Note that the optional watermark extension is a small IPython notebook plugin that I developed to make the code reproducible. You can just skip the following line(s).
%load_ext watermark
%watermark -a 'Sebastian Raschka' -u -d -v -p numpy,pandas,matplotlib,nltk
Sebastian Raschka Last updated: 08/20/2015 CPython 3.4.3 IPython 3.2.1 numpy 1.9.2 pandas 0.16.2 matplotlib 1.4.3 nltk 3.0.4
# to install watermark just uncomment the following line:
#%install_ext https://raw.githubusercontent.com/rasbt/watermark/master/watermark.py
The code for the Flask web applications can be found in the following directories:
1st_flask_app_1/
: A simple Flask web app1st_flask_app_2/
: 1st_flask_app_1
extended with flexible form validation and renderingmovieclassifier/
: The movie classifier embedded in a web applicationmovieclassifier_with_update/
: same as movieclassifier
but with update from sqlite database upon startTo run the web applications locally, cd
into the respective directory (as listed above) and execute the main-application script, for example,
cd ./1st_flask_app_1
python3 app.py
Now, you should see something like
* Running on http://127.0.0.1:5000/
* Restarting with reloader
in your terminal. Next, open a web browsert and enter the address displayed in your terminal (typically http://127.0.0.1:5000/) to view the web application.
Link to a live example application built with this tutorial: http://raschkas.pythonanywhere.com/.
from IPython.display import Image
This section is a recap of the logistic regression model that was trained in the last section of Chapter 6. Execute the folling code blocks to train a model that we will serialize in the next section.
import numpy as np
import re
from nltk.corpus import stopwords
stop = stopwords.words('english')
porter = PorterStemmer()
def tokenizer(text):
text = re.sub('<[^>]*>', '', text)
emoticons = re.findall('(?::|;|=)(?:-)?(?:\)|\(|D|P)', text.lower())
text = re.sub('[\W]+', ' ', text.lower()) + ' '.join(emoticons).replace('-', '')
tokenized = [w for w in text.split() if w not in stop]
return tokenized
def stream_docs(path):
with open(path, 'r') as csv:
next(csv) # skip header
for line in csv:
text, label = line[:-3], int(line[-2])
yield text, label
next(stream_docs(path='./movie_data.csv'))
('"In 1974, the teenager Martha Moxley (Maggie Grace) moves to the high-class area of Belle Haven, Greenwich, Connecticut. On the Mischief Night, eve of Halloween, she was murdered in the backyard of her house and her murder remained unsolved. Twenty-two years later, the writer Mark Fuhrman (Christopher Meloni), who is a former LA detective that has fallen in disgrace for perjury in O.J. Simpson trial and moved to Idaho, decides to investigate the case with his partner Stephen Weeks (Andrew Mitchell) with the purpose of writing a book. The locals squirm and do not welcome them, but with the support of the retired detective Steve Carroll (Robert Forster) that was in charge of the investigation in the 70\'s, they discover the criminal and a net of power and money to cover the murder.<br /><br />""Murder in Greenwich"" is a good TV movie, with the true story of a murder of a fifteen years old girl that was committed by a wealthy teenager whose mother was a Kennedy. The powerful and rich family used their influence to cover the murder for more than twenty years. However, a snoopy detective and convicted perjurer in disgrace was able to disclose how the hideous crime was committed. The screenplay shows the investigation of Mark and the last days of Martha in parallel, but there is a lack of the emotion in the dramatization. My vote is seven.<br /><br />Title (Brazil): Not Available"', 1)
If you haven't created the movie_data.csv
file in the previous chapter, you can find a download a zip archive at
https://github.com/rasbt/python-machine-learning-book/tree/master/code/datasets/movie
def get_minibatch(doc_stream, size):
docs, y = [], []
try:
for _ in range(size):
text, label = next(doc_stream)
docs.append(text)
y.append(label)
except StopIteration:
return None, None
return docs, y
from sklearn.feature_extraction.text import HashingVectorizer
from sklearn.linear_model import SGDClassifier
vect = HashingVectorizer(decode_error='ignore',
n_features=2**21,
preprocessor=None,
tokenizer=tokenizer)
clf = SGDClassifier(loss='log', random_state=1, n_iter=1)
doc_stream = stream_docs(path='./movie_data.csv')
import pyprind
pbar = pyprind.ProgBar(45)
classes = np.array([0, 1])
for _ in range(45):
X_train, y_train = get_minibatch(doc_stream, size=1000)
if not X_train:
break
X_train = vect.transform(X_train)
clf.partial_fit(X_train, y_train, classes=classes)
pbar.update()
0% 100% [##############################] | ETA[sec]: 0.000 Total time elapsed: 59.019 sec
X_test, y_test = get_minibatch(doc_stream, size=5000)
X_test = vect.transform(X_test)
print('Accuracy: %.3f' % clf.score(X_test, y_test))
Accuracy: 0.868
clf = clf.partial_fit(X_test, y_test)
After we trained the logistic regression model as shown above, we know save the classifier along woth the stop words, Porter Stemmer, and HashingVectorizer
as serialized objects to our local disk so that we can use the fitted classifier in our web application later.
import pickle
import os
dest = os.path.join('movieclassifier', 'pkl_objects')
if not os.path.exists(dest):
os.makedirs(dest)
pickle.dump(stop, open(os.path.join(dest, 'stopwords.pkl'), 'wb'), protocol=4)
pickle.dump(clf, open(os.path.join(dest, 'classifier.pkl'), 'wb'), protocol=4)
Next, we save the HashingVectorizer
as in a separate file so that we can import it later.
