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6-TreemapAndSunburst / app.py

awacke1

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	import streamlit as st
	import numpy as np
	import plotly.express as px
	import pandas as pd
	import plotly.graph_objects as go

	st.set_page_config(page_title="Plotly Graphing Libraries",layout='wide')

	import streamlit as st

	uploaded_files = st.file_uploader("Choose a CSV file", accept_multiple_files=True)
	for uploaded_file in uploaded_files:
	bytes_data = uploaded_file.read()
	st.write("filename:", uploaded_file.name)
	st.write(bytes_data)

	if st.checkbox("FileDetails"):

	filevalue = uploaded_file.getvalue()
	st.write(filevalue)
	st.write(uploaded_file.name)
	st.write(uploaded_file.type)
	st.write(uploaded_file.size)
	#st.write(uploaded_file.last_modified)
	#st.write(uploaded_file.charset)
	st.write(uploaded_file.getbuffer())
	st.write(uploaded_file.getbuffer().nbytes)
	st.write(uploaded_file.getbuffer().tobytes())
	st.write(uploaded_file.getbuffer().tolist())
	st.write(uploaded_file.getbuffer().itemsize)
	st.write(uploaded_file.getbuffer().ndim)
	st.write(uploaded_file.getbuffer().shape)
	st.write(uploaded_file.getbuffer().strides)
	st.write(uploaded_file.getbuffer().suboffsets)
	st.write(uploaded_file.getbuffer().readonly)
	st.write(uploaded_file.getbuffer().c_contiguous)
	st.write(uploaded_file.getbuffer().f_contiguous)
	st.write(uploaded_file.getbuffer().contiguous)
	st.write(uploaded_file.getbuffer().itemsize)
	st.write(uploaded_file.getbuffer().nbytes)
	st.write(uploaded_file.getbuffer().ndim)
	st.write(uploaded_file.getbuffer().shape)
	st.write(uploaded_file.getbuffer().strides)
	st.write(uploaded_file.getbuffer().suboffsets)
	st.write(uploaded_file.getbuffer().readonly)
	st.write(uploaded_file.getbuffer().c_contiguous)
	st.write(uploaded_file.getbuffer().f_contiguous)
	st.write(uploaded_file.getbuffer().contiguous)
	st.write(uploaded_file.getbuffer().itemsize)
	st.write(uploaded_file.getbuffer().nbytes)
	st.write(uploaded_file.getbuffer().ndim)
	st.write(uploaded_file.getbuffer().shape)
	st.write(uploaded_file.getbuffer().strides)
	st.write(uploaded_file.getbuffer().suboffsets)
	st.write(uploaded_file.getbuffer().readonly)
	st.write(uploaded_file.getbuffer().c_contiguous)
	st.write(uploaded_file.getbuffer().f_contiguous)
	myDF = pd.DataFrame(uploaded_file.getbuffer().tolist())


	st.markdown("# Treemaps from upload data file: https://plotly.com/python/treemaps/")
	#df = myDF.query("year == 2007")
	df = myDF
	fig = px.treemap(df, path=[px.Constant("time"), 'message', 'name'], values='content',
	color='lifeExp', hover_data=['iso_alpha'],
	color_continuous_scale='RdBu',
	color_continuous_midpoint=np.average(df['name'], weights=df['content'])) # todo - debug this and get it working with the data
	fig.update_layout(margin = dict(t=50, l=25, r=25, b=25))
	#fig.show()
	st.plotly_chart(fig, use_container_width=True)




	#show replace
	if st.checkbox("replace"):
	mydf = st.dataframe(df)
	columns = st.selectbox("Select column", df.columns)
	old_values = st.multiselect("Current Values",list(df[columns].unique()),list(df[columns].unique()))
	with st.form(key='my_form'):
	col1,col2 = st.beta_columns(2)
	st_input = st.number_input if is_numeric_dtype(df[columns]) else st.text_input
	with col1:
	old_val = st_input("old value")
	with col2:
	new_val = st_input("new value")
	if st.form_submit_button("Replace"):
	df[columns]=df[columns].replace(old_val,new_val)
	st.success("{} replace with {} successfully ".format(old_val,new_val))
	excel = df.to_excel(r"F:\book2.xlsx", index = False, header=True,encoding="utf-8")
	df =pd.read_excel(r"F:\book2.xlsx")
	mydf.add_rows(df)

	st.markdown("WebGL Rendering with 1,000,000 Points")
	import plotly.graph_objects as go
	import numpy as np
	N = 1000000
	fig = go.Figure()
	fig.add_trace(
	go.Scattergl(
	x = np.random.randn(N),
	y = np.random.randn(N),
	mode = 'markers',
	marker = dict(
	line = dict(
	width = 1,
	color = 'DarkSlateGrey')
	)
	)
	)
	#fig.show()
	st.plotly_chart(fig, use_container_width=True)



