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277 KiB
In [1]:
#!pip install numpy
#!pip install pandas
#!pip install mplfinance
#!pip install pandas-datareader
#!pip install requests_cache
#!pip install tqdm
#!pip install alphaVantage-api # Required for WatchlistIn [2]:
%pylab inline
import datetime as dt
import random as rnd
from sys import float_info as sflt
from tqdm import tqdm
import numpy as np
import pandas as pd
pd.set_option("max_rows", 100)
pd.set_option("max_columns", 20)
import mplfinance as mpf
import pandas_ta as ta
from tqdm.notebook import trange, tqdm
from watchlist import colors, Watchlist # Is this failing? If so, copy it locally. See above.
print(f"Numpy v{np.__version__}")
print(f"Pandas v{pd.__version__}")
print(f"mplfinance v{mpf.__version__}")
print(f"\nPandas TA v{ta.version}\nTo install the Latest Version:\n$ pip install -U git+https://github.com/twopirllc/pandas-ta\n")
%matplotlib inlinePopulating the interactive namespace from numpy and matplotlib Numpy v1.20.2 Pandas v1.2.4 mplfinance v0.12.7a12 Pandas TA v0.2.89b0 To install the Latest Version: $ pip install -U git+https://github.com/twopirllc/pandas-ta
In [3]:
def recent_bars(df, tf: str = "1y"):
# All Data: 0, Last Four Years: 0.25, Last Two Years: 0.5, This Year: 1, Last Half Year: 2, Last Quarter: 4
yearly_divisor = {"all": 0, "10y": 0.1, "5y": 0.2, "4y": 0.25, "3y": 1./3, "2y": 0.5, "1y": 1, "6mo": 2, "3mo": 4}
yd = yearly_divisor[tf] if tf in yearly_divisor.keys() else 0
return int(ta.RATE["TRADING_DAYS_PER_YEAR"] / yd) if yd > 0 else df.shape[0]In [4]:
tf = "D"
tickers = ["SPY", "QQQ", "AAPL", "TSLA", "BTC-USD"]
watch = Watchlist(tickers, tf=tf, ds_name="yahoo", timed=True)
# watch.strategy = ta.CommonStrategy # If you have a Custom Strategy, you can use it here.
watch.load(tickers, analyze=True, verbose=False)[!] Loading All: SPY, QQQ, AAPL, TSLA, BTC-USD [+] Downloading[yahoo]: SPY[D] [+] Saving: /Users/kj/av_data/SPY_D.csv [i] Runtime: 583.3476 ms (0.5833 s) [+] Downloading[yahoo]: QQQ[D] [+] Saving: /Users/kj/av_data/QQQ_D.csv [i] Runtime: 493.0341 ms (0.4930 s) [+] Downloading[yahoo]: AAPL[D] [+] Saving: /Users/kj/av_data/AAPL_D.csv [i] Runtime: 495.5222 ms (0.4955 s) [+] Downloading[yahoo]: TSLA[D] [+] Saving: /Users/kj/av_data/TSLA_D.csv [i] Runtime: 468.0090 ms (0.4680 s) [+] Downloading[yahoo]: BTC-USD[D] [+] Saving: /Users/kj/av_data/BTC-USD_D.csv [i] Runtime: 481.1203 ms (0.4811 s)
In [5]:
ticker = tickers[0] # change tickers by changing the index
print(f"{ticker} {watch.data[ticker].shape}\nColumns: {', '.join(list(watch.data[ticker].columns))}")SPY (7149, 12) Columns: open, high, low, close, volume, dividends, split, SMA_10, SMA_20, SMA_50, SMA_200, VOL_SMA_20
In [6]:
duration = "1y"
asset = watch.data[ticker]
recent = recent_bars(asset, duration)
asset.columns = asset.columns.str.lower()
asset.drop(columns=["dividends", "split"], errors="ignore", inplace=True)
asset = asset.copy().tail(recent)
assetOut [6]:
| open | high | low | close | volume | sma_10 | sma_20 | sma_50 | sma_200 | vol_sma_20 | |
|---|---|---|---|---|---|---|---|---|---|---|
| date | ||||||||||
| 2020-06-19 | 310.572014 | 310.779600 | 303.019496 | 305.105347 | 135549600 | 307.199380 | 304.275848 | 290.230250 | 294.865111 | 106968315.0 |
| 2020-06-22 | 304.462768 | 307.487721 | 303.236978 | 307.062653 | 74649400 | 306.095767 | 305.090134 | 290.895322 | 294.957188 | 107502875.0 |
| 2020-06-23 | 309.899768 | 310.898211 | 308.041294 | 308.476257 | 68471200 | 305.370712 | 305.795975 | 291.638665 | 295.055219 | 106478865.0 |
