e97468964a
fix #7070
913 lines
48 KiB
Markdown
913 lines
48 KiB
Markdown
# Hyperopt
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This page explains how to tune your strategy by finding the optimal
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parameters, a process called hyperparameter optimization. The bot uses algorithms included in the `scikit-optimize` package to accomplish this.
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The search will burn all your CPU cores, make your laptop sound like a fighter jet and still take a long time.
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In general, the search for best parameters starts with a few random combinations (see [below](#reproducible-results) for more details) and then uses Bayesian search with a ML regressor algorithm (currently ExtraTreesRegressor) to quickly find a combination of parameters in the search hyperspace that minimizes the value of the [loss function](#loss-functions).
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Hyperopt requires historic data to be available, just as backtesting does (hyperopt runs backtesting many times with different parameters).
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To learn how to get data for the pairs and exchange you're interested in, head over to the [Data Downloading](data-download.md) section of the documentation.
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!!! Bug
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Hyperopt can crash when used with only 1 CPU Core as found out in [Issue #1133](https://github.com/freqtrade/freqtrade/issues/1133)
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!!! Note
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Since 2021.4 release you no longer have to write a separate hyperopt class, but can configure the parameters directly in the strategy.
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The legacy method is still supported, but it is no longer the recommended way of setting up hyperopt.
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The legacy documentation is available at [Legacy Hyperopt](advanced-hyperopt.md#legacy-hyperopt).
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## Install hyperopt dependencies
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Since Hyperopt dependencies are not needed to run the bot itself, are heavy, can not be easily built on some platforms (like Raspberry PI), they are not installed by default. Before you run Hyperopt, you need to install the corresponding dependencies, as described in this section below.
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!!! Note
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Since Hyperopt is a resource intensive process, running it on a Raspberry Pi is not recommended nor supported.
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### Docker
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The docker-image includes hyperopt dependencies, no further action needed.
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### Easy installation script (setup.sh) / Manual installation
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```bash
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source .env/bin/activate
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pip install -r requirements-hyperopt.txt
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```
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## Hyperopt command reference
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```
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usage: freqtrade hyperopt [-h] [-v] [--logfile FILE] [-V] [-c PATH] [-d PATH]
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[--userdir PATH] [-s NAME] [--strategy-path PATH]
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[--recursive-strategy-search] [-i TIMEFRAME]
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[--timerange TIMERANGE]
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[--data-format-ohlcv {json,jsongz,hdf5}]
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[--max-open-trades INT]
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[--stake-amount STAKE_AMOUNT] [--fee FLOAT]
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[-p PAIRS [PAIRS ...]] [--hyperopt-path PATH]
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[--eps] [--dmmp] [--enable-protections]
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[--dry-run-wallet DRY_RUN_WALLET]
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[--timeframe-detail TIMEFRAME_DETAIL] [-e INT]
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[--spaces {all,buy,sell,roi,stoploss,trailing,protection,default} [{all,buy,sell,roi,stoploss,trailing,protection,default} ...]]
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[--print-all] [--no-color] [--print-json] [-j JOBS]
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[--random-state INT] [--min-trades INT]
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[--hyperopt-loss NAME] [--disable-param-export]
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[--ignore-missing-spaces]
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optional arguments:
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-h, --help show this help message and exit
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-i TIMEFRAME, --timeframe TIMEFRAME
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Specify timeframe (`1m`, `5m`, `30m`, `1h`, `1d`).
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--timerange TIMERANGE
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Specify what timerange of data to use.
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--data-format-ohlcv {json,jsongz,hdf5}
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Storage format for downloaded candle (OHLCV) data.
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(default: `json`).
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--max-open-trades INT
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Override the value of the `max_open_trades`
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configuration setting.
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--stake-amount STAKE_AMOUNT
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Override the value of the `stake_amount` configuration
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setting.
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--fee FLOAT Specify fee ratio. Will be applied twice (on trade
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entry and exit).
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-p PAIRS [PAIRS ...], --pairs PAIRS [PAIRS ...]
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Limit command to these pairs. Pairs are space-
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separated.
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--hyperopt-path PATH Specify additional lookup path for Hyperopt Loss
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functions.
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--eps, --enable-position-stacking
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Allow buying the same pair multiple times (position
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stacking).
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--dmmp, --disable-max-market-positions
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Disable applying `max_open_trades` during backtest
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(same as setting `max_open_trades` to a very high
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number).
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--enable-protections, --enableprotections
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Enable protections for backtesting.Will slow
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backtesting down by a considerable amount, but will
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include configured protections
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--dry-run-wallet DRY_RUN_WALLET, --starting-balance DRY_RUN_WALLET
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Starting balance, used for backtesting / hyperopt and
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dry-runs.
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--timeframe-detail TIMEFRAME_DETAIL
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Specify detail timeframe for backtesting (`1m`, `5m`,
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`30m`, `1h`, `1d`).
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-e INT, --epochs INT Specify number of epochs (default: 100).
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--spaces {all,buy,sell,roi,stoploss,trailing,protection,default} [{all,buy,sell,roi,stoploss,trailing,protection,default} ...]
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Specify which parameters to hyperopt. Space-separated
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list.
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--print-all Print all results, not only the best ones.
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--no-color Disable colorization of hyperopt results. May be
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useful if you are redirecting output to a file.
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--print-json Print output in JSON format.
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-j JOBS, --job-workers JOBS
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The number of concurrently running jobs for
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hyperoptimization (hyperopt worker processes). If -1
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(default), all CPUs are used, for -2, all CPUs but one
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are used, etc. If 1 is given, no parallel computing
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code is used at all.
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--random-state INT Set random state to some positive integer for
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reproducible hyperopt results.
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--min-trades INT Set minimal desired number of trades for evaluations
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in the hyperopt optimization path (default: 1).
