433 lines
18 KiB
Markdown
433 lines
18 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 several
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algorithms included in the `scikit-optimize` package to accomplish this. The
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search will burn all your CPU cores, make your laptop sound like a fighter jet
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and still take a long time.
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!!! Bug
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Hyperopt will 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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## Prepare Hyperopting
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Before we start digging into Hyperopt, we recommend you to take a look at
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an example hyperopt file located into [user_data/hyperopts/](https://github.com/freqtrade/freqtrade/blob/develop/user_data/hyperopts/sample_hyperopt.py)
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Configuring hyperopt is similar to writing your own strategy, and many tasks will be similar and a lot of code can be copied across from the strategy.
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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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* fill `populate_indicators` - probably a copy from your strategy
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* fill `buy_strategy_generator` - for buy signal optimization
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* fill `indicator_space` - for buy signal optimzation
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* fill `sell_strategy_generator` - for sell signal optimization
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* fill `sell_indicator_space` - for sell signal optimzation
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Optional, but recommended:
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* copy `populate_buy_trend` from your strategy - otherwise default-strategy will be used
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* copy `populate_sell_trend` from your strategy - otherwise default-strategy will be used
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Rarely you may also need to override:
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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 more than 4 entries in the ROI table)
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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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### 1. Install a Custom Hyperopt File
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Put your hyperopt file into the directory `user_data/hyperopts`.
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Let assume you want a hyperopt file `awesome_hyperopt.py`:
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Copy the file `user_data/hyperopts/sample_hyperopt.py` into `user_data/hyperopts/awesome_hyperopt.py`
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### 2. Configure your Guards and Triggers
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There are two places you need to change in your hyperopt file to add a new buy hyperopt for testing:
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- Inside `indicator_space()` - the parameters hyperopt shall be optimizing.
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- Inside `populate_buy_trend()` - applying the parameters.
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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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Hyperoptimization will, for each eval round, pick one trigger and possibly
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multiple guards. The constructed strategy will be something like
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"*buy exactly when close price touches lower bollinger band, BUT only if
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ADX > 10*".
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If you have updated the buy strategy, ie. changed the contents of
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`populate_buy_trend()` method you have to update the `guards` and
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`triggers` hyperopts must use.
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#### Sell optimization
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Similar to the buy-signal above, sell-signals can also be optimized.
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Place the corresponding settings into the following methods
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* Inside `sell_indicator_space()` - the parameters hyperopt shall be optimizing.
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* Inside `populate_sell_trend()` - applying the parameters.
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The configuration and rules are the same than for buy signals.
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To avoid naming collisions in the search-space, please prefix all sell-spaces with `sell-`.
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#### Using ticker-interval as part of the Strategy
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The Strategy exposes the ticker-interval as `self.ticker_interval`. The same value is available as class-attribute `HyperoptName.ticker_interval`.
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In the case of the linked sample-value this would be `SampleHyperOpts.ticker_interval`.
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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
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Bands to trigger your buys. And you also wonder should you use RSI or ADX to
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help with those buy decisions. If you decide to use RSI or ADX, which values
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should I use for them? So let's use hyperparameter optimization to solve this
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mystery.
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We will start by defining a search space:
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```python
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def indicator_space() -> List[Dimension]:
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"""
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Define your Hyperopt space for searching strategy parameters
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"""
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return [
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Integer(20, 40, name='adx-value'),
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Integer(20, 40, name='rsi-value'),
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Categorical([True, False], name='adx-enabled'),
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Categorical([True, False], name='rsi-enabled'),
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Categorical(['bb_lower', 'macd_cross_signal'], name='trigger')
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]
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```
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Above definition says: I have five parameters I want you to randomly combine
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to find the best combination. Two of them are integer values (`adx-value`
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and `rsi-value`) and I want you test in the range of values 20 to 40.
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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. The last
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one we call `trigger` and use it to decide which buy trigger we want to use.
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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_buy_trend(dataframe: DataFrame) -> DataFrame:
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conditions = []
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# GUARDS AND TRENDS
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if 'adx-enabled' in params and params['adx-enabled']:
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conditions.append(dataframe['adx'] > params['adx-value'])
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if 'rsi-enabled' in params and params['rsi-enabled']:
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conditions.append(dataframe['rsi'] < params['rsi-value'])
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# TRIGGERS
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if 'trigger' in params:
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if params['trigger'] == 'bb_lower':
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conditions.append(dataframe['close'] < dataframe['bb_lowerband'])
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if params['trigger'] == '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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if conditions:
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dataframe.loc[
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reduce(lambda x, y: x & y, conditions),
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'buy'] = 1
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return dataframe
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return populate_buy_trend
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```
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Hyperopting will now call this `populate_buy_trend` as many times you ask it (`epochs`)
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with different value combinations. It will then use the given historical data and make
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buys based on the buy signals generated with the above function and based on the results
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it will end with telling you which paramter combination produced the best profits.
