The pixl-webapp package is a client-side JavaScript framework, designed to be a starting point for a simple web application. It consists of a number of JavaScript classes, utility functions, and basic CSS elements (header, tabs, dialogs, progress bars, form elements, etc.). jQuery is required for all features to work properly.
It ships with a demo application, which you can see here: Demo App
Document | Description |
---|---|
Main Docs | (You're reading them) |
OOP Docs | Documentation on the object-oriented class generation system. |
XML Docs | Documentation on the XML parser and serializer class. |
Tools Docs | Documentation on the tools library (misc utility functions). |
Date/Time Docs | Documentation on the date/time utility library. |
You can use npm to install the module:
npm install pixl-webapp
Or just download the files from the GitHub repo. There is no installation script. This is basically just a collection of JavaScript files (and a CSS file) that you must include manually.
It is important that you include the JavaScript files in the proper order. You can of course use tools such as UglifyJS to compact them all together into a single blob for distribution. But for development, it is best to include them separately, in this order:
<script src="js/md5.js"></script>
<script src="js/oop.js"></script>
<script src="js/xml.js"></script>
<script src="js/tools.js"></script>
<script src="js/datetime.js"></script>
<script src="js/page.js"></script>
<script src="js/dialog.js"></script>
<script src="js/base.js"></script>
Here is a quick overview of each file in the package:
This file contains all the CSS used by the framework. It contains some content from HTML5 Boilerplate, as well as CSS classes for the pages, tabs, dialogs and buttons. The base font family is Helvetica, falling back to generic sans-serif
.
The color scheme is mainly shades of light gray, with a light blue highlight. Here are all the blue theme colors used in the CSS, from darkest to lightest:
#3f7ed5, #5890db, #7cafda, #9ccffa
This is a 3rd party library (BSD licensed) that implements the MD5 algorithm in JavaScript. This is used only for generating unique IDs, and constructing Gravatar image URLs. If you don't require either in your app, you can omit this file. Note that MD5 should not be used for any secure cryptography, as it now generally considered to be a weak algorithm.
Here is the copyright snippet from the source file:
Version 2.2 Copyright (C) Paul Johnston 1999 - 2009
Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet
Distributed under the BSD License
See http://pajhome.org.uk/crypt/md5 for more info.
This is a simple object-oriented programming framework, offering "classes" in JavaScript. See the Pages section below for details on this. The file also comes with its own standalone docs: OOP Documentation.
The xml.js
file provides a simple XML parser in pure JavaScript. This can be used to convert XML to a simple JavaScript object hash/array tree, for example if you are sending AJAX requests to a server API that returns XML. It also contains a number of static utility functions. The file comes with its own standalone docs: XML Documentation.
The tools.js
file contains a number of misc. utility functions, from generating unique IDs, to manipulating strings, to measuring the browser window. The file comes with its own standalone docs: Tools Documentation.
The datetime.js
file contains a number of functions for dealing with dates and times. Specifically, parsing dates and constructing various localized date/time strings for display purposes. The file comes with its own standalone docs: Date/Time Documentation.
This is the virtual page navigation and management system in the web app framework. It manages a collection of virtual pages, provides a base class for them, and handles listening for URL hash changes and page state changes. See Pages below for details.
This file handles basic dialog display and rendering. See the Dialogs section below for details.
This file contains the base application object for your web app. It's a single, global app
object that you can extend with your own variables and functions if you like. See Main Application below for details.
To get started, include the webapp CSS and JS from your HTML page:
<link rel="stylesheet" href="css/base.css">
<link rel="stylesheet" href="style.css">
<script src="js/md5.js"></script>
<script src="js/oop.js"></script>
<script src="js/xml.js"></script>
<script src="js/tools.js"></script>
<script src="js/datetime.js"></script>
<script src="js/page.js"></script>
<script src="js/dialog.js"></script>
<script src="js/base.js"></script>
The page header section contains a custom logo, title, and widgets on the right side. It should live in your HTML <BODY>
element, and not inside any other containers:
<div id="d_header">
<div class="container">
<div id="d_header_logo" class="left"></div>
<div id="d_header_title" class="left"><strong>My Application</strong></div>
<div id="d_header_user_container" style="right">
<!-- User login info here -->
</div>
<div class="clear"></div>
</div>
</div>
Please style the #d_header_logo
element to contain your own app's logo image, using background-image
. It should be 32x32 pixels (or 64x64 for retina). Enter your app's title in the #d_header_title
element, optionally wrapped in a <strong>
tag.
