AngularJS Topic Guide¶
Note
This guide is a work in progress. It has been uploaded to encourage faster reviewing and code development in Angular, and to help the community standardize on a set of guidelines. There are notes inline on sections that are likely to change soon, and the docs will be updated promptly after any changes.
Getting Started¶
The tooling for AngularJS testing and code linting relies on npm, the node package manager, and thus relies on Node.js. While it is not a prerequisite to developing with Horizon, it is advisable to install Node.js, either through downloading or via a package manager.
Once you have npm available on your system, run npm install
from the
horizon root directory.
Code Style¶
We currently use the Angular Style Guide by John Papa as reference material. When reviewing AngularJS code, it is helpful to link directly to the style guide to reinforce a point, e.g. https://github.com/johnpapa/angular-styleguide#style-y024
ESLint¶
ESLint is a tool for identifying and reporting on patterns in your JS code, and
is part of the automated tests run by Jenkins. You can run ESLint from the
horizon root directory with tox -e npm -- lint
, or alternatively on a
specific directory or file with eslint file.js
.
Horizon includes a .eslintrc in its root directory, that is used by the local tests. An explanation of the options, and details of others you may want to use, can be found in the ESLint user guide.
Application Structure¶
OpenStack Dashboard is an example of a Horizon-based Angular application. Other applications built on the Horizon framework can follow a similar structure. It is composed of two key Angular modules:
- app.module.js - The root of the application. Defines the modules required by
the application, and includes modules from its pluggable dashboards.
- framework.module.js - Reusable Horizon components. It is one of the
application dependencies.
File Structure¶
Horizon has three kinds of angular code:
Specific to one dashboard in the OpenStack Dashboard application
Specific to the OpenStack Dashboard application, but reusable by multiple dashboards
Reusable by any application based on the Horizon framework
When adding code to horizon, consider whether it is dashboard-specific or should be broken out as a reusable utility or widget.
Code specific to one dashboard¶
Code that isn’t shared beyond a single dashboard is placed in
openstack_dashboard/dashboards/mydashboard/static
. Entire dashboards may be
enabled or disabled using Horizon’s plugin mechanism. Therefore no dashboards
other than mydashboard
can safely use this code.
The openstack_dashboard/dashboards/mydashboard/static
directory structure
determines how the code is deployed and matches the module structure.
For example:
openstack_dashboard/dashboards/identity/static/dashboard/identity/
├── identity.module.js
├── identity.module.spec.js
└── identity.scss
Because the code is in openstack_dashboard/dashboards/identity
we know it
is specific to just the identity
dashboard and not used by any others.
Reusable components¶
Finally, components that are easily reused by any application are placed in
horizon/static/framework/
. These do not contain URLs or business logic
that is specific to any application (even the OpenStack Dashboard application).
The modal directive horizon/static/framework/widgets/modal/
is a good
example of a reusable component.
One folder per component¶
Each component should have its own folder, with the code broken up into one JS
component per file. (See Single Responsibility
in the style guide).
Each folder may include styling (*.scss
), as well as templates (*.html
)
and tests (*.spec.js
).
You may also include examples, by appending .example
.
For larger components, such as workflows with multiple steps, consider breaking
the code down further. For example, the Launch Instance workflow, has one
directory per step. See
openstack_dashboard/dashboards/project/static/dashboard/project/workflow/launch-instance/
SCSS files¶
The top-level SCSS file in openstack_dashboard/static/app/_app.scss
. It
includes any styling that is part of the application core
and may be
reused by multiple dashboards. SCSS files that are specific to a particular
dashboard are linked to the application by adding them in that dashboard’s
enabled file. For example, _1920_project_containers_panel.py is the enabled
file for the Project
dashboard’s Container
panel and includes:
ADD_SCSS_FILES = [
'dashboard/project/containers/_containers.scss',
]
Styling files are hierarchical, and include any direct child SCSS files. For
example, project.scss
would includes the workflow
SCSS file, which in
turn includes any launch instance styling:
@import "workflow/workflow";
This allows the application to easily include all needed styling, simply by including a dashboard’s top-level SCSS file.
Module Structure¶
Horizon Angular modules use names that map to the source code directory structure. This provides namespace isolation for modules and services, which makes dependency injection clearer. It also reduces code conflicts where two different modules define a module, service or constant of the same name. For example:
openstack_dashboard/dashboards/identity/static/dashboard/identity/
└── identity.module.js
The preferred Angular module name in this example is
horizon.dashboard.identity
. The horizon
part of the module name maps to
the static
directory and indicates this is a horizon
based application.
dashboard.identity
maps to folders that are created within static
. This
allows a direct mapping between the angular module name of
horizon.dashboard.identity
and the source code directory of
static\dashboard\identity
.
