m
This is a convenience method to compose virtual elements that can be rendered via m.render()
.
You are encouraged to use CSS selectors to define virtual elements. See "Signature" section for details.
Usage
You can use simple tag selectors to make templates resemble HTML:
m("br"); //yields a virtual element that represents <br>
m("div", "Hello"); //yields <div>Hello</div>
m("div", {class: "container"}, "Hello"); //yields <div class="container">Hello</div>
Note that the output value from m()
is not an actual DOM element. In order to turn the virtual element into a real DOM element, you must call m.render()
.
m.render(document.body, m("br")); //puts a <br> in <body>
You can also use more complex CSS selectors:
m(".container"); //yields <div class="container"></div>
m("#layout"); //yields <div id="layout"></div>
m("a[name=top]"); //yields <a name="top"></a>
m("[contenteditable]"); //yields <div contenteditable></div>
m("a#google.external[href='http://google.com']", "Google"); //yields <a id="google" class="external" href="http://google.com">Google</a>
Each m()
call creates a virtual DOM element, that is, a javascript object that represents a DOM element, and which is eventually converted into one.
You can, of course, nest virtual elements:
m("ul", [
m("li", "item 1"),
m("li", "item 2"),
]);
/*
yields
<ul>
<li>item 1</li>
<li>item 2</li>
</ul>
*/
Be aware that when nesting virtual elements, the child elements must be in an Array.
The CSS selector syntax (e.g. a#google.external[href='http://google.com']
) is meant to be used for declaring static attributes in the element, i.e. attribute values that don't change dynamically when the user interacts with the app.
The attributes
argument (i.e. the second parameter in the m("div", {class: "container"}, "Hello")
example) is meant to be used for attributes whose values we want to dynamically populate.
For example, let's say that you're generating a link from an entry that comes from a web service:
//assume the variable `link` came from a web service
var link = {url: "http://google.com", title: "Google"}
m("a", {href: link.url}, link.title); //yields <a href="http://google.com">Google</a>
Here's a less trivial example:
var links = [
{title: "item 1", url: "/item1"},
{title: "item 2", url: "/item2"}
{title: "item 3", url: "/item3"}
];
m.render(document.body, [
m("ul.nav", [
m("li", links.map(function(link) {
return m("a", {href: link.url}, link.title)
})
])
]);
yields:
<body>
<ul class="nav">
<li>
<a href="/item1">item 1</a>
<a href="/item2">item 2</a>
<a href="/item3">item 3</a>
</li>
</ul>
</body>
As you can see, flow control is done with vanilla Javascript. This allows the developer to abstract away any aspect of the template at will.
Note that you can use both javascript property names and HTML attribute names to set values in the attributes
argument, but you should pass a value of appropriate type. If an attribute has the same name in Javascript and in HTML, then Mithril assumes you're setting the Javascript property.
m("div", {class: "widget"}); //yields <div class="widget"></div>
m("div", {className: "widget"}); //yields <div class="widget"></div>
m("input", {readonly: true}); //yields <input readonly />
m("button", {onclick: alert}); //yields <button></button>, which alerts its event argument when clicked
Note that you can use JSON syntax if the attribute name you are setting has non-alphanumeric characters:
m("div", {"data-index": 1}); //yields <div data-index="1"></div>
You can set inline styles like this:
m("div", {style: {border: "1px solid red"}}); //yields <div style="border:1px solid red;"></div>
Note that in order to keep the framework lean, Mithril does not auto-append units like px
or %
to any values. Typically, you should not even be using inline styles to begin with (unless you are dynamically changing them).
You can define a non-HTML-standard attribute called config
. This special parameter allows you to call methods on the DOM element after it gets created.
This is useful, for example, if you declare a canvas
element and want to use the Javascript API to draw:
function draw(element, isInitialized) {
//don't redraw if we did once already
if (isInitialized) return;
var ctx = element.getContext("2d");
/* draws stuff */
}
var view = [
m("canvas", {config: draw})
]
//this creates the canvas element, and therefore, `isInitialized` is false
m.render(document.body, view);
//here, isInitialized is `true`
m.render(document.body, view);
One common way of using config
is in conjunction with m.route
, which is an unobtrusive extension to links that allow Mithril's routing system to work transparently regardless of which routing mode is used.
//this link can use any of Mithril's routing system modes
//(i.e. it can use either the hash, the querystring or the pathname as the router implementation)
//without needing to hard-code any syntax (`#` or `?`) in the `href` attribute.
m("a[href='/dashboard']", {config: m.route}, "Dashboard");
The config
mechanism can also be used to put focus on form inputs, and call methods that would not be possible to execute via the regular attribute syntax.
It is only meant to be used to call methods on DOM elements that cannot be called otherwise.
It is NOT a "free out-of-jail card". You should not use this method to modify element properties that could be modified via the attributes
argument, nor values outside of the DOM element in question.
