Exemplo n.º 1
0
def one_hot(ii, oo, Tx, Ty, input_vocab, output_vocab):
    """
    Convert inputs and outputs to one-hot representations.
    """

    icoded = np.array([string_to_int(i, Tx, input_vocab) for i in ii])
    ocoded = np.array([string_to_int(o, Ty, output_vocab) for o in oo])

    ioh = np.array(list(map(lambda x: to_categorical(x, num_classes=len(input_vocab)), icoded)))
    ooh = np.array(list(map(lambda x: to_categorical(x, num_classes=len(output_vocab)), ocoded)))

    return ioh, ooh
Exemplo n.º 2
0
    def __valider_etape(self):
        """
        Valide la modification d'une étape
        :return:
        """
        if self.textEtape.toPlainText() and string_to_int(
                self.textOrdre.text()):

            my_date = None
            if self.checkBoxDate.isChecked():
                my_date = self.inputDate.dateTime().toPyDateTime()

            if self.etape_en_cours:
                ControllerView.modifier_etape(
                    self.etape_en_cours.id, self.selected_idee,
                    string_to_int(self.textOrdre.text()),
                    self.textEtape.toPlainText(), self.etape_en_cours.fait,
                    my_date)
            else:
                etat = False

                deux_min_question = QMessageBox()
                deux_min_question.setIcon(QMessageBox.Question)
                deux_min_question.setText(
                    " Cette étape vous prend-elle moins de deux minutes à être réalisé ?"
                )
                deux_min_question.setWindowTitle("Moins de deux minutes ?")
                deux_min_question.setStandardButtons(QMessageBox.Yes
                                                     | QMessageBox.No)
                result = deux_min_question.exec_()

                if result == QMessageBox.Yes:
                    fin_deux_min_question = QMessageBox()
                    fin_deux_min_question.setIcon(QMessageBox.Warning)
                    fin_deux_min_question.setText(
                        " Alors faites le maintenant!")
                    fin_deux_min_question.setWindowTitle("Faites-le!")
                    fin_deux_min_question.setInformativeText(
                        "La tache sera automatiquement validé")
                    fin_deux_min_question.setStandardButtons(QMessageBox.Ok)
                    fin_deux_min_question.exec_()
                    etat = True
                    self.inputDate.date = None

                ControllerView.ajouter_etape(
                    self.selected_idee, string_to_int(self.textOrdre.text()),
                    self.textEtape.toPlainText(), etat, my_date)
            self.__charger_etapes()
Exemplo n.º 3
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def tex_integrals(string):
    integ = "|".join((r'\int',r'\dint',r'\bigint'))

    d = "[{(]?-?[a-zA-Z0-9][)}]?"
    op = re.match("^\W*("+integ+")(_({d})\^({d})|\^({d})_({d}))?(.*)(\W|\\,)*d(.)".format(d=d), string)
    if op:
        print op.groups()
        x = Symbol(op.group(9))
        body = fix_implicit_mult(op.group(7),[str(x)])
        inner = tex_integrals(body)
        if inner:
            body = inner.doit()
        if op.group(2):
            up = string_to_int(op.group(4)) or string_to_int(op.group(5))
            down = string_to_int(op.group(3)) or string_to_int(op.group(6))
            return Integral(body,(x,down, up)).doit()
        else:
            return Integral(body,x).doit()
Exemplo n.º 4
0
def plain_integrals(string):
    x, y, z = symbols("x y z")
    string = string.strip()
    if get_close_matches(string[:string.find(" ")],['integrate','int']):
        string = string[string.find(" ")+1:]
        fr = re.search("\w{3,4}",string)
        if fr and get_close_matches(fr.group(), ['from']):
            body, (down, up) = string[:fr.start()], string[fr.end():].split("to" if "to" in string[fr.end():] else "..")
            if re.match("\W*\w+=\d+\W*",down):
                x,down = down.split('=')
                x = Symbol(x)
                down, up = string_to_int(down), string_to_int(up)
                body = fix_implicit_mult(body, map(str,[x]))
                return Integral(body,(x, down, up)).doit()
            else:
                down, up = string_to_int(down), string_to_int(up)
                body = fix_implicit_mult(body, map(str,[x,y,z]))
                x = sympify(body).free_symbols.pop()
                return Integral(body,(x, down, up)).doit()
        else:
            body = fix_implicit_mult(string, map(str,[x,y,z]))
            x = sympify(string).free_symbols.pop()
            return Integral(body,x).doit()
Exemplo n.º 5
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def generate_str():
    t = datetime.datetime.now()
    #t = datetime.datetime.strptime("00:09:00", "%H:%M:%S")
    h = string_to_int(t.hour)
    m = string_to_int(t.minute)

