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@ -425,7 +425,7 @@ jobs:
python setup.py sdist bdist_wheel python setup.py sdist bdist_wheel
- name: Publish to PyPI (Test) - name: Publish to PyPI (Test)
uses: pypa/gh-action-pypi-publish@v1.8.5 uses: pypa/gh-action-pypi-publish@v1.8.1
if: (github.event_name == 'release') if: (github.event_name == 'release')
with: with:
user: __token__ user: __token__
@ -433,7 +433,7 @@ jobs:
repository_url: https://test.pypi.org/legacy/ repository_url: https://test.pypi.org/legacy/
- name: Publish to PyPI - name: Publish to PyPI
uses: pypa/gh-action-pypi-publish@v1.8.5 uses: pypa/gh-action-pypi-publish@v1.8.1
if: (github.event_name == 'release') if: (github.event_name == 'release')
with: with:
user: __token__ user: __token__

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@ -13,12 +13,12 @@ repos:
- id: mypy - id: mypy
exclude: build_helpers exclude: build_helpers
additional_dependencies: additional_dependencies:
- types-cachetools==5.3.0.5 - types-cachetools==5.3.0.4
- types-filelock==3.2.7 - types-filelock==3.2.7
- types-requests==2.28.11.17 - types-requests==2.28.11.15
- types-tabulate==0.9.0.2 - types-tabulate==0.9.0.1
- types-python-dateutil==2.8.19.12 - types-python-dateutil==2.8.19.10
- SQLAlchemy==2.0.9 - SQLAlchemy==2.0.7
# stages: [push] # stages: [push]
- repo: https://github.com/pycqa/isort - repo: https://github.com/pycqa/isort

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@ -1,4 +1,4 @@
FROM python:3.10.11-slim-bullseye as base FROM python:3.10.10-slim-bullseye as base
# Setup env # Setup env
ENV LANG C.UTF-8 ENV LANG C.UTF-8

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@ -12,7 +12,6 @@ TAG=$(echo "${BRANCH_NAME}" | sed -e "s/\//_/g")
TAG_PLOT=${TAG}_plot TAG_PLOT=${TAG}_plot
TAG_FREQAI=${TAG}_freqai TAG_FREQAI=${TAG}_freqai
TAG_FREQAI_RL=${TAG_FREQAI}rl TAG_FREQAI_RL=${TAG_FREQAI}rl
TAG_FREQAI_TORCH=${TAG_FREQAI}torch
TAG_PI="${TAG}_pi" TAG_PI="${TAG}_pi"
TAG_ARM=${TAG}_arm TAG_ARM=${TAG}_arm
@ -43,9 +42,9 @@ if [ $? -ne 0 ]; then
return 1 return 1
fi fi
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG_ARM} -t freqtrade:${TAG_PLOT_ARM} -f docker/Dockerfile.plot . docker build --cache-from freqtrade:${TAG_ARM} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG_ARM} -t freqtrade:${TAG_PLOT_ARM} -f docker/Dockerfile.plot .
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG_ARM} -t freqtrade:${TAG_FREQAI_ARM} -f docker/Dockerfile.freqai . docker build --cache-from freqtrade:${TAG_ARM} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG_ARM} -t freqtrade:${TAG_FREQAI_ARM} -f docker/Dockerfile.freqai .
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG_FREQAI_ARM} -t freqtrade:${TAG_FREQAI_RL_ARM} -f docker/Dockerfile.freqai_rl . docker build --cache-from freqtrade:${TAG_ARM} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG_ARM} -t freqtrade:${TAG_FREQAI_RL_ARM} -f docker/Dockerfile.freqai_rl .
# Tag image for upload and next build step # Tag image for upload and next build step
docker tag freqtrade:$TAG_ARM ${CACHE_IMAGE}:$TAG_ARM docker tag freqtrade:$TAG_ARM ${CACHE_IMAGE}:$TAG_ARM
@ -85,10 +84,6 @@ docker manifest push -p ${IMAGE_NAME}:${TAG_FREQAI}
docker manifest create ${IMAGE_NAME}:${TAG_FREQAI_RL} ${CACHE_IMAGE}:${TAG_FREQAI_RL} ${CACHE_IMAGE}:${TAG_FREQAI_RL_ARM} docker manifest create ${IMAGE_NAME}:${TAG_FREQAI_RL} ${CACHE_IMAGE}:${TAG_FREQAI_RL} ${CACHE_IMAGE}:${TAG_FREQAI_RL_ARM}
docker manifest push -p ${IMAGE_NAME}:${TAG_FREQAI_RL} docker manifest push -p ${IMAGE_NAME}:${TAG_FREQAI_RL}
# Create special Torch tag - which is identical to the RL tag.
docker manifest create ${IMAGE_NAME}:${TAG_FREQAI_TORCH} ${CACHE_IMAGE}:${TAG_FREQAI_RL} ${CACHE_IMAGE}:${TAG_FREQAI_RL_ARM}
docker manifest push -p ${IMAGE_NAME}:${TAG_FREQAI_TORCH}
# copy images to ghcr.io # copy images to ghcr.io
alias crane="docker run --rm -i -v $(pwd)/.crane:/home/nonroot/.docker/ gcr.io/go-containerregistry/crane" alias crane="docker run --rm -i -v $(pwd)/.crane:/home/nonroot/.docker/ gcr.io/go-containerregistry/crane"
@ -98,7 +93,6 @@ chmod a+rwx .crane
echo "${GHCR_TOKEN}" | crane auth login ghcr.io -u "${GHCR_USERNAME}" --password-stdin echo "${GHCR_TOKEN}" | crane auth login ghcr.io -u "${GHCR_USERNAME}" --password-stdin
crane copy ${IMAGE_NAME}:${TAG_FREQAI_RL} ${GHCR_IMAGE_NAME}:${TAG_FREQAI_RL} crane copy ${IMAGE_NAME}:${TAG_FREQAI_RL} ${GHCR_IMAGE_NAME}:${TAG_FREQAI_RL}
crane copy ${IMAGE_NAME}:${TAG_FREQAI_RL} ${GHCR_IMAGE_NAME}:${TAG_FREQAI_TORCH}
crane copy ${IMAGE_NAME}:${TAG_FREQAI} ${GHCR_IMAGE_NAME}:${TAG_FREQAI} crane copy ${IMAGE_NAME}:${TAG_FREQAI} ${GHCR_IMAGE_NAME}:${TAG_FREQAI}
crane copy ${IMAGE_NAME}:${TAG_PLOT} ${GHCR_IMAGE_NAME}:${TAG_PLOT} crane copy ${IMAGE_NAME}:${TAG_PLOT} ${GHCR_IMAGE_NAME}:${TAG_PLOT}
crane copy ${IMAGE_NAME}:${TAG} ${GHCR_IMAGE_NAME}:${TAG} crane copy ${IMAGE_NAME}:${TAG} ${GHCR_IMAGE_NAME}:${TAG}

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@ -58,9 +58,9 @@ fi
# Tag image for upload and next build step # Tag image for upload and next build step
docker tag freqtrade:$TAG ${CACHE_IMAGE}:$TAG docker tag freqtrade:$TAG ${CACHE_IMAGE}:$TAG
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG} -t freqtrade:${TAG_PLOT} -f docker/Dockerfile.plot . docker build --cache-from freqtrade:${TAG} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG} -t freqtrade:${TAG_PLOT} -f docker/Dockerfile.plot .
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG} -t freqtrade:${TAG_FREQAI} -f docker/Dockerfile.freqai . docker build --cache-from freqtrade:${TAG} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG} -t freqtrade:${TAG_FREQAI} -f docker/Dockerfile.freqai .
docker build --build-arg sourceimage=freqtrade --build-arg sourcetag=${TAG_FREQAI} -t freqtrade:${TAG_FREQAI_RL} -f docker/Dockerfile.freqai_rl . docker build --cache-from freqtrade:${TAG_FREQAI} --build-arg sourceimage=${CACHE_IMAGE} --build-arg sourcetag=${TAG_FREQAI} -t freqtrade:${TAG_FREQAI_RL} -f docker/Dockerfile.freqai_rl .
docker tag freqtrade:$TAG_PLOT ${CACHE_IMAGE}:$TAG_PLOT docker tag freqtrade:$TAG_PLOT ${CACHE_IMAGE}:$TAG_PLOT
docker tag freqtrade:$TAG_FREQAI ${CACHE_IMAGE}:$TAG_FREQAI docker tag freqtrade:$TAG_FREQAI ${CACHE_IMAGE}:$TAG_FREQAI

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@ -274,20 +274,19 @@ A backtesting result will look like that:
| XRP/BTC | 35 | 0.66 | 22.96 | 0.00114897 | 11.48 | 3:49:00 | 12 0 23 34.3 | | XRP/BTC | 35 | 0.66 | 22.96 | 0.00114897 | 11.48 | 3:49:00 | 12 0 23 34.3 |
| ZEC/BTC | 22 | -0.46 | -10.18 | -0.00050971 | -5.09 | 2:22:00 | 7 0 15 31.8 | | ZEC/BTC | 22 | -0.46 | -10.18 | -0.00050971 | -5.09 | 2:22:00 | 7 0 15 31.8 |
| TOTAL | 429 | 0.36 | 152.41 | 0.00762792 | 76.20 | 4:12:00 | 186 0 243 43.4 | | TOTAL | 429 | 0.36 | 152.41 | 0.00762792 | 76.20 | 4:12:00 | 186 0 243 43.4 |
====================================================== LEFT OPEN TRADES REPORT ====================================================== ========================================================= EXIT REASON STATS ==========================================================
| Pair | Entries | Avg Profit % | Cum Profit % | Tot Profit BTC | Tot Profit % | Avg Duration | Win Draw Loss Win% |
|:---------|---------:|---------------:|---------------:|-----------------:|---------------:|:---------------|--------------------:|
| ADA/BTC | 1 | 0.89 | 0.89 | 0.00004434 | 0.44 | 6:00:00 | 1 0 0 100 |
| LTC/BTC | 1 | 0.68 | 0.68 | 0.00003421 | 0.34 | 2:00:00 | 1 0 0 100 |
| TOTAL | 2 | 0.78 | 1.57 | 0.00007855 | 0.78 | 4:00:00 | 2 0 0 100 |
==================== EXIT REASON STATS ====================
| Exit Reason | Exits | Wins | Draws | Losses | | Exit Reason | Exits | Wins | Draws | Losses |
|:-------------------|--------:|------:|-------:|--------:| |:-------------------|--------:|------:|-------:|--------:|
| trailing_stop_loss | 205 | 150 | 0 | 55 | | trailing_stop_loss | 205 | 150 | 0 | 55 |
| stop_loss | 166 | 0 | 0 | 166 | | stop_loss | 166 | 0 | 0 | 166 |
| exit_signal | 56 | 36 | 0 | 20 | | exit_signal | 56 | 36 | 0 | 20 |
| force_exit | 2 | 0 | 0 | 2 | | force_exit | 2 | 0 | 0 | 2 |
====================================================== LEFT OPEN TRADES REPORT ======================================================
| Pair | Entries | Avg Profit % | Cum Profit % | Tot Profit BTC | Tot Profit % | Avg Duration | Win Draw Loss Win% |
|:---------|---------:|---------------:|---------------:|-----------------:|---------------:|:---------------|--------------------:|
| ADA/BTC | 1 | 0.89 | 0.89 | 0.00004434 | 0.44 | 6:00:00 | 1 0 0 100 |
| LTC/BTC | 1 | 0.68 | 0.68 | 0.00003421 | 0.34 | 2:00:00 | 1 0 0 100 |
| TOTAL | 2 | 0.78 | 1.57 | 0.00007855 | 0.78 | 4:00:00 | 2 0 0 100 |
================== SUMMARY METRICS ================== ================== SUMMARY METRICS ==================
| Metric | Value | | Metric | Value |
|-----------------------------+---------------------| |-----------------------------+---------------------|

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@ -60,10 +60,10 @@ This loop will be repeated again and again until the bot is stopped.
* Load historic data for configured pairlist. * Load historic data for configured pairlist.
* Calls `bot_start()` once. * Calls `bot_start()` once.
* Calls `bot_loop_start()` once.
* Calculate indicators (calls `populate_indicators()` once per pair). * Calculate indicators (calls `populate_indicators()` once per pair).
* Calculate entry / exit signals (calls `populate_entry_trend()` and `populate_exit_trend()` once per pair). * Calculate entry / exit signals (calls `populate_entry_trend()` and `populate_exit_trend()` once per pair).
* Loops per candle simulating entry and exit points. * Loops per candle simulating entry and exit points.
* Calls `bot_loop_start()` strategy callback.
* Check for Order timeouts, either via the `unfilledtimeout` configuration, or via `check_entry_timeout()` / `check_exit_timeout()` strategy callbacks. * Check for Order timeouts, either via the `unfilledtimeout` configuration, or via `check_entry_timeout()` / `check_exit_timeout()` strategy callbacks.
* Calls `adjust_entry_price()` strategy callback for open entry orders. * Calls `adjust_entry_price()` strategy callback for open entry orders.
* Check for trade entry signals (`enter_long` / `enter_short` columns). * Check for trade entry signals (`enter_long` / `enter_short` columns).

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@ -236,161 +236,3 @@ If you want to predict multiple targets you must specify all labels in the same
df['&s-up_or_down'] = np.where( df["close"].shift(-100) > df["close"], 'up', 'down') df['&s-up_or_down'] = np.where( df["close"].shift(-100) > df["close"], 'up', 'down')
df['&s-up_or_down'] = np.where( df["close"].shift(-100) == df["close"], 'same', df['&s-up_or_down']) df['&s-up_or_down'] = np.where( df["close"].shift(-100) == df["close"], 'same', df['&s-up_or_down'])
``` ```
## PyTorch Module
### Quick start
The easiest way to quickly run a pytorch model is with the following command (for regression task):
```bash
freqtrade trade --config config_examples/config_freqai.example.json --strategy FreqaiExampleStrategy --freqaimodel PyTorchMLPRegressor --strategy-path freqtrade/templates
```
!!! note "Installation/docker"
The PyTorch module requires large packages such as `torch`, which should be explicitly requested during `./setup.sh -i` by answering "y" to the question "Do you also want dependencies for freqai-rl or PyTorch (~700mb additional space required) [y/N]?".
Users who prefer docker should ensure they use the docker image appended with `_freqaitorch`.
### Structure
#### Model
You can construct your own Neural Network architecture in PyTorch by simply defining your `nn.Module` class inside your custom [`IFreqaiModel` file](#using-different-prediction-models) and then using that class in your `def train()` function. Here is an example of logistic regression model implementation using PyTorch (should be used with nn.BCELoss criterion) for classification tasks.
```python
class LogisticRegression(nn.Module):
def __init__(self, input_size: int):
super().__init__()
# Define your layers
self.linear = nn.Linear(input_size, 1)
self.activation = nn.Sigmoid()
def forward(self, x: torch.Tensor) -> torch.Tensor:
# Define the forward pass
out = self.linear(x)
out = self.activation(out)
return out
class MyCoolPyTorchClassifier(BasePyTorchClassifier):
"""
This is a custom IFreqaiModel showing how a user might setup their own
custom Neural Network architecture for their training.
"""
@property
def data_convertor(self) -> PyTorchDataConvertor:
return DefaultPyTorchDataConvertor(target_tensor_type=torch.float)
def __init__(self, **kwargs) -> None:
super().__init__(**kwargs)
config = self.freqai_info.get("model_training_parameters", {})
self.learning_rate: float = config.get("learning_rate", 3e-4)
self.model_kwargs: Dict[str, Any] = config.get("model_kwargs", {})
self.trainer_kwargs: Dict[str, Any] = config.get("trainer_kwargs", {})
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
"""
User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test,
labels, weights
:param dk: The datakitchen object for the current coin/model
"""
class_names = self.get_class_names()
self.convert_label_column_to_int(data_dictionary, dk, class_names)
n_features = data_dictionary["train_features"].shape[-1]
model = LogisticRegression(
input_dim=n_features
)
model.to(self.device)
optimizer = torch.optim.AdamW(model.parameters(), lr=self.learning_rate)
criterion = torch.nn.CrossEntropyLoss()
init_model = self.get_init_model(dk.pair)
trainer = PyTorchModelTrainer(
model=model,
optimizer=optimizer,
criterion=criterion,
model_meta_data={"class_names": class_names},
device=self.device,
init_model=init_model,
data_convertor=self.data_convertor,
**self.trainer_kwargs,
)
trainer.fit(data_dictionary, self.splits)
return trainer
```
#### Trainer
The `PyTorchModelTrainer` performs the idiomatic PyTorch train loop:
Define our model, loss function, and optimizer, and then move them to the appropriate device (GPU or CPU). Inside the loop, we iterate through the batches in the dataloader, move the data to the device, compute the prediction and loss, backpropagate, and update the model parameters using the optimizer.
In addition, the trainer is responsible for the following:
- saving and loading the model
- converting the data from `pandas.DataFrame` to `torch.Tensor`.
#### Integration with Freqai module
Like all freqai models, PyTorch models inherit `IFreqaiModel`. `IFreqaiModel` declares three abstract methods: `train`, `fit`, and `predict`. we implement these methods in three levels of hierarchy.
From top to bottom:
1. `BasePyTorchModel` - Implements the `train` method. all `BasePyTorch*` inherit it. responsible for general data preparation (e.g., data normalization) and calling the `fit` method. Sets `device` attribute used by children classes. Sets `model_type` attribute used by the parent class.
2. `BasePyTorch*` - Implements the `predict` method. Here, the `*` represents a group of algorithms, such as classifiers or regressors. responsible for data preprocessing, predicting, and postprocessing if needed.
3. `PyTorch*Classifier` / `PyTorch*Regressor` - implements the `fit` method. responsible for the main train flaw, where we initialize the trainer and model objects.
![image](assets/freqai_pytorch-diagram.png)
#### Full example
Building a PyTorch regressor using MLP (multilayer perceptron) model, MSELoss criterion, and AdamW optimizer.
```python
class PyTorchMLPRegressor(BasePyTorchRegressor):
def __init__(self, **kwargs) -> None:
super().__init__(**kwargs)
config = self.freqai_info.get("model_training_parameters", {})
self.learning_rate: float = config.get("learning_rate", 3e-4)
self.model_kwargs: Dict[str, Any] = config.get("model_kwargs", {})
self.trainer_kwargs: Dict[str, Any] = config.get("trainer_kwargs", {})
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
n_features = data_dictionary["train_features"].shape[-1]
model = PyTorchMLPModel(
input_dim=n_features,
output_dim=1,
**self.model_kwargs
)
model.to(self.device)
optimizer = torch.optim.AdamW(model.parameters(), lr=self.learning_rate)
criterion = torch.nn.MSELoss()
init_model = self.get_init_model(dk.pair)
trainer = PyTorchModelTrainer(
model=model,
optimizer=optimizer,
criterion=criterion,
device=self.device,
init_model=init_model,
target_tensor_type=torch.float,
**self.trainer_kwargs,
)
trainer.fit(data_dictionary)
return trainer
```
Here we create a `PyTorchMLPRegressor` class that implements the `fit` method. The `fit` method specifies the training building blocks: model, optimizer, criterion, and trainer. We inherit both `BasePyTorchRegressor` and `BasePyTorchModel`, where the former implements the `predict` method that is suitable for our regression task, and the latter implements the train method.
??? Note "Setting Class Names for Classifiers"
When using classifiers, the user must declare the class names (or targets) by overriding the `IFreqaiModel.class_names` attribute. This is achieved by setting `self.freqai.class_names` in the FreqAI strategy inside the `set_freqai_targets` method.
For example, if you are using a binary classifier to predict price movements as up or down, you can set the class names as follows:
```python
def set_freqai_targets(self, dataframe: DataFrame, metadata: Dict, **kwargs):
self.freqai.class_names = ["down", "up"]
dataframe['&s-up_or_down'] = np.where(dataframe["close"].shift(-100) >
dataframe["close"], 'up', 'down')
return dataframe
```
To see a full example, you can refer to the [classifier test strategy class](https://github.com/freqtrade/freqtrade/blob/develop/tests/strategy/strats/freqai_test_classifier.py).

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@ -6,8 +6,8 @@ Low level feature engineering is performed in the user strategy within a set of
| Function | Description | | Function | Description |
|---------------|-------------| |---------------|-------------|
| `feature_engineering_expand_all()` | This optional function will automatically expand the defined features on the config defined `indicator_periods_candles`, `include_timeframes`, `include_shifted_candles`, and `include_corr_pairs`. | `feature_engineering__expand_all()` | This optional function will automatically expand the defined features on the config defined `indicator_periods_candles`, `include_timeframes`, `include_shifted_candles`, and `include_corr_pairs`.
| `feature_engineering_expand_basic()` | This optional function will automatically expand the defined features on the config defined `include_timeframes`, `include_shifted_candles`, and `include_corr_pairs`. Note: this function does *not* expand across `include_periods_candles`. | `feature_engineering__expand_basic()` | This optional function will automatically expand the defined features on the config defined `include_timeframes`, `include_shifted_candles`, and `include_corr_pairs`. Note: this function does *not* expand across `include_periods_candles`.
| `feature_engineering_standard()` | This optional function will be called once with the dataframe of the base timeframe. This is the final function to be called, which means that the dataframe entering this function will contain all the features and columns from the base asset created by the other `feature_engineering_expand` functions. This function is a good place to do custom exotic feature extractions (e.g. tsfresh). This function is also a good place for any feature that should not be auto-expanded upon (e.g., day of the week). | `feature_engineering_standard()` | This optional function will be called once with the dataframe of the base timeframe. This is the final function to be called, which means that the dataframe entering this function will contain all the features and columns from the base asset created by the other `feature_engineering_expand` functions. This function is a good place to do custom exotic feature extractions (e.g. tsfresh). This function is also a good place for any feature that should not be auto-expanded upon (e.g., day of the week).
| `set_freqai_targets()` | Required function to set the targets for the model. All targets must be prepended with `&` to be recognized by the FreqAI internals. | `set_freqai_targets()` | Required function to set the targets for the model. All targets must be prepended with `&` to be recognized by the FreqAI internals.
@ -186,7 +186,7 @@ In total, the number of features the user of the presented example strat has cre
All `feature_engineering_*` and `set_freqai_targets()` functions are passed a `metadata` dictionary which contains information about the `pair`, `tf` (timeframe), and `period` that FreqAI is automating for feature building. As such, a user can use `metadata` inside `feature_engineering_*` functions as criteria for blocking/reserving features for certain timeframes, periods, pairs etc. All `feature_engineering_*` and `set_freqai_targets()` functions are passed a `metadata` dictionary which contains information about the `pair`, `tf` (timeframe), and `period` that FreqAI is automating for feature building. As such, a user can use `metadata` inside `feature_engineering_*` functions as criteria for blocking/reserving features for certain timeframes, periods, pairs etc.
```python ```py
def feature_engineering_expand_all(self, dataframe, period, metadata, **kwargs): def feature_engineering_expand_all(self, dataframe, period, metadata, **kwargs):
if metadata["tf"] == "1h": if metadata["tf"] == "1h":
dataframe["%-roc-period"] = ta.ROC(dataframe, timeperiod=period) dataframe["%-roc-period"] = ta.ROC(dataframe, timeperiod=period)

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@ -46,7 +46,7 @@ Mandatory parameters are marked as **Required** and have to be set in one of the
| `outlier_protection_percentage` | Enable to prevent outlier detection methods from discarding too much data. If more than `outlier_protection_percentage` % of points are detected as outliers by the SVM or DBSCAN, FreqAI will log a warning message and ignore outlier detection, i.e., the original dataset will be kept intact. If the outlier protection is triggered, no predictions will be made based on the training dataset. <br> **Datatype:** Float. <br> Default: `30`. | `outlier_protection_percentage` | Enable to prevent outlier detection methods from discarding too much data. If more than `outlier_protection_percentage` % of points are detected as outliers by the SVM or DBSCAN, FreqAI will log a warning message and ignore outlier detection, i.e., the original dataset will be kept intact. If the outlier protection is triggered, no predictions will be made based on the training dataset. <br> **Datatype:** Float. <br> Default: `30`.
| `reverse_train_test_order` | Split the feature dataset (see below) and use the latest data split for training and test on historical split of the data. This allows the model to be trained up to the most recent data point, while avoiding overfitting. However, you should be careful to understand the unorthodox nature of this parameter before employing it. <br> **Datatype:** Boolean. <br> Default: `False` (no reversal). | `reverse_train_test_order` | Split the feature dataset (see below) and use the latest data split for training and test on historical split of the data. This allows the model to be trained up to the most recent data point, while avoiding overfitting. However, you should be careful to understand the unorthodox nature of this parameter before employing it. <br> **Datatype:** Boolean. <br> Default: `False` (no reversal).
| `shuffle_after_split` | Split the data into train and test sets, and then shuffle both sets individually. <br> **Datatype:** Boolean. <br> Default: `False`. | `shuffle_after_split` | Split the data into train and test sets, and then shuffle both sets individually. <br> **Datatype:** Boolean. <br> Default: `False`.
| `buffer_train_data_candles` | Cut `buffer_train_data_candles` off the beginning and end of the training data *after* the indicators were populated. The main example use is when predicting maxima and minima, the argrelextrema function cannot know the maxima/minima at the edges of the timerange. To improve model accuracy, it is best to compute argrelextrema on the full timerange and then use this function to cut off the edges (buffer) by the kernel. In another case, if the targets are set to a shifted price movement, this buffer is unnecessary because the shifted candles at the end of the timerange will be NaN and FreqAI will automatically cut those off of the training dataset.<br> **Datatype:** Integer. <br> Default: `0`. | `buffer_train_data_candles` | Cut `buffer_train_data_candles` off the beginning and end of the training data *after* the indicators were populated. The main example use is when predicting maxima and minima, the argrelextrema function cannot know the maxima/minima at the edges of the timerange. To improve model accuracy, it is best to compute argrelextrema on the full timerange and then use this function to cut off the edges (buffer) by the kernel. In another case, if the targets are set to a shifted price movement, this buffer is unnecessary because the shifted candles at the end of the timerange will be NaN and FreqAI will automatically cut those off of the training dataset.<br> **Datatype:** Boolean. <br> Default: `False`.
### Data split parameters ### Data split parameters
@ -86,27 +86,6 @@ Mandatory parameters are marked as **Required** and have to be set in one of the
| `randomize_starting_position` | Randomize the starting point of each episode to avoid overfitting. <br> **Datatype:** bool. <br> Default: `False`. | `randomize_starting_position` | Randomize the starting point of each episode to avoid overfitting. <br> **Datatype:** bool. <br> Default: `False`.
| `drop_ohlc_from_features` | Do not include the normalized ohlc data in the feature set passed to the agent during training (ohlc will still be used for driving the environment in all cases) <br> **Datatype:** Boolean. <br> **Default:** `False` | `drop_ohlc_from_features` | Do not include the normalized ohlc data in the feature set passed to the agent during training (ohlc will still be used for driving the environment in all cases) <br> **Datatype:** Boolean. <br> **Default:** `False`
### PyTorch parameters
#### general
| Parameter | Description |
|------------|-------------|
| | **Model training parameters within the `freqai.model_training_parameters` sub dictionary**
| `learning_rate` | Learning rate to be passed to the optimizer. <br> **Datatype:** float. <br> Default: `3e-4`.
| `model_kwargs` | Parameters to be passed to the model class. <br> **Datatype:** dict. <br> Default: `{}`.
| `trainer_kwargs` | Parameters to be passed to the trainer class. <br> **Datatype:** dict. <br> Default: `{}`.
#### trainer_kwargs
| Parameter | Description |
|------------|-------------|
| | **Model training parameters within the `freqai.model_training_parameters.model_kwargs` sub dictionary**
| `max_iters` | The number of training iterations to run. iteration here refers to the number of times we call self.optimizer.step(). used to calculate n_epochs. <br> **Datatype:** int. <br> Default: `100`.
| `batch_size` | The size of the batches to use during training.. <br> **Datatype:** int. <br> Default: `64`.
| `max_n_eval_batches` | The maximum number batches to use for evaluation.. <br> **Datatype:** int, optional. <br> Default: `None`.
### Additional parameters ### Additional parameters
| Parameter | Description | | Parameter | Description |

