freqtrade_origin/freqtrade/rpc/rpc.py

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"""
This module contains class to define a RPC communications
"""
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import logging
from abc import abstractmethod
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from datetime import date, datetime, timedelta, timezone
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from math import isnan
from typing import Any, Dict, Generator, List, Optional, Sequence, Tuple, Union
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import psutil
from dateutil.relativedelta import relativedelta
from dateutil.tz import tzlocal
from numpy import NAN, inf, int64, mean
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from pandas import DataFrame, NaT
from sqlalchemy import func, select
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from freqtrade import __version__
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from freqtrade.configuration.timerange import TimeRange
from freqtrade.constants import CANCEL_REASON, DEFAULT_DATAFRAME_COLUMNS, Config
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from freqtrade.data.history import load_data
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from freqtrade.data.metrics import DrawDownResult, calculate_expectancy, calculate_max_drawdown
from freqtrade.enums import (
CandleType,
ExitCheckTuple,
ExitType,
MarketDirection,
SignalDirection,
State,
TradingMode,
)
from freqtrade.exceptions import ExchangeError, PricingError
from freqtrade.exchange import timeframe_to_minutes, timeframe_to_msecs
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from freqtrade.exchange.types import Tickers
from freqtrade.loggers import bufferHandler
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from freqtrade.persistence import KeyStoreKeys, KeyValueStore, PairLocks, Trade
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from freqtrade.persistence.models import PairLock
from freqtrade.plugins.pairlist.pairlist_helpers import expand_pairlist
from freqtrade.rpc.fiat_convert import CryptoToFiatConverter
from freqtrade.rpc.rpc_types import RPCSendMsg
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from freqtrade.util import decimals_per_coin, dt_now, dt_ts_def, format_date, shorten_date
from freqtrade.util.datetime_helpers import dt_humanize_delta
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from freqtrade.wallets import PositionWallet, Wallet
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logger = logging.getLogger(__name__)
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class RPCException(Exception):
"""
Should be raised with a rpc-formatted message in an _rpc_* method
if the required state is wrong, i.e.:
raise RPCException('*Status:* `no active trade`')
"""
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def __init__(self, message: str) -> None:
super().__init__(self)
self.message = message
def __str__(self):
return self.message
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def __json__(self):
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return {"msg": self.message}
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class RPCHandler:
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def __init__(self, rpc: "RPC", config: Config) -> None:
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"""
Initializes RPCHandlers
:param rpc: instance of RPC Helper class
:param config: Configuration object
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:return: None
"""
self._rpc = rpc
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self._config: Config = config
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@property
def name(self) -> str:
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"""Returns the lowercase name of the implementation"""
return self.__class__.__name__.lower()
@abstractmethod
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def cleanup(self) -> None:
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"""Cleanup pending module resources"""
@abstractmethod
def send_msg(self, msg: RPCSendMsg) -> None:
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"""Sends a message to all registered rpc modules"""
class RPC:
"""
RPC class can be used to have extra feature, like bot data, and access to DB data
"""
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# Bind _fiat_converter if needed
_fiat_converter: Optional[CryptoToFiatConverter] = None
def __init__(self, freqtrade) -> None:
"""
Initializes all enabled rpc modules
:param freqtrade: Instance of a freqtrade bot
:return: None
"""
self._freqtrade = freqtrade
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self._config: Config = freqtrade.config
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if self._config.get("fiat_display_currency"):
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self._fiat_converter = CryptoToFiatConverter(self._config)
@staticmethod
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def _rpc_show_config(
config, botstate: Union[State, str], strategy_version: Optional[str] = None
) -> Dict[str, Any]:
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"""
Return a dict of config options.
Explicitly does NOT return the full config to avoid leakage of sensitive
information via rpc.
"""
val = {
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"version": __version__,
"strategy_version": strategy_version,
"dry_run": config["dry_run"],
"trading_mode": config.get("trading_mode", "spot"),
"short_allowed": config.get("trading_mode", "spot") != "spot",
"stake_currency": config["stake_currency"],
"stake_currency_decimals": decimals_per_coin(config["stake_currency"]),
"stake_amount": str(config["stake_amount"]),
"available_capital": config.get("available_capital"),
"max_open_trades": (
config.get("max_open_trades", 0)
if config.get("max_open_trades", 0) != float("inf")
else -1
),
"minimal_roi": config["minimal_roi"].copy() if "minimal_roi" in config else {},
"stoploss": config.get("stoploss"),
"stoploss_on_exchange": config.get("order_types", {}).get(
"stoploss_on_exchange", False
),
"trailing_stop": config.get("trailing_stop"),
"trailing_stop_positive": config.get("trailing_stop_positive"),
"trailing_stop_positive_offset": config.get("trailing_stop_positive_offset"),
"trailing_only_offset_is_reached": config.get("trailing_only_offset_is_reached"),
"unfilledtimeout": config.get("unfilledtimeout"),
"use_custom_stoploss": config.get("use_custom_stoploss"),
"order_types": config.get("order_types"),
"bot_name": config.get("bot_name", "freqtrade"),
"timeframe": config.get("timeframe"),
"timeframe_ms": timeframe_to_msecs(config["timeframe"]) if "timeframe" in config else 0,
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"timeframe_min": (
timeframe_to_minutes(config["timeframe"]) if "timeframe" in config else 0
),
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"exchange": config["exchange"]["name"],
"strategy": config["strategy"],
"force_entry_enable": config.get("force_entry_enable", False),
"exit_pricing": config.get("exit_pricing", {}),
"entry_pricing": config.get("entry_pricing", {}),
"state": str(botstate),
"runmode": config["runmode"].value,
"position_adjustment_enable": config.get("position_adjustment_enable", False),
"max_entry_position_adjustment": (
config.get("max_entry_position_adjustment", -1)
if config.get("max_entry_position_adjustment") != float("inf")
else -1
),
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}
return val
def _rpc_trade_status(self, trade_ids: Optional[List[int]] = None) -> List[Dict[str, Any]]:
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"""
Below follows the RPC backend it is prefixed with rpc_ to raise awareness that it is
a remotely exposed function
"""
# Fetch open trades
if trade_ids:
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trades: Sequence[Trade] = Trade.get_trades(trade_filter=Trade.id.in_(trade_ids)).all()
else:
trades = Trade.get_open_trades()
if not trades:
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raise RPCException("no active trade")
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else:
results = []
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for trade in trades:
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current_profit_fiat: Optional[float] = None
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total_profit_fiat: Optional[float] = None
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# prepare open orders details
oo_details: Optional[str] = ""
oo_details_lst = [
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f"({oo.order_type} {oo.side} rem={oo.safe_remaining:.8f})"
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for oo in trade.open_orders
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if oo.ft_order_side not in ["stoploss"]
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]
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oo_details = ", ".join(oo_details_lst)
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total_profit_abs = 0.0
total_profit_ratio: Optional[float] = None
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# calculate profit and send message to user
if trade.is_open:
try:
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current_rate = self._freqtrade.exchange.get_rate(
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trade.pair, side="exit", is_short=trade.is_short, refresh=False
)
except (ExchangeError, PricingError):
current_rate = NAN
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if len(trade.select_filled_orders(trade.entry_side)) > 0:
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current_profit = current_profit_abs = current_profit_fiat = NAN
if not isnan(current_rate):
prof = trade.calculate_profit(current_rate)
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current_profit = prof.profit_ratio
current_profit_abs = prof.profit_abs
total_profit_abs = prof.total_profit
total_profit_ratio = prof.total_profit_ratio
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else:
current_profit = current_profit_abs = current_profit_fiat = 0.0
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else:
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# Closed trade ...
