PriceGenerator is the platform for generating prices similar to real stock prices, but you can control the statistics of their distribution. Generates chain of candlesticks with predefined statistical parameters, return Pandas DataFrame or saving as .CSV-file with OHLCV-candlestick in every string. Use PriceGenerator to generate synthetic data to test your trading strategy.
- 🇷🇺 Документация и примеры на русском (see documentation in russian here)
- ⚙️ PriceGenerator API-documentation
- 📚 Release notes
- 🎁 Support the project with a donation to our yoomoney-wallet: 410015019068268
Contents
Sometimes, for testing automated trading algorithms, it is necessary to obtain a dataset with exchange prices. Usually traders and analysts use a price model like OHLCV-candlesticks (open, high, low, close, volume), the so-called Japanese candlesticks. One line of such data is a set of prices for constructing one Japanese candlestick: the opening date, the opening price, the highest price, the lowest price, the closing price at a given time interval and the value of the trading volume.
PriceGenerator is a simple library that can be used as a python module or run from the command line and generate random price data that is as close as possible to "real prices", but with predefined statistical characteristics. You can set the price interval, timeframe, maximum and minimum values for the price range, maximum size of candles, probability of direction for the next candle, probability of price outliers, the number of generated candles, and some other parameters.
For further statistical analysis of prices in python, the Pandas library is very often used. Prices stored as a Pandas DataFrame might look something like this:
datetime open high low close volume
95 2021-02-03 11:00:00+03:00 76.82 78.43 76.21 78.13 33652
96 2021-02-03 12:00:00+03:00 78.13 78.37 78.12 78.36 9347
97 2021-02-03 13:00:00+03:00 78.36 78.40 78.05 78.07 27250
98 2021-02-03 14:00:00+03:00 78.07 78.61 75.72 76.42 22979
99 2021-02-03 15:00:00+03:00 76.42 77.37 76.25 77.16 30845
The PriceGenerator library allows you to:
- save generated prices in .csv-format (example: ./media/test.csv);
- save the generated prices to a Pandas DataFrame variable for further use in automation scripts;
- automatically calculate some statistical and probabilistic characteristics of the generated prices and save them in Markdown format (example: ./media/index.html.md);
- load the prices of real instruments according to the OHLCV-candlesticks model from the .csv file and carry out their statistical analysis;
- draw a chart of generated or loaded real prices and save it in html-format (example: ./media/index.html);
-
generated prices, a chart and some data on price behavior can be saved as a regular png-image (example: ./media/index.html.png):
In additionally, you can enable on the chart some popular indicators (moving averages, Bollinger bands, ZigZag and others).
-
A set of candles of a given length horizon is generated according to the following (simplified) algorithm:
- The open price of the first candlestick is determined or randomly generated in the specified range [
minClose,maxClose]. - Randomly, depending on the value of the probability of the next candlestick
upCandlesProb(50% by default), the direction of the candlestick is determined. Ifrandom () ≤ upCandlesProb, then an up candle (withopen ≤ close) will be generated, otherwise a down candle (withopen > close) will be generated. - After determining the direction, the
closevalue of the candlestick is randomly generated and for the candle's "body" must be|open - close| ≤ maxCandleBody. - Randomly, depending on the probability of price outliers of the
maxOutliercandlestick (default is 3%), the candlestick'shighandlowvalues are generated. Ifrandom () ≤ maxOutlier, then a candlestick with price outliers will be generated: the "tails" of the candlestick may turn out to be large enough to simulate real price "outliers" in the market. If the candlestick is without anomalies, then "tails" will be generated in the range of no more than half of the candlestick body. - The close value of the generated candle becomes the open price of the next candle.
- Then steps 2-5 are repeated until the entire price chain of the specified length
horizonis generated.
All parameters can be set after initializing an instance of the PriceGenerator() class. The result of price generation is saved in the self.prices field in the Pandas DataFrame format and can be used for further analysis.
The easiest way is to install via PyPI:
pip install pricegenerator
After that, you can check the installation with the command:
pip show pricegenerator
Get help:
pricegenerator --help
Output:
usage:
/as module/ python PriceGenerator.py [some options] [one command]
/as CLI tool/ pricegenerator [some options] [one command]
PriceGenerator is the platform for generating prices similar to real stock
prices, but you can control the statistics of their distribution. Generates
chain of candlesticks with predefined statistical parameters, return Pandas
DataFrame or saving as .CSV-file with OHLCV-candlestick in every string. Use
PriceGenerator to generate synthetic data to test your trading strategy. See
examples: https://tim55667757.github.io/PriceGenerator
optional arguments:
-h, --help show this help message and exit
--ticker TICKER Option: some fake ticker name, 'TEST' by default.