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--hyperopt-loss NAME, --hyperoptloss NAME
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Specify the class name of the hyperopt loss function
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class (IHyperOptLoss). Different functions can
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generate completely different results, since the
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target for optimization is different. Built-in
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Hyperopt-loss-functions are:
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ShortTradeDurHyperOptLoss, OnlyProfitHyperOptLoss,
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SharpeHyperOptLoss, SharpeHyperOptLossDaily,
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SortinoHyperOptLoss, SortinoHyperOptLossDaily,
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CalmarHyperOptLoss, MaxDrawDownHyperOptLoss,
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MaxDrawDownRelativeHyperOptLoss,
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ProfitDrawDownHyperOptLoss
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--disable-param-export
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Disable automatic hyperopt parameter export.
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--ignore-missing-spaces, --ignore-unparameterized-spaces
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Suppress errors for any requested Hyperopt spaces that
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do not contain any parameters.
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Common arguments:
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-v, --verbose Verbose mode (-vv for more, -vvv to get all messages).
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--logfile FILE Log to the file specified. Special values are:
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'syslog', 'journald'. See the documentation for more
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details.
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-V, --version show program's version number and exit
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-c PATH, --config PATH
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Specify configuration file (default:
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`userdir/config.json` or `config.json` whichever
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exists). Multiple --config options may be used. Can be
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set to `-` to read config from stdin.
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-d PATH, --datadir PATH
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Path to directory with historical backtesting data.
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--userdir PATH, --user-data-dir PATH
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Path to userdata directory.
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Strategy arguments:
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-s NAME, --strategy NAME
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Specify strategy class name which will be used by the
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bot.
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--strategy-path PATH Specify additional strategy lookup path.
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--recursive-strategy-search
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Recursively search for a strategy in the strategies
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folder.
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```
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### Hyperopt checklist
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Checklist on all tasks / possibilities in hyperopt
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Depending on the space you want to optimize, only some of the below are required:
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* define parameters with `space='buy'` - for entry signal optimization
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* define parameters with `space='sell'` - for exit signal optimization
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!!! Note
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`populate_indicators` needs to create all indicators any of the spaces may use, otherwise hyperopt will not work.
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Rarely you may also need to create a [nested class](advanced-hyperopt.md#overriding-pre-defined-spaces) named `HyperOpt` and implement
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* `roi_space` - for custom ROI optimization (if you need the ranges for the ROI parameters in the optimization hyperspace that differ from default)
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* `generate_roi_table` - for custom ROI optimization (if you need the ranges for the values in the ROI table that differ from default or the number of entries (steps) in the ROI table which differs from the default 4 steps)
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* `stoploss_space` - for custom stoploss optimization (if you need the range for the stoploss parameter in the optimization hyperspace that differs from default)
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* `trailing_space` - for custom trailing stop optimization (if you need the ranges for the trailing stop parameters in the optimization hyperspace that differ from default)
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!!! Tip "Quickly optimize ROI, stoploss and trailing stoploss"
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You can quickly optimize the spaces `roi`, `stoploss` and `trailing` without changing anything in your strategy.
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``` bash
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# Have a working strategy at hand.
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freqtrade hyperopt --hyperopt-loss SharpeHyperOptLossDaily --spaces roi stoploss trailing --strategy MyWorkingStrategy --config config.json -e 100
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```
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### Hyperopt execution logic
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Hyperopt will first load your data into memory and will then run `populate_indicators()` once per Pair to generate all indicators.
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Hyperopt will then spawn into different processes (number of processors, or `-j <n>`), and run backtesting over and over again, changing the parameters that are part of the `--spaces` defined.
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For every new set of parameters, freqtrade will run first `populate_entry_trend()` followed by `populate_exit_trend()`, and then run the regular backtesting process to simulate trades.
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After backtesting, the results are passed into the [loss function](#loss-functions), which will evaluate if this result was better or worse than previous results.
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Based on the loss function result, hyperopt will determine the next set of parameters to try in the next round of backtesting.
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### Configure your Guards and Triggers
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There are two places you need to change in your strategy file to add a new buy hyperopt for testing:
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* Define the parameters at the class level hyperopt shall be optimizing.
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* Within `populate_entry_trend()` - use defined parameter values instead of raw constants.
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There you have two different types of indicators: 1. `guards` and 2. `triggers`.
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1. Guards are conditions like "never buy if ADX < 10", or never buy if current price is over EMA10.
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2. Triggers are ones that actually trigger buy in specific moment, like "buy when EMA5 crosses over EMA10" or "buy when close price touches lower Bollinger band".
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!!! Hint "Guards and Triggers"
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Technically, there is no difference between Guards and Triggers.
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However, this guide will make this distinction to make it clear that signals should not be "sticking".
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Sticking signals are signals that are active for multiple candles. This can lead into entering a signal late (right before the signal disappears - which means that the chance of success is a lot lower than right at the beginning).
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Hyper-optimization will, for each epoch round, pick one trigger and possibly multiple guards.
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#### Exit signal optimization
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Similar to the entry-signal above, exit-signals can also be optimized.
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Place the corresponding settings into the following methods
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* Define the parameters at the class level hyperopt shall be optimizing, either naming them `sell_*`, or by explicitly defining `space='sell'`.
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* Within `populate_exit_trend()` - use defined parameter values instead of raw constants.
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The configuration and rules are the same than for buy signals.
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## Solving a Mystery
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Let's say you are curious: should you use MACD crossings or lower Bollinger Bands to trigger your long entries.
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And you also wonder should you use RSI or ADX to help with those decisions.
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If you decide to use RSI or ADX, which values should I use for them?
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So let's use hyperparameter optimization to solve this mystery.
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### Defining indicators to be used
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We start by calculating the indicators our strategy is going to use.