current_rate = trade.close_rate
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current_profit = trade.close_profit or 0.0
current_profit_abs = trade.close_profit_abs or 0.0
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# Calculate fiat profit
if not isnan(current_profit_abs) and self._fiat_converter:
current_profit_fiat = self._fiat_converter.convert_amount(
current_profit_abs,
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self._freqtrade.config["stake_currency"],
self._freqtrade.config["fiat_display_currency"],
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)
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total_profit_fiat = self._fiat_converter.convert_amount(
total_profit_abs,
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self._freqtrade.config["stake_currency"],
self._freqtrade.config["fiat_display_currency"],
)
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# Calculate guaranteed profit (in case of trailing stop)
stop_entry = trade.calculate_profit(trade.stop_loss)
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stoploss_entry_dist = stop_entry.profit_abs
stoploss_entry_dist_ratio = stop_entry.profit_ratio
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# calculate distance to stoploss
stoploss_current_dist = trade.stop_loss - current_rate
stoploss_current_dist_ratio = stoploss_current_dist / current_rate
trade_dict = trade.to_json()
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trade_dict.update(
dict(
close_profit=trade.close_profit if not trade.is_open else None,
current_rate=current_rate,
profit_ratio=current_profit,
profit_pct=round(current_profit * 100, 2),
profit_abs=current_profit_abs,
profit_fiat=current_profit_fiat,
total_profit_abs=total_profit_abs,
total_profit_fiat=total_profit_fiat,
total_profit_ratio=total_profit_ratio,
stoploss_current_dist=stoploss_current_dist,
stoploss_current_dist_ratio=round(stoploss_current_dist_ratio, 8),
stoploss_current_dist_pct=round(stoploss_current_dist_ratio * 100, 2),
stoploss_entry_dist=stoploss_entry_dist,
stoploss_entry_dist_ratio=round(stoploss_entry_dist_ratio, 8),
open_orders=oo_details,
)
)
results.append(trade_dict)
return results
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def _rpc_status_table(
self, stake_currency: str, fiat_display_currency: str
) -> Tuple[List, List, float]:
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trades: List[Trade] = Trade.get_open_trades()
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nonspot = self._config.get("trading_mode", TradingMode.SPOT) != TradingMode.SPOT
if not trades:
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raise RPCException("no active trade")
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else:
trades_list = []
fiat_profit_sum = NAN
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for trade in trades:
# calculate profit and send message to user
try:
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current_rate = self._freqtrade.exchange.get_rate(
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trade.pair, side="exit", is_short=trade.is_short, refresh=False
)
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except (PricingError, ExchangeError):
current_rate = NAN
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trade_profit = NAN
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profit_str = f"{NAN:.2%}"
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else:
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if trade.nr_of_successful_entries > 0:
profit = trade.calculate_profit(current_rate)
trade_profit = profit.profit_abs
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profit_str = f"{profit.profit_ratio:.2%}"
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else:
trade_profit = 0.0
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profit_str = f"{0.0:.2f}"
direction_str = ("S" if trade.is_short else "L") if nonspot else ""
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if self._fiat_converter:
fiat_profit = self._fiat_converter.convert_amount(
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trade_profit, stake_currency, fiat_display_currency
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)
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if not isnan(fiat_profit):
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profit_str += f" ({fiat_profit:.2f})"
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fiat_profit_sum = (
fiat_profit if isnan(fiat_profit_sum) else fiat_profit_sum + fiat_profit
)
else:
profit_str += f" ({trade_profit:.2f})"
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fiat_profit_sum = (
trade_profit if isnan(fiat_profit_sum) else fiat_profit_sum + trade_profit
)
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active_attempt_side_symbols = [
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"*" if (oo and oo.ft_order_side == trade.entry_side) else "**"
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for oo in trade.open_orders
]
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# example: '*.**.**' trying to enter, exit and exit with 3 different orders
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active_attempt_side_symbols_str = ".".join(active_attempt_side_symbols)
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detail_trade = [
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f"{trade.id} {direction_str}",
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trade.pair + active_attempt_side_symbols_str,
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shorten_date(dt_humanize_delta(trade.open_date_utc)),
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profit_str,
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]
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if self._config.get("position_adjustment_enable", False):
max_entry_str = ""
if self._config.get("max_entry_position_adjustment", -1) > 0:
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max_entry_str = f"/{self._config['max_entry_position_adjustment'] + 1}"
filled_entries = trade.nr_of_successful_entries
detail_trade.append(f"{filled_entries}{max_entry_str}")
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trades_list.append(detail_trade)
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profitcol = "Profit"
if self._fiat_converter:
profitcol += " (" + fiat_display_currency + ")"
else:
profitcol += " (" + stake_currency + ")"
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columns = ["ID L/S" if nonspot else "ID", "Pair", "Since", profitcol]
if self._config.get("position_adjustment_enable", False):
columns.append("# Entries")
return trades_list, columns, fiat_profit_sum
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def _rpc_timeunit_profit(
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self,
timescale: int,
stake_currency: str,
fiat_display_currency: str,
timeunit: str = "days",
) -> Dict[str, Any]:
"""
:param timeunit: Valid entries are 'days', 'weeks', 'months'
"""
start_date = datetime.now(timezone.utc).date()
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if timeunit == "weeks":
# weekly
start_date = start_date - timedelta(days=start_date.weekday()) # Monday
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if timeunit == "months":
start_date = start_date.replace(day=1)
def time_offset(step: int):
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if timeunit == "months":
return relativedelta(months=step)
return timedelta(**{timeunit: step})
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if not (isinstance(timescale, int) and timescale > 0):
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raise RPCException("timescale must be an integer greater than 0")
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profit_units: Dict[date, Dict] = {}
daily_stake = self._freqtrade.wallets.get_total_stake_amount()
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for day in range(0, timescale):
profitday = start_date - time_offset(day)
