contestId int64 0 1.01k | index stringclasses 57
values | name stringlengths 2 58 | type stringclasses 2
values | rating int64 0 3.5k | tags listlengths 0 11 | title stringclasses 522
values | time-limit stringclasses 8
values | memory-limit stringclasses 8
values | problem-description stringlengths 0 7.15k | input-specification stringlengths 0 2.05k | output-specification stringlengths 0 1.5k | demo-input listlengths 0 7 | demo-output listlengths 0 7 | note stringlengths 0 5.24k | points float64 0 425k | test_cases listlengths 0 402 | creationTimeSeconds int64 1.37B 1.7B | relativeTimeSeconds int64 8 2.15B | programmingLanguage stringclasses 3
values | verdict stringclasses 14
values | testset stringclasses 12
values | passedTestCount int64 0 1k | timeConsumedMillis int64 0 15k | memoryConsumedBytes int64 0 805M | code stringlengths 3 65.5k | prompt stringlengths 262 8.2k | response stringlengths 17 65.5k | score float64 -1 3.99 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
569 | B | Inventory | PROGRAMMING | 1,200 | [
"greedy",
"math"
] | null | null | Companies always have a lot of equipment, furniture and other things. All of them should be tracked. To do this, there is an inventory number assigned with each item. It is much easier to create a database by using those numbers and keep the track of everything.
During an audit, you were surprised to find out that the... | The first line contains a single integer *n* — the number of items (1<=≤<=*n*<=≤<=105).
The second line contains *n* numbers *a*1,<=*a*2,<=...,<=*a**n* (1<=≤<=*a**i*<=≤<=105) — the initial inventory numbers of the items. | Print *n* numbers — the final inventory numbers of the items in the order they occur in the input. If there are multiple possible answers, you may print any of them. | [
"3\n1 3 2\n",
"4\n2 2 3 3\n",
"1\n2\n"
] | [
"1 3 2 \n",
"2 1 3 4 \n",
"1 \n"
] | In the first test the numeration is already a permutation, so there is no need to change anything.
In the second test there are two pairs of equal numbers, in each pair you need to replace one number.
In the third test you need to replace 2 by 1, as the numbering should start from one. | 1,000 | [
{
"input": "3\n1 3 2",
"output": "1 3 2 "
},
{
"input": "4\n2 2 3 3",
"output": "2 1 3 4 "
},
{
"input": "1\n2",
"output": "1 "
},
{
"input": "3\n3 3 1",
"output": "3 2 1 "
},
{
"input": "5\n1 1 1 1 1",
"output": "1 2 3 4 5 "
},
{
"input": "5\n5 3 4 4 ... | 1,439,228,829 | 4,629 | PyPy 3 | TIME_LIMIT_EXCEEDED | PRETESTS | 9 | 1,000 | 8,601,600 | n=int(input())
s=[]
ind=[]
for i in range(n):
s.append(i+1)
ind.append(i)
a=list(map(int,input().split(' ')))
p=[]
for i in range(len(a)):
if a[i] in s:
s[a[i]-1]=0
else:
p.append(i)
s.sort(reverse=True)
c=0
for i in p:
a[i]=s[c]
c+=1
for i in a:
print(i,en... | Title: Inventory
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Companies always have a lot of equipment, furniture and other things. All of them should be tracked. To do this, there is an inventory number assigned with each item. It is much easier to create a database by using those numb... | ```python
n=int(input())
s=[]
ind=[]
for i in range(n):
s.append(i+1)
ind.append(i)
a=list(map(int,input().split(' ')))
p=[]
for i in range(len(a)):
if a[i] in s:
s[a[i]-1]=0
else:
p.append(i)
s.sort(reverse=True)
c=0
for i in p:
a[i]=s[c]
c+=1
for i in a:
... | 0 | |
155 | A | I_love_\%username\% | PROGRAMMING | 800 | [
"brute force"
] | null | null | Vasya adores sport programming. He can't write programs but he loves to watch the contests' progress. Vasya even has a favorite coder and Vasya pays special attention to him.
One day Vasya decided to collect the results of all contests where his favorite coder participated and track the progress of his coolness. For e... | The first line contains the single integer *n* (1<=≤<=*n*<=≤<=1000) — the number of contests where the coder participated.
The next line contains *n* space-separated non-negative integer numbers — they are the points which the coder has earned. The points are given in the chronological order. All points do not exceed ... | Print the single number — the number of amazing performances the coder has had during his whole history of participating in the contests. | [
"5\n100 50 200 150 200\n",
"10\n4664 6496 5814 7010 5762 5736 6944 4850 3698 7242\n"
] | [
"2\n",
"4\n"
] | In the first sample the performances number 2 and 3 are amazing.
In the second sample the performances number 2, 4, 9 and 10 are amazing. | 500 | [
{
"input": "5\n100 50 200 150 200",
"output": "2"
},
{
"input": "10\n4664 6496 5814 7010 5762 5736 6944 4850 3698 7242",
"output": "4"
},
{
"input": "1\n6",
"output": "0"
},
{
"input": "2\n2 1",
"output": "1"
},
{
"input": "5\n100 36 53 7 81",
"output": "2"
... | 1,672,930,452 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 3 | 92 | 0 | a=int(input())
l=list(map(int,input().split()))
count = 0
for i in range(1,a):
if l[i-1]>l[i]:continue
else:count+=1
print(count) | Title: I_love_\%username\%
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Vasya adores sport programming. He can't write programs but he loves to watch the contests' progress. Vasya even has a favorite coder and Vasya pays special attention to him.
One day Vasya decided to collect the re... | ```python
a=int(input())
l=list(map(int,input().split()))
count = 0
for i in range(1,a):
if l[i-1]>l[i]:continue
else:count+=1
print(count)
``` | 0 | |
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, first... | 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... | 1,563,213,418 | 2,147,483,647 | PyPy 3 | OK | TESTS | 48 | 528 | 8,192,000 | y,k,n=map(int,input().split())
if y==n:
print(-1)
else:
a=((y//k)+1)*k-y
if a+y>n:
print(-1)
else:
while a<=n-y:
print(a,end=" ")
a+=k
| 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* pota... | ```python
y,k,n=map(int,input().split())
if y==n:
print(-1)
else:
a=((y//k)+1)*k-y
if a+y>n:
print(-1)
else:
while a<=n-y:
print(a,end=" ")
a+=k
``` | 3 | |
994 | A | Fingerprints | PROGRAMMING | 800 | [
"implementation"
] | null | null | You are locked in a room with a door that has a keypad with 10 keys corresponding to digits from 0 to 9. To escape from the room, you need to enter a correct code. You also have a sequence of digits.
Some keys on the keypad have fingerprints. You believe the correct code is the longest not necessarily contiguous subse... | The first line contains two integers $n$ and $m$ ($1 \le n, m \le 10$) representing the number of digits in the sequence you have and the number of keys on the keypad that have fingerprints.
The next line contains $n$ distinct space-separated integers $x_1, x_2, \ldots, x_n$ ($0 \le x_i \le 9$) representing the sequen... | In a single line print a space-separated sequence of integers representing the code. If the resulting sequence is empty, both printing nothing and printing a single line break is acceptable. | [
"7 3\n3 5 7 1 6 2 8\n1 2 7\n",
"4 4\n3 4 1 0\n0 1 7 9\n"
] | [
"7 1 2\n",
"1 0\n"
] | In the first example, the only digits with fingerprints are $1$, $2$ and $7$. All three of them appear in the sequence you know, $7$ first, then $1$ and then $2$. Therefore the output is 7 1 2. Note that the order is important, and shall be the same as the order in the original sequence.
In the second example digits $... | 500 | [
{
"input": "7 3\n3 5 7 1 6 2 8\n1 2 7",
"output": "7 1 2"
},
{
"input": "4 4\n3 4 1 0\n0 1 7 9",
"output": "1 0"
},
{
"input": "9 4\n9 8 7 6 5 4 3 2 1\n2 4 6 8",
"output": "8 6 4 2"
},
{
"input": "10 5\n3 7 1 2 4 6 9 0 5 8\n4 3 0 7 9",
"output": "3 7 4 9 0"
},
{
"... | 1,587,445,103 | 2,147,483,647 | Python 3 | OK | TESTS | 31 | 108 | 0 | n,m = map(int,input().split())
l = list(map(int,input().split()))
k = list(map(int,input().split()))
ind = []
for i in range(m):
if k[i] in l:
ind.append(l.index(k[i]))
ind.sort()
for i in ind:
print(l[i],end=" ") | Title: Fingerprints
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You are locked in a room with a door that has a keypad with 10 keys corresponding to digits from 0 to 9. To escape from the room, you need to enter a correct code. You also have a sequence of digits.
Some keys on the keyp... | ```python
n,m = map(int,input().split())
l = list(map(int,input().split()))
k = list(map(int,input().split()))
ind = []
for i in range(m):
if k[i] in l:
ind.append(l.index(k[i]))
ind.sort()
for i in ind:
print(l[i],end=" ")
``` | 3 | |
463 | C | Gargari and Bishops | PROGRAMMING | 1,900 | [
"greedy",
"hashing",
"implementation"
] | null | null | Gargari is jealous that his friend Caisa won the game from the previous problem. He wants to prove that he is a genius.
He has a *n*<=×<=*n* chessboard. Each cell of the chessboard has a number written on it. Gargari wants to place two bishops on the chessboard in such a way that there is no cell that is attacked by b... | The first line contains a single integer *n* (2<=≤<=*n*<=≤<=2000). Each of the next *n* lines contains *n* integers *a**ij* (0<=≤<=*a**ij*<=≤<=109) — description of the chessboard. | On the first line print the maximal number of dollars Gargari will get. On the next line print four integers: *x*1,<=*y*1,<=*x*2,<=*y*2 (1<=≤<=*x*1,<=*y*1,<=*x*2,<=*y*2<=≤<=*n*), where *x**i* is the number of the row where the *i*-th bishop should be placed, *y**i* is the number of the column where the *i*-th bishop sh... | [
"4\n1 1 1 1\n2 1 1 0\n1 1 1 0\n1 0 0 1\n"
] | [
"12\n2 2 3 2\n"
] | none | 1,500 | [
{
"input": "4\n1 1 1 1\n2 1 1 0\n1 1 1 0\n1 0 0 1",
"output": "12\n2 2 3 2"
},
{
"input": "10\n48 43 75 80 32 30 65 31 18 91\n99 5 12 43 26 90 54 91 4 88\n8 87 68 95 73 37 53 46 53 90\n50 1 85 24 32 16 5 48 98 74\n38 49 78 2 91 3 43 96 93 46\n35 100 84 2 94 56 90 98 54 43\n88 3 95 72 78 78 87 82 25 ... | 1,594,980,117 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 1 | 108 | 7,372,800 | n=int(input())
l=[]
for i in range(n):
l.append(list(map(int,input().split())))
s1=0
for i in range(n):
s1=s1+l[i][i]
s2=0
for i in range(n):
s2=s2+l[i][n-1-i]
x1,y1=0,0
m1=s1
for i in range(n):
s=s1
x,y=i,i
while x>=0 and y<n:
s=s+l[x][y]
x=x-1
y=y+1
... | Title: Gargari and Bishops
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Gargari is jealous that his friend Caisa won the game from the previous problem. He wants to prove that he is a genius.
He has a *n*<=×<=*n* chessboard. Each cell of the chessboard has a number written on it. Garga... | ```python
n=int(input())
l=[]
for i in range(n):
l.append(list(map(int,input().split())))
s1=0
for i in range(n):
s1=s1+l[i][i]
s2=0
for i in range(n):
s2=s2+l[i][n-1-i]
x1,y1=0,0
m1=s1
for i in range(n):
s=s1
x,y=i,i
while x>=0 and y<n:
s=s+l[x][y]
x=x-1
... | 0 | |
186 | A | Comparing Strings | PROGRAMMING | 1,100 | [
"implementation",
"strings"
] | null | null | Some dwarves that are finishing the StUDY (State University for Dwarven Youngsters) Bachelor courses, have been told "no genome, no degree". That means that all dwarves should write a thesis on genome. Dwarven genome is far from simple. It is represented by a string that consists of lowercase Latin letters.
Dwarf Mish... | The first line contains the first dwarf's genome: a non-empty string, consisting of lowercase Latin letters.
The second line contains the second dwarf's genome: a non-empty string, consisting of lowercase Latin letters.
The number of letters in each genome doesn't exceed 105. It is guaranteed that the strings that co... | Print "YES", if the dwarves belong to the same race. Otherwise, print "NO". | [
"ab\nba\n",
"aa\nab\n"
] | [
"YES\n",
"NO\n"
] | - First example: you can simply swap two letters in string "ab". So we get "ba". - Second example: we can't change string "aa" into string "ab", because "aa" does not contain letter "b". | 500 | [
{
"input": "ab\nba",
"output": "YES"
},
{
"input": "aa\nab",
"output": "NO"
},
{
"input": "a\nza",
"output": "NO"
},
{
"input": "vvea\nvvae",
"output": "YES"
},
{
"input": "rtfabanpc\natfabrnpc",
"output": "YES"
},
{
"input": "mt\ntm",
"output": "Y... | 1,619,176,273 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 0 | 124 | 0 | s1=input()
s2=input()
l1=len(s1)
l2=len(s2)
t1=''.join(sorted(s1))
t2=''.join(sorted(s2))
if((t1==t2) and (l1==l2)):
print("True")
else:
print("False")
| Title: Comparing Strings
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Some dwarves that are finishing the StUDY (State University for Dwarven Youngsters) Bachelor courses, have been told "no genome, no degree". That means that all dwarves should write a thesis on genome. Dwarven genome ... | ```python
s1=input()
s2=input()
l1=len(s1)
l2=len(s2)
t1=''.join(sorted(s1))
t2=''.join(sorted(s2))
if((t1==t2) and (l1==l2)):
print("True")
else:
print("False")
``` | 0 | |
483 | A | Counterexample | PROGRAMMING | 1,100 | [
"brute force",
"implementation",
"math",
"number theory"
] | null | null | Your friend has recently learned about coprime numbers. A pair of numbers {*a*,<=*b*} is called coprime if the maximum number that divides both *a* and *b* is equal to one.
Your friend often comes up with different statements. He has recently supposed that if the pair (*a*,<=*b*) is coprime and the pair (*b*,<=*c*) i... | The single line contains two positive space-separated integers *l*, *r* (1<=≤<=*l*<=≤<=*r*<=≤<=1018; *r*<=-<=*l*<=≤<=50). | Print three positive space-separated integers *a*, *b*, *c* — three distinct numbers (*a*,<=*b*,<=*c*) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order.
If the counterexample does not exist, print the single number -1. | [
"2 4\n",
"10 11\n",
"900000000000000009 900000000000000029\n"
] | [
"2 3 4\n",
"-1\n",
"900000000000000009 900000000000000010 900000000000000021\n"
] | In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are.
In the second sample you cannot form a group of three distinct integers, so the answer is -1.
In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three. | 500 | [
{
"input": "2 4",
"output": "2 3 4"
},
{
"input": "10 11",
"output": "-1"
},
{
"input": "900000000000000009 900000000000000029",
"output": "900000000000000009 900000000000000010 900000000000000021"
},
{
"input": "640097987171091791 640097987171091835",
"output": "64009798... | 1,655,252,914 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 1 | 30 | 0 | ### Hello! World ... ###
s, e = input().split(' ')
s = int(s); e = int(e)
def gcd(p,q):
while q != 0:
p, q = q, p%q
return p
def is_coprime(x, y):
return gcd(x, y) == 1
res = []
res.append(s)
temp1 = s+1
res.append(temp1)
temp2 = temp1
flag = True
for i in range(s, e+1):
temp2 += 1
if is_cop... | Title: Counterexample
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Your friend has recently learned about coprime numbers. A pair of numbers {*a*,<=*b*} is called coprime if the maximum number that divides both *a* and *b* is equal to one.
Your friend often comes up with different st... | ```python
### Hello! World ... ###
s, e = input().split(' ')
s = int(s); e = int(e)
def gcd(p,q):
while q != 0:
p, q = q, p%q
return p
def is_coprime(x, y):
return gcd(x, y) == 1
res = []
res.append(s)
temp1 = s+1
res.append(temp1)
temp2 = temp1
flag = True
for i in range(s, e+1):
temp2 += 1
... | 0 | |
769 | C | Cycle In Maze | PROGRAMMING | 1,700 | [
"*special",
"dfs and similar",
"graphs",
"greedy",
"shortest paths"
] | null | null | The Robot is in a rectangular maze of size *n*<=×<=*m*. Each cell of the maze is either empty or occupied by an obstacle. The Robot can move between neighboring cells on the side left (the symbol "L"), right (the symbol "R"), up (the symbol "U") or down (the symbol "D"). The Robot can move to the cell only if it is emp... | The first line contains three integers *n*, *m* and *k* (1<=≤<=*n*,<=*m*<=≤<=1000, 1<=≤<=*k*<=≤<=106) — the size of the maze and the length of the cycle.
Each of the following *n* lines contains *m* symbols — the description of the maze. If the symbol equals to "." the current cell is empty. If the symbol equals to "... | Print the lexicographically minimum Robot's way with the length exactly *k*, which starts and ends in the cell where initially Robot is. If there is no such way, print "IMPOSSIBLE"(without quotes). | [
"2 3 2\n.**\nX..\n",
"5 6 14\n..***.\n*...X.\n..*...\n..*.**\n....*.\n",
"3 3 4\n***\n*X*\n***\n"
] | [
"RL\n",
"DLDDLLLRRRUURU\n",
"IMPOSSIBLE\n"
] | In the first sample two cyclic ways for the Robot with the length 2 exist — "UD" and "RL". The second cycle is lexicographically less.
In the second sample the Robot should move in the following way: down, left, down, down, left, left, left, right, right, right, up, up, right, up.
In the third sample the Robot can'... | 1,500 | [
{
"input": "2 3 2\n.**\nX..",
"output": "RL"
},
{
"input": "5 6 14\n..***.\n*...X.\n..*...\n..*.**\n....*.",
"output": "DLDDLLLRRRUURU"
},
{
"input": "3 3 4\n***\n*X*\n***",
"output": "IMPOSSIBLE"
},
{
"input": "1 1 1\nX",
"output": "IMPOSSIBLE"
},
{
"input": "1 2... | 1,488,656,851 | 28,051 | Python 3 | WRONG_ANSWER | PRETESTS | 0 | 62 | 5,529,600 | import random
n = random.randint(1, 10)
m = random.randint(1, 10)
k = random.randint(1, 10)
print(n, m, k)
a = []
wX = False
for ran in range(n):
x = ''
for rand in range(m):
if not wX:
s = random.choice(['.', '*', 'X'])
if s == 'X':
wX = True
... | Title: Cycle In Maze
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
The Robot is in a rectangular maze of size *n*<=×<=*m*. Each cell of the maze is either empty or occupied by an obstacle. The Robot can move between neighboring cells on the side left (the symbol "L"), right (the symbol "... | ```python
import random
n = random.randint(1, 10)
m = random.randint(1, 10)
k = random.randint(1, 10)
print(n, m, k)
a = []
wX = False
for ran in range(n):
x = ''
for rand in range(m):
if not wX:
s = random.choice(['.', '*', 'X'])
if s == 'X':
wX = Tr... | 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 accidentall... | 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"
},
{
... | 1,689,906,812 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 5 | 30 | 0 | s = input()
n = len(s)
dem = 0
ok = 0
if 'A' <= s[0] <= 'Z':
ok = 1
for x in s :
if'A' <= x <= 'Z' :
dem += 1
if dem == n or (dem == n - 1 and ok == 0):
s = s.capitalize() ;
print(s) ; | 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 th... | ```python
s = input()
n = len(s)
dem = 0
ok = 0
if 'A' <= s[0] <= 'Z':
ok = 1
for x in s :
if'A' <= x <= 'Z' :
dem += 1
if dem == n or (dem == n - 1 and ok == 0):
s = s.capitalize() ;
print(s) ;
``` | 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... | 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"... | 1,666,339,246 | 2,147,483,647 | Python 3 | RUNTIME_ERROR | TESTS | 0 | 31 | 0 | n=int(input())
s=k=0
for i in range(1,n+1):
x=int (input())
if x%2==0:
k=x%10
s=s+k
print (s)
| 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 ... | ```python
n=int(input())
s=k=0
for i in range(1,n+1):
x=int (input())
if x%2==0:
k=x%10
s=s+k
print (s)
``` | -1 |
289 | B | Polo the Penguin and Matrix | PROGRAMMING | 1,400 | [
"brute force",
"dp",
"implementation",
"sortings",
"ternary search"
] | null | null | Little penguin Polo has an *n*<=×<=*m* matrix, consisting of integers. Let's index the matrix rows from 1 to *n* from top to bottom and let's index the columns from 1 to *m* from left to right. Let's represent the matrix element on the intersection of row *i* and column *j* as *a**ij*.
In one move the penguin can add ... | The first line contains three integers *n*, *m* and *d* (1<=≤<=*n*,<=*m*<=≤<=100,<=1<=≤<=*d*<=≤<=104) — the matrix sizes and the *d* parameter. Next *n* lines contain the matrix: the *j*-th integer in the *i*-th row is the matrix element *a**ij* (1<=≤<=*a**ij*<=≤<=104). | In a single line print a single integer — the minimum number of moves the penguin needs to make all matrix elements equal. If that is impossible, print "-1" (without the quotes). | [
"2 2 2\n2 4\n6 8\n",
"1 2 7\n6 7\n"
] | [
"4\n",
"-1\n"
] | none | 1,000 | [
{
"input": "2 2 2\n2 4\n6 8",
"output": "4"
},
{
"input": "1 2 7\n6 7",
"output": "-1"
},
{
"input": "3 2 1\n5 7\n1 2\n5 100",
"output": "104"
},
{
"input": "3 3 3\n5 8 5\n11 11 17\n14 5 2",
"output": "12"
},
{
"input": "3 3 3\n5 8 5\n11 11 17\n14 5 3",
"outpu... | 1,616,511,415 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 2 | 154 | 307,200 | def solve(row,col,d,matrix) :
table = [0]*1001
times = [0]*1001
totalNum = 0
for outerIndex in range(row) :
for innerIndex in range(col) :
if matrix[outerIndex][innerIndex]%d == 0 :
table[matrix[outerIndex][innerIndex]] += 1
times[matrix[outerI... | Title: Polo the Penguin and Matrix
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Little penguin Polo has an *n*<=×<=*m* matrix, consisting of integers. Let's index the matrix rows from 1 to *n* from top to bottom and let's index the columns from 1 to *m* from left to right. Let's represe... | ```python
def solve(row,col,d,matrix) :
table = [0]*1001
times = [0]*1001
totalNum = 0
for outerIndex in range(row) :
for innerIndex in range(col) :
if matrix[outerIndex][innerIndex]%d == 0 :
table[matrix[outerIndex][innerIndex]] += 1
times[mat... | 0 | |
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 thi... | 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... | 1,695,900,671 | 2,147,483,647 | PyPy 3-64 | WRONG_ANSWER | TESTS | 7 | 46 | 0 | n = int(input())
x = input().lower()
find = "pangram"
ans = "YES"
for i in find:
if i not in x:
ans = "NO"
break
print(ans) | 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.
... | ```python
n = int(input())
x = input().lower()
find = "pangram"
ans = "YES"
for i in find:
if i not in x:
ans = "NO"
break
print(ans)
``` | 0 | |
294 | A | Shaass and Oskols | PROGRAMMING | 800 | [
"implementation",
"math"
] | null | null | Shaass has decided to hunt some birds. There are *n* horizontal electricity wires aligned parallel to each other. Wires are numbered 1 to *n* from top to bottom. On each wire there are some oskols sitting next to each other. Oskol is the name of a delicious kind of birds in Shaass's territory. Supposed there are *a**i*... | The first line of the input contains an integer *n*, (1<=≤<=*n*<=≤<=100). The next line contains a list of space-separated integers *a*1,<=*a*2,<=...,<=*a**n*, (0<=≤<=*a**i*<=≤<=100).
The third line contains an integer *m*, (0<=≤<=*m*<=≤<=100). Each of the next *m* lines contains two integers *x**i* and *y**i*. The i... | On the *i*-th line of the output print the number of birds on the *i*-th wire. | [
"5\n10 10 10 10 10\n5\n2 5\n3 13\n2 12\n1 13\n4 6\n",
"3\n2 4 1\n1\n2 2\n"
] | [
"0\n12\n5\n0\n16\n",
"3\n0\n3\n"
] | none | 500 | [
{
"input": "5\n10 10 10 10 10\n5\n2 5\n3 13\n2 12\n1 13\n4 6",
"output": "0\n12\n5\n0\n16"
},
{
"input": "3\n2 4 1\n1\n2 2",
"output": "3\n0\n3"
},
{
"input": "5\n58 51 45 27 48\n5\n4 9\n5 15\n4 5\n5 8\n1 43",
"output": "0\n66\n57\n7\n0"
},
{
"input": "10\n48 53 10 28 91 56 8... | 1,685,991,323 | 2,147,483,647 | Python 3 | OK | TESTS | 31 | 92 | 0 | n = int(input())
a = list(map(int,input().strip().split()))
t = int(input())
for i in range(t):
x,y = input().split()
x = int(x)
y = int(y)
n1 = a[x-1] - y
n2 = y - 1
a[x-1] = 0
if x < n:
a[x] += n1
if x > 1:
a[x-2] += n2
for i in a:
print(i)
| Title: Shaass and Oskols
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Shaass has decided to hunt some birds. There are *n* horizontal electricity wires aligned parallel to each other. Wires are numbered 1 to *n* from top to bottom. On each wire there are some oskols sitting next to each... | ```python
n = int(input())
a = list(map(int,input().strip().split()))
t = int(input())
for i in range(t):
x,y = input().split()
x = int(x)
y = int(y)
n1 = a[x-1] - y
n2 = y - 1
a[x-1] = 0
if x < n:
a[x] += n1
if x > 1:
a[x-2] += n2
for i in a:
print(i)
... | 3 | |
952 | D | I'm Feeling Lucky! | PROGRAMMING | 1,800 | [
"probabilities"
] | null | null | You have one chip and one chance to play roulette. Are you feeling lucky? | none | Print your bet. Your chip must be placed entirely within some square (not on an edge or a corner shared by adjacent squares). | [] | [] | none | 0 | [
{
"input": "1",
"output": "Red"
},
{
"input": "2",
"output": "Red"
}
] | 1,680,300,563 | 863 | Python 3 | WRONG_ANSWER | TESTS | 0 | 46 | 0 | print('0')
| Title: I'm Feeling Lucky!
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You have one chip and one chance to play roulette. Are you feeling lucky?
Input Specification:
none
Output Specification:
Print your bet. Your chip must be placed entirely within some square (not on an edge or a co... | ```python
print('0')
``` | 0 | |
499 | B | Lecture | PROGRAMMING | 1,000 | [
"implementation",
"strings"
] | null | null | You have a new professor of graph theory and he speaks very quickly. You come up with the following plan to keep up with his lecture and make notes.
