lesson-template
===============
This repository is the template for creating
[Software Carpentry](http://software-carpentry.org) lessons. Do *not*
fork this repository directly on GitHub. Instead, follow the
instructions below.
## Manual Setup
We will assume that your user ID is `mcurie` and the name of your
lesson is `data-cleanup`.
1. Create an empty repository on GitHub called `data-cleanup`.
2. Clone the template repository to your computer in a directory with
the same name as your lesson identifier:
~~~
$ git clone -b gh-pages -o upstream https://github.com/swcarpentry/lesson-template.git data-cleanup
~~~
3. Go into that directory using
~~~
$ cd data-cleanup
~~~
4. Add your GitHub repository as a remote called `origin` using
~~~
$ git remote add origin https://github.com/mcurie/data-cleanup
~~~
5. Create and edit files (explained below).
6. Build the HTML pages for your lesson:
~~~
$ cd data-cleanup/pages # or just 'cd pages' if you are already in data-cleanup
$ make preview
~~~
Note that this step requires you to have installed Pandoc
(described below). Note also that it is *not* optional: you
*must* build the web pages for your lesson yourself and push
them to GitHub, rather than relying on GitHub to build them
for you.
7. Commit your changes *and the HTML pages in the root directory of
your lesson repository* and push to the `gh-pages` branch of your
repository:
~~~
$ cd data-cleanup # or 'cd ..' if you are in the 'pages' directory
$ git add pages/changed-files.md
$ git add *.html
$ git commit -m "Explanatory message"
$ git push origin gh-pages
~~~
8. Tell us where your lesson is so that we can use it and help you improve it.
Note that SSH cloning (as opposed to the HTTPS cloning used above)
will also work for those who have set up SSH keys with GitHub.
## Dependencies
Because people may choose to use the IPython Notebook, R Markdown, or
some other format for parts of their lessons, and because Jekyll (the
tool GitHub uses to build HTML pages) only supports an impoverished
form of Markdown, we require lesson authors to build the HTML pages
for their lessons on their machines with Pandoc and commit those to
the `gh-pages` branch of their lesson website. To do this:
1. [Install Pandoc](http://www.johnmacfarlane.net/pandoc/installing.html)
2. Install pandocfilters, a Python module that helps with writing
filters for Pandoc:
~~~
pip install pandocfilters
~~~
3. To convert Markdown pages in the `pages` directory into HTML pages
in the root directory, go into the `pages` directory and run:
~~~
$ make preview
~~~
You can run `make` on its own to get a list of other things it will
do for you.
## Why Use a Template?
We organize our lessons in a standard way so that:
1. To give guidance to people who aren't experienced instructional
designers. Requiring learning objectives, challenges, and a short
glossary tells people what they ought to create.
2. It's easy to find things in lessons written by different people.
3. People using lessons written by different people can easily given
them the same look and feel.
4. Contributors know where to put things when they are extending or
modifying lessons.
5. Content can be checked mechanically.
Instead of putting the whole lesson in one page, authors should create
one short page per topic. Each topic should take 10-15 minutes to
cover, and that coverage to include:
1. Explain the topic's objectives.
2. Perform the material. (We expect instructors to code live, *not*
to put lesson notes or slides on the screen.)
3. Do one or more challenges depending on time.
Along with the lesson materials themselves, each lesson must contain:
* *Introductory slides* to give learners a sense of where the next
two or three hours are going to take them.
* A *reference guide* that learners can use during the lesson and take
away afterward. This must include a glossary of terms, not only to
help learners, but also to help lesson authors summarize what the
lesson actually covers.
* A *discussion page* that mentions more advanced ideas and tells
learners where to go next.
* An *instructor's guide* that presents the lesson's legend (or back
story), summarizes our experiences with the lesson, and discusses
solutions to the challenge exercises. We ask everyone who teaches
for us to review and update the instructor's guide for each lesson
they taught after each workshop.
Note that the this means the solutions to the lesson's challenge
exercises will be up on the web. We have chosen to do this
because we believe in openness, and because there's no point
trying to hide something that's in a publicly-readable repository.
Authors may retain copyright on their lessons, but we ask that all
lessons be published under the Creative Commons - Attribution (CC-BY)
license, or put in the public domain (CC-0), to permit remixing.
## Background
There are a few things you need to know in order to understand why
this template is organized the way it is:
1. Git uses the term *clone* to mean "a copy of a repository".
GitHub uses the term *fork* to mean, "a copy of a GitHub-hosted
repo that is also hosted on GitHub", and the term *clone* to mean
"a copy of a GitHub-hosted repo that's located on someone else's
machine". In both cases, the duplicate has a remote called
`origin` that points to the original repo; other remotes can be
added manually.
2. A user on GitHub can only have one fork of a particular repo.
This is a problem for us because an author may be involved in
writing several lessons, each of which has its own website repo.
Those website repositories ought to be forks of this one, but
since GitHub doesn't allow that, we've had to find a workaround.
3. If a repository has a branch called `gh-pages` (which stands for
"GitHub pages"), then GitHub uses the HTML and Markdown files in
that branch to create a website for the repository. If the
repository's URL is `http://github.com/darwin/finches`, the URL
for the website is `http://darwin.github.io/finches`.
