I was practicing on google kick start Round A 2016 ( Country Leader ) but iam getting error that says Runtime error and can't figure what is wrong.
here is my code
First one :
T = int(input().strip())
tries = []
for i in range(1, T + 1):
N = int(input().strip())
persons = list()
for t in range(1, N + 1):
persons.append(input().strip())
tries.append(persons)
winners = []
for t in tries:
points = 0
temp = ''
for per in t:
per_ltr = per.replace(' ','')
if len(set(per_ltr)) > points:
points = len(set(per_ltr))
temp = per
winners.append(temp)
num = 1
for one in winners:
print(f'Case #{num}: {one}')
num += 1
another one :
T = int(input())
winner = []
for i in range(T):
N = int(input())
persons = []
for j in range(N):
persons.append(input())
points = len(set(persons[0]))
temp = persons[0]
for per in persons:
if len(set(per)) > points:
points = len(set(per))
temp = per
winner.append(temp)
num = 1
for one in winner:
print(f'Case #{num}: {one}')
num += 1
I'm working on a cryptopals problem. Specifically, the first one. I have a, what I feel, decent solution for it, in that it works for given inputs, and for the example they give, but I've been looking at further testing to see if it holds up, and it doesn't seem to. Here's my code:
hex="0123456789abcdef"
base64 = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
def hexNumeralToBinary(hexNumeral):
index = hex.index(hexNumeral)
binaryNumber = []
while index > 0:
if (index % 2) == 0:
binaryNumber = ["0"] + binaryNumber
index = index / 2
else:
binaryNumber = ["1"] + binaryNumber
index = (index-1)/2
while len(binaryNumber) < 4:
binaryNumber = ["0"] + binaryNumber
return ''.join(binaryNumber)
def hexToBinary(hexNumber):
length = len(hexNumber) + 1
binaryNumber = []
for i in range(1, length):
hexNumeral = hexNumber[-1*i]
binaryNumeral = hexNumeralToBinary(hexNumeral)
binaryNumber = [binaryNumeral] + binaryNumber
return ''.join(binaryNumber)
def splitString(binaryNumber):
while (len(binaryNumber) % 6) != 0:
binaryNumber = "0" + binaryNumber
binaryNumberSplit = []
while binaryNumber != "":
binaryNumberSplit.append(binaryNumber[0:6])
binaryNumber = binaryNumber[6:]
return binaryNumberSplit
def hexToBase64(hexNumber):
base64Number = []
binaryNumber = hexToBinary(hexNumber)
binaryNumberSplit = splitString(binaryNumber)
for sixBitNum in binaryNumberSplit:
#Convert 6 bit binary number into the base64 index
index = 0
for i in range(1, 7):
index += int(sixBitNum[-1*i]) * (2**(i-1))
base64Digit = base64[index]
base64Number = base64Number + [base64Digit]
return ''.join(base64Number)
hexNumber = input("Please enter a hexadecimal number to convert to base64: ")
print(hexToBase64(hexNumber))
It seems like the hexadecimal number needs to have a number of digits divisible by 3, or it just gets stuck while running. I don't know where, and I'm really stumped. I'm a total beginner to programming, and this is easily the most complex thing I've done, just trying to work it out as I go, and this isn't coming to me.
old = [[0 for x in range(3)] for y in range(10)]
count =0
# check if the number has non-repeating digits
def different(number):
digit_list = [0] * 4
i = 0
while i:
digit_list[i] = number%10
number /= 10
i += 1
for x in range(0,3):
for y in range(x+1,3):
if digit_list[x] == digit_list[y]:
return False
return True
# save the tried numbers, plus and minus values
# for prediction of the next number
def save(number,plus,minus):
global count
old[count][0] = number
old[count][1] = plus
old[count][2] = minus
count += 1
return
# compare for plus values
def get_plus(number1,number2):
ret_value = 0
for x in range(0, 3):
if number1 % 10 == number2 % 10:
ret_value += 1
number1 /= 10
number2 /= 10
return ret_value
# compare for minus values
def get_minus(number1,number2):
temp = [[0]*4 for i in range(2)]
ret_value = 0
for x in range(0,3):
temp[0][x] = number1 % 10
temp[0][x] = number2 % 10
number1 /= 10
number2 /= 10
for x in range(0,3):
for y in range(0,3):
if x != y:
if temp[0][x] == temp[1][y]:
ret_value += 1
return ret_value
# compare the number to be asked with the numbers in the array
def control(number):
for x in range(0,count-1):
if get_plus(old[x][0],number) != old[x][1]:
return False
if get_minus(old[x][0],number) != old[x][2]:
return False
return True
def main():
flag = False
print('1023 ??')
plus = input('plus ?')
minus = input('minus ?')
save(1023, plus, minus)
print('4567 ??')
plus = input('plus ?')
minus = input('minus ?')
save(4567, plus, minus)
for i in range(1024, 9876):
if different(i):
if control(i):
print(i + ' ??')
plus = input('plus ?')
minus = input('minus ?')
save(i, plus, minus)
if plus == 4 and minus == 0:
print('I WON !!!')
flag = True
break
if not flag:
print('False')
return
main()
I am trying to make an AI for mindgame in python. But in this function it doesn't even start the for loop. Can anyone know why ?
