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alphatrade 1.0.0
Python APIs for SAS Online Alpha Trade Web Platform
MAJOR CHANGES : NEW VERSION 1.0.0
API endpoints are changed to match the new ones, bugs expected
Removed check for enabled exchanges, you can now download or search symbols from MCX as well if it is not enabled
TOTP SECRET or TOTP both can be given as argument while creating AlphaTrade object (if it is 6 digits it will conside TOTP else TOTP SECRET)
Added new search function to search scrips which will return json for found scrips, you need to process it further
More functions to come.
Check whether streaming websocket is working or not
The examples folder is removed and examples are renamed and kept in root directory for ease of development
STEPS to work
Clone the repo locally - git clone https://github.com/algo2t/alphatrade.git
Create a virtualenv - python -m pip install virtualenv and then python -m virtualenv venv and activate the venv environment.
Install dev-requirement.txt - python -m pip install -r dev-requirements.txt - this is to ensure setuptools==57.5.0 is installed. There is a bug with protlib, target is to get reed of protlib in future
Install requirement.txt - python -m pip install -r requirement.txt
Create the config.py file in root of cloned repo with login_id, password and TOTP SECRET, you can add the access_token.txt if you want to use existing access_token.
Try the examples python zlogin_example.py, python zexample_sas_login.py, python zhistorical_data.py and python zstreaming_data.py
Expecting issues with the streaming data !!! :P
NOTE:: This is Unofficial python module, don't ask SAS support team for help, use it AS-IS
The Python APIs for communicating with the SAS Online Alpha Trade Web Platform.
Alpha Trade Python library provides an easy to use python wrapper over the HTTPS APIs.
The HTTP calls have been converted to methods and JSON responses are wrapped into Python-compatible objects.
Websocket connections are handled automatically within the library.
This work is completely based on Python SDK / APIs for AliceBlueOnline.
Thanks to krishnavelu.
Author: algo2t
Github Repository: alphatrade
Installation
This module is installed via pip:
pip install git+https://github.com/algo2t/alphatrade.git
It can also be installed from pypi
pip install alphatrade
To force upgrade existing installations:
pip uninstall alphatrade
pip --no-cache-dir install --upgrade alphatrade
Prerequisites
Python 3.x
Also, you need the following modules:
protlib
websocket_client
requests
pandas
The modules can also be installed using pip
Examples - Start Here - Important
Please clone this repository and check the examples folder to get started.
Check here
Getting started with API
Overview
There is only one class in the whole library: AlphaTrade. When the AlphaTrade object is created an access token from the SAS Online alpha trade server is stored in text file access_token.txt in the same directory. An access token is valid for 24 hours. See the examples folder with config.py file to see how to store your credentials.
With an access token, you can instantiate an AlphaTrade object again. Ideally you only need to create an access_token once every day.
REST Documentation
The original REST API that this SDK is based on is available online.
Alice Blue API REST documentation
Using the API
Logging
The whole library is equipped with python‘s logging module for debugging. If more debug information is needed, enable logging using the following code.
import logging
logging.basicConfig(level=logging.DEBUG)
Get an access token
Import alphatrade
from alphatrade import *
Create config.py file
Always keep credentials in a separate file
login_id = "XXXXX"
password = "XXXXXXXX"
Totp = 'XXXXXXXXXXXXXXXX'
try:
access_token = open('access_token.txt', 'r').read().rstrip()
except Exception as e:
print('Exception occurred :: {}'.format(e))
access_token = None
Import the config
import config
Create AlphaTrade Object
Create AlphaTrade object with your login_id, password, TOTP / TOTP_SECRET and/or access_token.
Use config object to get login_id, password, TOTP and access_token.
from alphatrade import AlphaTrade
import config
import pyotp
Totp = config.Totp
pin = pyotp.TOTP(Totp).now()
totp = f"{int(pin):06d}" if len(pin) <=5 else pin
sas = AlphaTrade(login_id=config.login_id, password=config.password, twofa=totp, access_token=config.access_token)
## filename config.py
login_id = "RR24XX"
password = "SuperSecretPassword!!!"
