "1", "70" ]	In the second test the rows of the table look as follows:	0	[ { "input": "1", "output": "1" }, { "input": "5", "output": "70" }, { "input": "2", "output": "2" }, { "input": "3", "output": "6" }, { "input": "4", "output": "20" }, { "input": "6", "output": "252" }, { "input": "7", "output": "924" ...	1,613,080,626	2,147,483,647	Python 3	OK	TESTS	10	62	0	n = int(input()) lines = [[1 for j in range(n)] for i in range(n)] for i in range(1, n): for j in range(1, n): lines[i][j] = lines[i-1][j] + lines[i][j-1] maximum = 0 for x in lines: maximum = max(x) print(maximum)	Title: Maximum in Table Time Limit: None seconds Memory Limit: None megabytes Problem Description: An n<=×<=n table a is defined as follows: - The first row and the first column contain ones, that is: ai,<=1<==<=a1,<=i<==<=1 for all i<==<=1,<=2,<=...,<=n. - Each of the remaining numbers in the table is equal to the sum of the number above it and the number to the left of it. In other words, the remaining elements are defined by the formula ai,<=j<==<=ai<=-<=1,<=j<=+<=ai,<=j<=-<=1. These conditions define all the values in the table. You are given a number n. You need to determine the maximum value in the n<=×<=n table defined by the rules above. Input Specification: The only line of input contains a positive integer n (1<=≤<=n<=≤<=10) — the number of rows and columns of the table. Output Specification: Print a single line containing a positive integer m — the maximum value in the table. Demo Input: ['1\n', '5\n'] Demo Output: ['1', '70'] Note: In the second test the rows of the table look as follows:	```python n = int(input()) lines = [[1 for j in range(n)] for i in range(n)] for i in range(1, n): for j in range(1, n): lines[i][j] = lines[i-1][j] + lines[i][j-1] maximum = 0 for x in lines: maximum = max(x) print(maximum) ```	3
574	B	Bear and Three Musketeers	PROGRAMMING	1,500	[ "brute force", "dfs and similar", "graphs", "hashing" ]		null	null	Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions.	The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once.	If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes).	[ "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n", "7 4\n2 1\n3 6\n5 1\n1 7\n" ]	[ "2\n", "-1\n" ]	In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	1,000	[ { "input": "5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5", "output": "2" }, { "input": "7 4\n2 1\n3 6\n5 1\n1 7", "output": "-1" }, { "input": "5 0", "output": "-1" }, { "input": "7 14\n3 6\n2 3\n5 2\n5 6\n7 5\n7 4\n6 2\n3 5\n7 1\n4 1\n6 1\n7 6\n6 4\n5 4", "output": "5" }, { ...	1,453,415,980	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	20	2,000	6,758,400	n, m = map(int, input().split()) graph = [[] for i in range(n)] for i in range(m): a, b = map(int, input().split()) graph[a - 1].append(b - 1) graph[b - 1].append(a - 1) answer = 99999999 for i in range(n): if len(graph[i]) < 2: continue for j in range(len(graph[i])): for k in range(j + 1, len(graph[i])): a, b, c = i, graph[i][j], graph[i][k] if graph[b].count(c) != 0 and graph[c].count(b) != 0: answer = min(answer, len(graph[a]) + len(graph[b]) + len(graph[c]) - 6) if answer != 99999999: print(answer) else: print(-1)	Title: Bear and Three Musketeers Time Limit: None seconds Memory Limit: None megabytes Problem Description: Do you know a story about the three musketeers? Anyway, you will learn about its origins now. Richelimakieu is a cardinal in the city of Bearis. He is tired of dealing with crime by himself. He needs three brave warriors to help him to fight against bad guys. There are n warriors. Richelimakieu wants to choose three of them to become musketeers but it's not that easy. The most important condition is that musketeers must know each other to cooperate efficiently. And they shouldn't be too well known because they could be betrayed by old friends. For each musketeer his recognition is the number of warriors he knows, excluding other two musketeers. Help Richelimakieu! Find if it is possible to choose three musketeers knowing each other, and what is minimum possible sum of their recognitions. Input Specification: The first line contains two space-separated integers, n and m (3<=≤<=n<=≤<=4000, 0<=≤<=m<=≤<=4000) — respectively number of warriors and number of pairs of warriors knowing each other. i-th of the following m lines contains two space-separated integers ai and bi (1<=≤<=ai,<=bi<=≤<=n, ai<=≠<=bi). Warriors ai and bi know each other. Each pair of warriors will be listed at most once. Output Specification: If Richelimakieu can choose three musketeers, print the minimum possible sum of their recognitions. Otherwise, print "-1" (without the quotes). Demo Input: ['5 6\n1 2\n1 3\n2 3\n2 4\n3 4\n4 5\n', '7 4\n2 1\n3 6\n5 1\n1 7\n'] Demo Output: ['2\n', '-1\n'] Note: In the first sample Richelimakieu should choose a triple 1, 2, 3. The first musketeer doesn't know anyone except other two musketeers so his recognition is 0. The second musketeer has recognition 1 because he knows warrior number 4. The third musketeer also has recognition 1 because he knows warrior 4. Sum of recognitions is 0 + 1 + 1 = 2. The other possible triple is 2, 3, 4 but it has greater sum of recognitions, equal to 1 + 1 + 1 = 3. In the second sample there is no triple of warriors knowing each other.	```python n, m = map(int, input().split()) graph = [[] for i in range(n)] for i in range(m): a, b = map(int, input().split()) graph[a - 1].append(b - 1) graph[b - 1].append(a - 1) answer = 99999999 for i in range(n): if len(graph[i]) < 2: continue for j in range(len(graph[i])): for k in range(j + 1, len(graph[i])): a, b, c = i, graph[i][j], graph[i][k] if graph[b].count(c) != 0 and graph[c].count(b) != 0: answer = min(answer, len(graph[a]) + len(graph[b]) + len(graph[c]) - 6) if answer != 99999999: print(answer) else: print(-1) ```	0
637	B	Chat Order	PROGRAMMING	1,200	[ "*special", "binary search", "constructive algorithms", "data structures", "sortings" ]		null	null	Polycarp is a big lover of killing time in social networks. A page with a chatlist in his favourite network is made so that when a message is sent to some friend, his friend's chat rises to the very top of the page. The relative order of the other chats doesn't change. If there was no chat with this friend before, then a new chat is simply inserted to the top of the list. Assuming that the chat list is initially empty, given the sequence of Polycaprus' messages make a list of chats after all of his messages are processed. Assume that no friend wrote any message to Polycarpus.	The first line contains integer n (1<=≤<=n<=≤<=200<=000) — the number of Polycarpus' messages. Next n lines enlist the message recipients in the order in which the messages were sent. The name of each participant is a non-empty sequence of lowercase English letters of length at most 10.	Print all the recipients to who Polycarp talked to in the order of chats with them, from top to bottom.	[ "4\nalex\nivan\nroman\nivan\n", "8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina\n" ]	[ "ivan\nroman\nalex\n", "alina\nmaria\nekaterina\ndarya\n" ]	In the first test case Polycarpus first writes to friend by name "alex", and the list looks as follows: 1. alex Then Polycarpus writes to friend by name "ivan" and the list looks as follows: 1. ivan 1. alex Polycarpus writes the third message to friend by name "roman" and the list looks as follows: 1. roman 1. ivan 1. alex Polycarpus writes the fourth message to friend by name "ivan", to who he has already sent a message, so the list of chats changes as follows: 1. ivan 1. roman 1. alex	1,000	[ { "input": "4\nalex\nivan\nroman\nivan", "output": "ivan\nroman\nalex" }, { "input": "8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina", "output": "alina\nmaria\nekaterina\ndarya" }, { "input": "1\nwdi", "output": "wdi" }, { "input": "2\nypg\nypg", "outpu...	1,457,888,693	18,293	Python 3	TIME_LIMIT_EXCEEDED	PRETESTS	12	3,000	18,739,200	n = int(input()) a=dict() b=list() ''' for i in range(n): temp=input() if temp in a: a.remove(temp) a.append(temp) else: a.append(temp) lena=len(a)-1 for i in range(lena+1): print(a[lena-i]) ''' for i in range(n): temp=input() if temp in a: del a[temp] a.setdefault(temp,i+1) else: a.setdefault(temp,i+1) for i in range(len(a.keys())): maxi=0 name='' for j in a.keys(): get_=a.get(j) if get_>0 and get_>maxi: maxi=get_ name=j a.update({name:-1}) b.append(name) for i in b: print(i)	Title: Chat Order Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarp is a big lover of killing time in social networks. A page with a chatlist in his favourite network is made so that when a message is sent to some friend, his friend's chat rises to the very top of the page. The relative order of the other chats doesn't change. If there was no chat with this friend before, then a new chat is simply inserted to the top of the list. Assuming that the chat list is initially empty, given the sequence of Polycaprus' messages make a list of chats after all of his messages are processed. Assume that no friend wrote any message to Polycarpus. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=200<=000) — the number of Polycarpus' messages. Next n lines enlist the message recipients in the order in which the messages were sent. The name of each participant is a non-empty sequence of lowercase English letters of length at most 10. Output Specification: Print all the recipients to who Polycarp talked to in the order of chats with them, from top to bottom. Demo Input: ['4\nalex\nivan\nroman\nivan\n', '8\nalina\nmaria\nekaterina\ndarya\ndarya\nekaterina\nmaria\nalina\n'] Demo Output: ['ivan\nroman\nalex\n', 'alina\nmaria\nekaterina\ndarya\n'] Note: In the first test case Polycarpus first writes to friend by name "alex", and the list looks as follows: 1. alex Then Polycarpus writes to friend by name "ivan" and the list looks as follows: 1. ivan 1. alex Polycarpus writes the third message to friend by name "roman" and the list looks as follows: 1. roman 1. ivan 1. alex Polycarpus writes the fourth message to friend by name "ivan", to who he has already sent a message, so the list of chats changes as follows: 1. ivan 1. roman 1. alex	```python n = int(input()) a=dict() b=list() ''' for i in range(n): temp=input() if temp in a: a.remove(temp) a.append(temp) else: a.append(temp) lena=len(a)-1 for i in range(lena+1): print(a[lena-i]) ''' for i in range(n): temp=input() if temp in a: del a[temp] a.setdefault(temp,i+1) else: a.setdefault(temp,i+1) for i in range(len(a.keys())): maxi=0 name='' for j in a.keys(): get_=a.get(j) if get_>0 and get_>maxi: maxi=get_ name=j a.update({name:-1}) b.append(name) for i in b: print(i) ```	0
217	A	Ice Skating	PROGRAMMING	1,200	[ "brute force", "dfs and similar", "dsu", "graphs" ]		null	null	Bajtek is learning to skate on ice. He's a beginner, so his only mode of transportation is pushing off from a snow drift to the north, east, south or west and sliding until he lands in another snow drift. He has noticed that in this way it's impossible to get from some snow drifts to some other by any sequence of moves. He now wants to heap up some additional snow drifts, so that he can get from any snow drift to any other one. He asked you to find the minimal number of snow drifts that need to be created. We assume that Bajtek can only heap up snow drifts at integer coordinates.	The first line of input contains a single integer n (1<=≤<=n<=≤<=100) — the number of snow drifts. Each of the following n lines contains two integers xi and yi (1<=≤<=xi,<=yi<=≤<=1000) — the coordinates of the i-th snow drift. Note that the north direction coinсides with the direction of Oy axis, so the east direction coinсides with the direction of the Ox axis. All snow drift's locations are distinct.	Output the minimal number of snow drifts that need to be created in order for Bajtek to be able to reach any snow drift from any other one.	[ "2\n2 1\n1 2\n", "2\n2 1\n4 1\n" ]	[ "1\n", "0\n" ]	none	500	[ { "input": "2\n2 1\n1 2", "output": "1" }, { "input": "2\n2 1\n4 1", "output": "0" }, { "input": "24\n171 35\n261 20\n4 206\n501 446\n961 912\n581 748\n946 978\n463 514\n841 889\n341 466\n842 967\n54 102\n235 261\n925 889\n682 672\n623 636\n268 94\n635 710\n474 510\n697 794\n586 663\n182...	1,617,214,129	2,147,483,647	Python 3	OK	TESTS	76	124	0	def find_best_snow_drifts(snow_drifts, i): snow_drifts[i]['checked'] = True same_line_snow_drifts = get_points_same_line(snow_drifts, i) for t in same_line_snow_drifts: find_best_snow_drifts(snow_drifts, t) def is_same_line(point1, point2): return point1[0] == point2[0] or point1[1] == point2[1] def get_points_same_line(snow_drifts, i): i_points = [] for t in range(len(snow_drifts)): if ((not snow_drifts[t]['checked']) and t != i and is_same_line(snow_drifts[i]['point'], snow_drifts[t]['point'])): i_points.append(t) return i_points if __name__ == "__main__": n = int(input()) snow_drifts = [] solution = 0 for i in range(n): coordinates = [int(n) for n in input().split(' ')] snow_drifts.append(coordinates) snow_drifts = [{'point': p, 'checked': False} for p in snow_drifts] for i in range(len(snow_drifts)): if not snow_drifts[i]['checked']: find_best_snow_drifts(snow_drifts, i) solution += 1 print(solution - 1)	Title: Ice Skating Time Limit: None seconds Memory Limit: None megabytes Problem Description: Bajtek is learning to skate on ice. He's a beginner, so his only mode of transportation is pushing off from a snow drift to the north, east, south or west and sliding until he lands in another snow drift. He has noticed that in this way it's impossible to get from some snow drifts to some other by any sequence of moves. He now wants to heap up some additional snow drifts, so that he can get from any snow drift to any other one. He asked you to find the minimal number of snow drifts that need to be created. We assume that Bajtek can only heap up snow drifts at integer coordinates. Input Specification: The first line of input contains a single integer n (1<=≤<=n<=≤<=100) — the number of snow drifts. Each of the following n lines contains two integers xi and yi (1<=≤<=xi,<=yi<=≤<=1000) — the coordinates of the i-th snow drift. Note that the north direction coinсides with the direction of Oy axis, so the east direction coinсides with the direction of the Ox axis. All snow drift's locations are distinct. Output Specification: Output the minimal number of snow drifts that need to be created in order for Bajtek to be able to reach any snow drift from any other one. Demo Input: ['2\n2 1\n1 2\n', '2\n2 1\n4 1\n'] Demo Output: ['1\n', '0\n'] Note: none	```python def find_best_snow_drifts(snow_drifts, i): snow_drifts[i]['checked'] = True same_line_snow_drifts = get_points_same_line(snow_drifts, i) for t in same_line_snow_drifts: find_best_snow_drifts(snow_drifts, t) def is_same_line(point1, point2): return point1[0] == point2[0] or point1[1] == point2[1] def get_points_same_line(snow_drifts, i): i_points = [] for t in range(len(snow_drifts)): if ((not snow_drifts[t]['checked']) and t != i and is_same_line(snow_drifts[i]['point'], snow_drifts[t]['point'])): i_points.append(t) return i_points if __name__ == "__main__": n = int(input()) snow_drifts = [] solution = 0 for i in range(n): coordinates = [int(n) for n in input().split(' ')] snow_drifts.append(coordinates) snow_drifts = [{'point': p, 'checked': False} for p in snow_drifts] for i in range(len(snow_drifts)): if not snow_drifts[i]['checked']: find_best_snow_drifts(snow_drifts, i) solution += 1 print(solution - 1) ```	3
228	A	Is your horseshoe on the other hoof?	PROGRAMMING	800	[ "implementation" ]		null	null	Valera the Horse is going to the party with friends. He has been following the fashion trends for a while, and he knows that it is very popular to wear all horseshoes of different color. Valera has got four horseshoes left from the last year, but maybe some of them have the same color. In this case he needs to go to the store and buy some few more horseshoes, not to lose face in front of his stylish comrades. Fortunately, the store sells horseshoes of all colors under the sun and Valera has enough money to buy any four of them. However, in order to save the money, he would like to spend as little money as possible, so you need to help Valera and determine what is the minimum number of horseshoes he needs to buy to wear four horseshoes of different colors to a party.	The first line contains four space-separated integers s1,<=s2,<=s3,<=s4 (1<=≤<=s1,<=s2,<=s3,<=s4<=≤<=109) — the colors of horseshoes Valera has. Consider all possible colors indexed with integers.	Print a single integer — the minimum number of horseshoes Valera needs to buy.	[ "1 7 3 3\n", "7 7 7 7\n" ]	[ "1\n", "3\n" ]	none	500	[ { "input": "1 7 3 3", "output": "1" }, { "input": "7 7 7 7", "output": "3" }, { "input": "81170865 673572653 756938629 995577259", "output": "0" }, { "input": "3491663 217797045 522540872 715355328", "output": "0" }, { "input": "251590420 586975278 916631563 58697...	1,692,888,043	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	62	0	col = [char for char in input()] count = 0 col.sort() for i in range(1,len(col)): if col[i-1]==col[i]: count+=1 dis = len(col) - count - 1 if dis%2 != 0: print("CHAT WITH HER!") else: print("IGNORE HIM!")	Title: Is your horseshoe on the other hoof? Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera the Horse is going to the party with friends. He has been following the fashion trends for a while, and he knows that it is very popular to wear all horseshoes of different color. Valera has got four horseshoes left from the last year, but maybe some of them have the same color. In this case he needs to go to the store and buy some few more horseshoes, not to lose face in front of his stylish comrades. Fortunately, the store sells horseshoes of all colors under the sun and Valera has enough money to buy any four of them. However, in order to save the money, he would like to spend as little money as possible, so you need to help Valera and determine what is the minimum number of horseshoes he needs to buy to wear four horseshoes of different colors to a party. Input Specification: The first line contains four space-separated integers s1,<=s2,<=s3,<=s4 (1<=≤<=s1,<=s2,<=s3,<=s4<=≤<=109) — the colors of horseshoes Valera has. Consider all possible colors indexed with integers. Output Specification: Print a single integer — the minimum number of horseshoes Valera needs to buy. Demo Input: ['1 7 3 3\n', '7 7 7 7\n'] Demo Output: ['1\n', '3\n'] Note: none	```python col = [char for char in input()] count = 0 col.sort() for i in range(1,len(col)): if col[i-1]==col[i]: count+=1 dis = len(col) - count - 1 if dis%2 != 0: print("CHAT WITH HER!") else: print("IGNORE HIM!") ```	0
816	B	Karen and Coffee	PROGRAMMING	1,400	[ "binary search", "data structures", "implementation" ]		null	null	To stay woke and attentive during classes, Karen needs some coffee! Karen, a coffee aficionado, wants to know the optimal temperature for brewing the perfect cup of coffee. Indeed, she has spent some time reading several recipe books, including the universally acclaimed "The Art of the Covfefe". She knows n coffee recipes. The i-th recipe suggests that coffee should be brewed between li and ri degrees, inclusive, to achieve the optimal taste. Karen thinks that a temperature is admissible if at least k recipes recommend it. Karen has a rather fickle mind, and so she asks q questions. In each question, given that she only wants to prepare coffee with a temperature between a and b, inclusive, can you tell her how many admissible integer temperatures fall within the range?	The first line of input contains three integers, n, k (1<=≤<=k<=≤<=n<=≤<=200000), and q (1<=≤<=q<=≤<=200000), the number of recipes, the minimum number of recipes a certain temperature must be recommended by to be admissible, and the number of questions Karen has, respectively. The next n lines describe the recipes. Specifically, the i-th line among these contains two integers li and ri (1<=≤<=li<=≤<=ri<=≤<=200000), describing that the i-th recipe suggests that the coffee be brewed between li and ri degrees, inclusive. The next q lines describe the questions. Each of these lines contains a and b, (1<=≤<=a<=≤<=b<=≤<=200000), describing that she wants to know the number of admissible integer temperatures between a and b degrees, inclusive.	For each question, output a single integer on a line by itself, the number of admissible integer temperatures between a and b degrees, inclusive.	[ "3 2 4\n91 94\n92 97\n97 99\n92 94\n93 97\n95 96\n90 100\n", "2 1 1\n1 1\n200000 200000\n90 100\n" ]	[ "3\n3\n0\n4\n", "0\n" ]	In the first test case, Karen knows 3 recipes. 1. The first one recommends brewing the coffee between 91 and 94 degrees, inclusive. 1. The second one recommends brewing the coffee between 92 and 97 degrees, inclusive. 1. The third one recommends brewing the coffee between 97 and 99 degrees, inclusive. A temperature is admissible if at least 2 recipes recommend it. She asks 4 questions. In her first question, she wants to know the number of admissible integer temperatures between 92 and 94 degrees, inclusive. There are 3: 92, 93 and 94 degrees are all admissible. In her second question, she wants to know the number of admissible integer temperatures between 93 and 97 degrees, inclusive. There are 3: 93, 94 and 97 degrees are all admissible. In her third question, she wants to know the number of admissible integer temperatures between 95 and 96 degrees, inclusive. There are none. In her final question, she wants to know the number of admissible integer temperatures between 90 and 100 degrees, inclusive. There are 4: 92, 93, 94 and 97 degrees are all admissible. In the second test case, Karen knows 2 recipes. 1. The first one, "wikiHow to make Cold Brew Coffee", recommends brewing the coffee at exactly 1 degree. 1. The second one, "What good is coffee that isn't brewed at at least 36.3306 times the temperature of the surface of the sun?", recommends brewing the coffee at exactly 200000 degrees. A temperature is admissible if at least 1 recipe recommends it. In her first and only question, she wants to know the number of admissible integer temperatures that are actually reasonable. There are none.	1,000	[ { "input": "3 2 4\n91 94\n92 97\n97 99\n92 94\n93 97\n95 96\n90 100", "output": "3\n3\n0\n4" }, { "input": "2 1 1\n1 1\n200000 200000\n90 100", "output": "0" }, { "input": "1 1 1\n1 1\n1 1", "output": "1" }, { "input": "1 1 1\n200000 200000\n200000 200000", "output": "1" ...	1,690,204,430	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	8	1,418	9,420,800	n,k,q = [int(_) for _ in input().split()] sum1 = 0 sum2 = 0 b = [0]201000 a = [0]201000 for i in range(n): l,r = [int(_) for _ in input().split()] b[l] += 1 b[r+1] -= 1 for i in range(200000): sum1 += b[i] if sum1 >= k: sum2 += 1 a[i] = sum2 for i in range(q): ans = 0 x,y = [int(_) for _ in input().split()] print(a[y]-a[x-1])	Title: Karen and Coffee Time Limit: None seconds Memory Limit: None megabytes Problem Description: To stay woke and attentive during classes, Karen needs some coffee! Karen, a coffee aficionado, wants to know the optimal temperature for brewing the perfect cup of coffee. Indeed, she has spent some time reading several recipe books, including the universally acclaimed "The Art of the Covfefe". She knows n coffee recipes. The i-th recipe suggests that coffee should be brewed between li and ri degrees, inclusive, to achieve the optimal taste. Karen thinks that a temperature is admissible if at least k recipes recommend it. Karen has a rather fickle mind, and so she asks q questions. In each question, given that she only wants to prepare coffee with a temperature between a and b, inclusive, can you tell her how many admissible integer temperatures fall within the range? Input Specification: The first line of input contains three integers, n, k (1<=≤<=k<=≤<=n<=≤<=200000), and q (1<=≤<=q<=≤<=200000), the number of recipes, the minimum number of recipes a certain temperature must be recommended by to be admissible, and the number of questions Karen has, respectively. The next n lines describe the recipes. Specifically, the i-th line among these contains two integers li and ri (1<=≤<=li<=≤<=ri<=≤<=200000), describing that the i-th recipe suggests that the coffee be brewed between li and ri degrees, inclusive. The next q lines describe the questions. Each of these lines contains a and b, (1<=≤<=a<=≤<=b<=≤<=200000), describing that she wants to know the number of admissible integer temperatures between a and b degrees, inclusive. Output Specification: For each question, output a single integer on a line by itself, the number of admissible integer temperatures between a and b degrees, inclusive. Demo Input: ['3 2 4\n91 94\n92 97\n97 99\n92 94\n93 97\n95 96\n90 100\n', '2 1 1\n1 1\n200000 200000\n90 100\n'] Demo Output: ['3\n3\n0\n4\n', '0\n'] Note: In the first test case, Karen knows 3 recipes. 1. The first one recommends brewing the coffee between 91 and 94 degrees, inclusive. 1. The second one recommends brewing the coffee between 92 and 97 degrees, inclusive. 1. The third one recommends brewing the coffee between 97 and 99 degrees, inclusive. A temperature is admissible if at least 2 recipes recommend it. She asks 4 questions. In her first question, she wants to know the number of admissible integer temperatures between 92 and 94 degrees, inclusive. There are 3: 92, 93 and 94 degrees are all admissible. In her second question, she wants to know the number of admissible integer temperatures between 93 and 97 degrees, inclusive. There are 3: 93, 94 and 97 degrees are all admissible. In her third question, she wants to know the number of admissible integer temperatures between 95 and 96 degrees, inclusive. There are none. In her final question, she wants to know the number of admissible integer temperatures between 90 and 100 degrees, inclusive. There are 4: 92, 93, 94 and 97 degrees are all admissible. In the second test case, Karen knows 2 recipes. 1. The first one, "wikiHow to make Cold Brew Coffee", recommends brewing the coffee at exactly 1 degree. 1. The second one, "What good is coffee that isn't brewed at at least 36.3306 times the temperature of the surface of the sun?", recommends brewing the coffee at exactly 200000 degrees. A temperature is admissible if at least 1 recipe recommends it. In her first and only question, she wants to know the number of admissible integer temperatures that are actually reasonable. There are none.	```python n,k,q = [int(_) for _ in input().split()] sum1 = 0 sum2 = 0 b = [0]201000 a = [0]201000 for i in range(n): l,r = [int(_) for _ in input().split()] b[l] += 1 b[r+1] -= 1 for i in range(200000): sum1 += b[i] if sum1 >= k: sum2 += 1 a[i] = sum2 for i in range(q): ans = 0 x,y = [int(_) for _ in input().split()] print(a[y]-a[x-1]) ```	0
955	B	Not simply beatiful strings	PROGRAMMING	1,400	[ "implementation" ]		null	null	Let's call a string adorable if its letters can be realigned in such a way that they form two consequent groups of equal symbols (note that different groups must contain different symbols). For example, ababa is adorable (you can transform it to aaabb, where the first three letters form a group of a-s and others — a group of b-s), but cccc is not since in each possible consequent partition letters in these two groups coincide. You're given a string s. Check whether it can be split into two non-empty subsequences such that the strings formed by these subsequences are adorable. Here a subsequence is an arbitrary set of indexes of the string.	The only line contains s (1<=≤<=\|s\|<=≤<=105) consisting of lowercase latin letters.	Print «Yes» if the string can be split according to the criteria above or «No» otherwise. Each letter can be printed in arbitrary case.	[ "ababa\n", "zzcxx\n", "yeee\n" ]	[ "Yes\n", "Yes\n", "No\n" ]	In sample case two zzcxx can be split into subsequences zc and zxx each of which is adorable. There's no suitable partition in sample case three.	1,000	[ { "input": "ababa", "output": "Yes" }, { "input": "zzcxx", "output": "Yes" }, { "input": "yeee", "output": "No" }, { "input": "a", "output": "No" }, { "input": "bbab", "output": "No" }, { "input": "abcd", "output": "Yes" }, { "input": "abc"...	1,521,825,691	2,791	Python 3	CHALLENGED	CHALLENGES	8	109	7,782,400	from collections import defaultdict s = list(input()) dic = defaultdict(int) for i in s: dic[i] += 1 if len(dic) > 4: print("No") elif 3 <= len(dic) <= 4: print("Yes") else: if min(dic.values()) >= 2: print("Yes") else: print("No")	Title: Not simply beatiful strings Time Limit: None seconds Memory Limit: None megabytes Problem Description: Let's call a string adorable if its letters can be realigned in such a way that they form two consequent groups of equal symbols (note that different groups must contain different symbols). For example, ababa is adorable (you can transform it to aaabb, where the first three letters form a group of a-s and others — a group of b-s), but cccc is not since in each possible consequent partition letters in these two groups coincide. You're given a string s. Check whether it can be split into two non-empty subsequences such that the strings formed by these subsequences are adorable. Here a subsequence is an arbitrary set of indexes of the string. Input Specification: The only line contains s (1<=≤<=\|s\|<=≤<=105) consisting of lowercase latin letters. Output Specification: Print «Yes» if the string can be split according to the criteria above or «No» otherwise. Each letter can be printed in arbitrary case. Demo Input: ['ababa\n', 'zzcxx\n', 'yeee\n'] Demo Output: ['Yes\n', 'Yes\n', 'No\n'] Note: In sample case two zzcxx can be split into subsequences zc and zxx each of which is adorable. There's no suitable partition in sample case three.	```python from collections import defaultdict s = list(input()) dic = defaultdict(int) for i in s: dic[i] += 1 if len(dic) > 4: print("No") elif 3 <= len(dic) <= 4: print("Yes") else: if min(dic.values()) >= 2: print("Yes") else: print("No") ```	-1
