Bringing data driven investments to the mainstream
Project description
fastquant :nerd_face:
Bringing backtesting to the mainstream
fastquant allows you to easily backtest investment strategies with as few as 3 lines of python code. Its goal is to promote data driven investments by making quantitative analysis in finance accessible to everyone.
Features
- Easily access historical stock data
- Backtest and optimize trading strategies with only 3 lines of code
* - Both Yahoo Finance and Philippine stock data data are accessible straight from fastquant
Installation
Python
pip install fastquant
R
R support is pending development and lagging in features, but you may install the R package by typing the following:
# To install the stable version:
install.packages("fastquant")
# To install the development version:
# install.packages("remotes")
remotes::install_github("enzoampil/fastquant", subdir = "R")
Get stock data
All symbols from Yahoo Finance and Philippine Stock Exchange (PSE) are accessible via get_stock_data.
Python
from fastquant import get_stock_data
df = get_stock_data("JFC", "2018-01-01", "2019-01-01")
print(df.head())
# dt close
# 2019-01-01 293.0
# 2019-01-02 292.0
# 2019-01-03 309.0
# 2019-01-06 323.0
# 2019-01-07 321.0
R
library(fastquant)
get_stock_data("JFC", "2018-01-01", "2018-02-01")
#> # A tibble: 22 x 7
#> symbol dt name currency close percent_change volume
#> <chr> <date> <chr> <chr> <dbl> <dbl> <dbl>
#> 1 JFC 2018-01-03 Jollibee PHP 255. NA 745780
#> 2 JFC 2018-01-04 Jollibee PHP 255 NA 617010
#> 3 JFC 2018-01-05 Jollibee PHP 255 NA 946040
#> 4 JFC 2018-01-08 Jollibee PHP 256 NA 840630
#> ...
Note: Python has Yahoo Finance and phisix support. R has phisix support and porting to symbols from the quantmod package. Symbols from Yahoo Finance will return closing prices in USD, while symbols from PSE will return closing prices in PHP.
R does NOT have support for cryptocurrency data pulling and backtesting yet as of v0.1.2
Get crypto data
The data is pulled from Binance, and all the available tickers are found here.
from fastquant import get_crypto_data
crypto = get_crypto_data("BTC/USDT", "2018-12-01", "2019-12-31")
crypto.head()
# open high low close volume
# dt
# 2018-12-01 4041.27 4299.99 3963.01 4190.02 44840.073481
# 2018-12-02 4190.98 4312.99 4103.04 4161.01 38912.154790
# 2018-12-03 4160.55 4179.00 3827.00 3884.01 49094.369163
# 2018-12-04 3884.76 4085.00 3781.00 3951.64 48489.551613
# 2018-12-05 3950.98 3970.00 3745.00 3769.84 44004.799448
Backtest trading strategies
Note: Support for backtesting in R is pending
Simple Moving Average Crossover (15 day MA vs 40 day MA)
Daily Jollibee prices from 2018-01-01 to 2019-01-01
from fastquant import backtest
backtest('smac', df, fast_period=15, slow_period=40)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 102272.90
Optimize trading strategies with automated grid search
Simple Moving Average Crossover (15 to 30 day MA vs 40 to 55 day MA)
Daily Jollibee prices from 2018-01-01 to 2019-01-01
from fastquant import backtest
res = backtest("smac", df, fast_period=range(15, 30, 3), slow_period=range(40, 55, 3), verbose=False)
# Optimal parameters: {'init_cash': 100000, 'buy_prop': 1, 'sell_prop': 1, 'execution_type': 'close', 'fast_period': 15, 'slow_period': 40}
# Optimal metrics: {'rtot': 0.022, 'ravg': 9.25e-05, 'rnorm': 0.024, 'rnorm100': 2.36, 'sharperatio': None, 'pnl': 2272.9, 'final_value': 102272.90}
print(res[['fast_period', 'slow_period', 'final_value']].head())
# fast_period slow_period final_value
#0 15 40 102272.90
#1 21 40 98847.00
#2 21 52 98796.09
#3 24 46 98008.79
#4 15 46 97452.92
Library of trading strategies
| Strategy | Alias | Parameters |
|---|---|---|
| Relative Strength Index (RSI) | rsi | rsi_period, rsi_upper, rsi_lower |
| Simple moving average crossover (SMAC) | smac | fast_period, slow_period |
| Exponential moving average crossover (EMAC) | emac | fast_period, slow_period |
| Moving Average Convergence Divergence (MACD) | macd | fast_perod, slow_upper, signal_period, sma_period, sma_dir_period |
| Bollinger Bands | bbands | period, devfactor |
| Buy and Hold | buynhold | N/A |
| Sentiment Strategy | sentiment | keyword , page_nums, senti |
Relative Strength Index (RSI) Strategy
backtest('rsi', df, rsi_period=14, rsi_upper=70, rsi_lower=30)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 132967.87
Simple moving average crossover (SMAC) Strategy
backtest('smac', df, fast_period=10, slow_period=30)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 95902.74
Exponential moving average crossover (EMAC) Strategy
backtest('emac', df, fast_period=10, slow_period=30)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 90976.00
Moving Average Convergence Divergence (MACD) Strategy
backtest('macd', df, fast_period=12, slow_period=26, signal_period=9, sma_period=30, dir_period=10)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 96229.58
Bollinger Bands Strategy
backtest('bbands', df, period=20, devfactor=2.0)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 97060.30
News Sentiment Strategy
Use Tesla (TSLA) stock from yahoo finance and news articles from Business Times
from fastquant import get_yahoo_data, get_bt_news_sentiment
data = get_yahoo_data("TSLA", "2020-01-01", "2020-07-04")
sentiments = get_bt_news_sentiment(keyword="tesla", page_nums=3)
backtest("sentiment", data, sentiments=sentiments, senti=0.2)
# Starting Portfolio Value: 100000.00
# Final Portfolio Value: 313198.37
Multi Strategy
Multiple registered strategies can be utilized together in an OR fashion, where buy or sell signals are applied when at least one of the strategies trigger them.
df = get_stock_data("JFC", "2018-01-01", "2019-01-01")
# Utilize single set of parameters
strats = {
"smac": {"fast_period": 35, "slow_period": 50},
"rsi": {"rsi_lower": 30, "rsi_upper": 70}
}
res = backtest("multi", df, strats=strats)
res.shape
# (1, 16)
# Utilize auto grid search
strats_opt = {
"smac": {"fast_period": 35, "slow_period": [40, 50]},
"rsi": {"rsi_lower": [15, 30], "rsi_upper": 70}
}
res_opt = backtest("multi", df, strats=strats_opt)
res_opt.shape
# (4, 16)
See more examples here.
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