Provided by: hovercraft_2.7-3_all 
NAME
hovercraft - Hovercraft! Documentation
Contents:
INTRODUCTION
GUI tools are limiting
I used to do presentations with typical slideshow software, such as OpenOffice/LibreOffice
Impress, but these tools felt restricted and limiting. I need to do a lot of reorganizing
and moving around, and that might mean changing things from bullet lists to headings to
text to pictures and back to bullet lists over again. This happens through the whole
process. I might realize something that was just a bullet point needs to be a slide, or
that a set of slides for time reasons need to be shortened down to bullet points. Much of
the reorganization comes from seeing what fits on one slide and what does not, and how I
need to pace the presentation, and to some extent even what kinda of pictures I can find
to illustrate what I try to say, and if the pictures are funny or not.
Presentation software should give you complete freedom to reorganize your presentation on
every level, not only by reorganizing slides.
The solution for me and many others, is to use a text-markup language, like
reStructuredText, Markdown or similar, and then use a tool that generates an HTML slide
show from that.
Text-markup gives you the convenience and freedom to quickly move parts around as you
like.
I chose reStructuredText, because I know it and because it has a massive feature set. When
I read the documentations of other text-markup langages it was not obvious if they has the
features I needed or not.
Pan, rotate and zoom
The tools that exist to make presentations from text-markup will make slideshows that has
a sequence of slides from left to right. But the fashion now is to have presentations that
rotate and zoom in and out. One open source solution for that is impress.js.
With impress.js you can make modern cool presentations.
But impress.js requires you to write your presentation as HTML, which is annoying, and the
markup isn't flexible enough to let you quickly reorganize things from bullet points to
headings etc.
You also have to position each slide separately, and if you insert a new slide in the
middle, you have to reposition all the slides that follow.
Hovercraft!
So what I want is a tool that takes the power, flexibility and convenience of
reStructuredText and allows me to generate pan, rotate and zoom presentations with
impress.js, without having to manually reposition each slide if I reorganize a little bit
of the presentation. I couldn't find one, so I made Hovercraft.
Hovercraft’s power comes from the combination of reStructuredText’s convenience with the
cool of impress.js, together with a flexible and powerful solution to position the slides.
There are four ways to position slides:
1. Absolute positioning: You simply add X and Y coordinates to a slide, in pixels.
Doing only this will not be fun, but someone might need it.
2. Relative positioning to last slide: By specifying x and/or y with with a starting
r,you specify the distance from the previous slide. By using this form of
positioning you can insert a slide, and the other slides will just move to make
space for the new slide.
3. Relative positiong to any slide: You can reference any previous slide by its id and
specify the position relative to it. This will work for all positioning fields.
However, you should not use r as a slide id since the positioning might not behave
as you expect.
4. Automatically: If you don’t specify any position the slide will have the same
settings as the previous slide. With a relative positioning, this means the slide
will move as long as the previous slide moved. This defaults to moving 1600px to the
right, which means that if you supply no positions at all anywhere in the
presentation, you get the standard slide-to-the-left presentation.
5. With an SVG path: In this last way of positioning, you can take an SVG path from an
SVG document and stick it into the presentation, and that slide + all slides
following that has no explicit positioning will be positioned on that path. This can
be a bit fiddly to use, but can create awesome results, such as positioning the
slides as snaking Python or similar.
Hovercraft! also includes a presenter console that will show you your notes, slide
previews and the time, essential tools for any presentation.
Shortcut/Navigation Keys:
A help popup appears upon launching a presentation; it shows the keyboard shortcuts.
• H -> Toggle the help popup
• Right, Down, Page Down, Space -> Next slide
• Left, Up, Page Up -> Previous slide
• G -> Go to slide
• P -> Open presenter console
USING HOVERCRAFT!
You can either use Hovercraft! to generate the presentation as HTML in a target directory,
or you can let Hovercraft! serve the presentation from its builtin webserver.
The latter have several benefits. One is that most webbrowsers will be very reluctant to
open popup-windows from pages served from the file system. This is a security measure
which can be changed, but it's easier to just point the browser to http://localhost:8000
instead.
The second benefit is that Hovercraft! will monitor the source files for the presentation,
and if they are modified Hovercraft! will generate the presentation again automatically.