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@ -55,7 +55,7 @@ where `ReinforcementLearner` will use the templated `ReinforcementLearner` from
dataframe["&-action"] = 0 dataframe["&-action"] = 0
``` ```
Most of the function remains the same as for typical Regressors, however, the function below shows how the strategy must pass the raw price data to the agent so that it has access to raw OHLCV in the training environment: Most of the function remains the same as for typical Regressors, however, the function above shows how the strategy must pass the raw price data to the agent so that it has access to raw OHLCV in the training environment:
```python ```python
def feature_engineering_standard(self, dataframe, **kwargs): def feature_engineering_standard(self, dataframe, **kwargs):
@ -180,7 +180,7 @@ As you begin to modify the strategy and the prediction model, you will quickly r
# you can use feature values from dataframe # you can use feature values from dataframe
# Assumes the shifted RSI indicator has been generated in the strategy. # Assumes the shifted RSI indicator has been generated in the strategy.
rsi_now = self.raw_features[f"%-rsi-period_10_shift-1_{pair}_" rsi_now = self.raw_features[f"%-rsi-period-10_shift-1_{pair}_"
f"{self.config['timeframe']}"].iloc[self._current_tick] f"{self.config['timeframe']}"].iloc[self._current_tick]
# reward agent for entering trades # reward agent for entering trades

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@ -128,9 +128,6 @@ The FreqAI specific parameter `label_period_candles` defines the offset (number
You can choose to adopt a continual learning scheme by setting `"continual_learning": true` in the config. By enabling `continual_learning`, after training an initial model from scratch, subsequent trainings will start from the final model state of the preceding training. This gives the new model a "memory" of the previous state. By default, this is set to `False` which means that all new models are trained from scratch, without input from previous models. You can choose to adopt a continual learning scheme by setting `"continual_learning": true` in the config. By enabling `continual_learning`, after training an initial model from scratch, subsequent trainings will start from the final model state of the preceding training. This gives the new model a "memory" of the previous state. By default, this is set to `False` which means that all new models are trained from scratch, without input from previous models.
???+ danger "Continual learning enforces a constant parameter space"
Since `continual_learning` means that the model parameter space *cannot* change between trainings, `principal_component_analysis` is automatically disabled when `continual_learning` is enabled. Hint: PCA changes the parameter space and the number of features, learn more about PCA [here](freqai-feature-engineering.md#data-dimensionality-reduction-with-principal-component-analysis).
## Hyperopt ## Hyperopt
You can hyperopt using the same command as for [typical Freqtrade hyperopt](hyperopt.md): You can hyperopt using the same command as for [typical Freqtrade hyperopt](hyperopt.md):

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@ -149,7 +149,7 @@ The below example assumes a timeframe of 1 hour:
* Locks each pair after selling for an additional 5 candles (`CooldownPeriod`), giving other pairs a chance to get filled. * Locks each pair after selling for an additional 5 candles (`CooldownPeriod`), giving other pairs a chance to get filled.
* Stops trading for 4 hours (`4 * 1h candles`) if the last 2 days (`48 * 1h candles`) had 20 trades, which caused a max-drawdown of more than 20%. (`MaxDrawdown`). * Stops trading for 4 hours (`4 * 1h candles`) if the last 2 days (`48 * 1h candles`) had 20 trades, which caused a max-drawdown of more than 20%. (`MaxDrawdown`).
* Stops trading if more than 4 stoploss occur for all pairs within a 1 day (`24 * 1h candles`) limit (`StoplossGuard`). * Stops trading if more than 4 stoploss occur for all pairs within a 1 day (`24 * 1h candles`) limit (`StoplossGuard`).
* Locks all pairs that had 2 Trades within the last 6 hours (`6 * 1h candles`) with a combined profit ratio of below 0.02 (<2%) (`LowProfitPairs`). * Locks all pairs that had 4 Trades within the last 6 hours (`6 * 1h candles`) with a combined profit ratio of below 0.02 (<2%) (`LowProfitPairs`).
* Locks all pairs for 2 candles that had a profit of below 0.01 (<1%) within the last 24h (`24 * 1h candles`), a minimum of 4 trades. * Locks all pairs for 2 candles that had a profit of below 0.01 (<1%) within the last 24h (`24 * 1h candles`), a minimum of 4 trades.
``` python ``` python

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@ -42,14 +42,14 @@ Enable subscribing to an instance by adding the `external_message_consumer` sect
| `producers` | **Required.** List of producers <br> **Datatype:** Array. | `producers` | **Required.** List of producers <br> **Datatype:** Array.
| `producers.name` | **Required.** Name of this producer. This name must be used in calls to `get_producer_pairs()` and `get_producer_df()` if more than one producer is used.<br> **Datatype:** string | `producers.name` | **Required.** Name of this producer. This name must be used in calls to `get_producer_pairs()` and `get_producer_df()` if more than one producer is used.<br> **Datatype:** string
| `producers.host` | **Required.** The hostname or IP address from your producer.<br> **Datatype:** string | `producers.host` | **Required.** The hostname or IP address from your producer.<br> **Datatype:** string
| `producers.port` | **Required.** The port matching the above host.<br>*Defaults to `8080`.*<br> **Datatype:** Integer | `producers.port` | **Required.** The port matching the above host.<br> **Datatype:** string
| `producers.secure` | **Optional.** Use ssl in websockets connection. Default False.<br> **Datatype:** string | `producers.secure` | **Optional.** Use ssl in websockets connection. Default False.<br> **Datatype:** string
| `producers.ws_token` | **Required.** `ws_token` as configured on the producer.<br> **Datatype:** string | `producers.ws_token` | **Required.** `ws_token` as configured on the producer.<br> **Datatype:** string
| | **Optional settings** | | **Optional settings**
| `wait_timeout` | Timeout until we ping again if no message is received. <br>*Defaults to `300`.*<br> **Datatype:** Integer - in seconds. | `wait_timeout` | Timeout until we ping again if no message is received. <br>*Defaults to `300`.*<br> **Datatype:** Integer - in seconds.
| `ping_timeout` | Ping timeout <br>*Defaults to `10`.*<br> **Datatype:** Integer - in seconds. | `wait_timeout` | Ping timeout <br>*Defaults to `10`.*<br> **Datatype:** Integer - in seconds.
| `sleep_time` | Sleep time before retrying to connect.<br>*Defaults to `10`.*<br> **Datatype:** Integer - in seconds. | `sleep_time` | Sleep time before retrying to connect.<br>*Defaults to `10`.*<br> **Datatype:** Integer - in seconds.
| `remove_entry_exit_signals` | Remove signal columns from the dataframe (set them to 0) on dataframe receipt.<br>*Defaults to `False`.*<br> **Datatype:** Boolean. | `remove_entry_exit_signals` | Remove signal columns from the dataframe (set them to 0) on dataframe receipt.<br>*Defaults to `10`.*<br> **Datatype:** Integer - in seconds.
| `message_size_limit` | Size limit per message<br>*Defaults to `8`.*<br> **Datatype:** Integer - Megabytes. | `message_size_limit` | Size limit per message<br>*Defaults to `8`.*<br> **Datatype:** Integer - Megabytes.
Instead of (or as well as) calculating indicators in `populate_indicators()` the follower instance listens on the connection to a producer instance's messages (or multiple producer instances in advanced configurations) and requests the producer's most recently analyzed dataframes for each pair in the active whitelist. Instead of (or as well as) calculating indicators in `populate_indicators()` the follower instance listens on the connection to a producer instance's messages (or multiple producer instances in advanced configurations) and requests the producer's most recently analyzed dataframes for each pair in the active whitelist.

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@ -1,6 +1,6 @@
markdown==3.3.7 markdown==3.3.7
mkdocs==1.4.2 mkdocs==1.4.2
mkdocs-material==9.1.6 mkdocs-material==9.1.3
mdx_truly_sane_lists==1.3 mdx_truly_sane_lists==1.3
pymdown-extensions==9.11 pymdown-extensions==9.10
jinja2==3.1.2 jinja2==3.1.2

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@ -9,6 +9,9 @@ This same command can also be used to update freqUI, should there be a new relea
Once the bot is started in trade / dry-run mode (with `freqtrade trade`) - the UI will be available under the configured port below (usually `http://127.0.0.1:8080`). Once the bot is started in trade / dry-run mode (with `freqtrade trade`) - the UI will be available under the configured port below (usually `http://127.0.0.1:8080`).
!!! info "Alpha release"
FreqUI is still considered an alpha release - if you encounter bugs or inconsistencies please open a [FreqUI issue](https://github.com/freqtrade/frequi/issues/new/choose).
!!! Note "developers" !!! Note "developers"
Developers should not use this method, but instead use the method described in the [freqUI repository](https://github.com/freqtrade/frequi) to get the source-code of freqUI. Developers should not use this method, but instead use the method described in the [freqUI repository](https://github.com/freqtrade/frequi) to get the source-code of freqUI.

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@ -23,22 +23,10 @@ These modes can be configured with these values:
'stoploss_on_exchange_limit_ratio': 0.99 'stoploss_on_exchange_limit_ratio': 0.99
``` ```
Stoploss on exchange is only supported for the following exchanges, and not all exchanges support both stop-limit and stop-market. !!! Note
The Order-type will be ignored if only one mode is available. Stoploss on exchange is only supported for Binance (stop-loss-limit), Huobi (stop-limit), Kraken (stop-loss-market, stop-loss-limit), Gate (stop-limit), and Kucoin (stop-limit and stop-market) as of now.
<ins>Do not set too low/tight stoploss value if using stop loss on exchange!</ins>
| Exchange | stop-loss type | If set to low/tight then you have greater risk of missing fill on the order and stoploss will not work.
|----------|-------------|
| Binance | limit |
| Binance Futures | market, limit |
| Huobi | limit |
| kraken | market, limit |
| Gate | limit |
| Okx | limit |
| Kucoin | stop-limit, stop-market|
!!! Note "Tight stoploss"
<ins>Do not set too low/tight stoploss value when using stop loss on exchange!</ins>
If set to low/tight you will have greater risk of missing fill on the order and stoploss will not work.
### stoploss_on_exchange and stoploss_on_exchange_limit_ratio ### stoploss_on_exchange and stoploss_on_exchange_limit_ratio

