This section is non-normative.
A form is a component of a Web page that has form controls, such as text fields, buttons, checkboxes, range controls, or color pickers. A user can interact with such a form, providing data that can then be sent to the server for further processing (e.g. returning the results of a search or calculation). No client-side scripting is needed in many cases, though an API is available so that scripts can augment the user experience or use forms for purposes other than submitting data to a server.
Writing a form consists of several steps, which can be performed in any order: writing the user interface, implementing the server-side processing, and configuring the user interface to communicate with the server.
This section is non-normative.
For the purposes of this brief introduction, we will create a pizza ordering form.
Any form starts with a form
element, inside which are placed the controls. Most
controls are represented by the input
element, which by default provides a one-line
text field. To label a control, the label
element is used; the label text and the
control itself go inside the label
element. Each part of a form is considered a
paragraph, and is typically separated from other parts using p
elements.
Putting this together, here is how one might ask for the customer's name:
<form> <p><label>Customer name: <input></label></p> </form>
To let the user select the size of the pizza, we can use a set of radio buttons. Radio buttons
also use the input
element, this time with a type
attribute with the value radio
. To make the radio buttons work as a group, they are
given a common name using the name
attribute. To group a batch
of controls together, such as, in this case, the radio buttons, one can use the
fieldset
element. The title of such a group of controls is given by the first element
in the fieldset
, which has to be a legend
element.
<form> <p><label>Customer name: <input></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> </form>
Changes from the previous step are highlighted.
To pick toppings, we can use checkboxes. These use the input
element with a type
attribute with the value checkbox
:
<form> <p><label>Customer name: <input></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox> Bacon </label></p> <p><label> <input type=checkbox> Extra Cheese </label></p> <p><label> <input type=checkbox> Onion </label></p> <p><label> <input type=checkbox> Mushroom </label></p> </fieldset> </form>
The pizzeria for which this form is being written is always making mistakes, so it needs a way
to contact the customer. For this purpose, we can use form controls specifically for telephone
numbers (input
elements with their type
attribute set to tel
) and e-mail addresses
(input
elements with their type
attribute set to
email
):
<form> <p><label>Customer name: <input></label></p> <p><label>Telephone: <input type=tel></label></p> <p><label>E-mail address: <input type=email></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox> Bacon </label></p> <p><label> <input type=checkbox> Extra Cheese </label></p> <p><label> <input type=checkbox> Onion </label></p> <p><label> <input type=checkbox> Mushroom </label></p> </fieldset> </form>
We can use an input
element with its type
attribute set to time
to ask for a delivery time. Many
of these form controls have attributes to control exactly what values can be specified; in this
case, three attributes of particular interest are min
, max
, and step
. These set the
minimum time, the maximum time, and the interval between allowed values (in seconds). This
pizzeria only delivers between 11am and 9pm, and doesn't promise anything better than 15 minute
increments, which we can mark up as follows:
<form> <p><label>Customer name: <input></label></p> <p><label>Telephone: <input type=tel></label></p> <p><label>E-mail address: <input type=email></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox> Bacon </label></p> <p><label> <input type=checkbox> Extra Cheese </label></p> <p><label> <input type=checkbox> Onion </label></p> <p><label> <input type=checkbox> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900"></label></p> </form>
The textarea
element can be used to provide a free-form text field. In this
instance, we are going to use it to provide a space for the customer to give delivery
instructions:
<form> <p><label>Customer name: <input></label></p> <p><label>Telephone: <input type=tel></label></p> <p><label>E-mail address: <input type=email></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox> Bacon </label></p> <p><label> <input type=checkbox> Extra Cheese </label></p> <p><label> <input type=checkbox> Onion </label></p> <p><label> <input type=checkbox> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900"></label></p> <p><label>Delivery instructions: <textarea></textarea></label></p> </form>
Finally, to make the form submittable we use the button
element:
<form> <p><label>Customer name: <input></label></p> <p><label>Telephone: <input type=tel></label></p> <p><label>E-mail address: <input type=email></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size> Small </label></p> <p><label> <input type=radio name=size> Medium </label></p> <p><label> <input type=radio name=size> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox> Bacon </label></p> <p><label> <input type=checkbox> Extra Cheese </label></p> <p><label> <input type=checkbox> Onion </label></p> <p><label> <input type=checkbox> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900"></label></p> <p><label>Delivery instructions: <textarea></textarea></label></p> <p><button>Submit order</button></p> </form>
This section is non-normative.
The exact details for writing a server-side processor are out of scope for this specification.
For the purposes of this introduction, we will assume that the script at https://pizza.example.com/order.cgi
is configured to accept submissions using the
application/x-www-form-urlencoded
format,
expecting the following parameters sent in an HTTP POST body:
custname
custtel
custemail
size
small
, medium
, or large
topping
bacon
, cheese
, onion
, and mushroom
delivery
comments
This section is non-normative.
Form submissions are exposed to servers in a variety of ways, most commonly as HTTP GET or POST
requests. To specify the exact method used, the method
attribute is specified on the form
element. This doesn't specify how the form data is
encoded, though; to specify that, you use the enctype
attribute. You also have to specify the URL of the service that will handle the
submitted data, using the action
attribute.
For each form control you want submitted, you then have to give a name that will be used to
refer to the data in the submission. We already specified the name for the group of radio buttons;
the same attribute (name
) also specifies the submission name.
Radio buttons can be distinguished from each other in the submission by giving them different
values, using the value
attribute.
Multiple controls can have the same name; for example, here we give all the checkboxes the same
name, and the server distinguishes which checkbox was checked by seeing which values are submitted
with that name — like the radio buttons, they are also given unique values with the value
attribute.
Given the settings in the previous section, this all becomes:
<form method="post" enctype="application/x-www-form-urlencoded" action="https://pizza.example.com/order.cgi"> <p><label>Customer name: <input name="custname"></label></p> <p><label>Telephone: <input type=tel name="custtel"></label></p> <p><label>E-mail address: <input type=email name="custemail"></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size value="small"> Small </label></p> <p><label> <input type=radio name=size value="medium"> Medium </label></p> <p><label> <input type=radio name=size value="large"> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox name="topping" value="bacon"> Bacon </label></p> <p><label> <input type=checkbox name="topping" value="cheese"> Extra Cheese </label></p> <p><label> <input type=checkbox name="topping" value="onion"> Onion </label></p> <p><label> <input type=checkbox name="topping" value="mushroom"> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900" name="delivery"></label></p> <p><label>Delivery instructions: <textarea name="comments"></textarea></label></p> <p><button>Submit order</button></p> </form>
There is no particular significance to the way some of the attributes have their values quoted and others don't. The HTML syntax allows a variety of equally valid ways to specify attributes, as discussed in the syntax section.
For example, if the customer entered "Denise Lawrence" as their name, "555-321-8642" as their telephone number, did not specify an e-mail address, asked for a medium-sized pizza, selected the Extra Cheese and Mushroom toppings, entered a delivery time of 7pm, and left the delivery instructions text field blank, the user agent would submit the following to the online Web service:
custname=Denise+Lawrence&custtel=555-321-8624&custemail=&size=medium&topping=cheese&topping=mushroom&delivery=19%3A00&comments=
This section is non-normative.
Forms can be annotated in such a way that the user agent will check the user's input before the form is submitted. The server still has to verify the input is valid (since hostile users can easily bypass the form validation), but it allows the user to avoid the wait incurred by having the server be the sole checker of the user's input.
The simplest annotation is the required
attribute,
which can be specified on input
elements to indicate that the form is not to be
submitted until a value is given. By adding this attribute to the customer name, pizza size, and
delivery time fields, we allow the user agent to notify the user when the user submits the form
without filling in those fields:
<form method="post" enctype="application/x-www-form-urlencoded" action="https://pizza.example.com/order.cgi"> <p><label>Customer name: <input name="custname" required></label></p> <p><label>Telephone: <input type=tel name="custtel"></label></p> <p><label>E-mail address: <input type=email name="custemail"></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size required value="small"> Small </label></p> <p><label> <input type=radio name=size required value="medium"> Medium </label></p> <p><label> <input type=radio name=size required value="large"> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox name="topping" value="bacon"> Bacon </label></p> <p><label> <input type=checkbox name="topping" value="cheese"> Extra Cheese </label></p> <p><label> <input type=checkbox name="topping" value="onion"> Onion </label></p> <p><label> <input type=checkbox name="topping" value="mushroom"> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900" name="delivery" required></label></p> <p><label>Delivery instructions: <textarea name="comments"></textarea></label></p> <p><button>Submit order</button></p> </form>
It is also possible to limit the length of the input, using the maxlength
attribute. By adding this to the textarea
element, we can limit users to 1000 characters, preventing them from writing huge essays to the
busy delivery drivers instead of staying focused and to the point:
<form method="post" enctype="application/x-www-form-urlencoded" action="https://pizza.example.com/order.cgi"> <p><label>Customer name: <input name="custname" required></label></p> <p><label>Telephone: <input type=tel name="custtel"></label></p> <p><label>E-mail address: <input type=email name="custemail"></label></p> <fieldset> <legend> Pizza Size </legend> <p><label> <input type=radio name=size required value="small"> Small </label></p> <p><label> <input type=radio name=size required value="medium"> Medium </label></p> <p><label> <input type=radio name=size required value="large"> Large </label></p> </fieldset> <fieldset> <legend> Pizza Toppings </legend> <p><label> <input type=checkbox name="topping" value="bacon"> Bacon </label></p> <p><label> <input type=checkbox name="topping" value="cheese"> Extra Cheese </label></p> <p><label> <input type=checkbox name="topping" value="onion"> Onion </label></p> <p><label> <input type=checkbox name="topping" value="mushroom"> Mushroom </label></p> </fieldset> <p><label>Preferred delivery time: <input type=time min="11:00" max="21:00" step="900" name="delivery" required></label></p> <p><label>Delivery instructions: <textarea name="comments" maxlength=1000></textarea></label></p> <p><button>Submit order</button></p> </form>
When a form is submitted, invalid
events are
fired at each form control that is invalid, and then at the form
element itself. This
can be useful for displaying a summary of the problems with the form, since typically the browser
itself will only report one problem at a time.
This section is non-normative.
In this pizza delivery example, the times are specified in the format "HH:MM": two digits for the hour, in 24-hour format, and two digits for the time. (Seconds could also be specified, though they are not necessary in this example.)
In some locales, however, times are often expressed differently when presented to users. For example, in the United States, it is still common to use the 12-hour clock with an am/pm indicator, as in "2pm". In France, it is common to separate the hours from the minutes using an "h" character, as in "14h00".
Similar issues exist with dates, with the added complication that even the order of the components is not always consistent — for example, in Cyprus the first of February 2003 would typically be written "1/2/03", while that same date in Japan would typically be written as "2003年02月01日" — and even with numbers, where locales differ, for example, in what punctuation is used as the decimal separator and the thousands separator.
It is therefore important to distinguish the time, date, and number formats used in HTML and in form submissions, which are always the formats defined in this specification (and based on the well-established ISO 8601 standard for computer-readable date and time formats), from the time, date, and number formats presented to the user by the browser and accepted as input from the user by the browser.
The format used "on the wire", i.e. in HTML markup and in form submissions, is intended to be computer-readable and consistent irrespective of the user's locale. Dates, for instance, are always written in the format "YYYY-MM-DD", as in "2003-02-01". Users are not expected to ever see this format.
The time, date, or number given by the page in the wire format is then translated to the user's preferred presentation (based on user preferences or on the locale of the page itself), before being displayed to the user. Similarly, after the user inputs a time, date, or number using their preferred format, the user agent converts it back to the wire format before putting it in the DOM or submitting it.
This allows scripts in pages and on servers to process times, dates, and numbers in a consistent manner without needing to support dozens of different formats, while still supporting the users' needs.
See also the implementation notes regarding localization of form controls.
Mostly for historical reasons, elements in this section fall into several overlapping (but subtly different) categories in addition to the usual ones like flow content, phrasing content, and interactive content.
A number of the elements are form-associated elements, which means they can have a form owner.
The form-associated elements fall into several subcategories:
Denotes elements that are listed in the form.elements
and fieldset.elements
APIs.
Denotes elements that can be used for constructing the
form data set when a form
element is submitted.
Some submittable elements can be, depending on their attributes, buttons. The prose below defines when an element is a button. Some buttons are specifically submit buttons.
Denotes elements that can be affected when a form
element is reset.
Denotes elements that have a form
content attribute, and a
matching form
IDL attribute, that allow authors to specify an
explicit form owner.
Some elements, not all of them form-associated,
are categorized as labelable elements. These are elements that
can be associated with a label
element.
button
input
(if the type
attribute is not in the Hidden state)keygen
meter
output
progress
select
textarea
form
elementform
element descendants.accept-charset
action
autocomplete
enctype
method
name
novalidate
target
[OverrideBuiltins] interface HTMLFormElement : HTMLElement { attribute DOMString acceptCharset; attribute DOMString action; attribute DOMString autocomplete; attribute DOMString enctype; attribute DOMString encoding; attribute DOMString method; attribute DOMString name; attribute boolean noValidate; attribute DOMString target; readonly attribute HTMLFormControlsCollection elements; readonly attribute long length; getter Element (unsigned long index); getter (RadioNodeList or Element) (DOMString name); void submit(); void reset(); boolean checkValidity(); };
The form
element represents a collection of form-associated elements, some of which can represent
editable values that can be submitted to a server for processing.
The accept-charset
attribute gives the
character encodings that are to be used for the submission. If specified, the value must be an
ordered set of unique space-separated tokens that are ASCII
case-insensitive, and each token must be an ASCII case-insensitive match for
one of the labels of an ASCII-compatible character
encoding. [ENCODING]
The name
attribute represents the
form
's name within the forms
collection. The
value must not be the empty string, and the value must be unique amongst the form
elements in the forms
collection that it is in, if
any.
The autocomplete
attribute is an
enumerated attribute. The attribute has two states. The on
keyword maps to the on state, and the off
keyword maps to the off state. The attribute may also be omitted. The
missing value default is the on state.
The off state indicates that by default,
form controls in the form will have their autofill field name set to "off
"; the on state indicates that by default, form controls
in the form will have their autofill field name set to "on
".
The action
, enctype
,
method
, novalidate
,
and target
attributes are attributes for form
submission.
elements
Returns an HTMLCollection
of the form controls in the form (excluding image
buttons for historical reasons).
length
Returns the number of form controls in the form (excluding image buttons for historical reasons).
Returns the indexth element in the form (excluding image buttons for historical reasons).
Returns the form control (or, if there are several, a RadioNodeList
of the form
controls) in the form with the given ID or name
(excluding image buttons for historical reasons); or, if there
are none, returns the img
element with the given ID.
Once an element has been referenced using a particular name, that name will continue being
available as a way to reference that element in this method, even if the element's actual ID or name
changes, for as long as
the element remains in the Document
.
