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screener.py
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screener.py
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import time
import json
import pandas as pd
import re
import sys
from datetime import datetime
from decimal import Decimal
from itertools import islice
from tradingview_ta import *
from importlib.metadata import version
from controllers.PyCryptoBot import PyCryptoBot
from models.helper.TelegramBotHelper import TelegramBotHelper as TGBot
from models.exchange.binance import PublicAPI as BPublicAPI
from models.exchange.coinbase import AuthAPI as CBAuthAPI
from models.exchange.coinbase_pro import PublicAPI as CPublicAPI
from models.exchange.kucoin import PublicAPI as KPublicAPI
from models.exchange.Granularity import Granularity
from models.exchange.ExchangesEnum import Exchange as CryptoExchange
def volatility_calculator(bollinger_band_upper, bollinger_band_lower, keltner_upper, keltner_lower, high, low):
"""
A break away from traditional volatility calculations. Based entirely
on the proportionate self.price gap between keltner channels, bolinger, and high / low averaged out
"""
try:
b_spread = Decimal(bollinger_band_upper) - Decimal(bollinger_band_lower)
k_spread = Decimal(keltner_upper) - Decimal(keltner_lower)
p_spread = Decimal(high) - Decimal(low)
except TypeError:
return 0
b_pcnt = abs(b_spread / Decimal(bollinger_band_lower)) * 100
k_pcnt = abs(k_spread / Decimal(keltner_lower)) * 100
chan_20_pcnt = (b_pcnt + k_pcnt) / 2
p_pcnt = abs(p_spread / Decimal(low)) * 100
return abs((chan_20_pcnt + p_pcnt) / 2)
def load_configs():
exchanges_loaded = []
try:
with open("screener.json", encoding="utf8") as json_file:
config = json.load(json_file)
except IOError as err:
raise (err)
try:
with open("config.json", encoding="utf8") as json_file:
bot_config = json.load(json_file)
except IOError as err:
print(err)
try:
for exchange in config:
ex = CryptoExchange(exchange)
exchange_config = config[ex.value]
if ex == CryptoExchange.BINANCE:
binance_app = PyCryptoBot(exchange=ex)
binance_app.public_api = BPublicAPI(bot_config[ex.value]["api_url"])
binance_app.scanner_quote_currencies = exchange_config.get("quote_currency", ["USDT"])
binance_app.granularity = Granularity(Granularity.convert_to_enum(exchange_config.get("granularity", "1h")))
binance_app.adx_threshold = exchange_config.get("adx_threshold", 25)
binance_app.volatility_threshold = exchange_config.get("volatility_threshold", 9)
binance_app.minimum_volatility = exchange_config.get("minimum_volatility", 5)
binance_app.minimum_volume = exchange_config.get("minimum_volume", 20000)
binance_app.volume_threshold = exchange_config.get("volume_threshold", 20000)
binance_app.minimum_quote_price = exchange_config.get("minimum_quote_price", 0.0000001)
binance_app.selection_score = exchange_config.get("selection_score", 10)
binance_app.tv_screener_ratings = [rating.upper() for rating in exchange_config.get("tv_screener_ratings", ["STRONG_BUY"])]
exchanges_loaded.append(binance_app)
elif ex == CryptoExchange.COINBASE:
coinbase_app = PyCryptoBot(exchange=ex)
coinbase_app.public_api = CBAuthAPI(bot_config[ex.value]["api_key"], bot_config[ex.value]["api_secret"], bot_config[ex.value]["api_url"])
coinbase_app.scanner_quote_currencies = exchange_config.get("quote_currency", ["USDT"])
coinbase_app.granularity = Granularity(Granularity.convert_to_enum(int(exchange_config.get("granularity", "3600"))))
coinbase_app.adx_threshold = exchange_config.get("adx_threshold", 25)
coinbase_app.volatility_threshold = exchange_config.get("volatility_threshold", 9)
coinbase_app.minimum_volatility = exchange_config.get("minimum_volatility", 5)
coinbase_app.minimum_volume = exchange_config.get("minimum_volume", 20000)
coinbase_app.volume_threshold = exchange_config.get("volume_threshold", 20000)
coinbase_app.minimum_quote_price = exchange_config.get("minimum_quote_price", 0.0000001)
coinbase_app.selection_score = exchange_config.get("selection_score", 10)
coinbase_app.tv_screener_ratings = [rating.upper() for rating in exchange_config.get("tv_screener_ratings", ["STRONG_BUY"])]