The #d_header_user_container
can contain a number of widgets (#header_option
), such as login/logout buttons, user avatar, etc. These should be floated right, and separated by #d_header_divider
elements. Example:
<div id="d_header_divider" class="right" style="margin-right:0;"></div>
<div class="header_option logout right" onMouseUp="app.doUserLogout()"><i class="fa fa-power-off fa-lg"> </i>Logout</div>
<div id="d_header_divider" class="right"></div>
For the main content of the page, see the Pages and Tabs sections below.
The page footer contains left and right aligned sections for you to add a copyright, version, or anything else you want. Example:
<div id="d_footer">
<div class="left">
MyApp © 2015 Me. Released under the MIT License.
</div>
<div id="d_footer_version" class="right">
Version 1.0.0
</div>
<div class="clear"></div>
</div>
The app framework requires a configuration object to be loaded into window.config
and copied in app.config
. This can be loaded however you like (inline script tag, etc.). An simple example is shown here (taken from the demo app):
window.config = app.config = {
// Define all app's pages in 'Page' array
Page: [
{ ID: 'Home' },
{ ID: 'MoreDemos' }
],
// Which page to load by default (if not in URL hash)
DefaultPage: 'Home'
};
The only required properties in the configuration object are the Page
array, which contains objects for each of your pages (more on this below in Pages), and the DefaultPage
string, which declares which page loads by default. Everything else is optional, and this structure can be extended for your own uses.
Your main application object is located in the global scope under the name app
. It is a plain object with variables and classes you can override, and of course add your own. You can use the built-in extend()
method to add your own properties and methods, if you like. Example:
app.extend({
// This name will appear in the window title
name: 'My App',
// init() is called on page load
init: function() {
// initialize application
// Setup page manager for tabs
this.page_manager = new PageManager( config.Page );
// start monitoring URL hash changes for page transitions
Nav.init();
}
});
The first thing you need to do is add a name
property, set to the name of your application. This is used in a number of places (such as window titles). Also, an init()
method, which is called when the DOM is ready.
The only other requirement is the init()
method, in which you need to construct a PageManager()
instance, passing it your Page
array from the configuration object, and assigning it to this.page_manager
(must be exact). Then call Nav.init()
to start the page navigation system. You can also add your own application startup tasks here.
Feel free to extend this object with whatever properties or methods your app requires.
Each "page" in your web application is virtual. It's basically a DIV that is shown when the page is activated, hidden when deactivated, and a JavaScript class upon which methods are called when the page state changes (activated, deactivated, etc.). Each page has a unique ID, which must first be defined in your configuration:
{
Page: [
{ ID: 'Home' },
{ ID: 'MoreDemos' }
],
DefaultPage: 'Home'
}
In this example your HTML should be setup like this:
<div id="main" class="main">
<div id="page_Home" style="display:none"></div>
<div id="page_MoreDemos" style="display:none"></div>
</div>
Finally, each virtual page in your app should inherit from the Page
base class. It contains placeholders for all the methods you can override (described below), as well as a few utility methods for rendering tables and tabs. See the OOP Documentation for details on creating a subclass.
Here is an example class, showing the bare minimum you'll need to add:
Class.subclass( Page, "Page.Home", {
onInit: function() {
// called once at page load
var html = '';
// include initial HTML here, if you want
this.div.html( html );
},
onActivate: function(args) {
// page activation
if (!args) args = {};
this.args = args;
app.setWindowTitle('Home');
app.showTabBar(true);
// activate page here (show live / updated content)
var html = 'Hello there!';
this.div.html( html );
return true;
},
onDeactivate: function() {
// called when page is deactivated
return true;
}
} );
You have the choice of including your HTML markup in the index.html
file, or building the HTML as a string in the onInit()
method (called only once), or building the HTML as a string in the onActivate()
method (called every time your page is activated).
The onInit()
method is called on your page only once, at load time. This allows you to setup things like initial HTML markup (or you can just put this in the index.html
file), and any other initialization tasks your page might need. A div
property points to your page's DIV element (jQuery wrapped).
