Beispiel #1
0
    def getIntraday(self,
                    ticker,
                    start,
                    end,
                    resolution,
                    showUrl=False,
                    key=None):

        logging.info(
            '======= Called Tiingo -- no practical limit, 500/hour =======')

        # hd = TGO_URL_INTRADAY.format(ticker=ticker, sd='2019-01-02', interval="1min", cols="date,close,high,low,open,volume")
        hd = TGO_URL_INTRADAY0.format(ticker=ticker)
        header = {'Content-Type': 'application/json'}

        start = pd.Timestamp(start)
        startsent = start - pd.Timedelta(days=14)
        end = pd.Timestamp(end)
        if resolution < 60:
            resolution = str(resolution) + 'min'
        else:
            resolution = (resolution // 60) + 1
            resolution = str(resolution) + "hour"

        params = {}
        params['startDate'] = startsent.strftime('%Y-%m-%d')
        # params['endDate'] =end.strftime('%Y-%m-%d')
        params['resampleFreq'] = resolution
        params['afterHours'] = 'false' if excludeAfterHours() else 'true'
        params['forceFill'] = 'true'
        params['format'] = 'json'
        # params['token'] = getApiKey
        params['columns'] = "date,open,high,low,close,volume"

        r = requests.get(hd, params=params, headers=getHeaders())

        meta = {'code': r.status_code}
        if r.status_code != 200:
            meta['message'] = r.content
            return meta, pd.DataFrame(), None
        result = r.json()
        if len(result) == 0:
            meta['code'] = 666
            logging.error('Error: Tiingo returned no data')
            return meta, pd.DataFrame(), None

        df = self.getdf(result)
        maDict = movingAverage(df.close, df, start)
        meta, df, maDict = self.trimit(df, maDict, start, end, meta)

        return meta, df, maDict
Beispiel #2
0
def getFh_intraday(symbol,
                   start=None,
                   end=None,
                   minutes=5,
                   showUrl=True,
                   key=None):
    '''
    Common interface for apiChooser.
    :params start: Time string or naive pandas timestamp or naive datetime object.
    :params end: Time string or naive pandas timestamp or naive datetime object.
    '''
    if getLimitReached('fh'):
        msg = 'Finnhub limit was reached'
        logging.info(msg)
        return {'code': 666, 'message': msg}, pd.DataFrame(), None

    logging.info(
        '======= Called Finnhub -- no practical limit, 60/minute =======')
    base = 'https://finnhub.io/api/v1/stock/candle?'

    start = getDaTime(start, isStart=True)
    end = getDaTime(end, isStart=False)

    if not isinstance(minutes, int):
        minutes = 60
    resolution = ni(minutes)
    rstart, rend = getStartForRequest(start, end, minutes)

    meta, j = fh_intraday(base, symbol, rstart, rend, resolution, key=key)
    if meta['code'] != 200:
        return meta, pd.DataFrame(), None

    assert set(['o', 'h', 'l', 'c', 't', 'v', 's']).issubset(set(j.keys()))
    if len(j['o']) == 0:
        meta['code'] = 666
        logging.error('Error-- no data')
        return meta, pd.DataFrame(), None

    df = getdf(j)
    df = resample(df, minutes, resolution)
    # remove candles that lack data
    df = df[df['open'] > 0]

    maDict = movingAverage(df.close, df, start)
    meta, df, maDict = trimit(df, maDict, start, end, meta)

    return meta, df, maDict
Beispiel #3
0
def getmav_intraday(symbol,
                    start=None,
                    end=None,
                    minutes=None,
                    showUrl=False,
                    key=None):
    '''
    Limited to getting minute data intended to chart day trades. Note that start and end are not
    sent to the api request.
    :params symb: The stock ticker
    :params start: A date time string or datetime object to indicate the beginning time.
    :params end: A datetime string or datetime object to indicate the end time.
    :params minutes: An int for the candle time, 5 minute, 15 minute etc. If minutes is not one of
        Alphavantage's accepted times, we will resample.

