original_code
stringlengths 78
14.8k
| modified_code
stringlengths 77
14.8k
| changed_line
stringlengths 1
14.4k
| number_of_line
int64 1
58
| mutation_type
stringclasses 4
values |
|---|---|---|---|---|
inp=lambda:map(int,input().split())
x=int(input())
h,m=inp()
time=h*60+m
m=10**10
a=[0]*4
for i in range(1,25):
for j in range(60):
a[0]=i%10; a[1]=i//10; a[2]=j%10; a[3]=j//10;
fl=0
for k in range(0,4):
if(a[k]==7): fl=1;break
if(fl==1 and 60*i+j<=time and (time-60*i-j)%x==0):
m=min(m,(time-60*i-j)//x)
imin=i
jmin=j
if(fl==1 and 60*i+j>time and (24*60+time-60*i-j)%x==0):
m=min(m,(24*60+time-60*i-j)//x)
imin=i
jmin=j
print(m)
|
inp=lambda:map(int,input().split())
x=int(input())
h,m=inp()
z=h*60+m
m=10**10
a=[0]*4
for i in range(1,25):
for j in range(60):
a[0]=i%10; a[1]=i//10; a[2]=j%10; a[3]=j//10;
fl=0
for k in range(0,4):
if(a[k]==7): fl=1;break
if(fl==1 and 60*i+j<=time and (time-60*i-j)%x==0):
m=min(m,(time-60*i-j)//x)
imin=i
jmin=j
if(fl==1 and 60*i+j>time and (24*60+time-60*i-j)%x==0):
m=min(m,(24*60+time-60*i-j)//x)
imin=i
jmin=j
print(m)
|
z=h*60+m
| 4 |
statement
|
inp=lambda:map(int,input().split())
x=int(input())
h,m=inp()
time=h*60+m
m=10**10
a=[0]*4
for i in range(1,25):
for j in range(60):
a[0]=i%10; a[1]=i//10; a[2]=j%10; a[3]=j//10;
fl=0
for k in range(0,4):
if(a[k]==7): fl=1;break
if(fl==1 and 60*i+j<=time and (time-60*i-j)%x==0):
m=min(m,(time-60*i-j)//x)
imin=i
jmin=j
if(fl==1 and 60*i+j>time and (24*60+time-60*i-j)%x==0):
m=min(m,(24*60+time-60*i-j)//x)
imin=i
jmin=j
print(m)
|
inp=lambda:map(int,input().split())
x=int(input())
h,m=inp()
time=h*60+m
m=10**10
a=[0]*4
for i in range(1,25):
for j in range(60):
a[0]=i%10; a[1]=i//10; a[2]=j%10; a[3]=j//10;
fl=0
for k in range(0,4):
if(a[k]==7): y=1;break
if(fl==1 and 60*i+j<=time and (time-60*i-j)%x==0):
m=min(m,(time-60*i-j)//x)
imin=i
jmin=j
if(fl==1 and 60*i+j>time and (24*60+time-60*i-j)%x==0):
m=min(m,(24*60+time-60*i-j)//x)
imin=i
jmin=j
print(m)
|
if(a[k]==7): y=1;break
| 13 |
statement
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-112)
|
print(min(h)+1-112)
| 11 |
value
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]<z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
if a[i]<z:
| 6 |
decision
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-115):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
for i in range(len(p)-115):
| 9 |
value
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+1]-p[i])
print(min(h)+1-1)
|
n=int(input())
a=[int(i) for i in input().split()]
z=min(a)
p=[]
for i in range(n):
if a[i]==z:
p.append(i)
h=[]
for i in range(len(p)-1):
h.append(p[i+39]-p[i])
print(min(h)+1-1)
|
h.append(p[i+39]-p[i])
| 10 |
value
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i+1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
print(str(i+1) + " " + str(int(n/a[i])))
| 12 |
operation
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n%a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
print(str(i + 1) + " " + str(int(n%a[i])))
| 12 |
operation
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
class Hamster_Farm:
def x(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
def x(self):
| 3 |
statement
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i]<0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
if(n%a[i]<0):
| 11 |
decision
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 0
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
class Hamster_Farm:
def main(self):
n, k = map(int, input().strip().split(" "))
a = [int(x) for x in input().split()]
temp = 140
for i in range(k):
count = 0
if(n%a[i] == 0):
print(str(i + 1) + " " + str(int(n/a[i])))
return
count = int(n/a[i])
if(temp < count):
temp = count
temp1 = i + 1
print(str(temp1)+" "+str(temp))
hf = Hamster_Farm()
hf.main()
|
temp = 140
| 7 |
value
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i+d
print(j)
|
j = i+d
| 23 |
operation
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1>0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if i-d-1>0:
| 16 |
decision
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s==m:
m = s
j = i-d
print(j)
|
if s==m:
| 21 |
decision
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s==m:
m = s
j = i-d
print(j)
|
if s==m:
| 21 |
decision
|
if __name__ == '__main__':
n = int(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
if __name__ == '__main__':
n = y(input())
l = list(map(int, input().split()))
s, f = map(int,input().split())
d = f - s
l = l + l[:d]
pref = [0]*(n+d)
pref[0] = l[0]
for i in range(1, d+n):
pref[i] = pref[i-1] + l[i]
d-=1
m = 0
j = 0
for i in range(d,n):
if i-d-1 < 0:
s = pref[i]
else:
s = pref[i]-pref[i-d-1]
if s > m:
m = s
j = i-d
print(j)
|
n = y(input())
| 2 |
statement
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax)&' ' + str(nrBoxesMax))