629	A	Far Relative’s Birthday Cake	PROGRAMMING	800	[ "brute force", "combinatorics", "constructive algorithms", "implementation" ]		null	null	Door's family is going celebrate Famil Doors's birthday party. They love Famil Door so they are planning to make his birthday cake weird! The cake is a n<=×<=n square consisting of equal squares with side length 1. Each square is either empty or consists of a single chocolate. They bought the cake and randomly started to put the chocolates on the cake. The value of Famil Door's happiness will be equal to the number of pairs of cells with chocolates that are in the same row or in the same column of the cake. Famil Doors's family is wondering what is the amount of happiness of Famil going to be? Please, note that any pair can be counted no more than once, as two different cells can't share both the same row and the same column.	In the first line of the input, you are given a single integer n (1<=≤<=n<=≤<=100) — the length of the side of the cake. Then follow n lines, each containing n characters. Empty cells are denoted with '.', while cells that contain chocolates are denoted by 'C'.	Print the value of Famil Door's happiness, i.e. the number of pairs of chocolate pieces that share the same row or the same column.	[ "3\n.CC\nC..\nC.C\n", "4\nCC..\nC..C\n.CC.\n.CC.\n" ]	[ "4\n", "9\n" ]	If we number rows from top to bottom and columns from left to right, then, pieces that share the same row in the first sample are: 1. (1, 2) and (1, 3) 1. (3, 1) and (3, 3) 1. (2, 1) and (3, 1) 1. (1, 3) and (3, 3)	500	[ { "input": "3\n.CC\nC..\nC.C", "output": "4" }, { "input": "4\nCC..\nC..C\n.CC.\n.CC.", "output": "9" }, { "input": "5\n.CCCC\nCCCCC\n.CCC.\nCC...\n.CC.C", "output": "46" }, { "input": "7\n.CC..CC\nCC.C..C\nC.C..C.\nC...C.C\nCCC.CCC\n.CC...C\n.C.CCC.", "output": "84" },...	1,647,080,490	2,147,483,647	Python 3	OK	TESTS	48	46	0	n=int(input());r=[list(input()) for _ in range(n)];t=0 for i in range(n): a=r[i].count('C') b=len([j for j in range(n) if r[j][i]=='C']) t+=a(a-1)//2+b(b-1)//2 print(t)	Title: Far Relative’s Birthday Cake Time Limit: None seconds Memory Limit: None megabytes Problem Description: Door's family is going celebrate Famil Doors's birthday party. They love Famil Door so they are planning to make his birthday cake weird! The cake is a n<=×<=n square consisting of equal squares with side length 1. Each square is either empty or consists of a single chocolate. They bought the cake and randomly started to put the chocolates on the cake. The value of Famil Door's happiness will be equal to the number of pairs of cells with chocolates that are in the same row or in the same column of the cake. Famil Doors's family is wondering what is the amount of happiness of Famil going to be? Please, note that any pair can be counted no more than once, as two different cells can't share both the same row and the same column. Input Specification: In the first line of the input, you are given a single integer n (1<=≤<=n<=≤<=100) — the length of the side of the cake. Then follow n lines, each containing n characters. Empty cells are denoted with '.', while cells that contain chocolates are denoted by 'C'. Output Specification: Print the value of Famil Door's happiness, i.e. the number of pairs of chocolate pieces that share the same row or the same column. Demo Input: ['3\n.CC\nC..\nC.C\n', '4\nCC..\nC..C\n.CC.\n.CC.\n'] Demo Output: ['4\n', '9\n'] Note: If we number rows from top to bottom and columns from left to right, then, pieces that share the same row in the first sample are: 1. (1, 2) and (1, 3) 1. (3, 1) and (3, 3) 1. (2, 1) and (3, 1) 1. (1, 3) and (3, 3)	```python n=int(input());r=[list(input()) for _ in range(n)];t=0 for i in range(n): a=r[i].count('C') b=len([j for j in range(n) if r[j][i]=='C']) t+=a(a-1)//2+b(b-1)//2 print(t) ```	3
633	C	Spy Syndrome 2	PROGRAMMING	1,900	[ "data structures", "dp", "hashing", "implementation", "sortings", "string suffix structures", "strings" ]		null	null	After observing the results of Spy Syndrome, Yash realised the errors of his ways. He now believes that a super spy such as Siddhant can't use a cipher as basic and ancient as Caesar cipher. After many weeks of observation of Siddhant’s sentences, Yash determined a new cipher technique. For a given sentence, the cipher is processed as: 1. Convert all letters of the sentence to lowercase. 1. Reverse each of the words of the sentence individually. 1. Remove all the spaces in the sentence. For example, when this cipher is applied to the sentence Kira is childish and he hates losing the resulting string is ariksihsidlihcdnaehsetahgnisol Now Yash is given some ciphered string and a list of words. Help him to find out any original sentence composed using only words from the list. Note, that any of the given words could be used in the sentence multiple times.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=10<=000) — the length of the ciphered text. The second line consists of n lowercase English letters — the ciphered text t. The third line contains a single integer m (1<=≤<=m<=≤<=100<=000) — the number of words which will be considered while deciphering the text. Each of the next m lines contains a non-empty word wi (\|wi\|<=≤<=1<=000) consisting of uppercase and lowercase English letters only. It's guaranteed that the total length of all words doesn't exceed 1<=000<=000.	Print one line — the original sentence. It is guaranteed that at least one solution exists. If there are multiple solutions, you may output any of those.	[ "30\nariksihsidlihcdnaehsetahgnisol\n10\nKira\nhates\nis\nhe\nlosing\ndeath\nchildish\nL\nand\nNote\n", "12\niherehtolleh\n5\nHI\nHo\nthere\nHeLLo\nhello\n" ]	[ "Kira is childish and he hates losing \n", "HI there HeLLo \n" ]	In sample case 2 there may be multiple accepted outputs, "HI there HeLLo" and "HI there hello" you may output any of them.	1,500	[ { "input": "30\nariksihsidlihcdnaehsetahgnisol\n10\nKira\nhates\nis\nhe\nlosing\ndeath\nchildish\nL\nand\nNote", "output": "Kira is childish and he hates losing " }, { "input": "12\niherehtolleh\n5\nHI\nHo\nthere\nHeLLo\nhello", "output": "HI there HeLLo " }, { "input": "71\nbaaaaaaaaaaa...	1,678,895,812	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	27	140	9,830,400	# import sys # sys.stdout=open('C:\Program Files (x86)\Sublime Text 3\cp_setup\output.txt','w') # sys.stdin=open('C:\Program Files (x86)\Sublime Text 3\cp_setup\input.txt','r') import heapq import math import collections import bisect mod=10*9+7 # maxi=510*6 # ppow=[0]maxi # p=31 # ppow[0]=1 # for i in range(1,maxi): # ppow[i]=(ppow[i-1]*p)%mod def solve(n,s,d): res="" curr="" for i in s: curr=i+curr if curr in d: res+=d[curr]+" " curr="" return res # t=int(input()) # for _ in range(t): n=int(input()) s=input() m=int(input()) d={} for i in range(m): name=input() d[name.lower()]=name print(solve(n,s,d))	Title: Spy Syndrome 2 Time Limit: None seconds Memory Limit: None megabytes Problem Description: After observing the results of Spy Syndrome, Yash realised the errors of his ways. He now believes that a super spy such as Siddhant can't use a cipher as basic and ancient as Caesar cipher. After many weeks of observation of Siddhant’s sentences, Yash determined a new cipher technique. For a given sentence, the cipher is processed as: 1. Convert all letters of the sentence to lowercase. 1. Reverse each of the words of the sentence individually. 1. Remove all the spaces in the sentence. For example, when this cipher is applied to the sentence Kira is childish and he hates losing the resulting string is ariksihsidlihcdnaehsetahgnisol Now Yash is given some ciphered string and a list of words. Help him to find out any original sentence composed using only words from the list. Note, that any of the given words could be used in the sentence multiple times. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=10<=000) — the length of the ciphered text. The second line consists of n lowercase English letters — the ciphered text t. The third line contains a single integer m (1<=≤<=m<=≤<=100<=000) — the number of words which will be considered while deciphering the text. Each of the next m lines contains a non-empty word wi (\|wi\|<=≤<=1<=000) consisting of uppercase and lowercase English letters only. It's guaranteed that the total length of all words doesn't exceed 1<=000<=000. Output Specification: Print one line — the original sentence. It is guaranteed that at least one solution exists. If there are multiple solutions, you may output any of those. Demo Input: ['30\nariksihsidlihcdnaehsetahgnisol\n10\nKira\nhates\nis\nhe\nlosing\ndeath\nchildish\nL\nand\nNote\n', '12\niherehtolleh\n5\nHI\nHo\nthere\nHeLLo\nhello\n'] Demo Output: ['Kira is childish and he hates losing \n', 'HI there HeLLo \n'] Note: In sample case 2 there may be multiple accepted outputs, "HI there HeLLo" and "HI there hello" you may output any of them.	```python # import sys # sys.stdout=open('C:\Program Files (x86)\Sublime Text 3\cp_setup\output.txt','w') # sys.stdin=open('C:\Program Files (x86)\Sublime Text 3\cp_setup\input.txt','r') import heapq import math import collections import bisect mod=10*9+7 # maxi=510*6 # ppow=[0]maxi # p=31 # ppow[0]=1 # for i in range(1,maxi): # ppow[i]=(ppow[i-1]*p)%mod def solve(n,s,d): res="" curr="" for i in s: curr=i+curr if curr in d: res+=d[curr]+" " curr="" return res # t=int(input()) # for _ in range(t): n=int(input()) s=input() m=int(input()) d={} for i in range(m): name=input() d[name.lower()]=name print(solve(n,s,d)) ```	0
845	C	Two TVs	PROGRAMMING	1,500	[ "data structures", "greedy", "sortings" ]		null	null	Polycarp is a great fan of television. He wrote down all the TV programs he is interested in for today. His list contains n shows, i-th of them starts at moment li and ends at moment ri. Polycarp owns two TVs. He can watch two different shows simultaneously with two TVs but he can only watch one show at any given moment on a single TV. If one show ends at the same moment some other show starts then you can't watch them on a single TV. Polycarp wants to check out all n shows. Are two TVs enough to do so?	The first line contains one integer n (1<=≤<=n<=≤<=2·105) — the number of shows. Each of the next n lines contains two integers li and ri (0<=≤<=li<=<<=ri<=≤<=109) — starting and ending time of i-th show.	If Polycarp is able to check out all the shows using only two TVs then print "YES" (without quotes). Otherwise, print "NO" (without quotes).	[ "3\n1 2\n2 3\n4 5\n", "4\n1 2\n2 3\n2 3\n1 2\n" ]	[ "YES\n", "NO\n" ]	none	0	[ { "input": "3\n1 2\n2 3\n4 5", "output": "YES" }, { "input": "4\n1 2\n2 3\n2 3\n1 2", "output": "NO" }, { "input": "4\n0 1\n1 2\n2 3\n3 4", "output": "YES" }, { "input": "3\n1 2\n2 3\n2 4", "output": "NO" }, { "input": "3\n0 100\n0 100\n0 100", "output": "NO" ...	1,621,268,023	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	16	1,200	18,739,200	from itertools import permutations, combinations import heapq from collections import OrderedDict import bisect from functools import cmp_to_key from collections import deque import string from collections import Counter from collections import defaultdict from math import sqrt import math import sys try: sys.stdin = open('inputf.in', 'r') sys.stdout=open('outputf.in','w') except: pass # hello # sys.setrecursionlimit(6000) # ------------------------------------------------ # importing libraries # ------------------------------------------------ # input snippets def ii(): return int(sys.stdin.readline().strip()) def si(): return sys.stdin.readline().strip() def li(): return list(map(int, sys.stdin.readline().strip().split())) def mi(): return map(int, sys.stdin.readline().strip().split()) def dparr(m, n): return [[0]*n for i in range(m)] # ------------------------------------------------ n=ii() show=[] for i in range(n): a,b=mi() show.append([a,b]) show.sort() tv1=show[0] tv2=show[1] b=True if(len(show)>=3): for i in range(2,n): if(show[i][0]>tv1[1]): tv1=show[i] elif(show[i][0]>tv2[1]): tv2=show[i] else: b=False break if(b): print("YES") else: print("NO")	Title: Two TVs Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarp is a great fan of television. He wrote down all the TV programs he is interested in for today. His list contains n shows, i-th of them starts at moment li and ends at moment ri. Polycarp owns two TVs. He can watch two different shows simultaneously with two TVs but he can only watch one show at any given moment on a single TV. If one show ends at the same moment some other show starts then you can't watch them on a single TV. Polycarp wants to check out all n shows. Are two TVs enough to do so? Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=2·105) — the number of shows. Each of the next n lines contains two integers li and ri (0<=≤<=li<=<<=ri<=≤<=109) — starting and ending time of i-th show. Output Specification: If Polycarp is able to check out all the shows using only two TVs then print "YES" (without quotes). Otherwise, print "NO" (without quotes). Demo Input: ['3\n1 2\n2 3\n4 5\n', '4\n1 2\n2 3\n2 3\n1 2\n'] Demo Output: ['YES\n', 'NO\n'] Note: none	```python from itertools import permutations, combinations import heapq from collections import OrderedDict import bisect from functools import cmp_to_key from collections import deque import string from collections import Counter from collections import defaultdict from math import sqrt import math import sys try: sys.stdin = open('inputf.in', 'r') sys.stdout=open('outputf.in','w') except: pass # hello # sys.setrecursionlimit(6000) # ------------------------------------------------ # importing libraries # ------------------------------------------------ # input snippets def ii(): return int(sys.stdin.readline().strip()) def si(): return sys.stdin.readline().strip() def li(): return list(map(int, sys.stdin.readline().strip().split())) def mi(): return map(int, sys.stdin.readline().strip().split()) def dparr(m, n): return [[0]*n for i in range(m)] # ------------------------------------------------ n=ii() show=[] for i in range(n): a,b=mi() show.append([a,b]) show.sort() tv1=show[0] tv2=show[1] b=True if(len(show)>=3): for i in range(2,n): if(show[i][0]>tv1[1]): tv1=show[i] elif(show[i][0]>tv2[1]): tv2=show[i] else: b=False break if(b): print("YES") else: print("NO") ```	-1
350	A	TL	PROGRAMMING	1,200	[ "brute force", "greedy", "implementation" ]		null	null	Valera wanted to prepare a Codesecrof round. He's already got one problem and he wants to set a time limit (TL) on it. Valera has written n correct solutions. For each correct solution, he knows its running time (in seconds). Valera has also wrote m wrong solutions and for each wrong solution he knows its running time (in seconds). Let's suppose that Valera will set v seconds TL in the problem. Then we can say that a solution passes the system testing if its running time is at most v seconds. We can also say that a solution passes the system testing with some "extra" time if for its running time, a seconds, an inequality 2a<=≤<=v holds. As a result, Valera decided to set v seconds TL, that the following conditions are met: 1. v is a positive integer; 1. all correct solutions pass the system testing; 1. at least one correct solution passes the system testing with some "extra" time; 1. all wrong solutions do not pass the system testing; 1. value v is minimum among all TLs, for which points 1, 2, 3, 4 hold. Help Valera and find the most suitable TL or else state that such TL doesn't exist.	The first line contains two integers n, m (1<=≤<=n,<=m<=≤<=100). The second line contains n space-separated positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100) — the running time of each of the n correct solutions in seconds. The third line contains m space-separated positive integers b1,<=b2,<=...,<=bm (1<=≤<=bi<=≤<=100) — the running time of each of m wrong solutions in seconds.	If there is a valid TL value, print it. Otherwise, print -1.	[ "3 6\n4 5 2\n8 9 6 10 7 11\n", "3 1\n3 4 5\n6\n" ]	[ "5", "-1\n" ]	none	500	[ { "input": "3 6\n4 5 2\n8 9 6 10 7 11", "output": "5" }, { "input": "3 1\n3 4 5\n6", "output": "-1" }, { "input": "2 5\n45 99\n49 41 77 83 45", "output": "-1" }, { "input": "50 50\n18 13 5 34 10 36 36 12 15 11 16 17 14 36 23 45 32 24 31 18 24 32 7 1 31 3 49 8 16 23 3 39 47 43...	1,604,990,742	2,147,483,647	PyPy 3	OK	TESTS	45	280	0	n,m=map(int,input().split()) l=list(map(int,input().split())) s=list(map(int,input().split())) v=min(l) p=max(l) c=min(s) if max(v2,p)<c: print(max(v2,p)) else: print(-1)	Title: TL Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera wanted to prepare a Codesecrof round. He's already got one problem and he wants to set a time limit (TL) on it. Valera has written n correct solutions. For each correct solution, he knows its running time (in seconds). Valera has also wrote m wrong solutions and for each wrong solution he knows its running time (in seconds). Let's suppose that Valera will set v seconds TL in the problem. Then we can say that a solution passes the system testing if its running time is at most v seconds. We can also say that a solution passes the system testing with some "extra" time if for its running time, a seconds, an inequality 2a<=≤<=v holds. As a result, Valera decided to set v seconds TL, that the following conditions are met: 1. v is a positive integer; 1. all correct solutions pass the system testing; 1. at least one correct solution passes the system testing with some "extra" time; 1. all wrong solutions do not pass the system testing; 1. value v is minimum among all TLs, for which points 1, 2, 3, 4 hold. Help Valera and find the most suitable TL or else state that such TL doesn't exist. Input Specification: The first line contains two integers n, m (1<=≤<=n,<=m<=≤<=100). The second line contains n space-separated positive integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=100) — the running time of each of the n correct solutions in seconds. The third line contains m space-separated positive integers b1,<=b2,<=...,<=bm (1<=≤<=bi<=≤<=100) — the running time of each of m wrong solutions in seconds. Output Specification: If there is a valid TL value, print it. Otherwise, print -1. Demo Input: ['3 6\n4 5 2\n8 9 6 10 7 11\n', '3 1\n3 4 5\n6\n'] Demo Output: ['5', '-1\n'] Note: none	```python n,m=map(int,input().split()) l=list(map(int,input().split())) s=list(map(int,input().split())) v=min(l) p=max(l) c=min(s) if max(v2,p)<c: print(max(v2,p)) else: print(-1) ```	3
625	D	Finals in arithmetic	PROGRAMMING	2,400	[ "constructive algorithms", "implementation", "math" ]		null	null	Vitya is studying in the third grade. During the last math lesson all the pupils wrote on arithmetic quiz. Vitya is a clever boy, so he managed to finish all the tasks pretty fast and Oksana Fillipovna gave him a new one, that is much harder. Let's denote a flip operation of an integer as follows: number is considered in decimal notation and then reverted. If there are any leading zeroes afterwards, they are thrown away. For example, if we flip 123 the result is the integer 321, but flipping 130 we obtain 31, and by flipping 31 we come to 13. Oksana Fillipovna picked some number a without leading zeroes, and flipped it to get number ar. Then she summed a and ar, and told Vitya the resulting value n. His goal is to find any valid a. As Oksana Fillipovna picked some small integers as a and ar, Vitya managed to find the answer pretty fast and became interested in finding some general algorithm to deal with this problem. Now, he wants you to write the program that for given n finds any a without leading zeroes, such that a<=+<=ar<==<=n or determine that such a doesn't exist.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=10100<=000).	If there is no such positive integer a without leading zeroes that a<=+<=ar<==<=n then print 0. Otherwise, print any valid a. If there are many possible answers, you are allowed to pick any.	[ "4\n", "11\n", "5\n", "33\n" ]	[ "2\n", "10\n", "0\n", "21\n" ]	In the first sample 4 = 2 + 2, a = 2 is the only possibility. In the second sample 11 = 10 + 1, a = 10 — the only valid solution. Note, that a = 01 is incorrect, because a can't have leading zeroes. It's easy to check that there is no suitable a in the third sample. In the fourth sample 33 = 30 + 3 = 12 + 21, so there are three possibilities for a: a = 30, a = 12, a = 21. Any of these is considered to be correct answer.	2,000	[ { "input": "4", "output": "2" }, { "input": "11", "output": "10" }, { "input": "5", "output": "0" }, { "input": "33", "output": "21" }, { "input": "1", "output": "0" }, { "input": "99", "output": "54" }, { "input": "100", "output": "0" ...	1,457,934,173	7,073	Python 3	WRONG_ANSWER	TESTS	6	62	307,200	def digits(n): rd = [] while n: n, d = divmod(n, 10) rd.append(d) return list(reversed(rd)) def _ifs(dn, i, j, ci, cj, al, ar): while i < j: di = dn[i] + 10ci dj = dn[j] - cj for (ci, cj) in ((0, 0), (0, 1), (1, 0), (1, 1)): d = di - ci if d < 0 or d > 18: continue if dj + 10cj == d: if d < 10: al.append(d) ar.append(0) else: al.append(9) ar.append(d-9) break else: return i += 1 j -= 1 if i == j: d = dn[i] + 10*ci - cj if d < 0 or d % 2: return al.append(d//2) else: if ci != cj: return return al + list(reversed(ar)) def inv_fsum(n): dn = digits(n) if dn[0] == 1: return (_ifs(dn, 0, len(dn)-1, 0, 0, [], []) or _ifs(dn, 1, len(dn)-1, 1, 0, [], []) or [0]) else: return _ifs(dn, 0, len(dn)-1, 0, 0, [], []) or [0] if __name__ == '__main__': n = int(input()) print(''.join(map(str, inv_fsum(n))))	Title: Finals in arithmetic Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vitya is studying in the third grade. During the last math lesson all the pupils wrote on arithmetic quiz. Vitya is a clever boy, so he managed to finish all the tasks pretty fast and Oksana Fillipovna gave him a new one, that is much harder. Let's denote a flip operation of an integer as follows: number is considered in decimal notation and then reverted. If there are any leading zeroes afterwards, they are thrown away. For example, if we flip 123 the result is the integer 321, but flipping 130 we obtain 31, and by flipping 31 we come to 13. Oksana Fillipovna picked some number a without leading zeroes, and flipped it to get number ar. Then she summed a and ar, and told Vitya the resulting value n. His goal is to find any valid a. As Oksana Fillipovna picked some small integers as a and ar, Vitya managed to find the answer pretty fast and became interested in finding some general algorithm to deal with this problem. Now, he wants you to write the program that for given n finds any a without leading zeroes, such that a<=+<=ar<==<=n or determine that such a doesn't exist. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=10100<=000). Output Specification: If there is no such positive integer a without leading zeroes that a<=+<=ar<==<=n then print 0. Otherwise, print any valid a. If there are many possible answers, you are allowed to pick any. Demo Input: ['4\n', '11\n', '5\n', '33\n'] Demo Output: ['2\n', '10\n', '0\n', '21\n'] Note: In the first sample 4 = 2 + 2, a = 2 is the only possibility. In the second sample 11 = 10 + 1, a = 10 — the only valid solution. Note, that a = 01 is incorrect, because a can't have leading zeroes. It's easy to check that there is no suitable a in the third sample. In the fourth sample 33 = 30 + 3 = 12 + 21, so there are three possibilities for a: a = 30, a = 12, a = 21. Any of these is considered to be correct answer.	```python def digits(n): rd = [] while n: n, d = divmod(n, 10) rd.append(d) return list(reversed(rd)) def _ifs(dn, i, j, ci, cj, al, ar): while i < j: di = dn[i] + 10ci dj = dn[j] - cj for (ci, cj) in ((0, 0), (0, 1), (1, 0), (1, 1)): d = di - ci if d < 0 or d > 18: continue if dj + 10cj == d: if d < 10: al.append(d) ar.append(0) else: al.append(9) ar.append(d-9) break else: return i += 1 j -= 1 if i == j: d = dn[i] + 10*ci - cj if d < 0 or d % 2: return al.append(d//2) else: if ci != cj: return return al + list(reversed(ar)) def inv_fsum(n): dn = digits(n) if dn[0] == 1: return (_ifs(dn, 0, len(dn)-1, 0, 0, [], []) or _ifs(dn, 1, len(dn)-1, 1, 0, [], []) or [0]) else: return _ifs(dn, 0, len(dn)-1, 0, 0, [], []) or [0] if __name__ == '__main__': n = int(input()) print(''.join(map(str, inv_fsum(n)))) ```	0
168	A	Wizards and Demonstration	PROGRAMMING	900	[ "implementation", "math" ]		null	null	Some country is populated by wizards. They want to organize a demonstration. There are n people living in the city, x of them are the wizards who will surely go to the demonstration. Other city people (n<=-<=x people) do not support the wizards and aren't going to go to the demonstration. We know that the city administration will react only to the demonstration involving at least y percent of the city people. Having considered the matter, the wizards decided to create clone puppets which can substitute the city people on the demonstration. So all in all, the demonstration will involve only the wizards and their puppets. The city administration cannot tell the difference between a puppet and a person, so, as they calculate the percentage, the administration will consider the city to be consisting of only n people and not containing any clone puppets. Help the wizards and find the minimum number of clones to create to that the demonstration had no less than y percent of the city people.	The first line contains three space-separated integers, n, x, y (1<=≤<=n,<=x,<=y<=≤<=104,<=x<=≤<=n) — the number of citizens in the city, the number of wizards and the percentage the administration needs, correspondingly. Please note that y can exceed 100 percent, that is, the administration wants to see on a demonstration more people that actually live in the city (<=><=n).	Print a single integer — the answer to the problem, the minimum number of clones to create, so that the demonstration involved no less than y percent of n (the real total city population).	[ "10 1 14\n", "20 10 50\n", "1000 352 146\n" ]	[ "1\n", "0\n", "1108\n" ]	In the first sample it is necessary that at least 14% of 10 people came to the demonstration. As the number of people should be integer, then at least two people should come. There is only one wizard living in the city and he is going to come. That isn't enough, so he needs to create one clone. In the second sample 10 people should come to the demonstration. The city has 10 wizards. They will all come to the demonstration, so nobody has to create any clones.	500	[ { "input": "10 1 14", "output": "1" }, { "input": "20 10 50", "output": "0" }, { "input": "1000 352 146", "output": "1108" }, { "input": "68 65 20", "output": "0" }, { "input": "78 28 27", "output": "0" }, { "input": "78 73 58", "output": "0" }, ...	1,633,278,158	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	0	92	20,172,800	n, x, y = map(int, input().split()) ans = n / 100 * y if ans <= x: print(0) elif ans - x != 0: print(int((ans - x) // 1)) else: print(int(ans - x) // 1 + 1)	Title: Wizards and Demonstration Time Limit: None seconds Memory Limit: None megabytes Problem Description: Some country is populated by wizards. They want to organize a demonstration. There are n people living in the city, x of them are the wizards who will surely go to the demonstration. Other city people (n<=-<=x people) do not support the wizards and aren't going to go to the demonstration. We know that the city administration will react only to the demonstration involving at least y percent of the city people. Having considered the matter, the wizards decided to create clone puppets which can substitute the city people on the demonstration. So all in all, the demonstration will involve only the wizards and their puppets. The city administration cannot tell the difference between a puppet and a person, so, as they calculate the percentage, the administration will consider the city to be consisting of only n people and not containing any clone puppets. Help the wizards and find the minimum number of clones to create to that the demonstration had no less than y percent of the city people. Input Specification: The first line contains three space-separated integers, n, x, y (1<=≤<=n,<=x,<=y<=≤<=104,<=x<=≤<=n) — the number of citizens in the city, the number of wizards and the percentage the administration needs, correspondingly. Please note that y can exceed 100 percent, that is, the administration wants to see on a demonstration more people that actually live in the city (<=><=n). Output Specification: Print a single integer — the answer to the problem, the minimum number of clones to create, so that the demonstration involved no less than y percent of n (the real total city population). Demo Input: ['10 1 14\n', '20 10 50\n', '1000 352 146\n'] Demo Output: ['1\n', '0\n', '1108\n'] Note: In the first sample it is necessary that at least 14% of 10 people came to the demonstration. As the number of people should be integer, then at least two people should come. There is only one wizard living in the city and he is going to come. That isn't enough, so he needs to create one clone. In the second sample 10 people should come to the demonstration. The city has 10 wizards. They will all come to the demonstration, so nobody has to create any clones.	```python n, x, y = map(int, input().split()) ans = n / 100 * y if ans <= x: print(0) elif ans - x != 0: print(int((ans - x) // 1)) else: print(int(ans - x) // 1 + 1) ```	0
573	A	Bear and Poker	PROGRAMMING	1,300	[ "implementation", "math", "number theory" ]		null	null	Limak is an old brown bear. He often plays poker with his friends. Today they went to a casino. There are n players (including Limak himself) and right now all of them have bids on the table. i-th of them has bid with size ai dollars. Each player can double his bid any number of times and triple his bid any number of times. The casino has a great jackpot for making all bids equal. Is it possible that Limak and his friends will win a jackpot?	First line of input contains an integer n (2<=≤<=n<=≤<=105), the number of players. The second line contains n integer numbers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the bids of players.	Print "Yes" (without the quotes) if players can make their bids become equal, or "No" otherwise.	[ "4\n75 150 75 50\n", "3\n100 150 250\n" ]	[ "Yes\n", "No\n" ]	In the first sample test first and third players should double their bids twice, second player should double his bid once and fourth player should both double and triple his bid. It can be shown that in the second sample test there is no way to make all bids equal.	500	[ { "input": "4\n75 150 75 50", "output": "Yes" }, { "input": "3\n100 150 250", "output": "No" }, { "input": "7\n34 34 68 34 34 68 34", "output": "Yes" }, { "input": "10\n72 96 12 18 81 20 6 2 54 1", "output": "No" }, { "input": "20\n958692492 954966768 77387000 724...	1,554,677,020	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	93	0	n = int(input()) l = [int(i) for i in input().split()] l.sort() itJustWorks = True r = l[len(l)-1] for i in range(n): if(r%l[i] == 0): if(r//l[i] != 2 and r//l[i] != 3): itJustWorks = False break else: itJustWorks = False break print("Yes") if itJustWorks else print("No")	Title: Bear and Poker Time Limit: None seconds Memory Limit: None megabytes Problem Description: Limak is an old brown bear. He often plays poker with his friends. Today they went to a casino. There are n players (including Limak himself) and right now all of them have bids on the table. i-th of them has bid with size ai dollars. Each player can double his bid any number of times and triple his bid any number of times. The casino has a great jackpot for making all bids equal. Is it possible that Limak and his friends will win a jackpot? Input Specification: First line of input contains an integer n (2<=≤<=n<=≤<=105), the number of players. The second line contains n integer numbers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the bids of players. Output Specification: Print "Yes" (without the quotes) if players can make their bids become equal, or "No" otherwise. Demo Input: ['4\n75 150 75 50\n', '3\n100 150 250\n'] Demo Output: ['Yes\n', 'No\n'] Note: In the first sample test first and third players should double their bids twice, second player should double his bid once and fourth player should both double and triple his bid. It can be shown that in the second sample test there is no way to make all bids equal.	```python n = int(input()) l = [int(i) for i in input().split()] l.sort() itJustWorks = True r = l[len(l)-1] for i in range(n): if(r%l[i] == 0): if(r//l[i] != 2 and r//l[i] != 3): itJustWorks = False break else: itJustWorks = False break print("Yes") if itJustWorks else print("No") ```	0