| 2020-06-24 | 306.291601 | 306.953942 | 298.640252 | 300.607452 | 132813500 | 304.034952 | 305.889386 | 292.064598 | 295.113179 | 107878670.0 |
| 2020-06-25 | 299.994539 | 304.116796 | 297.829618 | 303.830109 | 89468000 | 304.831430 | 306.171487 | 292.673680 | 295.187592 | 107831810.0 |
| ... | ... | ... | ... | ... | ... | ... | ... | ... | ... | ... |
| 2021-06-14 | 424.429993 | 425.369995 | 423.100006 | 425.260010 | 42358500 | 422.066998 | 419.250999 | 416.214198 | 376.217046 | 57830915.0 |
| 2021-06-15 | 425.420013 | 425.459991 | 423.540009 | 424.480011 | 51508500 | 422.547998 | 419.699001 | 416.576599 | 376.617742 | 57149880.0 |
| 2021-06-16 | 424.630005 | 424.869995 | 419.920013 | 422.109985 | 80386100 | 422.725998 | 420.207500 | 416.896398 | 376.995467 | 58178675.0 |
| 2021-06-17 | 421.670013 | 423.019989 | 419.320007 | 421.970001 | 90949700 | 423.045999 | 420.763000 | 417.203998 | 377.378769 | 57402805.0 |
| 2021-06-18 | 417.089996 | 417.829987 | 414.700012 | 414.920013 | 118573500 | 422.278000 | 420.745001 | 417.331999 | 377.710559 | 59430370.0 |
252 rows × 10 columns
In [7]:
# Example Long Trends
# long = ta.sma(asset.close, 50) > ta.sma(asset.close, 200) # SMA(50) > SMA(200) "Golden/Death Cross"
# long = ta.sma(asset.close, 10) > ta.sma(asset.close, 20) # SMA(10) > SMA(20)
long = ta.ema(asset.close, 8) > ta.ema(asset.close, 21) # EMA(8) > EMA(21)
# long = ta.increasing(ta.ema(asset.close, 50))
# long = ta.macd(asset.close).iloc[:,1] > 0 # MACD Histogram is positive
# long = ta.amat(asset.close, 50, 200).AMATe_LR_2 # Long Run of AMAT(50, 200) with lookback of 2 bars
# long &= ta.increasing(ta.ema(asset.close, 50), 2) # Uncomment for further long restrictions, in this case when EMA(50) is increasing/sloping upwards
# long = 1 - long # uncomment to create a short signal of the trend
asset.ta.ema(length=8, sma=False, append=True)
asset.ta.ema(length=21, sma=False, append=True)
asset.ta.ema(length=50, sma=False, append=True)
asset.ta.percent_return(append=True)
print("TA Columns Added:")
asset[asset.columns[5:]].tail()Out [7]:
TA Columns Added:
| sma_10 | sma_20 | sma_50 | sma_200 | vol_sma_20 | EMA_8 | EMA_21 | EMA_50 | PCTRET_1 | |
|---|---|---|---|---|---|---|---|---|---|
| date | |||||||||
| 2021-06-14 | 422.066998 | 419.250999 | 416.214198 | 376.217046 | 57830915.0 | 422.800724 | 419.948691 | 413.793995 | 0.002239 |
| 2021-06-15 | 422.547998 | 419.699001 | 416.576599 | 376.617742 | 57149880.0 | 423.173899 | 420.360629 | 414.213054 | -0.001834 |
| 2021-06-16 | 422.725998 | 420.207500 | 416.896398 | 376.995467 | 58178675.0 | 422.937474 | 420.519661 | 414.522738 | -0.005583 |
| 2021-06-17 | 423.045999 | 420.763000 | 417.203998 | 377.378769 | 57402805.0 | 422.722480 | 420.651510 | 414.814787 | -0.000332 |
| 2021-06-18 | 422.278000 | 420.745001 | 417.331999 | 377.710559 | 59430370.0 | 420.988598 | 420.130465 | 414.818914 | -0.016707 |
In [8]:
trendy = asset.ta.tsignals(long, asbool=False, append=True)
trendy.tail()Out [8]:
| TS_Trends | TS_Trades | TS_Entries | TS_Exits | |
|---|---|---|---|---|
| date | ||||
| 2021-06-14 | 1 | 0 | 0 | 0 |
| 2021-06-15 | 1 | 0 | 0 | 0 |
| 2021-06-16 | 1 | 0 | 0 | 0 |
| 2021-06-17 | 1 | 0 | 0 | 0 |
| 2021-06-18 | 1 | 0 | 0 | 0 |
In [9]:
entries = trendy.TS_Entries * asset.close
entries = entries[~np.isclose(entries, 0)]
entries.dropna(inplace=True)
entries.name = "Entry"
exits = trendy.TS_Exits * asset.close
exits = exits[~np.isclose(exits, 0)]
exits.dropna(inplace=True)
