Skip to main content

A package for obtaining quotation data from various online sources and calculating the values of technical indicators based on these quotations.

Project description

live_trading_indicators

A package for obtaining quotation data from various online sources and calculating the values of technical indicators based on these quotations. Data is received automatically. It is possible to receive data in real time. The received data is stored in a file cache with the possibility of quick use. Data integrity is carefully monitored.

The current version allows you to receive exchange data Binance (spot, futures USD-M, futures COIN-M).

The data can be obtained in numpy ndarray and Dataframe Pandas..

Package data is stored by default in the .lti folder of of the user's home directory. A significant amount of data can be created in this folder, depending on the number of instruments and their timeframes.

Installing

pip install live_trading_indicators

Usage examples

Getting quotes

import live_trading_indicators as lti

indicators = lti.Indicators('binance')
ohlcv = indicators.OHLCV('ethusdt', '4h', '2022-07-01', '2022-07-01')
print(ohlcv)
Result:
<OHLCV data> symbol: ethusdt, timeframe: 4h
date: 2022-07-01T00:00 - 2022-07-01T20:00 (length: 6) 
empty bars: count 0 (0.00 %), max consecutive 0
Values: time, open, high, low, close, volume

Now ohlcv contains quotes in numpy array (ohlcv.time, ohlcv.open, ohlcv.high, ohlcv.low, ohlcv.close, ohlcv.volume).

pandas dataframe

dataframe = ohlcv.pandas()
print(dataframe.head())
Result:
                 time     open     high      low    close       volume
0 2022-07-01 00:00:00  1071.02  1117.00  1050.46  1054.52  430646.8720
1 2022-07-01 04:00:00  1054.52  1076.43  1045.41  1066.81  275557.9328
2 2022-07-01 08:00:00  1066.81  1086.44  1033.44  1050.22  252105.5665
3 2022-07-01 12:00:00  1050.21  1074.23  1043.00  1056.86  298465.0695
4 2022-07-01 16:00:00  1056.86  1083.10  1054.82  1067.91  158796.2248

Example of getting indicator data

macd = indicators.MACD('ethusdt', '1h', '2022-07-01', '2022-07-30', period_short=15, period_long=26, period_signal=9)
print(macd.pandas().head())
Result:
                 time      macd  macd_signal  macd_hist
0 2022-07-01 00:00:00  0.000000     0.000000   0.000000
1 2022-07-01 01:00:00  0.021389     0.010694   0.010694
2 2022-07-01 02:00:00 -0.061712    -0.013441  -0.048271
3 2022-07-01 03:00:00 -1.105457    -0.286445  -0.819012
4 2022-07-01 04:00:00 -2.146765    -0.658509  -1.488256

Getting real-time data (the last 3 minutes on the 1m timeframe without an incomplete bar)

To get real-time data, you do not need to specify an end date.

import datetime as dt
import live_trading_indicators as lti

utcnow = dt.datetime.utcnow()
print(f'Now is {utcnow} UTC')
indicators = lti.Indicators('binance', utcnow - dt.timedelta(minutes=3))
ohlcv = indicators.OHLCV('btcusdt', '1m')
print(ohlcv.pandas())
Result:
Now is 2022-11-04 09:32:31.528230 UTC
                 time      open      high       low     close     volume
0 2022-11-04 09:29:00  20594.39  20595.60  20591.06  20592.38  177.35380
1 2022-11-04 09:30:00  20592.38  20600.98  20591.75  20600.30  178.40869
2 2022-11-04 09:31:00  20600.98  20623.93  20600.30  20621.45  431.11917

Getting real-time data (the last 3 minutes on the 1m timeframe and an incomplete bar)

To get data containing an incomplete bar, you must specify with_incomplete_bar=True when creating Indicators.

utcnow = dt.datetime.utcnow()
print(f'Now is {utcnow} UTC')
indicators = lti.Indicators('binance', utcnow - dt.timedelta(minutes=3), with_incomplete_bar=True)
ohlcv = indicators.OHLCV('btcusdt', '1m')
print(ohlcv.pandas())
Result:
Now is 2022-11-04 09:37:07.372986 UTC
2022-11-04 12:37:07,374 Download using api symbol btcusdt timeframe 1m from 2022-11-04T00:00:00.000...
                 time      open      high       low     close     volume
0 2022-11-04 09:34:00  20614.55  20618.50  20610.76  20615.97  263.96754
1 2022-11-04 09:35:00  20615.61  20624.00  20610.29  20616.53  258.53777
2 2022-11-04 09:36:00  20615.69  20617.75  20609.74  20611.46  199.43313
3 2022-11-04 09:37:00  20611.11  20611.89  20608.17  20609.02   15.15800

