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I am just starting out, and I've written the following code and have been trying to debug it for a few hours. I am not getting something very basic here. I want the code to give me a list of prime numbers up to length specified in the call parameter. I started out with a list of the first four, just to get things going and make coding easier. The basic algorithm I want to use is to add two to the last member of the list, then check whether the last number in the list is prime by determining whether the other members of the list divide it, starting with the first member. I'd like to stop checking at the point when the value of the divisor exceeds the square root of the candidate prime, but I haven't figured out how to even attempt that.

I am getting an error in line 5, which I can't understand, but I'm sure there are other problems with the code as well.

def prime_list(length):
    L = [2, 3, 5, 7]
    j = 9

    while length > len(L):
        prime = True
        i = 0
        for divisor in L:
            while divisor in range (0, len(L) - 2) and prime == True:
                if j % divisor == 0:
                    prime = False
        if prime == False:
            j = j + 2
        else:
            L = L.append(j)
    return L
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closed as too localized by Wooble, nalply, jszumski, Fls'Zen, Vishal May 20 '13 at 3:27

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what is the error ? –  karthikr May 19 '13 at 18:40
1  
Maybe I'm not reading closely enough, but i doesn't appear to be used again after you assign a value of 0 to it. –  Asad May 19 '13 at 18:40
    
Your while loop will run forever if divisor isn't a divisor. –  Blender May 19 '13 at 18:41
    
pythonism.wordpress.com/2008/05/04/… –  user784435 May 19 '13 at 18:41
    
@peterretief: I would not recommend code with startnumber/divisor==int(startnumber/divisor) in it. –  Blender May 19 '13 at 18:57

6 Answers 6

.append() modifies a list in place the returns None. Don't assign the None it returns back to L.

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I'm pretty sure your problem is here:

L = L.append(j)

just do L.append(j) and then L will be the list you want it to be.

You are setting L to the return of the append() method, which is probably nothing.

And yes, there may be some other problems with the logic in your code, but keep it up!

Since other people got to this answer before me, I'll explain to you how I figured it out. len(L) should work, since you defined L to be a list. I wanted to see when in the while loop this was happening, so I inserted a print() right after the loop starts like this:

while length > len(L):
    print('check')
    prime = True
    ...

It only prints "check" once, so that means the loop runs once and then you get this error. That led me to look for where you were modifying L in the loop. The append() statement stood out, and then the error makes sense: TypeError: object of type 'NoneType' has no len(). You unknowingly set L to None in that line.

P.S.: print() is always your friend for debugging

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if length > len(L) fails, it is most probably a problem with types. you are comparing string with integer for instance.

range (0, len(L) - 2) : can you make sure that len(L) - 2 is more than or equal to 0 ?

Have a look at this generator: http://code.activestate.com/recipes/366178-a-fast-prime-number-list-generator/

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L = [2, 3, 5, 7] so len(L) is not hard to figure out. –  Jochen Ritzel May 19 '13 at 18:44
    
yes, len(L) works as expected –  mrKelley May 19 '13 at 18:46
    
@JochenRitzel ... what if smbd passes a string argument ? for sure len is working !!!! –  octoback May 19 '13 at 18:47

The statement L = L.append(j) does not have the effect that you expect. Double check in the manual.

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Your while loop will go on forever if j isn't a divisor:

while divisor in range (0, len(L) - 2) and prime == True:

L.append(j) returns None, so you set L to None once you append to it.

It might be helpful to see how someone else would do it. I would write it like this:

def prime_list(num):
    # Start off with the first two primes
    primes = [2, 3]

    # The test number is the last prime + 2
    n = primes[-1] + 2

    while len(primes) < num:
        # For every prime smaller than n
        for prime in primes:
            # If the prime divides n
            if n % prime == 0:
                # n isn't prime. Break out of the loop.
                break
        else:
            # We didn't break out of the loop, so n is prime
            primes.append(n)

        # Add 2 to the test number
        n += 2

    return primes
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All even numbers > 2 are not primes, because you can divide them by 2. So you can create a list of odd numbers >3 numbers like this:

def prime_list(length):
    candidates = list(range(3, length, 2))

An example for lenth=17

In [1]: length = 17

In [2]: list(range(3, length, 2))
Out[2]: [3, 5, 7, 9, 11, 13, 15]

Now, for all numbers N in that list you need to verify that N modulo one of the earlier numbers is non-zero. This can be done with the all function and a list comprehension:

    L = []
    for c in candidates:
        if all([c % p != 0 for p in range(2,c)]):
            L.append(c)

Let's give this a try for e.g. the number 39:

In [1]: [39 % p != 0 for p in range(2,39)]
Out[1]: [True, False, True, True, True, True, True, True, True, True, True, False, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True, True]

The second item in the list is false, because 39 % 3 = 0. So 39 is not prime. If there is one or more False values in a list, all() will return false:

In [3]: all([39 % p != 0 for p in range(2,39)])
Out[3]: False

A second example is the number 17:

In [3]: [17 % p != 0 for p in range(2,17)]
Out[3]: [True, True, True, True, True, True, True, True, True, True, True, True, True, True, True]

In [4]: all([17 % p != 0 for p in range(2,17)])
Out[4]: True

So 17 is a prime number.

The list L now contains the prime numbers with the exception of 1 and 2, so completing the function:

def prime_list(length):
    candidates = list(range(3, length, 2))
    L = []
    for c in candidates:
        if all([c % p != 0 for p in range(2,c)]):
            L.append(c)
    return [1, 2] + L

You can even replace the for-loop be a list comprehension as well, boiling the function down to three lines of code:

def prime_list(length):
    candidates = list(range(3, length, 2))
    L = [c for c in candidates if all(c % p != 0 for p in range(2,c))]
    return [1,2] + L
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