The function takes no arguments, and there is no return value.
The onActivate()
method is called every time your page is activated. Your DIV is automatically shown, but you can use this method to update the page contents if you want.
Your function may be passed an args
object, if the URL hash contains a query string. For example:
http://myapp.com/#Home?foo=bar&baz=1234
This URL would load the Home
virtual page, and the onActivate()
method would be passed an args
object containing:
{
foo: "bar",
baz: 1234
}
Another typical thing to do in your onActivate()
method is to call app.setWindowTitle()
to set the browser window / tab title, and app.showTabBar()
to show the tab bar:
app.setWindowTitle('Home');
app.showTabBar(true);
The window title will contain the page name, and your application name, taken from app.name
. Showing the tab bar is typical for most web apps and pages, but there are exceptions. For example, a "login" page may not want to show the tab bar. See Tabs below for more on this.
Your onActivate()
method must return either true
or false
. Returning true
means that the page accepted the activation, and the app can proceed. Returning false
means that something went wrong (error or other), and the page should not be activated. In this case the page remains hidden and the previous page's DIV is still displayed.
The onDeactivate()
method is called when your page is deactivated. Meaning, the user is navigating to another virtual page in the app. Your method is passed the ID of the new page being activated:
onDeactivate: function(new_id) {
// called when page is deactivated
return true;
}
You can use this method to shut down or cleanup things happening in the page. For example: timers, IFRAMEs, or anything else that should be stopped. You may want to clear your entire DIV element (if your onActivate()
redraws everything, for example).
Your onDeactivate()
method must return either true
or false
. Returning true
means that the page accepted the deactivation, and the app can proceed. Returning false
means that something went wrong (error or other), and the page should not be deactivated. In this case the current page remains displayed.
You can access any page by looking it up by its ID. This is done by calling the page_manager
object in the app
global. It provides a find()
method that accepts an ID string. Example:
var page = app.page_manager.find('Home');
There is a global shortcut for this, available by calling $P()
. It also accepts a Page ID, but if omitted, it defaults to the current page. This is very useful for getting back into the context of the page from an inline HTML callback.
var page = $P('Home');
var cur_page = $P();
The built-in navigation system listens for URL hash change events, and switches virtual pages based on the anchor tag present in the URL. Example:
http://myapp.com/#Home
This would activate the virtual page with ID Home
. It also supports URL query string params after the page ID, which are passed to the page class onActivate()
method. Example:
http://myapp.com/#Home?foo=bar&baz=1234
So a typical way of triggering a page change event is to simply redirect the browser to a new hash anchor tag. However, some convenience methods are also provided:
This forces a page change event, and accepts a new anchor tag, optionally with a query string at the end.
Nav.go('SomePage');
Nav.go('SomePage?foo=bar');
This refreshes the current page (calls onDeactivate()
, then onActivate()
).
Nav.refresh();
This jumps back to the previous page.
Nav.prev();
This returns the name of the current anchor, including query string if present.
var loc = Nav.currentAnchor();
Tabs are optional, and if present, work hand-in-hand with the page system. If you create tab HTML markup as shown below, they will automatically be attached to their respective pages, and handle clicks, and changing state for you.
<div class="tab_bar" style="display:none">
<div id="tab_Home" class="tab inactive"><span class="content">Home</span></div>
<div id="tab_MoreDemos" class="tab inactive"><span class="content">More Demos</span></div>
<div class="clear"></div>
</div>
The tab_bar
DIV is initially hidden, as you may have a login page that shouldn't show any tabs. Each individual page can hide or show the tab bar by calling app.showTabBar();
and passing true
or false
. If you have no login page, or you are sure the tab bar will always be shown, you can omit the display:none
, and never have to call app.showTabBar(true);
.
Each tab should have a DIV with an ID following this format: tab_ID
, and should the CSS classes tab inactive
applied. The page navigation system will handle activating tabs when their respective pages are shown.
The library comes with a simple HTML form builder system, which is really just a table structure with two columns: Form element labels on the left, and the form elements themselves on the right. Functions are provided to build up the table HTML row by row, and can generate captions and spacers.