TOTP_SECRET = 'YOURTOTPSECRETEXTERNALAUTH'
try:
access_token = open('access_token.txt', 'r').read().rstrip()
except Exception as e:
print(f'Exception occurred :: {e}')
access_token = None
from alphatrade import AlphaTrade
import config
import pyotp
sas = AlphaTrade(login_id=config.login_id, password=config.password, twofa=config.TOTP_SECRET, access_token=config.access_token)
You can run commands here to check your connectivity
print(sas.get_balance()) # get balance / margin limits
print(sas.get_profile()) # get profile
print(sas.get_daywise_positions()) # get daywise positions
print(sas.get_netwise_positions()) # get netwise positions
print(sas.get_holding_positions()) # get holding positions
Get master contracts
Getting master contracts allow you to search for instruments by symbol name and place orders.
Master contracts are stored as an OrderedDict by token number and by symbol name. Whenever you get a trade update, order update, or quote update, the library will check if master contracts are loaded. If they are, it will attach the instrument object directly to the update. By default all master contracts of all enabled exchanges in your personal profile will be downloaded. i.e. If your profile contains the following as enabled exchanges ['NSE', 'BSE', 'CDS', 'MCX', NFO'] all contract notes of all exchanges will be downloaded by default. If you feel it takes too much time to download all exchange, or if you don‘t need all exchanges to be downloaded, you can specify which exchange to download contract notes while creating the AlphaTrade object.
sas = AlphaTrade(login_id=config.login_id, password=config.password, twofa=totp, access_token=config.access_token, master_contracts_to_download=['NSE', 'BSE'])
This will reduce a few milliseconds in object creation time of AlphaTrade object.
Get tradable instruments
Symbols can be retrieved in multiple ways. Once you have the master contract loaded for an exchange, you can get an instrument in many ways.
Get a single instrument by it‘s name:
tatasteel_nse_eq = sas.get_instrument_by_symbol('NSE', 'TATASTEEL')
reliance_nse_eq = sas.get_instrument_by_symbol('NSE', 'RELIANCE')
ongc_bse_eq = sas.get_instrument_by_symbol('BSE', 'ONGC')
india_vix_nse_index = sas.get_instrument_by_symbol('NSE', 'India VIX')
sensex_nse_index = sas.get_instrument_by_symbol('BSE', 'SENSEX')
Get a single instrument by it‘s token number (generally useful only for BSE Equities):
ongc_bse_eq = sas.get_instrument_by_token('BSE', 500312)
reliance_bse_eq = sas.get_instrument_by_token('BSE', 500325)
acc_nse_eq = sas.get_instrument_by_token('NSE', 22)
Get FNO instruments easily by mentioning expiry, strike & call or put.
bn_fut = sas.get_instrument_for_fno(symbol = 'BANKNIFTY', expiry_date=datetime.date(2019, 6, 27), is_fut=True, strike=None, is_call = False)
bn_call = sas.get_instrument_for_fno(symbol = 'BANKNIFTY', expiry_date=datetime.date(2019, 6, 27), is_fut=False, strike=30000, is_call = True)
bn_put = sas.get_instrument_for_fno(symbol = 'BANKNIFTY', expiry_date=datetime.date(2019, 6, 27), is_fut=False, strike=30000, is_call = False)
Search for symbols
Search for multiple instruments by matching the name. This works case insensitive and returns all instrument which has the name in its symbol.
all_sensex_scrips = sas.search_instruments('BSE', 'sEnSeX')
print(all_sensex_scrips)
The above code results multiple symbol which has ‘sensex’ in its symbol.
