Ejemplo n.º 1
0
def batcher(params, batch):
    import tensorflow as tf
    import tensorflow_hub as hub
    import re
    import seaborn as sns
    import matplotlib.pyplot as plt
    import numpy as np
    import os

    from yandex.Translater import Translater
    tr = Translater()
    tr.set_key(
        'trnsl.1.1.20190129T181632Z.6ad260c3f03e55a5.ae512973f3fa9c42fec01e4218fb4efd03a61a1b'
    )  # Api key found on https://translate.yandex.com/developers/keys
    tr.set_from_lang('ru')
    tr.set_to_lang('en')

    module_url = "https://tfhub.dev/google/universal-sentence-encoder/2"
    embed = hub.Module(module_url)

    l = len(batch)
    for i in range(l):
        tr.set_text(batch[i])
        sentence = tr.translate()
        batch[i] = sentence

    messages = batch
    with tf.Session() as session:
        session.run(
            [tf.global_variables_initializer(),
             tf.tables_initializer()])
        message_embeddings = session.run(embed(messages))
    embeddings = format(message_embeddings)
    return embeddings
Ejemplo n.º 2
0
 def __init__(self,to_lang='es',from_lang='en'):
     token = "TOKEN" #get here https://translate.yandex.com/developers/keys
     tr = Translater()
     tr.set_key(token)
     tr.set_to_lang(to_lang)
     tr.set_from_lang(from_lang)
     self.from_lang_default = from_lang
     self.tr = tr
Ejemplo n.º 3
0
def init(update, context):
    bot = context.bot
    var_messagge = update.message.text[6:]
    # Variables
    currenttimestr = 'Tempo attuale a '
    citynotfoundstr = 'Non ho trovato la città'
    tempunit = 'celsius'
    tempstr = 'C°'
    lang = 'it'
    # Code
    try:
        tr = Translater()
        tr.set_key(Config.YANDEX_API)
        tr.set_from_lang('en')
        tr.set_to_lang(lang)
        weather = pyowm.OWM(Config.OPENWEATHER_API).weather_at_place(
            var_messagge.lower().capitalize()).get_weather()
        status = weather.get_status()
        desc = weather.get_detailed_status()
        for a, b in weather.get_temperature(unit=tempunit).items():
            if a == 'temp':
                temp = b
            if a == 'temp_min':
                mintemp = b
            if a == 'temp_max':
                maxtemp = b

        def sendweathermsg(icon):
            msgtext = currenttimestr + var_messagge.lower().capitalize(
            ) + ':\n\n'
            if icon == '':
                msgtext = msgtext + desc.capitalize()
            else:
                msgtext = msgtext + icon + ' ' + desc.capitalize() + ' ' + icon
            msgtext = msgtext + '\nHumidity: ' + str(weather.get_humidity(
            )) + '%\nTemp: ' + str(temp) + tempstr + ', Min Temp: ' + str(
                mintemp) + tempstr + ', Max Temp: ' + str(maxtemp) + tempstr
            tr.set_text(msgtext)
            bot.send_message(update.message.chat_id,
                             text=tr.translate(),
                             parse_mode='HTML')

        if status == 'Clouds':
            sendweathermsg('☁️')
        elif status == 'Clear':
            sendweathermsg('☀️')
        elif status == 'Rain':
            sendweathermsg('🌧')
        elif status == 'Drizzle':
            sendweathermsg('🌧')
        elif status == 'Mist':
            sendweathermsg('🌫')
        else:
            sendweathermsg('')
    except:
        bot.send_message(update.message.chat_id,
                         text=citynotfoundstr,
                         parse_mode='HTML')
Ejemplo n.º 4
0
def translate():
    tr = Translater()
    tr.set_key('Insert_your_API_Key_Here') # Api key found on https://translate.yandex.com/developers/keys
    text_to_translate = 'شركة ذات مسؤولية محدودة'
    tr.set_text(text_to_translate)
    tr.set_from_lang('ar')
    tr.set_to_lang('en')
    translated_txt = tr.translate()
    print(translated_txt)
Ejemplo n.º 5
0
 def translater(self):
     ru_str = self.ru_str
     tr = Translater()
     tr.set_key(self.token)
     tr.set_from_lang("ru")
     tr.set_to_lang("en")
     tr.set_text(ru_str)
     en_str = tr.translate()
     self.result = en_str
     print("Перевод:", self.result)
Ejemplo n.º 6
0
def traduceCarTec(cadenaEntrada):
    apiTranslateEplan = """trnsl.1.1.20190308T091207Z.xxx"""
    tr = Translater()
    tr.set_key(apiTranslateEplan)
    tr.set_from_lang('es')
    tr.set_to_lang('en')
    f.write("===> TraduceCarTec: " + str(cadenaEntrada) +
            str(type(cadenaEntrada)))
    tr.set_text(cadenaEntrada)
    cadEng = tr.translate()
    return (cadEng)
Ejemplo n.º 7
0
class Translate:
    def __init__(self):
        self.tin = Translater()
        self.tin.set_key("#your yandex id here")