	st.markdown("# WebGL Graph - ScatterGL")
	fig = go.Figure()
	trace_num = 10
	point_num = 5000
	for i in range(trace_num):
	fig.add_trace(
	go.Scattergl(
	x = np.linspace(0, 1, point_num),
	y = np.random.randn(point_num)+(i*5)
	)
	)
	fig.update_layout(showlegend=False)
	#fig.show()
	st.plotly_chart(fig, use_container_width=True)


	st.markdown("# Treemaps: https://plotly.com/python/treemaps/")
	df = px.data.gapminder().query("year == 2007")
	fig = px.treemap(df, path=[px.Constant("world"), 'continent', 'country'], values='pop',
	color='lifeExp', hover_data=['iso_alpha'],
	color_continuous_scale='RdBu',
	color_continuous_midpoint=np.average(df['lifeExp'], weights=df['pop']))
	fig.update_layout(margin = dict(t=50, l=25, r=25, b=25))
	#fig.show()
	st.plotly_chart(fig, use_container_width=True)


	st.markdown("# Sunburst: https://plotly.com/python/sunburst-charts/")


	st.markdown("# Life Expectancy Sunburst")
	df = px.data.gapminder().query("year == 2007")
	fig = px.sunburst(df, path=['continent', 'country'], values='pop',
	color='lifeExp', hover_data=['iso_alpha'],
	color_continuous_scale='RdBu',
	color_continuous_midpoint=np.average(df['lifeExp'], weights=df['pop']))
	st.plotly_chart(fig, use_container_width=True)


	st.markdown("# Coffee Aromas and Tastes Sunburst")
	df1 = pd.read_csv('https://raw.githubusercontent.com/plotly/datasets/718417069ead87650b90472464c7565dc8c2cb1c/sunburst-coffee-flavors-complete.csv')
	df2 = pd.read_csv('https://raw.githubusercontent.com/plotly/datasets/718417069ead87650b90472464c7565dc8c2cb1c/coffee-flavors.csv')
	fig = go.Figure()
	fig.add_trace(go.Sunburst(
	ids=df1.ids,
	labels=df1.labels,
	parents=df1.parents,
	domain=dict(column=0)
	))
	fig.add_trace(go.Sunburst(
	ids=df2.ids,
	labels=df2.labels,
	parents=df2.parents,
	domain=dict(column=1),
	maxdepth=2
	))
	fig.update_layout(
	grid= dict(columns=2, rows=1),
	margin = dict(t=0, l=0, r=0, b=0)
	)
	st.plotly_chart(fig, use_container_width=True)





	# Sunburst
	#data = dict(
	# character=["Eve", "Cain", "Seth", "Enos", "Noam", "Abel", "Awan", "Enoch", "Azura"],
	# parent=["", "Eve", "Eve", "Seth", "Seth", "Eve", "Eve", "Awan", "Eve" ],
	# value=[10, 14, 12, 10, 2, 6, 6, 4, 4])
	#fig = px.sunburst(
	# data,
	# names='character',
	# parents='parent',
	# values='value',
	#)
	#fig.show()
	#st.plotly_chart(fig, use_container_width=True)


	df = px.data.tips()
	fig = px.treemap(df, path=[px.Constant("all"), 'sex', 'day', 'time'],
	values='total_bill', color='time',
	color_discrete_map={'(?)':'lightgrey', 'Lunch':'gold', 'Dinner':'darkblue'})
	fig.update_layout(margin = dict(t=50, l=25, r=25, b=25))
	#fig.show()
	fig.update_traces(marker=dict(cornerradius=5))

	st.plotly_chart(fig, use_container_width=True)


	df = pd.read_csv('https://raw.githubusercontent.com/plotly/datasets/96c0bd/sunburst-coffee-flavors-complete.csv')
	fig = go.Figure(go.Treemap(
	ids = df.ids,
	labels = df.labels,
	parents = df.parents,
	pathbar_textfont_size=15,
	root_color="lightgrey"
	))
	fig.update_layout(
	uniformtext=dict(minsize=10, mode='hide'),
	margin = dict(t=50, l=25, r=25, b=25)
	)
	#fig.show()
	st.plotly_chart(fig, use_container_width=True)


	df = pd.read_pickle('bloom_dataset.pkl')
	fig = px.treemap(df, path=[px.Constant("ROOTS"), 'Macroarea', 'Family', 'Genus', 'Language', 'dataset_name'],
	values='num_bytes', maxdepth=4)
	fig.update_traces(root_color="pink")
	fig.update_layout(margin = dict(t=50, l=25, r=25, b=25))

	st.plotly_chart(fig, use_container_width=True)