--precision PRECISION
Option: precision is count of digits after comma, 2 by default.
--timeframe TIMEFRAME
Option: time delta between two neighbour candles in
minutes, 60 (1 hour) by default.
--start START Option: start time of 1st candle as string with format
'year-month-day hour:min', e.g. '2021-01-02 12:00'.
--horizon HORIZON Option: candlesticks count. Default: 30.
--split-trend SPLIT_TREND
Option: set different trends, e.g. `--split-trend=/\-`
means that generated candles has uptrend at first
part, next downtrend and then no trend. Used only
together with `--split-count` key. Also, you can use
words: `up`, `down`, `no` or chars: `u`, `d`, `n` with
the hyphen symbol as separator, e.g. `--split-
trend=up-down-no-up`, `--split-trend=u-d-n-u` etc. Default:
empty string, mean that will be used random trend directions.
--split-count SPLIT_COUNT [SPLIT_COUNT ...]
Option: set candles count in different trends, e.g.
`--split-count 5 10 15` means that generated candles
has 3 trends with 5, 10 and 15 candles in chain, with
sum must be equal to `--horizon` value. Used only
together with `--split-trend` key. Default: [], empty
list mean that will be used random candles count in trends.
--max-close MAX_CLOSE
Option: maximum of all close prices.
--min-close MIN_CLOSE
Option: minimum of all close prices.
--init-close INIT_CLOSE
Option: generator started 1st open price equal to this
last close price.
--max-outlier MAX_OUTLIER
Option: maximum of outlier size of candle tails, by
default used (max_close - min_close) / 10.
--max-body MAX_BODY Option: maximum of candle body sizes:
abs(open - close), by default used max_outlier * 0.9.
--max-volume MAX_VOLUME
Option: maximum of trade volumes.
--up-candles-prob UP_CANDLES_PROB
Option: float number in [0; 1] is a probability that
next candle is up, 0.5 by default.
--outliers-prob OUTLIERS_PROB
Option: float number in [0; 1] is an outliers
probability (price tails), 0.03 by default.
--trend-deviation TREND_DEVIATION
Option: relative deviation for trend detection, 0.005
mean ±0.005 by default. No trend if
(1st_close - last_close) / 1st_close <= trend_deviation.
--zigzag ZIGZAG Option: relative deviation to detection points of
Zig-Zag indicator, 0.03 by default.
--sep SEP Option: separator in CSV-file, if None then auto-
detecting enable.
--dark Option: if key present, then will be used dark theme
for the `--render-bokeh` key. `False` by default for
light theme.
--debug-level DEBUG_LEVEL
Option: showing STDOUT messages of minimal debug level,
e.g., 10 = DEBUG, 20 = INFO, 30 = WARNING, 40 = ERROR,
50 = CRITICAL.
--load-from LOAD_FROM
Command: load .cvs-file to Pandas DataFrame. You can
draw chart in additional with `--render-bokeh` or
`--render-google` key.
--generate Command: generates chain of candlesticks with
predefined statistical parameters and save stock
history as Pandas DataFrame or .CSV-file if `--save-
to` key is defined. You can draw chart in additional
with `--render-bokeh` or `--render-google` keys.
--save-to SAVE_TO Command: save generated or loaded dataframe to .CSV-
file. You can draw chart in additional with `--render-bokeh`
or `--render-google` keys.
--render-bokeh RENDER_BOKEH
Command: show chain of candlesticks as interactive
Bokeh chart. Used only together with `--load-from` or `--generate` keys.
--render-google RENDER_GOOGLE
Command: show chain of candlesticks as non-interactive
Google Candlestick chart. Used only together with
`--load-from` or `--generate` keys.
Let's try to generate random price data (key --generate) with all default parameters and save them to the file test.csv (key --save-to csv_file_name). The command might look like this:
pricegenerator --debug-level 10 --generate --save-to test.csv
You should get the output of logs similar to the following:
PriceGenerator.py L:605 DEBUG [2021-01-31 17:52:49,954] =--==--==--==--==--==--==--==--==--==--==--==--==--==--==--==--==--==--==--==--=
PriceGenerator.py L:606 DEBUG [2021-01-31 17:52:49,954] PriceGenerator started: 2021-01-31 17:52:49
PriceGenerator.py L:367 INFO [2021-01-31 17:52:49,954] Generating prices...