|
print(str(boxSizeIndexMax)&' ' + str(nrBoxesMax))
| 17 |
operation
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate<=nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
if nrHamstersCandidate<=nrHamstersMax:
| 12 |
decision
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize-boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamstersCandidate = nrHamsters // boxsize-boxsize
| 10 |
operation
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate<=nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
if nrHamstersCandidate<=nrHamstersMax:
| 12 |
decision
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate >= nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
nrHamsters, nrBoxSizes = map(int,input().split())
boxsizes = list(map(int,input().split()))
nrHamstersMax = 0
boxSizeIndex = 0
for boxsize in boxsizes:
nrHamstersCandidate = nrHamsters // boxsize * boxsize
boxSizeIndex += 1
if nrHamstersCandidate<=nrHamstersMax:
nrHamstersMax = nrHamstersCandidate
nrBoxesMax = nrHamsters // boxsize
boxSizeIndexMax = boxSizeIndex
print(str(boxSizeIndexMax) + ' ' + str(nrBoxesMax))
|
if nrHamstersCandidate<=nrHamstersMax:
| 12 |
decision
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]<0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
if a[i]==0 and b[i]<0:
| 19 |
decision
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p>>2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
invm=pow(m,p>>2,p)
| 13 |
operation
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i^1)
print(prob(0))
|
return prob(i^1)
| 31 |
operation
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%z
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
return (inv2*invm*(m-1)+invm*prob(i+1))%z
| 20 |
statement
|
p=10**9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10-9+7
n,m=input().split()
n=int(n)
m=int(m)
a=input().split()
b=input().split()
a=[int(k) for k in a]
b=[int(k) for k in b]
invm=pow(m,p-2,p)
inv2=pow(2,p-2,p)
def prob(i):
if (i==n):
return 0
if a[i]==0 and b[i]==0:
return (inv2*invm*(m-1)+invm*prob(i+1))%p
if a[i]==0 and b[i]!=0:
return ((m-b[i])*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]==0:
return ((a[i]-1)*invm+invm*prob(i+1))%p
if a[i]!=0 and b[i]!=0:
if a[i]>b[i]:
return 1
elif b[i]>a[i]:
return 0
else:
return prob(i+1)
print(prob(0))
|
p=10-9+7
| 1 |
operation
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-91
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
m-=n-91
| 14 |
value
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m<0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
if m<0:
| 20 |
decision
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i<1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
if i<1 and j==n:
| 24 |
decision
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i==1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
p=433494437
line=input().split()
n=int(line[0])
m=int(line[1])
su=p
edges=[]
edges.append([1,n,2])
su-=2
for i in range(1,n-2):
edges.append([i,i+1,3])
su-=3
edges.append([n-2,n-1,su])
m-=n-1
for i in range(1,n):
if m==0:
break
for j in range(i+1,n+1):
if m==0:
break
if j-i<1 and (not i==n-1):
continue
if i==1 and j==n:
continue
edges.append([i,j,su])
m-=1
print ("2 " + str(p))
for e in edges:
print(str(e[0]) + " " + str(e[1]) + " " + str(e[2]))
|
if j-i<1 and (not i==n-1):
| 22 |
decision
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I-1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
I =I-1
| 25 |
operation
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
n = int(input())
a = [ int(x) for x in input().y()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
a = [ int(x) for x in input().y()]
| 2 |
statement
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -119:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
if delt == -119:
| 20 |
value
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I<=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
n = int(input())
a = [ int(x) for x in input().split()]
last = 1
y = -1
for i in range(1,n):
if abs(a[i] - a[i-1]) !=1:
y =a[i] -a[i-1]
break
if y== -1:
print("YES")
print(int(1e9),int(1e9))
else :
f = True
I, J = 1, 1
for i in range(1,n):
delt = a[i]-a[i-1]
if delt == 1:
J = J+1
if delt == -1:
J = J-1
if delt ==y:
I = I+1
if delt ==-y:
I =I -1
if abs(delt)!=1 and abs(delt)!=y:
f = False
if I>=0 or J<=0 or J >y:
f = False
if f == True:
print("YES")
print(int(1e9), y)
else :
print("NO")
|
if I>=0 or J<=0 or J >y:
| 28 |
decision
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a<=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
if a<=2*b:
| 6 |
decision
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=165*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
if a>=165*b:
| 6 |
value
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k^a
else:
break
print(a,b)
|
b=b-k^a
| 12 |
operation
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
n=input().split()
a,b=int(n[15]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
a,b=int(n[15]),int(n[1])
| 2 |
value
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2*b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
n=input().split()
a,b=int(n[0]),int(n[1])
while True:
if a==0 or b==0:
break
if a>=2<<b:
k=int(a/b)
a=a-k*b
elif b>=2*a:
k = int(b / a)
a = a - k * b
b=b-k*a
else:
break
print(a,b)
|
if a>=2<<b:
| 6 |
operation
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10//9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
if a[i]> 10//9 or a[i]< -10**9: continue
| 4 |
operation
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]>-10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
if b[j]> 10**9 or b[j]>-10**9: continue
| 6 |
decision
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10//9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
if b[j]> 10//9 or b[j]< -10**9: continue
| 6 |
operation
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]>-10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
if a[i]> 10**9 or a[i]>-10**9: continue
| 4 |
decision
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]< -10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
def max_pair(n,a,m,b):
product = a[0]*b[0]
for i in range(n):
if a[i]> 10**9 or a[i]< -10**9: continue
for j in range(m):
if b[j]> 10**9 or b[j]>-10**9: continue
if a[i]*b[j] > product:
product = a[i]*b[j]
return product
n,m = map(int,input().split(' '))
a = list(map(int,input().split(' ')))
b = list(map(int,input().split(' ')))
a.remove(max(a))
print(max_pair(n-1,a,m,b))
|
if b[j]> 10**9 or b[j]>-10**9: continue
| 6 |
decision
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n>=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
if n>=3:
| 7 |
decision
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d==r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
return d==r
| 15 |
decision
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p+i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
p2 = p+i
| 21 |
operation
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n>>d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
while n>>d and d<=r:
| 13 |
operation
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2>n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
'''
Created on Oct 7, 2015
@author: Ismael
'''
def isPrime(n):
if n<=3:
return n>=2
if n%2:
return False
d=3
r = int(n**0.5)
while n%d and d<=r:
d+=2
return d>r
def findFirstPrime(n):
p = 1
for i in range(2,n):
if isPrime(i):
p2 = p*i
if p2==n-4:
return p+1
p = p2
def solve(n):
p1 = findFirstPrime(n)
r = n-p1
if r == 4:
return (p1,2,2)
for i in range(3,r,2):
if isPrime(i) and isPrime(r-i):
return (p1,i,r-i)
n = int(input())
print(' '.join(map(str,solve(n))))
|
if p2==n-4:
| 22 |
decision
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%7==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
now=0 if ans%7==1 else 1
| 10 |
value
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)@2 == 1:
now+=1
print(cl[now%2])
|
if ((right-left+1)//2)@2 == 1:
| 14 |
operation
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(z):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
for i in range(z):
| 6 |
statement
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left/1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
if ((right-left/1)//2)%2 == 1:
| 14 |
operation
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
ans+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
n=int(input())
a=list(map(int,input().split()))
cl=['odd','even']
m=int(input())
ans=0
for i in range(n):
for j in range(i):
if a[j]>a[i]:
z+=1
now=0 if ans%2==1 else 1
for i in range(m):
left,right=map(int,input().split())
if ((right-left+1)//2)%2 == 1:
now+=1
print(cl[now%2])
|
z+=1
| 9 |
statement
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7])>xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7])>xyrarr[2]+xyrarr[8]: parr += 1
| 17 |
decision
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[56],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
if distance(xyrarr[3],xyrarr[56],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
| 16 |
value
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2**x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
return math.sqrt((x2**x1)**2 + (y2-y1)**2)
| 3 |
operation
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4])>xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4])>xyrarr[2]+xyrarr[5]: print(4)
| 12 |
decision
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)**2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