If there are multiple matching items, then a RadioNodeList
object containing all
those elements is returned.
submit
()Submits the form.
reset
()Resets the form.
checkValidity
()Returns true if the form's controls are all valid; otherwise, returns false.
The autocomplete
IDL attribute must
reflect the content attribute of the same name, limited to only known
values.
The name
IDL attribute must reflect
the content attribute of the same name.
The acceptCharset
IDL attribute must
reflect the accept-charset
content
attribute.
The elements
IDL attribute must return an
HTMLFormControlsCollection
rooted at the Document
node while the
form
element is in a Document
and rooted at the
form
element itself when it is not, whose filter matches listed elements whose form owner is the
form
element, with the exception of input
elements whose type
attribute is in the Image
Button state, which must, for historical reasons, be excluded from this particular
collection.
The length
IDL attribute must return the number
of nodes represented by the elements
collection.
The supported property indices at any instant are the indices supported by the
object returned by the elements
attribute at that
instant.
When a form
element is indexed for indexed property
retrieval, the user agent must return the value returned by the item
method on the elements
collection, when invoked with the given index as its
argument.
Each form
element has a mapping of names to elements called the past names
map. It is used to persist names of controls even when they change names.
The supported property names consist of the names obtained from the following algorithm, in the order obtained from this algorithm:
Let sourced names be an initially empty ordered list of tuples consisting of a string, an element, a source, where the source is either id, name, or past, and, if the source is past, an age.
For each listed element candidate
whose form owner is the form
element, with the exception of any
input
elements whose type
attribute is in the
Image Button state, run these substeps:
If candidate has an id
attribute, add
an entry to sourced names with that id
attribute's value as the string, candidate as the element, and id as
the source.
If candidate has a name
attribute,
add an entry to sourced names with that name
attribute's value as the string, candidate
as the element, and name as the source.
For each img
element candidate whose form owner
is the form
element, run these substeps:
If candidate has an id
attribute, add
an entry to sourced names with that id
attribute's value as the string, candidate as the element, and id as
the source.
If candidate has a name
attribute,
add an entry to sourced names with that name
attribute's value as the string, candidate
as the element, and name as the source.
For each entry past entry in the past names map add an entry to sourced names with the past entry's name as the string, past entry's element as the element, past as the source, and the length of time past entry has been in the past names map as the age.
Sort sourced names by tree order of the element entry of each tuple, sorting entries with the same element by putting entries whose source is id first, then entries whose source is name, and finally entries whose source is past, and sorting entries with the same element and source by their age, oldest first.
Remove any entries in sourced names that have the empty string as their name.
Remove any entries in sourced names that have the same name as an earlier entry in the map.
Return the list of names from sourced names, maintaining their relative order.
The properties exposed in this way must not be enumerable.
When a form
element is indexed for named property
retrieval, the user agent must run the following steps:
Let candidates be a live RadioNodeList
object containing all the listed elements whose form
owner is the form
element that have either an id
attribute or a name
attribute equal to name, with the exception of input
elements whose type
attribute is in the Image
Button state, in tree order.
If candidates is empty, let candidates be a
live RadioNodeList
object containing all the img
elements
that are descendants of the form
element and that have either an id
attribute or a name
attribute equal
to name, in tree order.
If candidates is empty, name is the name of one of
the entries in the form
element's past names map: return the object
associated with name in that map.
If candidates contains more than one node, return candidates and abort these steps.
Otherwise, candidates contains exactly one node. Add a mapping from
name to the node in candidates in the form
element's past names map, replacing the previous entry with the same name, if
any.
Return the node in candidates.
If an element listed in a form
element's past names map changes
form owner, then its entries must be removed from that map.
The submit()
method, when invoked, must submit the form
element from the form
element itself, with the submitted from submit()
method flag set.
The reset()
method, when invoked, must run the
following steps:
If the form
element is marked as locked for reset, then abort these
steps.
Mark the form
element as locked for reset.
Unmark the form
element as locked for reset.
If the checkValidity()
method is
invoked, the user agent must statically validate the constraints of the
form
element, and return true if the constraint validation return a positive
result, and false if it returned a negative result.
This example shows two search forms:
<form action="http://www.google.com/search" method="get"> <label>Google: <input type="search" name="q"></label> <input type="submit" value="Search..."> </form> <form action="http://www.bing.com/search" method="get"> <label>Bing: <input type="search" name="q"></label> <input type="submit" value="Search..."> </form>
label
elementlabel
elements.form
for
interface HTMLLabelElement : HTMLElement { readonly attribute HTMLFormElement? form; attribute DOMString htmlFor; readonly attribute HTMLElement? control; };
The label
element represents a caption in a user interface. The
caption can be associated with a specific form control, known as the
label
element's labeled control, either using the for
attribute, or by putting the form control inside the
label
element itself.
Except where otherwise specified by the following rules, a label
element has no
labeled control.
The for
attribute may be specified to indicate a
form control with which the caption is to be associated. If the attribute is specified, the
attribute's value must be the ID of a labelable element in the same Document
as the
label
element. If the attribute is specified and there is an
element in the Document
whose ID is equal to the
value of the for
attribute, and the first such element is a
labelable element, then that element is the label
element's labeled control.
If the for
attribute is not specified, but the
label
element has a labelable element descendant,
then the first such descendant in tree order is the label
element's
labeled control.
The label
element's exact default presentation and behavior, in particular what
its activation behavior might be, if anything, should match the platform's label
behavior. The activation behavior of a label
element for events targeted
at interactive content descendants of a label
element, and any
descendants of those interactive content descendants, must be to do nothing.
For example, on platforms where clicking a checkbox label checks the checkbox, clicking the
label
in the following snippet could trigger the user agent to run synthetic
click activation steps on the input
element, as if the element itself had
been triggered by the user:
<label><input type=checkbox name=lost> Lost</label>
On other platforms, the behavior might be just to focus the control, or do nothing.
The form
attribute is used to explicitly associate the
label
element with its form owner.
The following example shows three form controls each with a label, two of which have small text showing the right format for users to use.
<p><label>Full name: <input name=fn> <small>Format: First Last</small></label></p> <p><label>Age: <input name=age type=number min=0></label></p> <p><label>Post code: <input name=pc> <small>Format: AB12 3CD</small></label></p>
control
Returns the form control that is associated with this element.
The htmlFor
IDL attribute must
reflect the for
content attribute.
The control
IDL attribute must return the
label
element's labeled control, if any, or null if there isn't one.
The form
IDL attribute is part of the element's forms
API.
labels
Returns a NodeList
of all the label
elements that the form control
is associated with.
Labelable elements have a NodeList
object
associated with them that represents the list of label
elements, in tree
order, whose labeled control is the element in question. The labels
IDL attribute of labelable elements, on getting, must return that
NodeList
object.
input
elementtype
attribute is not in the Hidden state: Interactive content.type
attribute is not in the Hidden state: Listed, labelable, submittable, resettable, and reassociateable form-associated element.type
attribute is in the Hidden state: Listed, submittable, resettable, and reassociateable form-associated element.type
attribute is not in the Hidden state: Palpable content.accept
alt
autocomplete
autofocus
checked
dirname
disabled
form
formaction
formenctype
formmethod
formnovalidate
formtarget
height
list
max
maxlength
min
minlength
multiple
name
pattern
placeholder
readonly
required
size
src
step
type
value
width
title
attribute has special semantics on this element
when used in conjunction with the pattern
attribute.interface HTMLInputElement : HTMLElement {
attribute DOMString accept;
attribute DOMString alt;
attribute DOMString autocomplete;
attribute boolean autofocus;
attribute boolean defaultChecked;
attribute boolean checked;
attribute DOMString dirName;
attribute boolean disabled;
readonly attribute HTMLFormElement? form;
readonly attribute FileList? files;
attribute DOMString formAction;
attribute DOMString formEnctype;
attribute DOMString formMethod;
attribute boolean formNoValidate;
attribute DOMString formTarget;
attribute unsigned long height;
attribute boolean indeterminate;
readonly attribute HTMLElement? list;
attribute DOMString max;
attribute long maxLength;
attribute DOMString min;
attribute long minLength;
attribute boolean multiple;
attribute DOMString name;
attribute DOMString pattern;
attribute DOMString placeholder;
attribute boolean readOnly;
attribute boolean required;
attribute unsigned long size;
attribute DOMString src;
attribute DOMString step;
attribute DOMString type;
attribute DOMString defaultValue;
[TreatNullAs=EmptyString] attribute DOMString value;
attribute Date? valueAsDate;
attribute unrestricted double valueAsNumber;
attribute unsigned long width;
void stepUp(optional long n = 1);
void stepDown(optional long n = 1);
readonly attribute boolean willValidate;
readonly attribute ValidityState validity;
readonly attribute DOMString validationMessage;
boolean checkValidity();
void setCustomValidity(DOMString error);
readonly attribute NodeList labels;
void select();
attribute unsigned long selectionStart;
attribute unsigned long selectionEnd;
attribute DOMString selectionDirection;
void setRangeText(DOMString replacement);
void setRangeText(DOMString replacement, unsigned long start, unsigned long end, optional SelectionMode selectionMode = "preserve");
void setSelectionRange(unsigned long start, unsigned long end, optional DOMString direction);
};
The input
element represents a typed data field, usually with a form
control to allow the user to edit the data.
The type
attribute controls the data type (and
associated control) of the element. It is an enumerated attribute. The following
table lists the keywords and states for the attribute — the keywords in the left column map
to the states in the cell in the second column on the same row as the keyword.
Keyword | State | Data type | Control type |
---|---|---|---|
hidden
| Hidden | An arbitrary string | n/a |
text
| Text | Text with no line breaks | A text field |
search
| Search | Text with no line breaks | Search field |
tel
| Telephone | Text with no line breaks | A text field |
url
| URL | An absolute URL | A text field |
email
| An e-mail address or list of e-mail addresses | A text field | |
password
| Password | Text with no line breaks (sensitive information) | A text field that obscures data entry |
date
| Date | A date (year, month, day) with no time zone | A date control |
time
| Time | A time (hour, minute, seconds, fractional seconds) with no time zone | A time control |
number
| Number | A numerical value | A text field or spinner control |
range
| Range | A numerical value, with the extra semantic that the exact value is not important | A slider control or similar |
color
| Color | An sRGB color with 8-bit red, green, and blue components | A color well |
checkbox
| Checkbox | A set of zero or more values from a predefined list | A checkbox |
radio
| Radio Button | An enumerated value | A radio button |
file
| File Upload | Zero or more files each with a MIME type and optionally a file name | A label and a button |
submit
| Submit Button | An enumerated value, with the extra semantic that it must be the last value selected and initiates form submission | A button |
image
| Image Button | A coordinate, relative to a particular image's size, with the extra semantic that it must be the last value selected and initiates form submission | Either a clickable image, or a button |
reset
| Reset Button | n/a | A button |
button
| Button | n/a | A button |
The missing value default is the Text state.
Which of the accept
, alt
, autocomplete
, checked
, dirname
, formaction
, formenctype
, formmethod
, formnovalidate
, formtarget
, height
,
list
, max
, maxlength
, min
, minlength
, multiple
, pattern
, placeholder
, readonly
, required
,
size
, src
, step
, and width
content
attributes, the checked
, files
, valueAsDate
,
valueAsNumber
, and list
IDL attributes, the select()
method, the selectionStart
, selectionEnd
, and selectionDirection
, IDL attributes, the setRangeText()
and setSelectionRange()
methods, the stepUp()
and stepDown()
methods, and the input
and change
events apply to an input
element depends on
the state of its type
attribute. The subsections that define
each type also clearly define in normative "bookkeeping" sections which of these feature apply,
and which do not apply, to each type. The behavior of these features depends on whether
they apply or not, as defined in their various sections (q.v. for content attributes, for APIs, for events).
The following table is non-normative and summarizes which of those content attributes, IDL attributes, methods, and events apply to each state:
Hidden | Text, Search | URL, Telephone | Password | Date, Time | Number | Range | Color | Checkbox, Radio Button | File Upload | Submit Button | Image Button | Reset Button, Button | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Content attributes | ||||||||||||||
accept
| · | · | · | · | · | · | · | · | · | · | Yes | · | · | · |
alt
| · | · | · | · | · | · | · | · | · | · | · | · | Yes | · |
autocomplete
| · | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | · | · | · | · | · |
checked
| · | · | · | · | · | · | · | · | · | Yes | · | · | · | · |
dirname
| · | Yes | · | · | · | · | · | · | · | · | · | · | · | · |
formaction
| · | · | · | · | · | · | · | · | · | · | · | Yes | Yes | · |
formenctype
| · | · | · | · | · | · | · | · | · | · | · | Yes | Yes | · |
formmethod
| · | · | · | · | · | · | · | · | · | · | · | Yes | Yes | · |
formnovalidate
| · | · | · | · | · | · | · | · | · | · | · | Yes | Yes | · |
formtarget
| · | · | · | · | · | · | · | · | · | · | · | Yes | Yes | · |
height
| · | · | · | · | · | · | · | · | · | · | · | · | Yes | · |
inputmode
| · | Yes | · | · | Yes | · | · | · | · | · | · | · | · | · |
list
| · | Yes | Yes | Yes | · | Yes | Yes | Yes | Yes | · | · | · | · | · |
max
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
maxlength
| · | Yes | Yes | Yes | Yes | · | · | · | · | · | · | · | · | · |
min
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
minlength
| · | Yes | Yes | Yes | Yes | · | · | · | · | · | · | · | · | · |
multiple
| · | · | · | Yes | · | · | · | · | · | · | Yes | · | · | · |
pattern
| · | Yes | Yes | Yes | Yes | · | · | · | · | · | · | · | · | · |
placeholder
| · | Yes | Yes | Yes | Yes | · | Yes | · | · | · | · | · | · | · |
readonly
| · | Yes | Yes | Yes | Yes | Yes | Yes | · | · | · | · | · | · | · |
required
| · | Yes | Yes | Yes | Yes | Yes | Yes | · | · | Yes | Yes | · | · | · |
size
| · | Yes | Yes | Yes | Yes | · | · | · | · | · | · | · | · | · |
src
| · | · | · | · | · | · | · | · | · | · | · | · | Yes | · |
step
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
width
| · | · | · | · | · | · | · | · | · | · | · | · | Yes | · |
IDL attributes and methods | ||||||||||||||
checked
| · | · | · | · | · | · | · | · | · | Yes | · | · | · | · |
files
| · | · | · | · | · | · | · | · | · | · | Yes | · | · | · |
value
| default | value | value | value | value | value | value | value | value | default/on | filename | default | default | default |
valueAsDate
| · | · | · | · | · | Yes | · | · | · | · | · | · | · | · |
valueAsNumber
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
list
| · | Yes | Yes | Yes | · | Yes | Yes | Yes | Yes | · | · | · | · | · |
select()
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
selectionStart
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
selectionEnd
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
selectionDirection
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
setRangeText()
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
setSelectionRange()
| · | Yes | Yes | · | Yes | · | · | · | · | · | · | · | · | · |
stepDown()
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
stepUp()
| · | · | · | · | · | Yes | Yes | Yes | · | · | · | · | · | · |
Events | ||||||||||||||
input event
| · | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | · | · | · |
change event
| · | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | Yes | · | · | · |
Some states of the type
attribute define a value
sanitization algorithm.