Start with a simple table declaration with your own styles added (margins, etc.), and then call these functions:
Function Name | Description |
---|---|
get_form_table_row() |
Returns HTML for one form element row (2 arguments, label and content). |
get_form_table_caption() |
Returns HTML for a caption row (one argument, the caption text). |
get_form_table_spacer() |
Returns HTML for a spacer row (no arguments). |
Here is an example:
var html = '<table>';
// Name (Text Field)
html += get_form_table_row( 'Name', '<input type="text" id="fe_title" size="35" value=""/>' );
html += get_form_table_caption( "Enter a title for the vegetable, which will be displayed on the main salad." );
html += get_form_table_spacer();
// Quality (Checkbox)
html += get_form_table_row( 'Quality', '<input type="checkbox" id="fe_ee_enabled" value="1"/><label for="fe_ee_enabled">Farm Fresh</label>' );
html += get_form_table_caption( "Select whether the vegetable should be farm fresh or not." );
html += get_form_table_spacer();
html += '</table>';
$('#my_element').html( html );
If you would prefer to simply create the HTML markup yourself, and not use the functions, that is fine. For form labels, use a <TD>
element with CSS class table_label
, and for the form elements, use a <TD>
with class table_value
. For captions, simply use a <DIV>
set to class caption
.
The library provides CSS styles and JavaScript functions for creating data tables, optionally with pagination. The HTML markup is simple; just use CSS class data_table
, then provide your headers in <TH>
elements, and your data in <TD>
elements. HTML example of a simple table:
<table class="data_table">
<tr>
<th>Username</th>
<th>Full Name</th>
<th>Status</th>
<th>Created</th>
<th>Modified</th>
</tr>
<tr>
<td>jhuckaby</td>
<td>Joseph Huckaby</td>
<td>Administrator</td>
<td>Jan 3, 2014</td>
<td>Oct 5, 2015</td>
</tr>
<tr>
<td>fsmith</td>
<td>Fred Smith</td>
<td>Standard User</td>
<td>Oct 5, 2015</td>
<td>Oct 5, 2015</td>
</tr>
</table>
In addition to the CSS, a pagination system is provided, to assist you with generating tables from a large dataset that have pagination links built-in. The function to call is this.getPaginatedTable()
and is available in the Page
base class. It returns the final rendered HTML for the page.
To use it, you'll need to provide an object containing the following pieces of information:
Property Name | Description |
---|---|
cols |
An array of header column labels, displayed in bold at the top of the table. |
rows |
The current page of data (array). Each element is passed to your callback for each visible row of the table. |
data_type |
A string identifying the type of data, e.g. user . Used in strings such as No users found . |
offset |
The current offset into the full dataset. This should be 0 for the first page. |
limit |
The number of items shown on each page. This should equal the length of the rows array. |
total |
The total number of items in the dataset. This is used to render proper pagination links. |
callback |
A user callback which is fired for each row, so you can provide your own <TD> elements. |
Here is an example:
var cols = [
'Name', 'Color', 'Size', 'Quantity', 'Price', 'Created'
];
var rows = [
{ name: 'Celery', color: 'Green', size: '1ft', quantity: 450, price: '$2.75', created: 1442984544 },
{ name: 'Beets', color: 'Purple', size: '4in', quantity: 30, price: '$3.50', created: 1442380043 },
{ name: 'Lettuce', color: 'Green', size: '1ft', quantity: 1000, price: '$2.50', created: 1442264863 },
{ name: 'Carrots', color: 'Orange', size: '8in', quantity: 60, price: '$4.00', created: 1442084869 },
{ name: 'Rhubarb', color: 'Purple', size: '2ft', quantity: 190, price: '$3.99', created: 1441724876 }
];
var html = this.getPaginatedTable({
cols: cols,
rows: rows,
data_type: 'vegetable',
offset: 0,
limit: 5,
total: 10,
callback: function(row, idx) {
return [
row.name,
row.color,
row.size,
commify( row.quantity ),
row.price,
get_nice_date_time( row.created )
];
}
});
So the idea here is, we have a dataset of 10 items total, but we are only showing 5 items per page. So we have an array of 5 items in rows
, but we're specifying the total
as 10, and offset
as 0 (first page). Based on this, the getPaginatedTable()
will generate the proper pagination links.
Your callback is fired once per row, and is passed the current row (array element from rows
), and the localized index in idx
(starts from 0
regardless of offset
). Your function should return an array of values which should match up with the cols
, and each will be stuffed into a <TD>
element.
