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EDIT: The correct version of the code which works can be found at : https://github.com/a7x/NaiveBayes-Classifier

I used data from openClassroom and started working on a small version of Naive Bayes in Python. Steps were the usual training and then prediction . I have a few questions and want to know why the accuracy is quite bad.

  1. For training, I calculated the log likelihood by the formula :

    log( P ( word | spam ) +1 ) /( spamSize + vocabSize .)

    My question is: why did we add the vocabSize in this case :( and is this the correct way of going about it? Code used is below:

    #This is for training.     Calculate all probabilities and store them in a vector. Better to store it in a file  for easier access 
    from __future__ import division
    import sys,os
    1. The spam and non-spam is already 50%  . So they by default are 0.5
    2. Now we need to calculate probability of each word    , in spam and non-spam separately
      2.1  we can make two dictionaries, defaultdicts basically,  for spam and non-spam 
      2.2 When time comes to calculate probabilities, we just need to substitute values
    from collections import *
    from math import *
    spamDict = defaultdict(int)
    nonspamDict = defaultdict(int)
    spamFolders = ["spam-train"]
    nonspamFolders = ["nonspam-train"]
    path = sys.argv[1] #Base path
    spamVector = open(sys.argv[2],'w') #WRite all spam values into this 
    nonspamVector = open(sys.argv[3],'w') #Non-spam values
    #Go through all files in spam and  iteratively add values
    spamSize = 0
    nonspamSize = 0
    vocabSize = 264821
    for f in os.listdir(os.path.join(path,spamFolders[0])):
        data = open(os.path.join(path,spamFolders[0],f),'r')
        for line in data:
            words = line.split(" ")
            spamSize = spamSize + len(words)
            for w in words:
    for f in os.listdir(os.path.join(path,nonspamFolders[0])):
        data = open(os.path.join(path,nonspamFolders[0],f),'r')
        for line in data:
            words = line.split(" ")
            nonspamSize = nonspamSize + len(words)
            for w in words:
    logProbspam = {}
    logProbnonSpam = {} #This is to store the log probabilities
    for k in spamDict.keys():
        #Need to calculate P(x | y = 1)
        numerator =  spamDict[k] + 1  # Frequency
        print 'Word',k,' frequency',spamDict[k]
        denominator = spamSize + vocabSize
        p = log(numerator/denominator)
        logProbspam[k] = p
    for k in nonspamDict.keys():
        numerator = nonspamDict[k] + 1 #frequency
        denominator = nonspamSize + vocabSize
        p = log(numerator/denominator)
        logProbnonSpam[k] = p
    for k in logProbnonSpam.keys():
        nonspamVector.write(k+" "+str(logProbnonSpam[k])+"\n")
    for k in logProbspam.keys():
        spamVector.write(k+" "+str(logProbspam[k])+"\n")
  2. For prediction, I just took a mail , split it into words, added all the probabilities, separately for spam/non-spam, and multiplied them by 0.5. Whichever was higher was the class label. Code is below:

    http://pastebin.com/8Y6Gm2my ( Stackoverflow was again playing games for some reason :-/)

EDIT : I have removed the spam = spam + 1 thing. Instead, I just ignore those words

Problem : My accuracy is quite bad . As noted below.

    No of files in spam is 130
    No. of spam in  ../NaiveBayes/spam-test  is  53  no. of non-spam 77
    No of files in non-spam is 130
    No. of spam in  ../NaiveBayes/nonspam-test/  is  6  no. of non-spam 124

Please tell me where all I am going wrong. I think an accuracy of less than 50% means there must be some glaring error(s) in the implementation.

share|improve this question
You are not doing "naive Bayes", you are doing Bayes with Laplace Smoothing, with "k" (the Laplace Smoothing parameter) equal to 1. That is why you are adding 1 to the numerator (k) and vocabsize (k * set_size) to the denominator. –  Jim Clay Dec 30 '11 at 14:25
Have you run the above code? Doesn't it give you a math domain error? You need to collect the counts as floats else on division everything will become zero. –  abhaga Dec 30 '11 at 14:28
Go to ai-class.com/home and watch the videos on "Machine Learning" (lesson #5) to find out more about Laplace Smoothing and whether it's the right thing to do or not. There are pros and cons to using it. –  Jim Clay Dec 30 '11 at 14:29
@JimClay: Laplace or Lidstone smoothing is performed in just about every practical implementation of multinomial Naive Bayes. –  larsmans Dec 30 '11 at 14:35
I think the from future import division part took care of the division . Yeah I added laplace to make up for the absentees . Thanks –  crazyaboutliv Dec 30 '11 at 15:05

2 Answers 2

up vote 2 down vote accepted

There are multiple errors and bad assumptions in your program - in both parts of it. Here are several.