Each input
element has a value, which is
exposed by the value
IDL attribute. Some states define an
algorithm to convert a string to a number, an
algorithm to convert a number to a string, an
algorithm to convert a string to a Date
object, and an algorithm to convert a
Date
object to a string, which are used by max
, min
, step
, valueAsDate
, valueAsNumber
, stepDown()
, and stepUp()
.
Each input
element has a boolean dirty
value flag. The dirty value flag must be
initially set to false when the element is created, and must be set to true whenever the user
interacts with the control in a way that changes the value.
(It is also set to true when the value is programmatically changed, as described in the definition
of the value
IDL attribute.)
The value
content attribute gives the default
value of the input
element. When the value
content attribute is added, set,
or removed, if the control's dirty value flag
is false, the user agent must set the value of the element
to the value of the value
content attribute, if there is
one, or the empty string otherwise, and then run the current value sanitization
algorithm, if one is defined.
Each input
element has a checkedness,
which is exposed by the checked
IDL attribute.
Each input
element has a boolean dirty checkedness flag. When it is true, the
element is said to have a dirty checkedness.
The dirty checkedness flag must be initially
set to false when the element is created, and must be set to true whenever the user interacts with
the control in a way that changes the checkedness.
The checked
content attribute is a
boolean attribute that gives the default checkedness of the input
element. When the checked
content attribute is added,
if the control does not have dirty checkedness, the
user agent must set the checkedness of the element to
true; when the checked
content attribute is removed, if
the control does not have dirty checkedness, the user
agent must set the checkedness of the element to
false.
The reset algorithm for input
elements is to set the dirty value flag and
dirty checkedness flag back to false, set
the value of the element to the value of the value
content attribute, if there is one, or the empty string
otherwise, set the checkedness of the element to true if
the element has a checked
content attribute and false if
it does not, empty the list of selected
files, and then invoke the value sanitization algorithm, if the type
attribute's current state defines one.
Each input
element can be mutable. Except where
otherwise specified, an input
element is always mutable. Similarly, except where otherwise specified, the user
agent should not allow the user to modify the element's value or checkedness.
When an input
element is disabled, it is not mutable.
The readonly
attribute can also in some
cases (e.g. for the Date state, but not the Checkbox state) stop an input
element from
being mutable.
The cloning steps for input
elements
must propagate the value, dirty value flag, checkedness, and dirty checkedness flag from the node being cloned
to the copy.
When an input
element is first created, the element's rendering and behavior must
be set to the rendering and behavior defined for the type
attribute's state, and the value sanitization algorithm, if one is defined for the
type
attribute's state, must be invoked.
When an input
element's type
attribute
changes state, the user agent must run the following steps:
If the previous state of the element's type
attribute
put the value
IDL attribute in the value mode, and the element's value is not the empty string, and the new state of the element's
type
attribute puts the value
IDL attribute in either the default mode or the default/on mode, then set the element's value
content attribute to the element's value.
Otherwise, if the previous state of the element's type
attribute put the value
IDL attribute in any mode other than the value mode, and the
new state of the element's type
attribute puts the value
IDL attribute in the value mode, then set the value of the element to the value of the value
content attribute, if there is one, or the empty string
otherwise, and then set the control's dirty value
flag to false.
Update the element's rendering and behavior to the new state's.
Invoke the value sanitization algorithm, if one is defined for the type
attribute's new state.
The name
attribute represents the element's name.
The dirname
attribute controls how the element's directionality is submitted.
The disabled
attribute is used to make the control non-interactive and to prevent its value from being submitted.
The form
attribute is used to explicitly associate the input
element with its form owner.
The autofocus
attribute controls focus.
The autocomplete
attribute controls how the user agent provides autofill behavior.
The indeterminate
IDL attribute must
initially be set to false. On getting, it must return the last value it was set to. On setting, it
must be set to the new value. It has no effect except for changing the appearance of checkbox controls.
The accept
, alt
, max
,
min
, multiple
, pattern
, placeholder
, required
, size
, src
,
and step
IDL attributes must reflect
the respective content attributes of the same name. The dirName
IDL attribute must reflect the
dirname
content attribute. The readOnly
IDL attribute must reflect the
readonly
content attribute. The defaultChecked
IDL attribute must
reflect the checked
content attribute. The
defaultValue
IDL attribute must
reflect the value
content attribute.
The type
IDL attribute must reflect
the respective content attribute of the same name, limited to only known values.
The maxLength
IDL attribute must reflect
the maxlength
content attribute, limited to only
non-negative numbers. The minLength
IDL attribute must reflect
the minlength
content attribute, limited to only
non-negative numbers.
The IDL attributes width
and height
must return the rendered width and height of
the image, in CSS pixels, if an image is being rendered, and is being rendered to a
visual medium; or else the intrinsic width and height of the image, in CSS pixels, if an image is
available but not being rendered to a visual medium; or else 0,
if no image is available. When the input
element's
type
attribute is not in the Image Button state, then no image is available. [CSS]
On setting, they must act as if they reflected the respective content attributes of the same name.
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The select()
, selectionStart
, selectionEnd
, selectionDirection
, setRangeText()
, and setSelectionRange()
methods and IDL attributes
expose the element's text selection. The autofocus
, disabled
, form
, and name
IDL attributes are part of the element's forms API.
type
attributetype=hidden
)The input
element represents a value that is not intended to be
examined or manipulated by the user.
Constraint validation: If an input
element's type
attribute is in the Hidden state, it is barred from constraint
validation.
If the name
attribute is present and has a value that is a
case-sensitive match for the string "_charset_
", then the element's value
attribute must be omitted.
The
value
IDL attribute applies to this element and is
in mode default.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
autocomplete
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
The input
and change
events do not apply.
type=text
) state and Search state (type=search
)When an input
element's type
attribute is in
the Text state or the Search state, the rules in this section apply.
The input
element represents a one line plain text edit control for
the element's value.
The difference between the Text state and the Search state is primarily stylistic: on platforms where search fields are distinguished from regular text fields, the Search state might result in an appearance consistent with the platform's search fields rather than appearing like a regular text field.
If the element is mutable, its value should be editable by the user. User agents must not allow users to insert "LF" (U+000A) or "CR" (U+000D) characters into the element's value.
If the element is mutable, the user agent should allow the user to change the writing direction of the element, setting it either to a left-to-right writing direction or a right-to-left writing direction. If the user does so, the user agent must then run the following steps:
Set the element's dir
attribute to "ltr
" if the user selected a left-to-right writing direction, and
"rtl
" if the user selected a right-to-left writing
direction.
Queue a task to fire a simple event that bubbles named input
at the input
element.
The value
attribute, if specified, must have a value that
contains no "LF" (U+000A) or "CR" (U+000D) characters.
The value sanitization algorithm is as follows: Strip line breaks from the value.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
dirname
,
list
,
maxlength
,
minlength
,
pattern
,
placeholder
,
readonly
,
required
, and
size
content attributes;
list
,
selectionStart
,
selectionEnd
,
selectionDirection
, and
value
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
max
,
min
,
multiple
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
type=tel
)The input
element represents a control for editing a telephone number
given in the element's value.
If the element is mutable, its value should be editable by the user. User agents may change the spacing and, with care, the punctuation of values that the user enters. User agents must not allow users to insert "LF" (U+000A) or "CR" (U+000D) characters into the element's value.
The value
attribute, if specified, must have a value that
contains no "LF" (U+000A) or "CR" (U+000D) characters.
The value sanitization algorithm is as follows: Strip line breaks from the value.
Unlike the URL and E-mail types, the Telephone type does not enforce a particular syntax. This is
intentional; in practice, telephone number fields tend to be free-form fields, because there are a
wide variety of valid phone numbers. Systems that need to enforce a particular format are
encouraged to use the pattern
attribute or the setCustomValidity()
method to hook into the client-side
validation mechanism.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
list
,
maxlength
,
minlength
,
pattern
,
placeholder
,
readonly
,
required
, and
size
content attributes;
list
,
selectionStart
,
selectionEnd
,
selectionDirection
, and
value
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
max
,
min
,
multiple
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
type=url
)The input
element represents a control for editing a single
absolute URL given in the element's value.
If the element is mutable, the user agent should allow the user to change the URL represented by its value. User agents may allow the user to set the value to a string that is not a valid absolute URL, but may also or instead automatically escape characters entered by the user so that the value is always a valid absolute URL (even if that isn't the actual value seen and edited by the user in the interface). User agents should allow the user to set the value to the empty string. User agents must not allow users to insert "LF" (U+000A) or "CR" (U+000D) characters into the value.
The value
attribute, if specified and not empty, must
have a value that is a valid URL potentially surrounded by spaces that is also an
absolute URL.
The value sanitization algorithm is as follows: Strip line breaks from the value, then strip leading and trailing whitespace from the value.
Constraint validation: While the value of the element is neither the empty string nor a valid absolute URL, the element is suffering from a type mismatch.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
list
,
maxlength
,
minlength
,
pattern
,
placeholder
,
readonly
,
required
, and
size
content attributes;
list
,
selectionStart
,
selectionEnd
,
selectionDirection
, and
value
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
max
,
min
,
multiple
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
If a document contained the following markup:
<input type="url" name="location" list="urls"> <datalist id="urls"> <option label="MIME: Format of Internet Message Bodies" value="http://tools.ietf.org/html/rfc2045"> <option label="HTML 4.01 Specification" value="http://www.w3.org/TR/html4/"> <option label="Form Controls" value="http://www.w3.org/TR/xforms/slice8.html#ui-commonelems-hint"> <option label="Scalable Vector Graphics (SVG) 1.1 Specification" value="http://www.w3.org/TR/SVG/"> <option label="Feature Sets - SVG 1.1 - 20030114" value="http://www.w3.org/TR/SVG/feature.html"> <option label="The Single UNIX Specification, Version 3" value="http://www.unix-systems.org/version3/"> </datalist>
...and the user had typed "www.w3", and the user agent had also found that the user
had visited http://www.w3.org/Consortium/#membership
and
http://www.w3.org/TR/XForms/
in the recent past, then the rendering might look like
this:
The first four URLs in this sample consist of the four URLs in the author-specified list that match the text the user has entered, sorted in some UA-defined manner (maybe by how frequently the user refers to those URLs). Note how the UA is using the knowledge that the values are URLs to allow the user to omit the scheme part and perform intelligent matching on the domain name.
The last two URLs (and probably many more, given the scrollbar's indications of more values being available) are the matches from the user agent's session history data. This data is not made available to the page DOM. In this particular case, the UA has no titles to provide for those values.
type=email
)How the E-mail state operates depends on whether the
multiple
attribute is specified or not.
multiple
attribute is not specified on the
elementThe input
element represents a control for editing an e-mail
address given in the element's value.
If the element is mutable, the user agent should allow the user to change the e-mail address represented by its value. User agents may allow the user to set the value to a string that is not a valid e-mail address. The user agent should act in a manner consistent with expecting the user to provide a single e-mail address. User agents should allow the user to set the value to the empty string. User agents must not allow users to insert "LF" (U+000A) or "CR" (U+000D) characters into the value. User agents may transform the value for display and editing; in particular, user agents should convert punycode in the value to IDN in the display and vice versa.
Constraint validation: While the user interface is representing input that the user agent cannot convert to punycode, the control is suffering from bad input.
The value
attribute, if specified and not empty, must
have a value that is a single valid e-mail address.
The value sanitization algorithm is as follows: Strip line breaks from the value, then strip leading and trailing whitespace from the value.
When the multiple
attribute is removed, the user
agent must run the value sanitization algorithm.
Constraint validation: While the value of the element is neither the empty string nor a single valid e-mail address, the element is suffering from a type mismatch.
multiple
attribute is specified on
the elementThe element's values are the result of splitting on commas the element's value.
The input
element represents a control for adding, removing, and
editing the e-mail addresses given in the element's values.
If the element is mutable, the user agent should allow the user to add, remove, and edit the e-mail addresses represented by its values. User agents may allow the user to set any individual value in the list of values to a string that is not a valid e-mail address, but must not allow users to set any individual value to a string containing "," (U+002C), "LF" (U+000A), or "CR" (U+000D) characters. User agents should allow the user to remove all the addresses in the element's values. User agents may transform the values for display and editing; in particular, user agents should convert punycode in the value to IDN in the display and vice versa.
Constraint validation: While the user interface describes a situation where an individual value contains a "," (U+002C) or is representing input that the user agent cannot convert to punycode, the control is suffering from bad input.
Whenever the user changes the element's values, the user agent must run the following steps:
Let latest values be a copy of the element's values.
Strip leading and trailing whitespace from each value in latest values.
Let the element's value be the result of concatenating all the values in latest values, separating each value from the next by a single "," (U+002C) character, maintaining the list's order.
The value
attribute, if specified, must have a value
that is a valid e-mail address list.
The value sanitization algorithm is as follows:
Split on commas the element's value, strip leading and trailing whitespace from each resulting token, if any, and let the element's values be the (possibly empty) resulting list of (possibly empty) tokens, maintaining the original order.
Let the element's value be the result of concatenating the element's values, separating each value from the next by a single "," (U+002C) character, maintaining the list's order.
When the multiple
attribute is set, the user agent
must run the value sanitization algorithm.
Constraint validation: While the value of the element is not a valid e-mail address list, the element is suffering from a type mismatch.
A valid e-mail address is a string that matches the email
production of the following ABNF, the character set for which is Unicode. This ABNF implements the
extensions described in RFC 1123. [ABNF] [RFC5322] [RFC1034] [RFC1123]
email = 1*( atext / "." ) "@" label *( "." label ) label = let-dig [ [ ldh-str ] let-dig ] ; limited to a length of 63 characters by RFC 1034 section 3.5 atext = < as defined in RFC 5322 section 3.2.3 > let-dig = < as defined in RFC 1034 section 3.5 > ldh-str = < as defined in RFC 1034 section 3.5 >
This requirement is a willful violation of RFC 5322, which defines a syntax for e-mail addresses that is simultaneously too strict (before the "@" character), too vague (after the "@" character), and too lax (allowing comments, whitespace characters, and quoted strings in manners unfamiliar to most users) to be of practical use here.
The following JavaScript- and Perl-compatible regular expression is an implementation of the above definition.
/^[a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*$/
A valid e-mail address list is a set of comma-separated tokens, where each token is itself a valid e-mail address. To obtain the list of tokens from a valid e-mail address list, and implementation must split the string on commas.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
list
,
maxlength
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
, and
size
content attributes;
list
and
value
IDL attributes.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
max
,
min
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
and
stepUp()
methods.
type=password
)The input
element represents a one line plain text edit control for
the element's value. The user agent should obscure the value
so that people other than the user cannot see it.
