hidden attributeAll HTML elements may have the hidden content attribute set. The hidden attribute is a boolean
attribute. When specified on an element, it indicates that
the element is not yet, or is no longer, relevant. User agents should not render elements that have the
hidden attribute
specified.
In the following skeletal example, the attribute is used to hide the Web game's main screen until the user logs in:
<h1>The Example Game</h1>
<section id="login">
<h2>Login</h2>
<form>
...
<!-- calls login() once the user's credentials have been checked -->
</form>
<script>
function login() {
// switch screens
document.getElementById('login').hidden = true;
document.getElementById('game').hidden = false;
}
</script>
</section>
<section id="game" hidden>
...
</section>
The hidden attribute must not be
used to hide content that could legitimately be shown in another
presentation. For example, it is incorrect to use hidden to hide panels in a tabbed dialog,
because the tabbed interface is merely a kind of overflow
presentation — one could equally well just show all the form
controls in one big page with a scrollbar. It is similarly incorrect
to use this attribute to hide content just from one presentation
— if something is marked hidden, it is hidden from all
presentations, including, for instance, screen readers.
Elements that are not hidden
should not link to or refer to elements that are hidden.
For example, it would be incorrect to use the href attribute to link to a
section marked with the hidden
attribute. If the content is not applicable or relevant, then there
is no reason to link to it.
It would similarly be incorrect to use the ARIA aria-describedby attribute to
refer to descriptions that are themselves hidden. Hiding a section means that it
is not applicable or relevant to anyone at the current time, so
clearly it cannot be a valid description of content the user can
interact with.
Elements in a section hidden by the hidden attribute are still active,
e.g. scripts and form controls in such sections still execute
and submit respectively. Only their presentation to the user
changes.
The hidden IDL
attribute must reflect the content attribute of the
same name.
click()Acts as if the element was clicked.
Each element has a click in progress flag, initially set to false.
The click() method must
run these steps:
If the element's click in progress flag is set to true, then abort these steps.
Set the click in progress flag on the element to true.
If the element has a defined activation behavior,
run synthetic click activation steps on the
element. Otherwise, fire a click event at
the element.
Set the click in progress flag on the element to false.
When an element is focused, key events received by the document must be targeted at that element. There may be no element focused; when no element is focused, key events received by the document must be targeted at the body element.
User agents may track focus for each browsing
context or Document individually, or may support
only one focused element per top-level browsing context
— user agents should follow platform conventions in this
regard.
Which elements within a top-level browsing context currently have focus must be independent of whether or not the top-level browsing context itself has the system focus.
When an element is focused, the element matches the
CSS :focus pseudo-class.
tabindex attributeThe tabindex
content attribute specifies whether the element is focusable,
whether it can be reached using sequential focus navigation, and the
relative order of the element for the purposes of sequential focus
navigation. The name "tab index" comes from the common use of the
"tab" key to navigate through the focusable elements. The term
"tabbing" refers to moving forward through the focusable elements
that can be reached using sequential focus navigation.
The tabindex attribute, if
specified, must have a value that is a valid
integer.
If the attribute is specified, it must be parsed using the rules for parsing integers. The attribute's values have the following meanings:
The user agent should follow platform conventions to determine if the element is to be focusable and, if so, whether the element can be reached using sequential focus navigation, and if so, what its relative order should be.
The user agent must allow the element to be focused, but should not allow the element to be reached using sequential focus navigation.
The user agent must allow the element to be focused, should allow the element to be reached using sequential focus navigation, and should follow platform conventions to determine the element's relative order.
The user agent must allow the element to be focused, should allow the element to be reached using sequential focus navigation, and should place the element in the sequential focus navigation order so that it is:
tabindex attribute has been
omitted or whose value, when parsed, returns an error,tabindex attribute has a value equal
to or less than zero,tabindex attribute has a value
greater than zero but less than the value of the tabindex attribute on the
element,tabindex attribute has a value equal
to the value of the tabindex
attribute on the element but that is earlier in the document in
tree order than the element,tabindex attribute has a value equal
to the value of the tabindex
attribute on the element but that is later in the document in
tree order than the element, andtabindex attribute has a value
greater than the value of the tabindex attribute on the
element.An element is specially focusable if the tabindex attribute's definition above
defines the element to be focusable.