That way you don't have to run Hovercraft! everytime you save a file, you only need to
refresh the browser.
Parameters
hovercraft [-h] [-t TEMPLATE] [-c CSS] [-j JS] [-a] [-s] [-n] [-p PORT] <presentation>
[<targetdir>]
Positional arguments:
<presentation>
The path to the reStructuredText presentation file.
<targetdir>
The directory where the presentation is saved. Will be created if it does not
exist. If you do not specify a targetdir Hovercraft! will instead start a
webserver and serve the presentation from that server.
Optional arguments:
-h, --help
Show this help.
-t TEMPLATE, --template TEMPLATE
Specify a template. Must be a .cfg file, or a directory with a template.cfg
file. If not given it will use a default template.
-c CSS, --css CSS
An additional CSS file for the presentation to use. See also the :css: settings
of the presentation.
-j JS, --js JS
An additional Javascript file for the presentation to use. Added as a js-body
script. See also the :js-body: settings of the presentation.
-a, --auto-console
Open the presenter console automatically. This is useful when you are rehearsing
and making sure the presenter notes are correct. You can also set this by
having :auto-console: true first in the presentation.
-s, --skip-help
Do not show the initial help popup. You can also set this by having :skip-help:
true first in the presentation.
-n, --skip-notes
Do not include presenter notes in the output.
-p PORT, --port PORT
The address and port that the server uses. Ex 8080 or 127.0.0.1:9000. Defaults
to 0.0.0.0:8000.
--mathjax MATHJAX
The URL to the mathjax library. (It will only be used if you have rST math:: in
your document)
-N, --slide-numbers
Show the current slide number on the slide itself and in the presenter console.
You can also set this by having slide-numbers: true in the presentation
preamble.
-v, --version
Show program's version number and exit
Presenter Console
The presenter console feature is designed for showing an annotated version of the
presentation on the local laptop display, while showing the presentation itself on a
projector.
To use this feature, open the presentation in a browser, and press p. A new browser tab
will be created, and the browser focus will switch to that tab automatically. At this
point, the two tabs are linked, and the slide navigation controls will affect both tabs.
Now, you'll need to move the presenter console tab into its own browser window. With
Firefox, right-click on the tab title, and click on Move Tab --> Move to New Window. With
Chromium, drag the tab title down and the tab will be moved into a new browser window.
Finally, drag the presentation window onto the projector's part of the desktop, and press
F11 to make the presentation fullscreen.
Built in templates
There are two templates that come with Hovercraft! One is called default and will be used
unless you specify a template. This is the template you will use most of the time.
The second is called simple and right now it only lacks the Goto function. You can ignore
it.
MAKING PRESENTATIONS
A note on terminology
Traditionally a presentation is made up of slides. Calling them "slides" is not really
relevant in an impress.js context, as they can overlap and doesn't necessarily slide. The
name "steps" is better, but it's also more ambiguous. Hence impress.js uses the terms
"slide" and "step" as meaning the same thing, and so does Hovercraft!
Hovercraft! syntax
Presentations are reStructuredText files. If you are reading this documentation from the
source code, then you are looking at a reStructuredText document already.
It's fairly simple, you underline headings to mark them as headings:
This becomes a h1
=================
And this a h2
-------------
The different ways of underlining them doesn't mean anything, instead the order of them is
relevant, so the first type of underline encountered in the file will make a level 1
heading, the second type a level 2 heading and so on. In this file = is used for level 1,
and - for level 2.
You can also mark text as italic or bold, with *single asterixes* or **double asterixes**
respectively.
You can also have bullet lists:
* Bullet 1
* Bullet 1.1
* Bullet 2
* Bullet 3
And numbered lists:
1. Item 1
1.1. Item 1.1
2. Item 2
3. Item 3
You can include images:
.. image:: path/to/image.png
:height: 600px
:width: 800px
As you see you can also specify height and width and loads of other parameters, but they
are all optional.
You can also include videos:
.. raw:: html
<video width="100%" controls>
<source src="./path/to/your/video.mp4" type="video/mp4">
Your browser does not support the video element.
