def trade_date_collection(date):
     start_date = DateUtil.rough_datetime(date, years=-1)
     price_list = list(
         StockTrend.stock_trend_info(Stock.SH_INDEX, start_date,
                                     date).items())
     date_list = [DateUtil.datetime_formatter(x[0]) for x in price_list]
     return date_list
Esempio n. 2
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def create_proxy_day_off_assignation(day_off_assignations_data):
    dumb_day_off_assignations = []
    for day_off_assignation_data in day_off_assignations_data:

        starting_date_str = day_off_assignation_data['starting_date']
        day_off_assignation_data['starting_date'] = DateUtil.str_to_date(
            starting_date_str
        )

        ending_date_str = day_off_assignation_data['ending_date']
        day_off_assignation_data['ending_date'] = DateUtil.str_to_date(ending_date_str)

        starting_time_str = day_off_assignation_data['starting_time']
        day_off_assignation_data['starting_time'] = DateUtil.str_to_time(
            starting_time_str
        )

        ending_time_str = day_off_assignation_data['ending_time']
        day_off_assignation_data['ending_time'] = DateUtil.str_to_time(ending_time_str)

        dumb_day_off_assignation = DumbDayOffAssignation(
            **day_off_assignation_data
        )
        dumb_day_off_assignations.append(dumb_day_off_assignation)

    return ProxyFactory.create_multiple_day_off_assignation_proxies(
        dumb_day_off_assignations
    )
Esempio n. 3
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def create_proxy_workshifts(workshifts_data):
    dumb_workshifts = []
    for workshift_data in workshifts_data:
        days_data = workshift_data.pop('days', [])
        days = []
        for day_data in days_data:

            starting_time_str = day_data.get('starting_time')
            if starting_time_str:
                day_data['starting_time'] = DateUtil.str_to_time(starting_time_str)

            ending_time_str = day_data.get('ending_time')
            if ending_time_str:
                day_data['ending_time'] = DateUtil.str_to_time(ending_time_str)

            date_str = day_data.get('date', None)
            if date_str:
                day_data['date'] = DateUtil.str_to_date(date_str)
            day = DumbDay(**day_data)
            days.append(day)

        dumb_workshift = DumbWorkShift(**workshift_data)
        dumb_workshift.days = days
        dumb_workshifts.append(dumb_workshift)

    return ProxyFactory.create_multiple_workshift_proxies(dumb_workshifts)
Esempio n. 4
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    def split_borders(
            range_obj: RangeDateTime
    ) -> List[Union[RangeDateTime, Range, None]]:

        starting_datetime = range_obj.starting_datetime
        ending_datetime = range_obj.ending_datetime

        delta = ending_datetime.date() - starting_datetime.date()

        if delta.days == 0:
            return [range_obj, None, None]

        time_obj = DateUtil.str_to_time('23:59')
        aux_ending_datetime = datetime.combine(starting_datetime.date(),
                                               time_obj)
        left_range_datetime = RangeDateTime(starting_datetime,
                                            aux_ending_datetime)

        time_obj = DateUtil.str_to_time('00:00')
        aux_starting_datetime = datetime.combine(ending_datetime.date(),
                                                 time_obj)
        right_range_datetime = RangeDateTime(aux_starting_datetime,
                                             ending_datetime)

        body = None
        if delta.days > 1:
            body = Range(starting_datetime.date() + timedelta(days=1),
                         ending_datetime.date() - timedelta(days=1))

        return [left_range_datetime, body, right_range_datetime]
Esempio n. 5
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def create_an_assignation(
    data,
    workshift_db=None,
    day_off_assignation_db=None
):
    assignation_data = data.get('assignation')

    starting_date_str = assignation_data.get('starting_date')
    assignation_data['starting_date'] = DateUtil.str_to_date(starting_date_str)

    ending_date_str = assignation_data.get('ending_date')
    assignation_data['ending_date'] = DateUtil.str_to_date(ending_date_str)

    assignation = DumbAssignation(**assignation_data)