An element that is specially focusable but does not otherwise have an activation behavior defined has an activation behavior that does nothing.
This means that an element that is only focusable
because of its tabindex attribute
will fire a click event in response
to a non-mouse activation (e.g. hitting the "enter" key while the
element is focused).
The tabIndex IDL
attribute must reflect the value of the tabindex content attribute. Its default
value is 0 for elements that are focusable and −1 for
elements that are not focusable.
An element is focusable if the user agent's default
behavior allows it to be focusable or if the element is
specially focusable, but only if the element is either
being rendered or is a
descendant of a canvas element that
represents embedded content.
User agents should make the following elements focusable, unless platform conventions dictate otherwise:
a elements that have an href attributelink elements that have an href attributebutton elements that are not disabledinput elements whose type attribute are not in the
Hidden state and that
are not disabledselect elements that are not disabledtextarea elements that are not disabledcommand elements that do not have a disabled attributedraggable
attribute set, if that would enable the user agent to allow the
user to begin a drag operations for those elements without the use
of a pointing deviceIn addition, each shape that is generated for an
area element should be focusable, unless
platform conventions dictate otherwise. (A single area
element can correspond to multiple shapes, since image maps can be
reused with multiple images on a page.)
The user agent may also make part of a details
element's rendering focusable, to enable the element to be opened or
closed using keyboard input. However, this is distinct from the
details or summary element being
focusable.
The focusing steps are as follows:
If the element is not in a
Document, or if the element's
Document has no browsing context, or if
the element's Document's browsing context
has no top-level browsing context, then abort these
steps.
If focusing the element will remove the focus from another element, then run the unfocusing steps for that element.
Make the element the currently focused element in its top-level browsing context.
Some elements, most notably area, can correspond
to more than one distinct focusable area. If a particular area was
indicated when the element was focused, then that is the area that
must get focus; otherwise, e.g. when using the focus() method, the first such region in
tree order is the one that must be focused.
The user agent may apply relevant platform-specific conventions for focusing widgets.
For example, some platforms select the contents of a text field when that field is focused.
Fire a simple event named focus at the element.
User agents must synchronously run the focusing steps for an element whenever the user moves the focus to a focusable element.
The unfocusing steps are as follows:
If the element is an input element, and the
change event applies to the
element, and the element does not have a defined activation
behavior, and the user has changed the element's value or its list of selected files
while the control was focused without committing that change, then
fire a simple event that bubbles named change at the element.
Unfocus the element.
Fire a simple event named blur at the element.
When an element that is focused stops being a focusable element, or stops being focused without another element being explicitly focused in its stead, the user agent should synchronously run the focusing steps for the body element, if there is one; if there is not, then the user agent should synchronously run the unfocusing steps for the affected element only.
For example, this might happen because the
element is removed from its Document, or has a hidden attribute added. It would also
happen to an input element when the element gets disabled.
activeElementReturns the currently focused element.
hasFocus()Returns true if the document has focus; otherwise, returns false.
focus()Focuses the window. Use of this method is discouraged. Allow the user to control window focus instead.
blur()Unfocuses the window. Use of this method is discouraged. Allow the user to control window focus instead.
The activeElement
attribute on HTMLDocument objects must return the
element in the document that is focused. If no element in the
Document is focused, this must return the body
element.
The hasFocus() method
on HTMLDocument objects must return true if the
Document's browsing context is focused,
and all its ancestor
browsing contexts are also focused, and the top-level
browsing context has the system focus. If the
Document has no browsing context or if its
browsing context has no top-level browsing
context, then the method will always return false.
The focus()
method on the Window object, when invoked, provides a
hint to the user agent that the script believes the user might be
interested in the contents of the browsing context of
the Window object on which the method was invoked.
User agents are encouraged to have this focus() method trigger some kind of
notification.
The blur() method
on the Window object, when invoked, provides a hint to
the user agent that the script believes the user probably is not
currently interested in the contents of the browsing
context of the Window object on which the method
was invoked, but that the contents might become interesting again in
the future.
User agents are encouraged to ignore calls to this blur() method entirely.
Historically the focus() and blur() methods actually affected the
system focus, but hostile sites widely abuse this behavior to the
user's detriment.
focus()Focuses the element.
blur()Unfocuses the element. Use of this method is discouraged. Focus another element instead.
