"Python streamlit dashboard"의 두 판 사이의 차이
DB CAFE
(→Streamlit 샘플) |
(→참조 사이트) |
||
| (같은 사용자의 중간 판 10개는 보이지 않습니다) | |||
| 1번째 줄: | 1번째 줄: | ||
| − | = | + | == streamlit dashbaord 개발 == |
| − | |||
| − | |||
| − | |||
| − | |||
| − | |||
| − | == | + | === 코드 === |
| − | |||
<source lang=python> | <source lang=python> | ||
import streamlit as st | import streamlit as st | ||
| − | st.title(' | + | import plotly.express as px |
| + | import pandas as pd | ||
| + | import os | ||
| + | import warnings | ||
| + | warnings.filterwarnings('ignore') | ||
| + | |||
| + | st.set_page_config(page_title="Superstore!!!", page_icon=":bar_chart:",layout="wide") | ||
| + | |||
| + | st.title(" :bar_chart: Sample SuperStore EDA") | ||
| + | st.markdown('<style>div.block-container{padding-top:1rem;}</style>',unsafe_allow_html=True) | ||
| + | |||
| + | fl = st.file_uploader(":file_folder: Upload a file",type=(["csv","txt","xlsx","xls"])) | ||
| + | if fl is not None: | ||
| + | filename = fl.name | ||
| + | st.write(filename) | ||
| + | df = pd.read_csv(filename, encoding = "ISO-8859-1") | ||
| + | else: | ||
| + | os.chdir(r"C:\Users\AEPAC\Desktop\Streamlit") | ||
| + | df = pd.read_csv("Superstore.csv", encoding = "ISO-8859-1") | ||
| + | |||
| + | col1, col2 = st.columns((2)) | ||
| + | df["Order Date"] = pd.to_datetime(df["Order Date"]) | ||
| + | |||
| + | # Getting the min and max date | ||
| + | startDate = pd.to_datetime(df["Order Date"]).min() | ||
| + | endDate = pd.to_datetime(df["Order Date"]).max() | ||
| + | |||
| + | with col1: | ||
| + | date1 = pd.to_datetime(st.date_input("Start Date", startDate)) | ||
| + | |||
| + | with col2: | ||
| + | date2 = pd.to_datetime(st.date_input("End Date", endDate)) | ||
| + | |||
| + | df = df[(df["Order Date"] >= date1) & (df["Order Date"] <= date2)].copy() | ||
| + | |||
| + | st.sidebar.header("Choose your filter: ") | ||
| + | # Create for Region | ||
| + | region = st.sidebar.multiselect("Pick your Region", df["Region"].unique()) | ||
| + | if not region: | ||
| + | df2 = df.copy() | ||
| + | else: | ||
| + | df2 = df[df["Region"].isin(region)] | ||
| + | |||
| + | # Create for State | ||
| + | state = st.sidebar.multiselect("Pick the State", df2["State"].unique()) | ||
| + | if not state: | ||
| + | df3 = df2.copy() | ||
| + | else: | ||
| + | df3 = df2[df2["State"].isin(state)] | ||
| + | |||
| + | # Create for City | ||
| + | city = st.sidebar.multiselect("Pick the City",df3["City"].unique()) | ||
| + | |||
| + | # Filter the data based on Region, State and City | ||
| + | |||
| + | if not region and not state and not city: | ||
| + | filtered_df = df | ||
| + | elif not state and not city: | ||
| + | filtered_df = df[df["Region"].isin(region)] | ||
| + | elif not region and not city: | ||
| + | filtered_df = df[df["State"].isin(state)] | ||
| + | elif state and city: | ||
| + | filtered_df = df3[df["State"].isin(state) & df3["City"].isin(city)] | ||
| + | elif region and city: | ||
| + | filtered_df = df3[df["Region"].isin(region) & df3["City"].isin(city)] | ||
| + | elif region and state: | ||
| + | filtered_df = df3[df["Region"].isin(region) & df3["State"].isin(state)] | ||
| + | elif city: | ||
| + | filtered_df = df3[df3["City"].isin(city)] | ||
| + | else: | ||
| + | filtered_df = df3[df3["Region"].isin(region) & df3["State"].isin(state) & df3["City"].isin(city)] | ||
| + | |||
| + | category_df = filtered_df.groupby(by = ["Category"], as_index = False)["Sales"].sum() | ||
| + | |||
| + | with col1: | ||
| + | st.subheader("Category wise Sales") | ||
| + | fig = px.bar(category_df, x = "Category", y = "Sales", text = ['${:,.2f}'.format(x) for x in category_df["Sales"]], | ||
| + | template = "seaborn") | ||
| + | st.plotly_chart(fig,use_container_width=True, height = 200) | ||
| + | |||
| + | with col2: | ||
| + | st.subheader("Region wise Sales") | ||