    h_str = ""
    m_str = ""

    if h == 2:
        h_str = "两点"
    else:
        h_str = "{}点".format(h)

    if m == 0:
        m_str = "整"
    elif m < 10:
        m_str = "零{}分".format(m)
    else:
        m_str = "{}分".format(m)

    echo_str = "现在时刻:{}{} ".format(h_str, m_str)
    return echo_str
Exemplo n.º 6
0
def read_csv(filename):
    statuses = []
    with open(filename) as csv_file:
        reader = csv.reader(csv_file)
        column_names = next(reader)

        prev_total_cases = 0
        prev_total_deaths = 0
        prev_total_tests = 0
        for row in reader:
            try:
                tmp = {
                    'reported_date': datetime.strptime(row[0], '%Y-%m-%d'),
                }
            except: # noqa
                continue

            for index, column in enumerate(row):
                column_name = column_names[index]
                field_name = get_field_name_from_column_name(column_name)
                if field_name:
                    tmp[field_name] = string_to_int(column)

            # Handle change in test reporting
            tmp['total_tests_reported'] = tmp['total_tested']
            if tmp['negative'] > 0:
                total_tests_reported = tmp['negative'] + tmp['total_cases']
                tmp['total_tests_reported'] = total_tests_reported

            tmp['new_cases'] = tmp['total_cases'] - prev_total_cases
            prev_total_cases = tmp['total_cases']

            tmp['new_deaths'] = tmp['total_deaths'] - prev_total_deaths
            prev_total_deaths = tmp['total_deaths']

            tmp['new_tests'] = tmp['total_tests_reported'] - prev_total_tests
            prev_total_tests = tmp['total_tests_reported']

            # As of April 15, tests are samples not patients
            tmp['total_patients_tested'] = tmp['total_tests_reported']
            tmp['total_samples_tested'] = None

            if tmp['reported_date'] > datetime(2020, 4, 14):
                tmp['total_patients_tested'] = None
                tmp['total_samples_tested'] = tmp['total_tests_reported']

            statuses.append(tmp)

    return statuses
Exemplo n.º 7
0
def read_csv(filename):
    statuses = []
    with open(filename) as f:
        reader = csv.reader(f)
        column_names = next(reader)
        for row in reader:
            tmp = {'reported_date': datetime.strptime(row[0], '%Y-%m-%d')}

            for index, value in enumerate(row):
                field_name = column_names[index]
                if field_name == 'date' or field_name == 'location':
                    tmp[field_name] = value
                else:
                    tmp[field_name] = string_to_int(value)

            statuses.append(tmp)

    return statuses
Exemplo n.º 8
0
    def populate_sources(self):
        logger.info('Populating sources.')

        session = self._db_client.get_session()

        for row in self._read_workbook('Sources'):
            r_source_id, r_jurisdiction_id, r_name, r_code, r_rank = row

            session.add(
                models.Source(sourceId=r_source_id,
                              jurisdictionId=utils.format_string(
                                  r_jurisdiction_id,
                                  utils.NullBehaviour.NULL_TO_NULL),
                              name=utils.format_string(r_name),
                              code=utils.format_string(r_code),
                              rank=utils.string_to_int(r_rank)))

        session.commit()
Exemplo n.º 9
0
    def populate_deceased(self):
        logger.info('Populating deceased.')

