""" This module contains the class to persist trades into SQLite """ import logging from collections import defaultdict from datetime import datetime, timedelta, timezone from math import isclose from typing import Any, ClassVar, Dict, List, Optional, Sequence, cast from sqlalchemy import (Enum, Float, ForeignKey, Integer, ScalarResult, Select, String, UniqueConstraint, desc, func, select) from sqlalchemy.ext.hybrid import hybrid_property from sqlalchemy.orm import Mapped, lazyload, mapped_column, relationship, validates from freqtrade.constants import (CUSTOM_TAG_MAX_LENGTH, DATETIME_PRINT_FORMAT, MATH_CLOSE_PREC, NON_OPEN_EXCHANGE_STATES, BuySell, LongShort) from freqtrade.enums import ExitType, TradingMode from freqtrade.exceptions import DependencyException, OperationalException from freqtrade.exchange import (ROUND_DOWN, ROUND_UP, amount_to_contract_precision, price_to_precision) from freqtrade.leverage import interest from freqtrade.persistence.base import ModelBase, SessionType from freqtrade.util import FtPrecise, dt_now logger = logging.getLogger(__name__) class Order(ModelBase): """ Order database model Keeps a record of all orders placed on the exchange One to many relationship with Trades: - One trade can have many orders - One Order can only be associated with one Trade Mirrors CCXT Order structure """ __tablename__ = 'orders' session: ClassVar[SessionType] # Uniqueness should be ensured over pair, order_id # its likely that order_id is unique per Pair on some exchanges. __table_args__ = (UniqueConstraint('ft_pair', 'order_id', name="_order_pair_order_id"),) id: Mapped[int] = mapped_column(Integer, primary_key=True) ft_trade_id: Mapped[int] = mapped_column(Integer, ForeignKey('trades.id'), index=True) trade: Mapped[List["Trade"]] = relationship("Trade", back_populates="orders") # order_side can only be 'buy', 'sell' or 'stoploss' ft_order_side: Mapped[str] = mapped_column(String(25), nullable=False) ft_pair: Mapped[str] = mapped_column(String(25), nullable=False) ft_is_open: Mapped[bool] = mapped_column(nullable=False, default=True, index=True) ft_amount: Mapped[float] = mapped_column(Float(), nullable=False) ft_price: Mapped[float] = mapped_column(Float(), nullable=False) order_id: Mapped[str] = mapped_column(String(255), nullable=False, index=True) status: Mapped[Optional[str]] = mapped_column(String(255), nullable=True) symbol: Mapped[Optional[str]] = mapped_column(String(25), nullable=True) # TODO: type: order_type type is Optional[str] order_type: Mapped[str] = mapped_column(String(50), nullable=True) side: Mapped[str] = mapped_column(String(25), nullable=True) price: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) average: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) amount: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) filled: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) remaining: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) cost: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) stop_price: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) order_date: Mapped[datetime] = mapped_column(nullable=True, default=dt_now) order_filled_date: Mapped[Optional[datetime]] = mapped_column(nullable=True) order_update_date: Mapped[Optional[datetime]] = mapped_column(nullable=True) funding_fee: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) ft_fee_base: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) @property def order_date_utc(self) -> datetime: """ Order-date with UTC timezoneinfo""" return self.order_date.replace(tzinfo=timezone.utc) @property def order_filled_utc(self) -> Optional[datetime]: """ last order-date with UTC timezoneinfo""" return ( self.order_filled_date.replace(tzinfo=timezone.utc) if self.order_filled_date else None ) @property def safe_amount(self) -> float: return self.amount or self.ft_amount @property def safe_price(self) -> float: return self.average or self.price or self.stop_price or self.ft_price @property def safe_filled(self) -> float: return self.filled if self.filled is not None else self.amount or 0.0 @property def safe_cost(self) -> float: return self.cost or 0.0 @property def safe_remaining(self) -> float: return ( self.remaining if self.remaining is not None else self.safe_amount - (self.filled or 0.0) ) @property def safe_fee_base(self) -> float: return self.ft_fee_base or 0.0 @property def safe_amount_after_fee(self) -> float: return self.safe_filled - self.safe_fee_base def __repr__(self): return (f"Order(id={self.id}, order_id={self.order_id}, trade_id={self.ft_trade_id}, " f"side={self.side}, filled={self.safe_filled}, price={self.safe_price}, " f"order_type={self.order_type}, status={self.status})") def update_from_ccxt_object(self, order): """ Update Order from ccxt response Only updates if fields are available from ccxt - """ if self.order_id != str(order['id']): raise DependencyException("Order-id's don't match") self.status = order.get('status', self.status) self.symbol = order.get('symbol', self.symbol) self.order_type = order.get('type', self.order_type) self.side = order.get('side', self.side) self.price = order.get('price', self.price) self.amount = order.get('amount', self.amount) self.filled = order.get('filled', self.filled) self.average = order.get('average', self.average) self.remaining = order.get('remaining', self.remaining) self.cost = order.get('cost', self.cost) self.stop_price = order.get('stopPrice', self.stop_price) if 'timestamp' in order and order['timestamp'] is not None: self.order_date = datetime.fromtimestamp(order['timestamp'] / 1000, tz=timezone.utc) self.ft_is_open = True if self.status in NON_OPEN_EXCHANGE_STATES: self.ft_is_open = False if self.trade: # Assign funding fee up to this point # (represents the funding fee since the last order) self.funding_fee = self.trade.funding_fees if (order.get('filled', 0.0) or 0.0) > 0 and not self.order_filled_date: self.order_filled_date = datetime.now(timezone.utc) self.order_update_date = datetime.now(timezone.utc) def to_ccxt_object(self, stopPriceName: str = 'stopPrice') -> Dict[str, Any]: order: Dict[str, Any] = { 'id': self.order_id, 'symbol': self.ft_pair, 'price': self.price, 'average': self.average, 'amount': self.amount, 'cost': self.cost, 'type': self.order_type, 'side': self.ft_order_side, 'filled': self.filled, 'remaining': self.remaining, 'datetime': self.order_date_utc.strftime('%Y-%m-%dT%H:%M:%S.