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@ -51,8 +51,7 @@ During hyperopt, this runs only once at startup.
## Bot loop start ## Bot loop start
A simple callback which is called once at the start of every bot throttling iteration in dry/live mode (roughly every 5 A simple callback which is called once at the start of every bot throttling iteration (roughly every 5 seconds, unless configured differently).
seconds, unless configured differently) or once per candle in backtest/hyperopt mode.
This can be used to perform calculations which are pair independent (apply to all pairs), loading of external data, etc. This can be used to perform calculations which are pair independent (apply to all pairs), loading of external data, etc.
``` python ``` python
@ -62,12 +61,11 @@ class AwesomeStrategy(IStrategy):
# ... populate_* methods # ... populate_* methods
def bot_loop_start(self, current_time: datetime, **kwargs) -> None: def bot_loop_start(self, **kwargs) -> None:
""" """
Called at the start of the bot iteration (one loop). Called at the start of the bot iteration (one loop).
Might be used to perform pair-independent tasks Might be used to perform pair-independent tasks
(e.g. gather some remote resource for comparison) (e.g. gather some remote resource for comparison)
:param current_time: datetime object, containing the current datetime
:param **kwargs: Ensure to keep this here so updates to this won't break your strategy. :param **kwargs: Ensure to keep this here so updates to this won't break your strategy.
""" """
if self.config['runmode'].value in ('live', 'dry_run'): if self.config['runmode'].value in ('live', 'dry_run'):

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@ -279,7 +279,6 @@ Return a summary of your profit/loss and performance.
> ∙ `33.095 EUR` > ∙ `33.095 EUR`
> >
> **Total Trade Count:** `138` > **Total Trade Count:** `138`
> **Bot started:** `2022-07-11 18:40:44`
> **First Trade opened:** `3 days ago` > **First Trade opened:** `3 days ago`
> **Latest Trade opened:** `2 minutes ago` > **Latest Trade opened:** `2 minutes ago`
> **Avg. Duration:** `2:33:45` > **Avg. Duration:** `2:33:45`
@ -293,7 +292,6 @@ The relative profit of `15.2 Σ%` is be based on the starting capital - so in th
Starting capital is either taken from the `available_capital` setting, or calculated by using current wallet size - profits. Starting capital is either taken from the `available_capital` setting, or calculated by using current wallet size - profits.
Profit Factor is calculated as gross profits / gross losses - and should serve as an overall metric for the strategy. Profit Factor is calculated as gross profits / gross losses - and should serve as an overall metric for the strategy.
Max drawdown corresponds to the backtesting metric `Absolute Drawdown (Account)` - calculated as `(Absolute Drawdown) / (DrawdownHigh + startingBalance)`. Max drawdown corresponds to the backtesting metric `Absolute Drawdown (Account)` - calculated as `(Absolute Drawdown) / (DrawdownHigh + startingBalance)`.
Bot started date will refer to the date the bot was first started. For older bots, this will default to the first trade's open date.
### /forceexit <trade_id> ### /forceexit <trade_id>

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@ -1,5 +1,5 @@
""" Freqtrade bot """ """ Freqtrade bot """
__version__ = '2023.4.dev' __version__ = '2023.3.dev'
if 'dev' in __version__: if 'dev' in __version__:
from pathlib import Path from pathlib import Path

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@ -204,14 +204,11 @@ def start_list_data(args: Dict[str, Any]) -> None:
pair, timeframe, candle_type, pair, timeframe, candle_type,
*dhc.ohlcv_data_min_max(pair, timeframe, candle_type) *dhc.ohlcv_data_min_max(pair, timeframe, candle_type)
) for pair, timeframe, candle_type in paircombs] ) for pair, timeframe, candle_type in paircombs]
print(tabulate([ print(tabulate([
(pair, timeframe, candle_type, (pair, timeframe, candle_type,
start.strftime(DATETIME_PRINT_FORMAT), start.strftime(DATETIME_PRINT_FORMAT),
end.strftime(DATETIME_PRINT_FORMAT)) end.strftime(DATETIME_PRINT_FORMAT))
for pair, timeframe, candle_type, start, end in sorted( for pair, timeframe, candle_type, start, end in paircombs1
paircombs1,
key=lambda x: (x[0], timeframe_to_minutes(x[1]), x[2]))
], ],
headers=("Pair", "Timeframe", "Type", 'From', 'To'), headers=("Pair", "Timeframe", "Type", 'From', 'To'),
tablefmt='psql', stralign='right')) tablefmt='psql', stralign='right'))

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@ -116,7 +116,7 @@ class TimeRange:
:param text: value from --timerange :param text: value from --timerange
:return: Start and End range period :return: Start and End range period
""" """
if not text: if text is None:
return TimeRange(None, None, 0, 0) return TimeRange(None, None, 0, 0)
syntax = [(r'^-(\d{8})$', (None, 'date')), syntax = [(r'^-(\d{8})$', (None, 'date')),
(r'^(\d{8})-$', ('date', None)), (r'^(\d{8})-$', ('date', None)),

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@ -36,10 +36,9 @@ AVAILABLE_PAIRLISTS = ['StaticPairList', 'VolumePairList', 'ProducerPairList', '
'AgeFilter', 'OffsetFilter', 'PerformanceFilter', 'AgeFilter', 'OffsetFilter', 'PerformanceFilter',
'PrecisionFilter', 'PriceFilter', 'RangeStabilityFilter', 'PrecisionFilter', 'PriceFilter', 'RangeStabilityFilter',
'ShuffleFilter', 'SpreadFilter', 'VolatilityFilter'] 'ShuffleFilter', 'SpreadFilter', 'VolatilityFilter']
AVAILABLE_PROTECTIONS = ['CooldownPeriod', AVAILABLE_PROTECTIONS = ['CooldownPeriod', 'LowProfitPairs', 'MaxDrawdown', 'StoplossGuard']
'LowProfitPairs', 'MaxDrawdown', 'StoplossGuard'] AVAILABLE_DATAHANDLERS_TRADES = ['json', 'jsongz', 'hdf5']
AVAILABLE_DATAHANDLERS_TRADES = ['json', 'jsongz', 'hdf5', 'feather'] AVAILABLE_DATAHANDLERS = AVAILABLE_DATAHANDLERS_TRADES + ['feather', 'parquet']
AVAILABLE_DATAHANDLERS = AVAILABLE_DATAHANDLERS_TRADES + ['parquet']
BACKTEST_BREAKDOWNS = ['day', 'week', 'month'] BACKTEST_BREAKDOWNS = ['day', 'week', 'month']
BACKTEST_CACHE_AGE = ['none', 'day', 'week', 'month'] BACKTEST_CACHE_AGE = ['none', 'day', 'week', 'month']
BACKTEST_CACHE_DEFAULT = 'day' BACKTEST_CACHE_DEFAULT = 'day'
@ -64,7 +63,6 @@ USERPATH_FREQAIMODELS = 'freqaimodels'
TELEGRAM_SETTING_OPTIONS = ['on', 'off', 'silent'] TELEGRAM_SETTING_OPTIONS = ['on', 'off', 'silent']
WEBHOOK_FORMAT_OPTIONS = ['form', 'json', 'raw'] WEBHOOK_FORMAT_OPTIONS = ['form', 'json', 'raw']
FULL_DATAFRAME_THRESHOLD = 100 FULL_DATAFRAME_THRESHOLD = 100
CUSTOM_TAG_MAX_LENGTH = 255
ENV_VAR_PREFIX = 'FREQTRADE__' ENV_VAR_PREFIX = 'FREQTRADE__'
@ -599,7 +597,7 @@ CONF_SCHEMA = {
"model_type": {"type": "string", "default": "PPO"}, "model_type": {"type": "string", "default": "PPO"},
"policy_type": {"type": "string", "default": "MlpPolicy"}, "policy_type": {"type": "string", "default": "MlpPolicy"},
"net_arch": {"type": "array", "default": [128, 128]}, "net_arch": {"type": "array", "default": [128, 128]},
"randomize_starting_position": {"type": "boolean", "default": False}, "randomize_startinng_position": {"type": "boolean", "default": False},
"model_reward_parameters": { "model_reward_parameters": {
"type": "object", "type": "object",
"properties": { "properties": {

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@ -246,8 +246,14 @@ def _load_backtest_data_df_compatibility(df: pd.DataFrame) -> pd.DataFrame:
""" """
Compatibility support for older backtest data. Compatibility support for older backtest data.
""" """
df['open_date'] = pd.to_datetime(df['open_date'], utc=True) df['open_date'] = pd.to_datetime(df['open_date'],
df['close_date'] = pd.to_datetime(df['close_date'], utc=True) utc=True,
infer_datetime_format=True
)
df['close_date'] = pd.to_datetime(df['close_date'],
utc=True,
infer_datetime_format=True
)
# Compatibility support for pre short Columns # Compatibility support for pre short Columns
if 'is_short' not in df.columns: if 'is_short' not in df.columns:
df['is_short'] = False df['is_short'] = False

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@ -34,7 +34,7 @@ def ohlcv_to_dataframe(ohlcv: list, timeframe: str, pair: str, *,
cols = DEFAULT_DATAFRAME_COLUMNS cols = DEFAULT_DATAFRAME_COLUMNS
df = DataFrame(ohlcv, columns=cols) df = DataFrame(ohlcv, columns=cols)
df['date'] = to_datetime(df['date'], unit='ms', utc=True) df['date'] = to_datetime(df['date'], unit='ms', utc=True, infer_datetime_format=True)
# Some exchanges return int values for Volume and even for OHLC. # Some exchanges return int values for Volume and even for OHLC.
# Convert them since TA-LIB indicators used in the strategy assume floats # Convert them since TA-LIB indicators used in the strategy assume floats

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@ -21,7 +21,6 @@ from freqtrade.exchange import Exchange, timeframe_to_seconds
from freqtrade.exchange.types import OrderBook from freqtrade.exchange.types import OrderBook
from freqtrade.misc import append_candles_to_dataframe from freqtrade.misc import append_candles_to_dataframe
from freqtrade.rpc import RPCManager from freqtrade.rpc import RPCManager
from freqtrade.rpc.rpc_types import RPCAnalyzedDFMsg
from freqtrade.util import PeriodicCache from freqtrade.util import PeriodicCache
@ -119,7 +118,8 @@ class DataProvider:
:param new_candle: This is a new candle :param new_candle: This is a new candle
""" """
if self.__rpc: if self.__rpc:
msg: RPCAnalyzedDFMsg = { self.__rpc.send_msg(
{
'type': RPCMessageType.ANALYZED_DF, 'type': RPCMessageType.ANALYZED_DF,
'data': { 'data': {
'key': pair_key, 'key': pair_key,
@ -127,7 +127,7 @@ class DataProvider:
'la': datetime.now(timezone.utc) 'la': datetime.now(timezone.utc)
} }
} }
self.__rpc.send_msg(msg) )
if new_candle: if new_candle:
self.__rpc.send_msg({ self.__rpc.send_msg({
'type': RPCMessageType.NEW_CANDLE, 'type': RPCMessageType.NEW_CANDLE,

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@ -4,7 +4,7 @@ from typing import Optional
from pandas import DataFrame, read_feather, to_datetime from pandas import DataFrame, read_feather, to_datetime
from freqtrade.configuration import TimeRange from freqtrade.configuration import TimeRange
from freqtrade.constants import DEFAULT_DATAFRAME_COLUMNS, DEFAULT_TRADES_COLUMNS, TradeList from freqtrade.constants import DEFAULT_DATAFRAME_COLUMNS, TradeList
from freqtrade.enums import CandleType from freqtrade.enums import CandleType
from .idatahandler import IDataHandler from .idatahandler import IDataHandler
@ -63,7 +63,10 @@ class FeatherDataHandler(IDataHandler):
pairdata.columns = self._columns pairdata.columns = self._columns
pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float', pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float',
'low': 'float', 'close': 'float', 'volume': 'float'}) 'low': 'float', 'close': 'float', 'volume': 'float'})
pairdata['date'] = to_datetime(pairdata['date'], unit='ms', utc=True) pairdata['date'] = to_datetime(pairdata['date'],
unit='ms',
utc=True,
infer_datetime_format=True)
return pairdata return pairdata
def ohlcv_append( def ohlcv_append(
@ -89,11 +92,12 @@ class FeatherDataHandler(IDataHandler):
:param data: List of Lists containing trade data, :param data: List of Lists containing trade data,
column sequence as in DEFAULT_TRADES_COLUMNS column sequence as in DEFAULT_TRADES_COLUMNS
""" """
filename = self._pair_trades_filename(self._datadir, pair) # filename = self._pair_trades_filename(self._datadir, pair)
self.create_dir_if_needed(filename)
tradesdata = DataFrame(data, columns=DEFAULT_TRADES_COLUMNS) raise NotImplementedError()
tradesdata.to_feather(filename, compression_level=9, compression='lz4') # array = pa.array(data)
# array
# feather.write_feather(data, filename)
def trades_append(self, pair: str, data: TradeList): def trades_append(self, pair: str, data: TradeList):
""" """
@ -112,13 +116,14 @@ class FeatherDataHandler(IDataHandler):
:param timerange: Timerange to load trades for - currently not implemented :param timerange: Timerange to load trades for - currently not implemented
:return: List of trades :return: List of trades
""" """
filename = self._pair_trades_filename(self._datadir, pair) raise NotImplementedError()
if not filename.exists(): # filename = self._pair_trades_filename(self._datadir, pair)
return [] # tradesdata = misc.file_load_json(filename)
tradesdata = read_feather(filename) # if not tradesdata:
# return []
return tradesdata.values.tolist() # return tradesdata
@classmethod @classmethod
def _get_file_extension(cls): def _get_file_extension(cls):

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@ -75,7 +75,10 @@ class JsonDataHandler(IDataHandler):
return DataFrame(columns=self._columns) return DataFrame(columns=self._columns)
pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float', pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float',
'low': 'float', 'close': 'float', 'volume': 'float'}) 'low': 'float', 'close': 'float', 'volume': 'float'})
pairdata['date'] = to_datetime(pairdata['date'], unit='ms', utc=True) pairdata['date'] = to_datetime(pairdata['date'],
unit='ms',
utc=True,
infer_datetime_format=True)
return pairdata return pairdata
def ohlcv_append( def ohlcv_append(

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@ -62,7 +62,10 @@ class ParquetDataHandler(IDataHandler):
pairdata.columns = self._columns pairdata.columns = self._columns
pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float', pairdata = pairdata.astype(dtype={'open': 'float', 'high': 'float',
'low': 'float', 'close': 'float', 'volume': 'float'}) 'low': 'float', 'close': 'float', 'volume': 'float'})
pairdata['date'] = to_datetime(pairdata['date'], unit='ms', utc=True) pairdata['date'] = to_datetime(pairdata['date'],
unit='ms',
utc=True,
infer_datetime_format=True)
return pairdata return pairdata
def ohlcv_append( def ohlcv_append(

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@ -8,15 +8,15 @@ from freqtrade.exchange.bitpanda import Bitpanda
from freqtrade.exchange.bittrex import Bittrex from freqtrade.exchange.bittrex import Bittrex
from freqtrade.exchange.bybit import Bybit from freqtrade.exchange.bybit import Bybit
from freqtrade.exchange.coinbasepro import Coinbasepro from freqtrade.exchange.coinbasepro import Coinbasepro
from freqtrade.exchange.exchange_utils import (ROUND_DOWN, ROUND_UP, amount_to_contract_precision, from freqtrade.exchange.exchange_utils import (amount_to_contract_precision, amount_to_contracts,
amount_to_contracts, amount_to_precision, amount_to_precision, available_exchanges,
available_exchanges, ccxt_exchanges, ccxt_exchanges, contracts_to_amount,
contracts_to_amount, date_minus_candles, date_minus_candles, is_exchange_known_ccxt,
is_exchange_known_ccxt, market_is_active, market_is_active, price_to_precision,
price_to_precision, timeframe_to_minutes, timeframe_to_minutes, timeframe_to_msecs,
timeframe_to_msecs, timeframe_to_next_date, timeframe_to_next_date, timeframe_to_prev_date,
timeframe_to_prev_date, timeframe_to_seconds, timeframe_to_seconds, validate_exchange,
validate_exchange, validate_exchanges) validate_exchanges)
from freqtrade.exchange.gate import Gate from freqtrade.exchange.gate import Gate
from freqtrade.exchange.hitbtc import Hitbtc from freqtrade.exchange.hitbtc import Hitbtc
from freqtrade.exchange.huobi import Huobi from freqtrade.exchange.huobi import Huobi

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@ -7,6 +7,7 @@ from typing import Dict, List, Optional, Tuple
import arrow import arrow
import ccxt import ccxt
from freqtrade.constants import BuySell
from freqtrade.enums import CandleType, MarginMode, PriceType, TradingMode from freqtrade.enums import CandleType, MarginMode, PriceType, TradingMode
from freqtrade.exceptions import DDosProtection, OperationalException, TemporaryError from freqtrade.exceptions import DDosProtection, OperationalException, TemporaryError
from freqtrade.exchange import Exchange from freqtrade.exchange import Exchange
@ -48,6 +49,26 @@ class Binance(Exchange):
(TradingMode.FUTURES, MarginMode.ISOLATED) (TradingMode.FUTURES, MarginMode.ISOLATED)
] ]
def _get_params(
self,
side: BuySell,
ordertype: str,
leverage: float,
reduceOnly: bool,
time_in_force: str = 'GTC',
) -> Dict:
params = super()._get_params(side, ordertype, leverage, reduceOnly, time_in_force)
if (
time_in_force == 'PO'
and ordertype != 'market'
and self.trading_mode == TradingMode.SPOT
# Only spot can do post only orders
):
params.pop('timeInForce')
params['postOnly'] = True
return params
def get_tickers(self, symbols: Optional[List[str]] = None, cached: bool = False) -> Tickers: def get_tickers(self, symbols: Optional[List[str]] = None, cached: bool = False) -> Tickers:
tickers = super().get_tickers(symbols=symbols, cached=cached) tickers = super().get_tickers(symbols=symbols, cached=cached)
if self.trading_mode == TradingMode.FUTURES: if self.trading_mode == TradingMode.FUTURES:

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@ -30,14 +30,13 @@ from freqtrade.exceptions import (DDosProtection, ExchangeError, InsufficientFun
RetryableOrderError, TemporaryError) RetryableOrderError, TemporaryError)
from freqtrade.exchange.common import (API_FETCH_ORDER_RETRY_COUNT, remove_credentials, retrier, from freqtrade.exchange.common import (API_FETCH_ORDER_RETRY_COUNT, remove_credentials, retrier,
retrier_async) retrier_async)
from freqtrade.exchange.exchange_utils import (ROUND, ROUND_DOWN, ROUND_UP, CcxtModuleType, from freqtrade.exchange.exchange_utils import (CcxtModuleType, amount_to_contract_precision,
amount_to_contract_precision, amount_to_contracts, amount_to_contracts, amount_to_precision,
amount_to_precision, contracts_to_amount, contracts_to_amount, date_minus_candles,
date_minus_candles, is_exchange_known_ccxt, is_exchange_known_ccxt, market_is_active,
market_is_active, price_to_precision, price_to_precision, timeframe_to_minutes,
timeframe_to_minutes, timeframe_to_msecs, timeframe_to_msecs, timeframe_to_next_date,
timeframe_to_next_date, timeframe_to_prev_date, timeframe_to_prev_date, timeframe_to_seconds)
timeframe_to_seconds)
from freqtrade.exchange.types import OHLCVResponse, OrderBook, Ticker, Tickers from freqtrade.exchange.types import OHLCVResponse, OrderBook, Ticker, Tickers
from freqtrade.misc import (chunks, deep_merge_dicts, file_dump_json, file_load_json, from freqtrade.misc import (chunks, deep_merge_dicts, file_dump_json, file_load_json,
safe_value_fallback2) safe_value_fallback2)
@ -60,7 +59,6 @@ class Exchange:
# or by specifying them in the configuration. # or by specifying them in the configuration.
_ft_has_default: Dict = { _ft_has_default: Dict = {
"stoploss_on_exchange": False, "stoploss_on_exchange": False,
"stop_price_param": "stopPrice",
"order_time_in_force": ["GTC"], "order_time_in_force": ["GTC"],
"ohlcv_params": {}, "ohlcv_params": {},
"ohlcv_candle_limit": 500, "ohlcv_candle_limit": 500,
@ -82,8 +80,6 @@ class Exchange:
"fee_cost_in_contracts": False, # Fee cost needs contract conversion "fee_cost_in_contracts": False, # Fee cost needs contract conversion
"needs_trading_fees": False, # use fetch_trading_fees to cache fees "needs_trading_fees": False, # use fetch_trading_fees to cache fees
"order_props_in_contracts": ['amount', 'cost', 'filled', 'remaining'], "order_props_in_contracts": ['amount', 'cost', 'filled', 'remaining'],
# Override createMarketBuyOrderRequiresPrice where ccxt has it wrong
"marketOrderRequiresPrice": False,
} }
_ft_has: Dict = {} _ft_has: Dict = {}
_ft_has_futures: Dict = {} _ft_has_futures: Dict = {}
@ -209,8 +205,6 @@ class Exchange:
and self._api_async.session): and self._api_async.session):
logger.debug("Closing async ccxt session.") logger.debug("Closing async ccxt session.")
self.loop.run_until_complete(self._api_async.close()) self.loop.run_until_complete(self._api_async.close())
if self.loop and not self.loop.is_closed():
self.loop.close()
def validate_config(self, config): def validate_config(self, config):
# Check if timeframe is available # Check if timeframe is available
@ -736,14 +730,12 @@ class Exchange:
""" """
return amount_to_precision(amount, self.get_precision_amount(pair), self.precisionMode) return amount_to_precision(amount, self.get_precision_amount(pair), self.precisionMode)
def price_to_precision(self, pair: str, price: float, *, rounding_mode: int = ROUND) -> float: def price_to_precision(self, pair: str, price: float) -> float:
""" """
Returns the price rounded to the precision the Exchange accepts. Returns the price rounded up to the precision the Exchange accepts.
The default price_rounding_mode in conf is ROUND. Rounds up
For stoploss calculations, must use ROUND_UP for longs, and ROUND_DOWN for shorts.
""" """
return price_to_precision(price, self.get_precision_price(pair), return price_to_precision(price, self.get_precision_price(pair), self.precisionMode)
self.precisionMode, rounding_mode=rounding_mode)
def price_get_one_pip(self, pair: str, price: float) -> float: def price_get_one_pip(self, pair: str, price: float) -> float:
""" """
@ -766,12 +758,12 @@ class Exchange:
return self._get_stake_amount_limit(pair, price, stoploss, 'min', leverage) return self._get_stake_amount_limit(pair, price, stoploss, 'min', leverage)
def get_max_pair_stake_amount(self, pair: str, price: float, leverage: float = 1.0) -> float: def get_max_pair_stake_amount(self, pair: str, price: float, leverage: float = 1.0) -> float:
max_stake_amount = self._get_stake_amount_limit(pair, price, 0.0, 'max', leverage) max_stake_amount = self._get_stake_amount_limit(pair, price, 0.0, 'max')
if max_stake_amount is None: if max_stake_amount is None:
# * Should never be executed # * Should never be executed
raise OperationalException(f'{self.name}.get_max_pair_stake_amount should' raise OperationalException(f'{self.name}.get_max_pair_stake_amount should'
'never set max_stake_amount to None') 'never set max_stake_amount to None')
return max_stake_amount return max_stake_amount / leverage
def _get_stake_amount_limit( def _get_stake_amount_limit(
self, self,
@ -789,41 +781,43 @@ class Exchange:
except KeyError: except KeyError:
raise ValueError(f"Can't get market information for symbol {pair}") raise ValueError(f"Can't get market information for symbol {pair}")
if isMin:
# reserve some percent defined in config (5% default) + stoploss
margin_reserve: float = 1.0 + self._config.get('amount_reserve_percent',
DEFAULT_AMOUNT_RESERVE_PERCENT)
stoploss_reserve = (
margin_reserve / (1 - abs(stoploss)) if abs(stoploss) != 1 else 1.5
)
# it should not be more than 50%
stoploss_reserve = max(min(stoploss_reserve, 1.5), 1)
else:
margin_reserve = 1.0
stoploss_reserve = 1.0
stake_limits = [] stake_limits = []
limits = market['limits'] limits = market['limits']
if (limits['cost'][limit] is not None): if (limits['cost'][limit] is not None):
stake_limits.append( stake_limits.append(
self._contracts_to_amount(pair, limits['cost'][limit]) * stoploss_reserve self._contracts_to_amount(
pair,
limits['cost'][limit]
)
) )
if (limits['amount'][limit] is not None): if (limits['amount'][limit] is not None):
stake_limits.append( stake_limits.append(
self._contracts_to_amount(pair, limits['amount'][limit]) * price * margin_reserve self._contracts_to_amount(
pair,
limits['amount'][limit] * price
)
) )
if not stake_limits: if not stake_limits:
return None if isMin else float('inf') return None if isMin else float('inf')
# reserve some percent defined in config (5% default) + stoploss
amount_reserve_percent = 1.0 + self._config.get('amount_reserve_percent',
DEFAULT_AMOUNT_RESERVE_PERCENT)
amount_reserve_percent = (
amount_reserve_percent / (1 - abs(stoploss)) if abs(stoploss) != 1 else 1.5
)
# it should not be more than 50%
amount_reserve_percent = max(min(amount_reserve_percent, 1.5), 1)
# The value returned should satisfy both limits: for amount (base currency) and # The value returned should satisfy both limits: for amount (base currency) and
# for cost (quote, stake currency), so max() is used here. # for cost (quote, stake currency), so max() is used here.
# See also #2575 at github. # See also #2575 at github.
return self._get_stake_amount_considering_leverage( return self._get_stake_amount_considering_leverage(
max(stake_limits) if isMin else min(stake_limits), max(stake_limits) * amount_reserve_percent,
leverage or 1.0 leverage or 1.0
) ) if isMin else min(stake_limits)
def _get_stake_amount_considering_leverage(self, stake_amount: float, leverage: float) -> float: def _get_stake_amount_considering_leverage(self, stake_amount: float, leverage: float) -> float:
""" """
@ -1044,13 +1038,6 @@ class Exchange:
params.update({'reduceOnly': True}) params.update({'reduceOnly': True})
return params return params
def _order_needs_price(self, ordertype: str) -> bool:
return (
ordertype != 'market'
or self._api.options.get("createMarketBuyOrderRequiresPrice", False)
or self._ft_has.get('marketOrderRequiresPrice', False)
)
def create_order( def create_order(
self, self,
*, *,
@ -1073,7 +1060,8 @@ class Exchange:
try: try:
# Set the precision for amount and price(rate) as accepted by the exchange # Set the precision for amount and price(rate) as accepted by the exchange
amount = self.amount_to_precision(pair, self._amount_to_contracts(pair, amount)) amount = self.amount_to_precision(pair, self._amount_to_contracts(pair, amount))
needs_price = self._order_needs_price(ordertype) needs_price = (ordertype != 'market'
or self._api.options.get("createMarketBuyOrderRequiresPrice", False))
rate_for_order = self.price_to_precision(pair, rate) if needs_price else None rate_for_order = self.price_to_precision(pair, rate) if needs_price else None
if not reduceOnly: if not reduceOnly:
@ -1116,11 +1104,11 @@ class Exchange:
""" """
if not self._ft_has.get('stoploss_on_exchange'): if not self._ft_has.get('stoploss_on_exchange'):
raise OperationalException(f"stoploss is not implemented for {self.name}.") raise OperationalException(f"stoploss is not implemented for {self.name}.")
price_param = self._ft_has['stop_price_param']
return ( return (
order.get(price_param, None) is None order.get('stopPrice', None) is None
or ((side == "sell" and stop_loss > float(order[price_param])) or or ((side == "sell" and stop_loss > float(order['stopPrice'])) or
(side == "buy" and stop_loss < float(order[price_param]))) (side == "buy" and stop_loss < float(order['stopPrice'])))
) )
def _get_stop_order_type(self, user_order_type) -> Tuple[str, str]: def _get_stop_order_type(self, user_order_type) -> Tuple[str, str]:
@ -1160,8 +1148,8 @@ class Exchange:
def _get_stop_params(self, side: BuySell, ordertype: str, stop_price: float) -> Dict: def _get_stop_params(self, side: BuySell, ordertype: str, stop_price: float) -> Dict:
params = self._params.copy() params = self._params.copy()
# Verify if stopPrice works for your exchange, else configure stop_price_param # Verify if stopPrice works for your exchange!
params.update({self._ft_has['stop_price_param']: stop_price}) params.update({'stopPrice': stop_price})
return params return params
@retrier(retries=0) @retrier(retries=0)
@ -1187,12 +1175,12 @@ class Exchange:
user_order_type = order_types.get('stoploss', 'market') user_order_type = order_types.get('stoploss', 'market')
ordertype, user_order_type = self._get_stop_order_type(user_order_type) ordertype, user_order_type = self._get_stop_order_type(user_order_type)
round_mode = ROUND_DOWN if side == 'buy' else ROUND_UP
stop_price_norm = self.price_to_precision(pair, stop_price, rounding_mode=round_mode) stop_price_norm = self.price_to_precision(pair, stop_price)
limit_rate = None limit_rate = None
if user_order_type == 'limit': if user_order_type == 'limit':
limit_rate = self._get_stop_limit_rate(stop_price, order_types, side) limit_rate = self._get_stop_limit_rate(stop_price, order_types, side)
limit_rate = self.price_to_precision(pair, limit_rate, rounding_mode=round_mode) limit_rate = self.price_to_precision(pair, limit_rate)
if self._config['dry_run']: if self._config['dry_run']:
dry_order = self.create_dry_run_order( dry_order = self.create_dry_run_order(

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@ -2,12 +2,11 @@
Exchange support utils Exchange support utils
""" """
from datetime import datetime, timedelta, timezone from datetime import datetime, timedelta, timezone
from math import ceil, floor from math import ceil
from typing import Any, Dict, List, Optional, Tuple from typing import Any, Dict, List, Optional, Tuple
import ccxt import ccxt
from ccxt import (DECIMAL_PLACES, ROUND, ROUND_DOWN, ROUND_UP, SIGNIFICANT_DIGITS, TICK_SIZE, from ccxt import ROUND_DOWN, ROUND_UP, TICK_SIZE, TRUNCATE, decimal_to_precision
TRUNCATE, decimal_to_precision)
from freqtrade.exchange.common import BAD_EXCHANGES, EXCHANGE_HAS_OPTIONAL, EXCHANGE_HAS_REQUIRED from freqtrade.exchange.common import BAD_EXCHANGES, EXCHANGE_HAS_OPTIONAL, EXCHANGE_HAS_REQUIRED
from freqtrade.util import FtPrecise from freqtrade.util import FtPrecise
@ -220,51 +219,35 @@ def amount_to_contract_precision(
return amount return amount
def price_to_precision( def price_to_precision(price: float, price_precision: Optional[float],
price: float, precisionMode: Optional[int]) -> float:
price_precision: Optional[float],
precisionMode: Optional[int],
*,
rounding_mode: int = ROUND,
) -> float:
""" """
Returns the price rounded to the precision the Exchange accepts. Returns the price rounded up to the precision the Exchange accepts.
Partial Re-implementation of ccxt internal method decimal_to_precision(), Partial Re-implementation of ccxt internal method decimal_to_precision(),
which does not support rounding up. which does not support rounding up
For stoploss calculations, must use ROUND_UP for longs, and ROUND_DOWN for shorts.
TODO: If ccxt supports ROUND_UP for decimal_to_precision(), we could remove this and TODO: If ccxt supports ROUND_UP for decimal_to_precision(), we could remove this and
align with amount_to_precision(). align with amount_to_precision().
!!! Rounds up
:param price: price to convert :param price: price to convert
:param price_precision: price precision to use. Used from markets[pair]['precision']['price'] :param price_precision: price precision to use. Used from markets[pair]['precision']['price']
:param precisionMode: precision mode to use. Should be used from precisionMode :param precisionMode: precision mode to use. Should be used from precisionMode
one of ccxt's DECIMAL_PLACES, SIGNIFICANT_DIGITS, or TICK_SIZE one of ccxt's DECIMAL_PLACES, SIGNIFICANT_DIGITS, or TICK_SIZE
:param rounding_mode: rounding mode to use. Defaults to ROUND
:return: price rounded up to the precision the Exchange accepts :return: price rounded up to the precision the Exchange accepts
""" """
if price_precision is not None and precisionMode is not None: if price_precision is not None and precisionMode is not None:
# price = float(decimal_to_precision(price, rounding_mode=ROUND,
# precision=price_precision,
# counting_mode=self.precisionMode,
# ))
if precisionMode == TICK_SIZE: if precisionMode == TICK_SIZE:
if rounding_mode == ROUND:
ticks = price / price_precision
rounded_ticks = round(ticks)
return rounded_ticks * price_precision
precision = FtPrecise(price_precision) precision = FtPrecise(price_precision)
price_str = FtPrecise(price) price_str = FtPrecise(price)
missing = price_str % precision missing = price_str % precision
if not missing == FtPrecise("0"): if not missing == FtPrecise("0"):
return round(float(str(price_str - missing + precision)), 14) price = round(float(str(price_str - missing + precision)), 14)
return price else:
elif precisionMode in (SIGNIFICANT_DIGITS, DECIMAL_PLACES): symbol_prec = price_precision
ndigits = round(price_precision) big_price = price * pow(10, symbol_prec)
if rounding_mode == ROUND: price = ceil(big_price) / pow(10, symbol_prec)
return round(price, ndigits)
ticks = price * (10**ndigits)
if rounding_mode == ROUND_UP:
return ceil(ticks) / (10**ndigits)
if rounding_mode == TRUNCATE:
return int(ticks) / (10**ndigits)
if rounding_mode == ROUND_DOWN:
return floor(ticks) / (10**ndigits)
raise ValueError(f"Unknown rounding_mode {rounding_mode}")
raise ValueError(f"Unknown precisionMode {precisionMode}")
return price return price

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@ -5,6 +5,7 @@ from typing import Any, Dict, List, Optional, Tuple
from freqtrade.constants import BuySell from freqtrade.constants import BuySell
from freqtrade.enums import MarginMode, PriceType, TradingMode from freqtrade.enums import MarginMode, PriceType, TradingMode
from freqtrade.exceptions import OperationalException
from freqtrade.exchange import Exchange from freqtrade.exchange import Exchange
from freqtrade.misc import safe_value_fallback2 from freqtrade.misc import safe_value_fallback2
@ -27,12 +28,10 @@ class Gate(Exchange):
"order_time_in_force": ['GTC', 'IOC'], "order_time_in_force": ['GTC', 'IOC'],
"stoploss_order_types": {"limit": "limit"}, "stoploss_order_types": {"limit": "limit"},
"stoploss_on_exchange": True, "stoploss_on_exchange": True,
"marketOrderRequiresPrice": True,
} }
_ft_has_futures: Dict = { _ft_has_futures: Dict = {
"needs_trading_fees": True, "needs_trading_fees": True,
"marketOrderRequiresPrice": False,
"tickers_have_bid_ask": False, "tickers_have_bid_ask": False,
"fee_cost_in_contracts": False, # Set explicitly to false for clarity "fee_cost_in_contracts": False, # Set explicitly to false for clarity
"order_props_in_contracts": ['amount', 'filled', 'remaining'], "order_props_in_contracts": ['amount', 'filled', 'remaining'],
@ -51,6 +50,14 @@ class Gate(Exchange):
(TradingMode.FUTURES, MarginMode.ISOLATED) (TradingMode.FUTURES, MarginMode.ISOLATED)
] ]
def validate_ordertypes(self, order_types: Dict) -> None:
if self.trading_mode != TradingMode.FUTURES:
if any(v == 'market' for k, v in order_types.items()):
raise OperationalException(
f'Exchange {self.name} does not support market orders.')
super().validate_stop_ordertypes(order_types)
def _get_params( def _get_params(
self, self,
side: BuySell, side: BuySell,

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@ -12,7 +12,6 @@ from freqtrade.exceptions import (DDosProtection, InsufficientFundsError, Invali
OperationalException, TemporaryError) OperationalException, TemporaryError)
from freqtrade.exchange import Exchange from freqtrade.exchange import Exchange
from freqtrade.exchange.common import retrier from freqtrade.exchange.common import retrier
from freqtrade.exchange.exchange_utils import ROUND_DOWN, ROUND_UP
from freqtrade.exchange.types import Tickers from freqtrade.exchange.types import Tickers
@ -110,7 +109,6 @@ class Kraken(Exchange):
if self.trading_mode == TradingMode.FUTURES: if self.trading_mode == TradingMode.FUTURES:
params.update({'reduceOnly': True}) params.update({'reduceOnly': True})
round_mode = ROUND_DOWN if side == 'buy' else ROUND_UP
if order_types.get('stoploss', 'market') == 'limit': if order_types.get('stoploss', 'market') == 'limit':
ordertype = "stop-loss-limit" ordertype = "stop-loss-limit"
limit_price_pct = order_types.get('stoploss_on_exchange_limit_ratio', 0.99) limit_price_pct = order_types.get('stoploss_on_exchange_limit_ratio', 0.99)
@ -118,11 +116,11 @@ class Kraken(Exchange):
limit_rate = stop_price * limit_price_pct limit_rate = stop_price * limit_price_pct
else: else:
limit_rate = stop_price * (2 - limit_price_pct) limit_rate = stop_price * (2 - limit_price_pct)
params['price2'] = self.price_to_precision(pair, limit_rate, rounding_mode=round_mode) params['price2'] = self.price_to_precision(pair, limit_rate)
else: else:
ordertype = "stop-loss" ordertype = "stop-loss"
stop_price = self.price_to_precision(pair, stop_price, rounding_mode=round_mode) stop_price = self.price_to_precision(pair, stop_price)
if self._config['dry_run']: if self._config['dry_run']:
dry_order = self.create_dry_run_order( dry_order = self.create_dry_run_order(

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@ -28,7 +28,6 @@ class Okx(Exchange):
"funding_fee_timeframe": "8h", "funding_fee_timeframe": "8h",
"stoploss_order_types": {"limit": "limit"}, "stoploss_order_types": {"limit": "limit"},
"stoploss_on_exchange": True, "stoploss_on_exchange": True,
"stop_price_param": "stopLossPrice",
} }
_ft_has_futures: Dict = { _ft_has_futures: Dict = {
"tickers_have_quoteVolume": False, "tickers_have_quoteVolume": False,
@ -163,12 +162,29 @@ class Okx(Exchange):
return pair_tiers[-1]['maxNotional'] / leverage return pair_tiers[-1]['maxNotional'] / leverage
def _get_stop_params(self, side: BuySell, ordertype: str, stop_price: float) -> Dict: def _get_stop_params(self, side: BuySell, ordertype: str, stop_price: float) -> Dict:
params = super()._get_stop_params(side, ordertype, stop_price)
params = self._params.copy()
# Verify if stopPrice works for your exchange!
params.update({'stopLossPrice': stop_price})
if self.trading_mode == TradingMode.FUTURES and self.margin_mode: if self.trading_mode == TradingMode.FUTURES and self.margin_mode:
params['tdMode'] = self.margin_mode.value params['tdMode'] = self.margin_mode.value
params['posSide'] = self._get_posSide(side, True) params['posSide'] = self._get_posSide(side, True)
return params return params
def stoploss_adjust(self, stop_loss: float, order: Dict, side: str) -> bool:
"""
OKX uses non-default stoploss price naming.
"""
if not self._ft_has.get('stoploss_on_exchange'):
raise OperationalException(f"stoploss is not implemented for {self.name}.")
return (
order.get('stopLossPrice', None) is None
or ((side == "sell" and stop_loss > float(order['stopLossPrice'])) or
(side == "buy" and stop_loss < float(order['stopLossPrice'])))
)
def fetch_stoploss_order(self, order_id: str, pair: str, params: Dict = {}) -> Dict: def fetch_stoploss_order(self, order_id: str, pair: str, params: Dict = {}) -> Dict:
if self._config['dry_run']: if self._config['dry_run']:
return self.fetch_dry_run_order(order_id) return self.fetch_dry_run_order(order_id)

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@ -66,7 +66,7 @@ class Base3ActionRLEnv(BaseEnvironment):
elif action == Actions.Sell.value and not self.can_short: elif action == Actions.Sell.value and not self.can_short:
self._update_total_profit() self._update_total_profit()
self._position = Positions.Neutral self._position = Positions.Neutral
trade_type = "exit" trade_type = "neutral"
self._last_trade_tick = None self._last_trade_tick = None
else: else:
print("case not defined") print("case not defined")
@ -74,7 +74,7 @@ class Base3ActionRLEnv(BaseEnvironment):
if trade_type is not None: if trade_type is not None:
self.trade_history.append( self.trade_history.append(
{'price': self.current_price(), 'index': self._current_tick, {'price': self.current_price(), 'index': self._current_tick,
'type': trade_type, 'profit': self.get_unrealized_profit()}) 'type': trade_type})
if (self._total_profit < self.max_drawdown or if (self._total_profit < self.max_drawdown or
self._total_unrealized_profit < self.max_drawdown): self._total_unrealized_profit < self.max_drawdown):

View File

@ -52,6 +52,16 @@ class Base4ActionRLEnv(BaseEnvironment):
trade_type = None trade_type = None
if self.is_tradesignal(action): if self.is_tradesignal(action):
"""
Action: Neutral, position: Long -> Close Long
Action: Neutral, position: Short -> Close Short
Action: Long, position: Neutral -> Open Long
Action: Long, position: Short -> Close Short and Open Long
Action: Short, position: Neutral -> Open Short
Action: Short, position: Long -> Close Long and Open Short
"""
if action == Actions.Neutral.value: if action == Actions.Neutral.value:
self._position = Positions.Neutral self._position = Positions.Neutral
@ -59,16 +69,16 @@ class Base4ActionRLEnv(BaseEnvironment):
self._last_trade_tick = None self._last_trade_tick = None
elif action == Actions.Long_enter.value: elif action == Actions.Long_enter.value:
self._position = Positions.Long self._position = Positions.Long
trade_type = "enter_long" trade_type = "long"
self._last_trade_tick = self._current_tick self._last_trade_tick = self._current_tick
elif action == Actions.Short_enter.value: elif action == Actions.Short_enter.value:
self._position = Positions.Short self._position = Positions.Short
trade_type = "enter_short" trade_type = "short"
self._last_trade_tick = self._current_tick self._last_trade_tick = self._current_tick
elif action == Actions.Exit.value: elif action == Actions.Exit.value:
self._update_total_profit() self._update_total_profit()
self._position = Positions.Neutral self._position = Positions.Neutral
trade_type = "exit" trade_type = "neutral"
self._last_trade_tick = None self._last_trade_tick = None
else: else:
print("case not defined") print("case not defined")
@ -76,7 +86,7 @@ class Base4ActionRLEnv(BaseEnvironment):
if trade_type is not None: if trade_type is not None:
self.trade_history.append( self.trade_history.append(
{'price': self.current_price(), 'index': self._current_tick, {'price': self.current_price(), 'index': self._current_tick,
'type': trade_type, 'profit': self.get_unrealized_profit()}) 'type': trade_type})
if (self._total_profit < self.max_drawdown or if (self._total_profit < self.max_drawdown or
self._total_unrealized_profit < self.max_drawdown): self._total_unrealized_profit < self.max_drawdown):

View File

@ -53,6 +53,16 @@ class Base5ActionRLEnv(BaseEnvironment):
trade_type = None trade_type = None
if self.is_tradesignal(action): if self.is_tradesignal(action):
"""
Action: Neutral, position: Long -> Close Long
Action: Neutral, position: Short -> Close Short
Action: Long, position: Neutral -> Open Long
Action: Long, position: Short -> Close Short and Open Long
Action: Short, position: Neutral -> Open Short
Action: Short, position: Long -> Close Long and Open Short
"""
if action == Actions.Neutral.value: if action == Actions.Neutral.value:
self._position = Positions.Neutral self._position = Positions.Neutral
@ -60,21 +70,21 @@ class Base5ActionRLEnv(BaseEnvironment):
self._last_trade_tick = None self._last_trade_tick = None
elif action == Actions.Long_enter.value: elif action == Actions.Long_enter.value:
self._position = Positions.Long self._position = Positions.Long
trade_type = "enter_long" trade_type = "long"
self._last_trade_tick = self._current_tick self._last_trade_tick = self._current_tick
elif action == Actions.Short_enter.value: elif action == Actions.Short_enter.value:
self._position = Positions.Short self._position = Positions.Short
trade_type = "enter_short" trade_type = "short"
self._last_trade_tick = self._current_tick self._last_trade_tick = self._current_tick
elif action == Actions.Long_exit.value: elif action == Actions.Long_exit.value:
self._update_total_profit() self._update_total_profit()
self._position = Positions.Neutral self._position = Positions.Neutral
trade_type = "exit_long" trade_type = "neutral"
self._last_trade_tick = None self._last_trade_tick = None
elif action == Actions.Short_exit.value: elif action == Actions.Short_exit.value:
self._update_total_profit() self._update_total_profit()
self._position = Positions.Neutral self._position = Positions.Neutral
trade_type = "exit_short" trade_type = "neutral"
self._last_trade_tick = None self._last_trade_tick = None
else: else:
print("case not defined") print("case not defined")
@ -82,7 +92,7 @@ class Base5ActionRLEnv(BaseEnvironment):
if trade_type is not None: if trade_type is not None:
self.trade_history.append( self.trade_history.append(
{'price': self.current_price(), 'index': self._current_tick, {'price': self.current_price(), 'index': self._current_tick,
'type': trade_type, 'profit': self.get_unrealized_profit()}) 'type': trade_type})
if (self._total_profit < self.max_drawdown or if (self._total_profit < self.max_drawdown or
self._total_unrealized_profit < self.max_drawdown): self._total_unrealized_profit < self.max_drawdown):

View File

@ -1,147 +0,0 @@
import logging
from typing import Dict, List, Tuple
import numpy as np
import numpy.typing as npt
import pandas as pd
import torch
from pandas import DataFrame
from torch.nn import functional as F
from freqtrade.exceptions import OperationalException
from freqtrade.freqai.base_models.BasePyTorchModel import BasePyTorchModel
from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
logger = logging.getLogger(__name__)
class BasePyTorchClassifier(BasePyTorchModel):
"""
A PyTorch implementation of a classifier.
User must implement fit method
Important!
- User must declare the target class names in the strategy,
under IStrategy.set_freqai_targets method.
for example, in your strategy:
```
def set_freqai_targets(self, dataframe: DataFrame, metadata: Dict, **kwargs):
self.freqai.class_names = ["down", "up"]
dataframe['&s-up_or_down'] = np.where(dataframe["close"].shift(-100) >
dataframe["close"], 'up', 'down')
return dataframe
"""
def __init__(self, **kwargs):
super().__init__(**kwargs)
self.class_name_to_index = None
self.index_to_class_name = None
def predict(
self, unfiltered_df: DataFrame, dk: FreqaiDataKitchen, **kwargs
) -> Tuple[DataFrame, npt.NDArray[np.int_]]:
"""
Filter the prediction features data and predict with it.
:param unfiltered_df: Full dataframe for the current backtest period.
:return:
:pred_df: dataframe containing the predictions
:do_predict: np.array of 1s and 0s to indicate places where freqai needed to remove
data (NaNs) or felt uncertain about data (PCA and DI index)
:raises ValueError: if 'class_names' doesn't exist in model meta_data.
"""
class_names = self.model.model_meta_data.get("class_names", None)
if not class_names:
raise ValueError(
"Missing class names. "
"self.model.model_meta_data['class_names'] is None."
)
if not self.class_name_to_index:
self.init_class_names_to_index_mapping(class_names)
dk.find_features(unfiltered_df)
filtered_df, _ = dk.filter_features(
unfiltered_df, dk.training_features_list, training_filter=False
)
filtered_df = dk.normalize_data_from_metadata(filtered_df)
dk.data_dictionary["prediction_features"] = filtered_df
self.data_cleaning_predict(dk)
x = self.data_convertor.convert_x(
dk.data_dictionary["prediction_features"],
device=self.device
)
logits = self.model.model(x)
probs = F.softmax(logits, dim=-1)
predicted_classes = torch.argmax(probs, dim=-1)
predicted_classes_str = self.decode_class_names(predicted_classes)
pred_df_prob = DataFrame(probs.detach().numpy(), columns=class_names)
pred_df = DataFrame(predicted_classes_str, columns=[dk.label_list[0]])
pred_df = pd.concat([pred_df, pred_df_prob], axis=1)
return (pred_df, dk.do_predict)
def encode_class_names(
self,
data_dictionary: Dict[str, pd.DataFrame],
dk: FreqaiDataKitchen,
class_names: List[str],
):
"""
encode class name, str -> int
assuming first column of *_labels data frame to be the target column
containing the class names
"""
target_column_name = dk.label_list[0]
for split in self.splits:
label_df = data_dictionary[f"{split}_labels"]
self.assert_valid_class_names(label_df[target_column_name], class_names)
label_df[target_column_name] = list(
map(lambda x: self.class_name_to_index[x], label_df[target_column_name])
)
@staticmethod
def assert_valid_class_names(
target_column: pd.Series,
class_names: List[str]
):
non_defined_labels = set(target_column) - set(class_names)
if len(non_defined_labels) != 0:
raise OperationalException(
f"Found non defined labels: {non_defined_labels}, ",
f"expecting labels: {class_names}"
)
def decode_class_names(self, class_ints: torch.Tensor) -> List[str]:
"""
decode class name, int -> str
"""
return list(map(lambda x: self.index_to_class_name[x.item()], class_ints))
def init_class_names_to_index_mapping(self, class_names):
self.class_name_to_index = {s: i for i, s in enumerate(class_names)}
self.index_to_class_name = {i: s for i, s in enumerate(class_names)}
logger.info(f"encoded class name to index: {self.class_name_to_index}")
def convert_label_column_to_int(
self,
data_dictionary: Dict[str, pd.DataFrame],
dk: FreqaiDataKitchen,
class_names: List[str]
):
self.init_class_names_to_index_mapping(class_names)
self.encode_class_names(data_dictionary, dk, class_names)
def get_class_names(self) -> List[str]:
if not self.class_names:
raise ValueError(
"self.class_names is empty, "
"set self.freqai.class_names = ['class a', 'class b', 'class c'] "
"inside IStrategy.set_freqai_targets method."
)
return self.class_names