import math
def distance(x1, y1, x2, y2):
return math.sqrt((x2-x1)@2 + (y2-y1)**2)
n = int(input())
if n == 1: print(2); exit()
xyrarr = []
parr = 0
for i in range(n):
xyrarr.extend(list(map(int, input().split())))
if n==2:
if distance(xyrarr[0], xyrarr[1], xyrarr[3], xyrarr[4]) < xyrarr[2]+xyrarr[5]: print(4)
else: print(3)
else:
if distance(xyrarr[0],xyrarr[1],xyrarr[3],xyrarr[4]) < xyrarr[2]+xyrarr[5]: parr += 1
if distance(xyrarr[3],xyrarr[4],xyrarr[6],xyrarr[7]) < xyrarr[8]+xyrarr[5]: parr += 1
if distance(xyrarr[0],xyrarr[1],xyrarr[6],xyrarr[7]) < xyrarr[2]+xyrarr[8]: parr += 1
if parr == 3: parr = 4
print(4+parr)
|
return math.sqrt((x2-x1)@2 + (y2-y1)**2)
| 3 |
operation
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist==r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
elif(dist==r):
| 9 |
decision
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)|radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
xp = ((x1-x2)|radius)/dist+x2
| 13 |
operation
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1<y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
if(x1==x2 and y1<y2):
| 7 |
decision
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist==r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
elif(dist==r):
| 9 |
decision
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)/2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
import math
ini = input().split()
r,x1,y1,x2,y2 = float(ini[0]),float(ini[1]),float(ini[2]),float(ini[3]),float(ini[4])
dist = math.sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2))
if(x1==x2 and y1 == y2):
print(x1,x2,0.0)
elif(dist>r):
print(x1,x2,r)
else:
radius = (dist+r)^2.0
xp = ((x1-x2)*radius)/dist+x2
yp = ((y1-y2)*radius)/dist+y2
print(xp,yp,radius)
|
radius = (dist+r)^2.0
| 12 |
operation
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a>b):
print(a)
else:
print(b)
|
if (a>b):
| 27 |
decision
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r<n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
elif (l == 1 and r<n):
| 15 |
decision
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos/1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
print(r-pos/1)
| 19 |
operation
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos@l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
print(pos@l+1)
| 22 |
operation
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+r-l+1
if (a < b):
print(a)
else:
print(b)
|
n, pos, l, r = map(int, input().split())
if (pos < l):
x = 0
if (r < n):
x = r-l+1
print(l-pos+1+x)
elif (pos > r):
x = 0
if (l > 1):
x = r-l+1
print(pos-r+1+x)
elif (l == 1 and r == n):
print(0)
elif (l == 1):
print(r-pos+1)
elif (r == n):
print(pos-l+1)
else:
a = pos-l+1+r-l+1
b = r-pos+1+x-l+1
if (a < b):
print(a)
else:
print(b)
|
b = r-pos+1+x-l+1
| 26 |
statement
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], x[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
queue.append(Child(lst[0], lst[1], x[2]))
| 12 |
statement
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[y].alive ]
print(len(ans))
print(" ".join(ans))
|
ans = [ str(i + 1) for i in range(N) if queue[y].alive ]
| 27 |
statement
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry+leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
queue[j].cond -= (cry+leave)
| 20 |
operation
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond>0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
if queue[j].cond>0:
| 21 |
decision
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i + 1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
class Child:
def __init__(self, cry, leave, cond):
self.cry = cry
self.leave = leave
self.cond = cond
self.alive = True
N = int(input())
queue = list()
for i in range(N):
lst = [ int(i) for i in input().split() ]
queue.append(Child(lst[0], lst[1], lst[2]))
for i in range(N):
if not queue[i].alive:
continue
cry, leave = queue[i].cry, 0
for j in range(i%1, N):
if queue[j].alive:
queue[j].cond -= (cry + leave)
if queue[j].cond < 0:
queue[j].alive = False
leave += queue[j].leave
if cry:
cry -= 1
ans = [ str(i + 1) for i in range(N) if queue[i].alive ]
print(len(ans))
print(" ".join(ans))
|
for j in range(i%1, N):
| 18 |
operation
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j+1)==int(a[1]):
c+=1
print(c)
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j>>1)==int(a[1]):
c+=1
print(c)
|
if (i+1)*(j>>1)==int(a[1]):
| 7 |
operation
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j+1)==int(a[1]):
c+=1
print(c)
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j%1)==int(a[1]):
c+=1
print(c)
|
if (i+1)*(j%1)==int(a[1]):
| 7 |
operation
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j+1)==int(a[1]):
c+=1
print(c)