Do not use this method to hide the focus ring if you find the focus ring unsightly. Instead, use a CSS rule to override the 'outline' property.
For example, to hide the outline from links, you could use:
:link:focus, :visited:focus { outline: none; }
The focus() method,
when invoked, must run the following algorithm:
If the element is marked as locked for focus, then abort these steps.
If the element is not focusable, then abort these steps.
Mark the element as locked for focus.
If the element is not already focused, run the focusing steps for the element.
Unmark the element as locked for focus.
The blur() method, when
invoked, should run the focusing steps for the
body element, if there is one; if there is not, then it
should run the unfocusing steps for the element on
which the method was called instead. User agents may selectively or
uniformly ignore calls to this method for usability reasons.
For example, if the blur() method is unwisely being used to
remove the focus ring for aesthetics reasons, the page would become
unusable by keyboard users. Ignoring calls to this method would thus
allow keyboard users to interact with the page.
This section is non-normative.
Each element that can be activated or focused can be assigned a
single key combination to activate it, using the accesskey attribute.
The exact shortcut is determined by the user agent, based on
information about the user's keyboard, what keyboard shortcuts
already exist on the platform, and what other shortcuts have been
specified on the page, using the information provided in the accesskey attribute as a guide.
In order to ensure that a relevant keyboard shortcut is available
on a wide variety of input devices, the author can provide a number
of alternatives in the accesskey
attribute.
Each alternative consists of a single character, such as a letter or digit.
User agents can provide users with a list of the keyboard
shortcuts, but authors are encouraged to do so also. The accessKeyLabel IDL attribute
returns a string representing the actual key combination assigned by
the user agent.
accesskey attributeAll HTML elements may have the accesskey content attribute set. The
accesskey attribute's value is
used by the user agent as a guide for creating a keyboard shortcut
that activates or focuses the element.
If specified, the value must be an ordered set of unique space-separated tokens that are case-sensitive, each of which must be exactly one Unicode code point in length.
In the following example, a variety of links are given with access keys so that keyboard users familiar with the site can more quickly navigate to the relevant pages:
<nav> <p> <a title="Consortium Activities" accesskey="A" href="/Consortium/activities">Activities</a> | <a title="Technical Reports and Recommendations" accesskey="T" href="/TR/">Technical Reports</a> | <a title="Alphabetical Site Index" accesskey="S" href="/Consortium/siteindex">Site Index</a> | <a title="About This Site" accesskey="B" href="/Consortium/">About Consortium</a> | <a title="Contact Consortium" accesskey="C" href="/Consortium/contact">Contact</a> </p> </nav>
In the following example, the search field is given two possible access keys, "s" and "0" (in that order). A user agent on a device with a full keyboard might pick Ctrl+Alt+S as the shortcut key, while a user agent on a small device with just a numeric keypad might pick just the plain unadorned key 0:
<form action="/search"> <label>Search: <input type="search" name="q" accesskey="s 0"></label> <input type="submit"> </form>
In the following example, a button has possible access keys described. A script then tries to update the button's label to advertise the key combination the user agent selected.
<input type=submit accesskey="N @ 1" value="Compose">
...
<script>
function labelButton(button) {
if (button.accessKeyLabel)
button.value += ' (' + button.accessKeyLabel + ')';
}
var inputs = document.getElementsByTagName('input');
for (var i = 0; i < inputs.length; i += 1) {
if (inputs[i].type == "submit")
labelButton(inputs[i]);
}
</script>
On one user agent, the button's label might become "Compose (⌘N)". On another, it might become "Compose (Alt+⇧+1)". If the user agent doesn't assign a key, it will be just "Compose". The exact string depends on what the assigned access key is, and on how the user agent represents that key combination.
An element's assigned access key is a key combination
derived from the element's accesskey content attribute.
Initially, an element must not have an assigned access
key.
Whenever an element's accesskey attribute is set, changed,
or removed, the user agent must update the element's assigned
access key by running the following steps:
If the element has no accesskey attribute, then skip to the
fallback step below.
Otherwise, split the attribute's value on spaces, and let keys be the resulting tokens.
For each value in keys in turn, in the order the tokens appeared in the attribute's value, run the following substeps:
If the value is not a string exactly one Unicode code point in length, then skip the remainder of these steps for this value.