%f'), 'timestamp': int(self.order_date_utc.timestamp() * 1000), 'status': self.status, 'fee': None, 'info': {}, } if self.ft_order_side == 'stoploss': order.update({ stopPriceName: self.stop_price, 'ft_order_type': 'stoploss', }) return order def to_json(self, entry_side: str, minified: bool = False) -> Dict[str, Any]: resp = { 'amount': self.safe_amount, 'safe_price': self.safe_price, 'ft_order_side': self.ft_order_side, 'order_filled_timestamp': int(self.order_filled_date.replace( tzinfo=timezone.utc).timestamp() * 1000) if self.order_filled_date else None, 'ft_is_entry': self.ft_order_side == entry_side, } if not minified: resp.update({ 'pair': self.ft_pair, 'order_id': self.order_id, 'status': self.status, 'average': round(self.average, 8) if self.average else 0, 'cost': self.cost if self.cost else 0, 'filled': self.filled, 'is_open': self.ft_is_open, 'order_date': self.order_date.strftime(DATETIME_PRINT_FORMAT) if self.order_date else None, 'order_timestamp': int(self.order_date.replace( tzinfo=timezone.utc).timestamp() * 1000) if self.order_date else None, 'order_filled_date': self.order_filled_date.strftime(DATETIME_PRINT_FORMAT) if self.order_filled_date else None, 'order_type': self.order_type, 'price': self.price, 'remaining': self.remaining, }) return resp def close_bt_order(self, close_date: datetime, trade: 'LocalTrade'): self.order_filled_date = close_date self.filled = self.amount self.remaining = 0 self.status = 'closed' self.ft_is_open = False # Assign funding fees to Order. # Assumes backtesting will use date_last_filled_utc to calculate future funding fees. self.funding_fee = trade.funding_fees if (self.ft_order_side == trade.entry_side and self.price): trade.open_rate = self.price trade.recalc_trade_from_orders() trade.adjust_stop_loss(trade.open_rate, trade.stop_loss_pct, refresh=True) @staticmethod def update_orders(orders: List['Order'], order: Dict[str, Any]): """ Get all non-closed orders - useful when trying to batch-update orders """ if not isinstance(order, dict): logger.warning(f"{order} is not a valid response object.") return filtered_orders = [o for o in orders if o.order_id == order.get('id')] if filtered_orders: oobj = filtered_orders[0] oobj.update_from_ccxt_object(order) Trade.commit() else: logger.warning(f"Did not find order for {order}.") @staticmethod def parse_from_ccxt_object( order: Dict[str, Any], pair: str, side: str, amount: Optional[float] = None, price: Optional[float] = None) -> 'Order': """ Parse an order from a ccxt object and return a new order Object. Optional support for overriding amount and price is only used for test simplification. """ o = Order( order_id=str(order['id']), ft_order_side=side, ft_pair=pair, ft_amount=amount if amount else order['amount'], ft_price=price if price else order['price'], ) o.update_from_ccxt_object(order) return o @staticmethod def get_open_orders() -> Sequence['Order']: """ Retrieve open orders from the database :return: List of open orders """ return Order.session.scalars(select(Order).filter(Order.ft_is_open.is_(True))).all() @staticmethod def order_by_id(order_id: str) -> Optional['Order']: """ Retrieve order based on order_id :return: Order or None """ return Order.session.scalars(select(Order).filter(Order.order_id == order_id)).first() class LocalTrade(): """ Trade database model. Used in backtesting - must be aligned to Trade model! """ use_db: bool = False # Trades container for backtesting trades: List['LocalTrade'] = [] trades_open: List['LocalTrade'] = [] # Copy of trades_open - but indexed by pair bt_trades_open_pp: Dict[str, List['LocalTrade']] = defaultdict(list) bt_open_open_trade_count: int = 0 total_profit: float = 0 realized_profit: float = 0 id: int = 0 orders: List[Order] = [] exchange: str = '' pair: str = '' base_currency: Optional[str] = '' stake_currency: Optional[str] = '' is_open: bool = True fee_open: float = 0.0 fee_open_cost: Optional[float] = None fee_open_currency: Optional[str] = '' fee_close: Optional[float] = 0.0 fee_close_cost: Optional[float] = None fee_close_currency: Optional[str] = '' open_rate: float = 0.0 open_rate_requested: Optional[float] = None # open_trade_value - calculated via _calc_open_trade_value open_trade_value: float = 0.0 close_rate: Optional[float] = None close_rate_requested: Optional[float] = None close_profit: Optional[float] = None close_profit_abs: Optional[float] = None stake_amount: float = 0.0 max_stake_amount: Optional[float] = 0.0 amount: float = 0.0 amount_requested: Optional[float] = None open_date: datetime close_date: Optional[datetime] = None open_orders: List[Order] = [] # absolute value of the stop loss stop_loss: float = 0.0 # percentage value of the stop loss stop_loss_pct: Optional[float] = 0.0 # absolute value of the initial stop loss initial_stop_loss: Optional[float] = 0.0 # percentage value of the initial stop loss initial_stop_loss_pct: Optional[float] = None # stoploss order id which is on exchange stoploss_order_id: Optional[str] = None # last update time of the stoploss order on exchange stoploss_last_update: Optional[datetime] = None # absolute value of the highest reached price max_rate: Optional[float] = None # Lowest price reached min_rate: Optional[float] = None exit_reason: Optional[str] = '' exit_order_status: Optional[str] = '' strategy: Optional[str] = '' enter_tag: Optional[str] = None timeframe: Optional[int] = None trading_mode: TradingMode = TradingMode.SPOT amount_precision: Optional[float] = None price_precision: Optional[float] = None precision_mode: Optional[int] = None contract_size: Optional[float] = None # Leverage trading properties liquidation_price: Optional[float] = None is_short: bool = False leverage: float = 1.0 # Margin trading properties interest_rate: float = 0.0 # Futures properties funding_fees: Optional[float] = None @property def stoploss_or_liquidation(self) -> float: if self.liquidation_price: if self.is_short: return min(self.stop_loss, self.liquidation_price) else: return max(self.stop_loss, self.liquidation_price) return self.stop_loss @property def buy_tag(self) -> Optional[str]: """ Compatibility between buy_tag (old) and enter_tag (new) Consider buy_tag deprecated """ return self.enter_tag @property def has_no_leverage(self) -> bool: """Returns true if this is a non-leverage, non-short trade""" return ((self.leverage == 1.0 or self.leverage is None) and not self.is_short) @property def borrowed(self) -> float: """ The amount of currency borrowed from the exchange for leverage trades If a long trade, the amount is in base currency If a short trade, the amount is in the other currency being traded """ if self.has_no_leverage: return 0.0 elif not self.is_short: return (self.amount * self.open_rate) * ((self.leverage - 1) / self.leverage) else: return self.amount @property def date_last_filled_utc(self) -> datetime: """ Date of the last filled order""" orders = self.select_filled_orders() if not orders: return self.open_date_utc return max([self.open_date_utc, max(o.order_filled_utc for o in orders if o.order_filled_utc)]) @property def open_date_utc(self): return self.open_date.replace(tzinfo=timezone.utc) @property def stoploss_last_update_utc(self): if self.stoploss_last_update: return self.stoploss_last_update.replace(tzinfo=timezone.utc) return None @property def close_date_utc(self): return self.close_date.replace(tzinfo=timezone.utc) if self.close_date else None @property def entry_side(self) -> str: if self.is_short: return "sell" else: return "buy" @property def exit_side(self) -> BuySell: if self.is_short: return "buy" else: return "sell" @property def trade_direction(self) -> LongShort: if self.is_short: return "short" else: return "long" @property def safe_base_currency(self) -> str: """ Compatibility layer for asset - which can be empty for old trades. """ try: return self.base_currency or self.pair.split('/')[0] except IndexError: return '' @property def safe_quote_currency(self) -> str: """ Compatibility