  1. You hardcode into your program the fact that you have the same number of spam and non-spam emails. I'd recommend not to hardcode this assumption. This is not absolutely essential, but in a more general case you will need to remove it.
  2. You hadrcode into your program some number that you treat as the vocabulary size. I'd not recommend doing this as this number may change on any modification of the training set. Furthermore, actually it's incorrect. I'd recommend to calculate it during learning.
  3. This may be not a mistake, but you seem to have a vocabulary of all the words in the training set. This may be suboptimal; actually the page you refer to recommends to take into account only the top-2500 words over all the emails. However, that's not essential for obtaining correct results - even without this filtering, my implementation is getting only several emails unclassified.
  4. You incorrectly account for words that have been observed in spam or non-spam only. The log-probability for them being found in the other subset is not 1 which you add, but log(1/(spamSize+vocabSize)) or log(1/(nonspamSize+vocabSize)) depending on its group. This is actually very important - you need to store this probability with your data for the program to function correctly.
  5. You do not ignore words never observed in the training set. Actually these may be treated in different ways, but you should take them into account.
  6. Due to incorrect indentation in the prediction function, you predict using not the whole message, but only the first line of the message. Just a programming bug.

Update. You have fixed 6. Also 1 is not strictly nessesary to fix while you're working with this dataset, as well as 3 is not required.
Your modification did not correctly fix either 4 or 5. First, if the word has never been observed in some set, the probability of the message in it should decrease. Ignoring the word is not a good idea, you need to account for it as a highly unprobable one.
Second, your current code is asymmetric as the word being absent in spam cancels the check for non-spam (but not the other way). If you need to do nothing in an exception handler, use pass, not continue, as the latter immediately goes to the next for w in words: iteration.
The problem number 2 is also still in place - the vocabulary size you use does not match the real one. It must be the number of different words observed in the training set, not the total number of words in all the messages together.

share|improve this answer
1. I hard-coded it as it actually had an equal no. of spam and non-spam –  crazyaboutliv Jan 5 '12 at 10:25
2. I will take only 2500 as suggested on the site then 3. I changed the indentation but the answer has remained the same sadly :( I will modify the accounting for words found in spam/non-spam only. Thanks. –  crazyaboutliv Jan 5 '12 at 10:27
Currently the primary problem seems to be the one number 4. If you've never seen some word in spam, it makes it highly unprobable and you need to penalize this probability heavily instead of increasing it by adding one. –  Tanriol Jan 5 '12 at 14:24
I am guessing what you mean to say is that the part where I do numerator = spamDict[k]+1 should be changed to spamdict[k]+log(1/(number)) ?? –  crazyaboutliv Jan 5 '12 at 14:52
No, you're wrong. The offending line is spamP = spamP + 1 in the except clause which is in the predict function. And the one about non-spam too. –  Tanriol Jan 5 '12 at 15:07

Here's at least one of the errors you're making: you're storing log-probabilities in your model file (as you should), but then in the prediction code you're pretending that they are straight probabilities:

totalSpamP = spamP * 0.5

should be

totalSpamP = spamP + math.log(0.5)

Also, I don't get what this line is doing:

spamP = spamP + 1

It seems to be making up for a feature not found in the spam part of the training set, but those words should simply be ignored. Right now, it's adding e (exp(1)) to a probability, which by definition is invalid.

(As an aside, I just tried classification on this training set with my own implementation of Naive Bayes and got 97.6% accuracy, so that's the figure you should be aiming at :)

share|improve this answer
Hi , Let me make the changes and get back to you ! Thanks a lot ! –  crazyaboutliv Dec 30 '11 at 15:05
Btw , why do we add the vocab size ? Is laplace smoothing the reason behind adding it ? –  crazyaboutliv Dec 30 '11 at 15:06
Yes the spamP = spamP + 1 was adding 1 to it, which now I have removed. –  crazyaboutliv Dec 30 '11 at 15:10
Hi, I have made the changes you suggested. The accuracy has definitely improved, atleast for the non-spam case , but the spam case remains the same :( What other changes should be made ? –  crazyaboutliv Dec 30 '11 at 15:25
Hi, there was a small mistake due to which the non-spam accuracy was going wrong. Its fixed. But the spam one is still horribly wrong :( –  crazyaboutliv Dec 30 '11 at 16:04

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