You know two languages, and the professor is giving the lecture in the first one. The words in both languages consist of lowercase English characters, each language consi... | The first line contains two integers, *n* and *m* (1<=≤<=*n*<=≤<=3000, 1<=≤<=*m*<=≤<=3000) — the number of words in the professor's lecture and the number of words in each of these languages.
The following *m* lines contain the words. The *i*-th line contains two strings *a**i*, *b**i* meaning that the word *a**i* bel... | Output exactly *n* words: how you will record the lecture in your notebook. Output the words of the lecture in the same order as in the input. | [
"4 3\ncodeforces codesecrof\ncontest round\nletter message\ncodeforces contest letter contest\n",
"5 3\njoll wuqrd\neuzf un\nhbnyiyc rsoqqveh\nhbnyiyc joll joll euzf joll\n"
] | [
"codeforces round letter round\n",
"hbnyiyc joll joll un joll\n"
] | none | 500 | [
{
"input": "4 3\ncodeforces codesecrof\ncontest round\nletter message\ncodeforces contest letter contest",
"output": "codeforces round letter round"
},
{
"input": "5 3\njoll wuqrd\neuzf un\nhbnyiyc rsoqqveh\nhbnyiyc joll joll euzf joll",
"output": "hbnyiyc joll joll un joll"
},
{
"input"... | 1,688,073,134 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 37 | 124 | 8,704,000 | n,m = map(int,input().split())
d = dict()
for i in range(m):
s = input()
s = s.split(" ")
d[s[0]] = s[1]
l = input()
l = l.split(" ")
ans = []
for i in range(n):
if l[i] in d.keys():
if len(l[i])>len(d[l[i]]):
ans.append(d[l[i]])
else:
ans.append... | Title: Lecture
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You have a new professor of graph theory and he speaks very quickly. You come up with the following plan to keep up with his lecture and make notes.
You know two languages, and the professor is giving the lecture in the first ... | ```python
n,m = map(int,input().split())
d = dict()
for i in range(m):
s = input()
s = s.split(" ")
d[s[0]] = s[1]
l = input()
l = l.split(" ")
ans = []
for i in range(n):
if l[i] in d.keys():
if len(l[i])>len(d[l[i]]):
ans.append(d[l[i]])
else:
... | 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: *a**i*,<=1<==<=*a*1,<=*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 ... | 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"
... | 1,658,331,534 | 2,147,483,647 | Python 3 | OK | TESTS | 10 | 31 | 0 | n=int(input())
l=[[1]*n]
for i in range(n-1):
l.append([1]+[0]*(n-1))
for i in range(n):
for j in range(len(l[i])):
if l[i][j]==0:
l[i][j]=l[i-1][j]+l[i][j-1]
print(l[n-1][n-1]) | 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: *a**i*,<=1<==<=*a*1,<=*i*<==<=1 for all *i*<==<=1,<=2,<=...,<=*n*. - Each of the remaining numbers in the t... | ```python
n=int(input())
l=[[1]*n]
for i in range(n-1):
l.append([1]+[0]*(n-1))
for i in range(n):
for j in range(len(l[i])):
if l[i][j]==0:
l[i][j]=l[i-1][j]+l[i][j-1]
print(l[n-1][n-1])
``` | 3 | |
598 | A | Tricky Sum | PROGRAMMING | 900 | [
"math"
] | null | null | In this problem you are to calculate the sum of all integers from 1 to *n*, but you should take all powers of two with minus in the sum.
For example, for *n*<==<=4 the sum is equal to <=-<=1<=-<=2<=+<=3<=-<=4<==<=<=-<=4, because 1, 2 and 4 are 20, 21 and 22 respectively.
Calculate the answer for *t* values of *n*. | The first line of the input contains a single integer *t* (1<=≤<=*t*<=≤<=100) — the number of values of *n* to be processed.
Each of next *t* lines contains a single integer *n* (1<=≤<=*n*<=≤<=109). | Print the requested sum for each of *t* integers *n* given in the input. | [
"2\n4\n1000000000\n"
] | [
"-4\n499999998352516354\n"
] | The answer for the first sample is explained in the statement. | 0 | [
{
"input": "2\n4\n1000000000",
"output": "-4\n499999998352516354"
},
{
"input": "10\n1\n2\n3\n4\n5\n6\n7\n8\n9\n10",
"output": "-1\n-3\n0\n-4\n1\n7\n14\n6\n15\n25"
},
{
"input": "10\n10\n9\n47\n33\n99\n83\n62\n1\n100\n53",
"output": "25\n15\n1002\n435\n4696\n3232\n1827\n-1\n4796\n130... | 1,617,263,160 | 2,147,483,647 | PyPy 3 | WRONG_ANSWER | TESTS | 0 | 61 | 0 | import math
t=int(input())
d={}
y=math.log2(10000000000)
for i in range(int(y)):
d[i]=2**i
for _ in range(t):
n=int(input())
s=n*(n+1)/2
y=math.log2(n)
y=int(y)
for i in range(y+1):
s-=2*d[i]
print(float(s))
| Title: Tricky Sum
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
In this problem you are to calculate the sum of all integers from 1 to *n*, but you should take all powers of two with minus in the sum.
For example, for *n*<==<=4 the sum is equal to <=-<=1<=-<=2<=+<=3<=-<=4<==<=<=-<=4, be... | ```python
import math
t=int(input())
d={}
y=math.log2(10000000000)
for i in range(int(y)):
d[i]=2**i
for _ in range(t):
n=int(input())
s=n*(n+1)/2
y=math.log2(n)
y=int(y)
for i in range(y+1):
s-=2*d[i]
print(float(s))
``` | 0 | |
687 | B | Remainders Game | PROGRAMMING | 1,800 | [
"chinese remainder theorem",
"math",
"number theory"
] | null | null | Today Pari and Arya are playing a game called Remainders.
Pari chooses two positive integer *x* and *k*, and tells Arya *k* but not *x*. Arya have to find the value . There are *n* ancient numbers *c*1,<=*c*2,<=...,<=*c**n* and Pari has to tell Arya if Arya wants. Given *k* and the ancient values, tell us if Arya has... | The first line of the input contains two integers *n* and *k* (1<=≤<=*n*,<= *k*<=≤<=1<=000<=000) — the number of ancient integers and value *k* that is chosen by Pari.
The second line contains *n* integers *c*1,<=*c*2,<=...,<=*c**n* (1<=≤<=*c**i*<=≤<=1<=000<=000). | Print "Yes" (without quotes) if Arya has a winning strategy independent of value of *x*, or "No" (without quotes) otherwise. | [
"4 5\n2 3 5 12\n",
"2 7\n2 3\n"
] | [
"Yes\n",
"No\n"
] | In the first sample, Arya can understand <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/d170efffcde0907ee6bcf32de21051bce0677a2c.png" style="max-width: 100.0%;max-height: 100.0%;"/> because 5 is one of the ancient numbers.
In the second sample, Arya can't be sure what <img align="middle" ... | 1,000 | [
{
"input": "4 5\n2 3 5 12",
"output": "Yes"
},
{
"input": "2 7\n2 3",
"output": "No"
},
{
"input": "1 6\n8",
"output": "No"
},
{
"input": "2 3\n9 4",
"output": "Yes"
},
{
"input": "4 16\n19 16 13 9",
"output": "Yes"
},
{
"input": "5 10\n5 16 19 9 17",
... | 1,608,283,971 | 2,147,483,647 | PyPy 3 | OK | TESTS | 140 | 919 | 64,102,400 | import math
from typing import List
#calcula la descomposicion en primos de un numero
def PrimesDiv(n):
primes_list=[]
cant=0
while n%2==0:
cant+=1
n=n/2
if cant:primes_list.append([2,cant])
for i in range(3,int(math.sqrt(n))+1,2):
cant=0
while n%i==0:... | Title: Remainders Game
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Today Pari and Arya are playing a game called Remainders.
Pari chooses two positive integer *x* and *k*, and tells Arya *k* but not *x*. Arya have to find the value . There are *n* ancient numbers *c*1,<=*c*2,<=...,<=*... | ```python
import math
from typing import List
#calcula la descomposicion en primos de un numero
def PrimesDiv(n):
primes_list=[]
cant=0
while n%2==0:
cant+=1
n=n/2
if cant:primes_list.append([2,cant])
for i in range(3,int(math.sqrt(n))+1,2):
cant=0
whi... | 3 | |
71 | A | Way Too Long Words | PROGRAMMING | 800 | [
"strings"
] | A. Way Too Long Words | 1 | 256 | Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome.
Let's consider a word too long, if its length is strictly more than 10 characters. All too long words should be replaced with a special abbreviation.
This abbreviation is made lik... | The first line contains an integer *n* (1<=≤<=*n*<=≤<=100). Each of the following *n* lines contains one word. All the words consist of lowercase Latin letters and possess the lengths of from 1 to 100 characters. | Print *n* lines. The *i*-th line should contain the result of replacing of the *i*-th word from the input data. | [
"4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis\n"
] | [
"word\nl10n\ni18n\np43s\n"
] | none | 500 | [
{
"input": "4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis",
"output": "word\nl10n\ni18n\np43s"
},
{
"input": "5\nabcdefgh\nabcdefghi\nabcdefghij\nabcdefghijk\nabcdefghijklm",
"output": "abcdefgh\nabcdefghi\nabcdefghij\na9k\na11m"
},
{
"input":... | 1,693,415,227 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 20 | 62 | 0 | n=int(input())
w=[]
for i in range(n):
word=input().strip().lower()
w.append(word)
for i in w:
if len(i)>10:
a=i[0]+str(len(i)-2)+i[-1]
print(a)
else:
print(i) | Title: Way Too Long Words
Time Limit: 1 seconds
Memory Limit: 256 megabytes
Problem Description:
Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome.
Let's consider a word too long, if its length is strictly more than 10 character... | ```python
n=int(input())
w=[]
for i in range(n):
word=input().strip().lower()
w.append(word)
for i in w:
if len(i)>10:
a=i[0]+str(len(i)-2)+i[-1]
print(a)
else:
print(i)
``` | 3.969 |
858 | A | k-rounding | PROGRAMMING | 1,100 | [
"brute force",
"math",
"number theory"
] | null | null | For a given positive integer *n* denote its *k*-rounding as the minimum positive integer *x*, such that *x* ends with *k* or more zeros in base 10 and is divisible by *n*.
For example, 4-rounding of 375 is 375·80<==<=30000. 30000 is the minimum integer such that it ends with 4 or more zeros and is divisible by 375.
W... | The only line contains two integers *n* and *k* (1<=≤<=*n*<=≤<=109, 0<=≤<=*k*<=≤<=8). | Print the *k*-rounding of *n*. | [
"375 4\n",
"10000 1\n",
"38101 0\n",
"123456789 8\n"
] | [
"30000\n",
"10000\n",
"38101\n",
"12345678900000000\n"
] | none | 750 | [
{
"input": "375 4",
"output": "30000"
},
{
"input": "10000 1",
"output": "10000"
},
{
"input": "38101 0",
"output": "38101"
},
{
"input": "123456789 8",
"output": "12345678900000000"
},
{
"input": "1 0",
"output": "1"
},
{
"input": "2 0",
"output":... | 1,505,656,174 | 2,674 | Python 3 | WRONG_ANSWER | TESTS | 15 | 46 | 4,608,000 | n,k=map(int,input().split())
x=list(str(n))
h=0
while h<k:
while x[len(x)-1]=="0":
h+=1
x.remove(x[len(x)-1])
n//=10
if h==k:
break
if h==k:
break
if int(x[len(x)-1])%2==0:
n*=5
x=list(str(n))
else:
if len(x)>1:
... | Title: k-rounding
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
For a given positive integer *n* denote its *k*-rounding as the minimum positive integer *x*, such that *x* ends with *k* or more zeros in base 10 and is divisible by *n*.
For example, 4-rounding of 375 is 375·80<==<=30000.... | ```python
n,k=map(int,input().split())
x=list(str(n))
h=0
while h<k:
while x[len(x)-1]=="0":
h+=1
x.remove(x[len(x)-1])
n//=10
if h==k:
break
if h==k:
break
if int(x[len(x)-1])%2==0:
n*=5
x=list(str(n))
else:
if ... | 0 | |
688 | B | Lovely Palindromes | PROGRAMMING | 1,000 | [
"constructive algorithms",
"math"
] | null | null | Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not.
Pari is trying to love them too, but only very special and gifted people can understand the beauty behind palindro... | The only line of the input contains a single integer *n* (1<=≤<=*n*<=≤<=10100<=000). | Print the *n*-th even-length palindrome number. | [
"1\n",
"10\n"
] | [
"11\n",
"1001\n"
] | The first 10 even-length palindrome numbers are 11, 22, 33, ... , 88, 99 and 1001. | 1,000 | [
{
"input": "1",
"output": "11"
},
{
"input": "10",
"output": "1001"
},
{
"input": "11",
"output": "1111"
},
{
"input": "12",
"output": "1221"
},
{
"input": "100",
"output": "100001"
},
{
"input": "1321",
"output": "13211231"
},
{
"input": "... | 1,604,561,559 | 2,147,483,647 | Python 3 | OK | TESTS | 40 | 109 | 614,400 | def solve():
n = input()
return f'{n}{n[::-1]}'
print(solve()) | Title: Lovely Palindromes
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not.
Pari is tr... | ```python
def solve():
n = input()
return f'{n}{n[::-1]}'
print(solve())
``` | 3 | |
9 | A | Die Roll | PROGRAMMING | 800 | [
"math",
"probabilities"
] | A. Die Roll | 1 | 64 | Yakko, Wakko and Dot, world-famous animaniacs, decided to rest from acting in cartoons, and take a leave to travel a bit. Yakko dreamt to go to Pennsylvania, his Motherland and the Motherland of his ancestors. Wakko thought about Tasmania, its beaches, sun and sea. Dot chose Transylvania as the most mysterious and unpr... | The only line of the input file contains two natural numbers Y and W — the results of Yakko's and Wakko's die rolls. | Output the required probability in the form of irreducible fraction in format «A/B», where A — the numerator, and B — the denominator. If the required probability equals to zero, output «0/1». If the required probability equals to 1, output «1/1». | [
"4 2\n"
] | [
"1/2\n"
] | Dot will go to Transylvania, if she is lucky to roll 4, 5 or 6 points. | 0 | [
{
"input": "4 2",
"output": "1/2"
},
{
"input": "1 1",
"output": "1/1"
},
{
"input": "1 2",
"output": "5/6"
},
{
"input": "1 3",
"output": "2/3"
},
{
"input": "1 4",
"output": "1/2"
},
{
"input": "1 5",
"output": "1/3"
},
{
"input": "1 6",
... | 1,685,806,222 | 2,147,483,647 | PyPy 3 | RUNTIME_ERROR | TESTS | 0 | 218 | 3,481,600 | from fractions import Fraction
a,b=map(int,input().split())
print(fraction(a,b)) | Title: Die Roll
Time Limit: 1 seconds
Memory Limit: 64 megabytes
Problem Description:
Yakko, Wakko and Dot, world-famous animaniacs, decided to rest from acting in cartoons, and take a leave to travel a bit. Yakko dreamt to go to Pennsylvania, his Motherland and the Motherland of his ancestors. Wakko thought about T... | ```python
from fractions import Fraction
a,b=map(int,input().split())
print(fraction(a,b))
``` | -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, first... | 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... | 1,591,819,328 | 2,147,483,647 | PyPy 3 | WRONG_ANSWER | TESTS | 2 | 248 | 0 | n, k, t = map(int, input().rstrip().split(" "))
if n + k > t:
print(-1)
else:
if n < k:
s = k - n
elif n == k:
s = 0
elif n > k:
if n % k:
s = (n // k + 1) * k - n
else:
s = 0
end = t - n
while s <= end:
print(s, end=... | 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* pota... | ```python
n, k, t = map(int, input().rstrip().split(" "))
if n + k > t:
print(-1)
else:
if n < k:
s = k - n
elif n == k:
s = 0
elif n > k:
if n % k:
s = (n // k + 1) * k - n
else:
s = 0
end = t - n
while s <= end:
pri... | 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 th... | 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... | 1,622,472,230 | 2,147,483,647 | PyPy 3 | OK | TESTS | 30 | 312 | 0 | # -*- coding: utf-8 -*-
"""Untitled19.ipynb
Automatically generated by Colaboratory.
Original file is located at
https://colab.research.google.com/drive/17pE7Nsm1SMV6a45ZPfyl4oCj8-nqJjZC
"""
s = input()
s1 = s.upper()
s2 = s.lower()
count1 = 0
count2 = 0
for i in range(len(s)):
char = s[i]
ascii = ord(char)... | 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 ei... | ```python
# -*- coding: utf-8 -*-
"""Untitled19.ipynb
Automatically generated by Colaboratory.
Original file is located at
https://colab.research.google.com/drive/17pE7Nsm1SMV6a45ZPfyl4oCj8-nqJjZC
"""
s = input()
s1 = s.upper()
s2 = s.lower()
count1 = 0
count2 = 0
for i in range(len(s)):
char = s[i]
ascii =... | 3.922 |
975 | A | Aramic script | PROGRAMMING | 900 | [
"implementation",
"strings"
] | null | null | In Aramic language words can only represent objects.
Words in Aramic have special properties:
- A word is a root if it does not contain the same letter more than once. - A root and all its permutations represent the same object. - The root $x$ of a word $y$ is the word that contains all letters that appear in $y$... | The first line contains one integer $n$ ($1 \leq n \leq 10^3$) — the number of words in the script.
The second line contains $n$ words $s_1, s_2, \ldots, s_n$ — the script itself. The length of each string does not exceed $10^3$.
It is guaranteed that all characters of the strings are small latin letters. | Output one integer — the number of different objects mentioned in the given ancient Aramic script. | [
"5\na aa aaa ab abb\n",
"3\namer arem mrea\n"
] | [
"2",
"1"
] | In the first test, there are two objects mentioned. The roots that represent them are "a","ab".
In the second test, there is only one object, its root is "amer", the other strings are just permutations of "amer". | 500 | [
{
"input": "5\na aa aaa ab abb",
"output": "2"
},
{
"input": "3\namer arem mrea",
"output": "1"
},
{
"input": "10\nbda bbb cda dca dda dcb bcd dcb ada ddd",
"output": "6"
},
{
"input": "2\nfhjlqs aceginpr",
"output": "2"
},
{
"input": "2\nbcdfghimn efghijlmo",
... | 1,690,880,545 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 30 | 77 | 5,632,000 | num = int(input())
words = input().split()
print(len(set(frozenset(word) for word in words)))
| Title: Aramic script
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
In Aramic language words can only represent objects.
Words in Aramic have special properties:
- A word is a root if it does not contain the same letter more than once. - A root and all its permutations represent the ... | ```python
num = int(input())
words = input().split()
print(len(set(frozenset(word) for word in words)))
``` | 3 | |
376 | A | Lever | PROGRAMMING | 900 | [
"implementation",
"math"
] | null | null | You have a description of a lever as string *s*. We'll represent the string length as record |*s*|, then the lever looks as a horizontal bar with weights of length |*s*|<=-<=1 with exactly one pivot. We will assume that the bar is a segment on the *Ox* axis between points 0 and |*s*|<=-<=1.
The decoding of the lever d... | The first line contains the lever description as a non-empty string *s* (3<=≤<=|*s*|<=≤<=106), consisting of digits (1-9) and characters "^" and "=". It is guaranteed that the line contains exactly one character "^". It is guaranteed that the pivot of the lever isn't located in any end of the lever bar.
To solve the p... | Print "left" if the given lever tilts to the left, "right" if it tilts to the right and "balance", if it is in balance. | [
"=^==\n",
"9===^==1\n",
"2==^7==\n",
"41^52==\n"
] | [
"balance\n",
"left\n",
"right\n",
"balance\n"
] | As you solve the problem, you may find the following link useful to better understand how a lever functions: http://en.wikipedia.org/wiki/Lever.
The pictures to the examples: | 500 | [
{
"input": "=^==",
"output": "balance"
},
{
"input": "9===^==1",
"output": "left"
},
{
"input": "2==^7==",
"output": "right"
},
{
"input": "41^52==",
"output": "balance"
},
{
"input": "=^2=4=1===1=",
"output": "right"
},
{
"input": "9=6===5==3=9=1=1^7=... | 1,594,765,678 | 2,147,483,647 | PyPy 3 | OK | TESTS | 60 | 248 | 28,364,800 | s = input()
left, right = s.split('^')
left_value, right_value = 0, 0
for i in range(len(left)):
if left[i].isdigit():
left_value += int(left[i]) * (len(left) - i)
for i in range(len(right)):
if right[i].isdigit():
right_value += int(right[i]) * (i + 1)
if left_value < right_value:
print('right'... | Title: Lever
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You have a description of a lever as string *s*. We'll represent the string length as record |*s*|, then the lever looks as a horizontal bar with weights of length |*s*|<=-<=1 with exactly one pivot. We will assume that the bar i... | ```python
s = input()
left, right = s.split('^')
left_value, right_value = 0, 0
for i in range(len(left)):
if left[i].isdigit():
left_value += int(left[i]) * (len(left) - i)
for i in range(len(right)):
if right[i].isdigit():
right_value += int(right[i]) * (i + 1)
if left_value < right_value:
pri... | 3 | |
579 | A | Raising Bacteria | PROGRAMMING | 1,000 | [
"bitmasks"
] | null | null | You are a lover of bacteria. You want to raise some bacteria in a box.
Initially, the box is empty. Each morning, you can put any number of bacteria into the box. And each night, every bacterium in the box will split into two bacteria. You hope to see exactly *x* bacteria in the box at some moment.
What is the mini... | The only line containing one integer *x* (1<=≤<=*x*<=≤<=109). | The only line containing one integer: the answer. | [
"5\n",
"8\n"
] | [
"2\n",
"1\n"
] | For the first sample, we can add one bacterium in the box in the first day morning and at the third morning there will be 4 bacteria in the box. Now we put one more resulting 5 in the box. We added 2 bacteria in the process so the answer is 2.
For the second sample, we can put one in the first morning and in the 4-th ... | 250 | [
{
"input": "5",
"output": "2"
},
{
"input": "8",
"output": "1"
},
{
"input": "536870911",
"output": "29"
},
{
"input": "1",
"output": "1"
},
{
"input": "343000816",
"output": "14"
},
{
"input": "559980448",
"output": "12"
},
{
"input": "697... | 1,693,777,956 | 2,147,483,647 | Python 3 | OK | TESTS | 36 | 46 | 0 | x = int(input())
cnt = 0
i = 0
while True:
if 2**i == x:
cnt += 1
break
if 2** i > x:
x = x - 2**(i-1)
cnt += 1
i = -1
i += 1
print(cnt) | Title: Raising Bacteria
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You are a lover of bacteria. You want to raise some bacteria in a box.
Initially, the box is empty. Each morning, you can put any number of bacteria into the box. And each night, every bacterium in the box will split... | ```python
x = int(input())
cnt = 0
i = 0
while True:
if 2**i == x:
cnt += 1
break
if 2** i > x:
x = x - 2**(i-1)
cnt += 1
i = -1
i += 1
print(cnt)
``` | 3 | |
526 | A | King of Thieves | PROGRAMMING | 1,300 | [
"brute force",
"implementation"
] | null | null | In this problem you will meet the simplified model of game King of Thieves.
In a new ZeptoLab game called "King of Thieves" your aim is to reach a chest with gold by controlling your character, avoiding traps and obstacles on your way.
An interesting feature of the game is that you can design your own levels that wil... | The first line contains integer *n* (1<=≤<=*n*<=≤<=100) — the number of segments on the level.
Next line contains the scheme of the level represented as a string of *n* characters '*' and '.'. | If the level is good, print the word "yes" (without the quotes), otherwise print the word "no" (without the quotes). | [
"16\n.**.*..*.***.**.\n",
"11\n.*.*...*.*.\n"
] | [
"yes",
"no"
] | In the first sample test you may perform a sequence of jumps through platforms 2, 5, 8, 11, 14. | 500 | [
{
"input": "16\n.**.*..*.***.**.",
"output": "yes"
},
{
"input": "11\n.*.*...*.*.",
"output": "no"
},
{
"input": "53\n*.*.****.*.*......**....**.***.*.*.**.*.*.***...*..*.",
"output": "yes"
},
{
"input": "71\n**.**..*****.*.*.*.********.....*****.****.*..***...*.*.*.**.****.*... | 1,551,702,496 | 2,147,483,647 | Python 3 | OK | TESTS | 65 | 109 | 0 | n=int(input())
s=input()
for i in range(n) :
if s[i]=="*" :
for j in range(1,50) :
if i+j*4<n :
if s[i]==s[i+j]==s[i+2*j]==s[i+3*j]==s[i+4*j] :
print("yes")
exit()
print("no")
| Title: King of Thieves
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
In this problem you will meet the simplified model of game King of Thieves.
In a new ZeptoLab game called "King of Thieves" your aim is to reach a chest with gold by controlling your character, avoiding traps and obsta... | ```python
n=int(input())
s=input()
for i in range(n) :
if s[i]=="*" :
for j in range(1,50) :
if i+j*4<n :
if s[i]==s[i+j]==s[i+2*j]==s[i+3*j]==s[i+4*j] :
print("yes")
exit()
print("no")
`... | 3 | |
868 | A | Bark to Unlock | PROGRAMMING | 900 | [
"brute force",
"implementation",
"strings"
] | null | null | As technologies develop, manufacturers are making the process of unlocking a phone as user-friendly as possible. To unlock its new phone, Arkady's pet dog Mu-mu has to bark the password once. The phone represents a password as a string of two lowercase English letters.
Mu-mu's enemy Kashtanka wants to unlock Mu-mu's p... | The first line contains two lowercase English letters — the password on the phone.
The second line contains single integer *n* (1<=≤<=*n*<=≤<=100) — the number of words Kashtanka knows.
The next *n* lines contain two lowercase English letters each, representing the words Kashtanka knows. The words are guaranteed to b... | Print "YES" if Kashtanka can bark several words in a line forming a string containing the password, and "NO" otherwise.
You can print each letter in arbitrary case (upper or lower). | [
"ya\n4\nah\noy\nto\nha\n",
"hp\n2\nht\ntp\n",
"ah\n1\nha\n"
] | [
"YES\n",
"NO\n",
"YES\n"
] | In the first example the password is "ya", and Kashtanka can bark "oy" and then "ah", and then "ha" to form the string "oyahha" which contains the password. So, the answer is "YES".
