Executing notebooks

Jupyter notebooks are often saved with output cells that have been cleared. NBClient provides a convenient way to execute the input cells of an .ipynb notebook file and save the results, both input and output cells, as a .ipynb file.

In this section we show how to execute a .ipynb notebook document saving the result in notebook format. If you need to export notebooks to other formats, such as reStructured Text or Markdown (optionally executing them) see nbconvert.

Executing notebooks can be very helpful, for example, to run all notebooks in Python library in one step, or as a way to automate the data analysis in projects involving more than one notebook.

Using the Python API interface

This section will illustrate the Python API interface.

Example

Let’s start with a complete quick example, leaving detailed explanations to the following sections.

Import: First we import nbformat and the NotebookClient class:

import nbformat
from nbclient import NotebookClient

Load: Assuming that notebook_filename contains the path to a notebook, we can load it with:

nb = nbformat.read(notebook_filename, as_version=4)

Configure: Next, we configure the notebook execution mode:

client = NotebookClient(nb, timeout=600, kernel_name='python3', resources={'metadata': {'path': 'notebooks/'}})

We specified two (optional) arguments timeout and kernel_name, which define respectively the cell execution timeout and the execution kernel. Usually you don’t need to set these options, but these and other options are available to control execution context. Note that path specifies in which folder to execute the notebook.

Execute/Run: To actually run the notebook we call the method execute:

client.execute()

Hopefully, we will not get any errors during the notebook execution (see the last section for error handling). This notebook will now have its cell outputs populated with the result of running each cell.

Save: Finally, save the resulting notebook with:

nbformat.write(nb, 'executed_notebook.ipynb')

That’s all. Your executed notebook will be saved in the current folder in the file executed_notebook.ipynb.

Execution arguments (traitlets)

The arguments passed to NotebookClient are configuration options called traitlets. There are many cool things about traitlets. For example, they enforce the input type, and they can be accessed/modified as class attributes.

Let’s now discuss in more detail the two traitlets we used.

The timeout traitlet defines the maximum time (in seconds) each notebook cell is allowed to run, if the execution takes longer an exception will be raised. The default is 30 s, so in cases of long-running cells you may want to specify an higher value. The timeout option can also be set to None or -1 to remove any restriction on execution time.

The second traitlet, kernel_name, allows specifying the name of the kernel to be used for the execution. By default, the kernel name is obtained from the notebook metadata. The traitlet kernel_name allows specifying a user-defined kernel, overriding the value in the notebook metadata. A common use case is that of a Python 2/3 library which includes documentation/testing notebooks. These notebooks will specify either a python2 or python3 kernel in their metadata (depending on the kernel used the last time the notebook was saved). In reality, these notebooks will work on both Python 2 and Python 3, and, for testing, it is important to be able to execute them programmatically on both versions. Here the traitlet kernel_name helps simplify and maintain consistency: we can just run a notebook twice, specifying first “python2” and then “python3” as the kernel name.

Hooks before and after notebook or cell execution

There are several configurable hooks that allow the user to execute code before and after a notebook or a cell is executed. Each one is configured with a function that will be called in its respective place in the execution pipeline. Each is described below:

Notebook-level hooks: These hooks are called with a single extra parameter:

• notebook=NotebookNode: the current notebook being executed.

Here is the available hooks:

• on_notebook_start will run when the notebook client is initialized, before any execution has happened.

• on_notebook_complete will run when the notebook client has finished executing, after kernel cleanup.

• on_notebook_error will run when the notebook client has encountered an exception before kernel cleanup.

Cell-level hooks: These hooks are called with at least two parameters:

• cell=NotebookNode: a reference to the current cell.

• cell_index=int: the index of the cell in the current notebook’s list of cells.

Here are the available hooks:

• on_cell_start will run for all cell types before the cell is executed.

• on_cell_execute will run right before the code cell is executed.

• on_cell_complete will run after execution, if the cell is executed with no errors.

• on_cell_executed will run right after the code cell is executed.