If the value does not correspond to a key on the system's keyboard, then skip the remainder of these steps for this value.
If the user agent can find a combination of modifier keys that, with the key that corresponds to the value given in the attribute, can be used as a shortcut key, then the user agent may assign that combination of keys as the element's assigned access key and abort these steps.
Fallback: Optionally, the user agent may assign a key combination of its choosing as the element's assigned access key and then abort these steps.
If this step is reached, the element has no assigned access key.
Once a user agent has selected and assigned an access key for an
element, the user agent should not change the element's
assigned access key unless the accesskey content attribute is changed
or the element is moved to another Document.
When the user presses the key combination corresponding to the assigned access key for an element, if the element defines a command, and the command's Hidden State facet is false (visible), and the command's Disabled State facet is also false (enabled), then the user agent must trigger the Action of the command.
User agents may expose elements that have an accesskey attribute in other ways as
well, e.g. in a menu displayed in response to a specific key
combination.
The accessKey IDL
attribute must reflect the accesskey content attribute.
The accessKeyLabel IDL
attribute must return a string that represents the element's
assigned access key, if any. If the element does not
have one, then the IDL attribute must return the empty string.
contenteditable attributeThe contenteditable
attribute is an enumerated attribute whose keywords are
the empty string, true, and false. The empty string and the true keyword map to the true state. The false keyword maps to the false state. In
addition, there is a third state, the inherit state, which is
the missing value default (and the invalid value
default).
The true state indicates that the element is editable. The inherit state indicates that the element is editable if its parent is. The false state indicates that the element is not editable.
Specifically, if an HTML
element has a contenteditable attribute set to
the true state, or it has its contenteditable attribute set to
the inherit state and if its nearest ancestor HTML element with the contenteditable attribute set to
a state other than the inherit state has its attribute set to the
true state, or if it and its ancestors all have their contenteditable attribute set to
the inherit state but the Document has designMode enabled, then the
UA must treat the element as editable (as described
below).
Otherwise, either the HTML
element has a contenteditable attribute set to
the false state, or its contenteditable attribute is set
to the inherit state and its nearest ancestor HTML element with the contenteditable attribute set to
a state other than the inherit state has its attribute set to the
false state, or all its ancestors have their contenteditable attribute set to
the inherit state and the Document itself has designMode disabled; either
way, the element is not editable.
contentEditable [ = value ]Returns "true", "false", or "inherit", based
on the state of the contenteditable attribute.
Can be set, to change that state.
Throws a SYNTAX_ERR exception if the new value
isn't one of those strings.
isContentEditableReturns true if the element is editable; otherwise, returns false.
The contentEditable IDL
attribute, on getting, must return the string "true" if the content attribute is set to the true
state, "false" if the content attribute is set
to the false state, and "inherit"
otherwise. On setting, if the new value is an ASCII
case-insensitive match for the string "inherit" then the content attribute must be removed,
if the new value is an ASCII case-insensitive match for
the string "true" then the content attribute
must be set to the string "true", if the new
value is an ASCII case-insensitive match for the string
"false" then the content attribute must be set
to the string "false", and otherwise the
attribute setter must raise a SYNTAX_ERR exception.
The isContentEditable
IDL attribute, on getting, must return true if the element is
editable, and false otherwise.
If an element is editable and its parent element is not, or if an element is editable and it has no parent element, then the element is an editing host. Editable elements can be nested. Editing hosts are typically focusable and typically form part of the tab order. An editing host can contain non-editable sections, these are handled as described below. An editing host can contain non-editable sections that contain further editing hosts.
When an editing host has focus, it must have a caret position that specifies where the current editing position is. It may also have a selection.
How the caret and selection are represented depends entirely on the UA.
There are several actions that the user agent should allow the user to perform while the user is interacting with an editing host. How exactly each action is triggered is not defined for every action, but when it is not defined, suggested key bindings are provided to guide implementors.
User agents must allow users to move the caret to any
position within an editing host, even into nested editable
elements. This could be triggered as the default action of keydown events with various key
identifiers and as the default action of mousedown events.
