navidadkhah/bug_evaluation_dataset · Datasets at Hugging Face

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i**(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

if i**(j*j)!=0:

13

operation

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i==ans): ans = i print(ans)

if (flag) and (i==ans):

18

decision

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)/1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

for i in range(2,int(n/2)/1):

5

operation

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(152,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

for j in range(152,i):

12

value

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i == 0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

__author__ = 'yarsanich' import math n = int(input()) a = [] for i in range(2,int(n/2)+1): if n % i<0: a.append(i) a.append(n) ans = 0 for i in a: flag = False for j in range(2,i): if i%(j*j)!=0: flag = True else: flag = False break if (flag) and (i>ans): ans = i print(ans)

if n % i<0:

6

decision

n, pos, l, r=map(int, input().split()) res=0 f=0 if (l!=1): res+=1 res+=abs(pos-l) f=1 if (r!=n): res+=1 if (f==1): res+=abs(l-r) else: res+=abs(r-pos) print (res)

n, pos, l, r=map(int, input().split()) res=0 f=0 if (l!=1): res+=1 res+=abs(pos-l) f=1 if (r!=n): res+=1 if (f==1): res+=abs(l-r) else: res+=abs(r%pos) print (res)

res+=abs(r%pos)

13

operation

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n|1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

for i in range(1, n|1):

4

operation

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

def main(): count = 44 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

count = 44

2

value

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i>=n: count += 1 print(count) main()

if x // i>=n:

6

decision

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x@i <= n: count += 1 print(count) main()

if x@i <= n:

6

operation

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i == 0: if x // i <= n: count += 1 print(count) main()

def main(): count = 0 n, x = map(int, input().split()) for i in range(1, n + 1): if x % i<0: if x // i <= n: count += 1 print(count) main()

if x % i<0:

5

decision

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]]%2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

if num_dict[key_array[x]]%2 == 1:

22

operation

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]]/2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

if num_dict[key_array[x]]/2 == 1:

22

operation

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

x = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

x = int(input().strip())

1

statement

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2 == 1: print('Conan') printed = True break if not printed: print('Agasa')

n = int(input().strip()) line = input().strip() num_array = line.split() num_dict = {} for num in num_array: if num in num_dict: num_dict[num] += 1 else: num_dict[num] = 1 key_array = [] for key in num_dict: key_array.append(key) key_array = sorted(key_array, reverse=True) printed = False num_max = num_dict[key_array[0]] for x in range(len(key_array)): if num_dict[key_array[x]] % 2<1: print('Conan') printed = True break if not printed: print('Agasa')

if num_dict[key_array[x]] % 2<1:

22

decision

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element*l[max_index-1])) else: print(1, 0)

print(max_index, int(max_element*l[max_index-1]))

16

operation

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>66: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

if max_element>66:

15

value

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))%1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

max_index = w_all.index(max(w_all))%1

13

operation

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])^l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

w_all.append(int(n/l[i])^l[i]);

10

operation

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]>0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

s = input(); n = int(s.split()[0]); k = int(s.split()[1]); s = input(); t_l = s.split(); l = [int(t_l[i]) for i in range(k)]; w_all=[] for i in range(k): if l[i]==0: w_all.append(int(n/l[i])*l[i]); else: w_all.append(-1); max_index = w_all.index(max(w_all))+1 max_element = max(w_all); if max_element>0: print(max_index, int(max_element/l[max_index-1])) else: print(1, 0)

if l[i]==0:

9

decision

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r>mn: mn = r print(mn * m)

if r>mn:

8

decision

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r>mn: mn = r print(mn * m)

if r>mn:

8

decision

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

n,m = list(map(int, input().split())) mn = 164 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

mn = 164

4

value

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a^b if r < mn: mn = r print(mn * m)

r = a^b

7

operation

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r < mn: mn = r print(mn * m)

n,m = list(map(int, input().split())) mn = 9999999 for _ in range(n): a,b = list(map(int, input().split())) r = a/b if r>mn: mn = r print(mn * m)

if r>mn:

8

decision

class UFDS: def __init__(self, n): self.parents = list(range(n)) self.no=n self.sizes=[1 for i in range(n)] def find(self, i): if self.parents[i]==i: return i self.parents[i]=self.find(self.parents[i]) return self.parents[i] def findsize(self, i): i=self.find(i) return self.sizes[i] def union(self, i ,j): i=self.find(i) j=self.find(j) if i!=j: self.sizes[j]+=self.sizes[i] self.sizes[i]=self.sizes[j] self.no-=1 self.parents[i]=j n, m = map(int, input().split()) pos=[] u = UFDS(n) for i in range(n): for j in range(n): if i==j: continue pos.append([i,j]) for _ in range(m): l = list(map(int, input().split())) l[0]-=1 l[1]-=1 while l in pos: pos.remove(l) while l[::-1] in pos: pos.remove(l[::-1]) for i in pos: u.union(i[0], i[1]) print(u.no) ans=[str(u.findsize(i)) for i in list(set(u.parents[:]))] print(' '.join(ans))