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The search for best parameters starts with a few random combinations and then uses a
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regressor algorithm (currently ExtraTreesRegressor) to quickly find a parameter combination
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that minimizes the value of the [loss function](#loss-functions).
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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 `hyperopt.py`.
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## Loss-functions
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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.
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By default, FreqTrade uses a loss function, which has been with freqtrade since the beginning and optimizes mostly for short trade duration and avoiding losses.
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A different loss function can be specified by using the `--hyperopt-loss <Class-name>` argument.
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This class should be in its own file within the `user_data/hyperopts/` directory.
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Currently, the following loss functions are builtin:
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* `DefaultHyperOptLoss` (default legacy Freqtrade hyperoptimization loss function)
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* `OnlyProfitHyperOptLoss` (which takes only amount of profit into consideration)
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* `SharpeHyperOptLoss` (optimizes Sharpe Ratio calculated on the trade returns)
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### Creating and using a custom loss function
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To use a custom loss function class, make sure that the function `hyperopt_loss_function` is defined in your custom hyperopt loss class.
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For the sample below, you then need to add the command line parameter `--hyperopt-loss SuperDuperHyperOptLoss` to your hyperopt call so this fuction is being used.
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A sample of this can be found below, which is identical to the Default Hyperopt loss implementation. A full sample can be found [user_data/hyperopts/](https://github.com/freqtrade/freqtrade/blob/develop/user_data/hyperopts/sample_hyperopt_loss.py)
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``` python
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from freqtrade.optimize.hyperopt import IHyperOptLoss
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TARGET_TRADES = 600
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EXPECTED_MAX_PROFIT = 3.0
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MAX_ACCEPTED_TRADE_DURATION = 300
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class SuperDuperHyperOptLoss(IHyperOptLoss):
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"""
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Defines the default loss function for hyperopt
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"""
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@staticmethod
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def hyperopt_loss_function(results: DataFrame, trade_count: int,
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min_date: datetime, max_date: datetime,
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*args, **kwargs) -> float:
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"""
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Objective function, returns smaller number for better results
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This is the legacy algorithm (used until now in freqtrade).
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Weights are distributed as follows:
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* 0.4 to trade duration
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* 0.25: Avoiding trade loss
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* 1.0 to total profit, compared to the expected value (`EXPECTED_MAX_PROFIT`) defined above
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"""
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total_profit = results.profit_percent.sum()
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trade_duration = results.trade_duration.mean()
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trade_loss = 1 - 0.25 * exp(-(trade_count - TARGET_TRADES) ** 2 / 10 ** 5.8)
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profit_loss = max(0, 1 - total_profit / EXPECTED_MAX_PROFIT)
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duration_loss = 0.4 * min(trade_duration / MAX_ACCEPTED_TRADE_DURATION, 1)
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result = trade_loss + profit_loss + duration_loss
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return result
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```
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Currently, the arguments are:
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* `results`: DataFrame containing the result
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The following columns are available in results (corresponds to the output-file of backtesting when used with `--export trades`):
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`pair, profit_percent, profit_abs, open_time, close_time, open_index, close_index, trade_duration, open_at_end, open_rate, close_rate, sell_reason`
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* `trade_count`: Amount of trades (identical to `len(results)`)
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* `min_date`: Start date of the hyperopting TimeFrame
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* `min_date`: End date of the hyperopting TimeFrame
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This function needs to return a floating point number (`float`). Smaller numbers will be interpreted as better results. The parameters and balancing for this is up to you.
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!!! Note
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This function is called once per iteration - so please make sure to have this as optimized as possible to not slow hyperopt down unnecessarily.
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!!! Note
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Please keep the arguments `*args` and `**kwargs` in the interface to allow us to extend this interface later.
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## Execute Hyperopt
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Once you have updated your hyperopt configuration you can run it.
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Because hyperopt tries a lot of combinations to find the best parameters it will take time to get a good result. More time usually results in better results.
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We strongly recommend to use `screen` or `tmux` to prevent any connection loss.
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```bash
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freqtrade -c config.json hyperopt --customhyperopt <hyperoptname> -e 5000 --spaces all
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```
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Use `<hyperoptname>` as the name of the custom hyperopt used.
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The `-e` flag will set how many evaluations hyperopt will do. We recommend
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running at least several thousand evaluations.
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The `--spaces all` flag determines that all possible parameters should be optimized. Possibilities are listed below.
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!!! Note
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By default, hyperopt will erase previous results and start from scratch. Continuation can be archived by using `--continue`.
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!!! Warning
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When switching parameters or changing configuration options, make sure to not use the argument `--continue` so temporary results can be removed.
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### Execute Hyperopt with Different Ticker-Data Source
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If you would like to hyperopt parameters using an alternate ticker data that
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you have on-disk, use the `--datadir PATH` option. Default hyperopt will
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use data from directory `user_data/data`.
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### Running Hyperopt with Smaller Testset
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Use the `--timerange` argument to change how much of the testset you want to use.