If the element is mutable, its value should be editable by the user. User agents must not allow users to insert "LF" (U+000A) or "CR" (U+000D) characters into the value.
The value
attribute, if specified, must have a value that
contains no "LF" (U+000A) or "CR" (U+000D) characters.
The value sanitization algorithm is as follows: Strip line breaks from the value.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
maxlength
,
minlength
,
pattern
,
placeholder
,
readonly
,
required
, and
size
content attributes;
selectionStart
,
selectionEnd
,
selectionDirection
, and
value
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
min
,
multiple
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
files
,
list
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
type=date
)The input
element represents a control for setting the element's
value to a string representing a specific date.
If the element is mutable, the user agent should allow the user to change the date represented by its value, as obtained by parsing a date from it. User agents must not allow the user to set the value to a non-empty string that is not a valid date string. If the user agent provides a user interface for selecting a date, then the value must be set to a valid date string representing the user's selection. User agents should allow the user to set the value to the empty string.
Constraint validation: While the user interface describes input that the user agent cannot convert to a valid date string, the control is suffering from bad input.
See the introduction section for a discussion of the difference between the input format and submission format for date, time, and number form controls, and the implementation notes regarding localization of form controls.
The value
attribute, if specified and not empty, must
have a value that is a valid date string.
The value sanitization algorithm is as follows: If the value of the element is not a valid date string, then set it to the empty string instead.
The min
attribute, if specified, must have a value that is
a valid date string. The max
attribute, if
specified, must have a value that is a valid date string.
The step
attribute is expressed in days. The step scale factor is 86,400,000
(which converts the days to milliseconds, as used in the other algorithms). The default step is 1 day.
When the element is suffering from a step mismatch, the user agent may round the element's value to the nearest date for which the element would not suffer from a step mismatch.
The algorithm to convert a string to a
number, given a string input, is as follows: If parsing a date from input results in an
error, then return an error; otherwise, return the number of milliseconds elapsed from midnight
UTC on the morning of 1970-01-01 (the time represented by the value "1970-01-01T00:00:00.0Z
") to midnight UTC on the morning of the parsed date, ignoring leap seconds.
The algorithm to convert a number to a
string, given a number input, is as follows: Return a
valid date string that represents the date that, in
UTC, is current input milliseconds after midnight UTC on the morning of
1970-01-01 (the time represented by the value "1970-01-01T00:00:00.0Z
").
The algorithm to convert a string to a
Date
object, given a string input, is as follows:
If parsing a date from input results
in an error, then return an error; otherwise, return a new
Date
object representing midnight UTC on the morning of the parsed date.
The algorithm to convert a
Date
object to a string, given a Date
object input, is as follows: Return a valid date string that
represents the date current at the time represented by input in the UTC time zone.
The following common input
element content
attributes, IDL attributes, and methods apply to the element:
autocomplete
,
list
,
max
,
min
,
readonly
,
required
, and
step
content attributes;
list
,
value
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
The value
IDL attribute is
in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not
apply to the element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
maxlength
,
minlength
,
multiple
,
pattern
,
placeholder
,
size
,
src
, and
width
.
The following IDL attributes and methods do not apply to the
element:
checked
,
selectionStart
,
selectionEnd
, and
selectionDirection
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
type=time
)The input
element represents a control for setting the element's
value to a string representing a specific time.
If the element is mutable, the user agent should allow the user to change the time represented by its value, as obtained by parsing a time from it. User agents must not allow the user to set the value to a non-empty string that is not a valid time string. If the user agent provides a user interface for selecting a time, then the value must be set to a valid time string representing the user's selection. User agents should allow the user to set the value to the empty string.
Constraint validation: While the user interface describes input that the user agent cannot convert to a valid time string, the control is suffering from bad input.
See the introduction section for a discussion of the difference between the input format and submission format for date, time, and number form controls, and the implementation notes regarding localization of form controls.
The value
attribute, if specified and not empty, must
have a value that is a valid time string.
The value sanitization algorithm is as follows: If the value of the element is not a valid time string, then set it to the empty string instead.
The form control has a periodic domain.
The min
attribute, if specified, must have a value that is
a valid time string. The max
attribute, if
specified, must have a value that is a valid time string.
The step
attribute is expressed in seconds. The step scale factor is 1000 (which
converts the seconds to milliseconds, as used in the other algorithms). The default step is 60 seconds.
When the element is suffering from a step mismatch, the user agent may round the element's value to the nearest time for which the element would not suffer from a step mismatch.
The algorithm to convert a string to a number, given a string input, is as follows: If parsing a time from input results in an error, then return an error; otherwise, return the number of milliseconds elapsed from midnight to the parsed time on a day with no time changes.
The algorithm to convert a number to a string, given a number input, is as follows: Return a valid time string that represents the time that is input milliseconds after midnight on a day with no time changes.
The algorithm to convert a string to a
Date
object, given a string input, is as follows:
If parsing a time from input results
in an error, then return an error; otherwise, return a new
Date
object representing the parsed time in
UTC on 1970-01-01.
The algorithm to convert a
Date
object to a string, given a Date
object input, is as follows: Return a valid time string that
represents the UTC time component that is represented by input.
The following common input
element content attributes, IDL attributes, and
methods apply to the element:
autocomplete
,
list
,
max
,
min
,
readonly
,
required
, and
step
content attributes;
list
,
value
,
valueAsDate
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
The value
IDL attribute is in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
maxlength
,
minlength
,
multiple
,
pattern
,
placeholder
,
size
,
src
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
selectionStart
,
selectionEnd
, and
selectionDirection
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
type=number
)The input
element represents a control for setting the element's
value to a string representing a number.
If the element is mutable, the user agent should allow the user to change the number represented by its value, as obtained from applying the rules for parsing floating-point number values to it. User agents must not allow the user to set the value to a non-empty string that is not a valid floating-point number. If the user agent provides a user interface for selecting a number, then the value must be set to the best representation of the number representing the user's selection as a floating-point number. User agents should allow the user to set the value to the empty string.
Constraint validation: While the user interface describes input that the user agent cannot convert to a valid floating-point number, the control is suffering from bad input.
This specification does not define what user interface user agents are to use; user agent vendors are encouraged to consider what would best serve their users' needs. For example, a user agent in Persian or Arabic markets might support Persian and Arabic numeric input (converting it to the format required for submission as described above). Similarly, a user agent designed for Romans might display the value in Roman numerals rather than in decimal; or (more realistically) a user agent designed for the French market might display the value with apostrophes between thousands and commas before the decimals, and allow the user to enter a value in that manner, internally converting it to the submission format described above.
The value
attribute, if specified and not empty, must
have a value that is a valid floating-point number.
The value sanitization algorithm is as follows: If the value of the element is not a valid floating-point number, then set it to the empty string instead.
The min
attribute, if specified, must have a value that is
a valid floating-point number. The max
attribute,
if specified, must have a value that is a valid floating-point number.
The step scale factor is 1. The default step is 1 (allowing only integers to be selected by the user, unless the step base has a non-integer value).
When the element is suffering from a step mismatch, the user agent may round the element's value to the nearest number for which the element would not suffer from a step mismatch. If there are two such numbers, user agents are encouraged to pick the one nearest positive infinity.
The algorithm to convert a string to a number, given a string input, is as follows: If applying the rules for parsing floating-point number values to input results in an error, then return an error; otherwise, return the resulting number.
The algorithm to convert a number to a string, given a number input, is as follows: Return a valid floating-point number that represents input.
The following common input
element content attributes, IDL attributes, and
methods apply to the element:
autocomplete
,
list
,
max
,
min
,
placeholder
,
readonly
,
required
, and
step
content attributes;
list
,
value
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
The value
IDL attribute is in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
maxlength
,
minlength
,
multiple
,
pattern
,
size
,
src
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
selectionStart
,
selectionEnd
,
selectionDirection
, and
valueAsDate
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
Here is an example of using a numeric input control:
<label>How much do you want to charge? $<input type=number min=0 step=0.01 name=price></label>
As described above, a user agent might support numeric input in the user's local format, converting it to the format required for submission as described above. This might include handling grouping separators (as in "872,000,000,000") and various decimal separators (such as "3,99" vs "3.99") or using local digits (such as those in Arabic, Devanagari, Persian, and Thai).
The type=number
state is not appropriate for input that
happens to only consist of numbers but isn't strictly speaking a number. For example, it would be
inappropriate for credit card numbers or US postal codes. A simple way of determining whether to
use type=number
is to consider whether it would make sense for the input
control to have a spinbox interface (e.g. with "up" and "down" arrows). Getting a credit card
number wrong by 1 in the last digit isn't a minor mistake, it's as wrong as getting every digit
incorrect. So it would not make sense for the user to select a credit card number using "up" and
"down" buttons. When a spinbox interface is not appropriate, type=text
is
probably the right choice (possibly with a pattern
attribute).
type=range
)The input
element represents a control for setting the element's
value to a string representing a number, but with the caveat
that the exact value is not important, letting UAs provide a simpler interface than they do for
the Number state.
In this state, the range and step constraints are enforced even during user input, and there is no way to set the value to the empty string.
If the element is mutable, the user agent should allow the user to change the number represented by its value, as obtained from applying the rules for parsing floating-point number values to it. User agents must not allow the user to set the value to a string that is not a valid floating-point number. If the user agent provides a user interface for selecting a number, then the value must be set to a best representation of the number representing the user's selection as a floating-point number. User agents must not allow the user to set the value to the empty string.
Constraint validation: While the user interface describes input that the user agent cannot convert to a valid floating-point number, the control is suffering from bad input.
The value
attribute, if specified, must have a value that
is a valid floating-point number.
The value sanitization algorithm is as follows: If the value of the element is not a valid floating-point number, then set it to a valid floating-point number that represents the default value.
The min
attribute, if specified, must have a value that is
a valid floating-point number. The default
minimum is 0. The max
attribute, if specified, must
have a value that is a valid floating-point number. The default maximum is 100.
The default value is the minimum plus half the difference between the minimum and the maximum, unless the maximum is less than the minimum, in which case the default value is the minimum.
When the element is suffering from an underflow, the user agent must set the element's value to a valid floating-point number that represents the minimum.
When the element is suffering from an overflow, if the maximum is not less than the minimum, the user agent must set the element's value to a valid floating-point number that represents the maximum.
The step scale factor is
1. The default step is 1 (allowing only
integers, unless the min
attribute has a non-integer
value).
When the element is suffering from a step mismatch, the user agent must round the element's value to the nearest number for which the element would not suffer from a step mismatch, and which is greater than or equal to the minimum, and, if the maximum is not less than the minimum, which is less than or equal to the maximum, if there is a number that matches these constraints. If two numbers match these constraints, then user agents must use the one nearest to positive infinity.
For example, the markup
<input type="range" min=0 max=100 step=20 value=50>
results in a range control whose initial value is 60.
The algorithm to convert a string to a number, given a string input, is as follows: If applying the rules for parsing floating-point number values to input results in an error, then return an error; otherwise, return the resulting number.
The algorithm to convert a number to a string, given a number input, is as follows: Return a valid floating-point number that represents input.
The following common input
element content attributes, IDL attributes, and
methods apply to the element:
autocomplete
,
list
,
max
,
min
, and
step
content attributes;
list
,
value
, and
valueAsNumber
IDL attributes;
stepDown()
and
stepUp()
methods.
The value
IDL attribute is in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
maxlength
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
selectionStart
,
selectionEnd
,
selectionDirection
, and
valueAsDate
IDL attributes;
select()
,
setRangeText()
, and
setSelectionRange()
methods.
Here is an example of a range control using an autocomplete list with the list
attribute. This could be useful if there are values along the
full range of the control that are especially important, such as preconfigured light levels or
typical speed limits in a range control used as a speed control. The following markup
fragment:
<input type="range" min="-100" max="100" value="0" step="10" name="power" list="powers">
<datalist id="powers">
<option value="0">
<option value="-30">
<option value="30">
<option value="++50">
</datalist>
...with the following style sheet applied:
input { height: 75px; width: 49px; background: #D5CCBB; color: black; }
...might render as:
Note how the UA determined the orientation of the control from the ratio of the
style-sheet-specified height and width properties. The colors were similarly derived from the
style sheet. The tick marks, however, were derived from the markup. In particular, the step
attribute has not affected the placement of tick marks, the
UA deciding to only use the author-specified completion values and then adding longer tick marks
at the extremes.
Note also how the invalid value ++50
was completely ignored.
For another example, consider the following markup fragment:
<input name=x type=range min=100 max=700 step=9.09090909 value=509.090909>
A user agent could display in a variety of ways, for instance:
Or, alternatively, for instance:
The user agent could pick which one to display based on the dimensions given in the style sheet. This would allow it to maintain the same resolution for the tick marks, despite the differences in width.
Finally, here is an example of a range control with two labeled values:
<input type="range" name="a" list="a-values"> <datalist id="a-values"> <option value="10" label="Low"> <option value="90" label="High"> </datalist>
With styles that make the control draw vertically, it might look as follows:
type=color
)The input
element represents a color well control, for setting the
element's value to a string representing a simple
color.
In this state, there is always a color picked, and there is no way to set the value to the empty string.
If the element is mutable, the user agent should allow the user to change the color represented by its value, as obtained from applying the rules for parsing simple color values to it. User agents must not allow the user to set the value to a string that is not a valid lowercase simple color. If the user agent provides a user interface for selecting a color, then the value must be set to the result of using the rules for serializing simple color values to the user's selection. User agents must not allow the user to set the value to the empty string.
Constraint validation: While the user interface describes input that the user agent cannot convert to a valid lowercase simple color, the control is suffering from bad input.
The value
attribute, if specified and not empty, must
have a value that is a valid simple color.
The value sanitization algorithm is as follows: If the value of the element is a valid simple color, then
set it to the value of the element converted to ASCII
lowercase; otherwise, set it to the string "#000000
".
The following common input
element content attributes and IDL attributes apply to the element:
autocomplete
and
list
content attributes;
list
and
value
IDL attributes.
The value
IDL attribute is in mode value.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
type=checkbox
)The input
element represents a two-state control that represents the
element's checkedness state. If the element's checkedness state is true, the control represents a positive
selection, and if it is false, a negative selection. If the element's indeterminate
IDL attribute is set to true, then the
control's selection should be obscured as if the control was in a third, indeterminate, state.
The control is never a true tri-state control, even if the element's indeterminate
IDL attribute is set to true. The indeterminate
IDL attribute only gives the appearance of a
third state.
