Need to install AsciiBinder? Check out that section of the Author’s Guide.

Want to learn how to set up and maintain an AsciiBinder based docs repo? Read on…​

Creating a New Repo

To create a new, bare docs repo that will work with AsciiBinder, run the 'create' command:

$ asciibinder create <repo_dir>

This command does the following things:

  1. Creates the indicated repo directory

  2. Copies the minimal set of necessary files into the repo directory

  3. Instantiates the repo directory as a git repository

Be aware that before you can use this repo, at a minimum, you will need to add the generated files to a commit and then commit them to the local repository:

$ git add .
$ git commit -m "Initial commit on new docs repo"

AsciiBinder doesn’t do this for you, because you may want to do some things to the repo or to the generated files before the first commit. Just keep this in mind:

The build, package and watch commands won’t work until there is at least one commit in the new docs repo.

What’s with the Underscores?

If you look in the newly generated repo directory, you will notice a lot of files and directories with underscores in front of their names:

$ asciibinder create foo
Created new repo in foo.

$ cd foo
$ ls
_distro_map.yml _images index-main.html _javascripts _stylesheets _templates _topic_map.yml welcome

Because the primary purpose of the repo directory is to store documentation, necessary files that are not part of the documentation are made visually distinct with the leading underscore. Documentation authors will need to make changes to _topic_map.yml (as documented in the Author’s Guide), but the rest of the "underscore files" are only of interest to docs system maintainers.

Distros, Versions, and Sites: _distro_map.yml

These are the three primary concepts that a maintainer needs to understand as they configure and manage an AsciiBinder-based docs repo:


Different but very similar versions of the same documentation set ('free' versus 'commercial' as one example). The primary idea being that some amount of the documentation may need to be conditionalized, but for the most part the docs are the same.


Specific, published versions of a given distro. AsciiBinder uses git branches to capture the state of the docs repo for each version.


Collections of one or more distros that will be published to the same website. Every published version of the referenced distros will be published on the site.

AsciiBinder tracks all of these in a single file, called _distro_map.yml. Here is the default version of this file, which is copied into your docs repo when you run asciibinder create:

ascii_binder: (1)
  name: AsciiBinder Doc Project
  author: AsciiBinder Team <>
  site: main (2)
  site_name: Home
    master: (3)
      name: Latest (4)
      dir: latest (5)
1 System name of distro, used when conditionalizing content on a per-distro basis.
2 System name of site, used to pick up the correct index file and organize the included distros.
3 Git branch name that represents a version of this distro
4 User-readable name of this version of this distro
5 Directory on the site where this version of this distro should go

The above represents a very simple use case: one distro, one version, and one site to host it. For a more complex example, where mutliple distros, versions and sites are in play, here is a snapshot of the distro map for OpenShift documentation:

openshift-origin: (1)
  name: OpenShift Origin
  author: OpenShift Documentation Project <>
  site: community (2)
  site_name: OpenShift Community Documentation
  branches: (3)
      name: Latest
      dir: latest
      name: Milestone 5
      dir: stable
openshift-online: (1)
  name: OpenShift Online
  author: OpenShift Documentation Project <>
  site: commercial (2)
  site_name: OpenShift Product Documentation
      name: Latest
      dir: online
openshift-enterprise: (1)
  name: OpenShift Enterprise
  author: OpenShift Documentation Project <>
  site: commercial (2)
  site_name: OpenShift Product Documentation
      name: '3.0'
      dir: enterprise/3.0 (4)
1 System names of distributions
2 System names of sites
3 A distribution with multiple versions represented by git branches
4 A version of a distro where the document root is two levels deep on the site

Every time you want to add a new distro or distro version to your published documentation, and every time you want to redistribute distros across one or more web sites, you will need to modify the _distro_map.yml file accordingly.

Sites and Homepages

Websites generated by AsciiBinder are static, meaning that they are generated as a collection of related HTML files that can be copied to any webserver. For every site that you define in the _distro_map.yml file, you will need to create a separate home page. All of the home pages live in the root directory of your docs repo and follow a specific naming convention:


Where site is the site system name from the distro map file. As an example, when you create a new docs repo with asciibinder create, the repo contains an index-main.html file, which corresponds with the "main" site identifier in the new repo’s distro map. If you have multiple distros that are published on different sites, you’ll have one index file for each.

In order to give site designers maximum flexiblity in creating the docs site homepages, these pages are raw HTML and are not handled by an AsciiDoc generator at all. The sample homepage that is placed by an asciibinder create action uses Bootstrap to enable some styling and dynamic features, but there’s nothing to prevent you from completely rewriting this page.

While AsciiBinder makes use of git branches to track different versions of your docs, the site index.html files always come from the master branch. The assumption here is that since the site homepage is not specifically linked to a version of your documentation, that it doesn’t make sense to look at the versions of site index pages that get stored in the various version branches of your repo.

Site File Organization

When you run asciibinder package, a directory called _package is created in your docs repo if it doesn’t already exist. Under that directory is a directory for each site defined in _distro_map.yml. The general layout looks like this:

   +-> site1/
   +-> siteN/
         +-> index.html
         +-> sitemap.xml
         +-> _stylesheets/
         +-> _javascripts/
         +-> _images/
         +-> versionA/
         +-> versionB/
                +-> _stylesheets/
                +-> _javascripts/
                +-> _images/
                +-> topic_group1/
                |        |
                |        +-> topic1
                |        +-> topicN
                +-> topic_groupX/
                         +-> subtopic_groupN/
                                    +-> subtopicN

There are a few items to note here that may otherwise throw you off.