</video>
or audio:
.. raw:: html
<audio controls>
<source src="./path/to/your/audio.mp3" type="audio/mpeg">
Your browser does not support the audio element.
</audio>
And you can mark text as being preformatted. You do that by ending the previous row with
double colons, or have a row of double colons by itself:
::
This code here will be preformatted
and shown with a monospaced font
and all spaces preserved.
If you want to add source code, you can use the code directive, and get syntax
highlighting:
.. code:: python
def some_example_code(foo):
return foo * foo
The syntax highlighting is done by Pygments and supports lots and lots of languages.
You are also likely to want to put a title on the presentation. You do that by having a ..
title:: statement before the first slide:
.. title:: This is the presentation title
That is the most important things you'll need to know about reStructuredText for making
presentations. There is a lot more to know, and a lot of advanced features like links,
footnotes, and more. It is in fact advanced enough so you can write a whole book in it,
but for all that you need to read the documentation.
Presenter notes
To add presenter notes, that will be displayed in the presenter console, use the following
syntax:
.. note::
Here goes the presenter note.
External files
Any image file referenced in the presentation by a relative path will be copied to the
target directory, keeping it's relative path to the presentation. The same goes for images
or fonts referenced in any CSS files used by the presentation or the template.
Images or fonts referenced by absolute paths or URI's will not be copied.
Styling your Presentation
The css that is included by the default template are:
• highlight.css contains a default style for code syntax highlighting, as that otherwise
would be a lot of work. If you don't like the default colors or styles in the
highlighting, this is the file you should copy and modify.
• hovercraft.css, which only includes the bare minimum: It hides the impress.js fallback
message, the presenter notes, and sets up a useful default of having a step width be
1000 pixels wide.
For this reason you want to include your own CSS to style your slides. To include a CSS
file you add a :css:-field at the top of the presentation:
:css: css/presentation.css
You can also optionally specify that the css should be only valid for certain CSS media:
:css-screen,projection: css/presentation.css
:css-print: css/print.css
You can specify any number of css files in this way. You can also add one extra CSS-file
via a command-line parameter:
hovercraft --css=my_extra.css presentationfile.rst outdir/
Styling the console
You can also optionally add styles to your slides that are only used when the slide is
shown in the presenter console:
:css-preview: css/slidepreview.css
You can also style the presenter console itself:
:css-console: css/console.css
There are default styles that are automatic, anything you add in the file for the
css-console will just be to override the existing styling.
Adding Javascript
In a similar fashion you can add Javascript files to either header or body:
:js-header: js/firstjsfile.js
:js-body: js/secondjsfile.js
You can also add one extra Javascript-file via a command-line parameter:
hovercraft --js=my_extra.js presentationfile.rst outdir/
Adding Headers and Footers
If you want static content, content that doesn't move with each slide; for example a
header, footer, your company logo or a slide background pattern, then you can insert that
content with the header and footer commands:
.. header::
.. image:: images/company-logo.png
.. footer::
"How to use Hovercraft", Yern Busfern, ImaginaryCon 2017
The header will be located in the resulting HTML before the first slide and the footer
will be located after the last slide. However, they will be displayed statically on every
slide, and you will have to position them with CSS. By default the header will be
displayed behind the slides and the footer in front of the slides, so the header is useful
for background designs and the footer for designs that should be in the foreground.
It doesn't matter where in the presentation you add these commands, I would recommend that
you add them before the first slide.
Styling a specific slide
If you want to have specific styling for a specific slide, it is a good idea to give that
slide a unique ID:
:id: the-slide-id
You can then style that slide specifically with:
div#the-slide-id {
/* Custom CSS here */
}
If you don't give it a specific ID, it will get an ID based on its sequence number. And
that means the slide's ID will change if you insert or remove slides that came before it,
and in that case your custom stylings of that slide will stop working.