If the element is mutable, then: The pre-click
activation steps consist of setting the element's checkedness to its opposite value (i.e. true if it is false,
false if it is true), and of setting the element's indeterminate
IDL attribute to false. The canceled
activation steps consist of setting the checkedness
and the element's indeterminate
IDL attribute back to
the values they had before the pre-click activation steps were run. The
activation behavior is to fire a simple event that bubbles named input
at the element and then fire a simple event that bubbles named change
at the element.
If the element is not mutable, it has no activation behavior.
Constraint validation: If the element is required and its checkedness is false, then the element is suffering from being missing.
indeterminate
[ = value ]When set, overrides the rendering of checkbox controls so that the current value is not visible.
The following common input
element content attributes and IDL attributes apply to the element:
checked
, and
required
content attributes;
checked
and
value
IDL attributes.
The value
IDL attribute is in mode default/on.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
autocomplete
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
type=radio
)When an input
element's type
attribute is in
the Radio Button state, the rules in this section
apply.
The input
element represents a control that, when used in conjunction
with other input
elements, forms a radio button group in which only one
control can have its checkedness state set to true. If the
element's checkedness state is true, the control
represents the selected control in the group, and if it is false, it indicates a control in the
group that is not selected.
The radio button group that contains an input
element a also contains all the other input
elements b
that fulfill all of the following conditions:
input
element b's type
attribute is in the Radio
Button state.name
attribute, their name
attributes are not empty, and the value of a's name
attribute is a compatibility
caseless match for the value of b's name
attribute.A document must not contain an input
element whose radio button group
contains only that element.
When any of the following phenomena occur, if the element's checkedness state is true after the occurrence, the checkedness state of all the other elements in the same radio button group must be set to false:
name
attribute is set, changed, or
removed.If the element is mutable, then: The pre-click
activation steps consist of setting the element's checkedness to true. The canceled activation steps
consist of setting the element's checkedness to false. The
activation behavior is to fire a simple event that bubbles named input
at the element and then fire a simple event that bubbles named change
at the element. .
If the element is not mutable, it has no activation behavior.
Constraint validation: If an element in the radio button group is required, and all of the input
elements in the
radio button group have a checkedness that is
false, then the element is suffering from being missing.
If none of the radio buttons in a radio button group are checked when they are inserted into the document, then they will all be initially unchecked in the interface, until such time as one of them is checked (either by the user or by script).
The following common input
element content attributes and IDL attributes apply to the element:
checked
and
required
content attributes;
checked
and
value
IDL attributes.
The value
IDL attribute is in mode default/on.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
autocomplete
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
type=file
)When an input
element's type
attribute is in
the File Upload state, the rules in this section
apply.
The input
element represents a list of selected files, each file consisting of a file
name, a file type, and a file body (the contents of the file).
File names must not contain path components, even in the case that a user has selected an entire directory hierarchy or multiple files with the same name from different directories.
Unless the multiple
attribute is set, there must be
no more than one file in the list of selected
files.
If the element is mutable, then the element's activation behavior is to run the following steps:
If the algorithm is not allowed to show a popup, then abort these steps without doing anything else.
Return, but continue running these steps asynchronously.
Optionally, wait until any prior execution of this algorithm has terminated.
Display a prompt to the user requesting that the user specify some files. If the multiple
attribute is not set, there must be no more than one
file selected; otherwise, any number may be selected. Files can be from the filesystem or created
on the fly, e.g. a picture taken from a camera connected to the user's device.
Wait for the user to have made their selection.
Queue a task to first update the element's selected files so that it represents the user's
selection, then fire a simple event that bubbles named input
at the input
element, and finally fire a
simple event that bubbles named change
at the
input
element.
If the element is mutable, the user agent should allow the
user to change the files on the list in other ways also, e.g. adding or removing files by
drag-and-drop. When the user does so, the user agent must queue a task to first
update the element's selected files so that
it represents the user's new selection, then fire a simple event that bubbles named
input
at the input
element, and finally fire
a simple event that bubbles named change
at the
input
element.
If the element is not mutable, it has no activation behavior and the user agent must not allow the user to change the element's selection.
Constraint validation: If the element is required and the list of selected files is empty, then the element is suffering from being missing.
The accept
attribute may be specified to
provide user agents with a hint of what file types will be accepted.
If specified, the attribute must consist of a set of comma-separated tokens, each of which must be an ASCII case-insensitive match for one of the following:
audio/*
video/*
image/*
The tokens must not be ASCII case-insensitive matches for any of the other tokens (i.e. duplicates are not allowed). To obtain the list of tokens from the attribute, the user agent must split the attribute value on commas.
User agents may use the value of this attribute to display a more appropriate user interface
than a generic file picker. For instance, given the value image/*
, a user
agent could offer the user the option of using a local camera or selecting a photograph from their
photo collection; given the value audio/*
, a user agent could offer the user
the option of recording a clip using a headset microphone.
User agents should prevent the user from selecting files that are not accepted by one (or more) of these tokens.
Authors are encouraged to specify both any MIME types and any corresponding extensions when looking for data in a specific format.
For example, consider an application that converts Microsoft Word documents to Open Document Format files. Since Microsoft Word documents are described with a wide variety of MIME types and extensions, the site can list several, as follows:
<input type="file" accept=".doc,.docx,.xml,application/msword,application/vnd.openxmlformats-officedocument.wordprocessingml.document">
On platforms that only use file extensions to describe file types, the extensions listed here can be used to filter the allowed documents, while the MIME types can be used with the system's type registration table (mapping MIME types to extensions used by the system), if any, to determine any other extensions to allow. Similarly, on a system that does not have file names or extensions but labels documents with MIME types internally, the MIME types can be used to pick the allowed files, while the extensions can be used if the system has an extension registration table that maps known extensions to MIME types used by the system.
Extensions tend to be ambiguous (e.g. there are an untold number of formats
that use the ".dat
" extension, and users can typically quite easily rename
their files to have a ".doc
" extension even if they are not Microsoft Word
documents), and MIME types tend to be unreliable (e.g. many formats have no formally registered
types, and many formats are in practice labeled using a number of different MIME types). Authors
are reminded that, as usual, data received from a client should be treated with caution, as it may
not be in an expected format even if the user is not hostile and the user agent fully obeyed the
accept
attribute's requirements.
For historical reasons, the value
IDL attribute prefixes
the file name with the string "C:\fakepath\
". Some legacy user agents
actually included the full path (which was a security vulnerability). As a result of this,
obtaining the file name from the value
IDL attribute in a
backwards-compatible way is non-trivial. The following function extracts the file name in a
suitably compatible manner:
function extractFilename(path) { if (path.substr(0, 12) == "C:\\fakepath\\") return path.substr(12); // modern browser var x; x = path.lastIndexOf('/'); if (x >= 0) // Unix-based path return path.substr(x+1); x = path.lastIndexOf('\\'); if (x >= 0) // Windows-based path return path.substr(x+1); return path; // just the file name }
This can be used as follows:
<p><input type=file name=image onchange="updateFilename(this.value)"></p> <p>The name of the file you picked is: <span id="filename">(none)</span></p> <script> function updateFilename(path) { var name = extractFilename(path); document.getElementById('filename').textContent = name; } </script>
The following common input
element content attributes and IDL attributes apply to the element:
accept
,
multiple
, and
required
content attributes;
files
and
value
IDL attributes.
The value
IDL attribute is in mode filename.
The input
and change
events apply.
The following content attributes must not be specified and do not apply to the
element:
alt
,
autocomplete
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
pattern
,
placeholder
,
readonly
,
size
,
src
,
step
, and
width
.
The element's value
attribute must be omitted.
The following IDL attributes and methods do not apply to the element:
checked
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
type=submit
)When an input
element's type
attribute is in
the Submit Button state, the rules in this section
apply.
The input
element represents a button that, when activated, submits
the form. If the element has a value
attribute, the button's label must be the value of that attribute; otherwise, it must be an
implementation-defined string that means "Submit" or some such. The element is a button, specifically a submit
button.
If the element is mutable, then the element's
activation behavior is as follows: if the element has a form owner,
and the element's Document
is fully active,
submit the form owner from the
input
element; otherwise, do nothing.
If the element is not mutable, it has no activation behavior.
The formaction
, formenctype
, formmethod
, formnovalidate
, and formtarget
attributes are attributes for form
submission.
The formnovalidate
attribute can be
used to make submit buttons that do not trigger the constraint validation.
The following common input
element content attributes and IDL attributes apply to the element:
formaction
,
formenctype
,
formmethod
,
formnovalidate
, and
formtarget
content attributes;
value
IDL attribute.
The value
IDL attribute is in mode default.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
autocomplete
,
checked
,
dirname
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
The input
and change
events do not apply.
type=image
)When an input
element's type
attribute is in
the Image Button state, the rules in this section
apply.
The input
element represents either an image from which a user can
select a coordinate and submit the form, or alternatively a button from which the user can submit
the form. The element is a button, specifically a submit button.
The coordinate is sent to the server during form submission by sending two entries for the element, derived from the name
of the control but with ".x
" and ".y
" appended to the
name with the x and y components of the coordinate
respectively.
The image is given by the src
attribute. The
src
attribute must be present, and must contain a valid
non-empty URL potentially surrounded by spaces referencing a non-interactive, optionally
animated, image resource that is neither paged nor scripted.
When any of the following events occur, unless the user agent cannot support images, or its
support for images has been disabled, or the user agent only fetches elements on demand, or the
src
attribute's value is the empty string, the user agent must
resolve the value of the src
attribute, relative to the element, and if that is successful,
must fetch the resulting absolute URL:
input
element's type
attribute is first
set to the Image Button state (possibly when the
element is first created), and the src
attribute is
present.input
element's type
attribute is
changed back to the Image Button state, and the src
attribute is present, and its value has changed since the last
time the type
attribute was in the Image Button state.input
element's type
attribute is in
the Image Button state, and the src
attribute is set or changed.Fetching the image must delay the load event of the element's document until the task that is queued by the networking task source once the resource has been fetched (defined below) has been run.
If the image was successfully obtained, with no network errors, and the image's type is a supported image type, and the image is a valid image of that type, then the image is said to be available. If this is true before the image is completely downloaded, each task that is queued by the networking task source while the image is being fetched must update the presentation of the image appropriately.
The user agent should apply the image sniffing rules to determine the type of the image, with the image's associated Content-Type headers giving the official type. If these rules are not applied, then the type of the image must be the type given by the image's associated Content-Type headers.
User agents must not support non-image resources with the input
element. User
agents must not run executable code embedded in the image resource. User agents must only display
the first page of a multipage resource. User agents must not allow the resource to act in an
interactive fashion, but should honor any animation in the resource.
The task that is queued by
the networking task source once the resource has been fetched, must, if the download was successful and the image is available, queue a task to fire a simple
event named load
at the input
element; and
otherwise, if the fetching process fails without a response from the remote server, or completes
but the image is not a valid or supported image, queue a task to fire a simple
event named error
on the input
element.
The alt
attribute provides the textual label for
the button for users and user agents who cannot use the image. The alt
attribute must be present, and must contain a non-empty string
giving the label that would be appropriate for an equivalent button if the image was
unavailable.
The input
element supports dimension attributes.
If the src
attribute is set, and the image is available and the user agent is configured to display that image,
then: The element represents a control for selecting a coordinate from the image specified by the
src
attribute; if the element is mutable, the user agent should allow the user to select this coordinate, and the element's activation
behavior is as follows: if the element has a form owner, and the element's
Document
is fully active, take the user's selected coordinate, and submit the input
element's form owner
from the input
element. If the user activates the control without explicitly
selecting a coordinate, then the coordinate (0,0) must be assumed.
Otherwise, the element represents a submit button whose label is given by the
value of the alt
attribute; if the element is mutable, then the element's activation behavior is as
follows: if the element has a form owner, and the element's Document
is
fully active, set the selected
coordinate to (0,0), and submit the
input
element's form owner from the input
element.
In either case, if the element is mutable but has no
form owner or the element's Document
is not fully active,
then its activation behavior must be to do nothing. If the element is not mutable, it has no activation behavior.
The selected coordinate must consist of an x-component and a y-component. The coordinates represent the position relative to the edge of the image, with the coordinate space having the positive x direction to the right, and the positive y direction downwards.
The x-component must be a valid integer representing a number x in the range −(borderleft+paddingleft) ≤ x ≤ width+borderright+paddingright, where width is the rendered width of the image, borderleft is the width of the border on the left of the image, paddingleft is the width of the padding on the left of the image, borderright is the width of the border on the right of the image, and paddingright is the width of the padding on the right of the image, with all dimensions given in CSS pixels.
The y-component must be a valid integer representing a number y in the range −(bordertop+paddingtop) ≤ y ≤ height+borderbottom+paddingbottom, where height is the rendered height of the image, bordertop is the width of the border above the image, paddingtop is the width of the padding above the image, borderbottom is the width of the border below the image, and paddingbottom is the width of the padding below the image, with all dimensions given in CSS pixels.
Where a border or padding is missing, its width is zero CSS pixels.
The formaction
, formenctype
, formmethod
, formnovalidate
, and formtarget
attributes are attributes for form
submission.
width
[ = value ]height
[ = value ]These attributes return the actual rendered dimensions of the image, or zero if the dimensions are not known.
They can be set, to change the corresponding content attributes.
The following common input
element content attributes and IDL attributes apply to the element:
alt
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
src
, and
width
content attributes;
value
IDL attribute.
The value
IDL attribute is in mode default.
The following content attributes must not be specified and do not apply to the
element:
accept
,
autocomplete
,
checked
,
dirname
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
, and
step
.
The element's value
attribute must be omitted.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
The input
and change
events do not apply.
Many aspects of this state's behavior are similar to the behavior of the
img
element. Readers are encouraged to read that section, where many of the same
requirements are described in more detail.
Take the following form:
<form action="process.cgi"> <input type=image src=map.png name=where alt="Show location list"> </form>
If the user clicked on the image at coordinate (127,40) then the URL used to submit the form
would be "process.cgi?where.x=127&where.y=40
".
(In this example, it's assumed that for users who don't see the map, and who instead just see a button labeled "Show location list", clicking the button will cause the server to show a list of locations to pick from instead of the map.)
type=reset
)When an input
element's type
attribute is in
the Reset Button state, the rules in this section
apply.
The input
element represents a button that, when activated, resets
the form. If the element has a value
attribute, the button's label must be the value of that attribute; otherwise, it must be an
implementation-defined string that means "Reset" or some such. The element is a button.
If the element is mutable, then the element's
activation behavior, if the element has a form owner and the element's
Document
is fully active, is to reset the form owner; otherwise, it is to do
nothing.
If the element is not mutable, it has no activation behavior.
Constraint validation: The element is barred from constraint validation.
The value
IDL attribute applies to this element and is in mode default.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
autocomplete
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
The input
and change
events do not apply.
type=button
)The input
element represents a button with no default behavior. A
label for the button must be provided in the value
attribute, though it may be the empty string. If the element has a value
attribute, the button's label must be the value of that
attribute; otherwise, it must be the empty string. The element is a button.