PriceGenerator.py L:368 DEBUG [2021-01-31 17:52:49,954] - Ticker name: TEST
PriceGenerator.py L:369 DEBUG [2021-01-31 17:52:49,954] - Interval or timeframe (time delta between two neighbour candles): 1:00:00
PriceGenerator.py L:370 DEBUG [2021-01-31 17:52:49,954] - Horizon length (candlesticks count): 100
PriceGenerator.py L:371 DEBUG [2021-01-31 17:52:49,954] - Start time: 2021-01-31--17-00-00
PriceGenerator.py L:372 DEBUG [2021-01-31 17:52:49,955] |-> end time: 2021-02-04--21-00-00
PriceGenerator.py L:373 DEBUG [2021-01-31 17:52:49,955] - Maximum of close prices: 79.21
PriceGenerator.py L:374 DEBUG [2021-01-31 17:52:49,955] - Minimum of close prices: 67.69
PriceGenerator.py L:375 DEBUG [2021-01-31 17:52:49,955] - Maximum of candle body sizes: 3.08
PriceGenerator.py L:376 DEBUG [2021-01-31 17:52:49,955] - Maximum of candle tails outlier sizes: 3.42
PriceGenerator.py L:377 DEBUG [2021-01-31 17:52:49,955] - Init close (1st open price in chain): 71.49
PriceGenerator.py L:378 DEBUG [2021-01-31 17:52:49,955] - Maximum of volume of one candle: 42340
PriceGenerator.py L:379 DEBUG [2021-01-31 17:52:49,955] - Probability that next candle is up: 50.0%
PriceGenerator.py L:380 DEBUG [2021-01-31 17:52:49,955] - Statistical outliers probability: 3.0%
PriceGenerator.py L:397 INFO [2021-01-31 17:52:49,958] Showing last 5 rows as Pandas DataFrame:
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] datetime open high low close volume
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] 95 2021-02-03 11:00:00+03:00 76.82 78.43 76.21 78.13 33652
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] 96 2021-02-03 12:00:00+03:00 78.13 78.37 78.12 78.36 9347
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] 97 2021-02-03 13:00:00+03:00 78.36 78.40 78.05 78.07 27250
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] 98 2021-02-03 14:00:00+03:00 78.07 78.61 75.72 76.42 22979
PriceGenerator.py L:399 INFO [2021-01-31 17:52:49,963] 99 2021-02-03 15:00:00+03:00 76.42 77.37 76.25 77.16 30845
PriceGenerator.py L:173 INFO [2021-01-31 17:52:49,963] Saving [100] rows of Pandas DataFrame with columns: ['date', 'time', 'open', 'high', 'low', 'close', 'volume']...
PriceGenerator.py L:174 DEBUG [2021-01-31 17:52:49,963] Delimeter: ,
PriceGenerator.py L:181 INFO [2021-01-31 17:52:49,976] Pandas DataFrame saved to .csv-file [./test.csv]
PriceGenerator.py L:645 DEBUG [2021-01-31 17:52:49,976] All PriceGenerator operations are finished success (summary code is 0).
PriceGenerator.py L:650 DEBUG [2021-01-31 17:52:49,976] PriceGenerator work duration: 0:00:00.022938
PriceGenerator.py L:651 DEBUG [2021-01-31 17:52:49,976] PriceGenerator work finished: 2021-01-31 17:52:49
Also next to it will be saved the file test.csv, an example of which can be found here: ./media/test.csv.
In the next example, let's not only generate a file with price data, but also get some statistical parameters of prices, as well as draw prices on the chart (the key --render-bokeh html_file_name). The command might be something like this:
pricegenerator --debug-level 20 --generate --save-to test.csv --render-bokeh index.html
If successful, you will receive a log output similar to this:
PriceGenerator.py L:367 INFO [2021-01-31 18:00:31,711] Generating prices...
PriceGenerator.py L:397 INFO [2021-01-31 18:00:31,714] Showing last 5 rows of Pandas generated dataframe object:
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] datetime open high low close volume
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] 95 2021-02-03 11:00:00+03:00 76.82 78.43 76.21 78.13 33652
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] 96 2021-02-03 12:00:00+03:00 78.13 78.37 78.12 78.36 9347
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] 97 2021-02-03 13:00:00+03:00 78.36 78.40 78.05 78.07 27250
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] 98 2021-02-03 14:00:00+03:00 78.07 78.61 75.72 76.42 22979
PriceGenerator.py L:399 INFO [2021-01-31 18:00:31,719] 99 2021-02-03 15:00:00+03:00 76.42 77.37 76.25 77.16 30845
PriceGenerator.py L:173 INFO [2021-01-31 18:00:31,719] Saving [100] rows of Pandas DataFrame with columns: ['date', 'time', 'open', 'high', 'low', 'close', 'volume']...