Services and constants within these modules should all start with their module name to avoid dependency injection collisions. For example:
$provide.constant('horizon.dashboard.identity.basePath', path);
Directives do not require the module name but are encouraged to begin with the
hz
prefix. For example:
.directive('hzMagicSearchBar', hzMagicSearchBar);
Finally, each module lists its child modules as a dependency. This allows the root module to be included by an application, which will automatically define all child modules. For example:
.module('horizon.framework', [
'horizon.framework.conf',
'horizon.framework.util',
'horizon.framework.widgets'
])
horizon.framework
declares a dependency on horizon.framework.widgets
,
which declares dependencies on each individual widget. This allows the
application to access any widget, simply by depending on the top-level
horizon.framework
module.
Testing¶
Open <dev_server_ip:port>/jasmine in a browser. The development server can be run with
tox -e runserver
from the horizon root directory; by default, this will run the development server athttp://localhost:8000
.tox -e npm
from the horizon root directory.
The code linting job can be run with tox -e npm -- lint
. If there are many
warnings, you can also use tox -e npm -- lintq
to see only errors and
ignore warnings.
For more detailed information, see JavaScript Testing.
Translation (Internationalization and Localization)¶
See Making strings translatable for information on the translation architecture and how to ensure your code is translatable.
Creating your own panel¶
Note
This section will be extended as standard practices are adopted upstream.
Currently, it may be useful to look at the Project Images Panel as a
complete reference. Since Newton, it is Angular by default (set to True in the
ANGULAR_FEATURES dict in settings.py
).
You may track all the changes made to the Image Panel
here
Note
Currently, Angular module names must still be manually declared with
ADD_ANGULAR_MODULES
, even when using automatic file discovery.
This section serves as a basic introduction to writing your own panel for horizon, using AngularJS. A panel may be included with the plugin system, or it may be part of the upstream horizon project.
Upstream¶
JavaScript files can be discovered automatically, handled manually, or a mix of the two. Where possible, use the automated mechanism. To use the automatic functionality, add:
AUTO_DISCOVER_STATIC_FILES = True
to your enabled file (enabled/<plugin_name>.py
). To make this possible,
you need to follow some structural conventions:
Static files should be put in a
static/
folder, which should be found directly under the folder for the dashboard/panel/panel groups Python package.JS code that defines an Angular module should be in a file with extension of
.module.js
.JS code for testing should be named with extension of
.mock.js
and of.spec.js
.Angular templates should have extension of
.html
.
You can read more about the functionality in the AUTO_DISCOVER_STATIC_FILES section of the settings documentation.
To manually add files, add the following arrays and file paths to the enabled file:
ADD_JS_FILES = [
...
'path-to/my-angular-code.js',
...
]
ADD_JS_SPEC_FILES = [
...
'path-to/my-angular-code.spec.js',
...
]
ADD_ANGULAR_MODULES = [
...
'my.angular.code',
...
]
Plugins¶
Add a new panel/ panel group/ dashboard (See Tutorial: Building a Dashboard using Horizon). JavaScript file inclusion is the same as the Upstream process.
To include external stylesheets, you must ensure that ADD_SCSS_FILES
is
defined in your enabled file, and add the relevant filepath, as below:
ADD_SCSS_FILES = [
...
'path-to/my-styles.scss',
...
]
Note
We highly recommend using a single SCSS file for your plugin. SCSS supports nesting with @import, so if you have multiple files (i.e. per panel styling) it is best to import them all into one, and include that single file. You can read more in the SASS documentation.
Schema Forms¶
JSON schemas are used to define model layout and then angular-schema-form
is used to create forms from that schema. Horizon adds some functionality on
top of that to make things even easier through ModalFormService
which will
open a modal with the form inside.
A very simple example:
var schema = {
type: "object",
properties: {
name: { type: "string", minLength: 2, title: "Name", description: "Name or alias" },
title: {
type: "string",
enum: ['dr','jr','sir','mrs','mr','NaN','dj']
}
}
};
var model = {name: '', title: ''};
var config = {
title: gettext('Create Container'),
schema: schema,
form: ['*'],
model: model
};
ModalFormService.open(config).then(submit); // returns a promise
function submit() {
// do something with model.name and model.title
}