Asset Directory Names

The _stylesheets, _javascripts, and _images directories from your docs repo appear in two places:

  1. In the root directory of the site

  2. In the root directory of each docs version

The primary reasoning here is this:

The site homepage will always be using assets from the master branch, so the asset directories in the site root are always the master branch copies. Meanwhile, different versions of the documentation set will be using site assets relevant to that version, so the version specific copies of those directories are copied from the version branch.

Landing Pages

Aside frome the site homepage, AsciiBinder doesn’t generate or support the idea of a per distro + version landing page. Instead, you will want to set up some redirect rules on the webserver where your docs set is hosted.

By convention, AsciiBinder docs repos use a topic file called 'index' under a topic group called 'welcome' to serve as this landing page, and then use a redirect rule to send users there when they try some of the more obvious shortcuts. For instance, on

  • Every version directory redirects to the welcome/index page: ⇒

  • Every topic group directory redirects to the 'index' topic in that group dir.

Depending on which web server you are running, and the organization of your documentation, your specific redirect rules will vary.

Styling Your Docs

AsciiBinder uses Tilt and ERB to give you a fair amount of flexibility in the appearance of your docs. The only specific expectation of AsciiBinder is that you will have a page called page.html.erb under the _templates directory in your docs repo.

You will nead to learn a little about Ruby templating to make this all work, but there are some good examples in the templates used by the AsciiBinder docs repo and the OpenShift docs repo.

Into every page, AsciiBinder passes the following variables:


The system name of the current distro.


The display name of the current distro.


The display name of the current version.


The display name of the current site.


A unique ID for the current group based on CamelCasing of the group dislay name.


The display name of the current topic group.


If this topic is part of a subgroup, a unique ID for the current subgroup based on CamelCasing, in the form ParentGroupID::SubGroupID. Otherwise nil.


If this topic is part of a subgroup, the display name of the subgroup. Otherwise nil.


A unique ID for the current topic based on CamelCasing, in the form ParentGroupID::TopicName. Note that if this is a subtopic, the ID will be MainGroupID::SubGroupID::TopicName.


The display name of the current topic.


The title text from the first line of the topic file.


The rendered HTML content of the topic file without headers, footers, or main title.


A Ruby array containing the complete navigation information for the docs set. (See Working with the Navigation Array)


The relative path to the _stylesheets directory from the current topic.


The relative path to the _javascripts directory from the current topic.


The relative path to the _images directory from the current topic.


The full path to the repo _templates directory, for invoking other templates from page.html.erb.


The complete relative path to the site homepage, including index.html.

These values can be used to supply topic content, navigational controls and other dyanmic page elements.

Working with the Navigation Array

In the AsciiBinder docs repo, the page.html.erb template hands off the work of rendering the left-hand navigational controls to a sub-template called _nav.html.erb. The page template passes along the navigation variable into this subtemplate.

The navigation structure for an early version of this docs set looked like this:

  { :name   => "Project Info",
    :id     => "ProjectInfo",
    :topics => [
                 { :path => "../welcome/index.html",
                   :name => "Welcome",
                   :id   => "ProjectInfo::Welcome"
                 { :path => "../welcome/philosophy.html",
                   :name => "Philosophy",
                   :id   => "ProjectInfo::Philosophy"
  { :name   => "Guides",
    :id     => "Guides",
    :topics => [
                 { :path => "../guides/user_guide.html",
                   :name => "For Authors",
                   :id   => "Guides::ForAuthors"
                 { :path => "../guides/maintainer_guide.html",
                   :name => "For Maintainers",
                   :id   => "Guides::ForMaintainers"

If this site used subtopic groups, then the navigation structure for the parent topic might look like this:

  { :name   => "Parent Group",
    :id     => "ParentGroup",
    :topics => [
                 { :name   => "Subtopic Group",
                   :id     => "ParentGroup::SubTopicGroup",
                   :topics => [ (1)
                                { :path => "../../parentdir/subdir/subtopic.html",
                                  :name => "Sub Topic",
                                  :id   => "ParentGroup::SubTopicGroup::SubTopic"
1 The presence of the :topics key within a topic item tells us that this is a subtopic group.

With this in mind, use the _nav.html.erb file linked above as a reference for how to iterate through the navigation object and render navigation controls on your pages.

Creating a New Version (Branch) of Your Docs

Using AsciiBinder, you can generate multiple distros (variations) of your documentation from a single git branch. However, as you release new versions of your project or product, you will want to capture the state of the documentation in a way that is easy to rebuild and easy to fix with errata and late-to-the-release changes.

Creating the Branch

The actual process of creating the branch is the standard process for branch creation under git:

$ git checkout -b <new_branch_name>

As a best practice, especially when your docs set supports multiple distros, consider using a branch name like:


This way, as you create branches for different versions of the various distros, you will not be confused about which git branches belong to which distros.

Once the git branch is created, make sure to add information about the new version to the _distro_map.yml file on the master branch. This is very important, so it is worth repeating:

When you build or package your docs, AsciiBinder reads _distro_map.yml only once - from the working branch (master by default).

The format of branch entries in the file is as follows:

      name: <version display name>
      dir:  <version site directory name>

At build / package time, note that the git branch must be present to actually get generated. AsciiBinder will automatically skip a version of the docs if the associated git branch is not available in the local repo.

Making Changes to a Version Branch

If a correction is made to the the master branch documentation in the form of a Pull Request, then the same fix can be applied to a version branch via git cherry-picking.

The process is:

  1. Commit the change to the master branch

  2. Use git log to get the commit ID of the change

  3. Check out the version branch

  4. Use git cherry-pick <commit_id> to add the change to the version branch

Depending on the scope of the change and the differences between the version branch and the master branch, attempting the cherry-pick may cause a merge collision. In this instance, it may be easier to submit the correction as a new, separate pull request against the version branch.