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``` python
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class MyAwesomeStrategy(IStrategy):
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def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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"""
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Generate all indicators used by the strategy
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"""
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dataframe['adx'] = ta.ADX(dataframe)
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dataframe['rsi'] = ta.RSI(dataframe)
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macd = ta.MACD(dataframe)
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dataframe['macd'] = macd['macd']
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dataframe['macdsignal'] = macd['macdsignal']
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dataframe['macdhist'] = macd['macdhist']
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bollinger = ta.BBANDS(dataframe, timeperiod=20, nbdevup=2.0, nbdevdn=2.0)
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dataframe['bb_lowerband'] = bollinger['lowerband']
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dataframe['bb_middleband'] = bollinger['middleband']
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dataframe['bb_upperband'] = bollinger['upperband']
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return dataframe
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```
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### Hyperoptable parameters
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We continue to define hyperoptable parameters:
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```python
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class MyAwesomeStrategy(IStrategy):
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buy_adx = DecimalParameter(20, 40, decimals=1, default=30.1, space="buy")
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buy_rsi = IntParameter(20, 40, default=30, space="buy")
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buy_adx_enabled = BooleanParameter(default=True, space="buy")
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buy_rsi_enabled = CategoricalParameter([True, False], default=False, space="buy")
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buy_trigger = CategoricalParameter(["bb_lower", "macd_cross_signal"], default="bb_lower", space="buy")
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```
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The above definition says: I have five parameters I want to randomly combine to find the best combination.
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`buy_rsi` is an integer parameter, which will be tested between 20 and 40. This space has a size of 20.
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`buy_adx` is a decimal parameter, which will be evaluated between 20 and 40 with 1 decimal place (so values are 20.1, 20.2, ...). This space has a size of 200.
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Then we have three category variables. First two are either `True` or `False`.
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We use these to either enable or disable the ADX and RSI guards.
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The last one we call `trigger` and use it to decide which buy trigger we want to use.
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!!! Note "Parameter space assignment"
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Parameters must either be assigned to a variable named `buy_*` or `sell_*` - or contain `space='buy'` | `space='sell'` to be assigned to a space correctly.
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If no parameter is available for a space, you'll receive the error that no space was found when running hyperopt.
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Parameters with unclear space (e.g. `adx_period = IntParameter(4, 24, default=14)` - no explicit nor implicit space) will not be detected and will therefore be ignored.
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So let's write the buy strategy using these values:
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```python
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def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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conditions = []
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# GUARDS AND TRENDS
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if self.buy_adx_enabled.value:
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conditions.append(dataframe['adx'] > self.buy_adx.value)
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if self.buy_rsi_enabled.value:
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conditions.append(dataframe['rsi'] < self.buy_rsi.value)
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# TRIGGERS
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if self.buy_trigger.value == 'bb_lower':
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conditions.append(dataframe['close'] < dataframe['bb_lowerband'])
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if self.buy_trigger.value == 'macd_cross_signal':
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conditions.append(qtpylib.crossed_above(
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dataframe['macd'], dataframe['macdsignal']
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))
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# Check that volume is not 0
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conditions.append(dataframe['volume'] > 0)
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if conditions:
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dataframe.loc[
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reduce(lambda x, y: x & y, conditions),
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'enter_long'] = 1
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return dataframe
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```
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Hyperopt will now call `populate_entry_trend()` many times (`epochs`) with different value combinations.
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It will use the given historical data and simulate buys based on the buy signals generated with the above function.
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Based on the results, hyperopt will tell you which parameter combination produced the best results (based on the configured [loss function](#loss-functions)).
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!!! Note
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The above setup expects to find ADX, RSI and Bollinger Bands in the populated indicators.
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When you want to test an indicator that isn't used by the bot currently, remember to
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add it to the `populate_indicators()` method in your strategy or hyperopt file.
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## Parameter types
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There are four parameter types each suited for different purposes.
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* `IntParameter` - defines an integral parameter with upper and lower boundaries of search space.
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* `DecimalParameter` - defines a floating point parameter with a limited number of decimals (default 3). Should be preferred instead of `RealParameter` in most cases.
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* `RealParameter` - defines a floating point parameter with upper and lower boundaries and no precision limit. Rarely used as it creates a space with a near infinite number of possibilities.
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* `CategoricalParameter` - defines a parameter with a predetermined number of choices.
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* `BooleanParameter` - Shorthand for `CategoricalParameter([True, False])` - great for "enable" parameters.
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!!! Tip "Disabling parameter optimization"
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Each parameter takes two boolean parameters:
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* `load` - when set to `False` it will not load values configured in `buy_params` and `sell_params`.
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* `optimize` - when set to `False` parameter will not be included in optimization process.
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Use these parameters to quickly prototype various ideas.
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!!! Warning
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Hyperoptable parameters cannot be used in `populate_indicators` - as hyperopt does not recalculate indicators for each epoch, so the starting value would be used in this case.
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## Optimizing an indicator parameter
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Assuming you have a simple strategy in mind - a EMA cross strategy (2 Moving averages crossing) - and you'd like to find the ideal parameters for this strategy.
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By default, we assume a stoploss of 5% - and a take-profit (`minimal_roi`) of 10% - which means freqtrade will sell the trade once 10% profit has been reached.