    def translate(self, text, target):
        try:
            self.tin.set_to_lang(target)
            self.tin.set_text(text)
            self.tin.set_from_lang(self.tin.detect_lang())
            self.r = self.tin.translate()
            return self.r
        except:
            print("Translate Failed.")
Ejemplo n.º 8
0
def init(update, context):
    bot = context.bot
    message_var = update.message.text[8:]
    try:
        tr = Translater()
        tr.set_key(
            Config.YANDEX_API
        )  # Api key found on https://translate.yandex.com/developers/keys
        tr.set_text(message_var)
        tr.set_from_lang('it')
        tr.set_to_lang('en')
        bot.send_message(update.message.chat_id, tr.translate())
    except:
        bot.send_message(update.message.chat_id,
                         text="Perfavore inserisci una frase.")
Ejemplo n.º 9
0
    def translate(self, text, lanFrom, lanTo):
        if self.times != 0:
            tr = Translater()
            tr.set_key(secretKey)
            if re.search(r'[А-я]', text):
                tr.set_from_lang('ru')
                tr.set_to_lang('en')
            else:
                tr.set_from_lang('en')
                tr.set_to_lang('ru')
            if text != "":
                tr.set_text(text)
                textboxR.delete('1.0', "end-1c")
                textboxR.insert("1.0", tr.translate())

        self.times += 1
Ejemplo n.º 10
0
def traductionChained(utt, languages):

    tr = Translater()
    tr.set_key(
        'trnsl.1.1.20200203T095917Z.30bf7af5cf091999.513bc5df39c8c45fd3cc2baa0ee4c8af7669202a'
    )
    tr.set_text(utt)
    originLang = tr.detect_lang()
    tr.set_from_lang(originLang)
    tr.set_to_lang(languages[0])
    tr.set_text(utt)
    utt = tr.translate()

    for i, lan in enumerate(languages):
        tr.set_from_lang(lan)
        if i < len(languages) - 1:
            tr.set_to_lang(languages[i + 1])
        else:
            tr.set_to_lang(originLang)

        utt = tr.translate()
        tr.set_text(utt)

    #print(utt)
    return utt
Ejemplo n.º 11
0
def traduceEplan(cadenaEntrada):
    """esta funcion va a devolver la cadena compuesta y traducida a partir de una cadena de entrada"""
    #print "----> " + str(cadenaEntrada)
    cadenaEntrada = str(cadenaEntrada)
    cadEs = "es_ES@" + cadenaEntrada + ';'
    #Primero traduccion al ingles
    apiTranslateEplan = """trnsl.1.1.20190308T091207Z.xxx"""
    tr = Translater()
    tr.set_key(apiTranslateEplan)
    tr.set_from_lang('es')
    tr.set_to_lang('en')
    tr.set_text(cadenaEntrada)
    cadEng = "en_US@" + tr.translate() + ";"
    # #Frances
    tr.set_to_lang('fr')
    tr.set_text(cadenaEntrada)
    cadFr = "fr_FR@" + tr.translate() + ";"
    cadFr = cadFr.replace("'", "''")
    #Aleman
    tr.set_to_lang('de')
    tr.set_text(cadenaEntrada)
    cadAle = "de_DE@" + tr.translate() + ";"
    # #Polaco
    # tr.set_to_lang('pl')
    # tr.set_text(cadenaEntrada)
    # cadPol = "pl_PL@" + tr.translate() + ";"
    cadenaSalida = cadEs + cadEng + cadFr + cadAle  #+ cadPol
    return (cadenaSalida)
Ejemplo n.º 12
0
from wozzol import WozzolQuizUnit
import os
import requests