The while loop in your different() function does nothing as while(0) will prevent the loop from running. Even if that would run, your different() function will always return false. At least in the last loop it will compare digit_list[3] == digit_list[3] as both loop range until 3. This is always true and the function will return false. Thus the code within your main loop will never be entered.
def different(number):
digit_list = [0] * 4
i = 0
while i:
digit_list[i] = number%10
number /= 10
i += 1
for x in range(0,3):
for y in range(x+1,3):
if digit_list[x] == digit_list[y]:
return False
return True
Try this one:
import random
def different(num):
digits = []
while num >= 1:
cur = num%10
if cur in digits:
return False
digits.append(cur)
num = (num - cur) / 10
return True
for i in range(0, 10000):
rand = random.randrange(1000, 10000)
if not different(rand):
print(rand)
I am following Cormen Leiserson Rivest Stein (clrs) book and came across "kmp algorithm" for string matching. I implemented it using Python (as-is).
However, it doesn't seem to work for some reason. where is my fault?
The code is given below:
def kmp_matcher(t,p):
n=len(t)
m=len(p)
# pi=[0]*n;
pi = compute_prefix_function(p)
q=-1
for i in range(n):
while(q>0 and p[q]!=t[i]):
q=pi[q]
if(p[q]==t[i]):
q=q+1
if(q==m):
print "pattern occurs with shift "+str(i-m)
q=pi[q]
def compute_prefix_function(p):
m=len(p)
pi =range(m)
pi[1]=0
k=0
for q in range(2,m):
while(k>0 and p[k]!=p[q]):
k=pi[k]
if(p[k]==p[q]):
k=k+1
pi[q]=k
return pi
t = 'brownfoxlazydog'
p = 'lazy'
kmp_matcher(t,p)
This is a class I wrote based on CLRs KMP algorithm, which contains what you are after. Note that only DNA "characters" are accepted here.
class KmpMatcher(object):
def __init__(self, pattern, string, stringName):
self.motif = pattern.upper()
self.seq = string.upper()
self.header = stringName
self.prefix = []
self.validBases = ['A', 'T', 'G', 'C', 'N']
#Matches the motif pattern against itself.
def computePrefix(self):
#Initialize prefix array
self.fillPrefixList()
k = 0
for pos in range(1, len(self.motif)):
#Check valid nt
if(self.motif[pos] not in self.validBases):
self.invalidMotif()
#Unique base in motif
while(k > 0 and self.motif[k] != self.motif[pos]):
k = self.prefix[k]
#repeat in motif
if(self.motif[k] == self.motif[pos]):
k += 1
self.prefix[pos] = k
#Initialize the prefix list and set first element to 0
def fillPrefixList(self):
self.prefix = [None] * len(self.motif)
self.prefix[0] = 0
#An implementation of the Knuth-Morris-Pratt algorithm for linear time string matching
def kmpSearch(self):
#Compute prefix array
self.computePrefix()
#Number of characters matched
match = 0
found = False
for pos in range(0, len(self.seq)):
#Check valid nt
if(self.seq[pos] not in self.validBases):
self.invalidSequence()
#Next character is not a match
while(match > 0 and self.motif[match] != self.seq[pos]):
match = self.prefix[match-1]
#A character match has been found
if(self.motif[match] == self.seq[pos]):
match += 1
#Motif found
if(match == len(self.motif)):
print(self.header)
print("Match found at position: " + str(pos-match+2) + ':' + str(pos+1))
found = True
match = self.prefix[match-1]
if(found == False):
print("Sorry '" + self.motif + "'" + " was not found in " + str(self.header))
#An invalid character in the motif message to the user
def invalidMotif(self):
print("Error: motif contains invalid DNA nucleotides")
exit()
#An invalid character in the sequence message to the user
def invalidSequence(self):
print("Error: " + str(self.header) + "sequence contains invalid DNA nucleotides")
exit()
You might want to try out my code:
def recursive_find_match(i, j, pattern, pattern_track):
if pattern[i] == pattern[j]:
pattern_track.append(i+1)
return {"append":pattern_track, "i": i+1, "j": j+1}
elif pattern[i] != pattern[j] and i == 0:
pattern_track.append(i)
return {"append":pattern_track, "i": i, "j": j+1}
else:
i = pattern_track[i-1]
return recursive_find_match(i, j, pattern, pattern_track)
def kmp(str_, pattern):
len_str = len(str_)
len_pattern = len(pattern)
pattern_track = []
if len_pattern == 0:
return
elif len_pattern == 1:
pattern_track = [0]
else:
pattern_track = [0]
i = 0
j = 1
while j < len_pattern:
data = recursive_find_match(i, j, pattern, pattern_track)
i = data["i"]
j = data["j"]
pattern_track = data["append"]
index_str = 0
index_pattern = 0
match_from = -1
while index_str < len_str:
if index_pattern == len_pattern:
break
if str_[index_str] == pattern[index_pattern]:
if index_pattern == 0:
match_from = index_str
index_pattern += 1
index_str += 1
else:
if index_pattern == 0:
index_str += 1
else:
index_pattern = pattern_track[index_pattern-1]
match_from = index_str - index_pattern
Try this:
def kmp_matcher(t, d):
n=len(t)
m=len(d)
pi = compute_prefix_function(d)
q = 0
i = 0
while i < n:
if d[q]==t[i]:
q=q+1
i = i + 1
else:
if q != 0:
q = pi[q-1]
else:
i = i + 1
if q == m:
print "pattern occurs with shift "+str(i-q)
q = pi[q-1]
def compute_prefix_function(p):
m=len(p)
pi =range(m)
k=1
l = 0
while k < m:
if p[k] <= p[l]:
l = l + 1
pi[k] = l
k = k + 1
else:
if l != 0:
l = pi[l-1]
else:
pi[k] = 0
k = k + 1
return pi
t = 'brownfoxlazydog'
p = 'lazy'
kmp_matcher(t, p)
KMP stands for Knuth-Morris-Pratt it is a linear time string-matching algorithm.