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``` python
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from pandas import DataFrame
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from functools import reduce
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import talib.abstract as ta
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from freqtrade.strategy import (BooleanParameter, CategoricalParameter, DecimalParameter,
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IStrategy, IntParameter)
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import freqtrade.vendor.qtpylib.indicators as qtpylib
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class MyAwesomeStrategy(IStrategy):
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stoploss = -0.05
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timeframe = '15m'
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minimal_roi = {
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"0": 0.10
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},
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# Define the parameter spaces
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buy_ema_short = IntParameter(3, 50, default=5)
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buy_ema_long = IntParameter(15, 200, default=50)
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def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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"""Generate all indicators used by the strategy"""
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# Calculate all ema_short values
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for val in self.buy_ema_short.range:
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dataframe[f'ema_short_{val}'] = ta.EMA(dataframe, timeperiod=val)
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# Calculate all ema_long values
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for val in self.buy_ema_long.range:
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dataframe[f'ema_long_{val}'] = ta.EMA(dataframe, timeperiod=val)
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return dataframe
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def populate_entry_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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conditions = []
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conditions.append(qtpylib.crossed_above(
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dataframe[f'ema_short_{self.buy_ema_short.value}'], dataframe[f'ema_long_{self.buy_ema_long.value}']
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))
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# Check that volume is not 0
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conditions.append(dataframe['volume'] > 0)
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if conditions:
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dataframe.loc[
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reduce(lambda x, y: x & y, conditions),
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'enter_long'] = 1
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return dataframe
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def populate_exit_trend(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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conditions = []
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conditions.append(qtpylib.crossed_above(
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dataframe[f'ema_long_{self.buy_ema_long.value}'], dataframe[f'ema_short_{self.buy_ema_short.value}']
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))
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# Check that volume is not 0
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conditions.append(dataframe['volume'] > 0)
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if conditions:
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dataframe.loc[
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reduce(lambda x, y: x & y, conditions),
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'exit_long'] = 1
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return dataframe
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```
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Breaking it down:
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Using `self.buy_ema_short.range` will return a range object containing all entries between the Parameters low and high value.
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In this case (`IntParameter(3, 50, default=5)`), the loop would run for all numbers between 3 and 50 (`[3, 4, 5, ... 49, 50]`).
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By using this in a loop, hyperopt will generate 48 new columns (`['buy_ema_3', 'buy_ema_4', ... , 'buy_ema_50']`).
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Hyperopt itself will then use the selected value to create the buy and sell signals.
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While this strategy is most likely too simple to provide consistent profit, it should serve as an example how optimize indicator parameters.
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!!! Note
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`self.buy_ema_short.range` will act differently between hyperopt and other modes. For hyperopt, the above example may generate 48 new columns, however for all other modes (backtesting, dry/live), it will only generate the column for the selected value. You should therefore avoid using the resulting column with explicit values (values other than `self.buy_ema_short.value`).
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!!! Note
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|
`range` property may also be used with `DecimalParameter` and `CategoricalParameter`. `RealParameter` does not provide this property due to infinite search space.
|
|
|
|
??? Hint "Performance tip"
|
|
By doing the calculation of all possible indicators in `populate_indicators()`, the calculation of the indicator happens only once for every parameter.
|
|
While this may slow down the hyperopt startup speed, the overall performance will increase as the Hyperopt execution itself may pick the same value for multiple epochs (changing other values).
|
|
You should however try to use space ranges as small as possible. Every new column will require more memory, and every possibility hyperopt can try will increase the search space.
|
|
|
|
## Optimizing protections
|
|
|
|
Freqtrade can also optimize protections. How you optimize protections is up to you, and the following should be considered as example only.
|
|
|
|
The strategy will simply need to define the "protections" entry as property returning a list of protection configurations.
|
|
|
|
``` python
|
|
from pandas import DataFrame
|
|
from functools import reduce
|
|
|
|
import talib.abstract as ta
|
|
|
|
from freqtrade.strategy import (BooleanParameter, CategoricalParameter, DecimalParameter,
|
|
IStrategy, IntParameter)
|
|
import freqtrade.vendor.qtpylib.indicators as qtpylib
|
|
|
|
class MyAwesomeStrategy(IStrategy):
|
|
stoploss = -0.05
|
|
timeframe = '15m'
|
|
# Define the parameter spaces
|
|
cooldown_lookback = IntParameter(2, 48, default=5, space="protection", optimize=True)
|
|
stop_duration = IntParameter(12, 200, default=5, space="protection", optimize=True)
|
|
use_stop_protection = BooleanParameter(default=True, space="protection", optimize=True)
|
|
|
|
|
|
@property
|
|
def protections(self):
|
|
prot = []
|
|
|
|
prot.append({
|
|
"method": "CooldownPeriod",
|
|
"stop_duration_candles": self.cooldown_lookback.value
|
|
})
|
|
if self.use_stop_protection.value:
|
|
prot.append({
|
|
"method": "StoplossGuard",
|
|
"lookback_period_candles": 24 * 3,
|
|
"trade_limit": 4,
|
|
"stop_duration_candles": self.stop_duration.value,
|
|
"only_per_pair": False
|
|
})
|
|
|
|
return prot
|
|
|
|
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
|
|
# ...
|
|
|
|
```
|
|
|
|
You can then run hyperopt as follows:
|
|
`freqtrade hyperopt --hyperopt-loss SharpeHyperOptLossDaily --strategy MyAwesomeStrategy --spaces protection`
|
|
|
|
!!! Note
|
|
The protection space is not part of the default space, and is only available with the Parameters Hyperopt interface, not with the legacy hyperopt interface (which required separate hyperopt files).
|
|
Freqtrade will also automatically change the "--enable-protections" flag if the protection space is selected.
|
|
|
|
!!! Warning
|
|
If protections are defined as property, entries from the configuration will be ignored.
|
|
It is therefore recommended to not define protections in the configuration.
|
|
|
|
### Migrating from previous property setups
|
|
|
|
A migration from a previous setup is pretty simple, and can be accomplished by converting the protections entry to a property.
|
|
In simple terms, the following configuration will be converted to the below.
|
|
|
|
``` python
|
|
class MyAwesomeStrategy(IStrategy):
|
|
protections = [
|
|
{
|
|
"method": "CooldownPeriod",
|
|
"stop_duration_candles": 4
|
|
}
|
|
]
|
|
```
|
|
|
|
Result
|
|
|
|
``` python
|
|
class MyAwesomeStrategy(IStrategy):
|
|
|
|
@property
|
|
def protections(self):
|
|
return [
|
|
{
|
|
"method": "CooldownPeriod",
|
|
"stop_duration_candles": 4
|
|
}
|
|
]
|
|
```
|
|
|
|
You will then obviously also change potential interesting entries to parameters to allow hyper-optimization.