# Only query for necessary columns for performance reasons.
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trades = Trade.session.execute(
select(Trade.close_profit_abs)
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.filter(
Trade.is_open.is_(False),
Trade.close_date >= profitday,
Trade.close_date < (profitday + time_offset(1)),
)
.order_by(Trade.close_date)
).all()
curdayprofit = sum(
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trade.close_profit_abs for trade in trades if trade.close_profit_abs is not None
)
# Calculate this periods starting balance
daily_stake = daily_stake - curdayprofit
profit_units[profitday] = {
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"amount": curdayprofit,
"daily_stake": daily_stake,
"rel_profit": round(curdayprofit / daily_stake, 8) if daily_stake > 0 else 0,
"trades": len(trades),
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}
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data = [
{
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"date": key,
"abs_profit": value["amount"],
"starting_balance": value["daily_stake"],
"rel_profit": value["rel_profit"],
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"fiat_value": (
self._fiat_converter.convert_amount(
value["amount"], stake_currency, fiat_display_currency
)
if self._fiat_converter
else 0
),
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"trade_count": value["trades"],
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}
for key, value in profit_units.items()
]
return {
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"stake_currency": stake_currency,
"fiat_display_currency": fiat_display_currency,
"data": data,
}
def _rpc_trade_history(self, limit: int, offset: int = 0, order_by_id: bool = False) -> Dict:
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"""Returns the X last trades"""
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order_by: Any = Trade.id if order_by_id else Trade.close_date.desc()
if limit:
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trades = Trade.session.scalars(
Trade.get_trades_query([Trade.is_open.is_(False)])
.order_by(order_by)
.limit(limit)
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.offset(offset)
)
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else:
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trades = Trade.session.scalars(
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Trade.get_trades_query([Trade.is_open.is_(False)]).order_by(Trade.close_date.desc())
)
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output = [trade.to_json() for trade in trades]
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total_trades = Trade.session.scalar(
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select(func.count(Trade.id)).filter(Trade.is_open.is_(False))
)
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return {
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"trades": output,
"trades_count": len(output),
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"offset": offset,
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"total_trades": total_trades,
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}
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def _rpc_stats(self) -> Dict[str, Any]:
"""
Generate generic stats for trades in database
"""
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def trade_win_loss(trade):
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if trade.close_profit > 0:
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return "wins"
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elif trade.close_profit < 0:
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return "losses"
else:
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return "draws"
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trades = Trade.get_trades([Trade.is_open.is_(False)], include_orders=False)
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# Duration
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dur: Dict[str, List[float]] = {"wins": [], "draws": [], "losses": []}
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# Exit reason
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exit_reasons = {}
for trade in trades:
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if trade.exit_reason not in exit_reasons:
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exit_reasons[trade.exit_reason] = {"wins": 0, "losses": 0, "draws": 0}
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exit_reasons[trade.exit_reason][trade_win_loss(trade)] += 1
if trade.close_date is not None and trade.open_date is not None:
trade_dur = (trade.close_date - trade.open_date).total_seconds()
dur[trade_win_loss(trade)].append(trade_dur)
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wins_dur = sum(dur["wins"]) / len(dur["wins"]) if len(dur["wins"]) > 0 else None
draws_dur = sum(dur["draws"]) / len(dur["draws"]) if len(dur["draws"]) > 0 else None
losses_dur = sum(dur["losses"]) / len(dur["losses"]) if len(dur["losses"]) > 0 else None
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durations = {"wins": wins_dur, "draws": draws_dur, "losses": losses_dur}
return {"exit_reasons": exit_reasons, "durations": durations}
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2018-06-08 02:52:50 +00:00
def _rpc_trade_statistics(
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self, stake_currency: str, fiat_display_currency: str, start_date: Optional[datetime] = None
) -> Dict[str, Any]:
"""Returns cumulative profit statistics"""
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start_date = datetime.fromtimestamp(0) if start_date is None else start_date
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trade_filter = (
Trade.is_open.is_(False) & (Trade.close_date >= start_date)
) | Trade.is_open.is_(True)
trades: Sequence[Trade] = Trade.session.scalars(
Trade.get_trades_query(trade_filter, include_orders=False).order_by(Trade.id)
).all()
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profit_all_coin = []
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profit_all_ratio = []
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profit_closed_coin = []
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profit_closed_ratio = []
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durations = []
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winning_trades = 0
losing_trades = 0
winning_profit = 0.0
losing_profit = 0.0
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for trade in trades:
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current_rate: float = 0.0
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if trade.close_date:
durations.append((trade.close_date - trade.open_date).total_seconds())
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if not trade.is_open:
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profit_ratio = trade.close_profit or 0.0
profit_abs = trade.close_profit_abs or 0.0
profit_closed_coin.append(profit_abs)
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profit_closed_ratio.append(profit_ratio)
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if profit_ratio >= 0:
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winning_trades += 1
winning_profit += profit_abs
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else:
losing_trades += 1
losing_profit += profit_abs
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else:
# Get current rate
if len(trade.select_filled_orders(trade.entry_side)) == 0:
# Skip trades with no filled orders
continue
try:
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current_rate = self._freqtrade.exchange.get_rate(
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trade.pair, side="exit", is_short=trade.is_short, refresh=False
)
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except (PricingError, ExchangeError):
current_rate = NAN
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profit_ratio = NAN
profit_abs = NAN
else:
_profit = trade.calculate_profit(trade.close_rate or current_rate)
profit_ratio = _profit.profit_ratio
profit_abs = _profit.total_profit
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profit_all_coin.append(profit_abs)
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profit_all_ratio.append(profit_ratio)
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closed_trade_count = len([t for t in trades if not t.is_open])
best_pair = Trade.get_best_pair(start_date)
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trading_volume = Trade.get_trading_volume(start_date)
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2018-02-13 03:45:59 +00:00
# Prepare data to display
profit_closed_coin_sum = round(sum(profit_closed_coin), 8)
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profit_closed_ratio_mean = float(mean(profit_closed_ratio) if profit_closed_ratio else 0.0)
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profit_closed_ratio_sum = sum(profit_closed_ratio) if profit_closed_ratio else 0.0
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profit_closed_fiat = (
self._fiat_converter.convert_amount(
profit_closed_coin_sum, stake_currency, fiat_display_currency
)
if self._fiat_converter
else 0
)
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profit_all_coin_sum = round(sum(profit_all_coin), 8)
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profit_all_ratio_mean = float(mean(profit_all_ratio) if profit_all_ratio else 0.0)
# Doing the sum is not right - overall profit needs to be based on initial capital
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profit_all_ratio_sum = sum(profit_all_ratio) if profit_all_ratio else 0.0
starting_balance = self._freqtrade.wallets.get_starting_balance()
profit_closed_ratio_fromstart = 0
profit_all_ratio_fromstart = 0
if starting_balance:
profit_closed_ratio_fromstart = profit_closed_coin_sum / starting_balance
profit_all_ratio_fromstart = profit_all_coin_sum / starting_balance
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profit_factor = winning_profit / abs(losing_profit) if losing_profit else float("inf")
winrate = (winning_trades / closed_trade_count) if closed_trade_count > 0 else 0
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trades_df = DataFrame(
[
{
"close_date": format_date(trade.close_date),
"close_date_dt": trade.close_date,
"profit_abs": trade.close_profit_abs,
}
for trade in trades
if not trade.is_open and trade.close_date
]
)
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expectancy, expectancy_ratio = calculate_expectancy(trades_df)
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drawdown = DrawDownResult()
if len(trades_df) > 0:
try:
drawdown = calculate_max_drawdown(
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trades_df,
value_col="profit_abs",
date_col="close_date_dt",
starting_balance=starting_balance,
)
except ValueError:
# ValueError if no losing trade.
pass
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profit_all_fiat = (
self._fiat_converter.convert_amount(
profit_all_coin_sum, stake_currency, fiat_display_currency
)
if self._fiat_converter
else 0
)
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first_date = trades[0].open_date_utc if trades else None
last_date = trades[-1].open_date_utc if trades else None
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num = float(len(durations) or 1)
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bot_start = KeyValueStore.get_datetime_value(KeyStoreKeys.BOT_START_TIME)
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return {
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"profit_closed_coin": profit_closed_coin_sum,
"profit_closed_percent_mean": round(profit_closed_ratio_mean * 100, 2),
"profit_closed_ratio_mean": profit_closed_ratio_mean,
"profit_closed_percent_sum": round(profit_closed_ratio_sum * 100, 2),
"profit_closed_ratio_sum": profit_closed_ratio_sum,
"profit_closed_ratio": profit_closed_ratio_fromstart,
"profit_closed_percent": round(profit_closed_ratio_fromstart * 100, 2),
"profit_closed_fiat": profit_closed_fiat,
"profit_all_coin": profit_all_coin_sum,
"profit_all_percent_mean": round(profit_all_ratio_mean * 100, 2),
"profit_all_ratio_mean": profit_all_ratio_mean,
"profit_all_percent_sum": round(profit_all_ratio_sum * 100, 2),
"profit_all_ratio_sum": profit_all_ratio_sum,
"profit_all_ratio": profit_all_ratio_fromstart,
"profit_all_percent": round(profit_all_ratio_fromstart * 100, 2),
"profit_all_fiat": profit_all_fiat,
"trade_count": len(trades),
"closed_trade_count": closed_trade_count,
"first_trade_date": format_date(first_date),
"first_trade_humanized": dt_humanize_delta(first_date) if first_date else "",
"first_trade_timestamp": dt_ts_def(first_date, 0),
"latest_trade_date": format_date(last_date),
"latest_trade_humanized": dt_humanize_delta(last_date) if last_date else "",
"latest_trade_timestamp": dt_ts_def(last_date, 0),
"avg_duration": str(timedelta(seconds=sum(durations) / num)).split(".")[0],
"best_pair": best_pair[0] if best_pair else "",
"best_rate": round(best_pair[1] * 100, 2) if best_pair else 0, # Deprecated
"best_pair_profit_ratio": best_pair[1] if best_pair else 0,
"winning_trades": winning_trades,
"losing_trades": losing_trades,
"profit_factor": profit_factor,
"winrate": winrate,
"expectancy": expectancy,
"expectancy_ratio": expectancy_ratio,
"max_drawdown": drawdown.relative_account_drawdown,
"max_drawdown_abs": drawdown.drawdown_abs,
"max_drawdown_start": format_date(drawdown.high_date),
"max_drawdown_start_timestamp": dt_ts_def(drawdown.high_date),
"max_drawdown_end": format_date(drawdown.low_date),
"max_drawdown_end_timestamp": dt_ts_def(drawdown.low_date),
"drawdown_high": drawdown.high_value,
"drawdown_low": drawdown.low_value,
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"trading_volume": trading_volume,
"bot_start_timestamp": dt_ts_def(bot_start, 0),
"bot_start_date": format_date(bot_start),
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}
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def __balance_get_est_stake(
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self, coin: str, stake_currency: str, amount: float, balance: Wallet, tickers
) -> Tuple[float, float]:
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est_stake = 0.0
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est_bot_stake = 0.0
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if coin == stake_currency:
est_stake = balance.total
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if self._config.get("trading_mode", TradingMode.SPOT) != TradingMode.SPOT:
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# in Futures, "total" includes the locked stake, and therefore all positions
est_stake = balance.free
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est_bot_stake = amount
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else:
pair = self._freqtrade.exchange.get_valid_pair_combination(coin, stake_currency)
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rate: Optional[float] = tickers.get(pair, {}).get("last", None)
if rate:
if pair.startswith(stake_currency) and not pair.endswith(stake_currency):
rate = 1.0 / rate
est_stake = rate * balance.total
est_bot_stake = rate * amount
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return est_stake, est_bot_stake
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2019-11-15 05:33:07 +00:00
def _rpc_balance(self, stake_currency: str, fiat_display_currency: str) -> Dict:
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"""Returns current account balance per crypto"""
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currencies: List[Dict] = []
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total = 0.0
total_bot = 0.0
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try:
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tickers: Tickers = self._freqtrade.exchange.get_tickers(cached=True)
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except ExchangeError:
raise RPCException("Error getting current tickers.")