540	A	Combination Lock	PROGRAMMING	800	[ "implementation" ]		null	null	Scrooge McDuck keeps his most treasured savings in a home safe with a combination lock. Each time he wants to put there the treasures that he's earned fair and square, he has to open the lock. The combination lock is represented by n rotating disks with digits from 0 to 9 written on them. Scrooge McDuck has to turn some disks so that the combination of digits on the disks forms a secret combination. In one move, he can rotate one disk one digit forwards or backwards. In particular, in one move he can go from digit 0 to digit 9 and vice versa. What minimum number of actions does he need for that?	The first line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of disks on the combination lock. The second line contains a string of n digits — the original state of the disks. The third line contains a string of n digits — Scrooge McDuck's combination that opens the lock.	Print a single integer — the minimum number of moves Scrooge McDuck needs to open the lock.	[ "5\n82195\n64723\n" ]	[ "13\n" ]	In the sample he needs 13 moves: - 1 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b8967f65a723782358b93eff9ce69f336817cf70.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 2 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/07fa58573ece0d32c4d555e498d2b24d2f70f36a.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 3 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/cc2275d9252aae35a6867c6a5b4ba7596e9a7626.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 4 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b100aea470fcaaab4e9529b234ba0d7875943c10.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 5 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/eb2cbe4324cebca65b85816262a85e473cd65967.png" style="max-width: 100.0%;max-height: 100.0%;"/>	500	[ { "input": "5\n82195\n64723", "output": "13" }, { "input": "12\n102021090898\n010212908089", "output": "16" }, { "input": "1\n8\n1", "output": "3" }, { "input": "2\n83\n57", "output": "7" }, { "input": "10\n0728592530\n1362615763", "output": "27" }, { ...	1,663,446,454	2,147,483,647	Python 3	OK	TESTS	43	46	0	h = int(input()) ingre=input() contra=input() total = 0 for i in range (0,h): opa= abs(int(ingre[i])-int(contra[i])) opb = abs((int(ingre[i])+10)-int(contra[i])) opc = abs((int(contra[i])+10)-int(ingre[i])) if (opa <= opb and opa<=opc): total = total+opa else: if (opb <= opc and opb<=opa): total = total+opb else: total = total+opc print(total)	Title: Combination Lock Time Limit: None seconds Memory Limit: None megabytes Problem Description: Scrooge McDuck keeps his most treasured savings in a home safe with a combination lock. Each time he wants to put there the treasures that he's earned fair and square, he has to open the lock. The combination lock is represented by n rotating disks with digits from 0 to 9 written on them. Scrooge McDuck has to turn some disks so that the combination of digits on the disks forms a secret combination. In one move, he can rotate one disk one digit forwards or backwards. In particular, in one move he can go from digit 0 to digit 9 and vice versa. What minimum number of actions does he need for that? Input Specification: The first line contains a single integer n (1<=≤<=n<=≤<=1000) — the number of disks on the combination lock. The second line contains a string of n digits — the original state of the disks. The third line contains a string of n digits — Scrooge McDuck's combination that opens the lock. Output Specification: Print a single integer — the minimum number of moves Scrooge McDuck needs to open the lock. Demo Input: ['5\n82195\n64723\n'] Demo Output: ['13\n'] Note: In the sample he needs 13 moves: - 1 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b8967f65a723782358b93eff9ce69f336817cf70.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 2 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/07fa58573ece0d32c4d555e498d2b24d2f70f36a.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 3 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/cc2275d9252aae35a6867c6a5b4ba7596e9a7626.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 4 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/b100aea470fcaaab4e9529b234ba0d7875943c10.png" style="max-width: 100.0%;max-height: 100.0%;"/> - 5 disk: <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/eb2cbe4324cebca65b85816262a85e473cd65967.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python h = int(input()) ingre=input() contra=input() total = 0 for i in range (0,h): opa= abs(int(ingre[i])-int(contra[i])) opb = abs((int(ingre[i])+10)-int(contra[i])) opc = abs((int(contra[i])+10)-int(ingre[i])) if (opa <= opb and opa<=opc): total = total+opa else: if (opb <= opc and opb<=opa): total = total+opb else: total = total+opc print(total) ```	3
448	A	Rewards	PROGRAMMING	800	[ "implementation" ]		null	null	Bizon the Champion is called the Champion for a reason. Bizon the Champion has recently got a present — a new glass cupboard with n shelves and he decided to put all his presents there. All the presents can be divided into two types: medals and cups. Bizon the Champion has a1 first prize cups, a2 second prize cups and a3 third prize cups. Besides, he has b1 first prize medals, b2 second prize medals and b3 third prize medals. Naturally, the rewards in the cupboard must look good, that's why Bizon the Champion decided to follow the rules: - any shelf cannot contain both cups and medals at the same time; - no shelf can contain more than five cups; - no shelf can have more than ten medals. Help Bizon the Champion find out if we can put all the rewards so that all the conditions are fulfilled.	The first line contains integers a1, a2 and a3 (0<=≤<=a1,<=a2,<=a3<=≤<=100). The second line contains integers b1, b2 and b3 (0<=≤<=b1,<=b2,<=b3<=≤<=100). The third line contains integer n (1<=≤<=n<=≤<=100). The numbers in the lines are separated by single spaces.	Print "YES" (without the quotes) if all the rewards can be put on the shelves in the described manner. Otherwise, print "NO" (without the quotes).	[ "1 1 1\n1 1 1\n4\n", "1 1 3\n2 3 4\n2\n", "1 0 0\n1 0 0\n1\n" ]	[ "YES\n", "YES\n", "NO\n" ]	none	500	[ { "input": "1 1 1\n1 1 1\n4", "output": "YES" }, { "input": "1 1 3\n2 3 4\n2", "output": "YES" }, { "input": "1 0 0\n1 0 0\n1", "output": "NO" }, { "input": "0 0 0\n0 0 0\n1", "output": "YES" }, { "input": "100 100 100\n100 100 100\n100", "output": "YES" }, ...	1,669,958,882	2,147,483,647	PyPy 3-64	OK	TESTS	25	61	0	from math import ceil as c print('YES' if c(sum(list(map(int,input().split())))/5) + c(sum(list(map(int,input().split())))/10) <= int(input()) else 'NO')	Title: Rewards Time Limit: None seconds Memory Limit: None megabytes Problem Description: Bizon the Champion is called the Champion for a reason. Bizon the Champion has recently got a present — a new glass cupboard with n shelves and he decided to put all his presents there. All the presents can be divided into two types: medals and cups. Bizon the Champion has a1 first prize cups, a2 second prize cups and a3 third prize cups. Besides, he has b1 first prize medals, b2 second prize medals and b3 third prize medals. Naturally, the rewards in the cupboard must look good, that's why Bizon the Champion decided to follow the rules: - any shelf cannot contain both cups and medals at the same time; - no shelf can contain more than five cups; - no shelf can have more than ten medals. Help Bizon the Champion find out if we can put all the rewards so that all the conditions are fulfilled. Input Specification: The first line contains integers a1, a2 and a3 (0<=≤<=a1,<=a2,<=a3<=≤<=100). The second line contains integers b1, b2 and b3 (0<=≤<=b1,<=b2,<=b3<=≤<=100). The third line contains integer n (1<=≤<=n<=≤<=100). The numbers in the lines are separated by single spaces. Output Specification: Print "YES" (without the quotes) if all the rewards can be put on the shelves in the described manner. Otherwise, print "NO" (without the quotes). Demo Input: ['1 1 1\n1 1 1\n4\n', '1 1 3\n2 3 4\n2\n', '1 0 0\n1 0 0\n1\n'] Demo Output: ['YES\n', 'YES\n', 'NO\n'] Note: none	```python from math import ceil as c print('YES' if c(sum(list(map(int,input().split())))/5) + c(sum(list(map(int,input().split())))/10) <= int(input()) else 'NO') ```	3
620	A	Professor GukiZ's Robot	PROGRAMMING	800	[ "implementation", "math" ]		null	null	Professor GukiZ makes a new robot. The robot are in the point with coordinates (x1,<=y1) and should go to the point (x2,<=y2). In a single step the robot can change any of its coordinates (maybe both of them) by one (decrease or increase). So the robot can move in one of the 8 directions. Find the minimal number of steps the robot should make to get the finish position.	The first line contains two integers x1,<=y1 (<=-<=109<=≤<=x1,<=y1<=≤<=109) — the start position of the robot. The second line contains two integers x2,<=y2 (<=-<=109<=≤<=x2,<=y2<=≤<=109) — the finish position of the robot.	Print the only integer d — the minimal number of steps to get the finish position.	[ "0 0\n4 5\n", "3 4\n6 1\n" ]	[ "5\n", "3\n" ]	In the first example robot should increase both of its coordinates by one four times, so it will be in position (4, 4). After that robot should simply increase its y coordinate and get the finish position. In the second example robot should simultaneously increase x coordinate and decrease y coordinate by one three times.	0	[ { "input": "0 0\n4 5", "output": "5" }, { "input": "3 4\n6 1", "output": "3" }, { "input": "0 0\n4 6", "output": "6" }, { "input": "1 1\n-3 -5", "output": "6" }, { "input": "-1 -1\n-10 100", "output": "101" }, { "input": "1 -1\n100 -100", "output":...	1,616,154,351	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	5	46	0	a,b=map(int,input().split(' ')) x,y=map(int,input().split(' ')) maxi=min(abs(a),abs(b)) maxi2=max(abs(x),abs(y)) if (a<0 or b<0) or (x<0 or y<0): print((maxi2-maxi)+2) else: print(maxi2-maxi)	Title: Professor GukiZ's Robot Time Limit: None seconds Memory Limit: None megabytes Problem Description: Professor GukiZ makes a new robot. The robot are in the point with coordinates (x1,<=y1) and should go to the point (x2,<=y2). In a single step the robot can change any of its coordinates (maybe both of them) by one (decrease or increase). So the robot can move in one of the 8 directions. Find the minimal number of steps the robot should make to get the finish position. Input Specification: The first line contains two integers x1,<=y1 (<=-<=109<=≤<=x1,<=y1<=≤<=109) — the start position of the robot. The second line contains two integers x2,<=y2 (<=-<=109<=≤<=x2,<=y2<=≤<=109) — the finish position of the robot. Output Specification: Print the only integer d — the minimal number of steps to get the finish position. Demo Input: ['0 0\n4 5\n', '3 4\n6 1\n'] Demo Output: ['5\n', '3\n'] Note: In the first example robot should increase both of its coordinates by one four times, so it will be in position (4, 4). After that robot should simply increase its y coordinate and get the finish position. In the second example robot should simultaneously increase x coordinate and decrease y coordinate by one three times.	```python a,b=map(int,input().split(' ')) x,y=map(int,input().split(' ')) maxi=min(abs(a),abs(b)) maxi2=max(abs(x),abs(y)) if (a<0 or b<0) or (x<0 or y<0): print((maxi2-maxi)+2) else: print(maxi2-maxi) ```	0
677	A	Vanya and Fence	PROGRAMMING	800	[ "implementation" ]		null	null	Vanya and his friends are walking along the fence of height h and they do not want the guard to notice them. In order to achieve this the height of each of the friends should not exceed h. If the height of some person is greater than h he can bend down and then he surely won't be noticed by the guard. The height of the i-th person is equal to ai. Consider the width of the person walking as usual to be equal to 1, while the width of the bent person is equal to 2. Friends want to talk to each other while walking, so they would like to walk in a single row. What is the minimum width of the road, such that friends can walk in a row and remain unattended by the guard?	The first line of the input contains two integers n and h (1<=≤<=n<=≤<=1000, 1<=≤<=h<=≤<=1000) — the number of friends and the height of the fence, respectively. The second line contains n integers ai (1<=≤<=ai<=≤<=2h), the i-th of them is equal to the height of the i-th person.	Print a single integer — the minimum possible valid width of the road.	[ "3 7\n4 5 14\n", "6 1\n1 1 1 1 1 1\n", "6 5\n7 6 8 9 10 5\n" ]	[ "4\n", "6\n", "11\n" ]	In the first sample, only person number 3 must bend down, so the required width is equal to 1 + 1 + 2 = 4. In the second sample, all friends are short enough and no one has to bend, so the width 1 + 1 + 1 + 1 + 1 + 1 = 6 is enough. In the third sample, all the persons have to bend, except the last one. The required minimum width of the road is equal to 2 + 2 + 2 + 2 + 2 + 1 = 11.	500	[ { "input": "3 7\n4 5 14", "output": "4" }, { "input": "6 1\n1 1 1 1 1 1", "output": "6" }, { "input": "6 5\n7 6 8 9 10 5", "output": "11" }, { "input": "10 420\n214 614 297 675 82 740 174 23 255 15", "output": "13" }, { "input": "10 561\n657 23 1096 487 785 66 481...	1,697,993,029	2,147,483,647	PyPy 3-64	OK	TESTS	29	62	0	a,b=map(int ,input().split()) l=list(map(int,input().split())) sum=0 for i in l: if i<=b: sum+=1 else: sum+=2 print(sum)	Title: Vanya and Fence Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vanya and his friends are walking along the fence of height h and they do not want the guard to notice them. In order to achieve this the height of each of the friends should not exceed h. If the height of some person is greater than h he can bend down and then he surely won't be noticed by the guard. The height of the i-th person is equal to ai. Consider the width of the person walking as usual to be equal to 1, while the width of the bent person is equal to 2. Friends want to talk to each other while walking, so they would like to walk in a single row. What is the minimum width of the road, such that friends can walk in a row and remain unattended by the guard? Input Specification: The first line of the input contains two integers n and h (1<=≤<=n<=≤<=1000, 1<=≤<=h<=≤<=1000) — the number of friends and the height of the fence, respectively. The second line contains n integers ai (1<=≤<=ai<=≤<=2h), the i-th of them is equal to the height of the i-th person. Output Specification: Print a single integer — the minimum possible valid width of the road. Demo Input: ['3 7\n4 5 14\n', '6 1\n1 1 1 1 1 1\n', '6 5\n7 6 8 9 10 5\n'] Demo Output: ['4\n', '6\n', '11\n'] Note: In the first sample, only person number 3 must bend down, so the required width is equal to 1 + 1 + 2 = 4. In the second sample, all friends are short enough and no one has to bend, so the width 1 + 1 + 1 + 1 + 1 + 1 = 6 is enough. In the third sample, all the persons have to bend, except the last one. The required minimum width of the road is equal to 2 + 2 + 2 + 2 + 2 + 1 = 11.	```python a,b=map(int ,input().split()) l=list(map(int,input().split())) sum=0 for i in l: if i<=b: sum+=1 else: sum+=2 print(sum) ```	3
597	B	Restaurant	PROGRAMMING	1,600	[ "dp", "greedy", "sortings" ]		null	null	A restaurant received n orders for the rental. Each rental order reserve the restaurant for a continuous period of time, the i-th order is characterized by two time values — the start time li and the finish time ri (li<=≤<=ri). Restaurant management can accept and reject orders. What is the maximal number of orders the restaurant can accept? No two accepted orders can intersect, i.e. they can't share even a moment of time. If one order ends in the moment other starts, they can't be accepted both.	The first line contains integer number n (1<=≤<=n<=≤<=5·105) — number of orders. The following n lines contain integer values li and ri each (1<=≤<=li<=≤<=ri<=≤<=109).	Print the maximal number of orders that can be accepted.	[ "2\n7 11\n4 7\n", "5\n1 2\n2 3\n3 4\n4 5\n5 6\n", "6\n4 8\n1 5\n4 7\n2 5\n1 3\n6 8\n" ]	[ "1\n", "3\n", "2\n" ]	none	1,000	[ { "input": "2\n7 11\n4 7", "output": "1" }, { "input": "5\n1 2\n2 3\n3 4\n4 5\n5 6", "output": "3" }, { "input": "6\n4 8\n1 5\n4 7\n2 5\n1 3\n6 8", "output": "2" }, { "input": "1\n1 1", "output": "1" }, { "input": "2\n4 6\n4 8", "output": "1" }, { "inp...	1,599,993,240	2,147,483,647	Python 3	OK	TESTS	70	2,401	40,857,600	n=int(input()) list1=[] for i in range(n): s,f=map(int,input().split()) list1.append([f,s]) list1.sort() c=1 temp=list1[0][0] for i in range(1,len(list1)): if list1[i][1]>temp: c=c+1 temp=list1[i][0] print(c)	Title: Restaurant Time Limit: None seconds Memory Limit: None megabytes Problem Description: A restaurant received n orders for the rental. Each rental order reserve the restaurant for a continuous period of time, the i-th order is characterized by two time values — the start time li and the finish time ri (li<=≤<=ri). Restaurant management can accept and reject orders. What is the maximal number of orders the restaurant can accept? No two accepted orders can intersect, i.e. they can't share even a moment of time. If one order ends in the moment other starts, they can't be accepted both. Input Specification: The first line contains integer number n (1<=≤<=n<=≤<=5·105) — number of orders. The following n lines contain integer values li and ri each (1<=≤<=li<=≤<=ri<=≤<=109). Output Specification: Print the maximal number of orders that can be accepted. Demo Input: ['2\n7 11\n4 7\n', '5\n1 2\n2 3\n3 4\n4 5\n5 6\n', '6\n4 8\n1 5\n4 7\n2 5\n1 3\n6 8\n'] Demo Output: ['1\n', '3\n', '2\n'] Note: none	```python n=int(input()) list1=[] for i in range(n): s,f=map(int,input().split()) list1.append([f,s]) list1.sort() c=1 temp=list1[0][0] for i in range(1,len(list1)): if list1[i][1]>temp: c=c+1 temp=list1[i][0] print(c) ```	3
991	E	Bus Number	PROGRAMMING	1,800	[ "brute force", "combinatorics", "math" ]		null	null	This night wasn't easy on Vasya. His favorite team lost, and he didn't find himself victorious either — although he played perfectly, his teammates let him down every time. He had to win at least one more time, but the losestreak only grew longer and longer... It's no wonder he didn't get any sleep this night at all. In the morning, Vasya was waiting the bus to the university on the bus stop. Vasya's thoughts were hazy and so he couldn't remember the right bus' number quite right and got onto the bus with the number $n$. In the bus, Vasya thought that he could get the order of the digits in the number of the bus wrong. Futhermore, he could "see" some digits several times, but the digits he saw were definitely in the real number of the bus. For example, if Vasya saw the number 2028, it could mean that the real bus number could be 2028, 8022, 2820 or just 820. However, numbers 80, 22208, 52 definitely couldn't be the number of the bus. Also, real bus number couldn't start with the digit 0, this meaning that, for example, number 082 couldn't be the real bus number too. Given $n$, determine the total number of possible bus number variants.	The first line contains one integer $n$ ($1 \leq n \leq 10^{18}$) — the number of the bus that was seen by Vasya. It is guaranteed that this number does not start with $0$.	Output a single integer — the amount of possible variants of the real bus number.	[ "97\n", "2028\n" ]	[ "2\n", "13\n" ]	In the first sample, only variants $97$ and $79$ are possible. In the second sample, the variants (in the increasing order) are the following: $208$, $280$, $802$, $820$, $2028$, $2082$, $2208$, $2280$, $2802$, $2820$, $8022$, $8202$, $8220$.	2,000	[ { "input": "97", "output": "2" }, { "input": "2028", "output": "13" }, { "input": "1", "output": "1" }, { "input": "10", "output": "1" }, { "input": "168", "output": "6" }, { "input": "999999", "output": "6" }, { "input": "98765432002345678...	1,614,495,551	5,351	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	6	1,000	266,342,400	import sys sys.setrecursionlimit(10*5) n = str(input()) C = [0]10 S = [] for c in n: C[int(c)] += 1 S.append(int(c)) #print(C) s = 0 for i in range(10): if C[i] != 0: s += 1 res = set() def dfs(A, S, T): if len(A) == len(n): res.add(tuple(A)) return if len(T) == s: res.add(tuple(A)) for i in range(len(S)): dfs(A+[S[i]], S[0:i]+S[i+1:len(S)], T\|{S[i]}) dfs([], S, set()) #print(res) ans = 0 for t in res: if t[0] == 0: continue ans += 1 print(ans)	Title: Bus Number Time Limit: None seconds Memory Limit: None megabytes Problem Description: This night wasn't easy on Vasya. His favorite team lost, and he didn't find himself victorious either — although he played perfectly, his teammates let him down every time. He had to win at least one more time, but the losestreak only grew longer and longer... It's no wonder he didn't get any sleep this night at all. In the morning, Vasya was waiting the bus to the university on the bus stop. Vasya's thoughts were hazy and so he couldn't remember the right bus' number quite right and got onto the bus with the number $n$. In the bus, Vasya thought that he could get the order of the digits in the number of the bus wrong. Futhermore, he could "see" some digits several times, but the digits he saw were definitely in the real number of the bus. For example, if Vasya saw the number 2028, it could mean that the real bus number could be 2028, 8022, 2820 or just 820. However, numbers 80, 22208, 52 definitely couldn't be the number of the bus. Also, real bus number couldn't start with the digit 0, this meaning that, for example, number 082 couldn't be the real bus number too. Given $n$, determine the total number of possible bus number variants. Input Specification: The first line contains one integer $n$ ($1 \leq n \leq 10^{18}$) — the number of the bus that was seen by Vasya. It is guaranteed that this number does not start with $0$. Output Specification: Output a single integer — the amount of possible variants of the real bus number. Demo Input: ['97\n', '2028\n'] Demo Output: ['2\n', '13\n'] Note: In the first sample, only variants $97$ and $79$ are possible. In the second sample, the variants (in the increasing order) are the following: $208$, $280$, $802$, $820$, $2028$, $2082$, $2208$, $2280$, $2802$, $2820$, $8022$, $8202$, $8220$.	```python import sys sys.setrecursionlimit(10*5) n = str(input()) C = [0]10 S = [] for c in n: C[int(c)] += 1 S.append(int(c)) #print(C) s = 0 for i in range(10): if C[i] != 0: s += 1 res = set() def dfs(A, S, T): if len(A) == len(n): res.add(tuple(A)) return if len(T) == s: res.add(tuple(A)) for i in range(len(S)): dfs(A+[S[i]], S[0:i]+S[i+1:len(S)], T\|{S[i]}) dfs([], S, set()) #print(res) ans = 0 for t in res: if t[0] == 0: continue ans += 1 print(ans) ```	0
4	A	Watermelon	PROGRAMMING	800	[ "brute force", "math" ]	A. Watermelon	1	64	One hot summer day Pete and his friend Billy decided to buy a watermelon. They chose the biggest and the ripest one, in their opinion. After that the watermelon was weighed, and the scales showed w kilos. They rushed home, dying of thirst, and decided to divide the berry, however they faced a hard problem. Pete and Billy are great fans of even numbers, that's why they want to divide the watermelon in such a way that each of the two parts weighs even number of kilos, at the same time it is not obligatory that the parts are equal. The boys are extremely tired and want to start their meal as soon as possible, that's why you should help them and find out, if they can divide the watermelon in the way they want. For sure, each of them should get a part of positive weight.	The first (and the only) input line contains integer number w (1<=≤<=w<=≤<=100) — the weight of the watermelon bought by the boys.	Print YES, if the boys can divide the watermelon into two parts, each of them weighing even number of kilos; and NO in the opposite case.	[ "8\n" ]	[ "YES\n" ]	For example, the boys can divide the watermelon into two parts of 2 and 6 kilos respectively (another variant — two parts of 4 and 4 kilos).	0	[ { "input": "8", "output": "YES" }, { "input": "5", "output": "NO" }, { "input": "4", "output": "YES" }, { "input": "3", "output": "NO" }, { "input": "2", "output": "NO" }, { "input": "1", "output": "NO" }, { "input": "7", "output": "NO"...	1,690,186,561	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	60	0	weight=int(input()) res=weight//2 if res%2==0: print("YES") else: print("NO")	Title: Watermelon Time Limit: 1 seconds Memory Limit: 64 megabytes Problem Description: One hot summer day Pete and his friend Billy decided to buy a watermelon. They chose the biggest and the ripest one, in their opinion. After that the watermelon was weighed, and the scales showed w kilos. They rushed home, dying of thirst, and decided to divide the berry, however they faced a hard problem. Pete and Billy are great fans of even numbers, that's why they want to divide the watermelon in such a way that each of the two parts weighs even number of kilos, at the same time it is not obligatory that the parts are equal. The boys are extremely tired and want to start their meal as soon as possible, that's why you should help them and find out, if they can divide the watermelon in the way they want. For sure, each of them should get a part of positive weight. Input Specification: The first (and the only) input line contains integer number w (1<=≤<=w<=≤<=100) — the weight of the watermelon bought by the boys. Output Specification: Print YES, if the boys can divide the watermelon into two parts, each of them weighing even number of kilos; and NO in the opposite case. Demo Input: ['8\n'] Demo Output: ['YES\n'] Note: For example, the boys can divide the watermelon into two parts of 2 and 6 kilos respectively (another variant — two parts of 4 and 4 kilos).	```python weight=int(input()) res=weight//2 if res%2==0: print("YES") else: print("NO") ```	0
912	B	New Year's Eve	PROGRAMMING	1,300	[ "bitmasks", "constructive algorithms", "number theory" ]		null	null	Since Grisha behaved well last year, at New Year's Eve he was visited by Ded Moroz who brought an enormous bag of gifts with him! The bag contains n sweet candies from the good ol' bakery, each labeled from 1 to n corresponding to its tastiness. No two candies have the same tastiness. The choice of candies has a direct effect on Grisha's happiness. One can assume that he should take the tastiest ones — but no, the holiday magic turns things upside down. It is the xor-sum of tastinesses that matters, not the ordinary sum! A xor-sum of a sequence of integers a1,<=a2,<=...,<=am is defined as the bitwise XOR of all its elements: , here denotes the bitwise XOR operation; more about bitwise XOR can be found [here.](https://en.wikipedia.org/wiki/Bitwise_operation#XOR) Ded Moroz warned Grisha he has more houses to visit, so Grisha can take no more than k candies from the bag. Help Grisha determine the largest xor-sum (largest xor-sum means maximum happiness!) he can obtain.	The sole string contains two integers n and k (1<=≤<=k<=≤<=n<=≤<=1018).	Output one number — the largest possible xor-sum.	[ "4 3\n", "6 6\n" ]	[ "7\n", "7\n" ]	In the first sample case, one optimal answer is 1, 2 and 4, giving the xor-sum of 7. In the second sample case, one can, for example, take all six candies and obtain the xor-sum of 7.	1,000	[ { "input": "4 3", "output": "7" }, { "input": "6 6", "output": "7" }, { "input": "2 2", "output": "3" }, { "input": "1022 10", "output": "1023" }, { "input": "415853337373441 52", "output": "562949953421311" }, { "input": "75 12", "output": "127" ...	1,517,049,343	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	19	62	5,632,000	n,k=map(int,input().split()) if k==0: print(n) else: a=int.bit_length(n) print((1<<a)-1)	Title: New Year's Eve Time Limit: None seconds Memory Limit: None megabytes Problem Description: Since Grisha behaved well last year, at New Year's Eve he was visited by Ded Moroz who brought an enormous bag of gifts with him! The bag contains n sweet candies from the good ol' bakery, each labeled from 1 to n corresponding to its tastiness. No two candies have the same tastiness. The choice of candies has a direct effect on Grisha's happiness. One can assume that he should take the tastiest ones — but no, the holiday magic turns things upside down. It is the xor-sum of tastinesses that matters, not the ordinary sum! A xor-sum of a sequence of integers a1,<=a2,<=...,<=am is defined as the bitwise XOR of all its elements: , here denotes the bitwise XOR operation; more about bitwise XOR can be found [here.](https://en.wikipedia.org/wiki/Bitwise_operation#XOR) Ded Moroz warned Grisha he has more houses to visit, so Grisha can take no more than k candies from the bag. Help Grisha determine the largest xor-sum (largest xor-sum means maximum happiness!) he can obtain. Input Specification: The sole string contains two integers n and k (1<=≤<=k<=≤<=n<=≤<=1018). Output Specification: Output one number — the largest possible xor-sum. Demo Input: ['4 3\n', '6 6\n'] Demo Output: ['7\n', '7\n'] Note: In the first sample case, one optimal answer is 1, 2 and 4, giving the xor-sum of 7. In the second sample case, one can, for example, take all six candies and obtain the xor-sum of 7.	```python n,k=map(int,input().split()) if k==0: print(n) else: a=int.bit_length(n) print((1<<a)-1) ```	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"...	1,607,762,319	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	0	372	2,048,000	def solve(n,nums): even_diffElemIndex = 0 even_elemCount = 0 odd_diffElemIndex = 0 odd_elemCount = 0 for i in range(0,n): if(nums[i]%2==0): even_diffElemIndex = i even_elemCount+=1 elif(nums[i]%2!=0): odd_diffElemIndex = i odd_elemCount+=1 if(even_elemCount==1): return even_diffElemIndex+1 return odd_diffElemIndex+1 if __name__ == "__main__": n = int(input()) nums = map(int,input().split(" ")) print (solve(n,nums))	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 def solve(n,nums): even_diffElemIndex = 0 even_elemCount = 0 odd_diffElemIndex = 0 odd_elemCount = 0 for i in range(0,n): if(nums[i]%2==0): even_diffElemIndex = i even_elemCount+=1 elif(nums[i]%2!=0): odd_diffElemIndex = i odd_elemCount+=1 if(even_elemCount==1): return even_diffElemIndex+1 return odd_diffElemIndex+1 if __name__ == "__main__": n = int(input()) nums = map(int,input().split(" ")) print (solve(n,nums)) ```	-1
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\n1...	1,601,376,056	2,147,483,647	PyPy 3	WRONG_ANSWER	TESTS	5	124	0	n=int(input()) l=[] for _ in range(n): a,b=map(int,input().split()) l.append(a) l.append(b) t=l.count(1) if(t%2==0): 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()) l=[] for _ in range(n): a,b=map(int,input().split()) l.append(a) l.append(b) t=l.count(1) if(t%2==0): print("Yes") else: print("No") ```	0