    :returns: (status, df, maDict) The DataFrame has minute data indexed by time with columns open, high, low
         low, close, volume and indexed by pd timestamp. If not specified, this
         will return a weeks data.
    '''
    if getLimitReached('av'):
        msg = 'AlphaVantage limit was reached'
        logging.info(msg)
        return {'code': 666, 'message': msg}, pd.DataFrame(), None

    logging.info(
        '======= Called alpha 500 calls per day limit, 5/minute =======')
    start = pd.to_datetime(start) if start else None
    end = pd.to_datetime(end) if end else None
    if not minutes:
        minutes = 1

    original_minutes = minutes
    resamp, (minutes, interval, original_minutes) = ni(minutes)

    params = {}
    params['function'] = FUNCTION['intraday']
    if minutes:
        params['interval'] = minutes
    params['symbol'] = symbol
    params['outputsize'] = 'full'
    params['datatype'] = DATATYPES[0]
    # params['apikey'] = APIKEY
    params['apikey'] = key if key else getKey()

    request_url = f"{BASE_URL}"
    response = requests.get(request_url, params=params)
    if showUrl:
        logging.info(response.url)

    if response.status_code != 200:
        raise Exception(
            f"{response.status_code}: {response.content.decode('utf-8')}")
    result = response.json()
    keys = list(result.keys())

    msg = f'{keys[0]}: {result[keys[0]]}'
    metaj = {'code': 200, 'message': msg}
    if len(keys) == 1:
        d = pd.Timestamp.now()
        dd = pd.Timestamp(d.year, d.month, d.day, d.hour, d.minute + 2,
                          d.second)
        setLimitReached('av', dd)

        logging.warning(msg)
        return metaj, pd.DataFrame(), None

    dataJson = result[keys[1]]

    df = pd.DataFrame(dataJson).T

    df.index = pd.to_datetime(df.index)

    if df.index[0] > df.index[-1]:
        df.sort_index(inplace=True)

    if end:
        if end < df.index[0]:
            msg = 'WARNING: You have requested data that is unavailable:'
            msg = msg + f'\nYour end date ({end}) is before the earliest first date ({df.index[0]}).'
            logging.warning(msg)
            metaj['code'] = 666
            metaj['message'] = msg

            return metaj, pd.DataFrame(), None

    df.rename(columns={
        '1. open': 'open',
        '2. high': 'high',
        '3. low': 'low',
        '4. close': 'close',
        '5. volume': 'volume'
    },
              inplace=True)

    df.open = pd.to_numeric(df.open)
    df.high = pd.to_numeric(df.high)
    df.low = pd.to_numeric(df.low)
    df.close = pd.to_numeric(df.close)
    df.volume = pd.to_numeric(df.volume)

    # Alphavantage indexes the candle ends as a time index. So the beginninng of the daay is 9:31
    # I think that makes them off by one when processing forward. IB, and others, index candle
    # beginnings. To make the APIs harmonious, we will transalte the index time down by
    # one interval. I think the translation will always be the interval sent to mav. So
    # '1min' will translate down 1 minute etc. We saved the translation as a return
    # from ni().
    # for i, row in df.iterrows():
    delt = pd.Timedelta(minutes=interval)
    df.index = df.index - delt
    #     df.index[i] = df.index[i] - delt

    if resamp:
        srate = f'{original_minutes}T'
        df_ohlc = df[['open']].resample(srate).first()
        df_ohlc['high'] = df[['high']].resample(srate).max()
        df_ohlc['low'] = df[['low']].resample(srate).min()
        df_ohlc['close'] = df[['close']].resample(srate).last()
        df_ohlc['volume'] = df[['volume']].resample(srate).sum()
        df = df_ohlc.copy()

    maDict = movingAverage(df.close, df, start)