In the second example Kashtanka can't produce a string containing password as a substring. Note that it can bark "ht" and then "tp" produ... | 250 | [
{
"input": "ya\n4\nah\noy\nto\nha",
"output": "YES"
},
{
"input": "hp\n2\nht\ntp",
"output": "NO"
},
{
"input": "ah\n1\nha",
"output": "YES"
},
{
"input": "bb\n4\nba\nab\naa\nbb",
"output": "YES"
},
{
"input": "bc\n4\nca\nba\nbb\ncc",
"output": "YES"
},
{
... | 1,683,267,222 | 2,147,483,647 | Python 3 | RUNTIME_ERROR | TESTS | 0 | 15 | 0 | import sys
def main():
passw, n = input().split()
n = int(n)
if n == 1:
s = input().strip()
if passw == s or passw == s[::-1]:
print("YES")
else:
print("NO")
return
okf, okl = False, False
flag = False
for i in range(n)... | Title: Bark to Unlock
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
As technologies develop, manufacturers are making the process of unlocking a phone as user-friendly as possible. To unlock its new phone, Arkady's pet dog Mu-mu has to bark the password once. The phone represents a passw... | ```python
import sys
def main():
passw, n = input().split()
n = int(n)
if n == 1:
s = input().strip()
if passw == s or passw == s[::-1]:
print("YES")
else:
print("NO")
return
okf, okl = False, False
flag = False
for i i... | -1 | |
361 | A | Levko and Table | PROGRAMMING | 800 | [
"constructive algorithms",
"implementation"
] | null | null | Levko loves tables that consist of *n* rows and *n* columns very much. He especially loves beautiful tables. A table is beautiful to Levko if the sum of elements in each row and column of the table equals *k*.
Unfortunately, he doesn't know any such table. Your task is to help him to find at least one of them. | The single line contains two integers, *n* and *k* (1<=≤<=*n*<=≤<=100, 1<=≤<=*k*<=≤<=1000). | Print any beautiful table. Levko doesn't like too big numbers, so all elements of the table mustn't exceed 1000 in their absolute value.
If there are multiple suitable tables, you are allowed to print any of them. | [
"2 4\n",
"4 7\n"
] | [
"1 3\n3 1\n",
"2 1 0 4\n4 0 2 1\n1 3 3 0\n0 3 2 2\n"
] | In the first sample the sum in the first row is 1 + 3 = 4, in the second row — 3 + 1 = 4, in the first column — 1 + 3 = 4 and in the second column — 3 + 1 = 4. There are other beautiful tables for this sample.
In the second sample the sum of elements in each row and each column equals 7. Besides, there are other table... | 500 | [
{
"input": "2 4",
"output": "4 0 \n0 4 "
},
{
"input": "4 7",
"output": "7 0 0 0 \n0 7 0 0 \n0 0 7 0 \n0 0 0 7 "
},
{
"input": "1 8",
"output": "8 "
},
{
"input": "9 3",
"output": "3 0 0 0 0 0 0 0 0 \n0 3 0 0 0 0 0 0 0 \n0 0 3 0 0 0 0 0 0 \n0 0 0 3 0 0 0 0 0 \n0 0 0 0 3 0... | 1,632,333,102 | 2,147,483,647 | Python 3 | OK | TESTS | 22 | 62 | 7,065,600 | el = input("")
arr = el.split(" ")
for i in range(0, len(arr)):
arr[i] = int(arr[i])
n = arr[0]
numArr=[]
temp = 0
number = arr[1]
numArr.append(number)
for i in range(0,n-1):
numArr.append(0)
for j in range(0,len(numArr)):
print(numArr[j], end=' ')
for i in range(0,len(numArr)-1):
temp = numArr... | Title: Levko and Table
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Levko loves tables that consist of *n* rows and *n* columns very much. He especially loves beautiful tables. A table is beautiful to Levko if the sum of elements in each row and column of the table equals *k*.
Unfortun... | ```python
el = input("")
arr = el.split(" ")
for i in range(0, len(arr)):
arr[i] = int(arr[i])
n = arr[0]
numArr=[]
temp = 0
number = arr[1]
numArr.append(number)
for i in range(0,n-1):
numArr.append(0)
for j in range(0,len(numArr)):
print(numArr[j], end=' ')
for i in range(0,len(numArr)-1):
tem... | 3 | |
416 | A | Guess a number! | PROGRAMMING | 1,400 | [
"greedy",
"implementation",
"two pointers"
] | null | null | A TV show called "Guess a number!" is gathering popularity. The whole Berland, the old and the young, are watching the show.
The rules are simple. The host thinks of an integer *y* and the participants guess it by asking questions to the host. There are four types of acceptable questions:
- Is it true that *y* is st... | The first line of the input contains a single integer *n* (1<=≤<=*n*<=≤<=10000) — the number of questions (and answers). Next *n* lines each contain one question and one answer to it. The format of each line is like that: "sign x answer", where the sign is:
- ">" (for the first type queries), - "<" (for the se... | Print any of such integers *y*, that the answers to all the queries are correct. The printed number *y* must meet the inequation <=-<=2·109<=≤<=*y*<=≤<=2·109. If there are many answers, print any of them. If such value doesn't exist, print word "Impossible" (without the quotes). | [
"4\n>= 1 Y\n< 3 N\n<= -3 N\n> 55 N\n",
"2\n> 100 Y\n< -100 Y\n"
] | [
"17\n",
"Impossible\n"
] | none | 500 | [
{
"input": "4\n>= 1 Y\n< 3 N\n<= -3 N\n> 55 N",
"output": "17"
},
{
"input": "2\n> 100 Y\n< -100 Y",
"output": "Impossible"
},
{
"input": "4\n< 1 N\n> 1 N\n> 1 N\n> 1 N",
"output": "1"
},
{
"input": "4\n<= 1 Y\n>= 1 Y\n>= 1 Y\n<= 1 Y",
"output": "1"
},
{
"input": ... | 1,559,677,648 | 2,147,483,647 | PyPy 3 | OK | TESTS | 66 | 234 | 3,174,400 | left, right = -2000000000, 2000000000
for _ in range(int(input())):
guess, x, answer = input().split()
x = int(x)
if answer == 'N':
guess = {'>': '<=', '<': '>=', '<=': '>', '>=': '<'}[guess]
if guess == '>':
if right <= x:
print('Impossible')
break... | Title: Guess a number!
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A TV show called "Guess a number!" is gathering popularity. The whole Berland, the old and the young, are watching the show.
The rules are simple. The host thinks of an integer *y* and the participants guess it by aski... | ```python
left, right = -2000000000, 2000000000
for _ in range(int(input())):
guess, x, answer = input().split()
x = int(x)
if answer == 'N':
guess = {'>': '<=', '<': '>=', '<=': '>', '>=': '<'}[guess]
if guess == '>':
if right <= x:
print('Impossible')
... | 3 | |
670 | B | Game of Robots | PROGRAMMING | 1,000 | [
"implementation"
] | null | null | In late autumn evening *n* robots gathered in the cheerful company of friends. Each robot has a unique identifier — an integer from 1 to 109.
At some moment, robots decided to play the game "Snowball". Below there are the rules of this game. First, all robots stand in a row. Then the first robot says his identifier. A... | The first line contains two positive integers *n* and *k* (1<=≤<=*n*<=≤<=100<=000, 1<=≤<=*k*<=≤<=*min*(2·109,<=*n*·(*n*<=+<=1)<=/<=2).
The second line contains the sequence *id*1,<=*id*2,<=...,<=*id**n* (1<=≤<=*id**i*<=≤<=109) — identifiers of roborts. It is guaranteed that all identifiers are different. | Print the *k*-th pronounced identifier (assume that the numeration starts from 1). | [
"2 2\n1 2\n",
"4 5\n10 4 18 3\n"
] | [
"1\n",
"4\n"
] | In the first sample identifiers of robots will be pronounced in the following order: 1, 1, 2. As *k* = 2, the answer equals to 1.
In the second test case identifiers of robots will be pronounced in the following order: 10, 10, 4, 10, 4, 18, 10, 4, 18, 3. As *k* = 5, the answer equals to 4. | 750 | [
{
"input": "2 2\n1 2",
"output": "1"
},
{
"input": "4 5\n10 4 18 3",
"output": "4"
},
{
"input": "1 1\n4",
"output": "4"
},
{
"input": "2 1\n5 1",
"output": "5"
},
{
"input": "2 2\n1 4",
"output": "1"
},
{
"input": "2 3\n6 7",
"output": "7"
},
... | 1,690,492,453 | 2,147,483,647 | Python 3 | MEMORY_LIMIT_EXCEEDED | TESTS | 12 | 764 | 268,390,400 | listaIndent = []
listaAux = []
qntRobos = input().split()
indentRobos = input().split()
for i in indentRobos:
listaAux.append(i)
listaIndent += listaAux
print(listaIndent[int(qntRobos[1])-1])
| Title: Game of Robots
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
In late autumn evening *n* robots gathered in the cheerful company of friends. Each robot has a unique identifier — an integer from 1 to 109.
At some moment, robots decided to play the game "Snowball". Below there are t... | ```python
listaIndent = []
listaAux = []
qntRobos = input().split()
indentRobos = input().split()
for i in indentRobos:
listaAux.append(i)
listaIndent += listaAux
print(listaIndent[int(qntRobos[1])-1])
``` | 0 | |
148 | A | Insomnia cure | PROGRAMMING | 800 | [
"constructive algorithms",
"implementation",
"math"
] | null | null | «One dragon. Two dragon. Three dragon», — the princess was counting. She had trouble falling asleep, and she got bored of counting lambs when she was nine.
However, just counting dragons was boring as well, so she entertained herself at best she could. Tonight she imagined that all dragons were here to steal her, and ... | Input data contains integer numbers *k*,<=*l*,<=*m*,<=*n* and *d*, each number in a separate line (1<=≤<=*k*,<=*l*,<=*m*,<=*n*<=≤<=10, 1<=≤<=*d*<=≤<=105). | Output the number of damaged dragons. | [
"1\n2\n3\n4\n12\n",
"2\n3\n4\n5\n24\n"
] | [
"12\n",
"17\n"
] | In the first case every first dragon got punched with a frying pan. Some of the dragons suffered from other reasons as well, but the pan alone would be enough.
In the second case dragons 1, 7, 11, 13, 17, 19 and 23 escaped unharmed. | 1,000 | [
{
"input": "1\n2\n3\n4\n12",
"output": "12"
},
{
"input": "2\n3\n4\n5\n24",
"output": "17"
},
{
"input": "1\n1\n1\n1\n100000",
"output": "100000"
},
{
"input": "10\n9\n8\n7\n6",
"output": "0"
},
{
"input": "8\n4\n4\n3\n65437",
"output": "32718"
},
{
"i... | 1,691,514,385 | 2,147,483,647 | Python 3 | OK | TESTS | 40 | 124 | 0 | def insomnia(k, l, m, n, d):
sol = int()
for item in range (1, d+1):
if item%k != 0 and item%l != 0 and item%m != 0 and item%n != 0:
sol += 1
return d-sol
if __name__ == "__main__":
k = int(input())
l = int(input())
m = int(input())
n = int(input())
d = i... | Title: Insomnia cure
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
«One dragon. Two dragon. Three dragon», — the princess was counting. She had trouble falling asleep, and she got bored of counting lambs when she was nine.
However, just counting dragons was boring as well, so she entert... | ```python
def insomnia(k, l, m, n, d):
sol = int()
for item in range (1, d+1):
if item%k != 0 and item%l != 0 and item%m != 0 and item%n != 0:
sol += 1
return d-sol
if __name__ == "__main__":
k = int(input())
l = int(input())
m = int(input())
n = int(input())
... | 3 | |
863 | E | Turn Off The TV | PROGRAMMING | 2,000 | [
"data structures",
"sortings"
] | null | null | Luba needs your help again! Luba has *n* TV sets. She knows that *i*-th TV set will be working from moment of time *l**i* till moment *r**i*, inclusive.
Luba wants to switch off one of TV sets in order to free the socket. Let's call some TV set redundant if after switching it off the number of integer moments of time ... | The first line contains one integer number *n* (1<=≤<=*n*<=≤<=2·105) — the number of TV sets.
Then *n* lines follow, each of them containing two integer numbers *l**i*,<=*r**i* (0<=≤<=*l**i*<=≤<=*r**i*<=≤<=109) denoting the working time of *i*-th TV set. | If there is no any redundant TV set, print -1. Otherwise print the index of any redundant TV set (TV sets are indexed from 1 to *n*).
If there are multiple answers, print any of them. | [
"3\n1 3\n4 6\n1 7\n",
"2\n0 10\n0 10\n",
"3\n1 2\n3 4\n6 8\n",
"3\n1 2\n2 3\n3 4\n"
] | [
"1\n",
"1\n",
"-1\n",
"2\n"
] | Consider the first sample. Initially all integer moments of time such that at least one TV set is working are from the segment [1;7]. It's easy to see that this segment won't change if we switch off the first TV set (or the second one).
Note that in the fourth sample you can switch off the second TV set, since even wi... | 0 | [
{
"input": "3\n1 3\n4 6\n1 7",
"output": "1"
},
{
"input": "2\n0 10\n0 10",
"output": "1"
},
{
"input": "3\n1 2\n3 4\n6 8",
"output": "-1"
},
{
"input": "3\n1 2\n2 3\n3 4",
"output": "2"
},
{
"input": "3\n0 500000000\n500000001 1000000000\n0 1000000000",
"outp... | 1,506,779,221 | 2,147,483,647 | Python 3 | COMPILATION_ERROR | TESTS | 0 | 0 | 0 | n = int(raw_input())
a = [(-1,-1,0)]
for i in xrange(n):
tl,tr = (map(int, raw_input().split()))
a.append((tl,tr,i+1))
a.append((1000000001,1000000001,n+1))
a.sort()
for i in xrange(1,n+1):
t = a[i]
tp = a[i-1]
tn = a[i+1]
if (t[1]<=tp[1]) or (t[0]>=tn[0] and t[1]<=tn[1]) or (tp[1]+1>... | Title: Turn Off The TV
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Luba needs your help again! Luba has *n* TV sets. She knows that *i*-th TV set will be working from moment of time *l**i* till moment *r**i*, inclusive.
Luba wants to switch off one of TV sets in order to free the sock... | ```python
n = int(raw_input())
a = [(-1,-1,0)]
for i in xrange(n):
tl,tr = (map(int, raw_input().split()))
a.append((tl,tr,i+1))
a.append((1000000001,1000000001,n+1))
a.sort()
for i in xrange(1,n+1):
t = a[i]
tp = a[i-1]
tn = a[i+1]
if (t[1]<=tp[1]) or (t[0]>=tn[0] and t[1]<=tn[1]) or... | -1 | |
5 | A | Chat Servers Outgoing Traffic | PROGRAMMING | 1,000 | [
"implementation"
] | A. Chat Server's Outgoing Traffic | 1 | 64 | Polycarp is working on a new project called "Polychat". Following modern tendencies in IT, he decided, that this project should contain chat as well. To achieve this goal, Polycarp has spent several hours in front of his laptop and implemented a chat server that can process three types of commands:
- Include a person... | Input file will contain not more than 100 commands, each in its own line. No line will exceed 100 characters. Formats of the commands will be the following:
- +<name> for 'Add' command. - -<name> for 'Remove' command. - <sender_name>:<message_text> for 'Send' command.
<name> and <s... | Print a single number — answer to the problem. | [
"+Mike\nMike:hello\n+Kate\n+Dmitry\n-Dmitry\nKate:hi\n-Kate\n",
"+Mike\n-Mike\n+Mike\nMike:Hi I am here\n-Mike\n+Kate\n-Kate\n"
] | [
"9\n",
"14\n"
] | none | 0 | [
{
"input": "+Mike\nMike:hello\n+Kate\n+Dmitry\n-Dmitry\nKate:hi\n-Kate",
"output": "9"
},
{
"input": "+Mike\n-Mike\n+Mike\nMike:Hi I am here\n-Mike\n+Kate\n-Kate",
"output": "14"
},
{
"input": "+Dmitry\n+Mike\nDmitry:All letters will be used\nDmitry:qwertyuiopasdfghjklzxcvbnm QWERTYUIO... | 1,662,685,719 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 30 | 154 | 614,400 | import fileinput
res = 0
cnt = 0
for s in fileinput.input():
if(s[0] == '+'):
cnt += 1
continue
if(s[0] == '-'):
cnt -= 1
continue
n, m = s.split(':')
m, *q = m.split('\n')
#print(len(m), m)
res += len(m) * cnt
print(res) | Title: Chat Servers Outgoing Traffic
Time Limit: 1 seconds
Memory Limit: 64 megabytes
Problem Description:
Polycarp is working on a new project called "Polychat". Following modern tendencies in IT, he decided, that this project should contain chat as well. To achieve this goal, Polycarp has spent several hours in fr... | ```python
import fileinput
res = 0
cnt = 0
for s in fileinput.input():
if(s[0] == '+'):
cnt += 1
continue
if(s[0] == '-'):
cnt -= 1
continue
n, m = s.split(':')
m, *q = m.split('\n')
#print(len(m), m)
res += len(m) * cnt
print(res... | 3.918422 |
669 | A | Little Artem and Presents | PROGRAMMING | 800 | [
"math"
] | null | null | Little Artem got *n* stones on his birthday and now wants to give some of them to Masha. He knows that Masha cares more about the fact of receiving the present, rather than the value of that present, so he wants to give her stones as many times as possible. However, Masha remembers the last present she received, so Art... | The only line of the input contains a single integer *n* (1<=≤<=*n*<=≤<=109) — number of stones Artem received on his birthday. | Print the maximum possible number of times Artem can give presents to Masha. | [
"1\n",
"2\n",
"3\n",
"4\n"
] | [
"1\n",
"1\n",
"2\n",
"3\n"
] | In the first sample, Artem can only give 1 stone to Masha.
In the second sample, Atrem can give Masha 1 or 2 stones, though he can't give her 1 stone two times.
In the third sample, Atrem can first give Masha 2 stones, a then 1 more stone.
In the fourth sample, Atrem can first give Masha 1 stone, then 2 stones, and ... | 500 | [
{
"input": "1",
"output": "1"
},
{
"input": "2",
"output": "1"
},
{
"input": "3",
"output": "2"
},
{
"input": "4",
"output": "3"
},
{
"input": "100",
"output": "67"
},
{
"input": "101",
"output": "67"
},
{
"input": "102",
"output": "68"... | 1,462,176,410 | 2,147,483,647 | Python 3 | OK | TESTS | 26 | 62 | 4,915,200 | n = int(input())
print(int(n / 3) * 2 + (1 if n % 3 else 0)) | Title: Little Artem and Presents
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Little Artem got *n* stones on his birthday and now wants to give some of them to Masha. He knows that Masha cares more about the fact of receiving the present, rather than the value of that present, so he wan... | ```python
n = int(input())
print(int(n / 3) * 2 + (1 if n % 3 else 0))
``` | 3 | |
849 | A | Odds and Ends | PROGRAMMING | 1,000 | [
"implementation"
] | null | null | Where do odds begin, and where do they end? Where does hope emerge, and will they ever break?
Given an integer sequence *a*1,<=*a*2,<=...,<=*a**n* of length *n*. Decide whether it is possible to divide it into an odd number of non-empty subsegments, the each of which has an odd length and begins and ends with odd numb... | The first line of input contains a non-negative integer *n* (1<=≤<=*n*<=≤<=100) — the length of the sequence.
The second line contains *n* space-separated non-negative integers *a*1,<=*a*2,<=...,<=*a**n* (0<=≤<=*a**i*<=≤<=100) — the elements of the sequence. | Output "Yes" if it's possible to fulfill the requirements, and "No" otherwise.
You can output each letter in any case (upper or lower). | [
"3\n1 3 5\n",
"5\n1 0 1 5 1\n",
"3\n4 3 1\n",
"4\n3 9 9 3\n"
] | [
"Yes\n",
"Yes\n",
"No\n",
"No\n"
] | In the first example, divide the sequence into 1 subsegment: {1, 3, 5} and the requirements will be met.
In the second example, divide the sequence into 3 subsegments: {1, 0, 1}, {5}, {1}.
In the third example, one of the subsegments must start with 4 which is an even number, thus the requirements cannot be met.
In ... | 500 | [
{
"input": "3\n1 3 5",
"output": "Yes"
},
{
"input": "5\n1 0 1 5 1",
"output": "Yes"
},
{
"input": "3\n4 3 1",
"output": "No"
},
{
"input": "4\n3 9 9 3",
"output": "No"
},
{
"input": "1\n1",
"output": "Yes"
},
{
"input": "5\n100 99 100 99 99",
"out... | 1,504,274,596 | 1,696 | Python 3 | WRONG_ANSWER | PRETESTS | 0 | 31 | 0 | __author__ = 'Alexander'
def Task(inp1, inp2):
n = int(inp1)
elems = [int(elem) for elem in inp2.split()]
res = 'No'
leng = 0
count = 0
for i in range(n-1):
# leng = i - leng
if (elems[i]*elems[i+1]) % 2 == 1 and (i-leng) % 2 == 0:
leng = i-leng+1
... | Title: Odds and Ends
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Where do odds begin, and where do they end? Where does hope emerge, and will they ever break?
Given an integer sequence *a*1,<=*a*2,<=...,<=*a**n* of length *n*. Decide whether it is possible to divide it into an odd num... | ```python
__author__ = 'Alexander'
def Task(inp1, inp2):
n = int(inp1)
elems = [int(elem) for elem in inp2.split()]
res = 'No'
leng = 0
count = 0
for i in range(n-1):
# leng = i - leng
if (elems[i]*elems[i+1]) % 2 == 1 and (i-leng) % 2 == 0:
leng = i-leng+... | 0 | |
219 | A | k-String | PROGRAMMING | 1,000 | [
"implementation",
"strings"
] | null | null | A string is called a *k*-string if it can be represented as *k* concatenated copies of some string. For example, the string "aabaabaabaab" is at the same time a 1-string, a 2-string and a 4-string, but it is not a 3-string, a 5-string, or a 6-string and so on. Obviously any string is a 1-string.
You are given a string... | The first input line contains integer *k* (1<=≤<=*k*<=≤<=1000). The second line contains *s*, all characters in *s* are lowercase English letters. The string length *s* satisfies the inequality 1<=≤<=|*s*|<=≤<=1000, where |*s*| is the length of string *s*. | Rearrange the letters in string *s* in such a way that the result is a *k*-string. Print the result on a single output line. If there are multiple solutions, print any of them.
If the solution doesn't exist, print "-1" (without quotes). | [
"2\naazz\n",
"3\nabcabcabz\n"
] | [
"azaz\n",
"-1\n"
] | none | 500 | [
{
"input": "2\naazz",
"output": "azaz"
},
{
"input": "3\nabcabcabz",
"output": "-1"
},
{
"input": "1\na",
"output": "a"
},
{
"input": "2\nabba",
"output": "abab"
},
{
"input": "2\naaab",
"output": "-1"
},
{
"input": "7\nabacaba",
"output": "-1"
}... | 1,643,044,910 | 2,147,483,647 | PyPy 3 | WRONG_ANSWER | TESTS | 10 | 154 | 0 | n = int(input())
s = input()
d = dict()
for i in s:
if(i in d):
d[i]+=1
else:
d[i]=1
possible = True
for i in d:
if(d[i]%n!=0):
possible = False
if(not possible):
print(-1)
else:
base = ""
for i in d:
prop = int((d[i]/len(s))*(len(s)/n))
... | Title: k-String
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A string is called a *k*-string if it can be represented as *k* concatenated copies of some string. For example, the string "aabaabaabaab" is at the same time a 1-string, a 2-string and a 4-string, but it is not a 3-string, a ... | ```python
n = int(input())
s = input()
d = dict()
for i in s:
if(i in d):
d[i]+=1
else:
d[i]=1
possible = True
for i in d:
if(d[i]%n!=0):
possible = False
if(not possible):
print(-1)
else:
base = ""
for i in d:
prop = int((d[i]/len(s))*(len(s)/n))... | 0 | |
102 | B | Sum of Digits | PROGRAMMING | 1,000 | [
"implementation"
] | B. Sum of Digits | 2 | 265 | Having watched the last Harry Potter film, little Gerald also decided to practice magic. He found in his father's magical book a spell that turns any number in the sum of its digits. At the moment Gerald learned that, he came across a number *n*. How many times can Gerald put a spell on it until the number becomes one-... | The first line contains the only integer *n* (0<=≤<=*n*<=≤<=10100000). It is guaranteed that *n* doesn't contain any leading zeroes. | Print the number of times a number can be replaced by the sum of its digits until it only contains one digit. | [
"0\n",
"10\n",
"991\n"
] | [
"0\n",
"1\n",
"3\n"
] | In the first sample the number already is one-digit — Herald can't cast a spell.
The second test contains number 10. After one casting of a spell it becomes 1, and here the process is completed. Thus, Gerald can only cast the spell once.
The third test contains number 991. As one casts a spell the following transform... | 1,000 | [
{
"input": "0",
"output": "0"
},
{
"input": "10",
"output": "1"
},
{
"input": "991",
"output": "3"
},
{
"input": "99",
"output": "2"
},
{
"input": "100",
"output": "1"
},
{
"input": "123456789",
"output": "2"
},
{
"input": "32",
"output... | 1,648,324,950 | 2,147,483,647 | Python 3 | COMPILATION_ERROR | TESTS | 0 | 0 | 0 | a=[int(i) for i in input()]
c=0
while len(a)>1:
x=str(sum(a))
y=[int(i) for in x]
c+=1
print(c)
| Title: Sum of Digits
Time Limit: 2 seconds
Memory Limit: 265 megabytes
Problem Description:
Having watched the last Harry Potter film, little Gerald also decided to practice magic. He found in his father's magical book a spell that turns any number in the sum of its digits. At the moment Gerald learned that, he came... | ```python
a=[int(i) for i in input()]
c=0
while len(a)>1:
x=str(sum(a))
y=[int(i) for in x]
c+=1
print(c)
``` | -1 |
659 | C | Tanya and Toys | PROGRAMMING | 1,200 | [
"greedy",
"implementation"
] | null | null | In Berland recently a new collection of toys went on sale. This collection consists of 109 types of toys, numbered with integers from 1 to 109. A toy from the new collection of the *i*-th type costs *i* bourles.
Tania has managed to collect *n* different types of toys *a*1,<=*a*2,<=...,<=*a**n* from the new collection... | The first line contains two integers *n* (1<=≤<=*n*<=≤<=100<=000) and *m* (1<=≤<=*m*<=≤<=109) — the number of types of toys that Tanya already has and the number of bourles that her mom is willing to spend on buying new toys.
The next line contains *n* distinct integers *a*1,<=*a*2,<=...,<=*a**n* (1<=≤<=*a**i*<=≤<=109... | In the first line print a single integer *k* — the number of different types of toys that Tanya should choose so that the number of different types of toys in her collection is maximum possible. Of course, the total cost of the selected toys should not exceed *m*.