|
|
|
|
### Optimizing `max_entry_position_adjustment`
|
|
|
|
While `max_entry_position_adjustment` is not a separate space, it can still be used in hyperopt by using the property approach shown above.
|
|
|
|
``` python
|
|
from pandas import DataFrame
|
|
from functools import reduce
|
|
|
|
import talib.abstract as ta
|
|
|
|
from freqtrade.strategy import (BooleanParameter, CategoricalParameter, DecimalParameter,
|
|
IStrategy, IntParameter)
|
|
import freqtrade.vendor.qtpylib.indicators as qtpylib
|
|
|
|
class MyAwesomeStrategy(IStrategy):
|
|
stoploss = -0.05
|
|
timeframe = '15m'
|
|
|
|
# Define the parameter spaces
|
|
max_epa = CategoricalParameter([-1, 0, 1, 3, 5, 10], default=1, space="buy", optimize=True)
|
|
|
|
@property
|
|
def max_entry_position_adjustment(self):
|
|
return self.max_epa.value
|
|
|
|
|
|
def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
|
|
# ...
|
|
```
|
|
|
|
??? Tip "Using `IntParameter`"
|
|
You can also use the `IntParameter` for this optimization, but you must explicitly return an integer:
|
|
``` python
|
|
max_epa = IntParameter(-1, 10, default=1, space="buy", optimize=True)
|
|
|
|
@property
|
|
def max_entry_position_adjustment(self):
|
|
return int(self.max_epa.value)
|
|
```
|
|
|
|
## Loss-functions
|
|
|
|
Each hyperparameter tuning requires a target. This is usually defined as a loss function (sometimes also called objective function), which should decrease for more desirable results, and increase for bad results.
|
|
|
|
A loss function must be specified via the `--hyperopt-loss <Class-name>` argument (or optionally via the configuration under the `"hyperopt_loss"` key).
|
|
This class should be in its own file within the `user_data/hyperopts/` directory.
|
|
|
|
Currently, the following loss functions are builtin:
|
|
|
|
* `ShortTradeDurHyperOptLoss` - (default legacy Freqtrade hyperoptimization loss function) - Mostly for short trade duration and avoiding losses.
|
|
* `OnlyProfitHyperOptLoss` - takes only amount of profit into consideration.
|
|
* `SharpeHyperOptLoss` - optimizes Sharpe Ratio calculated on trade returns relative to standard deviation.
|
|
* `SharpeHyperOptLossDaily` - optimizes Sharpe Ratio calculated on **daily** trade returns relative to standard deviation.
|
|
* `SortinoHyperOptLoss` - optimizes Sortino Ratio calculated on trade returns relative to **downside** standard deviation.
|
|
* `SortinoHyperOptLossDaily` - optimizes Sortino Ratio calculated on **daily** trade returns relative to **downside** standard deviation.
|
|
* `MaxDrawDownHyperOptLoss` - Optimizes Maximum absolute drawdown.
|
|
* `MaxDrawDownRelativeHyperOptLoss` - Optimizes both maximum absolute drawdown while also adjusting for maximum relative drawdown.
|
|
* `CalmarHyperOptLoss` - Optimizes Calmar Ratio calculated on trade returns relative to max drawdown.
|
|
* `ProfitDrawDownHyperOptLoss` - Optimizes by max Profit & min Drawdown objective. `DRAWDOWN_MULT` variable within the hyperoptloss file can be adjusted to be stricter or more flexible on drawdown purposes.
|
|
|
|
Creation of a custom loss function is covered in the [Advanced Hyperopt](advanced-hyperopt.md) part of the documentation.
|
|
|
|
## Execute Hyperopt
|
|
|
|
Once you have updated your hyperopt configuration you can run it.
|
|
Because hyperopt tries a lot of combinations to find the best parameters it will take time to get a good result.
|
|
|
|
We strongly recommend to use `screen` or `tmux` to prevent any connection loss.
|
|
|
|
```bash
|
|
freqtrade hyperopt --config config.json --hyperopt-loss <hyperoptlossname> --strategy <strategyname> -e 500 --spaces all
|
|
```
|
|
|
|
The `-e` option will set how many evaluations hyperopt will do. Since hyperopt uses Bayesian search, running too many epochs at once may not produce greater results. Experience has shown that best results are usually not improving much after 500-1000 epochs.
|
|
Doing multiple runs (executions) with a few 1000 epochs and different random state will most likely produce different results.
|
|
|
|
The `--spaces all` option determines that all possible parameters should be optimized. Possibilities are listed below.
|
|
|
|
!!! Note
|
|
Hyperopt will store hyperopt results with the timestamp of the hyperopt start time.
|
|
Reading commands (`hyperopt-list`, `hyperopt-show`) can use `--hyperopt-filename <filename>` to read and display older hyperopt results.
|
|
You can find a list of filenames with `ls -l user_data/hyperopt_results/`.
|
|
|
|
### Execute Hyperopt with different historical data source
|
|
|
|
If you would like to hyperopt parameters using an alternate historical data set that
|
|
you have on-disk, use the `--datadir PATH` option. By default, hyperopt uses data from directory `user_data/data`.
|
|
|
|
### Running Hyperopt with a smaller test-set
|
|
|
|
Use the `--timerange` argument to change how much of the test-set you want to use.
|
|
For example, to use one month of data, pass `--timerange 20210101-20210201` (from january 2021 - february 2021) to the hyperopt call.