    # Trim the data to the requested time frame. If we slice it all off set status message and return
    if start:
        # Remove preemarket hours from the start variable
        starttime = start.time()
        opening = dt.time(9, 30)
        if opening > starttime:
            start = pd.Timestamp(start.year, start.month, start.day, 9, 30)
        if start > df.index[0]:
            df = df[df.index >= start]
            for ma in maDict:
                maDict[ma] = maDict[ma].loc[maDict[ma].index >= start]
            if len(df) == 0:
                msg = f"\nWARNING: you have sliced off all the data with the end date {start}"
                logging.warning(msg)
                metaj['code'] = 666
                metaj['message'] = msg
                return metaj, pd.DataFrame(), maDict

    if end:
        if end < df.index[-1]:
            df = df[df.index <= end]
            for ma in maDict:
                maDict[ma] = maDict[ma].loc[maDict[ma].index <= end]
            if len(df) < 1:
                msg = f"\nWARNING: you have sliced off all the data with the end date {end}"
                logging.warning(msg)
                metaj['code'] = 666
                metaj['message'] = msg
                return metaj, pd.DataFrame(), maDict
    # If we don't have a full ma, delete -- Later:, implement a 'delayed start' ma in graphstuff
    keys = list(maDict.keys())
    for key in keys:
        if len(df) != len(maDict[key]):
            del maDict[key]

    return metaj, df, maDict
Beispiel #4
0
def getib_intraday(symbol, start=None, end=None, minutes=1, showUrl='dummy', key=None):
    '''
    An interface API to match the other getters. In this case its a substantial
    dumbing down of the capabilities to our one specific need. Output will be resampled
    if necessary to return a df with intervals 1~60 minutes
    :params symbol: The stock to get
    :params start: A timedate object or time string for when to start. Defaults to the most recent
        weekday at open.
    :params end: A timedate object or time string for when to end. Defaults to the most recent biz
        day at close
    :params minutes: The length of the candle, 1~60 minutes. Defaults to 1 minute
    :return (length, df):A DataFrame of the requested stuff and its length
    '''
    apiset = QSettings('zero_substance/stockapi', 'structjour')
    if not apiset.value('gotibapi', type=bool):
        return {'message': 'ibapi is not installed', 'code': 666}, pd.DataFrame(), None
    logging.info('***** IB *****')
    biz = getLastWorkDay()
    if not end:
        end = pd.Timestamp(biz.year, biz.month, biz.day, 16, 0)
    if not start:
        start = pd.Timestamp(biz.year, biz.month, biz.day, 9, 30)
    start = pd.Timestamp(start)
    end = pd.Timestamp(end)

    dur = ''
    fullstart = end
    fullstart = fullstart - pd.Timedelta(days=5)
    if start < fullstart:
        delt = end - start
        fullstart = end - delt

    if (end - fullstart).days < 1:
        if ((end - fullstart).seconds // 3600) > 8:
            dur = '2 D'
        else:
            dur = f'{(end-fullstart).seconds} S'
    elif (end - fullstart).days < 7:
        dur = f'{(end-fullstart).days + 1} D'
    else:
        dur = f'{(end-fullstart).days} D'
        # return 0, pd.DataFrame([], [])

    # if the end = 9:31 and dur = 3 minutes, ib will retrieve a start of the preceding day @ 15:58
    # This is unique behavior in implemeted apis. We will just let ib do whatever and cut off any
    # data prior to the requested data. In that we get no after hours, a request for 7 will begin
    # at 9:30 (instead of the previous day at 1330)

    symb = symbol
    (resamp, (interval, minutes, origminutes)) = ni(minutes)

    # ib = TestApp(7496, 7878, '127.0.0.1')
    # ib = TestApp(4002, 7979, '127.0.0.1')
    x = IbSettings()
    ibs = x.getIbSettings()
    if not ibs:
        return 0, pd.DataFrame(), None
    ib = TestApp(ibs['port'], ibs['id'], ibs['host'])
    df = ib.getHistorical(symb, end=end, dur=dur, interval=interval, exchange='NASDAQ')
    lendf = len(df)
    if lendf == 0:
        return 0, df, None

