Write a marimo notebook in a Python file in the right format.
marimo uses Python to create notebooks, unlike Jupyter which uses JSON. Here's an example notebook:
# /// script
# dependencies = [
# "marimo",
# "numpy==2.4.3",
# ]
# requires-python = ">=3.14"
# ///
import marimo
__generated_with = "0.20.4"
app = marimo.App(width="medium")
@app.cell
def _():
import marimo as mo
import numpy as np
return mo, np
@app.cell
def _():
print("hello world")
return
@app.cell
def _(np, slider):
np.array([1,2,3]) + slider.value
return
@app.cell
def _(mo):
slider = mo.ui.slider(1, 10, 1, label="number to add")
slider
return (slider,)
@app.cell
def _():
return
if __name__ == "__main__":
app.run()
Notice how the notebook is structured with functions can represent cell contents. Each cell is defined with the @app.cell decorator and the inputs/outputs of the function are the inputs/outputs of the cell. marimo usually takes care of the dependencies between cells automatically.
# Run as script (non-interactive, for testing)
uv run <notebook.py>
# Run interactively in browser
uv run marimo run <notebook.py>
# Edit interactively
uv run marimo edit <notebook.py>
Use mo.app_meta().mode == "script" to detect CLI vs interactive:
@app.cell
def _(mo):
is_script_mode = mo.app_meta().mode == "script"
return (is_script_mode,)
Show all UI elements always. Only change the data source in script mode.
if not is_script_mode conditionals# Always show the widget
@app.cell
def _(ScatterWidget, mo):
scatter_widget = mo.ui.anywidget(ScatterWidget())
scatter_widget
return (scatter_widget,)
# Only change data source based on mode
@app.cell
def _(is_script_mode, make_moons, scatter_widget, np, torch):
if is_script_mode:
# Use synthetic data for testing
X, y = make_moons(n_samples=200, noise=0.2)
X_data = torch.tensor(X, dtype=torch.float32)
y_data = torch.tensor(y)
data_error = None
else:
# Use widget data in interactive mode
X, y = scatter_widget.widget.data_as_X_y
# ... process data ...
return X_data, y_data, data_error
# Always show sliders - use their .value in both modes
@app.cell
def _(mo):
lr_slider = mo.ui.slider(start=0.001, stop=0.1, value=0.01)
lr_slider
return (lr_slider,)
# Auto-run in script mode, wait for button in interactive
@app.cell
def _(is_script_mode, train_button, lr_slider, run_training, X_data, y_data):
if is_script_mode:
# Auto-run with slider defaults
results = run_training(X_data, y_data, lr=lr_slider.value)
else:
# Wait for button click
if train_button.value:
results = run_training(X_data, y_data, lr=lr_slider.value)
return (results,)
Variables between cells define the reactivity of the notebook for 99% of the use-cases out there. No special state management needed. Don't mutate objects across cells (e.g., my_list.append()); create new objects instead. Avoid mo.state() unless you need bidirectional UI sync or accumulated callback state. See STATE.md for details.
if StatementsMarimo's reactivity means cells only run when their dependencies are ready. Don't add unnecessary guards:
# BAD - the if statement prevents the chart from showing
@app.cell
def _(plt, training_results):
if training_results: # WRONG - don't do this
fig, ax = plt.subplots()
ax.plot(training_results['losses'])
fig
return
# GOOD - let marimo handle the dependency
@app.cell
def _(plt, training_results):
fig, ax = plt.subplots()
ax.plot(training_results['losses'])
fig
return
The cell won't run until training_results has a value anyway.
Don't wrap code in try/except blocks unless you're handling a specific, expected exception. Let errors surface naturally.
# BAD - hiding errors behind try/except
@app.cell
def _(scatter_widget, np, torch):
try:
X, y = scatter_widget.widget.data_as_X_y
X = np.array(X, dtype=np.float32)
# ...
except Exception as e:
return None, None, f"Error: {e}"
# GOOD - let it fail if something is wrong
@app.cell
def _(scatter_widget, np, torch):
X, y = scatter_widget.widget.data_as_X_y
X = np.array(X, dtype=np.float32)
# ...
Only use try/except when:
Marimo only renders the final expression of a cell. Indented or conditional expressions won't render:
# BAD - indented expression won't render
@app.cell
def _(mo, condition):
if condition:
mo.md("This won't show!") # WRONG - indented
return
# GOOD - final expression renders
@app.cell
def _(mo, condition):
result = mo.md("Shown!") if condition else mo.md("Also shown!")
result # This renders because it's the final expression
return
Notebooks created via marimo edit --sandbox have these dependencies added to the top of the file automatically but it is a good practice to make sure these exist when creating a notebook too:
# /// script
# requires-python = ">=3.12"
# dependencies = [
# "marimo",
# "torch>=2.0.0",
# ]
# ///
When working on a notebook it is important to check if the notebook can run. That's why marimo provides a check command that acts as a linter to find common mistakes.
uvx marimo check <notebook.py>
Make sure these are checked before handing a notebook back to the user.
Important: you have a tendency to over-do variables with an underscore prefix. You should only apply this to one or two variables at most. Consider creating a new variable instead of prefixing entire cells in marimo.
If the user specifically wants you to use a marimo function, you can locally check the docs via:
uv --with marimo run python -c "import marimo as mo; help(mo.ui.form)"
By default, marimo discovers and executes tests inside your notebook.
When the optional pytest dependency is present, marimo runs pytest on cells that
consist exclusively of test code - i.e. functions whose names start with test_.
If the user asks you to add tests, make sure to add the pytest dependency is added and that
there is a cell that contains only test code.
For more information on testing with pytest see PYTEST.md
Once tests are added, you can run pytest from the commandline on the notebook to run pytest.
pytest <notebook.py>