Adding a custom class to slides
If you want to apply the same style to one or more slides you may prefer adding a class to
those slides instead (or in addition to) a unique ID:
:class: my-custom-class
You can then style those slides by adding CSS rules with:
.my-custom-class {
/* Custom CSS here */
}
Adding a custom directive
If you want to use a custom docutils directive, you'll want to run hovercraft in the same
process where you register your directive. For example, you can create a custom startup
script like the following:
from docutils import nodes
from docutils.parsers.rst import Directive, directives
import hovercraft
class HelloWorld(Directive):
def run(self):
para = nodes.paragraph(text='Hello World')
return [para]
directives.register_directive('hello-world', HelloWorld)
if __name__ == "__main__":
cmd = ['--skip-help', 'slides.rst']
hovercraft.main(cmd)
While creating your own directive might be daunting, it's possible to reuse useful
directives from other projects. For example, you can reuse Pelican's custom code block,
which adds an hl_lines option to highlight specific lines of code. To use that directive,
simply add the following import to the above script:
import pelican.rstdirectives
Portable presentations
Since Hovercraft! generates HTML5 presentations, you can use any computer that has a
modern browser installed to view or show the presentation. This allows you both to put up
the presentation online and to use a borrowed computer for your conference or customer
presentation.
When you travel you don't know what equipment you have to use when you show your
presentaton, and it's surprisingly common to encounter a projector that refuses to talk to
your computer. It is also very easy to forget your dongle if you have a MacBook, and there
have even been cases of computers going completely black and dead when you connect them to
a projector, even though all other computers seem to work fine.
The main way of making sure your presentation is portable is to try it on different
browsers and different computers. But the latter can be unfeasible, not everyone has both
Windows, Linux and OS X computers at home. To help make your presentations portable it is
a good idea to define your own @font-face's and use them, so you are sure that the target
browser will use the same fonts as you do. Hovercraft! will automatically find @font-face
definitions and copy the font files to the target directory.
impress.js fields
The documentation on impress.js is contained as comments in the demo html file. It is not
always very clear, so here comes a short summary for convenience.
The different data fields that impress.js will use in 0.5.3, which is the current version,
are the following:
• data-transition-duration: The time it will take to move from one slide to another.
Defaults to 1000 (1 second). This is only valid on the presentation as a whole.
• data-perspective: Controls the "perspective" in the 3d effects. It defaults to 500.
Setting it to 0 disables 3D effects.
• data-x: The horizontal position of a slide in pixels. Can be negative.
• data-y: The vertical position of a slide in pixels. Can be negative.
• data-scale: Sets the scale of a slide, which is what creates the zoom. Defaults to 1. A
value of 4 means the slide is four times larger. In short: Lower means zooming in,
higher means zooming out.
• data-rotate-z: The rotation of a slide in the x-axis, in degrees. This will cause the
slide to be rotated clockwise or counter-clockwise.
• data-rotate: The same as data-rotate-z.
• data-rotate-x: The rotation of a slide in the x-axis, in degrees. This means you are
moving the slide in a third dimension compared with other slides. This is generally cool
effect, if used right.
• data-rotate-y: The rotation of a slide in the x-axis, in degrees.
• data-z: This controls the position of the slide on the z-axis. Setting this value to
-3000 means it's positioned -3000 pixels away. This is only useful when you use
data-rotate-x or data-rotate-y, otherwise it will only give the impression that the
slide is made smaller, which isn't really useful.
Hovercraft! specialties
Hovercraft! has some specific ways it uses reStructuredText. First of all, the
reStructuredText "transition" is used to mark the separation between different slides or
steps. A transition is simply a line with four or more dashes:
----
You don't have to use dashes, you can use any of the characters used to underline
headings, = - ` : . ' " ~ ^ _ * + #. And just as width headings, using different
characters indicates different "levels". In this way you can make a hierarchical
presentation with multiple "levels" of steps. However, impress.js does not support that,
so this is only useful if you make your own templates that uses another Javascript
library, for example Reveal.js. If you have more than one transition level with the
templates included with Hovercraft, the resulting presentation may behave strangely.
All reStructuredText fields are converted into attributes on the current tag. Most of
these will typically be ignored by the rendering to HTML, but there are two places where
the tags will make a difference, and that is by putting them first in the document, or
first on a slide.
Any fields you put first in a document will be rendered into attributes on the main
impress.js <div>. The only ones that Hovercraft! will use are data-transition-duration,
skip-help, auto-console and slide-numbers.
Any fields you put first in a slide will be rendered into attributes on the slide <div>.