| + | fig = px.pie(filtered_df, values = "Sales", names = "Region", hole = 0.5) | ||
| + | fig.update_traces(text = filtered_df["Region"], textposition = "outside") | ||
| + | st.plotly_chart(fig,use_container_width=True) | ||
| + | |||
| + | cl1, cl2 = st.columns((2)) | ||
| + | with cl1: | ||
| + | with st.expander("Category_ViewData"): | ||
| + | st.write(category_df.style.background_gradient(cmap="Blues")) | ||
| + | csv = category_df.to_csv(index = False).encode('utf-8') | ||
| + | st.download_button("Download Data", data = csv, file_name = "Category.csv", mime = "text/csv", | ||
| + | help = 'Click here to download the data as a CSV file') | ||
| + | |||
| + | with cl2: | ||
| + | with st.expander("Region_ViewData"): | ||
| + | region = filtered_df.groupby(by = "Region", as_index = False)["Sales"].sum() | ||
| + | st.write(region.style.background_gradient(cmap="Oranges")) | ||
| + | csv = region.to_csv(index = False).encode('utf-8') | ||
| + | st.download_button("Download Data", data = csv, file_name = "Region.csv", mime = "text/csv", | ||
| + | help = 'Click here to download the data as a CSV file') | ||
| + | |||
| + | filtered_df["month_year"] = filtered_df["Order Date"].dt.to_period("M") | ||
| + | st.subheader('Time Series Analysis') | ||
| + | |||
| + | linechart = pd.DataFrame(filtered_df.groupby(filtered_df["month_year"].dt.strftime("%Y : %b"))["Sales"].sum()).reset_index() | ||
| + | fig2 = px.line(linechart, x = "month_year", y="Sales", labels = {"Sales": "Amount"},height=500, width = 1000,template="gridon") | ||
| + | st.plotly_chart(fig2,use_container_width=True) | ||
| + | |||
| + | with st.expander("View Data of TimeSeries:"): | ||
| + | st.write(linechart.T.style.background_gradient(cmap="Blues")) | ||
| + | csv = linechart.to_csv(index=False).encode("utf-8") | ||
| + | st.download_button('Download Data', data = csv, file_name = "TimeSeries.csv", mime ='text/csv') | ||
| + | |||
| + | # Create a treem based on Region, category, sub-Category | ||
| + | st.subheader("Hierarchical view of Sales using TreeMap") | ||
| + | fig3 = px.treemap(filtered_df, path = ["Region","Category","Sub-Category"], values = "Sales",hover_data = ["Sales"], | ||
| + | color = "Sub-Category") | ||
| + | fig3.update_layout(width = 800, height = 650) | ||
| + | st.plotly_chart(fig3, use_container_width=True) | ||
| + | |||
| + | chart1, chart2 = st.columns((2)) | ||
| + | with chart1: | ||
| + | st.subheader('Segment wise Sales') | ||
| + | fig = px.pie(filtered_df, values = "Sales", names = "Segment", template = "plotly_dark") | ||
| + | fig.update_traces(text = filtered_df["Segment"], textposition = "inside") | ||
| + | st.plotly_chart(fig,use_container_width=True) | ||
| + | |||
| + | with chart2: | ||
| + | st.subheader('Category wise Sales') | ||
| + | fig = px.pie(filtered_df, values = "Sales", names = "Category", template = "gridon") | ||
| + | fig.update_traces(text = filtered_df["Category"], textposition = "inside") | ||
| + | st.plotly_chart(fig,use_container_width=True) | ||
| + | |||
| + | import plotly.figure_factory as ff | ||
| + | st.subheader(":point_right: Month wise Sub-Category Sales Summary") | ||
| + | with st.expander("Summary_Table"): | ||
| + | df_sample = df[0:5][["Region","State","City","Category","Sales","Profit","Quantity"]] | ||
| + | fig = ff.create_table(df_sample, colorscale = "Cividis") | ||
| + | st.plotly_chart(fig, use_container_width=True) | ||
| + | |||
| + | st.markdown("Month wise sub-Category Table") | ||
| + | filtered_df["month"] = filtered_df["Order Date"].dt.month_name() | ||
| + | sub_category_Year = pd.pivot_table(data = filtered_df, values = "Sales", index = ["Sub-Category"],columns = "month") | ||
| + | st.write(sub_category_Year.style.background_gradient(cmap="Blues")) | ||
| + | |||
| + | # Create a scatter plot | ||
| + | data1 = px.scatter(filtered_df, x = "Sales", y = "Profit", size = "Quantity") | ||