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open_trades: List[Trade] = Trade.get_open_trades()
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open_assets: Dict[str, Trade] = {t.safe_base_currency: t for t in open_trades}
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self._freqtrade.wallets.update(require_update=False)
starting_capital = self._freqtrade.wallets.get_starting_balance()
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starting_cap_fiat = (
self._fiat_converter.convert_amount(
starting_capital, stake_currency, fiat_display_currency
)
if self._fiat_converter
else 0
)
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coin: str
balance: Wallet
for coin, balance in self._freqtrade.wallets.get_all_balances().items():
if not balance.total:
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continue
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trade = open_assets.get(coin, None)
is_bot_managed = coin == stake_currency or trade is not None
trade_amount = trade.amount if trade else 0
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if coin == stake_currency:
trade_amount = self._freqtrade.wallets.get_available_stake_amount()
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try:
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est_stake, est_stake_bot = self.__balance_get_est_stake(
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coin, stake_currency, trade_amount, balance, tickers
)
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except ValueError:
continue
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total += est_stake
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if is_bot_managed:
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total_bot += est_stake_bot
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currencies.append(
{
"currency": coin,
"free": balance.free,
"balance": balance.total,
"used": balance.used,
"bot_owned": trade_amount,
"est_stake": est_stake or 0,
"est_stake_bot": est_stake_bot if is_bot_managed else 0,
"stake": stake_currency,
"side": "long",
"leverage": 1,
"position": 0,
"is_bot_managed": is_bot_managed,
"is_position": False,
}
)
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symbol: str
position: PositionWallet
for symbol, position in self._freqtrade.wallets.get_all_positions().items():
total += position.collateral
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total_bot += position.collateral
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currencies.append(
{
"currency": symbol,
"free": 0,
"balance": 0,
"used": 0,
"position": position.position,
"est_stake": position.collateral,
"est_stake_bot": position.collateral,
"stake": stake_currency,
"leverage": position.leverage,
"side": position.side,
"is_bot_managed": True,
"is_position": True,
}
)
value = (
self._fiat_converter.convert_amount(total, stake_currency, fiat_display_currency)
if self._fiat_converter
else 0
)
value_bot = (
self._fiat_converter.convert_amount(total_bot, stake_currency, fiat_display_currency)
if self._fiat_converter
else 0
)
trade_count = len(Trade.get_trades_proxy())
starting_capital_ratio = (total_bot / starting_capital) - 1 if starting_capital else 0.0
starting_cap_fiat_ratio = (value_bot / starting_cap_fiat) - 1 if starting_cap_fiat else 0.0
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return {
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"currencies": currencies,
"total": total,
"total_bot": total_bot,
"symbol": fiat_display_currency,
"value": value,
"value_bot": value_bot,
"stake": stake_currency,
"starting_capital": starting_capital,
"starting_capital_ratio": starting_capital_ratio,
"starting_capital_pct": round(starting_capital_ratio * 100, 2),
"starting_capital_fiat": starting_cap_fiat,
"starting_capital_fiat_ratio": starting_cap_fiat_ratio,
"starting_capital_fiat_pct": round(starting_cap_fiat_ratio * 100, 2),
"trade_count": trade_count,
"note": "Simulated balances" if self._freqtrade.config["dry_run"] else "",
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}
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def _rpc_start(self) -> Dict[str, str]:
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"""Handler for start"""
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if self._freqtrade.state == State.RUNNING:
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return {"status": "already running"}
2018-03-02 15:22:00 +00:00
2018-06-08 22:20:10 +00:00
self._freqtrade.state = State.RUNNING
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return {"status": "starting trader ..."}
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def _rpc_stop(self) -> Dict[str, str]:
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"""Handler for stop"""
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if self._freqtrade.state == State.RUNNING:
self._freqtrade.state = State.STOPPED
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return {"status": "stopping trader ..."}
2018-03-02 15:22:00 +00:00
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return {"status": "already stopped"}
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def _rpc_reload_config(self) -> Dict[str, str]:
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"""Handler for reload_config."""
self._freqtrade.state = State.RELOAD_CONFIG
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return {"status": "Reloading config ..."}
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def _rpc_stopentry(self) -> Dict[str, str]:
"""
Handler to stop buying, but handle open trades gracefully.
"""
if self._freqtrade.state == State.RUNNING:
# Set 'max_open_trades' to 0
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self._freqtrade.config["max_open_trades"] = 0
self._freqtrade.strategy.max_open_trades = 0
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return {"status": "No more entries will occur from now. Run /reload_config to reset."}
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def _rpc_reload_trade_from_exchange(self, trade_id: int) -> Dict[str, str]:
"""
Handler for reload_trade_from_exchange.
Reloads a trade from it's orders, should manual interaction have happened.
"""
trade = Trade.get_trades(trade_filter=[Trade.id == trade_id]).first()
if not trade:
raise RPCException(f"Could not find trade with id {trade_id}.")
self._freqtrade.handle_onexchange_order(trade)
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return {"status": "Reloaded from orders from exchange"}
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def __exec_force_exit(
self, trade: Trade, ordertype: Optional[str], amount: Optional[float] = None
) -> bool:
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# Check if there is there are open orders
trade_entry_cancelation_registry = []
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for oo in trade.open_orders:
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trade_entry_cancelation_res = {"order_id": oo.order_id, "cancel_state": False}
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order = self._freqtrade.exchange.fetch_order(oo.order_id, trade.pair)
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if order["side"] == trade.entry_side:
fully_canceled = self._freqtrade.handle_cancel_enter(
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trade, order, oo, CANCEL_REASON["FORCE_EXIT"]
)
trade_entry_cancelation_res["cancel_state"] = fully_canceled
trade_entry_cancelation_registry.append(trade_entry_cancelation_res)
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if order["side"] == trade.exit_side:
# Cancel order - so it is placed anew with a fresh price.
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self._freqtrade.handle_cancel_exit(trade, order, oo, CANCEL_REASON["FORCE_EXIT"])
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if all(tocr["cancel_state"] is False for tocr in trade_entry_cancelation_registry):
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if trade.has_open_orders:
# Order cancellation failed, so we can't exit.
return False
# Get current rate and execute sell
current_rate = self._freqtrade.exchange.get_rate(
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trade.pair, side="exit", is_short=trade.is_short, refresh=True
)
exit_check = ExitCheckTuple(exit_type=ExitType.FORCE_EXIT)
order_type = ordertype or self._freqtrade.strategy.order_types.get(
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"force_exit", self._freqtrade.strategy.order_types["exit"]
)
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sub_amount: Optional[float] = None
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if amount and amount < trade.amount:
# Partial exit ...
min_exit_stake = self._freqtrade.exchange.get_min_pair_stake_amount(
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trade.pair, current_rate, trade.stop_loss_pct
)
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remaining = (trade.amount - amount) * current_rate
if remaining < min_exit_stake:
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raise RPCException(f"Remaining amount of {remaining} would be too small.")
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sub_amount = amount
self._freqtrade.execute_trade_exit(
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trade, current_rate, exit_check, ordertype=order_type, sub_trade_amt=sub_amount
)
return True
return False
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def _rpc_force_exit(
self, trade_id: str, ordertype: Optional[str] = None, *, amount: Optional[float] = None
) -> Dict[str, str]:
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"""
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Handler for forceexit <id>.
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Sells the given trade at current price
"""
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2018-06-08 22:20:10 +00:00
if self._freqtrade.state != State.RUNNING:
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raise RPCException("trader is not running")
2018-03-02 15:22:00 +00:00
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with self._freqtrade._exit_lock:
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if trade_id == "all":
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# Execute exit for all open orders
for trade in Trade.get_open_trades():
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self.__exec_force_exit(trade, ordertype)
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Trade.commit()
self._freqtrade.wallets.update()
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return {"result": "Created exit orders for all open trades."}
# Query for trade
trade = Trade.get_trades(
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trade_filter=[
Trade.id == trade_id,
Trade.is_open.is_(True),
]
).first()
if not trade:
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logger.warning("force_exit: Invalid argument received")
raise RPCException("invalid argument")
result = self.__exec_force_exit(trade, ordertype, amount)
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Trade.commit()
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self._freqtrade.wallets.update()
if not result:
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raise RPCException("Failed to exit trade.")
return {"result": f"Created exit order for trade {trade_id}."}
2018-02-13 03:45:59 +00:00
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def _force_entry_validations(self, pair: str, order_side: SignalDirection):
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if not self._freqtrade.config.get("force_entry_enable", False):
raise RPCException("Force_entry not enabled.")
