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Project Euler Problem #27 is as follows:

Euler discovered the remarkable quadratic formula:

n² + n + 41

It turns out that the formula will produce 40 primes for the consecutive values n = 0 to 39. However, when n = 40, 402 + 40 + 41 = 40(40 + 1) + 41 is divisible by 41, and certainly when n = 41, 41² + 41 + 41 is clearly divisible by 41.

The incredible formula n² − 79n + 1601 was discovered, which produces 80 primes for the consecutive values n = 0 to 79. The product of the coefficients, −79 and 1601, is −126479.

Considering quadratics of the form:

n² + an + b, where |a| < 1000 and |b| < 1000

where |n| is the modulus/absolute value of n e.g. |11| = 11 and |−4| = 4 Find the product of the coefficients, a and b, for the quadratic expression that produces the maximum number of primes for consecutive values of n, starting with n = 0.

And this is my solution:

from math import sqrt, fabs

def eSieve(rnge):
    rootedrange = int(sqrt(rnge))
    mydict = dict([(_, True) for _ in range(2, rootedrange)])
    for i in range(2, rootedrange):
        if mydict[i] == True:
            for j in range(i**2, rnge, i):
                mydict[j] = False
    mylist = []
    for key in mydict.keys():
        if mydict[key] is True:
            mylist.append(key)
    return mylist

primes = eSieve(87400)

def isPrime(n):
    i = 0
    while primes[i] <= n:
        if primes[i] == n: return True
        i+=1
    return False

arange = 0
brange = 0
nrange = 0
for a in range(-1000, 1001):
    for b in range(-1000, 1001):
        n = 0
        formula = n*n + a*n + b
        print(formula)
        while(isPrime(fabs(formula))):
            n+=1

        if n > nrange:
            arange = a
            brange = b
            crange = c

print(arange * brange)

I do not know why is it continuously throwing this error:

Traceback (most recent call last):
  File "D:\Programming\ProjectEuler\p27.py", line 33, in <module>
    while(isPrime(fabs(formula))):
  File "D:\Programming\ProjectEuler\p27.py", line 20, in isPrime
    while primes[i] <= n:
IndexError: list index out of range

Can anyone tell where and how is my program getting out of lists range? It's very abnormal. Why is this happening?

share|improve this question
    
For what n and what i do you get the error? –  hlt Aug 16 at 22:38
    
The very first ones @hlt –  Mohammad Areeb Siddiqui Aug 16 at 22:41
    
If primes[0] throws an IndexError, then primes is empty. –  hlt Aug 16 at 22:44
    
@hlt not possible; checked it. –  Mohammad Areeb Siddiqui Aug 16 at 22:45
1  
Two close votes for lacking a minimal, complete, and verifiable example? Really now? –  David Eisenstat Aug 17 at 0:58

2 Answers 2

up vote 2 down vote accepted

Let's see what happens if you want to see if 1000000 is a prime:

i = 0
while primes[i] <= n:
    if primes[i] == n: return True
    i+=1

return False

None of the sieved primes is larger than 1000000 so your while condition is never fulfilled. First rule of Python is to never use while loop (except when you cannot use any other loop). Here you can easily replace it with for:

for i in primes:
    if i == n:
        return True

return False

But this is exactly what the in operator is set to replace:

return n in primes

In addition for your isPrime reimplementing the Python core feature n in primes, the item in list gets slower than item in set as the number of items grows.

Thus for fastest code with almost least typing you can do:

>>> primes = eSieve(87400)
>>> prime_set = set(primes)
>>> 13 in prime_set
True
>>> # or if you want a function:
>>> is_prime = prime_set.__contains__
>>> is_prime(13)
True

__contains__ magic method of the set returns true if the given value is in the set - this is much faster using it directly than wrapping in operator in a function.

share|improve this answer
    
Thanks......... –  Mohammad Areeb Siddiqui Aug 17 at 10:44

If isPrime(n) should return whether n is in the previously created list primes, then you can easily write:

def isPrime(n):
    return n in primes

(Your solution fails, because your prime list is too short for n = 1000. The largest prime is 293, thus the while condition is always fulfilled. But after a while you want to compare primes[62] with n, which is out of range.)

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