layer for asset - which can be empty for old trades. """ try: return self.stake_currency or self.pair.split('/')[1].split(':')[0] except IndexError: return '' @property def open_orders_count(self) -> int: return len(self.open_orders) @property def open_entry_or_exit_orders_count(self) -> int: open_buy_or_sell_orders = [] for oo in self.open_orders: if (oo.ft_order_side in ['buy', 'sell']): open_buy_or_sell_orders.append(oo) return len(open_buy_or_sell_orders) @property def open_orders_ids(self) -> list: return [open_order.order_id for open_order in self.open_orders] def __init__(self, **kwargs): for key in kwargs: setattr(self, key, kwargs[key]) self.recalc_open_trade_value() if self.trading_mode == TradingMode.MARGIN and self.interest_rate is None: raise OperationalException( f"{self.trading_mode.value} trading requires param interest_rate on trades") def __repr__(self): open_since = self.open_date.strftime(DATETIME_PRINT_FORMAT) if self.is_open else 'closed' return ( f'Trade(id={self.id}, pair={self.pair}, amount={self.amount:.8f}, ' f'is_short={self.is_short or False}, leverage={self.leverage or 1.0}, ' f'open_rate={self.open_rate:.8f}, open_since={open_since})' ) def to_json(self, minified: bool = False) -> Dict[str, Any]: filled_or_open_orders = self.select_filled_or_open_orders() orders_json = [order.to_json(self.entry_side, minified) for order in filled_or_open_orders] open_orders = self.select_open_orders() open_orders_json = [order.to_json(self.entry_side, minified) for order in open_orders] return { 'trade_id': self.id, 'pair': self.pair, 'base_currency': self.safe_base_currency, 'quote_currency': self.safe_quote_currency, 'is_open': self.is_open, 'exchange': self.exchange, 'amount': round(self.amount, 8), 'amount_requested': round(self.amount_requested, 8) if self.amount_requested else None, 'stake_amount': round(self.stake_amount, 8), 'max_stake_amount': round(self.max_stake_amount, 8) if self.max_stake_amount else None, 'strategy': self.strategy, 'enter_tag': self.enter_tag, 'timeframe': self.timeframe, 'fee_open': self.fee_open, 'fee_open_cost': self.fee_open_cost, 'fee_open_currency': self.fee_open_currency, 'fee_close': self.fee_close, 'fee_close_cost': self.fee_close_cost, 'fee_close_currency': self.fee_close_currency, 'open_date': self.open_date.strftime(DATETIME_PRINT_FORMAT), 'open_timestamp': int(self.open_date.replace(tzinfo=timezone.utc).timestamp() * 1000), 'open_rate': self.open_rate, 'open_rate_requested': self.open_rate_requested, 'open_trade_value': round(self.open_trade_value, 8), 'close_date': (self.close_date.strftime(DATETIME_PRINT_FORMAT) if self.close_date else None), 'close_timestamp': int(self.close_date.replace( tzinfo=timezone.utc).timestamp() * 1000) if self.close_date else None, 'realized_profit': self.realized_profit or 0.0, # Close-profit corresponds to relative realized_profit ratio 'realized_profit_ratio': self.close_profit or None, 'close_rate': self.close_rate, 'close_rate_requested': self.close_rate_requested, 'close_profit': self.close_profit, # Deprecated 'close_profit_pct': round(self.close_profit * 100, 2) if self.close_profit else None, 'close_profit_abs': self.close_profit_abs, # Deprecated 'trade_duration_s': (int((self.close_date_utc - self.open_date_utc).total_seconds()) if self.close_date else None), 'trade_duration': (int((self.close_date_utc - self.open_date_utc).total_seconds() // 60) if self.close_date else None), 'profit_ratio': self.close_profit, 'profit_pct': round(self.close_profit * 100, 2) if self.close_profit else None, 'profit_abs': self.close_profit_abs, 'exit_reason': self.exit_reason, 'exit_order_status': self.exit_order_status, 'stop_loss_abs': self.stop_loss, 'stop_loss_ratio': self.stop_loss_pct if self.stop_loss_pct else None, 'stop_loss_pct': (self.stop_loss_pct * 100) if self.stop_loss_pct else None, 'stoploss_order_id': self.stoploss_order_id, 'stoploss_last_update': (self.stoploss_last_update.strftime(DATETIME_PRINT_FORMAT) if self.stoploss_last_update else None), 'stoploss_last_update_timestamp': int(self.stoploss_last_update.replace( tzinfo=timezone.utc).timestamp() * 1000) if self.stoploss_last_update else None, 'initial_stop_loss_abs': self.initial_stop_loss, 'initial_stop_loss_ratio': (self.initial_stop_loss_pct if self.initial_stop_loss_pct else None), 'initial_stop_loss_pct': (self.initial_stop_loss_pct * 100 if self.initial_stop_loss_pct else None), 'min_rate': self.min_rate, 'max_rate': self.max_rate, 'leverage': self.leverage, 'interest_rate': self.interest_rate, 'liquidation_price': self.liquidation_price, 'is_short': self.is_short, 'trading_mode': self.trading_mode, 'funding_fees': self.funding_fees, 'amount_precision': self.amount_precision, 'price_precision': self.price_precision, 'precision_mode': self.precision_mode, 'orders': orders_json, 'open_orders': open_orders_json } @staticmethod def reset_trades() -> None: """ Resets all trades. Only active for backtesting mode. """ LocalTrade.trades = [] LocalTrade.trades_open = [] LocalTrade.bt_trades_open_pp = defaultdict(list) LocalTrade.bt_open_open_trade_count = 0 LocalTrade.total_profit = 0 def adjust_min_max_rates(self, current_price: float, current_price_low: float) -> None: """ Adjust the max_rate and min_rate. """ self.max_rate = max(current_price, self.max_rate or self.open_rate) self.min_rate = min(current_price_low, self.min_rate or self.open_rate) def set_liquidation_price(self, liquidation_price: Optional[float]): """ Method you should use to set self.liquidation price. Assures stop_loss is not passed the liquidation price """ if not liquidation_price: return self.liquidation_price = liquidation_price def __set_stop_loss(self, stop_loss: float, percent: float): """ Method used internally to set self.stop_loss. """ 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: self.initial_stop_loss = stop_loss_norm self.stop_loss = stop_loss_norm self.stop_loss_pct = -1 * abs(percent) def adjust_stop_loss(self, current_price: float, stoploss: Optional[float], initial: bool = False, refresh: bool = False) -> None: """ This adjusts the stop loss to it's most recently observed setting :param current_price: Current rate the asset is traded :param stoploss: Stoploss as factor (sample -0.05 -> -5% below current price). :param initial: Called to initiate stop_loss. Skips everything if self.stop_loss is already set. """ if stoploss is None or (initial and not (self.stop_loss is None or self.stop_loss == 0)): # Don't modify if called with initial and nothing to do return refresh = True if refresh and self.nr_of_successful_entries == 1 else False leverage = self.leverage or 1.0 if self.is_short: new_loss = float(current_price * (1 + abs(stoploss / leverage))) else: new_loss = float(current_price * (1 - abs(stoploss / leverage))) # no stop loss assigned yet if self.initial_stop_loss_pct is None or refresh: self.__set_stop_loss(new_loss, stoploss) self.initial_stop_loss = price_to_precision( 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) # evaluate if the stop loss needs to be updated else: higher_stop = new_loss > self.stop_loss lower_stop = new_loss < self.stop_loss # stop losses only walk up, never down!, # ? But adding more to a leveraged trade would create a lower liquidation price, # ? decreasing the minimum stoploss if (higher_stop and not self.is_short) or (lower_stop and self.is_short): logger.debug(f"{self.pair} - Adjusting stoploss...") self.