[Instrument(exchange='BSE', token=1, symbol='SENSEX', name='SENSEX', expiry=None, lot_size=None), Instrument(exchange='BSE', token=540154, symbol='IDFSENSEXE B', name='IDFC Mutual Fund', expiry=None, lot_size=None), Instrument(exchange='BSE', token=532985, symbol='KTKSENSEX B', name='KOTAK MAHINDRA MUTUAL FUND', expiry=None, lot_size=None), Instrument(exchange='BSE', token=538683, symbol='NETFSENSEX B', name='NIPPON INDIA ETF SENSEX', expiry=None, lot_size=None), Instrument(exchange='BSE', token=535276, symbol='SBISENSEX B', name='SBI MUTUAL FUND - SBI ETF SENS', expiry=None, lot_size=None)]
Search for multiple instruments by matching multiple names
multiple_underlying = ['BANKNIFTY','NIFTY','INFY','BHEL']
all_scripts = sas.search_instruments('NFO', multiple_underlying)
Instrument object
Instruments are represented by instrument objects. These are named-tuples that are created while getting the master contracts. They are used when placing an order and searching for an instrument. The structure of an instrument tuple is as follows:
Instrument = namedtuple('Instrument', ['exchange', 'token', 'symbol',
'name', 'expiry', 'lot_size'])
All instruments have the fields mentioned above. Wherever a field is not applicable for an instrument (for example, equity instruments don‘t have strike prices), that value will be None
Quote update
Once you have master contracts loaded, you can easily subscribe to quote updates.
Four types of feed data are available
You can subscribe any one type of quote update for a given scrip. Using the LiveFeedType enum, you can specify what type of live feed you need.
LiveFeedType.MARKET_DATA
LiveFeedType.COMPACT
LiveFeedType.SNAPQUOTE
LiveFeedType.FULL_SNAPQUOTE
Please refer to the original documentation here for more details of different types of quote update.
Subscribe to a live feed
sas.subscribe(sas.get_instrument_by_symbol('NSE', 'TATASTEEL'), LiveFeedType.MARKET_DATA)
sas.subscribe(sas.get_instrument_by_symbol('BSE', 'RELIANCE'), LiveFeedType.COMPACT)
Subscribe to multiple instruments in a single call. Give an array of instruments to be subscribed.
sas.subscribe([sas.get_instrument_by_symbol('NSE', 'TATASTEEL'), sas.get_instrument_by_symbol('NSE', 'ACC')], LiveFeedType.MARKET_DATA)
Note: There is a limit of 250 scrips that can be subscribed on total. Beyond this point the server may disconnect web-socket connection.
Start getting live feed via socket
socket_opened = False
def event_handler_quote_update(message):
print(f"quote update {message}")
def open_callback():
global socket_opened
socket_opened = True
sas.start_websocket(subscribe_callback=event_handler_quote_update,
socket_open_callback=open_callback,
run_in_background=True)
while(socket_opened==False):
pass
sas.subscribe(sas.get_instrument_by_symbol('NSE', 'ONGC'), LiveFeedType.MARKET_DATA)
sleep(10)
Unsubscribe to a live feed
Unsubscribe to an existing live feed
sas.unsubscribe(sas.get_instrument_by_symbol('NSE', 'TATASTEEL'), LiveFeedType.MARKET_DATA)
sas.unsubscribe(sas.get_instrument_by_symbol('BSE', 'RELIANCE'), LiveFeedType.COMPACT)
Unsubscribe to multiple instruments in a single call. Give an array of instruments to be unsubscribed.
sas.unsubscribe([sas.get_instrument_by_symbol('NSE', 'TATASTEEL'), sas.get_instrument_by_symbol('NSE', 'ACC')], LiveFeedType.MARKET_DATA)
Get All Subscribed Symbols
sas.get_all_subscriptions() # All
Market Status messages & Exchange messages.
Subscribe to market status messages
sas.subscribe_market_status_messages()
Getting market status messages.
print(sas.get_market_status_messages())
Example result of get_market_status_messages()
[{'exchange': 'NSE', 'length_of_market_type': 6, 'market_type': b'NORMAL', 'length_of_status': 31, 'status': b'The Closing Session has closed.'}, {'exchange': 'NFO', 'length_of_market_type': 6, 'market_type': b'NORMAL', 'length_of_status': 45, 'status': b'The Normal market has closed for 22 MAY 2020.'}, {'exchange': 'CDS', 'length_of_market_type': 6, 'market_type': b'NORMAL', 'length_of_status': 45, 'status': b'The Normal market has closed for 22 MAY 2020.'}, {'exchange': 'BSE', 'length_of_market_type': 13, 'market_type': b'OTHER SESSION', 'length_of_status': 0, 'status': b''}]
Note: As per alice blue documentation all market status messages should be having a timestamp. But in actual the server doesn‘t send timestamp, so the library is unable to get timestamp for now.
