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import os
import json
import random
import math
import io
from datetime import datetime, timedelta
from flask import Flask, render_template, request, jsonify, send_file
from werkzeug.utils import secure_filename
from werkzeug.exceptions import RequestEntityTooLarge
app = Flask(__name__)
app.secret_key = os.urandom(24)
# Robustness: Max content length for uploads
app.config['MAX_CONTENT_LENGTH'] = 5 * 1024 * 1024 # 5MB limit
ALLOWED_EXTENSIONS = {'json'}
def allowed_file(filename):
return '.' in filename and \
filename.rsplit('.', 1)[1].lower() in ALLOWED_EXTENSIONS
class GridStrategy:
def __init__(self, lower_price, upper_price, grid_num, investment, current_price):
self.lower_price = float(lower_price)
self.upper_price = float(upper_price)
self.grid_num = int(grid_num)
self.investment = float(investment)
self.initial_price = float(current_price)
# Calculate grid lines
self.grids = []
step = (self.upper_price - self.lower_price) / self.grid_num
for i in range(self.grid_num + 1):
self.grids.append(self.lower_price + i * step)
self.grid_step = step
self.cash = self.investment
self.holdings = 0.0
self.trades = []
self.total_arbitrage_profit = 0.0
# Initial Position Building
# Ideally, if price is in the middle, we should hold some assets to sell as price goes up
# Simple Logic: Buy assets worth 50% of investment if price is within range
# Better Logic: Calculate required holdings based on how many grids are ABOVE current price (to sell)
# Let's use a "Geometric" approach or simple "Equal Difference" approach
# For this demo, we assume we start with 50/50 split if within range
if self.lower_price < self.initial_price < self.upper_price:
buy_amount = self.investment / 2
self.cash -= buy_amount
self.holdings = buy_amount / self.initial_price
self.trades.append({
'type': 'INIT_BUY',
'price': self.initial_price,
'amount': self.holdings,
'time': 'Start'
})
# Track last grid index crossed
self.last_grid_index = self._get_grid_index(self.initial_price)
def _get_grid_index(self, price):
if price <= self.lower_price:
return -1
if price >= self.upper_price:
return self.grid_num + 1
return int((price - self.lower_price) / self.grid_step)
def process_price(self, price, timestamp):
current_grid_index = self._get_grid_index(price)
# Price moved across grid lines
if current_grid_index != self.last_grid_index:
# Check direction and multiple grid crossings
diff = current_grid_index - self.last_grid_index
# Simple handling: Just process the boundary crossing closest to current price
# In a real engine, we'd handle gaps. Here we assume granular data or just take the new state.
# Logic:
# If index increases (price goes up): We crossed a line upwards -> SELL
# If index decreases (price goes down): We crossed a line downwards -> BUY
# Amount per grid: Total Investment / Grid Num (Simplified)
amount_per_grid_usdt = self.investment / self.grid_num
action = None
trade_price = price
trade_amount = 0
if diff > 0:
# Price Up -> Sell
# Only sell if we have holdings and we are within valid grid range
if self.holdings > 0 and 0 <= self.last_grid_index < self.grid_num:
# Sell one grid's worth
amount_to_sell = amount_per_grid_usdt / price
if self.holdings >= amount_to_sell:
self.holdings -= amount_to_sell
self.cash += amount_to_sell * price
trade_amount = amount_to_sell
action = 'SELL'
# Calculate profit per grid (approximate)
# Profit = Buy Price (lower grid) vs Sell Price (this grid)
# Roughly = grid_step * amount
self.total_arbitrage_profit += self.grid_step * amount_to_sell
elif diff < 0:
# Price Down -> Buy
# Only buy if we have cash and within range
if self.cash > amount_per_grid_usdt and 0 <= current_grid_index < self.grid_num:
amount_to_buy = amount_per_grid_usdt / price
self.cash -= amount_to_buy * price
self.holdings += amount_to_buy
trade_amount = amount_to_buy
action = 'BUY'
if action:
self.trades.append({
'type': action,
'price': price,
'amount': trade_amount,
'time': timestamp,
'profit': self.total_arbitrage_profit
})