from yandex.Translater import Translater
tr = Translater()
# Api key found on https://translate.yandex.com/developers/keys
tr.set_key('trnsl.1.1.20200317T184210Z.859bd4e1e36decc9.54c5d73f715ded0f0b5e33e8f80d0eca61173b7d')
tr.set_from_lang('es')
tr.set_to_lang('en')


def translate_word(word):
    tr.set_text(word)
    translation = tr.translate()
    return translation


def convert_word_list_to_wozzol(word_list):
    with open('somefile.txt', 'a') as the_file:
        the_file.write('wozzol')
        the_file.write('Spanish : English')
        for word in word_list:
            the_file.write(f'{word.question} = {word.answer}')


def convert_wiktionary():
    file_path = os.path.join('web_pages', 'spanish_1000_frequency.html')
    # format from https://www.wozzol.nl/woordenlijsten
    text_file = open(file_path, encoding="utf-8")
    text_lines = text_file.readlines()
Ejemplo n.º 13
0
from yandex.Translater import Translater
tr = Translater()
tr.set_key(
    'trnsl.1.1.20200119T075806Z.ba2fc76141b64141.3739322923782504e521bd76c8903e90835cb864'
)
tr.set_from_lang('en')
tr.set_to_lang('ta')
tr.set_text("rice crop field few weeks after sowing of seeds.")
txt = tr.translate()
Ejemplo n.º 14
0
from newspaper import Article
import nltk, re, pprint
from nltk import word_tokenize
import string
from yandex.Translater import Translater

tr = Translater()

tr.set_key(
    'trnsl.1.1.20190620T080928Z.059272b876400ab5.db9848757da3b1698721fef656db05d4903c4d1b'
)

tr.set_from_lang('en')
tr.set_to_lang('tr')

nltk.download('words')
nltk.download('stopwords')
nltk.download('averaged_perceptron_tagger')

#get stopwords, corpus-words

from nltk.corpus import words
from stop_words import get_stop_words
from nltk.corpus import stopwords

stop_words = list(get_stop_words('en'))  #Have around 900 stopwords
nltk_words = list(stopwords.words('english'))  #Have around 150 stopwords
stop_words.extend(nltk_words)


def fetch_words_from_news(url):
Ejemplo n.º 15
0
# Thresholding
def thresholding(image):
    return cv2.threshold(image, 0, 255, cv2.THRESH_BINARY + cv2.THRESH_OTSU)[1]


# Set enviroment variable with path to tesseract trained data
os.environ["TESSDATA_PREFIX"] = "data"

# Setup spellchecker
spell = SpellChecker()

# Setup translater
translater = Translater()
translater.set_key(args["apikey"])
translater.set_from_lang('en')
translater.set_to_lang('ru')

# Load the input image and grab the image dimensions
image = cv2.imread(args["image"])
orig = image.copy()
(origH, origW) = image.shape[:2]

# Set the new width and height and then determine the ratio in change
# for both the width and height
(newW, newH) = (args["width"], args["height"])
rW = origW / float(newW)
rH = origH / float(newH)