In the second line print *k* distinct space-separated ... | [
"3 7\n1 3 4\n",
"4 14\n4 6 12 8\n"
] | [
"2\n2 5 \n",
"4\n7 2 3 1\n"
] | In the first sample mom should buy two toys: one toy of the 2-nd type and one toy of the 5-th type. At any other purchase for 7 bourles (assuming that the toys of types 1, 3 and 4 have already been bought), it is impossible to buy two and more toys. | 1,000 | [
{
"input": "3 7\n1 3 4",
"output": "2\n2 5 "
},
{
"input": "4 14\n4 6 12 8",
"output": "4\n1 2 3 5 "
},
{
"input": "5 6\n97746 64770 31551 96547 65684",
"output": "3\n1 2 3 "
},
{
"input": "10 10\n94125 56116 29758 94024 29289 31663 99794 35076 25328 58656",
"output": "4\... | 1,499,596,312 | 2,147,483,647 | Python 3 | OK | TESTS | 61 | 187 | 14,950,400 | string = input()
numbers = string.split()
a = int(numbers[1])
string = input()
numbers = list(map(int, string.split()))
l = len(numbers)
numbers.sort()
toys = []
b = 0
c = 0
n = 0
while c < len(numbers):
b += 1
d = numbers[c]
if b < d:
n += b
if n > a:
n -= b
... | Title: Tanya and Toys
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
In Berland recently a new collection of toys went on sale. This collection consists of 109 types of toys, numbered with integers from 1 to 109. A toy from the new collection of the *i*-th type costs *i* bourles.
Tania h... | ```python
string = input()
numbers = string.split()
a = int(numbers[1])
string = input()
numbers = list(map(int, string.split()))
l = len(numbers)
numbers.sort()
toys = []
b = 0
c = 0
n = 0
while c < len(numbers):
b += 1
d = numbers[c]
if b < d:
n += b
if n > a:
... | 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.... | 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... | 1,675,917,098 | 2,147,483,647 | Python 3 | OK | TESTS | 40 | 92 | 0 | s=input()
t=input()
T=[]
n=len(t)
for i in range(n):
T.append(t[n-i-1])
t=''.join(T)
if t==s:
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 pron... | ```python
s=input()
t=input()
T=[]
n=len(t)
for i in range(n):
T.append(t[n-i-1])
t=''.join(T)
if t==s:
print('YES')
else:
print('NO')
``` | 3.977 |
787 | A | The Monster | PROGRAMMING | 1,200 | [
"brute force",
"math",
"number theory"
] | null | null | A monster is chasing after Rick and Morty on another planet. They're so frightened that sometimes they scream. More accurately, Rick screams at times *b*,<=*b*<=+<=*a*,<=*b*<=+<=2*a*,<=*b*<=+<=3*a*,<=... and Morty screams at times *d*,<=*d*<=+<=*c*,<=*d*<=+<=2*c*,<=*d*<=+<=3*c*,<=....
The Monster will catch them if a... | The first line of input contains two integers *a* and *b* (1<=≤<=*a*,<=*b*<=≤<=100).
The second line contains two integers *c* and *d* (1<=≤<=*c*,<=*d*<=≤<=100). | Print the first time Rick and Morty will scream at the same time, or <=-<=1 if they will never scream at the same time. | [
"20 2\n9 19\n",
"2 1\n16 12\n"
] | [
"82\n",
"-1\n"
] | In the first sample testcase, Rick's 5th scream and Morty's 8th time are at time 82.
In the second sample testcase, all Rick's screams will be at odd times and Morty's will be at even times, so they will never scream at the same time. | 500 | [
{
"input": "20 2\n9 19",
"output": "82"
},
{
"input": "2 1\n16 12",
"output": "-1"
},
{
"input": "39 52\n88 78",
"output": "1222"
},
{
"input": "59 96\n34 48",
"output": "1748"
},
{
"input": "87 37\n91 29",
"output": "211"
},
{
"input": "11 81\n49 7",
... | 1,587,463,827 | 927 | Python 3 | WRONG_ANSWER | TESTS | 2 | 93 | 0 | a,b=map(int,input().split())
c,d=map(int,input().split())
if (b-d)*(a-c)<=0:
if b-d==0:
print(b)
else:
k=abs(abs(b-d)-abs(a-c))-1
s=b+(k-1)*a
print(s)
else:
print(-1) | Title: The Monster
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A monster is chasing after Rick and Morty on another planet. They're so frightened that sometimes they scream. More accurately, Rick screams at times *b*,<=*b*<=+<=*a*,<=*b*<=+<=2*a*,<=*b*<=+<=3*a*,<=... and Morty screams a... | ```python
a,b=map(int,input().split())
c,d=map(int,input().split())
if (b-d)*(a-c)<=0:
if b-d==0:
print(b)
else:
k=abs(abs(b-d)-abs(a-c))-1
s=b+(k-1)*a
print(s)
else:
print(-1)
``` | 0 | |
633 | A | Ebony and Ivory | PROGRAMMING | 1,100 | [
"brute force",
"math",
"number theory"
] | null | null | Dante is engaged in a fight with "The Savior". Before he can fight it with his sword, he needs to break its shields. He has two guns, Ebony and Ivory, each of them is able to perform any non-negative number of shots.
For every bullet that hits the shield, Ebony deals *a* units of damage while Ivory deals *b* units of ... | The first line of the input contains three integers *a*, *b*, *c* (1<=≤<=*a*,<=*b*<=≤<=100,<=1<=≤<=*c*<=≤<=10<=000) — the number of units of damage dealt by Ebony gun and Ivory gun, and the total number of damage required to break the shield, respectively. | Print "Yes" (without quotes) if Dante can deal exactly *c* damage to the shield and "No" (without quotes) otherwise. | [
"4 6 15\n",
"3 2 7\n",
"6 11 6\n"
] | [
"No\n",
"Yes\n",
"Yes\n"
] | In the second sample, Dante can fire 1 bullet from Ebony and 2 from Ivory to deal exactly 1·3 + 2·2 = 7 damage. In the third sample, Dante can fire 1 bullet from ebony and no bullets from ivory to do 1·6 + 0·11 = 6 damage. | 250 | [
{
"input": "4 6 15",
"output": "No"
},
{
"input": "3 2 7",
"output": "Yes"
},
{
"input": "6 11 6",
"output": "Yes"
},
{
"input": "3 12 15",
"output": "Yes"
},
{
"input": "5 5 10",
"output": "Yes"
},
{
"input": "6 6 7",
"output": "No"
},
{
"... | 1,689,742,497 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 24 | 46 | 0 | a,b,c = map(int,input().split())
if c%a==0 or c%b==0:
print("Yes")
elif (c-a)%b==0 or (c-b)%a==0:
print("Yes")
else:
print("No")
| Title: Ebony and Ivory
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Dante is engaged in a fight with "The Savior". Before he can fight it with his sword, he needs to break its shields. He has two guns, Ebony and Ivory, each of them is able to perform any non-negative number of shots.
F... | ```python
a,b,c = map(int,input().split())
if c%a==0 or c%b==0:
print("Yes")
elif (c-a)%b==0 or (c-b)%a==0:
print("Yes")
else:
print("No")
``` | 0 | |
710 | E | Generate a String | PROGRAMMING | 2,000 | [
"dfs and similar",
"dp"
] | null | null | zscoder wants to generate an input file for some programming competition problem.
His input is a string consisting of *n* letters 'a'. He is too lazy to write a generator so he will manually generate the input in a text editor.
Initially, the text editor is empty. It takes him *x* seconds to insert or delete a letter... | The only line contains three integers *n*, *x* and *y* (1<=≤<=*n*<=≤<=107, 1<=≤<=*x*,<=*y*<=≤<=109) — the number of letters 'a' in the input file and the parameters from the problem statement. | Print the only integer *t* — the minimum amount of time needed to generate the input file. | [
"8 1 1\n",
"8 1 10\n"
] | [
"4\n",
"8\n"
] | none | 0 | [
{
"input": "8 1 1",
"output": "4"
},
{
"input": "8 1 10",
"output": "8"
},
{
"input": "10 62 99",
"output": "384"
},
{
"input": "88 417 591",
"output": "4623"
},
{
"input": "57 5289 8444",
"output": "60221"
},
{
"input": "382 81437847 324871127",
"... | 1,666,327,463 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 31 | 218 | 162,099,200 | n,x,y=map(int,input().split())
m=2*10**7+100
dp=[1<<60]*m
dp[1]=x
dp[2]=min(2*x,x+y)
for i in range(2,m//2):
dp[2*i-1]=dp[2*i-2]+x
dp[2*i]=dp[2*i-1]+x
dp[2*i]=min(dp[2*i],dp[i]+y)
dp[2*i-1]=min(dp[2*i-1],dp[2*i]+x)
print(dp[n]) | Title: Generate a String
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
zscoder wants to generate an input file for some programming competition problem.
His input is a string consisting of *n* letters 'a'. He is too lazy to write a generator so he will manually generate the input in a t... | ```python
n,x,y=map(int,input().split())
m=2*10**7+100
dp=[1<<60]*m
dp[1]=x
dp[2]=min(2*x,x+y)
for i in range(2,m//2):
dp[2*i-1]=dp[2*i-2]+x
dp[2*i]=dp[2*i-1]+x
dp[2*i]=min(dp[2*i],dp[i]+y)
dp[2*i-1]=min(dp[2*i-1],dp[2*i]+x)
print(dp[n])
``` | 3 | |
264 | A | Escape from Stones | PROGRAMMING | 1,200 | [
"constructive algorithms",
"data structures",
"implementation",
"two pointers"
] | null | null | Squirrel Liss lived in a forest peacefully, but unexpected trouble happens. Stones fall from a mountain. Initially Squirrel Liss occupies an interval [0,<=1]. Next, *n* stones will fall and Liss will escape from the stones. The stones are numbered from 1 to *n* in order.
The stones always fall to the center of Liss's ... | The input consists of only one line. The only line contains the string *s* (1<=≤<=|*s*|<=≤<=106). Each character in *s* will be either "l" or "r". | Output *n* lines — on the *i*-th line you should print the *i*-th stone's number from the left. | [
"llrlr\n",
"rrlll\n",
"lrlrr\n"
] | [
"3\n5\n4\n2\n1\n",
"1\n2\n5\n4\n3\n",
"2\n4\n5\n3\n1\n"
] | In the first example, the positions of stones 1, 2, 3, 4, 5 will be <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/58fdb5684df807bfcb705a9da9ce175613362b7d.png" style="max-width: 100.0%;max-height: 100.0%;"/>, respectively. So you should print the sequence: 3, 5, 4, 2, 1. | 500 | [
{
"input": "llrlr",
"output": "3\n5\n4\n2\n1"
},
{
"input": "rrlll",
"output": "1\n2\n5\n4\n3"
},
{
"input": "lrlrr",
"output": "2\n4\n5\n3\n1"
},
{
"input": "lllrlrllrl",
"output": "4\n6\n9\n10\n8\n7\n5\n3\n2\n1"
},
{
"input": "llrlrrrlrr",
"output": "3\n5\n6... | 1,470,167,157 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 0 | 30 | 0 | from sys import stdin, stdout
s = stdin.readline()
n = len(s)
left = 0
right = n-1
vs = [0 for i in range(n)]
for i in range(n):
if(s[i] == 'l'):
vs[right] = i
right -= 1
else:
vs[left] = i
left += 1
for ele in vs:
stdout.write("{}\n".format(ele+1))
| Title: Escape from Stones
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Squirrel Liss lived in a forest peacefully, but unexpected trouble happens. Stones fall from a mountain. Initially Squirrel Liss occupies an interval [0,<=1]. Next, *n* stones will fall and Liss will escape from the ... | ```python
from sys import stdin, stdout
s = stdin.readline()
n = len(s)
left = 0
right = n-1
vs = [0 for i in range(n)]
for i in range(n):
if(s[i] == 'l'):
vs[right] = i
right -= 1
else:
vs[left] = i
left += 1
for ele in vs:
stdout.write("{}\n".format(ele+1))
``` | 0 | |
910 | A | The Way to Home | PROGRAMMING | 800 | [
"dfs and similar",
"dp",
"greedy",
"implementation"
] | null | null | A frog lives on the axis *Ox* and needs to reach home which is in the point *n*. She starts from the point 1. The frog can jump to the right at a distance not more than *d*. So, after she jumped from the point *x* she can reach the point *x*<=+<=*a*, where *a* is an integer from 1 to *d*.
For each point from 1 to *n* ... | The first line contains two integers *n* and *d* (2<=≤<=*n*<=≤<=100, 1<=≤<=*d*<=≤<=*n*<=-<=1) — the point, which the frog wants to reach, and the maximal length of the frog jump.
The second line contains a string *s* of length *n*, consisting of zeros and ones. If a character of the string *s* equals to zero, then in ... | If the frog can not reach the home, print -1.
In the other case, print the minimal number of jumps that the frog needs to reach the home which is in the point *n* from the point 1. | [
"8 4\n10010101\n",
"4 2\n1001\n",
"8 4\n11100101\n",
"12 3\n101111100101\n"
] | [
"2\n",
"-1\n",
"3\n",
"4\n"
] | In the first example the from can reach home in two jumps: the first jump from the point 1 to the point 4 (the length of the jump is three), and the second jump from the point 4 to the point 8 (the length of the jump is four).
In the second example the frog can not reach home, because to make it she need to jump on a ... | 500 | [
{
"input": "8 4\n10010101",
"output": "2"
},
{
"input": "4 2\n1001",
"output": "-1"
},
{
"input": "8 4\n11100101",
"output": "3"
},
{
"input": "12 3\n101111100101",
"output": "4"
},
{
"input": "5 4\n11011",
"output": "1"
},
{
"input": "5 4\n10001",
... | 1,556,313,693 | 2,147,483,647 | Python 3 | OK | TESTS | 63 | 124 | 0 | inp = input().split()
n, d = int(inp[0]), int(inp[1])
s = input()
b = True
pos = 0
cont = 0
while(b and pos < n-1):
pos+=d
if(pos < n-1):
if(s[pos]=='0'):
c = True
for i in range(pos, pos-d, -1):
if(s[i]=='1'):
pos = i
c = ... | Title: The Way to Home
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A frog lives on the axis *Ox* and needs to reach home which is in the point *n*. She starts from the point 1. The frog can jump to the right at a distance not more than *d*. So, after she jumped from the point *x* she c... | ```python
inp = input().split()
n, d = int(inp[0]), int(inp[1])
s = input()
b = True
pos = 0
cont = 0
while(b and pos < n-1):
pos+=d
if(pos < n-1):
if(s[pos]=='0'):
c = True
for i in range(pos, pos-d, -1):
if(s[i]=='1'):
pos = i
... | 3 | |
996 | A | Hit the Lottery | PROGRAMMING | 800 | [
"dp",
"greedy"
] | null | null | Allen has a LOT of money. He has $n$ dollars in the bank. For security reasons, he wants to withdraw it in cash (we will not disclose the reasons here). The denominations for dollar bills are $1$, $5$, $10$, $20$, $100$. What is the minimum number of bills Allen could receive after withdrawing his entire balance? | The first and only line of input contains a single integer $n$ ($1 \le n \le 10^9$). | Output the minimum number of bills that Allen could receive. | [
"125\n",
"43\n",
"1000000000\n"
] | [
"3\n",
"5\n",
"10000000\n"
] | In the first sample case, Allen can withdraw this with a $100$ dollar bill, a $20$ dollar bill, and a $5$ dollar bill. There is no way for Allen to receive $125$ dollars in one or two bills.
In the second sample case, Allen can withdraw two $20$ dollar bills and three $1$ dollar bills.
In the third sample case, Allen... | 500 | [
{
"input": "125",
"output": "3"
},
{
"input": "43",
"output": "5"
},
{
"input": "1000000000",
"output": "10000000"
},
{
"input": "4",
"output": "4"
},
{
"input": "5",
"output": "1"
},
{
"input": "1",
"output": "1"
},
{
"input": "74",
"o... | 1,686,736,675 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 2 | 1,000 | 0 | n = int(input())
a = 0
b = [100, 20, 10, 5, 1]
while n!=0:
for i in b:
while n>=i:
n-=i
a+=1
else:
print(a) | Title: Hit the Lottery
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Allen has a LOT of money. He has $n$ dollars in the bank. For security reasons, he wants to withdraw it in cash (we will not disclose the reasons here). The denominations for dollar bills are $1$, $5$, $10$, $20$, $100$... | ```python
n = int(input())
a = 0
b = [100, 20, 10, 5, 1]
while n!=0:
for i in b:
while n>=i:
n-=i
a+=1
else:
print(a)
``` | 0 | |
987 | B | High School: Become Human | PROGRAMMING | 1,100 | [
"math"
] | null | null | Year 2118. Androids are in mass production for decades now, and they do all the work for humans. But androids have to go to school to be able to solve creative tasks. Just like humans before.
It turns out that high school struggles are not gone. If someone is not like others, he is bullied. Vasya-8800 is an economy-cl... | On the only line of input there are two integers $x$ and $y$ ($1 \le x, y \le 10^{9}$). | If $x^y < y^x$, then print '<' (without quotes). If $x^y > y^x$, then print '>' (without quotes). If $x^y = y^x$, then print '=' (without quotes). | [
"5 8\n",
"10 3\n",
"6 6\n"
] | [
">\n",
"<\n",
"=\n"
] | In the first example $5^8 = 5 \cdot 5 \cdot 5 \cdot 5 \cdot 5 \cdot 5 \cdot 5 \cdot 5 = 390625$, and $8^5 = 8 \cdot 8 \cdot 8 \cdot 8 \cdot 8 = 32768$. So you should print '>'.
In the second example $10^3 = 1000 < 3^{10} = 59049$.
In the third example $6^6 = 46656 = 6^6$. | 1,000 | [
{
"input": "5 8",
"output": ">"
},
{
"input": "10 3",
"output": "<"
},
{
"input": "6 6",
"output": "="
},
{
"input": "14 1",
"output": ">"
},
{
"input": "2 4",
"output": "="
},
{
"input": "987654321 123456987",
"output": "<"
},
{
"input": "... | 1,643,257,816 | 2,147,483,647 | PyPy 3 | OK | TESTS | 48 | 93 | 0 | import math
x, y = map(int, input().split())
a = math.log(x)/x
b = math.log(y)/y
if (a>b):
print('>')
elif(a<b):
print('<')
else:
print('=')
| Title: High School: Become Human
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Year 2118. Androids are in mass production for decades now, and they do all the work for humans. But androids have to go to school to be able to solve creative tasks. Just like humans before.
It turns out tha... | ```python
import math
x, y = map(int, input().split())
a = math.log(x)/x
b = math.log(y)/y
if (a>b):
print('>')
elif(a<b):
print('<')
else:
print('=')
``` | 3 | |
958 | C1 | Encryption (easy) | PROGRAMMING | 1,200 | [
"brute force"
] | null | null | Rebel spy Heidi has just obtained the plans for the Death Star from the Empire and, now on her way to safety, she is trying to break the encryption of the plans (of course they are encrypted – the Empire may be evil, but it is not stupid!). The encryption has several levels of security, and here is how the first one lo... | The first line of the input contains two space-separated integer *N* and *p* (2<=≤<=*N*<=≤<=100<=000, 2<=≤<=*p*<=≤<=10<=000) – the number of elements in *A*, and the modulo for computing scores, respectively.
The second line contains *N* space-separated integers which are the elements of *A*. Each integer is from the ... | Output the number *S* as described in the problem statement. | [
"4 10\n3 4 7 2\n",
"10 12\n16 3 24 13 9 8 7 5 12 12\n"
] | [
"16\n",
"13\n"
] | In the first example, the score is maximized if the input sequence is split into two parts as (3, 4), (7, 2). It gives the total score of <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/fc1f9aecea625f3be9a56917d3ba448d669ff278.png" style="max-width: 100.0%;max-height: 100.0%;"/>.
In the se... | 0 | [
{
"input": "4 10\n3 4 7 2",
"output": "16"
},
{
"input": "10 12\n16 3 24 13 9 8 7 5 12 12",
"output": "13"
},
{
"input": "2 2\n9 9",
"output": "2"
},
{
"input": "2 2\n8 8",
"output": "0"
},
{
"input": "5 50\n1 1 1 1 1",
"output": "5"
},
{
"input": "5 5... | 1,547,456,512 | 2,147,483,647 | Python 3 | OK | TESTS | 27 | 233 | 7,680,000 | n, P = map(int, input().split())
a = list(map(lambda x: int(x) % P, input().split()))
pre = a[0]
suf = sum(a[1:]) % P
num = pre + suf
for i in range(1, n - 1):
pre += a[i]
pre %= P
suf -= a[i]
if suf < 0:
suf += P
num = max(num, pre + suf)
print(num) | Title: Encryption (easy)
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Rebel spy Heidi has just obtained the plans for the Death Star from the Empire and, now on her way to safety, she is trying to break the encryption of the plans (of course they are encrypted – the Empire may be evil, ... | ```python
n, P = map(int, input().split())
a = list(map(lambda x: int(x) % P, input().split()))
pre = a[0]
suf = sum(a[1:]) % P
num = pre + suf
for i in range(1, n - 1):
pre += a[i]
pre %= P
suf -= a[i]
if suf < 0:
suf += P
num = max(num, pre + suf)
print(num)
``` | 3 | |
483 | A | Counterexample | PROGRAMMING | 1,100 | [
"brute force",
"implementation",
"math",
"number theory"
] | null | null | Your friend has recently learned about coprime numbers. A pair of numbers {*a*,<=*b*} is called coprime if the maximum number that divides both *a* and *b* is equal to one.
Your friend often comes up with different statements. He has recently supposed that if the pair (*a*,<=*b*) is coprime and the pair (*b*,<=*c*) i... | The single line contains two positive space-separated integers *l*, *r* (1<=≤<=*l*<=≤<=*r*<=≤<=1018; *r*<=-<=*l*<=≤<=50). | Print three positive space-separated integers *a*, *b*, *c* — three distinct numbers (*a*,<=*b*,<=*c*) that form the counterexample. If there are several solutions, you are allowed to print any of them. The numbers must be printed in ascending order.
If the counterexample does not exist, print the single number -1. | [
"2 4\n",
"10 11\n",
"900000000000000009 900000000000000029\n"
] | [
"2 3 4\n",
"-1\n",
"900000000000000009 900000000000000010 900000000000000021\n"
] | In the first sample pair (2, 4) is not coprime and pairs (2, 3) and (3, 4) are.
In the second sample you cannot form a group of three distinct integers, so the answer is -1.
In the third sample it is easy to see that numbers 900000000000000009 and 900000000000000021 are divisible by three. | 500 | [
{
"input": "2 4",
"output": "2 3 4"
},
{
"input": "10 11",
"output": "-1"
},
{
"input": "900000000000000009 900000000000000029",
"output": "900000000000000009 900000000000000010 900000000000000021"
},
{
"input": "640097987171091791 640097987171091835",
"output": "64009798... | 1,652,540,520 | 2,147,483,647 | PyPy 3 | OK | TESTS | 42 | 93 | 0 | n, m = map(int, input().split())
if n % 2 != 0:
n += 1
if m - n < 2:
print(-1)
else:
print(n, " ", n + 1, " ", n + 2) | Title: Counterexample
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Your friend has recently learned about coprime numbers. A pair of numbers {*a*,<=*b*} is called coprime if the maximum number that divides both *a* and *b* is equal to one.
Your friend often comes up with different st... | ```python
n, m = map(int, input().split())
if n % 2 != 0:
n += 1
if m - n < 2:
print(-1)
else:
print(n, " ", n + 1, " ", n + 2)
``` | 3 | |
962 | B | Students in Railway Carriage | PROGRAMMING | 1,300 | [
"constructive algorithms",
"greedy",
"implementation"
] | null | null | There are $n$ consecutive seat places in a railway carriage. Each place is either empty or occupied by a passenger.
The university team for the Olympiad consists of $a$ student-programmers and $b$ student-athletes. Determine the largest number of students from all $a+b$ students, which you can put in the railway carri... | The first line contain three integers $n$, $a$ and $b$ ($1 \le n \le 2\cdot10^{5}$, $0 \le a, b \le 2\cdot10^{5}$, $a + b > 0$) — total number of seat places in the railway carriage, the number of student-programmers and the number of student-athletes.
The second line contains a string with length $n$, consisting o... | Print the largest number of students, which you can put in the railway carriage so that no student-programmer is sitting next to a student-programmer and no student-athlete is sitting next to a student-athlete. | [
"5 1 1\n*...*\n",
"6 2 3\n*...*.\n",
"11 3 10\n.*....**.*.\n",
"3 2 3\n***\n"
] | [
"2\n",
"4\n",
"7\n",
"0\n"
] | In the first example you can put all student, for example, in the following way: *.AB*
In the second example you can put four students, for example, in the following way: *BAB*B
In the third example you can put seven students, for example, in the following way: B*ABAB**A*B
The letter A means a student-programmer, an... | 0 | [
{
"input": "5 1 1\n*...*",
"output": "2"
},
{
"input": "6 2 3\n*...*.",
"output": "4"
},
{
"input": "11 3 10\n.*....**.*.",
"output": "7"
},
{
"input": "3 2 3\n***",
"output": "0"
},
{
"input": "9 5 3\n*...*...*",
"output": "6"
},
{
"input": "9 2 4\n*.... | 1,575,663,737 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 9 | 202 | 819,200 | while True:
try:
seats, prog, athl = map(int, input().split())
s = input()
seat, jury = 0, 0
mins, maxs, i = 0, 0, 0
pos = prog + athl
flg1 = False
while i < seats and pos> 0:
if flg1 == False and s[i] == '.':
pos -= 1
flg1 = True
elif flg1 == True and s[i] == '.':
pos -=... | Title: Students in Railway Carriage
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
There are $n$ consecutive seat places in a railway carriage. Each place is either empty or occupied by a passenger.
The university team for the Olympiad consists of $a$ student-programmers and $b$ student-... | ```python
while True:
try:
seats, prog, athl = map(int, input().split())
s = input()
seat, jury = 0, 0
mins, maxs, i = 0, 0, 0
pos = prog + athl
flg1 = False
while i < seats and pos> 0:
if flg1 == False and s[i] == '.':
pos -= 1
flg1 = True
elif flg1 == True and s[i] == '.':
... | 0 | |
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. E... | 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 di... | 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",
... | 1,555,688,310 | 2,147,483,647 | Python 3 | OK | TESTS | 34 | 218 | 0 | n = int(input())
ddict = {}
for i in range(n):
s = input()
try:
ddict[s]=ddict[s]+1
except:
ddict[s]=1
ans = max(ddict.values())
for i,j in zip(ddict.keys(),ddict.values()):
if (ans==j):
print(i)
break | 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... | ```python
n = int(input())
ddict = {}
for i in range(n):
s = input()
try:
ddict[s]=ddict[s]+1
except:
ddict[s]=1
ans = max(ddict.values())
for i,j in zip(ddict.keys(),ddict.values()):
if (ans==j):
print(i)
break
``` | 3.9455 |
688 | B | Lovely Palindromes | PROGRAMMING | 1,000 | [
"constructive algorithms",
"math"
] | null | null | Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not.