Subscribe to exchange messages
sas.subscribe_exchange_messages()
Getting market status messages.
print(sas.get_exchange_messages())
Example result of get_exchange_messages()
[{'exchange': 'NSE', 'length': 32, 'message': b'DS : Bulk upload can be started.', 'exchange_time_stamp': 1590148595}, {'exchange': 'NFO', 'length': 200, 'message': b'MARKET WIDE LIMIT FOR VEDL IS 183919959. OPEN POSITIONS IN VEDL HAVE REACHED 84 PERCENT OF THE MARKET WIDE LIMIT. ', 'exchange_time_stamp': 1590146132}, {'exchange': 'CDS', 'length': 54, 'message': b'DS : Regular segment Bhav copy broadcast successfully.', 'exchange_time_stamp': 1590148932}, {'exchange': 'MCX', 'length': 7, 'message': b'.......', 'exchange_time_stamp': 1590196159}]
Market Status messages & Exchange messages through callbacks
socket_opened = False
def market_status_messages(message):
print(f"market status messages {message}")
def exchange_messages(message):
print(f"exchange messages {message}")
def open_callback():
global socket_opened
socket_opened = True
sas.start_websocket(market_status_messages_callback=market_status_messages,
exchange_messages_callback=exchange_messages,
socket_open_callback=open_callback,
run_in_background=True)
while(socket_opened==False):
pass
sas.subscribe_market_status_messages()
sas.subscribe_exchange_messages()
sleep(10)
Place an order
Place limit, market, SL, SL-M, AMO, BO, CO orders
print (sas.get_profile())
# TransactionType.Buy, OrderType.Market, ProductType.Delivery
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%1%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Market,
product_type = ProductType.Delivery,
price = 0.0,
trigger_price = None,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.Market, ProductType.Intraday
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%2%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Market,
product_type = ProductType.Intraday,
price = 0.0,
trigger_price = None,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.Market, ProductType.CoverOrder
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%3%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Market,
product_type = ProductType.CoverOrder,
price = 0.0,
trigger_price = 7.5, # trigger_price Here the trigger_price is taken as stop loss (provide stop loss in actual amount)
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.Limit, ProductType.BracketOrder
# OCO Order can't be of type market
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%4%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Limit,
product_type = ProductType.BracketOrder,
price = 8.0,
trigger_price = None,
stop_loss = 6.0,
square_off = 10.0,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.Limit, ProductType.Intraday
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%5%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Limit,
product_type = ProductType.Intraday,
price = 8.0,
trigger_price = None,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.Limit, ProductType.CoverOrder
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%6%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.Limit,
product_type = ProductType.CoverOrder,
price = 7.0,
trigger_price = 6.5, # trigger_price Here the trigger_price is taken as stop loss (provide stop loss in actual amount)
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
###############################
# TransactionType.Buy, OrderType.StopLossMarket, ProductType.Delivery
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%7%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.StopLossMarket,
product_type = ProductType.Delivery,
price = 0.0,
trigger_price = 8.0,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.StopLossMarket, ProductType.Intraday
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%8%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.StopLossMarket,
product_type = ProductType.Intraday,
price = 0.0,
trigger_price = 8.0,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.StopLossMarket, ProductType.CoverOrder
# CO order is of type Limit and And Market Only
# TransactionType.Buy, OrderType.StopLossMarket, ProductType.BO
# BO order is of type Limit and And Market Only
###################################
# TransactionType.Buy, OrderType.StopLossLimit, ProductType.Delivery
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%9%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.StopLossMarket,
product_type = ProductType.Delivery,
price = 8.0,
trigger_price = 8.0,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.StopLossLimit, ProductType.Intraday
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%10%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.StopLossLimit,
product_type = ProductType.Intraday,
price = 8.0,
trigger_price = 8.0,
stop_loss = None,
square_off = None,
trailing_sl = None,
is_amo = False)
)
# TransactionType.Buy, OrderType.StopLossLimit, ProductType.CoverOrder
# CO order is of type Limit and And Market Only
# TransactionType.Buy, OrderType.StopLossLimit, ProductType.BracketOrder
print ("%%%%%%%%%%%%%%%%%%%%%%%%%%%%11%%%%%%%%%%%%%%%%%%%%%%%%%%%%%")
print(
sas.place_order(transaction_type = TransactionType.Buy,
instrument = sas.get_instrument_by_symbol('NSE', 'INFY'),
quantity = 1,
order_type = OrderType.StopLossLimit,
product_type = ProductType.BracketOrder,
price = 8.0,
trigger_price = 8.0,
stop_loss = 1.0,
square_off = 1.0,
trailing_sl = 20,
is_amo = False)
)
Place basket order
Basket order is used to buy or sell group of securities simultaneously.