        session = self._db_client.get_session()

        for row in self._read_workbook('Deceased'):
            (r_inquest_id, r_last_name, r_given_name, r_age, r_age_unit, r_sex,
             r_death_location, r_death_date, r_death_cause, r_death_cause_id,
             r_death_manner_id, r_inquest_reason_id) = row

            # Validate inquest type.
            # TODO: remove.
            if r_inquest_reason_id.startswith('MANDATORY_'):
                # An inquest is either 'Discretionary' or 'Mandatory-<reason>'; this makes 'Mandatory' redundant.
                inquest_reason_id = r_inquest_reason_id.replace(
                    'MANDATORY_', '')
            else:
                inquest_reason_id = r_inquest_reason_id

            # TODO: validate that deceased age is < 18.
            last_name = utils.format_as_title(r_last_name,
                                              utils.NullBehaviour.NULL_TO_NULL)
            given_names = utils.format_string(r_given_name,
                                              utils.NullBehaviour.NULL_TO_NULL)

            session.add(
                models.Deceased(
                    inquestId=r_inquest_id,
                    inquestReasonId=inquest_reason_id,
                    deathMannerId=utils.format_as_id(
                        r_death_manner_id),  # TODO: remove format_as_id call.
                    deathCauseId=r_death_cause_id,
                    deathCause=utils.format_string(r_death_cause),
                    deathDate=utils.string_to_date(r_death_date),
                    deathLocation=utils.format_string(
                        r_death_location, utils.NullBehaviour.NULL_TO_NULL),
                    lastName=last_name,
                    givenNames=given_names,
                    age=utils.string_to_int(r_age),
                    ageUnit=utils.format_string(r_age_unit),
                    sex=utils.format_string(r_sex)))

        session.commit()
Exemplo n.º 10
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def read_csv(filename):
    updates = []
    with open(filename) as csv_file:
        reader = csv.reader(csv_file)
        column_names = next(reader)
        for row in reader:
            tmp = {'reported_date': datetime.strptime(row[3], '%d-%m-%Y')}

            for index, value in enumerate(row):
                column_name = column_names[index]
                field_name = get_field_name_from_column_name(column_name)
                if field_name:
                    if 'province' in field_name:
                        tmp[field_name] = value
                    else:
                        tmp[field_name] = string_to_int(value)

            updates.append(tmp)

    return updates
Exemplo n.º 11
0
    def get_report(self, country_name):
        country = self.get_country(country_name)

        if country.get("Country"):
            if country.get("ActiveCases") != "N/A":
                emojis = utils.get_virus_emoji(
                    utils.string_to_int(country.get("ActiveCases")))
            else:
                emojis = "❓❓❓"
            position = ("World ranking: #" +
                        country["Position"] if country.get("Position") else "")
            cases_trend = self.get_cases_trend(country.get("NewCases"))
            deaths_trend = self.get_deaths_trend(country.get("NewDeaths"))

            cases_per_million = f"({country.get('Total Cases/1M pop')} per million)"
            deaths_per_million = f"({country.get('Deaths/1M pop')} per million)"

            if country.get("Tests/1M pop"):
                tests_per_million = f"They have performed {country.get('Tests/1M pop')} tests per million people."
            else:
                tests_per_million = f"Test data is not available."

            report = f"""
_COVID-19 Report for {country.get('Country')}_ {FLAGS.get(country.get('Country'),"")}

{emojis}

{position}

There are {country.get("ActiveCases")} active cases in {country.get("Country")}. {cases_trend}

Total cases: {country.get("TotalCases")} {cases_per_million}
Total deaths: {country.get("TotalDeaths")} {deaths_trend} {deaths_per_million}
Recovered: {country.get("TotalRecovered")}