# Resize the image and grab the new image dimensions
image = cv2.resize(image, (newW, newH))
(H, W) = image.shape[:2]
Ejemplo n.º 16
0
def sendEmail(target_email,url,tmrange,etype):
    df = pd.read_csv('feedback-256010.csv')
    edf = pd.read_csv('email_records.csv')
    if url == "EMEA":
        csites = ["cs_CZ","en_UK","nl_BE","da_DK","en_ZA","nl_NL","de_AT","es_ES","pl_PL","de_CH","fr_BE","pt_pt","de_DE","fr_CH","ru_RU","en_IE","fr_FR","sv_SE","en_IL","it_IT","tr_TR","en_MDE"]
        down_df = df[df['Source URL'].str.contains('|'.join(csites))]
    elif url == "North America":
        csites = ["en_NA"]
        down_df = df[df['Source URL'].str.contains('|'.join(csites))]
    elif url == "APAC":
        csites = ["zh_CN","ja_JP","zh_TW","en_SEA","ko_KR","en_AU","en_NZ","en_IN"]
        down_df = df[df['Source URL'].str.contains('|'.join(csites))]
    elif url == "LAR":
        csites = ["en_CAR","es_CL","es_PE","es_CAR","es_CO"]
        down_df = df[df['Source URL'].str.contains('|'.join(csites))]
    elif url == "rockwellautomation.com/search":
        csites = ['rockwellautomation.com/search','rockwellautomation.com/my/search']
        down_df = df[df['Source URL'].str.contains('|'.join(csites))]
    else:
        down_df = df[df['Source URL'].str.contains(url)]

    today = datetime.now()
    timzo = pytz.timezone('US/Eastern')
    today = timzo.localize(today)
    week_prior = today - timedelta(weeks=tmrange)


    down_df['Date Submitted'] = pd.to_datetime(down_df['Date Submitted'])
    down_df['Date Submitted']=down_df['Date Submitted'].dt.tz_localize(tz='US/Eastern', nonexistent='shift_forward')
    date_df = down_df.loc[down_df['Date Submitted'] >= week_prior]

    #Cancel if no feedback at all in past week
    #if date_df.empty == True:
        #print("No data for time given, email not sent for "+str(url))
        #return

    testemail = MIMEMultipart()
    sender_email = "*****@*****.**"
    pw = "Ao1HO2RO3"
    #target_email = "*****@*****.**"
    testemail["From"] = sender_email
    testemail["To"] = target_email
    testemail["Subject"] = "Hotjar feedback from "+week_prior.strftime("%m/%d")+" to "+ today.strftime("%m/%d")+" | "+str(url)

    if etype == 'Responses':
        mess_df=date_df.loc[date_df["Message"].notna()]
        mess_df = mess_df.drop(columns=['Number',"User","OS"])

        htmlbod = '<html><body><h1>Hotjar feedback over past '+str(tmrange)+' week(s) for '+str(url)+'</h1>'
        if mess_df.empty == True:
            htmlbod = '<html><body><p>No feedback responses for '+str(url)+' over '+str(tmrange)+' week(s).</p>'
        #Emjois: 5: 128522,1F60A 4: 128527, 1F60F 3: 128528, 1F610 2: 128530 1F612 1: 128544, 1F620
        #Link : 128279, 1F517
        emo = '128528'

        from yandex.Translater import Translater
        from langdetect import detect

        for row in mess_df.itertuples():
            if str(row.Email)=="nan":
                email = '<b>(unknown)</b>'
            else:
                email = '<b>'+str(row.Email)+'</b>'
            if row._7==1:
                emo='128544'
            elif row._7==2:
                emo='128530'
            elif row._7==3:
                emo='128528'
            elif row._7==4:
                emo='128527'
            elif row._7==5:
                emo='128522'
            try:
                detlan = detect(str(row.Message))
            except:
                detlan = 'en'
            if detlan == 'en':
                htmlbod = htmlbod+'<p><q>'+str(row.Message)+'</q></p><p>&#'+emo+email+' on '+row._1.strftime("%m/%d/%Y, %H:%M:%S")+" | "+str(row.Country)+" | "+str(row.Browser)+" on "+str(row.Device)+'</p><a href='+str(row._3)+'>&#128279'+str(row._3)+'</a><hr>'
            else:
                try:
                    tr = Translater()
                    tr.set_key('trnsl.1.1.20200326T171128Z.c6e42851517b0a0a.363c0f12f70ef655b2ea466b33e40856c53df6c8')
                    tr.set_text(str(row.Message))
                    tr.set_to_lang('en')
                    mtrans = tr.translate()
                except:
                    mtrans = "Translation failed."
                htmlbod = htmlbod+'<p><q>'+str(row.Message)+'</q></p><p>Translation attempt: <q>'+mtrans+'</q></p><p>&#'+emo+email+' on '+row._1.strftime("%m/%d/%Y, %H:%M:%S")+" | "+str(row.Country)+" | "+str(row.Browser)+" on "+str(row.Device)+'</p><a href='+str(row._3)+'>&#128279'+str(row._3)+'</a><hr>'

