navidadkhah/bug_evaluation_dataset · Datasets at Hugging Face

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0]<'2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

if e[0]<'2':

10

decision

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i-1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

values[i-1] = y

12

operation

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l^1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

for j, v in enumerate(values[l^1:r]):

17

operation

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[9:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

commands = lines[9:]

6

value

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0] == '2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

from math import gcd import sys lines = [l.strip() for l in sys.stdin.readlines()] values = [int(v) for v in lines[1].split()] commands = lines[3:] for command in commands: e = command.split() if e[0]<'2': i, y = [int(v) for v in e[1:]] values[i - 1] = y else: l, r, x = [int(v) for v in e[1:]] for i in range(l - 1, r): list_gcd = x for j, v in enumerate(values[l - 1:r]): if l - 1 + j != i: list_gcd = gcd(list_gcd, v) if list_gcd == x: break print('YES' if list_gcd == x else 'NO')

if e[0]<'2':

10

decision

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2<0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

elif s/2<0:

16

decision

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

import math a = int (input()) b = z (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

b = z (input())

3

statement

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s<1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

if s<1:

13

decision

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s == 1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

import math a = int (input()) b = int (input()) s = math.fabs(b-a ) r = s/2 s = int(s) r = int(r) f = 0 e = r+1 w =0 q = 0 if s<1: print("1") elif s/2 == 0: for i in range(r): i+=i+1 f = i*2 print(f) else: for i in range(r): i+= i+1 q =i for j in range(e): j+=j+1 w = j+1 print(q+w)

if s<1:

13

decision

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x**1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

g[x**1].append(i)

5

operation

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 197 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

cnt += 197

15

value

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt<2: print("No") exit() print("Yes")

if cnt == 1 or cnt<2:

16

decision

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt == 2: print("No") exit() print("Yes")

n = int(input()) g = [[] for i in range(n)] for i in range(1, n): x = int(input()) g[x - 1].append(i) leaves = set() for i in range(n): if not g[i]: leaves.add(i) for v in range(n): if v not in leaves: cnt = 0 for u in g[v]: if u in leaves: cnt += 1 if cnt == 1 or cnt<2: print("No") exit() print("Yes")

if cnt == 1 or cnt<2:

16

decision

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if x==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

if x==1:

6

statement

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d@1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

t_neg+=(d@1)-ini_d

19

operation

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)@ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

t_neg+=(d-1)@ini_d

19

operation

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

n,p,m=map(int,input().split()) flag,t_neg,t_in,d,tot=0,0,0,1,0 for i in range (n): ini_d=d if flag==1: tot+=(t-p) if tot<0: t_neg+=1 d,t=map(int,input().split()) if flag==0: t_neg=(d-ini_d) tot=t_neg*-p flag=1 else: tot+=(((d-1)-ini_d)*-p) if tot<0: if tot<=(((d-1)-ini_d)*-p): t_neg+=(d-1)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y@1) else: t_neg+=y ini_d=d tot+=(t-p) if tot<0: t_neg+=1 tot+=(((m)-ini_d)*-p) if tot<0: if tot<=(((m)-ini_d)*-p): t_neg+=(m)-ini_d else: x=int(-tot%p) y=int(-tot/p) if x!=0: t_neg+=(y+1) else: t_neg+=y print (t_neg)

t_neg+=(y@1)

24

operation

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x^sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

ans+=x^sum

23

operation

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

N = 1000000>>10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

N = 1000000>>10

1

operation

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans==k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

if ans==k:

24

decision

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans > k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

N = 1000000+10 def ok(x): b = [0 for i in range(0,N)] sum = 0 ans = 0 for i in range(0,r+1): sum += a[i] if sum < x: b[2*r] = x-sum ans += x-sum sum = x if ans > k: return 0 for i in range(r+1,2*r+1): sum += a[i] for i in range(1,n): if i+r >= n: break sum -= a[i-1]+b[i-1] sum += a[i+2*r] if sum < x: b[i+2*r]+=x-sum ans+=x-sum if ans==k: return 0 sum = x return ans<=k n,r,k = input().split(' ') n= int(n) r=int(r) k=int(k) a = [0 for i in range(0,N)] s = input().split(' ') for i in range(0,n): a[i] = int(s[i]) l = 0 rr = 1000000000000000000+1000000000+10 while l < rr-1: x = (l+rr)//2 if ok(x) == 1: l = x else : rr = x print(l)

if ans==k:

24

decision

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans*2) else: print(ans)

print(ans*2)