| + | data1['layout'].update(title="Relationship between Sales and Profits using Scatter Plot.", | ||
| + | titlefont = dict(size=20),xaxis = dict(title="Sales",titlefont=dict(size=19)), | ||
| + | yaxis = dict(title = "Profit", titlefont = dict(size=19))) | ||
| + | st.plotly_chart(data1,use_container_width=True) | ||
| + | |||
| + | with st.expander("View Data"): | ||
| + | st.write(filtered_df.iloc[:500,1:20:2].style.background_gradient(cmap="Oranges")) | ||
| + | |||
| + | # Download orginal DataSet | ||
| + | csv = df.to_csv(index = False).encode('utf-8') | ||
| + | st.download_button('Download Data', data = csv, file_name = "Data.csv",mime = "text/csv") | ||
</source> | </source> | ||
| − | * | + | === adidas 쇼핑몰 === |
| − | + | * https://github.com/AbhisheakSaraswat/PythonStreamlit/blob/main/Dashboard.py | |
| − | streamlit | + | === 참조 사이트 === |
| − | + | ||
| + | https://docs.kanaries.net/topics/Streamlit/streamlit-dashboard | ||
| + | |||
| + | https://analyticsindiamag.com/ai-mysteries/build-and-deploy-your-first-real-time-dashboard-with-streamlit/ | ||
| + | |||
| + | https://www.geeksforgeeks.org/create-interactive-dashboard-in-python-using-streamlit/ | ||
2024년 8월 26일 (월) 18:18 기준 최신판
thumb_up 추천메뉴 바로가기
- DBA { Oracle DBA 명령어 > DBA 초급 과정 > DBA 고급 과정 }
- 튜닝 { 오라클 튜닝 목록 }
- 모델링 { 데이터 모델링 가이드 }
1 streamlit dashbaord 개발[편집]
1.1 코드[편집]
import streamlit as st
import plotly.express as px
import pandas as pd
import os
import warnings
warnings.filterwarnings('ignore')
st.set_page_config(page_title="Superstore!!!", page_icon=":bar_chart:",layout="wide")
st.title(" :bar_chart: Sample SuperStore EDA")
st.markdown('<style>div.block-container{padding-top:1rem;}</style>',unsafe_allow_html=True)
fl = st.file_uploader(":file_folder: Upload a file",type=(["csv","txt","xlsx","xls"]))
if fl is not None:
filename = fl.name
st.write(filename)
df = pd.read_csv(filename, encoding = "ISO-8859-1")
else:
os.chdir(r"C:\Users\AEPAC\Desktop\Streamlit")
df = pd.read_csv("Superstore.csv", encoding = "ISO-8859-1")
col1, col2 = st.columns((2))
df["Order Date"] = pd.to_datetime(df["Order Date"])
# Getting the min and max date
startDate = pd.to_datetime(df["Order Date"]).min()
endDate = pd.to_datetime(df["Order Date"]).max()
with col1:
date1 = pd.to_datetime(st.date_input("Start Date", startDate))
with col2:
date2 = pd.to_datetime(st.date_input("End Date", endDate))
df = df[(df["Order Date"] >= date1) & (df["Order Date"] <= date2)].copy()
st.sidebar.header("Choose your filter: ")
# Create for Region
region = st.sidebar.multiselect("Pick your Region", df["Region"].unique())
if not region:
df2 = df.copy()
else:
df2 = df[df["Region"].isin(region)]
# Create for State
state = st.sidebar.multiselect("Pick the State", df2["State"].unique())
if not state:
df3 = df2.copy()
else:
df3 = df2[df2["State"].isin(state)]
# Create for City
city = st.sidebar.multiselect("Pick the City",df3["City"].unique())
# Filter the data based on Region, State and City
if not region and not state and not city:
filtered_df = df
elif not state and not city:
filtered_df = df[df["Region"].isin(region)]
elif not region and not city:
filtered_df = df[df["State"].isin(state)]
elif state and city:
filtered_df = df3[df["State"].isin(state) & df3["City"].isin(city)]
elif region and city:
filtered_df = df3[df["Region"].isin(region) & df3["City"].isin(city)]
elif region and state:
filtered_df = df3[df["Region"].isin(region) & df3["State"].isin(state)]
elif city:
filtered_df = df3[df3["City"].isin(city)]
else:
filtered_df = df3[df3["Region"].isin(region) & df3["State"].isin(state) & df3["City"].isin(city)]
category_df = filtered_df.groupby(by = ["Category"], as_index = False)["Sales"].sum()
with col1:
st.subheader("Category wise Sales")
fig = px.bar(category_df, x = "Category", y = "Sales", text = ['${:,.2f}'.format(x) for x in category_df["Sales"]],