902	B	Coloring a Tree	PROGRAMMING	1,200	[ "dfs and similar", "dsu", "greedy" ]		null	null	You are given a rooted tree with n vertices. The vertices are numbered from 1 to n, the root is the vertex number 1. Each vertex has a color, let's denote the color of vertex v by cv. Initially cv<==<=0. You have to color the tree into the given colors using the smallest possible number of steps. On each step you can choose a vertex v and a color x, and then color all vectices in the subtree of v (including v itself) in color x. In other words, for every vertex u, such that the path from root to u passes through v, set cu<==<=x. It is guaranteed that you have to color each vertex in a color different from 0. You can learn what a rooted tree is using the link: [https://en.wikipedia.org/wiki/Tree_(graph_theory)](https://en.wikipedia.org/wiki/Tree_(graph_theory)).	The first line contains a single integer n (2<=≤<=n<=≤<=104) — the number of vertices in the tree. The second line contains n<=-<=1 integers p2,<=p3,<=...,<=pn (1<=≤<=pi<=<<=i), where pi means that there is an edge between vertices i and pi. The third line contains n integers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=n), where ci is the color you should color the i-th vertex into. It is guaranteed that the given graph is a tree.	Print a single integer — the minimum number of steps you have to perform to color the tree into given colors.	[ "6\n1 2 2 1 5\n2 1 1 1 1 1\n", "7\n1 1 2 3 1 4\n3 3 1 1 1 2 3\n" ]	[ "3\n", "5\n" ]	The tree from the first sample is shown on the picture (numbers are vetices' indices): <img class="tex-graphics" src="https://espresso.codeforces.com/10324ccdc37f95343acc4f3c6050d8c334334ffa.png" style="max-width: 100.0%;max-height: 100.0%;"/> On first step we color all vertices in the subtree of vertex 1 into color 2 (numbers are colors): <img class="tex-graphics" src="https://espresso.codeforces.com/1c7bb267e2c1a006132248a43121400189309e2f.png" style="max-width: 100.0%;max-height: 100.0%;"/> On seond step we color all vertices in the subtree of vertex 5 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/2201a6d49b89ba850ff0d0bdcbb3f8e9dd3871a8.png" style="max-width: 100.0%;max-height: 100.0%;"/> On third step we color all vertices in the subtree of vertex 2 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/6fa977fcdebdde94c47695151e0427b33d0102c5.png" style="max-width: 100.0%;max-height: 100.0%;"/> The tree from the second sample is shown on the picture (numbers are vetices' indices): <img class="tex-graphics" src="https://espresso.codeforces.com/d70f9ae72a2ed429dd6531cac757e375dd3c953d.png" style="max-width: 100.0%;max-height: 100.0%;"/> On first step we color all vertices in the subtree of vertex 1 into color 3 (numbers are colors): <img class="tex-graphics" src="https://espresso.codeforces.com/7289e8895d0dd56c47b6b17969b9cf77b36786b5.png" style="max-width: 100.0%;max-height: 100.0%;"/> On second step we color all vertices in the subtree of vertex 3 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/819001df7229138db3a407713744d1e3be88b64e.png" style="max-width: 100.0%;max-height: 100.0%;"/> On third step we color all vertices in the subtree of vertex 6 into color 2: <img class="tex-graphics" src="https://espresso.codeforces.com/80ebbd870a0a339636a21b9acdaf9de046458b43.png" style="max-width: 100.0%;max-height: 100.0%;"/> On fourth step we color all vertices in the subtree of vertex 4 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/ed836aa723ac0176abde4e32988e3ac205014e93.png" style="max-width: 100.0%;max-height: 100.0%;"/> On fith step we color all vertices in the subtree of vertex 7 into color 3: <img class="tex-graphics" src="https://espresso.codeforces.com/8132909e11b41c27b8df2f0b0c10bc841f35e58a.png" style="max-width: 100.0%;max-height: 100.0%;"/>	1,000	[ { "input": "6\n1 2 2 1 5\n2 1 1 1 1 1", "output": "3" }, { "input": "7\n1 1 2 3 1 4\n3 3 1 1 1 2 3", "output": "5" }, { "input": "2\n1\n2 2", "output": "1" }, { "input": "3\n1 1\n2 2 2", "output": "1" }, { "input": "4\n1 2 1\n1 2 3 4", "output": "4" }, { ...	1,683,541,218	2,147,483,647	PyPy 3	RUNTIME_ERROR	TESTS	24	124	7,782,400	n=int(input()) a=[[] for _ in range(n+1)] for i, p in enumerate(input().split(), start=2): a[int(p)].append(i) c=[0]+list(map(int, input().split())) def dfs(u,color): steps=1 if c[u]!=color else 0 for v in a[u]: steps+=dfs(v,c[u]) return steps print(dfs(1,0))	Title: Coloring a Tree Time Limit: None seconds Memory Limit: None megabytes Problem Description: You are given a rooted tree with n vertices. The vertices are numbered from 1 to n, the root is the vertex number 1. Each vertex has a color, let's denote the color of vertex v by cv. Initially cv<==<=0. You have to color the tree into the given colors using the smallest possible number of steps. On each step you can choose a vertex v and a color x, and then color all vectices in the subtree of v (including v itself) in color x. In other words, for every vertex u, such that the path from root to u passes through v, set cu<==<=x. It is guaranteed that you have to color each vertex in a color different from 0. You can learn what a rooted tree is using the link: [https://en.wikipedia.org/wiki/Tree_(graph_theory)](https://en.wikipedia.org/wiki/Tree_(graph_theory)). Input Specification: The first line contains a single integer n (2<=≤<=n<=≤<=104) — the number of vertices in the tree. The second line contains n<=-<=1 integers p2,<=p3,<=...,<=pn (1<=≤<=pi<=<<=i), where pi means that there is an edge between vertices i and pi. The third line contains n integers c1,<=c2,<=...,<=cn (1<=≤<=ci<=≤<=n), where ci is the color you should color the i-th vertex into. It is guaranteed that the given graph is a tree. Output Specification: Print a single integer — the minimum number of steps you have to perform to color the tree into given colors. Demo Input: ['6\n1 2 2 1 5\n2 1 1 1 1 1\n', '7\n1 1 2 3 1 4\n3 3 1 1 1 2 3\n'] Demo Output: ['3\n', '5\n'] Note: The tree from the first sample is shown on the picture (numbers are vetices' indices): <img class="tex-graphics" src="https://espresso.codeforces.com/10324ccdc37f95343acc4f3c6050d8c334334ffa.png" style="max-width: 100.0%;max-height: 100.0%;"/> On first step we color all vertices in the subtree of vertex 1 into color 2 (numbers are colors): <img class="tex-graphics" src="https://espresso.codeforces.com/1c7bb267e2c1a006132248a43121400189309e2f.png" style="max-width: 100.0%;max-height: 100.0%;"/> On seond step we color all vertices in the subtree of vertex 5 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/2201a6d49b89ba850ff0d0bdcbb3f8e9dd3871a8.png" style="max-width: 100.0%;max-height: 100.0%;"/> On third step we color all vertices in the subtree of vertex 2 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/6fa977fcdebdde94c47695151e0427b33d0102c5.png" style="max-width: 100.0%;max-height: 100.0%;"/> The tree from the second sample is shown on the picture (numbers are vetices' indices): <img class="tex-graphics" src="https://espresso.codeforces.com/d70f9ae72a2ed429dd6531cac757e375dd3c953d.png" style="max-width: 100.0%;max-height: 100.0%;"/> On first step we color all vertices in the subtree of vertex 1 into color 3 (numbers are colors): <img class="tex-graphics" src="https://espresso.codeforces.com/7289e8895d0dd56c47b6b17969b9cf77b36786b5.png" style="max-width: 100.0%;max-height: 100.0%;"/> On second step we color all vertices in the subtree of vertex 3 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/819001df7229138db3a407713744d1e3be88b64e.png" style="max-width: 100.0%;max-height: 100.0%;"/> On third step we color all vertices in the subtree of vertex 6 into color 2: <img class="tex-graphics" src="https://espresso.codeforces.com/80ebbd870a0a339636a21b9acdaf9de046458b43.png" style="max-width: 100.0%;max-height: 100.0%;"/> On fourth step we color all vertices in the subtree of vertex 4 into color 1: <img class="tex-graphics" src="https://espresso.codeforces.com/ed836aa723ac0176abde4e32988e3ac205014e93.png" style="max-width: 100.0%;max-height: 100.0%;"/> On fith step we color all vertices in the subtree of vertex 7 into color 3: <img class="tex-graphics" src="https://espresso.codeforces.com/8132909e11b41c27b8df2f0b0c10bc841f35e58a.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python n=int(input()) a=[[] for _ in range(n+1)] for i, p in enumerate(input().split(), start=2): a[int(p)].append(i) c=[0]+list(map(int, input().split())) def dfs(u,color): steps=1 if c[u]!=color else 0 for v in a[u]: steps+=dfs(v,c[u]) return steps print(dfs(1,0)) ```	-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"...	1,606,799,148	2,147,483,647	PyPy 3	OK	TESTS	32	280	0	n = int(input()) arr = list(map(int, input().split())) codd = 0 ceven = 0 ptodd = -1 pteven = -1 for i in range(n): if arr[i]%2 == 0: ceven += 1 pteven = i else: codd += 1 ptodd = i if ceven == 1: print(pteven+1) else: print(ptodd+1)	Title: IQ test Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Bob is preparing to pass IQ test. The most frequent task in this test is to find out which one of the given n numbers differs from the others. Bob observed that one number usually differs from the others in evenness. Help Bob — to check his answers, he needs a program that among the given n numbers finds one that is different in evenness. Input Specification: The first line contains integer n (3<=≤<=n<=≤<=100) — amount of numbers in the task. The second line contains n space-separated natural numbers, not exceeding 100. It is guaranteed, that exactly one of these numbers differs from the others in evenness. Output Specification: Output index of number that differs from the others in evenness. Numbers are numbered from 1 in the input order. Demo Input: ['5\n2 4 7 8 10\n', '4\n1 2 1 1\n'] Demo Output: ['3\n', '2\n'] Note: none	```python n = int(input()) arr = list(map(int, input().split())) codd = 0 ceven = 0 ptodd = -1 pteven = -1 for i in range(n): if arr[i]%2 == 0: ceven += 1 pteven = i else: codd += 1 ptodd = i if ceven == 1: print(pteven+1) else: print(ptodd+1) ```	3.93
777	B	Game of Credit Cards	PROGRAMMING	1,300	[ "data structures", "dp", "greedy", "sortings" ]		null	null	After the fourth season Sherlock and Moriary have realized the whole foolishness of the battle between them and decided to continue their competitions in peaceful game of Credit Cards. Rules of this game are simple: each player bring his favourite n-digit credit card. Then both players name the digits written on their cards one by one. If two digits are not equal, then the player, whose digit is smaller gets a flick (knock in the forehead usually made with a forefinger) from the other player. For example, if n<==<=3, Sherlock's card is 123 and Moriarty's card has number 321, first Sherlock names 1 and Moriarty names 3 so Sherlock gets a flick. Then they both digit 2 so no one gets a flick. Finally, Sherlock names 3, while Moriarty names 1 and gets a flick. Of course, Sherlock will play honestly naming digits one by one in the order they are given, while Moriary, as a true villain, plans to cheat. He is going to name his digits in some other order (however, he is not going to change the overall number of occurences of each digit). For example, in case above Moriarty could name 1, 2, 3 and get no flicks at all, or he can name 2, 3 and 1 to give Sherlock two flicks. Your goal is to find out the minimum possible number of flicks Moriarty will get (no one likes flicks) and the maximum possible number of flicks Sherlock can get from Moriarty. Note, that these two goals are different and the optimal result may be obtained by using different strategies.	The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of digits in the cards Sherlock and Moriarty are going to use. The second line contains n digits — Sherlock's credit card number. The third line contains n digits — Moriarty's credit card number.	First print the minimum possible number of flicks Moriarty will get. Then print the maximum possible number of flicks that Sherlock can get from Moriarty.	[ "3\n123\n321\n", "2\n88\n00\n" ]	[ "0\n2\n", "2\n0\n" ]	First sample is elaborated in the problem statement. In the second sample, there is no way Moriarty can avoid getting two flicks.	1,000	[ { "input": "3\n123\n321", "output": "0\n2" }, { "input": "2\n88\n00", "output": "2\n0" }, { "input": "1\n4\n5", "output": "0\n1" }, { "input": "1\n8\n7", "output": "1\n0" }, { "input": "2\n55\n55", "output": "0\n0" }, { "input": "3\n534\n432", "out...	1,488,080,463	2,147,483,647	Python 3	OK	TESTS	55	62	4,608,000	n,s,m,max,j=int(input()),input(),input(),0,0 s,m,min=sorted(s),sorted(m),n for i in m: if i>=s[j]:j,min=j+1,min-1 j=0 for i in m: if i>s[j]:max,j=max+1,j+1 print (min,max,sep="\n")	Title: Game of Credit Cards Time Limit: None seconds Memory Limit: None megabytes Problem Description: After the fourth season Sherlock and Moriary have realized the whole foolishness of the battle between them and decided to continue their competitions in peaceful game of Credit Cards. Rules of this game are simple: each player bring his favourite n-digit credit card. Then both players name the digits written on their cards one by one. If two digits are not equal, then the player, whose digit is smaller gets a flick (knock in the forehead usually made with a forefinger) from the other player. For example, if n<==<=3, Sherlock's card is 123 and Moriarty's card has number 321, first Sherlock names 1 and Moriarty names 3 so Sherlock gets a flick. Then they both digit 2 so no one gets a flick. Finally, Sherlock names 3, while Moriarty names 1 and gets a flick. Of course, Sherlock will play honestly naming digits one by one in the order they are given, while Moriary, as a true villain, plans to cheat. He is going to name his digits in some other order (however, he is not going to change the overall number of occurences of each digit). For example, in case above Moriarty could name 1, 2, 3 and get no flicks at all, or he can name 2, 3 and 1 to give Sherlock two flicks. Your goal is to find out the minimum possible number of flicks Moriarty will get (no one likes flicks) and the maximum possible number of flicks Sherlock can get from Moriarty. Note, that these two goals are different and the optimal result may be obtained by using different strategies. Input Specification: The first line of the input contains a single integer n (1<=≤<=n<=≤<=1000) — the number of digits in the cards Sherlock and Moriarty are going to use. The second line contains n digits — Sherlock's credit card number. The third line contains n digits — Moriarty's credit card number. Output Specification: First print the minimum possible number of flicks Moriarty will get. Then print the maximum possible number of flicks that Sherlock can get from Moriarty. Demo Input: ['3\n123\n321\n', '2\n88\n00\n'] Demo Output: ['0\n2\n', '2\n0\n'] Note: First sample is elaborated in the problem statement. In the second sample, there is no way Moriarty can avoid getting two flicks.	```python n,s,m,max,j=int(input()),input(),input(),0,0 s,m,min=sorted(s),sorted(m),n for i in m: if i>=s[j]:j,min=j+1,min-1 j=0 for i in m: if i>s[j]:max,j=max+1,j+1 print (min,max,sep="\n") ```	3
0	none	none	none	0	[ "none" ]		null	null	The main road in Bytecity is a straight line from south to north. Conveniently, there are coordinates measured in meters from the southernmost building in north direction. At some points on the road there are n friends, and i-th of them is standing at the point xi meters and can move with any speed no greater than vi meters per second in any of the two directions along the road: south or north. You are to compute the minimum time needed to gather all the n friends at some point on the road. Note that the point they meet at doesn't need to have integer coordinate.	The first line contains single integer n (2<=≤<=n<=≤<=60<=000) — the number of friends. The second line contains n integers x1,<=x2,<=...,<=xn (1<=≤<=xi<=≤<=109) — the current coordinates of the friends, in meters. The third line contains n integers v1,<=v2,<=...,<=vn (1<=≤<=vi<=≤<=109) — the maximum speeds of the friends, in meters per second.	Print the minimum time (in seconds) needed for all the n friends to meet at some point on the road. Your answer will be considered correct, if its absolute or relative error isn't greater than 10<=-<=6. Formally, let your answer be a, while jury's answer be b. Your answer will be considered correct if holds.	[ "3\n7 1 3\n1 2 1\n", "4\n5 10 3 2\n2 3 2 4\n" ]	[ "2.000000000000\n", "1.400000000000\n" ]	In the first sample, all friends can gather at the point 5 within 2 seconds. In order to achieve this, the first friend should go south all the time at his maximum speed, while the second and the third friends should go north at their maximum speeds.	0	[ { "input": "3\n7 1 3\n1 2 1", "output": "2.000000000000" }, { "input": "4\n5 10 3 2\n2 3 2 4", "output": "1.400000000000" }, { "input": "3\n1 1000000000 2\n1 2 1000000000", "output": "333333332.999999999971" }, { "input": "2\n4 5\n10 8", "output": "0.055555555556" }, ...	1,488,884,200	2,147,483,647	Python 3	OK	TESTS	46	3,821	11,776,000	def solve(n, xs, vs): def get_max_time(x): return max([ abs(x - xs[i]) / vs[i] for i in range(n) ]) x1 = min(xs) x2 = max(xs) while True: l = x2 - x1 x1new = x1 + l / 3 x2new = x2 - l / 3 t1 = get_max_time(x1new) t2 = get_max_time(x2new) if x2 - x1 < 10e-7 and abs(t1 - t2) < 10e-7: return (t1 + t2) / 2 if t1 < t2: x2 = x2new else: x1 = x1new print(solve( int(input()), tuple(map(int, input().split())), tuple(map(int, input().split())) ))	Title: none Time Limit: None seconds Memory Limit: None megabytes Problem Description: The main road in Bytecity is a straight line from south to north. Conveniently, there are coordinates measured in meters from the southernmost building in north direction. At some points on the road there are n friends, and i-th of them is standing at the point xi meters and can move with any speed no greater than vi meters per second in any of the two directions along the road: south or north. You are to compute the minimum time needed to gather all the n friends at some point on the road. Note that the point they meet at doesn't need to have integer coordinate. Input Specification: The first line contains single integer n (2<=≤<=n<=≤<=60<=000) — the number of friends. The second line contains n integers x1,<=x2,<=...,<=xn (1<=≤<=xi<=≤<=109) — the current coordinates of the friends, in meters. The third line contains n integers v1,<=v2,<=...,<=vn (1<=≤<=vi<=≤<=109) — the maximum speeds of the friends, in meters per second. Output Specification: Print the minimum time (in seconds) needed for all the n friends to meet at some point on the road. Your answer will be considered correct, if its absolute or relative error isn't greater than 10<=-<=6. Formally, let your answer be a, while jury's answer be b. Your answer will be considered correct if holds. Demo Input: ['3\n7 1 3\n1 2 1\n', '4\n5 10 3 2\n2 3 2 4\n'] Demo Output: ['2.000000000000\n', '1.400000000000\n'] Note: In the first sample, all friends can gather at the point 5 within 2 seconds. In order to achieve this, the first friend should go south all the time at his maximum speed, while the second and the third friends should go north at their maximum speeds.	```python def solve(n, xs, vs): def get_max_time(x): return max([ abs(x - xs[i]) / vs[i] for i in range(n) ]) x1 = min(xs) x2 = max(xs) while True: l = x2 - x1 x1new = x1 + l / 3 x2new = x2 - l / 3 t1 = get_max_time(x1new) t2 = get_max_time(x2new) if x2 - x1 < 10e-7 and abs(t1 - t2) < 10e-7: return (t1 + t2) / 2 if t1 < t2: x2 = x2new else: x1 = x1new print(solve( int(input()), tuple(map(int, input().split())), tuple(map(int, input().split())) )) ```	3
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk...	1,598,318,487	2,147,483,647	Python 3	OK	TESTS	40	216	0	if __name__=='__main__': ip=input() op=input() if ip[::-1]==op: print('YES') else: print('NO')	Title: Translation Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly. Input Specification: The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols. Output Specification: If the word t is a word s, written reversely, print YES, otherwise print NO. Demo Input: ['code\nedoc\n', 'abb\naba\n', 'code\ncode\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: none	```python if __name__=='__main__': ip=input() op=input() if ip[::-1]==op: print('YES') else: print('NO') ```	3.946
682	A	Alyona and Numbers	PROGRAMMING	1,100	[ "constructive algorithms", "math", "number theory" ]		null	null	After finishing eating her bun, Alyona came up with two integers n and m. She decided to write down two columns of integers — the first column containing integers from 1 to n and the second containing integers from 1 to m. Now the girl wants to count how many pairs of integers she can choose, one from the first column and the other from the second column, such that their sum is divisible by 5. Formally, Alyona wants to count the number of pairs of integers (x,<=y) such that 1<=≤<=x<=≤<=n, 1<=≤<=y<=≤<=m and equals 0. As usual, Alyona has some troubles and asks you to help.	The only line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=1<=000<=000).	Print the only integer — the number of pairs of integers (x,<=y) such that 1<=≤<=x<=≤<=n, 1<=≤<=y<=≤<=m and (x<=+<=y) is divisible by 5.	[ "6 12\n", "11 14\n", "1 5\n", "3 8\n", "5 7\n", "21 21\n" ]	[ "14\n", "31\n", "1\n", "5\n", "7\n", "88\n" ]	Following pairs are suitable in the first sample case: - for x = 1 fits y equal to 4 or 9; - for x = 2 fits y equal to 3 or 8; - for x = 3 fits y equal to 2, 7 or 12; - for x = 4 fits y equal to 1, 6 or 11; - for x = 5 fits y equal to 5 or 10; - for x = 6 fits y equal to 4 or 9. Only the pair (1, 4) is suitable in the third sample case.	500	[ { "input": "6 12", "output": "14" }, { "input": "11 14", "output": "31" }, { "input": "1 5", "output": "1" }, { "input": "3 8", "output": "5" }, { "input": "5 7", "output": "7" }, { "input": "21 21", "output": "88" }, { "input": "10 15", ...	1,622,187,453	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	9	1,000	1,331,200	x,y = map(int,input().split()) sol = 0 for i in range(1,x+1): t = 5-i while t<=y: #print(i,t) if t <= 0: t+= 5 continue sol += 1 t += 5 print(sol)	Title: Alyona and Numbers Time Limit: None seconds Memory Limit: None megabytes Problem Description: After finishing eating her bun, Alyona came up with two integers n and m. She decided to write down two columns of integers — the first column containing integers from 1 to n and the second containing integers from 1 to m. Now the girl wants to count how many pairs of integers she can choose, one from the first column and the other from the second column, such that their sum is divisible by 5. Formally, Alyona wants to count the number of pairs of integers (x,<=y) such that 1<=≤<=x<=≤<=n, 1<=≤<=y<=≤<=m and equals 0. As usual, Alyona has some troubles and asks you to help. Input Specification: The only line of the input contains two integers n and m (1<=≤<=n,<=m<=≤<=1<=000<=000). Output Specification: Print the only integer — the number of pairs of integers (x,<=y) such that 1<=≤<=x<=≤<=n, 1<=≤<=y<=≤<=m and (x<=+<=y) is divisible by 5. Demo Input: ['6 12\n', '11 14\n', '1 5\n', '3 8\n', '5 7\n', '21 21\n'] Demo Output: ['14\n', '31\n', '1\n', '5\n', '7\n', '88\n'] Note: Following pairs are suitable in the first sample case: - for x = 1 fits y equal to 4 or 9; - for x = 2 fits y equal to 3 or 8; - for x = 3 fits y equal to 2, 7 or 12; - for x = 4 fits y equal to 1, 6 or 11; - for x = 5 fits y equal to 5 or 10; - for x = 6 fits y equal to 4 or 9. Only the pair (1, 4) is suitable in the third sample case.	```python x,y = map(int,input().split()) sol = 0 for i in range(1,x+1): t = 5-i while t<=y: #print(i,t) if t <= 0: t+= 5 continue sol += 1 t += 5 print(sol) ```	0
290	A	Mysterious strings	PROGRAMMING	1,400	[ "*special", "implementation" ]		null	null	The input contains a single integer a (1<=≤<=a<=≤<=40). Output a single string.	The input contains a single integer a (1<=≤<=a<=≤<=40).	Output a single string.	[ "2\n", "8\n", "29\n" ]	[ "Adams\n", "Van Buren\n", "Harding\n" ]	none	0	[ { "input": "2", "output": "Adams" }, { "input": "8", "output": "Van Buren" }, { "input": "29", "output": "Harding" }, { "input": "1", "output": "Washington" }, { "input": "3", "output": "Jefferson" }, { "input": "4", "output": "Madison" }, { ...	1,667,654,567	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	7	92	0	a = int(input()) pr = ['Washington', 'Adams', 'Jefferson', 'Madison', 'Monroe', 'Quincy Adams', 'Jackson', 'Van Buren', 'Henry Harrison', 'Tyler', 'Polk', 'Taylor', 'Fillmore', 'Pierce', 'Buchanan', 'Lincoln', 'Johnson', 'S. Grant', 'B. Hayes', 'A. Garfield', 'A. Arthur', 'Cleveland', 'Harrison', 'Cleveland', 'McKinley', 'Roosevelt', 'H. Taft', 'Wilson', 'Harding', 'Coolidge', 'Hoover', 'D. Roosevelt', 'S Truman', 'D. Eisenhower', 'F. Kennedy', 'B. Johnson', 'M. Nixon', 'R. Ford', 'Carter', 'W. Reagan', 'Bush', 'J. Clinton'] print(pr[a-1])	Title: Mysterious strings Time Limit: None seconds Memory Limit: None megabytes Problem Description: The input contains a single integer a (1<=≤<=a<=≤<=40). Output a single string. Input Specification: The input contains a single integer a (1<=≤<=a<=≤<=40). Output Specification: Output a single string. Demo Input: ['2\n', '8\n', '29\n'] Demo Output: ['Adams\n', 'Van Buren\n', 'Harding\n'] Note: none	```python a = int(input()) pr = ['Washington', 'Adams', 'Jefferson', 'Madison', 'Monroe', 'Quincy Adams', 'Jackson', 'Van Buren', 'Henry Harrison', 'Tyler', 'Polk', 'Taylor', 'Fillmore', 'Pierce', 'Buchanan', 'Lincoln', 'Johnson', 'S. Grant', 'B. Hayes', 'A. Garfield', 'A. Arthur', 'Cleveland', 'Harrison', 'Cleveland', 'McKinley', 'Roosevelt', 'H. Taft', 'Wilson', 'Harding', 'Coolidge', 'Hoover', 'D. Roosevelt', 'S Truman', 'D. Eisenhower', 'F. Kennedy', 'B. Johnson', 'M. Nixon', 'R. Ford', 'Carter', 'W. Reagan', 'Bush', 'J. Clinton'] print(pr[a-1]) ```	0
628	B	New Skateboard	PROGRAMMING	1,300	[ "dp" ]		null	null	Max wants to buy a new skateboard. He has calculated the amount of money that is needed to buy a new skateboard. He left a calculator on the floor and went to ask some money from his parents. Meanwhile his little brother Yusuf came and started to press the keys randomly. Unfortunately Max has forgotten the number which he had calculated. The only thing he knows is that the number is divisible by 4. You are given a string s consisting of digits (the number on the display of the calculator after Yusuf randomly pressed the keys). Your task is to find the number of substrings which are divisible by 4. A substring can start with a zero. A substring of a string is a nonempty sequence of consecutive characters. For example if string s is 124 then we have four substrings that are divisible by 4: 12, 4, 24 and 124. For the string 04 the answer is three: 0, 4, 04. As input/output can reach huge size it is recommended to use fast input/output methods: for example, prefer to use gets/scanf/printf instead of getline/cin/cout in C++, prefer to use BufferedReader/PrintWriter instead of Scanner/System.out in Java.	The only line contains string s (1<=≤<=\|s\|<=≤<=3·105). The string s contains only digits from 0 to 9.	Print integer a — the number of substrings of the string s that are divisible by 4. Note that the answer can be huge, so you should use 64-bit integer type to store it. In C++ you can use the long long integer type and in Java you can use long integer type.	[ "124\n", "04\n", "5810438174\n" ]	[ "4\n", "3\n", "9\n" ]	none	0	[ { "input": "124", "output": "4" }, { "input": "04", "output": "3" }, { "input": "5810438174", "output": "9" }, { "input": "1", "output": "0" }, { "input": "039", "output": "1" }, { "input": "97247", "output": "6" }, { "input": "5810438174",...	1,595,279,365	2,147,483,647	PyPy 3	OK	TESTS	22	187	23,961,600	s=input() ans=0 n=len(s) for i in range(n-1): if(int(s[i])%4==0): ans+=1 if(int(s[i:i+2])%4==0): ans+=i+1 if(int(s[n-1])%4==0): ans+=1 print(ans)	Title: New Skateboard Time Limit: None seconds Memory Limit: None megabytes Problem Description: Max wants to buy a new skateboard. He has calculated the amount of money that is needed to buy a new skateboard. He left a calculator on the floor and went to ask some money from his parents. Meanwhile his little brother Yusuf came and started to press the keys randomly. Unfortunately Max has forgotten the number which he had calculated. The only thing he knows is that the number is divisible by 4. You are given a string s consisting of digits (the number on the display of the calculator after Yusuf randomly pressed the keys). Your task is to find the number of substrings which are divisible by 4. A substring can start with a zero. A substring of a string is a nonempty sequence of consecutive characters. For example if string s is 124 then we have four substrings that are divisible by 4: 12, 4, 24 and 124. For the string 04 the answer is three: 0, 4, 04. As input/output can reach huge size it is recommended to use fast input/output methods: for example, prefer to use gets/scanf/printf instead of getline/cin/cout in C++, prefer to use BufferedReader/PrintWriter instead of Scanner/System.out in Java. Input Specification: The only line contains string s (1<=≤<=\|s\|<=≤<=3·105). The string s contains only digits from 0 to 9. Output Specification: Print integer a — the number of substrings of the string s that are divisible by 4. Note that the answer can be huge, so you should use 64-bit integer type to store it. In C++ you can use the long long integer type and in Java you can use long integer type. Demo Input: ['124\n', '04\n', '5810438174\n'] Demo Output: ['4\n', '3\n', '9\n'] Note: none	```python s=input() ans=0 n=len(s) for i in range(n-1): if(int(s[i])%4==0): ans+=1 if(int(s[i:i+2])%4==0): ans+=i+1 if(int(s[n-1])%4==0): ans+=1 print(ans) ```	3
614	A	Link/Cut Tree	PROGRAMMING	1,500	[ "brute force", "implementation" ]		null	null	Programmer Rostislav got seriously interested in the Link/Cut Tree data structure, which is based on Splay trees. Specifically, he is now studying the expose procedure. Unfortunately, Rostislav is unable to understand the definition of this procedure, so he decided to ask programmer Serezha to help him. Serezha agreed to help if Rostislav solves a simple task (and if he doesn't, then why would he need Splay trees anyway?) Given integers l, r and k, you need to print all powers of number k within range from l to r inclusive. However, Rostislav doesn't want to spent time doing this, as he got interested in playing a network game called Agar with Gleb. Help him!	The first line of the input contains three space-separated integers l, r and k (1<=≤<=l<=≤<=r<=≤<=1018, 2<=≤<=k<=≤<=109).	Print all powers of number k, that lie within range from l to r in the increasing order. If there are no such numbers, print "-1" (without the quotes).	[ "1 10 2\n", "2 4 5\n" ]	[ "1 2 4 8 ", "-1" ]	Note to the first sample: numbers 2<sup class="upper-index">0</sup> = 1, 2<sup class="upper-index">1</sup> = 2, 2<sup class="upper-index">2</sup> = 4, 2<sup class="upper-index">3</sup> = 8 lie within the specified range. The number 2<sup class="upper-index">4</sup> = 16 is greater then 10, thus it shouldn't be printed.	500	[ { "input": "1 10 2", "output": "1 2 4 8 " }, { "input": "2 4 5", "output": "-1" }, { "input": "18102 43332383920 28554", "output": "28554 815330916 " }, { "input": "19562 31702689720 17701", "output": "313325401 " }, { "input": "11729 55221128400 313", "output...	1,610,531,320	2,147,483,647	Python 3	OK	TESTS	44	77	0	l,r,k = map(int,input().split()) k1=1 while k1<l: k1=k cnt=0 while k1<=r: print(k1,end=' ') k1=k cnt+=1 if cnt==0: print(-1)	Title: Link/Cut Tree Time Limit: None seconds Memory Limit: None megabytes Problem Description: Programmer Rostislav got seriously interested in the Link/Cut Tree data structure, which is based on Splay trees. Specifically, he is now studying the expose procedure. Unfortunately, Rostislav is unable to understand the definition of this procedure, so he decided to ask programmer Serezha to help him. Serezha agreed to help if Rostislav solves a simple task (and if he doesn't, then why would he need Splay trees anyway?) Given integers l, r and k, you need to print all powers of number k within range from l to r inclusive. However, Rostislav doesn't want to spent time doing this, as he got interested in playing a network game called Agar with Gleb. Help him! Input Specification: The first line of the input contains three space-separated integers l, r and k (1<=≤<=l<=≤<=r<=≤<=1018, 2<=≤<=k<=≤<=109). Output Specification: Print all powers of number k, that lie within range from l to r in the increasing order. If there are no such numbers, print "-1" (without the quotes). Demo Input: ['1 10 2\n', '2 4 5\n'] Demo Output: ['1 2 4 8 ', '-1'] Note: Note to the first sample: numbers 2<sup class="upper-index">0</sup> = 1, 2<sup class="upper-index">1</sup> = 2, 2<sup class="upper-index">2</sup> = 4, 2<sup class="upper-index">3</sup> = 8 lie within the specified range. The number 2<sup class="upper-index">4</sup> = 16 is greater then 10, thus it shouldn't be printed.	```python l,r,k = map(int,input().split()) k1=1 while k1<l: k1=k cnt=0 while k1<=r: print(k1,end=' ') k1=k cnt+=1 if cnt==0: print(-1) ```	3