    # Normalize the date to our favorite format
    df.index = pd.to_datetime(df.index)
    if resamp:
        srate = f'{origminutes}T'
        df_ohlc = df[['open']].resample(srate).first()
        df_ohlc['high'] = df[['high']].resample(srate).max()
        df_ohlc['low'] = df[['low']].resample(srate).min()
        df_ohlc['close'] = df[['close']].resample(srate).last()
        df_ohlc['volume'] = df[['volume']].resample(srate).sum()
        df = df_ohlc.copy()

    maDict = movingAverage(df.close, df, end)

    if start > df.index[0]:
        msg = f"Cutting off beginning: {df.index[0]} to begin at {start}"
        logging.info(msg)
        df = df.loc[df.index >= start]
        if not df.high.any():
            logging.warning('All data has been removed')
            return 0, pd.DataFrame(), None
        for ma in maDict:
            maDict[ma] = maDict[ma].loc[maDict[ma].index >= start]
    removeMe = list()
    for key in maDict:
        # VWAP is a reference that begins at market open. If the open trade precedes VWAP
        # we will exclude it from the chart. Other possibilities: give VWAP a start time or
        # pick an arbitrary premarket time to begin it. The former would be havoc to implement
        # the latter probably better but inaccurate; would not reflect what the trader was using
        # Better suggestions?
        if key == 'vwap':
            if len(maDict['vwap']) < 1 or (df.index[0] < maDict['vwap'].index[0]):
                removeMe.append(key)
                # del maDict['vwap']
        else:
            if len(df) != len(maDict[key]):
                removeMe.append(key)
                # del maDict[key]
    for key in removeMe:
        del maDict[key]

    ib.disconnect()
    return len(df), df, maDict
Beispiel #5
0
def getbc_intraday(symbol,
                   start=None,
                   end=None,
                   minutes=5,
                   showUrl=False,
                   key=None):
    '''
    Note that getHistory will return previous day's prices until 15 minutes after the market
        closes. We will generate a warning if our start or end date differ from the date of the
        response. Given todays date at 14:00, it will retrive the previous business days stuff.
        Given not start parameter, we will return data for the last weekday. Today or earlier.
        We will return everything we between start and end. It may be incomplete.
        Its now limiting yesterdays data. At 3:00, the latest I get is yesterday
        up to 12 noon.
    Retrieve candle data measured in minutes as given in the minutes parameter
    :params start: A datetime object or time string to indicate the begin time for the data. By
        default, start will be set to the most recent weekday at market open.
    :params end: A datetime object or time string to indicate the end time for the data
    :params minutes: An int for the candle time, 5 minute, 15 minute etc
    :return (status, data): A tuple of (status as dictionary, data as a DataFrame ) This status is
        seperate from request status_code.
    :raise: ValueError if response.status_code is not 200.
    '''
    if getLimitReached('bc'):
        msg = 'BarChart limit was reached'
        logging.info(msg)
        return {'code': 666, 'message': msg}, pd.DataFrame(), None

    logging.info(
        '======= Called Barchart -- 150 call limit, data available after market close ======='
    )
    if not end:
        tdy = dt.datetime.today()
        end = dt.datetime(tdy.year, tdy.month, tdy.day, 17, 0)
    # end

    if not start:
        tdy = dt.datetime.today()
        start = dt.datetime(tdy.year, tdy.month, tdy.day, 6, 0)
        start = getLastWorkDay(start)
    end = pd.to_datetime(end)
    start = pd.to_datetime(start)
    # startDay = start.strftime("%Y%m%d")

    # Get the maximum data in order to set the 200 MA on a 60 minute chart
    fullstart = pd.Timestamp.today()
    fullstart = fullstart - pd.Timedelta(days=40)
    fullstart = fullstart.strftime("%Y%m%d")

    params = setParams(symbol, minutes, fullstart, key=key)

    response = requests.get(BASE_URL, params=params)
    if showUrl:
        logging.info(response.url)

    if response.status_code != 200:
        raise Exception(
            f"{response.status_code}: {response.content.decode('utf-8')}")
    meta = {'code': 200}
    if (response.text and isinstance(response.text, str)
            and response.text.startswith('You have reached')):
        d = pd.Timestamp.now()
        dd = pd.Timestamp(d.year, d.month, d.day + 1, 3, 0, 0)
        setLimitReached('bc', dd)