This is used primarily to set the position/zoom/rotation of the slide, either with the
data-x, data-y and other impress.js settings, or the hovercraft-path setting, more on that
later.
Hovercraft! will start making the first slide when it first encounters either a transition
or a header. Everything that comes before that will belong to the presentation as a whole.
A presentation can therefore look something like this:
:data-transition-duration: 2000
:skip-help: true
.. title: Presentation Title
----
This is the first slide
=======================
Here comes some text.
----
:data-x: 300
:data-y: 2000
This is the second slide
========================
#. Here we have
#. A numbered list
#. It will get correct
#. Numbers automatically
Showing lists item by item
A common feature in presentation software is to have a list that appears item by item.
This is called "substeps" and is enabled by setting the substep class on the items to be
shown. In Hovercraft! the easiest was to do this is to use paragraphs, since you can set
the class on multiple paragraphs at once:
.. class:: substep
This paragraph will be shown when you press <next>
This will show on the second <next> press
And this will be shown third
You can also set the class just on individual paragraphs, in which case all other
paragraphs will be visible from the beginning:
This paragraph will always be visible
.. class:: substep
This paragraph will be shown when you press <next>
And this paragraph will also be always visible
.. class:: substep
And this paragraph will show second
You can also do it with bullet lists or numbered lists:
.. class:: substep
* This is an unordered list
* In two levels
* One new item will be shown on every <next> press
And, as with pagarphs you can have individual control of each item. But due to the
ReStructuredText syntax you can't have individual control on the first item of a list, it
will always be shown from the start:
#. This will be shown when you get to this slide
.. class:: substep
#. The second item shows only after you press <next>
#. This also will always be shown.
.. class:: substep
#. And this will be shown after another <next> press.
Mathematical equations
If you add a math directive then hovercraft! will add a link to the MathJax CDN so that
this:
.. math:: e^{i \pi} + 1 = 0
will be rendered by the MathJax javascript library. The math directive can also be used as
a "role" with the equations inlined with the text flow. Note that if you use the math
statement, by default the MathJax library will be loaded from the internet, meaning that
your presentation will need network connectivity to work, which can be a problem when
presenting and conferences, which often have bad network connectivity.
This can be solved by specifying a local copy of mathjax with the --mathjax command line.
Relative positioning
Hovercraft! gives you the ability to position slides relative to each other. You do this
by starting the coordinates with "r". This will position the slide 500 pixels to the right
and a thousand pixels above the previous slide:
:data-x: r500
:data-y: r-1000
Relative paths allow you to insert and remove slides and have other slides adjust
automatically. It's generally the most useful way of positioning.
Automatic positioning
If you don't specify an attribute, the slide settings will be the same as the previous
slide. This means that if you used relative positioning, the next slide will move the same
distance.
This gives a linear movement, and your slides will end up in a straight line.
By default the movement is 1600 pixels to the right, which means that if you don't
position any slides at all, you get a standard presentation where the slides will simply
slide from right to left.
SVG Paths
Hovercraft! supports positioning slides along an SVG path. This is handy, as you can
create a drawing in a software that supports SVG, and then copy-paste that drawings path
into your presentation.
You specify the SVG path with the :hovercraft-path: field. For example:
:hovercraft-path: m275,175 v-150 a150,150 0 0,0 -150,150 z
Every following slide that does not have any explicit positioning will be placed on this
path.
There are some things you need to be careful about when using SVG paths.
Relative and absolute coordinates
SVG coordinates can either be absolute, with a reference to the page origin; or relative,
which is in reference to the last point. Hovercraft! can handle both, but what it can not
handle very well is a mixture of them.
Specifically, if you take an SVG path that starts with a relative movement and extract
that from the SVG document, you will lose the context. All coordinates later must then
also be relative. If you have an absolute coordinate you then suddenly regain the context,
and everything after the first absolute coordinate will be misplaced compared to the
points that come before.
Most notable, the open source software "Inkscape" will mix absolute and relative
coordinates, if you allow it to use relative coordinates. You therefore need to go into
it's settings and uncheck the checkbox that allows you to use relative coordinates. This
forces Inkscape to save all coordinates as absolute, which will work fine.