The pagination links work by constructing self-referencing URL to the current page, but adding or modifying an offset
query parameter, set to the appropriate value. For example, in this case there would be a Next Page
link, which would be set to:
http://myapp.com/#Home?foo=bar&baz=1234&offset=5
Since the limit
is set to 5 items per page, and offset
starts at 0
, then the next page (page 2) will be at offset 5
. This link is simply a hashtag anchor tag, which doesn't reload the browser page, but will instead be caught by the navigation system, and call your page's onDeactivate()
then its onActivate()
with the new values. It is up to your page code to redraw the table with the new data chunk and new offset
value.
Instead of generating hashtag anchor links, you can optionally provide a custom JavaScript function in a pagination_link
property, which will be written into the HTML as an onMouseUp
handler on each link, and called instead of a standard link. Note that it must be a string and globally accessible, so remember the $P()
shortcut to get access to the current page. Example:
pagination_link: '$P().tableNavClick'
In this case your custom page tableNavClick()
method will be called for each table pagination click, and passed the new offset value.
The library comes with a simple "dialog" system, which is just an auto-centered floating DIV with a drop shadow, and an invisible overlay making it behave like a modal window. To show a dialog, call app.showDialog()
and pass in a title, HTML content, and HTML for buttons at the bottom. The DIV will automatically size and position itself to fit your content. Example:
var html = 'This is the main dialog content.';
var buttons = '<div class="button" onMouseUp="app.hideDialog()">Close</div>';
app.showDialog( "My Dialog", html, buttons );
As you can see in the button markup above, you can call app.hideDialog()
to close the dialog box. This destroys the content, so make sure you grab any user input before calling it, if applicable.
If you need a quick, simple "confirmation" style dialog, meaning exactly two buttons ("Cancel" and a custom button), there is a convenience method called app.confirm()
which takes care of some of the dialog logistics for you. It allows you to provide a callback function, which is called with either true
or false
depending on which button was clicked. Example:
app.confirm( 'Add Vegetable', "Are you sure you want to add the vegetable <b>celery</b>?", "OK", function(result) {
if (result) {
// User clicked "OK", close dialog ourselves
app.hideDialog();
}
else {
// User clicked "Cancel", dialog is closed automatically
}
} );
As you can see, this method takes 4 arguments: The dialog title, HTML content, button title, and a callback function that accepts a result (Boolean). The result will be true
if the user clicked your custom button ("OK" in this case), or false
if the user clicked "Cancel".
Note that it is up to you to hide the dialog when the user clicks your button (true
result). This allows you to "interrupt" the closing of the dialog and show an error notification or something. There is no way to intercept the cancel button, however.
To show a simple "progress" style dialog, which has a title and graphical progress bar, you can call app.showProgress()
and pass in a counter (floating point decimal between 0.0
and 1.0
), and a title string. Example:
app.showProgress( 0.5, "Processing files..." );
This would show the progress bar at half width (50%). You can call the same function multiple times to update the bar width. You can omit the title for subsequent calls (unless you want to change it too). Example:
app.showProgress( 0.7 );
app.showProgress( 0.8 );
app.showProgress( 0.9, "Finishing up..." );
If you pass in 1.0
as the counter, the progress bar is displayed at full width but partial transparency, denoting an "indeterminate" length. So if you don't know the length of a job, and just want to show a generic progress bar, pass in 1.0
as the counter.
Call app.hideProgress()
to hide the progress bar.
Notification messages are shown in a fixed bar at the top of the screen, regardless of the scroll position. Messages can have one of three styles (highlight color), and custom HTML. They can remain in place until clicked, or disappear after N seconds. Only one notification may be shown at a time.
To use the notification system in your app, make sure this markup is in your main HTML page:
<div id="d_message" class="message" style="display:none" onMouseUp="app.hideMessage(250)">
<div id="d_message_inner" class="message_inner"></div>
</div>
Then, call app.showMessage()
and pass in a style name (see below), a text or HTML message string, and optionally a lifetime (number of seconds before it auto-hides). Here are the three supported message styles:
Style | Description |
---|---|
success |
Highlighted in green, used for successful completion messages. By default, these automatically hide after 8 seconds. |
warning |
Highlighted in yellow, used for warning messages. By default these are persistent until user click. |
error |
Highlighted in red, used for error messages. By default these are persistent until user click. |
Example use:
app.showMessage( 'success', "The user was saved successfully.", 8 );
To programmatically hide the notification message, call app.hideMessage()
. You can optionally pass in a number of milliseconds to animate the hide, if you want (uses jQuery's animation system).