        htmlbod = htmlbod + '</body></html>'
        testemail.attach(MIMEText(htmlbod, "html"))

    if etype == 'Visualizations':
        histfig = px.histogram(date_df, x='Date Submitted', color='Emotion (1-5)',
                          title='Feedback Responses for '+str(url),
                          opacity=0.8,
                           category_orders={'Emotion (1-5)':[1,2,3,4,5]},
                           color_discrete_map={1:"#e83b3a",2:"#c97d7d",3:"#BAB0AC",4:"#99bd9c",5:"#4cba76"},
                           nbins=20
        )
        histfig.update_layout(xaxis_tickformat='%d %B (%a)', xaxis=dict(dtick=86400000.0))
        histfig.write_image('histfigtest.png')

        counfig = px.histogram(date_df, y='Country', color='Emotion (1-5)',
            title='Breakdown by Country for url given',
            opacity=0.8,
            orientation = 'h',
            height = 1000,
            category_orders={'Emotion (1-5)':[1,2,3,4,5]},
            color_discrete_map={1:"#e83b3a",2:"#c97d7d",3:"#BAB0AC",4:"#99bd9c",5:"#4cba76"},
            #nbins=20
        ).update_yaxes(categoryorder="total ascending")
        counfig.write_image('counfig.png')

        apdate_df=date_df
        apdate_df['feedback_count']= apdate_df['Source URL'].map(apdate_df['Source URL'].value_counts())
        bad_df = apdate_df.loc[(apdate_df['Emotion (1-5)'] == 1) | (apdate_df['Emotion (1-5)'] == 2)]
        intr_df = bad_df[bad_df.duplicated(subset='Source URL', keep=False)]
        bdap_df=intr_df
        bdap_df['negative_feedbacks']= bdap_df['Source URL'].map(bdap_df['Source URL'].value_counts())
        intrfig = px.scatter(bdap_df, title='Pages of interest (Which pages are getting lots of bad feedback?)', y='Source URL', x='negative_feedbacks', color='negative_feedbacks', text='feedback_count', color_continuous_scale=px.colors.sequential.YlOrRd, size='feedback_count')
        intrfig.update_layout(margin=dict(l=500,r=10,t=40,b=20),xaxis=dict(dtick=1))
        intrfig.layout.coloraxis.showscale = False
        dd_df = bdap_df.drop_duplicates(subset='Source URL', keep='first')
        nlarg_df = dd_df.nlargest(5,['negative_feedbacks'])

        with open('histfigtest.png', 'rb') as f:
            # set attachment mime and file name, the image type is png
            mime = MIMEBase('image', 'png', filename='img1.png')
            # add required header data:
            mime.add_header('Content-Disposition', 'attachment', filename='img1.png')
            mime.add_header('X-Attachment-Id', '0')
            mime.add_header('Content-ID', '<0>')
            # read attachment file content into the MIMEBase object
            mime.set_payload(f.read())
            # encode with base64
            encoders.encode_base64(mime)
            # add MIMEBase object to MIMEMultipart object
            testemail.attach(mime)
        with open('counfig.png', 'rb') as f:
            # set attachment mime and file name, the image type is png
            mime = MIMEBase('image', 'png', filename='img2.png')
            # add required header data:
            mime.add_header('Content-Disposition', 'attachment', filename='img2.png')
            mime.add_header('X-Attachment-Id', '1')
            mime.add_header('Content-ID', '<1>')
            # read attachment file content into the MIMEBase object
            mime.set_payload(f.read())
            # encode with base64
            encoders.encode_base64(mime)
            # add MIMEBase object to MIMEMultipart object
            testemail.attach(mime)
        with open('intrfig.png', 'rb') as f:
            # set attachment mime and file name, the image type is png
            mime = MIMEBase('image', 'png', filename='img3.png')
            # add required header data:
            mime.add_header('Content-Disposition', 'attachment', filename='img3.png')
            mime.add_header('X-Attachment-Id', '2')
            mime.add_header('Content-ID', '<2>')
            # read attachment file content into the MIMEBase object
            mime.set_payload(f.read())
            # encode with base64
            encoders.encode_base64(mime)
            # add MIMEBase object to MIMEMultipart object
            testemail.attach(mime)