Details

All typical tamframes are supported up to 1 day inclusive: 1m, 5m, 15m, 30m, 1h, 2h, 4h, 6h, 8h, 12h, 1d. By default, log messages are output to the console, and you will see similar messages:

2022-11-04 12:32:31,528 Download using api symbol btcusdt timeframe 1m from 2022-11-04T00:00:00.000...

To disable these messages, run the following code and restart python.

import live_trading_indicators as lti
lti.config(print_log=False)

Indicators

When getting indicator values, the first two parameters should be symbol and timeframe. Further, the period can optionally be specified. Then the parameters of the indicator are specified by name.

Examples

sma = indicators.MACD('ethusdt', '1h', period=9)
macd = indicators.MACD('ethusdt', '1h', '2022-07-01', '2022-07-30', period_short=15, period_long=26, period_signal=9)

The following indicators are implemented (the parameters symbol, timeframe, time_start, time_end are omitted for brevity):

  • EMA(period, value='close')
  • SMA(period, value='close')
  • MA(period, value='close', ma_type='sma')
  • MACD(period_short, period_long, period_signal)
  • RSI(period, value='close')

Specifying the period

The period can be specified both during initialization of Indicators and in the indicator parameters. The data type when specifying the period can be datetime.date, datetime.datetime, numpy.datetime64, string, or a number in the format YYYYMMDD.

There are three strategies for specifying a time period:

1. The time period is specified when creating Indicators (base period)

Indicator values can be obtained for any period within the interval specified for Indicators. When exiting the specified interval, an exception will be raised LTIExceptionOutOfThePeriod.

Example
indicators = lti.Indicators('binance', 20220901, 20220930) # the base period
ohlcv = indicators.OHLCV('um/ethusdt', '1h') # the period is not specified, the base period is used
sma22 = indicators.SMA('um/ethusdt', '1h', 20220905, 20220915, period=22) # the period is specified
sma15 = indicators.SMA('um/ethusdt', '1h', 20220905, 20221015, period=15) # ERROR, going beyond the boundaries of the base period

2. The time period is not specified when creating Indicators

In this variant, when getting indicator data, the period should always be specified. When the interval is extended, data may be updated, this may slow down the work.

Example
indicators = lti.Indicators('binance') # период не указан
ohlcv = indicators.OHLCV('um/ethusdt', '1h', 20220801, 20220815) # период указывать обязательно
ma22 = indicators.SMA('um/ethusdt', '1h', 'close', 22, 20220905, 20220915) # период указывать обязательно

3. Real-time mode

In this variant, when creating Indicators, only the start date is specified. The data is always received up to the current moment. When creating Indicators, you can specify with_incomplete_bar=True, then the data of the last, incomplete bar will be received. Example)

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

live_trading_indicators-0.1.2.tar.gz (17.8 kB view details)

Uploaded Source

Built Distribution

live_trading_indicators-0.1.2-py3-none-any.whl (23.4 kB view details)

Uploaded Python 3

File details

Details for the file live_trading_indicators-0.1.2.tar.gz.

File metadata

File hashes

Hashes for live_trading_indicators-0.1.2.tar.gz
Algorithm Hash digest
SHA256 9ce7261ddeda613d4f8a5efee02f46c1763ccbfc07386ae01ef4de250bef5639
MD5 8d65a931d56dbe86840d2840bff59c9e
BLAKE2b-256 41a44b7c4035dd738ad1299f1550654703f3b1c12f894e2c886a89df03a58c47

See more details on using hashes here.

File details

Details for the file live_trading_indicators-0.1.2-py3-none-any.whl.

File metadata

File hashes

Hashes for live_trading_indicators-0.1.2-py3-none-any.whl
Algorithm Hash digest
SHA256 ae9ec84c491cc0a22bf6705700c5a186741f923334a6dcb9b2062fa9d6422d77
MD5 0adbdcea6b2d25912a9a8558050a40b0
BLAKE2b-256 95665225a622f23cf725daa6a6ff5712be3a23afa83b66d26bc15fb45b992d81

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page