View File

@ -1,83 +0,0 @@
import logging
from abc import ABC, abstractmethod
from time import time
from typing import Any
import torch
from pandas import DataFrame
from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
from freqtrade.freqai.freqai_interface import IFreqaiModel
from freqtrade.freqai.torch.PyTorchDataConvertor import PyTorchDataConvertor
logger = logging.getLogger(__name__)
class BasePyTorchModel(IFreqaiModel, ABC):
"""
Base class for PyTorch type models.
User *must* inherit from this class and set fit() and predict() and
data_convertor property.
"""
def __init__(self, **kwargs):
super().__init__(config=kwargs["config"])
self.dd.model_type = "pytorch"
self.device = "cuda" if torch.cuda.is_available() else "cpu"
test_size = self.freqai_info.get('data_split_parameters', {}).get('test_size')
self.splits = ["train", "test"] if test_size != 0 else ["train"]
def train(
self, unfiltered_df: DataFrame, pair: str, dk: FreqaiDataKitchen, **kwargs
) -> Any:
"""
Filter the training data and train a model to it. Train makes heavy use of the datakitchen
for storing, saving, loading, and analyzing the data.
:param unfiltered_df: Full dataframe for the current training period
:return:
:model: Trained model which can be used to inference (self.predict)
"""
logger.info(f"-------------------- Starting training {pair} --------------------")
start_time = time()
features_filtered, labels_filtered = dk.filter_features(
unfiltered_df,
dk.training_features_list,
dk.label_list,
training_filter=True,
)
# split data into train/test data.
data_dictionary = dk.make_train_test_datasets(features_filtered, labels_filtered)
if not self.freqai_info.get("fit_live_predictions", 0) or not self.live:
dk.fit_labels()
# normalize all data based on train_dataset only
data_dictionary = dk.normalize_data(data_dictionary)
# optional additional data cleaning/analysis
self.data_cleaning_train(dk)
logger.info(
f"Training model on {len(dk.data_dictionary['train_features'].columns)} features"
)
logger.info(f"Training model on {len(data_dictionary['train_features'])} data points")
model = self.fit(data_dictionary, dk)
end_time = time()
logger.info(f"-------------------- Done training {pair} "
f"({end_time - start_time:.2f} secs) --------------------")
return model
@property
@abstractmethod
def data_convertor(self) -> PyTorchDataConvertor:
"""
a class responsible for converting `*_features` & `*_labels` pandas dataframes
to pytorch tensors.
"""
raise NotImplementedError("Abstract property")

View File

@ -1,49 +0,0 @@
import logging
from typing import Tuple
import numpy as np
import numpy.typing as npt
from pandas import DataFrame
from freqtrade.freqai.base_models.BasePyTorchModel import BasePyTorchModel
from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
logger = logging.getLogger(__name__)
class BasePyTorchRegressor(BasePyTorchModel):
"""
A PyTorch implementation of a regressor.
User must implement fit method
"""
def __init__(self, **kwargs):
super().__init__(**kwargs)
def predict(
self, unfiltered_df: DataFrame, dk: FreqaiDataKitchen, **kwargs
) -> Tuple[DataFrame, npt.NDArray[np.int_]]:
"""
Filter the prediction features data and predict with it.
:param unfiltered_df: Full dataframe for the current backtest period.
:return:
:pred_df: dataframe containing the predictions
:do_predict: np.array of 1s and 0s to indicate places where freqai needed to remove
data (NaNs) or felt uncertain about data (PCA and DI index)
"""
dk.find_features(unfiltered_df)
filtered_df, _ = dk.filter_features(
unfiltered_df, dk.training_features_list, training_filter=False
)
filtered_df = dk.normalize_data_from_metadata(filtered_df)
dk.data_dictionary["prediction_features"] = filtered_df
self.data_cleaning_predict(dk)
x = self.data_convertor.convert_x(
dk.data_dictionary["prediction_features"],
device=self.device
)
y = self.model.model(x)
pred_df = DataFrame(y.detach().numpy(), columns=[dk.label_list[0]])
return (pred_df, dk.do_predict)

View File

@ -74,8 +74,8 @@ class FreqaiDataDrawer:
self.historic_predictions: Dict[str, DataFrame] = {} self.historic_predictions: Dict[str, DataFrame] = {}
self.full_path = full_path self.full_path = full_path
self.historic_predictions_path = Path(self.full_path / "historic_predictions.pkl") self.historic_predictions_path = Path(self.full_path / "historic_predictions.pkl")
self.historic_predictions_bkp_path = Path( self.historic_predictions_folder = Path(self.full_path / "historic_predictions")
self.full_path / "historic_predictions.backup.pkl") self.historic_predictions_bkp_folder = Path(self.full_path / "historic_predictions_backup")
self.pair_dictionary_path = Path(self.full_path / "pair_dictionary.json") self.pair_dictionary_path = Path(self.full_path / "pair_dictionary.json")
self.global_metadata_path = Path(self.full_path / "global_metadata.json") self.global_metadata_path = Path(self.full_path / "global_metadata.json")
self.metric_tracker_path = Path(self.full_path / "metric_tracker.json") self.metric_tracker_path = Path(self.full_path / "metric_tracker.json")
@ -163,11 +163,12 @@ class FreqaiDataDrawer:
Locate and load a previously saved historic predictions. Locate and load a previously saved historic predictions.
:return: bool - whether or not the drawer was located :return: bool - whether or not the drawer was located
""" """
exists = self.historic_predictions_path.is_file() exists = self.historic_predictions_folder.exists()
convert = self.historic_predictions_path.is_file()
if exists: if exists:
try: try:
with self.historic_predictions_path.open("rb") as fp: self.load_historic_predictions_from_folder()
self.historic_predictions = cloudpickle.load(fp)
logger.info( logger.info(
f"Found existing historic predictions at {self.full_path}, but beware " f"Found existing historic predictions at {self.full_path}, but beware "
"that statistics may be inaccurate if the bot has been offline for " "that statistics may be inaccurate if the bot has been offline for "
@ -175,25 +176,54 @@ class FreqaiDataDrawer:
) )
except EOFError: except EOFError:
logger.warning( logger.warning(
'Historical prediction file was corrupted. Trying to load backup file.') 'Historical prediction files were corrupted. Trying to load backup files.')
with self.historic_predictions_bkp_path.open("rb") as fp: self.load_historic_predictions_from_folder()
logger.warning('FreqAI successfully loaded the backup '
'historical predictions files.')
elif not exists and convert:
logger.info("Converting your historic predictions pkl to parquet"
"to improve performance.")
with Path.open(self.historic_predictions_path, "rb") as fp:
self.historic_predictions = cloudpickle.load(fp) self.historic_predictions = cloudpickle.load(fp)
logger.warning('FreqAI successfully loaded the backup historical predictions file.') self.save_historic_predictions_to_disk()
exists = True
else: else:
logger.info("Could not find existing historic_predictions, starting from scratch") logger.warning(
f"Follower could not find historic predictions at {self.full_path} "
"sending null values back to strategy"
)
return exists return exists
def load_historic_predictions_from_folder(self):
"""
Try to build the historic_predictions dictionary from parquet
files in the historic_predictions_folder
"""
for file_path in self.historic_predictions_folder.glob("*.parquet"):
key = file_path.stem
key.replace("_", "/")
self.historic_predictions[key] = pd.read_parquet(file_path)
return
def save_historic_predictions_to_disk(self): def save_historic_predictions_to_disk(self):
""" """
Save historic predictions pickle to disk Save historic predictions pickle to disk
""" """
with self.historic_predictions_path.open("wb") as fp:
cloudpickle.dump(self.historic_predictions, fp, protocol=cloudpickle.DEFAULT_PROTOCOL) self.historic_predictions_folder.mkdir(parents=True, exist_ok=True)
for key, value in self.historic_predictions.items():
key = key.replace("/", "_")
# pytest.set_trace()
filename = Path(self.historic_predictions_folder / f"{key}.parquet")
value.to_parquet(filename)
# create a backup # create a backup
shutil.copy(self.historic_predictions_path, self.historic_predictions_bkp_path) shutil.copytree(self.historic_predictions_folder,
self.historic_predictions_bkp_folder, dirs_exist_ok=True)
def save_metric_tracker_to_disk(self): def save_metric_tracker_to_disk(self):
""" """
@ -446,7 +476,7 @@ class FreqaiDataDrawer:
dump(model, save_path / f"{dk.model_filename}_model.joblib") dump(model, save_path / f"{dk.model_filename}_model.joblib")
elif self.model_type == 'keras': elif self.model_type == 'keras':
model.save(save_path / f"{dk.model_filename}_model.h5") model.save(save_path / f"{dk.model_filename}_model.h5")
elif self.model_type in ["stable_baselines3", "sb3_contrib", "pytorch"]: elif 'stable_baselines' in self.model_type or 'sb3_contrib' == self.model_type:
model.save(save_path / f"{dk.model_filename}_model.zip") model.save(save_path / f"{dk.model_filename}_model.zip")
if dk.svm_model is not None: if dk.svm_model is not None:
@ -496,7 +526,7 @@ class FreqaiDataDrawer:
dk.training_features_list = dk.data["training_features_list"] dk.training_features_list = dk.data["training_features_list"]
dk.label_list = dk.data["label_list"] dk.label_list = dk.data["label_list"]
def load_data(self, coin: str, dk: FreqaiDataKitchen) -> Any: # noqa: C901 def load_data(self, coin: str, dk: FreqaiDataKitchen) -> Any:
""" """
loads all data required to make a prediction on a sub-train time range loads all data required to make a prediction on a sub-train time range
:returns: :returns:
@ -537,11 +567,6 @@ class FreqaiDataDrawer:
self.model_type, self.freqai_info['rl_config']['model_type']) self.model_type, self.freqai_info['rl_config']['model_type'])
MODELCLASS = getattr(mod, self.freqai_info['rl_config']['model_type']) MODELCLASS = getattr(mod, self.freqai_info['rl_config']['model_type'])
model = MODELCLASS.load(dk.data_path / f"{dk.model_filename}_model") model = MODELCLASS.load(dk.data_path / f"{dk.model_filename}_model")
elif self.model_type == 'pytorch':
import torch
zip = torch.load(dk.data_path / f"{dk.model_filename}_model.zip")
model = zip["pytrainer"]
model = model.load_from_checkpoint(zip)
if Path(dk.data_path / f"{dk.model_filename}_svm_model.joblib").is_file(): if Path(dk.data_path / f"{dk.model_filename}_svm_model.joblib").is_file():
dk.svm_model = load(dk.data_path / f"{dk.model_filename}_svm_model.joblib") dk.svm_model = load(dk.data_path / f"{dk.model_filename}_svm_model.joblib")
@ -680,7 +705,7 @@ class FreqaiDataDrawer:
Returns timerange information based on historic predictions file Returns timerange information based on historic predictions file
:return: timerange calculated from saved live data :return: timerange calculated from saved live data
""" """
if not self.historic_predictions_path.is_file(): if not self.historic_predictions_folder.exists():
raise OperationalException( raise OperationalException(
'Historic predictions not found. Historic predictions data is required ' 'Historic predictions not found. Historic predictions data is required '
'to run backtest with the freqai-backtest-live-models option ' 'to run backtest with the freqai-backtest-live-models option '

View File

@ -1291,7 +1291,7 @@ class FreqaiDataKitchen:
return dataframe return dataframe
def use_strategy_to_populate_indicators( # noqa: C901 def use_strategy_to_populate_indicators(
self, self,
strategy: IStrategy, strategy: IStrategy,
corr_dataframes: dict = {}, corr_dataframes: dict = {},
@ -1362,12 +1362,12 @@ class FreqaiDataKitchen:
dataframe = self.populate_features(dataframe.copy(), corr_pair, strategy, dataframe = self.populate_features(dataframe.copy(), corr_pair, strategy,
corr_dataframes, base_dataframes, True) corr_dataframes, base_dataframes, True)
if self.live:
dataframe = strategy.set_freqai_targets(dataframe.copy(), metadata=metadata) dataframe = strategy.set_freqai_targets(dataframe.copy(), metadata=metadata)
dataframe = self.remove_special_chars_from_feature_names(dataframe)
self.get_unique_classes_from_labels(dataframe) self.get_unique_classes_from_labels(dataframe)
dataframe = self.remove_special_chars_from_feature_names(dataframe)
if self.config.get('reduce_df_footprint', False): if self.config.get('reduce_df_footprint', False):
dataframe = reduce_dataframe_footprint(dataframe) dataframe = reduce_dataframe_footprint(dataframe)

View File

@ -83,7 +83,6 @@ class IFreqaiModel(ABC):
self.CONV_WIDTH = self.freqai_info.get('conv_width', 1) self.CONV_WIDTH = self.freqai_info.get('conv_width', 1)
if self.ft_params.get("inlier_metric_window", 0): if self.ft_params.get("inlier_metric_window", 0):
self.CONV_WIDTH = self.ft_params.get("inlier_metric_window", 0) * 2 self.CONV_WIDTH = self.ft_params.get("inlier_metric_window", 0) * 2
self.class_names: List[str] = [] # used in classification subclasses
self.pair_it = 0 self.pair_it = 0
self.pair_it_train = 0 self.pair_it_train = 0
self.total_pairs = len(self.config.get("exchange", {}).get("pair_whitelist")) self.total_pairs = len(self.config.get("exchange", {}).get("pair_whitelist"))
@ -106,9 +105,6 @@ class IFreqaiModel(ABC):
self.max_system_threads = max(int(psutil.cpu_count() * 2 - 2), 1) self.max_system_threads = max(int(psutil.cpu_count() * 2 - 2), 1)
self.can_short = True # overridden in start() with strategy.can_short self.can_short = True # overridden in start() with strategy.can_short
self.model: Any = None self.model: Any = None
if self.ft_params.get('principal_component_analysis', False) and self.continual_learning:
self.ft_params.update({'principal_component_analysis': False})
logger.warning('User tried to use PCA with continual learning. Deactivating PCA.')
record_params(config, self.full_path) record_params(config, self.full_path)
@ -158,7 +154,8 @@ class IFreqaiModel(ABC):
dk = self.start_backtesting(dataframe, metadata, self.dk, strategy) dk = self.start_backtesting(dataframe, metadata, self.dk, strategy)
dataframe = dk.remove_features_from_df(dk.return_dataframe) dataframe = dk.remove_features_from_df(dk.return_dataframe)
else: else:
logger.info("Backtesting using historic predictions (live models)") logger.info(
"Backtesting using historic predictions (live models)")
dk = self.start_backtesting_from_historic_predictions( dk = self.start_backtesting_from_historic_predictions(
dataframe, metadata, self.dk) dataframe, metadata, self.dk)
dataframe = dk.return_dataframe dataframe = dk.return_dataframe
@ -307,7 +304,7 @@ class IFreqaiModel(ABC):
if check_features: if check_features:
self.dd.load_metadata(dk) self.dd.load_metadata(dk)
dataframe_dummy_features = self.dk.use_strategy_to_populate_indicators( dataframe_dummy_features = self.dk.use_strategy_to_populate_indicators(
strategy, prediction_dataframe=dataframe.tail(1), pair=pair strategy, prediction_dataframe=dataframe.tail(1), pair=metadata["pair"]
) )
dk.find_features(dataframe_dummy_features) dk.find_features(dataframe_dummy_features)
self.check_if_feature_list_matches_strategy(dk) self.check_if_feature_list_matches_strategy(dk)
@ -317,7 +314,7 @@ class IFreqaiModel(ABC):
else: else:
if populate_indicators: if populate_indicators:
dataframe = self.dk.use_strategy_to_populate_indicators( dataframe = self.dk.use_strategy_to_populate_indicators(
strategy, prediction_dataframe=dataframe, pair=pair strategy, prediction_dataframe=dataframe, pair=metadata["pair"]
) )
populate_indicators = False populate_indicators = False
@ -333,10 +330,6 @@ class IFreqaiModel(ABC):
dataframe_train = dk.slice_dataframe(tr_train, dataframe_base_train) dataframe_train = dk.slice_dataframe(tr_train, dataframe_base_train)
dataframe_backtest = dk.slice_dataframe(tr_backtest, dataframe_base_backtest) dataframe_backtest = dk.slice_dataframe(tr_backtest, dataframe_base_backtest)
dataframe_train = dk.remove_special_chars_from_feature_names(dataframe_train)
dataframe_backtest = dk.remove_special_chars_from_feature_names(dataframe_backtest)
dk.get_unique_classes_from_labels(dataframe_train)
if not self.model_exists(dk): if not self.model_exists(dk):
dk.find_features(dataframe_train) dk.find_features(dataframe_train)
dk.find_labels(dataframe_train) dk.find_labels(dataframe_train)
@ -572,9 +565,8 @@ class IFreqaiModel(ABC):
file_type = ".joblib" file_type = ".joblib"
elif self.dd.model_type == 'keras': elif self.dd.model_type == 'keras':
file_type = ".h5" file_type = ".h5"
elif self.dd.model_type in ["stable_baselines3", "sb3_contrib", "pytorch"]: elif 'stable_baselines' in self.dd.model_type or 'sb3_contrib' == self.dd.model_type:
file_type = ".zip" file_type = ".zip"
path_to_modelfile = Path(dk.data_path / f"{dk.model_filename}_model{file_type}") path_to_modelfile = Path(dk.data_path / f"{dk.model_filename}_model{file_type}")
file_exists = path_to_modelfile.is_file() file_exists = path_to_modelfile.is_file()
if file_exists: if file_exists:

View File

@ -14,20 +14,16 @@ logger = logging.getLogger(__name__)
class CatboostClassifier(BaseClassifierModel): class CatboostClassifier(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
train_data = Pool( train_data = Pool(

View File

@ -15,20 +15,16 @@ logger = logging.getLogger(__name__)
class CatboostClassifierMultiTarget(BaseClassifierModel): class CatboostClassifierMultiTarget(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
cbc = CatBoostClassifier( cbc = CatBoostClassifier(

View File

@ -14,20 +14,16 @@ logger = logging.getLogger(__name__)
class CatboostRegressor(BaseRegressionModel): class CatboostRegressor(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
train_data = Pool( train_data = Pool(

View File

@ -15,20 +15,16 @@ logger = logging.getLogger(__name__)
class CatboostRegressorMultiTarget(BaseRegressionModel): class CatboostRegressorMultiTarget(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
cbr = CatBoostRegressor( cbr = CatBoostRegressor(

View File

@ -12,20 +12,16 @@ logger = logging.getLogger(__name__)
class LightGBMClassifier(BaseClassifierModel): class LightGBMClassifier(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
if self.freqai_info.get('data_split_parameters', {}).get('test_size', 0.1) == 0: if self.freqai_info.get('data_split_parameters', {}).get('test_size', 0.1) == 0:

View File

@ -13,20 +13,16 @@ logger = logging.getLogger(__name__)
class LightGBMClassifierMultiTarget(BaseClassifierModel): class LightGBMClassifierMultiTarget(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
lgb = LGBMClassifier(**self.model_training_parameters) lgb = LGBMClassifier(**self.model_training_parameters)

View File

@ -12,20 +12,18 @@ logger = logging.getLogger(__name__)
class LightGBMRegressor(BaseRegressionModel): class LightGBMRegressor(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here Most regressors use the same function names and arguments e.g. user
:param data_dictionary: the dictionary holding all data for train, test, can drop in LGBMRegressor in place of CatBoostRegressor and all data
labels, weights management will be properly handled by Freqai.
:param dk: The datakitchen object for the current coin/model :param data_dictionary: the dictionary constructed by DataHandler to hold
all the training and test data/labels.
""" """
if self.freqai_info.get('data_split_parameters', {}).get('test_size', 0.1) == 0: if self.freqai_info.get('data_split_parameters', {}).get('test_size', 0.1) == 0:

View File

@ -13,20 +13,16 @@ logger = logging.getLogger(__name__)
class LightGBMRegressorMultiTarget(BaseRegressionModel): class LightGBMRegressorMultiTarget(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
lgb = LGBMRegressor(**self.model_training_parameters) lgb = LGBMRegressor(**self.model_training_parameters)

View File

@ -1,89 +0,0 @@
from typing import Any, Dict
import torch
from freqtrade.freqai.base_models.BasePyTorchClassifier import BasePyTorchClassifier
from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
from freqtrade.freqai.torch.PyTorchDataConvertor import (DefaultPyTorchDataConvertor,
PyTorchDataConvertor)
from freqtrade.freqai.torch.PyTorchMLPModel import PyTorchMLPModel
from freqtrade.freqai.torch.PyTorchModelTrainer import PyTorchModelTrainer
class PyTorchMLPClassifier(BasePyTorchClassifier):
"""
This class implements the fit method of IFreqaiModel.
in the fit method we initialize the model and trainer objects.
the only requirement from the model is to be aligned to PyTorchClassifier
predict method that expects the model to predict a tensor of type long.
parameters are passed via `model_training_parameters` under the freqai
section in the config file. e.g:
{
...
"freqai": {
...
"model_training_parameters" : {
"learning_rate": 3e-4,
"trainer_kwargs": {
"max_iters": 5000,
"batch_size": 64,
"max_n_eval_batches": null,
},
"model_kwargs": {
"hidden_dim": 512,
"dropout_percent": 0.2,
"n_layer": 1,
},
}
}
}
"""
@property
def data_convertor(self) -> PyTorchDataConvertor:
return DefaultPyTorchDataConvertor(
target_tensor_type=torch.long,
squeeze_target_tensor=True
)
def __init__(self, **kwargs) -> None:
super().__init__(**kwargs)
config = self.freqai_info.get("model_training_parameters", {})
self.learning_rate: float = config.get("learning_rate", 3e-4)
self.model_kwargs: Dict[str, Any] = config.get("model_kwargs", {})
self.trainer_kwargs: Dict[str, Any] = config.get("trainer_kwargs", {})
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
"""
User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test,
labels, weights
:param dk: The datakitchen object for the current coin/model
:raises ValueError: If self.class_names is not defined in the parent class.
"""
class_names = self.get_class_names()
self.convert_label_column_to_int(data_dictionary, dk, class_names)
n_features = data_dictionary["train_features"].shape[-1]
model = PyTorchMLPModel(
input_dim=n_features,
output_dim=len(class_names),
**self.model_kwargs
)
model.to(self.device)
optimizer = torch.optim.AdamW(model.parameters(), lr=self.learning_rate)
criterion = torch.nn.CrossEntropyLoss()
init_model = self.get_init_model(dk.pair)
trainer = PyTorchModelTrainer(
model=model,
optimizer=optimizer,
criterion=criterion,
model_meta_data={"class_names": class_names},
device=self.device,
init_model=init_model,
data_convertor=self.data_convertor,
**self.trainer_kwargs,
)
trainer.fit(data_dictionary, self.splits)
return trainer

View File

@ -1,83 +0,0 @@
from typing import Any, Dict
import torch
from freqtrade.freqai.base_models.BasePyTorchRegressor import BasePyTorchRegressor
from freqtrade.freqai.data_kitchen import FreqaiDataKitchen
from freqtrade.freqai.torch.PyTorchDataConvertor import (DefaultPyTorchDataConvertor,
PyTorchDataConvertor)
from freqtrade.freqai.torch.PyTorchMLPModel import PyTorchMLPModel
from freqtrade.freqai.torch.PyTorchModelTrainer import PyTorchModelTrainer
class PyTorchMLPRegressor(BasePyTorchRegressor):
"""
This class implements the fit method of IFreqaiModel.
in the fit method we initialize the model and trainer objects.
the only requirement from the model is to be aligned to PyTorchRegressor
predict method that expects the model to predict tensor of type float.
the trainer defines the training loop.
parameters are passed via `model_training_parameters` under the freqai
section in the config file. e.g:
{
...
"freqai": {
...
"model_training_parameters" : {
"learning_rate": 3e-4,
"trainer_kwargs": {
"max_iters": 5000,
"batch_size": 64,
"max_n_eval_batches": null,
},
"model_kwargs": {
"hidden_dim": 512,
"dropout_percent": 0.2,
"n_layer": 1,
},
}
}
}
"""
@property
def data_convertor(self) -> PyTorchDataConvertor:
return DefaultPyTorchDataConvertor(target_tensor_type=torch.float)
def __init__(self, **kwargs) -> None:
super().__init__(**kwargs)
config = self.freqai_info.get("model_training_parameters", {})
self.learning_rate: float = config.get("learning_rate", 3e-4)
self.model_kwargs: Dict[str, Any] = config.get("model_kwargs", {})
self.trainer_kwargs: Dict[str, Any] = config.get("trainer_kwargs", {})
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
"""
User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test,
labels, weights
:param dk: The datakitchen object for the current coin/model
"""
n_features = data_dictionary["train_features"].shape[-1]
model = PyTorchMLPModel(
input_dim=n_features,
output_dim=1,
**self.model_kwargs
)
model.to(self.device)
optimizer = torch.optim.AdamW(model.parameters(), lr=self.learning_rate)
criterion = torch.nn.MSELoss()
init_model = self.get_init_model(dk.pair)
trainer = PyTorchModelTrainer(
model=model,
optimizer=optimizer,
criterion=criterion,
device=self.device,
init_model=init_model,
data_convertor=self.data_convertor,
**self.trainer_kwargs,
)
trainer.fit(data_dictionary, self.splits)
return trainer

View File

@ -18,20 +18,16 @@ logger = logging.getLogger(__name__)
class XGBoostClassifier(BaseClassifierModel): class XGBoostClassifier(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
X = data_dictionary["train_features"].to_numpy() X = data_dictionary["train_features"].to_numpy()

View File

@ -18,20 +18,16 @@ logger = logging.getLogger(__name__)
class XGBoostRFClassifier(BaseClassifierModel): class XGBoostRFClassifier(BaseClassifierModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
X = data_dictionary["train_features"].to_numpy() X = data_dictionary["train_features"].to_numpy()

View File

@ -12,20 +12,16 @@ logger = logging.getLogger(__name__)
class XGBoostRFRegressor(BaseRegressionModel): class XGBoostRFRegressor(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
X = data_dictionary["train_features"] X = data_dictionary["train_features"]

