I am a Python beginner and wrote a function for a simple moving average strategy. I created a portfolio DataFrame inside the function and now I want to use this DataFrame outside of the function for plotting some graphs. My solution is: return portfolio - but this does not work. Can anybody help me?

This is my code:

```
import numpy as np
import pandas as pd
import matplotlib.pyplot as plt
# Import a data source - FSE-Data with Index 'Date'
all_close_prices = pd.read_csv('FSE_daily_close.csv')
all_close_prices = all_close_prices.set_index('Date')
# Fill NaN Values with the last available stock price - except for Zalando
all_close_prices = all_close_prices.fillna(method='ffill')
# Import ticker symbols
ticker_list = list(all_close_prices)
# Zalando 'FSE/ZO1_X' (position row 99) - doesn't begin in 2004
# Drop Zalando
all_close_prices.drop('FSE/ZO1_X', axis=1)
# Also from the ticker list
ticker_list.remove('FSE/ZO1_X')
# Create an empty signal dataframe with datetime index equivalent to the stocks
signals = pd.DataFrame(index=all_close_prices.index)
def ma_strategy(ticker, long_window, short_window):
# Calculate the moving avergaes
moving_avg_long = all_close_prices.rolling(window=long_window, min_periods=1).mean()
moving_avg_short = all_close_prices.rolling(window=short_window, min_periods=1).mean()
moving_avg_short = moving_avg_short
moving_avg_long = moving_avg_long
# Add the two MAs for the stocks in the ticker_list to the signals dataframe
for i in ticker_list:
signals['moving_avg_short_' + i] = moving_avg_short[i]
signals['moving_avg_long_' + i] = moving_avg_long[i]
# Set up the signals
for i in ticker_list:
signals['signal_' + i] = np.where(signals['moving_avg_short_' + i] > signals['moving_avg_long_' + i], 1, 0)
signals['positions_' + i] = signals['signal_' + i].diff(periods=1)
#Backtest
initial_capital = float(100000)
# Create a DataFrame `positions` with index of signals
positions = pd.DataFrame(index=all_close_prices)
# Create a new column in the positions DataFrame
# On the days that the signal is 1 (short moving average crosses the long moving average, you’ll buy a 100 shares.
# The days on which the signal is 0, the final result will be 0 as a result of the operation 100*signals['signal']
positions = 100 * signals[['signal_' + ticker]]
# Store the portfolio value owned with the stock
# DataFrame.multiply(other, axis='columns', fill_value=None) - Multiplication of dataframe and other, element-wise
# Store the difference in shares owned - same like position column in signals
pos_diff = positions.diff()
# Add `holdings` to portfolio
portfolio = pd.DataFrame(index=all_close_prices.index)
portfolio['holdings'] = (positions.multiply(all_close_prices[ticker], axis=0)).sum(axis=1)
# Add `cash` to portfolio
portfolio['cash'] = initial_capital - (pos_diff.multiply(all_close_prices[ticker], axis=0)).sum(
axis=1).cumsum()
# Add `total` to portfolio
portfolio['total'] = portfolio['cash'] + portfolio['holdings']
# Add `returns` to portfolio
portfolio['return'] = portfolio['total'].pct_change()
portfolio['return_cum'] = portfolio['total'].pct_change().cumsum()
return portfolio
ma_strategy('FSE/VOW3_X',20,5)
# Visualize the total value of the portfolio
portfolio_value = plt.figure(figsize=(12, 8))
ax1 = portfolio_value.add_subplot(1, 1, 1, ylabel='Portfolio value in $')
# Plot the equity curve in dollars
portfolio['total'].plot(ax=ax1, lw=2.)
```

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