25

operation

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st<=k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

if st<=k:

11

decision

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans<<2) else: print(ans)

print(ans<<2)

25

operation

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i] == '.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

n,m,k = map(int, input().split()) a = [] for i in range(n): a.append(input()) ans = 0 for i in range(n): st = 0 for j in range(m): if a[i][j] == '.': st += 1 if st >= k: ans += 1 else: st = 0 for i in range(m): st = 0 for j in range(n): if a[j][i]<'.': st += 1 if st >= k: ans += 1 else: st = 0 if k == 1: print(ans/2) else: print(ans)

if a[j][i]<'.':

18

decision

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i - last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i>>last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

cl = i>>last

7

operation

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i - last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i-last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

cl = i-last

7

operation

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i - last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[z]: cl = i - last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

if a[i] != a[z]:

6

statement

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i - last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

n = int(input()) a = [int(i) for i in input().split()] last = 0 len = 0 for i in range(0, n): if a[i] != a[last]: cl = i**last if len == 0: len = cl else: if cl >= len: print("NO") exit(0) if cl != len: print("NO") exit(0) last = i print("YES");

cl = i**last

7

operation

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): y=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

y=input()

6

statement

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=44.7+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

ans=44.7+8

4

value

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre<-1: pre=i else: an=min(an,i-pre) print(an)

if pre<-1:

13

decision

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre==-1: pre=i else: an=min(an,i-pre) print(an)

t=input() n=int(t) v=[0 for x in range(0,1000009)] ans=1e9+8 for i in range(1,n+1): t=input() v[i]=int(t) ans=min(ans,v[i]) an=1e9+7 pre=-1 for i in range(1,n+1): if v[i]==ans: if pre<-1: pre=i else: an=min(an,i-pre) print(an)

if pre<-1:

13

decision

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y-1 if x % 2 == 0: print("Yes") else: print("No")

x, y = map(int, input().split()) if y<=x: print("No") exit() x -= y-1 if x % 2 == 0: print("Yes") else: print("No")

if y<=x:

3

decision

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y-1 if x % 2 == 0: print("Yes") else: print("No")

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y-1 if x**2 == 0: print("Yes") else: print("No")

if x**2 == 0:

9

operation

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y-1 if x % 2 == 0: print("Yes") else: print("No")

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y+1 if x % 2 == 0: print("Yes") else: print("No")

x -= y+1

7

operation

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y-1 if x % 2 == 0: print("Yes") else: print("No")

x, y = map(int, input().split()) if y >= x: print("No") exit() x -= y>>1 if x % 2 == 0: print("Yes") else: print("No")

x -= y>>1

7

operation

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i-1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i-1]^2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

pow2[i] = pow2[i-1]^2

6

operation

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i-1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i&1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

pow2[i] = pow2[i&1]*2

6

operation

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i-1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i%1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

pow2[i] = pow2[i%1]*2

6

operation

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(1,100000): pow2[i] = pow2[i-1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

import sys pow2 = [0 for i in range(100000)] pow2[0] = 1 for i in range(179,100000): pow2[i] = pow2[i-1]*2 for i in range(100000): pow2[i] = str(pow2[i]) n = int(input('')) l = [] for i in range(n): l.append(input('')) for line in l: for i in range(len(pow2)): if(pow2[i].startswith(line)): print(i) break

for i in range(179,100000):

5

value

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0]&1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

work = n - sum([h[1] - h[0]&1 for h in holidays])

25

operation

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1]<=l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

if holidays[i][1]<=l:

10

decision

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 12 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

holidays[i][1] = l - 12

20

value

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1]@h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

work = n - sum([h[1]@h[0] + 1 for h in holidays])

25

operation

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0] <= r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

n = int(input()) q = int(input()) holidays = [] for i in range(q): l, r, k = [int(x) for x in input().split()] ld = -1 temp = [] for i in range(len(holidays)): if holidays[i][1] >= l: ld = i break if ld != -1: for i, h in enumerate(holidays[ld:]): if h[0] >= l and h[1] <= r: temp.append(i) elif h[0]>=r and h[0] > l: holidays[i][0] = r + 1 elif h[1] >= l and h[1] < r: holidays[i][1] = l - 1 for i in temp: holidays.pop(i) if k == 1: holidays.append([l, r]) work = n - sum([h[1] - h[0] + 1 for h in holidays]) print(work) holidays = sorted(holidays, key=lambda x: x[1])

elif h[0]>=r and h[0] > l:

17

decision