User agents must allow users to change the selection within
an editing host, even into nested editable elements. User agents
may prevent selections from being made in ways that cross from
editable elements into non-editable elements (e.g. by making each
non-editable descendant atomically selectable, but not allowing
text selection within them). This could be triggered as the default
action of keydown events with
various key identifiers and as the default action of mousedown events.
This action must be triggered as the default action of a
textInput event, and may be
triggered by other commands as well. It must cause the user agent
to insert the specified text (given by the event object's data attribute in the case of the textInput event) at the caret.
If the caret is positioned somewhere where phrasing
content is not allowed (e.g. inside an empty ol
element), then the user agent must not insert the text directly at
the caret position. In such cases the behavior is UA-dependent,
but user agents must not, in response to a request to insert text,
generate a DOM that is less conformant than the DOM prior to the
request.
User agents should allow users to insert new paragraphs into elements that contains only content other than paragraphs.
UAs should offer a way for the user to request that the
current paragraph be broken at the caret, e.g. as the default
action of a keydown event whose
identifier is the "Enter" key and that has no modifiers set.
The exact behavior is UA-dependent, but user agents must not, in response to a request to break a paragraph, generate a DOM that is less conformant than the DOM prior to the request.
UAs should offer a way for the user to request an explicit
line break at the caret position without breaking the paragraph,
e.g. as the default action of a keydown event whose identifier is the
"Enter" key and that has a shift modifier set. Line separators are
typically found within a poem verse or an address. To insert a line
break, the user agent must insert a br element.
If the caret is positioned somewhere where phrasing
content is not allowed (e.g. in an empty ol
element), then the user agent must not insert the br
element directly at the caret position. In such cases the behavior
is UA-dependent, but user agents must not, in response to a request
to insert a line separator, generate a DOM that is less conformant
than the DOM prior to the request.
UAs should offer a way for the user to delete text and
elements, including non-editable descendants, e.g. as the default
action of keydown events whose
identifiers are "U+0008" or "U+007F".
Five edge cases in particular need to be considered carefully when implementing this feature: backspacing at the start of an element, backspacing when the caret is immediately after an element, forward-deleting at the end of an element, forward-deleting when the caret is immediately before an element, and deleting a selection whose start and end points do not share a common parent node.
In any case, the exact behavior is UA-dependent, but user agents must not, in response to a request to delete text or an element, generate a DOM that is less conformant than the DOM prior to the request.
UAs should offer the user the ability to mark text and paragraphs with semantics that HTML can express.
UAs should similarly offer a way for the user to insert empty semantic elements to subsequently fill by entering text manually.
UAs should also offer a way to remove those semantics from marked up text, and to remove empty semantic element that have been inserted.
In response to a request from a user to mark text up in italics,
user agents should use the i element to represent the
semantic. The em element should be used only if the
user agent is sure that the user means to indicate stress
emphasis.
In response to a request from a user to mark text up in bold,
user agents should use the b element to represent the
semantic. The strong element should be used only if
the user agent is sure that the user means to indicate
importance.
The exact behavior is UA-dependent, but user agents must not, in response to a request to wrap semantics around some text or to insert or remove a semantic element, generate a DOM that is less conformant than the DOM prior to the request.
UAs should offer a way for the user to move images and other non-editable parts around the content within an editing host. This may be done using the drag and drop mechanism. User agents must not, in response to a request to move non-editable elements nested inside editing hosts, generate a DOM that is less conformant than the DOM prior to the request.
When an editable form control is edited, the
changes must be reflected in both its current value and
its default value. For input elements this means
updating the defaultValue IDL attribute as
well as the value IDL
attribute; for select elements it means updating the
option elements' defaultSelected IDL
attribute as well as the selected IDL attribute; for
textarea elements this means updating the defaultValue IDL attribute
as well as the value IDL
attribute. (Updating the default* IDL
attributes causes content attributes to be updated as well.)
User agents may perform several commands per user request; for example if the user selects a block of text and hits Enter, the UA might interpret that as a request to delete the content of the selection followed by a request to break the paragraph at that position.
User agents may add DOM changes entries to the
undo transaction history of the editing
host's Document object each time an action is
triggered.
All of the actions defined above, whether triggered by the user
or programmatically (e.g. by execCommand() commands),
must fire mutation events as appropriate.
Documents have a designMode, which
can be either enabled or disabled.
designMode [ = value ]Returns "on" if the document is editable,
and "off" if it isn't.