Pari is trying to love them too, but only very special and gifted people can understand the beauty behind palindro... | The only line of the input contains a single integer *n* (1<=≤<=*n*<=≤<=10100<=000). | Print the *n*-th even-length palindrome number. | [
"1\n",
"10\n"
] | [
"11\n",
"1001\n"
] | The first 10 even-length palindrome numbers are 11, 22, 33, ... , 88, 99 and 1001. | 1,000 | [
{
"input": "1",
"output": "11"
},
{
"input": "10",
"output": "1001"
},
{
"input": "11",
"output": "1111"
},
{
"input": "12",
"output": "1221"
},
{
"input": "100",
"output": "100001"
},
{
"input": "1321",
"output": "13211231"
},
{
"input": "... | 1,682,547,378 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 4 | 77 | 0 |
num = str(input())
sub = num
sub = sub[::-1]
if (len(num)%2 == 0) or (len(num) == 1):
print(num+sub)
else:
sub = sub[1:]
print(num+sub) | Title: Lovely Palindromes
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Pari has a friend who loves palindrome numbers. A palindrome number is a number that reads the same forward or backward. For example 12321, 100001 and 1 are palindrome numbers, while 112 and 1021 are not.
Pari is tr... | ```python
num = str(input())
sub = num
sub = sub[::-1]
if (len(num)%2 == 0) or (len(num) == 1):
print(num+sub)
else:
sub = sub[1:]
print(num+sub)
``` | 0 | |
393 | A | Nineteen | PROGRAMMING | 0 | [] | null | null | Alice likes word "nineteen" very much. She has a string *s* and wants the string to contain as many such words as possible. For that reason she can rearrange the letters of the string.
For example, if she has string "xiineteenppnnnewtnee", she can get string "xnineteenppnineteenw", containing (the occurrences marked) ... | The first line contains a non-empty string *s*, consisting only of lowercase English letters. The length of string *s* doesn't exceed 100. | Print a single integer — the maximum number of "nineteen"s that she can get in her string. | [
"nniinneetteeeenn\n",
"nneteenabcnneteenabcnneteenabcnneteenabcnneteenabcii\n",
"nineteenineteen\n"
] | [
"2",
"2",
"2"
] | none | 500 | [
{
"input": "nniinneetteeeenn",
"output": "2"
},
{
"input": "nneteenabcnneteenabcnneteenabcnneteenabcnneteenabcii",
"output": "2"
},
{
"input": "nineteenineteen",
"output": "2"
},
{
"input": "nssemsnnsitjtihtthij",
"output": "0"
},
{
"input": "eehihnttehtherjsihihn... | 1,587,578,798 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 2 | 93 | 307,200 | a = {'n':0,
't':0,
'i':0,
'e':0,
}
nineteen = {'n':3,
't':1,
'i':1,
'e':3,
}
a_keys = ['n','i','t','e']
strinput = input().lower()
for i in list(strinput):
if i in a_keys:
a[i]+=1
output = 0
end = False
while True:
for i in nineteen:
... | Title: Nineteen
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Alice likes word "nineteen" very much. She has a string *s* and wants the string to contain as many such words as possible. For that reason she can rearrange the letters of the string.
For example, if she has string "xiinetee... | ```python
a = {'n':0,
't':0,
'i':0,
'e':0,
}
nineteen = {'n':3,
't':1,
'i':1,
'e':3,
}
a_keys = ['n','i','t','e']
strinput = input().lower()
for i in list(strinput):
if i in a_keys:
a[i]+=1
output = 0
end = False
while True:
for i in ninet... | 0 | |
441 | A | Valera and Antique Items | PROGRAMMING | 1,000 | [
"implementation"
] | null | null | Valera is a collector. Once he wanted to expand his collection with exactly one antique item.
Valera knows *n* sellers of antiques, the *i*-th of them auctioned *k**i* items. Currently the auction price of the *j*-th object of the *i*-th seller is *s**ij*. Valera gets on well with each of the *n* sellers. He is perfec... | The first line contains two space-separated integers *n*,<=*v* (1<=≤<=*n*<=≤<=50; 104<=≤<=*v*<=≤<=106) — the number of sellers and the units of money the Valera has.
Then *n* lines follow. The *i*-th line first contains integer *k**i* (1<=≤<=*k**i*<=≤<=50) the number of items of the *i*-th seller. Then go *k**i* space... | In the first line, print integer *p* — the number of sellers with who Valera can make a deal.
In the second line print *p* space-separated integers *q*1,<=*q*2,<=...,<=*q**p* (1<=≤<=*q**i*<=≤<=*n*) — the numbers of the sellers with who Valera can make a deal. Print the numbers of the sellers in the increasing order. | [
"3 50000\n1 40000\n2 20000 60000\n3 10000 70000 190000\n",
"3 50000\n1 50000\n3 100000 120000 110000\n3 120000 110000 120000\n"
] | [
"3\n1 2 3\n",
"0\n\n"
] | In the first sample Valera can bargain with each of the sellers. He can outbid the following items: a 40000 item from the first seller, a 20000 item from the second seller, and a 10000 item from the third seller.
In the second sample Valera can not make a deal with any of the sellers, as the prices of all items in the... | 500 | [
{
"input": "3 50000\n1 40000\n2 20000 60000\n3 10000 70000 190000",
"output": "3\n1 2 3"
},
{
"input": "3 50000\n1 50000\n3 100000 120000 110000\n3 120000 110000 120000",
"output": "0"
},
{
"input": "2 100001\n1 895737\n1 541571",
"output": "0"
},
{
"input": "1 1000000\n1 100... | 1,574,954,939 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 2 | 109 | 0 | n,v = map(int,input().strip().split())
d = dict()
c = 0
sellers = [ [] , [] ]
for i in range(n):
arr = list(map(int,input().strip().split()))
k = arr[0]
s = arr[1:]
d[k] = s
for i in d:
if min(d[i]) < v :
sellers[0].append(i)
c += 1
sellers[1].append(c)
seller... | Title: Valera and Antique Items
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Valera is a collector. Once he wanted to expand his collection with exactly one antique item.
Valera knows *n* sellers of antiques, the *i*-th of them auctioned *k**i* items. Currently the auction price of the... | ```python
n,v = map(int,input().strip().split())
d = dict()
c = 0
sellers = [ [] , [] ]
for i in range(n):
arr = list(map(int,input().strip().split()))
k = arr[0]
s = arr[1:]
d[k] = s
for i in d:
if min(d[i]) < v :
sellers[0].append(i)
c += 1
sellers[1].append(... | 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 *a**i* 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 *p**i* dollars per kilogram. Malek knows all numbers ... | 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 *a**i* and *p**i* (1<=≤<=*a**i*,<=*p**i*<=≤<=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"
}... | 1,694,577,657 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 30 | 592 | 6,348,800 | n = int(input())
qs, ps = [], []
mini = 101
ans = 0
for _ in range(n):
q, p = map(int, input().split())
mini = min(mini, p)
p = mini
ans += p * q
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 *a**i* kilograms of meat.
There is a big shop uptown and Malek wants to buy meat for her ... | ```python
n = int(input())
qs, ps = [], []
mini = 101
ans = 0
for _ in range(n):
q, p = map(int, input().split())
mini = min(mini, p)
p = mini
ans += p * q
print(ans)
``` | 3 | |
570 | A | Elections | PROGRAMMING | 1,100 | [
"implementation"
] | null | null | The country of Byalechinsk is running elections involving *n* candidates. The country consists of *m* cities. We know how many people in each city voted for each candidate.
The electoral system in the country is pretty unusual. At the first stage of elections the votes are counted for each city: it is assumed that in ... | The first line of the input contains two integers *n*, *m* (1<=≤<=*n*,<=*m*<=≤<=100) — the number of candidates and of cities, respectively.
Each of the next *m* lines contains *n* non-negative integers, the *j*-th number in the *i*-th line *a**ij* (1<=≤<=*j*<=≤<=*n*, 1<=≤<=*i*<=≤<=*m*, 0<=≤<=*a**ij*<=≤<=109) denotes ... | Print a single number — the index of the candidate who won the elections. The candidates are indexed starting from one. | [
"3 3\n1 2 3\n2 3 1\n1 2 1\n",
"3 4\n10 10 3\n5 1 6\n2 2 2\n1 5 7\n"
] | [
"2",
"1"
] | Note to the first sample test. At the first stage city 1 chosen candidate 3, city 2 chosen candidate 2, city 3 chosen candidate 2. The winner is candidate 2, he gained 2 votes.
Note to the second sample test. At the first stage in city 1 candidates 1 and 2 got the same maximum number of votes, but candidate 1 has a sm... | 500 | [
{
"input": "3 3\n1 2 3\n2 3 1\n1 2 1",
"output": "2"
},
{
"input": "3 4\n10 10 3\n5 1 6\n2 2 2\n1 5 7",
"output": "1"
},
{
"input": "1 3\n5\n3\n2",
"output": "1"
},
{
"input": "3 1\n1 2 3",
"output": "3"
},
{
"input": "3 1\n100 100 100",
"output": "1"
},
{... | 1,482,434,719 | 2,147,483,647 | Python 3 | OK | TESTS | 62 | 77 | 4,710,400 | n,m=map(int,input().split())
d=[0 for i in range(n)]
for i in range(m):
s=list(map(int,input().split()))
a=s.index(max(s))
d[a]+=1
print(d.index(max(d))+1)
| Title: Elections
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
The country of Byalechinsk is running elections involving *n* candidates. The country consists of *m* cities. We know how many people in each city voted for each candidate.
The electoral system in the country is pretty unusu... | ```python
n,m=map(int,input().split())
d=[0 for i in range(n)]
for i in range(m):
s=list(map(int,input().split()))
a=s.index(max(s))
d[a]+=1
print(d.index(max(d))+1)
``` | 3 | |
574 | A | Bear and Elections | PROGRAMMING | 1,200 | [
"greedy",
"implementation"
] | null | null | Limak is a grizzly bear who desires power and adoration. He wants to win in upcoming elections and rule over the Bearland.
There are *n* candidates, including Limak. We know how many citizens are going to vote for each candidate. Now *i*-th candidate would get *a**i* votes. Limak is candidate number 1. To win in elect... | The first line contains single integer *n* (2<=≤<=*n*<=≤<=100) - number of candidates.
The second line contains *n* space-separated integers *a*1,<=*a*2,<=...,<=*a**n* (1<=≤<=*a**i*<=≤<=1000) - number of votes for each candidate. Limak is candidate number 1.
Note that after bribing number of votes for some candidate ... | Print the minimum number of citizens Limak must bribe to have strictly more votes than any other candidate. | [
"5\n5 1 11 2 8\n",
"4\n1 8 8 8\n",
"2\n7 6\n"
] | [
"4\n",
"6\n",
"0\n"
] | In the first sample Limak has 5 votes. One of the ways to achieve victory is to bribe 4 citizens who want to vote for the third candidate. Then numbers of votes would be 9, 1, 7, 2, 8 (Limak would have 9 votes). Alternatively, Limak could steal only 3 votes from the third candidate and 1 vote from the second candidate ... | 500 | [
{
"input": "5\n5 1 11 2 8",
"output": "4"
},
{
"input": "4\n1 8 8 8",
"output": "6"
},
{
"input": "2\n7 6",
"output": "0"
},
{
"input": "2\n1 1",
"output": "1"
},
{
"input": "10\n100 200 57 99 1 1000 200 200 200 500",
"output": "451"
},
{
"input": "16\... | 1,610,693,611 | 2,147,483,647 | PyPy 3 | OK | TESTS | 35 | 109 | 1,331,200 | def check(l):
if l.index(max(l))==len(l)-1:
return False
else:
return True
n=int(input())
l=list(map(int,input().split()))
ans=0
l.append(l[0])
l.remove(l[0])
while check(l):
t=l.index(max(l))
l[t]=l[t]-1
l[-1]+=1
ans+=1
print(ans)
| Title: Bear and Elections
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Limak is a grizzly bear who desires power and adoration. He wants to win in upcoming elections and rule over the Bearland.
There are *n* candidates, including Limak. We know how many citizens are going to vote for e... | ```python
def check(l):
if l.index(max(l))==len(l)-1:
return False
else:
return True
n=int(input())
l=list(map(int,input().split()))
ans=0
l.append(l[0])
l.remove(l[0])
while check(l):
t=l.index(max(l))
l[t]=l[t]-1
l[-1]+=1
ans+=1
print(ans)
``` | 3 | |
110 | A | Nearly Lucky Number | PROGRAMMING | 800 | [
"implementation"
] | A. Nearly Lucky Number | 2 | 256 | Petya loves lucky numbers. We all know that lucky numbers are the positive integers whose decimal representations contain only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
Unfortunately, not all numbers are lucky. Petya calls a number nearly lucky if the number of lucky d... | The only line contains an integer *n* (1<=≤<=*n*<=≤<=1018).
Please do not use the %lld specificator to read or write 64-bit numbers in С++. It is preferred to use the cin, cout streams or the %I64d specificator. | Print on the single line "YES" if *n* is a nearly lucky number. Otherwise, print "NO" (without the quotes). | [
"40047\n",
"7747774\n",
"1000000000000000000\n"
] | [
"NO\n",
"YES\n",
"NO\n"
] | In the first sample there are 3 lucky digits (first one and last two), so the answer is "NO".
In the second sample there are 7 lucky digits, 7 is lucky number, so the answer is "YES".
In the third sample there are no lucky digits, so the answer is "NO". | 500 | [
{
"input": "40047",
"output": "NO"
},
{
"input": "7747774",
"output": "YES"
},
{
"input": "1000000000000000000",
"output": "NO"
},
{
"input": "7",
"output": "NO"
},
{
"input": "4",
"output": "NO"
},
{
"input": "474404774",
"output": "NO"
},
{
... | 1,695,213,673 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 17 | 92 | 0 | n = input()
a = n.count("4")
b = n.count("7")
if a == 4 or b == 7 or a+b == 4 or a+b == 7 :
print("YES")
else:
print("NO") | Title: Nearly Lucky Number
Time Limit: 2 seconds
Memory Limit: 256 megabytes
Problem Description:
Petya loves lucky numbers. We all know that lucky numbers are the positive integers whose decimal representations contain only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
... | ```python
n = input()
a = n.count("4")
b = n.count("7")
if a == 4 or b == 7 or a+b == 4 or a+b == 7 :
print("YES")
else:
print("NO")
``` | 0 |
749 | A | Bachgold Problem | PROGRAMMING | 800 | [
"greedy",
"implementation",
"math",
"number theory"
] | null | null | Bachgold problem is very easy to formulate. Given a positive integer *n* represent it as a sum of maximum possible number of prime numbers. One can prove that such representation exists for any integer greater than 1.
Recall that integer *k* is called prime if it is greater than 1 and has exactly two positive integer ... | The only line of the input contains a single integer *n* (2<=≤<=*n*<=≤<=100<=000). | The first line of the output contains a single integer *k* — maximum possible number of primes in representation.
The second line should contain *k* primes with their sum equal to *n*. You can print them in any order. If there are several optimal solution, print any of them. | [
"5\n",
"6\n"
] | [
"2\n2 3\n",
"3\n2 2 2\n"
] | none | 500 | [
{
"input": "5",
"output": "2\n2 3"
},
{
"input": "6",
"output": "3\n2 2 2"
},
{
"input": "2",
"output": "1\n2"
},
{
"input": "3",
"output": "1\n3"
},
{
"input": "99999",
"output": "49999\n2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 ... | 1,671,545,027 | 2,147,483,647 | Python 3 | OK | TESTS | 41 | 93 | 512,000 | n= int(input())
print(n//2)
print(*([2]*(n//2) if n%2==0 else [2]*(n//2-1)+[3])) | Title: Bachgold Problem
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Bachgold problem is very easy to formulate. Given a positive integer *n* represent it as a sum of maximum possible number of prime numbers. One can prove that such representation exists for any integer greater than 1.
... | ```python
n= int(input())
print(n//2)
print(*([2]*(n//2) if n%2==0 else [2]*(n//2-1)+[3]))
``` | 3 | |
626 | A | Robot Sequence | PROGRAMMING | 1,000 | [
"brute force",
"implementation"
] | null | null | Calvin the robot lies in an infinite rectangular grid. Calvin's source code contains a list of *n* commands, each either 'U', 'R', 'D', or 'L' — instructions to move a single square up, right, down, or left, respectively. How many ways can Calvin execute a non-empty contiguous substrings of commands and return to the s... | The first line of the input contains a single positive integer, *n* (1<=≤<=*n*<=≤<=200) — the number of commands.
The next line contains *n* characters, each either 'U', 'R', 'D', or 'L' — Calvin's source code. | Print a single integer — the number of contiguous substrings that Calvin can execute and return to his starting square. | [
"6\nURLLDR\n",
"4\nDLUU\n",
"7\nRLRLRLR\n"
] | [
"2\n",
"0\n",
"12\n"
] | In the first case, the entire source code works, as well as the "RL" substring in the second and third characters.
Note that, in the third case, the substring "LR" appears three times, and is therefore counted three times to the total result. | 500 | [
{
"input": "6\nURLLDR",
"output": "2"
},
{
"input": "4\nDLUU",
"output": "0"
},
{
"input": "7\nRLRLRLR",
"output": "12"
},
{
"input": "1\nR",
"output": "0"
},
{
"input": "100\nURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDLURDL... | 1,455,385,316 | 416 | Python 3 | OK | TESTS | 25 | 77 | 0 | n = int(input())
ans = 0
s = input()
for i in range(n):
pl = [0, 0]
st = [0, 0]
if s[i] == 'U':
pl[0] += 1
if s[i] == 'D':
pl[0] -= 1
if s[i] == 'R':
pl[1] += 1
if s[i] == 'L':
pl[1] -= 1
for ... | Title: Robot Sequence
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Calvin the robot lies in an infinite rectangular grid. Calvin's source code contains a list of *n* commands, each either 'U', 'R', 'D', or 'L' — instructions to move a single square up, right, down, or left, respectively... | ```python
n = int(input())
ans = 0
s = input()
for i in range(n):
pl = [0, 0]
st = [0, 0]
if s[i] == 'U':
pl[0] += 1
if s[i] == 'D':
pl[0] -= 1
if s[i] == 'R':
pl[1] += 1
if s[i] == 'L':
pl[1] -= 1... | 3 | |
981 | A | Antipalindrome | PROGRAMMING | 900 | [
"brute force",
"implementation",
"strings"
] | null | null | A string is a palindrome if it reads the same from the left to the right and from the right to the left. For example, the strings "kek", "abacaba", "r" and "papicipap" are palindromes, while the strings "abb" and "iq" are not.
A substring $s[l \ldots r]$ ($1<=\leq<=l<=\leq<=r<=\leq<=|s|$) of a string $s<==<=s_{1}s_{2}... | The first line contains a non-empty string $s$ with length at most $50$ characters, containing lowercase English letters only. | If there is such a substring in $s$ that is not a palindrome, print the maximum length of such a substring. Otherwise print $0$.
Note that there can be multiple longest substrings that are not palindromes, but their length is unique. | [
"mew\n",
"wuffuw\n",
"qqqqqqqq\n"
] | [
"3\n",
"5\n",
"0\n"
] | "mew" is not a palindrome, so the longest substring of it that is not a palindrome, is the string "mew" itself. Thus, the answer for the first example is $3$.
The string "uffuw" is one of the longest non-palindrome substrings (of length $5$) of the string "wuffuw", so the answer for the second example is $5$.
All sub... | 500 | [
{
"input": "mew",
"output": "3"
},
{
"input": "wuffuw",
"output": "5"
},
{
"input": "qqqqqqqq",
"output": "0"
},
{
"input": "ijvji",
"output": "4"
},
{
"input": "iiiiiii",
"output": "0"
},
{
"input": "wobervhvvkihcuyjtmqhaaigvvgiaahqmtjyuchikvvhvrebow"... | 1,628,424,152 | 2,147,483,647 | PyPy 3 | WRONG_ANSWER | TESTS | 28 | 93 | 20,172,800 | s = input()
if s == ''.join(reversed(s)):
for i in range(len(s)):
if s[i] != s[-1]:
print(len(s[i:]))
break
else:
print(0)
else:
print(len(s))
| Title: Antipalindrome
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A string is a palindrome if it reads the same from the left to the right and from the right to the left. For example, the strings "kek", "abacaba", "r" and "papicipap" are palindromes, while the strings "abb" and "iq" ar... | ```python
s = input()
if s == ''.join(reversed(s)):
for i in range(len(s)):
if s[i] != s[-1]:
print(len(s[i:]))
break
else:
print(0)
else:
print(len(s))
``` | 0 | |
122 | A | Lucky Division | PROGRAMMING | 1,000 | [
"brute force",
"number theory"
] | null | null | Petya loves lucky numbers. Everybody knows that lucky numbers are positive integers whose decimal representation contains only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
Petya calls a number almost lucky if it could be evenly divided by some lucky number. Help him find ... | The single line contains an integer *n* (1<=≤<=*n*<=≤<=1000) — the number that needs to be checked. | In the only line print "YES" (without the quotes), if number *n* is almost lucky. Otherwise, print "NO" (without the quotes). | [
"47\n",
"16\n",
"78\n"
] | [
"YES\n",
"YES\n",
"NO\n"
] | Note that all lucky numbers are almost lucky as any number is evenly divisible by itself.
In the first sample 47 is a lucky number. In the second sample 16 is divisible by 4. | 500 | [
{
"input": "47",
"output": "YES"
},
{
"input": "16",
"output": "YES"
},
{
"input": "78",
"output": "NO"
},
{
"input": "48",
"output": "YES"
},
{
"input": "100",
"output": "YES"
},
{
"input": "107",
"output": "NO"
},
{
"input": "77",
"ou... | 1,688,315,419 | 2,147,483,647 | Python 3 | OK | TESTS | 36 | 62 | 0 | def is_lucky(number):
for i in range(1, number + 1):
if number % i == 0 and all(digit in '47' for digit in str(i)):
return True
return False
n = int(input())
if is_lucky(n):
print("YES")
else:
print("NO")
| Title: Lucky Division
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Petya loves lucky numbers. Everybody knows that lucky numbers are positive integers whose decimal representation contains only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
... | ```python
def is_lucky(number):
for i in range(1, number + 1):
if number % i == 0 and all(digit in '47' for digit in str(i)):
return True
return False
n = int(input())
if is_lucky(n):
print("YES")
else:
print("NO")
``` | 3 | |
337 | B | Routine Problem | PROGRAMMING | 1,400 | [
"greedy",
"math",
"number theory"
] | null | null | Manao has a monitor. The screen of the monitor has horizontal to vertical length ratio *a*:*b*. Now he is going to watch a movie. The movie's frame has horizontal to vertical length ratio *c*:*d*. Manao adjusts the view in such a way that the movie preserves the original frame ratio, but also occupies as much space on ... | A single line contains four space-separated integers *a*, *b*, *c*, *d* (1<=≤<=*a*,<=*b*,<=*c*,<=*d*<=≤<=1000). | Print the answer to the problem as "p/q", where *p* is a non-negative integer, *q* is a positive integer and numbers *p* and *q* don't have a common divisor larger than 1. | [
"1 1 3 2\n",
"4 3 2 2\n"
] | [
"1/3\n",
"1/4\n"
] | Sample 1. Manao's monitor has a square screen. The movie has 3:2 horizontal to vertical length ratio. Obviously, the movie occupies most of the screen if the width of the picture coincides with the width of the screen. In this case, only 2/3 of the monitor will project the movie in the horizontal dimension: <img class=... | 1,000 | [
{
"input": "1 1 3 2",
"output": "1/3"
},
{
"input": "4 3 2 2",
"output": "1/4"
},
{
"input": "3 4 2 3",
"output": "1/9"
},
{
"input": "4 4 5 5",
"output": "0/1"
},
{
"input": "1 1 1 1",
"output": "0/1"
},
{
"input": "1000 1000 1000 1000",
"output":... | 1,669,368,722 | 2,147,483,647 | PyPy 3-64 | RUNTIME_ERROR | TESTS | 2 | 154 | 3,276,800 | a,b,c,d=map(int,input().split())
# s=(input().strip())
# a,r,b=input().split()
# t=(input().strip())
# arr=list(map(int,input().split()))
# s=list(input())
if a==b and c==d:
print("0/1")
elif a==b:
if c>d:print("1/"+str(c))
else:print("1/"+str(d))
elif c==d:
if a>b:pri... | Title: Routine Problem
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Manao has a monitor. The screen of the monitor has horizontal to vertical length ratio *a*:*b*. Now he is going to watch a movie. The movie's frame has horizontal to vertical length ratio *c*:*d*. Manao adjusts the view... | ```python
a,b,c,d=map(int,input().split())
# s=(input().strip())
# a,r,b=input().split()
# t=(input().strip())
# arr=list(map(int,input().split()))
# s=list(input())
if a==b and c==d:
print("0/1")
elif a==b:
if c>d:print("1/"+str(c))
else:print("1/"+str(d))
elif c==d:
... | -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 i... | 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"... | 1,591,098,794 | 2,147,483,647 | PyPy 3 | OK | TESTS | 32 | 248 | 0 | input()
nums = list(map(int, input().split()))
last_even, last_odd = -1, -1
no_even, no_odd = 0, 0
for i, num in enumerate(nums):
if num % 2 == 0:
last_even = i + 1
no_even += 1
else:
last_odd = i + 1
no_odd += 1
if no_even > no_odd:
print(last_odd)
else:
print(last_e... | 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 — t... | ```python
input()
nums = list(map(int, input().split()))
last_even, last_odd = -1, -1
no_even, no_odd = 0, 0
for i, num in enumerate(nums):
if num % 2 == 0:
last_even = i + 1
no_even += 1
else:
last_odd = i + 1
no_odd += 1
if no_even > no_odd:
print(last_odd)
else:
pr... | 3.938 |
146 | A | Lucky Ticket | PROGRAMMING | 800 | [
"implementation"
] | null | null | Petya loves lucky numbers very much. Everybody knows that lucky numbers are positive integers whose decimal record contains only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
Petya loves tickets very much. As we know, each ticket has a number that is a positive integer. It... | The first line contains an even integer *n* (2<=≤<=*n*<=≤<=50) — the length of the ticket number that needs to be checked. The second line contains an integer whose length equals exactly *n* — the ticket number. The number may contain leading zeros. | On the first line print "YES" if the given ticket number is lucky. Otherwise, print "NO" (without the quotes). | [
"2\n47\n",
"4\n4738\n",
"4\n4774\n"
] | [
"NO\n",
"NO\n",
"YES\n"
] | In the first sample the sum of digits in the first half does not equal the sum of digits in the second half (4 ≠ 7).