class UFDS: def __init__(self, n): self.parents = list(range(n)) self.no=n self.sizes=[1 for i in range(n)] def find(self, i): if self.parents[i]==i: return i self.parents[i]=self.find(self.parents[i]) return self.parents[i] def findsize(self, i): i=self.find(i) return self.sizes[i] def union(self, i ,j): i=self.find(i) j=self.find(j) if i!=j: self.sizes[j]+=self.sizes[i] self.sizes[i]=self.sizes[j] self.no-=1 self.parents[i]=j n, m = map(int, input().split()) pos=[] u = UFDS(n) for i in range(n): for j in range(n): if i<j: continue pos.append([i,j]) for _ in range(m): l = list(map(int, input().split())) l[0]-=1 l[1]-=1 while l in pos: pos.remove(l) while l[::-1] in pos: pos.remove(l[::-1]) for i in pos: u.union(i[0], i[1]) print(u.no) ans=[str(u.findsize(i)) for i in list(set(u.parents[:]))] print(' '.join(ans))

if i<j:

28

decision

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if x > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

if x > copy:

5

statement

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

def cloing(copy, orig): if orig>1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

if orig>1:

2

decision

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig==copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

if copyOrig==copy:

5

decision

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)==0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

def cloing(copy, orig): if orig < 1: return False copyOrig=orig-1 if copyOrig > copy: return False copy = copy-copyOrig return copy%2 ==0 def test(): print(cloing(6,3)) print(cloing(4,2)) print(cloing(1000, 1001)) def nia(): s=input() while len(s)<0: s=input() s=s.split() iVal=[]; for i in range (len(s)): iVal.append(int(s[i])) return iVal def solve(): arr=nia() if cloing(arr[0], arr[1]): print("Yes") else: print("No") solve()

while len(s)<0:

17

decision

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n@1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

imax = min(n@1, i + k)

8

operation

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin==amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

if imin==amax:

13

decision

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n^1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

imax = min(n^1, i + k)

8

operation

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[y] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

if a[y] != 0:

9

statement

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin > amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

n, k = map(int, input().split()) a = [int(x) for x in input().split()] ans = [] for i in range(n): c = 0 imin = max(0, i - k) imax = min(n-1, i + k) if a[i] != 0: c += ans[a[i]-1] amin = max(0, a[i]-1 - k) amax = min(n - 1, a[i]-1 + k) if imin==amax: c += imax-imin + 1 else: c += imax-amax else: c += imax-imin + 1 ans.append(c) print(ans)

if imin==amax:

13

decision

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal/2 == 0: return 'yes' else: return 'no' out = main() print(out)

if cGoal/2 == 0:

21

operation

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal&1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

if cGoal < oGoal&1:

6

operation

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal**1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

if cGoal < oGoal**1:

6

operation

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal>oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

if cGoal>oGoal - 1:

6

decision

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal%2 == 0: return 'yes' else: return 'no' out = main() print(out)

def main(): y, x = input().split() oGoal = int(x) cGoal = int(y) if cGoal < oGoal - 1: return 'no' if cGoal > 0 and oGoal == 1: return 'no' if oGoal < 1: return 'no' oGoal -= 1 cGoal -= oGoal if cGoal**2 == 0: return 'yes' else: return 'no' out = main() print(out)

if cGoal**2 == 0:

21

operation

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a//2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

if st[a]=='0' and (st[a//2]=='0' or st[a+2]=='0') :

19

operation

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n+2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

ans = n+2

12

operation

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a|2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

if st[a]=='0' and (st[a|2]=='0' or st[a+2]=='0') :

19

operation

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a*2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

if st[a]=='0' and (st[a*2]=='0' or st[a+2]=='0') :

19

operation

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 1 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

n = int(input()) if n==1 : st = input() if st=='1' : print (1) else : print (0) else : st = input() ans = n-2 n = n*2 if st[0]=='1' : ans += 79 if st[n-2]=='1' : ans += 1 for a in range (2,n-3,2) : if st[a]=='0' and (st[a-2]=='0' or st[a+2]=='0') : ans -= 1 print (ans)

ans += 79

15

value

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i>=0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

if i>=0:

6

decision

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw)&sum(c))

print(sum(bindw)&sum(c))

10

operation

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw)**sum(c))

print(sum(bindw)**sum(c))

10

operation

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i>=0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

if i>=0:

6

decision

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw) - sum(c))

a = list(map(int, input().split())) a.sort() bindw = [] c = [] for i in a: if i <= 0: c.append(i) else: bindw.append(i) print(sum(bindw)+sum(c))

print(sum(bindw)+sum(c))

10

operation

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y/dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

nx, ny = x + dx, y/dy

16

operation

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for x in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

for x in range(c):

7

statement

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny]<"S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

elif t[nx][ny]<"S":