If the element is mutable, the element's activation behavior is to do nothing.
If the element is not mutable, it has no activation behavior.
Constraint validation: The element is barred from constraint validation.
The value
IDL attribute applies to this element and is in mode default.
The following content attributes must not be specified and do not apply to the
element:
accept
,
alt
,
autocomplete
,
checked
,
dirname
,
formaction
,
formenctype
,
formmethod
,
formnovalidate
,
formtarget
,
height
,
list
,
max
,
maxlength
,
min
,
minlength
,
multiple
,
pattern
,
placeholder
,
readonly
,
required
,
size
,
src
,
step
, and
width
.
The following IDL attributes and methods do not apply to the element:
checked
,
files
,
list
,
selectionStart
,
selectionEnd
,
selectionDirection
,
valueAsDate
, and
valueAsNumber
IDL attributes;
select()
,
setRangeText()
,
setSelectionRange()
,
stepDown()
, and
stepUp()
methods.
The input
and change
events do not apply.
This section is non-normative.
The formats shown to the user in date, time, and number controls is independent of the format used for form submission.
Browsers are encouraged to use user interfaces that present dates, times, and numbers according
to the conventions of either the locale implied by the input
element's
language or the user's preferred locale. Using the page's locale will ensure
consistency with page-provided data.
For example, it would be confusing to users if an American English page claimed that a Cirque De Soleil show was going to be showing on 02/03, but their browser, configured to use the British English locale, only showed the date 03/02 in the ticket purchase date picker. Using the page's locale would at least ensure that the date was presented in the same format everywhere. (There's still a risk that the user would end up arriving a month late, of course, but there's only so much that can be done about such cultural differences...)
input
element attributesThese attributes only apply to an input
element if its type
attribute is in a state whose definition
declares that the attribute applies. When an attribute
doesn't apply to an input
element, user agents must
ignore the attribute, regardless of the requirements and definitions below.
maxlength
and minlength
attributesThe maxlength
attribute, when it applies, is a form control maxlength
attribute controlled by the input
element's dirty value flag.
The minlength
attribute, when it applies, is a form control minlength
attribute controlled by the input
element's dirty value flag.
If the input
element has a maximum allowed value length, then the
code-unit length of the value of the element's value
attribute must be equal to or less than the element's
maximum allowed value length.
The following extract shows how a messaging client's text entry could be arbitrarily restricted to a fixed number of characters, thus forcing any conversation through this medium to be terse and discouraging intelligent discourse.
<label>What are you doing? <input name=status maxlength=140></label>
Here, a password is given a minimum length:
<p><label>Username: <input name=u required></label> <p><label>Password: <input name=p required minlength=12></label>
size
attributeThe size
attribute gives the number of
characters that, in a visual rendering, the user agent is to allow the user to see while editing
the element's value.
The size
attribute, if specified, must have a value that
is a valid non-negative integer greater than zero.
If the attribute is present, then its value must be parsed using the rules for parsing non-negative integers, and if the result is a number greater than zero, then the user agent should ensure that at least that many characters are visible.
The size
IDL attribute is limited to only
non-negative numbers greater than zero and has a default value of 20.
readonly
attributeThe readonly
attribute is a boolean
attribute that controls whether or not the user can edit the form control. When specified, the element is not mutable.
Constraint validation: If the readonly
attribute is specified on an input
element, the element is barred from constraint validation.
The difference between disabled
and readonly
is that read-only controls are still focusable, so the
user can still select the text and interact with it, whereas disabled controls are entirely
non-interactive. (For this reason, only text controls can be made read-only: it wouldn't make
sense for checkboxes or buttons, for instances.)
In the following example, the existing product identifiers cannot be modified, but they are still displayed as part of the form, for consistency with the row representing a new product (where the identifier is not yet filled in).
<form action="products.cgi" method="post" enctype="multipart/form-data"> <table> <tr> <th> Product ID <th> Product name <th> Price <th> Action <tr> <td> <input readonly="readonly" name="1.pid" value="H412"> <td> <input required="required" name="1.pname" value="Floor lamp Ulke"> <td> $<input required="required" type="number" min="0" step="0.01" name="1.pprice" value="49.99"> <td> <button formnovalidate="formnovalidate" name="action" value="delete:1">Delete</button> <tr> <td> <input readonly="readonly" name="2.pid" value="FG28"> <td> <input required="required" name="2.pname" value="Table lamp Ulke"> <td> $<input required="required" type="number" min="0" step="0.01" name="2.pprice" value="24.99"> <td> <button formnovalidate="formnovalidate" name="action" value="delete:2">Delete</button> <tr> <td> <input required="required" name="3.pid" value="" pattern="[A-Z0-9]+"> <td> <input required="required" name="3.pname" value=""> <td> $<input required="required" type="number" min="0" step="0.01" name="3.pprice" value=""> <td> <button formnovalidate="formnovalidate" name="action" value="delete:3">Delete</button> </table> <p> <button formnovalidate="formnovalidate" name="action" value="add">Add</button> </p> <p> <button name="action" value="update">Save</button> </p> </form>
required
attributeThe required
attribute is a boolean
attribute. When specified, the element is required.
Constraint validation: If the element is required, and its value
IDL attribute applies and is in the mode value, and the element is mutable, and the element's value is the empty string, then the element is suffering
from being missing.
The following form has two required fields, one for an e-mail address and one for a password. It also has a third field that is only considered valid if the user types the same password in the password field and this third field.
<h1>Create new account</h1> <form action="/newaccount" method=post oninput="up2.setCustomValidity(up2.value != up.value ? 'Passwords do not match.' : '')"> <p> <label for="username">E-mail address:</label> <input id="username" type=email required name=un> <p> <label for="password1">Password:</label> <input id="password1" type=password required name=up> <p> <label for="password2">Confirm password:</label> <input id="password2" type=password name=up2> <p> <input type=submit value="Create account"> </form>
For radio buttons, the required
attribute is
satisfied if any of the radio buttons in the group is
selected. Thus, in the following example, any of the radio buttons can be checked, not just the
one marked as required:
<fieldset> <legend>Did the movie pass the Bechdel test?</legend> <p><label><input type="radio" name="bechdel" value="no-characters"> No, there are not even two female characters in the movie. </label> <p><label><input type="radio" name="bechdel" value="no-names"> No, the female characters never talk to each other. </label> <p><label><input type="radio" name="bechdel" value="no-topic"> No, when female characters talk to each other it's always about a male character. </label> <p><label><input type="radio" name="bechdel" value="yes" required> Yes. </label> <p><label><input type="radio" name="bechdel" value="unknown"> I don't know. </label> </fieldset>
To avoid confusion as to whether a radio button group is required or not, authors are encouraged to specify the attribute on all the radio buttons in a group. Indeed, in general, authors are encouraged to avoid having radio button groups that do not have any initially checked controls in the first place, as this is a state that the user cannot return to, and is therefore generally considered a poor user interface.
multiple
attributeThe multiple
attribute is a boolean
attribute that indicates whether the user is to be allowed to specify more than one
value.
The following extract shows how an e-mail client's "Cc" field could accept multiple e-mail addresses.
<label>Cc: <input type=email multiple name=cc></label>
If the user had, amongst many friends in his user contacts database, two friends "Arthur Dent" (with address "art@example.net") and "Adam Josh" (with address "adamjosh@example.net"), then, after the user has typed "a", the user agent might suggest these two e-mail addresses to the user.
The page could also link in the user's contacts database from the site:
<label>Cc: <input type=email multiple name=cc list=contacts></label> ... <datalist id="contacts"> <option value="hedral@damowmow.com"> <option value="pillar@example.com"> <option value="astrophy@cute.example"> <option value="astronomy@science.example.org"> </datalist>
Suppose the user had entered "bob@example.net" into this text field, and then started typing a
second e-mail address starting with "a". The user agent might show both the two friends mentioned
earlier, as well as the "astrophy" and "astronomy" values given in the datalist
element.
The following extract shows how an e-mail client's "Attachments" field could accept multiple files for upload.
<label>Attachments: <input type=file multiple name=att></label>
pattern
attributeThe pattern
attribute specifies a regular
expression against which the control's value, or, when the
multiple
attribute applies and is set, the control's values, are to be checked.
If specified, the attribute's value must match the JavaScript Pattern production. [ECMA262]
If an input
element has a pattern
attribute specified, and the attribute's value, when compiled as a JavaScript regular expression
with the global
, ignoreCase
, and multiline
flags disabled (see ECMA262 Edition 5, sections 15.10.7.2
through 15.10.7.4), compiles successfully, then the resulting regular expression is the element's
compiled pattern regular expression. If the element has no such attribute, or if the
value doesn't compile successfully, then the element has no compiled pattern regular
expression. [ECMA262]
Constraint validation: If the element's value is not the empty string, and either the element's multiple
attribute is not specified or it does not apply to the input
element given its type
attribute's current state, and the element has a
compiled pattern regular expression but that regular expression does not match the
entirety of the element's value, then the element is
suffering from a pattern mismatch.
Constraint validation: If the element's value is not the empty string, and the element's multiple
attribute is specified and applies to the input
element, and the element has
a compiled pattern regular expression but that regular expression does not match the
entirety of each of the element's values, then the
element is suffering from a pattern mismatch.
The compiled pattern regular expression, when matched against a string, must have its start anchored to the start of the string and its end anchored to the end of the string.
This implies that the regular expression language used for this attribute is the
same as that used in JavaScript, except that the pattern
attribute is matched against the entire value, not just any subset (somewhat as if it implied a
^(?:
at the start of the pattern and a )$
at the
end).
When an input
element has a pattern
attribute specified, authors should provide a description of the pattern in text near the
control. Authors may also include a title
attribute to give a description of the pattern. User agents may use
the contents of this attribute, if it is present, when informing the
user that the pattern is not matched, or at any other suitable time,
such as in a tooltip or read out by assistive technology when the
control gains focus.
Relying on the title
attribute alone is currently discouraged as many user agents do not expose the attribute in an
accessible manner as required by this specification (e.g. requiring a pointing device such as a
mouse to cause a tooltip to appear, which excludes keyboard-only users and touch-only users,
such as anyone with a modern phone or tablet).
For example, the following snippet includes the pattern description in text below the input
,
the pattern description is also included in the title
attribute:
<label> Part number: <input pattern="[0-9][A-Z]{3}" name="part" data-x="A part number is a digit followed by three uppercase letters."/> </label> <p>A part number is a digit followed by three uppercase letters.</p>
The presence of the pattern description in text makes the advice available to any user regardless of device.
The presence of the pattern description in the title attribute, results in the description being announced by assistive technology such as screen readers when the input receives focus.
If the user has attempted to submit the form with incorrect information, the presence of the title attribute text could also cause the UA to display an alert such as:
A part number is a digit followed by three uppercase letters. You cannot submit this form when the field is incorrect.
In this example, the pattern description is in text below the input
,
but not in the title
attribute. The
aria-describedby
attribute
is used to explicitly associate the text description with the control, the description is announced by
assistive technology such as screen readers when the input
receives focus:
<label> Part number: <input pattern="[0-9][A-Z]{3}" name="part" aria-describedby="description"> </label> <p id="description">A part number is a digit followed by three uppercase letters.</p>
When a control has a pattern
attribute, the title
attribute, if used, must describe the pattern. Additional
information could also be included, so long as it assists the user in filling in the control.
Otherwise, assistive technology would be impaired.
For instance, if the title attribute contained the caption of the control, assistive technology could end up saying something like The text you have entered does not match the required pattern. Birthday, which is not useful.
UAs may still show the title
in non-error situations (for
example, as a tooltip when hovering over the control), so authors should be careful not to word
title
s as if an error has necessarily occurred.
min
and max
attributesSome form controls can have explicit constraints applied limiting the allowed range of values that the user can provide. Normally, such a range would be linear and continuous. A form control can have a periodic domain, however, in which case the form control's broadest possible range is finite, and authors can specify explicit ranges within it that span the boundaries.
Specifically, the broadest range of a type=time
control is midnight to midnight (24 hours), and
authors can set both continuous linear ranges (such as 9pm to 11pm) and discontinuous ranges
spanning midnight (such as 11pm to 1am).
The min
and max
attributes indicate the allowed range of values for
the element.
Their syntax is defined by the section that defines the type
attribute's current state.
If the element has a min
attribute, and the result of
applying the algorithm to convert a string to a
number to the value of the min
attribute is a number,
then that number is the element's minimum; otherwise, if the
type
attribute's current state defines a default minimum, then that is the minimum; otherwise, the element has no minimum.
The min
attribute also defines the step base.
If the element has a max
attribute, and the result of
applying the algorithm to convert a string to a
number to the value of the max
attribute is a number,
then that number is the element's maximum; otherwise, if the
type
attribute's current state defines a default maximum, then that is the maximum; otherwise, the element has no maximum.
If the element does not have a periodic domain, the
max
attribute's value (the maximum) must not be less than the min
attribute's value (its minimum).
If an element that does not have a periodic domain has a maximum that is less than its minimum, then so long as the element has a value, it will either be suffering from an underflow or suffering from an overflow.
An element has a reversed range if it has a periodic domain and its maximum is less than its minimum.
An element has range limitations if it has a defined minimum or a defined maximum.
Constraint validation: When the element has a minimum and does not have a reversed range, and the result of applying the algorithm to convert a string to a number to the string given by the element's value is a number, and the number obtained from that algorithm is less than the minimum, the element is suffering from an underflow.
Constraint validation: When the element has a maximum and does not have a reversed range, and the result of applying the algorithm to convert a string to a number to the string given by the element's value is a number, and the number obtained from that algorithm is more than the maximum, the element is suffering from an overflow.
Constraint validation: When an element has a reversed range, and the result of applying the algorithm to convert a string to a number to the string given by the element's value is a number, and the number obtained from that algorithm is more than the maximum and less than the minimum, the element is simultaneously suffering from an underflow and suffering from an overflow.
The following date control limits input to dates that are before the 1980s:
<input name=bday type=date max="1979-12-31">
The following number control limits input to whole numbers greater than zero:
<input name=quantity required="" type="number" min="1" value="1">
The following time control limits input to those minutes that occur between 9pm and 6am, defaulting to midnight:
<input name="sleepStart" type=time min="21:00" max="06:00" step="60" value="00:00">
step
attributeThe step
attribute indicates the granularity
that is expected (and required) of the value, by limiting
the allowed values. The section that defines the type
attribute's current state also defines the default step, the step scale factor, and in some cases the default step base, which are used in processing the
attribute as described below.
The step
attribute, if specified, must either have a value
that is a valid floating-point number that parses to a number that is greater than zero, or must have a
value that is an ASCII case-insensitive match for the string "any
".
The attribute provides the allowed value step for the element, as follows:
any
", then there is no allowed
value step.The step base is the value returned by the following algorithm:
If the element has a min
content attribute, and the
result of applying the algorithm to convert a
string to a number to the value of the min
content
attribute is not an error, then return that result and abort these steps.