In the second sample the ticket number is not the lucky number. | 500 | [
{
"input": "2\n47",
"output": "NO"
},
{
"input": "4\n4738",
"output": "NO"
},
{
"input": "4\n4774",
"output": "YES"
},
{
"input": "4\n4570",
"output": "NO"
},
{
"input": "6\n477477",
"output": "YES"
},
{
"input": "6\n777777",
"output": "YES"
},
... | 1,569,762,158 | 2,147,483,647 | Python 3 | OK | TESTS | 46 | 218 | 0 | n = int(input())
a = [int(i) for i in input()]
l = len(a)
if a.count(4)+a.count(7) ==n:
fhalf = a[:l//2]
lhalf = a[l//2:]
xx = fhalf.count(4) +fhalf.count(7)
yy = lhalf.count(4) + lhalf.count(7)
if xx == yy and sum(fhalf)==sum(lhalf):
print("YES")
else:
print("NO")
e... | Title: Lucky Ticket
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Petya loves lucky numbers very much. Everybody knows that lucky numbers are positive integers whose decimal record contains only the lucky digits 4 and 7. For example, numbers 47, 744, 4 are lucky and 5, 17, 467 are not.
... | ```python
n = int(input())
a = [int(i) for i in input()]
l = len(a)
if a.count(4)+a.count(7) ==n:
fhalf = a[:l//2]
lhalf = a[l//2:]
xx = fhalf.count(4) +fhalf.count(7)
yy = lhalf.count(4) + lhalf.count(7)
if xx == yy and sum(fhalf)==sum(lhalf):
print("YES")
else:
prin... | 3 | |
291 | A | Spyke Talks | PROGRAMMING | 800 | [
"*special",
"implementation",
"sortings"
] | null | null | Polycarpus is the director of a large corporation. There are *n* secretaries working for the corporation, each of them corresponds via the famous Spyke VoIP system during the day. We know that when two people call each other via Spyke, the Spyke network assigns a unique ID to this call, a positive integer session numbe... | The first line contains integer *n* (1<=≤<=*n*<=≤<=103) — the number of secretaries in Polycarpus's corporation. The next line contains *n* space-separated integers: *id*1,<=*id*2,<=...,<=*id**n* (0<=≤<=*id**i*<=≤<=109). Number *id**i* equals the number of the call session of the *i*-th secretary, if the secretary is t... | Print a single integer — the number of pairs of chatting secretaries, or -1 if Polycarpus's got a mistake in his records and the described situation could not have taken place. | [
"6\n0 1 7 1 7 10\n",
"3\n1 1 1\n",
"1\n0\n"
] | [
"2\n",
"-1\n",
"0\n"
] | In the first test sample there are two Spyke calls between secretaries: secretary 2 and secretary 4, secretary 3 and secretary 5.
In the second test sample the described situation is impossible as conferences aren't allowed. | 500 | [
{
"input": "6\n0 1 7 1 7 10",
"output": "2"
},
{
"input": "3\n1 1 1",
"output": "-1"
},
{
"input": "1\n0",
"output": "0"
},
{
"input": "5\n2 2 1 1 3",
"output": "2"
},
{
"input": "1\n1",
"output": "0"
},
{
"input": "10\n4 21 3 21 21 1 1 2 2 3",
"ou... | 1,628,259,421 | 2,147,483,647 | Python 3 | RUNTIME_ERROR | TESTS | 2 | 92 | 7,168,000 | from collections import Counter
n = int(input())
ids = list(map(int, input().split()))
c = Counter(ids)
del c[0]
if c.most_common(1)[0][1]>2:
print(-1)
else:
print(Counter(c.values())[2]) | Title: Spyke Talks
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Polycarpus is the director of a large corporation. There are *n* secretaries working for the corporation, each of them corresponds via the famous Spyke VoIP system during the day. We know that when two people call each othe... | ```python
from collections import Counter
n = int(input())
ids = list(map(int, input().split()))
c = Counter(ids)
del c[0]
if c.most_common(1)[0][1]>2:
print(-1)
else:
print(Counter(c.values())[2])
``` | -1 | |
1,004 | C | Sonya and Robots | PROGRAMMING | 1,400 | [
"constructive algorithms",
"implementation"
] | null | null | Since Sonya is interested in robotics too, she decided to construct robots that will read and recognize numbers.
Sonya has drawn $n$ numbers in a row, $a_i$ is located in the $i$-th position. She also has put a robot at each end of the row (to the left of the first number and to the right of the last number). Sonya wi... | The first line contains a single integer $n$ ($1\leq n\leq 10^5$) — the number of numbers in a row.
The second line contains $n$ integers $a_1, a_2, \ldots, a_n$ ($1\leq a_i\leq 10^5$) — the numbers in a row. | Print one number — the number of possible pairs that Sonya can give to robots so that they will not meet. | [
"5\n1 5 4 1 3\n",
"7\n1 2 1 1 1 3 2\n"
] | [
"9\n",
"7\n"
] | In the first example, Sonya can give pairs ($1$, $1$), ($1$, $3$), ($1$, $4$), ($1$, $5$), ($4$, $1$), ($4$, $3$), ($5$, $1$), ($5$, $3$), and ($5$, $4$).
In the second example, Sonya can give pairs ($1$, $1$), ($1$, $2$), ($1$, $3$), ($2$, $1$), ($2$, $2$), ($2$, $3$), and ($3$, $2$). | 1,500 | [
{
"input": "5\n1 5 4 1 3",
"output": "9"
},
{
"input": "7\n1 2 1 1 1 3 2",
"output": "7"
},
{
"input": "10\n2 2 4 4 3 1 1 2 3 2",
"output": "14"
},
{
"input": "15\n1 2 2 1 2 4 2 1 1 6 6 4 2 5 4",
"output": "20"
},
{
"input": "1\n1",
"output": "0"
}
] | 1,530,812,010 | 3,510 | Python 3 | TIME_LIMIT_EXCEEDED | PRETESTS | 5 | 1,000 | 217,804,800 | from itertools import combinations
n=int(input())
A=list(map(int,input().split()))
B=list(set(combinations(A,2)))
print(len(B))
| Title: Sonya and Robots
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Since Sonya is interested in robotics too, she decided to construct robots that will read and recognize numbers.
Sonya has drawn $n$ numbers in a row, $a_i$ is located in the $i$-th position. She also has put a robot ... | ```python
from itertools import combinations
n=int(input())
A=list(map(int,input().split()))
B=list(set(combinations(A,2)))
print(len(B))
``` | 0 | |
82 | A | Double Cola | PROGRAMMING | 1,100 | [
"implementation",
"math"
] | A. Double Cola | 1 | 256 | Sheldon, Leonard, Penny, Rajesh and Howard are in the queue for a "Double Cola" drink vending machine; there are no other people in the queue. The first one in the queue (Sheldon) buys a can, drinks it and doubles! The resulting two Sheldons go to the end of the queue. Then the next in the queue (Leonard) buys a can, d... | The input data consist of a single integer *n* (1<=≤<=*n*<=≤<=109).
It is guaranteed that the pretests check the spelling of all the five names, that is, that they contain all the five possible answers. | Print the single line — the name of the person who drinks the *n*-th can of cola. The cans are numbered starting from 1. Please note that you should spell the names like this: "Sheldon", "Leonard", "Penny", "Rajesh", "Howard" (without the quotes). In that order precisely the friends are in the queue initially. | [
"1\n",
"6\n",
"1802\n"
] | [
"Sheldon\n",
"Sheldon\n",
"Penny\n"
] | none | 500 | [
{
"input": "1",
"output": "Sheldon"
},
{
"input": "6",
"output": "Sheldon"
},
{
"input": "1802",
"output": "Penny"
},
{
"input": "1",
"output": "Sheldon"
},
{
"input": "2",
"output": "Leonard"
},
{
"input": "3",
"output": "Penny"
},
{
"inpu... | 1,670,837,728 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 12 | 1,000 | 1,945,600 | n=int(input())
l=["Sheldon", "Leonard", "Penny", "Rajesh", "Howard"]
if n<=5:
print(l[n-1])
else:
for i in range(n):
l.append(l[0])
l.append(l[0])
del(l[0])
print(l[0]) | Title: Double Cola
Time Limit: 1 seconds
Memory Limit: 256 megabytes
Problem Description:
Sheldon, Leonard, Penny, Rajesh and Howard are in the queue for a "Double Cola" drink vending machine; there are no other people in the queue. The first one in the queue (Sheldon) buys a can, drinks it and doubles! The resultin... | ```python
n=int(input())
l=["Sheldon", "Leonard", "Penny", "Rajesh", "Howard"]
if n<=5:
print(l[n-1])
else:
for i in range(n):
l.append(l[0])
l.append(l[0])
del(l[0])
print(l[0])
``` | 0 |
804 | A | Find Amir | PROGRAMMING | 1,000 | [
"constructive algorithms",
"greedy",
"math"
] | null | null | A few years ago Sajjad left his school and register to another one due to security reasons. Now he wishes to find Amir, one of his schoolmates and good friends.
There are *n* schools numerated from 1 to *n*. One can travel between each pair of them, to do so, he needs to buy a ticket. The ticker between schools *i* an... | The first line contains a single integer *n* (1<=≤<=*n*<=≤<=105) — the number of schools. | Print single integer: the minimum cost of tickets needed to visit all schools. | [
"2\n",
"10\n"
] | [
"0\n",
"4\n"
] | In the first example we can buy a ticket between the schools that costs <img align="middle" class="tex-formula" src="https://espresso.codeforces.com/c67d72010e0498bfd065a6a38fdeaec90358507b.png" style="max-width: 100.0%;max-height: 100.0%;"/>. | 500 | [
{
"input": "2",
"output": "0"
},
{
"input": "10",
"output": "4"
},
{
"input": "43670",
"output": "21834"
},
{
"input": "4217",
"output": "2108"
},
{
"input": "17879",
"output": "8939"
},
{
"input": "31809",
"output": "15904"
},
{
"input": "... | 1,673,473,272 | 2,147,483,647 | PyPy 3-64 | WRONG_ANSWER | TESTS | 3 | 46 | 0 | print( int(int(input()) /2) - 1) | Title: Find Amir
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A few years ago Sajjad left his school and register to another one due to security reasons. Now he wishes to find Amir, one of his schoolmates and good friends.
There are *n* schools numerated from 1 to *n*. One can travel b... | ```python
print( int(int(input()) /2) - 1)
``` | 0 | |
1,006 | A | Adjacent Replacements | PROGRAMMING | 800 | [
"implementation"
] | null | null | Mishka got an integer array $a$ of length $n$ as a birthday present (what a surprise!).
Mishka doesn't like this present and wants to change it somehow. He has invented an algorithm and called it "Mishka's Adjacent Replacements Algorithm". This algorithm can be represented as a sequence of steps:
- Replace each occu... | The first line of the input contains one integer number $n$ ($1 \le n \le 1000$) — the number of elements in Mishka's birthday present (surprisingly, an array).
The second line of the input contains $n$ integers $a_1, a_2, \dots, a_n$ ($1 \le a_i \le 10^9$) — the elements of the array. | Print $n$ integers — $b_1, b_2, \dots, b_n$, where $b_i$ is the final value of the $i$-th element of the array after applying "Mishka's Adjacent Replacements Algorithm" to the array $a$. Note that you cannot change the order of elements in the array. | [
"5\n1 2 4 5 10\n",
"10\n10000 10 50605065 1 5 89 5 999999999 60506056 1000000000\n"
] | [
"1 1 3 5 9\n",
"9999 9 50605065 1 5 89 5 999999999 60506055 999999999\n"
] | The first example is described in the problem statement. | 0 | [
{
"input": "5\n1 2 4 5 10",
"output": "1 1 3 5 9"
},
{
"input": "10\n10000 10 50605065 1 5 89 5 999999999 60506056 1000000000",
"output": "9999 9 50605065 1 5 89 5 999999999 60506055 999999999"
},
{
"input": "1\n999999999",
"output": "999999999"
},
{
"input": "1\n1000000000",... | 1,643,729,571 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 18 | 93 | 2,457,600 | n = int(input())
li = list(map(int,input().split()))
for i in range(n):
if li[i]&1:
li[i] = li[i]
else:
li[i] = li[i]-1
print(*li) | Title: Adjacent Replacements
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Mishka got an integer array $a$ of length $n$ as a birthday present (what a surprise!).
Mishka doesn't like this present and wants to change it somehow. He has invented an algorithm and called it "Mishka's Adjace... | ```python
n = int(input())
li = list(map(int,input().split()))
for i in range(n):
if li[i]&1:
li[i] = li[i]
else:
li[i] = li[i]-1
print(*li)
``` | 3 | |
765 | A | Neverending competitions | PROGRAMMING | 900 | [
"implementation",
"math"
] | null | null | There are literally dozens of snooker competitions held each year, and team Jinotega tries to attend them all (for some reason they prefer name "snookah")! When a competition takes place somewhere far from their hometown, Ivan, Artsem and Konstantin take a flight to the contest and back.
Jinotega's best friends, team ... | In the first line of input there is a single integer *n*: the number of Jinotega's flights (1<=≤<=*n*<=≤<=100). In the second line there is a string of 3 capital Latin letters: the name of Jinotega's home airport. In the next *n* lines there is flight information, one flight per line, in form "XXX->YYY", where "XXX"... | If Jinotega is now at home, print "home" (without quotes), otherwise print "contest". | [
"4\nSVO\nSVO->CDG\nLHR->SVO\nSVO->LHR\nCDG->SVO\n",
"3\nSVO\nSVO->HKT\nHKT->SVO\nSVO->RAP\n"
] | [
"home\n",
"contest\n"
] | In the first sample Jinotega might first fly from SVO to CDG and back, and then from SVO to LHR and back, so now they should be at home. In the second sample Jinotega must now be at RAP because a flight from RAP back to SVO is not on the list. | 500 | [
{
"input": "4\nSVO\nSVO->CDG\nLHR->SVO\nSVO->LHR\nCDG->SVO",
"output": "home"
},
{
"input": "3\nSVO\nSVO->HKT\nHKT->SVO\nSVO->RAP",
"output": "contest"
},
{
"input": "1\nESJ\nESJ->TSJ",
"output": "contest"
},
{
"input": "2\nXMR\nFAJ->XMR\nXMR->FAJ",
"output": "home"
},
... | 1,528,346,875 | 2,147,483,647 | Python 3 | OK | TESTS | 23 | 93 | 0 | n = int(input())
str = input()
cnt1=0
cnt2=0
for i in range(n):
s = input()
if str==s[0:3]:
cnt1+=1
elif str==s[5:8]:
cnt2+=1
if cnt1==cnt2:
print('home')
else:
print('contest')
| Title: Neverending competitions
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
There are literally dozens of snooker competitions held each year, and team Jinotega tries to attend them all (for some reason they prefer name "snookah")! When a competition takes place somewhere far from thei... | ```python
n = int(input())
str = input()
cnt1=0
cnt2=0
for i in range(n):
s = input()
if str==s[0:3]:
cnt1+=1
elif str==s[5:8]:
cnt2+=1
if cnt1==cnt2:
print('home')
else:
print('contest')
``` | 3 | |
134 | A | Average Numbers | PROGRAMMING | 1,200 | [
"brute force",
"implementation"
] | null | null | You are given a sequence of positive integers *a*1,<=*a*2,<=...,<=*a**n*. Find all such indices *i*, that the *i*-th element equals the arithmetic mean of all other elements (that is all elements except for this one). | The first line contains the integer *n* (2<=≤<=*n*<=≤<=2·105). The second line contains elements of the sequence *a*1,<=*a*2,<=...,<=*a**n* (1<=≤<=*a**i*<=≤<=1000). All the elements are positive integers. | Print on the first line the number of the sought indices. Print on the second line the sought indices in the increasing order. All indices are integers from 1 to *n*.
If the sought elements do not exist, then the first output line should contain number 0. In this case you may either not print the second line or print ... | [
"5\n1 2 3 4 5\n",
"4\n50 50 50 50\n"
] | [
"1\n3 ",
"4\n1 2 3 4 "
] | none | 500 | [
{
"input": "5\n1 2 3 4 5",
"output": "1\n3 "
},
{
"input": "4\n50 50 50 50",
"output": "4\n1 2 3 4 "
},
{
"input": "3\n2 3 1",
"output": "1\n1 "
},
{
"input": "2\n4 2",
"output": "0"
},
{
"input": "2\n1 1",
"output": "2\n1 2 "
},
{
"input": "10\n3 3 3 ... | 1,689,185,030 | 2,147,483,647 | Python 3 | RUNTIME_ERROR | TESTS | 0 | 31 | 0 | n, elements = int(input()), map(int, input().split())
maximum, indexes = 1, (0, 0)
for i, current in enumerate(elements):
for j, element in enumerate(elements[i:]):
if element / current > maximum:
maximum, indexes = element / current, (i, i + j)
print(*indexes)
# Wed Jul 12 2023 21:... | Title: Average Numbers
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
You are given a sequence of positive integers *a*1,<=*a*2,<=...,<=*a**n*. Find all such indices *i*, that the *i*-th element equals the arithmetic mean of all other elements (that is all elements except for this one).
... | ```python
n, elements = int(input()), map(int, input().split())
maximum, indexes = 1, (0, 0)
for i, current in enumerate(elements):
for j, element in enumerate(elements[i:]):
if element / current > maximum:
maximum, indexes = element / current, (i, i + j)
print(*indexes)
# Wed Jul 1... | -1 | |
797 | C | Minimal string | PROGRAMMING | 1,700 | [
"data structures",
"greedy",
"strings"
] | null | null | Petya recieved a gift of a string *s* with length up to 105 characters for his birthday. He took two more empty strings *t* and *u* and decided to play a game. This game has two possible moves:
- Extract the first character of *s* and append *t* with this character. - Extract the last character of *t* and append *u*... | First line contains non-empty string *s* (1<=≤<=|*s*|<=≤<=105), consisting of lowercase English letters. | Print resulting string *u*. | [
"cab\n",
"acdb\n"
] | [
"abc\n",
"abdc\n"
] | none | 0 | [
{
"input": "cab",
"output": "abc"
},
{
"input": "acdb",
"output": "abdc"
},
{
"input": "a",
"output": "a"
},
{
"input": "ab",
"output": "ab"
},
{
"input": "ba",
"output": "ab"
},
{
"input": "dijee",
"output": "deeji"
},
{
"input": "bhrmc",
... | 1,588,597,502 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 9 | 108 | 307,200 | #https://codeforces.com/contest/797/problem/C
#TC = o(n) = SC
s = input().strip()
#t and u are stack
t = []
u = []
alpha_count = [0] * 26
alpha_used = [0] * 26
#count of alphabets
for k in range(len(s)):
alpha_count[ord(s[k])-ord('a')] += 1
#we will make t as decreasing stack- top to bottom decr... | Title: Minimal string
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Petya recieved a gift of a string *s* with length up to 105 characters for his birthday. He took two more empty strings *t* and *u* and decided to play a game. This game has two possible moves:
- Extract the first char... | ```python
#https://codeforces.com/contest/797/problem/C
#TC = o(n) = SC
s = input().strip()
#t and u are stack
t = []
u = []
alpha_count = [0] * 26
alpha_used = [0] * 26
#count of alphabets
for k in range(len(s)):
alpha_count[ord(s[k])-ord('a')] += 1
#we will make t as decreasing stack- top to b... | 0 | |
670 | A | Holidays | PROGRAMMING | 900 | [
"brute force",
"constructive algorithms",
"greedy",
"math"
] | null | null | On the planet Mars a year lasts exactly *n* days (there are no leap years on Mars). But Martians have the same weeks as earthlings — 5 work days and then 2 days off. Your task is to determine the minimum possible and the maximum possible number of days off per year on Mars. | The first line of the input contains a positive integer *n* (1<=≤<=*n*<=≤<=1<=000<=000) — the number of days in a year on Mars. | Print two integers — the minimum possible and the maximum possible number of days off per year on Mars. | [
"14\n",
"2\n"
] | [
"4 4\n",
"0 2\n"
] | In the first sample there are 14 days in a year on Mars, and therefore independently of the day a year starts with there will be exactly 4 days off .
In the second sample there are only 2 days in a year on Mars, and they can both be either work days or days off. | 500 | [
{
"input": "14",
"output": "4 4"
},
{
"input": "2",
"output": "0 2"
},
{
"input": "1",
"output": "0 1"
},
{
"input": "3",
"output": "0 2"
},
{
"input": "4",
"output": "0 2"
},
{
"input": "5",
"output": "0 2"
},
{
"input": "6",
"output":... | 1,671,912,841 | 2,147,483,647 | Python 3 | OK | TESTS | 198 | 46 | 0 | n = int(input())
s_num = 2*(n//7)
l_num = 2*(n//7)
if n%7 >= 2:
l_num+=2
elif n%7 == 1:
l_num += 1
if n%7 == 6:
s_num += 1
print(s_num, l_num) | Title: Holidays
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
On the planet Mars a year lasts exactly *n* days (there are no leap years on Mars). But Martians have the same weeks as earthlings — 5 work days and then 2 days off. Your task is to determine the minimum possible and the maxim... | ```python
n = int(input())
s_num = 2*(n//7)
l_num = 2*(n//7)
if n%7 >= 2:
l_num+=2
elif n%7 == 1:
l_num += 1
if n%7 == 6:
s_num += 1
print(s_num, l_num)
``` | 3 | |
653 | F | Paper task | PROGRAMMING | 2,600 | [
"data structures",
"string suffix structures",
"strings"
] | null | null | Alex was programming while Valentina (his toddler daughter) got there and started asking many questions about the round brackets (or parenthesis) in the code. He explained her a bit and when she got it he gave her a task in order to finish his code on time.
For the purpose of this problem we consider only strings cons... | The first line of the input contains an integer *n* (1<=≤<=*n*<=≤<=500<=000) — the length of the string *s*.
The second line contains a string *s* of length *n* consisting of only '(' and ')'. | Print the number of distinct non-empty correct sequences that occur in *s* as substring. | [
"10\n()()()()()\n",
"7\n)(())()\n"
] | [
"5\n",
"3\n"
] | In the first sample, there are 5 distinct substrings we should count: "()", "()()", "()()()", "()()()()" and "()()()()()".
In the second sample, there are 3 distinct substrings we should count: "()", "(())" and "(())()". | 3,500 | [
{
"input": "10\n()()()()()",
"output": "5"
},
{
"input": "7\n)(())()",
"output": "3"
},
{
"input": "1\n(",
"output": "0"
},
{
"input": "2\n))",
"output": "0"
},
{
"input": "15\n(())(()())(()()",
"output": "5"
},
{
"input": "30\n()(())(())(())()(())()()... | 1,550,837,132 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 4 | 124 | 0 | n = int(input())
s = input()
e = 0
z = 0
for c in s:
if c == "(":
e += 1
else:
e -= 1
z += 1
if e < 0:
z -= 1
e = 0
print(z) | Title: Paper task
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Alex was programming while Valentina (his toddler daughter) got there and started asking many questions about the round brackets (or parenthesis) in the code. He explained her a bit and when she got it he gave her a task in ... | ```python
n = int(input())
s = input()
e = 0
z = 0
for c in s:
if c == "(":
e += 1
else:
e -= 1
z += 1
if e < 0:
z -= 1
e = 0
print(z)
``` | 0 | |
71 | A | Way Too Long Words | PROGRAMMING | 800 | [
"strings"
] | A. Way Too Long Words | 1 | 256 | Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome.
Let's consider a word too long, if its length is strictly more than 10 characters. All too long words should be replaced with a special abbreviation.
This abbreviation is made lik... | The first line contains an integer *n* (1<=≤<=*n*<=≤<=100). Each of the following *n* lines contains one word. All the words consist of lowercase Latin letters and possess the lengths of from 1 to 100 characters. | Print *n* lines. The *i*-th line should contain the result of replacing of the *i*-th word from the input data. | [
"4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis\n"
] | [
"word\nl10n\ni18n\np43s\n"
] | none | 500 | [
{
"input": "4\nword\nlocalization\ninternationalization\npneumonoultramicroscopicsilicovolcanoconiosis",
"output": "word\nl10n\ni18n\np43s"
},
{
"input": "5\nabcdefgh\nabcdefghi\nabcdefghij\nabcdefghijk\nabcdefghijklm",
"output": "abcdefgh\nabcdefghi\nabcdefghij\na9k\na11m"
},
{
"input":... | 1,692,350,770 | 2,147,483,647 | Python 3 | OK | TESTS | 20 | 46 | 0 | x= input()
n = int(x)
list = []
for i in range(0,n):
x = input()
list.append(x)
for i in range(0,len(list)):
if len(list[i]) <= 10:
print(list[i])
else:
print(f'{list[i][0] + str(len(list[i]) - 2) +list[i][len(list[i]) -1]}')
| Title: Way Too Long Words
Time Limit: 1 seconds
Memory Limit: 256 megabytes
Problem Description:
Sometimes some words like "localization" or "internationalization" are so long that writing them many times in one text is quite tiresome.
Let's consider a word too long, if its length is strictly more than 10 character... | ```python
x= input()
n = int(x)
list = []
for i in range(0,n):
x = input()
list.append(x)
for i in range(0,len(list)):
if len(list[i]) <= 10:
print(list[i])
else:
print(f'{list[i][0] + str(len(list[i]) - 2) +list[i][len(list[i]) -1]}')
``` | 3.977 |
794 | B | Cutting Carrot | PROGRAMMING | 1,200 | [
"geometry",
"math"
] | null | null | Igor the analyst has adopted *n* little bunnies. As we all know, bunnies love carrots. Thus, Igor has bought a carrot to be shared between his bunnies. Igor wants to treat all the bunnies equally, and thus he wants to cut the carrot into *n* pieces of equal area.
Formally, the carrot can be viewed as an isosceles tri... | The first and only line of input contains two space-separated integers, *n* and *h* (2<=≤<=*n*<=≤<=1000, 1<=≤<=*h*<=≤<=105). | The output should contain *n*<=-<=1 real numbers *x*1,<=*x*2,<=...,<=*x**n*<=-<=1. The number *x**i* denotes that the *i*-th cut must be made *x**i* units away from the apex of the carrot. In addition, 0<=<<=*x*1<=<<=*x*2<=<<=...<=<<=*x**n*<=-<=1<=<<=*h* must hold.