__set_stop_loss(new_loss, stoploss) else: logger.debug(f"{self.pair} - Keeping current stoploss...") logger.debug( f"{self.pair} - Stoploss adjusted. current_price={current_price:.8f}, " f"open_rate={self.open_rate:.8f}, max_rate={self.max_rate or self.open_rate:.8f}, " f"initial_stop_loss={self.initial_stop_loss:.8f}, " f"stop_loss={self.stop_loss:.8f}. " f"Trailing stoploss saved us: " f"{float(self.stop_loss) - float(self.initial_stop_loss or 0.0):.8f}.") def update_trade(self, order: Order) -> None: """ Updates this entity with amount and actual open/close rates. :param order: order retrieved by exchange.fetch_order() :return: None """ # Ignore open and cancelled orders if order.status == 'open' or order.safe_price is None: return logger.info(f'Updating trade (id={self.id}) ...') if order.ft_order_side == self.entry_side: # Update open rate and actual amount self.open_rate = order.safe_price self.amount = order.safe_amount_after_fee if self.is_open: payment = "SELL" if self.is_short else "BUY" logger.info(f'{order.order_type.upper()}_{payment} has been fulfilled for {self}.') self.recalc_trade_from_orders() elif order.ft_order_side == self.exit_side: if self.is_open: payment = "BUY" if self.is_short else "SELL" # * On margin shorts, you buy a little bit more than the amount (amount + interest) logger.info(f'{order.order_type.upper()}_{payment} has been fulfilled for {self}.') 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, self.precision_mode, self.contract_size) if ( isclose(order.safe_amount_after_fee, amount_tr, abs_tol=MATH_CLOSE_PREC) or order.safe_amount_after_fee > amount_tr ): self.close(order.safe_price) else: self.recalc_trade_from_orders() Trade.commit() def close(self, rate: float, *, show_msg: bool = True) -> None: """ Sets close_rate to the given rate, calculates total profit and marks trade as closed """ self.close_rate = rate self.close_date = self.close_date or datetime.utcnow() self.is_open = False self.exit_order_status = 'closed' self.open_order_id = None self.recalc_trade_from_orders(is_closing=True) if show_msg: logger.info( 'Marking %s as closed as the trade is fulfilled and found no open orders for it.', self ) def update_fee(self, fee_cost: float, fee_currency: Optional[str], fee_rate: Optional[float], side: str) -> None: """ Update Fee parameters. Only acts once per side """ if self.entry_side == side and self.fee_open_currency is None: self.fee_open_cost = fee_cost self.fee_open_currency = fee_currency if fee_rate is not None: self.fee_open = fee_rate # Assume close-fee will fall into the same fee category and take an educated guess self.fee_close = fee_rate elif self.exit_side == side and self.fee_close_currency is None: self.fee_close_cost = fee_cost self.fee_close_currency = fee_currency if fee_rate is not None: self.fee_close = fee_rate def fee_updated(self, side: str) -> bool: """ Verify if this side (buy / sell) has already been updated """ if self.entry_side == side: return self.fee_open_currency is not None elif self.exit_side == side: return self.fee_close_currency is not None else: return False def update_order(self, order: Dict) -> None: Order.update_orders(self.orders, order) def get_exit_order_count(self) -> int: """ Get amount of failed exiting orders assumes full exits. """ return len([o for o in self.orders if o.ft_order_side == self.exit_side]) def _calc_open_trade_value(self, amount: float, open_rate: float) -> float: """ Calculate the open_rate including open_fee. :return: Price in of the open trade incl. Fees """ open_trade = FtPrecise(amount) * FtPrecise(open_rate) fees = open_trade * FtPrecise(self.fee_open) if self.is_short: return float(open_trade - fees) else: return float(open_trade + fees) def recalc_open_trade_value(self) -> None: """ Recalculate open_trade_value. Must be called whenever open_rate, fee_open is changed. """ self.open_trade_value = self._calc_open_trade_value(self.amount, self.open_rate) def calculate_interest(self) -> FtPrecise: """ Calculate interest for this trade. Only applicable for Margin trading. """ zero = FtPrecise(0.0) # If nothing was borrowed if self.trading_mode != TradingMode.MARGIN or self.has_no_leverage: return zero open_date = self.open_date.replace(tzinfo=None) now = (self.close_date or datetime.now(timezone.utc)).replace(tzinfo=None) sec_per_hour = FtPrecise(3600) total_seconds = FtPrecise((now - open_date).total_seconds()) hours = total_seconds / sec_per_hour or zero rate = FtPrecise(self.interest_rate) borrowed = FtPrecise(self.borrowed) return interest(exchange_name=self.exchange, borrowed=borrowed, rate=rate, hours=hours) def _calc_base_close(self, amount: FtPrecise, rate: float, fee: Optional[float]) -> FtPrecise: close_trade = amount * FtPrecise(rate) fees = close_trade * FtPrecise(fee or 0.0) if self.is_short: return close_trade + fees else: return close_trade - fees def calc_close_trade_value(self, rate: float, amount: Optional[float] = None) -> float: """ Calculate the Trade's close value including fees :param rate: rate to compare with. :return: value in stake currency of the open trade """ if rate is None and not self.close_rate: return 0.0 amount1 = FtPrecise(amount or self.amount) trading_mode = self.trading_mode or TradingMode.SPOT if trading_mode == TradingMode.SPOT: return float(self._calc_base_close(amount1, rate, self.fee_close)) elif (trading_mode == TradingMode.MARGIN): total_interest = self.calculate_interest() if self.is_short: amount1 = amount1 + total_interest return float(self._calc_base_close(amount1, rate, self.fee_close)) else: # Currency already owned for longs, no need to purchase return float(self._calc_base_close(amount1, rate, self.fee_close) - total_interest) elif (trading_mode == TradingMode.FUTURES): funding_fees = self.funding_fees or 0.0 # Positive funding_fees -> Trade has gained from fees. # Negative funding_fees -> Trade had to pay the fees. if self.is_short: return float(self._calc_base_close(amount1, rate, self.fee_close)) - funding_fees else: return float(self._calc_base_close(amount1, rate, self.fee_close)) + funding_fees else: raise OperationalException( f"{self.trading_mode.value} trading is not yet available using freqtrade") def calc_profit(self, rate: float, amount: Optional[float] = None, open_rate: Optional[float] = None) -> float: """ Calculate the absolute profit in stake currency between Close and Open trade :param rate: close rate to compare with. :param amount: Amount to use for the calculation. Falls back to trade.amount if not set. :param open_rate: open_rate to use. Defaults to self.open_rate if not provided. :return: profit in stake currency as float """ close_trade_value = self.calc_close_trade_value(rate, amount) if amount is None or open_rate is None: open_trade_value = self.open_trade_value else: open_trade_value = self._calc_open_trade_value(amount, open_rate) if self.is_short: profit = open_trade_value - close_trade_value else: profit = close_trade_value - open_trade_value return float(f"{profit:.8f}") def calc_profit_ratio( self, rate: float, amount: Optional[float] = None, open_rate: Optional[float] = None) -> float: """ Calculates the profit as ratio (including fee). :param rate: rate to compare with. :param amount: Amount to use for the calculation. Falls back to trade.amount if not set. :param open_rate: open_rate to use. Defaults to self.open_rate if not provided. :return: profit ratio as float """ close_trade_value = self.calc_close_trade_value(rate, amount) if amount is None or open_rate is None: open_trade_value = self.open_trade_value else: open_trade_value = self._calc_open_trade_value(amount, open_rate) short_close_zero = (self.is_short and close_trade_value == 0.0) long_close_zero = (not self.is_short and open_trade_value == 0.0) leverage = self.leverage or 1.0 if (short_close_zero or long_close_zero): return 0.0 else: if self.is_short: profit_ratio = (1 - (close_trade_value / open_trade_value)) * leverage else: profit_ratio = ((close_trade_value / open_trade_value) - 1) * leverage return float(f"{profit_ratio:.8f}") def recalc_trade_from_orders(self, *, is_closing: bool = False): ZERO = FtPrecise(0.0) current_amount = FtPrecise(0.0) current_stake = FtPrecise(0.0) max_stake_amount = FtPrecise(0.0) total_stake = 0.0 # Total stake after all buy orders (does not subtract!) avg_price = FtPrecise(0.0) close_profit = 0.0 close_profit_abs = 0.0 profit = None # Reset funding fees self.funding_fees = 0.0 funding_fees = 0.0 ordercount = len(self.orders) - 1 for i, o in enumerate(self.orders): if o.ft_is_open or not o.filled: continue funding_fees += (o.funding_fee or 0.0) tmp_amount = FtPrecise(o.safe_amount_after_fee) tmp_price = FtPrecise(o.safe_price) is_exit = o.ft_order_side != self.entry_side side = FtPrecise(-1 if is_exit else 1) if tmp_amount > ZERO and tmp_price is not None: current_amount += tmp_amount * side price = avg_price if is_exit else tmp_price current_stake += price * tmp_amount * side if current_amount > ZERO: avg_price = current_stake / current_amount if is_exit: # Process exits if i == ordercount and is_closing: # Apply funding fees only to the last closing order self.funding_fees = funding_fees exit_rate = o.safe_price exit_amount = o.safe_amount_after_fee profit = self.calc_profit(rate=exit_rate, amount=exit_amount, open_rate=float(avg_price)) close_profit_abs += profit close_profit = self.calc_profit_ratio( exit_rate, amount=exit_amount, open_rate=avg_price) else: total_stake = total_stake + self._calc_open_trade_value(tmp_amount, price) max_stake_amount += (tmp_amount * price) self.funding_fees = funding_fees self.max_stake_amount = float(max_stake_amount) if close_profit: self.close_profit = close_profit self.realized_profit = close_profit_abs self.close_profit_abs = profit current_amount_tr = amount_to_contract_precision( float(current_amount), self.amount_precision, self.precision_mode, self.contract_size) if current_amount_tr > 0.0: # Trade is still open # Leverage not updated, as we don't allow changing leverage through DCA at the moment. self.open_rate = float(current_stake / current_amount) self.amount = current_amount_tr self.stake_amount = float(current_stake) / (self.leverage or 1.0) self.fee_open_cost = self.fee_open * float(current_stake) self.recalc_open_trade_value() if self.stop_loss_pct is not None and self.open_rate is not None: self.adjust_stop_loss(self.open_rate, self.stop_loss_pct) elif is_closing and total_stake > 0: # Close profit abs / maximum owned # Fees are considered as they are part of close_profit_abs self.close_profit = (close_profit_abs / total_stake) * self.leverage self.close_profit_abs = close_profit_abs def select_order_by_order_id(self, order_id: str) -> Optional[Order]: """ Finds order object by Order id. :param order_id: Exchange order id """ for o in self.orders: if o.order_id == order_id: return o return None def select_order(self, order_side: Optional[str] = None, is_open: Optional[bool] = None, only_filled: bool = False) -> Optional[Order]: """ Finds latest order for this orderside and status :param order_side: ft_order_side of the order (either 'buy', 'sell' or 'stoploss') :param is_open: Only search for open orders? :param only_filled: Only search for Filled orders (only valid with is_open=False). :return: latest Order object if it exists, else None """ orders = self.orders if order_side: orders = [o for o in orders if o.ft_order_side == order_side] if is_open is not None: orders = [o for o in orders if o.ft_is_open == is_open] if is_open is False and only_filled: orders = [o for o in orders if o.filled and o.status in NON_OPEN_EXCHANGE_STATES] if len(orders) > 0: return orders[-1] else: return None def select_filled_orders(self, order_side: Optional[str] = None) -> List['Order']: """ Finds filled orders for this orderside. :param order_side: Side of the order (either 'buy', 'sell', or None) :return: array of Order objects """ return [o for o in self.orders if ((o.ft_order_side == order_side) or (order_side is None)) and o.ft_is_open is False and o.filled and o.status in NON_OPEN_EXCHANGE_STATES] def select_filled_or_open_orders(self) -> List['Order']: """ Finds filled or open orders :param order_side: Side of the order (either 'buy', 'sell', or None) :return: array of Order objects """ return [o for o in self.orders if ( o.ft_is_open is False and (o.filled or 0) > 0 and o.status in NON_OPEN_EXCHANGE_STATES ) or (o.ft_is_open is True and o.status is not None) ] def select_open_orders(self) -> List['Order']: """ Finds open orders :param order_side: Side of the order (either 'buy', 'sell', or None) :return: array of Order objects """ return [o for o in self.orders if (o.ft_is_open is True and o.status is not None) ] @property def nr_of_successful_entries(self) -> int: """ Helper function to count the number of entry orders that have been filled. :return: int count of entry orders that have been filled for this trade. """ return len(self.select_filled_orders(self.entry_side)) @property def nr_of_successful_exits(self) -> int: """ Helper function to count the number of exit orders that have been filled. :return: int count of exit orders that have been filled for this trade. """ return len(self.select_filled_orders(self.exit_side)) @property def nr_of_successful_buys(self) -> int: """ Helper function to count the number of buy orders that have been filled. WARNING: Please use nr_of_successful_entries for short support. :return: int count of buy orders that have been filled for this trade. """ return len(self.select_filled_orders('buy')) @property def nr_of_successful_sells(self) -> int: """ Helper function to count the number of sell orders that have been filled. WARNING: Please use nr_of_successful_exits for short support. :return: int count of sell orders that have been filled for this trade. """ return len(self.select_filled_orders('sell')) @property def sell_reason(self) -> Optional[str]: """ DEPRECATED! Please use exit_reason instead.""" return self.exit_reason @property def safe_close_rate(self) -> float: return self.close_rate or self.close_rate_requested or 0.0 @staticmethod def get_trades_proxy(*, pair: Optional[str] = None, is_open: Optional[bool] = None, open_date: Optional[datetime] = None, close_date: Optional[datetime] = None, ) -> List['LocalTrade']: """ Helper function to query Trades. Returns a List of trades, filtered on the parameters given. In live mode, converts the filter to a database query and returns all rows In Backtest mode, uses filters on Trade.trades to get the result. :param pair: Filter by pair :param is_open: Filter by open/closed status :param open_date: Filter by open_date (filters via trade.open_date > input) :param close_date: Filter by close_date (filters via trade.close_date > input) Will implicitly only return closed trades. :return: unsorted List[Trade] """ # Offline mode - without database if is_open is not None: if is_open: sel_trades = LocalTrade.trades_open else: sel_trades = LocalTrade.trades else: # Not used during backtesting, but might be used by a strategy sel_trades = list(LocalTrade.trades + LocalTrade.trades_open) if pair: sel_trades = [trade for trade in sel_trades if trade.pair == pair] if open_date: sel_trades = [trade for trade in sel_trades if trade.open_date > open_date] if close_date: sel_trades = [trade for trade in sel_trades if trade.close_date and trade.close_date > close_date] return sel_trades @staticmethod def close_bt_trade(trade): LocalTrade.trades_open.remove(trade) LocalTrade.bt_trades_open_pp[trade.pair].remove(trade) LocalTrade.bt_open_open_trade_count -= 1 LocalTrade.trades.append(trade) LocalTrade.total_profit += trade.close_profit_abs @staticmethod def add_bt_trade(trade): if trade.is_open: LocalTrade.trades_open.append(trade) LocalTrade.bt_trades_open_pp[trade.pair].append(trade) LocalTrade.bt_open_open_trade_count += 1 else: LocalTrade.trades.append(trade) @staticmethod def remove_bt_trade(trade): LocalTrade.trades_open.remove(trade) LocalTrade.bt_trades_open_pp[trade.pair].remove(trade) LocalTrade.bt_open_open_trade_count -= 1 @staticmethod def get_open_trades() -> List[Any]: """ Retrieve open trades """ return Trade.get_trades_proxy(is_open=True) @staticmethod def get_open_trade_count() -> int: """ get open trade count """ if Trade.use_db: return Trade.session.execute( select(func.count(Trade.id)).filter(Trade.is_open.is_(True)) ).scalar_one() else: return LocalTrade.bt_open_open_trade_count @staticmethod def stoploss_reinitialization(desired_stoploss): """ Adjust initial Stoploss to desired stoploss for all open trades. """ for trade in Trade.get_open_trades(): logger.info("Found open trade: %s", trade) # skip case if trailing-stop changed the stoploss already. if (trade.stop_loss == trade.initial_stop_loss and trade.initial_stop_loss_pct != desired_stoploss): # Stoploss value got changed logger.info(f"Stoploss for {trade} needs adjustment...") # Force reset of stoploss trade.stop_loss = None trade.initial_stop_loss_pct = None trade.adjust_stop_loss(trade.open_rate, desired_stoploss) logger.info(f"New stoploss: {trade.stop_loss}.") class Trade(ModelBase, LocalTrade): """ Trade database model. Also handles updating and querying trades Note: Fields must be aligned with LocalTrade class """ __tablename__ = 'trades' session: ClassVar[SessionType] use_db: bool = True id: Mapped[int] = mapped_column(Integer, primary_key=True) # type: ignore orders: Mapped[List[Order]] = relationship( "Order", order_by="Order.id", cascade="all, delete-orphan", lazy="selectin", innerjoin=True) # type: ignore exchange: Mapped[str] = mapped_column(String(25), nullable=False) # type: ignore pair: Mapped[str] = mapped_column(String(25), nullable=False, index=True) # type: ignore base_currency: Mapped[Optional[str]] = mapped_column(String(25), nullable=True) # type: ignore stake_currency: Mapped[Optional[str]] = mapped_column(String(25), nullable=True) # type: ignore is_open: Mapped[bool] = mapped_column(nullable=False, default=True, index=True) # type: ignore fee_open: Mapped[float] = mapped_column(Float(), nullable=False, default=0.0) # type: ignore fee_open_cost: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore fee_open_currency: Mapped[Optional[str]] = mapped_column( String(25), nullable=True) # type: ignore fee_close: Mapped[Optional[float]] = mapped_column( Float(), nullable=False, default=0.0) # type: ignore fee_close_cost: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore fee_close_currency: Mapped[Optional[str]] = mapped_column( String(25), nullable=True) # type: ignore open_rate: Mapped[float] = mapped_column(Float()) # type: ignore open_rate_requested: Mapped[Optional[float]] = mapped_column( Float(), nullable=True) # type: ignore # open_trade_value - calculated via _calc_open_trade_value open_trade_value: Mapped[float] = mapped_column(Float(), nullable=True) # type: ignore close_rate: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore close_rate_requested: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore realized_profit: Mapped[float] = mapped_column( Float(), default=0.0, nullable=True) # type: ignore close_profit: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore close_profit_abs: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore stake_amount: Mapped[float] = mapped_column(Float(), nullable=False) # type: ignore max_stake_amount: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore amount: Mapped[float] = mapped_column(Float()) # type: ignore amount_requested: Mapped[Optional[float]] = mapped_column(Float()) # type: ignore open_date: Mapped[datetime] = mapped_column( nullable=False, default=datetime.utcnow) # type: ignore close_date: Mapped[Optional[datetime]] = mapped_column() # type: ignore # absolute value of the stop loss stop_loss: Mapped[float] = mapped_column(Float(), nullable=True, default=0.0) # type: ignore # percentage value of the stop loss stop_loss_pct: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore # absolute value of the initial stop loss initial_stop_loss: Mapped[Optional[float]] = mapped_column( Float(), nullable=True, default=0.0) # type: ignore # percentage value of the initial stop loss initial_stop_loss_pct: Mapped[Optional[float]] = mapped_column( Float(), nullable=True) # type: ignore # stoploss order id which is on exchange stoploss_order_id: Mapped[Optional[str]] = mapped_column( String(255), nullable=True, index=True) # type: ignore # last update time of the stoploss order on exchange stoploss_last_update: Mapped[Optional[datetime]] = mapped_column(nullable=True) # type: ignore # absolute value of the highest reached price max_rate: Mapped[Optional[float]] = mapped_column( Float(), nullable=True, default=0.0) # type: ignore # Lowest price reached min_rate: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore exit_reason: Mapped[Optional[str]] = mapped_column( String(CUSTOM_TAG_MAX_LENGTH), nullable=True) # type: ignore exit_order_status: 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( String(CUSTOM_TAG_MAX_LENGTH), nullable=True) # type: ignore timeframe: Mapped[Optional[int]] = mapped_column(Integer, nullable=True) # type: ignore trading_mode: Mapped[TradingMode] = mapped_column( Enum(TradingMode), nullable=True) # type: ignore amount_precision: Mapped[Optional[float]] = mapped_column( Float(), nullable=True) # type: ignore