self.last_grid_index = current_grid_index
# Calculate current status
total_assets_value = self.cash + (self.holdings * price)
unrealized_pnl = total_assets_value - self.investment
return {
'price': price,
'total_value': total_assets_value,
'cash': self.cash,
'holdings_value': self.holdings * price,
'arbitrage_profit': self.total_arbitrage_profit,
'unrealized_pnl': unrealized_pnl,
'timestamp': timestamp
}
@app.route('/')
def index():
return render_template('index.html')
@app.route('/api/generate_data', methods=['POST'])
def generate_data():
try:
data = request.json
days = int(data.get('days', 30))
start_price = float(data.get('start_price', 1000))
volatility = float(data.get('volatility', 0.02)) # Daily volatility
trend = float(data.get('trend', 0.000)) # Daily trend
prices = []
current_price = start_price
start_date = datetime.now() - timedelta(days=days)
# Generate hourly data
hours = days * 24
for i in range(hours):
# Geometric Brownian Motion step
change = random.normalvariate(trend/24, volatility/math.sqrt(24))
current_price = current_price * (1 + change)
timestamp = (start_date + timedelta(hours=i)).strftime('%Y-%m-%d %H:%M')
prices.append({'time': timestamp, 'price': round(current_price, 2)})
return jsonify({'prices': prices})
except Exception as e:
app.logger.error(f"Generate data error: {str(e)}")
return jsonify({'error': str(e)}), 500
@app.route('/api/simulate', methods=['POST'])
def simulate():
try:
data = request.json
prices = data.get('prices', [])
params = data.get('params', {})
if not prices or not params:
return jsonify({'error': 'Missing data'}), 400
strategy = GridStrategy(
lower_price=params.get('lower_price'),
upper_price=params.get('upper_price'),
grid_num=params.get('grid_num'),
investment=params.get('investment'),
current_price=prices[0]['price']
)
results = []
trades = []
for p in prices:
step_result = strategy.process_price(p['price'], p['time'])
results.append(step_result)
return jsonify({
'results': results,
'trades': strategy.trades,
'summary': {
'final_value': results[-1]['total_value'],
'total_profit': results[-1]['total_value'] - params.get('investment'),
'arbitrage_profit': strategy.total_arbitrage_profit,
'grid_yield': (strategy.total_arbitrage_profit / params.get('investment')) * 100
}
})
except Exception as e:
app.logger.error(f"Simulation error: {str(e)}")
return jsonify({'error': str(e)}), 500
@app.route('/api/upload_config', methods=['POST'])
def upload_config():
# Robust file upload handling
if 'file' not in request.files:
return jsonify({'error': 'No file part'}), 400
file = request.files['file']
if file.filename == '':
return jsonify({'error': 'No selected file'}), 400
if file and allowed_file(file.filename):
try:
# Read file content
content = file.read()
# Check for binary content (null bytes)
if b'\0' in content:
return jsonify({'error': 'Binary file detected'}), 400
# Parse JSON
try:
config = json.loads(content.decode('utf-8'))
return jsonify({'message': 'Config uploaded successfully', 'config': config})
except UnicodeDecodeError:
return jsonify({'error': 'File encoding not supported (must be UTF-8)'}), 400
except json.JSONDecodeError:
return jsonify({'error': 'Invalid JSON format'}), 400
except Exception as e:
return jsonify({'error': f"Upload failed: {str(e)}"}), 500
else:
return jsonify({'error': 'Invalid file type (only .json allowed)'}), 400
@app.errorhandler(404)
def page_not_found(e):
# Return a JSON response for API calls, or render a template
if request.path.startswith('/api/'):
return jsonify({'error': 'Not found'}), 404
return render_template('index.html'), 200 # Fallback to SPA entry or create a 404 page
@app.errorhandler(500)
def internal_server_error(e):
return jsonify({'error': 'Internal Server Error'}), 500
@app.errorhandler(RequestEntityTooLarge)
def handle_file_too_large(e):
return jsonify({'error': 'File too large (max 5MB)'}), 413
@app.route('/health')
def health():
return jsonify({"status": "healthy"})
if __name__ == '__main__':
app.run(host='0.0.0.0', port=7860)
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