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if self._freqtrade.state != State.RUNNING:
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raise RPCException("trader is not running")
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if order_side == SignalDirection.SHORT and self._freqtrade.trading_mode == TradingMode.SPOT:
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raise RPCException("Can't go short on Spot markets.")
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if pair not in self._freqtrade.exchange.get_markets(tradable_only=True):
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raise RPCException("Symbol does not exist or market is not active.")
# Check if pair quote currency equals to the stake currency.
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stake_currency = self._freqtrade.config.get("stake_currency")
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if not self._freqtrade.exchange.get_pair_quote_currency(pair) == stake_currency:
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raise RPCException(
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f"Wrong pair selected. Only pairs with stake-currency {stake_currency} allowed."
)
def _rpc_force_entry(
self,
pair: str,
price: Optional[float],
*,
order_type: Optional[str] = None,
order_side: SignalDirection = SignalDirection.LONG,
stake_amount: Optional[float] = None,
enter_tag: Optional[str] = "force_entry",
leverage: Optional[float] = None,
) -> Optional[Trade]:
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"""
Handler for forcebuy <asset> <price>
Buys a pair trade at the given or current price
"""
self._force_entry_validations(pair, order_side)
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# check if valid pair
# check if pair already has an open pair
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trade: Optional[Trade] = Trade.get_trades(
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[Trade.is_open.is_(True), Trade.pair == pair]
).first()
is_short = order_side == SignalDirection.SHORT
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if trade:
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is_short = trade.is_short
if not self._freqtrade.strategy.position_adjustment_enable:
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raise RPCException(f"position for {pair} already open - id: {trade.id}")
if trade.has_open_orders:
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raise RPCException(
f"position for {pair} already open - id: {trade.id} "
f"and has open order {','.join(trade.open_orders_ids)}"
)
else:
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if Trade.get_open_trade_count() >= self._config["max_open_trades"]:
raise RPCException("Maximum number of trades is reached.")
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if not stake_amount:
# gen stake amount
stake_amount = self._freqtrade.wallets.get_trade_stake_amount(
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pair, self._config["max_open_trades"]
)
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# execute buy
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if not order_type:
order_type = self._freqtrade.strategy.order_types.get(
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"force_entry", self._freqtrade.strategy.order_types["entry"]
)
with self._freqtrade._exit_lock:
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if self._freqtrade.execute_entry(
pair,
stake_amount,
price,
ordertype=order_type,
trade=trade,
is_short=is_short,
enter_tag=enter_tag,
leverage_=leverage,
mode="pos_adjust" if trade else "initial",
):
Trade.commit()
trade = Trade.get_trades([Trade.is_open.is_(True), Trade.pair == pair]).first()
return trade
else:
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raise RPCException(f"Failed to enter position for {pair}.")
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def _rpc_cancel_open_order(self, trade_id: int):
if self._freqtrade.state != State.RUNNING:
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raise RPCException("trader is not running")
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with self._freqtrade._exit_lock:
# Query for trade
trade = Trade.get_trades(
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trade_filter=[
Trade.id == trade_id,
Trade.is_open.is_(True),
]
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).first()
if not trade:
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logger.warning("cancel_open_order: Invalid trade_id received.")
raise RPCException("Invalid trade_id.")
if not trade.has_open_orders:
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logger.warning("cancel_open_order: No open order for trade_id.")
raise RPCException("No open order for trade_id.")
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for open_order in trade.open_orders:
try:
order = self._freqtrade.exchange.fetch_order(open_order.order_id, trade.pair)
except ExchangeError as e:
logger.info(f"Cannot query order for {trade} due to {e}.", exc_info=True)
raise RPCException("Order not found.")
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self._freqtrade.handle_cancel_order(
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order, open_order, trade, CANCEL_REASON["USER_CANCEL"]
)
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Trade.commit()
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def _rpc_delete(self, trade_id: int) -> Dict[str, Union[str, int]]:
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"""
Handler for delete <id>.
Delete the given trade and close eventually existing open orders.
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"""
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with self._freqtrade._exit_lock:
c_count = 0
trade = Trade.get_trades(trade_filter=[Trade.id == trade_id]).first()
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if not trade:
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logger.warning("delete trade: Invalid argument received")
raise RPCException("invalid argument")
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# Try cancelling regular order if that exists
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for open_order in trade.open_orders:
try:
self._freqtrade.exchange.cancel_order(open_order.order_id, trade.pair)
c_count += 1
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except ExchangeError:
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pass
# cancel stoploss on exchange orders ...
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if (
self._freqtrade.strategy.order_types.get("stoploss_on_exchange")
and trade.has_open_sl_orders
):
for oslo in trade.open_sl_orders:
try:
self._freqtrade.exchange.cancel_stoploss_order(oslo.order_id, trade.pair)
c_count += 1
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except ExchangeError:
pass
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trade.delete()
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self._freqtrade.wallets.update()
return {
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"result": "success",
"trade_id": trade_id,
"result_msg": f"Deleted trade {trade_id}. Closed {c_count} open orders.",
"cancel_order_count": c_count,
}
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def _rpc_list_custom_data(self, trade_id: int, key: Optional[str]) -> List[Dict[str, Any]]:
# Query for trade
trade = Trade.get_trades(trade_filter=[Trade.id == trade_id]).first()
if trade is None:
return []
# Query custom_data
custom_data = []
if key:
data = trade.get_custom_data(key=key)
if data:
custom_data = [data]
else:
custom_data = trade.get_all_custom_data()
return [
{
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"id": data_entry.id,
"ft_trade_id": data_entry.ft_trade_id,
"cd_key": data_entry.cd_key,
"cd_type": data_entry.cd_type,
"cd_value": data_entry.cd_value,
"created_at": data_entry.created_at,
"updated_at": data_entry.updated_at,
}
for data_entry in custom_data
]
def _rpc_performance(self) -> List[Dict[str, Any]]:
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"""
Handler for performance.
Shows a performance statistic from finished trades
"""
pair_rates = Trade.get_overall_performance()
return pair_rates
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def _rpc_enter_tag_performance(self, pair: Optional[str]) -> List[Dict[str, Any]]:
"""
Handler for buy tag performance.
Shows a performance statistic from finished trades
"""
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return Trade.get_enter_tag_performance(pair)
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def _rpc_exit_reason_performance(self, pair: Optional[str]) -> List[Dict[str, Any]]:
"""
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Handler for exit reason performance.
Shows a performance statistic from finished trades
"""
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return Trade.get_exit_reason_performance(pair)
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def _rpc_mix_tag_performance(self, pair: Optional[str]) -> List[Dict[str, Any]]:
"""
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Handler for mix tag (enter_tag + exit_reason) performance.