View File

@ -12,20 +12,16 @@ logger = logging.getLogger(__name__)
class XGBoostRegressor(BaseRegressionModel): class XGBoostRegressor(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
X = data_dictionary["train_features"] X = data_dictionary["train_features"]

View File

@ -13,20 +13,16 @@ logger = logging.getLogger(__name__)
class XGBoostRegressorMultiTarget(BaseRegressionModel): class XGBoostRegressorMultiTarget(BaseRegressionModel):
""" """
User created prediction model. The class inherits IFreqaiModel, which User created prediction model. The class needs to override three necessary
means it has full access to all Frequency AI functionality. Typically, functions, predict(), train(), fit(). The class inherits ModelHandler which
users would use this to override the common `fit()`, `train()`, or has its own DataHandler where data is held, saved, loaded, and managed.
`predict()` methods to add their custom data handling tools or change
various aspects of the training that cannot be configured via the
top level config.json file.
""" """
def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any: def fit(self, data_dictionary: Dict, dk: FreqaiDataKitchen, **kwargs) -> Any:
""" """
User sets up the training and test data to fit their desired model here User sets up the training and test data to fit their desired model here
:param data_dictionary: the dictionary holding all data for train, test, :param data_dictionary: the dictionary constructed by DataHandler to hold
labels, weights all the training and test data/labels.
:param dk: The datakitchen object for the current coin/model
""" """
xgb = XGBRegressor(**self.model_training_parameters) xgb = XGBRegressor(**self.model_training_parameters)

View File

@ -1,67 +0,0 @@
from abc import ABC, abstractmethod
from typing import List, Optional
import pandas as pd
import torch
class PyTorchDataConvertor(ABC):
"""
This class is responsible for converting `*_features` & `*_labels` pandas dataframes
to pytorch tensors.
"""
@abstractmethod
def convert_x(self, df: pd.DataFrame, device: Optional[str] = None) -> List[torch.Tensor]:
"""
:param df: "*_features" dataframe.
:param device: The device to use for training (e.g. 'cpu', 'cuda').
"""
@abstractmethod
def convert_y(self, df: pd.DataFrame, device: Optional[str] = None) -> List[torch.Tensor]:
"""
:param df: "*_labels" dataframe.
:param device: The device to use for training (e.g. 'cpu', 'cuda').
"""
class DefaultPyTorchDataConvertor(PyTorchDataConvertor):
"""
A default conversion that keeps features dataframe shapes.
"""
def __init__(
self,
target_tensor_type: Optional[torch.dtype] = None,
squeeze_target_tensor: bool = False
):
"""
:param target_tensor_type: type of target tensor, for classification use
torch.long, for regressor use torch.float or torch.double.
:param squeeze_target_tensor: controls the target shape, used for loss functions
that requires 0D or 1D.
"""
self._target_tensor_type = target_tensor_type
self._squeeze_target_tensor = squeeze_target_tensor
def convert_x(self, df: pd.DataFrame, device: Optional[str] = None) -> List[torch.Tensor]:
x = torch.from_numpy(df.values).float()
if device:
x = x.to(device)
return [x]
def convert_y(self, df: pd.DataFrame, device: Optional[str] = None) -> List[torch.Tensor]:
y = torch.from_numpy(df.values)
if self._target_tensor_type:
y = y.to(self._target_tensor_type)
if self._squeeze_target_tensor:
y = y.squeeze()
if device:
y = y.to(device)
return [y]

View File

@ -1,97 +0,0 @@
import logging
from typing import List
import torch
from torch import nn
logger = logging.getLogger(__name__)
class PyTorchMLPModel(nn.Module):
"""
A multi-layer perceptron (MLP) model implemented using PyTorch.
This class mainly serves as a simple example for the integration of PyTorch model's
to freqai. It is not optimized at all and should not be used for production purposes.
:param input_dim: The number of input features. This parameter specifies the number
of features in the input data that the MLP will use to make predictions.
:param output_dim: The number of output classes. This parameter specifies the number
of classes that the MLP will predict.
:param hidden_dim: The number of hidden units in each layer. This parameter controls
the complexity of the MLP and determines how many nonlinear relationships the MLP
can represent. Increasing the number of hidden units can increase the capacity of
the MLP to model complex patterns, but it also increases the risk of overfitting
the training data. Default: 256
:param dropout_percent: The dropout rate for regularization. This parameter specifies
the probability of dropping out a neuron during training to prevent overfitting.
The dropout rate should be tuned carefully to balance between underfitting and
overfitting. Default: 0.2
:param n_layer: The number of layers in the MLP. This parameter specifies the number
of layers in the MLP architecture. Adding more layers to the MLP can increase its
capacity to model complex patterns, but it also increases the risk of overfitting
the training data. Default: 1
:returns: The output of the MLP, with shape (batch_size, output_dim)
"""
def __init__(self, input_dim: int, output_dim: int, **kwargs):
super().__init__()
hidden_dim: int = kwargs.get("hidden_dim", 256)
dropout_percent: int = kwargs.get("dropout_percent", 0.2)
n_layer: int = kwargs.get("n_layer", 1)
self.input_layer = nn.Linear(input_dim, hidden_dim)
self.blocks = nn.Sequential(*[Block(hidden_dim, dropout_percent) for _ in range(n_layer)])
self.output_layer = nn.Linear(hidden_dim, output_dim)
self.relu = nn.ReLU()
self.dropout = nn.Dropout(p=dropout_percent)
def forward(self, tensors: List[torch.Tensor]) -> torch.Tensor:
x: torch.Tensor = tensors[0]
x = self.relu(self.input_layer(x))
x = self.dropout(x)
x = self.blocks(x)
x = self.output_layer(x)
return x
class Block(nn.Module):
"""
A building block for a multi-layer perceptron (MLP).
:param hidden_dim: The number of hidden units in the feedforward network.
:param dropout_percent: The dropout rate for regularization.
:returns: torch.Tensor. with shape (batch_size, hidden_dim)
"""
def __init__(self, hidden_dim: int, dropout_percent: int):
super().__init__()
self.ff = FeedForward(hidden_dim)
self.dropout = nn.Dropout(p=dropout_percent)
self.ln = nn.LayerNorm(hidden_dim)
def forward(self, x: torch.Tensor) -> torch.Tensor:
x = self.ff(self.ln(x))
x = self.dropout(x)
return x
class FeedForward(nn.Module):
"""
A simple fully-connected feedforward neural network block.
:param hidden_dim: The number of hidden units in the block.
:return: torch.Tensor. with shape (batch_size, hidden_dim)
"""
def __init__(self, hidden_dim: int):
super().__init__()
self.net = nn.Sequential(
nn.Linear(hidden_dim, hidden_dim),
nn.ReLU(),
)
def forward(self, x: torch.Tensor) -> torch.Tensor:
return self.net(x)

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@ -1,208 +0,0 @@
import logging
import math
from pathlib import Path
from typing import Any, Dict, List, Optional
import pandas as pd
import torch
from torch import nn
from torch.optim import Optimizer
from torch.utils.data import DataLoader, TensorDataset
from freqtrade.freqai.torch.PyTorchDataConvertor import PyTorchDataConvertor
from freqtrade.freqai.torch.PyTorchTrainerInterface import PyTorchTrainerInterface
logger = logging.getLogger(__name__)
class PyTorchModelTrainer(PyTorchTrainerInterface):
def __init__(
self,
model: nn.Module,
optimizer: Optimizer,
criterion: nn.Module,
device: str,
init_model: Dict,
data_convertor: PyTorchDataConvertor,
model_meta_data: Dict[str, Any] = {},
**kwargs
):
"""
:param model: The PyTorch model to be trained.
:param optimizer: The optimizer to use for training.
:param criterion: The loss function to use for training.
:param device: The device to use for training (e.g. 'cpu', 'cuda').
:param init_model: A dictionary containing the initial model/optimizer
state_dict and model_meta_data saved by self.save() method.
:param model_meta_data: Additional metadata about the model (optional).
:param data_convertor: convertor from pd.DataFrame to torch.tensor.
:param max_iters: The number of training iterations to run.
iteration here refers to the number of times we call
self.optimizer.step(). used to calculate n_epochs.
:param batch_size: The size of the batches to use during training.
:param max_n_eval_batches: The maximum number batches to use for evaluation.
"""
self.model = model
self.optimizer = optimizer
self.criterion = criterion
self.model_meta_data = model_meta_data
self.device = device
self.max_iters: int = kwargs.get("max_iters", 100)
self.batch_size: int = kwargs.get("batch_size", 64)
self.max_n_eval_batches: Optional[int] = kwargs.get("max_n_eval_batches", None)
self.data_convertor = data_convertor
if init_model:
self.load_from_checkpoint(init_model)
def fit(self, data_dictionary: Dict[str, pd.DataFrame], splits: List[str]):
"""
:param data_dictionary: the dictionary constructed by DataHandler to hold
all the training and test data/labels.
:param splits: splits to use in training, splits must contain "train",
optional "test" could be added by setting freqai.data_split_parameters.test_size > 0
in the config file.
- Calculates the predicted output for the batch using the PyTorch model.
- Calculates the loss between the predicted and actual output using a loss function.
- Computes the gradients of the loss with respect to the model's parameters using
backpropagation.
- Updates the model's parameters using an optimizer.
"""
data_loaders_dictionary = self.create_data_loaders_dictionary(data_dictionary, splits)
epochs = self.calc_n_epochs(
n_obs=len(data_dictionary["train_features"]),
batch_size=self.batch_size,
n_iters=self.max_iters
)
for epoch in range(1, epochs + 1):
# training
losses = []
for i, batch_data in enumerate(data_loaders_dictionary["train"]):
for tensor in batch_data:
tensor.to(self.device)
xb = batch_data[:-1]
yb = batch_data[-1]
yb_pred = self.model(xb)
loss = self.criterion(yb_pred, yb)
self.optimizer.zero_grad(set_to_none=True)
loss.backward()
self.optimizer.step()
losses.append(loss.item())
train_loss = sum(losses) / len(losses)
log_message = f"epoch {epoch}/{epochs}: train loss {train_loss:.4f}"
# evaluation
if "test" in splits:
test_loss = self.estimate_loss(
data_loaders_dictionary,
self.max_n_eval_batches,
"test"
)
log_message += f" ; test loss {test_loss:.4f}"
logger.info(log_message)
@torch.no_grad()
def estimate_loss(
self,
data_loader_dictionary: Dict[str, DataLoader],
max_n_eval_batches: Optional[int],
split: str,
) -> float:
self.model.eval()
n_batches = 0
losses = []
for i, batch_data in enumerate(data_loader_dictionary[split]):
if max_n_eval_batches and i > max_n_eval_batches:
n_batches += 1
break
for tensor in batch_data:
tensor.to(self.device)
xb = batch_data[:-1]
yb = batch_data[-1]
yb_pred = self.model(xb)
loss = self.criterion(yb_pred, yb)
losses.append(loss.item())
self.model.train()
return sum(losses) / len(losses)
def create_data_loaders_dictionary(
self,
data_dictionary: Dict[str, pd.DataFrame],
splits: List[str]
) -> Dict[str, DataLoader]:
"""
Converts the input data to PyTorch tensors using a data loader.
"""
data_loader_dictionary = {}
for split in splits:
x = self.data_convertor.convert_x(data_dictionary[f"{split}_features"])
y = self.data_convertor.convert_y(data_dictionary[f"{split}_labels"])
dataset = TensorDataset(*x, *y)
data_loader = DataLoader(
dataset,
batch_size=self.batch_size,
shuffle=True,
drop_last=True,
num_workers=0,
)
data_loader_dictionary[split] = data_loader
return data_loader_dictionary
@staticmethod
def calc_n_epochs(n_obs: int, batch_size: int, n_iters: int) -> int:
"""
Calculates the number of epochs required to reach the maximum number
of iterations specified in the model training parameters.
the motivation here is that `max_iters` is easier to optimize and keep stable,
across different n_obs - the number of data points.
"""
n_batches = math.ceil(n_obs // batch_size)
epochs = math.ceil(n_iters // n_batches)
if epochs <= 10:
logger.warning("User set `max_iters` in such a way that the trainer will only perform "
f" {epochs} epochs. Please consider increasing this value accordingly")
if epochs <= 1:
logger.warning("Epochs set to 1. Please review your `max_iters` value")
epochs = 1
return epochs
def save(self, path: Path):
"""
- Saving any nn.Module state_dict
- Saving model_meta_data, this dict should contain any additional data that the
user needs to store. e.g class_names for classification models.
"""
torch.save({
"model_state_dict": self.model.state_dict(),
"optimizer_state_dict": self.optimizer.state_dict(),
"model_meta_data": self.model_meta_data,
"pytrainer": self
}, path)
def load(self, path: Path):
checkpoint = torch.load(path)
return self.load_from_checkpoint(checkpoint)
def load_from_checkpoint(self, checkpoint: Dict):
"""
when using continual_learning, DataDrawer will load the dictionary
(containing state dicts and model_meta_data) by calling torch.load(path).
you can access this dict from any class that inherits IFreqaiModel by calling
get_init_model method.
"""
self.model.load_state_dict(checkpoint["model_state_dict"])
self.optimizer.load_state_dict(checkpoint["optimizer_state_dict"])
self.model_meta_data = checkpoint["model_meta_data"]
return self

View File

@ -1,53 +0,0 @@
from abc import ABC, abstractmethod
from pathlib import Path
from typing import Dict, List
import pandas as pd
import torch
from torch import nn
class PyTorchTrainerInterface(ABC):
@abstractmethod
def fit(self, data_dictionary: Dict[str, pd.DataFrame], splits: List[str]) -> None:
"""
:param data_dictionary: the dictionary constructed by DataHandler to hold
all the training and test data/labels.
:param splits: splits to use in training, splits must contain "train",
optional "test" could be added by setting freqai.data_split_parameters.test_size > 0
in the config file.
- Calculates the predicted output for the batch using the PyTorch model.
- Calculates the loss between the predicted and actual output using a loss function.
- Computes the gradients of the loss with respect to the model's parameters using
backpropagation.
- Updates the model's parameters using an optimizer.
"""
@abstractmethod
def save(self, path: Path) -> None:
"""
- Saving any nn.Module state_dict
- Saving model_meta_data, this dict should contain any additional data that the
user needs to store. e.g class_names for classification models.
"""
def load(self, path: Path) -> nn.Module:
"""
:param path: path to zip file.
:returns: pytorch model.
"""
checkpoint = torch.load(path)
return self.load_from_checkpoint(checkpoint)
@abstractmethod
def load_from_checkpoint(self, checkpoint: Dict) -> nn.Module:
"""
when using continual_learning, DataDrawer will load the dictionary
(containing state dicts and model_meta_data) by calling torch.load(path).
you can access this dict from any class that inherits IFreqaiModel by calling
get_init_model method.
:checkpoint checkpoint: dict containing the model & optimizer state dicts,
model_meta_data, etc..
"""

View File

@ -21,19 +21,15 @@ from freqtrade.enums import (ExitCheckTuple, ExitType, RPCMessageType, RunMode,
State, TradingMode) State, TradingMode)
from freqtrade.exceptions import (DependencyException, ExchangeError, InsufficientFundsError, from freqtrade.exceptions import (DependencyException, ExchangeError, InsufficientFundsError,
InvalidOrderException, PricingError) InvalidOrderException, PricingError)
from freqtrade.exchange import (ROUND_DOWN, ROUND_UP, timeframe_to_minutes, timeframe_to_next_date, from freqtrade.exchange import timeframe_to_minutes, timeframe_to_next_date, timeframe_to_seconds
timeframe_to_seconds)
from freqtrade.misc import safe_value_fallback, safe_value_fallback2 from freqtrade.misc import safe_value_fallback, safe_value_fallback2
from freqtrade.mixins import LoggingMixin from freqtrade.mixins import LoggingMixin
from freqtrade.persistence import Order, PairLocks, Trade, init_db from freqtrade.persistence import Order, PairLocks, Trade, init_db
from freqtrade.persistence.key_value_store import set_startup_time
from freqtrade.plugins.pairlistmanager import PairListManager from freqtrade.plugins.pairlistmanager import PairListManager
from freqtrade.plugins.protectionmanager import ProtectionManager from freqtrade.plugins.protectionmanager import ProtectionManager
from freqtrade.resolvers import ExchangeResolver, StrategyResolver from freqtrade.resolvers import ExchangeResolver, StrategyResolver
from freqtrade.rpc import RPCManager from freqtrade.rpc import RPCManager
from freqtrade.rpc.external_message_consumer import ExternalMessageConsumer from freqtrade.rpc.external_message_consumer import ExternalMessageConsumer
from freqtrade.rpc.rpc_types import (RPCBuyMsg, RPCCancelMsg, RPCProtectionMsg, RPCSellCancelMsg,
RPCSellMsg)
from freqtrade.strategy.interface import IStrategy from freqtrade.strategy.interface import IStrategy
from freqtrade.strategy.strategy_wrapper import strategy_safe_wrapper from freqtrade.strategy.strategy_wrapper import strategy_safe_wrapper
from freqtrade.util import FtPrecise from freqtrade.util import FtPrecise
@ -183,7 +179,6 @@ class FreqtradeBot(LoggingMixin):
performs startup tasks performs startup tasks
""" """
migrate_binance_futures_names(self.config) migrate_binance_futures_names(self.config)
set_startup_time()
self.rpc.startup_messages(self.config, self.pairlists, self.protections) self.rpc.startup_messages(self.config, self.pairlists, self.protections)
# Update older trades with precision and precision mode # Update older trades with precision and precision mode
@ -217,8 +212,7 @@ class FreqtradeBot(LoggingMixin):
self.dataprovider.refresh(self.pairlists.create_pair_list(self.active_pair_whitelist), self.dataprovider.refresh(self.pairlists.create_pair_list(self.active_pair_whitelist),
self.strategy.gather_informative_pairs()) self.strategy.gather_informative_pairs())
strategy_safe_wrapper(self.strategy.bot_loop_start, supress_error=True)( strategy_safe_wrapper(self.strategy.bot_loop_start, supress_error=True)()
current_time=datetime.now(timezone.utc))
self.strategy.analyze(self.active_pair_whitelist) self.strategy.analyze(self.active_pair_whitelist)
@ -856,13 +850,11 @@ class FreqtradeBot(LoggingMixin):
logger.info(f"Canceling stoploss on exchange for {trade}") logger.info(f"Canceling stoploss on exchange for {trade}")
co = self.exchange.cancel_stoploss_order_with_result( co = self.exchange.cancel_stoploss_order_with_result(
trade.stoploss_order_id, trade.pair, trade.amount) trade.stoploss_order_id, trade.pair, trade.amount)
self.update_trade_state(trade, trade.stoploss_order_id, co, stoploss_order=True) trade.update_order(co)
# Reset stoploss order id. # Reset stoploss order id.
trade.stoploss_order_id = None trade.stoploss_order_id = None
except InvalidOrderException: except InvalidOrderException:
logger.exception(f"Could not cancel stoploss order {trade.stoploss_order_id} " logger.exception(f"Could not cancel stoploss order {trade.stoploss_order_id}")
f"for pair {trade.pair}")
return trade return trade
def get_valid_enter_price_and_stake( def get_valid_enter_price_and_stake(
@ -949,11 +941,12 @@ class FreqtradeBot(LoggingMixin):
return enter_limit_requested, stake_amount, leverage return enter_limit_requested, stake_amount, leverage
def _notify_enter(self, trade: Trade, order: Order, order_type: str, def _notify_enter(self, trade: Trade, order: Order, order_type: Optional[str] = None,
fill: bool = False, sub_trade: bool = False) -> None: fill: bool = False, sub_trade: bool = False) -> None:
""" """
Sends rpc notification when a entry order occurred. Sends rpc notification when a entry order occurred.
""" """
msg_type = RPCMessageType.ENTRY_FILL if fill else RPCMessageType.ENTRY
open_rate = order.safe_price open_rate = order.safe_price
if open_rate is None: if open_rate is None:
@ -964,9 +957,9 @@ class FreqtradeBot(LoggingMixin):
current_rate = self.exchange.get_rate( current_rate = self.exchange.get_rate(
trade.pair, side='entry', is_short=trade.is_short, refresh=False) trade.pair, side='entry', is_short=trade.is_short, refresh=False)
msg: RPCBuyMsg = { msg = {
'trade_id': trade.id, 'trade_id': trade.id,
'type': RPCMessageType.ENTRY_FILL if fill else RPCMessageType.ENTRY, 'type': msg_type,
'buy_tag': trade.enter_tag, 'buy_tag': trade.enter_tag,
'enter_tag': trade.enter_tag, 'enter_tag': trade.enter_tag,
'exchange': trade.exchange.capitalize(), 'exchange': trade.exchange.capitalize(),
@ -978,7 +971,6 @@ class FreqtradeBot(LoggingMixin):
'order_type': order_type, 'order_type': order_type,
'stake_amount': trade.stake_amount, 'stake_amount': trade.stake_amount,
'stake_currency': self.config['stake_currency'], 'stake_currency': self.config['stake_currency'],
'base_currency': self.exchange.get_pair_base_currency(trade.pair),
'fiat_currency': self.config.get('fiat_display_currency', None), 'fiat_currency': self.config.get('fiat_display_currency', None),
'amount': order.safe_amount_after_fee if fill else (order.amount or trade.amount), 'amount': order.safe_amount_after_fee if fill else (order.amount or trade.amount),
'open_date': trade.open_date or datetime.utcnow(), 'open_date': trade.open_date or datetime.utcnow(),
@ -997,7 +989,7 @@ class FreqtradeBot(LoggingMixin):
current_rate = self.exchange.get_rate( current_rate = self.exchange.get_rate(
trade.pair, side='entry', is_short=trade.is_short, refresh=False) trade.pair, side='entry', is_short=trade.is_short, refresh=False)
msg: RPCCancelMsg = { msg = {
'trade_id': trade.id, 'trade_id': trade.id,
'type': RPCMessageType.ENTRY_CANCEL, 'type': RPCMessageType.ENTRY_CANCEL,
'buy_tag': trade.enter_tag, 'buy_tag': trade.enter_tag,
@ -1009,9 +1001,7 @@ class FreqtradeBot(LoggingMixin):
'limit': trade.open_rate, 'limit': trade.open_rate,
'order_type': order_type, 'order_type': order_type,
'stake_amount': trade.stake_amount, 'stake_amount': trade.stake_amount,
'open_rate': trade.open_rate,
'stake_currency': self.config['stake_currency'], 'stake_currency': self.config['stake_currency'],
'base_currency': self.exchange.get_pair_base_currency(trade.pair),
'fiat_currency': self.config.get('fiat_display_currency', None), 'fiat_currency': self.config.get('fiat_display_currency', None),
'amount': trade.amount, 'amount': trade.amount,
'open_date': trade.open_date, 'open_date': trade.open_date,
@ -1175,8 +1165,7 @@ class FreqtradeBot(LoggingMixin):
logger.warning('Unable to fetch stoploss order: %s', exception) logger.warning('Unable to fetch stoploss order: %s', exception)
if stoploss_order: if stoploss_order:
self.update_trade_state(trade, trade.stoploss_order_id, stoploss_order, trade.update_order(stoploss_order)
stoploss_order=True)
# We check if stoploss order is fulfilled # We check if stoploss order is fulfilled
if stoploss_order and stoploss_order['status'] in ('closed', 'triggered'): if stoploss_order and stoploss_order['status'] in ('closed', 'triggered'):
@ -1240,9 +1229,7 @@ class FreqtradeBot(LoggingMixin):
:param order: Current on exchange stoploss order :param order: Current on exchange stoploss order
:return: None :return: None
""" """
stoploss_norm = self.exchange.price_to_precision( stoploss_norm = self.exchange.price_to_precision(trade.pair, trade.stoploss_or_liquidation)
trade.pair, trade.stoploss_or_liquidation,
rounding_mode=ROUND_DOWN if trade.is_short else ROUND_UP)
if self.exchange.stoploss_adjust(stoploss_norm, order, side=trade.exit_side): if self.exchange.stoploss_adjust(stoploss_norm, order, side=trade.exit_side):
# we check if the update is necessary # we check if the update is necessary
@ -1252,8 +1239,13 @@ class FreqtradeBot(LoggingMixin):
# cancelling the current stoploss on exchange first # cancelling the current stoploss on exchange first
logger.info(f"Cancelling current stoploss on exchange for pair {trade.pair} " logger.info(f"Cancelling current stoploss on exchange for pair {trade.pair} "
f"(orderid:{order['id']}) in order to add another one ...") f"(orderid:{order['id']}) in order to add another one ...")
try:
self.cancel_stoploss_on_exchange(trade) co = self.exchange.cancel_stoploss_order_with_result(order['id'], trade.pair,
trade.amount)
trade.update_order(co)
except InvalidOrderException:
logger.exception(f"Could not cancel stoploss order {order['id']} "
f"for pair {trade.pair}")
# Create new stoploss order # Create new stoploss order
if not self.create_stoploss_order(trade=trade, stop_price=stoploss_norm): if not self.create_stoploss_order(trade=trade, stop_price=stoploss_norm):
@ -1485,8 +1477,8 @@ class FreqtradeBot(LoggingMixin):
return False return False
try: try:
order = self.exchange.cancel_order_with_result( order = self.exchange.cancel_order_with_result(order['id'], trade.pair,
order['id'], trade.pair, trade.amount) trade.amount)
except InvalidOrderException: except InvalidOrderException:
logger.exception( logger.exception(
f"Could not cancel {trade.exit_side} order {trade.open_order_id}") f"Could not cancel {trade.exit_side} order {trade.open_order_id}")
@ -1498,18 +1490,17 @@ class FreqtradeBot(LoggingMixin):
# Order might be filled above in odd timing issues. # Order might be filled above in odd timing issues.
if order.get('status') in ('canceled', 'cancelled'): if order.get('status') in ('canceled', 'cancelled'):
trade.exit_reason = None trade.exit_reason = None
trade.open_order_id = None
else: else:
trade.exit_reason = exit_reason_prev trade.exit_reason = exit_reason_prev
cancelled = True cancelled = True
else: else:
reason = constants.CANCEL_REASON['CANCELLED_ON_EXCHANGE'] reason = constants.CANCEL_REASON['CANCELLED_ON_EXCHANGE']
trade.exit_reason = None trade.exit_reason = None
trade.open_order_id = None
self.update_trade_state(trade, trade.open_order_id, order) self.update_trade_state(trade, trade.open_order_id, order)
logger.info(f'{trade.exit_side.capitalize()} order {reason} for {trade}.') logger.info(f'{trade.exit_side.capitalize()} order {reason} for {trade}.')
trade.open_order_id = None
trade.close_rate = None trade.close_rate = None
trade.close_rate_requested = None trade.close_rate_requested = None
@ -1675,7 +1666,7 @@ class FreqtradeBot(LoggingMixin):
amount = trade.amount amount = trade.amount
gain = "profit" if profit_ratio > 0 else "loss" gain = "profit" if profit_ratio > 0 else "loss"
msg: RPCSellMsg = { msg = {
'type': (RPCMessageType.EXIT_FILL if fill 'type': (RPCMessageType.EXIT_FILL if fill
else RPCMessageType.EXIT), else RPCMessageType.EXIT),
'trade_id': trade.id, 'trade_id': trade.id,
@ -1701,7 +1692,6 @@ class FreqtradeBot(LoggingMixin):
'close_date': trade.close_date or datetime.utcnow(), 'close_date': trade.close_date or datetime.utcnow(),
'stake_amount': trade.stake_amount, 'stake_amount': trade.stake_amount,
'stake_currency': self.config['stake_currency'], 'stake_currency': self.config['stake_currency'],
'base_currency': self.exchange.get_pair_base_currency(trade.pair),
'fiat_currency': self.config.get('fiat_display_currency'), 'fiat_currency': self.config.get('fiat_display_currency'),
'sub_trade': sub_trade, 'sub_trade': sub_trade,
'cumulative_profit': trade.realized_profit, 'cumulative_profit': trade.realized_profit,
@ -1732,7 +1722,7 @@ class FreqtradeBot(LoggingMixin):
profit_ratio = trade.calc_profit_ratio(profit_rate) profit_ratio = trade.calc_profit_ratio(profit_rate)
gain = "profit" if profit_ratio > 0 else "loss" gain = "profit" if profit_ratio > 0 else "loss"
msg: RPCSellCancelMsg = { msg = {
'type': RPCMessageType.EXIT_CANCEL, 'type': RPCMessageType.EXIT_CANCEL,
'trade_id': trade.id, 'trade_id': trade.id,
'exchange': trade.exchange.capitalize(), 'exchange': trade.exchange.capitalize(),
@ -1754,7 +1744,6 @@ class FreqtradeBot(LoggingMixin):
'open_date': trade.open_date, 'open_date': trade.open_date,
'close_date': trade.close_date or datetime.now(timezone.utc), 'close_date': trade.close_date or datetime.now(timezone.utc),
'stake_currency': self.config['stake_currency'], 'stake_currency': self.config['stake_currency'],
'base_currency': self.exchange.get_pair_base_currency(trade.pair),
'fiat_currency': self.config.get('fiat_display_currency', None), 'fiat_currency': self.config.get('fiat_display_currency', None),
'reason': reason, 'reason': reason,
'sub_trade': sub_trade, 'sub_trade': sub_trade,
@ -1786,11 +1775,11 @@ class FreqtradeBot(LoggingMixin):
return False return False
# Update trade with order values # Update trade with order values
if not stoploss_order:
logger.info(f'Found open order for {trade}') logger.info(f'Found open order for {trade}')
try: try:
order = action_order or self.exchange.fetch_order_or_stoploss_order( order = action_order or self.exchange.fetch_order_or_stoploss_order(order_id,
order_id, trade.pair, stoploss_order) trade.pair,
stoploss_order)
except InvalidOrderException as exception: except InvalidOrderException as exception:
logger.warning('Unable to fetch order %s: %s', order_id, exception) logger.warning('Unable to fetch order %s: %s', order_id, exception)
return False return False
@ -1819,7 +1808,7 @@ class FreqtradeBot(LoggingMixin):
# TODO: should shorting/leverage be supported by Edge, # TODO: should shorting/leverage be supported by Edge,
# then this will need to be fixed. # then this will need to be fixed.
trade.adjust_stop_loss(trade.open_rate, self.strategy.stoploss, initial=True) trade.adjust_stop_loss(trade.open_rate, self.strategy.stoploss, initial=True)
if order.get('side') == trade.entry_side or (trade.amount > 0 and trade.is_open): if order.get('side') == trade.entry_side or trade.amount > 0:
# Must also run for partial exits # Must also run for partial exits
# TODO: Margin will need to use interest_rate as well. # TODO: Margin will need to use interest_rate as well.
# interest_rate = self.exchange.get_interest_rate() # interest_rate = self.exchange.get_interest_rate()
@ -1855,27 +1844,21 @@ class FreqtradeBot(LoggingMixin):
self.handle_protections(trade.pair, trade.trade_direction) self.handle_protections(trade.pair, trade.trade_direction)
elif send_msg and not trade.open_order_id and not stoploss_order: elif send_msg and not trade.open_order_id and not stoploss_order:
# Enter fill # Enter fill
self._notify_enter(trade, order, order.order_type, fill=True, sub_trade=sub_trade) self._notify_enter(trade, order, fill=True, sub_trade=sub_trade)
def handle_protections(self, pair: str, side: LongShort) -> None: def handle_protections(self, pair: str, side: LongShort) -> None:
# Lock pair for one candle to prevent immediate rebuys # Lock pair for one candle to prevent immediate rebuys
self.strategy.lock_pair(pair, datetime.now(timezone.utc), reason='Auto lock') self.strategy.lock_pair(pair, datetime.now(timezone.utc), reason='Auto lock')
prot_trig = self.protections.stop_per_pair(pair, side=side) prot_trig = self.protections.stop_per_pair(pair, side=side)
if prot_trig: if prot_trig:
msg: RPCProtectionMsg = { msg = {'type': RPCMessageType.PROTECTION_TRIGGER, }
'type': RPCMessageType.PROTECTION_TRIGGER, msg.update(prot_trig.to_json())
'base_currency': self.exchange.get_pair_base_currency(prot_trig.pair),
**prot_trig.to_json() # type: ignore
}
self.rpc.send_msg(msg) self.rpc.send_msg(msg)
prot_trig_glb = self.protections.global_stop(side=side) prot_trig_glb = self.protections.global_stop(side=side)
if prot_trig_glb: if prot_trig_glb:
msg = { msg = {'type': RPCMessageType.PROTECTION_TRIGGER_GLOBAL, }
'type': RPCMessageType.PROTECTION_TRIGGER_GLOBAL, msg.update(prot_trig_glb.to_json())
'base_currency': self.exchange.get_pair_base_currency(prot_trig_glb.pair),
**prot_trig_glb.to_json() # type: ignore
}
self.rpc.send_msg(msg) self.rpc.send_msg(msg)
def apply_fee_conditional(self, trade: Trade, trade_base_currency: str, def apply_fee_conditional(self, trade: Trade, trade_base_currency: str,

