Mastering Input Widgets in Streamlit: A Comprehensive Guide
π Get the Code: GitHub - jamesbmour/blog_tutorials
π Related Streamlit Tutorials:JustCodeIt
Streamlit has revolutionized the way we create web applications with Python. Its simplicity and power make it an excellent choice for data scientists and developers alike. In this post, we'll dive deep into one of Streamlit's most powerful features: input widgets. We'll explore 16 different input types, demonstrating how to use them effectively in your Streamlit apps.
Setting Up Our Streamlit App
Before we dive into the widgets, let's set up our Streamlit app:
import streamlit as st
st.set_page_config(layout="wide")
st.title("Streamlit Part 4: Inputs in Streamlit")
col1, col2 = st.columns(2)
We've imported Streamlit, set the page to wide layout, added a title, and created two columns for better organization of our widgets.
Button Inputs
1. Basic Button
The simplest form of input is a button. Here's how to create one:
with col1:
st.subheader("1. Button")
btn1 = st.button("Click Me", key="button", help="Click me to see the magic", type='secondary', disabled=False)
if btn1:
st.write("Button Clicked")
Detailed Explanation:
- The
st.button()
function creates a clickable button. -
key
: A unique identifier for the button, useful when you have multiple buttons. -
help
: Tooltip text that appears when hovering over the button. -
type
: Determines the button's appearance ('primary', 'secondary', etc.). -
disabled
: If set to True, the button will be grayed out and unclickable.
Use Cases:
- Triggering data processing or model training
- Submitting forms
- Refreshing data or charts
Tip: Use button states to control the flow of your app, like showing/hiding sections or triggering computations.
2. Link Button
For redirecting users to external links, use the link button:
st.subheader("2. Link Button")
if st.link_button("Click Me", "<https://www.streamlit.io/>"):
st.write("Link Button Clicked")
Detailed Explanation:
-
st.link_button()
creates a button that, when clicked, opens a new tab with the specified URL. - The first argument is the button text, and the second is the URL.
Use Cases:
- Linking to documentation or external resources
- Redirecting to social media profiles
- Connecting to related web applications
Tip: Use link buttons sparingly to avoid leading users away from your app unnecessarily.
3. Download Button
Allow users to download files directly from your app:
st.subheader("3. Download Button")
if st.download_button("Download Me", "hello world", "hello.txt", mime='text/plain'):
st.write("Download Button Clicked")
Detailed Explanation:
-
st.download_button()
creates a button that triggers a file download when clicked. - Arguments: button label, file content, filename, and MIME type.
- The MIME type specifies the file type (e.g., 'text/plain' for .txt, 'application/pdf' for .pdf).
Use Cases:
- Downloading generated reports or data
- Saving processed images or charts
- Exporting user-created content
Tip: You can dynamically generate file content based on user interactions or data processing results.
Selection Widgets
4. Checkbox
Checkboxes are great for toggling options:
st.subheader("4. Checkbox")
checkbox_val = st.checkbox("Check Me", value=False)
if checkbox_val:
st.write("Checkbox Checked")
Detailed Explanation:
-
st.checkbox()
creates a toggle-able checkbox. - The
value
parameter sets the initial state (True/False).
Use Cases:
- Enabling/disabling features in your app
- Selecting multiple options from a list
- Creating simple yes/no questions
Tip: Use checkboxes to control the visibility of other elements in your app for a more dynamic user experience.
5. Radio Buttons
When users need to select one option from a list:
st.subheader("5. Radio")
radio_val = st.radio("Select Color", ["Red", "Green", "Blue"], index=0)
if radio_val:
st.write(f"You selected {radio_val}")
Detailed Explanation:
-
st.radio()
creates a set of radio buttons. - The first argument is the label, followed by a list of options.
-
index
specifies the default selected option (0-based).
Use Cases:
- Choosing between mutually exclusive options
- Setting app modes or themes
- Filtering data based on categories
Tip: Use radio buttons when you have a small number of options (usually 2-5) that are mutually exclusive.
6. Select box
For dropdown selections:
st.subheader("6. Selectbox")
select_val = st.selectbox("Select Color", ["Red", "Green", "Blue", "Black"], index=1)
if select_val:
st.write(f"You selected {select_val}")
Detailed Explanation:
-
st.selectbox()
creates a dropdown menu. - Similar to radio buttons, but better for longer lists of options.
-
index
sets the default selected option.
Use Cases:
- Selecting from a long list of options
- Choosing categories or filters
- Setting parameters for data analysis
Tip: You can populate the options dynamically based on data or user inputs.
7. Multi-select
Allow users to select multiple options:
st.subheader("7. Multiselect")
multiselect_val = st.multiselect("Select Colors", ["Red", "Green", "Blue", "Black"], default=["Red"])
if multiselect_val:
st.write(f"You selected {multiselect_val}")
Detailed Explanation:
-
st.multiselect()
creates a dropdown that allows multiple selections. -
default
sets the initially selected options.
Use Cases:
- Selecting multiple filters for data
- Choosing features for a machine learning model
- Creating customizable dashboards
Tip: Use st.multiselect()
when you want users to be able to select any number of options, including none or all.