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For example, to use one month of data, pass the following parameter to the hyperopt call:
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```bash
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freqtrade hyperopt --timerange 20180401-20180501
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```
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### Running Hyperopt with Smaller Search Space
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Use the `--spaces` argument to limit the search space used by hyperopt.
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Letting Hyperopt optimize everything is a huuuuge search space. Often it
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might make more sense to start by just searching for initial buy algorithm.
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Or maybe you just want to optimize your stoploss or roi table for that awesome
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new buy strategy you have.
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Legal values are:
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* `all`: optimize everything
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* `buy`: just search for a new buy strategy
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* `sell`: just search for a new sell strategy
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* `roi`: just optimize the minimal profit table for your strategy
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* `stoploss`: search for the best stoploss value
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* space-separated list of any of the above values for example `--spaces roi stoploss`
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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 previosly 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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## Understand the Hyperopt Result
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Once Hyperopt is completed you can use the result to create a new strategy.
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Given the following result from hyperopt:
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```
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Best result:
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44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722Σ%). Avg duration 180.4 mins. Objective: 1.94367
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Buy hyperspace params:
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{ 'adx-value': 44,
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'rsi-value': 29,
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'adx-enabled': False,
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'rsi-enabled': True,
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'trigger': 'bb_lower'}
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```
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You should understand this result like:
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- The buy trigger that worked best was `bb_lower`.
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- You should not use ADX because `adx-enabled: False`)
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- You should **consider** using the RSI indicator (`rsi-enabled: True` and the best value is `29.0` (`rsi-value: 29.0`)
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You have to look inside your strategy file into `buy_strategy_generator()`
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method, what those values match to.
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So for example you had `rsi-value: 29.0` so we would look at `rsi`-block, that translates to the following code block:
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``` python
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(dataframe['rsi'] < 29.0)
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```
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Translating your whole hyperopt result as the new buy-signal
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would then look like:
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```python
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def populate_buy_trend(self, dataframe: DataFrame) -> DataFrame:
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dataframe.loc[
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(
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(dataframe['rsi'] < 29.0) & # rsi-value
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dataframe['close'] < dataframe['bb_lowerband'] # trigger
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),
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'buy'] = 1
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return dataframe
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```
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### Understand Hyperopt ROI results
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If you are optimizing ROI (i.e. if optimization search-space contains 'all' or 'roi'), your result will look as follows and include a ROI table:
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```
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Best result:
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44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722Σ%). Avg duration 180.4 mins. Objective: 1.94367
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Buy hyperspace params:
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{ 'adx-value': 44,
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'rsi-value': 29,
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'adx-enabled': False,
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'rsi-enabled': True,
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'trigger': 'bb_lower'}
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ROI table:
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{ 0: 0.10674752302642071,
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21: 0.09158372701087236,
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78: 0.03634636907306948,
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118: 0}
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```
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This would translate to the following ROI table:
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``` python
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minimal_roi = {
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"118": 0,
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"78": 0.0363,
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"21": 0.0915,
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"0": 0.106
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}
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```
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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) with the values that can vary in the following ranges:
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| # | minutes | ROI percentage |
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|---|---|---|
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| 1 | always 0 | 0.03...0.31 |
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| 2 | 10...40 | 0.02...0.11 |
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| 3 | 20...100 | 0.01...0.04 |
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| 4 | 30...220 | always 0 |
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This structure of the ROI table is sufficient in most cases. Override the `roi_space()` method defining the ranges desired if you need components of the ROI tables to vary in other ranges.
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Override the `generate_roi_table()` and `roi_space()` methods and implement your own custom approach for generation of the ROI tables during hyperoptimization in these methods if you need a different structure of the ROI table or other amount of rows (steps) in the ROI tables.
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### Understand Hyperopt Stoploss results
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If you are optimizing stoploss values (i.e. if optimization search-space contains 'all' or 'stoploss'), your result will look as follows and include stoploss:
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```
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Best result:
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44/100: 135 trades. Avg profit 0.57%. Total profit 0.03871918 BTC (0.7722Σ%). Avg duration 180.4 mins. Objective: 1.94367
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Buy hyperspace params:
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{ 'adx-value': 44,
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'rsi-value': 29,
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'adx-enabled': False,
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'rsi-enabled': True,
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'trigger': 'bb_lower'}
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Stoploss: -0.37996664668703606
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```
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If you are optimizing stoploss values, Freqtrade creates the 'stoploss' optimization hyperspace for you. By default, the stoploss values in that hyperspace can vary in the range -0.5...-0.02, which is sufficient in most cases.
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Override the `stoploss_space()` method and define the desired range in it if you need stoploss values to vary in other range during hyperoptimization.
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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 results (number of trades, their durations, profit, etc.) than during Hyperopt, please use same set of arguments `--dmmp`/`--disable-max-market-positions` and `--eps`/`--enable-position-stacking` for Backtesting.
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## Next Step
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Now you have a perfect bot and want to control it from Telegram. Your
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next step is to learn the [Telegram usage](telegram-usage.md).
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