    if workshift_db:
        workshift_proxy = workshift_db.get_by_id(assignation.workshift_id)
        assignation.workshift_proxy = workshift_proxy

    if day_off_assignation_db:
        day_off_assignations = day_off_assignation_db.get_by_person_id(
            assignation.person_id
        )
        assignation.day_off_assignations = day_off_assignations

    person_data = data.get('person', {})
    assignation.person = DumbPerson(**person_data)

    return ProxyFactory.create_assignation_proxy(assignation)
    def get(self, request):
        lesson_list = LessonModel.objects.all()

        response = []
        for item in lesson_list:
            start = DateUtil.datetime_to_date_str(item.class_time)
            title = "%s:%s :%s" % (DateUtil.datetime_to_hour_minute_str(
                item.class_time), item.name, item.person_num)
            response.append({"title": title, "start": start})
        return render(request, 'app/index.html', {"data": response})
Esempio n. 7
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def transfer_wechat_feature_2_tfRecord(start_date, end_date,
                                       raw_feature_file_path,
                                       tf_record_file_path):
    raw_feature_folder_name = os.path.basename(raw_feature_file_path)
    tf_record_folder_name = os.path.basename(tf_record_file_path)

    raw_feature_file = os.path.join(raw_feature_file_path,
                                    raw_feature_folder_name + "_%s")
    tf_record_file = os.path.join(tf_record_file_path,
                                  tf_record_folder_name + "_%s.tfrecord")
    data_info_csv_path = os.path.join(tf_record_file_path, "data_info.csv")

    if not os.path.isdir(tf_record_file_path):
        os.makedirs(tf_record_file_path)

    date_ls = DateUtil.get_every_date(start_date, end_date)

    for date in date_ls:
        print(date)
        tfRecorder.transfer_single_feature_file_2_tfRecord(
            raw_feature_file % date,
            tf_record_file % date,
            data_info_csv_path,
            column_names,
            label_name,
            need_features_cols,
            var_length_cols=var_length_cols,
            col_preprocess_func=col_preprocess_func)
Esempio n. 8
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    def make_glass_fig(z, is_binary, title):
        dates_in_year = DateUtil.make_dates_in_year()
        weekdays_in_year = [i.weekday() for i in dates_in_year]
        week_number_of_dates = GrassChart.make_week_number_of_dates(
            dates_in_year)
        text = [str(i) for i in dates_in_year]
        color_scale = [[False, "#EAEDF0"], [True, "#C7E48B"]
                       ] if is_binary else [[0, "#EAEDF0"], [0.2, "#C7E48B"],
                                            [1.0, "#1D6922"]]

        data = [
            go.Heatmap(x=week_number_of_dates,
                       y=weekdays_in_year,
                       z=z,
                       text=text,
                       hoverinfo='text',
                       xgap=3,
                       ygap=3,
                       showscale=False,
                       colorscale=color_scale,
                       zmin=0,
                       zmax=1,
                       zauto=False)
        ]

        layout = GrassChart.make_layout(title)
        fig = go.Figure(data=data, layout=layout)
        return fig
def merge_wechat_records_by_opp_id(start_date, end_date):
    print("merge_wechat_records_by_opp_id..")
    date_ls = DateUtil.get_every_date(start_date, end_date)
    rs_dict = {}
    for date in date_ls:
        print(date)
        wechat_file = tmp_merged_wechat_record_data_file % date
        with codecs.open(wechat_file, 'r', 'utf-8') as fin:
            for line in fin:
                arr = line.strip().split("\t")
                opp_id = arr[0]
                chat_ls = []
                for chat_str in arr[1:]:
                    try:
                        chat_dict = json.loads(chat_str, encoding='utf-8')
                    except:
                        # print("wechat record dict can't parse by json:", chat_str)
                        continue
                    chat_ls.append(chat_dict)
                if opp_id not in rs_dict:
                    rs_dict[opp_id] = chat_ls
                else:
                    rs_dict[opp_id].extend(chat_ls)