Start position
By default the start position of the path, and hence the start position of the first
slide, will be whatever the start position would have been if the slide had no positioning
at all. If you want to change this position then just include :data-x: or :data-y: fields.
Both relative and absolute positioning will work here.
In all cases, the first m or M command of the SVG path is effectively ignored, but you
have to include it anyway.
SVG transforms
SVG allows you to draw up path and then transform it. Hovercraft! has no support for these
transforms, so before you extract the path you should make sure the SVG software doesn't
use transforms. In Inkscape you can do this by the "Simplify" command.
Other SVG shapes
Hovercraft! doesn't support other SVG shapes, just the path. This is because organising
slides in squares, etc, is quite simple anyway, and the shapes can be made into paths.
Usually in the software you will have to select the shape and tell your software to make
it into a path. In Inkscape, transforming an object into a path will generally mean that
the whole path is made of CubicBezier curves, which are unnecessarily complex. Using the
"Simplify" command in Inkscape is usually enough to make the shapes into paths.
Shape-scaling
Hovercraft! will scale the path so that all the slides that need to fit into the path will
fit into the path. If you therefore have several paths in your presentation, they will not
keep their relative sizes, but will be resized so the slides fit. If you need to have the
shapes keep their relative sizes, you need to combine them into one path.
Examples
To see how to use Hovercraft! in practice, there are three example presentations included
with Hovercraft!
hovercraft.rst
The demo presentation you can see at http://regebro.github.com/hovercraft
tutorial.rst
A step by step guide to the features of Hovercraft!
positions.rst
An explanation of how to use the positioning features.
DESIGNING YOUR PRESENTATIONS
There are several tricks to making presentations. I certainly do not claim to be an
expert, but here are some beginners hints.
Take it easy
Don't go too heavy on the zoom. Having a difference between two slides in scale of more
than 5 is rarely going to look good. It would make for a nice cool zooming effect if it
did, but this is not what browsers are designed for, so it won't.
And the 3D effects can be really cool if used well. But not all the time, it gets tiring
for the audience.
Try, if you can, to use the zoom and 3D effects when they make sense in the presentation.
You can for example mention the main topics on one slide, and then zoom in on each topic
when you discuss it in more detail. That way the effects help clarify the presentation,
rather than distract from it.
Custom fonts
Browsers tend to render things subtly differently.
They also have different default fonts, and different operating systems have different
implementations of the same fonts. So to make sure you have as much control over the
design as possible, you should always include fonts with the presentation. A good source
for free fonts are Google Webfonts. Those fonts are free and open source, so you can use
them with no cost and no risk of being sued. They can also be downloaded or included
online.
Online vs Downloaded
If you are making a presentation that is going to run on your computer at a conference or
customer meeting, always download the fonts and have them as a part of the presentation.
Put them in a folder called fonts under the folder where your presentation is.
You also need to define the font-family in your CSS. Font Squirrel's webfont generator
will provide you with a platform-independent toolkit for generating both the varius font
formats and the CSS.
If the presentation is online only, you can put an @include-statement in your CSS to
include Googles webfonts directly:
@import url(http://fonts.googleapis.com/css?family=Libre+Baskerville|Racing+Sans+One|Satisfy);
But don't use this for things you need to show on your computer, as it requires you to
have internet access.
Test with different browsers
If you are putting the presentation online, test it with a couple of major browsers, to
make sure nothing breaks and that everything still looks good. Not only are there subtle
differences in how things may get positioned, different browsers are also good at
different things.
I've tested some browsers, all on Ubuntu, and it is likely that they behave differently on
other operating systems, so you have to try for yourself.
Firefox
Firefox 18 is quite slow to use with impress.js, especially for 3D stuff, so it can have
very jerky movements from slide to slide. It does keep text looking good no matter how
much you zoom. On the other hand, it refuses to scale text infinitely, so if you scale too
much characters will not grow larger, they will instead start moving around.
Firefox 19 is better, but for 3D stuff it's still a bit slow.
Chrome
Chrome 24 is fast, but will not redraw text in different sizes, but will instead create an
image of them and rescale them, resulting in the previous slide having a fuzzy pixelated
effect.
Epiphany
Epiphany 3.4.1 is comparable to Firefox 19, possibly a bit smoother, and the text looks
good. But it has bugs in how it handles 3D data, and the location bar is visible in
fullscreen mode, making it less suitable for any sort of presentation.