View File

@ -203,10 +203,9 @@ class Backtesting:
# since a "perfect" stoploss-exit is assumed anyway # since a "perfect" stoploss-exit is assumed anyway
# And the regular "stoploss" function would not apply to that case # And the regular "stoploss" function would not apply to that case
self.strategy.order_types['stoploss_on_exchange'] = False self.strategy.order_types['stoploss_on_exchange'] = False
# Update can_short flag
self._can_short = self.trading_mode != TradingMode.SPOT and strategy.can_short
self.strategy.ft_bot_start() self.strategy.ft_bot_start()
strategy_safe_wrapper(self.strategy.bot_loop_start, supress_error=True)()
def _load_protections(self, strategy: IStrategy): def _load_protections(self, strategy: IStrategy):
if self.config.get('enable_protections', False): if self.config.get('enable_protections', False):
@ -741,7 +740,7 @@ class Backtesting:
proposed_leverage=1.0, proposed_leverage=1.0,
max_leverage=max_leverage, max_leverage=max_leverage,
side=direction, entry_tag=entry_tag, side=direction, entry_tag=entry_tag,
) if self.trading_mode != TradingMode.SPOT else 1.0 ) if self._can_short else 1.0
# Cap leverage between 1.0 and max_leverage. # Cap leverage between 1.0 and max_leverage.
leverage = min(max(leverage, 1.0), max_leverage) leverage = min(max(leverage, 1.0), max_leverage)
@ -1031,9 +1030,6 @@ class Backtesting:
requested_stake=( requested_stake=(
order.safe_remaining * order.ft_price / trade.leverage), order.safe_remaining * order.ft_price / trade.leverage),
direction='short' if trade.is_short else 'long') direction='short' if trade.is_short else 'long')
# Delete trade if no successful entries happened (if placing the new order failed)
if trade.open_order_id is None and trade.nr_of_successful_entries == 0:
return True
self.replaced_entry_orders += 1 self.replaced_entry_orders += 1
else: else:
# assumption: there can't be multiple open entry orders at any given time # assumption: there can't be multiple open entry orders at any given time
@ -1159,8 +1155,6 @@ class Backtesting:
while current_time <= end_date: while current_time <= end_date:
open_trade_count_start = LocalTrade.bt_open_open_trade_count open_trade_count_start = LocalTrade.bt_open_open_trade_count
self.check_abort() self.check_abort()
strategy_safe_wrapper(self.strategy.bot_loop_start, supress_error=True)(
current_time=current_time)
for i, pair in enumerate(data): for i, pair in enumerate(data):
row_index = indexes[pair] row_index = indexes[pair]
row = self.validate_row(data, pair, row_index, current_time) row = self.validate_row(data, pair, row_index, current_time)

View File

@ -23,8 +23,6 @@ logger = logging.getLogger(__name__)
NON_OPT_PARAM_APPENDIX = " # value loaded from strategy" NON_OPT_PARAM_APPENDIX = " # value loaded from strategy"
HYPER_PARAMS_FILE_FORMAT = rapidjson.NM_NATIVE | rapidjson.NM_NAN
def hyperopt_serializer(x): def hyperopt_serializer(x):
if isinstance(x, np.integer): if isinstance(x, np.integer):
@ -78,18 +76,9 @@ class HyperoptTools():
with filename.open('w') as f: with filename.open('w') as f:
rapidjson.dump(final_params, f, indent=2, rapidjson.dump(final_params, f, indent=2,
default=hyperopt_serializer, default=hyperopt_serializer,
number_mode=HYPER_PARAMS_FILE_FORMAT number_mode=rapidjson.NM_NATIVE | rapidjson.NM_NAN
) )
@staticmethod
def load_params(filename: Path) -> Dict:
"""
Load parameters from file
"""
with filename.open('r') as f:
params = rapidjson.load(f, number_mode=HYPER_PARAMS_FILE_FORMAT)
return params
@staticmethod @staticmethod
def try_export_params(config: Config, strategy_name: str, params: Dict): def try_export_params(config: Config, strategy_name: str, params: Dict):
if params.get(FTHYPT_FILEVERSION, 1) >= 2 and not config.get('disableparamexport', False): if params.get(FTHYPT_FILEVERSION, 1) >= 2 and not config.get('disableparamexport', False):
@ -200,7 +189,7 @@ class HyperoptTools():
for s in ['buy', 'sell', 'protection', for s in ['buy', 'sell', 'protection',
'roi', 'stoploss', 'trailing', 'max_open_trades']: 'roi', 'stoploss', 'trailing', 'max_open_trades']:
HyperoptTools._params_update_for_json(result_dict, params, non_optimized, s) HyperoptTools._params_update_for_json(result_dict, params, non_optimized, s)
print(rapidjson.dumps(result_dict, default=str, number_mode=HYPER_PARAMS_FILE_FORMAT)) print(rapidjson.dumps(result_dict, default=str, number_mode=rapidjson.NM_NATIVE))
else: else:
HyperoptTools._params_pretty_print(params, 'buy', "Buy hyperspace params:", HyperoptTools._params_pretty_print(params, 'buy', "Buy hyperspace params:",

View File

@ -865,11 +865,6 @@ def show_backtest_result(strategy: str, results: Dict[str, Any], stake_currency:
print(' BACKTESTING REPORT '.center(len(table.splitlines()[0]), '=')) print(' BACKTESTING REPORT '.center(len(table.splitlines()[0]), '='))
print(table) print(table)
table = text_table_bt_results(results['left_open_trades'], stake_currency=stake_currency)
if isinstance(table, str) and len(table) > 0:
print(' LEFT OPEN TRADES REPORT '.center(len(table.splitlines()[0]), '='))
print(table)
if (results.get('results_per_enter_tag') is not None if (results.get('results_per_enter_tag') is not None
or results.get('results_per_buy_tag') is not None): or results.get('results_per_buy_tag') is not None):
# results_per_buy_tag is deprecated and should be removed 2 versions after short golive. # results_per_buy_tag is deprecated and should be removed 2 versions after short golive.
@ -889,6 +884,11 @@ def show_backtest_result(strategy: str, results: Dict[str, Any], stake_currency:
print(' EXIT REASON STATS '.center(len(table.splitlines()[0]), '=')) print(' EXIT REASON STATS '.center(len(table.splitlines()[0]), '='))
print(table) print(table)
table = text_table_bt_results(results['left_open_trades'], stake_currency=stake_currency)
if isinstance(table, str) and len(table) > 0:
print(' LEFT OPEN TRADES REPORT '.center(len(table.splitlines()[0]), '='))
print(table)
for period in backtest_breakdown: for period in backtest_breakdown:
days_breakdown_stats = generate_periodic_breakdown_stats( days_breakdown_stats = generate_periodic_breakdown_stats(
trade_list=results['trades'], period=period) trade_list=results['trades'], period=period)
@ -917,11 +917,11 @@ def show_backtest_results(config: Config, backtest_stats: Dict):
strategy, results, stake_currency, strategy, results, stake_currency,
config.get('backtest_breakdown', [])) config.get('backtest_breakdown', []))
if len(backtest_stats['strategy']) > 0: if len(backtest_stats['strategy']) > 1:
# Print Strategy summary table # Print Strategy summary table
table = text_table_strategy(backtest_stats['strategy_comparison'], stake_currency) table = text_table_strategy(backtest_stats['strategy_comparison'], stake_currency)
print(f"Backtested {results['backtest_start']} -> {results['backtest_end']} |" print(f"{results['backtest_start']} -> {results['backtest_end']} |"
f" Max open trades : {results['max_open_trades']}") f" Max open trades : {results['max_open_trades']}")
print(' STRATEGY SUMMARY '.center(len(table.splitlines()[0]), '=')) print(' STRATEGY SUMMARY '.center(len(table.splitlines()[0]), '='))
print(table) print(table)

View File

@ -1,6 +1,5 @@
# flake8: noqa: F401 # flake8: noqa: F401
from freqtrade.persistence.key_value_store import KeyStoreKeys, KeyValueStore
from freqtrade.persistence.models import init_db from freqtrade.persistence.models import init_db
from freqtrade.persistence.pairlock_middleware import PairLocks from freqtrade.persistence.pairlock_middleware import PairLocks
from freqtrade.persistence.trade_model import LocalTrade, Order, Trade from freqtrade.persistence.trade_model import LocalTrade, Order, Trade

View File

@ -1,179 +0,0 @@
from datetime import datetime, timezone
from enum import Enum
from typing import ClassVar, Optional, Union
from sqlalchemy import String
from sqlalchemy.orm import Mapped, mapped_column
from freqtrade.persistence.base import ModelBase, SessionType
ValueTypes = Union[str, datetime, float, int]
class ValueTypesEnum(str, Enum):
STRING = 'str'
DATETIME = 'datetime'
FLOAT = 'float'
INT = 'int'
class KeyStoreKeys(str, Enum):
BOT_START_TIME = 'bot_start_time'
STARTUP_TIME = 'startup_time'
class _KeyValueStoreModel(ModelBase):
"""
Pair Locks database model.
"""
__tablename__ = 'KeyValueStore'
session: ClassVar[SessionType]
id: Mapped[int] = mapped_column(primary_key=True)
key: Mapped[KeyStoreKeys] = mapped_column(String(25), nullable=False, index=True)
value_type: Mapped[ValueTypesEnum] = mapped_column(String(20), nullable=False)
string_value: Mapped[Optional[str]]
datetime_value: Mapped[Optional[datetime]]
float_value: Mapped[Optional[float]]
int_value: Mapped[Optional[int]]
class KeyValueStore():
"""
Generic bot-wide, persistent key-value store
Can be used to store generic values, e.g. very first bot startup time.
Supports the types str, datetime, float and int.
"""
@staticmethod
def store_value(key: KeyStoreKeys, value: ValueTypes) -> None:
"""
Store the given value for the given key.
:param key: Key to store the value for - can be used in get-value to retrieve the key
:param value: Value to store - can be str, datetime, float or int
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key).first()
if kv is None:
kv = _KeyValueStoreModel(key=key)
if isinstance(value, str):
kv.value_type = ValueTypesEnum.STRING
kv.string_value = value
elif isinstance(value, datetime):
kv.value_type = ValueTypesEnum.DATETIME
kv.datetime_value = value
elif isinstance(value, float):
kv.value_type = ValueTypesEnum.FLOAT
kv.float_value = value
elif isinstance(value, int):
kv.value_type = ValueTypesEnum.INT
kv.int_value = value
else:
raise ValueError(f'Unknown value type {kv.value_type}')
_KeyValueStoreModel.session.add(kv)
_KeyValueStoreModel.session.commit()
@staticmethod
def delete_value(key: KeyStoreKeys) -> None:
"""
Delete the value for the given key.
:param key: Key to delete the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key).first()
if kv is not None:
_KeyValueStoreModel.session.delete(kv)
_KeyValueStoreModel.session.commit()
@staticmethod
def get_value(key: KeyStoreKeys) -> Optional[ValueTypes]:
"""
Get the value for the given key.
:param key: Key to get the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key).first()
if kv is None:
return None
if kv.value_type == ValueTypesEnum.STRING:
return kv.string_value
if kv.value_type == ValueTypesEnum.DATETIME and kv.datetime_value is not None:
return kv.datetime_value.replace(tzinfo=timezone.utc)
if kv.value_type == ValueTypesEnum.FLOAT:
return kv.float_value
if kv.value_type == ValueTypesEnum.INT:
return kv.int_value
# This should never happen unless someone messed with the database manually
raise ValueError(f'Unknown value type {kv.value_type}') # pragma: no cover
@staticmethod
def get_string_value(key: KeyStoreKeys) -> Optional[str]:
"""
Get the value for the given key.
:param key: Key to get the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key,
_KeyValueStoreModel.value_type == ValueTypesEnum.STRING).first()
if kv is None:
return None
return kv.string_value
@staticmethod
def get_datetime_value(key: KeyStoreKeys) -> Optional[datetime]:
"""
Get the value for the given key.
:param key: Key to get the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key,
_KeyValueStoreModel.value_type == ValueTypesEnum.DATETIME).first()
if kv is None or kv.datetime_value is None:
return None
return kv.datetime_value.replace(tzinfo=timezone.utc)
@staticmethod
def get_float_value(key: KeyStoreKeys) -> Optional[float]:
"""
Get the value for the given key.
:param key: Key to get the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key,
_KeyValueStoreModel.value_type == ValueTypesEnum.FLOAT).first()
if kv is None:
return None
return kv.float_value
@staticmethod
def get_int_value(key: KeyStoreKeys) -> Optional[int]:
"""
Get the value for the given key.
:param key: Key to get the value for
"""
kv = _KeyValueStoreModel.session.query(_KeyValueStoreModel).filter(
_KeyValueStoreModel.key == key,
_KeyValueStoreModel.value_type == ValueTypesEnum.INT).first()
if kv is None:
return None
return kv.int_value
def set_startup_time():
"""
sets bot_start_time to the first trade open date - or "now" on new databases.
sets startup_time to "now"
"""
st = KeyValueStore.get_value('bot_start_time')
if st is None:
from freqtrade.persistence import Trade
t = Trade.session.query(Trade).order_by(Trade.open_date.asc()).first()
if t is not None:
KeyValueStore.store_value('bot_start_time', t.open_date_utc)
else:
KeyValueStore.store_value('bot_start_time', datetime.now(timezone.utc))
KeyValueStore.store_value('startup_time', datetime.now(timezone.utc))

View File

@ -13,7 +13,6 @@ from sqlalchemy.pool import StaticPool
from freqtrade.exceptions import OperationalException from freqtrade.exceptions import OperationalException
from freqtrade.persistence.base import ModelBase from freqtrade.persistence.base import ModelBase
from freqtrade.persistence.key_value_store import _KeyValueStoreModel
from freqtrade.persistence.migrations import check_migrate from freqtrade.persistence.migrations import check_migrate
from freqtrade.persistence.pairlock import PairLock from freqtrade.persistence.pairlock import PairLock
from freqtrade.persistence.trade_model import Order, Trade from freqtrade.persistence.trade_model import Order, Trade
@ -77,7 +76,6 @@ def init_db(db_url: str) -> None:
bind=engine, autoflush=False), scopefunc=get_request_or_thread_id) bind=engine, autoflush=False), scopefunc=get_request_or_thread_id)
Order.session = Trade.session Order.session = Trade.session
PairLock.session = Trade.session PairLock.session = Trade.session
_KeyValueStoreModel.session = Trade.session
previous_tables = inspect(engine).get_table_names() previous_tables = inspect(engine).get_table_names()
ModelBase.metadata.create_all(engine) ModelBase.metadata.create_all(engine)

View File

@ -9,14 +9,13 @@ from typing import Any, ClassVar, Dict, List, Optional, Sequence, cast
from sqlalchemy import (Enum, Float, ForeignKey, Integer, ScalarResult, Select, String, from sqlalchemy import (Enum, Float, ForeignKey, Integer, ScalarResult, Select, String,
UniqueConstraint, desc, func, select) UniqueConstraint, desc, func, select)
from sqlalchemy.orm import Mapped, lazyload, mapped_column, relationship, validates from sqlalchemy.orm import Mapped, lazyload, mapped_column, relationship
from freqtrade.constants import (CUSTOM_TAG_MAX_LENGTH, DATETIME_PRINT_FORMAT, MATH_CLOSE_PREC, from freqtrade.constants import (DATETIME_PRINT_FORMAT, MATH_CLOSE_PREC, NON_OPEN_EXCHANGE_STATES,
NON_OPEN_EXCHANGE_STATES, BuySell, LongShort) BuySell, LongShort)
from freqtrade.enums import ExitType, TradingMode from freqtrade.enums import ExitType, TradingMode
from freqtrade.exceptions import DependencyException, OperationalException from freqtrade.exceptions import DependencyException, OperationalException
from freqtrade.exchange import (ROUND_DOWN, ROUND_UP, amount_to_contract_precision, from freqtrade.exchange import amount_to_contract_precision, price_to_precision
price_to_precision)
from freqtrade.leverage import interest from freqtrade.leverage import interest
from freqtrade.persistence.base import ModelBase, SessionType from freqtrade.persistence.base import ModelBase, SessionType
from freqtrade.util import FtPrecise from freqtrade.util import FtPrecise
@ -561,9 +560,6 @@ class LocalTrade():
'trading_mode': self.trading_mode, 'trading_mode': self.trading_mode,
'funding_fees': self.funding_fees, 'funding_fees': self.funding_fees,
'open_order_id': self.open_order_id, 'open_order_id': self.open_order_id,
'amount_precision': self.amount_precision,
'price_precision': self.price_precision,
'precision_mode': self.precision_mode,
'orders': orders, 'orders': orders,
} }
@ -598,8 +594,7 @@ class LocalTrade():
""" """
Method used internally to set self.stop_loss. Method used internally to set self.stop_loss.
""" """
stop_loss_norm = price_to_precision(stop_loss, self.price_precision, self.precision_mode, stop_loss_norm = price_to_precision(stop_loss, self.price_precision, self.precision_mode)
rounding_mode=ROUND_DOWN if self.is_short else ROUND_UP)
if not self.stop_loss: if not self.stop_loss:
self.initial_stop_loss = stop_loss_norm self.initial_stop_loss = stop_loss_norm
self.stop_loss = stop_loss_norm self.stop_loss = stop_loss_norm
@ -630,8 +625,7 @@ class LocalTrade():
if self.initial_stop_loss_pct is None or refresh: if self.initial_stop_loss_pct is None or refresh:
self.__set_stop_loss(new_loss, stoploss) self.__set_stop_loss(new_loss, stoploss)
self.initial_stop_loss = price_to_precision( self.initial_stop_loss = price_to_precision(
new_loss, self.price_precision, self.precision_mode, new_loss, self.price_precision, self.precision_mode)
rounding_mode=ROUND_DOWN if self.is_short else ROUND_UP)
self.initial_stop_loss_pct = -1 * abs(stoploss) self.initial_stop_loss_pct = -1 * abs(stoploss)
# evaluate if the stop loss needs to be updated # evaluate if the stop loss needs to be updated
@ -695,24 +689,21 @@ class LocalTrade():
else: else:
logger.warning( logger.warning(
f'Got different open_order_id {self.open_order_id} != {order.order_id}') f'Got different open_order_id {self.open_order_id} != {order.order_id}')
elif order.ft_order_side == 'stoploss' and order.status not in ('open', ):
self.stoploss_order_id = None
self.close_rate_requested = self.stop_loss
self.exit_reason = ExitType.STOPLOSS_ON_EXCHANGE.value
if self.is_open:
logger.info(f'{order.order_type.upper()} is hit for {self}.')
else:
raise ValueError(f'Unknown order type: {order.order_type}')
if order.ft_order_side != self.entry_side:
amount_tr = amount_to_contract_precision(self.amount, self.amount_precision, amount_tr = amount_to_contract_precision(self.amount, self.amount_precision,
self.precision_mode, self.contract_size) self.precision_mode, self.contract_size)
if isclose(order.safe_amount_after_fee, amount_tr, abs_tol=MATH_CLOSE_PREC): if isclose(order.safe_amount_after_fee, amount_tr, abs_tol=MATH_CLOSE_PREC):
self.close(order.safe_price) self.close(order.safe_price)
else: else:
self.recalc_trade_from_orders() self.recalc_trade_from_orders()
elif order.ft_order_side == 'stoploss' and order.status not in ('canceled', 'open'):
self.stoploss_order_id = None
self.close_rate_requested = self.stop_loss
self.exit_reason = ExitType.STOPLOSS_ON_EXCHANGE.value
if self.is_open:
logger.info(f'{order.order_type.upper()} is hit for {self}.')
self.close(order.safe_price)
else:
raise ValueError(f'Unknown order type: {order.order_type}')
Trade.commit() Trade.commit()
def close(self, rate: float, *, show_msg: bool = True) -> None: def close(self, rate: float, *, show_msg: bool = True) -> None:
@ -1259,13 +1250,11 @@ class Trade(ModelBase, LocalTrade):
Float(), nullable=True, default=0.0) # type: ignore Float(), nullable=True, default=0.0) # type: ignore
# Lowest price reached # Lowest price reached
min_rate: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore min_rate: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore
exit_reason: Mapped[Optional[str]] = mapped_column( exit_reason: Mapped[Optional[str]] = mapped_column(String(100), nullable=True) # type: ignore
String(CUSTOM_TAG_MAX_LENGTH), nullable=True) # type: ignore
exit_order_status: Mapped[Optional[str]] = mapped_column( exit_order_status: Mapped[Optional[str]] = mapped_column(
String(100), nullable=True) # type: ignore String(100), nullable=True) # type: ignore
strategy: Mapped[Optional[str]] = mapped_column(String(100), nullable=True) # type: ignore strategy: Mapped[Optional[str]] = mapped_column(String(100), nullable=True) # type: ignore
enter_tag: Mapped[Optional[str]] = mapped_column( enter_tag: Mapped[Optional[str]] = mapped_column(String(100), nullable=True) # type: ignore
String(CUSTOM_TAG_MAX_LENGTH), nullable=True) # type: ignore
timeframe: Mapped[Optional[int]] = mapped_column(Integer, nullable=True) # type: ignore timeframe: Mapped[Optional[int]] = mapped_column(Integer, nullable=True) # type: ignore
trading_mode: Mapped[TradingMode] = mapped_column( trading_mode: Mapped[TradingMode] = mapped_column(
@ -1295,13 +1284,6 @@ class Trade(ModelBase, LocalTrade):
self.realized_profit = 0 self.realized_profit = 0
self.recalc_open_trade_value() self.recalc_open_trade_value()
@validates('enter_tag', 'exit_reason')
def validate_string_len(self, key, value):
max_len = getattr(self.__class__, key).prop.columns[0].type.length
if value and len(value) > max_len:
return value[:max_len]
return value
def delete(self) -> None: def delete(self) -> None:
for order in self.orders: for order in self.orders:
@ -1678,10 +1660,8 @@ class Trade(ModelBase, LocalTrade):
stop_loss=data["stop_loss_abs"], stop_loss=data["stop_loss_abs"],
stop_loss_pct=data["stop_loss_ratio"], stop_loss_pct=data["stop_loss_ratio"],
stoploss_order_id=data["stoploss_order_id"], stoploss_order_id=data["stoploss_order_id"],
stoploss_last_update=( stoploss_last_update=(datetime.fromtimestamp(data["stoploss_last_update"] // 1000,
datetime.fromtimestamp(data["stoploss_last_update_timestamp"] // 1000, tz=timezone.utc) if data["stoploss_last_update"] else None),
tz=timezone.utc)
if data["stoploss_last_update_timestamp"] else None),
initial_stop_loss=data["initial_stop_loss_abs"], initial_stop_loss=data["initial_stop_loss_abs"],
initial_stop_loss_pct=data["initial_stop_loss_ratio"], initial_stop_loss_pct=data["initial_stop_loss_ratio"],
min_rate=data["min_rate"], min_rate=data["min_rate"],

View File

@ -1,5 +1,4 @@
import logging import logging
from datetime import datetime, timezone
from pathlib import Path from pathlib import Path
from typing import Dict, List, Optional from typing import Dict, List, Optional
@ -636,7 +635,7 @@ def load_and_plot_trades(config: Config):
exchange = ExchangeResolver.load_exchange(config['exchange']['name'], config) exchange = ExchangeResolver.load_exchange(config['exchange']['name'], config)
IStrategy.dp = DataProvider(config, exchange) IStrategy.dp = DataProvider(config, exchange)
strategy.ft_bot_start() strategy.ft_bot_start()
strategy.bot_loop_start(datetime.now(timezone.utc)) strategy.bot_loop_start()
plot_elements = init_plotscript(config, list(exchange.markets), strategy.startup_candle_count) plot_elements = init_plotscript(config, list(exchange.markets), strategy.startup_candle_count)
timerange = plot_elements['timerange'] timerange = plot_elements['timerange']
trades = plot_elements['trades'] trades = plot_elements['trades']