Shows a performance statistic from finished trades
"""
mix_tags = Trade.get_mix_tag_performance(pair)
return mix_tags
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def _rpc_count(self) -> Dict[str, float]:
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"""Returns the number of trades running"""
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if self._freqtrade.state != State.RUNNING:
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raise RPCException("trader is not running")
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trades = Trade.get_open_trades()
return {
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"current": len(trades),
"max": (
int(self._freqtrade.config["max_open_trades"])
if self._freqtrade.config["max_open_trades"] != float("inf")
else -1
),
"total_stake": sum((trade.open_rate * trade.amount) for trade in trades),
}
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def _rpc_locks(self) -> Dict[str, Any]:
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"""Returns the current locks"""
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2020-10-25 09:54:30 +00:00
locks = PairLocks.get_pair_locks(None)
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return {"lock_count": len(locks), "locks": [lock.to_json() for lock in locks]}
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def _rpc_delete_lock(
self, lockid: Optional[int] = None, pair: Optional[str] = None
) -> Dict[str, Any]:
"""Delete specific lock(s)"""
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locks: Sequence[PairLock] = []
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if pair:
locks = PairLocks.get_pair_locks(pair)
if lockid:
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locks = PairLock.session.scalars(select(PairLock).filter(PairLock.id == lockid)).all()
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for lock in locks:
lock.active = False
lock.lock_end_time = datetime.now(timezone.utc)
Trade.commit()
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return self._rpc_locks()
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def _rpc_add_lock(
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self, pair: str, until: datetime, reason: Optional[str], side: str
) -> PairLock:
lock = PairLocks.lock_pair(
pair=pair,
until=until,
reason=reason,
side=side,
)
return lock
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def _rpc_whitelist(self) -> Dict:
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"""Returns the currently active whitelist"""
res = {
"method": self._freqtrade.pairlists.name_list,
"length": len(self._freqtrade.active_pair_whitelist),
"whitelist": self._freqtrade.active_pair_whitelist,
}
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return res
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def _rpc_blacklist_delete(self, delete: List[str]) -> Dict:
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"""Removes pairs from currently active blacklist"""
errors = {}
for pair in delete:
if pair in self._freqtrade.pairlists.blacklist:
self._freqtrade.pairlists.blacklist.remove(pair)
else:
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errors[pair] = {"error_msg": f"Pair {pair} is not in the current blacklist."}
resp = self._rpc_blacklist()
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resp["errors"] = errors
return resp
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def _rpc_blacklist(self, add: Optional[List[str]] = None) -> Dict:
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"""Returns the currently active blacklist"""
errors = {}
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if add:
for pair in add:
if pair not in self._freqtrade.pairlists.blacklist:
try:
expand_pairlist([pair], self._freqtrade.exchange.get_markets().keys())
self._freqtrade.pairlists.blacklist.append(pair)
except ValueError:
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errors[pair] = {"error_msg": f"Pair {pair} is not a valid wildcard."}
else:
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errors[pair] = {"error_msg": f"Pair {pair} already in pairlist."}
res = {
"method": self._freqtrade.pairlists.name_list,
"length": len(self._freqtrade.pairlists.blacklist),
"blacklist": self._freqtrade.pairlists.blacklist,
"blacklist_expanded": self._freqtrade.pairlists.expanded_blacklist,
"errors": errors,
}
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return res
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2020-12-06 18:57:48 +00:00
@staticmethod
def _rpc_get_logs(limit: Optional[int]) -> Dict[str, Any]:
"""Returns the last X logs"""
if limit:
buffer = bufferHandler.buffer[-limit:]
else:
buffer = bufferHandler.buffer
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records = [
[
format_date(datetime.fromtimestamp(r.created)),
r.created * 1000,
r.name,
r.levelname,
r.message + ("\n" + r.exc_text if r.exc_text else ""),
]
for r in buffer
]
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# Log format:
# [logtime-formatted, logepoch, logger-name, loglevel, message \n + exception]
# e.g. ["2020-08-27 11:35:01", 1598520901097.9397,
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# "freqtrade.worker", "INFO", "Starting worker develop"]
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return {"log_count": len(records), "logs": records}
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def _rpc_edge(self) -> List[Dict[str, Any]]:
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"""Returns information related to Edge"""
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if not self._freqtrade.edge:
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raise RPCException("Edge is not enabled.")
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return self._freqtrade.edge.accepted_pairs()
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@staticmethod
def _convert_dataframe_to_dict(
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strategy: str,
pair: str,
timeframe: str,
dataframe: DataFrame,
last_analyzed: datetime,
selected_cols: Optional[List[str]],
) -> Dict[str, Any]:
has_content = len(dataframe) != 0
dataframe_columns = list(dataframe.columns)
signals = {
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"enter_long": 0,
"exit_long": 0,
"enter_short": 0,
"exit_short": 0,
}
if has_content:
if selected_cols is not None:
# Ensure OHLCV columns are always present
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cols_set = set(DEFAULT_DATAFRAME_COLUMNS + list(signals.keys()) + selected_cols)
df_cols = [col for col in dataframe_columns if col in cols_set]
dataframe = dataframe.loc[:, df_cols]
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dataframe.loc[:, "__date_ts"] = dataframe.loc[:, "date"].astype(int64) // 1000 // 1000
# Move signal close to separate column when signal for easy plotting
for sig_type in signals.keys():
if sig_type in dataframe.columns:
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mask = dataframe[sig_type] == 1
signals[sig_type] = int(mask.sum())
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dataframe.loc[mask, f"_{sig_type}_signal_close"] = dataframe.loc[mask, "close"]
# band-aid until this is fixed:
# https://github.com/pandas-dev/pandas/issues/45836
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datetime_types = ["datetime", "datetime64", "datetime64[ns, UTC]"]
date_columns = dataframe.select_dtypes(include=datetime_types)
for date_column in date_columns:
# replace NaT with `None`
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dataframe[date_column] = dataframe[date_column].astype(object).replace({NaT: None})
# TODO: Temporary workaround for orderflow: drop orderflow columns
dataframe = dataframe.drop(["orderflow", "trades", "imbalances"], axis=1, errors="ignore")
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dataframe = dataframe.replace({inf: None, -inf: None, NAN: None})
res = {
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"pair": pair,
"timeframe": timeframe,
"timeframe_ms": timeframe_to_msecs(timeframe),
"strategy": strategy,
"all_columns": dataframe_columns,
"columns": list(dataframe.columns),
"data": dataframe.values.tolist(),
"length": len(dataframe),
"buy_signals": signals["enter_long"], # Deprecated
"sell_signals": signals["exit_long"], # Deprecated
"enter_long_signals": signals["enter_long"],
"exit_long_signals": signals["exit_long"],
"enter_short_signals": signals["enter_short"],
"exit_short_signals": signals["exit_short"],
"last_analyzed": last_analyzed,
"last_analyzed_ts": int(last_analyzed.timestamp()),
"data_start": "",
"data_start_ts": 0,
"data_stop": "",
"data_stop_ts": 0,
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}
if has_content:
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res.update(
{
"data_start": str(dataframe.iloc[0]["date"]),
"data_start_ts": int(dataframe.iloc[0]["__date_ts"]),
"data_stop": str(dataframe.iloc[-1]["date"]),
"data_stop_ts": int(dataframe.iloc[-1]["__date_ts"]),
}
)
return res
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def _rpc_analysed_dataframe(
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self, pair: str, timeframe: str, limit: Optional[int], selected_cols: Optional[List[str]]
) -> Dict[str, Any]:
"""Analyzed dataframe in Dict form"""
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_data, last_analyzed = self.__rpc_analysed_dataframe_raw(pair, timeframe, limit)
return RPC._convert_dataframe_to_dict(
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self._freqtrade.config["strategy"], pair, timeframe, _data, last_analyzed, selected_cols
)
def __rpc_analysed_dataframe_raw(
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self, pair: str, timeframe: str, limit: Optional[int]
) -> Tuple[DataFrame, datetime]:
"""
Get the dataframe and last analyze from the dataprovider
:param pair: The pair to get
:param timeframe: The timeframe of data to get
:param limit: The amount of candles in the dataframe
"""
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_data, last_analyzed = self._freqtrade.dataprovider.get_analyzed_dataframe(pair, timeframe)
_data = _data.copy()
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if limit:
_data = _data.iloc[-limit:]
return _data, last_analyzed
def _ws_all_analysed_dataframes(
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self, pairlist: List[str], limit: Optional[int]
) -> Generator[Dict[str, Any], None, None]:
"""
Get the analysed dataframes of each pair in the pairlist.