PriceGenerator.py L:181 INFO [2021-01-31 18:00:31,731] Pandas DataFrame saved to .csv-file [./test.csv]
PriceGenerator.py L:410 INFO [2021-01-31 18:00:31,731] Rendering Pandas DataFrame as Bokeh chart...
PriceGenerator.py L:300 INFO [2021-01-31 18:00:31,740] Some statistical info:
## Summary
| Parameter | Value
|----------------------------------------------|---------------
| Candles count: | 100
| Timeframe: | 1:00:00
| Precision (signs after comma): | 2
| Close first: | 71.49
| Close last: | 77.16
| Close max: | 79.21
| Close min: | 67.69
| Diapason (between max and min close prices): | 11.52
| Trend (between close first and close last: | UP trend
| - Trend deviation parameter: | ±0.5%
## Some statistics
| Statistic | Value
|----------------------------------------------|---------------
| Up candles count: | 53 (53.0%)
| Down candles count: | 47 (47.0%)
| Max of up candles chain: | 7
| Max of down candles chain: | 5
| Max delta (between High and Low prices): | 3.08
| Min delta (between High and Low prices): | 0.0
| Delta's std. dev.: | 0.86
| - 99 percentile: | ≤ 2.99
| - 95 percentile: | ≤ 2.89
| - 80 percentile: | ≤ 2.2
| - 50 percentile: | ≤ 1.15
| Cumulative sum of volumes: | 1777314
PriceGenerator.py L:563 INFO [2021-01-31 18:00:32,290] Pandas DataFrame rendered as html-file [./index.html]
After running the command above, you will get three files:
-
test.csv— .csv-file containing a random set of prices similar to the real ones (example: ./media/test.csv); -
index.html— price chart and statistics drawn using the Bokeh library and saved to an .html-file (example: ./media/index.html); -
index.html.md— statistics as simple text, saved in Markdown format (example: ./media/index.html.md).
If you need to get statistics on already generated or real prices, you can simply load the file (key --load-from csv_file_name) and draw the chart (key --render-bokeh html_file_name):
pricegenerator --debug-level 20 --load-from test.csv --render-bokeh index.html
As a result of executing the command, you will get a similar graph in index.html and statistics in index.html.md.
In the examples above, you can use a simple, non-interactive chart. For this, the Google Candlestick chart library and the simplest jinja2 template are used. Let's load the prices again (key --load-from csv_file_name), but render the chart through the Google library (key --render-google html_file_name):
pricegenerator --debug-level 20 --load-from test.csv --render-google index_google.html
As a result of executing the command, you will receive a chart ./media/index_google.html) and statistics in the Markdown file. It will look something like this:
Let's change some default parameters that affect price generation and draw our own unique chart:
pricegenerator --debug-level 10 --ticker "MY_PRICES" --precision 2 --timeframe 240 --start "2020-01-01 00:00" --horizon 150 --max-close 18000 --min-close 14000 --init-close 15000 --max-outlier 1000 --max-body 500 --max-volume 400000 --up-candles-prob 0.48 --outliers-prob 0.05 --trend-deviation 0.03 --zigzag 0.03 --generate --render-bokeh index_custom.html
Parameters mean:
-
--ticker "MY_PRICES"— set chart title for price as MY_PRICES; -
--precision 2— set precision, that means count of digits after comma; -
--timeframe 240— one candlestick should reflect the price change in 4 hours (240 minutes); -
--start "2020-01-01 00:00"— date and time of the first candle is 2020-01-01 00:00; -
--horizon 150— generate 150 candles; -
--max-close 18000— the maximum closing price of any candle should be no more than 18000; -
--min-close 14000— the minimum closing price of any candle should be no more than 14000; -
--init-close 15000— the closing price of the "previous" and, accordingly, the opening price of the first generated candle should be equal to 15000; -
--max-outlier 1000— if the candle has "outliers" and "tails" then they size should be no more than 1000; -
--max-body 500— the maximum size of the "body" of the candle should be no more than 500; -
--max-volume 400000— the maximum trading volume for each candle should be no more than 400000; -
--up-candles-prob 0.48— set the probability that the next candlestick will be up, equal to 0.48 (48%); -
--outliers-prob 0.05— set the probability of outliers to 0.05 (5%); -
--trend-deviation 0.03— to determine the trend, the relative change in the closing prices of the first and last candles should differ by ± 0.03 (3%); -
--zigzag 0.03— relative difference between two points of ZigZag indicator; -
--generate— begin to price generate; -
--render-bokeh index_custom.html— save the generated prices in the index_custom.html file and open it in the default browser.
