Conda for teaching: Difference between revisions
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Kernel definitions are usually a separate folder containing, in particular, a file called `kernel.json`, plus an icon that is displayed that represents this kernel, and other helper code. | Kernel definitions are usually a separate folder containing, in particular, a file called `kernel.json`, plus an icon that is displayed that represents this kernel, and other helper code. | ||
The setup for this is that you should create the following folder for their access: | |||
This is something they will need to copy in place to their home directory, specifically $HOME/.local/share/jupyter/kernels/ | <source lang='bash'> | ||
mkdir -p /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env | |||
chmod +r /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env | |||
</source> | |||
This folder is something they will need to copy in place to their home directory, specifically $HOME/.local/share/jupyter/kernels/ | |||
Inside this folder, create the following kernel.json file. Watch out that the paths will need to match the current environment path if you're using a different location! | |||
=== Python Kernel === | |||
<source lang='bash'> | |||
vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.json | |||
</source> | |||
<source lang='bash'> | <source lang='bash'> | ||
{ | { | ||
Line 86: | Line 99: | ||
</source> | </source> | ||
kernel.js | For Python, that's it. Ipykernel is installed automatically on conda initialisation. | ||
=== R Kernel === | |||
For an R kernel, you need to make sure that the IRkernel package is installed. This is the package that is used to communicate from Jupyter to your running R kernel.<source lang='bash'> | |||
#MISSING EXAMPLE CODE | |||
#PROBABLY /cm/shared/apps/SHARED/my_conda_env/bin/conda install R_irkernel | |||
</source> | |||
You'll also need to create two files. the kernel.js is a helper script to allow jupyter to communicate to R effectively: | |||
<source lang='bash'> | |||
vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.json | |||
</source> | |||
<source lang='bash'> | |||
{ | |||
"env": { | |||
"LD_LIBRARY_PATH": | |||
"/cm/shared/apps/SHARED/my_conda_env/lib:/cm/shared/apps/SHARED/my_conda_env/lib64" | |||
}, | |||
"argv": ["/cm/shared/apps/SHARED/my_conda_env/bin/R", "--slave", "-e", "IRkernel::main()", "--args", "{connection_file}"], | |||
"display_name": "MAE50806-AdvMolEcol/Sandbox_R", | |||
"language": "R" | |||
} | |||
</source> | |||
<source lang='bash'> | |||
vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.js | |||
</source> | |||
<source lang='bash'> | <source lang='bash'> | ||
const cmd_key = /Mac/.test(navigator.platform) ? 'Cmd' : 'Ctrl' | const cmd_key = /Mac/.test(navigator.platform) ? 'Cmd' : 'Ctrl' | ||
Line 167: | Line 208: | ||
}, | }, | ||
})) | })) | ||
</source> | |||
== Last Steps == | |||
In order to help your students get their kernel definitions into $HOME/.local/share/jupyter/kernels/, it's probably a good idea to write a small and simple notebook to do this when executed, or else instruct them to do: | |||
<source lang='bash'> | |||
cp -rv /cm/shared/apps/SHARED/my_conda_env/kernel/* .local/share/jupyter/kernels/ | |||
</source> | </source> |
Revision as of 09:59, 27 May 2020
You are going to give a teaching course, and you need a specific code environment.
Setup
First - find a good location that everyone can read (and not write). I'd suggest somewhere under /cm/shared/apps/SHARED/ as a starting point - this allows everyone to access this location. It's important not to put anything secret there - it's a public resource, so please bear that in mind.
Next - create a folder for your environment:
<source lang='bash'> mkdir /cm/shared/apps/SHARED/my_conda_env chmod +r /cm/shared/apps/SHARED/my_conda_env </source> You may want to manipulate the permissions for this folder if someone is going to set this up with you. Consider the commands in Shared Folders.
Then, install Anaconda into it:
<source lang='bash'> wget https://repo.anaconda.com/archive/Anaconda3-YEAR.MONTH-Linux-x86_64.sh ./Anaconda3-YEAR.MONTH-Linux-x86_64.sh -s -b -p /cm/shared/apps/SHARED/my_conda_env </source>
Now you have a working conda environment in this folder. You can manipulate this here by running /cm/shared/apps/SHARED/my_conda_env/bin/conda , or, I would recommend creating a modulefile so that you can use it as default.
Create the following example modulefile in a matching /cm/shared/modulefiles/SHARED/my_conda_env :
<source lang='bash'>
- %Module -*- tcl -*-
- conda environment modulefile
set loadedmodules [split $::env(LOADEDMODULES) ":"] set modulepath [split $ModulesCurrentModulefile "/"] set envpath [lrange $modulepath 4 end]
set root /cm/shared/apps/[join $envpath "/"]
proc ModulesHelp { } {
global version
puts stderr "\tThis module provides the conda environment at $envpath"
}
if { [module-info mode] != "whatis" } {
puts stderr "[module-info mode] environent $envpath ."