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If specified, only return the most recent `limit` candles for
each dataframe.
:param pairlist: A list of pairs to get
:param limit: If an integer, limits the size of dataframe
If a list of string date times, only returns those candles
:returns: A generator of dictionaries with the key, dataframe, and last analyzed timestamp
"""
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timeframe = self._freqtrade.config["timeframe"]
candle_type = self._freqtrade.config.get("candle_type_def", CandleType.SPOT)
for pair in pairlist:
dataframe, last_analyzed = self.__rpc_analysed_dataframe_raw(pair, timeframe, limit)
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yield {"key": (pair, timeframe, candle_type), "df": dataframe, "la": last_analyzed}
2020-07-02 05:10:56 +00:00
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def _ws_request_analyzed_df(self, limit: Optional[int] = None, pair: Optional[str] = None):
"""Historical Analyzed Dataframes for WebSocket"""
pairlist = [pair] if pair else self._freqtrade.active_pair_whitelist
return self._ws_all_analysed_dataframes(pairlist, limit)
def _ws_request_whitelist(self):
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"""Whitelist data for WebSocket"""
return self._freqtrade.active_pair_whitelist
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@staticmethod
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def _rpc_analysed_history_full(
config: Config, pair: str, timeframe: str, exchange, selected_cols: Optional[List[str]]
) -> Dict[str, Any]:
timerange_parsed = TimeRange.parse_timerange(config.get("timerange"))
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from freqtrade.data.converter import trim_dataframe
from freqtrade.data.dataprovider import DataProvider
from freqtrade.resolvers.strategy_resolver import StrategyResolver
strategy = StrategyResolver.load_strategy(config)
startup_candles = strategy.startup_candle_count
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_data = load_data(
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datadir=config["datadir"],
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pairs=[pair],
timeframe=timeframe,
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timerange=timerange_parsed,
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data_format=config["dataformat_ohlcv"],
candle_type=config.get("candle_type_def", CandleType.SPOT),
startup_candles=startup_candles,
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)
if pair not in _data:
raise RPCException(
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f"No data for {pair}, {timeframe} in {config.get('timerange')} found."
)
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strategy.dp = DataProvider(config, exchange=exchange, pairlists=None)
strategy.ft_bot_start()
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df_analyzed = strategy.analyze_ticker(_data[pair], {"pair": pair})
df_analyzed = trim_dataframe(df_analyzed, timerange_parsed, startup_candles=startup_candles)
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return RPC._convert_dataframe_to_dict(
strategy.get_strategy_name(),
pair,
timeframe,
df_analyzed.copy(),
dt_now(),
selected_cols,
)
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def _rpc_plot_config(self) -> Dict[str, Any]:
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if (
self._freqtrade.strategy.plot_config
and "subplots" not in self._freqtrade.strategy.plot_config
):
self._freqtrade.strategy.plot_config["subplots"] = {}
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return self._freqtrade.strategy.plot_config
@staticmethod
def _rpc_plot_config_with_strategy(config: Config) -> Dict[str, Any]:
from freqtrade.resolvers.strategy_resolver import StrategyResolver
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strategy = StrategyResolver.load_strategy(config)
# Manually load hyperparameters, as we don't call the bot-start callback.
strategy.ft_load_hyper_params(False)
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if strategy.plot_config and "subplots" not in strategy.plot_config:
strategy.plot_config["subplots"] = {}
return strategy.plot_config
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@staticmethod
def _rpc_sysinfo() -> Dict[str, Any]:
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return {
"cpu_pct": psutil.cpu_percent(interval=1, percpu=True),
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"ram_pct": psutil.virtual_memory().percent,
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}
def health(self) -> Dict[str, Optional[Union[str, int]]]:
last_p = self._freqtrade.last_process
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res: Dict[str, Union[None, str, int]] = {
"last_process": None,
"last_process_loc": None,
"last_process_ts": None,
"bot_start": None,
"bot_start_loc": None,
"bot_start_ts": None,
"bot_startup": None,
"bot_startup_loc": None,
"bot_startup_ts": None,
}
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if last_p is not None:
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res.update(
{
"last_process": str(last_p),
"last_process_loc": format_date(last_p.astimezone(tzlocal())),
"last_process_ts": int(last_p.timestamp()),
}
)
if bot_start := KeyValueStore.get_datetime_value(KeyStoreKeys.BOT_START_TIME):
res.update(
{
"bot_start": str(bot_start),
"bot_start_loc": format_date(bot_start.astimezone(tzlocal())),
"bot_start_ts": int(bot_start.timestamp()),
}
)
if bot_startup := KeyValueStore.get_datetime_value(KeyStoreKeys.STARTUP_TIME):
res.update(
{
"bot_startup": str(bot_startup),
"bot_startup_loc": format_date(bot_startup.astimezone(tzlocal())),
"bot_startup_ts": int(bot_startup.timestamp()),
}
)
return res
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def _update_market_direction(self, direction: MarketDirection) -> None:
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self._freqtrade.strategy.market_direction = direction
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def _get_market_direction(self) -> MarketDirection:
return self._freqtrade.strategy.market_direction