Twitter Sentiment Analysis using Python

This article covers the sentiment analysis of any topic by parsing the tweets fetched from Twitter using Python.

What is sentiment analysis?
Sentiment Analysis is the process of ‘computationally’ determining whether a piece of writing is positive, negative or neutral. It’s also known as opinion mining, deriving the opinion or attitude of a speaker.

Why sentiment analysis?

• Business: In marketing field companies use it to develop their strategies, to understand customers’ feelings towards products or brand, how people respond to their campaigns or product launches and why consumers don’t buy some
  products.
• Politics: In political field, it is used to keep track of political view, to detect consistency and inconsistency between statements and actions at the government level. It can be used to predict election results as well!
• Public Actions: Sentiment analysis also is used to monitor and analyse social phenomena, for the spotting of potentially dangerous situations and determining the general mood of the blogosphere.

Installation:

• Tweepy: tweepy is the python client for the official Twitter API.
  Install it using following pip command:
• pip install tweepy
• TextBlob: textblob is the python library for processing textual data.
  Install it using following pip command:
• pip install textblob
• Also, we need to install some NLTK corpora using following command:
• python -m textblob.download_corpora

(Corpora is nothing but a large and structured set of texts.)

Authentication:
In order to fetch tweets through Twitter API, one needs to register an App through their twitter account. Follow these steps for the same:

• Open this link and click the button: ‘Create New App’
• Fill the application details. You can leave the callback url field empty.
• Once the app is created, you will be redirected to the app page.
• Open the ‘Keys and Access Tokens’ tab.
• Copy ‘Consumer Key’, ‘Consumer Secret’, ‘Access token’ and ‘Access Token Secret’.

[code]
import re
import tweepy
from tweepy import OAuthHandler
from textblob import TextBlob

class TwitterClient(object):
”’
Generic Twitter Class for sentiment analysis.
”’
def __init__(self):
”’
Class constructor or initialization method.
”’
# keys and tokens from the Twitter Dev Console
consumer_key = ‘XXXXXXXXXXXXXXXXXXXXXXXX’
consumer_secret = ‘XXXXXXXXXXXXXXXXXXXXXXXXXXXX’
access_token = ‘XXXXXXXXXXXXXXXXXXXXXXXXXXXX’
access_token_secret = ‘XXXXXXXXXXXXXXXXXXXXXXXXX’

# attempt authentication
try:
# create OAuthHandler object
self.auth = OAuthHandler(consumer_key, consumer_secret)
# set access token and secret
self.auth.set_access_token(access_token, access_token_secret)
# create tweepy API object to fetch tweets
self.api = tweepy.API(self.auth)
except:
print("Error: Authentication Failed")

def clean_tweet(self, tweet):
”’
Utility function to clean tweet text by removing links, special characters
using simple regex statements.
”’
return ‘ ‘.join(re.sub("(@[A-Za-z0-9]+)|([^0-9A-Za-z \t])
|(\w+:\/\/\S+)", " ", tweet).split())

def get_tweet_sentiment(self, tweet):
”’
Utility function to classify sentiment of passed tweet
using textblob’s sentiment method
”’
# create TextBlob object of passed tweet text
analysis = TextBlob(self.clean_tweet(tweet))
# set sentiment
if analysis.sentiment.polarity > 0:
return ‘positive’
elif analysis.sentiment.polarity == 0:
return ‘neutral’
else:
return ‘negative’

def get_tweets(self, query, count = 10):
”’
Main function to fetch tweets and parse them.
”’
# empty list to store parsed tweets
tweets = []

try:
# call twitter api to fetch tweets
fetched_tweets = self.api.search(q = query, count = count)

# parsing tweets one by one
for tweet in fetched_tweets:
# empty dictionary to store required params of a tweet
parsed_tweet = {}

# saving text of tweet
parsed_tweet[‘text’] = tweet.text
# saving sentiment of tweet
parsed_tweet[‘sentiment’] = self.get_tweet_sentiment(tweet.text)

# appending parsed tweet to tweets list
if tweet.retweet_count > 0:
# if tweet has retweets, ensure that it is appended only once
if parsed_tweet not in tweets:
tweets.append(parsed_tweet)
else:
tweets.append(parsed_tweet)

# return parsed tweets
return tweets

except tweepy.TweepError as e:
# print error (if any)
print("Error : " + str(e))

def main():
# creating object of TwitterClient Class
api = TwitterClient()
# calling function to get tweets
tweets = api.get_tweets(query = ‘Donald Trump’, count = 200)

# picking positive tweets from tweets
ptweets = [tweet for tweet in tweets if tweet[‘sentiment’] == ‘positive’]
# percentage of positive tweets
print("Positive tweets percentage: {} %".format(100*len(ptweets)/len(tweets)))
# picking negative tweets from tweets
ntweets = [tweet for tweet in tweets if tweet[‘sentiment’] == ‘negative’]
# percentage of negative tweets
print("Negative tweets percentage: {} %".format(100*len(ntweets)/len(tweets)))
# percentage of neutral tweets
print("Neutral tweets percentage: {} % \
".format(100*len(tweets – ntweets – ptweets)/len(tweets)))

# printing first 5 positive tweets
print("\n\nPositive tweets:")
for tweet in ptweets[:10]:
print(tweet[‘text’])

# printing first 5 negative tweets
print("\n\nNegative tweets:")
for tweet in ntweets[:10]:
print(tweet[‘text’])

if __name__ == "__main__":
# calling main function
main()
[/code]

We follow these 3 major steps in our program:

• Authorize twitter API client.
• Make a GET request to Twitter API to fetch tweets for a particular query.
• Parse the tweets. Classify each tweet as positive, negative or neutral.

Now, let us try to understand the above piece of code:

• First of all, we create a TwitterClient class. This class contains all the methods to interact with Twitter API and parsing tweets. We use __init__ function to handle the authentication of API client.
• In get_tweets function, we use:
• fetched_tweets = self.api.search(q = query, count = count)to call the Twitter API to fetch tweets.
• In get_tweet_sentiment we use textblob module.
• analysis = TextBlob(self.clean_tweet(tweet))

TextBlob is actually a high level library built over top of NLTK library. First we call clean_tweet method to remove links, special characters, etc. from the tweet using some simple regex.
Then, as we pass tweet to create a TextBlob object, following processing is done over text by textblob library:

• Tokenize the tweet ,i.e split words from body of text.
• Remove stopwords from the tokens.(stopwords are the commonly used words which are irrelevant in text analysis like I, am, you, are, etc.)
• Do POS( part of speech) tagging of the tokens and select only significant features/tokens like adjectives, adverbs, etc.
• Pass the tokens to a sentiment classifier which classifies the tweet sentiment as positive, negative or neutral by assigning it a polarity between -1.0 to 1.0 .

Here is how sentiment classifier is created:

• TextBlob uses a Movies Reviews dataset in which reviews have already been labelled as positive or negative.
• Positive and negative features are extracted from each positive and negative review respectively.
• Training data now consists of labelled positive and negative features. This data is trained on a Naive Bayes Classifier.

Then, we use sentiment.polarity method of TextBlob class to get the polarity of tweet between -1 to 1.

Then, we classify polarity as:

[code]
if analysis.sentiment.polarity > 0:
return ‘positive’
elif analysis.sentiment.polarity == 0:
return ‘neutral’
else:
return ‘negative’
[/code]

• Finally, parsed tweets are returned. Then, we can do various type of statistical analysis on the tweets. For example, in above program, we tried to find the percentage of positive, negative and neutral tweets about a query.