4. We use Markdown for writing pages because it's simple to learn,
and isn't tied to any specific language (the ReStructured Text
format popular in the Python world, for example, is a complete
unknown to R programmers). If authors want to use something else
to author their lessons (e.g., IPython Notebooks), it's up to them
to generate and commit Markdown formatted according to the rules
below.
**Note:** we do *not* prescribe what tools instructors should use
when actually teaching. The IPython Notebook, Python IDEs like
Spyder, and the GOCLI (Good Ol' Command Line Interpreter) are all
equally welcome up on stage --- all we specify is the format of
the lesson notes.
5. We use Pandoc to process pages instead of Jekyll (GitHub's default
conversion tool) because Pandoc supports a much richer dialect of
Markdown than Jekyll. Like Jekyll, Pandoc looks for a header at
the top of each page formatted like this:
~~~
---
variable: value
other_variable: other_value
---
...stuff in the page...
~~~
and inserts the values of those variables into the page when
formatting this. Lesson authors will usually not have to worry
about this.
6. Using Pandoc instead of Jekyll means that we have to compile our
Markdown into HTML on our own machines and commit it to the
`gh-pages` branch of the lesson's GitHub repository. In order to
keep our source files and generated files separate, we put our
source files in a sub-directory called `pages`, and compile them
"upward" into the root directory of the lesson's repository.
**Note:** while it's usually considered bad practice to put
computer-generated files under version control, the HTML pages put
into the lesson's root directory by Pandoc *must* be committed to
version control in order for the lesson to be displayed properly
on GitHub.
7. In order to display properly, our generated HTML pages need
artwork, CSS style files, and a few bits of Javascript. We could
load these from the web, but that would make offline authoring
difficult. Instead, each lesson's repository has a copy of these
files, and a way of updating them (and only them) on demand.
One final note: we try not to put HTML inside Markdown because it's
ugly to read and write, and error-prone to process. Instead, we put
things that ought to be in `
` blocks, like the learning
objectives and challenge exercises, in blocks indented with `>`, and
do a bit of post-processing to attach the right CSS classes to these
blocks.
## Overall Layout
Each lesson is stored in a directory laid out as described below. That
directory is a self-contained Git repository (i.e., there are no
submodules or clever tricks with symbolic links).
1. `README.md`: initially a copy of this file. It should be
overwritten with short description of the lesson.
2. `pages/`: a sub-directory containing the source of the lesson's
website. See "Pages" below.
3. `code/`, `data/`, and `fig/`: sub-directories containing sample
code, data files, and figures. See "Code, Data, and Figures"
below.
4. `css/`, `img/`, and `js/`: style sheets, artwork, and Javascript
used in the lesson's web site. See "Support Files" below.
5. `_layouts/` and `_includes/`: page templates and inclusions. See
"Support Files" below.
6. `tools/`: tools for managing lessons. See "Tools" below.
## Code, Data, and Figures
All of the software samples used in the lesson must go in a directory
called `code/`. Stand-alone data files must go in a directory called
`data/`. Groups of related data files must be put together in a
sub-directory of `data/` with a meaningful (short) name. Figures,
plots, and diagrams used in the lessons must go in a `fig/` directory.
**Notes:**
1. This mirrors the layout a scientist would use for actual work.
However, it may cause novice learners problems. If a program is
in `code/a.py`, and contains a reference to a data file
`../data/b.csv`, then if the user runs the program from the root
directory using `python code/a.py`, it will be unable to find the
data file (since the program's working directory will be the root
directory, not the `data` directory).
2. We strongly prefer SVG for line drawings, since they are smaller,
scale better, and are easier to edit. Screenshots and other raster
images must be PNG or JPEG format.
## Support Files
Files used to display the lesson, such as artwork, CSS, and
Javascript, are stored in directories of their own. We keep website
artwork separate from graphics used in the lesson's to make it simple
to update the former automatically. Most authors should not need to
modify any of the support files themselves.
The `_layouts/` directory holds the page templates used to translate
Markdown to HTML, while the `_includes/` directory holds snippets of
HTML that are used in several page layouts. These directories have
underscores at the start of their names to be consistent with Jekyll's
naming conventions, but the files they contain are for Pandoc.
## Tools
The `tools/` directory contains tools to help create and maintain
lessons:
* `tools/check`: make sure that everything is formatted properly, and
print error messages identifying problems if it's not.
## Pages
The `pages/` directory holds the content of the lesson, and must
contain:
1. `Makefile`: contains commands to check, preview, and update the
repository. Authors should not need to modify this file.
2. `index.md`: the home page for the lesson. (See "Home Page" below.)
3. `dd-slug.md`: the topics in the lesson. `dd` is a sequence number
such as `01`, `02`, etc., and `slug` is an abbreviated single-word
mnemonic for the topic. Thus, `03-filesys.md` is the third topic in
this lesson, and is about the filesystem. (Note that we use hyphens
rather than underscores in filenames.) See "Topics" below.