order1 = { "instrument" : sas.get_instrument_by_symbol('NSE', 'INFY'),
"order_type" : OrderType.Market,
"quantity" : 1,
"transaction_type" : TransactionType.Buy,
"product_type" : ProductType.Delivery}
order2 = { "instrument" : sas.get_instrument_by_symbol('NSE', 'SBIN'),
"order_type" : OrderType.Limit,
"quantity" : 2,
"price" : 280.0,
"transaction_type" : TransactionType.Sell,
"product_type" : ProductType.Intraday}
order = [order1, order2]
print(sas.place_basket_order(orders))
Cancel an order
sas.cancel_order('170713000075481') #Cancel an open order
Getting order history and trade details
Get order history of a particular order
print(sas.get_order_history('170713000075481'))
Get order history of all orders.
print(sas.get_order_history())
Get trade book
print(sas.get_trade_book())
Get historical candles data
This will provide historical data but not for current day.
This returns a pandas DataFrame object which be used with pandas_ta to get various indicators values.
from datetime import datetime
print(sas.get_historical_candles('MCX', 'NATURALGAS NOV FUT', datetime(2020, 10, 19), datetime.now() ,interval=30))
Output
Instrument(exchange='MCX', token=224365, symbol='NATURALGAS NOV FUT', name='', expiry=datetime.date(2020, 11, 24), lot_size=None)
open high low close volume
date
2020-10-19 09:00:00+05:30 238.9 239.2 238.4 239.0 373
2020-10-19 09:30:00+05:30 239.0 239.0 238.4 238.6 210
2020-10-19 10:00:00+05:30 238.7 238.7 238.1 238.1 213
2020-10-19 10:30:00+05:30 238.0 238.4 238.0 238.1 116
2020-10-19 11:00:00+05:30 238.1 238.2 238.0 238.0 69
... ... ... ... ... ...
2020-10-23 21:00:00+05:30 237.5 238.1 237.3 237.6 331
2020-10-23 21:30:00+05:30 237.6 238.5 237.6 237.9 754
2020-10-23 22:00:00+05:30 237.9 238.1 237.2 237.9 518
2020-10-23 22:30:00+05:30 237.9 238.7 237.7 238.1 897
2020-10-23 23:00:00+05:30 238.2 238.3 236.3 236.5 1906
Better way to get historical data, first get the latest version from github
python -m pip install git+https://github.com/algo2t/alphatrade.git
from datetime import datetime
india_vix_nse_index = sas.get_instrument_by_symbol('NSE', 'India VIX')
print(sas.get_historical_candles(india_vix_nse_index.exchange, india_vix_nse_index.symbol, datetime(2020, 10, 19), datetime.now() ,interval=30))
Get intraday candles data
This will give candles data for current day only.