        embimg = '<html><body><h1>HotJar Report</h1>'+'<p><img src="cid:0"></p>'+'<img src="cid:1"></p>'+'<img src="cid:2"></p>'+'</body></html>'
        testemail.attach(MIMEText(embimg, 'html','utf-8'))

    session = smtplib.SMTP('smtp.gmail.com', 587, None, 30)
    session.starttls()
    session.login(sender_email, pw)
    session.set_debuglevel(1)
    text = testemail.as_string()
    session.sendmail(sender_email, target_email, text)
    session.quit()

    rec_dict = {"Date":today, "Recipient":target_email, "URL":url, "Email_type":etype}
    nedf = pd.DataFrame(rec_dict, index=[0])
    upd_edf = edf.append(nedf, ignore_index = True)
    upd_edf.to_csv('email_records.csv', index = False)

    st.write("Email for "+str(url)+" sent to "+str(target_email))
Ejemplo n.º 17
0
import locale
from yandex.Translater import Translater
tr=Translater()

locale.setlocale(locale.LC_ALL, '') #фиксит проблему с библиотекой яндекса

api_key="trnsl.1.1.20200309T060830Z.344d9b14a5d60014.73173e69fc28c824b2288d084ca8e11617d260e1"

query='boss'
tr.set_key(api_key)
tr.set_from_lang('en')
tr.set_to_lang('ru')
tr.set_text(query)

result=tr.translate()
speak(result)
Ejemplo n.º 18
0
def init_yandex_service():
    tr = Translater()
    tr.set_key(initdata.yandex_token())
    tr.set_from_lang('en')
    tr.set_to_lang('ru')
    return tr
Ejemplo n.º 19
0
        Generates a json from the list return by get_tryalgo_descriptions(),
        and saves it in data/description.json

        :param translate: boolean passed to get_tryalgo_descriptions()
    """

    description_obj = get_tryalgo_descriptions(translate=translate)

    description_file = os.path.join("..", "data", "description.json")

    with open(description_file, "w") as f:
        f.write(json.dumps(description_obj))


if __name__ == "__main__":

    if len(sys.argv) > 2:
        args_error()
    if len(sys.argv) == 2:
        if sys.argv[1] != "--no-translation":
            args_error()
        generate_json(translate=False)
    else:

        tr = Translater()
        yandex_key = get_yandex_key()
        tr.set_key(yandex_key)
        tr.set_from_lang('en')
        tr.set_to_lang('fr')

        generate_json(translate=True)
Ejemplo n.º 20
0
# IMPORT THE YANDEX TRANSLATE API ENGINE TO OUR PYTHON APP SCRIPT 
from yandex.Translater import Translater

# APP SET NAME AND VERSION | INSERT YOUR APP DETAILS, SUCH AS NAME AND VERSION

print('Welcome to landRev | appDrew Development')

# APP INITIALIZE THE YANDEX ENGINE TRANSLATOR
tr = Translater()

# APP INITIALIZE THHE API KEY FOR YANDEX ENGINE TRANSLATOR | INSERT YOUR API KEY BELLOW PLEASE.
tr.set_key('YOUR YANDEX API KEY HERE')

# APP SET THE MAIN LANGUAGE | INSERT YOUR MAIN LANGUAGE "FROM WHAT LANGUAGE TO TRANSLATE"
tr.set_from_lang('en')

# APP SET the TRANSLATION LANGUAGE | INSERT YOUR TRANSLATION LANGUAGE WITH LANG CODE
tr.set_to_lang('es')

INPUT_TEXT_DATA = input('What do you would like to translate ? : ')

#SET THE INPUT_TEXT_DATA FOR TANSLATOR ENGINE TO TRANSLATE THE STRINGS 
tr.set_text(INPUT_TEXT_DATA)

#PRINT OUT THE TRANSLATED DATA RESULTS 
results = tr.translate()
print(results)