Metadata-Version: 2.1
Name: pshnb
Version: 0.0.2
Summary: AI magic
Home-page: https://github.com/answerdotai/pshnb
Author: Jeremy Howard
Author-email: info@answer.ai
License: Apache Software License 2.0
Keywords: nbdev jupyter notebook python bash
Classifier: Development Status :: 4 - Beta
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Natural Language :: English
Classifier: Programming Language :: Python :: 3.9
Classifier: Programming Language :: Python :: 3.10
Classifier: Programming Language :: Python :: 3.11
Classifier: Programming Language :: Python :: 3.12
Classifier: Programming Language :: Python :: 3.13
Requires-Python: >=3.9
Description-Content-Type: text/markdown
License-File: LICENSE
Requires-Dist: pip
Requires-Dist: packaging
Requires-Dist: fastcore
Provides-Extra: dev

# Using `psh` magics


<!-- WARNING: THIS FILE WAS AUTOGENERATED! DO NOT EDIT! -->

`pshnb` adds `%psh` and `%%psh` functions to Jupyter and IPython, which
execute expressions in a persistent shell.

## Installation

Install pshnb with:

    pip install pshnb

Once that’s complete, you can install the magics to all IPython and
Jupyter sessions automatically by running in your terminal:

    pshnb_install

## What’s the point?

In jupyter and ipython, you can run a shell command using the `!`
prefix:

``` python
!pwd
```

    /Users/jhoward/Documents/GitHub/pshnb

However, each time you run this command, a new shell is created and then
removed, so for instance, `cd` doesn’t actually do anything if you run
another command afterwards:

``` python
!cd ..
!pwd
```

    /Users/jhoward/Documents/GitHub/pshnb

As you see from the `!pwd` output, the directory hasn’t actually
changed!

`%psh`, on the other hand, creates a *persistent* shell, which solves
this problem:

``` python
%psh pwd
```

    /Users/jhoward/Documents/GitHub/pshnb

``` python
%psh cd ..
%psh pwd
```

    /Users/jhoward/Documents/GitHub

With `%psh`, you can implement, and document in notebooks, multi-step
stateful shell interactions, including setting environment variables,
sourcing scripts, and changing directories.

## Features

### Cell magic

You can use the `%%psh` cell magic to run multi-line shell commands,
such as here-docs. For instance:

``` python
%%psh
cat > tmp << EOF
hi
there
EOF
```

This creates a file called `tmp` containing two lines. Let’s check it
worked, and then remove it – as you see, you can also use the cell magic
to run multiple commands:

``` python
%%psh
cat tmp
rm tmp
```

    hi
    there

### Variable expansion

You can pipe commands together just like in a regular shell, and use
standard unix utilities like `head` to process the output. For instance,
here we show just the first 3 lines of the directory listing:

``` python
%psh ls | head -3
```

You can use Python variables in your shell commands by prefixing them
with `@{}`. For instance, here we create a variable `n` and then display
it using `echo`:

``` python
n = 2
```

``` python
%psh echo @{n}
```

    2

Here we use `n` to show just the first two entries from the directory
listing:

``` python
%psh ls | head -@{n}
```

    ContextKit
    FastHTML-Gallery

### Background tasks

You can run commands in the background in the shell by adding `&` at the
end of a command. The parentheses `(...)` group commands together to run
as one unit. In this example, we first print “starting”, and then create
a background process that will wait for 1 second (using `sleep 1`) and
then print “finished”. The shell immediately shows us “starting” and
tells us it created background process number 1 (with a process ID):

``` python
%%psh
echo starting
(sleep 1; echo finished) &
```

    starting
    [1] 99418

For this demonstration, we wait for 1.1 seconds (slightly longer than
the background process needs). During this time, the background process
will complete in the background. But we won’t see any output from it
yet.

``` python
from time import sleep
sleep(1.1)
```

The next time we run *any* `psh` magic we will also see any output that
has occurred in our persistent shell since the last command. Run `%psh`
by itself to *only* see those updates, e.g here we see that “finished”
was printed, and the shell tells us that background job 1 completed
successfully.

``` python
%psh
```

    finished

    [1]+  Done                    ( sleep 1; echo finished )

### Flags

You can get help on the `%psh` magic’s options using `-h`.

``` python
%psh -h
```

    ::

      %psh [-h] [-r] [-o] [-x] [-X] [-s] [-S] [-t TIMEOUT] [command ...]

    Run line or cell in persistent shell

    positional arguments:
      command               The command to run

    options:
      -h, --help            Show this help
      -r, --reset           Reset the shell interpreter
      -o, --obj             Return this magic object
      -x, --expand          Enable variable expansion
      -X, --no-expand       Disable variable expansion
      -s, --sudo            Enable sudo
      -S, --no-sudo         Disable sudo
      -t TIMEOUT, --timeout TIMEOUT
                            Set timeout in seconds

You can reset the shell to its initial state using the `-r` flag. Let’s
first check our current directory:

``` python
%psh pwd
```

    /Users/jhoward/Documents/GitHub

Now let’s reset the shell:

``` python
%psh -r
```

As you can see, after resetting we’re back in our starting directory:

``` python
%psh pwd
```

    /Users/jhoward/Documents/GitHub/pshnb

The `-s` flag enables `sudo` mode, which runs commands as the root user,
and `-S` disables it. For instance, here we first enable `sudo` mode:

``` python
%psh -s
```

Then we can check which user we’re running as:

``` python
%psh whoami
```

    root

As you can see, we’re now running as `root`. We can disable `sudo` mode:

``` python
%psh -S
```

And when we check again, we’re back to our regular user:

``` python
%psh whoami
```

    jhoward

You can set a timeout (in seconds) using the `-t` flag, which will raise
a `TIMEOUT` exception if a command takes too long. For instance, here we
set a 1-second timeout:

``` python
%psh -t 1
```

Then we try to run a command that sleeps for 2 seconds – since this is
longer than our timeout, we’ll get a timeout error:

``` python
try: get_ipython().run_line_magic('psh', 'sleep 2')
except TIMEOUT: print("timed out")
```