141	A	Amusing Joke	PROGRAMMING	800	[ "implementation", "sortings", "strings" ]		null	null	So, the New Year holidays are over. Santa Claus and his colleagues can take a rest and have guests at last. When two "New Year and Christmas Men" meet, thear assistants cut out of cardboard the letters from the guest's name and the host's name in honor of this event. Then the hung the letters above the main entrance. One night, when everyone went to bed, someone took all the letters of our characters' names. Then he may have shuffled the letters and put them in one pile in front of the door. The next morning it was impossible to find the culprit who had made the disorder. But everybody wondered whether it is possible to restore the names of the host and his guests from the letters lying at the door? That is, we need to verify that there are no extra letters, and that nobody will need to cut more letters. Help the "New Year and Christmas Men" and their friends to cope with this problem. You are given both inscriptions that hung over the front door the previous night, and a pile of letters that were found at the front door next morning.	The input file consists of three lines: the first line contains the guest's name, the second line contains the name of the residence host and the third line contains letters in a pile that were found at the door in the morning. All lines are not empty and contain only uppercase Latin letters. The length of each line does not exceed 100.	Print "YES" without the quotes, if the letters in the pile could be permuted to make the names of the "New Year and Christmas Men". Otherwise, print "NO" without the quotes.	[ "SANTACLAUS\nDEDMOROZ\nSANTAMOROZDEDCLAUS\n", "PAPAINOEL\nJOULUPUKKI\nJOULNAPAOILELUPUKKI\n", "BABBONATALE\nFATHERCHRISTMAS\nBABCHRISTMASBONATALLEFATHER\n" ]	[ "YES\n", "NO\n", "NO\n" ]	In the first sample the letters written in the last line can be used to write the names and there won't be any extra letters left. In the second sample letter "P" is missing from the pile and there's an extra letter "L". In the third sample there's an extra letter "L".	500	[ { "input": "SANTACLAUS\nDEDMOROZ\nSANTAMOROZDEDCLAUS", "output": "YES" }, { "input": "PAPAINOEL\nJOULUPUKKI\nJOULNAPAOILELUPUKKI", "output": "NO" }, { "input": "BABBONATALE\nFATHERCHRISTMAS\nBABCHRISTMASBONATALLEFATHER", "output": "NO" }, { "input": "B\nA\nAB", "output": ...	1,696,698,580	2,147,483,647	PyPy 3-64	OK	TESTS	54	124	0	import io import os import sys input_buffer = io.BytesIO(os.read(0, os.fstat(0).st_size)) inp = lambda: input_buffer.readline().rstrip(b"\n").rstrip(b"\r") out = sys.stdout.write a, b = bytearray(inp()) + bytearray(inp()), bytearray(inp()) print("YES" if sorted(a) == sorted(b) else "NO")	Title: Amusing Joke Time Limit: None seconds Memory Limit: None megabytes Problem Description: So, the New Year holidays are over. Santa Claus and his colleagues can take a rest and have guests at last. When two "New Year and Christmas Men" meet, thear assistants cut out of cardboard the letters from the guest's name and the host's name in honor of this event. Then the hung the letters above the main entrance. One night, when everyone went to bed, someone took all the letters of our characters' names. Then he may have shuffled the letters and put them in one pile in front of the door. The next morning it was impossible to find the culprit who had made the disorder. But everybody wondered whether it is possible to restore the names of the host and his guests from the letters lying at the door? That is, we need to verify that there are no extra letters, and that nobody will need to cut more letters. Help the "New Year and Christmas Men" and their friends to cope with this problem. You are given both inscriptions that hung over the front door the previous night, and a pile of letters that were found at the front door next morning. Input Specification: The input file consists of three lines: the first line contains the guest's name, the second line contains the name of the residence host and the third line contains letters in a pile that were found at the door in the morning. All lines are not empty and contain only uppercase Latin letters. The length of each line does not exceed 100. Output Specification: Print "YES" without the quotes, if the letters in the pile could be permuted to make the names of the "New Year and Christmas Men". Otherwise, print "NO" without the quotes. Demo Input: ['SANTACLAUS\nDEDMOROZ\nSANTAMOROZDEDCLAUS\n', 'PAPAINOEL\nJOULUPUKKI\nJOULNAPAOILELUPUKKI\n', 'BABBONATALE\nFATHERCHRISTMAS\nBABCHRISTMASBONATALLEFATHER\n'] Demo Output: ['YES\n', 'NO\n', 'NO\n'] Note: In the first sample the letters written in the last line can be used to write the names and there won't be any extra letters left. In the second sample letter "P" is missing from the pile and there's an extra letter "L". In the third sample there's an extra letter "L".	```python import io import os import sys input_buffer = io.BytesIO(os.read(0, os.fstat(0).st_size)) inp = lambda: input_buffer.readline().rstrip(b"\n").rstrip(b"\r") out = sys.stdout.write a, b = bytearray(inp()) + bytearray(inp()), bytearray(inp()) print("YES" if sorted(a) == sorted(b) else "NO") ```	3
46	A	Ball Game	PROGRAMMING	800	[ "brute force", "implementation" ]	A. Ball Game	2	256	A kindergarten teacher Natalia Pavlovna has invented a new ball game. This game not only develops the children's physique, but also teaches them how to count. The game goes as follows. Kids stand in circle. Let's agree to think of the children as numbered with numbers from 1 to n clockwise and the child number 1 is holding the ball. First the first child throws the ball to the next one clockwise, i.e. to the child number 2. Then the child number 2 throws the ball to the next but one child, i.e. to the child number 4, then the fourth child throws the ball to the child that stands two children away from him, i.e. to the child number 7, then the ball is thrown to the child who stands 3 children away from the child number 7, then the ball is thrown to the child who stands 4 children away from the last one, and so on. It should be mentioned that when a ball is thrown it may pass the beginning of the circle. For example, if n<==<=5, then after the third throw the child number 2 has the ball again. Overall, n<=-<=1 throws are made, and the game ends. The problem is that not all the children get the ball during the game. If a child doesn't get the ball, he gets very upset and cries until Natalia Pavlovna gives him a candy. That's why Natalia Pavlovna asks you to help her to identify the numbers of the children who will get the ball after each throw.	The first line contains integer n (2<=≤<=n<=≤<=100) which indicates the number of kids in the circle.	In the single line print n<=-<=1 numbers which are the numbers of children who will get the ball after each throw. Separate the numbers by spaces.	[ "10\n", "3\n" ]	[ "2 4 7 1 6 2 9 7 6\n", "2 1\n" ]	none	0	[ { "input": "10", "output": "2 4 7 1 6 2 9 7 6" }, { "input": "3", "output": "2 1" }, { "input": "4", "output": "2 4 3" }, { "input": "5", "output": "2 4 2 1" }, { "input": "6", "output": "2 4 1 5 4" }, { "input": "7", "output": "2 4 7 4 2 1" }, ...	1,419,557,802	2,147,483,647	Python 3	OK	TESTS	33	122	0	n, cur = int(input()), 0 for i in range(1, n): cur = (cur + i) % n print(cur + 1, end=' ')	Title: Ball Game Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: A kindergarten teacher Natalia Pavlovna has invented a new ball game. This game not only develops the children's physique, but also teaches them how to count. The game goes as follows. Kids stand in circle. Let's agree to think of the children as numbered with numbers from 1 to n clockwise and the child number 1 is holding the ball. First the first child throws the ball to the next one clockwise, i.e. to the child number 2. Then the child number 2 throws the ball to the next but one child, i.e. to the child number 4, then the fourth child throws the ball to the child that stands two children away from him, i.e. to the child number 7, then the ball is thrown to the child who stands 3 children away from the child number 7, then the ball is thrown to the child who stands 4 children away from the last one, and so on. It should be mentioned that when a ball is thrown it may pass the beginning of the circle. For example, if n<==<=5, then after the third throw the child number 2 has the ball again. Overall, n<=-<=1 throws are made, and the game ends. The problem is that not all the children get the ball during the game. If a child doesn't get the ball, he gets very upset and cries until Natalia Pavlovna gives him a candy. That's why Natalia Pavlovna asks you to help her to identify the numbers of the children who will get the ball after each throw. Input Specification: The first line contains integer n (2<=≤<=n<=≤<=100) which indicates the number of kids in the circle. Output Specification: In the single line print n<=-<=1 numbers which are the numbers of children who will get the ball after each throw. Separate the numbers by spaces. Demo Input: ['10\n', '3\n'] Demo Output: ['2 4 7 1 6 2 9 7 6\n', '2 1\n'] Note: none	```python n, cur = int(input()), 0 for i in range(1, n): cur = (cur + i) % n print(cur + 1, end=' ') ```	3.9695
519	B	A and B and Compilation Errors	PROGRAMMING	1,100	[ "data structures", "implementation", "sortings" ]		null	null	A and B are preparing themselves for programming contests. B loves to debug his code. But before he runs the solution and starts debugging, he has to first compile the code. Initially, the compiler displayed n compilation errors, each of them is represented as a positive integer. After some effort, B managed to fix some mistake and then another one mistake. However, despite the fact that B is sure that he corrected the two errors, he can not understand exactly what compilation errors disappeared — the compiler of the language which B uses shows errors in the new order every time! B is sure that unlike many other programming languages, compilation errors for his programming language do not depend on each other, that is, if you correct one error, the set of other error does not change. Can you help B find out exactly what two errors he corrected?	The first line of the input contains integer n (3<=≤<=n<=≤<=105) — the initial number of compilation errors. The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the errors the compiler displayed for the first time. The third line contains n<=-<=1 space-separated integers b1,<=b2,<=...,<=bn<=-<=1 — the errors displayed at the second compilation. It is guaranteed that the sequence in the third line contains all numbers of the second string except for exactly one. The fourth line contains n<=-<=2 space-separated integers с1,<=с2,<=...,<=сn<=-<=2 — the errors displayed at the third compilation. It is guaranteed that the sequence in the fourth line contains all numbers of the third line except for exactly one.	Print two numbers on a single line: the numbers of the compilation errors that disappeared after B made the first and the second correction, respectively.	[ "5\n1 5 8 123 7\n123 7 5 1\n5 1 7\n", "6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5\n" ]	[ "8\n123\n", "1\n3\n" ]	In the first test sample B first corrects the error number 8, then the error number 123. In the second test sample B first corrects the error number 1, then the error number 3. Note that if there are multiple errors with the same number, B can correct only one of them in one step.	1,000	[ { "input": "5\n1 5 8 123 7\n123 7 5 1\n5 1 7", "output": "8\n123" }, { "input": "6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5", "output": "1\n3" }, { "input": "3\n1 2 3\n3 2\n2", "output": "1\n3" }, { "input": "10\n460626451 802090732 277246428 661369649 388684428 784303821 376287098 6...	1,656,870,651	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	5	31	0	a = int(input()) b1 = list(map(int, input().split())) b1.sort() b2 = list(map(int, input().split())) b2.sort() b3 = list(map(int, input().split())) b3.sort() for i in range(a): if b1[i] != b2[i]: print(b1[i]) break if b1[i + 1] != b2[i]: print(b1[i + 1]) for j in range(a - 2): if b2[j] != b3[j]: print(b2[j]) break if b2[j + 1] != b3[j]: print(b2[j + 1])	Title: A and B and Compilation Errors Time Limit: None seconds Memory Limit: None megabytes Problem Description: A and B are preparing themselves for programming contests. B loves to debug his code. But before he runs the solution and starts debugging, he has to first compile the code. Initially, the compiler displayed n compilation errors, each of them is represented as a positive integer. After some effort, B managed to fix some mistake and then another one mistake. However, despite the fact that B is sure that he corrected the two errors, he can not understand exactly what compilation errors disappeared — the compiler of the language which B uses shows errors in the new order every time! B is sure that unlike many other programming languages, compilation errors for his programming language do not depend on each other, that is, if you correct one error, the set of other error does not change. Can you help B find out exactly what two errors he corrected? Input Specification: The first line of the input contains integer n (3<=≤<=n<=≤<=105) — the initial number of compilation errors. The second line contains n space-separated integers a1,<=a2,<=...,<=an (1<=≤<=ai<=≤<=109) — the errors the compiler displayed for the first time. The third line contains n<=-<=1 space-separated integers b1,<=b2,<=...,<=bn<=-<=1 — the errors displayed at the second compilation. It is guaranteed that the sequence in the third line contains all numbers of the second string except for exactly one. The fourth line contains n<=-<=2 space-separated integers с1,<=с2,<=...,<=сn<=-<=2 — the errors displayed at the third compilation. It is guaranteed that the sequence in the fourth line contains all numbers of the third line except for exactly one. Output Specification: Print two numbers on a single line: the numbers of the compilation errors that disappeared after B made the first and the second correction, respectively. Demo Input: ['5\n1 5 8 123 7\n123 7 5 1\n5 1 7\n', '6\n1 4 3 3 5 7\n3 7 5 4 3\n4 3 7 5\n'] Demo Output: ['8\n123\n', '1\n3\n'] Note: In the first test sample B first corrects the error number 8, then the error number 123. In the second test sample B first corrects the error number 1, then the error number 3. Note that if there are multiple errors with the same number, B can correct only one of them in one step.	```python a = int(input()) b1 = list(map(int, input().split())) b1.sort() b2 = list(map(int, input().split())) b2.sort() b3 = list(map(int, input().split())) b3.sort() for i in range(a): if b1[i] != b2[i]: print(b1[i]) break if b1[i + 1] != b2[i]: print(b1[i + 1]) for j in range(a - 2): if b2[j] != b3[j]: print(b2[j]) break if b2[j + 1] != b3[j]: print(b2[j + 1]) ```	-1
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", ...	1,687,148,625	2,147,483,647	PyPy 3-64	OK	TESTS	34	124	0	#------------------------------------------------------------------------------- # Name: module1 # Purpose: # # Author: vayun # # Created: 05/06/2022 # Copyright: (c) vayun 2022 # Licence: <your licence> #------------------------------------------------------------------------------- import sys def test(did_pass): """ Print the result of a test. """ linenum = sys._getframe(1).f_lineno # Get the caller's line number. if did_pass: msg = "Test at line {0} ok.".format(linenum) else: msg = ("Test at line {0} FAILED.".format(linenum)) print(msg) n = int(input()) t1 = '' t1g = 0 t2 = '' t2g = 0 for i in range(n): tmnm = input() if t1 == '' and t2 == '': t1 = tmnm t1g = 1 elif tmnm == t1: t1g += 1 elif t2 == '': t2 = tmnm t2g = 1 elif tmnm == t2: t2g += 1 if t1g > t2g: print(t1) else: print(t2)	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 #------------------------------------------------------------------------------- # Name: module1 # Purpose: # # Author: vayun # # Created: 05/06/2022 # Copyright: (c) vayun 2022 # Licence: <your licence> #------------------------------------------------------------------------------- import sys def test(did_pass): """ Print the result of a test. """ linenum = sys._getframe(1).f_lineno # Get the caller's line number. if did_pass: msg = "Test at line {0} ok.".format(linenum) else: msg = ("Test at line {0} FAILED.".format(linenum)) print(msg) n = int(input()) t1 = '' t1g = 0 t2 = '' t2g = 0 for i in range(n): tmnm = input() if t1 == '' and t2 == '': t1 = tmnm t1g = 1 elif tmnm == t1: t1g += 1 elif t2 == '': t2 = tmnm t2g = 1 elif tmnm == t2: t2g += 1 if t1g > t2g: print(t1) else: print(t2) ```	3.969
263	A	Beautiful Matrix	PROGRAMMING	800	[ "implementation" ]		null	null	You've got a 5<=×<=5 matrix, consisting of 24 zeroes and a single number one. Let's index the matrix rows by numbers from 1 to 5 from top to bottom, let's index the matrix columns by numbers from 1 to 5 from left to right. In one move, you are allowed to apply one of the two following transformations to the matrix: 1. Swap two neighboring matrix rows, that is, rows with indexes i and i<=+<=1 for some integer i (1<=≤<=i<=<<=5). 1. Swap two neighboring matrix columns, that is, columns with indexes j and j<=+<=1 for some integer j (1<=≤<=j<=<<=5). You think that a matrix looks beautiful, if the single number one of the matrix is located in its middle (in the cell that is on the intersection of the third row and the third column). Count the minimum number of moves needed to make the matrix beautiful.	The input consists of five lines, each line contains five integers: the j-th integer in the i-th line of the input represents the element of the matrix that is located on the intersection of the i-th row and the j-th column. It is guaranteed that the matrix consists of 24 zeroes and a single number one.	Print a single integer — the minimum number of moves needed to make the matrix beautiful.	[ "0 0 0 0 0\n0 0 0 0 1\n0 0 0 0 0\n0 0 0 0 0\n0 0 0 0 0\n", "0 0 0 0 0\n0 0 0 0 0\n0 1 0 0 0\n0 0 0 0 0\n0 0 0 0 0\n" ]	[ "3\n", "1\n" ]	none	500	[ { "input": "0 0 0 0 0\n0 0 0 0 1\n0 0 0 0 0\n0 0 0 0 0\n0 0 0 0 0", "output": "3" }, { "input": "0 0 0 0 0\n0 0 0 0 0\n0 1 0 0 0\n0 0 0 0 0\n0 0 0 0 0", "output": "1" }, { "input": "0 0 0 0 0\n0 0 0 0 0\n0 0 1 0 0\n0 0 0 0 0\n0 0 0 0 0", "output": "0" }, { "input": "0 0 0 0 0...	1,696,034,245	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	62	0	x=[2,1,0,1,2] for i in x: n=input().find('1') if n!=-1: b=i+x[n] break print(b)	Title: Beautiful Matrix Time Limit: None seconds Memory Limit: None megabytes Problem Description: You've got a 5<=×<=5 matrix, consisting of 24 zeroes and a single number one. Let's index the matrix rows by numbers from 1 to 5 from top to bottom, let's index the matrix columns by numbers from 1 to 5 from left to right. In one move, you are allowed to apply one of the two following transformations to the matrix: 1. Swap two neighboring matrix rows, that is, rows with indexes i and i<=+<=1 for some integer i (1<=≤<=i<=<<=5). 1. Swap two neighboring matrix columns, that is, columns with indexes j and j<=+<=1 for some integer j (1<=≤<=j<=<<=5). You think that a matrix looks beautiful, if the single number one of the matrix is located in its middle (in the cell that is on the intersection of the third row and the third column). Count the minimum number of moves needed to make the matrix beautiful. Input Specification: The input consists of five lines, each line contains five integers: the j-th integer in the i-th line of the input represents the element of the matrix that is located on the intersection of the i-th row and the j-th column. It is guaranteed that the matrix consists of 24 zeroes and a single number one. Output Specification: Print a single integer — the minimum number of moves needed to make the matrix beautiful. Demo Input: ['0 0 0 0 0\n0 0 0 0 1\n0 0 0 0 0\n0 0 0 0 0\n0 0 0 0 0\n', '0 0 0 0 0\n0 0 0 0 0\n0 1 0 0 0\n0 0 0 0 0\n0 0 0 0 0\n'] Demo Output: ['3\n', '1\n'] Note: none	```python x=[2,1,0,1,2] for i in x: n=input().find('1') if n!=-1: b=i+x[n] break print(b) ```	-1
784	A	Numbers Joke	PROGRAMMING	1,700	[ "*special" ]		null	null	The input contains a single integer a (1<=≤<=a<=≤<=30). Output a single integer.	The input contains a single integer a (1<=≤<=a<=≤<=30).	Output a single integer.	[ "3\n" ]	[ "27\n" ]	none	0	[ { "input": "3", "output": "27" }, { "input": "1", "output": "4" }, { "input": "2", "output": "22" }, { "input": "4", "output": "58" }, { "input": "5", "output": "85" }, { "input": "6", "output": "94" }, { "input": "7", "output": "121" ...	1,523,036,083	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	0	78	6,963,200	# lol lol lol lol a = input() if a<30 : print(30-a)	Title: Numbers Joke Time Limit: None seconds Memory Limit: None megabytes Problem Description: The input contains a single integer a (1<=≤<=a<=≤<=30). Output a single integer. Input Specification: The input contains a single integer a (1<=≤<=a<=≤<=30). Output Specification: Output a single integer. Demo Input: ['3\n'] Demo Output: ['27\n'] Note: none	```python # lol lol lol lol a = input() if a<30 : print(30-a) ```	-1
235	A	LCM Challenge	PROGRAMMING	1,600	[ "number theory" ]		null	null	Some days ago, I learned the concept of LCM (least common multiple). I've played with it for several times and I want to make a big number with it. But I also don't want to use many numbers, so I'll choose three positive integers (they don't have to be distinct) which are not greater than n. Can you help me to find the maximum possible least common multiple of these three integers?	The first line contains an integer n (1<=≤<=n<=≤<=106) — the n mentioned in the statement.	Print a single integer — the maximum possible LCM of three not necessarily distinct positive integers that are not greater than n.	[ "9\n", "7\n" ]	[ "504\n", "210\n" ]	The least common multiple of some positive integers is the least positive integer which is multiple for each of them. The result may become very large, 32-bit integer won't be enough. So using 64-bit integers is recommended. For the last example, we can chose numbers 7, 6, 5 and the LCM of them is 7·6·5 = 210. It is the maximum value we can get.	500	[ { "input": "9", "output": "504" }, { "input": "7", "output": "210" }, { "input": "1", "output": "1" }, { "input": "5", "output": "60" }, { "input": "6", "output": "60" }, { "input": "33", "output": "32736" }, { "input": "21", "output": ...	1,621,165,648	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	31	124	0	n=int(input()) import math if n==1: print(1) elif n==2: print(2) else: ans=n(n-1)(n-2) gcde=math.gcd(n,n-1) lcm=(n(n-1))//gcde gcde=math.gcd(lcm,n-2) lcm1=(lcm(n-2))//gcde print(lcm1)	Title: LCM Challenge Time Limit: None seconds Memory Limit: None megabytes Problem Description: Some days ago, I learned the concept of LCM (least common multiple). I've played with it for several times and I want to make a big number with it. But I also don't want to use many numbers, so I'll choose three positive integers (they don't have to be distinct) which are not greater than n. Can you help me to find the maximum possible least common multiple of these three integers? Input Specification: The first line contains an integer n (1<=≤<=n<=≤<=106) — the n mentioned in the statement. Output Specification: Print a single integer — the maximum possible LCM of three not necessarily distinct positive integers that are not greater than n. Demo Input: ['9\n', '7\n'] Demo Output: ['504\n', '210\n'] Note: The least common multiple of some positive integers is the least positive integer which is multiple for each of them. The result may become very large, 32-bit integer won't be enough. So using 64-bit integers is recommended. For the last example, we can chose numbers 7, 6, 5 and the LCM of them is 7·6·5 = 210. It is the maximum value we can get.	```python n=int(input()) import math if n==1: print(1) elif n==2: print(2) else: ans=n(n-1)(n-2) gcde=math.gcd(n,n-1) lcm=(n(n-1))//gcde gcde=math.gcd(lcm,n-2) lcm1=(lcm(n-2))//gcde print(lcm1) ```	0
344	A	Magnets	PROGRAMMING	800	[ "implementation" ]		null	null	Mad scientist Mike entertains himself by arranging rows of dominoes. He doesn't need dominoes, though: he uses rectangular magnets instead. Each magnet has two poles, positive (a "plus") and negative (a "minus"). If two magnets are put together at a close distance, then the like poles will repel each other and the opposite poles will attract each other. Mike starts by laying one magnet horizontally on the table. During each following step Mike adds one more magnet horizontally to the right end of the row. Depending on how Mike puts the magnet on the table, it is either attracted to the previous one (forming a group of multiple magnets linked together) or repelled by it (then Mike lays this magnet at some distance to the right from the previous one). We assume that a sole magnet not linked to others forms a group of its own. Mike arranged multiple magnets in a row. Determine the number of groups that the magnets formed.	The first line of the input contains an integer n (1<=≤<=n<=≤<=100000) — the number of magnets. Then n lines follow. The i-th line (1<=≤<=i<=≤<=n) contains either characters "01", if Mike put the i-th magnet in the "plus-minus" position, or characters "10", if Mike put the magnet in the "minus-plus" position.	On the single line of the output print the number of groups of magnets.	[ "6\n10\n10\n10\n01\n10\n10\n", "4\n01\n01\n10\n10\n" ]	[ "3\n", "2\n" ]	The first testcase corresponds to the figure. The testcase has three groups consisting of three, one and two magnets. The second testcase has two groups, each consisting of two magnets.	500	[ { "input": "6\n10\n10\n10\n01\n10\n10", "output": "3" }, { "input": "4\n01\n01\n10\n10", "output": "2" }, { "input": "1\n10", "output": "1" }, { "input": "2\n01\n10", "output": "2" }, { "input": "2\n10\n10", "output": "1" }, { "input": "3\n10\n01\n10",...	1,691,407,184	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	60	0	# import pandas as pd # import numpy as np # ###################### assigning data ###################### # a=np.random.randn(4,6) # print(a.ndim) # a=pd.Series(a) # print(a) """ 6 10 01 10 01 10 10 """ n=int(input()) x=0 l=[] # m=list(map(int,(input().split()))) # print(m) for i in range (n): l.append((input())) print(l) for b in range (int(n/2)+1) : if l[0]==l[1]: l=l[1:] else: x+=1 l=l[1:] else: x+=1 print(x)	Title: Magnets Time Limit: None seconds Memory Limit: None megabytes Problem Description: Mad scientist Mike entertains himself by arranging rows of dominoes. He doesn't need dominoes, though: he uses rectangular magnets instead. Each magnet has two poles, positive (a "plus") and negative (a "minus"). If two magnets are put together at a close distance, then the like poles will repel each other and the opposite poles will attract each other. Mike starts by laying one magnet horizontally on the table. During each following step Mike adds one more magnet horizontally to the right end of the row. Depending on how Mike puts the magnet on the table, it is either attracted to the previous one (forming a group of multiple magnets linked together) or repelled by it (then Mike lays this magnet at some distance to the right from the previous one). We assume that a sole magnet not linked to others forms a group of its own. Mike arranged multiple magnets in a row. Determine the number of groups that the magnets formed. Input Specification: The first line of the input contains an integer n (1<=≤<=n<=≤<=100000) — the number of magnets. Then n lines follow. The i-th line (1<=≤<=i<=≤<=n) contains either characters "01", if Mike put the i-th magnet in the "plus-minus" position, or characters "10", if Mike put the magnet in the "minus-plus" position. Output Specification: On the single line of the output print the number of groups of magnets. Demo Input: ['6\n10\n10\n10\n01\n10\n10\n', '4\n01\n01\n10\n10\n'] Demo Output: ['3\n', '2\n'] Note: The first testcase corresponds to the figure. The testcase has three groups consisting of three, one and two magnets. The second testcase has two groups, each consisting of two magnets.	```python # import pandas as pd # import numpy as np # ###################### assigning data ###################### # a=np.random.randn(4,6) # print(a.ndim) # a=pd.Series(a) # print(a) """ 6 10 01 10 01 10 10 """ n=int(input()) x=0 l=[] # m=list(map(int,(input().split()))) # print(m) for i in range (n): l.append((input())) print(l) for b in range (int(n/2)+1) : if l[0]==l[1]: l=l[1:] else: x+=1 l=l[1:] else: x+=1 print(x) ```	0