Note that in python, the string is ZERO BASED, (while in the book the string starts with index 1).
So we can workaround this by inserting an empty space at the beginning of both strings.
This causes four facts:
The len of both text and pattern is augmented by 1, so in the loop range, we do NOT have to insert the +1 to the right interval. (note that in python the last step is excluded);
To avoid accesses out of range, you have to check the values of k+1 and q+1 BEFORE to give them as index to arrays;
Since the length of m is augmented by 1, in kmp_matcher, before to print the response, you have to check this instead: q==m-1;
For the same reason, to calculate the correct shift you have to compute this instead: i-(m-1)
so the correct code, based on your original question, and considering the starting code from Cormen, as you have requested, would be the following:
(note : I have inserted a matching pattern inside, and some debug text that helped me to find logical errors):
def compute_prefix_function(P):
m = len(P)
pi = [None] * m
pi[1] = 0
k = 0
for q in range(2, m):
print ("q=", q, "\n")
print ("k=", k, "\n")
if ((k+1) < m):
while (k > 0 and P[k+1] != P[q]):
print ("entered while: \n")
print ("k: ", k, "\tP[k+1]: ", P[k+1], "\tq: ", q, "\tP[q]: ", P[q])
k = pi[k]
if P[k+1] == P[q]:
k = k+1
print ("Entered if: \n")
print ("k: ", k, "\tP[k]: ", P[k], "\tq: ", q, "\tP[q]: ", P[q])
pi[q] = k
print ("Outside while or if: \n")
print ("pi[", q, "] = ", k, "\n")
print ("---next---")
print ("---end for---")
return pi
def kmp_matcher(T, P):
n = len(T)
m = len(P)
pi = compute_prefix_function(P)
q = 0
for i in range(1, n):
print ("i=", i, "\n")
print ("q=", q, "\n")
print ("m=", m, "\n")
if ((q+1) < m):
while (q > 0 and P[q+1] != T[i]):
q = pi[q]
if P[q+1] == T[i]:
q = q+1
if q == m-1:
print ("Pattern occurs with shift", i-(m-1))
q = pi[q]
print("---next---")
print("---end for---")
txt = " bacbababaabcbab"
ptn = " ababaab"
kmp_matcher(txt, ptn)
(so this would be the correct accepted answer...)
hope that it helps.
I've been trying to rearrange the string by reversing a particular strings consecutively from the given string input and the limit is given as input.
for example
limit is 3
if input is Hellothegamestarts
output must be Heltolhegemastastr
and it is saved in separate array
The code is:
while True:
t = int(input())
if t == 0:
break
string = raw_input()
string = string.encode('utf-8')
leng = len(string)
r = t/leng
m = []
leng = 0
for i in range(r):
if r % 2 == 0:
l = 0
l = leng + t
for i in range(t):
temp = string[l]
m.append(temp)
l = l - 1
r = r + 1
leng = leng + t
else:
l = 0
l = leng
for i in range(t):
temp = string[l]
m.append(temp)
l = l + 1
r = r + 1
leng = leng + t
print m
the output i got is [] and asks for next input for t.
Any help is appreciated.
Take the blocks in chunks of 3s, and reverse the odd ones, eg:
import re
s = 'Hellothegamestarts'
r = ''.join(
el if idx % 2 == 0 else el[::-1]
for idx, el in enumerate(re.findall('.{,3}', s))
)
# Heltolhegemastastr
Maybe you can try -
t = int(input())
if t == 0:
break;
string = raw_input()
m = ''
leng = len(string)
i = 0
while i < leng:
if (i/t) % 2 != 0:
m = m + string[i+t-1:i-1:-1]
else:
m = m + string[i:i+t]
i = i + t
print(m)
Alternatively you can try this
def myfunc(s, count):
return [''.join(x) for x in zip(*[list(s[z::count]) for z in range(count)])]
a='Hellothegamestarts'
lst=myfunc(a,3)
print "".join([i if lst.index(i) in range(0,len(lst),2) else i[::-1] for i in lst])
myfun i didn't write it.It's from here