For form field validation errors, you can call app.badField()
and pass in the DOM ID (or CSS selector) of the form field containing an invalid value, and an error message. The form field will be focused, highlighted in red (background color, works well for text fields), and an error message notification will be displayed. To clear an error, call app.clearError()
.
app.badField( '#my_username', "Usernames must contain alphanumeric characters only." );
If you include Font Awesome Icons in your HTML page, the notification messages will also contain an appropriate icon matching the style:
<link rel="stylesheet" href="http://maxcdn.bootstrapcdn.com/font-awesome/4.4.0/css/font-awesome.min.css">
The library contains a simple JSON REST API wrapper built around jQuery's $.ajax() call, designed to support JSON API backends. API calls can be sent to the server using HTTP GET or POST, and JSON responses are parsed for you. Errors are handled automatically, but you can specify custom handlers as well.
By default, API calls are sent to the same hostname as the one hosting the page, using the URI /api/COMMAND
, where COMMAND
is a custom command passed in, e.g. /api/user_login
. You can change the base API URL by calling app.setAPIBaseURL()
. Example:
app.setAPIBaseURL( '/myapp/API.php' );
app.setAPIBaseURL( 'http://myotherserver.com/myapp/API.php' );
To send an API call, use app.api.get()
or app.api.post()
depending on whether you want an HTTP GET or HTTP POST. Pass in a command name (is appended to the base URI), a params object (serialized to JSON or a query string), and a callback. Example:
app.api.post( 'user_login', { username: 'joe', password: '12345' }, function(resp) {
// successfully logged user in
// 'resp' is response JSON from server
} );
So this example would send an HTTP POST to /api/user_login
, and serialize the params into JSON, sent as the body of the post. The response is expected to be in JSON, and is parsed and sent to the callback.
Sending an HTTP GET is similar. Just call app.api.get()
instead, and note that the params object is serialized into a URL query string, not a JSON POST body. The response and callback are handled the same. Example:
app.api.get( 'user_get_info', { username: 'joe' }, function(resp) {
// successfully fetched user info
// 'resp' is response JSON from server
} );
API errors are handled automatically by default, meaning your callback is not fired, and instead an error notification is displayed. This includes HTTP related errors, as well as errors specified inside the response JSON. The API system expects the response to include a code
property, and if this is non-zero, it is considered an error, and it looks for a description
property for the error message.
To set a custom error handler, specify a second callback after the first one:
app.api.post( 'user_login', { username: 'joe', password: '12345' },
function(resp) {
// successfully logged user in
// 'resp' is response JSON from server
},
function(err) {
// an error occurred
// see err.code and err.description
}
);
When implementing your own user login system, note that the API calls will automatically include a Session ID if you store it in localStorage using key session_id
. It will be sent to the server along with all API calls as a custom HTTP request header X-Session-ID
. Example:
localStorage['session_id'] = "d2691d948880cea8426078b0879ce733";
If your pages need to take special action when the browser is resized, you can define an onResize()
method in your page classes. This is fired for every browser resize event, and your method is passed an object containing the new inner window width
and height
in pixels. Example:
onResize: function(size) {
// window was resized
// see 'size.width' and 'size.height'
}
If you need to intercept the user navigating away from the app entirely or closing the browser tab/window, you can define an onBeforeUnload()
method in your page classes. This method should return a text message to be displayed, if you want to intercept the event and alert the user, or return false
to allow the app to shut down without any intervention. Example:
onBeforeUnload: function() {
// if dirty, warn user before navigating away from app
if (this.dirty) return "There are unsaved changes in this document. If you leave now they will be abandoned.";
else return false;
}
This example assumes your page class has a dirty
property, which is true
when the user has made changes which are unsaved.
Please note that alerting the user in this way is very jarring and disruptive, and should only be done when there really is a good reason to keep the user on the page, i.e. unsaved changes that will be lost forever.