|
|
|
|
Full command:
|
|
|
|
```bash
|
|
freqtrade hyperopt --strategy <strategyname> --timerange 20210101-20210201
|
|
```
|
|
|
|
### Running Hyperopt with Smaller Search Space
|
|
|
|
Use the `--spaces` option to limit the search space used by hyperopt.
|
|
Letting Hyperopt optimize everything is a huuuuge search space.
|
|
Often it might make more sense to start by just searching for initial buy algorithm.
|
|
Or maybe you just want to optimize your stoploss or roi table for that awesome new buy strategy you have.
|
|
|
|
Legal values are:
|
|
|
|
* `all`: optimize everything
|
|
* `buy`: just search for a new buy strategy
|
|
* `sell`: just search for a new sell strategy
|
|
* `roi`: just optimize the minimal profit table for your strategy
|
|
* `stoploss`: search for the best stoploss value
|
|
* `trailing`: search for the best trailing stop values
|
|
* `protection`: search for the best protection parameters (read the [protections section](#optimizing-protections) on how to properly define these)
|
|
* `default`: `all` except `trailing` and `protection`
|
|
* space-separated list of any of the above values for example `--spaces roi stoploss`
|
|
|
|
The default Hyperopt Search Space, used when no `--space` command line option is specified, does not include the `trailing` hyperspace. We recommend you to run optimization for the `trailing` hyperspace separately, when the best parameters for other hyperspaces were found, validated and pasted into your custom strategy.
|
|
|
|
## Understand the Hyperopt Result
|
|
|
|
Once Hyperopt is completed you can use the result to update your strategy.
|
|
Given the following result from hyperopt:
|
|
|
|
```
|
|
Best result:
|
|
|
|
44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722%). Avg duration 180.4 mins. Objective: 1.94367
|
|
|
|
# Buy hyperspace params:
|
|
buy_params = {
|
|
'buy_adx': 44,
|
|
'buy_rsi': 29,
|
|
'buy_adx_enabled': False,
|
|
'buy_rsi_enabled': True,
|
|
'buy_trigger': 'bb_lower'
|
|
}
|
|
```
|
|
|
|
You should understand this result like:
|
|
|
|
* The buy trigger that worked best was `bb_lower`.
|
|
* You should not use ADX because `'buy_adx_enabled': False`.
|
|
* You should **consider** using the RSI indicator (`'buy_rsi_enabled': True`) and the best value is `29.0` (`'buy_rsi': 29.0`)
|
|
|
|
### Automatic parameter application to the strategy
|
|
|
|
When using Hyperoptable parameters, the result of your hyperopt-run will be written to a json file next to your strategy (so for `MyAwesomeStrategy.py`, the file would be `MyAwesomeStrategy.json`).
|
|
This file is also updated when using the `hyperopt-show` sub-command, unless `--disable-param-export` is provided to either of the 2 commands.
|
|
|
|
|
|
Your strategy class can also contain these results explicitly. Simply copy hyperopt results block and paste them at class level, replacing old parameters (if any). New parameters will automatically be loaded next time strategy is executed.
|
|
|
|
Transferring your whole hyperopt result to your strategy would then look like:
|
|
|
|
```python
|
|
class MyAwesomeStrategy(IStrategy):
|
|
# Buy hyperspace params:
|
|
buy_params = {
|
|
'buy_adx': 44,
|
|
'buy_rsi': 29,
|
|
'buy_adx_enabled': False,
|
|
'buy_rsi_enabled': True,
|
|
'buy_trigger': 'bb_lower'
|
|
}
|
|
```
|
|
|
|
!!! Note
|
|
Values in the configuration file will overwrite Parameter-file level parameters - and both will overwrite parameters within the strategy.
|
|
The prevalence is therefore: config > parameter file > strategy `*_params` > parameter default
|
|
|
|
### Understand Hyperopt ROI results
|
|
|
|
If you are optimizing ROI (i.e. if optimization search-space contains 'all', 'default' or 'roi'), your result will look as follows and include a ROI table:
|
|
|
|
```
|
|
Best result:
|
|
|
|
44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722%). Avg duration 180.4 mins. Objective: 1.94367
|
|
|
|
# ROI table:
|
|
minimal_roi = {
|
|
0: 0.10674,
|
|
21: 0.09158,
|
|
78: 0.03634,
|
|
118: 0
|
|
}
|
|
```
|
|
|
|
In order to use this best ROI table found by Hyperopt in backtesting and for live trades/dry-run, copy-paste it as the value of the `minimal_roi` attribute of your custom strategy:
|
|
|
|
```
|
|
# Minimal ROI designed for the strategy.
|
|
# This attribute will be overridden if the config file contains "minimal_roi"
|
|
minimal_roi = {
|
|
0: 0.10674,
|
|
21: 0.09158,
|
|
78: 0.03634,
|
|
118: 0
|
|
}
|
|
```
|
|
|
|
As stated in the comment, you can also use it as the value of the `minimal_roi` setting in the configuration file.
|
|
|
|
#### Default ROI Search Space
|
|
|
|
If you are optimizing ROI, Freqtrade creates the 'roi' optimization hyperspace for you -- it's the hyperspace of components for the ROI tables. By default, each ROI table generated by the Freqtrade consists of 4 rows (steps). Hyperopt implements adaptive ranges for ROI tables with ranges for values in the ROI steps that depend on the timeframe used. By default the values vary in the following ranges (for some of the most used timeframes, values are rounded to 3 digits after the decimal point):
|
|
|
|
| # step | 1m | | 5m | | 1h | | 1d | |
|
|
| ------ | ------ | ------------- | -------- | ----------- | ---------- | ------------- | ------------ | ------------- |
|
|
| 1 | 0 | 0.011...0.119 | 0 | 0.03...0.31 | 0 | 0.068...0.711 | 0 | 0.121...1.258 |
|
|
| 2 | 2...8 | 0.007...0.042 | 10...40 | 0.02...0.11 | 120...480 | 0.045...0.252 | 2880...11520 | 0.081...0.446 |
|
|
| 3 | 4...20 | 0.003...0.015 | 20...100 | 0.01...0.04 | 240...1200 | 0.022...0.091 | 5760...28800 | 0.040...0.162 |
|
|
| 4 | 6...44 | 0.0 | 30...220 | 0.0 | 360...2640 | 0.0 | 8640...63360 | 0.0 |
|
|
|
|
These ranges should be sufficient in most cases. The minutes in the steps (ROI dict keys) are scaled linearly depending on the timeframe used. The ROI values in the steps (ROI dict values) are scaled logarithmically depending on the timeframe used.