    print("sort chat by create_time..")
    for opp_id, chat_ls in rs_dict.items():
        chat_ls.sort(key=lambda json_dict: json_dict["create_time"])
    return rs_dict
 def stock_sma(date, days=200):
     start_date = DateUtil.rough_datetime(date, years=-1)
     price_list = list(
         StockTrend.stock_trend_info(Stock.SH_INDEX, start_date,
                                     date).items())[:days]
     price_list = [float(x[1]['close']) for x in price_list]
     sma = sum(price_list) / 200
     return sma
Esempio n. 11
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    def test_join_date_and_time1(self):
        str_time = "10:10"
        time_obj = datetime.strptime(str_time, '%H:%M').time()

        str_date = "2019-1-1"
        date_obj = datetime.strptime(str_date, '%Y-%m-%d').date()

        result = DateUtil.join_date_and_time(date_obj, time_obj)
        expected = datetime.strptime("2019-1-1 10:10", '%Y-%m-%d %H:%M')
        assert result == expected
Esempio n. 12
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 def __init__(self, cash, stock_code, volume, time_span, end_index,
              strategy):
     self._cash = cash
     self._stock_code = stock_code
     self._volume = volume
     self._time_span = time_span
     self._end_index = end_index
     self._strategy_type = strategy
     self._cal_date_list = TradeDate.trade_date_collection(
         DateUtil.current_date())[self._end_index:self._end_index +
                                  self._time_span][::-1]
Esempio n. 13
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def get_vocabulary_list(vocab_file_dir, feature_name, start_date, end_date):

    vocab_set = set()
    file_prefix = os.path.join(vocab_file_dir, feature_name + "_vocabulary_")
    date_ls = DateUtil.get_every_date(start_date, end_date)
    for tmp_date in date_ls:
        with codecs.open(file_prefix + tmp_date, "r", "utf-8") as fin:
            for line in fin:
                vocab_set.add(line.strip().encode("utf-8"))
    vocab_set.add("0".encode("utf-8"))

    return list(vocab_set)
    def post(self, request):
        name = request.POST.get("name")
        class_time = request.POST.get("class_time")
        teacher_name = request.POST.get("teacher_name")
        description = request.POST.get("description")
        if not name or not class_time or not teacher_name or not description:
            return render(request, 'app/lesson_add.html',
                          {'error': 'wrong input'})
        else:

            LessonModel.objects.create(
                name=name,
                class_time=DateUtil.str_to_datetime(class_time),
                teacher_name=teacher_name,
                description=description)
            return HttpResponseRedirect(reverse('lesson-list'))
def gen_multi_day_bench_mark_data(start_date, end_date):
    bench_mark_text_file_tmp = os.path.join(bench_mark_text_file_path,
                                            "total_chat_num_%s",
                                            "total_chat_num_%s_%s")
    for date in DateUtil.get_every_date(start_date, end_date):
        print(date)
        # 按chat_num分组
        source_file_path = os.path.join(raw_feature_path,
                                        "wechat_record_feature_%s" % date)
        chat_group_dict = {x: [] for x in chat_num_ls}

        with codecs.open(source_file_path, 'r', 'utf-8') as fin:
            for line in fin:
                arr = line.strip().split("\t")
                column_names = [
                    "label", "opp_id", "create_time", "hist_student_chat_num",
                    "hist_teacher_chat_num", "hist_total_chat_num",
                    "wechat_record"
                ]
                tmp_dict = {
                    key: value
                    for key, value in zip(column_names, arr)
                }
                total_student_chat_num = int(tmp_dict["hist_student_chat_num"])
                if total_student_chat_num in chat_group_dict:
                    chat_group_dict[total_student_chat_num].append(
                        line.strip())

        for chat_num, line_ls in chat_group_dict.items():
            if not line_ls:
                continue

            bench_mark_text_file = bench_mark_text_file_tmp % (chat_num,
                                                               chat_num, date)
            tmp_text_folder_path = os.path.dirname(bench_mark_text_file)
            tmp_tf_record_folder_path = tmp_text_folder_path.replace(
                "feature_file", "tf_record")