        logging.warning(f'API max queries: {response.text}')
        meta['message'] = response.text
        return meta, pd.DataFrame(), None

    result = response.json()
    if not result['results']:
        logging.warning(
            '''Failed to retrieve any data. Barchart sends the following greeting: {result['status']}'''
        )
        return result['status'], pd.DataFrame(), None

    meta['message'] = result['status']['message']
    df = pd.DataFrame(result['results'])

    for i, row in df.iterrows():
        d = pd.Timestamp(row['timestamp'])
        newd = pd.Timestamp(d.year, d.month, d.day, d.hour, d.minute, d.second)
        df.at[i, 'timestamp'] = newd

    df.set_index(df.timestamp, inplace=True)
    df.index.rename('date', inplace=True)
    maDict = movingAverage(df.close, df, start)

    if start > df.index[0]:
        rstart = df.index[0]
        rend = df.index[-1]
        df = df.loc[df.index >= start]
        for ma in maDict:
            maDict[ma] = maDict[ma].loc[maDict[ma].index >= start]

        lendf = len(df)
        if lendf == 0:
            msg = '\nWARNING: all data has been removed.'
            msg = msg + f'\nThe Requested start was({start}).'
            msg = msg + f'\nBarchart returned data beginning {rstart} and ending {rend}'
            msg += '''If you are seeking a chart from today, its possible Barchart has not made'''
            msg += 'the data available yet. (Should be available by 4:45PM but they are occasionally late)'
            msg += 'You can copy the image yourself, wait, or try a different API. Open File->StockAPI'
            logging.warning(msg)
            meta['code2'] = 199
            meta['message'] = meta['message'] + msg
            return meta, df, maDict

    if end < df.index[-1]:
        df = df.loc[df.index <= end]
        for ma in maDict:
            maDict[ma] = maDict[ma].loc[maDict[ma].index <= end]

        # If we just sliced off all our data. Set warning message
        lendf = len(df)
        if lendf == 0:
            msg = '\nWARNING: all data has been removed.'
            msg = msg + f'\nThe Requested end was({end}).'
            meta['code2'] = 199
            meta['message'] = meta['message'] + msg
            logging.warning(f'{meta}')
            return meta, df, maDict

    deleteMe = list()
    for key in maDict:
        if key == 'vwap':
            continue
        if len(df) != len(maDict[key]):
            deleteMe.append(key)
    for key in deleteMe:
        del maDict[key]

    # Note we are dropping columns  ['symbol', 'timestamp', 'tradingDay[] in favor of ohlcv
    df = df[['open', 'high', 'low', 'close', 'volume']].copy(deep=True)
    return meta, df, maDict
Beispiel #6
0
def getWTD_intraday(symbol, start=None, end=None, minutes=5, showUrl=False):
    '''
    Implement the interface to retrieve intraday data. showUrl is not part of this api.
    Note that the requested range will always be the maximum to get the maximum size MA.
    :symbol: The ticker symbol
    :start: Timestamp or time string. The beginning of requested data
    :end: Timestamp or time string. The end of requested data
    :minutes: int between 1 and 60
    :showUrl: not used
    :return: meta, df, maDict
    :depends: On the settings of 'zero_substance/chart' for moving average settings
    '''
    # Intraday base differs from others. It has the intrday subdomain instead of api subdomain
    if getLimitReached('wtd'):
        msg = 'World Trade Data limit was reached'
        logging.info(msg)
        return {'code': 666, 'message': msg}, pd.DataFrame(), None

    logging.info(
        '======= called WorldTradingData. 25 calls per day limit =======')
    base = 'https://intraday.worldtradingdata.com/api/v1/intraday?'