template = "seaborn")
st.plotly_chart(fig,use_container_width=True, height = 200)
with col2:
st.subheader("Region wise Sales")
fig = px.pie(filtered_df, values = "Sales", names = "Region", hole = 0.5)
fig.update_traces(text = filtered_df["Region"], textposition = "outside")
st.plotly_chart(fig,use_container_width=True)
cl1, cl2 = st.columns((2))
with cl1:
with st.expander("Category_ViewData"):
st.write(category_df.style.background_gradient(cmap="Blues"))
csv = category_df.to_csv(index = False).encode('utf-8')
st.download_button("Download Data", data = csv, file_name = "Category.csv", mime = "text/csv",
help = 'Click here to download the data as a CSV file')
with cl2:
with st.expander("Region_ViewData"):
region = filtered_df.groupby(by = "Region", as_index = False)["Sales"].sum()
st.write(region.style.background_gradient(cmap="Oranges"))
csv = region.to_csv(index = False).encode('utf-8')
st.download_button("Download Data", data = csv, file_name = "Region.csv", mime = "text/csv",
help = 'Click here to download the data as a CSV file')
filtered_df["month_year"] = filtered_df["Order Date"].dt.to_period("M")
st.subheader('Time Series Analysis')
linechart = pd.DataFrame(filtered_df.groupby(filtered_df["month_year"].dt.strftime("%Y : %b"))["Sales"].sum()).reset_index()
fig2 = px.line(linechart, x = "month_year", y="Sales", labels = {"Sales": "Amount"},height=500, width = 1000,template="gridon")
st.plotly_chart(fig2,use_container_width=True)
with st.expander("View Data of TimeSeries:"):
st.write(linechart.T.style.background_gradient(cmap="Blues"))
csv = linechart.to_csv(index=False).encode("utf-8")
st.download_button('Download Data', data = csv, file_name = "TimeSeries.csv", mime ='text/csv')
# Create a treem based on Region, category, sub-Category
st.subheader("Hierarchical view of Sales using TreeMap")
fig3 = px.treemap(filtered_df, path = ["Region","Category","Sub-Category"], values = "Sales",hover_data = ["Sales"],
color = "Sub-Category")
fig3.update_layout(width = 800, height = 650)
st.plotly_chart(fig3, use_container_width=True)
chart1, chart2 = st.columns((2))
with chart1:
st.subheader('Segment wise Sales')
fig = px.pie(filtered_df, values = "Sales", names = "Segment", template = "plotly_dark")
fig.update_traces(text = filtered_df["Segment"], textposition = "inside")
st.plotly_chart(fig,use_container_width=True)
with chart2:
st.subheader('Category wise Sales')
fig = px.pie(filtered_df, values = "Sales", names = "Category", template = "gridon")
fig.update_traces(text = filtered_df["Category"], textposition = "inside")
st.plotly_chart(fig,use_container_width=True)
import plotly.figure_factory as ff
st.subheader(":point_right: Month wise Sub-Category Sales Summary")
with st.expander("Summary_Table"):
df_sample = df[0:5][["Region","State","City","Category","Sales","Profit","Quantity"]]
fig = ff.create_table(df_sample, colorscale = "Cividis")
st.plotly_chart(fig, use_container_width=True)
st.markdown("Month wise sub-Category Table")
filtered_df["month"] = filtered_df["Order Date"].dt.month_name()
sub_category_Year = pd.pivot_table(data = filtered_df, values = "Sales", index = ["Sub-Category"],columns = "month")
st.write(sub_category_Year.style.background_gradient(cmap="Blues"))
# Create a scatter plot
data1 = px.scatter(filtered_df, x = "Sales", y = "Profit", size = "Quantity")
data1['layout'].update(title="Relationship between Sales and Profits using Scatter Plot.",
titlefont = dict(size=20),xaxis = dict(title="Sales",titlefont=dict(size=19)),
yaxis = dict(title = "Profit", titlefont = dict(size=19)))
st.plotly_chart(data1,use_container_width=True)
with st.expander("View Data"):
st.write(filtered_df.iloc[:500,1:20:2].style.background_gradient(cmap="Oranges"))
# Download orginal DataSet
csv = df.to_csv(index = False).encode('utf-8')
st.download_button('Download Data', data = csv, file_name = "Data.csv",mime = "text/csv")