|
|
|
|
If you have the `generate_roi_table()` and `roi_space()` methods in your custom hyperopt, remove them in order to utilize these adaptive ROI tables and the ROI hyperoptimization space generated by Freqtrade by default.
|
|
|
|
Override the `roi_space()` method if you need components of the ROI tables to vary in other ranges. Override the `generate_roi_table()` and `roi_space()` methods and implement your own custom approach for generation of the ROI tables during hyperoptimization if you need a different structure of the ROI tables or other amount of rows (steps).
|
|
|
|
A sample for these methods can be found in the [overriding pre-defined spaces section](advanced-hyperopt.md#overriding-pre-defined-spaces).
|
|
|
|
!!! Note "Reduced search space"
|
|
To limit the search space further, Decimals are limited to 3 decimal places (a precision of 0.001). This is usually sufficient, every value more precise than this will usually result in overfitted results. You can however [overriding pre-defined spaces](advanced-hyperopt.md#pverriding-pre-defined-spaces) to change this to your needs.
|
|
|
|
### Understand Hyperopt Stoploss results
|
|
|
|
If you are optimizing stoploss values (i.e. if optimization search-space contains 'all', 'default' or 'stoploss'), your result will look as follows and include stoploss:
|
|
|
|
```
|
|
Best result:
|
|
|
|
44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722%). Avg duration 180.4 mins. Objective: 1.94367
|
|
|
|
# Buy hyperspace params:
|
|
buy_params = {
|
|
'buy_adx': 44,
|
|
'buy_rsi': 29,
|
|
'buy_adx_enabled': False,
|
|
'buy_rsi_enabled': True,
|
|
'buy_trigger': 'bb_lower'
|
|
}
|
|
|
|
stoploss: -0.27996
|
|
```
|
|
|
|
In order to use this best stoploss value found by Hyperopt in backtesting and for live trades/dry-run, copy-paste it as the value of the `stoploss` attribute of your custom strategy:
|
|
|
|
``` python
|
|
# Optimal stoploss designed for the strategy
|
|
# This attribute will be overridden if the config file contains "stoploss"
|
|
stoploss = -0.27996
|
|
```
|
|
|
|
As stated in the comment, you can also use it as the value of the `stoploss` setting in the configuration file.
|
|
|
|
#### Default Stoploss Search Space
|
|
|
|
If you are optimizing stoploss values, Freqtrade creates the 'stoploss' optimization hyperspace for you. By default, the stoploss values in that hyperspace vary in the range -0.35...-0.02, which is sufficient in most cases.
|
|
|
|
If you have the `stoploss_space()` method in your custom hyperopt file, remove it in order to utilize Stoploss hyperoptimization space generated by Freqtrade by default.
|
|
|
|
Override the `stoploss_space()` method and define the desired range in it if you need stoploss values to vary in other range during hyperoptimization. A sample for this method can be found in the [overriding pre-defined spaces section](advanced-hyperopt.md#overriding-pre-defined-spaces).
|
|
|
|
!!! Note "Reduced search space"
|
|
To limit the search space further, Decimals are limited to 3 decimal places (a precision of 0.001). This is usually sufficient, every value more precise than this will usually result in overfitted results. You can however [overriding pre-defined spaces](advanced-hyperopt.md#pverriding-pre-defined-spaces) to change this to your needs.
|
|
|
|
### Understand Hyperopt Trailing Stop results
|
|
|
|
If you are optimizing trailing stop values (i.e. if optimization search-space contains 'all' or 'trailing'), your result will look as follows and include trailing stop parameters:
|
|
|
|
```
|
|
Best result:
|
|
|
|
45/100: 606 trades. Avg profit 1.04%. Total profit 0.31555614 BTC ( 630.48%). Avg duration 150.3 mins. Objective: -1.10161
|
|
|
|
# Trailing stop:
|
|
trailing_stop = True
|
|
trailing_stop_positive = 0.02001
|
|
trailing_stop_positive_offset = 0.06038
|
|
trailing_only_offset_is_reached = True
|
|
```
|
|
|
|
In order to use these best trailing stop parameters found by Hyperopt in backtesting and for live trades/dry-run, copy-paste them as the values of the corresponding attributes of your custom strategy:
|
|
|
|
``` python
|
|
# Trailing stop
|
|
# These attributes will be overridden if the config file contains corresponding values.
|
|
trailing_stop = True
|
|
trailing_stop_positive = 0.02001
|
|
trailing_stop_positive_offset = 0.06038
|
|
trailing_only_offset_is_reached = True
|
|
```
|
|
|
|
As stated in the comment, you can also use it as the values of the corresponding settings in the configuration file.
|
|
|
|
#### Default Trailing Stop Search Space
|
|
|
|
If you are optimizing trailing stop values, Freqtrade creates the 'trailing' optimization hyperspace for you. By default, the `trailing_stop` parameter is always set to True in that hyperspace, the value of the `trailing_only_offset_is_reached` vary between True and False, the values of the `trailing_stop_positive` and `trailing_stop_positive_offset` parameters vary in the ranges 0.02...0.35 and 0.01...0.1 correspondingly, which is sufficient in most cases.