Your output will be considered correc... | [
"3 2\n",
"2 100000\n"
] | [
"1.154700538379 1.632993161855\n",
"70710.678118654752\n"
] | Definition of isosceles triangle: [https://en.wikipedia.org/wiki/Isosceles_triangle](https://en.wikipedia.org/wiki/Isosceles_triangle). | 1,000 | [
{
"input": "3 2",
"output": "1.154700538379 1.632993161855"
},
{
"input": "2 100000",
"output": "70710.678118654752"
},
{
"input": "1000 100000",
"output": "3162.277660168379 4472.135954999579 5477.225575051661 6324.555320336759 7071.067811865475 7745.966692414834 8366.600265340755 8... | 1,494,675,025 | 6,925 | Python 3 | OK | TESTS | 31 | 62 | 307,200 | __author__ = 'Alexander'
import math
def Task(inp1):
n, h = map(int,inp1.split())
# elems = [int(elem) for elem in inp2.split()]
# res = [[0, 0] for i in range(n)]
res = [0]*n
res[0] = h
for i in range(1, n):
res[i] = math.sqrt((n-i)/(n-i+1))*res[i-1]
# print(sorted(res[1... | Title: Cutting Carrot
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Igor the analyst has adopted *n* little bunnies. As we all know, bunnies love carrots. Thus, Igor has bought a carrot to be shared between his bunnies. Igor wants to treat all the bunnies equally, and thus he wants to cu... | ```python
__author__ = 'Alexander'
import math
def Task(inp1):
n, h = map(int,inp1.split())
# elems = [int(elem) for elem in inp2.split()]
# res = [[0, 0] for i in range(n)]
res = [0]*n
res[0] = h
for i in range(1, n):
res[i] = math.sqrt((n-i)/(n-i+1))*res[i-1]
# print(so... | 3 | |
261 | A | Maxim and Discounts | PROGRAMMING | 1,400 | [
"greedy",
"sortings"
] | null | null | Maxim always goes to the supermarket on Sundays. Today the supermarket has a special offer of discount systems.
There are *m* types of discounts. We assume that the discounts are indexed from 1 to *m*. To use the discount number *i*, the customer takes a special basket, where he puts exactly *q**i* items he buys. Unde... | The first line contains integer *m* (1<=≤<=*m*<=≤<=105) — the number of discount types. The second line contains *m* integers: *q*1,<=*q*2,<=...,<=*q**m* (1<=≤<=*q**i*<=≤<=105).
The third line contains integer *n* (1<=≤<=*n*<=≤<=105) — the number of items Maxim needs. The fourth line contains *n* integers: *a*1,<=*a*... | In a single line print a single integer — the answer to the problem. | [
"1\n2\n4\n50 50 100 100\n",
"2\n2 3\n5\n50 50 50 50 50\n",
"1\n1\n7\n1 1 1 1 1 1 1\n"
] | [
"200\n",
"150\n",
"3\n"
] | In the first sample Maxim needs to buy two items that cost 100 and get a discount for two free items that cost 50. In that case, Maxim is going to pay 200.
In the second sample the best strategy for Maxim is to buy 3 items and get 2 items for free using the discount. In that case, Maxim is going to pay 150. | 500 | [
{
"input": "1\n2\n4\n50 50 100 100",
"output": "200"
},
{
"input": "2\n2 3\n5\n50 50 50 50 50",
"output": "150"
},
{
"input": "1\n1\n7\n1 1 1 1 1 1 1",
"output": "3"
},
{
"input": "60\n7 4 20 15 17 6 2 2 3 18 13 14 16 11 13 12 6 10 14 1 16 6 4 9 10 8 10 15 16 13 13 9 16 11 5 ... | 1,611,925,126 | 2,147,483,647 | PyPy 3 | OK | TESTS | 45 | 466 | 11,571,200 | from sys import stdin,stdout
nmbr = lambda: int(stdin.readline())
lst = lambda: list(map(int,stdin.readline().split()))
for _ in range(1):#nmbr()):
n=nmbr()
a=sorted(lst())
d=a[0]
n=nmbr()
a=sorted(lst())
ans=0
p=n-1;buy=d
while p>=0:
if d==0:
d=buy
... | Title: Maxim and Discounts
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Maxim always goes to the supermarket on Sundays. Today the supermarket has a special offer of discount systems.
There are *m* types of discounts. We assume that the discounts are indexed from 1 to *m*. To use the d... | ```python
from sys import stdin,stdout
nmbr = lambda: int(stdin.readline())
lst = lambda: list(map(int,stdin.readline().split()))
for _ in range(1):#nmbr()):
n=nmbr()
a=sorted(lst())
d=a[0]
n=nmbr()
a=sorted(lst())
ans=0
p=n-1;buy=d
while p>=0:
if d==0:
d... | 3 | |
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*<... | 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 *t*1,<=*t*2,<=...,<=*t**n* (1<=≤<=*t*1<=<<=*t*2<=<<=...<=<<=*t**n*<=≤<=109), where *t**i* denote... | 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 *t**n*. | [
"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... | 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"
},
{
... | 1,584,424,467 | 2,147,483,647 | Python 3 | OK | TESTS | 81 | 202 | 9,011,200 | n,c = [int(x) for x in input().split()]
t = list(map(int,input().split()))
l = [t[0]]
for i in range(1,n):
if t[i]-t[i-1]<=c:
l.append(t[i])
else:
l.clear()
l.append(t[i])
print(len(l)) | 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 *... | ```python
n,c = [int(x) for x in input().split()]
t = list(map(int,input().split()))
l = [t[0]]
for i in range(1,n):
if t[i]-t[i-1]<=c:
l.append(t[i])
else:
l.clear()
l.append(t[i])
print(len(l))
``` | 3 | |
19 | A | World Football Cup | PROGRAMMING | 1,400 | [
"implementation"
] | A. World Football Cup | 2 | 64 | Everyone knows that 2010 FIFA World Cup is being held in South Africa now. By the decision of BFA (Berland's Football Association) next World Cup will be held in Berland. BFA took the decision to change some World Cup regulations:
- the final tournament features *n* teams (*n* is always even) - the first *n*<=/<=2 t... | The first input line contains the only integer *n* (1<=≤<=*n*<=≤<=50) — amount of the teams, taking part in the final tournament of World Cup. The following *n* lines contain the names of these teams, a name is a string of lower-case and upper-case Latin letters, its length doesn't exceed 30 characters. The following *... | Output *n*<=/<=2 lines — names of the teams, which managed to get through to the knockout stage in lexicographical order. Output each name in a separate line. No odd characters (including spaces) are allowed. It's guaranteed that the described regulations help to order the teams without ambiguity. | [
"4\nA\nB\nC\nD\nA-B 1:1\nA-C 2:2\nA-D 1:0\nB-C 1:0\nB-D 0:3\nC-D 0:3\n",
"2\na\nA\na-A 2:1\n"
] | [
"A\nD\n",
"a\n"
] | none | 0 | [
{
"input": "4\nA\nB\nC\nD\nA-B 1:1\nA-C 2:2\nA-D 1:0\nB-C 1:0\nB-D 0:3\nC-D 0:3",
"output": "A\nD"
},
{
"input": "2\na\nA\na-A 2:1",
"output": "a"
},
{
"input": "2\nEULEUbCmfrmqxtzvg\nuHGRmKUhDcxcfqyruwzen\nuHGRmKUhDcxcfqyruwzen-EULEUbCmfrmqxtzvg 13:92",
"output": "EULEUbCmfrmqxtzvg"... | 1,585,305,733 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 3 | 218 | 307,200 | n=int(input())
a={}
for i in range(n):
a[input()]=[0,0,0]
k=n*(n-1)//2
for i in range(k):
s=input().split(' ')
c1,c2=s[0].split('-')
g1,g2=map(int, s[1].split(':'))
a[c1]=[a[c1][0],a[c1][1]+g1,a[c1][2]+g2]
a[c2]=[a[c2][0],a[c2][1]+g2,a[c2][2]+g1]
if g1>g2:
a[c1][0]+=3
... | Title: World Football Cup
Time Limit: 2 seconds
Memory Limit: 64 megabytes
Problem Description:
Everyone knows that 2010 FIFA World Cup is being held in South Africa now. By the decision of BFA (Berland's Football Association) next World Cup will be held in Berland. BFA took the decision to change some World Cup reg... | ```python
n=int(input())
a={}
for i in range(n):
a[input()]=[0,0,0]
k=n*(n-1)//2
for i in range(k):
s=input().split(' ')
c1,c2=s[0].split('-')
g1,g2=map(int, s[1].split(':'))
a[c1]=[a[c1][0],a[c1][1]+g1,a[c1][2]+g2]
a[c2]=[a[c2][0],a[c2][1]+g2,a[c2][2]+g1]
if g1>g2:
a[c1]... | 0 |
445 | B | DZY Loves Chemistry | PROGRAMMING | 1,400 | [
"dfs and similar",
"dsu",
"greedy"
] | null | null | DZY loves chemistry, and he enjoys mixing chemicals.
DZY has *n* chemicals, and *m* pairs of them will react. He wants to pour these chemicals into a test tube, and he needs to pour them in one by one, in any order.
Let's consider the danger of a test tube. Danger of an empty test tube is 1. And every time when DZY ... | The first line contains two space-separated integers *n* and *m* .
Each of the next *m* lines contains two space-separated integers *x**i* and *y**i* (1<=≤<=*x**i*<=<<=*y**i*<=≤<=*n*). These integers mean that the chemical *x**i* will react with the chemical *y**i*. Each pair of chemicals will appear at most once i... | Print a single integer — the maximum possible danger. | [
"1 0\n",
"2 1\n1 2\n",
"3 2\n1 2\n2 3\n"
] | [
"1\n",
"2\n",
"4\n"
] | In the first sample, there's only one way to pour, and the danger won't increase.
In the second sample, no matter we pour the 1st chemical first, or pour the 2nd chemical first, the answer is always 2.
In the third sample, there are four ways to achieve the maximum possible danger: 2-1-3, 2-3-1, 1-2-3 and 3-2-1 (that... | 1,000 | [
{
"input": "1 0",
"output": "1"
},
{
"input": "2 1\n1 2",
"output": "2"
},
{
"input": "3 2\n1 2\n2 3",
"output": "4"
},
{
"input": "10 10\n1 8\n4 10\n4 6\n5 10\n2 3\n1 7\n3 4\n3 6\n6 9\n3 7",
"output": "512"
},
{
"input": "20 20\n6 8\n13 20\n7 13\n6 17\n5 15\n1 12... | 1,600,448,525 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 4 | 109 | 409,600 | n, m = map(int, input().split())
if m == 0:
print(1)
exit()
from collections import defaultdict
pairs = defaultdict()
for _ in range(m):
x, y = map(int, input().split())
if x in pairs:
pairs[x].append(y)
else:
pairs[x] = [y]
if y in pairs:
pairs[y].ap... | Title: DZY Loves Chemistry
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
DZY loves chemistry, and he enjoys mixing chemicals.
DZY has *n* chemicals, and *m* pairs of them will react. He wants to pour these chemicals into a test tube, and he needs to pour them in one by one, in any order... | ```python
n, m = map(int, input().split())
if m == 0:
print(1)
exit()
from collections import defaultdict
pairs = defaultdict()
for _ in range(m):
x, y = map(int, input().split())
if x in pairs:
pairs[x].append(y)
else:
pairs[x] = [y]
if y in pairs:
p... | 0 | |
950 | B | Intercepted Message | PROGRAMMING | 1,100 | [
"greedy",
"implementation"
] | null | null | Hacker Zhorik wants to decipher two secret messages he intercepted yesterday. Yeah message is a sequence of encrypted blocks, each of them consists of several bytes of information.
Zhorik knows that each of the messages is an archive containing one or more files. Zhorik knows how each of these archives was transferred... | The first line contains two integers *n*, *m* (1<=≤<=*n*,<=*m*<=≤<=105) — the number of blocks in the first and in the second messages.
The second line contains *n* integers *x*1,<=*x*2,<=...,<=*x**n* (1<=≤<=*x**i*<=≤<=106) — the length of the blocks that form the first message.
The third line contains *m* integers *... | Print the maximum number of files the intercepted array could consist of. | [
"7 6\n2 5 3 1 11 4 4\n7 8 2 4 1 8\n",
"3 3\n1 10 100\n1 100 10\n",
"1 4\n4\n1 1 1 1\n"
] | [
"3\n",
"2\n",
"1\n"
] | In the first example the maximum number of files in the archive is 3. For example, it is possible that in the archive are three files of sizes 2 + 5 = 7, 15 = 3 + 1 + 11 = 8 + 2 + 4 + 1 and 4 + 4 = 8.
In the second example it is possible that the archive contains two files of sizes 1 and 110 = 10 + 100 = 100 + 10. Not... | 1,000 | [
{
"input": "7 6\n2 5 3 1 11 4 4\n7 8 2 4 1 8",
"output": "3"
},
{
"input": "3 3\n1 10 100\n1 100 10",
"output": "2"
},
{
"input": "1 4\n4\n1 1 1 1",
"output": "1"
},
{
"input": "1 1\n1000000\n1000000",
"output": "1"
},
{
"input": "3 5\n2 2 9\n2 1 4 2 4",
"outp... | 1,523,324,507 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 0 | 77 | 7,065,600 | a, b = map(int, input().split())
lista = list(map(int, input().split()))
listb = list(map(int, input().split()))
print(lista)
i = 0
j = 0
cnta = 0
cntb = 0
ans = 0
while(i<len(lista) and j < len(listb)):
if(cnta == cntb):
cnta += lista[i]
cntb += listb[j]
ans += 1
... | Title: Intercepted Message
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Hacker Zhorik wants to decipher two secret messages he intercepted yesterday. Yeah message is a sequence of encrypted blocks, each of them consists of several bytes of information.
Zhorik knows that each of the mes... | ```python
a, b = map(int, input().split())
lista = list(map(int, input().split()))
listb = list(map(int, input().split()))
print(lista)
i = 0
j = 0
cnta = 0
cntb = 0
ans = 0
while(i<len(lista) and j < len(listb)):
if(cnta == cntb):
cnta += lista[i]
cntb += listb[j]
a... | 0 | |
120 | B | Quiz League | PROGRAMMING | 1,100 | [
"implementation"
] | null | null | A team quiz game called "What? Where? When?" is very popular in Berland. The game is centered on two teams competing. They are the team of six Experts versus the team of the Audience. A person from the audience asks a question and the experts are allowed a minute on brainstorming and finding the right answer to the que... | The first line contains two positive integers *n* and *k* (1<=≤<=*n*<=≤<=1000 and 1<=≤<=*k*<=≤<=*n*) — the numbers of sectors on the table and the number of the sector where the arrow is pointing. The second line contains *n* numbers: *a**i*<==<=0 if the question from sector *i* has already been asked and *a**i*<==<=1 ... | Print the single number — the number of the sector containing the question the experts will be asked. It is guaranteed that the answer exists, that is that not all the questions have already been asked. | [
"5 5\n0 1 0 1 0\n",
"2 1\n1 1\n"
] | [
"2\n",
"1\n"
] | none | 0 | [
{
"input": "5 5\n0 1 0 1 0",
"output": "2"
},
{
"input": "2 1\n1 1",
"output": "1"
},
{
"input": "3 2\n1 0 0",
"output": "1"
},
{
"input": "3 3\n0 1 0",
"output": "2"
},
{
"input": "1 1\n1",
"output": "1"
},
{
"input": "6 3\n0 0 1 1 0 1",
"output":... | 1,652,137,010 | 2,147,483,647 | PyPy 3-64 | WRONG_ANSWER | TESTS | 0 | 30 | 0 | import sys
def ahmed(n,k,l):
a = False
if l[k-1] !=0:
print(k)
else:
for k in range (n):
if l[k]!=0:
a = True
print(k+1)
break
if a == False:
for i in range (k):
if l[i] != 0:
print(i+1)
break
| Title: Quiz League
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A team quiz game called "What? Where? When?" is very popular in Berland. The game is centered on two teams competing. They are the team of six Experts versus the team of the Audience. A person from the audience asks a quest... | ```python
import sys
def ahmed(n,k,l):
a = False
if l[k-1] !=0:
print(k)
else:
for k in range (n):
if l[k]!=0:
a = True
print(k+1)
break
if a == False:
for i in range (k):
if l[i] != 0:
print(i+1)
break
``` | 0 | |
886 | B | Vlad and Cafes | PROGRAMMING | 1,000 | [] | null | null | Vlad likes to eat in cafes very much. During his life, he has visited cafes *n* times. Unfortunately, Vlad started to feel that his last visits are not any different from each other. To fix that Vlad had a small research.
First of all, Vlad assigned individual indices to all cafes. Then, he wrote down indices of cafes... | In first line there is one integer *n* (1<=≤<=*n*<=≤<=2·105) — number of cafes indices written by Vlad.
In second line, *n* numbers *a*1,<=*a*2,<=...,<=*a**n* (0<=≤<=*a**i*<=≤<=2·105) are written — indices of cafes in order of being visited by Vlad. Vlad could visit some cafes more than once. Note that in numeration, ... | Print one integer — index of the cafe that Vlad hasn't visited for as long as possible. | [
"5\n1 3 2 1 2\n",
"6\n2 1 2 2 4 1\n"
] | [
"3\n",
"2\n"
] | In first test, there are three cafes, and the last visits to cafes with indices 1 and 2 were after the last visit to cafe with index 3; so this cafe is the answer.
In second test case, there are also three cafes, but with indices 1, 2 and 4. Cafes with indices 1 and 4 were visited after the last visit of cafe with in... | 1,000 | [
{
"input": "5\n1 3 2 1 2",
"output": "3"
},
{
"input": "6\n2 1 2 2 4 1",
"output": "2"
},
{
"input": "1\n0",
"output": "0"
},
{
"input": "1\n200000",
"output": "200000"
},
{
"input": "2\n2018 2017",
"output": "2018"
},
{
"input": "5\n100 1000 1000 1000... | 1,510,585,566 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 4 | 2,000 | 11,571,200 | n = int(input())
stolovie = input().split()
stolovie = stolovie[::-1]
number = 0
for i in stolovie:
if stolovie.index(i) > number:
number = stolovie.index(i)
print(stolovie[number]) | Title: Vlad and Cafes
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Vlad likes to eat in cafes very much. During his life, he has visited cafes *n* times. Unfortunately, Vlad started to feel that his last visits are not any different from each other. To fix that Vlad had a small research... | ```python
n = int(input())
stolovie = input().split()
stolovie = stolovie[::-1]
number = 0
for i in stolovie:
if stolovie.index(i) > number:
number = stolovie.index(i)
print(stolovie[number])
``` | 0 | |
0 | none | none | none | 0 | [
"none"
] | null | null | Leonid wants to become a glass carver (the person who creates beautiful artworks by cutting the glass). He already has a rectangular *w* mm <=×<= *h* mm sheet of glass, a diamond glass cutter and lots of enthusiasm. What he lacks is understanding of what to carve and how.
In order not to waste time, he decided to prac... | The first line contains three integers *w*,<=*h*,<=*n* (2<=≤<=*w*,<=*h*<=≤<=200<=000, 1<=≤<=*n*<=≤<=200<=000).
Next *n* lines contain the descriptions of the cuts. Each description has the form *H* *y* or *V* *x*. In the first case Leonid makes the horizontal cut at the distance *y* millimeters (1<=≤<=*y*<=≤<=*h*<=-<=... | After each cut print on a single line the area of the maximum available glass fragment in mm2. | [
"4 3 4\nH 2\nV 2\nV 3\nV 1\n",
"7 6 5\nH 4\nV 3\nV 5\nH 2\nV 1\n"
] | [
"8\n4\n4\n2\n",
"28\n16\n12\n6\n4\n"
] | Picture for the first sample test: | 0 | [
{
"input": "4 3 4\nH 2\nV 2\nV 3\nV 1",
"output": "8\n4\n4\n2"
},
{
"input": "7 6 5\nH 4\nV 3\nV 5\nH 2\nV 1",
"output": "28\n16\n12\n6\n4"
},
{
"input": "2 2 1\nV 1",
"output": "2"
},
{
"input": "2 2 1\nH 1",
"output": "2"
},
{
"input": "2 2 2\nV 1\nH 1",
"ou... | 1,438,218,021 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 10 | 2,000 | 819,200 | #!/usr/bin/env python3
# -*- coding: utf-8 -*
import copy
def func(X, l):
for i in range(len(X)):
if X[i][0] < l and l < X[i][1]:
X.append([X[i][0], l])
X.append([l, X[i][1]])
del X[i]
return X
(w, h, n) = (int(i) for i in input().split())
S = w*h
W = [ [0, w] ]... | Title: none
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Leonid wants to become a glass carver (the person who creates beautiful artworks by cutting the glass). He already has a rectangular *w* mm <=×<= *h* mm sheet of glass, a diamond glass cutter and lots of enthusiasm. What he lacks ... | ```python
#!/usr/bin/env python3
# -*- coding: utf-8 -*
import copy
def func(X, l):
for i in range(len(X)):
if X[i][0] < l and l < X[i][1]:
X.append([X[i][0], l])
X.append([l, X[i][1]])
del X[i]
return X
(w, h, n) = (int(i) for i in input().split())
S = w*h
W = ... | 0 | |
29 | B | Traffic Lights | PROGRAMMING | 1,500 | [
"implementation"
] | B. Traffic Lights | 2 | 256 | A car moves from point A to point B at speed *v* meters per second. The action takes place on the X-axis. At the distance *d* meters from A there are traffic lights. Starting from time 0, for the first *g* seconds the green light is on, then for the following *r* seconds the red light is on, then again the green light ... | The first line contains integers *l*, *d*, *v*, *g*, *r* (1<=≤<=*l*,<=*d*,<=*v*,<=*g*,<=*r*<=≤<=1000,<=*d*<=<<=*l*) — the distance between A and B (in meters), the distance from A to the traffic lights, car's speed, the duration of green light and the duration of red light. | Output a single number — the minimum time that the car needs to get from point A to point B. Your output must have relative or absolute error less than 10<=-<=6. | [
"2 1 3 4 5\n",
"5 4 3 1 1\n"
] | [
"0.66666667\n",
"2.33333333\n"
] | none | 1,000 | [
{
"input": "2 1 3 4 5",
"output": "0.66666667"
},
{
"input": "5 4 3 1 1",
"output": "2.33333333"
},
{
"input": "862 33 604 888 704",
"output": "1.42715232"
},
{
"input": "458 251 49 622 472",
"output": "9.34693878"
},
{
"input": "772 467 142 356 889",
"output"... | 1,676,309,287 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 0 | 30 | 0 | def traffic_light_time(v, d, g, r, f):
time = d / v
cycle_time = g + r
cycle_count = time // cycle_time
remainder = time % cycle_time
if remainder > g:
time = cycle_time * cycle_count + g + (r - remainder)
else:
time = cycle_time * cycle_count + remainder
return time... | Title: Traffic Lights
Time Limit: 2 seconds
Memory Limit: 256 megabytes
Problem Description:
A car moves from point A to point B at speed *v* meters per second. The action takes place on the X-axis. At the distance *d* meters from A there are traffic lights. Starting from time 0, for the first *g* seconds the green ... | ```python
def traffic_light_time(v, d, g, r, f):
time = d / v
cycle_time = g + r
cycle_count = time // cycle_time
remainder = time % cycle_time
if remainder > g:
time = cycle_time * cycle_count + g + (r - remainder)
else:
time = cycle_time * cycle_count + remainder
r... | 0 |
628 | D | Magic Numbers | PROGRAMMING | 2,200 | [
"dp"
] | null | null | Consider the decimal presentation of an integer. Let's call a number d-magic if digit *d* appears in decimal presentation of the number on even positions and nowhere else.
For example, the numbers 1727374, 17, 1 are 7-magic but 77, 7, 123, 34, 71 are not 7-magic. On the other hand the number 7 is 0-magic, 123 is 2-mag... | The first line contains two integers *m*,<=*d* (1<=≤<=*m*<=≤<=2000, 0<=≤<=*d*<=≤<=9) — the parameters from the problem statement.
The second line contains positive integer *a* in decimal presentation (without leading zeroes).
The third line contains positive integer *b* in decimal presentation (without leading zeroes... | Print the only integer *a* — the remainder after dividing by 109<=+<=7 of the number of d-magic numbers in segment [*a*,<=*b*] that are multiple of *m*. | [
"2 6\n10\n99\n",
"2 0\n1\n9\n",
"19 7\n1000\n9999\n"
] | [
"8\n",
"4\n",
"6\n"
] | The numbers from the answer of the first example are 16, 26, 36, 46, 56, 76, 86 and 96.
The numbers from the answer of the second example are 2, 4, 6 and 8.
The numbers from the answer of the third example are 1767, 2717, 5757, 6707, 8797 and 9747. | 0 | [
{
"input": "2 6\n10\n99",
"output": "8"
},
{
"input": "2 0\n1\n9",
"output": "4"
},
{
"input": "19 7\n1000\n9999",
"output": "6"
},
{
"input": "9 4\n33\n52",
"output": "0"
},
{
"input": "10 8\n18\n59",
"output": "0"
},
{
"input": "43 3\n587\n850",
... | 1,547,410,297 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 15 | 2,000 | 307,200 | #!/usr/bin/env python3
from __future__ import division, print_function
def addmod(left, right, modulo=1000000007):
res = left + right
if res >= modulo:
res -= modulo
return res
def counter(a, m, d):
res = [0, ] * (2*m)
res[0] = 1
shift = 1
for pos in range(len(a), 0, -1):
... | Title: Magic Numbers
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Consider the decimal presentation of an integer. Let's call a number d-magic if digit *d* appears in decimal presentation of the number on even positions and nowhere else.
