Expert4x Grid Trend Multiplier -
print("\n" + "="*50) print("GRID TREND MULTIPLIER STRATEGY RESULTS") print("="*50) for key, value in metrics.items(): if isinstance(value, float): print(f"{key.replace('_', ' ').title()}: {value:.2f}") else: print(f"{key.replace('_', ' ').title()}: {value}") return strategy, metrics if == " main ": strategy, metrics = run_backtest()
for i in range(1000): price += np.random.randn() * 0.5 if i > 200 and i < 600: # Uptrend price += 0.1 elif i > 600: # Downtrend price -= 0.05 prices.append(max(price, 10)) df = pd.DataFrame({ 'high': [p * (1 + abs(np.random.randn() * 0.002)) for p in prices], 'low': [p * (1 - abs(np.random.randn() * 0.002)) for p in prices], 'close': prices }, index=dates) expert4x grid trend multiplier
import pandas as pd import numpy as np from datetime import datetime from typing import Dict, List, Tuple, Optional import logging logging.basicConfig(level=logging.INFO) logger = logging.getLogger() value in metrics.items(): if isinstance(value
def update_positions(self, current_price: float) -> List[Dict]: """ Update open positions and close if TP/SL hit Returns: List of closed trades """ closed = [] remaining_positions = [] for position in self.open_positions: # Check take profit if (position['type'] == 'BUY' and current_price >= position['take_profit']) or \ (position['type'] == 'SELL' and current_price <= position['take_profit']): # Close with profit profit = abs(current_price - position['entry_price']) * position['position_size'] if position['type'] == 'SELL': profit = profit # Profit for sell is same calculation position['exit_price'] = current_price position['profit'] = profit position['exit_time'] = datetime.now() position['result'] = 'WIN' closed.append(position) self.winning_trades += 1 # Check stop loss elif (position['type'] == 'BUY' and current_price <= position['stop_loss']) or \ (position['type'] == 'SELL' and current_price >= position['stop_loss']): # Close with loss loss = abs(current_price - position['entry_price']) * position['position_size'] position['exit_price'] = current_price position['profit'] = -loss position['exit_time'] = datetime.now() position['result'] = 'LOSS' closed.append(position) self.losing_trades += 1 else: # Position still open remaining_positions.append(position) self.open_positions = remaining_positions self.total_trades += len(closed) # Update balance for trade in closed: self.balance += trade['profit'] # Update drawdown if self.balance > self.peak_balance: self.peak_balance = self.balance current_drawdown = (self.peak_balance - self.balance) / self.peak_balance * 100 self.max_drawdown = max(self.max_drawdown, current_drawdown) return closed ' ').title()}: {value:.2f}") else: print(f"{key.replace('_'
def calculate_position_size(self, price: float, stop_loss_pct: float = 0.02) -> float: """ Calculate position size based on trend multiplier and risk management Args: price: Entry price stop_loss_pct: Stop loss percentage Returns: Position size in units """ # Base risk amount risk_amount = self.balance * self.risk_per_trade # Apply trend multiplier if self.current_trend == "BULLISH": position_multiplier = self.total_multiplier elif self.current_trend == "BEARISH": position_multiplier = self.total_multiplier else: position_multiplier = 1.0 # Calculate position size stop_loss_distance = price * stop_loss_pct position_size = (risk_amount * position_multiplier) / stop_loss_distance # Cap position size based on available balance max_position = self.balance * 0.1 / price # Max 10% of balance per trade position_size = min(position_size, max_position) return position_size