59	A	Word	PROGRAMMING	800	[ "implementation", "strings" ]	A. Word	2	256	Vasya is very upset that many people on the Net mix uppercase and lowercase letters in one word. That's why he decided to invent an extension for his favorite browser that would change the letters' register in every word so that it either only consisted of lowercase letters or, vice versa, only of uppercase ones. At that as little as possible letters should be changed in the word. For example, the word HoUse must be replaced with house, and the word ViP — with VIP. If a word contains an equal number of uppercase and lowercase letters, you should replace all the letters with lowercase ones. For example, maTRIx should be replaced by matrix. Your task is to use the given method on one given word.	The first line contains a word s — it consists of uppercase and lowercase Latin letters and possesses the length from 1 to 100.	Print the corrected word s. If the given word s has strictly more uppercase letters, make the word written in the uppercase register, otherwise - in the lowercase one.	[ "HoUse\n", "ViP\n", "maTRIx\n" ]	[ "house\n", "VIP\n", "matrix\n" ]	none	500	[ { "input": "HoUse", "output": "house" }, { "input": "ViP", "output": "VIP" }, { "input": "maTRIx", "output": "matrix" }, { "input": "BNHWpnpawg", "output": "bnhwpnpawg" }, { "input": "VTYGP", "output": "VTYGP" }, { "input": "CHNenu", "output": "chn...	1,690,892,602	2,147,483,647	PyPy 3-64	OK	TESTS	30	122	0	x = input() count_up = 0 count_low = 0 for i in x: if i == i.upper(): count_up += 1 elif i == i.lower(): count_low += 1 if count_up == count_low: print(x.lower()) elif count_up > count_low: print(x.upper()) else: print(x.lower())	Title: Word Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: Vasya is very upset that many people on the Net mix uppercase and lowercase letters in one word. That's why he decided to invent an extension for his favorite browser that would change the letters' register in every word so that it either only consisted of lowercase letters or, vice versa, only of uppercase ones. At that as little as possible letters should be changed in the word. For example, the word HoUse must be replaced with house, and the word ViP — with VIP. If a word contains an equal number of uppercase and lowercase letters, you should replace all the letters with lowercase ones. For example, maTRIx should be replaced by matrix. Your task is to use the given method on one given word. Input Specification: The first line contains a word s — it consists of uppercase and lowercase Latin letters and possesses the length from 1 to 100. Output Specification: Print the corrected word s. If the given word s has strictly more uppercase letters, make the word written in the uppercase register, otherwise - in the lowercase one. Demo Input: ['HoUse\n', 'ViP\n', 'maTRIx\n'] Demo Output: ['house\n', 'VIP\n', 'matrix\n'] Note: none	```python x = input() count_up = 0 count_low = 0 for i in x: if i == i.upper(): count_up += 1 elif i == i.lower(): count_low += 1 if count_up == count_low: print(x.lower()) elif count_up > count_low: print(x.upper()) else: print(x.lower()) ```	3.9695
6	C	Alice, Bob and Chocolate	PROGRAMMING	1,200	[ "greedy", "two pointers" ]	C. Alice, Bob and Chocolate	2	64	Alice and Bob like games. And now they are ready to start a new game. They have placed n chocolate bars in a line. Alice starts to eat chocolate bars one by one from left to right, and Bob — from right to left. For each chocololate bar the time, needed for the player to consume it, is known (Alice and Bob eat them with equal speed). When the player consumes a chocolate bar, he immediately starts with another. It is not allowed to eat two chocolate bars at the same time, to leave the bar unfinished and to make pauses. If both players start to eat the same bar simultaneously, Bob leaves it to Alice as a true gentleman. How many bars each of the players will consume?	The first line contains one integer n (1<=≤<=n<=≤<=105) — the amount of bars on the table. The second line contains a sequence t1,<=t2,<=...,<=tn (1<=≤<=ti<=≤<=1000), where ti is the time (in seconds) needed to consume the i-th bar (in the order from left to right).	Print two numbers a and b, where a is the amount of bars consumed by Alice, and b is the amount of bars consumed by Bob.	[ "5\n2 9 8 2 7\n" ]	[ "2 3\n" ]	none	0	[ { "input": "5\n2 9 8 2 7", "output": "2 3" }, { "input": "1\n1", "output": "1 0" }, { "input": "2\n1 1", "output": "1 1" }, { "input": "3\n1 1 1", "output": "2 1" }, { "input": "4\n1 1 1 1", "output": "2 2" }, { "input": "1\n6", "output": "1 0" }...	1,538,409,755	2,147,483,647	Python 3	RUNTIME_ERROR	TESTS	2	216	0	n=int(input()) a=[int(i) for i in input().split()] sa=0 sb=0 i=0 j=n-1 ca=0 cb=0 while True: if i==j and sa==0 and sb==0: ca+=1 break elif i==j: if sa!=0: ca+=1 else: cb+=1 break if sa==0: sa=a[i] if sb==0: sb=a[j] #print(sa,sb) if sa>sb: cb+=1 j-=1 sa=sa-sb sb=0 elif sb>sa: sb=sb-sa i+=1 ca+=1 sa=0 elif sa==sb: sa=0 sb=0 i+=1 j-=1 ca+=1 cb+=1 print(ca,cb)	Title: Alice, Bob and Chocolate Time Limit: 2 seconds Memory Limit: 64 megabytes Problem Description: Alice and Bob like games. And now they are ready to start a new game. They have placed n chocolate bars in a line. Alice starts to eat chocolate bars one by one from left to right, and Bob — from right to left. For each chocololate bar the time, needed for the player to consume it, is known (Alice and Bob eat them with equal speed). When the player consumes a chocolate bar, he immediately starts with another. It is not allowed to eat two chocolate bars at the same time, to leave the bar unfinished and to make pauses. If both players start to eat the same bar simultaneously, Bob leaves it to Alice as a true gentleman. How many bars each of the players will consume? Input Specification: The first line contains one integer n (1<=≤<=n<=≤<=105) — the amount of bars on the table. The second line contains a sequence t1,<=t2,<=...,<=tn (1<=≤<=ti<=≤<=1000), where ti is the time (in seconds) needed to consume the i-th bar (in the order from left to right). Output Specification: Print two numbers a and b, where a is the amount of bars consumed by Alice, and b is the amount of bars consumed by Bob. Demo Input: ['5\n2 9 8 2 7\n'] Demo Output: ['2 3\n'] Note: none	```python n=int(input()) a=[int(i) for i in input().split()] sa=0 sb=0 i=0 j=n-1 ca=0 cb=0 while True: if i==j and sa==0 and sb==0: ca+=1 break elif i==j: if sa!=0: ca+=1 else: cb+=1 break if sa==0: sa=a[i] if sb==0: sb=a[j] #print(sa,sb) if sa>sb: cb+=1 j-=1 sa=sa-sb sb=0 elif sb>sa: sb=sb-sa i+=1 ca+=1 sa=0 elif sa==sb: sa=0 sb=0 i+=1 j-=1 ca+=1 cb+=1 print(ca,cb) ```	-1
239	A	Two Bags of Potatoes	PROGRAMMING	1,200	[ "greedy", "implementation", "math" ]		null	null	Valera had two bags of potatoes, the first of these bags contains x (x<=≥<=1) potatoes, and the second — y (y<=≥<=1) potatoes. Valera — very scattered boy, so the first bag of potatoes (it contains x potatoes) Valera lost. Valera remembers that the total amount of potatoes (x<=+<=y) in the two bags, firstly, was not gerater than n, and, secondly, was divisible by k. Help Valera to determine how many potatoes could be in the first bag. Print all such possible numbers in ascending order.	The first line of input contains three integers y, k, n (1<=≤<=y,<=k,<=n<=≤<=109; <=≤<=105).	Print the list of whitespace-separated integers — all possible values of x in ascending order. You should print each possible value of x exactly once. If there are no such values of x print a single integer -1.	[ "10 1 10\n", "10 6 40\n" ]	[ "-1\n", "2 8 14 20 26 \n" ]	none	500	[ { "input": "10 1 10", "output": "-1" }, { "input": "10 6 40", "output": "2 8 14 20 26 " }, { "input": "10 1 20", "output": "1 2 3 4 5 6 7 8 9 10 " }, { "input": "1 10000 1000000000", "output": "9999 19999 29999 39999 49999 59999 69999 79999 89999 99999 109999 119999 12999...	1,607,223,039	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	218	409,600	import math import collections def cint() : return list(map(int, input().split())) def cstr() : return list(map(str, input().split(' '))) def solve(): y,k,n = cint() if y==n: print(-1) else: x = (k - y%k) while x+y<n: print(x, end=' ') x+=k if __name__ == "__main__": # t = int(input()) t = 1 while t!=0: solve() t-=1	Title: Two Bags of Potatoes Time Limit: None seconds Memory Limit: None megabytes Problem Description: Valera had two bags of potatoes, the first of these bags contains x (x<=≥<=1) potatoes, and the second — y (y<=≥<=1) potatoes. Valera — very scattered boy, so the first bag of potatoes (it contains x potatoes) Valera lost. Valera remembers that the total amount of potatoes (x<=+<=y) in the two bags, firstly, was not gerater than n, and, secondly, was divisible by k. Help Valera to determine how many potatoes could be in the first bag. Print all such possible numbers in ascending order. Input Specification: The first line of input contains three integers y, k, n (1<=≤<=y,<=k,<=n<=≤<=109; <=≤<=105). Output Specification: Print the list of whitespace-separated integers — all possible values of x in ascending order. You should print each possible value of x exactly once. If there are no such values of x print a single integer -1. Demo Input: ['10 1 10\n', '10 6 40\n'] Demo Output: ['-1\n', '2 8 14 20 26 \n'] Note: none	```python import math import collections def cint() : return list(map(int, input().split())) def cstr() : return list(map(str, input().split(' '))) def solve(): y,k,n = cint() if y==n: print(-1) else: x = (k - y%k) while x+y<n: print(x, end=' ') x+=k if __name__ == "__main__": # t = int(input()) t = 1 while t!=0: solve() t-=1 ```	0
716	A	Crazy Computer	PROGRAMMING	800	[ "implementation" ]		null	null	ZS the Coder is coding on a crazy computer. If you don't type in a word for a c consecutive seconds, everything you typed disappear! More formally, if you typed a word at second a and then the next word at second b, then if b<=-<=a<=≤<=c, just the new word is appended to other words on the screen. If b<=-<=a<=><=c, then everything on the screen disappears and after that the word you have typed appears on the screen. For example, if c<==<=5 and you typed words at seconds 1,<=3,<=8,<=14,<=19,<=20 then at the second 8 there will be 3 words on the screen. After that, everything disappears at the second 13 because nothing was typed. At the seconds 14 and 19 another two words are typed, and finally, at the second 20, one more word is typed, and a total of 3 words remain on the screen. You're given the times when ZS the Coder typed the words. Determine how many words remain on the screen after he finished typing everything.	The first line contains two integers n and c (1<=≤<=n<=≤<=100<=000,<=1<=≤<=c<=≤<=109) — the number of words ZS the Coder typed and the crazy computer delay respectively. The next line contains n integers t1,<=t2,<=...,<=tn (1<=≤<=t1<=<<=t2<=<<=...<=<<=tn<=≤<=109), where ti denotes the second when ZS the Coder typed the i-th word.	Print a single positive integer, the number of words that remain on the screen after all n words was typed, in other words, at the second tn.	[ "6 5\n1 3 8 14 19 20\n", "6 1\n1 3 5 7 9 10\n" ]	[ "3", "2" ]	The first sample is already explained in the problem statement. For the second sample, after typing the first word at the second 1, it disappears because the next word is typed at the second 3 and 3 - 1 > 1. Similarly, only 1 word will remain at the second 9. Then, a word is typed at the second 10, so there will be two words on the screen, as the old word won't disappear because 10 - 9 ≤ 1.	500	[ { "input": "6 5\n1 3 8 14 19 20", "output": "3" }, { "input": "6 1\n1 3 5 7 9 10", "output": "2" }, { "input": "1 1\n1000000000", "output": "1" }, { "input": "5 5\n1 7 12 13 14", "output": "4" }, { "input": "2 1000000000\n1 1000000000", "output": "2" }, { ...	1,560,194,558	2,147,483,647	Python 3	OK	TESTS	81	187	8,499,200	# import sys # sys.stdin=open("input.in","r") # sys.stdout=open("output.out","w") N,c=map(int,input().split()) count=1 X=list(map(int,input().split())) for i in range(1,N): if X[i]-X[i-1]>c: count=1 else: count+=1 print(count)	Title: Crazy Computer Time Limit: None seconds Memory Limit: None megabytes Problem Description: ZS the Coder is coding on a crazy computer. If you don't type in a word for a c consecutive seconds, everything you typed disappear! More formally, if you typed a word at second a and then the next word at second b, then if b<=-<=a<=≤<=c, just the new word is appended to other words on the screen. If b<=-<=a<=><=c, then everything on the screen disappears and after that the word you have typed appears on the screen. For example, if c<==<=5 and you typed words at seconds 1,<=3,<=8,<=14,<=19,<=20 then at the second 8 there will be 3 words on the screen. After that, everything disappears at the second 13 because nothing was typed. At the seconds 14 and 19 another two words are typed, and finally, at the second 20, one more word is typed, and a total of 3 words remain on the screen. You're given the times when ZS the Coder typed the words. Determine how many words remain on the screen after he finished typing everything. Input Specification: The first line contains two integers n and c (1<=≤<=n<=≤<=100<=000,<=1<=≤<=c<=≤<=109) — the number of words ZS the Coder typed and the crazy computer delay respectively. The next line contains n integers t1,<=t2,<=...,<=tn (1<=≤<=t1<=<<=t2<=<<=...<=<<=tn<=≤<=109), where ti denotes the second when ZS the Coder typed the i-th word. Output Specification: Print a single positive integer, the number of words that remain on the screen after all n words was typed, in other words, at the second tn. Demo Input: ['6 5\n1 3 8 14 19 20\n', '6 1\n1 3 5 7 9 10\n'] Demo Output: ['3', '2'] Note: The first sample is already explained in the problem statement. For the second sample, after typing the first word at the second 1, it disappears because the next word is typed at the second 3 and 3 - 1 > 1. Similarly, only 1 word will remain at the second 9. Then, a word is typed at the second 10, so there will be two words on the screen, as the old word won't disappear because 10 - 9 ≤ 1.	```python # import sys # sys.stdin=open("input.in","r") # sys.stdout=open("output.out","w") N,c=map(int,input().split()) count=1 X=list(map(int,input().split())) for i in range(1,N): if X[i]-X[i-1]>c: count=1 else: count+=1 print(count) ```	3
266	A	Stones on the Table	PROGRAMMING	800	[ "implementation" ]		null	null	There are n stones on the table in a row, each of them can be red, green or blue. Count the minimum number of stones to take from the table so that any two neighboring stones had different colors. Stones in a row are considered neighboring if there are no other stones between them.	The first line contains integer n (1<=≤<=n<=≤<=50) — the number of stones on the table. The next line contains string s, which represents the colors of the stones. We'll consider the stones in the row numbered from 1 to n from left to right. Then the i-th character s equals "R", if the i-th stone is red, "G", if it's green and "B", if it's blue.	Print a single integer — the answer to the problem.	[ "3\nRRG\n", "5\nRRRRR\n", "4\nBRBG\n" ]	[ "1\n", "4\n", "0\n" ]	none	500	[ { "input": "3\nRRG", "output": "1" }, { "input": "5\nRRRRR", "output": "4" }, { "input": "4\nBRBG", "output": "0" }, { "input": "1\nB", "output": "0" }, { "input": "2\nBG", "output": "0" }, { "input": "3\nBGB", "output": "0" }, { "input": "...	1,694,616,843	2,147,483,647	Python 3	OK	TESTS	34	92	0	C={'R':1,'G':2,'B':3} n=int(input()) color=input() times=0 for i in range(n-1): if C[color[i]]==C[color[i+1]]: times=times+1 else: times=times print(times)	Title: Stones on the Table Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are n stones on the table in a row, each of them can be red, green or blue. Count the minimum number of stones to take from the table so that any two neighboring stones had different colors. Stones in a row are considered neighboring if there are no other stones between them. Input Specification: The first line contains integer n (1<=≤<=n<=≤<=50) — the number of stones on the table. The next line contains string s, which represents the colors of the stones. We'll consider the stones in the row numbered from 1 to n from left to right. Then the i-th character s equals "R", if the i-th stone is red, "G", if it's green and "B", if it's blue. Output Specification: Print a single integer — the answer to the problem. Demo Input: ['3\nRRG\n', '5\nRRRRR\n', '4\nBRBG\n'] Demo Output: ['1\n', '4\n', '0\n'] Note: none	```python C={'R':1,'G':2,'B':3} n=int(input()) color=input() times=0 for i in range(n-1): if C[color[i]]==C[color[i+1]]: times=times+1 else: times=times print(times) ```	3
50	A	Domino piling	PROGRAMMING	800	[ "greedy", "math" ]	A. Domino piling	2	256	You are given a rectangular board of M<=×<=N squares. Also you are given an unlimited number of standard domino pieces of 2<=×<=1 squares. You are allowed to rotate the pieces. You are asked to place as many dominoes as possible on the board so as to meet the following conditions: 1. Each domino completely covers two squares. 2. No two dominoes overlap. 3. Each domino lies entirely inside the board. It is allowed to touch the edges of the board. Find the maximum number of dominoes, which can be placed under these restrictions.	In a single line you are given two integers M and N — board sizes in squares (1<=≤<=M<=≤<=N<=≤<=16).	Output one number — the maximal number of dominoes, which can be placed.	[ "2 4\n", "3 3\n" ]	[ "4\n", "4\n" ]	none	500	[ { "input": "2 4", "output": "4" }, { "input": "3 3", "output": "4" }, { "input": "1 5", "output": "2" }, { "input": "1 6", "output": "3" }, { "input": "1 15", "output": "7" }, { "input": "1 16", "output": "8" }, { "input": "2 5", "outpu...	1,632,476,013	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	92	0	a, b = input().split() a = int(a) b = int(b) c = ab % 2 print((a 2 - c) // 2)	Title: Domino piling Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: You are given a rectangular board of M<=×<=N squares. Also you are given an unlimited number of standard domino pieces of 2<=×<=1 squares. You are allowed to rotate the pieces. You are asked to place as many dominoes as possible on the board so as to meet the following conditions: 1. Each domino completely covers two squares. 2. No two dominoes overlap. 3. Each domino lies entirely inside the board. It is allowed to touch the edges of the board. Find the maximum number of dominoes, which can be placed under these restrictions. Input Specification: In a single line you are given two integers M and N — board sizes in squares (1<=≤<=M<=≤<=N<=≤<=16). Output Specification: Output one number — the maximal number of dominoes, which can be placed. Demo Input: ['2 4\n', '3 3\n'] Demo Output: ['4\n', '4\n'] Note: none	```python a, b = input().split() a = int(a) b = int(b) c = ab % 2 print((a 2 - c) // 2) ```	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" }, { ...	1,649,443,464	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	29	46	0	a = [0, 0, 0, 0, 0, 0] a[0], a[1], a[2], a[3], a[4], a[5] = input().split() for i in range(6): a[i] = int(a[i]) a = sorted(a, reverse=True) total = a[0] a.pop(0) for i in range(5): if total > 0: total -= a[i] else: total += a[i] if total: print("NO") else: print('YES')	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 a = [0, 0, 0, 0, 0, 0] a[0], a[1], a[2], a[3], a[4], a[5] = input().split() for i in range(6): a[i] = int(a[i]) a = sorted(a, reverse=True) total = a[0] a.pop(0) for i in range(5): if total > 0: total -= a[i] else: total += a[i] if total: print("NO") else: print('YES') ```	0
651	A	Joysticks	PROGRAMMING	1,100	[ "dp", "greedy", "implementation", "math" ]		null	null	Friends are going to play console. They have two joysticks and only one charger for them. Initially first joystick is charged at a1 percent and second one is charged at a2 percent. You can connect charger to a joystick only at the beginning of each minute. In one minute joystick either discharges by 2 percent (if not connected to a charger) or charges by 1 percent (if connected to a charger). Game continues while both joysticks have a positive charge. Hence, if at the beginning of minute some joystick is charged by 1 percent, it has to be connected to a charger, otherwise the game stops. If some joystick completely discharges (its charge turns to 0), the game also stops. Determine the maximum number of minutes that game can last. It is prohibited to pause the game, i. e. at each moment both joysticks should be enabled. It is allowed for joystick to be charged by more than 100 percent.	The first line of the input contains two positive integers a1 and a2 (1<=≤<=a1,<=a2<=≤<=100), the initial charge level of first and second joystick respectively.	Output the only integer, the maximum number of minutes that the game can last. Game continues until some joystick is discharged.	[ "3 5\n", "4 4\n" ]	[ "6\n", "5\n" ]	In the first sample game lasts for 6 minute by using the following algorithm: - at the beginning of the first minute connect first joystick to the charger, by the end of this minute first joystick is at 4%, second is at 3%; - continue the game without changing charger, by the end of the second minute the first joystick is at 5%, second is at 1%; - at the beginning of the third minute connect second joystick to the charger, after this minute the first joystick is at 3%, the second one is at 2%; - continue the game without changing charger, by the end of the fourth minute first joystick is at 1%, second one is at 3%; - at the beginning of the fifth minute connect first joystick to the charger, after this minute the first joystick is at 2%, the second one is at 1%; - at the beginning of the sixth minute connect second joystick to the charger, after this minute the first joystick is at 0%, the second one is at 2%. After that the first joystick is completely discharged and the game is stopped.	500	[ { "input": "3 5", "output": "6" }, { "input": "4 4", "output": "5" }, { "input": "100 100", "output": "197" }, { "input": "1 100", "output": "98" }, { "input": "100 1", "output": "98" }, { "input": "1 4", "output": "2" }, { "input": "1 1", ...	1,621,832,245	2,147,483,647	Python 3	OK	TESTS	39	62	0	a,b=map(int,input().split()) count=0 while(a>0 and b>0): if(a==1)and(b==1): break if(a>b): a,b=b,a a=a+1 b=b-2 else: a,b=b,a b=b+1 a=a-2 count=count+1 print(count)	Title: Joysticks Time Limit: None seconds Memory Limit: None megabytes Problem Description: Friends are going to play console. They have two joysticks and only one charger for them. Initially first joystick is charged at a1 percent and second one is charged at a2 percent. You can connect charger to a joystick only at the beginning of each minute. In one minute joystick either discharges by 2 percent (if not connected to a charger) or charges by 1 percent (if connected to a charger). Game continues while both joysticks have a positive charge. Hence, if at the beginning of minute some joystick is charged by 1 percent, it has to be connected to a charger, otherwise the game stops. If some joystick completely discharges (its charge turns to 0), the game also stops. Determine the maximum number of minutes that game can last. It is prohibited to pause the game, i. e. at each moment both joysticks should be enabled. It is allowed for joystick to be charged by more than 100 percent. Input Specification: The first line of the input contains two positive integers a1 and a2 (1<=≤<=a1,<=a2<=≤<=100), the initial charge level of first and second joystick respectively. Output Specification: Output the only integer, the maximum number of minutes that the game can last. Game continues until some joystick is discharged. Demo Input: ['3 5\n', '4 4\n'] Demo Output: ['6\n', '5\n'] Note: In the first sample game lasts for 6 minute by using the following algorithm: - at the beginning of the first minute connect first joystick to the charger, by the end of this minute first joystick is at 4%, second is at 3%; - continue the game without changing charger, by the end of the second minute the first joystick is at 5%, second is at 1%; - at the beginning of the third minute connect second joystick to the charger, after this minute the first joystick is at 3%, the second one is at 2%; - continue the game without changing charger, by the end of the fourth minute first joystick is at 1%, second one is at 3%; - at the beginning of the fifth minute connect first joystick to the charger, after this minute the first joystick is at 2%, the second one is at 1%; - at the beginning of the sixth minute connect second joystick to the charger, after this minute the first joystick is at 0%, the second one is at 2%. After that the first joystick is completely discharged and the game is stopped.	```python a,b=map(int,input().split()) count=0 while(a>0 and b>0): if(a==1)and(b==1): break if(a>b): a,b=b,a a=a+1 b=b-2 else: a,b=b,a b=b+1 a=a-2 count=count+1 print(count) ```	3
92	A	Chips	PROGRAMMING	800	[ "implementation", "math" ]	A. Chips	2	256	There are n walruses sitting in a circle. All of them are numbered in the clockwise order: the walrus number 2 sits to the left of the walrus number 1, the walrus number 3 sits to the left of the walrus number 2, ..., the walrus number 1 sits to the left of the walrus number n. The presenter has m chips. The presenter stands in the middle of the circle and starts giving the chips to the walruses starting from walrus number 1 and moving clockwise. The walrus number i gets i chips. If the presenter can't give the current walrus the required number of chips, then the presenter takes the remaining chips and the process ends. Determine by the given n and m how many chips the presenter will get in the end.	The first line contains two integers n and m (1<=≤<=n<=≤<=50, 1<=≤<=m<=≤<=104) — the number of walruses and the number of chips correspondingly.	Print the number of chips the presenter ended up with.	[ "4 11\n", "17 107\n", "3 8\n" ]	[ "0\n", "2\n", "1\n" ]	In the first sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, four chips to the walrus number 4, then again one chip to the walrus number 1. After that the presenter runs out of chips. He can't give anything to the walrus number 2 and the process finishes. In the third sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, then again one chip to the walrus number 1. The presenter has one chip left and he can't give two chips to the walrus number 2, that's why the presenter takes the last chip.	500	[ { "input": "4 11", "output": "0" }, { "input": "17 107", "output": "2" }, { "input": "3 8", "output": "1" }, { "input": "46 7262", "output": "35" }, { "input": "32 6864", "output": "0" }, { "input": "36 6218", "output": "14" }, { "input": "...	1,623,560,799	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	4	154	0	x=[int(x) for x in input().split()] n=x[0] m=x[1] s=0 l=[] for i in range(1,n+1): s+=i l.append(s) y=m%s #print(s,y,l) if y in l: print(0) exit() for j in range(n-1): if y>=l[j] and y<=l[j+1]: print(y-l[j]) exit()	Title: Chips Time Limit: 2 seconds Memory Limit: 256 megabytes Problem Description: There are n walruses sitting in a circle. All of them are numbered in the clockwise order: the walrus number 2 sits to the left of the walrus number 1, the walrus number 3 sits to the left of the walrus number 2, ..., the walrus number 1 sits to the left of the walrus number n. The presenter has m chips. The presenter stands in the middle of the circle and starts giving the chips to the walruses starting from walrus number 1 and moving clockwise. The walrus number i gets i chips. If the presenter can't give the current walrus the required number of chips, then the presenter takes the remaining chips and the process ends. Determine by the given n and m how many chips the presenter will get in the end. Input Specification: The first line contains two integers n and m (1<=≤<=n<=≤<=50, 1<=≤<=m<=≤<=104) — the number of walruses and the number of chips correspondingly. Output Specification: Print the number of chips the presenter ended up with. Demo Input: ['4 11\n', '17 107\n', '3 8\n'] Demo Output: ['0\n', '2\n', '1\n'] Note: In the first sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, four chips to the walrus number 4, then again one chip to the walrus number 1. After that the presenter runs out of chips. He can't give anything to the walrus number 2 and the process finishes. In the third sample the presenter gives one chip to the walrus number 1, two chips to the walrus number 2, three chips to the walrus number 3, then again one chip to the walrus number 1. The presenter has one chip left and he can't give two chips to the walrus number 2, that's why the presenter takes the last chip.	```python x=[int(x) for x in input().split()] n=x[0] m=x[1] s=0 l=[] for i in range(1,n+1): s+=i l.append(s) y=m%s #print(s,y,l) if y in l: print(0) exit() for j in range(n-1): if y>=l[j] and y<=l[j+1]: print(y-l[j]) exit() ```	0
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": "=" }, { ...	1,661,183,220	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	2	31	0	a = int(input()) b = int(input()) a_str = str(a) b_str = str(b) if len(a_str) < len(b_str): print('<') elif len(a_str) > len(b_str): print('>') else: for i in range(len(a_str)): if a_str[i] > b_str[i]: print('>') break elif a_str[i] < b_str[i]: print('<') break	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 a = int(input()) b = int(input()) a_str = str(a) b_str = str(b) if len(a_str) < len(b_str): print('<') elif len(a_str) > len(b_str): print('>') else: for i in range(len(a_str)): if a_str[i] > b_str[i]: print('>') break elif a_str[i] < b_str[i]: print('<') break ```	0
1	A	Theatre Square	PROGRAMMING	1,000	[ "math" ]	A. Theatre Square	1	256	Theatre Square in the capital city of Berland has a rectangular shape with the size n<=×<=m meters. On the occasion of the city's anniversary, a decision was taken to pave the Square with square granite flagstones. Each flagstone is of the size a<=×<=a. What is the least number of flagstones needed to pave the Square? It's allowed to cover the surface larger than the Theatre Square, but the Square has to be covered. It's not allowed to break the flagstones. The sides of flagstones should be parallel to the sides of the Square.	The input contains three positive integer numbers in the first line: n,<=<=m and a (1<=≤<=<=n,<=m,<=a<=≤<=109).	Write the needed number of flagstones.	[ "6 6 4\n" ]	[ "4\n" ]	none	0	[ { "input": "6 6 4", "output": "4" }, { "input": "1 1 1", "output": "1" }, { "input": "2 1 1", "output": "2" }, { "input": "1 2 1", "output": "2" }, { "input": "2 2 1", "output": "4" }, { "input": "2 1 2", "output": "1" }, { "input": "1 1 3"...	1,691,210,443	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	31	0	import math n, m, a = map(int, input().split()) slab = 0 bbc = math.ceil(n / a) if n - a >= 0: bbc1 = math.ceil(m / a) print(bbc + bbc1) else: print(bbc)	Title: Theatre Square Time Limit: 1 seconds Memory Limit: 256 megabytes Problem Description: Theatre Square in the capital city of Berland has a rectangular shape with the size n<=×<=m meters. On the occasion of the city's anniversary, a decision was taken to pave the Square with square granite flagstones. Each flagstone is of the size a<=×<=a. What is the least number of flagstones needed to pave the Square? It's allowed to cover the surface larger than the Theatre Square, but the Square has to be covered. It's not allowed to break the flagstones. The sides of flagstones should be parallel to the sides of the Square. Input Specification: The input contains three positive integer numbers in the first line: n,<=<=m and a (1<=≤<=<=n,<=m,<=a<=≤<=109). Output Specification: Write the needed number of flagstones. Demo Input: ['6 6 4\n'] Demo Output: ['4\n'] Note: none	```python import math n, m, a = map(int, input().split()) slab = 0 bbc = math.ceil(n / a) if n - a >= 0: bbc1 = math.ceil(m / a) print(bbc + bbc1) else: print(bbc) ```	0
