Infusion is a different kind of JavaScript framework. Our approach is to leave you in control—it's your interface, using your markup, your way. Infusion is accessible and very, very configurable.
Infusion includes:
- an application framework for developing flexible stuff with JavaScript and jQuery
- a collection of accessible UI components
http://fluidproject.org/infusion.html
- Download a Release
- Install from NPM
- Fork on GitHub
- Use from the CDNJS Content Distribution Network
- To try out Infusion quickly you can use the following
scripttag to include the full framework from the CDN:<script src='https://cdnjs.cloudflare.com/ajax/libs/infusion/2.0.0/infusion-all.min.js'></script>
- To try out Infusion quickly you can use the following
See How Do I Create an Infusion Package?, for details on creating complete or custom packages of Infusion.
Infusion has comprehensive documentation at http://docs.fluidproject.org/infusion.
The Fluid community is an international group of designers, developers, and testers who focus on a common mission: improving the user experience and accessibility of the open web.
The best way to join the Fluid Community is to jump into any of our community activities. Visit our website for links to our mailing lists, chat room, wiki, etc.
The Fluid community is dedicated to inclusive design—design that considers the full range of human diversity with respect to ability, language, culture, gender, age and other forms of human difference. To help ensure that our community is a safe space for all contributors, we have adopted a code of conduct based on the Contributor Covenant. All participants and contributors have the responsibility to uphold this code. Please contact the Advocacy working group if you encounter unacceptable behaviour.
Infusion is the cornerstone of a number of Fluid's own projects dedicated to supporting inclusive design on the Web. You can see some of them featured on our Projects page. Infusion is also used in a variety of third-party applications, which are listed on the Infusion Integrations wiki page.
For simplicity and performance reasons, you may wish to create a concatenated, minified file. However, such a file is often difficult to read. To address this, source maps for the minified file are automatically generated to make debugging easier.
Source maps are supported in all of the major browsers: Chrome, Firefox, IE 11, and Safari. To make use of them, enable source maps in your debugging environment, and ensure that the source maps are hosted adjacent to the file they are associated with.
- From the command line, run
gruntto create a build of Infusion- All Infusion packages come with a source map for the concatenated JavaScript file
- In the Infusion package, modify one of the demos to replace the individual javascript includes with a reference to "infusion-all.js"
- The "infusion-all.js" includes a reference to the "infusion-all.js.map" file, which is assumed to be hosted as its sibling
- Open the demo in a browser
- In the browser's debugger ensure that source maps are enabled
- In Firefox open the debugger
- In the debugger options, ensure that "Show Original Sources" is enabled
- see MDN: Use a source map
- In Firefox open the debugger
- In the debugger you should now be able to view and debug the individual JavaScript files as though they were included separately
All other development dependencies will be installed by running the following from the project root:
npm installWill include all of Infusion. The source files packaged along with the single concatenated js file will include all of the demos and unit tests. This is a good choice if you are trying to learn Infusion.
gruntWill only include the modules you request, and all of their dependencies, minus any that are explicitly excluded. Unlike the "all" build, none of the demos or tests are included with a custom package.
grunt customvalue: true (Boolean) the value can be omitted if --source is the last flag specified
By default all packages are minified. This option will allow you to maintain the readable spacing and comments.
grunt --source=true
grunt custom --source=truevalue: "module(s)" (String) only available to custom packages
The --include option takes in a comma-separated string of the Modules to be included in a custom package.
If omitted, all modules will be included (demos and tests will not be included).
grunt custom --include="inlineEdit, uiOptions"value: "module(s)" (String) only available to custom packages
The exclude option takes in a comma-separated string of the Modules to be excluded from a custom package.
The --exclude option takes priority over --include.
grunt custom --exclude="jQuery"
grunt custom --include="framework" --exclude="jQuery"value: "custom suffix" (String) only available to custom packages
By default, custom packages are given a name with the form infusion-custom-.zip and the concatenated js file
is called infusion-custom.js. By supplying the --name option, you can replace "custom" with any other valid string
you like.