            if not os.path.isdir(tmp_text_folder_path):
                os.makedirs(tmp_text_folder_path)

            with codecs.open(bench_mark_text_file, "w", "utf-8") as fout:
                for line in line_ls:
                    fout.write(line + "\n")
            # 将转换好的text bench mark 文本文件 , 转换为tfRecord文件
            tfRecorder.transfer_wechat_feature_2_tfRecord_default(
                date, date, tmp_text_folder_path, tmp_tf_record_folder_path)
Esempio n. 16
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 def make_date_value_dic(self) -> dict:
     labels = self.config.get_labels()
     data_dic = {}
     for label in labels:
         data_dic[label] = {}
     file_paths = FileUtil.get_recursive_file_paths(
         self.config.get_base_dir())
     file_paths.sort(key=lambda x: x.split("/")[-1])
     for file_path in file_paths:
         lines = FileUtil.read_lines(file_path)
         for line in lines:
             for label in labels:
                 if label not in line:
                     continue
                 value = HabitReporter.extract_value_float(line)
                 if value is None:
                     continue
                 data_dic[label][DateUtil.extract_date(file_path)] = value
     return data_dic
Esempio n. 17
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    def rsi(date, days=14):
        start_date = DateUtil.rough_datetime(date, months=-1)
        trend_list = list(
            StockTrend.stock_trend_info(Stock.CODE, start_date,
                                        date).items())[1:days + 1]
        price_list = [float(x[1]['close']) for x in trend_list]

        rise_sum, down_sum = 0, 0
        for i in range(len(price_list) - 1):
            balance = price_list[i + 1] - price_list[i]
            if balance > 0:
                rise_sum += balance
            else:
                down_sum -= balance
        if (rise_sum + down_sum) != 0:
            rsi = 100 * rise_sum / (rise_sum + down_sum)
        else:
            rsi = 50
        return rsi
Esempio n. 18
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 def make_habit_report_figs(self) -> [dcc.Graph]:
     labels = self.config.get_labels()
     date_value_dic = self.make_date_value_dic()
     figs = []
     for label in labels:
         if self.config.is_binary(label):
             dates_in_year_dic = DateUtil.make_dates_in_year_dic()
             for k, v in date_value_dic[label].items():
                 dates_in_year_dic[str(k)] = v
             z = list(dates_in_year_dic.values())
             fig = GrassChart.make_glass_fig(z=z,
                                             is_binary=True,
                                             title=label)
         else:
             x = list(date_value_dic[label].keys())
             y = list(date_value_dic[label].values())
             fig = LineChart.make_line_chart(x, y, label)
         figs.append(dcc.Graph(id=label, figure=fig))
     return figs
    def post(self, request):
        lesson_id = request.GET.get("id")
        lesson = LessonModel.objects.get(id=lesson_id)
        name = request.POST.get("name")
        class_time = request.POST.get("class_time")
        teacher_name = request.POST.get("teacher_name")
        description = request.POST.get("description")

        if not name or not class_time or not teacher_name or not description:
            return render(request, 'app/lesson_add.html',
                          {'error': 'Wrong input '})
        else:

            lesson.name = name
            lesson.teacher_name = teacher_name
            lesson.class_time = DateUtil.str_to_datetime(class_time)
            lesson.description = description
            lesson.save()
            return HttpResponseRedirect(reverse('lesson-list'))
Esempio n. 20
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def get_MinMaxValue_dict(MinMaxValue_file_dir, start_date, end_date):