exchanges_loaded.append(coinbase_app)
elif ex == CryptoExchange.COINBASEPRO:
coinbase_pro_app = PyCryptoBot(exchange=ex)
coinbase_pro_app.public_api = CPublicAPI()
coinbase_pro_app.scanner_quote_currencies = exchange_config.get("quote_currency", ["USDT"])
coinbase_pro_app.granularity = Granularity(Granularity.convert_to_enum(int(exchange_config.get("granularity", "3600"))))
coinbase_pro_app.adx_threshold = exchange_config.get("adx_threshold", 25)
coinbase_pro_app.volatility_threshold = exchange_config.get("volatility_threshold", 9)
coinbase_pro_app.minimum_volatility = exchange_config.get("minimum_volatility", 5)
coinbase_pro_app.minimum_volume = exchange_config.get("minimum_volume", 20000)
coinbase_pro_app.volume_threshold = exchange_config.get("volume_threshold", 20000)
coinbase_pro_app.minimum_quote_price = exchange_config.get("minimum_quote_price", 0.0000001)
coinbase_pro_app.selection_score = exchange_config.get("selection_score", 10)
coinbase_pro_app.tv_screener_ratings = [rating.upper() for rating in exchange_config.get("tv_screener_ratings", ["STRONG_BUY"])]
exchanges_loaded.append(coinbase_pro_app)
elif ex == CryptoExchange.KUCOIN:
kucoin_app = PyCryptoBot(exchange=ex)
kucoin_app.public_api = KPublicAPI(bot_config[ex.value]["api_url"])
kucoin_app.scanner_quote_currencies = exchange_config.get("quote_currency", ["USDT"])
kucoin_app.granularity = Granularity(Granularity.convert_to_enum(exchange_config.get("granularity", "1h")))
kucoin_app.adx_threshold = exchange_config.get("adx_threshold", 25)
kucoin_app.volatility_threshold = exchange_config.get("volatility_threshold", 9)
kucoin_app.minimum_volatility = exchange_config.get("minimum_volatility", 5)
kucoin_app.minimum_volume = exchange_config.get("minimum_volume", 20000)
kucoin_app.volume_threshold = exchange_config.get("volume_threshold", 20000)
kucoin_app.minimum_quote_price = exchange_config.get("minimum_quote_price", 0.0000001)
kucoin_app.selection_score = exchange_config.get("selection_score", 10)
kucoin_app.tv_screener_ratings = [rating.upper() for rating in exchange_config.get("tv_screener_ratings", ["STRONG_BUY"])]
exchanges_loaded.append(kucoin_app)
else:
raise ValueError(f"Invalid exchange found in config: {ex}")
except AttributeError as e:
print(f"Invalid exchange: {e}...ignoring.")
return exchanges_loaded
def chunker(market_list, chunk_size):
markets = iter(market_list)
market_chunk = list(islice(markets, chunk_size))
while market_chunk:
yield market_chunk
market_chunk = list(islice(markets, chunk_size))
def get_markets(app, quote_currency):
markets = []
quote_currency = quote_currency.upper()
api = app.public_api
resp = api.get_markets_24hr_stats()
if app.exchange == CryptoExchange.BINANCE:
for row in resp:
if row["symbol"].endswith(quote_currency):
markets.append(row["symbol"])
elif app.exchange == CryptoExchange.COINBASE:
for market in resp:
market = str(market)
if market.endswith(f"-{quote_currency}"):
markets.append(market)
elif app.exchange == CryptoExchange.COINBASEPRO:
for market in resp:
market = str(market)
if market.endswith(f"-{quote_currency}"):
markets.append(market)
elif app.exchange == CryptoExchange.KUCOIN:
results = resp["data"]["ticker"]
for result in results:
if result["symbol"].endswith(f"-{quote_currency}"):
markets.append(result["symbol"])
return markets
def process_screener_data(app, markets, quote_currency, exchange_name):
"""
Hit TradingView up for the goods so we don't waste unnecessary time/compute resources (brandon's top picks)
"""
ta_screener_list = [f"{re.sub('PRO', '', app.exchange.name, re.IGNORECASE)}:{re.sub('-', '', market)}" for market in markets]
screener_staging = [p for p in chunker(ta_screener_list, 100)]
screener_analysis = []
additional_indicators = ["ATR", "KltChnl.upper", "KltChnl.lower"]
# TradingView.indicators.append("Volatility.D")
for pair_list in screener_staging:
screener_analysis.extend(
[
a
for a in get_multiple_analysis( # noqa: F405
screener="crypto", interval=app.granularity.short, symbols=pair_list, additional_indicators=additional_indicators
).values()
]
)