Chart style is light by default. If you are using --render-bokeh key, also you can add to the command above --dark key. In this case chart will be shown with dark-mode style:
As a result of executing the command, you will get your own unique chart of random prices with redefined basic generator parameters. We got next artifacts:
- prices chart ./media/index_custom.html.png;
- price chart and statistics ./media/index_custom.html;
- statistics in Markdown file ./media/index_custom.html.md.
This feature is in the newest dev-version than pricegenerator>=1.2.dev53 or than pricegenerator>=1.2.56.
It was implemented two additional keys: --split-trend and --split-count. These keys affect the appearance of the trend and the number of candles in each trend.
The --split-trend key shows trends movements, e.g. --split-trend=/\- means that generated candles has up trend at first part, next down trend and then no trend.
Since PriceGenerator v1.3.* ability to specify directions with words or chars was added. Words may be next: up, down, no or chars: u, d, n for the --split-trend key, in addition to the existing ability to set up of the trend with symbols /\-. To separate words or chars use the hyphen symbol, e.g. --split-trend=up-down-no-up, --split-trend=u-d-n-u etc.
The --split-count key set count of candles of difference periods, e.g. --split-count 5 10 15 means that generated candles has 3 trends with 5, 10 and 15 candles in chain.
To understand how it works, try one of these examples:
pricegenerator --horizon 300 --render-bokeh index.html --split-trend="/\-" --split-count 50 100 150 --generate
pricegenerator --horizon 300 --render-bokeh index.html --split-trend="\/\" --split-count 50 100 150 --generate
pricegenerator --horizon 300 --render-bokeh index.html --split-trend="\-/" --split-count 50 100 150 --generate
pricegenerator --horizon 100 --render-bokeh index.html --split-trend="/\/\" --split-count 20 30 30 20 --generate
For the last example, you can get a picture like this:
Let's look at an example of generating prices with some predefined parameters, save them to Pandas DataFrame and draw a chart. Just save and run the following script:
from pricegenerator.PriceGenerator import PriceGenerator, uLogger
from datetime import datetime, timedelta
# Disable logging:
uLogger.setLevel(0)
# --- Initialize an instance of the generator class and set some parameters:
priceModel = PriceGenerator()
priceModel.precision = 1 # how many decimal places should be in generated prices
priceModel.ticker = "MY_GENERATED_PRICES" # random name (ticker) of generated prices
priceModel.timeframe = timedelta(days=1) # time interval between generated candles, 1 hour by default
priceModel.timeStart = datetime.today() # from what date to start generating candles, by default from the current time
priceModel.horizon = 60 # how many candles to generate, there must be at least 5, by default 100
priceModel.maxClose = 16000 # the highest candlestick closing price in the entire price chain
# by default, it is generated randomly in the interval (70, 90), it is similar to the current prices of USDRUB
priceModel.minClose = 13800 # the lowest candlestick closing price in the entire price chain
# by default, it is generated randomly in the interval (60, 70), it is similar to the current prices of USDRUB
priceModel.initClose = 14400 # if a price is specified, it will be the closing price like the "previous" candlestick, and at the same time the opening price of the first candlestick in the generated chain
# None by default means that the opening price of the first candle will be generated randomly in the interval (minClose, maxClose)
priceModel.maxOutlier = 500 # The maximum value for the price outlier of the "tails" of the candles.