Can be set, to change the document's current state.
The designMode IDL
attribute on the Document object takes two values,
"on" and "off". When it
is set, the new value must be compared in an ASCII
case-insensitive manner to these two values. If it matches
the "on" value, then designMode must be enabled,
and if it matches the "off" value, then designMode must be
disabled. Other values must be ignored.
When designMode is
enabled, the IDL attribute must return the value "on", and when it is disabled, it must return the
value "off".
The last state set must persist until the document is destroyed
or the state is changed. Initially, documents must have their designMode disabled.
User agents can support the checking of spelling and grammar of
editable text, either in form controls (such as the value of
textarea elements), or in elements in an editing
host (using contenteditable).
For each element, user agents must establish a default behavior, either through defaults or through preferences expressed by the user. There are three possible default behaviors for each element:
The spellcheck
attribute is an enumerated attribute whose keywords are
the empty string, true and false. The empty string and the true keyword map to the true state. The false keyword maps to the false state. In
addition, there is a third state, the default state, which is
the missing value default (and the invalid value
default).
The true state indicates that the element is to have its
spelling and grammar checked. The default state indicates
that the element is to act according to a default behavior, possibly
based on the parent element's own spellcheck state. The false
state indicates that the element is not to be checked.
spellcheck [ = value ]Returns true if the element is to have its spelling and grammar checked; otherwise, returns false.
Can be set, to override the default and set the spellcheck content attribute.
The spellcheck IDL
attribute, on getting, must return true if the element's spellcheck content attribute is in
the true state, or if the element's spellcheck content attribute is in
the default state and the element's default behavior is true-by-default, or
if the element's spellcheck
content attribute is in the default state and the element's
default behavior is
inherit-by-default
and the element's parent element's spellcheck IDL attribute would return
true; otherwise, if none of those conditions applies, then the
attribute must instead return false.
The spellcheck
IDL attribute is not affected by user preferences that override the
spellcheck content attribute,
and therefore might not reflect the actual spellchecking state.
On setting, if the new value is true, then the element's spellcheck content attribute must be
set to the literal string "true", otherwise it
must be set to the literal string "false".
User agents must only consider the following pieces of text as checkable for the purposes of this feature:
input elements to which the readonly attribute applies,
whose type attributes are not
in the Password
state, and that are not immutable (i.e. that do not
have the readonly
attribute specified and that are not disabled).textarea elements that do not have a
readonly attribute and
that are not disabled.For text that is part of a text node, the element
with which the text is associated is the element that is the
immediate parent of the first character of the word, sentence, or
other piece of text. For text in attributes, it is the attribute's
element. For the values of input and
textarea elements, it is the element itself.
To determine if a word, sentence, or other piece of text in an applicable element (as defined above) is to have spelling- and/or grammar-checking enabled, the UA must use the following algorithm:
spellcheck content
attribute, then: if that attribute is in the true state,
then checking is enabled; otherwise, if that attribute is in the
false state, then checking is disabled.spellcheck content attribute that is
not in the default state, then: if the nearest such
ancestor's spellcheck content
attribute is in the true state, then checking is enabled;
otherwise, checking is disabled.If the checking is enabled for a word/sentence/text, the user
agent should indicate spelling and/or grammar errors in that
text. User agents should take into account the other semantics given
in the document when suggesting spelling and grammar
corrections. User agents may use the language of the element to
determine what spelling and grammar rules to use, or may use the
user's preferred language settings. UAs should use
input element attributes such as pattern to ensure that the
resulting value is valid, where possible.
If checking is disabled, the user agent should not indicate spelling or grammar errors for that text.
The element with ID "a" in the following example would be the one used to determine if the word "Hello" is checked for spelling errors. In this example, it would not be.
<div contenteditable="true"> <span spellcheck="false" id="a">Hell</span><em>o!</em> </div>
The element with ID "b" in the following example would have
checking enabled (the leading space character in the attribute's
value on the input element causes the attribute to be
ignored, so the ancestor's value is used instead, regardless of the
default).
<p spellcheck="true"> <label>Name: <input spellcheck=" false" id="b"></label> </p>
This specification does not define the user interface for spelling and grammar checkers. A user agent could offer on-demand checking, could perform continuous checking while the checking is enabled, or could use other interfaces.