Spaces:

netflypsb
/

stock_supp_rst

Paused

App Files Files Community

stock_supp_rst / app1.py

netflypsb

Rename app.py to app1.py

ef6294e verified about 2 years ago

raw

history blame contribute delete

2.2 kB

	import yfinance as yf
	import pandas as pd
	import plotly.graph_objects as go
	import streamlit as st
	import numpy as np

	# Place input fields in the sidebar
	sidebar = st.sidebar
	symbol = sidebar.text_input("Enter stock symbol:", "AAPL")
	period = sidebar.selectbox("Select period:", ["1mo", "3mo", "6mo", "1y", "2y", "5y", "10y", "ytd", "max"])

	# Download stock data
	data = yf.download(symbol, period=period)

	# Calculate Moving Averages
	data['MA50'] = data['Close'].rolling(window=50).mean()
	data['MA200'] = data['Close'].rolling(window=200).mean()
	data['MA20'] = data['Close'].rolling(window=20).mean()

	# Finding highest and lowest price for the Fibonacci Retracement Levels
	high_price = data['High'].max()
	low_price = data['Low'].min()

	# Calculate Fibonacci Levels
	fib_levels = [0, 0.236, 0.382, 0.5, 0.618, 0.786, 1]
	price_diff = high_price - low_price
	data['Fib_Level_0'] = high_price
	data['Fib_Level_1'] = high_price - price_diff * fib_levels[1]
	data['Fib_Level_2'] = high_price - price_diff * fib_levels[2]
	data['Fib_Level_3'] = high_price - price_diff * fib_levels[3]
	data['Fib_Level_4'] = high_price - price_diff * fib_levels[4]
	data['Fib_Level_5'] = high_price - price_diff * fib_levels[5]
	data['Fib_Level_6'] = low_price

	# Plotting
	fig = go.Figure()

	# Add traces for Close price and MAs
	fig.add_trace(go.Scatter(x=data.index, y=data['Close'], name='Close Price', line=dict(color='black')))
	fig.add_trace(go.Scatter(x=data.index, y=data['MA50'], name='50-Period MA', line=dict(color='blue')))
	fig.add_trace(go.Scatter(x=data.index, y=data['MA200'], name='200-Period MA', line=dict(color='red')))
	fig.add_trace(go.Scatter(x=data.index, y=data['MA20'], name='20-Period MA', line=dict(color='green')))

	# Add traces for Fibonacci Levels
	for i in range(7):
	fig.add_trace(go.Scatter(x=data.index, y=[data[f'Fib_Level_{i}'][0]]len(data), name=f'Fib Level {fib_levels[i]100}%', line=dict(dash='dot')))

	# Display the chart
	st.plotly_chart(fig)

	# Note: This implementation assumes a simplistic approach to finding the high and low points for Fibonacci retracement levels.
	# In practice, these should be determined based on significant peaks and troughs within a specific period of interest.