If the element has a value
content attribute, and
the result of applying the algorithm to convert a
string to a number to the value of the value
content
attribute is not an error, then return that result and abort these steps.
If a default step base is defined for
this element given its type
attribute's state, then return
it and abort these steps.
Return zero.
Constraint validation: When the element has an allowed value step, and the result of applying the algorithm to convert a string to a number to the string given by the element's value is a number, and that number subtracted from the step base is not an integral multiple of the allowed value step, the element is suffering from a step mismatch.
The following range control only accepts values in the range 0..1, and allows 256 steps in that range:
<input name=opacity type=range min=0 max=1 step=0.00392156863>
The following control allows any time in the day to be selected, with any accuracy (e.g. thousandth-of-a-second accuracy or more):
<input name=favtime type=time step=any>
Normally, time controls are limited to an accuracy of one minute.
list
attributeThe list
attribute is used to identify an
element that lists predefined options suggested to the user.
If present, its value must be the ID of a datalist
element in the same document.
The suggestions source element is the first element in
the document in tree order to have an ID equal to the
value of the list
attribute, if that element is a
datalist
element. If there is no list
attribute,
or if there is no element with that ID, or if the first element
with that ID is not a datalist
element, then there is
no suggestions source element.
If there is a suggestions source element, then, when
the user agent is allowing the user to edit the input
element's value, the user agent should offer the suggestions represented by
the suggestions source element to the user in a manner
suitable for the type of control used. The user agent may use the suggestion's label to identify the suggestion if appropriate.
How user selections of suggestions are handled depends on whether the element is a control accepting a single value only, or whether it accepts multiple values:
multiple
attribute
specified or if the multiple
attribute does not
applyWhen the user selects a suggestion, the input
element's value must be set to the selected suggestion's value, as if the user had written that value himself.
multiple
attribute specified, and the multiple
attribute does
applyWhen the user selects a suggestion, the user agent must either add a new entry to the
input
element's values, whose value
is the selected suggestion's value, or change an
existing entry in the input
element's values to have the value given by the selected
suggestion's value, as if the user had himself added
an entry with that value, or edited an existing entry to be that value. Which behavior is to be
applied depends on the user interface in a user-agent-defined manner.
If the list
attribute does not
apply, there is no suggestions source element.
This URL field offers some suggestions.
<label>Homepage: <input name=hp type=url list=hpurls></label> <datalist id=hpurls> <option value="http://www.google.com/" label="Google"> <option value="http://www.reddit.com/" label="Reddit"> </datalist>
Other URLs from the user's history might show also; this is up to the user agent.
This example demonstrates how to design a form that uses the autocompletion list feature while still degrading usefully in legacy user agents.
If the autocompletion list is merely an aid, and is not important to the content, then simply
using a datalist
element with children option
elements is enough. To
prevent the values from being rendered in legacy user agents, they need to be placed inside the
value
attribute instead of inline.
<p> <label> Enter a breed: <input type="text" name="breed" list="breeds"> <datalist id="breeds"> <option value="Abyssinian"> <option value="Alpaca"> <!-- ... --> </datalist> </label> </p>
However, if the values need to be shown in legacy UAs, then fallback content can be placed
inside the datalist
element, as follows:
<p> <label> Enter a breed: <input type="text" name="breed" list="breeds"> </label> <datalist id="breeds"> <label> or select one from the list: <select name="breed"> <option value=""> (none selected) <option>Abyssinian <option>Alpaca <!-- ... --> </select> </label> </datalist> </p>
The fallback content will only be shown in UAs that don't support datalist
. The
options, on the other hand, will be detected by all UAs, even though they are not children of the
datalist
element.
Note that if an option
element used in a datalist
is selected
, it will be selected by default by legacy UAs
(because it affects the select
), but it will not have any effect on the
input
element in UAs that support datalist
.
placeholder
attributeThe placeholder
attribute represents a
short hint (a word or short phrase) intended to aid the user with data entry when the
control has no value. A hint could be a sample value or a brief description of the expected
format. The attribute, if specified, must have a value that contains no "LF" (U+000A) or
"CR" (U+000D) characters.
The placeholder
attribute should not be used as a
replacement for a label
. For a longer hint or other advisory text, place the text
next to the control.
Use of the placeholder
attribute as a replacement for a label
can reduce the
accessibility and usability of the control for a range of users including older
users and users with cognitive, mobility, fine motor skill or vision impairments.
While the hint given by the control's label
is shown at all times, the short
hint given in the placeholder
attribute is only shown before the user enters a value. Furthermore,
placeholder
text may be mistaken for
a pre-filled value, and as commonly implemented the default color of the placeholder text
provides insufficient contrast and the lack of a separate visible label
reduces the size of the hit region available for setting focus on the control.
User agents should present this hint to the user, after having stripped line breaks from it, when the element's value is the empty string and the control is not focused (i.e., by displaying it inside a blank unfocused control).
Here is an example of a mail configuration user interface that uses the placeholder
attribute:
<fieldset> <legend>Mail Account</legend> <p><label>Name: <input type="text" name="fullname" placeholder="John Ratzenberger"></label></p> <p><label>Address: <input type="email" name="address" placeholder="john@example.net"></label></p> <p><label>Password: <input type="password" name="password"></label></p> <p><label>Description: <input type="text" name="desc" placeholder="My Email Account"></label></p> </fieldset>
In situations where the control's content has one directionality but the placeholder needs to have a different directionality, Unicode's bidirectional-algorithm formatting characters can be used in the attribute value:
<input name=t1 type=tel placeholder="‫ رقم الهاتف 1 ‮"> <input name=t2 type=tel placeholder="‫ رقم الهاتف 2 ‮">
For slightly more clarity, here's the same example using numeric character references instead of inline Arabic:
<input name=t1 type=tel placeholder="‫رقم الهاتف 1‮"> <input name=t2 type=tel placeholder="‫رقم الهاتف 2‮">
input
element APIsvalue
[ = value ]Returns the current value of the form control.
Can be set, to change the value.
Throws an InvalidStateError
exception if it is set to any value other than the
empty string when the control is a file upload control.
checked
[ = value ]Returns the current checkedness of the form control.
Can be set, to change the checkedness.
files
Returns a FileList
object listing the selected files of the form control.
Returns null if the control isn't a file control.
valueAsDate
[ = value ]Returns a Date
object representing the form control's value, if applicable; otherwise, returns null.
Can be set, to change the value.
Throws an InvalidStateError
exception if the control isn't date- or
time-based.
valueAsNumber
[ = value ]Returns a number representing the form control's value, if applicable; otherwise, returns NaN.
Can be set, to change the value. Setting this to NaN will set the underlying value to the empty string.
Throws an InvalidStateError
exception if the control is neither date- or
time-based nor numeric.
stepUp
( [ n ] )stepDown
( [ n ] )Changes the form control's value by the value given in
the step
attribute, multiplied by n.
The default value for n is 1.
Throws InvalidStateError
exception if the control is neither date- or time-based
nor numeric, or if the step
attribute's value is "any
".
list
Returns the datalist
element indicated by the list
attribute.
The value
IDL attribute allows scripts to
manipulate the value of an input
element. The
attribute is in one of the following modes, which define its behavior:
On getting, it must return the current value of the
element. On setting, it must set the element's value to
the new value, set the element's dirty value
flag to true, invoke the value sanitization algorithm, if the element's
type
attribute's current state defines one, and then, if
the element has a text entry cursor position, should move the text entry cursor position to the
end of the text field, unselecting any selected text and resetting the selection direction to
none.
On getting, if the element has a value
attribute, it
must return that attribute's value; otherwise, it must return the empty string. On setting, it
must set the element's value
attribute to the new
value.
On getting, if the element has a value
attribute, it
must return that attribute's value; otherwise, it must return the string "on
". On setting, it must set the element's value
attribute to the new value.
On getting, it must return the string "C:\fakepath\
" followed by the
name of the first file in the list of selected
files, if any, or the empty string if the list is empty. On setting, if the new value is
the empty string, it must empty the list of selected files; otherwise, it must throw an
InvalidStateError
exception.
This "fakepath" requirement is a sad accident of history. See the example in the File Upload state section for more information.
The checked
IDL attribute allows scripts to
manipulate the checkedness of an input
element. On getting, it must return the current checkedness of the element; and on setting, it must set the
element's checkedness to the new value and set the
element's dirty checkedness flag to
true.
The files
IDL attribute allows scripts to
access the element's selected files. On
getting, if the IDL attribute applies, it must return a
FileList
object that represents the current selected files. The same object must be returned
until the list of selected files changes. If
the IDL attribute does not apply, then it must instead return
null. [FILEAPI]
The valueAsDate
IDL attribute represents
the value of the element, interpreted as a date.
On getting, if the valueAsDate
attribute does not apply, as defined for the input
element's type
attribute's current state, then return null. Otherwise, run
the algorithm to convert a string to a
Date
object defined for that state; if the algorithm returned a
Date
object, then return it, otherwise, return null.
On setting, if the valueAsDate
attribute does not apply, as defined for the input
element's type
attribute's current state, then throw an
InvalidStateError
exception; otherwise, if the new value is null or a
Date
object representing the NaN time value, then set the value of the element to the empty string; otherwise, run the algorithm to convert a Date
object to a
string, as defined for that state, on the new value, and set the value of the element to the resulting string.
The valueAsNumber
IDL attribute
represents the value of the element, interpreted as a
number.
On getting, if the valueAsNumber
attribute does not apply, as defined for the input
element's type
attribute's current state, then return a Not-a-Number (NaN)
value. Otherwise, if the valueAsDate
attribute
applies, run the algorithm to convert a string to a Date
object defined for that state; if the algorithm returned a Date
object, then
return the time value of the object (the number of milliseconds from midnight UTC the
morning of 1970-01-01 to the time represented by the Date
object), otherwise, return
a Not-a-Number (NaN) value. Otherwise, run the algorithm to convert a string to a number defined
for that state; if the algorithm returned a number, then return it, otherwise, return a
Not-a-Number (NaN) value.
On setting, if the new value is infinite, then throw a TypeError
exception.
Otherwise, if the valueAsNumber
attribute does not apply, as defined for the input
element's type
attribute's current state, then throw an
InvalidStateError
exception. Otherwise, if the new value is a Not-a-Number (NaN)
value, then set the value of the element to the empty
string. Otherwise, if the valueAsDate
attribute applies, run the algorithm to convert a Date
object to a
string defined for that state, passing it a Date
object whose time
value is the new value, and set the value of the element
to the resulting string. Otherwise, run the algorithm to convert a number to a string, as
defined for that state, on the new value, and set the value
of the element to the resulting string.
The stepDown(n)
and stepUp(n)
methods, when invoked,
must run the following algorithm:
If the stepDown()
and stepUp()
methods do not apply, as defined for the
input
element's type
attribute's current state,
then throw an InvalidStateError
exception, and abort these steps.
If the element has no allowed value step, then
throw an InvalidStateError
exception, and abort these steps.
If the element has a minimum and a maximum and the minimum is greater than the maximum, then abort these steps.
If the element has a minimum and a maximum and there is no value greater than or equal to the element's minimum and less than or equal to the element's maximum that, when subtracted from the step base, is an integral multiple of the allowed value step, then abort these steps.
If applying the algorithm to convert a string to a number to the string given by the element's value does not result in an error, then let value be the result of that algorithm. Otherwise, let value be zero.
If value subtracted from the step
base is not an integral multiple of the allowed value
step, then set value to the nearest value that, when subtracted from
the step base, is an integral multiple of the allowed value step, and that is less than value if the method invoked was the stepDown()
and more than value
otherwise.
Otherwise (value subtracted from the step base is an integral multiple of the allowed value step), run the following substeps:
Let n be the argument.
Let delta be the allowed value step multiplied by n.
If the method invoked was the stepDown()
method,
negate delta.
Let value be the result of adding delta to value.
If the element has a minimum, and value is less than that minimum, then set value to the smallest value that, when subtracted from the step base, is an integral multiple of the allowed value step, and that is more than or equal to minimum.
If the element has a maximum, and value is greater than that maximum, then set value to the largest value that, when subtracted from the step base, is an integral multiple of the allowed value step, and that is less than or equal to maximum.
Let value as string be the result of running the algorithm to convert a number to a string, as
defined for the input
element's type
attribute's current state, on value.
Set the value of the element to value as string.
The list
IDL attribute must return the current
suggestions source element, if any, or null otherwise.
When the input
and change
events apply (which is the case for all
input
controls other than buttons and those with
the type
attribute in the Hidden state), the events are fired to indicate that the
user has interacted with the control. The input
event fires whenever the user has modified the data of the control. The change
event fires when the value is committed, if
that makes sense for the control, or else when the control loses focus. In all cases, the input
event comes before the corresponding change
event (if any).
When an input
element has a defined activation behavior, the rules
for dispatching these events, if they apply, are given
in the section above that defines the type
attribute's
state. (This is the case for all input
controls with the type
attribute in the Checkbox state, the Radio Button state, or the File Upload state.)
For input
elements without a defined activation behavior, but to
which these events apply, and for which the user
interface involves both interactive manipulation and an explicit commit action, then when the user
changes the element's value, the user agent must
queue a task to fire a simple event that bubbles named input
at the input
element, and any time the user commits
the change, the user agent must queue a task to fire a simple event that
bubbles named change
at the input
element.
An example of a user interface involving both interactive manipulation and a
commit action would be a Range controls that use a
slider, when manipulated using a pointing device. While the user is dragging the control's knob,
input
events would fire whenever the position changed, whereas
the change
event would only fire when the user let go of the
knob, committing to a specific value.
For input
elements without a defined activation behavior, but to
which these events apply, and for which the user
interface involves an explicit commit action but no intermediate manipulation, then any time the
user commits a change to the element's value, the user
agent must queue a task to first fire a simple event that bubbles named
input
at the input
element, and then fire a
simple event that bubbles named change
at the
input
element.
An example of a user interface with a commit action would be a Color control that consists of a single button that brings up a color wheel: if the value only changes when the dialog is closed, then that would be the explicit commit action. On the other hand, if the control can be focused and manipulating the control changes the color interactively, then there might be no commit action.
Another example of a user interface with a commit action would be a Date control that allows both text-based user input and user selection from a drop-down calendar: while text input might not have an explicit commit step, selecting a date from the drop down calendar and then dismissing the drop down would be a commit action.
For input
elements without a defined activation behavior, but to
which these events apply, any time the user causes the
element's value to change without an explicit commit
action, the user agent must queue a task to fire a simple event that
bubbles named input
at the input
element. The
corresponding change
event, if any, will be fired when the
control loses focus.
Examples of a user changing the element's value would include the user typing into a text field, pasting a new value into the field, or undoing an edit in that field. Some user interactions do not cause changes to the value, e.g. hitting the "delete" key in an empty text field, or replacing some text in the field with text from the clipboard that happens to be exactly the same text.