{tests_per_million}
"""
        else:
            report = "Is the country name correctly spelled? Try /report USA"
        return report
Exemplo n.º 12
0
        s, _, c = post_activation_LSTM_cell(context, initial_state=[s, c])
        out = output_layer(s)
        outputs.append(out)

    model = Model(inputs=[X, s0, c0], outputs=outputs)
    return model

model = model(Tx, Ty, n_a, n_s, len(human_vocab), len(machine_vocab))
#model.summary()

opt = Adam(lr=0.005, beta_1=0.9, beta_2=0.999,decay=0.01)
model.compile(loss='categorical_crossentropy', optimizer=opt, metrics=['accuracy'])
s0 = np.zeros((m, n_s))
c0 = np.zeros((m, n_s))
outputs = list(Yoh.swapaxes(0,1))

model.fit([Xoh, s0, c0], outputs, epochs=10, batch_size=100)
model.save_weights('my_model_weights.h5')

EXAMPLES = ['3 May 1979', '5 April 09', '21th of August 2016', 'Tue 10 Jul 2007', 'Saturday May 9 2018', 'March 3 2001',
            'March 3rd 2001', '1 March 2001']
for example in EXAMPLES:
    source = string_to_int(example, Tx, human_vocab)
    source = np.array(list(map(lambda x: to_categorical(x, num_classes=len(human_vocab)), source))).swapaxes(0, 1)
    prediction = model.predict([source, s0, c0])
    prediction = np.argmax(prediction, axis=-1)
    output = [inv_machine_vocab[int(i)] for i in prediction]

    print("source:", example)
    print("output:", ''.join(output))
Exemplo n.º 13
0
    except getopt.GetoptError:
        logger.info("getopt error", exc_info=True)
        sys.exit(1)

    mode = DEFAULT
    size = -1
    name = ""
    volume = 21
    for o, v in opts:
        if o in ("-m", "--mode"):
            mode = v
            if v.lower().find("rand") != -1:
                mode = RANDOM

        if o in ("-s", "--size"):
            size = string_to_int(v)
            if size <= 0:
                size = -1

        if o in ("-n", "--name"):
            name = v

        if o in ("-v", "--volume"):
            volume = string_to_int(v)

    generate_playlist(mode=mode, size=size)
    #cmd = "mplayer -playlist {}playlist.lst".format(song_dir)
    #cmd_res = subprocess.getstatusoutput(cmd)

    play_songs(name=name, volume=volume)
Exemplo n.º 14
0
    def populate_references(self):
        session = self._db_client.get_session()

        authority_id_to_related = {
        }  # From ID to tuple of citations, related authorities, and related inquests.
        inquest_id_to_related = {
        }  # From ID to tuple of related authorities and related inquests.

        logger.info('Populating authorities.')

        for row in self._read_workbook('Authorities'):
            (r_authority_id, r_name, r_overview, r_synopsis, r_quotes, r_notes,
             r_primary, r_primary_text, r_judicial_review, r_keywords, r_tags,
             r_citations, r_see_authorities, r_see_inquests) = row

            session.add(
                models.Authority(authorityId=r_authority_id,
                                 isPrimary=r_primary,
                                 primaryField=utils.format_string(
                                     r_primary_text,
                                     utils.NullBehaviour.NULL_TO_NULL),
                                 isJudicialReview=r_judicial_review,
                                 name=utils.format_string(r_name),
                                 overview=utils.format_string(
                                     r_overview,
                                     utils.NullBehaviour.NULL_TO_STRING),
                                 synopsis=utils.format_string(
                                     r_synopsis,
                                     utils.NullBehaviour.NULL_TO_STRING),
                                 quotes=utils.format_string(
                                     r_quotes,
                                     utils.NullBehaviour.NULL_TO_NULL),
                                 notes=utils.format_string(
                                     r_notes,
                                     utils.NullBehaviour.NULL_TO_NULL),
                                 tags=utils.format_as_list(
                                     r_tags,
                                     utils.NullBehaviour.NULL_TO_NULL)))
            session.flush()