price_precision: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore precision_mode: Mapped[Optional[int]] = mapped_column(Integer, nullable=True) # type: ignore contract_size: Mapped[Optional[float]] = mapped_column(Float(), nullable=True) # type: ignore # Leverage trading properties leverage: Mapped[float] = mapped_column(Float(), nullable=True, default=1.0) # type: ignore is_short: Mapped[bool] = mapped_column(nullable=False, default=False) # type: ignore liquidation_price: Mapped[Optional[float]] = mapped_column( Float(), nullable=True) # type: ignore # Margin Trading Properties interest_rate: Mapped[float] = mapped_column( Float(), nullable=False, default=0.0) # type: ignore # Futures properties funding_fees: Mapped[Optional[float]] = mapped_column( Float(), nullable=True, default=None) # type: ignore @hybrid_property def open_orders(self): return [order for order in self.orders if order.ft_is_open] @open_orders.expression def open_orders(cls): return ( select(Order).where(Order.ft_is_open is True) .where( Order.order_id.in_( select(Order.order_id) .where(Order.ft_trade_id == cls.id) ) ) ) @hybrid_property def open_orders_count(self) -> int: return len(self.open_orders) @open_orders_count.expression def open_orders_count(cls): return ( select(func.count(Order.order_id)) .where(Order.ft_is_open is True) .where(Order.ft_trade_id == cls.id) .subquery() ) @hybrid_property def open_entry_or_exit_orders_count(self) -> int: open_buy_or_sell_orders = [] for oo in self.open_orders: if (oo.ft_order_side in ['buy', 'sell']): open_buy_or_sell_orders.append(oo) return len(open_buy_or_sell_orders) @open_entry_or_exit_orders_count.expression def open_entry_or_exit_orders_count(cls): return ( select(func.count(Order.order_id)) .where(Order.ft_order_side.contains(['buy', 'sell'])) .where(Order.ft_trade_id == cls.id) .subquery() ) @hybrid_property def open_orders_ids(self) -> list: return [open_order.order_id for open_order in self.open_orders] @open_orders_ids.expression def open_orders_ids(cls): return ( select(Order.order_id) .where(Order.ft_is_open is True) .where(Order.ft_trade_id == cls.id) .subquery() ) def __init__(self, **kwargs): super().__init__(**kwargs) self.realized_profit = 0 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: for order in self.orders: Order.session.delete(order) Trade.session.delete(self) Trade.commit() @staticmethod def commit(): Trade.session.commit() @staticmethod def rollback(): Trade.session.rollback() @staticmethod def get_trades_proxy(*, pair: Optional[str] = None, is_open: Optional[bool] = None, open_date: Optional[datetime] = None, close_date: Optional[datetime] = None, ) -> List['LocalTrade']: """ Helper function to query Trades.j Returns a List of trades, filtered on the parameters given. In live mode, converts the filter to a database query and returns all rows In Backtest mode, uses filters on Trade.trades to get the result. :return: unsorted List[Trade] """ if Trade.use_db: trade_filter = [] if pair: trade_filter.append(Trade.pair == pair) if open_date: trade_filter.append(Trade.open_date > open_date) if close_date: trade_filter.append(Trade.close_date > close_date) if is_open is not None: trade_filter.append(Trade.is_open.is_(is_open)) return cast(List[LocalTrade], Trade.get_trades(trade_filter).all()) else: return LocalTrade.get_trades_proxy( pair=pair, is_open=is_open, open_date=open_date, close_date=close_date ) @staticmethod def get_trades_query(trade_filter=None, include_orders: bool = True) -> Select: """ Helper function to query Trades using filters. NOTE: Not supported in Backtesting. :param trade_filter: Optional filter to apply to trades Can be either a Filter object, or a List of filters e.g. `(trade_filter=[Trade.id == trade_id, Trade.is_open.is_(True),])` e.g. `(trade_filter=Trade.id == trade_id)` :return: unsorted query object """ if not Trade.use_db: raise NotImplementedError('`Trade.get_trades()` not supported in backtesting mode.') if trade_filter is not None: if not isinstance(trade_filter, list): trade_filter = [trade_filter] this_query = select(Trade).filter(*trade_filter) else: this_query = select(Trade) if not include_orders: # Don't load order relations # Consider using noload or raiseload instead of lazyload this_query = this_query.options(lazyload(Trade.orders)) return this_query @staticmethod def get_trades(trade_filter=None, include_orders: bool = True) -> ScalarResult['Trade']: """ Helper function to query Trades using filters. NOTE: Not supported in Backtesting. :param trade_filter: Optional filter to apply to trades Can be either a Filter object, or a List of filters e.g. `(trade_filter=[Trade.id == trade_id, Trade.is_open.is_(True),])` e.g. `(trade_filter=Trade.id == trade_id)` :return: unsorted query object """ return Trade.session.scalars(Trade.get_trades_query(trade_filter, include_orders)) @staticmethod def get_open_order_trades() -> List['Trade']: """ Returns all open trades NOTE: Not supported in Backtesting. """ return cast(List[Trade], Trade.get_trades([Trade.open_orders_count != 0]).all()) @staticmethod def get_open_trades_without_assigned_fees(): """ Returns all open trades which don't have open fees set correctly NOTE: Not supported in Backtesting. """ return Trade.get_trades([Trade.fee_open_currency.is_(None), Trade.orders.any(), Trade.is_open.is_(True), ]).all() @staticmethod def get_closed_trades_without_assigned_fees(): """ Returns all closed trades which don't have fees set correctly NOTE: Not supported in Backtesting. """ return Trade.get_trades([Trade.fee_close_currency.is_(None), Trade.orders.any(), Trade.is_open.is_(False), ]).all() @staticmethod def get_total_closed_profit() -> float: """ Retrieves total realized profit """ if Trade.use_db: total_profit: float = Trade.session.execute( select(func.sum(Trade.close_profit_abs)).filter(Trade.is_open.is_(False)) ).scalar_one() else: total_profit = sum(t.close_profit_abs # type: ignore for t in LocalTrade.get_trades_proxy(is_open=False)) return total_profit or 0 @staticmethod def total_open_trades_stakes() -> float: """ Calculates total invested amount in open trades in stake currency """ if Trade.use_db: total_open_stake_amount = Trade.session.scalar( select(func.sum(Trade.stake_amount)).filter(Trade.is_open.is_(True)) ) else: total_open_stake_amount = sum( t.stake_amount for t in LocalTrade.get_trades_proxy(is_open=True)) return total_open_stake_amount or 0 @staticmethod def get_overall_performance(minutes=None) -> List[Dict[str, Any]]: """ Returns List of dicts containing all Trades, including profit and trade count NOTE: Not supported in Backtesting. """ filters: List = [Trade.is_open.is_(False)] if minutes: start_date = datetime.now(timezone.utc) - timedelta(minutes=minutes) filters.append(Trade.close_date >= start_date) pair_rates = Trade.session.execute( select( Trade.pair, func.sum(Trade.close_profit).label('profit_sum'), func.sum(Trade.close_profit_abs).label('profit_sum_abs'), func.count(Trade.pair).label('count') ).filter(*filters) .group_by(Trade.pair) .order_by(desc('profit_sum_abs')) ).all() return [ { 'pair': pair, 'profit_ratio': profit, 'profit': round(profit * 100, 2), # Compatibility mode 'profit_pct': round(profit * 100, 2), 'profit_abs': profit_abs, 'count': count } for pair, profit, profit_abs, count in pair_rates ] @staticmethod def get_enter_tag_performance(pair: Optional[str]) -> List[Dict[str, Any]]: """ Returns List of dicts containing all Trades, based on buy tag performance Can either be average for all pairs or a specific pair provided NOTE: Not supported in Backtesting. """ filters: List = [Trade.is_open.is_(False)] if (pair is not None): filters.append(Trade.pair == pair) enter_tag_perf = Trade.session.execute( select( Trade.enter_tag, func.sum(Trade.close_profit).label('profit_sum'), func.sum(Trade.close_profit_abs).label('profit_sum_abs'), func.count(Trade.pair).label('count') ).filter(*filters) .group_by(Trade.enter_tag) .order_by(desc('profit_sum_abs')) ).all() return [ { 'enter_tag': enter_tag if enter_tag is not None else "Other", 'profit_ratio': profit, 'profit_pct': round(profit * 100, 2), 'profit_abs': profit_abs, 'count': count } for enter_tag, profit, profit_abs, count in enter_tag_perf ] @staticmethod def get_exit_reason_performance(pair: Optional[str]) -> List[Dict[str, Any]]: """ Returns List of dicts containing all Trades, based on exit reason performance Can either be average for all pairs or a specific pair provided NOTE: Not supported in Backtesting. """ filters: List = [Trade.is_open.is_(False)] if (pair is not None): filters.append(Trade.pair == pair) sell_tag_perf = Trade.session.execute( select( Trade.exit_reason, func.sum(Trade.close_profit).label('profit_sum'), func.sum(Trade.close_profit_abs).label('profit_sum_abs'), func.count(Trade.pair).label('count') ).filter(*filters) .group_by(Trade.exit_reason) .order_by(desc('profit_sum_abs')) ).all() return [ { 'exit_reason': exit_reason if exit_reason is not None else "Other", 'profit_ratio': profit, 'profit_pct': round(profit * 100, 2), 'profit_abs': profit_abs, 'count': count } for exit_reason, profit, profit_abs, count in sell_tag_perf ] @staticmethod def get_mix_tag_performance(pair: Optional[str]) -> List[Dict[str, Any]]: """ Returns List of dicts containing all Trades, based on entry_tag + exit_reason performance Can either be average for all pairs or a specific pair provided NOTE: Not supported in Backtesting. """ filters: List = [Trade.is_open.is_(False)] if (pair is not None): filters.append(Trade.pair == pair) mix_tag_perf = Trade.session.execute( select( Trade.id, Trade.enter_tag, Trade.exit_reason, func.sum(Trade.close_profit).label('profit_sum'), func.sum(Trade.close_profit_abs).label('profit_sum_abs'), func.count(Trade.pair).label('count') ).filter(*filters) .group_by(Trade.id) .order_by(desc('profit_sum_abs')) ).all() return_list: List[Dict] = [] for id, enter_tag, exit_reason, profit, profit_abs, count in mix_tag_perf: enter_tag = enter_tag if enter_tag is not None else "Other" exit_reason = exit_reason if exit_reason is not None else "Other" if (exit_reason is not None and enter_tag is not None): mix_tag = enter_tag + " " + exit_reason i = 0 if not any(item["mix_tag"] == mix_tag for item in return_list): return_list.append({'mix_tag': mix_tag, 'profit': profit, 'profit_pct': round(profit * 100, 2), 'profit_abs': profit_abs, 'count': count}) else: while i < len(return_list): if return_list[i]["mix_tag"] == mix_tag: return_list[i] = { 'mix_tag': mix_tag, 'profit': profit + return_list[i]["profit"], 'profit_pct': round(profit + return_list[i]["profit"] * 100, 2), 'profit_abs': profit_abs + return_list[i]["profit_abs"], 'count': 1 + return_list[i]["count"]} i += 1 return return_list @staticmethod def get_best_pair(start_date: datetime = datetime.fromtimestamp(0)): """ Get best pair with closed trade. NOTE: Not supported in Backtesting. :returns: Tuple containing (pair, profit_sum) """ best_pair = Trade.session.execute( select( Trade.pair, func.sum(Trade.close_profit).label('profit_sum') ).filter(Trade.is_open.is_(False) & (Trade.close_date >= start_date)) .group_by(Trade.pair) .order_by(desc('profit_sum')) ).first() return best_pair @staticmethod def get_trading_volume(start_date: datetime = datetime.fromtimestamp(0)) -> float: """ Get Trade volume based on Orders NOTE: Not supported in Backtesting. :returns: Tuple containing (pair, profit_sum) """ trading_volume = Trade.session.execute( select( func.sum(Order.cost).label('volume') ).filter( Order.order_filled_date >= start_date, Order.status == 'closed' )).scalar_one() return trading_volume @staticmethod def from_json(json_str: str) -> 'Trade': """ Create a Trade instance from a json string. Used for debugging purposes - please keep. :param json_str: json string to parse :return: Trade instance """ import rapidjson data = rapidjson.loads(json_str) trade = Trade( id=data["trade_id"], pair=data["pair"], base_currency=data["base_currency"], stake_currency=data["quote_currency"], is_open=data["is_open"], exchange=data["exchange"], amount=data["amount"], amount_requested=data["amount_requested"], stake_amount=data["stake_amount"], strategy=data["strategy"], enter_tag=data["enter_tag"], timeframe=data["timeframe"], fee_open=data["fee_open"], fee_open_cost=data["fee_open_cost"], fee_open_currency=data["fee_open_currency"], fee_close=data["fee_close"], fee_close_cost=data["fee_close_cost"], fee_close_currency=data["fee_close_currency"], open_date=datetime.fromtimestamp(data["open_timestamp"] // 1000, tz=timezone.utc), open_rate=data["open_rate"], open_rate_requested=data["open_rate_requested"], open_trade_value=data["open_trade_value"], close_date=(datetime.fromtimestamp(data["close_timestamp"] // 1000, tz=timezone.utc) if data["close_timestamp"] else None), realized_profit=data["realized_profit"], close_rate=data["close_rate"], close_rate_requested=data["close_rate_requested"], close_profit=data["close_profit"], close_profit_abs=data["close_profit_abs"], exit_reason=data["exit_reason"], exit_order_status=data["exit_order_status"], stop_loss=data["stop_loss_abs"], stop_loss_pct=data["stop_loss_ratio"], stoploss_order_id=data["stoploss_order_id"], stoploss_last_update=( datetime.fromtimestamp(data["stoploss_last_update_timestamp"] // 1000, tz=timezone.utc) if data["stoploss_last_update_timestamp"] else None), initial_stop_loss=data["initial_stop_loss_abs"], initial_stop_loss_pct=data["initial_stop_loss_ratio"], min_rate=data["min_rate"], max_rate=data["max_rate"], leverage=data["leverage"], interest_rate=data["interest_rate"], liquidation_price=data["liquidation_price"], is_short=data["is_short"], trading_mode=data["trading_mode"], funding_fees=data["funding_fees"], open_order_id=data["open_order_id"], ) for order in data["orders"]: order_obj = Order( amount=order["amount"], ft_order_side=order["ft_order_side"], ft_pair=order["pair"], ft_is_open=order["is_open"], order_id=order["order_id"], status=order["status"], average=order["average"], cost=order["cost"], filled=order["filled"], order_date=datetime.strptime(order["order_date"], DATETIME_PRINT_FORMAT), order_filled_date=(datetime.fromtimestamp( order["order_filled_timestamp"] // 1000, tz=timezone.utc) if order["order_filled_timestamp"] else None), order_type=order["order_type"], price=order["price"], remaining=order["remaining"], ) trade.orders.append(order_obj) return trade