    original_minutes = minutes
    if not isinstance(original_minutes, int):
        original_minutes = 5
    minutes = ni(minutes)
    if not isinstance(minutes, int) or minutes < 0 or minutes > 60:
        raise ValueError(
            'Only candle intervals between 1 and 60 are supported')

    if not start:
        tdy = pd.Timestamp.now()
        tdy = getLastWorkDay(tdy)
        start = pd.Timestamp(tdy.year, tdy.month, tdy.day, 9, 25)
    else:
        start = pd.Timestamp(start)

    if not end:
        tdy = pd.Timestamp.now()
        tdy = getLastWorkDay(tdy)
        end = pd.Timestamp(tdy.year, tdy.month, tdy.day, 16, 5)
    else:
        end = pd.Timestamp(end)

    # Retrieve the maximum data to get the longest possible moving averages
    daRange = 30
    if minutes == 1:
        daRange = 7
    params = getParams(symbol, minutes, daRange)
    response = requests.get(base, params=params)

    meta = {'code': response.status_code}
    if response.status_code != 200:
        meta = {'code': 666, 'message': response.text}
        return meta, pd.DataFrame(), None
    result = response.json()
    if 'intraday' not in result.keys():
        if 'message' in result.keys():
            d = pd.Timestamp.now()
            dd = pd.Timestamp(d.year, d.month, d.day + 1, 3, 0, 0)
            setLimitReached('wtd', dd)
            logging.warning(
                f"WorldTradeData limit reached: {result['message']}")
            meta['message'] = result['message']
        else:
            meta['message'] = 'Failed to retrieve data from WorldTradingData'
        return meta, pd.DataFrame(), None

    if result['timezone_name'] != 'America/New_York':
        msg = f'''Time zone returned a non EST zone: {result['timezone_name']}'''
        raise ValueError(msg)
    meta['message'] = result['symbol'] + ': ' + result[
        'stock_exchange_short'] + ': ' + result['timezone_name']
    df = pd.DataFrame(data=result['intraday'].values(),
                      index=result['intraday'].keys())

    df.open = pd.to_numeric(df.open)
    df.high = pd.to_numeric(df.high)
    df.low = pd.to_numeric(df.low)
    df.close = pd.to_numeric(df.close)
    df.volume = pd.to_numeric(df.volume)

    df.index = pd.to_datetime(df.index)
    # resample for requested interval if necessary

    if original_minutes != minutes:
        srate = f'{original_minutes}T'
        df_ohlc = df[['open']].resample(srate).first()
        df_ohlc['high'] = df[['high']].resample(srate).max()
        df_ohlc['low'] = df[['low']].resample(srate).min()
        df_ohlc['close'] = df[['close']].resample(srate).last()
        df_ohlc['volume'] = df[['volume']].resample(srate).sum()
        df = df_ohlc.copy()

    # Get requested moving averages
    maDict = movingAverage(df.close, df, start)

    # Trim off times not requested
    if start > pd.Timestamp(df.index[0]):
        # rstart = df.index[0]
        # rend = df.index[-1]
        df = df.loc[df.index >= start]
        for ma in maDict:
            maDict[ma] = maDict[ma].loc[maDict[ma].index >= start]

        lendf = len(df)
        if lendf == 0:
            msg = '\nWARNING: all data has been removed.'
            msg += f'\nThe Requested start was({start}).'

            meta['code2'] = 199
            meta['message'] = meta['message'] + msg
            return meta, df, maDict

    if end < df.index[-1]:
        df = df.loc[df.index <= end]
        for ma in maDict:
            maDict[ma] = maDict[ma].loc[maDict[ma].index <= end]

        # If we just sliced off all our data. Set warning message
        lendf = len(df)
        if lendf == 0:
            msg = '\nWARNING: all data has been removed.'
            msg = msg + f'\nThe Requested end was({end}).'
            meta['code2'] = 199
            meta['message'] = meta['message'] + msg
            logging.error(f'{meta}')
            return meta, df, maDict

    # If we don't have a full ma, delete -- Later:, implement a 'delayed start' ma in graphstuff and remove this stuff
    keys = list(maDict.keys())
    for key in keys:
        if len(df) != len(maDict[key]):
            del maDict[key]

    # Note we are dropping columns  ['symbol', 'timestamp', 'tradingDay[] in favor of ohlcv
    df = df.copy(deep=True)
    return meta, df, maDict