            # TODO: behaviour should be NOT NULL.
            for keyword_id in utils.string_to_list(
                    r_keywords, utils.NullBehaviour.NULL_TO_NULL):
                session.add(
                    models.AuthorityKeywords(
                        authorityId=r_authority_id,
                        authorityKeywordId=keyword_id,
                    ))

            authority_id_to_related[r_authority_id] = (r_citations,
                                                       r_see_authorities,
                                                       r_see_inquests)
            self._reference_to_name[(
                self._REFERENCE_TYPE_AUTHORITY,
                int(r_authority_id))] = utils.format_string(r_name)

        logger.info('Populating inquests.')

        for row in self._read_workbook('Inquests'):
            (r_inquest_id, r_name, r_overview, r_synopsis, r_notes,
             r_presiding_officer, r_location, r_start, r_end, r_sitting_days,
             r_exhibits, r_recommendations, r_jurisdiction_id, r_primary,
             r_primary_text, r_keywords, r_tags, r_see_authorities,
             r_see_inquests) = row

            session.add(
                models.Inquest(inquestId=r_inquest_id,
                               jurisdictionId=r_jurisdiction_id,
                               location=utils.format_string(
                                   r_location,
                                   utils.NullBehaviour.NULL_TO_NULL),
                               isPrimary=r_primary,
                               name=utils.format_string(r_name),
                               overview=utils.format_string(
                                   r_overview,
                                   utils.NullBehaviour.NULL_TO_NULL),
                               synopsis=utils.format_string(
                                   r_synopsis,
                                   utils.NullBehaviour.NULL_TO_STRING),
                               notes=utils.format_string(
                                   r_notes, utils.NullBehaviour.NULL_TO_NULL),
                               presidingOfficer=utils.format_string(
                                   r_presiding_officer,
                                   utils.NullBehaviour.NULL_TO_STRING),
                               start=utils.string_to_date(r_start),
                               end=utils.string_to_date(r_end),
                               sittingDays=utils.string_to_int(
                                   r_sitting_days,
                                   utils.NullBehaviour.NULL_TO_NULL),
                               exhibits=utils.string_to_int(
                                   r_exhibits,
                                   utils.NullBehaviour.NULL_TO_NULL),
                               recommendations=utils.string_to_int(
                                   r_recommendations,
                                   utils.NullBehaviour.NULL_TO_NULL),
                               tags=utils.format_as_list(
                                   r_tags, utils.NullBehaviour.NULL_TO_NULL)))
            session.flush()

            inquest_id_to_related[r_inquest_id] = (r_see_authorities,
                                                   r_see_inquests)
            self._reference_to_name[(
                self._REFERENCE_TYPE_INQUEST,
                int(r_inquest_id))] = utils.format_string(r_name)

            # TODO: use behaviour NOT_NULL.
            for keyword_id in utils.string_to_list(
                    r_keywords, utils.NullBehaviour.NULL_TO_NULL):
                # TODO: remove this if statement.
                if keyword_id != 'INQUEST_FEDERAL_PROVINCIAL':
                    session.add(
                        models.InquestKeywords(
                            inquestId=r_inquest_id,
                            inquestKeywordId=keyword_id,
                        ))

        logger.info('Populating authority relationships.')

        for (r_authority_id,
             (r_citations, r_see_authorities,
              r_see_inquests)) in authority_id_to_related.items():
            for citation in utils.string_to_list(
                    r_citations, utils.NullBehaviour.NULL_TO_NULL):
                session.add(
                    models.AuthorityCitations(
                        authorityId=r_authority_id,
                        citedAuthorityId=citation,
                    ))
            for related_authority in utils.string_to_list(
                    r_see_authorities, utils.NullBehaviour.NULL_TO_NULL):
                session.add(
                    models.AuthorityRelated(
                        authorityId=r_authority_id,
                        relatedAuthorityId=related_authority,
                    ))
            for related_inquest in utils.string_to_list(
                    r_see_inquests, utils.NullBehaviour.NULL_TO_NULL):
                session.add(
                    models.AuthorityInquests(
                        authorityId=r_authority_id,
                        inquestId=related_inquest,
                    ))

        logger.info('Populating inquest relationships.')

        # TODO: add tables for inquest relationships.

        session.commit()