}
module-whatis "Provides environment $envpath"
prepend-path PATH $root/bin
prepend-path LD_LIBRARY_PATH $root/lib
prepend-path LIBRARY_PATH $root/lib
prepend-path CPATH $root/include
prepend-path MANPATH $root/share/man
</source>
This will allow you to `module load SHARED/my_conda_env` and thus have `conda` pathed to the currently active environment.
Jupyter Kernel
In order for students to be able to use this environment in jupyter, they will need a kernel definition.
Kernel definitions are usually a separate folder containing, in particular, a file called `kernel.json`, plus an icon that is displayed that represents this kernel, and other helper code.
The setup for this is that you should create the following folder for their access:
<source lang='bash'> mkdir -p /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env chmod +r /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env </source>
This folder is something they will need to copy in place to their home directory, specifically $HOME/.local/share/jupyter/kernels/
Inside this folder, create the following kernel.json file. Watch out that the paths will need to match the current environment path if you're using a different location!
Python Kernel
<source lang='bash'> vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.json </source> <source lang='bash'> {
"env": { "PATH":
"/cm/shared/apps/SHARED/my_conda_env/bin:/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin" },
"language": "python", "argv": [ "/cm/shared/apps/SHARED/my_conda_env/bin/python", "-m", "ipykernel", "-f", "{connection_file}" ], "display_name": "my_conda_env"
} </source>
For Python, that's it. Ipykernel is installed automatically on conda initialisation.
R Kernel
For an R kernel, you need to make sure that the IRkernel package is installed. This is the package that is used to communicate from Jupyter to your running R kernel.<source lang='bash'>
- MISSING EXAMPLE CODE
- PROBABLY /cm/shared/apps/SHARED/my_conda_env/bin/conda install R_irkernel
</source>
You'll also need to create two files. the kernel.js is a helper script to allow jupyter to communicate to R effectively:
<source lang='bash'> vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.json </source> <source lang='bash'> {
"env": { "LD_LIBRARY_PATH": "/cm/shared/apps/SHARED/my_conda_env/lib:/cm/shared/apps/SHARED/my_conda_env/lib64" }, "argv": ["/cm/shared/apps/SHARED/my_conda_env/bin/R", "--slave", "-e", "IRkernel::main()", "--args", "{connection_file}"], "display_name": "MAE50806-AdvMolEcol/Sandbox_R", "language": "R"
} </source>
<source lang='bash'> vim /cm/shared/apps/SHARED/my_conda_env/kernel/my_conda_env/kernel.js </source> <source lang='bash'> const cmd_key = /Mac/.test(navigator.platform) ? 'Cmd' : 'Ctrl'
const edit_actions = [ { name: 'R Assign', shortcut: 'Alt--', icon: 'fa-long-arrow-left', help: 'R: Inserts the left-assign operator (<-)', handler(cm) { cm.replaceSelection(' <- ') }, }, { name: 'R Pipe', shortcut: `Shift-${cmd_key}-M`, icon: 'fa-angle-right', help: 'R: Inserts the magrittr pipe operator (%>%)', handler(cm) { cm.replaceSelection(' %>% ') }, }, { name: 'R Help', shortcut: 'F1', icon: 'fa-book', help: 'R: Shows the manpage for the item under the cursor', handler(cm, cell) { const {anchor, head} = cm.findWordAt(cm.getCursor()) const word = cm.getRange(anchor, head)
const callbacks = cell.get_callbacks() const options = {silent: false, store_history: false, stop_on_error: true} cell.last_msg_id = cell.notebook.kernel.execute(`help(\`${word}\`)`, callbacks, options) }, }, ]
const prefix = 'irkernel'
function add_edit_shortcut(notebook, actions, keyboard_manager, edit_action) { const {name, shortcut, icon, help, handler} = edit_action
const action = { icon, help, help_index : 'zz', handler: () => { const cell = notebook.get_selected_cell() handler(cell.code_mirror, cell) }, }
const full_name = actions.register(action, name, prefix)
Jupyter.keyboard_manager.edit_shortcuts.add_shortcut(shortcut, full_name) }
function render_math(pager, html) { if (!html) return const $container = pager.pager_element.find('#pager-container') $container.find('p[style="text-align: center;"]').map((i, e) => e.outerHTML = `\\[${e.querySelector('i').innerHTML}\\]`) $container.find('i').map((i, e) => e.outerHTML = `\\(${e.innerHTML}\\)`) MathJax.Hub.Queue(['Typeset', MathJax.Hub, $container[0]]) }
define(['base/js/namespace'], ({ notebook, actions, keyboard_manager, pager, }) => ({ onload() { edit_actions.forEach(a => add_edit_shortcut(notebook, actions, keyboard_manager, a))
pager.events.on('open_with_text.Pager', (event, {data: {'text/html': html}}) => render_math(pager, html)) }, })) </source>
Last Steps
In order to help your students get their kernel definitions into $HOME/.local/share/jupyter/kernels/, it's probably a good idea to write a small and simple notebook to do this when executed, or else instruct them to do:
<source lang='bash'> cp -rv /cm/shared/apps/SHARED/my_conda_env/kernel/* .local/share/jupyter/kernels/ </source>