# Take what we need and do magic, ditch the rest.
formatted_ta = []
for ta in screener_analysis:
try:
if app.debug:
print(f"Checking {ta.symbol} on {exchange_name}\n")
recommend = Decimal(ta.indicators.get("Recommend.All"))
volatility = Decimal(
volatility_calculator(
ta.indicators["BB.upper"],
ta.indicators["BB.lower"],
ta.indicators["KltChnl.upper"],
ta.indicators["KltChnl.lower"],
ta.indicators["high"],
ta.indicators["low"],
)
)
# volatility = Decimal(ta.indicators['Volatility.D']) * 100
adx = abs(Decimal(ta.indicators["ADX"]))
adx_posi_di = Decimal(ta.indicators["ADX+DI"])
adx_neg_di = Decimal(ta.indicators["ADX-DI"])
high = Decimal(ta.indicators["high"]).quantize(Decimal("1e-{}".format(8))) # noqa: F841
low = Decimal(ta.indicators["low"]).quantize(Decimal("1e-{}".format(8))) # noqa: F841
close = Decimal(ta.indicators["close"]).quantize(Decimal("1e-{}".format(8)))
# ATR normalised
atr = (Decimal(ta.indicators["ATR"]) / close * 100).quantize(Decimal("1e-{}".format(2))) if "ATR" in ta.indicators else 0
volume = Decimal(ta.indicators["volume"])
macd = Decimal(ta.indicators["MACD.macd"])
macd_signal = Decimal(ta.indicators["MACD.signal"])
bollinger_upper = Decimal(ta.indicators["BB.upper"])
bollinger_lower = Decimal(ta.indicators["BB.lower"])
kelt_upper = Decimal(ta.indicators["KltChnl.upper"]) # noqa: F841
kelt_lower = Decimal(ta.indicators["KltChnl.lower"]) # noqa: F841
rsi = Decimal(ta.indicators.get("RSI", 0))
stoch_d = Decimal(ta.indicators.get("Stoch.D", 0))
stoch_k = Decimal(ta.indicators.get("Stoch.K", 0))
williams_r = Decimal(ta.indicators.get("W.R", 0))
score = 0
analysis_summary = ta.summary # noqa: F841
rating = ta.summary["RECOMMENDATION"]
# print(close)
if rating == "SELL":
score -= 2.5
elif rating == "STRONG_SELL":
score -= 5
elif rating == "NEUTRAL":
score += 0
elif rating == "BUY":
score += 2.5
elif rating == "STRONG_BUY":
score += 5
if (adx >= app.adx_threshold) and (adx_posi_di > adx_neg_di) and (adx_posi_di > adx):
if app.debug:
print(f"ADX({adx}) >= {app.adx_threshold}")
score += 1
if volume >= app.volume_threshold:
if app.debug:
print(f"Volume({volume}) >= {app.volume_threshold}")
score += 1
if abs(macd) > abs(macd_signal):
if app.debug:
print(f"MACD({macd}) above signal({macd_signal})")
score += 1
if volatility >= app.volatility_threshold:
if app.debug:
print(f"Volatility({volatility} is above {app.volatility_threshold}")
score += 1
if volatility < app.minimum_volatility:
if app.debug:
print(f"{ta.symbol} ({volatility}) is below min volatility of {app.minimum_volatility}")
score -= 100
if volume < app.minimum_volume:
if app.debug:
print(f"{ta.symbol} ({volume}) is below min volume of {app.volume}")
score -= 100
if close < app.minimum_quote_price:
if app.debug:
print(f"{ta.symbol} ({close}) is below min quote self.price of {app.minimum_quote_price}")
score -= 100
if 30 >= rsi > 20:
score += 1
if 20 < stoch_d <= 30:
score += 1
if stoch_k > stoch_d:
score += 1
if williams_r <= -30:
score += 1
# print('symbol\tscore\tvolume\tvvolatilith\tadx\tadx_posi_di\tadx_neg_di\tmacd\tmacd_signal\tbollinger_upper\tbollinger_lower\trecommend')
# print(ta.symbol, score, volume, volatility, adx, adx_posi_di, adx_neg_di, macd, macd_signal, bollinger_upper, bollinger_lower, recommend, "\n")
# print(f"Symbol: {ta.symbol} Score: {score}/{self.selection_score} Rating: {rating}")
if (score >= app.selection_score) and (rating in app.tv_screener_ratings):
relavent_ta = {}
if app.exchange == CryptoExchange.COINBASE or app.exchange == CryptoExchange.COINBASEPRO or app.exchange == CryptoExchange.KUCOIN:
relavent_ta["market"] = re.sub(rf"(.*){quote_currency}", rf"\1-{quote_currency}", ta.symbol)
# relavent_ta['market'] = re.sub(quote_currency,f"-{quote_currency}", ta.symbol)
else:
relavent_ta["market"] = ta.symbol
# relavent_ta['market'] = ta.symbol
relavent_ta["recommend"] = recommend
relavent_ta["volume"] = volume
relavent_ta["volatility"] = volatility