%%writefile movieclassifier/vectorizer.py
from sklearn.feature_extraction.text import HashingVectorizer
import re
import os
import pickle
cur_dir = os.path.dirname(__file__)
stop = pickle.load(open(
os.path.join(cur_dir,
'pkl_objects',
'stopwords.pkl'), 'rb'))
def tokenizer(text):
text = re.sub('<[^>]*>', '', text)
emoticons = re.findall('(?::|;|=)(?:-)?(?:\)|\(|D|P)',
text.lower())
text = re.sub('[\W]+', ' ', text.lower()) \
+ ' '.join(emoticons).replace('-', '')
tokenized = [w for w in text.split() if w not in stop]
return tokenized
vect = HashingVectorizer(decode_error='ignore',
n_features=2**21,
preprocessor=None,
tokenizer=tokenizer)
Overwriting movieclassifier/vectorizer.py
After executing the preceeding code cells, we can now restart the IPython notebook kernel to check if the objects were serialized correctly.
First, change the current Python directory to movieclassifer
:
import os
os.chdir('movieclassifier')
import pickle
import re
import os
from vectorizer import vect
clf = pickle.load(open(os.path.join('pkl_objects', 'classifier.pkl'), 'rb'))
import numpy as np
label = {0:'negative', 1:'positive'}
example = ['I love this movie']
X = vect.transform(example)
print('Prediction: %s\nProbability: %.2f%%' %\
(label[clf.predict(X)[0]], clf.predict_proba(X).max()*100))
Prediction: positive Probability: 91.56%
Before you execute this code, please make sure that you are currently in the movieclassifier
directory.
import sqlite3
conn = sqlite3.connect('reviews.sqlite')
c = conn.cursor()
c.execute('CREATE TABLE review_db (review TEXT, sentiment INTEGER, date TEXT)')
example1 = 'I love this movie'
c.execute("INSERT INTO review_db (review, sentiment, date) VALUES (?, ?, DATETIME('now'))", (example1, 1))
example2 = 'I disliked this movie'
c.execute("INSERT INTO review_db (review, sentiment, date) VALUES (?, ?, DATETIME('now'))", (example2, 0))
conn.commit()
conn.close()
conn = sqlite3.connect('reviews.sqlite')
c = conn.cursor()
c.execute("SELECT * FROM review_db WHERE date BETWEEN '2015-01-01 10:10:10' AND DATETIME('now')")
results = c.fetchall()
conn.close()
print(results)
[('I love this movie', 1, '2015-07-15 01:25:15'), ('I disliked this movie', 0, '2015-07-15 01:25:15')]
Image(filename='./images/09_01.png', width=700)
...
...
Image(filename='./images/09_02.png', width=400)
Image(filename='./images/09_03.png', width=400)
Image(filename='./images/09_04.png', width=400)
Image(filename='./images/09_05.png', width=400)
Image(filename='./images/09_06.png', width=400)
Image(filename='./images/09_07.png', width=200)
Image(filename='./images/09_08.png', width=600)
Change current directory to movieclassifier
:
import os
os.chdir('movieclassifier')
Define a function to update the classifier with the data stored in the local SQLite database:
import pickle
import sqlite3
import numpy as np
# import HashingVectorizer from local dir
from vectorizer import vect
def update_model(db_path, model, batch_size=10000):
conn = sqlite3.connect(db_path)
c = conn.cursor()
c.execute('SELECT * from review_db')
results = c.fetchmany(batch_size)
while results:
data = np.array(results)
X = data[:, 0]
y = data[:, 1].astype(int)
classes = np.array([0, 1])
X_train = vect.transform(X)
clf.partial_fit(X_train, y, classes=classes)
results = c.fetchmany(batch_size)
conn.close()
return None
Update the model:
cur_dir = '.'
# Use the following path instead if you embed this code into
# the app.py file
# import os
# cur_dir = os.path.dirname(__file__)
clf = pickle.load(open(os.path.join(cur_dir,
'pkl_objects',
'classifier.pkl'), 'rb'))
db = os.path.join(cur_dir, 'reviews.sqlite')
update_model(db_path=db, model=clf, batch_size=10000)
# Uncomment the following lines to update your classifier.pkl file
# pickle.dump(clf, open(os.path.join(cur_dir,
# 'pkl_objects', 'classifier.pkl'), 'wb')
# , protocol=4)