• on_cell_error will run if there is an error during cell execution.

on_cell_executed and on_cell_error are called with an extra parameter execute_reply=dict.

Handling errors and exceptions

In the previous sections we saw how to save an executed notebook, assuming there are no execution errors. But, what if there are errors?

Execution until first error

An error during the notebook execution, by default, will stop the execution and raise a CellExecutionError. Conveniently, the source cell causing the error and the original error name and message are also printed. After an error, we can still save the notebook as before:

nbformat.write(nb, 'executed_notebook.ipynb')

The saved notebook contains the output up until the failing cell, and includes a full stack-trace and error (which can help debugging).

Handling errors

A useful pattern to execute notebooks while handling errors is the following:

from nbclient.exceptions import CellExecutionError

try:
    client.execute()
except CellExecutionError:
    msg = 'Error executing the notebook "%s".\n\n' % notebook_filename
    msg += 'See notebook "%s" for the traceback.' % notebook_filename_out
    print(msg)
    raise
finally:
    nbformat.write(nb, notebook_filename_out)

This will save the executed notebook regardless of execution errors. In case of errors, however, an additional message is printed and the CellExecutionError is raised. The message directs the user to the saved notebook for further inspection.

Execute and save all errors

As a last scenario, it is sometimes useful to execute notebooks which raise exceptions, for example to show an error condition. In this case, instead of stopping the execution on the first error, we can keep executing the notebook using the traitlet allow_errors (default is False). With allow_errors=True, the notebook is executed until the end, regardless of any error encountered during the execution. The output notebook, will contain the stack-traces and error messages for all the cells raising exceptions.

Widget state

If your notebook contains any Jupyter Widgets, the state of all the widgets can be stored in the notebook’s metadata. This allows rendering of the live widgets on for instance nbviewer, or when converting to html.

We can tell nbclient to not store the state using the store_widget_state argument:

client = NotebookClient(nb, store_widget_state=False)

This widget rendering is not performed against a browser during execution, so only widget default states or states manipulated via user code will be calculated during execution. %%javascript cells will execute upon notebook rendering, enabling complex interactions to function as expected when viewed by a UI.

If you can’t view widget results after execution, you may need to select Trust Notebook under the File menu.

Using a command-line interface

This section will illustrate how to run notebooks from your terminal. It supports the most basic use case. For more sophisticated execution options, consider the papermill library.

This library’s command line tool is available by running jupyter execute. It expects notebooks as input arguments and accepts optional flags to modify the default behavior.

Running a notebook is this easy.:

jupyter execute notebook.ipynb

You can pass more than one notebook as well.:

jupyter execute notebook.ipynb notebook2.ipynb

By default, notebook errors will be raised and printed into the terminal. You can suppress them by passing the --allow-errors flag.:

jupyter execute notebook.ipynb --allow-errors

Other options allow you to modify the timeout length and dictate the kernel in use. A full set of options is available via the help command.:

jupyter execute --help

An application used to execute notebook files (*.ipynb)

Options
=======
The options below are convenience aliases to configurable class-options,
as listed in the "Equivalent to" description-line of the aliases.
To see all configurable class-options for some <cmd>, use:
    <cmd> --help-all

--allow-errors
    Errors are ignored and execution is continued until the end of the notebook.
    Equivalent to: [--NbClientApp.allow_errors=True]
--timeout=<Int>
    The time to wait (in seconds) for output from executions. If a cell
    execution takes longer, a TimeoutError is raised. ``-1`` will disable the
    timeout.
    Default: None
    Equivalent to: [--NbClientApp.timeout]
--startup_timeout=<Int>
    The time to wait (in seconds) for the kernel to start. If kernel startup
    takes longer, a RuntimeError is raised.
    Default: 60
    Equivalent to: [--NbClientApp.startup_timeout]
--kernel_name=<Unicode>
    Name of kernel to use to execute the cells. If not set, use the kernel_spec
    embedded in the notebook.
    Default: ''
    Equivalent to: [--NbClientApp.kernel_name]

To see all available configurables, use `--help-all`.