This returns a pandas DataFrame object which be used with pandas_ta to get various indicators values.
print(sas.get_intraday_candles('MCX', 'NATURALGAS NOV FUT', interval=15))
Better way to get intraday data, first get the latest version from github
python -m pip install git+https://github.com/algo2t/alphatrade.git
from datetime import datetime
nifty_bank_nse_index = sas.get_instrument_by_symbol('NSE', 'Nifty Bank')
print(sas.get_intraday_candles(nifty_bank_nse_index.exchange, nifty_bank_nse_index.symbol, datetime(2020, 10, 19), datetime.now(), interval=10))
Order properties as enums
Order properties such as TransactionType, OrderType, and others have been safely classified as enums so you don‘t have to write them out as strings
TransactionType
Transaction types indicate whether you want to buy or sell. Valid transaction types are of the following:
TransactionType.Buy - buy
TransactionType.Sell - sell
OrderType
Order type specifies the type of order you want to send. Valid order types include:
OrderType.Market - Place the order with a market price
OrderType.Limit - Place the order with a limit price (limit price parameter is mandatory)
OrderType.StopLossLimit - Place as a stop loss limit order
OrderType.StopLossMarket - Place as a stop loss market order
ProductType
Product types indicate the complexity of the order you want to place. Valid product types are:
ProductType.Intraday - Intraday order that will get squared off before market close
ProductType.Delivery - Delivery order that will be held with you after market close
ProductType.CoverOrder - Cover order
ProductType.BracketOrder - One cancels other order. Also known as bracket order
Working with examples
Here, examples directory there are 3 files zlogin_example.py, zstreaming_data.py and stop.txt
Steps
Clone the repository to your local machine git clone https://github.com/algo2t/alphatrade.git
Copy the examples directory to any location where you want to write your code
Install the alphatrade module using pip => python -m pip install https://github.com/algo2t/alphatrade.git
Open the examples directory in your favorite editor, in our case it is VSCodium
Open the zlogin_example.py file in the editor
Now, create config.py file as per instructions given below and in the above file
Provide correct login credentials like login_id, password and 16 digit totp code (find below qr code)
This is generally set from the homepage of alpha web trading platform here
Click on FORGET PASSWORD? => Select Reset 2FA radio button.
Enter the CLIENT ID (LOGIN_ID), EMAIL ID and PAN NUMBER, click on RESET button.
Click on BACK TO LOGIN and enter CLIENT ID and PASSWORD, click on SECURED SIGN-IN
Set same answers for 5 questions and click on SUBMIT button.
config.py
login_id = "XXXXX"
password = "XXXXXXXX"
Totp = 'XXXXXXXXXXXXXXXX'
try:
access_token = open('access_token.txt', 'r').read().rstrip()
except Exception as e:
print('Exception occurred :: {}'.format(e))
access_token = None
Example strategy using alpha trade API
Here is an example moving average strategy using alpha trade web API.
This strategy generates a buy signal when 5-EMA > 20-EMA (golden cross) or a sell signal when 5-EMA < 20-EMA (death cross).
Example for getting historical and intraday candles data
Here is an example for getting historical data using alpha trade web API.
For historical candles data start_time and end_time must be provided in format as shown below.
It can also be provided as timedelta. Check the script zhistorical_data.py in examples.
from datetime import datetime, timedelta
start_time = datetime(2020, 10, 19, 9, 15, 0)
end_time = datetime(2020, 10, 21, 16, 59, 0)
df = sas.get_historical_candles('MCX', 'NATURALGAS OCT FUT', start_time, end_time, 5)
print(df)
end_time = start_time + timedelta(days=5)
df = sas.get_historical_candles('MCX', 'NATURALGAS NOV FUT', start_time, end_time, 15)
print(df)
For intraday or today‘s / current day‘s candles data.
df = sas.get_intraday_candles('MCX', 'NATURALGAS OCT FUT')
print(df)
df = sas.get_intraday_candles('MCX', 'NATURALGAS NOV FUT', 15)
print(df)
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Before posting the sample code, test your sample code yourself once. Only sample code should be tested, no other addition should be there while you are testing.
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Post the results of print() functions also in the issue.
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