4. `motivation.md`: slides for a short introductory presentation (three
minutes or less) explaining what the lesson is about and why people
would want to learn it. See "Introductory Slides" below.
5. `reference.md`: a cheat sheet summarizing key terms and commands,
syntax, etc., that can be printed and given to learners. See
"Reference Guide" below.
6. `discussion.md`: notes about more advanced ideas that would
distract from the main lesson, and pointers to where to go next.
See "Discussion Page" below.
7. `instructors.md`: the instructor's guide for the lesson. See
"Instructor's Guide" below.
Note that the lesson's title is repeated in several files. We could
put this in the Makefile, and insert it into pages when compiling, but
then authors would have to edit the Makefile (which we're trying to
avoid requiring). We could also put it in some sort of configuration
file, but again, we're trying to avoid those.
### Home Page
`index.md` must be structured as follows:
---
layout: lesson
title: Lesson Title
---
Paragraph(s) of introductory material.
> ## Prerequisites
>
> What learners need to know before tackling this lesson.
## Topics
1. [Topic Title 1](01-slug.html)
2. [Topic Title 2](02-slug.html)
## Other Resources
* [Motivation](motivation.html)
* [Reference Guide](reference.html)
* [Next Steps](discussion.html)
* [Instructor's Guide](instructors.html)
**Notes:**
1. The description of prerequisites is prose for human consumption,
not a machine-comprehensible list of dependencies. We may
supplement the former with the latter once we have more experience
with this lesson format and know what we actually want to do.
2. Software installation and configuration instructions *aren't* in
the lesson, since they may be shared with other lessons. They will
be stored centrally on the Software Carpentry web site and linked
from the lessons that need them.
### Topics
Each topic page must be structured as follows:
---
layout: page
title: Lesson Title
subtitle: Topic Title
minutes: 10
---
> ## Learning Objectives {.objectives}
>
> * Learning objective 1
> * Learning objective 2
Paragraphs of text --- possibly including **definitions** ---
mixed with:
~~~ {.python}
some code:
to be displayed
~~~
and:
~~~ {.output}
output
from
program
~~~
and:
~~~ {.error}
error reports from programs (if any)
~~~
and possibly including some of these:
> ## Callout Box {.callout}
>
> An aside of some kind.
and one or more of these:
> ## Challenge Title {.challenge}
>
> Description of a single challenge.
> There may be several challenges.
**Notes:**
1. The "expected time" heading is called minutes to encourage people
to create topics that are short (10-15 minutes at most).
2. There are no sub-headings inside a topic other than the ones
shown. (If a topic needs sub-headings, it should be broken into
two or more topics.)
3. Every challenge should relate explicitly back to a learning
objective.
4. Definitions of terms are marked in **bold** (like `**this**`).
### Motivational Slides
Every lesson must include a short slide deck suitable for a short
presentation (3 minutes or less) that the instructor can use to explain
to learners how knowing the subject will help them. The slides must
be laid out like this:
---
layout: slides
title: Why Make?
---
**Notes:**
1. This is the one place where we *must* use HTML tags in our Markdown
(to delimit slides). Everything inside the section markers should
be Markdown if possible.
2. We use [deck.js](http://imakewebthings.com/deck.js/) for our slides
as it is simpler and prettier than alternatives like
[reveal.js](http://lab.hakim.se/reveal-js/).
### Reference Guide
The reference guide is a cheat sheet for learners to print, doodle on,
and take away. Its format is deliberately unconstrained for now,
since we'll need to see a few before we can decide how they ought to
be laid out (or whether they need to be laid out the same way at all).
The last section of the reference guide must be a glossary laid out as
a definition list:
---
layout: page
title: Lesson Title
subtitle: Reference
---
...commands and examples...
## Glossary
Key Word 1
: Definition of first term
Key Word 2
: Definition of second term
### Discussion Page
The discussion page
---
layout: page
title: Lesson Title
subtitle: Discussion
---
* First point of general discussion.
This may span several paragraphs.
* Second point of general discussion.
### Instructor's Guide
Learners may go through lessons outside of class, so it seems best to
keep material for instructors in a separate document, rather than
interleaved in the lesson itself. Its structure is:
---
layout: page
title: Lesson Title
subtitle: Instructor's Guide
---
## Legend
One or more paragraphs laying out the lesson's legend (i.e., the story
behind its running example).
## Overall
* Point
* Point
## [Topic Title 1](01-slug.html)
* Point
* Point
1. Discussion of first challenge.
2. Discussion of second challenge.
## [Topic Title 2](02-slug.html)
* Point
* Point
1. Discussion of first challenge.
2. Discussion of second challenge.
**Notes:**
1. The topic headings must match the topic titles. (Yes, we could
define these as variables in a configuration file and refer to those
variables everywhere, but in this case, repetition will be a lot
easier to read, and our validator can check that the titles line
up.)
2. The points can be anything: specific ways to introduce ideas, common
mistakes learners make and how to get out of them, or anything else.
3. Full solutions to the challenges do not have to be presented, but
every challenge should be discussed, and that discussion should
mention how long it typically takes to do. (Those estimates do
not go in the challenge itself, since they can increase learners'
stress levels.)