View File

@ -6,7 +6,6 @@ from typing import Any, Dict, Optional
from freqtrade.constants import Config from freqtrade.constants import Config
from freqtrade.exceptions import OperationalException from freqtrade.exceptions import OperationalException
from freqtrade.exchange import ROUND_UP
from freqtrade.exchange.types import Ticker from freqtrade.exchange.types import Ticker
from freqtrade.plugins.pairlist.IPairList import IPairList from freqtrade.plugins.pairlist.IPairList import IPairList
@ -62,10 +61,9 @@ class PrecisionFilter(IPairList):
stop_price = ticker['last'] * self._stoploss stop_price = ticker['last'] * self._stoploss
# Adjust stop-prices to precision # Adjust stop-prices to precision
sp = self._exchange.price_to_precision(pair, stop_price, rounding_mode=ROUND_UP) sp = self._exchange.price_to_precision(pair, stop_price)
stop_gap_price = self._exchange.price_to_precision(pair, stop_price * 0.99, stop_gap_price = self._exchange.price_to_precision(pair, stop_price * 0.99)
rounding_mode=ROUND_UP)
logger.debug(f"{pair} - {sp} : {stop_gap_price}") logger.debug(f"{pair} - {sp} : {stop_gap_price}")
if sp <= stop_gap_price: if sp <= stop_gap_price:

View File

@ -108,8 +108,6 @@ class Profit(BaseModel):
max_drawdown: float max_drawdown: float
max_drawdown_abs: float max_drawdown_abs: float
trading_volume: Optional[float] trading_volume: Optional[float]
bot_start_timestamp: int
bot_start_date: str
class SellReason(BaseModel): class SellReason(BaseModel):
@ -278,10 +276,6 @@ class TradeSchema(BaseModel):
funding_fees: Optional[float] funding_fees: Optional[float]
trading_mode: Optional[TradingMode] trading_mode: Optional[TradingMode]
amount_precision: Optional[float]
price_precision: Optional[float]
precision_mode: Optional[int]
class OpenTradeSchema(TradeSchema): class OpenTradeSchema(TradeSchema):
stoploss_current_dist: Optional[float] stoploss_current_dist: Optional[float]

View File

@ -55,7 +55,7 @@ class UvicornServer(uvicorn.Server):
@contextlib.contextmanager @contextlib.contextmanager
def run_in_thread(self): def run_in_thread(self):
self.thread = threading.Thread(target=self.run, name='FTUvicorn') self.thread = threading.Thread(target=self.run)
self.thread.start() self.thread.start()
while not self.started: while not self.started:
time.sleep(1e-3) time.sleep(1e-3)

View File

@ -13,7 +13,6 @@ from freqtrade.exceptions import OperationalException
from freqtrade.rpc.api_server.uvicorn_threaded import UvicornServer from freqtrade.rpc.api_server.uvicorn_threaded import UvicornServer
from freqtrade.rpc.api_server.ws.message_stream import MessageStream from freqtrade.rpc.api_server.ws.message_stream import MessageStream
from freqtrade.rpc.rpc import RPC, RPCException, RPCHandler from freqtrade.rpc.rpc import RPC, RPCException, RPCHandler
from freqtrade.rpc.rpc_types import RPCSendMsg
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
@ -109,7 +108,7 @@ class ApiServer(RPCHandler):
cls._has_rpc = False cls._has_rpc = False
cls._rpc = None cls._rpc = None
def send_msg(self, msg: RPCSendMsg) -> None: def send_msg(self, msg: Dict[str, Any]) -> None:
""" """
Publish the message to the message stream Publish the message to the message stream
""" """

View File

@ -26,11 +26,10 @@ from freqtrade.exceptions import ExchangeError, PricingError
from freqtrade.exchange import timeframe_to_minutes, timeframe_to_msecs from freqtrade.exchange import timeframe_to_minutes, timeframe_to_msecs
from freqtrade.loggers import bufferHandler from freqtrade.loggers import bufferHandler
from freqtrade.misc import decimals_per_coin, shorten_date from freqtrade.misc import decimals_per_coin, shorten_date
from freqtrade.persistence import KeyStoreKeys, KeyValueStore, Order, PairLocks, Trade from freqtrade.persistence import Order, PairLocks, Trade
from freqtrade.persistence.models import PairLock from freqtrade.persistence.models import PairLock
from freqtrade.plugins.pairlist.pairlist_helpers import expand_pairlist from freqtrade.plugins.pairlist.pairlist_helpers import expand_pairlist
from freqtrade.rpc.fiat_convert import CryptoToFiatConverter from freqtrade.rpc.fiat_convert import CryptoToFiatConverter
from freqtrade.rpc.rpc_types import RPCSendMsg
from freqtrade.wallets import PositionWallet, Wallet from freqtrade.wallets import PositionWallet, Wallet
@ -80,7 +79,7 @@ class RPCHandler:
""" Cleanup pending module resources """ """ Cleanup pending module resources """
@abstractmethod @abstractmethod
def send_msg(self, msg: RPCSendMsg) -> None: def send_msg(self, msg: Dict[str, str]) -> None:
""" Sends a message to all registered rpc modules """ """ Sends a message to all registered rpc modules """
@ -543,7 +542,6 @@ class RPC:
first_date = trades[0].open_date if trades else None first_date = trades[0].open_date if trades else None
last_date = trades[-1].open_date if trades else None last_date = trades[-1].open_date if trades else None
num = float(len(durations) or 1) num = float(len(durations) or 1)
bot_start = KeyValueStore.get_datetime_value(KeyStoreKeys.BOT_START_TIME)
return { return {
'profit_closed_coin': profit_closed_coin_sum, 'profit_closed_coin': profit_closed_coin_sum,
'profit_closed_percent_mean': round(profit_closed_ratio_mean * 100, 2), 'profit_closed_percent_mean': round(profit_closed_ratio_mean * 100, 2),
@ -577,8 +575,6 @@ class RPC:
'max_drawdown': max_drawdown, 'max_drawdown': max_drawdown,
'max_drawdown_abs': max_drawdown_abs, 'max_drawdown_abs': max_drawdown_abs,
'trading_volume': trading_volume, 'trading_volume': trading_volume,
'bot_start_timestamp': int(bot_start.timestamp() * 1000) if bot_start else 0,
'bot_start_date': bot_start.strftime(DATETIME_PRINT_FORMAT) if bot_start else '',
} }
def _rpc_balance(self, stake_currency: str, fiat_display_currency: str) -> Dict: def _rpc_balance(self, stake_currency: str, fiat_display_currency: str) -> Dict:
@ -1196,7 +1192,6 @@ class RPC:
from freqtrade.resolvers.strategy_resolver import StrategyResolver from freqtrade.resolvers.strategy_resolver import StrategyResolver
strategy = StrategyResolver.load_strategy(config) strategy = StrategyResolver.load_strategy(config)
strategy.dp = DataProvider(config, exchange=exchange, pairlists=None) strategy.dp = DataProvider(config, exchange=exchange, pairlists=None)
strategy.ft_bot_start()
df_analyzed = strategy.analyze_ticker(_data[pair], {'pair': pair}) df_analyzed = strategy.analyze_ticker(_data[pair], {'pair': pair})

View File

@ -3,12 +3,11 @@ This module contains class to manage RPC communications (Telegram, API, ...)
""" """
import logging import logging
from collections import deque from collections import deque
from typing import List from typing import Any, Dict, List
from freqtrade.constants import Config from freqtrade.constants import Config
from freqtrade.enums import NO_ECHO_MESSAGES, RPCMessageType from freqtrade.enums import NO_ECHO_MESSAGES, RPCMessageType
from freqtrade.rpc import RPC, RPCHandler from freqtrade.rpc import RPC, RPCHandler
from freqtrade.rpc.rpc_types import RPCSendMsg
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
@ -59,7 +58,7 @@ class RPCManager:
mod.cleanup() mod.cleanup()
del mod del mod
def send_msg(self, msg: RPCSendMsg) -> None: def send_msg(self, msg: Dict[str, Any]) -> None:
""" """
Send given message to all registered rpc modules. Send given message to all registered rpc modules.
A message consists of one or more key value pairs of strings. A message consists of one or more key value pairs of strings.
@ -70,6 +69,10 @@ class RPCManager:
""" """
if msg.get('type') not in NO_ECHO_MESSAGES: if msg.get('type') not in NO_ECHO_MESSAGES:
logger.info('Sending rpc message: %s', msg) logger.info('Sending rpc message: %s', msg)
if 'pair' in msg:
msg.update({
'base_currency': self._rpc._freqtrade.exchange.get_pair_base_currency(msg['pair'])
})
for mod in self.registered_modules: for mod in self.registered_modules:
logger.debug('Forwarding message to rpc.%s', mod.name) logger.debug('Forwarding message to rpc.%s', mod.name)
try: try:

View File

@ -1,128 +0,0 @@
from datetime import datetime
from typing import Any, List, Literal, Optional, TypedDict, Union
from freqtrade.constants import PairWithTimeframe
from freqtrade.enums import RPCMessageType
class RPCSendMsgBase(TypedDict):
pass
# ty1pe: Literal[RPCMessageType]
class RPCStatusMsg(RPCSendMsgBase):
"""Used for Status, Startup and Warning messages"""
type: Literal[RPCMessageType.STATUS, RPCMessageType.STARTUP, RPCMessageType.WARNING]
status: str
class RPCStrategyMsg(RPCSendMsgBase):
"""Used for Status, Startup and Warning messages"""
type: Literal[RPCMessageType.STRATEGY_MSG]
msg: str
class RPCProtectionMsg(RPCSendMsgBase):
type: Literal[RPCMessageType.PROTECTION_TRIGGER, RPCMessageType.PROTECTION_TRIGGER_GLOBAL]
id: int
pair: str
base_currency: Optional[str]
lock_time: str
lock_timestamp: int
lock_end_time: str
lock_end_timestamp: int
reason: str
side: str
active: bool
class RPCWhitelistMsg(RPCSendMsgBase):
type: Literal[RPCMessageType.WHITELIST]
data: List[str]
class __RPCBuyMsgBase(RPCSendMsgBase):
trade_id: int
buy_tag: Optional[str]
enter_tag: Optional[str]
exchange: str
pair: str
base_currency: str
leverage: Optional[float]
direction: str
limit: float
open_rate: float
order_type: str
stake_amount: float
stake_currency: str
fiat_currency: Optional[str]
amount: float
open_date: datetime
current_rate: Optional[float]
sub_trade: bool
class RPCBuyMsg(__RPCBuyMsgBase):
type: Literal[RPCMessageType.ENTRY, RPCMessageType.ENTRY_FILL]
class RPCCancelMsg(__RPCBuyMsgBase):
type: Literal[RPCMessageType.ENTRY_CANCEL]
reason: str
class RPCSellMsg(__RPCBuyMsgBase):
type: Literal[RPCMessageType.EXIT, RPCMessageType.EXIT_FILL]
cumulative_profit: float
gain: str # Literal["profit", "loss"]
close_rate: float
profit_amount: float
profit_ratio: float
sell_reason: Optional[str]
exit_reason: Optional[str]
close_date: datetime
# current_rate: Optional[float]
order_rate: Optional[float]
class RPCSellCancelMsg(__RPCBuyMsgBase):
type: Literal[RPCMessageType.EXIT_CANCEL]
reason: str
gain: str # Literal["profit", "loss"]
profit_amount: float
profit_ratio: float
sell_reason: Optional[str]
exit_reason: Optional[str]
close_date: datetime
class _AnalyzedDFData(TypedDict):
key: PairWithTimeframe
df: Any
la: datetime
class RPCAnalyzedDFMsg(RPCSendMsgBase):
"""New Analyzed dataframe message"""
type: Literal[RPCMessageType.ANALYZED_DF]
data: _AnalyzedDFData
class RPCNewCandleMsg(RPCSendMsgBase):
"""New candle ping message, issued once per new candle/pair"""
type: Literal[RPCMessageType.NEW_CANDLE]
data: PairWithTimeframe
RPCSendMsg = Union[
RPCStatusMsg,
RPCStrategyMsg,
RPCProtectionMsg,
RPCWhitelistMsg,
RPCBuyMsg,
RPCCancelMsg,
RPCSellMsg,
RPCSellCancelMsg,
RPCAnalyzedDFMsg,
RPCNewCandleMsg
]

View File

@ -30,7 +30,6 @@ from freqtrade.exceptions import OperationalException
from freqtrade.misc import chunks, plural, round_coin_value from freqtrade.misc import chunks, plural, round_coin_value
from freqtrade.persistence import Trade from freqtrade.persistence import Trade
from freqtrade.rpc import RPC, RPCException, RPCHandler from freqtrade.rpc import RPC, RPCException, RPCHandler
from freqtrade.rpc.rpc_types import RPCSendMsg
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
@ -430,14 +429,14 @@ class Telegram(RPCHandler):
return None return None
return message return message
def send_msg(self, msg: RPCSendMsg) -> None: def send_msg(self, msg: Dict[str, Any]) -> None:
""" Send a message to telegram channel """ """ Send a message to telegram channel """
default_noti = 'on' default_noti = 'on'
msg_type = msg['type'] msg_type = msg['type']
noti = '' noti = ''
if msg['type'] == RPCMessageType.EXIT: if msg_type == RPCMessageType.EXIT:
sell_noti = self._config['telegram'] \ sell_noti = self._config['telegram'] \
.get('notification_settings', {}).get(str(msg_type), {}) .get('notification_settings', {}).get(str(msg_type), {})
# For backward compatibility sell still can be string # For backward compatibility sell still can be string
@ -454,7 +453,7 @@ class Telegram(RPCHandler):
# Notification disabled # Notification disabled
return return
message = self.compose_message(deepcopy(msg), msg_type) # type: ignore message = self.compose_message(deepcopy(msg), msg_type)
if message: if message:
self._send_msg(message, disable_notification=(noti == 'silent')) self._send_msg(message, disable_notification=(noti == 'silent'))
@ -819,7 +818,7 @@ class Telegram(RPCHandler):
best_pair = stats['best_pair'] best_pair = stats['best_pair']
best_pair_profit_ratio = stats['best_pair_profit_ratio'] best_pair_profit_ratio = stats['best_pair_profit_ratio']
if stats['trade_count'] == 0: if stats['trade_count'] == 0:
markdown_msg = f"No trades yet.\n*Bot started:* `{stats['bot_start_date']}`" markdown_msg = 'No trades yet.'
else: else:
# Message to display # Message to display
if stats['closed_trade_count'] > 0: if stats['closed_trade_count'] > 0:
@ -838,7 +837,6 @@ class Telegram(RPCHandler):
f"({profit_all_percent} \N{GREEK CAPITAL LETTER SIGMA}%)`\n" f"({profit_all_percent} \N{GREEK CAPITAL LETTER SIGMA}%)`\n"
f"∙ `{round_coin_value(profit_all_fiat, fiat_disp_cur)}`\n" f"∙ `{round_coin_value(profit_all_fiat, fiat_disp_cur)}`\n"
f"*Total Trade Count:* `{trade_count}`\n" f"*Total Trade Count:* `{trade_count}`\n"
f"*Bot started:* `{stats['bot_start_date']}`\n"
f"*{'First Trade opened' if not timescale else 'Showing Profit since'}:* " f"*{'First Trade opened' if not timescale else 'Showing Profit since'}:* "
f"`{first_trade_date}`\n" f"`{first_trade_date}`\n"
f"*Latest Trade opened:* `{latest_trade_date}`\n" f"*Latest Trade opened:* `{latest_trade_date}`\n"

View File

@ -10,7 +10,6 @@ from requests import RequestException, post
from freqtrade.constants import Config from freqtrade.constants import Config
from freqtrade.enums import RPCMessageType from freqtrade.enums import RPCMessageType
from freqtrade.rpc import RPC, RPCHandler from freqtrade.rpc import RPC, RPCHandler
from freqtrade.rpc.rpc_types import RPCSendMsg
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
@ -42,7 +41,7 @@ class Webhook(RPCHandler):
""" """
pass pass
def _get_value_dict(self, msg: RPCSendMsg) -> Optional[Dict[str, Any]]: def _get_value_dict(self, msg: Dict[str, Any]) -> Optional[Dict[str, Any]]:
whconfig = self._config['webhook'] whconfig = self._config['webhook']
# Deprecated 2022.10 - only keep generic method. # Deprecated 2022.10 - only keep generic method.
if msg['type'] in [RPCMessageType.ENTRY]: if msg['type'] in [RPCMessageType.ENTRY]:
@ -76,7 +75,7 @@ class Webhook(RPCHandler):
return None return None
return valuedict return valuedict
def send_msg(self, msg: RPCSendMsg) -> None: def send_msg(self, msg: Dict[str, Any]) -> None:
""" Send a message to telegram channel """ """ Send a message to telegram channel """
try: try:

View File

@ -8,7 +8,7 @@ from typing import Any, Dict, Iterator, List, Optional, Tuple, Type, Union
from freqtrade.constants import Config from freqtrade.constants import Config
from freqtrade.exceptions import OperationalException from freqtrade.exceptions import OperationalException
from freqtrade.misc import deep_merge_dicts from freqtrade.misc import deep_merge_dicts, json_load
from freqtrade.optimize.hyperopt_tools import HyperoptTools from freqtrade.optimize.hyperopt_tools import HyperoptTools
from freqtrade.strategy.parameters import BaseParameter from freqtrade.strategy.parameters import BaseParameter
@ -124,7 +124,8 @@ class HyperStrategyMixin:
if filename.is_file(): if filename.is_file():
logger.info(f"Loading parameters from file {filename}") logger.info(f"Loading parameters from file {filename}")
try: try:
params = HyperoptTools.load_params(filename) with filename.open('r') as f:
params = json_load(f)
if params.get('strategy_name') != self.__class__.__name__: if params.get('strategy_name') != self.__class__.__name__:
raise OperationalException('Invalid parameter file provided.') raise OperationalException('Invalid parameter file provided.')
return params return params

View File

@ -10,7 +10,7 @@ from typing import Dict, List, Optional, Tuple, Union
import arrow import arrow
from pandas import DataFrame from pandas import DataFrame
from freqtrade.constants import CUSTOM_TAG_MAX_LENGTH, Config, IntOrInf, ListPairsWithTimeframes from freqtrade.constants import Config, IntOrInf, ListPairsWithTimeframes
from freqtrade.data.dataprovider import DataProvider from freqtrade.data.dataprovider import DataProvider
from freqtrade.enums import (CandleType, ExitCheckTuple, ExitType, MarketDirection, RunMode, from freqtrade.enums import (CandleType, ExitCheckTuple, ExitType, MarketDirection, RunMode,
SignalDirection, SignalTagType, SignalType, TradingMode) SignalDirection, SignalTagType, SignalType, TradingMode)
@ -27,6 +27,7 @@ from freqtrade.wallets import Wallets
logger = logging.getLogger(__name__) logger = logging.getLogger(__name__)
CUSTOM_EXIT_MAX_LENGTH = 64
class IStrategy(ABC, HyperStrategyMixin): class IStrategy(ABC, HyperStrategyMixin):
@ -250,12 +251,11 @@ class IStrategy(ABC, HyperStrategyMixin):
""" """
pass pass
def bot_loop_start(self, current_time: datetime, **kwargs) -> None: def bot_loop_start(self, **kwargs) -> None:
""" """
Called at the start of the bot iteration (one loop). Called at the start of the bot iteration (one loop).
Might be used to perform pair-independent tasks Might be used to perform pair-independent tasks
(e.g. gather some remote resource for comparison) (e.g. gather some remote resource for comparison)
:param current_time: datetime object, containing the current datetime
:param **kwargs: Ensure to keep this here so updates to this won't break your strategy. :param **kwargs: Ensure to keep this here so updates to this won't break your strategy.
""" """
pass pass
@ -1117,11 +1117,11 @@ class IStrategy(ABC, HyperStrategyMixin):
exit_signal = ExitType.CUSTOM_EXIT exit_signal = ExitType.CUSTOM_EXIT
if isinstance(reason_cust, str): if isinstance(reason_cust, str):
custom_reason = reason_cust custom_reason = reason_cust
if len(reason_cust) > CUSTOM_TAG_MAX_LENGTH: if len(reason_cust) > CUSTOM_EXIT_MAX_LENGTH:
logger.warning(f'Custom exit reason returned from ' logger.warning(f'Custom exit reason returned from '
f'custom_exit is too long and was trimmed' f'custom_exit is too long and was trimmed'
f'to {CUSTOM_TAG_MAX_LENGTH} characters.') f'to {CUSTOM_EXIT_MAX_LENGTH} characters.')
custom_reason = reason_cust[:CUSTOM_TAG_MAX_LENGTH] custom_reason = reason_cust[:CUSTOM_EXIT_MAX_LENGTH]
else: else:
custom_reason = '' custom_reason = ''
if ( if (

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@ -223,7 +223,6 @@ class FreqaiExampleHybridStrategy(IStrategy):
:param metadata: metadata of current pair :param metadata: metadata of current pair
usage example: dataframe["&-target"] = dataframe["close"].shift(-1) / dataframe["close"] usage example: dataframe["&-target"] = dataframe["close"].shift(-1) / dataframe["close"]
""" """
self.freqai.class_names = ["down", "up"]
dataframe['&s-up_or_down'] = np.where(dataframe["close"].shift(-50) > dataframe['&s-up_or_down'] = np.where(dataframe["close"].shift(-50) >
dataframe["close"], 'up', 'down') dataframe["close"], 'up', 'down')

View File

@ -1,5 +1,5 @@
def bot_loop_start(self, current_time: datetime, **kwargs) -> None: def bot_loop_start(self, **kwargs) -> None:
""" """
Called at the start of the bot iteration (one loop). Called at the start of the bot iteration (one loop).
Might be used to perform pair-independent tasks Might be used to perform pair-independent tasks
@ -8,7 +8,6 @@ def bot_loop_start(self, current_time: datetime, **kwargs) -> None:
For full documentation please go to https://www.freqtrade.io/en/latest/strategy-advanced/ For full documentation please go to https://www.freqtrade.io/en/latest/strategy-advanced/
When not implemented by a strategy, this simply does nothing. When not implemented by a strategy, this simply does nothing.
:param current_time: datetime object, containing the current datetime
:param **kwargs: Ensure to keep this here so updates to this won't break your strategy. :param **kwargs: Ensure to keep this here so updates to this won't break your strategy.
""" """
pass pass

View File

@ -7,10 +7,10 @@
-r docs/requirements-docs.txt -r docs/requirements-docs.txt
coveralls==3.3.1 coveralls==3.3.1
ruff==0.0.261 ruff==0.0.257
mypy==1.2.0 mypy==1.1.1
pre-commit==3.2.2 pre-commit==3.2.0
pytest==7.3.0 pytest==7.2.2
pytest-asyncio==0.21.0 pytest-asyncio==0.21.0
pytest-cov==4.0.0 pytest-cov==4.0.0
pytest-mock==3.10.0 pytest-mock==3.10.0
@ -22,11 +22,11 @@ time-machine==2.9.0
httpx==0.23.3 httpx==0.23.3
# Convert jupyter notebooks to markdown documents # Convert jupyter notebooks to markdown documents
nbconvert==7.3.1 nbconvert==7.2.10
# mypy types # mypy types
types-cachetools==5.3.0.5 types-cachetools==5.3.0.4
types-filelock==3.2.7 types-filelock==3.2.7
types-requests==2.28.11.17 types-requests==2.28.11.15
types-tabulate==0.9.0.2 types-tabulate==0.9.0.1
types-python-dateutil==2.8.19.12 types-python-dateutil==2.8.19.10

View File

@ -5,7 +5,7 @@
# Required for freqai # Required for freqai
scikit-learn==1.1.3 scikit-learn==1.1.3
joblib==1.2.0 joblib==1.2.0
catboost==1.1.1; platform_machine != 'aarch64' and 'arm' not in platform_machine and python_version < '3.11' catboost==1.1.1; platform_machine != 'aarch64' and python_version < '3.11'
lightgbm==3.3.5 lightgbm==3.3.5
xgboost==1.7.5 xgboost==1.7.4
tensorboard==2.12.1 tensorboard==2.12.0

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@ -5,5 +5,5 @@
scipy==1.10.1 scipy==1.10.1
scikit-learn==1.1.3 scikit-learn==1.1.3
scikit-optimize==0.9.0 scikit-optimize==0.9.0
filelock==3.11.0 filelock==3.10.0
progressbar2==4.2.0 progressbar2==4.2.0

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@ -1,4 +1,4 @@
# Include all requirements to run the bot. # Include all requirements to run the bot.
-r requirements.txt -r requirements.txt
plotly==5.14.1 plotly==5.13.1

View File

@ -2,10 +2,10 @@ numpy==1.24.2
pandas==1.5.3 pandas==1.5.3
pandas-ta==0.3.14b pandas-ta==0.3.14b
ccxt==3.0.59 ccxt==3.0.23
cryptography==40.0.1 cryptography==39.0.2
aiohttp==3.8.4 aiohttp==3.8.4
SQLAlchemy==2.0.9 SQLAlchemy==2.0.7
python-telegram-bot==13.15 python-telegram-bot==13.15
arrow==1.2.3 arrow==1.2.3
cachetools==4.2.2 cachetools==4.2.2
@ -28,14 +28,14 @@ py_find_1st==1.1.5
# Load ticker files 30% faster # Load ticker files 30% faster
python-rapidjson==1.10 python-rapidjson==1.10
# Properly format api responses # Properly format api responses
orjson==3.8.10 orjson==3.8.7
# Notify systemd # Notify systemd
sdnotify==0.3.2 sdnotify==0.3.2
# API Server # API Server
fastapi==0.95.0 fastapi==0.95.0
pydantic==1.10.7 pydantic==1.10.6
uvicorn==0.21.1 uvicorn==0.21.1
pyjwt==2.6.0 pyjwt==2.6.0
aiofiles==23.1.0 aiofiles==23.1.0
@ -50,10 +50,10 @@ prompt-toolkit==3.0.38
python-dateutil==2.8.2 python-dateutil==2.8.2
#Futures #Futures
schedule==1.2.0 schedule==1.1.0
#WS Messages #WS Messages
websockets==11.0.1 websockets==10.4
janus==1.0.0 janus==1.0.0
ast-comments==1.0.1 ast-comments==1.0.1

View File

@ -59,7 +59,7 @@ setup(
install_requires=[ install_requires=[
# from requirements.txt # from requirements.txt
'ccxt>=2.6.26', 'ccxt>=2.6.26',
'SQLAlchemy>=2.0.6', 'SQLAlchemy',
'python-telegram-bot>=13.4', 'python-telegram-bot>=13.4',
'arrow>=0.17.0', 'arrow>=0.17.0',
'cachetools', 'cachetools',

View File

@ -85,7 +85,7 @@ function updateenv() {
if [[ $REPLY =~ ^[Yy]$ ]] if [[ $REPLY =~ ^[Yy]$ ]]
then then
REQUIREMENTS_FREQAI="-r requirements-freqai.txt --use-pep517" REQUIREMENTS_FREQAI="-r requirements-freqai.txt --use-pep517"
read -p "Do you also want dependencies for freqai-rl or PyTorch (~700mb additional space required) [y/N]? " read -p "Do you also want dependencies for freqai-rl (~700mb additional space required) [y/N]? "
if [[ $REPLY =~ ^[Yy]$ ]] if [[ $REPLY =~ ^[Yy]$ ]]
then then
REQUIREMENTS_FREQAI="-r requirements-freqai-rl.txt" REQUIREMENTS_FREQAI="-r requirements-freqai-rl.txt"

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@ -252,7 +252,7 @@ def test_datahandler__check_empty_df(testdatadir, caplog):
assert log_has_re(expected_text, caplog) assert log_has_re(expected_text, caplog)
@pytest.mark.parametrize('datahandler', ['parquet']) @pytest.mark.parametrize('datahandler', ['feather', 'parquet'])
def test_datahandler_trades_not_supported(datahandler, testdatadir, ): def test_datahandler_trades_not_supported(datahandler, testdatadir, ):
dh = get_datahandler(testdatadir, datahandler) dh = get_datahandler(testdatadir, datahandler)
with pytest.raises(NotImplementedError): with pytest.raises(NotImplementedError):
@ -496,58 +496,6 @@ def test_hdf5datahandler_ohlcv_purge(mocker, testdatadir):
assert unlinkmock.call_count == 2 assert unlinkmock.call_count == 2
def test_featherdatahandler_trades_load(testdatadir):
dh = get_datahandler(testdatadir, 'feather')
trades = dh.trades_load('XRP/ETH')
assert isinstance(trades, list)
assert trades[0][0] == 1570752011620
assert trades[-1][-1] == 0.1986231
trades1 = dh.trades_load('UNITTEST/NONEXIST')
assert trades1 == []
def test_featherdatahandler_trades_store(testdatadir, tmpdir):
tmpdir1 = Path(tmpdir)
dh = get_datahandler(testdatadir, 'feather')
trades = dh.trades_load('XRP/ETH')
dh1 = get_datahandler(tmpdir1, 'feather')
dh1.trades_store('XRP/NEW', trades)
file = tmpdir1 / 'XRP_NEW-trades.feather'
assert file.is_file()
# Load trades back
trades_new = dh1.trades_load('XRP/NEW')
assert len(trades_new) == len(trades)
assert trades[0][0] == trades_new[0][0]
assert trades[0][1] == trades_new[0][1]
# assert trades[0][2] == trades_new[0][2] # This is nan - so comparison does not make sense
assert trades[0][3] == trades_new[0][3]
assert trades[0][4] == trades_new[0][4]
assert trades[0][5] == trades_new[0][5]
assert trades[0][6] == trades_new[0][6]
assert trades[-1][0] == trades_new[-1][0]
assert trades[-1][1] == trades_new[-1][1]
# assert trades[-1][2] == trades_new[-1][2] # This is nan - so comparison does not make sense
assert trades[-1][3] == trades_new[-1][3]
assert trades[-1][4] == trades_new[-1][4]
assert trades[-1][5] == trades_new[-1][5]
assert trades[-1][6] == trades_new[-1][6]
def test_featherdatahandler_trades_purge(mocker, testdatadir):
mocker.patch.object(Path, "exists", MagicMock(return_value=False))
unlinkmock = mocker.patch.object(Path, "unlink", MagicMock())
dh = get_datahandler(testdatadir, 'feather')
assert not dh.trades_purge('UNITTEST/NONEXIST')
assert unlinkmock.call_count == 0
mocker.patch.object(Path, "exists", MagicMock(return_value=True))
assert dh.trades_purge('UNITTEST/NONEXIST')
assert unlinkmock.call_count == 1
def test_gethandlerclass(): def test_gethandlerclass():
cl = get_datahandlerclass('json') cl = get_datahandlerclass('json')
assert cl == JsonDataHandler assert cl == JsonDataHandler