# None by default means that outliers will be no more than (maxClose - minClose) / 10
priceModel.maxCandleBody = 300 # maximum value for the size of candlestick bodies abs(open - close)
# None by default means that the candlestick body can be no more than 90% of the outlier size: maxOutlier * 90%
priceModel.maxVolume = 400000 # the maximum trading volume for one candle, by default it is taken randomly from the interval (0, 100000)
priceModel.upCandlesProb = 0.46 # probability that the next generated candlestick will be up, 50% by default
priceModel.outliersProb = 0.11 # the probability that the next generated candlestick will have a price "outlier", 3% by default
priceModel.trendDeviation = 0.005 # price fluctuations between close prices of the first and last candlesticks defining the trend. “NO trend” if the difference is less than this value, by default ± 0.005 or ± 0.5%
priceModel.zigzag = 0.05 # relative difference between two points of ZigZag indicator, default is 0.03
priceModel._chartTitle = "" # chart title, usually generated automatically
# Prices have not yet been generated and not loaded, let's check this:
print("Current prices:\n{}".format(priceModel.prices))
# We launch the price generator, and they will be saved in the
# priceModel.prices field in the Pandas DataFrame format:
priceModel.Generate()
# Make sure the prices are generated:
print("Generated prices as Pandas DataFrame:\n{}".format(priceModel.prices))
# The dictionary with the calculated statistics is saved to a field self.stat:
print("Dict with statistics:\n{}".format(priceModel.stat))
# Saving OHLCV-prices into .csv-file:
priceModel.SaveToFile(fileName="test.csv")
# Saving the price chart to a html-file and immediately opening it in the default browser.
# The statistics will be automatically saved in a markdown file named fileName + ".md".
priceModel.RenderBokeh(fileName="index.html", viewInBrowser=True)
# Instead of the Bokeh library, you can use simple, non-interactive chart,
# via the Google Candlestick chart library. Just uncomment the next lines.
# Before calling priceModel.RenderGoogle(), you can set your custom template in self.j2template
# priceModel.j2template = "google_template_example.j2" # file or multi-string variable with jinja2-template
# priceModel.RenderGoogle(fileName="index.html", viewInBrowser=True)When you run the script, you will receive a similar output to the logs, three files: test.csv, index.html and index.html.md. As well as the html-file with the price chart will be immediately opened in the browser. You can independently experiment with the parameters of the PriceGenerator() class to generate prices suitable for your conditions.
Also, you can manipulate with chart and adding lines or markers to the main chart. Use markers and lines parameters for it.
markers is a Pandas DataFrame with additional markers will place on main series. None by default. One marker is a custom symbol, e.g. ×, ↓ or ↑ or anyone else. Markers dataframe must contain at least two columns. There are datetime with date and time and some markers columns (markersUpper, markersCenter or markersLower). Length of markers dataframe must be equal to the length of main candle series.
lines is a list of Pandas DataFrames with additional chart-lines will place on main series. None by default. Every line data must contain at least two columns. There are datetime with date and time and custom_line_name with y-coordinates. Length of the chart-line dataframes must be equal to the length of main candle series.
Example:
from pricegenerator.PriceGenerator import PriceGenerator, uLogger
from datetime import datetime, timedelta
import pandas as pd
uLogger.setLevel(0) # Disable logging messages.
# Initialize PriceGenerator:
priceModel = PriceGenerator()
priceModel.ticker = "TEST_PRICES"
priceModel.precision = 0
priceModel.timeframe = timedelta(days=1)
priceModel.timeStart = datetime.today()
priceModel.horizon = 75
priceModel.maxClose = 140
priceModel.minClose = 40
priceModel.initClose = 50
priceModel.maxOutlier = 35
priceModel.maxCandleBody = 15
priceModel.maxVolume = 400000
priceModel.upCandlesProb = 0.51
priceModel.outliersProb = 0.1
priceModel.trendDeviation = 0.005
priceModel.trendSplit = "/\/"
priceModel.splitCount = [40, 10, 25]
priceModel.Generate() # Generate main candles series.
# Let's draw new average line on the main chart and set markers on the top, center and bottom of candles:
priceModel.prices["avg"] = priceModel.prices.low + (priceModel.prices.high - priceModel.prices.low) / 2
priceModel.prices["markersUpper"] = pd.Series(["↓"] * len(priceModel.prices.high))
priceModel.prices["markersCenter"] = pd.Series(["×"] * len(priceModel.prices.avg))
priceModel.prices["markersLower"] = pd.Series(["↑"] * len(priceModel.prices.low))
priceModel.RenderBokeh(
fileName="index1.html",
viewInBrowser=True,
darkTheme=True, # Set `False` for light theme.
markers=priceModel.prices[["datetime", "markersUpper", "markersCenter", "markersLower"]],
lines=[priceModel.prices[["datetime", "avg"]]],
showStatOnChart=True,
showControlsOnChart=True,
inline=False, # Set `True` if script runs in Jupyter Notebook.
)Output:
That's all! Good luck for you in automating and testing stock trading! ;)
