def test_register_existed_user(self):
        if not self.check_files_exist():
            prepare()

        users = get_users()
        first_users_len = len(users)
        nickname = users[0]

        self.assertFalse(register_user(nickname))

        users = get_users()
        self.assertEqual(len(users), first_users_len)
    def test_register_new_user(self, mock_record):
        prepare()

        users = get_users()
        first_users_len = len(users)
        new_user = '******'
        mock_record.return_value = wavfile.read('speakers/liza_register.wav')

        self.assertFalse(new_user in users)
        self.assertTrue(register_user(new_user))

        users = get_users()
        self.assertEqual(len(users), first_users_len + 1)
        self.assertTrue(new_user in users)
    def test_login_legal_user_not_from_training_set(self, mock_record):
        if not self.check_files_exist():
            prepare()

        users = get_users()
        speaker_file = join(users[0], listdir(users[0])[-1])
        mock_record.return_value = wavfile.read(speaker_file)
        self.assertTrue(login_user())
    def test_login_illegal_user_not_from_training_set(self, mock_record):
        if not self.check_files_exist():
            prepare()

        users = get_users()
        illegal_user = '******'
        self.assertFalse(illegal_user in users)
        mock_record.return_value = wavfile.read(join(illegal_user, 'ru_0014.wav'))
        self.assertFalse(login_user())
    def test_login_unknown_illegal_user(self, mock_record):
        if not self.check_files_exist():
            prepare()

        users = get_users()
        illegal_user = '******'
        self.assertFalse(illegal_user in users)
        mock_record.return_value = wavfile.read(join(illegal_user, 'ru_0042.wav'))
        self.assertFalse(login_user())
    def test_prepare(self):
        for file in self.files:
            if os.path.isfile(file):
                os.remove(file)

        prepare()

        for file in self.files:
            self.assertTrue(pathlib.Path(file).is_file())

        users = get_users()
        self.assertTrue(len(users) > 0)
Ejemplo n.º 7
0
        opt_ins = self.get_weekly_opt_ins()
        user_ids = [u.user_id for u in self.users]

        for opt_in in opt_ins:
            if str(opt_in) not in user_ids:
                msg = msg_no_name % (opt_ins[opt_in])
                if debug:
                    print msg
                else:
                    print message_client.send(msg,str(opt_in))

    def send_pair_assignment_messages(self,finish_date,pairs,debug=True):
        msg_no_names = Text(self.group_id).assign_pair
        for pair in pairs:
            msg = msg_no_names % (finish_date,pair[0].name,pair[1].name)
            if debug:
                print msg
            else:
                self.message_client.send2(msg,[str(p.user_id) for p in pair])


if __name__ == "__main__":
    spam_missing_surveys = True

    for group_id in Config.groups:
        main = Main(group_id)
        main.get_users()
        if spam_missing_surveys:
            main.send_missing_survey_messages()
        pairs = main.analyze_pairs()
        main.send_pair_assignment_messages("April 17th", pairs)
Ejemplo n.º 8
0
                    print self.message_client.send(msg,str(opt_in))
                    print msg

    def send_pair_assignment_messages(self,finish_date,pairs,debug=True):
        """Send message to pairs of users alerting them to their pairings"""
        msg_no_names = Text(self.group_id).assign_pair
        if raw_input('Continue Sending Messages - T or F : ') != "T":
            return
        for pair in pairs:
            msg = msg_no_names % (finish_date,pair[0].name,pair[1].name)
            if raw_input("Send Pair %s -- %s -- T or F: " % (pair[0].name,pair[1].name)) != "T":
                print "Skipping %s -- %s" % (pair[0].name,pair[1].name)
                continue
            else:
                if debug:
                    print "DEBUG ONLY - NOT ACTUALLY SENDING"
                    print msg
                else:
                    self.message_client.send2(msg,[str(p.user_id) for p in pair])


if __name__ == "__main__":
    spam_missing_surveys = False

    for group_id in Config.groups:
        main = Main(group_id)
        main.get_users()
        if spam_missing_surveys:
            main.send_missing_survey_messages()
        pairs = main.analyze_pairs()
#        main.send_pair_assignment_messages("May 29th", pairs,False)
Ejemplo n.º 9
0
    freqs = get_full_frequencies(users_tokens)
    freq_pairs = freqs.items()
    wc = WordCloud(max_words=2000, mask=trump_coloring,
                   max_font_size=40, random_state=42)
    wc.generate_from_frequencies(freq_pairs)

    image_colors = ImageColorGenerator(trump_coloring)

    # plt.imshow(wc)
    # plt.axis("off")
    #
    # plt.figure()
    plt.imshow(wc.recolor(color_func=image_colors))
    # recolor wordcloud and show
    # we could also give color_func=image_colors directly in the constructor
    # plt.imshow(trump_coloring, cmap=plt.cm.gray)
    plt.axis("off")
    plt.show()

if __name__ == "__main__":
    df_users = main.get_users()
    # df_users = df_users[:1000]

    users, users_tokens = collect_users_tokens(df_users)
    token_set = get_full_token_set(users_tokens)
    v = DictVectorizer()
    vs = v.fit_transform(users_tokens)
    np.savez("files/out_4.dat", data=vs, users=users, users_tokens=list(token_set))

    draw_tag_cloud(users_tokens)
Ejemplo n.º 10
0
            sim = Simulator()
            sim.simulate(200) ## By adding a seed parameter, you can have reproducible sims
            self.users = sim.get_users()

    #    ## Print some summaries
    #    for user in users:
    #        user.to_string()

        # Print some descriptive stats
        print "# Users", len(self.users), [u.name for u in self.users]


    def analyze_pairs(self):
        # Analyze pairs
        ## This is a very basic algorithm that only makes use of geography
        ## TODO: Update algorithm to incorporate more than geography
        analyze = Analyze(self.users)
        analyze.analyze_easy_potentials()
        analyze.get_best_matches()
        potential_pairs = analyze.get_potential_pairs()

    #    for user in users:
    #        if user.user_id not in potential_pairs:
    #            print "No Matches for:", user.name
    #        print user.user_id,user.name

if __name__ == "__main__":
    for group_id in Config.groups:
        main = Main()
        main.get_users(group_id)
        main.analyze_pairs()
Ejemplo n.º 11
0
 def test_request_response(self):
     response = get_users()
     # Assert that the request-response cycle completed successfully with status code 200.
     self.assertEqual(response.status_code, 200)