8. Select Slider
For selecting from a range of discrete values:
st.subheader("8. Select Slider")
select_slider_val = st.select_slider("Select Value", options=range(1, 101), value=50)
if select_slider_val:
st.write(f"You selected {select_slider_val}")
Detailed Explanation:
-
st.select_slider()
creates a slider with discrete values. -
options
can be a range of numbers or a list of any values (even strings). -
value
sets the initial position of the slider.
Use Cases:
- Selecting from a range of predefined values
- Creating rating systems
- Adjusting parameters with specific increments
Tip: You can use custom labels for the slider by passing a list of tuples (label, value)
as options.
Text Inputs
9. Text Input
For single-line text input:
with col2:
st.subheader("9. Text Input")
text_input_val = st.text_input("Enter some text", value="", max_chars=50)
if text_input_val:
st.write(f"You entered {text_input_val}")
Detailed Explanation:
-
st.text_input()
creates a single-line text input field. -
value
sets the initial text (if any). -
max_chars
limits the number of characters that can be entered.
Use Cases:
- Getting user names or short responses
- Inputting search queries
- Entering simple parameters or values
Tip: Use the type
parameter to create password fields or other specialized inputs.
10. Text Area
For multi-line text input:
st.subheader("10. Text Area")
text_area_val = st.text_area("Enter some text", value="", height=150, max_chars=200)
if text_area_val:
st.write(f"You entered {text_area_val}")
Detailed Explanation:
-
st.text_area()
creates a multi-line text input box. -
height
sets the vertical size of the box. -
max_chars
limits the total character count.
Use Cases:
- Collecting longer text responses or comments
- Inputting multi-line code snippets
- Creating text-based data entry forms
Tip: You can use st.text_area()
with natural language processing models for text analysis or generation tasks.
Numeric and Date/Time Inputs
11. Number Input
For numerical inputs:
st.subheader("11. Number Input")
number_input_val = st.number_input("Enter a number", value=0, min_value=0, max_value=100, step=1)
if number_input_val:
st.write(f"You entered {number_input_val}")
Detailed Explanation:
-
st.number_input()
creates a field for numerical input. -
min_value
andmax_value
set the allowed range. -
step
defines the increment/decrement step.
Use Cases:
- Inputting quantities or amounts
- Setting numerical parameters for algorithms
- Creating age or rating inputs
Tip: You can use format
parameter to control the display of decimal places.
12. Date Input
For selecting dates:
st.subheader("12. Date Input")
date_input_val = st.date_input("Enter a date")
if date_input_val:
st.write(f"You selected {date_input_val}")
Detailed Explanation:
-
st.date_input()
creates a date picker widget. - You can set
min_value
andmax_value
to limit the date range.
Use Cases:
- Selecting dates for data filtering
- Setting deadlines or event dates
- Inputting birthdates or other significant dates
Tip: Use datetime.date.today()
as the default value to start with the current date.
13. Time Input
For selecting times:
st.subheader("13. Time Input")
time_input_val = st.time_input("Enter a time")
if time_input_val:
st.write(f"You selected {time_input_val}")
Detailed Explanation:
-
st.time_input()
creates a time picker widget. - Returns a
datetime.time
object.
Use Cases:
- Setting appointment times
- Configuring schedules
- Inputting time-based parameters
Tip: Combine with st.date_input()
to create full datetime inputs.
Advanced Inputs
14. File Uploader
For uploading files:
st.subheader("14. File Uploader")
file_uploader_val = st.file_uploader("Upload a file", type=["png", "jpg", "txt"])
if file_uploader_val:
st.write(f"You uploaded {file_uploader_val.name}")
Detailed Explanation:
-
st.file_uploader()
creates a file upload widget. -
type
parameter limits the allowed file types. - Returns a
UploadedFile
object that you can process.
Use Cases:
- Uploading images for processing
- Importing data files for analysis
- Allowing users to upload documents or media
Tip: Use st.file_uploader()
in combination with libraries like Pillow or pandas to process uploaded files directly in your app.
15. Color Picker
For selecting colors:
st.subheader("15. Color Picker")
color_picker_val = st.color_picker("Pick a color", value="#00f900")
if color_picker_val:
st.write(f"You picked {color_picker_val}")
Detailed Explanation:
-
st.color_picker()
creates a color selection widget. - Returns the selected color as a hex string.
Use Cases:
- Customizing UI elements
- Selecting colors for data visualization
- Creating design tools
Tip: You can use the selected color to dynamically update the appearance of other elements in your app.
16. Camera Input
For capturing images using the device's camera:
st.subheader("16. Camera Input")
camera_input_val = st.camera_input("Take a picture", help="Capture an image using your camera")
if camera_input_val:
st.write("Picture captured successfully")
Detailed Explanation:
-
st.camera_input()
creates a widget that accesses the user's camera. - Returns an image file that can be processed or displayed.
Use Cases:
- Real-time image processing applications
- Document scanning features
- Interactive computer vision demos
Tip: Combine with image processing libraries like OpenCV to perform real-time analysis on captured images.
Conclusion
Streamlit's input widgets provide a powerful and flexible way to create interactive web applications. From simple buttons to complex file uploaders and camera inputs, these widgets cover a wide range of use cases. By mastering these input types, you can create rich, interactive Streamlit apps that engage users and provide meaningful interactions with your data and models.
Happy Streamlit coding!
π Get the Code: GitHub - jamesbmour/blog_tutorials
π Related Streamlit Tutorials:JustCodeIt
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