372	A	Counting Kangaroos is Fun	PROGRAMMING	1,600	[ "binary search", "greedy", "sortings", "two pointers" ]		null	null	There are n kangaroos with pockets. Each kangaroo has a size (integer number). A kangaroo can go into another kangaroo's pocket if and only if the size of kangaroo who hold the kangaroo is at least twice as large as the size of kangaroo who is held. Each kangaroo can hold at most one kangaroo, and the kangaroo who is held by another kangaroo cannot hold any kangaroos. The kangaroo who is held by another kangaroo cannot be visible from outside. Please, find a plan of holding kangaroos with the minimal number of kangaroos who is visible.	The first line contains a single integer — n (1<=≤<=n<=≤<=5·105). Each of the next n lines contains an integer si — the size of the i-th kangaroo (1<=≤<=si<=≤<=105).	Output a single integer — the optimal number of visible kangaroos.	[ "8\n2\n5\n7\n6\n9\n8\n4\n2\n", "8\n9\n1\n6\n2\n6\n5\n8\n3\n" ]	[ "5\n", "5\n" ]	none	500	[ { "input": "8\n2\n5\n7\n6\n9\n8\n4\n2", "output": "5" }, { "input": "8\n9\n1\n6\n2\n6\n5\n8\n3", "output": "5" }, { "input": "12\n3\n99\n24\n46\n75\n63\n57\n55\n10\n62\n34\n52", "output": "7" }, { "input": "12\n55\n75\n1\n98\n63\n64\n9\n39\n82\n18\n47\n9", "output": "6" ...	1,631,419,808	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	8	1,000	35,840,000	n = int(input()) arr = sorted(map(int, [input() for _ in range(n)])) j = 0 res = n for i in range(n // 2, n): if j < n // 2 and arr[j] * 2 <= arr[i]: res -= 1 j += 1 print(res)	Title: Counting Kangaroos is Fun Time Limit: None seconds Memory Limit: None megabytes Problem Description: There are n kangaroos with pockets. Each kangaroo has a size (integer number). A kangaroo can go into another kangaroo's pocket if and only if the size of kangaroo who hold the kangaroo is at least twice as large as the size of kangaroo who is held. Each kangaroo can hold at most one kangaroo, and the kangaroo who is held by another kangaroo cannot hold any kangaroos. The kangaroo who is held by another kangaroo cannot be visible from outside. Please, find a plan of holding kangaroos with the minimal number of kangaroos who is visible. Input Specification: The first line contains a single integer — n (1<=≤<=n<=≤<=5·105). Each of the next n lines contains an integer si — the size of the i-th kangaroo (1<=≤<=si<=≤<=105). Output Specification: Output a single integer — the optimal number of visible kangaroos. Demo Input: ['8\n2\n5\n7\n6\n9\n8\n4\n2\n', '8\n9\n1\n6\n2\n6\n5\n8\n3\n'] Demo Output: ['5\n', '5\n'] Note: none	```python n = int(input()) arr = sorted(map(int, [input() for _ in range(n)])) j = 0 res = n for i in range(n // 2, n): if j < n // 2 and arr[j] * 2 <= arr[i]: res -= 1 j += 1 print(res) ```	0
270	A	Fancy Fence	PROGRAMMING	1,100	[ "geometry", "implementation", "math" ]		null	null	Emuskald needs a fence around his farm, but he is too lazy to build it himself. So he purchased a fence-building robot. He wants the fence to be a regular polygon. The robot builds the fence along a single path, but it can only make fence corners at a single angle a. Will the robot be able to build the fence Emuskald wants? In other words, is there a regular polygon which angles are equal to a?	The first line of input contains an integer t (0<=<<=t<=<<=180) — the number of tests. Each of the following t lines contains a single integer a (0<=<<=a<=<<=180) — the angle the robot can make corners at measured in degrees.	For each test, output on a single line "YES" (without quotes), if the robot can build a fence Emuskald wants, and "NO" (without quotes), if it is impossible.	[ "3\n30\n60\n90\n" ]	[ "NO\nYES\nYES\n" ]	In the first test case, it is impossible to build the fence, since there is no regular polygon with angle <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/df5f4b07dd5316fde165b43657b2696e2919e791.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second test case, the fence is a regular triangle, and in the last test case — a square.	500	[ { "input": "3\n30\n60\n90", "output": "NO\nYES\nYES" }, { "input": "6\n1\n2\n3\n170\n179\n25", "output": "NO\nNO\nNO\nYES\nYES\nNO" } ]	1,662,235,340	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	1	154	0	# -- coding=utf-8 -- def get_regular_n_square(n: int) -> int: """正N角形の内角を計算する """ if n <= 2: return 0 summary_arc = 180 * (n - 2) return summary_arc / n if __name__ == "__main__": poly = set([]) for i in range(3, 181): poly.add(get_regular_n_square(i)) t = int(input()) for _ in range(t): n = float(input()) if n in poly: print("YES") else: print("NO")	Title: Fancy Fence Time Limit: None seconds Memory Limit: None megabytes Problem Description: Emuskald needs a fence around his farm, but he is too lazy to build it himself. So he purchased a fence-building robot. He wants the fence to be a regular polygon. The robot builds the fence along a single path, but it can only make fence corners at a single angle a. Will the robot be able to build the fence Emuskald wants? In other words, is there a regular polygon which angles are equal to a? Input Specification: The first line of input contains an integer t (0<=<<=t<=<<=180) — the number of tests. Each of the following t lines contains a single integer a (0<=<<=a<=<<=180) — the angle the robot can make corners at measured in degrees. Output Specification: For each test, output on a single line "YES" (without quotes), if the robot can build a fence Emuskald wants, and "NO" (without quotes), if it is impossible. Demo Input: ['3\n30\n60\n90\n'] Demo Output: ['NO\nYES\nYES\n'] Note: In the first test case, it is impossible to build the fence, since there is no regular polygon with angle <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/df5f4b07dd5316fde165b43657b2696e2919e791.png" style="max-width: 100.0%;max-height: 100.0%;"/>. In the second test case, the fence is a regular triangle, and in the last test case — a square.	```python # -- coding=utf-8 -- def get_regular_n_square(n: int) -> int: """正N角形の内角を計算する """ if n <= 2: return 0 summary_arc = 180 * (n - 2) return summary_arc / n if __name__ == "__main__": poly = set([]) for i in range(3, 181): poly.add(get_regular_n_square(i)) t = int(input()) for _ in range(t): n = float(input()) if n in poly: print("YES") else: print("NO") ```	0
230	B	T-primes	PROGRAMMING	1,300	[ "binary search", "implementation", "math", "number theory" ]		null	null	We know that prime numbers are positive integers that have exactly two distinct positive divisors. Similarly, we'll call a positive integer t Т-prime, if t has exactly three distinct positive divisors. You are given an array of n positive integers. For each of them determine whether it is Т-prime or not.	The first line contains a single positive integer, n (1<=≤<=n<=≤<=105), showing how many numbers are in the array. The next line contains n space-separated integers xi (1<=≤<=xi<=≤<=1012). Please, do not use the %lld specifier to read or write 64-bit integers in С++. It is advised to use the cin, cout streams or the %I64d specifier.	Print n lines: the i-th line should contain "YES" (without the quotes), if number xi is Т-prime, and "NO" (without the quotes), if it isn't.	[ "3\n4 5 6\n" ]	[ "YES\nNO\nNO\n" ]	The given test has three numbers. The first number 4 has exactly three divisors — 1, 2 and 4, thus the answer for this number is "YES". The second number 5 has two divisors (1 and 5), and the third number 6 has four divisors (1, 2, 3, 6), hence the answer for them is "NO".	500	[ { "input": "3\n4 5 6", "output": "YES\nNO\nNO" }, { "input": "2\n48 49", "output": "NO\nYES" }, { "input": "10\n10 9 8 7 6 5 4 3 2 1", "output": "NO\nYES\nNO\nNO\nNO\nNO\nYES\nNO\nNO\nNO" }, { "input": "1\n36", "output": "NO" }, { "input": "1\n999966000289", "...	1,696,952,626	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	0	60	0	import math n = int(input()) line = list(map(int,input().split())) for i in line: num = int(round(math.sqrt(n)*100)/100) prime = True for i in range(2, int(math.sqrt(num))): if num % i == 0: prime = False break if prime: print('YES') else: print('NO')	Title: T-primes Time Limit: None seconds Memory Limit: None megabytes Problem Description: We know that prime numbers are positive integers that have exactly two distinct positive divisors. Similarly, we'll call a positive integer t Т-prime, if t has exactly three distinct positive divisors. You are given an array of n positive integers. For each of them determine whether it is Т-prime or not. Input Specification: The first line contains a single positive integer, n (1<=≤<=n<=≤<=105), showing how many numbers are in the array. The next line contains n space-separated integers xi (1<=≤<=xi<=≤<=1012). Please, do not use the %lld specifier to read or write 64-bit integers in С++. It is advised to use the cin, cout streams or the %I64d specifier. Output Specification: Print n lines: the i-th line should contain "YES" (without the quotes), if number xi is Т-prime, and "NO" (without the quotes), if it isn't. Demo Input: ['3\n4 5 6\n'] Demo Output: ['YES\nNO\nNO\n'] Note: The given test has three numbers. The first number 4 has exactly three divisors — 1, 2 and 4, thus the answer for this number is "YES". The second number 5 has two divisors (1 and 5), and the third number 6 has four divisors (1, 2, 3, 6), hence the answer for them is "NO".	```python import math n = int(input()) line = list(map(int,input().split())) for i in line: num = int(round(math.sqrt(n)*100)/100) prime = True for i in range(2, int(math.sqrt(num))): if num % i == 0: prime = False break if prime: print('YES') else: print('NO') ```	0
6	A	Triangle	PROGRAMMING	900	[ "brute force", "geometry" ]	A. Triangle	2	64	Johnny has a younger sister Anne, who is very clever and smart. As she came home from the kindergarten, she told his brother about the task that her kindergartener asked her to solve. The task was just to construct a triangle out of four sticks of different colours. Naturally, one of the sticks is extra. It is not allowed to break the sticks or use their partial length. Anne has perfectly solved this task, now she is asking Johnny to do the same. The boy answered that he would cope with it without any difficulty. However, after a while he found out that different tricky things can occur. It can happen that it is impossible to construct a triangle of a positive area, but it is possible to construct a degenerate triangle. It can be so, that it is impossible to construct a degenerate triangle even. As Johnny is very lazy, he does not want to consider such a big amount of cases, he asks you to help him.	The first line of the input contains four space-separated positive integer numbers not exceeding 100 — lengthes of the sticks.	Output TRIANGLE if it is possible to construct a non-degenerate triangle. Output SEGMENT if the first case cannot take place and it is possible to construct a degenerate triangle. Output IMPOSSIBLE if it is impossible to construct any triangle. Remember that you are to use three sticks. It is not allowed to break the sticks or use their partial length.	[ "4 2 1 3\n", "7 2 2 4\n", "3 5 9 1\n" ]	[ "TRIANGLE\n", "SEGMENT\n", "IMPOSSIBLE\n" ]	none	0	[ { "input": "4 2 1 3", "output": "TRIANGLE" }, { "input": "7 2 2 4", "output": "SEGMENT" }, { "input": "3 5 9 1", "output": "IMPOSSIBLE" }, { "input": "3 1 5 1", "output": "IMPOSSIBLE" }, { "input": "10 10 10 10", "output": "TRIANGLE" }, { "input": "11 ...	1,685,742,361	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	92	0	l = sorted(list(map(int , input().split()))) res ="NO" for i in range(len(l)-2) : if not (l[i] +l[i+1]<= l[i+2]) : res = "YES" break if res == "YES" : print('TRIANGLE') elif res == "NO" : print("IMPOSSIBLE") else: print('SEGMENT')	Title: Triangle Time Limit: 2 seconds Memory Limit: 64 megabytes Problem Description: Johnny has a younger sister Anne, who is very clever and smart. As she came home from the kindergarten, she told his brother about the task that her kindergartener asked her to solve. The task was just to construct a triangle out of four sticks of different colours. Naturally, one of the sticks is extra. It is not allowed to break the sticks or use their partial length. Anne has perfectly solved this task, now she is asking Johnny to do the same. The boy answered that he would cope with it without any difficulty. However, after a while he found out that different tricky things can occur. It can happen that it is impossible to construct a triangle of a positive area, but it is possible to construct a degenerate triangle. It can be so, that it is impossible to construct a degenerate triangle even. As Johnny is very lazy, he does not want to consider such a big amount of cases, he asks you to help him. Input Specification: The first line of the input contains four space-separated positive integer numbers not exceeding 100 — lengthes of the sticks. Output Specification: Output TRIANGLE if it is possible to construct a non-degenerate triangle. Output SEGMENT if the first case cannot take place and it is possible to construct a degenerate triangle. Output IMPOSSIBLE if it is impossible to construct any triangle. Remember that you are to use three sticks. It is not allowed to break the sticks or use their partial length. Demo Input: ['4 2 1 3\n', '7 2 2 4\n', '3 5 9 1\n'] Demo Output: ['TRIANGLE\n', 'SEGMENT\n', 'IMPOSSIBLE\n'] Note: none	```python l = sorted(list(map(int , input().split()))) res ="NO" for i in range(len(l)-2) : if not (l[i] +l[i+1]<= l[i+2]) : res = "YES" break if res == "YES" : print('TRIANGLE') elif res == "NO" : print("IMPOSSIBLE") else: print('SEGMENT') ```	0
554	A	Kyoya and Photobooks	PROGRAMMING	900	[ "brute force", "math", "strings" ]		null	null	Kyoya Ootori is selling photobooks of the Ouran High School Host Club. He has 26 photos, labeled "a" to "z", and he has compiled them into a photo booklet with some photos in some order (possibly with some photos being duplicated). A photo booklet can be described as a string of lowercase letters, consisting of the photos in the booklet in order. He now wants to sell some "special edition" photobooks, each with one extra photo inserted anywhere in the book. He wants to make as many distinct photobooks as possible, so he can make more money. He asks Haruhi, how many distinct photobooks can he make by inserting one extra photo into the photobook he already has? Please help Haruhi solve this problem.	The first line of input will be a single string s (1<=≤<=\|s\|<=≤<=20). String s consists only of lowercase English letters.	Output a single integer equal to the number of distinct photobooks Kyoya Ootori can make.	[ "a\n", "hi\n" ]	[ "51\n", "76\n" ]	In the first case, we can make 'ab','ac',...,'az','ba','ca',...,'za', and 'aa', producing a total of 51 distinct photo booklets.	250	[ { "input": "a", "output": "51" }, { "input": "hi", "output": "76" }, { "input": "y", "output": "51" }, { "input": "kgan", "output": "126" }, { "input": "zoabkyuvus", "output": "276" }, { "input": "spyemhyznjieyhhbk", "output": "451" }, { "i...	1,502,792,375	2,147,483,647	Python 3	OK	TESTS	33	62	4,608,000	s=input() a=list(s) b=list() c=['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'] for i in range(len(s)+1): for j in c: a.insert(i,j) if "".join(a) not in b: b.append("".join(a)) a=list(s) print(len(b))	Title: Kyoya and Photobooks Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kyoya Ootori is selling photobooks of the Ouran High School Host Club. He has 26 photos, labeled "a" to "z", and he has compiled them into a photo booklet with some photos in some order (possibly with some photos being duplicated). A photo booklet can be described as a string of lowercase letters, consisting of the photos in the booklet in order. He now wants to sell some "special edition" photobooks, each with one extra photo inserted anywhere in the book. He wants to make as many distinct photobooks as possible, so he can make more money. He asks Haruhi, how many distinct photobooks can he make by inserting one extra photo into the photobook he already has? Please help Haruhi solve this problem. Input Specification: The first line of input will be a single string s (1<=≤<=\|s\|<=≤<=20). String s consists only of lowercase English letters. Output Specification: Output a single integer equal to the number of distinct photobooks Kyoya Ootori can make. Demo Input: ['a\n', 'hi\n'] Demo Output: ['51\n', '76\n'] Note: In the first case, we can make 'ab','ac',...,'az','ba','ca',...,'za', and 'aa', producing a total of 51 distinct photo booklets.	```python s=input() a=list(s) b=list() c=['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'] for i in range(len(s)+1): for j in c: a.insert(i,j) if "".join(a) not in b: b.append("".join(a)) a=list(s) print(len(b)) ```	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", "outp...	1,686,976,750	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	62	0	s=str(input()) n=len(s) c1=0 c2=0 for i in range(n-1): if(s[i]== 0): c2=0 c1=c1+1 if(s[i]== 1): c1=0 c2=c2+1 if(c1>=7 or c2>=7): print('YES') else: 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 s=str(input()) n=len(s) c1=0 c2=0 for i in range(n-1): if(s[i]== 0): c2=0 c1=c1+1 if(s[i]== 1): c1=0 c2=c2+1 if(c1>=7 or c2>=7): print('YES') else: print('NO') ```	0
841	A	Generous Kefa	PROGRAMMING	900	[ "brute force", "implementation" ]		null	null	One day Kefa found n baloons. For convenience, we denote color of i-th baloon as si — lowercase letter of the Latin alphabet. Also Kefa has k friends. Friend will be upset, If he get two baloons of the same color. Kefa want to give out all baloons to his friends. Help Kefa to find out, can he give out all his baloons, such that no one of his friens will be upset — print «YES», if he can, and «NO», otherwise. Note, that Kefa's friend will not upset, if he doesn't get baloons at all.	The first line contains two integers n and k (1<=≤<=n,<=k<=≤<=100) — the number of baloons and friends. Next line contains string s — colors of baloons.	Answer to the task — «YES» or «NO» in a single line. You can choose the case (lower or upper) for each letter arbitrary.	[ "4 2\naabb\n", "6 3\naacaab\n" ]	[ "YES\n", "NO\n" ]	In the first sample Kefa can give 1-st and 3-rd baloon to the first friend, and 2-nd and 4-th to the second. In the second sample Kefa needs to give to all his friends baloons of color a, but one baloon will stay, thats why answer is «NO».	500	[ { "input": "4 2\naabb", "output": "YES" }, { "input": "6 3\naacaab", "output": "NO" }, { "input": "2 2\nlu", "output": "YES" }, { "input": "5 3\novvoo", "output": "YES" }, { "input": "36 13\nbzbzcffczzcbcbzzfzbbfzfzzbfbbcbfccbf", "output": "YES" }, { "...	1,503,355,903	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	3	46	0	m,n=map(int,input().split(" ")) L=input("") L1=list(set(L)) def tex(L,L1,n): for k in L1: if(L.count(k)!=n): return "NO" return "YES" if(len(L1)==n): if(len(L)==len(L1)): print("YES") else: print(tex(L,L1,n))	Title: Generous Kefa Time Limit: None seconds Memory Limit: None megabytes Problem Description: One day Kefa found n baloons. For convenience, we denote color of i-th baloon as si — lowercase letter of the Latin alphabet. Also Kefa has k friends. Friend will be upset, If he get two baloons of the same color. Kefa want to give out all baloons to his friends. Help Kefa to find out, can he give out all his baloons, such that no one of his friens will be upset — print «YES», if he can, and «NO», otherwise. Note, that Kefa's friend will not upset, if he doesn't get baloons at all. Input Specification: The first line contains two integers n and k (1<=≤<=n,<=k<=≤<=100) — the number of baloons and friends. Next line contains string s — colors of baloons. Output Specification: Answer to the task — «YES» or «NO» in a single line. You can choose the case (lower or upper) for each letter arbitrary. Demo Input: ['4 2\naabb\n', '6 3\naacaab\n'] Demo Output: ['YES\n', 'NO\n'] Note: In the first sample Kefa can give 1-st and 3-rd baloon to the first friend, and 2-nd and 4-th to the second. In the second sample Kefa needs to give to all his friends baloons of color a, but one baloon will stay, thats why answer is «NO».	```python m,n=map(int,input().split(" ")) L=input("") L1=list(set(L)) def tex(L,L1,n): for k in L1: if(L.count(k)!=n): return "NO" return "YES" if(len(L1)==n): if(len(L)==len(L1)): print("YES") else: print(tex(L,L1,n)) ```	0
846	B	Math Show	PROGRAMMING	1,800	[ "brute force", "greedy" ]		null	null	Polycarp takes part in a math show. He is given n tasks, each consists of k subtasks, numbered 1 through k. It takes him tj minutes to solve the j-th subtask of any task. Thus, time required to solve a subtask depends only on its index, but not on the task itself. Polycarp can solve subtasks in any order. By solving subtask of arbitrary problem he earns one point. Thus, the number of points for task is equal to the number of solved subtasks in it. Moreover, if Polycarp completely solves the task (solves all k of its subtasks), he recieves one extra point. Thus, total number of points he recieves for the complete solution of the task is k<=+<=1. Polycarp has M minutes of time. What is the maximum number of points he can earn?	The first line contains three integer numbers n, k and M (1<=≤<=n<=≤<=45, 1<=≤<=k<=≤<=45, 0<=≤<=M<=≤<=2·109). The second line contains k integer numbers, values tj (1<=≤<=tj<=≤<=1000000), where tj is the time in minutes required to solve j-th subtask of any task.	Print the maximum amount of points Polycarp can earn in M minutes.	[ "3 4 11\n1 2 3 4\n", "5 5 10\n1 2 4 8 16\n" ]	[ "6\n", "7\n" ]	In the first example Polycarp can complete the first task and spend 1 + 2 + 3 + 4 = 10 minutes. He also has the time to solve one subtask of the second task in one minute. In the second example Polycarp can solve the first subtask of all five tasks and spend 5·1 = 5 minutes. Also he can solve the second subtasks of two tasks and spend 2·2 = 4 minutes. Thus, he earns 5 + 2 = 7 points in total.	0	[ { "input": "3 4 11\n1 2 3 4", "output": "6" }, { "input": "5 5 10\n1 2 4 8 16", "output": "7" }, { "input": "1 1 0\n2", "output": "0" }, { "input": "1 1 1\n1", "output": "2" }, { "input": "2 1 0\n2", "output": "0" }, { "input": "2 2 2\n2 3", "outpu...	1,504,635,364	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	6	77	3,993,600	a = input() b = input() a = a.split(" ") b = b.split(" ") n = int(a[0]) k = int(a[1]) M = int(a[2]) sum = 0 for tj in b: sum = sum + int(tj) score = 0 count = 0 for i in range(n): if sum <= M: score = k + 1 M = M - sum count = count + 1 l = 1000000[count] for tj in b: for num in (range(1,n+1-count))[::-1]: if ( (numint(tj) <= M) and (l[int(tj)] < n) ): score = score + num M = M - (num*int(tj)) l[int(tj)] = l[int(tj)] + num print(score)	Title: Math Show Time Limit: None seconds Memory Limit: None megabytes Problem Description: Polycarp takes part in a math show. He is given n tasks, each consists of k subtasks, numbered 1 through k. It takes him tj minutes to solve the j-th subtask of any task. Thus, time required to solve a subtask depends only on its index, but not on the task itself. Polycarp can solve subtasks in any order. By solving subtask of arbitrary problem he earns one point. Thus, the number of points for task is equal to the number of solved subtasks in it. Moreover, if Polycarp completely solves the task (solves all k of its subtasks), he recieves one extra point. Thus, total number of points he recieves for the complete solution of the task is k<=+<=1. Polycarp has M minutes of time. What is the maximum number of points he can earn? Input Specification: The first line contains three integer numbers n, k and M (1<=≤<=n<=≤<=45, 1<=≤<=k<=≤<=45, 0<=≤<=M<=≤<=2·109). The second line contains k integer numbers, values tj (1<=≤<=tj<=≤<=1000000), where tj is the time in minutes required to solve j-th subtask of any task. Output Specification: Print the maximum amount of points Polycarp can earn in M minutes. Demo Input: ['3 4 11\n1 2 3 4\n', '5 5 10\n1 2 4 8 16\n'] Demo Output: ['6\n', '7\n'] Note: In the first example Polycarp can complete the first task and spend 1 + 2 + 3 + 4 = 10 minutes. He also has the time to solve one subtask of the second task in one minute. In the second example Polycarp can solve the first subtask of all five tasks and spend 5·1 = 5 minutes. Also he can solve the second subtasks of two tasks and spend 2·2 = 4 minutes. Thus, he earns 5 + 2 = 7 points in total.	```python a = input() b = input() a = a.split(" ") b = b.split(" ") n = int(a[0]) k = int(a[1]) M = int(a[2]) sum = 0 for tj in b: sum = sum + int(tj) score = 0 count = 0 for i in range(n): if sum <= M: score = k + 1 M = M - sum count = count + 1 l = 1000000[count] for tj in b: for num in (range(1,n+1-count))[::-1]: if ( (numint(tj) <= M) and (l[int(tj)] < n) ): score = score + num M = M - (num*int(tj)) l[int(tj)] = l[int(tj)] + num print(score) ```	0
677	A	Vanya and Fence	PROGRAMMING	800	[ "implementation" ]		null	null	Vanya and his friends are walking along the fence of height h and they do not want the guard to notice them. In order to achieve this the height of each of the friends should not exceed h. If the height of some person is greater than h he can bend down and then he surely won't be noticed by the guard. The height of the i-th person is equal to ai. Consider the width of the person walking as usual to be equal to 1, while the width of the bent person is equal to 2. Friends want to talk to each other while walking, so they would like to walk in a single row. What is the minimum width of the road, such that friends can walk in a row and remain unattended by the guard?	The first line of the input contains two integers n and h (1<=≤<=n<=≤<=1000, 1<=≤<=h<=≤<=1000) — the number of friends and the height of the fence, respectively. The second line contains n integers ai (1<=≤<=ai<=≤<=2h), the i-th of them is equal to the height of the i-th person.	Print a single integer — the minimum possible valid width of the road.	[ "3 7\n4 5 14\n", "6 1\n1 1 1 1 1 1\n", "6 5\n7 6 8 9 10 5\n" ]	[ "4\n", "6\n", "11\n" ]	In the first sample, only person number 3 must bend down, so the required width is equal to 1 + 1 + 2 = 4. In the second sample, all friends are short enough and no one has to bend, so the width 1 + 1 + 1 + 1 + 1 + 1 = 6 is enough. In the third sample, all the persons have to bend, except the last one. The required minimum width of the road is equal to 2 + 2 + 2 + 2 + 2 + 1 = 11.	500	[ { "input": "3 7\n4 5 14", "output": "4" }, { "input": "6 1\n1 1 1 1 1 1", "output": "6" }, { "input": "6 5\n7 6 8 9 10 5", "output": "11" }, { "input": "10 420\n214 614 297 675 82 740 174 23 255 15", "output": "13" }, { "input": "10 561\n657 23 1096 487 785 66 481...	1,697,106,375	2,147,483,647	Python 3	OK	TESTS	29	46	0	n,h = map(int, input().split()) a = list(map(int, input().split())) k = 0 for i in a: if i <= h: k += 1 else: k += 2 print(k)	Title: Vanya and Fence Time Limit: None seconds Memory Limit: None megabytes Problem Description: Vanya and his friends are walking along the fence of height h and they do not want the guard to notice them. In order to achieve this the height of each of the friends should not exceed h. If the height of some person is greater than h he can bend down and then he surely won't be noticed by the guard. The height of the i-th person is equal to ai. Consider the width of the person walking as usual to be equal to 1, while the width of the bent person is equal to 2. Friends want to talk to each other while walking, so they would like to walk in a single row. What is the minimum width of the road, such that friends can walk in a row and remain unattended by the guard? Input Specification: The first line of the input contains two integers n and h (1<=≤<=n<=≤<=1000, 1<=≤<=h<=≤<=1000) — the number of friends and the height of the fence, respectively. The second line contains n integers ai (1<=≤<=ai<=≤<=2h), the i-th of them is equal to the height of the i-th person. Output Specification: Print a single integer — the minimum possible valid width of the road. Demo Input: ['3 7\n4 5 14\n', '6 1\n1 1 1 1 1 1\n', '6 5\n7 6 8 9 10 5\n'] Demo Output: ['4\n', '6\n', '11\n'] Note: In the first sample, only person number 3 must bend down, so the required width is equal to 1 + 1 + 2 = 4. In the second sample, all friends are short enough and no one has to bend, so the width 1 + 1 + 1 + 1 + 1 + 1 = 6 is enough. In the third sample, all the persons have to bend, except the last one. The required minimum width of the road is equal to 2 + 2 + 2 + 2 + 2 + 1 = 11.	```python n,h = map(int, input().split()) a = list(map(int, input().split())) k = 0 for i in a: if i <= h: k += 1 else: k += 2 print(k) ```	3