TEMPLATES
Luckily, for most cases you don't need to create your own template, as the default
template is very simple and most things you need to do is doable with css. However, I
don't want Hovercraft! to set up a wall where it isn't flexible enough for your needs, so
I added support to make your own templates.
You need to create your own template if you are unsatisfied with the HTML that Hovercraft!
generates, for example if you need to use another version of HTML or if the
reStructuredText you are using isn't being rendered in a way that is useful for you.
Although if you aren't happy with the HTML generated from the reStructuredText that could
very well be a bug, so open an issue on Github for discussion.
Hovercraft! generates presentations by converting the reStructuredText into XML and then
using XSLT to translate the XML into HTML.
Templates are directories with a configuration file, a template XSL file, and any number
of CSS, JS and other resource files.
The template configuration file
The configuration file is normally called template.cfg, but if you have several
configuration files in one template directory, you can specify which one to use by
specifying the full path to the configuration file. However, if you just specify the
template directory, template.cfg will be used.
Template files are in configparser format, which is an extended ini-style format. They are
very simple, and have only one section, [hovercraft]. Any other sections will be ignored.
Many of the parameters are lists that often do not fit on one line. In that case you can
split the line up over several lines, but indenting the lines. The amount of indentation
doesn't make any difference, except aesthetically.
The parameters in the [hovercraft] section are:
• template The name of the xsl template.
• css A list of CSS filenames separated by whitespace. These files will get included in
the final file with "all" as the media specification.
• css-<media> A list of CSS filenames separated by whitespace. These files will get
included in the final file with the media given in the parameter. So the files listed
for the parameter "css-print" will get "print" as their media specification and a key
like "css-screen,print" will return media "screen,print".
• js-header A list of filenames separated by whitespace. These files will get included
in the target file as header script links.
• js-body A list of filenames separated by whitespace. These files will get included in
the target file as script links at the end of the file. The files impress.js,
impressConsole.js and hovercraft.js typically need to be included here.
• resources A list of filenames separated by whitespace that will be copied to the
target directory, but nothing else is done with them. Images and fonts used by CSS
will be copied anyway, but other resources may be added here.
• resource-directories A list of directory names separated by whitespace. These will be
treated like resources above, ie only copied to the target directory. The directory
contents will be copied recursively, but hidden files (like files starting with a .
are ignored.
An example:
[hovercraft]
template = template.xsl
css = css/screen.css
css-print = css/print.css
js-header = js/dateinput.js
js-body = js/impress.js
js/hovercraft.js
resources = images/back.png
images/forward.png
images/up.png
images/down.png
The template file
The file specified with the template parameters is the actual XSLT template that will
perform the translation from XML to HTML.
Most of the time you can just copy the default template file in
hovercraft/templates/default/template.xsl and modify it. XSLT is very complex, but
modifying the templates HTML is quite straightforward as long as you don't have to touch
any of the <xsl:...> tags.
Also, the HTML that is generated is XHTML compatible and quite straightforward, so for the
most case all you would need to generate another version of HTML, for example strict
XHTML, would be to change the doctype.
But if you need to add or change the main generated HTML you can add and change HTML
statements in this main file as you like. See for example how the little help-popup is
added to the bottom of the HTML.
If you want to change the way the reStructuredText is rendered things get slightly more
complex. The XSLT rules that convert the reStructuredText XML into HTML are contained in a
separate file, reST.xsl. For the most part you can just include it in the template file
with the following code:
<xsl:import href="resource:templates/reST.xsl" />
The resource: part here is not a part of XSLT, but a part of Hovercraft! It tells the
XSLT translation that the file specified should not be looked up on the file system, but
as a Python package resource. Currently the templates/reST.xsl file is the only XSLT
resource import available.
If you need to change the way reStructuredText is rendered you need to make a copy of that
file and modify it. You then need to make a copy of the main template and change the
reference in it to your modified XSLT file.
None of the XSLT files need to be copied to the target, and should not be listed as a
resource in the template configuration file.
AUTHOR
Lennart Regebro
COPYRIGHT
2013-2022, Lennart Regebro