The webapp framework comes with a system for handling "side tabs", a.k.a. tabs within tabs. These exist inside the context of a single page, but allow you to further subdivide your page into sub-pages, controlled by a set of tabs displayed on the left side.
This requires you to design your page class in a specific way. Namely, you must generate your HTML on-the-fly when onActivate()
is called. The idea is that the side tabs and sub-page are redrawn every time. The sub-page is chosen via a hash anchor query string parameter named sub
. Example URL:
http://myapp.com/#MyPage?sub=form
This will activate the MyPage
page, and pass in {sub:"form"}
as the args
object. It is up to your onActivate()
method to react to this, by rendering a different sub-page for the value of args.sub
. For example, you can call a method based on the value like this:
onActivate: function(args) {
// page activation
this.args = args;
// jump to sub-page based on has query
this['gosub_'+args.sub](args);
return true;
}
So in this example you'd need to provide a method for each sub-page, i.e. gosub_form()
.
Then, as you are building the HTML to render the sub-page, call this.getSidebarTabs()
to render the sidebar tabs. Pass in the current args.sub
value, and an array describing the side tabs. Example:
var html = '';
html += this.getSidebarTabs( args.sub,
[
['form', "Form Demo"],
['table', "Table Demo"]
]
);
html += "(Sub-page content here)";
html += '</div>'; // close sidebar tabs
this.div.html( html );
This would render two side tabs, one with ID form
and another with ID table
. The value of the args.sub
must match one of these for the correct tab to be highlighted. Clicks are handled automatically -- the user is navigated back to your page, but with a different value for the sub
parameter.
HTML <fieldset>
tags are styled with a light gray vertical gradient, gray border, and a legend. Inside the fieldset, feel free to use DIVs with class info_label
for labels, and info_value
for values. Example:
<fieldset>
<legend>Some Info</legend>
<div class="info_label">Section 1</div>
<div class="info_value">Lorem ipsum dolor sit amet.</div>
</fieldset>
See the demo application HTML source for a better example of this.
Buttons are provided in the webapp library by setting a assigning CSS class button
to a <div>
element. They come with rollover and click effects, and are 111px wide and 24px tall (including padding and border) by default. Example:
<div class="button" onMouseUp="$P().doSomething()">Something</div>
There are a few variants available:
CSS Classes | Description |
---|---|
button mini |
Smaller font, only 101px wide by 21px tall. |
button ellip |
Add ellipsis text overflow. |
button left |
Float button to the left. |
button right |
Float button to the right. |
button center |
Horizontally center the button. |
button disabled |
Grayed out, no hover or click effects. |
Subtitles are designed to be displayed at the top of your page content, usually in conjunction with Side Tabs, or just above a Table. They are styled in 16px bold text, with a light gray bottom border that extends the full width of the container. To use, create a <div>
and apply CSS class subtitle
. Example:
<div class="subtitle">New Vegetable</div>
You can also include subtitle "widgets" which float on the right side of the subtitle. These are styled in smaller text (16px), and go inside of the subtitle DIV. These should be inner <div>
elements with CSS class subtitle_widget
. Also, don't forget to clear the float at the end. Example:
<div class="subtitle">New Vegetable
<div class="subtitle_widget">Widget 1</div>
<div class="subtitle_widget">Widget 2</div>
<div class="clear"></div>
</div>
Color labels are designed to be applied to <span>
elements, and provide an opaque colored background, with white shadowed bold text. These are useful for decorating one-word table elements, such as account status (e.g. "Active", "Suspended"). To use, create a <span>
element apply CSS class color_label
plus your desired color. Example:
<span class="color_label green">Active</span>
The colors available are green
, yellow
, red
, purple
and gray
. To add more, just set a custom background-color
CSS property.
For displaying user avatars, a function is provided in the app
global to generate a URL to the Gravatar service, using an e-mail address. Basically it just constructs a URL to an avatar image for the user, if one exists, at a specified pixel size, and falls back to a generic user icon. Example:
var url = app.getUserAvatarURL( 'email@server.com', 64 );
This would generate a URL to a 64x64 user icon image. If the user's e-mail address is registered at Gravatar.com, it will be their custom avatar icon. If not, it will be a generic icon.
This function requires the md5.js library, as the e-mail address is hashed using MD5 on the URL.
The MIT License (MIT)
Copyright (c) 2013 - 2015 Joseph Huckaby
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.