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data-village / app3.py

eaglelandsonce

Rename app.py to app3.py

958a2a6 verified 9 months ago

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	import streamlit as st
	import json
	import matplotlib.pyplot as plt

	# Set Streamlit page configuration
	st.set_page_config(layout="wide")

	# Function to load JSON data
	def load_data(filename):
	with open(filename, 'r') as file:
	data = json.load(file)
	return data

	# Dictionary for color codes
	color_codes = {
	"residential": "#ADD8E6",
	"commercial": "#90EE90",
	"community_facilities": "#FFFF00",
	"school": "#FFFF00",
	"healthcare_facility": "#FFFF00",
	"green_space": "#90EE90",
	"utility_infrastructure": "#90EE90",
	"emergency_services": "#FF0000",
	"cultural_facilities": "#D8BFD8",
	"recreational_facilities": "#D8BFD8",
	"innovation_center": "#90EE90",
	"elderly_care_home": "#FFFF00",
	"childcare_centers": "#FFFF00",
	"places_of_worship": "#D8BFD8",
	"event_spaces": "#D8BFD8",
	"guest_housing": "#FFA500",
	"pet_care_facilities": "#FFA500",
	"public_sanitation_facilities": "#A0A0A0",
	"environmental_monitoring_stations": "#90EE90",
	"disaster_preparedness_center": "#A0A0A0",
	"outdoor_community_spaces": "#90EE90",
	# Add other types with their corresponding colors
	}

	# Function to draw the grid with optional highlighting
	def draw_grid(data, highlight_coords=None):
	fig, ax = plt.subplots(figsize=(12, 12))
	nrows, ncols = data['size']['rows'], data['size']['columns']
	ax.set_xlim(0, ncols)
	ax.set_ylim(0, nrows)
	ax.set_xticks(range(ncols+1))
	ax.set_yticks(range(nrows+1))
	ax.grid(True)

	for building in data['buildings']:
	coords = building['coords']
	b_type = building['type']
	size = building['size']
	color = color_codes.get(b_type, '#FFFFFF') # Default color is white if not specified

	if highlight_coords and (coords[0], coords[1]) == tuple(highlight_coords):
	highlighted_color = "#FFD700" # Gold for highlighting
	ax.add_patch(plt.Rectangle((coords[1], nrows-coords[0]-size), size, size, color=highlighted_color, edgecolor='black', linewidth=2))
	else:
	ax.add_patch(plt.Rectangle((coords[1], nrows-coords[0]-size), size, size, color=color, edgecolor='black', linewidth=1))
	ax.text(coords[1]+0.5size, nrows-coords[0]-0.5size, b_type, ha='center', va='center', fontsize=8, color='black')

	ax.set_xlabel('Columns')
	ax.set_ylabel('Rows')
	ax.set_title('Village Layout with Color Coding')
	return fig

	# Main Streamlit app function
	def main():
	st.title('Green Smart Village Application')

	# Divide the page into three columns
	col1, col2, col3 = st.columns(3)

	with col1:
	st.header("Today's Agenda")
	st.write("1. Morning Meeting\n2. Review Project Plans\n3. Lunch Break\n4. Site Visit\n5. Evening Wrap-up")

	st.header("Agent Advisors")
	st.write("Would you like to optimize your HIN number?")

	st.header("My Incentive")
	st.write("Total incentive for HIN optimization")

	with col2:
	st.header("Green Smart Village Layout")
	data = load_data('grid.json') # Ensure this path is correct

	# Dropdown for selecting a building
	building_options = [f"{bld['type']} at ({bld['coords'][0]}, {bld['coords'][1]})" for bld in data['buildings']]
	selected_building = st.selectbox("Select a building to highlight:", options=building_options)
	selected_index = building_options.index(selected_building)
	selected_building_coords = data['buildings'][selected_index]['coords']

	# Draw the grid with the selected building highlighted
	fig = draw_grid(data, highlight_coords=selected_building_coords)
	st.pyplot(fig)

	# Assuming sensors are defined in your data, display them
	sensors = data['buildings'][selected_index].get('sensors', [])
	st.write(f"Sensors in selected building: {', '.join(sensors)}")

	with col3:
	st.header("Check Your HIN Number")
	# Placeholder for HIN number functionality
	st.write("Enter your HIN number to check details...")
	hin_number = st.text_input("Enter your HIN number:")
	if hin_number:
	st.write("HIN number details...") # Placeholder for actual HIN number check

	if __name__ == "__main__":
	main()