    MinMaxValue_dict = dict()
    file_prefix = os.path.join(MinMaxValue_file_dir, "MinMaxValue_file_")
    date_ls = DateUtil.get_every_date(start_date, end_date)
    for tmp_date in date_ls:
        with codecs.open(file_prefix + tmp_date, "r", "utf-8") as fin:
            for line in fin:
                arr = line.strip().split("\t")
                feature_name = arr[0].strip()
                minValue = float(arr[1].strip())
                maxValue = float(arr[2].strip())
                if feature_name not in MinMaxValue_dict:
                    MinMaxValue_dict[feature_name] = [minValue, maxValue]
                    continue
                if minValue < MinMaxValue_dict[feature_name][0]:
                    MinMaxValue_dict[feature_name][0] = minValue
                if maxValue > MinMaxValue_dict[feature_name][1]:
                    MinMaxValue_dict[feature_name][1] = maxValue

    return MinMaxValue_dict
def get_one_day_wechat_record_feature(date):
    wechat_record_start_date = DateUtil.get_relative_delta_time_str(date, -HISTORY_WECHAT_RECORD_DELTA_DAY)
    wechat_record_dict = merge_wechat_records_by_opp_id(wechat_record_start_date, date)

    merge_raw_data_file = tmp_merged_raw_data_file % date
    wechat_record_featue_file = tmp_wechat_record_feature_file % date
    with codecs.open(merge_raw_data_file, 'r', 'utf-8') as fin, codecs.open(wechat_record_featue_file, "w",
                                                                            'utf-8') as fout:
        for line in fin:
            arr = line.strip().split("\t")
            label = arr[0]
            time_observe_point = arr[1]
            # time_observe_point = datetime.strptime(arr[1],"%Y-%m-%d %H:%M:%S")
            opp_id = arr[6]
            if opp_id not in wechat_record_dict:
                result = "\t".join(map(str, [label, opp_id, time_observe_point] + [0] * 3 + [""]))
                fout.write(result + "\n")
                continue
            wechat_stat_ls = wechat_record_precess(wechat_record_dict[opp_id], time_observe_point)
            result = "\t".join(map(str, [label, opp_id, time_observe_point] + wechat_stat_ls))
            fout.write(result + "\n")
Esempio n. 22
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 def test_str_to_time4(self):
     str_time = "08:01"
     time_obj = DateUtil.str_to_time(str_time)
     assert time_obj == datetime.strptime(str_time, "%H:%M").time()
Esempio n. 23
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 def _filename_json_string(cls, name):
     return name + '-' + DateUtil.date_string(
         datetime.date.today()) + '.json'
Esempio n. 24
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 def test_str_to_datetime2(self):
     str_datetime = "2019-01-03 08:01"
     datetime_obj = DateUtil.str_to_datetime(str_datetime)
     assert datetime_obj == datetime.strptime(str_datetime,
                                              '%Y-%m-%d %H:%M')
Esempio n. 25
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 def test_str_to_time1(self):
     str_time = "10:10"
     time_obj = DateUtil.str_to_time(str_time)
     assert time_obj == datetime.strptime(str_time, "%H:%M").time()
Esempio n. 26
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 def test_str_to_date1(self):
     str_date = "2019-10-1"
     date_obj = DateUtil.str_to_date(str_date)
     assert date_obj == datetime.strptime(str_date, "%Y-%m-%d").date()
Esempio n. 27
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 def test_date_to_str2(self):
     str_date = "2019-10-10"
     date_obj = datetime.strptime(str_date, '%Y-%m-%d').date()
     assert "2019-10-10" == DateUtil.date_to_str(date_obj)
Esempio n. 28
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 def test_time_to_str3(self):
     str_time = "10:10"
     time_obj = datetime.strptime(str_time, '%H:%M').time()
     assert "10:10" == DateUtil.time_to_str(time_obj)
Esempio n. 29
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 def test_time_to_str2(self):
     str_time = "08:01"
     time_obj = datetime.strptime(str_time, '%H:%M').time()
     assert "08:01" == DateUtil.time_to_str(time_obj)
Esempio n. 30
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 def test_str_to_datetime3(self):
     str_datetime = "2019-10-10 8:1"
     datetime_obj = DateUtil.str_to_datetime(str_datetime)
     assert datetime_obj == datetime.strptime(str_datetime,
                                              '%Y-%m-%d %H:%M')