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update cron job

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This commit is contained in:
MuslemRahimi 2024-09-11 22:40:39 +02:00
parent b49928fe74
commit 670c6c529f
1 changed files with 44 additions and 46 deletions
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90
app/cron_options_net_flow.py
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@ -24,82 +24,81 @@ def calculate_moving_average(data, window_size):
moving_avg = (cumsum[window_size - 1:] - np.concatenate(([0], cumsum[:-window_size]))) / window_size
return moving_avg.tolist()
def calculate_net_flow(data, window_size=20):
date_data = defaultdict(lambda: {'price': [], 'netCall': 0, 'netPut': 0})
def calculate_net_flow(data):
date_data = defaultdict(lambda: {'price': [], 'netCall': 0, 'netPut': 0})
for item in data:
date = item['date']
date_str = item['date']
time_str = item['time']
datetime_str = f"{date_str} {time_str}"
# Parse the combined date and time into a datetime object
date_time = datetime.strptime(datetime_str, '%Y-%m-%d %H:%M:%S')
try:
premium = float(item['cost_basis'])
date_data[date]['price'].append(float(item['underlying_price']))
#date_data[date]['volume'] += volume
date_data[date_time]['price'].append(round(float(item['underlying_price']), 2))
if item['put_call'] == 'CALL':
if item['execution_estimate'] == 'AT_ASK':
date_data[date]['netCall'] += premium
date_data[date_time]['netCall'] += premium
elif item['execution_estimate'] == 'AT_BID':
date_data[date]['netCall'] -= premium
date_data[date_time]['netCall'] -= premium
elif item['put_call'] == 'PUT':
if item['execution_estimate'] == 'AT_ASK':
date_data[date]['netPut'] -= premium
date_data[date_time]['netPut'] -= premium
elif item['execution_estimate'] == 'AT_BID':
date_data[date]['netPut'] += premium
date_data[date_time]['netPut'] += premium
except:
pass
#volume = int(item['volume'])
# Calculate average underlying price and format the results
result = []
for date, values in date_data.items():
avg_price = sum(values['price']) / len(values['price'])
#volume = values['volume']
# Change sign of volume if netPut > netCall
#if values['netPut'] > values['netCall']:
# volume = -volume
for date_time, values in date_data.items():
result.append({
'date': date,
'price': round(avg_price, 2),
'date': date_time.strftime('%Y-%m-%d %H:%M:%S'),
'price': sum(values['price']) / len(values['price']) if values['price'] else 0,
'netCall': int(values['netCall']),
'netPut': int(values['netPut']),
#'volume': int(volume)
})
sorted_data = sorted(result, key=lambda x: datetime.strptime(x['date'], '%Y-%m-%d'))
# Calculate moving averages
netCall_values = [item['netCall'] for item in sorted_data]
netPut_values = [item['netPut'] for item in sorted_data]
netCall_ma = calculate_moving_average(netCall_values, window_size)
netPut_ma = calculate_moving_average(netPut_values, window_size)
# Add moving averages to the result and remove None values
filtered_data = []
sorted_data = sorted(result, key=lambda x: datetime.strptime(x['date'], '%Y-%m-%d %H:%M:%S'))
# Add moving averages to the result
filtered_data = []
for i, item in enumerate(sorted_data):
if i >= window_size - 1:
item['netCall'] = int(netCall_ma[i - window_size + 1])
item['netPut'] = int(netPut_ma[i - window_size + 1])
filtered_data.append(item)
# Compute 30-minute interval averages
interval_data = defaultdict(lambda: {'price': [], 'netCall': [], 'netPut': []})
for item in sorted_data:
date_time = datetime.strptime(item['date'], '%Y-%m-%d %H:%M:%S')
interval_start = date_time.replace(minute=date_time.minute // 120 * 120, second=0)
interval_data[interval_start]['price'].append(item['price'])
interval_data[interval_start]['netCall'].append(item['netCall'])
interval_data[interval_start]['netPut'].append(item['netPut'])
return filtered_data
# Calculate averages for each 30-minute interval
averaged_data = []
for interval_start, values in interval_data.items():
if values['price']:
averaged_data.append({
'date': interval_start.strftime('%Y-%m-%d %H:%M:%S'),
#'price': sum(values['price']) / len(values['price']) ,
'netCall': sum(values['netCall']) if values['netCall'] else 0,
'netPut': sum(values['netPut']) if values['netPut'] else 0,
})
# Sort the averaged data by interval start time
averaged_data.sort(key=lambda x: datetime.strptime(x['date'], '%Y-%m-%d %H:%M:%S'))
return averaged_data
def get_data(symbol):
try:
end_date = date.today()
start_date = end_date - timedelta(200)
start_date = end_date - timedelta(10)
end_date_str = end_date.strftime('%Y-%m-%d')
start_date_str = start_date.strftime('%Y-%m-%d')
res_list = []
for page in range(0, 100):
for page in range(0, 1000):
try:
data = fin.options_activity(company_tickers=symbol, page=page, pagesize=1000, date_from=start_date_str, date_to=end_date_str)
data = ujson.loads(fin.output(data))['option_activity']
@ -107,8 +106,7 @@ def get_data(symbol):
except:
break
res_filtered = [{key: value for key, value in item.items() if key in ['ticker','date','execution_estimate', 'underlying_price', 'put_call', 'cost_basis']} for item in res_list]
res_filtered = [{key: value for key, value in item.items() if key in ['ticker','time','date','execution_estimate', 'underlying_price', 'put_call', 'cost_basis']} for item in res_list]
#Save raw data for each ticker for options page stack bar chart
ticker_filtered_data = [entry for entry in res_filtered if entry['ticker'] == symbol]
@ -126,7 +124,7 @@ def get_data(symbol):
try:
stock_con = sqlite3.connect('stocks.db')
stock_cursor = stock_con.cursor()
stock_cursor.execute("SELECT DISTINCT symbol FROM stocks WHERE symbol NOT LIKE '%.%'")
stock_cursor.execute("SELECT DISTINCT symbol FROM stocks WHERE marketCap >500E6 AND symbol NOT LIKE '%.%'")
stock_symbols = [row[0] for row in stock_cursor.fetchall()]
etf_con = sqlite3.connect('etf.db')