exits.name = "Exit"
total_trades = trendy.TS_Trades.abs().sum()
rt_trades = int(trendy.TS_Trades.abs().sum() // 2)
all_trades = trendy.TS_Trades.copy().fillna(0)
all_trades = all_trades[all_trades != 0]
trades = pd.DataFrame({
"Signal": all_trades,
entries.name: entries,
exits.name: exits
})
# Show some stats if there is an active trade (when there is an odd number of round trip trades)
if total_trades % 2 != 0:
unrealized_pnl = asset.close.iloc[-1] - entries.iloc[-1]
unrealized_pnl_pct_change = 100 * ((asset.close.iloc[-1] / entries.iloc[-1]) - 1)
print("Current Trade:")
print(f"Price Entry | Last:\t{entries.iloc[-1]:.4f} | {asset.close.iloc[-1]:.4f}")
print(f"Unrealized PnL | %:\t{unrealized_pnl:.4f} | {unrealized_pnl_pct_change:.4f}%")
print(f"\nTrades Total | Round Trip:\t{total_trades} | {rt_trades}")
print(f"Trade Coverage: {100 * asset.TS_Trends.sum() / asset.shape[0]:.2f}%")
tradesOut [9]:
Current Trade: Price Entry | Last: 415.2800 | 414.9200 Unrealized PnL | %: -0.3600 | -0.0867% Trades Total | Round Trip: 9 | 4 Trade Coverage: 80.95%
| Signal | Entry | Exit | |
|---|---|---|---|
| date | |||
| 2020-07-20 | 1 | 320.605774 | NaN |
| 2020-09-11 | -1 | NaN | 330.234192 |
| 2020-10-05 | 1 | 337.213409 | NaN |
| 2020-10-28 | -1 | NaN | 324.211609 |
| 2020-11-05 | 1 | 347.614868 | NaN |
| 2021-03-03 | -1 | NaN | 380.174835 |
| 2021-03-10 | 1 | 388.308197 | NaN |
| 2021-05-19 | -1 | NaN | 410.859985 |
| 2021-05-20 | 1 | 415.279999 | NaN |
In [ ]:
In [10]:
extime = ta.get_time(to_string=True)
first_date, last_date = asset.index[0], asset.index[-1]
f_date = f"{first_date.day_name()} {first_date.month}-{first_date.day}-{first_date.year}"
l_date = f"{last_date.day_name()} {last_date.month}-{last_date.day}-{last_date.year}"
last_ohlcv = f"Last OHLCV: ({asset.iloc[-1].open:.4f}, {asset.iloc[-1].high:.4f}, {asset.iloc[-1].low:.4f}, {asset.iloc[-1].close:.4f}, {int(asset.iloc[-1].volume)})"
ptitle = f"\n{ticker} [{tf} for {duration}({recent} bars)] from {f_date} to {l_date}\n{last_ohlcv}\n{extime}"In [11]:
# chart = asset["close"] #asset[["close", "SMA_10", "SMA_20", "SMA_50", "SMA_200"]]
# chart = asset[["close", "SMA_10", "SMA_20"]]
chart = asset[["close", "EMA_8", "EMA_21", "EMA_50"]]
chart.plot(figsize=(16, 10), color=colors("BkGrOrRd"), title=ptitle, grid=True)Out [11]:
<AxesSubplot:title={'center':'\nSPY [D for 1y(252 bars)] from Friday 6-19-2020 to Friday 6-18-2021\nLast OHLCV: (417.0900, 417.8300, 414.7000, 414.9200, 118573500)\nSaturday June 19, 2021, NYSE: 8:06:33, Local: 12:06:33 PDT, Day 170/365 (47.00%)'}, xlabel='date'>In [12]:
long_trend = trendy.TS_Trends
short_trend = 1 - long_trend
long_trend.plot(figsize=(16, 0.85), kind="area", stacked=True, color=colors()[0], alpha=0.25) # Green Area
short_trend.plot(figsize=(16, 0.85), kind="area", stacked=True, color=colors()[1], alpha=0.25) # Red AreaOut [12]:
<AxesSubplot:xlabel='date'>
In [13]:
trendy.TS_Trades.plot(figsize=(16, 1.5), color=colors("BkBl")[0], grid=True)Out [13]:
<AxesSubplot:xlabel='date'>
In [14]:
asset["ACTRET_1"] = trendy.TS_Trends.shift(1) * asset.PCTRET_1
asset[["PCTRET_1", "ACTRET_1"]].plot(figsize=(16, 3), color=colors("GyOr"), alpha=1, grid=True).axhline(0, color="black")Out [14]:
<matplotlib.lines.Line2D at 0x12d219550>
In [15]:
((asset[["PCTRET_1", "ACTRET_1"]] + 1).cumprod() - 1).plot(figsize=(16, 3), kind="area", stacked=False, color=colors("GyOr"), title="B&H vs. Cum. Active Returns", alpha=.4, grid=True).axhline(0, color="black")Out [15]:
<matplotlib.lines.Line2D at 0x12d58aeb0>