relavent_ta["adx"] = adx
relavent_ta["adx+di"] = adx_posi_di
relavent_ta["adx-di"] = adx_neg_di
relavent_ta["macd"] = macd
relavent_ta["macd.signal"] = macd_signal
relavent_ta["bollinger_upper"] = bollinger_upper
relavent_ta["bollinger_lower"] = bollinger_lower
relavent_ta["rsi"] = rsi
relavent_ta["stoch_d"] = stoch_d
relavent_ta["stoch_k"] = stoch_k
relavent_ta["williamsr"] = williams_r
relavent_ta["rating"] = rating
relavent_ta["score"] = score
## Hack a percentage from the recommendation which would take into account all the indicators rather than just ATR
if atr > 0:
relavent_ta["atr72_pcnt"] = atr
# else:
# if recommend > 0:
# relavent_ta['atr72_pcnt'] = recommend * 100
else:
relavent_ta["atr72_pcnt"] = 0
try:
relavent_ta["buy_next"] = "SEND IT!" if re.search("BUY", rating) else False
except AttributeError:
relavent_ta["buy_next"] = False
formatted_ta.append(relavent_ta)
except Exception:
pass
if formatted_ta:
# Stick it in a DF for the bots
df_markets = pd.DataFrame(formatted_ta)
df_markets = df_markets[
[
"market",
"score",
"recommend",
"volume",
"volatility",
"adx",
"adx+di",
"adx-di",
"macd",
"macd.signal",
"bollinger_upper",
"bollinger_lower",
"rsi",
"stoch_d",
"stoch_k",
"williamsr",
"rating",
"buy_next",
"atr72_pcnt",
]
]
df_markets.columns = [
"market",
"score",
"recommend",
"volume",
"volatility",
"adx",
"adx+di",
"adx-di",
"macd",
"macd.signal",
"bollinger_upper",
"bollinger_lower",
"rsi",
"stoch_d",
"stoch_k",
"williamsr",
"rating",
"buy_next",
"atr72_pcnt",
]
df_markets["score"] = df_markets["score"].astype(float).round(0).astype(int)
df_markets["recommend"] = df_markets["recommend"].astype(float)
df_markets["volume"] = df_markets["volume"].astype(float).round(0).astype(int)
df_markets["volatility"] = df_markets["volatility"].astype(float)
df_markets["adx"] = df_markets["adx"].astype(float)
df_markets["adx+di"] = df_markets["adx+di"].astype(float)
df_markets["adx-di"] = df_markets["adx-di"].astype(float)
df_markets["macd"] = df_markets["macd"].astype(float)
df_markets["macd.signal"] = df_markets["macd.signal"].astype(float)
df_markets["bollinger_upper"] = df_markets["bollinger_upper"].astype(float)
df_markets["bollinger_lower"] = df_markets["bollinger_lower"].astype(float)
df_markets["rsi"] = df_markets["rsi"].astype(float)
df_markets["stoch_d"] = df_markets["stoch_d"].astype(float)
df_markets["stoch_k"] = df_markets["stoch_k"].astype(float)
df_markets["williamsr"] = df_markets["williamsr"].astype(float)
df_markets["atr72_pcnt"] = df_markets["atr72_pcnt"].astype(float)
df_markets.sort_values(by=["market"], ascending=True, inplace=True)
df_markets.set_index("market", inplace=True)
print(df_markets.sort_values(by=["buy_next", "atr72_pcnt"], ascending=[False, False], inplace=False))
TGBot(app, scanner=True).save_scanner_output(app.exchange.value, quote_currency, df_markets)
else:
blank_data = {}
blank_data["buy_next"] = False
blank_data["atr72_pcnt"] = 0
blank_data["volume"] = 0
formatted_ta.append(blank_data)
df_markets = pd.DataFrame(formatted_ta)
TGBot(app, scanner=True).save_scanner_output(app.exchange.value, quote_currency, df_markets)
print("No pairs found!")
return True
if __name__ == "__main__":
tvlib_ver = version("tradingview-ta")
if tvlib_ver >= "3.2.10":
print(f"Library is correct version - were good to go! (v {tvlib_ver})")
else:
print(f"Gotta update your tradingview-ta library please! (v {tvlib_ver})")
sys.exit()
start_time = time.time()
print("Processing, please wait...")
bootstrap_exchanges = load_configs()
for app in bootstrap_exchanges:
print(f"\n\n{app.exchange.name}")
for quote_currency in app.scanner_quote_currencies:
markets = get_markets(app, quote_currency)
try:
process_screener_data(app, markets, quote_currency, app.exchange.name)
except Exception as e:
print(e)
print("Scan run finished!")
print(f"Timestamp: {datetime.now().strftime('%Y-%m-%d %H:%M:%S')}")
print(f"Total elapsed time: {time.time() - start_time} sec")