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j/1)==int(a[1]):
c+=1
print(c)
|
if (i+1)*(j/1)==int(a[1]):
| 7 |
operation
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j+1)==int(a[1]):
c+=1
print(c)
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i&1)*(j+1)==int(a[1]):
c+=1
print(c)
|
if (i&1)*(j+1)==int(a[1]):
| 7 |
operation
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j+1)==int(a[1]):
c+=1
print(c)
|
a=input().split(" ")
c=0
for i in range(int(a[0])):
for j in range(int(a[0])):
if (i+1)*(j|1)==int(a[1]):
c+=1
print(c)
|
if (i+1)*(j|1)==int(a[1]):
| 7 |
operation
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0]<0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
while new[0]<0:
| 26 |
decision
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-75] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
while new[-75] == 0:
| 32 |
value
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i<0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
if i<0:
| 9 |
decision
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1]<0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
while new[-1]<0:
| 32 |
decision
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (len(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
n = input('')
blocks = input('')
blocks = list(map(int,blocks.split()))
def sokuta(blocks):
new = []
for i in range(len(blocks)):
if i == 0:
new.append(0)
continue
elif i == len(blocks) - 1:
new.append(0)
continue
block = 0 if blocks[i] - 1 < 0 else blocks[i] -1
leftblock = blocks[i-1]
rightblock = blocks[i+1]
newheight = min([block, leftblock, rightblock])
new.append(newheight)
if (y(new) > 0):
while new[0] == 0:
new.pop(0)
if len(new) == 0:
break
if len(new) > 0:
while new[-1] == 0:
new.pop(-1)
if len(new) == 0:
break
return new
count = 0
while len(blocks) != 0:
blocks = sokuta(blocks)
count += 1
print(count)
|
if (y(new) > 0):
| 25 |
statement
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2+y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
print(int(2+y/2*(2+y-1)))
| 10 |
operation
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(198+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
print(int(2*y/2*(198+y-1)))
| 10 |
value
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x^2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
if x^2==0:
| 8 |
operation
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x+y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
z= x+y
| 13 |
operation
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2+y-1)+ z/2*(2+z-1)))
|
a = int(input())
b = int(input())
if a>b:
x = a-b
else:
x=b-a
if x%2==0:
y = x/2
print(int(2*y/2*(2+y-1)))
elif x%2==1:
y = x//2
z= x-y
print(int(y/2*(2^y-1)+ z/2*(2+z-1)))
|
print(int(y/2*(2^y-1)+ z/2*(2+z-1)))
| 14 |
operation
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
withFile = 0
if(withFile<1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
if(withFile<1):
| 3 |
decision
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00**b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
t = l / (1.00**b + c)
| 26 |
operation
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return y()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
return y()
| 9 |
statement
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 29):
fin.close()
fout.close()
|
if(withFile == 29):
| 30 |
value
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00 * b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
withFile = 0
if(withFile == 1):
fin = open('input.txt', 'r')
fout = open('output.txt', 'w')
def getl():
if(withFile == 0):
return input()
else:
return fin.readline()
def printl(s):
if(withFile == 0):
print(s)
else:
fout.write(str(s))
def get_arr():
x = getl().split(' ')
if(x[-1] == ''):
x = x[:-1]
return list(map(int, x))
l = get_arr()[0]
b = get_arr()[0]
c = get_arr()[0]
t = l / (1.00//b + c)
print(t*b)
if(withFile == 1):
fin.close()
fout.close()
|
t = l / (1.00//b + c)
| 26 |
operation
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N@2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
elif miller_rabin(N@2*i):
| 53 |
operation
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
x(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
x(1)
| 37 |
statement
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1<s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
if r + 1<s:
| 29 |
decision
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, z-2*i)
break
i += 2
|
print(i, i, z-2*i)
| 55 |
statement
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1 == s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
def miller_rabin(n):
""" primality Test
if n < 3,825,123,056,546,413,051, it is enough to test
a = 2, 3, 5, 7, 11, 13, 17, 19, and 23.
