Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I thought (and still Contino not understand why the difference) this code:

def categories(self):
    cur=self.con.execute('select category from cc');
    for d in cur:
        return d[0]

was equivalent to this other:

def categories(self):
    cur=self.con.execute('select category from cc');
    return [d[0] for d in cur]

But when I replace one by another in my code I got an error in other place of the code:

  File "C:\Users\CG\Desktop\Google Drive\Sci&Tech\projects\naivebayes\main.py", line 226, in post
    spam_result = nb.classify(given_sentence)
  File "C:\Users\CG\Desktop\Google Drive\Sci&Tech\projects\naivebayes\main.py", line 204, in classify
    if cat==best: continue
UnboundLocalError: local variable 'best' referenced before assignment

Why this happen? Why the two piece of code aren't equivalent?

Entire code:

# -*- coding: utf-8 -*-
# -*- coding: utf-8 -*-

import sqlite3

import USSSALoader

import random

from pysqlite2 import dbapi2 as sqlite

import re

import math

def getfeatures(doc):
  # Split the words by non-alpha characters
  words=[s.lower() for s in splitter.split(doc)
          if len(s)>2 and len(s)<20]
  # Return the unique set of words only
#  return dict([(w,1) for w in words]).iteritems()
  return dict([(w,1) for w in words])

class classifier:
  def __init__(self,getfeatures, filename=None):
    # Counts of feature/category combinations
    # Counts of documents in each category

#  def setdb(self,dbfile):
#    self.con=sqlite3.connect(":memory:")
    self.con.execute('create table if not exists fc(feature,category,count)')
    self.con.execute('create table if not exists cc(category,count)')

  def incf(self,f,cat):
    if count==0:
      self.con.execute("insert into fc values ('%s','%s',1)" % (f,cat))
        "update fc set count=%d where feature='%s' and category='%s'"
        % (count+1,f,cat))

  def fcount(self,f,cat):
      'select count from fc where feature="%s" and category="%s"'
    if res==None: return 0
    else: return float(res[0])

  def incc(self,cat):
    if count==0:
      self.con.execute("insert into cc values ('%s',1)" % (cat))
      self.con.execute("update cc set count=%d where category='%s'"
                       % (count+1,cat))

  def catcount(self,cat):
    res=self.con.execute('select count from cc where category="%s"'
    if res==None: return 0
    else: return float(res[0])

  def categories(self):
    cur=self.con.execute('select category from cc');
#    return [d[0] for d in cur]
    for d in cur:
 #       print "d =", d
  #      print "d[0] =", d[0]
        return d[0]

  def totalcount(self):
    res=self.con.execute('select sum(count) from cc').fetchone();
    if res==None: return 0
    print "res=self.con.execute('select * FROM cc').fetchall(); = ", self.con.execute('select * FROM cc').fetchall();
    print 'res sum(count) = ', res
    print 'res[0] = ', res[0]
    return res[0]

  def train(self,item,cat):
    # Increment the count for every feature with this category
    for f in features:
##    for f in features:
    # Increment the count for this category

  def fprob(self,f,cat):
    if self.catcount(cat)==0: return 0
    # The total number of times this feature appeared in this
    # category divided by the total number of items in this category
    return self.fcount(f,cat)/self.catcount(cat)

  def weightedprob(self,f,cat,prf,weight=1.0,ap=0.5):
    # Calculate current probability
    # Count the number of times this feature has appeared in
    # all categories
    totals=sum([self.fcount(f,c) for c in self.categories()])
    # Calculate the weighted average
    return bp

class naivebayes(classifier):

  def __init__(self,getfeatures):
    classifier.__init__(self, getfeatures)

  def docprob(self,item,cat):
    # Multiply the probabilities of all the features together
    for f in features: p*=self.weightedprob(f,cat,self.fprob)
    return p

  def prob(self,item,cat):
    return docprob*catprob

  def setthreshold(self,cat,t):

  def getthreshold(self,cat):
    if cat not in self.thresholds: return 1.0
    return self.thresholds[cat]

  def classify(self,item,default=None):
    # Find the category with the highest probability
    for cat in self.categories():
      if probs[cat]>max:

    # Make sure the probability exceeds threshold*next best
    for cat in probs:
      if cat==best: continue
      if probs[cat]*self.getthreshold(best)>probs[best]: return default
    return best

def sampletrain(cl):
  cl.train('Nobody owns the water.','good')
  cl.train('the quick rabbit jumps fences','good')
  cl.train('buy pharmaceuticals now','bad')
  cl.train('make quick money at the online casino','bad')
  cl.train('the quick brown fox jumps','good')

nb = naivebayes(getfeatures)


doc_test = "buy pharmaceuticals now or earn money at the online casino"

print ('\ndoc_test is classified as %s'%nb.classify(doc_test))
share|improve this question
your error has nothing to do with the snippets you posted. they are different because in the first it will return the 0th element of the first item in the list in the second it will return a list of all the 0th elements in the list –  Joran Beasley Aug 15 '12 at 21:09
I get the feeling that the first statement should be yield and not return (as you would only ever get one row back even if multiple rows were returned). –  Makoto Aug 15 '12 at 21:11

3 Answers 3

up vote 4 down vote accepted

A function only returns once.

When you see

for d in cur:
    return d[0]

the loop returns during the first iteration.

But this list comprehension

return [d[0] for d in cur]

loops over every item in cur to create a list and then returns the result.

share|improve this answer
Thanks, Steven. I didn't know the behavior of [d[0] for d in cur]. I didn't know it was creating a list. Now I fixed my code. Thanks again! –  craftApprentice Aug 15 '12 at 21:21
@Pythonista'sApprentice: Just one additional tip. This list comprehension is part of larger family of comprehensions (and generators). In similar way you can use set comprehension ({i ** 2 for i in range(10)}) to build a set, dictionary comprehension ({i: i ** 2 for i in range(10)}) to build a dict, or generator expression ((i ** 2 for i in range(10))) to build a generator object. The last one is special, as it can be iterated over only once (see here) and the parentheses can be omitted if it is the only argument passed to some callable. –  Tadeck Aug 16 '12 at 0:49

Building on Steven Rumbalksi's answer, the following code:

dList = []
for d in cur:
return dList

would be equivalent to:

return [d[0] for d in cur]

List comprehensions are really powerful like that, but they can be excessively dense ways of expressing the ideas, especially when you start nesting them, which leads to difficulty reading and debugging code.

share|improve this answer

i think you may be confusing a regular function for a generator, change

for d in cur:
    return d[0]


for d in cur:
    yield d[0]

to return an iterable

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.