# this produces infusion-myPackage.js
grunt custom --name="myPackage"- enhancement
- framework
- preferences
- renderer
- inlineEdit
- overviewPanel
- pager
- progress
- reorderer
- slidingPanel
- switch
- tableOfContents
- tabs
- textfieldControls
- textToSpeech
- tooltip
- uiOptions
- undo
- uploader
- fastXmlPull
- jQuery
- jQueryUI
- jQueryScrollToPlugin
- jQueryTouchPunchPlugin
- normalize
All of these libraries are already bundled within the Infusion image.
There are two options available for running tests. The first option involves using the browsers installed on your compute. The second uses browsers available in a VM.
To run both the browser and node tests for this package, use the command npm test or yarn test.
To run only the node tests, use the command npm run test:node or yarn run test:node.
To run only the browser tests, use the command npm run test:browser or yarn run test:browser. Any browsers that Testem
finds on your system will be launched sequentially with each browser running the full Infusion test suite. The results
will be returned in your terminal in the TAP format. Once you have run npm install, you
can use the command node node_modules/testem/testem.js launchers from the root of this repository to get a list of
browsers that Testem can launch on your system.
If you would like to debug individual tests or view the test summary in a browser, you can:
- Host the working directory, for example, using a command like the following from the root of the repository:
python -m SimpleHTTPServer 4102 - Open the "rollup" file
tests/all-tests.htmlthat runs all tests in a browser. Continuing the above example, you would load the URLhttp://localhost:4102/tests/all-tests.html.
Note: Any browser launched will need to be focused and remain the active window. Some of the tests require focus, and will report errors if they are not focused. If you want to run the tests consistently, your best option is to run the tests in a VM (see below).
The tests in this package can be run within a virtual machine (VM). The benefits of using a VM include the following:
- Does not require Testem to be installed on the host machine.
- Allows other applications on the host machine to have focus while the tests are run.
- Isolates the test run from issues specific to one operating system or machine.
Before you can run tests within a VM, your machine will need to meet the QI development VM requirements. Once you have that, a Fedora VM can be automatically created using tools provided by the Prosperity4All Quality Infrastructure.
- To run both the Node and browser tests in a VM:
npm run test:vagrant - To run the Node tests only:
npm run test:vagrantNode - To run the browser tests only:
npm run test:vagrantBrowser
Each of these commands will create the VM (if needed). The test results from the VM will be displayed in your terminal.
If you just want to create the VM yourself, you can use a command like vagrant up, and connect to it the VM either
from VirtualBox, or from the command line using a command like vagrant ssh.
When this VM is first created, Chrome and Firefox will be upgraded to the latest versions available in the Fedora and
Google package repositories. The vagrant provision command can be used at a later time to trigger the browser
upgrade and general VM provisioning mechanism.
The preferred way to consistently generate a code coverage report is to use Vagrant as described above. When you
start a VM using vagrant up and run npm run test:vagrant, the full test suite will run in the VM, and a coverage
report will be saved to the reports directory. You can also run the npm test command on your local machine, but
you will need to ensure that browsers receive focus when they are launched (see above).
The npm test command has two additional associated scripts. The pretest
script runs before the command defined for the test script. The posttest script runs after. In our case
we use a pretest script to clean up previous coverage data before we run the tests, and a posttest script to
compile the actual report. You should not need to run the pretest scripts manually before running either the node or
browser tests, or to run the posttest scripts afterward.
Infusion is in the process of switching to use Stylus for CSS pre-processing. CSS files for the Preferences Framework have been re-written in Stylus. Only Stylus files are pushed into the GitHub repository.
For developing the Preferences Framework, run the following from the project root to compile Stylus files to CSS:
grunt buildStylusA watch task using grunt-contrib-watch is also supplied to ease
Stylus development. This task launches a process that watches all Stylus files in the src directory and recompiles
them when they are changed. This task can be run using the following command:
grunt watch:buildStylus