|
|
|
|
Override the `trailing_space()` method and define the desired range in it if you need values of the trailing stop parameters to vary in other ranges during hyperoptimization. A sample for this method can be found in the [overriding pre-defined spaces section](advanced-hyperopt.md#overriding-pre-defined-spaces).
|
|
|
|
!!! Note "Reduced search space"
|
|
To limit the search space further, Decimals are limited to 3 decimal places (a precision of 0.001). This is usually sufficient, every value more precise than this will usually result in overfitted results. You can however [overriding pre-defined spaces](advanced-hyperopt.md#overriding-pre-defined-spaces) to change this to your needs.
|
|
|
|
### Reproducible results
|
|
|
|
The search for optimal parameters starts with a few (currently 30) random combinations in the hyperspace of parameters, random Hyperopt epochs. These random epochs are marked with an asterisk character (`*`) in the first column in the Hyperopt output.
|
|
|
|
The initial state for generation of these random values (random state) is controlled by the value of the `--random-state` command line option. You can set it to some arbitrary value of your choice to obtain reproducible results.
|
|
|
|
If you have not set this value explicitly in the command line options, Hyperopt seeds the random state with some random value for you. The random state value for each Hyperopt run is shown in the log, so you can copy and paste it into the `--random-state` command line option to repeat the set of the initial random epochs used.
|
|
|
|
If you have not changed anything in the command line options, configuration, timerange, Strategy and Hyperopt classes, historical data and the Loss Function -- you should obtain same hyper-optimization results with same random state value used.
|
|
|
|
## Output formatting
|
|
|
|
By default, hyperopt prints colorized results -- epochs with positive profit are printed in the green color. This highlighting helps you find epochs that can be interesting for later analysis. Epochs with zero total profit or with negative profits (losses) are printed in the normal color. If you do not need colorization of results (for instance, when you are redirecting hyperopt output to a file) you can switch colorization off by specifying the `--no-color` option in the command line.
|
|
|
|
You can use the `--print-all` command line option if you would like to see all results in the hyperopt output, not only the best ones. When `--print-all` is used, current best results are also colorized by default -- they are printed in bold (bright) style. This can also be switched off with the `--no-color` command line option.
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!!! Note "Windows and color output"
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Windows does not support color-output natively, therefore it is automatically disabled. To have color-output for hyperopt running under windows, please consider using WSL.
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## Position stacking and disabling max market positions
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In some situations, you may need to run Hyperopt (and Backtesting) with the
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`--eps`/`--enable-position-staking` and `--dmmp`/`--disable-max-market-positions` arguments.
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By default, hyperopt emulates the behavior of the Freqtrade Live Run/Dry Run, where only one
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open trade is allowed for every traded pair. The total number of trades open for all pairs
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is also limited by the `max_open_trades` setting. During Hyperopt/Backtesting this may lead to
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some potential trades to be hidden (or masked) by previously open trades.
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The `--eps`/`--enable-position-stacking` argument allows emulation of buying the same pair multiple times,
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while `--dmmp`/`--disable-max-market-positions` disables applying `max_open_trades`
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during Hyperopt/Backtesting (which is equal to setting `max_open_trades` to a very high
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number).
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!!! Note
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Dry/live runs will **NOT** use position stacking - therefore it does make sense to also validate the strategy without this as it's closer to reality.
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You can also enable position stacking in the configuration file by explicitly setting
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`"position_stacking"=true`.
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## Out of Memory errors
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As hyperopt consumes a lot of memory (the complete data needs to be in memory once per parallel backtesting process), it's likely that you run into "out of memory" errors.
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To combat these, you have multiple options:
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* Reduce the amount of pairs.
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* Reduce the timerange used (`--timerange <timerange>`).
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* Avoid using `--timeframe-detail` (this loads a lot of additional data into memory).
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* Reduce the number of parallel processes (`-j <n>`).
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* Increase the memory of your machine.
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## The objective has been evaluated at this point before.
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If you see `The objective has been evaluated at this point before.` - then this is a sign that your space has been exhausted, or is close to that.
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Basically all points in your space have been hit (or a local minima has been hit) - and hyperopt does no longer find points in the multi-dimensional space it did not try yet.
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Freqtrade tries to counter the "local minima" problem by using new, randomized points in this case.
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Example:
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``` python
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buy_ema_short = IntParameter(5, 20, default=10, space="buy", optimize=True)
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# This is the only parameter in the buy space
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```
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The `buy_ema_short` space has 15 possible values (`5, 6, ... 19, 20`). If you now run hyperopt for the buy space, hyperopt will only have 15 values to try before running out of options.
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Your epochs should therefore be aligned to the possible values - or you should be ready to interrupt a run if you norice a lot of `The objective has been evaluated at this point before.` warnings.
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## Show details of Hyperopt results
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After you run Hyperopt for the desired amount of epochs, you can later list all results for analysis, select only best or profitable once, and show the details for any of the epochs previously evaluated. This can be done with the `hyperopt-list` and `hyperopt-show` sub-commands. The usage of these sub-commands is described in the [Utils](utils.md#list-hyperopt-results) chapter.
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## Validate backtesting results
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Once the optimized strategy has been implemented into your strategy, you should backtest this strategy to make sure everything is working as expected.
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To achieve same the results (number of trades, their durations, profit, etc.) as during Hyperopt, please use the same configuration and parameters (timerange, timeframe, ...) used for hyperopt `--dmmp`/`--disable-max-market-positions` and `--eps`/`--enable-position-stacking` for Backtesting.
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Should results not match, please double-check to make sure you transferred all conditions correctly.
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Pay special care to the stoploss (and trailing stoploss) parameters, as these are often set in configuration files, which override changes to the strategy.
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You should also carefully review the log of your backtest to ensure that there were no parameters inadvertently set by the configuration (like `stoploss` or `trailing_stop`).
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