Also note that the config
callback only runs after a rendering lifecycle is done. Therefore, you should not use config
to modify controller and model values, if you expect these changes to render immediately. Changes to controller and model values in this fashion will only render on the next m.render
or m.module
call.
You can use this mechanism to attach custom event listeners to controller methods (for example, when integrating with third party libraries), but you are responsible for making sure the integration with Mithril's autoredrawing system is in place. See the integration guide for more information.
Signature
VirtualElement m(String selector [, Attributes attributes] [, Children children])
where:
VirtualElement :: Object { String tag, Attributes attributes, Children children }
Attributes :: Object<any | void config(DOMElement element, Boolean isInitialized)>
Children :: String text | Array<String text | VirtualElement virtualElement | SubtreeDirective directive | Children children>
SubtreeDirective :: Object { String subtree }
String selector
This string should be a CSS rule that represents a DOM element.
Only tag, id, class and attribute selectors are supported.
If the tag selector is omitted, it defaults to
div
.Note that if the same attribute is defined in the both
selector
andattributes
parameters, the value inattributes
is used.For developer convenience, Mithril makes an exception for the
class
attribute: if there are classes defined in both parameters, they are concatenated as a space separated list. It does not, however, de-dupe classes if the same class is declared twice.Examples:
"div"
"#container"
".active"
"[title='Application']"
"div#container.active[title='Application']"
".active#container"
Attributes attributes (optional)
This key-value map should define a list of HTML attributes and their respective values.
You can use both HTML and Javascript attribute names. For example, both
class
andclassName
are valid.Values' types should match the expected type for the respective attribute.
For example, the value for
className
should be a string.When a attribute name expects different types for the value in HTML and Javascript, the Javascript type should be used.
For example, the value for the
onclick
attribute should be a function.Similar, setting the value of attribute
readonly
tofalse
is equivalent to removing the attribute in HTML.It's also possible to set values to Javascript-only properties, such as
hash
in a<a>
element.Note that if the same attribute is defined in the both
selector
andattributes
parameters, the value inattributes
is used.For developer convenience, Mithril makes an exception for the
class
attribute: if there are classes defined in both parameters, they are concatenated as a space separated list. It does not, however, de-dupe classes if the same class is declared twice.Examples:
{ title: "Application" }
{ onclick: function(e) { /*do stuff*/ } }
{ style: {border: "1px solid red"} }
The
config
attributevoid config(DOMElement element, Boolean isInitialized) (optional)
You can define a non-HTML-standard attribute called
config
. This special parameter allows you to call methods on the DOM element after it gets created.This is useful, for example, if you declare a
canvas
element and want to use the Javascript API to draw:function draw(element, isInitialized) { //don't redraw if we did once already if (isInitialized) return; var ctx = element.getContext("2d"); /* draws stuff */ } var view = [ m("canvas", {config: draw}) ] //this creates the canvas element, and therefore, `isInitialized` is false m.render(document.body, view); //here, isInitialized is `true` m.render(document.body, view);
One common way of using
config
is in conjunction withm.route
, which is an unobtrusive extension to links that allow Mithril's routing system to work transparently regardless of which routing mode is used.//this link can use any of Mithril's routing system modes //(i.e. it can use either the hash, the querystring or the pathname as the router implementation) //without needing to hard-code any syntax (`#` or `?`) in the `href` attribute. m("a[href='/dashboard']", {config: m.route}, "Dashboard");
The
config
mechanism can also be used to put focus on form inputs, and call methods that would not be possible to execute via the regular attribute syntax.It is only meant to be used to call methods on DOM elements that cannot be called otherwise.
It is NOT a "free out-of-jail card". You should not use this method to modify element properties that could be modified via the
attributes
argument, nor values outside of the DOM element in question.Also note that the
config
callback only runs after a rendering lifecycle is done. Therefore, you should not useconfig
to modify controller and model values, if you expect these changes to render immediately. Changes to controller and model values in this fashion will only render on the nextm.render
orm.module
call.You can use this mechanism to attach custom event listeners to controller methods (for example, when integrating with third party libraries), but you are responsible for making sure the integration with Mithril's autoredrawing system is in place. See the integration guide for more information.
- DOMElement element
The DOM element that corresponds to virtual element defined by the
m()
call.- Boolean isInitialized
Whether this is the first time we are running this function on this element. This flag is false the first time it runs on an element, and true on redraws that happen after the element has been created.
Children children (optional)
If this argument is a string, it will be rendered as a text node. To render a string as HTML, see
m.trust
If it's a VirtualElement, it will be rendered as a DOM Element.
If it's a list, its contents will recursively be rendered as appropriate and appended as children of the element being created.
If it's a SubtreeDirective with the value "retain", it will retain the existing DOM tree in place, if any. See subtree directives for more information.
returns VirtualElement
The returned VirtualElement is a javascript data structure that represents the DOM element to be rendered by
m.render