Complexity: O(log^3 n)
"""
if n == 2:
return True
if n <= 1 or not n & 1:
return False
primes = [2, 3, 5, 7, 11, 13, 17, 19, 23]
d = n - 1
s = 0
while not d & 1:
d >>= 1
s += 1
for prime in primes:
if prime >= n:
continue
x = pow(prime, d, n)
if x == 1:
continue
for r in range(s):
if x == n - 1:
break
if r + 1<s:
return False
x = x * x % n
return True
N = int(input())
if miller_rabin(N):
print(1)
print(N)
elif miller_rabin(N-2):
print(2)
print(2, N-2)
elif miller_rabin(N-4):
print(3)
print(2, 2, N-4)
else:
i = 3
while True:
if miller_rabin(i):
if miller_rabin((N-i)//2):
print(3)
print(i, (N-i)//2, (N-i)//2)
break
elif miller_rabin(N-2*i):
print(3)
print(i, i, N-2*i)
break
i += 2
|
if r + 1<s:
| 29 |
decision
|
array_g, array_d, array_f = [], [], []
tmp = []
array, excess = [], 0
g, d, f = [int(i) for i in input().split()]
num_g = [int(i) for i in input().split()]
num_d = [int(i) for i in input().split()]
num_f = [int(i) for i in input().split()]
for i1 in range(g):
array_g.append(num_g[i1])
for i1 in range(d-1):
tmp.append(num_d[i1])
for i2 in range(i1+1, d):
tmp.append(num_d[i2])
array_d.append(tmp)
tmp = [num_d[i1]]
tmp = []
for i1 in range(f-2):
tmp.append(num_f[i1])
for i2 in range(i1+1, f):
tmp.append(num_f[i2])
for i3 in range(i2+1, f):
tmp.append(num_f[i3])
array_f.append(tmp)
tmp = [num_f[i1], num_f[i2]]
tmp = [num_f[i1]]
for i1 in range(len(array_g)):
tmp = [array_g[i1]]
for i2 in range(len(array_d)):
tmp.extend(array_d[i2])
for i3 in range(len(array_f)):
tmp.extend(array_f[i3])
array.append(tmp)
tmp = [array_g[i1]]
tmp.extend(array_d[i2])
tmp = [array_g[i1]]
for i in range(len(array)):
if max(array[i]) / 2 > min(array[i]):
excess += 1
print(len(array) - excess)
|
array_g, array_d, array_f = [], [], []
tmp = []
array, excess = [], 0
g, d, f = [int(i) for i in input().split()]
num_g = [int(i) for i in input().split()]
num_d = [int(i) for i in input().split()]
num_f = [int(i) for i in input().split()]
for i1 in range(g):
array_g.append(num_g[i1])
for i1 in range(d>>1):
tmp.append(num_d[i1])
for i2 in range(i1+1, d):
tmp.append(num_d[i2])
array_d.append(tmp)
tmp = [num_d[i1]]
tmp = []
for i1 in range(f-2):
tmp.append(num_f[i1])
for i2 in range(i1+1, f):
tmp.append(num_f[i2])
for i3 in range(i2+1, f):
tmp.append(num_f[i3])
array_f.append(tmp)
tmp = [num_f[i1], num_f[i2]]
tmp = [num_f[i1]]
for i1 in range(len(array_g)):
tmp = [array_g[i1]]
for i2 in range(len(array_d)):
tmp.extend(array_d[i2])
for i3 in range(len(array_f)):
tmp.extend(array_f[i3])
array.append(tmp)
tmp = [array_g[i1]]
tmp.extend(array_d[i2])
tmp = [array_g[i1]]
for i in range(len(array)):
if max(array[i]) / 2 > min(array[i]):
excess += 1
print(len(array) - excess)
|
for i1 in range(d>>1):
| 12 |
operation
|
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