View File

@ -15,8 +15,8 @@ from tests.exchange.test_exchange import ccxt_exceptionhandlers
('buy', 'limit', 'gtc', {'timeInForce': 'GTC'}), ('buy', 'limit', 'gtc', {'timeInForce': 'GTC'}),
('buy', 'limit', 'IOC', {'timeInForce': 'IOC'}), ('buy', 'limit', 'IOC', {'timeInForce': 'IOC'}),
('buy', 'market', 'IOC', {}), ('buy', 'market', 'IOC', {}),
('buy', 'limit', 'PO', {'timeInForce': 'PO'}), ('buy', 'limit', 'PO', {'postOnly': True}),
('sell', 'limit', 'PO', {'timeInForce': 'PO'}), ('sell', 'limit', 'PO', {'postOnly': True}),
('sell', 'market', 'PO', {}), ('sell', 'market', 'PO', {}),
]) ])
def test__get_params_binance(default_conf, mocker, side, type, time_in_force, expected): def test__get_params_binance(default_conf, mocker, side, type, time_in_force, expected):
@ -48,7 +48,7 @@ def test_create_stoploss_order_binance(default_conf, mocker, limitratio, expecte
default_conf['margin_mode'] = MarginMode.ISOLATED default_conf['margin_mode'] = MarginMode.ISOLATED
default_conf['trading_mode'] = trademode default_conf['trading_mode'] = trademode
mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y) mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y)
mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y, **kwargs: y) mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y: y)
exchange = get_patched_exchange(mocker, default_conf, api_mock, 'binance') exchange = get_patched_exchange(mocker, default_conf, api_mock, 'binance')
@ -127,7 +127,7 @@ def test_create_stoploss_order_dry_run_binance(default_conf, mocker):
order_type = 'stop_loss_limit' order_type = 'stop_loss_limit'
default_conf['dry_run'] = True default_conf['dry_run'] = True
mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y) mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y)
mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y, **kwargs: y) mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y: y)
exchange = get_patched_exchange(mocker, default_conf, api_mock, 'binance') exchange = get_patched_exchange(mocker, default_conf, api_mock, 'binance')

View File

@ -8,7 +8,6 @@ from unittest.mock import MagicMock, Mock, PropertyMock, patch
import arrow import arrow
import ccxt import ccxt
import pytest import pytest
from ccxt import DECIMAL_PLACES, ROUND, ROUND_UP, TICK_SIZE, TRUNCATE
from pandas import DataFrame from pandas import DataFrame
from freqtrade.enums import CandleType, MarginMode, TradingMode from freqtrade.enums import CandleType, MarginMode, TradingMode
@ -114,21 +113,18 @@ async def async_ccxt_exception(mocker, default_conf, api_mock, fun, mock_ccxt_fu
exchange = get_patched_exchange(mocker, default_conf, api_mock) exchange = get_patched_exchange(mocker, default_conf, api_mock)
await getattr(exchange, fun)(**kwargs) await getattr(exchange, fun)(**kwargs)
assert api_mock.__dict__[mock_ccxt_fun].call_count == retries assert api_mock.__dict__[mock_ccxt_fun].call_count == retries
exchange.close()
with pytest.raises(TemporaryError): with pytest.raises(TemporaryError):
api_mock.__dict__[mock_ccxt_fun] = MagicMock(side_effect=ccxt.NetworkError("DeadBeef")) api_mock.__dict__[mock_ccxt_fun] = MagicMock(side_effect=ccxt.NetworkError("DeadBeef"))
exchange = get_patched_exchange(mocker, default_conf, api_mock) exchange = get_patched_exchange(mocker, default_conf, api_mock)
await getattr(exchange, fun)(**kwargs) await getattr(exchange, fun)(**kwargs)
assert api_mock.__dict__[mock_ccxt_fun].call_count == retries assert api_mock.__dict__[mock_ccxt_fun].call_count == retries
exchange.close()
with pytest.raises(OperationalException): with pytest.raises(OperationalException):
api_mock.__dict__[mock_ccxt_fun] = MagicMock(side_effect=ccxt.BaseError("DeadBeef")) api_mock.__dict__[mock_ccxt_fun] = MagicMock(side_effect=ccxt.BaseError("DeadBeef"))
exchange = get_patched_exchange(mocker, default_conf, api_mock) exchange = get_patched_exchange(mocker, default_conf, api_mock)
await getattr(exchange, fun)(**kwargs) await getattr(exchange, fun)(**kwargs)
assert api_mock.__dict__[mock_ccxt_fun].call_count == 1 assert api_mock.__dict__[mock_ccxt_fun].call_count == 1
exchange.close()
def test_init(default_conf, mocker, caplog): def test_init(default_conf, mocker, caplog):
@ -316,54 +312,35 @@ def test_amount_to_precision(amount, precision_mode, precision, expected,):
assert amount_to_precision(amount, precision, precision_mode) == expected assert amount_to_precision(amount, precision, precision_mode) == expected
@pytest.mark.parametrize("price,precision_mode,precision,expected,rounding_mode", [ @pytest.mark.parametrize("price,precision_mode,precision,expected", [
# Tests for DECIMAL_PLACES, ROUND_UP (2.34559, 2, 4, 2.3456),
(2.34559, 2, 4, 2.3456, ROUND_UP), (2.34559, 2, 5, 2.34559),
(2.34559, 2, 5, 2.34559, ROUND_UP), (2.34559, 2, 3, 2.346),
(2.34559, 2, 3, 2.346, ROUND_UP), (2.9999, 2, 3, 3.000),
(2.9999, 2, 3, 3.000, ROUND_UP), (2.9909, 2, 3, 2.991),
(2.9909, 2, 3, 2.991, ROUND_UP), # Tests for Tick_size
# Tests for DECIMAL_PLACES, ROUND (2.34559, 4, 0.0001, 2.3456),
(2.345600000000001, DECIMAL_PLACES, 4, 2.3456, ROUND), (2.34559, 4, 0.00001, 2.34559),
(2.345551, DECIMAL_PLACES, 4, 2.3456, ROUND), (2.34559, 4, 0.001, 2.346),
(2.49, DECIMAL_PLACES, 0, 2., ROUND), (2.9999, 4, 0.001, 3.000),
(2.51, DECIMAL_PLACES, 0, 3., ROUND), (2.9909, 4, 0.001, 2.991),
(5.1, DECIMAL_PLACES, -1, 10., ROUND), (2.9909, 4, 0.005, 2.995),
(4.9, DECIMAL_PLACES, -1, 0., ROUND), (2.9973, 4, 0.005, 3.0),
# Tests for TICK_SIZE, ROUND_UP (2.9977, 4, 0.005, 3.0),
(2.34559, TICK_SIZE, 0.0001, 2.3456, ROUND_UP), (234.43, 4, 0.5, 234.5),
(2.34559, TICK_SIZE, 0.00001, 2.34559, ROUND_UP), (234.53, 4, 0.5, 235.0),
(2.34559, TICK_SIZE, 0.001, 2.346, ROUND_UP), (0.891534, 4, 0.0001, 0.8916),
(2.9999, TICK_SIZE, 0.001, 3.000, ROUND_UP), (64968.89, 4, 0.01, 64968.89),
(2.9909, TICK_SIZE, 0.001, 2.991, ROUND_UP), (0.000000003483, 4, 1e-12, 0.000000003483),
(2.9909, TICK_SIZE, 0.005, 2.995, ROUND_UP),
(2.9973, TICK_SIZE, 0.005, 3.0, ROUND_UP),
(2.9977, TICK_SIZE, 0.005, 3.0, ROUND_UP),
(234.43, TICK_SIZE, 0.5, 234.5, ROUND_UP),
(234.53, TICK_SIZE, 0.5, 235.0, ROUND_UP),
(0.891534, TICK_SIZE, 0.0001, 0.8916, ROUND_UP),
(64968.89, TICK_SIZE, 0.01, 64968.89, ROUND_UP),
(0.000000003483, TICK_SIZE, 1e-12, 0.000000003483, ROUND_UP),
# Tests for TICK_SIZE, ROUND
(2.49, TICK_SIZE, 1., 2., ROUND),
(2.51, TICK_SIZE, 1., 3., ROUND),
(2.000000051, TICK_SIZE, 0.0000001, 2.0000001, ROUND),
(2.000000049, TICK_SIZE, 0.0000001, 2., ROUND),
(2.9909, TICK_SIZE, 0.005, 2.990, ROUND),
(2.9973, TICK_SIZE, 0.005, 2.995, ROUND),
(2.9977, TICK_SIZE, 0.005, 3.0, ROUND),
(234.24, TICK_SIZE, 0.5, 234., ROUND),
(234.26, TICK_SIZE, 0.5, 234.5, ROUND),
# Tests for TRUNCATTE
(2.34559, 2, 4, 2.3455, TRUNCATE),
(2.34559, 2, 5, 2.34559, TRUNCATE),
(2.34559, 2, 3, 2.345, TRUNCATE),
(2.9999, 2, 3, 2.999, TRUNCATE),
(2.9909, 2, 3, 2.990, TRUNCATE),
]) ])
def test_price_to_precision(price, precision_mode, precision, expected, rounding_mode): def test_price_to_precision(price, precision_mode, precision, expected):
assert price_to_precision( # digits counting mode
price, precision, precision_mode, rounding_mode=rounding_mode) == expected # DECIMAL_PLACES = 2
# SIGNIFICANT_DIGITS = 3
# TICK_SIZE = 4
assert price_to_precision(price, precision, precision_mode) == expected
@pytest.mark.parametrize("price,precision_mode,precision,expected", [ @pytest.mark.parametrize("price,precision_mode,precision,expected", [
@ -437,7 +414,7 @@ def test__get_stake_amount_limit(mocker, default_conf) -> None:
} }
mocker.patch(f'{EXMS}.markets', PropertyMock(return_value=markets)) mocker.patch(f'{EXMS}.markets', PropertyMock(return_value=markets))
result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss) result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss)
expected_result = 2 * 2 * (1 + 0.05) expected_result = 2 * 2 * (1 + 0.05) / (1 - abs(stoploss))
assert pytest.approx(result) == expected_result assert pytest.approx(result) == expected_result
# With Leverage # With Leverage
result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss, 5.0) result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss, 5.0)
@ -446,14 +423,14 @@ def test__get_stake_amount_limit(mocker, default_conf) -> None:
result = exchange.get_max_pair_stake_amount('ETH/BTC', 2) result = exchange.get_max_pair_stake_amount('ETH/BTC', 2)
assert result == 20000 assert result == 20000
# min amount and cost are set (cost is minimal and therefore ignored) # min amount and cost are set (cost is minimal)
markets["ETH/BTC"]["limits"] = { markets["ETH/BTC"]["limits"] = {
'cost': {'min': 2, 'max': None}, 'cost': {'min': 2, 'max': None},
'amount': {'min': 2, 'max': None}, 'amount': {'min': 2, 'max': None},
} }
mocker.patch(f'{EXMS}.markets', PropertyMock(return_value=markets)) mocker.patch(f'{EXMS}.markets', PropertyMock(return_value=markets))
result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss) result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss)
expected_result = max(2, 2 * 2) * (1 + 0.05) expected_result = max(2, 2 * 2) * (1 + 0.05) / (1 - abs(stoploss))
assert pytest.approx(result) == expected_result assert pytest.approx(result) == expected_result
# With Leverage # With Leverage
result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss, 10) result = exchange.get_min_pair_stake_amount('ETH/BTC', 2, stoploss, 10)
@ -496,9 +473,6 @@ def test__get_stake_amount_limit(mocker, default_conf) -> None:
result = exchange.get_max_pair_stake_amount('ETH/BTC', 2) result = exchange.get_max_pair_stake_amount('ETH/BTC', 2)
assert result == 1000 assert result == 1000
result = exchange.get_max_pair_stake_amount('ETH/BTC', 2, 12.0)
assert result == 1000 / 12
markets["ETH/BTC"]["contractSize"] = '0.01' markets["ETH/BTC"]["contractSize"] = '0.01'
default_conf['trading_mode'] = 'futures' default_conf['trading_mode'] = 'futures'
default_conf['margin_mode'] = 'isolated' default_conf['margin_mode'] = 'isolated'
@ -1462,9 +1436,6 @@ def test_buy_prod(default_conf, mocker, exchange_name):
assert api_mock.create_order.call_args[0][1] == order_type assert api_mock.create_order.call_args[0][1] == order_type
assert api_mock.create_order.call_args[0][2] == 'buy' assert api_mock.create_order.call_args[0][2] == 'buy'
assert api_mock.create_order.call_args[0][3] == 1 assert api_mock.create_order.call_args[0][3] == 1
if exchange._order_needs_price(order_type):
assert api_mock.create_order.call_args[0][4] == 200
else:
assert api_mock.create_order.call_args[0][4] is None assert api_mock.create_order.call_args[0][4] is None
api_mock.create_order.reset_mock() api_mock.create_order.reset_mock()
@ -1570,9 +1541,6 @@ def test_buy_considers_time_in_force(default_conf, mocker, exchange_name):
assert api_mock.create_order.call_args[0][1] == order_type assert api_mock.create_order.call_args[0][1] == order_type
assert api_mock.create_order.call_args[0][2] == 'buy' assert api_mock.create_order.call_args[0][2] == 'buy'
assert api_mock.create_order.call_args[0][3] == 1 assert api_mock.create_order.call_args[0][3] == 1
if exchange._order_needs_price(order_type):
assert api_mock.create_order.call_args[0][4] == 200
else:
assert api_mock.create_order.call_args[0][4] is None assert api_mock.create_order.call_args[0][4] is None
# Market orders should not send timeInForce!! # Market orders should not send timeInForce!!
assert "timeInForce" not in api_mock.create_order.call_args[0][5] assert "timeInForce" not in api_mock.create_order.call_args[0][5]
@ -1617,9 +1585,6 @@ def test_sell_prod(default_conf, mocker, exchange_name):
assert api_mock.create_order.call_args[0][1] == order_type assert api_mock.create_order.call_args[0][1] == order_type
assert api_mock.create_order.call_args[0][2] == 'sell' assert api_mock.create_order.call_args[0][2] == 'sell'
assert api_mock.create_order.call_args[0][3] == 1 assert api_mock.create_order.call_args[0][3] == 1
if exchange._order_needs_price(order_type):
assert api_mock.create_order.call_args[0][4] == 200
else:
assert api_mock.create_order.call_args[0][4] is None assert api_mock.create_order.call_args[0][4] is None
api_mock.create_order.reset_mock() api_mock.create_order.reset_mock()
@ -1714,9 +1679,6 @@ def test_sell_considers_time_in_force(default_conf, mocker, exchange_name):
assert api_mock.create_order.call_args[0][1] == order_type assert api_mock.create_order.call_args[0][1] == order_type
assert api_mock.create_order.call_args[0][2] == 'sell' assert api_mock.create_order.call_args[0][2] == 'sell'
assert api_mock.create_order.call_args[0][3] == 1 assert api_mock.create_order.call_args[0][3] == 1
if exchange._order_needs_price(order_type):
assert api_mock.create_order.call_args[0][4] == 200
else:
assert api_mock.create_order.call_args[0][4] is None assert api_mock.create_order.call_args[0][4] is None
# Market orders should not send timeInForce!! # Market orders should not send timeInForce!!
assert "timeInForce" not in api_mock.create_order.call_args[0][5] assert "timeInForce" not in api_mock.create_order.call_args[0][5]
@ -2286,6 +2248,7 @@ def test_refresh_latest_ohlcv_cache(mocker, default_conf, candle_type, time_mach
assert res[pair2].at[0, 'open'] assert res[pair2].at[0, 'open']
@pytest.mark.asyncio
@pytest.mark.parametrize("exchange_name", EXCHANGES) @pytest.mark.parametrize("exchange_name", EXCHANGES)
async def test__async_get_candle_history(default_conf, mocker, caplog, exchange_name): async def test__async_get_candle_history(default_conf, mocker, caplog, exchange_name):
ohlcv = [ ohlcv = [
@ -2314,7 +2277,7 @@ async def test__async_get_candle_history(default_conf, mocker, caplog, exchange_
assert res[3] == ohlcv assert res[3] == ohlcv
assert exchange._api_async.fetch_ohlcv.call_count == 1 assert exchange._api_async.fetch_ohlcv.call_count == 1
assert not log_has(f"Using cached candle (OHLCV) data for {pair} ...", caplog) assert not log_has(f"Using cached candle (OHLCV) data for {pair} ...", caplog)
exchange.close()
# exchange = Exchange(default_conf) # exchange = Exchange(default_conf)
await async_ccxt_exception(mocker, default_conf, MagicMock(), await async_ccxt_exception(mocker, default_conf, MagicMock(),
"_async_get_candle_history", "fetch_ohlcv", "_async_get_candle_history", "fetch_ohlcv",
@ -2329,17 +2292,15 @@ async def test__async_get_candle_history(default_conf, mocker, caplog, exchange_
await exchange._async_get_candle_history(pair, "5m", CandleType.SPOT, await exchange._async_get_candle_history(pair, "5m", CandleType.SPOT,
(arrow.utcnow().int_timestamp - 2000) * 1000) (arrow.utcnow().int_timestamp - 2000) * 1000)
exchange.close()
with pytest.raises(OperationalException, match=r'Exchange.* does not support fetching ' with pytest.raises(OperationalException, match=r'Exchange.* does not support fetching '
r'historical candle \(OHLCV\) data\..*'): r'historical candle \(OHLCV\) data\..*'):
api_mock.fetch_ohlcv = MagicMock(side_effect=ccxt.NotSupported("Not supported")) api_mock.fetch_ohlcv = MagicMock(side_effect=ccxt.NotSupported("Not supported"))
exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name) exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name)
await exchange._async_get_candle_history(pair, "5m", CandleType.SPOT, await exchange._async_get_candle_history(pair, "5m", CandleType.SPOT,
(arrow.utcnow().int_timestamp - 2000) * 1000) (arrow.utcnow().int_timestamp - 2000) * 1000)
exchange.close()
@pytest.mark.asyncio
async def test__async_kucoin_get_candle_history(default_conf, mocker, caplog): async def test__async_kucoin_get_candle_history(default_conf, mocker, caplog):
from freqtrade.exchange.common import _reset_logging_mixin from freqtrade.exchange.common import _reset_logging_mixin
_reset_logging_mixin() _reset_logging_mixin()
@ -2380,9 +2341,9 @@ async def test__async_kucoin_get_candle_history(default_conf, mocker, caplog):
# Expect the "returned exception" message 12 times (4 retries * 3 (loop)) # Expect the "returned exception" message 12 times (4 retries * 3 (loop))
assert num_log_has_re(msg, caplog) == 12 assert num_log_has_re(msg, caplog) == 12
assert num_log_has_re(msg2, caplog) == 9 assert num_log_has_re(msg2, caplog) == 9
exchange.close()
@pytest.mark.asyncio
async def test__async_get_candle_history_empty(default_conf, mocker, caplog): async def test__async_get_candle_history_empty(default_conf, mocker, caplog):
""" Test empty exchange result """ """ Test empty exchange result """
ohlcv = [] ohlcv = []
@ -2402,7 +2363,6 @@ async def test__async_get_candle_history_empty(default_conf, mocker, caplog):
assert res[2] == CandleType.SPOT assert res[2] == CandleType.SPOT
assert res[3] == ohlcv assert res[3] == ohlcv
assert exchange._api_async.fetch_ohlcv.call_count == 1 assert exchange._api_async.fetch_ohlcv.call_count == 1
exchange.close()
def test_refresh_latest_ohlcv_inv_result(default_conf, mocker, caplog): def test_refresh_latest_ohlcv_inv_result(default_conf, mocker, caplog):
@ -2797,6 +2757,7 @@ async def test___async_get_candle_history_sort(default_conf, mocker, exchange_na
assert res_ohlcv[9][5] == 2.31452783 assert res_ohlcv[9][5] == 2.31452783
@pytest.mark.asyncio
@pytest.mark.parametrize("exchange_name", EXCHANGES) @pytest.mark.parametrize("exchange_name", EXCHANGES)
async def test__async_fetch_trades(default_conf, mocker, caplog, exchange_name, async def test__async_fetch_trades(default_conf, mocker, caplog, exchange_name,
fetch_trades_result): fetch_trades_result):
@ -2824,8 +2785,8 @@ async def test__async_fetch_trades(default_conf, mocker, caplog, exchange_name,
assert exchange._api_async.fetch_trades.call_args[1]['limit'] == 1000 assert exchange._api_async.fetch_trades.call_args[1]['limit'] == 1000
assert exchange._api_async.fetch_trades.call_args[1]['params'] == {'from': '123'} assert exchange._api_async.fetch_trades.call_args[1]['params'] == {'from': '123'}
assert log_has_re(f"Fetching trades for pair {pair}, params: .*", caplog) assert log_has_re(f"Fetching trades for pair {pair}, params: .*", caplog)
exchange.close()
exchange = Exchange(default_conf)
await async_ccxt_exception(mocker, default_conf, MagicMock(), await async_ccxt_exception(mocker, default_conf, MagicMock(),
"_async_fetch_trades", "fetch_trades", "_async_fetch_trades", "fetch_trades",
pair='ABCD/BTC', since=None) pair='ABCD/BTC', since=None)
@ -2835,16 +2796,15 @@ async def test__async_fetch_trades(default_conf, mocker, caplog, exchange_name,
api_mock.fetch_trades = MagicMock(side_effect=ccxt.BaseError("Unknown error")) api_mock.fetch_trades = MagicMock(side_effect=ccxt.BaseError("Unknown error"))
exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name) exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name)
await exchange._async_fetch_trades(pair, since=(arrow.utcnow().int_timestamp - 2000) * 1000) await exchange._async_fetch_trades(pair, since=(arrow.utcnow().int_timestamp - 2000) * 1000)
exchange.close()
with pytest.raises(OperationalException, match=r'Exchange.* does not support fetching ' with pytest.raises(OperationalException, match=r'Exchange.* does not support fetching '
r'historical trade data\..*'): r'historical trade data\..*'):
api_mock.fetch_trades = MagicMock(side_effect=ccxt.NotSupported("Not supported")) api_mock.fetch_trades = MagicMock(side_effect=ccxt.NotSupported("Not supported"))
exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name) exchange = get_patched_exchange(mocker, default_conf, api_mock, id=exchange_name)
await exchange._async_fetch_trades(pair, since=(arrow.utcnow().int_timestamp - 2000) * 1000) await exchange._async_fetch_trades(pair, since=(arrow.utcnow().int_timestamp - 2000) * 1000)
exchange.close()
@pytest.mark.asyncio
@pytest.mark.parametrize("exchange_name", EXCHANGES) @pytest.mark.parametrize("exchange_name", EXCHANGES)
async def test__async_fetch_trades_contract_size(default_conf, mocker, caplog, exchange_name, async def test__async_fetch_trades_contract_size(default_conf, mocker, caplog, exchange_name,
fetch_trades_result): fetch_trades_result):
@ -2879,7 +2839,6 @@ async def test__async_fetch_trades_contract_size(default_conf, mocker, caplog, e
pair = 'ETH/USDT:USDT' pair = 'ETH/USDT:USDT'
res = await exchange._async_fetch_trades(pair, since=None, params=None) res = await exchange._async_fetch_trades(pair, since=None, params=None)
assert res[0][5] == 300 assert res[0][5] == 300
exchange.close()
@pytest.mark.asyncio @pytest.mark.asyncio
@ -4848,6 +4807,7 @@ def test_load_leverage_tiers(mocker, default_conf, leverage_tiers, exchange_name
) )
@pytest.mark.asyncio
@pytest.mark.parametrize('exchange_name', EXCHANGES) @pytest.mark.parametrize('exchange_name', EXCHANGES)
async def test_get_market_leverage_tiers(mocker, default_conf, exchange_name): async def test_get_market_leverage_tiers(mocker, default_conf, exchange_name):
default_conf['exchange']['name'] = exchange_name default_conf['exchange']['name'] = exchange_name
@ -5304,7 +5264,7 @@ def test_stoploss_contract_size(mocker, default_conf, contract_size, order_amoun
}) })
default_conf['dry_run'] = False default_conf['dry_run'] = False
mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y) mocker.patch(f'{EXMS}.amount_to_precision', lambda s, x, y: y)
mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y, **kwargs: y) mocker.patch(f'{EXMS}.price_to_precision', lambda s, x, y: y)
exchange = get_patched_exchange(mocker, default_conf, api_mock) exchange = get_patched_exchange(mocker, default_conf, api_mock)
exchange.get_contract_size = MagicMock(return_value=contract_size) exchange.get_contract_size = MagicMock(return_value=contract_size)
@ -5324,10 +5284,3 @@ def test_stoploss_contract_size(mocker, default_conf, contract_size, order_amoun
assert order['cost'] == 100 assert order['cost'] == 100
assert order['filled'] == 100 assert order['filled'] == 100
assert order['remaining'] == 100 assert order['remaining'] == 100
def test_price_to_precision_with_default_conf(default_conf, mocker):
conf = copy.deepcopy(default_conf)
patched_ex = get_patched_exchange(mocker, conf)
prec_price = patched_ex.price_to_precision("XRP/USDT", 1.0000000101)
assert prec_price == 1.00000001

View File

@ -4,9 +4,42 @@ from unittest.mock import MagicMock
import pytest import pytest
from freqtrade.enums import MarginMode, TradingMode from freqtrade.enums import MarginMode, TradingMode
from freqtrade.exceptions import OperationalException
from freqtrade.exchange import Gate
from freqtrade.resolvers.exchange_resolver import ExchangeResolver
from tests.conftest import EXMS, get_patched_exchange from tests.conftest import EXMS, get_patched_exchange
def test_validate_order_types_gate(default_conf, mocker):
default_conf['exchange']['name'] = 'gate'
mocker.patch(f'{EXMS}._init_ccxt')
mocker.patch(f'{EXMS}._load_markets', return_value={})
mocker.patch(f'{EXMS}.validate_pairs')
mocker.patch(f'{EXMS}.validate_timeframes')
mocker.patch(f'{EXMS}.validate_stakecurrency')
mocker.patch(f'{EXMS}.validate_pricing')
mocker.patch(f'{EXMS}.name', 'Gate')
exch = ExchangeResolver.load_exchange('gate', default_conf, True)
assert isinstance(exch, Gate)
default_conf['order_types'] = {
'entry': 'market',
'exit': 'limit',
'stoploss': 'market',
'stoploss_on_exchange': False
}
with pytest.raises(OperationalException,
match=r'Exchange .* does not support market orders.'):
ExchangeResolver.load_exchange('gate', default_conf, True)
# market-orders supported on futures markets.
default_conf['trading_mode'] = 'futures'
default_conf['margin_mode'] = 'isolated'
ex = ExchangeResolver.load_exchange('gate', default_conf, True)
assert ex
@pytest.mark.usefixtures("init_persistence") @pytest.mark.usefixtures("init_persistence")
def test_fetch_stoploss_order_gate(default_conf, mocker): def test_fetch_stoploss_order_gate(default_conf, mocker):
exchange = get_patched_exchange(mocker, default_conf, id='gate') exchange = get_patched_exchange(mocker, default_conf, id='gate')

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