748	A	Santa Claus and a Place in a Class	PROGRAMMING	800	[ "implementation", "math" ]		null	null	Santa Claus is the first who came to the Christmas Olympiad, and he is going to be the first to take his place at a desk! In the classroom there are n lanes of m desks each, and there are two working places at each of the desks. The lanes are numbered from 1 to n from the left to the right, the desks in a lane are numbered from 1 to m starting from the blackboard. Note that the lanes go perpendicularly to the blackboard, not along it (see picture). The organizers numbered all the working places from 1 to 2nm. The places are numbered by lanes (i. e. all the places of the first lane go first, then all the places of the second lane, and so on), in a lane the places are numbered starting from the nearest to the blackboard (i. e. from the first desk in the lane), at each desk, the place on the left is numbered before the place on the right. Santa Clause knows that his place has number k. Help him to determine at which lane at which desk he should sit, and whether his place is on the left or on the right!	The only line contains three integers n, m and k (1<=≤<=n,<=m<=≤<=10<=000, 1<=≤<=k<=≤<=2nm) — the number of lanes, the number of desks in each lane and the number of Santa Claus' place.	Print two integers: the number of lane r, the number of desk d, and a character s, which stands for the side of the desk Santa Claus. The character s should be "L", if Santa Clause should sit on the left, and "R" if his place is on the right.	[ "4 3 9\n", "4 3 24\n", "2 4 4\n" ]	[ "2 2 L\n", "4 3 R\n", "1 2 R\n" ]	The first and the second samples are shown on the picture. The green place corresponds to Santa Claus' place in the first example, the blue place corresponds to Santa Claus' place in the second example. In the third sample there are two lanes with four desks in each, and Santa Claus has the fourth place. Thus, his place is in the first lane at the second desk on the right.	500	[ { "input": "4 3 9", "output": "2 2 L" }, { "input": "4 3 24", "output": "4 3 R" }, { "input": "2 4 4", "output": "1 2 R" }, { "input": "3 10 24", "output": "2 2 R" }, { "input": "10 3 59", "output": "10 3 L" }, { "input": "10000 10000 160845880", "...	1,482,657,133	433	Python 3	WRONG_ANSWER	PRETESTS	3	31	4,608,000	n,m,k = map(int, input().split()) k -= 1 r = k // (2 * m) s = (k + 1) % 2 d = (k % 6) // 2 print(r + 1, d + 1, end=" ") if s % 2 == 0: print("R") else: print("L")	Title: Santa Claus and a Place in a Class Time Limit: None seconds Memory Limit: None megabytes Problem Description: Santa Claus is the first who came to the Christmas Olympiad, and he is going to be the first to take his place at a desk! In the classroom there are n lanes of m desks each, and there are two working places at each of the desks. The lanes are numbered from 1 to n from the left to the right, the desks in a lane are numbered from 1 to m starting from the blackboard. Note that the lanes go perpendicularly to the blackboard, not along it (see picture). The organizers numbered all the working places from 1 to 2nm. The places are numbered by lanes (i. e. all the places of the first lane go first, then all the places of the second lane, and so on), in a lane the places are numbered starting from the nearest to the blackboard (i. e. from the first desk in the lane), at each desk, the place on the left is numbered before the place on the right. Santa Clause knows that his place has number k. Help him to determine at which lane at which desk he should sit, and whether his place is on the left or on the right! Input Specification: The only line contains three integers n, m and k (1<=≤<=n,<=m<=≤<=10<=000, 1<=≤<=k<=≤<=2nm) — the number of lanes, the number of desks in each lane and the number of Santa Claus' place. Output Specification: Print two integers: the number of lane r, the number of desk d, and a character s, which stands for the side of the desk Santa Claus. The character s should be "L", if Santa Clause should sit on the left, and "R" if his place is on the right. Demo Input: ['4 3 9\n', '4 3 24\n', '2 4 4\n'] Demo Output: ['2 2 L\n', '4 3 R\n', '1 2 R\n'] Note: The first and the second samples are shown on the picture. The green place corresponds to Santa Claus' place in the first example, the blue place corresponds to Santa Claus' place in the second example. In the third sample there are two lanes with four desks in each, and Santa Claus has the fourth place. Thus, his place is in the first lane at the second desk on the right.	```python n,m,k = map(int, input().split()) k -= 1 r = k // (2 * m) s = (k + 1) % 2 d = (k % 6) // 2 print(r + 1, d + 1, end=" ") if s % 2 == 0: print("R") else: print("L") ```	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" }, { ...	1,565,948,810	2,147,483,647	Python 3	OK	TESTS	150	124	102,400	# import sys # sys.stdin=open("input1.in","r") # sys.stdout=open("output2.out","w") N=int(input()) L1,L2=[],[] FLAG=0 for i in range(N): X,Y=map(int,input().split()) L1.append(X) L2.append(Y) for i in range(N): if L1[i]!=L2[i]: FLAG=1 print("rated") break if FLAG==0: x=0 Y=sorted(L1) for i in range(N): if Y[N-1-i]!=L1[i]: x=1 print("unrated") break if x!=1: print("maybe")	Title: Is it rated? Time Limit: None seconds Memory Limit: None megabytes Problem Description: Is it rated? Here it is. The Ultimate Question of Competitive Programming, Codeforces, and Everything. And you are here to answer it. Another Codeforces round has been conducted. No two participants have the same number of points. For each participant, from the top to the bottom of the standings, their rating before and after the round is known. It's known that if at least one participant's rating has changed, then the round was rated for sure. It's also known that if the round was rated and a participant with lower rating took a better place in the standings than a participant with higher rating, then at least one round participant's rating has changed. In this problem, you should not make any other assumptions about the rating system. Determine if the current round is rated, unrated, or it's impossible to determine whether it is rated of not. Input Specification: The first line contains a single integer n (2<=≤<=n<=≤<=1000) — the number of round participants. Each of the next n lines contains two integers ai and bi (1<=≤<=ai,<=bi<=≤<=4126) — the rating of the i-th participant before and after the round, respectively. The participants are listed in order from the top to the bottom of the standings. Output Specification: If the round is rated for sure, print "rated". If the round is unrated for sure, print "unrated". If it's impossible to determine whether the round is rated or not, print "maybe". Demo Input: ['6\n3060 3060\n2194 2194\n2876 2903\n2624 2624\n3007 2991\n2884 2884\n', '4\n1500 1500\n1300 1300\n1200 1200\n1400 1400\n', '5\n3123 3123\n2777 2777\n2246 2246\n2246 2246\n1699 1699\n'] Demo Output: ['rated\n', 'unrated\n', 'maybe\n'] Note: In the first example, the ratings of the participants in the third and fifth places have changed, therefore, the round was rated. In the second example, no one's rating has changed, but the participant in the second place has lower rating than the participant in the fourth place. Therefore, if the round was rated, someone's rating would've changed for sure. In the third example, no one's rating has changed, and the participants took places in non-increasing order of their rating. Therefore, it's impossible to determine whether the round is rated or not.	```python # import sys # sys.stdin=open("input1.in","r") # sys.stdout=open("output2.out","w") N=int(input()) L1,L2=[],[] FLAG=0 for i in range(N): X,Y=map(int,input().split()) L1.append(X) L2.append(Y) for i in range(N): if L1[i]!=L2[i]: FLAG=1 print("rated") break if FLAG==0: x=0 Y=sorted(L1) for i in range(N): if Y[N-1-i]!=L1[i]: x=1 print("unrated") break if x!=1: print("maybe") ```	3
584	B	Kolya and Tanya	PROGRAMMING	1,500	[ "combinatorics" ]		null	null	Kolya loves putting gnomes at the circle table and giving them coins, and Tanya loves studying triplets of gnomes, sitting in the vertexes of an equilateral triangle. More formally, there are 3n gnomes sitting in a circle. Each gnome can have from 1 to 3 coins. Let's number the places in the order they occur in the circle by numbers from 0 to 3n<=-<=1, let the gnome sitting on the i-th place have ai coins. If there is an integer i (0<=≤<=i<=<<=n) such that ai<=+<=ai<=+<=n<=+<=ai<=+<=2n<=≠<=6, then Tanya is satisfied. Count the number of ways to choose ai so that Tanya is satisfied. As there can be many ways of distributing coins, print the remainder of this number modulo 109<=+<=7. Two ways, a and b, are considered distinct if there is index i (0<=≤<=i<=<<=3n), such that ai<=≠<=bi (that is, some gnome got different number of coins in these two ways).	A single line contains number n (1<=≤<=n<=≤<=105) — the number of the gnomes divided by three.	Print a single number — the remainder of the number of variants of distributing coins that satisfy Tanya modulo 109<=+<=7.	[ "1\n", "2\n" ]	[ "20", "680" ]	20 ways for n = 1 (gnome with index 0 sits on the top of the triangle, gnome 1 on the right vertex, gnome 2 on the left vertex): <img class="tex-graphics" src="https://espresso.codeforces.com/64df38b85ccb482cf88d02dc52e348e33313f9da.png" style="max-width: 100.0%;max-height: 100.0%;"/>	1,000	[ { "input": "1", "output": "20" }, { "input": "2", "output": "680" }, { "input": "3", "output": "19340" }, { "input": "4", "output": "529040" }, { "input": "5", "output": "14332100" }, { "input": "7", "output": "459529590" }, { "input": "10"...	1,665,504,512	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	5	46	0	number = int(input()) print(3*(3number) - 7**number)	Title: Kolya and Tanya Time Limit: None seconds Memory Limit: None megabytes Problem Description: Kolya loves putting gnomes at the circle table and giving them coins, and Tanya loves studying triplets of gnomes, sitting in the vertexes of an equilateral triangle. More formally, there are 3n gnomes sitting in a circle. Each gnome can have from 1 to 3 coins. Let's number the places in the order they occur in the circle by numbers from 0 to 3n<=-<=1, let the gnome sitting on the i-th place have ai coins. If there is an integer i (0<=≤<=i<=<<=n) such that ai<=+<=ai<=+<=n<=+<=ai<=+<=2n<=≠<=6, then Tanya is satisfied. Count the number of ways to choose ai so that Tanya is satisfied. As there can be many ways of distributing coins, print the remainder of this number modulo 109<=+<=7. Two ways, a and b, are considered distinct if there is index i (0<=≤<=i<=<<=3n), such that ai<=≠<=bi (that is, some gnome got different number of coins in these two ways). Input Specification: A single line contains number n (1<=≤<=n<=≤<=105) — the number of the gnomes divided by three. Output Specification: Print a single number — the remainder of the number of variants of distributing coins that satisfy Tanya modulo 109<=+<=7. Demo Input: ['1\n', '2\n'] Demo Output: ['20', '680'] Note: 20 ways for n = 1 (gnome with index 0 sits on the top of the triangle, gnome 1 on the right vertex, gnome 2 on the left vertex): <img class="tex-graphics" src="https://espresso.codeforces.com/64df38b85ccb482cf88d02dc52e348e33313f9da.png" style="max-width: 100.0%;max-height: 100.0%;"/>	```python number = int(input()) print(3*(3number) - 7**number) ```	0
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"...	1,620,445,039	2,147,483,647	PyPy 3	TIME_LIMIT_EXCEEDED	TESTS	6	2,000	29,184,000	a,b,n=map(int,input().split()) a=str(a) c=0 x=0 flag=1 if b==10: a=a+str(0)*n else: while c!=n: if int(a+ str(x))%b==0: a=a+str(x) x=0 c+=1 elif x==10: flag=0 break else: x+=1 if flag==0: print(-1) else: print(a)	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 a,b,n=map(int,input().split()) a=str(a) c=0 x=0 flag=1 if b==10: a=a+str(0)*n else: while c!=n: if int(a+ str(x))%b==0: a=a+str(x) x=0 c+=1 elif x==10: flag=0 break else: x+=1 if flag==0: print(-1) else: print(a) ```	0
281	A	Word Capitalization	PROGRAMMING	800	[ "implementation", "strings" ]		null	null	Capitalization is writing a word with its first letter as a capital letter. Your task is to capitalize the given word. Note, that during capitalization all the letters except the first one remains unchanged.	A single line contains a non-empty word. This word consists of lowercase and uppercase English letters. The length of the word will not exceed 103.	Output the given word after capitalization.	[ "ApPLe\n", "konjac\n" ]	[ "ApPLe\n", "Konjac\n" ]	none	500	[ { "input": "ApPLe", "output": "ApPLe" }, { "input": "konjac", "output": "Konjac" }, { "input": "a", "output": "A" }, { "input": "A", "output": "A" }, { "input": "z", "output": "Z" }, { "input": "ABACABA", "output": "ABACABA" }, { "input": "...	1,698,581,591	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	6	92	0	a = input() if 'a' <= a[0] <= 'z': print(a.capitalize()) else: print(a)	Title: Word Capitalization Time Limit: None seconds Memory Limit: None megabytes Problem Description: Capitalization is writing a word with its first letter as a capital letter. Your task is to capitalize the given word. Note, that during capitalization all the letters except the first one remains unchanged. Input Specification: A single line contains a non-empty word. This word consists of lowercase and uppercase English letters. The length of the word will not exceed 103. Output Specification: Output the given word after capitalization. Demo Input: ['ApPLe\n', 'konjac\n'] Demo Output: ['ApPLe\n', 'Konjac\n'] Note: none	```python a = input() if 'a' <= a[0] <= 'z': print(a.capitalize()) else: print(a) ```	0
524	A	Возможно, вы знаете этих людей?	PROGRAMMING	1,600	[ "implementation" ]		null	null	Основой любой социальной сети является отношение дружбы между двумя пользователями в том или ином смысле. В одной известной социальной сети дружба симметрична, то есть если a является другом b, то b также является другом a. В этой же сети есть функция, которая демонстрирует множество людей, имеющих высокую вероятность быть знакомыми для пользователя. Эта функция работает следующим образом. Зафиксируем пользователя x. Пусть некоторый другой человек y, не являющийся другом x на текущий момент, является другом не менее, чем для k% друзей x. Тогда он является предполагаемым другом для x. У каждого человека в социальной сети есть свой уникальный идентификатор — это целое число от 1 до 109. Вам дан список пар пользователей, являющихся друзьями. Определите для каждого упомянутого пользователя множество его предполагаемых друзей.	В первой строке следуют два целых числа m и k (1<=≤<=m<=≤<=100, 0<=≤<=k<=≤<=100) — количество пар друзей и необходимый процент общих друзей для того, чтобы считаться предполагаемым другом. В последующих m строках записано по два числа ai,<=bi (1<=≤<=ai,<=bi<=≤<=109, ai<=≠<=bi), обозначающих идентификаторы пользователей, являющихся друзьями. Гарантируется, что каждая пара людей фигурирует в списке не более одного раза.	Для всех упомянутых людей в порядке возрастания id выведите информацию о предполагаемых друзьях. Информация должна иметь вид "id:<= k id1 id2 ... idk", где id — это id самого человека, k — количество его предполагаемых друзей, а id1, id2, ..., idk — идентификаторы его предполагаемых друзей в возрастающем порядке.	[ "5 51\n10 23\n23 42\n39 42\n10 39\n39 58\n", "5 100\n1 2\n1 3\n1 4\n2 3\n2 4\n" ]	[ "10: 1 42\n23: 1 39\n39: 1 23\n42: 1 10\n58: 2 10 42\n", "1: 0\n2: 0\n3: 1 4\n4: 1 3\n" ]	none	500	[ { "input": "5 51\n10 23\n23 42\n39 42\n10 39\n39 58", "output": "10: 1 42\n23: 1 39\n39: 1 23\n42: 1 10\n58: 2 10 42" }, { "input": "5 100\n1 2\n1 3\n1 4\n2 3\n2 4", "output": "1: 0\n2: 0\n3: 1 4\n4: 1 3" }, { "input": "4 1\n1 2\n1 3\n2 3\n4 5", "output": "1: 0\n2: 0\n3: 0\n4: 0\n5: ...	1,458,581,107	2,147,483,647	Python 3	OK	TESTS	73	124	5,120,000	d={} m,k=map(int,input().split()) for i in range(m): a,b=map(int,input().split()) d.setdefault(a,set()).add(b) d.setdefault(b,set()).add(a) for x in sorted(d): s=[] for y in sorted(d): if x==y or y in d[x]: continue if len(d[x]&d[y])100>=klen(d[x]): s+=[str(y)] print(str(x)+':',len(s),' '.join(s))	Title: Возможно, вы знаете этих людей? Time Limit: None seconds Memory Limit: None megabytes Problem Description: Основой любой социальной сети является отношение дружбы между двумя пользователями в том или ином смысле. В одной известной социальной сети дружба симметрична, то есть если a является другом b, то b также является другом a. В этой же сети есть функция, которая демонстрирует множество людей, имеющих высокую вероятность быть знакомыми для пользователя. Эта функция работает следующим образом. Зафиксируем пользователя x. Пусть некоторый другой человек y, не являющийся другом x на текущий момент, является другом не менее, чем для k% друзей x. Тогда он является предполагаемым другом для x. У каждого человека в социальной сети есть свой уникальный идентификатор — это целое число от 1 до 109. Вам дан список пар пользователей, являющихся друзьями. Определите для каждого упомянутого пользователя множество его предполагаемых друзей. Input Specification: В первой строке следуют два целых числа m и k (1<=≤<=m<=≤<=100, 0<=≤<=k<=≤<=100) — количество пар друзей и необходимый процент общих друзей для того, чтобы считаться предполагаемым другом. В последующих m строках записано по два числа ai,<=bi (1<=≤<=ai,<=bi<=≤<=109, ai<=≠<=bi), обозначающих идентификаторы пользователей, являющихся друзьями. Гарантируется, что каждая пара людей фигурирует в списке не более одного раза. Output Specification: Для всех упомянутых людей в порядке возрастания id выведите информацию о предполагаемых друзьях. Информация должна иметь вид "id:<= k id1 id2 ... idk", где id — это id самого человека, k — количество его предполагаемых друзей, а id1, id2, ..., idk — идентификаторы его предполагаемых друзей в возрастающем порядке. Demo Input: ['5 51\n10 23\n23 42\n39 42\n10 39\n39 58\n', '5 100\n1 2\n1 3\n1 4\n2 3\n2 4\n'] Demo Output: ['10: 1 42\n23: 1 39\n39: 1 23\n42: 1 10\n58: 2 10 42\n', '1: 0\n2: 0\n3: 1 4\n4: 1 3\n'] Note: none	```python d={} m,k=map(int,input().split()) for i in range(m): a,b=map(int,input().split()) d.setdefault(a,set()).add(b) d.setdefault(b,set()).add(a) for x in sorted(d): s=[] for y in sorted(d): if x==y or y in d[x]: continue if len(d[x]&d[y])100>=klen(d[x]): s+=[str(y)] print(str(x)+':',len(s),' '.join(s)) ```	3
439	D	Devu and his Brother	PROGRAMMING	1,700	[ "binary search", "sortings", "ternary search", "two pointers" ]		null	null	Devu and his brother love each other a lot. As they are super geeks, they only like to play with arrays. They are given two arrays a and b by their father. The array a is given to Devu and b to his brother. As Devu is really a naughty kid, he wants the minimum value of his array a should be at least as much as the maximum value of his brother's array b. Now you have to help Devu in achieving this condition. You can perform multiple operations on the arrays. In a single operation, you are allowed to decrease or increase any element of any of the arrays by 1. Note that you are allowed to apply the operation on any index of the array multiple times. You need to find minimum number of operations required to satisfy Devu's condition so that the brothers can play peacefully without fighting.	The first line contains two space-separated integers n, m (1<=≤<=n,<=m<=≤<=105). The second line will contain n space-separated integers representing content of the array a (1<=≤<=ai<=≤<=109). The third line will contain m space-separated integers representing content of the array b (1<=≤<=bi<=≤<=109).	You need to output a single integer representing the minimum number of operations needed to satisfy Devu's condition.	[ "2 2\n2 3\n3 5\n", "3 2\n1 2 3\n3 4\n", "3 2\n4 5 6\n1 2\n" ]	[ "3\n", "4\n", "0\n" ]	In example 1, you can increase a<sub class="lower-index">1</sub> by 1 and decrease b<sub class="lower-index">2</sub> by 1 and then again decrease b<sub class="lower-index">2</sub> by 1. Now array a will be [3; 3] and array b will also be [3; 3]. Here minimum element of a is at least as large as maximum element of b. So minimum number of operations needed to satisfy Devu's condition are 3. In example 3, you don't need to do any operation, Devu's condition is already satisfied.	2,000	[ { "input": "2 2\n2 3\n3 5", "output": "3" }, { "input": "3 2\n1 2 3\n3 4", "output": "4" }, { "input": "3 2\n4 5 6\n1 2", "output": "0" }, { "input": "10 10\n23 100 38 38 73 54 59 69 44 86\n100 100 100 100 100 100 100 100 100 100", "output": "416" }, { "input": "1...	1,694,792,155	2,147,483,647	PyPy 3-64	WRONG_ANSWER	TESTS	3	62	512,000	import bisect import random import sys from math import inf # sys.setrecursionlimit(10*8)设置最大递归次数 class FastIO: def __init__(self): return @staticmethod def read_int(): return int(sys.stdin.readline().strip()) @staticmethod def read_float(): return float(sys.stdin.readline().strip()) @staticmethod def read_ints(): return map(int, sys.stdin.readline().strip().split()) @staticmethod def read_floats(): return map(float, sys.stdin.readline().strip().split()) @staticmethod def read_ints_minus_one(): return map(lambda x: int(x) - 1, sys.stdin.readline().strip().split()) @staticmethod def read_list_ints(): return list(map(int, sys.stdin.readline().strip().split())) @staticmethod def read_list_floats(): return list(map(float, sys.stdin.readline().strip().split())) @staticmethod def read_list_ints_minus_one(): return list(map(lambda x: int(x) - 1, sys.stdin.readline().strip().split())) @staticmethod def read_str(): return sys.stdin.readline().strip() @staticmethod def read_list_strs(): return sys.stdin.readline().strip().split() @staticmethod def read_list_str(): return list(sys.stdin.readline().strip()) @staticmethod def st(x): return sys.stdout.write(str(x) + '\n') @staticmethod def lst(x): return sys.stdout.write(" ".join(str(w) for w in x) + '\n') @staticmethod def round_5(f): res = int(f) if f - res >= 0.5: res += 1 return res @staticmethod def max(a, b): return a if a > b else b @staticmethod def min(a, b): return a if a < b else b @staticmethod def ceil(a, b): return a // b + int(a % b != 0) def ask(self, lst): # CF交互题输出询问并读取结果 self.lst(lst) sys.stdout.flush() res = self.read_int() # 记得任何一个输出之后都要 sys.stdout.flush() 刷新 return res def out_put(self, lst): # CF交互题输出最终答案 self.lst(lst) sys.stdout.flush() return @staticmethod def accumulate(nums): n = len(nums) pre = [0] (n + 1) for i in range(n): pre[i + 1] = pre[i] + nums[i] return pre @staticmethod def get_random_seed(): # 随机种子避免哈希冲突 return random.randint(0, 10 ** 9 + 7) class TriPartSearch: # 三分查找 def __init__(self): return @staticmethod def find_floor_point_int(fun, left, right, error=1): # 求解下凸函数取得最小值时的点 while left < right - error: diff = (right - left) // 3 mid1 = left + diff mid2 = left + 2 * diff dist1 = fun(mid1) dist2 = fun(mid2) if dist1 < dist2: right = mid2 elif dist1 > dist2: left = mid1 else: left = mid1 right = mid2 return left class Solution: def __init__(self): return @staticmethod def main(ac=FastIO()): n, m = ac.read_ints() a = ac.read_list_ints() b = ac.read_list_ints() a.sort() b.sort() pre_a = [0] * (n + 1) for i in range(n): pre_a[i + 1] = pre_a[i] + a[i] pre_b = [0] * (m + 1) for i in range(m): pre_b[i + 1] = pre_b[i] + b[i] floor = min(a) ceil = max(b) if floor >= ceil: ac.st(0) return def check(xx): ii = bisect.bisect_right(a, xx) cost = ii * xx - pre_a[ii] ii = bisect.bisect_left(b, xx) cost += pre_b[-1] - pre_b[ii] - (m - ii) * xx return cost point = int(TriPartSearch().find_floor_point_int(check, floor, ceil)) ans = inf for x in [-1, 0, 1]: if floor <= point + x <= ceil: ans = ac.min(ans, check(point + x)) ac.st(ans) return Solution().main()	Title: Devu and his Brother Time Limit: None seconds Memory Limit: None megabytes Problem Description: Devu and his brother love each other a lot. As they are super geeks, they only like to play with arrays. They are given two arrays a and b by their father. The array a is given to Devu and b to his brother. As Devu is really a naughty kid, he wants the minimum value of his array a should be at least as much as the maximum value of his brother's array b. Now you have to help Devu in achieving this condition. You can perform multiple operations on the arrays. In a single operation, you are allowed to decrease or increase any element of any of the arrays by 1. Note that you are allowed to apply the operation on any index of the array multiple times. You need to find minimum number of operations required to satisfy Devu's condition so that the brothers can play peacefully without fighting. Input Specification: The first line contains two space-separated integers n, m (1<=≤<=n,<=m<=≤<=105). The second line will contain n space-separated integers representing content of the array a (1<=≤<=ai<=≤<=109). The third line will contain m space-separated integers representing content of the array b (1<=≤<=bi<=≤<=109). Output Specification: You need to output a single integer representing the minimum number of operations needed to satisfy Devu's condition. Demo Input: ['2 2\n2 3\n3 5\n', '3 2\n1 2 3\n3 4\n', '3 2\n4 5 6\n1 2\n'] Demo Output: ['3\n', '4\n', '0\n'] Note: In example 1, you can increase a<sub class="lower-index">1</sub> by 1 and decrease b<sub class="lower-index">2</sub> by 1 and then again decrease b<sub class="lower-index">2</sub> by 1. Now array a will be [3; 3] and array b will also be [3; 3]. Here minimum element of a is at least as large as maximum element of b. So minimum number of operations needed to satisfy Devu's condition are 3. In example 3, you don't need to do any operation, Devu's condition is already satisfied.	```python import bisect import random import sys from math import inf # sys.setrecursionlimit(10*8)设置最大递归次数 class FastIO: def __init__(self): return @staticmethod def read_int(): return int(sys.stdin.readline().strip()) @staticmethod def read_float(): return float(sys.stdin.readline().strip()) @staticmethod def read_ints(): return map(int, sys.stdin.readline().strip().split()) @staticmethod def read_floats(): return map(float, sys.stdin.readline().strip().split()) @staticmethod def read_ints_minus_one(): return map(lambda x: int(x) - 1, sys.stdin.readline().strip().split()) @staticmethod def read_list_ints(): return list(map(int, sys.stdin.readline().strip().split())) @staticmethod def read_list_floats(): return list(map(float, sys.stdin.readline().strip().split())) @staticmethod def read_list_ints_minus_one(): return list(map(lambda x: int(x) - 1, sys.stdin.readline().strip().split())) @staticmethod def read_str(): return sys.stdin.readline().strip() @staticmethod def read_list_strs(): return sys.stdin.readline().strip().split() @staticmethod def read_list_str(): return list(sys.stdin.readline().strip()) @staticmethod def st(x): return sys.stdout.write(str(x) + '\n') @staticmethod def lst(x): return sys.stdout.write(" ".join(str(w) for w in x) + '\n') @staticmethod def round_5(f): res = int(f) if f - res >= 0.5: res += 1 return res @staticmethod def max(a, b): return a if a > b else b @staticmethod def min(a, b): return a if a < b else b @staticmethod def ceil(a, b): return a // b + int(a % b != 0) def ask(self, lst): # CF交互题输出询问并读取结果 self.lst(lst) sys.stdout.flush() res = self.read_int() # 记得任何一个输出之后都要 sys.stdout.flush() 刷新 return res def out_put(self, lst): # CF交互题输出最终答案 self.lst(lst) sys.stdout.flush() return @staticmethod def accumulate(nums): n = len(nums) pre = [0] (n + 1) for i in range(n): pre[i + 1] = pre[i] + nums[i] return pre @staticmethod def get_random_seed(): # 随机种子避免哈希冲突 return random.randint(0, 10 ** 9 + 7) class TriPartSearch: # 三分查找 def __init__(self): return @staticmethod def find_floor_point_int(fun, left, right, error=1): # 求解下凸函数取得最小值时的点 while left < right - error: diff = (right - left) // 3 mid1 = left + diff mid2 = left + 2 * diff dist1 = fun(mid1) dist2 = fun(mid2) if dist1 < dist2: right = mid2 elif dist1 > dist2: left = mid1 else: left = mid1 right = mid2 return left class Solution: def __init__(self): return @staticmethod def main(ac=FastIO()): n, m = ac.read_ints() a = ac.read_list_ints() b = ac.read_list_ints() a.sort() b.sort() pre_a = [0] * (n + 1) for i in range(n): pre_a[i + 1] = pre_a[i] + a[i] pre_b = [0] * (m + 1) for i in range(m): pre_b[i + 1] = pre_b[i] + b[i] floor = min(a) ceil = max(b) if floor >= ceil: ac.st(0) return def check(xx): ii = bisect.bisect_right(a, xx) cost = ii * xx - pre_a[ii] ii = bisect.bisect_left(b, xx) cost += pre_b[-1] - pre_b[ii] - (m - ii) * xx return cost point = int(TriPartSearch().find_floor_point_int(check, floor, ceil)) ans = inf for x in [-1, 0, 1]: if floor <= point + x <= ceil: ans = ac.min(ans, check(point + x)) ac.st(ans) return Solution().main() ```	0
41	A	Translation	PROGRAMMING	800	[ "implementation", "strings" ]	A. Translation	2	256	The translation from the Berland language into the Birland language is not an easy task. Those languages are very similar: a berlandish word differs from a birlandish word with the same meaning a little: it is spelled (and pronounced) reversely. For example, a Berlandish word code corresponds to a Birlandish word edoc. However, it's easy to make a mistake during the «translation». Vasya translated word s from Berlandish into Birlandish as t. Help him: find out if he translated the word correctly.	The first line contains word s, the second line contains word t. The words consist of lowercase Latin letters. The input data do not consist unnecessary spaces. The words are not empty and their lengths do not exceed 100 symbols.	If the word t is a word s, written reversely, print YES, otherwise print NO.	[ "code\nedoc\n", "abb\naba\n", "code\ncode\n" ]	[ "YES\n", "NO\n", "NO\n" ]	none	500	[ { "input": "code\nedoc", "output": "YES" }, { "input": "abb\naba", "output": "NO" }, { "input": "code\ncode", "output": "NO" }, { "input": "abacaba\nabacaba", "output": "YES" }, { "input": "q\nq", "output": "YES" }, { "input": "asrgdfngfnmfgnhweratgjkk...	1,624,975,612	2,147,483,647	Python 3	WRONG_ANSWER	TESTS	1	60	0	x=input() c=x[::-1] f=0 if x==c: f=f+1 if f==1: print("NO") 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 x=input() c=x[::-1] f=0 if x==c: f=f+1 if f==1: print("NO") else: print("YES") ```	0
126	B	Password	PROGRAMMING	1,700	[ "binary search", "dp", "hashing", "string suffix structures", "strings" ]		null	null	Asterix, Obelix and their temporary buddies Suffix and Prefix has finally found the Harmony temple. However, its doors were firmly locked and even Obelix had no luck opening them. A little later they found a string s, carved on a rock below the temple's gates. Asterix supposed that that's the password that opens the temple and read the string aloud. However, nothing happened. Then Asterix supposed that a password is some substring t of the string s. Prefix supposed that the substring t is the beginning of the string s; Suffix supposed that the substring t should be the end of the string s; and Obelix supposed that t should be located somewhere inside the string s, that is, t is neither its beginning, nor its end. Asterix chose the substring t so as to please all his companions. Besides, from all acceptable variants Asterix chose the longest one (as Asterix loves long strings). When Asterix read the substring t aloud, the temple doors opened. You know the string s. Find the substring t or determine that such substring does not exist and all that's been written above is just a nice legend.	You are given the string s whose length can vary from 1 to 106 (inclusive), consisting of small Latin letters.	Print the string t. If a suitable t string does not exist, then print "Just a legend" without the quotes.	[ "fixprefixsuffix\n", "abcdabc\n" ]	[ "fix", "Just a legend" ]	none	1,000	[ { "input": "fixprefixsuffix", "output": "fix" }, { "input": "abcdabc", "output": "Just a legend" }, { "input": "qwertyqwertyqwerty", "output": "qwerty" }, { "input": "papapapap", "output": "papap" }, { "input": "aaaaaaaaaa", "output": "aaaaaaaa" }, { "...	1,679,896,535	2,147,483,647	Python 3	OK	TESTS	97	1,308	34,304,000	s=input() count = -1 arr = [-1] for x in s: while count != -1 and s[count] != x: count = arr[count] count = count +1 arr.append(count) le = arr[-1] if arr.count(le) < 2: le = arr[le] if le > 0 : print(s[:le]) else: print("Just a legend")	Title: Password Time Limit: None seconds Memory Limit: None megabytes Problem Description: Asterix, Obelix and their temporary buddies Suffix and Prefix has finally found the Harmony temple. However, its doors were firmly locked and even Obelix had no luck opening them. A little later they found a string s, carved on a rock below the temple's gates. Asterix supposed that that's the password that opens the temple and read the string aloud. However, nothing happened. Then Asterix supposed that a password is some substring t of the string s. Prefix supposed that the substring t is the beginning of the string s; Suffix supposed that the substring t should be the end of the string s; and Obelix supposed that t should be located somewhere inside the string s, that is, t is neither its beginning, nor its end. Asterix chose the substring t so as to please all his companions. Besides, from all acceptable variants Asterix chose the longest one (as Asterix loves long strings). When Asterix read the substring t aloud, the temple doors opened. You know the string s. Find the substring t or determine that such substring does not exist and all that's been written above is just a nice legend. Input Specification: You are given the string s whose length can vary from 1 to 106 (inclusive), consisting of small Latin letters. Output Specification: Print the string t. If a suitable t string does not exist, then print "Just a legend" without the quotes. Demo Input: ['fixprefixsuffix\n', 'abcdabc\n'] Demo Output: ['fix', 'Just a legend'] Note: none	```python s=input() count = -1 arr = [-1] for x in s: while count != -1 and s[count] != x: count = arr[count] count = count +1 arr.append(count) le = arr[-1] if arr.count(le) < 2: le = arr[le] if le > 0 : print(s[:le]) else: print("Just a legend") ```	3

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