For example, the numbers 1727374, 17, 1 are 7-ma... | ```python
#!/usr/bin/env python3
from __future__ import division, print_function
def addmod(left, right, modulo=1000000007):
res = left + right
if res >= modulo:
res -= modulo
return res
def counter(a, m, d):
res = [0, ] * (2*m)
res[0] = 1
shift = 1
for pos in range(len(a), 0, -1)... | 0 | |
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. E... | 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 di... | 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",
... | 1,621,365,412 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 3 | 124 | 0 | d = {}
for _ in range(int(input())):
s = input()
for i in s:
if i in d:
d[i] += 1
else:
d[i] = 1
max_val = max(list(d.values()))
res = []
for j in d:
if d[j] == max_val:
res.append(j)
print("".join(res)) | 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... | ```python
d = {}
for _ in range(int(input())):
s = input()
for i in s:
if i in d:
d[i] += 1
else:
d[i] = 1
max_val = max(list(d.values()))
res = []
for j in d:
if d[j] == max_val:
res.append(j)
print("".join(res))
``` | 0 |
9 | A | Die Roll | PROGRAMMING | 800 | [
"math",
"probabilities"
] | A. Die Roll | 1 | 64 | Yakko, Wakko and Dot, world-famous animaniacs, decided to rest from acting in cartoons, and take a leave to travel a bit. Yakko dreamt to go to Pennsylvania, his Motherland and the Motherland of his ancestors. Wakko thought about Tasmania, its beaches, sun and sea. Dot chose Transylvania as the most mysterious and unpr... | The only line of the input file contains two natural numbers Y and W — the results of Yakko's and Wakko's die rolls. | Output the required probability in the form of irreducible fraction in format «A/B», where A — the numerator, and B — the denominator. If the required probability equals to zero, output «0/1». If the required probability equals to 1, output «1/1». | [
"4 2\n"
] | [
"1/2\n"
] | Dot will go to Transylvania, if she is lucky to roll 4, 5 or 6 points. | 0 | [
{
"input": "4 2",
"output": "1/2"
},
{
"input": "1 1",
"output": "1/1"
},
{
"input": "1 2",
"output": "5/6"
},
{
"input": "1 3",
"output": "2/3"
},
{
"input": "1 4",
"output": "1/2"
},
{
"input": "1 5",
"output": "1/3"
},
{
"input": "1 6",
... | 1,610,913,856 | 2,147,483,647 | Python 3 | RUNTIME_ERROR | TESTS | 0 | 92 | 0 | # This is a sample Python script.
a = int(input())
b = int(input())
m = max(a, b)
m = 7-m
if m ==1:
print("1/6")
elif m==2:
print("1/3")
elif m==3:
print("1/2")
elif m==4:
print("2/3")
elif m==5:
print("5/6")
else:
print("1/1")
| Title: Die Roll
Time Limit: 1 seconds
Memory Limit: 64 megabytes
Problem Description:
Yakko, Wakko and Dot, world-famous animaniacs, decided to rest from acting in cartoons, and take a leave to travel a bit. Yakko dreamt to go to Pennsylvania, his Motherland and the Motherland of his ancestors. Wakko thought about T... | ```python
# This is a sample Python script.
a = int(input())
b = int(input())
m = max(a, b)
m = 7-m
if m ==1:
print("1/6")
elif m==2:
print("1/3")
elif m==3:
print("1/2")
elif m==4:
print("2/3")
elif m==5:
print("5/6")
else:
print("1/1")
``` | -1 |
621 | A | Wet Shark and Odd and Even | PROGRAMMING | 900 | [
"implementation"
] | null | null | Today, Wet Shark is given *n* integers. Using any of these integers no more than once, Wet Shark wants to get maximum possible even (divisible by 2) sum. Please, calculate this value for Wet Shark.
Note, that if Wet Shark uses no integers from the *n* integers, the sum is an even integer 0. | The first line of the input contains one integer, *n* (1<=≤<=*n*<=≤<=100<=000). The next line contains *n* space separated integers given to Wet Shark. Each of these integers is in range from 1 to 109, inclusive. | Print the maximum possible even sum that can be obtained if we use some of the given integers. | [
"3\n1 2 3\n",
"5\n999999999 999999999 999999999 999999999 999999999\n"
] | [
"6",
"3999999996"
] | In the first sample, we can simply take all three integers for a total sum of 6.
In the second sample Wet Shark should take any four out of five integers 999 999 999. | 500 | [
{
"input": "3\n1 2 3",
"output": "6"
},
{
"input": "5\n999999999 999999999 999999999 999999999 999999999",
"output": "3999999996"
},
{
"input": "1\n1",
"output": "0"
},
{
"input": "15\n39 52 88 78 46 95 84 98 55 3 68 42 6 18 98",
"output": "870"
},
{
"input": "15\... | 1,579,539,144 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 14 | 155 | 8,499,200 | def wet_shark(a):
sum=0
a.sort()
for i in range(len(a)):
sum+=a[i]
if sum%2==0:
print(sum)
else:
i=0
while sum%2!=0:
sum=sum-a[i]
i=i+1
print(sum)
n=int(input(''))
a=list(map(int,input('').split()))
wet_shark(... | Title: Wet Shark and Odd and Even
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Today, Wet Shark is given *n* integers. Using any of these integers no more than once, Wet Shark wants to get maximum possible even (divisible by 2) sum. Please, calculate this value for Wet Shark.
Note, th... | ```python
def wet_shark(a):
sum=0
a.sort()
for i in range(len(a)):
sum+=a[i]
if sum%2==0:
print(sum)
else:
i=0
while sum%2!=0:
sum=sum-a[i]
i=i+1
print(sum)
n=int(input(''))
a=list(map(int,input('').split()))
... | 0 | |
285 | D | Permutation Sum | PROGRAMMING | 1,900 | [
"bitmasks",
"combinatorics",
"dp",
"implementation",
"meet-in-the-middle"
] | null | null | Permutation *p* is an ordered set of integers *p*1,<=<=*p*2,<=<=...,<=<=*p**n*, consisting of *n* distinct positive integers, each of them doesn't exceed *n*. We'll denote the *i*-th element of permutation *p* as *p**i*. We'll call number *n* the size or the length of permutation *p*1,<=<=*p*2,<=<=...,<=<=*p**n*.
Pety... | The single line contains integer *n* (1<=≤<=*n*<=≤<=16). | In the single line print a single non-negative integer — the number of such pairs of permutations *a* and *b*, that exists permutation *c* that is sum of *a* and *b*, modulo 1000000007 (109<=+<=7). | [
"3\n",
"5\n"
] | [
"18\n",
"1800\n"
] | none | 2,000 | [
{
"input": "3",
"output": "18"
},
{
"input": "5",
"output": "1800"
},
{
"input": "13",
"output": "695720788"
},
{
"input": "1",
"output": "1"
},
{
"input": "2",
"output": "0"
},
{
"input": "4",
"output": "0"
},
{
"input": "6",
"output":... | 1,667,170,256 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 16 | 92 | 0 | import sys
from array import array
from math import factorial as f
input = lambda: sys.stdin.buffer.readline().decode().strip()
inp = lambda dtype: [dtype(x) for x in input().split()]
inp_2d = lambda dtype, n: [dtype(input()) for _ in range(n)]
inp_2ds = lambda dtype, n: [inp(dtype) for _ in range(n)]
ceil1 = ... | Title: Permutation Sum
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Permutation *p* is an ordered set of integers *p*1,<=<=*p*2,<=<=...,<=<=*p**n*, consisting of *n* distinct positive integers, each of them doesn't exceed *n*. We'll denote the *i*-th element of permutation *p* as *p**i*... | ```python
import sys
from array import array
from math import factorial as f
input = lambda: sys.stdin.buffer.readline().decode().strip()
inp = lambda dtype: [dtype(x) for x in input().split()]
inp_2d = lambda dtype, n: [dtype(input()) for _ in range(n)]
inp_2ds = lambda dtype, n: [inp(dtype) for _ in range(n)]... | 3 | |
948 | A | Protect Sheep | PROGRAMMING | 900 | [
"brute force",
"dfs and similar",
"graphs",
"implementation"
] | null | null | Bob is a farmer. He has a large pasture with many sheep. Recently, he has lost some of them due to wolf attacks. He thus decided to place some shepherd dogs in such a way that all his sheep are protected.
The pasture is a rectangle consisting of *R*<=×<=*C* cells. Each cell is either empty, contains a sheep, a wolf or... | First line contains two integers *R* (1<=≤<=*R*<=≤<=500) and *C* (1<=≤<=*C*<=≤<=500), denoting the number of rows and the numbers of columns respectively.
Each of the following *R* lines is a string consisting of exactly *C* characters, representing one row of the pasture. Here, 'S' means a sheep, 'W' a wolf and '.' a... | If it is impossible to protect all sheep, output a single line with the word "No".
Otherwise, output a line with the word "Yes". Then print *R* lines, representing the pasture after placing dogs. Again, 'S' means a sheep, 'W' a wolf, 'D' is a dog and '.' an empty space. You are not allowed to move, remove or add a she... | [
"6 6\n..S...\n..S.W.\n.S....\n..W...\n...W..\n......\n",
"1 2\nSW\n",
"5 5\n.S...\n...S.\nS....\n...S.\n.S...\n"
] | [
"Yes\n..SD..\n..SDW.\n.SD...\n.DW...\nDD.W..\n......\n",
"No\n",
"Yes\n.S...\n...S.\nS.D..\n...S.\n.S...\n"
] | In the first example, we can split the pasture into two halves, one containing wolves and one containing sheep. Note that the sheep at (2,1) is safe, as wolves cannot move diagonally.
In the second example, there are no empty spots to put dogs that would guard the lone sheep.
In the third example, there are no wolves... | 500 | [
{
"input": "1 2\nSW",
"output": "No"
},
{
"input": "10 10\n....W.W.W.\n.........S\n.S.S...S..\nW.......SS\n.W..W.....\n.W...W....\nS..S...S.S\n....W...S.\n..S..S.S.S\nSS.......S",
"output": "Yes\nDDDDWDWDWD\nDDDDDDDDDS\nDSDSDDDSDD\nWDDDDDDDSS\nDWDDWDDDDD\nDWDDDWDDDD\nSDDSDDDSDS\nDDDDWDDDSD\nDDSD... | 1,561,289,081 | 2,147,483,647 | PyPy 3 | WRONG_ANSWER | TESTS | 0 | 124 | 0 | def ez(a, i, j):
if a[i][j] == '.':
a[i][j] = 'D'
elif a[i][j] == 'W':
return 1
a = []
n, m = [int(i) for i in input().split()]
for i in range(n):
a.append(['D'] + list(input()) + ['D'])
a.insert(n, ['D' for i in range(m)])
a.insert(0, ['D' for i in range(m)])
for i in ran... | Title: Protect Sheep
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Bob is a farmer. He has a large pasture with many sheep. Recently, he has lost some of them due to wolf attacks. He thus decided to place some shepherd dogs in such a way that all his sheep are protected.
The pasture is ... | ```python
def ez(a, i, j):
if a[i][j] == '.':
a[i][j] = 'D'
elif a[i][j] == 'W':
return 1
a = []
n, m = [int(i) for i in input().split()]
for i in range(n):
a.append(['D'] + list(input()) + ['D'])
a.insert(n, ['D' for i in range(m)])
a.insert(0, ['D' for i in range(m)])
fo... | 0 | |
992 | A | Nastya and an Array | PROGRAMMING | 800 | [
"implementation",
"sortings"
] | null | null | Nastya owns too many arrays now, so she wants to delete the least important of them. However, she discovered that this array is magic! Nastya now knows that the array has the following properties:
- In one second we can add an arbitrary (possibly negative) integer to all elements of the array that are not equal to ze... | The first line contains a single integer *n* (1<=≤<=*n*<=≤<=105) — the size of the array.
The second line contains *n* integers *a*1,<=*a*2,<=...,<=*a**n* (<=-<=105<=≤<=*a**i*<=≤<=105) — the elements of the array. | Print a single integer — the minimum number of seconds needed to make all elements of the array equal to zero. | [
"5\n1 1 1 1 1\n",
"3\n2 0 -1\n",
"4\n5 -6 -5 1\n"
] | [
"1\n",
"2\n",
"4\n"
] | In the first example you can add - 1 to all non-zero elements in one second and make them equal to zero.
In the second example you can add - 2 on the first second, then the array becomes equal to [0, 0, - 3]. On the second second you can add 3 to the third (the only non-zero) element. | 500 | [
{
"input": "5\n1 1 1 1 1",
"output": "1"
},
{
"input": "3\n2 0 -1",
"output": "2"
},
{
"input": "4\n5 -6 -5 1",
"output": "4"
},
{
"input": "1\n0",
"output": "0"
},
{
"input": "2\n21794 -79194",
"output": "2"
},
{
"input": "3\n-63526 95085 -5239",
... | 1,638,550,590 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 5 | 1,000 | 7,270,400 | n = int(input())
a = list(map(int, input().split(' ')))
count = 0
for j in range(0,n):
if a[j]!=0:
a.sort()
i = 0
while a[i] == 0:
i = i + 1
minele = a[i]
for i in range(0, n):
if a[i] != 0:
a[i] = a[i] - minele
count = co... | Title: Nastya and an Array
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Nastya owns too many arrays now, so she wants to delete the least important of them. However, she discovered that this array is magic! Nastya now knows that the array has the following properties:
- In one second ... | ```python
n = int(input())
a = list(map(int, input().split(' ')))
count = 0
for j in range(0,n):
if a[j]!=0:
a.sort()
i = 0
while a[i] == 0:
i = i + 1
minele = a[i]
for i in range(0, n):
if a[i] != 0:
a[i] = a[i] - minele
... | 0 | |
233 | A | Perfect Permutation | PROGRAMMING | 800 | [
"implementation",
"math"
] | null | null | A permutation is a sequence of integers *p*1,<=*p*2,<=...,<=*p**n*, consisting of *n* distinct positive integers, each of them doesn't exceed *n*. Let's denote the *i*-th element of permutation *p* as *p**i*. We'll call number *n* the size of permutation *p*1,<=*p*2,<=...,<=*p**n*.
Nickolas adores permutations. He lik... | A single line contains a single integer *n* (1<=≤<=*n*<=≤<=100) — the permutation size. | If a perfect permutation of size *n* doesn't exist, print a single integer -1. Otherwise print *n* distinct integers from 1 to *n*, *p*1,<=*p*2,<=...,<=*p**n* — permutation *p*, that is perfect. Separate printed numbers by whitespaces. | [
"1\n",
"2\n",
"4\n"
] | [
"-1\n",
"2 1 \n",
"2 1 4 3 \n"
] | none | 500 | [
{
"input": "1",
"output": "-1"
},
{
"input": "2",
"output": "2 1 "
},
{
"input": "4",
"output": "2 1 4 3 "
},
{
"input": "3",
"output": "-1"
},
{
"input": "5",
"output": "-1"
},
{
"input": "6",
"output": "2 1 4 3 6 5 "
},
{
"input": "7",
... | 1,664,259,795 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 30 | 122 | 0 | n=int(input())
if n%2==1:print(-1);exit()
for i in range(1,n+1):
if i%2==0:print(i-1,end=' ')
else:print(i+1,end=' ') | Title: Perfect Permutation
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
A permutation is a sequence of integers *p*1,<=*p*2,<=...,<=*p**n*, consisting of *n* distinct positive integers, each of them doesn't exceed *n*. Let's denote the *i*-th element of permutation *p* as *p**i*. We'll ... | ```python
n=int(input())
if n%2==1:print(-1);exit()
for i in range(1,n+1):
if i%2==0:print(i-1,end=' ')
else:print(i+1,end=' ')
``` | 3 | |
552 | B | Vanya and Books | PROGRAMMING | 1,200 | [
"implementation",
"math"
] | null | null | Vanya got an important task — he should enumerate books in the library and label each book with its number. Each of the *n* books should be assigned with a number from 1 to *n*. Naturally, distinct books should be assigned distinct numbers.
Vanya wants to know how many digits he will have to write down as he labels th... | The first line contains integer *n* (1<=≤<=*n*<=≤<=109) — the number of books in the library. | Print the number of digits needed to number all the books. | [
"13\n",
"4\n"
] | [
"17\n",
"4\n"
] | Note to the first test. The books get numbers 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, which totals to 17 digits.
Note to the second sample. The books get numbers 1, 2, 3, 4, which totals to 4 digits. | 1,000 | [
{
"input": "13",
"output": "17"
},
{
"input": "4",
"output": "4"
},
{
"input": "100",
"output": "192"
},
{
"input": "99",
"output": "189"
},
{
"input": "1000000000",
"output": "8888888899"
},
{
"input": "1000000",
"output": "5888896"
},
{
"... | 1,604,265,543 | 2,147,483,647 | Python 3 | WRONG_ANSWER | TESTS | 2 | 93 | 307,200 | n = int(input())
if n < 10:
print(n)
elif n < 100:
print(9 + 2*(n-9))
elif n < 1000:
print(99 + 3*(n-99))
elif n < 10000:
print(999 + 4*(n-999))
elif n < 100000:
print(9999 + 5*(n-9999))
elif n < 1000000:
print(99999 + 6*(n-99999))
elif n < 10000000:
print(999999 + 7*(n-999999)... | Title: Vanya and Books
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Vanya got an important task — he should enumerate books in the library and label each book with its number. Each of the *n* books should be assigned with a number from 1 to *n*. Naturally, distinct books should be assig... | ```python
n = int(input())
if n < 10:
print(n)
elif n < 100:
print(9 + 2*(n-9))
elif n < 1000:
print(99 + 3*(n-99))
elif n < 10000:
print(999 + 4*(n-999))
elif n < 100000:
print(9999 + 5*(n-9999))
elif n < 1000000:
print(99999 + 6*(n-99999))
elif n < 10000000:
print(999999 + 7*... | 0 | |
609 | A | USB Flash Drives | PROGRAMMING | 800 | [
"greedy",
"implementation",
"sortings"
] | null | null | Sean is trying to save a large file to a USB flash drive. He has *n* USB flash drives with capacities equal to *a*1,<=*a*2,<=...,<=*a**n* megabytes. The file size is equal to *m* megabytes.
Find the minimum number of USB flash drives needed to write Sean's file, if he can split the file between drives. | The first line contains positive integer *n* (1<=≤<=*n*<=≤<=100) — the number of USB flash drives.
The second line contains positive integer *m* (1<=≤<=*m*<=≤<=105) — the size of Sean's file.
Each of the next *n* lines contains positive integer *a**i* (1<=≤<=*a**i*<=≤<=1000) — the sizes of USB flash drives in megabyt... | Print the minimum number of USB flash drives to write Sean's file, if he can split the file between drives. | [
"3\n5\n2\n1\n3\n",
"3\n6\n2\n3\n2\n",
"2\n5\n5\n10\n"
] | [
"2\n",
"3\n",
"1\n"
] | In the first example Sean needs only two USB flash drives — the first and the third.
In the second example Sean needs all three USB flash drives.
In the third example Sean needs only one USB flash drive and he can use any available USB flash drive — the first or the second. | 0 | [
{
"input": "3\n5\n2\n1\n3",
"output": "2"
},
{
"input": "3\n6\n2\n3\n2",
"output": "3"
},
{
"input": "2\n5\n5\n10",
"output": "1"
},
{
"input": "5\n16\n8\n1\n3\n4\n9",
"output": "2"
},
{
"input": "10\n121\n10\n37\n74\n56\n42\n39\n6\n68\n8\n100",
"output": "2"
... | 1,548,759,115 | 2,147,483,647 | Python 3 | OK | TESTS | 34 | 124 | 0 | n = int(input())
c=int(input())
d=[]
k=0
for i in range(n):
s=int(input())
d.append(s)
d.sort(reverse=True)
for i in d:
c=c-i
k=k+1
if c<=0:
break
print(k)
| Title: USB Flash Drives
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
Sean is trying to save a large file to a USB flash drive. He has *n* USB flash drives with capacities equal to *a*1,<=*a*2,<=...,<=*a**n* megabytes. The file size is equal to *m* megabytes.
Find the minimum number of... | ```python
n = int(input())
c=int(input())
d=[]
k=0
for i in range(n):
s=int(input())
d.append(s)
d.sort(reverse=True)
for i in d:
c=c-i
k=k+1
if c<=0:
break
print(k)
``` | 3 | |
15 | A | Cottage Village | PROGRAMMING | 1,200 | [
"implementation",
"sortings"
] | A. Cottage Village | 2 | 64 | A new cottage village called «Flatville» is being built in Flatland. By now they have already built in «Flatville» *n* square houses with the centres on the *Оx*-axis. The houses' sides are parallel to the coordinate axes. It's known that no two houses overlap, but they can touch each other.
The architect bureau, wher... | The first line of the input data contains numbers *n* and *t* (1<=≤<=*n*,<=*t*<=≤<=1000). Then there follow *n* lines, each of them contains two space-separated integer numbers: *x**i* *a**i*, where *x**i* — *x*-coordinate of the centre of the *i*-th house, and *a**i* — length of its side (<=-<=1000<=≤<=*x**i*<=≤<=1000... | Output the amount of possible positions of the new house. | [
"2 2\n0 4\n6 2\n",
"2 2\n0 4\n5 2\n",
"2 3\n0 4\n5 2\n"
] | [
"4\n",
"3\n",
"2\n"
] | It is possible for the *x*-coordinate of the new house to have non-integer value. | 0 | [
{
"input": "2 2\n0 4\n6 2",
"output": "4"
},
{
"input": "2 2\n0 4\n5 2",
"output": "3"
},
{
"input": "2 3\n0 4\n5 2",
"output": "2"
},
{
"input": "1 1\n1 1",
"output": "2"
},
{
"input": "1 2\n2 1",
"output": "2"
},
{
"input": "2 1\n2 1\n1 1",
"outp... | 1,463,725,590 | 2,147,483,647 | Python 3 | OK | TESTS | 35 | 124 | 5,120,000 | import math
n, t = map( int, input().split() )
loc = []
num = 2
for i in range(n):
x, a = map( int, input().split() )
loc.append( (x-a/2, x+a/2) )
#print(loc)
sortedLoc = sorted(loc, key = lambda e: e[0])
#print(sortedLoc)
for i in range(1, len(loc)):
dif = sortedLoc[i][0] - sortedLoc... | Title: Cottage Village
Time Limit: 2 seconds
Memory Limit: 64 megabytes
Problem Description:
A new cottage village called «Flatville» is being built in Flatland. By now they have already built in «Flatville» *n* square houses with the centres on the *Оx*-axis. The houses' sides are parallel to the coordinate axes. I... | ```python
import math
n, t = map( int, input().split() )
loc = []
num = 2
for i in range(n):
x, a = map( int, input().split() )
loc.append( (x-a/2, x+a/2) )
#print(loc)
sortedLoc = sorted(loc, key = lambda e: e[0])
#print(sortedLoc)
for i in range(1, len(loc)):
dif = sortedLoc[i][0] -... | 3.930853 |
8 | A | Train and Peter | PROGRAMMING | 1,200 | [
"strings"
] | A. Train and Peter | 1 | 64 | Peter likes to travel by train. He likes it so much that on the train he falls asleep.
Once in summer Peter was going by train from city A to city B, and as usual, was sleeping. Then he woke up, started to look through the window and noticed that every railway station has a flag of a particular colour.
The boy start... | The input data contains three lines. The first line contains a non-empty string, whose length does not exceed 105, the string consists of lowercase Latin letters — the flags' colours at the stations on the way from A to B. On the way from B to A the train passes the same stations, but in reverse order.
The second lin... | Output one of the four words without inverted commas:
- «forward» — if Peter could see such sequences only on the way from A to B; - «backward» — if Peter could see such sequences on the way from B to A; - «both» — if Peter could see such sequences both on the way from A to B, and on the way from B to A; - «fanta... | [
"atob\na\nb\n",
"aaacaaa\naca\naa\n"
] | [
"forward\n",
"both\n"
] | It is assumed that the train moves all the time, so one flag cannot be seen twice. There are no flags at stations A and B. | 0 | [
{
"input": "atob\na\nb",
"output": "forward"
},
{
"input": "aaacaaa\naca\naa",
"output": "both"
},
{
"input": "aaa\naa\naa",
"output": "fantasy"
},
{
"input": "astalavista\nastla\nlavista",
"output": "fantasy"
},
{
"input": "abacabadabacaba\nabacaba\nabacaba",
... | 1,697,775,773 | 2,147,483,647 | PyPy 3-64 | OK | TESTS | 54 | 124 | 1,638,400 | s=input()
x=input()
y=input()
d=0
q="".join(reversed(s))
if x in s:
i=len(s)
e=s.find(x)
a=e+len(x)
s=s[a:i]
if y in s:
d+=1
if x in q:
i=len(q)
e=q.find(x)
a=e+len(x)
q=q[a:i]
if y in q:
d+=2
if d==0:
print("fantasy")... | Title: Train and Peter
Time Limit: 1 seconds
Memory Limit: 64 megabytes
Problem Description:
Peter likes to travel by train. He likes it so much that on the train he falls asleep.
Once in summer Peter was going by train from city A to city B, and as usual, was sleeping. Then he woke up, started to look through the... | ```python
s=input()
x=input()
y=input()
d=0
q="".join(reversed(s))
if x in s:
i=len(s)
e=s.find(x)
a=e+len(x)
s=s[a:i]
if y in s:
d+=1
if x in q:
i=len(q)
e=q.find(x)
a=e+len(x)
q=q[a:i]
if y in q:
d+=2
if d==0:
print(... | 3.925793 |
858 | D | Polycarp's phone book | PROGRAMMING | 1,600 | [
"data structures",
"implementation",
"sortings"
] | null | null | There are *n* phone numbers in Polycarp's contacts on his phone. Each number is a 9-digit integer, starting with a digit different from 0. All the numbers are distinct.
There is the latest version of Berdroid OS installed on Polycarp's phone. If some number is entered, is shows up all the numbers in the contacts for w... | The first line contains single integer *n* (1<=≤<=*n*<=≤<=70000) — the total number of phone contacts in Polycarp's contacts.
The phone numbers follow, one in each line. Each number is a positive 9-digit integer starting with a digit from 1 to 9. All the numbers are distinct. | Print exactly *n* lines: the *i*-th of them should contain the shortest non-empty sequence of digits, such that if Polycarp enters it, the Berdroid OS shows up only the *i*-th number from the contacts. If there are several such sequences, print any of them. | [
"3\n123456789\n100000000\n100123456\n",
"4\n123456789\n193456789\n134567819\n934567891\n"
] | [
"9\n000\n01\n",
"2\n193\n81\n91\n"
] | none | 2,000 | [
{
"input": "3\n123456789\n100000000\n100123456",
"output": "9\n000\n01"
},
{
"input": "4\n123456789\n193456789\n134567819\n934567891",
"output": "2\n193\n81\n91"
},
{
"input": "1\n167038488",
"output": "4"
},
{
"input": "5\n115830748\n403459907\n556271610\n430358099\n41396141... | 1,506,174,330 | 2,147,483,647 | Python 3 | TIME_LIMIT_EXCEEDED | TESTS | 2 | 4,000 | 4,300,800 | n = int(input())
kn = []
for i in range(n):
kn.append(input())
for i in range(n):
for j in range(9):
for l in range(10-j):
for o in range(n):
s=kn[i][l:l+j]
if kn[o].find(s) != -1 and o != i:... | Title: Polycarp's phone book
Time Limit: None seconds
Memory Limit: None megabytes
Problem Description:
There are *n* phone numbers in Polycarp's contacts on his phone. Each number is a 9-digit integer, starting with a digit different from 0. All the numbers are distinct.
There is the latest version of Berdroid OS ... | ```python
n = int(input())
kn = []
for i in range(n):
kn.append(input())
for i in range(n):
for j in range(9):
for l in range(10-j):
for o in range(n):
s=kn[i][l:l+j]
if kn[o].find(s) != -1 a... | 0 |
Subsets and Splits
Successful Python Submissions
Retrieves all records from the train dataset where the verdict is 'OK', providing basic filtering but limited analytical value.
SQL Console for MatrixStudio/Codeforces-Python-Submissions
Retrieves records of users with a rating of 1600 or higher and a verdict of 'OK', providing basic filtering but limited analytical value.
SQL Console for MatrixStudio/Codeforces-Python-Submissions
Counts the number of entries with a rating above 2000 and a verdict of 'OK', providing basic filtering but limited analytical value.
SQL Console for MatrixStudio/Codeforces-Python-Submissions
Counts the number of entries with a 'OK' verdict, providing a basic overview of a specific category within the dataset.