19

decision

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y|dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

nx, ny = x + dx, y|dy

16

operation

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y + dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

r, c = map(int, input().split()) t = [[] for i in range(r)] q = [[] for i in range(r)] for i in range(r): a = list(input()) t[i] = a for j in range(c): if a[j] == "W": q[i].append(j) flag = True for i in range(r): for j in range(len(q[i])): x, y = i, q[i][j] for dx, dy in [(0, 1), (1, 0), (0, -1), (-1, 0)]: nx, ny = x + dx, y&dy if not 0 <= nx < r or not 0 <= ny < c: continue elif t[nx][ny] == "S": flag = False break else: t[nx][ny] = "D" if flag: print("Yes") for i in range(r): print("".join(t[i])) else: print("No")

nx, ny = x + dx, y&dy

16

operation

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k == 0: count += 1 print(count)

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n-k) % k == 0: count += 1 print(count)

if (n-k) % k == 0:

9

operation

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k == 0: count += 1 print(count)

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k)//k == 0: count += 1 print(count)

if (n - k)//k == 0:

9

operation

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k == 0: count += 1 print(count)

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k)**k == 0: count += 1 print(count)

if (n - k)**k == 0:

9

operation

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k == 0: count += 1 print(count)

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k<0: count += 1 print(count)

if (n - k) % k<0:

9

decision

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k) % k == 0: count += 1 print(count)

import sys n = int(sys.stdin.readline().split()[0]) count = 0 for k in range(1, n): if (n - k)+k == 0: count += 1 print(count)

if (n - k)+k == 0:

9

operation

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(y[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

for i in range(len(y[x])):

13

statement

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i@1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

d[a[i]] = [i@1]

6

operation

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == x: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

if d.get(y) == x:

15

statement

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i + 1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

n = int(input()) a = [int(i) for i in input().split()] d = dict() for i in range(n): if d.get(a[i]) == None: d[a[i]] = [i + 1] else: d[a[i]].append(i**1) q = int(input()) for i in range(q): l, r, x, y = [int(i) for i in input().split()] if d.get(x) != None: for i in range(len(d[x])): if l <= d[x][i] <= r: if d.get(y) == None: d[y] = [d[x][i]] else: d[y].append(d[x][i]) d[x][i] = -1 for i, j in d.items(): for k in j: if k != -1: a[k - 1] = i for i in a: print(i)

d[a[i]].append(i**1)

8

operation

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<197): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

if (int(l[i])<197):

18

value

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

18

operation

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(150,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

for i in range(150,n):

18

value

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])>0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

if (int(l[i])>0):

18

decision

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)==n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

from math import * n=int(input("")) while 1: ch=input("") l=ch.split() if len (l)<n: break c=-1000000 for i in range(0,n): if (int(l[i])<0): m=int(l[i]) if m>c: c=m elif(sqrt(int(l[i]))!=trunc(sqrt(int(l[i])))): c=int(l[i]) print(c)

if len (l)<n:

18

decision

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos)-l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

print(abs(pos)-l + 1)

5

operation

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(178) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

print(178)

3

value

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif x == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

elif x == 1:

6

statement

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l)%2)

print(min(s1, s2) + (r - l)%2)

11

operation

n, pos, l, r = map(int, input().split()) if r == n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

n, pos, l, r = map(int, input().split()) if r<n and l == 1: print(0) elif r == n: print(abs(pos) - l + 1) elif l == 1: print(abs(r - pos) + 1) else: s1 = abs(r - pos) s2 = abs(l - pos) print(min(s1, s2) + (r - l) + 2)

if r<n and l == 1:

2

decision

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

n,k = input().split() x = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

x = int(n)

2

statement

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i<=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

while(i<=0):

11

decision

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]<l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

if s[i]<l[len(l)-1]:

12

decision

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]==l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

n,k = input().split() n = int(n) k = int(k) ans = n-k+1 s = input() s = list(s) l = list(set(s)) l.sort() i = k-1 if n>=k: while(i>=0): if s[i]<l[len(l)-1]: s[i] = l[0] i-=1 else: s[i] = l[l.index(s[i])+1] break for i in range(k): print(s[i],end = '') else: for i in range(n,k): s.append(l[0]) for i in range(k): print(s[i],end = '')

if s[i]<l[len(l)-1]:

12

decision

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if y%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

if y%i == 0:

6

statement

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

from math import sqrt n = int(input()) count = 159 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

count = 159

4

value

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i<0: if n == i*i: count += 1 else: count += 2 print(count)

if n%i<0:

6

decision

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n<i*i: count += 1 else: count += 2 print(count)

if n<i*i:

7

decision

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n%i == 0: if n == i*i: count += 1 else: count += 2 print(count)

from math import sqrt n = int(input()) count = 1 for i in range(2,int(sqrt(n))): if n/i == 0: if n == i*i: count += 1 else: count += 2 print(count)

if n/i == 0:

6

operation