A Range control in the form of a slider that the user has focused and is interacting with using a keyboard would be another example of the user changing the element's value without a commit step.
In the case of tasks that just fire an input
event, user agents may wait for a suitable break in the user's
interaction before queuing the tasks; for example, a user agent
could wait for the user to have not hit a key for 100ms, so as to only fire the event when the
user pauses, instead of continuously for each keystroke.
When the user agent is to change an input
element's value on behalf of the user (e.g. as part of a form prefilling
feature), the user agent must queue a task to first update the value accordingly, then fire a simple event that
bubbles named input
at the input
element, then
fire a simple event that bubbles named change
at
the input
element.
These events are not fired in response to changes made to the values of form controls by scripts. (This is to make it easier to update the values of form controls in response to the user manipulating the controls, without having to then filter out the script's own changes to avoid an infinite loop.)
The task source for these tasks is the user interaction task source.
button
elementautofocus
disabled
form
formaction
formenctype
formmethod
formnovalidate
formtarget
name
type
value
interface HTMLButtonElement : HTMLElement {
attribute boolean autofocus;
attribute boolean disabled;
readonly attribute HTMLFormElement? form;
attribute DOMString formAction;
attribute DOMString formEnctype;
attribute DOMString formMethod;
attribute boolean formNoValidate;
attribute DOMString formTarget;
attribute DOMString name;
attribute DOMString type;
attribute DOMString value;
readonly attribute boolean willValidate;
readonly attribute ValidityState validity;
readonly attribute DOMString validationMessage;
boolean checkValidity();
void setCustomValidity(DOMString error);
readonly attribute NodeList labels;
};
The button
element represents a button labeled by its contents.
The element is a button.
The type
attribute controls the behavior of
the button when it is activated. It is an enumerated attribute. The following table
lists the keywords and states for the attribute — the keywords in the left column map to the
states in the cell in the second column on the same row as the keyword.
Keyword | State | Brief description |
---|---|---|
submit
| Submit Button | Submits the form. |
reset
| Reset Button | Resets the form. |
button
| Button | Does nothing. |
The missing value default is the Submit Button state.
If the type
attribute is in the Submit Button state, the element is specifically a
submit button.
Constraint validation: If the type
attribute is in the Reset Button state, or the
Button state, the element is barred from constraint
validation.
When a button
element is not disabled,
its activation behavior element is to run the steps defined in the following list for
the current state of the element's type
attribute:
If the element has a form owner and the element's Document
is
fully active, the element must submit the
form owner from the button
element.
If the element has a form owner and the element's Document
is
fully active, the element must reset the
form owner.
Do nothing.
The form
attribute is used to explicitly associate the
button
element with its form owner. The name
attribute represents the element's name. The disabled
attribute is used to make the control non-interactive and
to prevent its value from being submitted. The autofocus
attribute controls focus. The formaction
, formenctype
, formmethod
, formnovalidate
, and formtarget
attributes are attributes for form
submission.
The formnovalidate
attribute can be
used to make submit buttons that do not trigger the constraint validation.
The formaction
, formenctype
, formmethod
, formnovalidate
, and formtarget
must not be specified if the element's type
attribute is not in the Submit Button state.
The value
attribute gives the element's value
for the purposes of form submission. The element's value is
the value of the element's value
attribute, if there is
one, or the empty string otherwise.
A button (and its value) is only included in the form submission if the button itself was used to initiate the form submission.
The type
IDL attribute must
reflect the content attribute of the same name, limited to only known
values.
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The autofocus
, disabled
, form
, and name
IDL attributes are
part of the element's forms API.
The following button is labeled "Show hint" and pops up a dialog box when activated:
<button type=button onclick="alert('This 15-20 minute piece was composed by George Gershwin.')"> Show hint </button>
select
elementoption
, optgroup
, and script-supporting elements.autofocus
disabled
form
multiple
name
required
size
interface HTMLSelectElement : HTMLElement { attribute boolean autofocus; attribute boolean disabled; readonly attribute HTMLFormElement? form; attribute boolean multiple; attribute DOMString name; attribute boolean required; attribute unsigned long size; readonly attribute DOMString type; readonly attribute HTMLOptionsCollection options; attribute unsigned long length; getter Element? item(unsigned long index); HTMLOptionElement? namedItem(DOMString name); void add((HTMLOptionElement or HTMLOptGroupElement) element, optional (HTMLElement or long)? before = null); void remove(); // ChildNode overload void remove(long index); setter creator void (unsigned long index, HTMLOptionElement? option); readonly attribute HTMLCollection selectedOptions; attribute long selectedIndex; attribute DOMString value; readonly attribute boolean willValidate; readonly attribute ValidityState validity; readonly attribute DOMString validationMessage; boolean checkValidity(); void setCustomValidity(DOMString error); readonly attribute NodeList labels; };
The select
element represents a control for selecting amongst a set of
options.
The multiple
attribute is a boolean
attribute. If the attribute is present, then the select
element
represents a control for selecting zero or more options from the list of options. If the attribute is absent, then the
select
element represents a control for selecting a single option from
the list of options.
The size
attribute gives the number of options
to show to the user. The size
attribute, if specified, must
have a value that is a valid non-negative integer greater than zero.
The display size of a select
element is the
result of applying the rules for parsing non-negative integers to the value of
element's size
attribute, if it has one and parsing it is
successful. If applying those rules to the attribute's value is not successful, or if the size
attribute is absent, then the element's display size is 4 if the element's multiple
content attribute is present, and 1 otherwise.
The list of options for a select
element consists of all the option
element children of the select
element, and all the option
element children of all the optgroup
element
children of the select
element, in tree order.
The required
attribute is a boolean
attribute. When specified, the user will be required to select a value before submitting
the form.
If a select
element has a required
attribute specified, does not have a multiple
attribute
specified, and has a display size of 1; and if the value of the first option
element in the
select
element's list of options (if
any) is the empty string, and that option
element's parent node is the
select
element (and not an optgroup
element), then that
option
is the select
element's placeholder label option.
If a select
element has a required
attribute specified, does not have a multiple
attribute
specified, and has a display size of 1, then the
select
element must have a placeholder label option.
Constraint validation: If the element has its required
attribute specified, and either none of the
option
elements in the select
element's list of options have their selectedness set to true, or the only
option
element in the select
element's list of options with its selectedness set to true is the placeholder label
option, then the element is suffering from being missing.
If the multiple
attribute is absent, and the element
is not disabled, then the user agent should allow the
user to pick an option
element in its list
of options that is itself not disabled. Upon
this option
element being picked (either
through a click, or through unfocusing the element after changing its value,
or through any other mechanism), and before the
relevant user interaction event is queued (e.g. before the
click
event), the user agent must set the selectedness of the picked option
element
to true, set its dirtiness to true, and then
send select
update notifications.
If the multiple
attribute is absent, whenever an
option
element in the select
element's list of options has its selectedness set to true, and whenever an
option
element with its selectedness
set to true is added to the select
element's list of options, the user agent must set the selectedness of all the other option
elements in its list of options to false.
If the multiple
attribute is absent and the element's
display size is greater than 1, then the user agent
should also allow the user to request that the option
whose selectedness is true, if any, be unselected. Upon this
request being conveyed to the user agent, and before the relevant user interaction event is queued (e.g. before the click
event), the user agent must set the selectedness
of that option
element to false, set its dirtiness to true, and then send
select
update notifications.
If nodes are inserted or nodes are removed causing the list of options to gain or lose one or more
option
elements, or if an option
element in the list of options asks for a
reset, then, if the select
element's multiple
attribute is absent, the select
element's display size is 1, and no option
elements in the select
element's list of
options have their selectedness set to
true, the user agent must set the selectedness of
the first option
element in the list of
options in tree order that is not disabled, if any, to true.
If the multiple
attribute is present, and the element
is not disabled, then the user agent should allow the
user to toggle the selectedness of the option
elements in its
list of options that are themselves not disabled. Upon such an element being toggled (either through a click,
or any other mechanism), and before the relevant user interaction event is queued (e.g. before a related click
event), the selectedness of the option
element must be changed (from true to false or false to true), the dirtiness of the element must be set to true, and the
user agent must send select
update notifications.
When the user agent is to send select
update notifications, queue
a task to first fire a simple event that bubbles named input
at the select
element, and then fire a simple
event that bubbles named change
at the
select
element, using the user interaction task source as the task
source.
The reset algorithm for select
elements is to go through all the option
elements in the element's list of options, set their selectedness to true if the option
element
has a selected
attribute, and false otherwise, set their dirtiness to false, and then
have the option
elements ask for a reset.
The form
attribute is used to explicitly associate the
select
element with its form owner. The name
attribute represents the element's name. The disabled
attribute is used to make the control non-interactive and
to prevent its value from being submitted. The autofocus
attribute controls focus.
A select
element that is not disabled is
mutable.
type
Returns "select-multiple
" if the element has a multiple
attribute, and "select-one
"
otherwise.
options
Returns an HTMLOptionsCollection
of the list of options.
length
[ = value ]Returns the number of elements in the list of options.
When set to a smaller number, truncates the number of option
elements in the
select
.
When set to a greater number, adds new blank option
elements to the
select
.
item
(index)Returns the item with index index from the list of options. The items are sorted in tree order.
namedItem
(name)Returns the first item with ID or name
name from the list of options.
Returns null if no element with that ID could be found.
add
(element [, before ])Inserts element before the node given by before.
The before argument can be a number, in which case element is inserted before the item with that number, or an element from the list of options, in which case element is inserted before that element.
If before is omitted, null, or a number out of range, then element will be added at the end of the list.
This method will throw a HierarchyRequestError
exception if element is an ancestor of the element into which it is to be inserted.
selectedOptions
Returns an HTMLCollection
of the list
of options that are selected.
selectedIndex
[ = value ]Returns the index of the first selected item, if any, or −1 if there is no selected item.
Can be set, to change the selection.
value
[ = value ]Returns the value of the first selected item, if any, or the empty string if there is no selected item.
Can be set, to change the selection.
The type
IDL attribute, on getting, must return
the string "select-one
" if the multiple
attribute is absent, and the string "select-multiple
" if the multiple
attribute is present.
The options
IDL attribute must return an
HTMLOptionsCollection
rooted at the select
node, whose filter matches
the elements in the list of options.
The options
collection is also mirrored on the
HTMLSelectElement
object. The supported property indices at any instant
are the indices supported by the object returned by the options
attribute at that instant.
The length
IDL attribute must return the
number of nodes represented by the options
collection. On setting, it must act like the attribute
of the same name on the options
collection.
The item(index)
method must
return the value returned by the method of the same
name on the options
collection, when invoked with
the same argument.
The namedItem(name)
method must return the value returned by the
method of the same name on the options
collection,
when invoked with the same argument.
When the user agent is to set the value of a new
indexed property for a given property index index to a new value value, it must instead set the value
of a new indexed property with the given property index index to the
new value value on the options
collection.
Similarly, the add()
method must act like its
namesake method on that same options
collection.
The remove()
method must act like its
namesake method on that same options
collection when it
has arguments, and like its namesake method on the ChildNode
interface implemented by
the HTMLSelectElement
ancestor interface Element
when it has no
arguments.
The selectedOptions
IDL attribute
must return an HTMLCollection
rooted at the select
node, whose filter
matches the elements in the list of options that
have their selectedness set to true.
The selectedIndex
IDL attribute, on
getting, must return the index of the first
option
element in the list of options
in tree order that has its selectedness set to true, if any. If there isn't one,
then it must return −1.
On setting, the selectedIndex
attribute must set
the selectedness of all the option
elements in the list of options to false, and then
the option
element in the list of
options whose index is the given new value, if
any, must have its selectedness set to true and its dirtiness set to true.
This can result in no element having a selectedness set to true even in the case of the
select
element having no multiple
attribute
and a display size of 1.
The value
IDL attribute, on getting, must
return the value of the first option
element in the list of options in tree
order that has its selectedness set to
true, if any. If there isn't one, then it must return the empty string.
On setting, the value
attribute must set the selectedness of all the option
elements in
the list of options to false, and then the first
option
element in the list of
options, in tree order, whose value
is equal to the given new value, if any, must have its selectedness set to true and its dirtiness set to true.
This can result in no element having a selectedness set to true even in the case of the
select
element having no multiple
attribute
and a display size of 1.
The multiple
, required
, and size
IDL attributes must reflect the
respective content attributes of the same name. The size
IDL
attribute has a default value of zero.
For historical reasons, the default value of the size
IDL attribute does not return the actual size used, which, in
the absence of the size
content attribute, is either 1 or 4
depending on the presence of the multiple
attribute.
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The autofocus
, disabled
, form
, and name
IDL attributes are
part of the element's forms API.
The following example shows how a select
element can be used to offer the user
with a set of options from which the user can select a single option. The default option is
preselected.
<p> <label for="unittype">Select unit type:</label> <select id="unittype" name="unittype"> <option value="1"> Miner </option> <option value="2"> Puffer </option> <option value="3" selected> Snipey </option> <option value="4"> Max </option> <option value="5"> Firebot </option> </select> </p>
When there is no default option, a placeholder can be used instead:
<select name="unittype" required> <option value=""> Select unit type </option> <option value="1"> Miner </option> <option value="2"> Puffer </option> <option value="3"> Snipey </option> <option value="4"> Max </option> <option value="5"> Firebot </option> </select>
Here, the user is offered a set of options from which he can select any number. By default, all five options are selected.
<p> <label for="allowedunits">Select unit types to enable on this map:</label> <select id="allowedunits" name="allowedunits" multiple> <option value="1" selected> Miner </option> <option value="2" selected> Puffer </option> <option value="3" selected> Snipey </option> <option value="4" selected> Max </option> <option value="5" selected> Firebot </option> </select> </p>
Sometimes, a user has to select one or more items. This example shows such an interface.
<p>Select the songs from that you would like on your Act II Mix Tape:</p> <select multiple required name="act2"> <option value="s1">It Sucks to Be Me (Reprise) <option value="s2">There is Life Outside Your Apartment <option value="s3">The More You Ruv Someone <option value="s4">Schadenfreude <option value="s5">I Wish I Could Go Back to College <option value="s6">The Money Song <option value="s7">School for Monsters <option value="s8">The Money Song (Reprise) <option value="s9">There's a Fine, Fine Line (Reprise) <option value="s10">What Do You Do With a B.A. in English? (Reprise) <option value="s11">For Now </select>
datalist
elementoption
elements descendants).option
elements.interface HTMLDataListElement : HTMLElement { readonly attribute HTMLCollection options; };
The datalist
element represents a set of option
elements that
represent predefined options for other controls. In the rendering, the datalist
element represents nothing and it, along with its children, should
be hidden.
The datalist
element can be used in two ways. In the simplest case, the
datalist
element has just option
element children.
<label> Sex: <input name=sex list=sexes> <datalist id=sexes> <option value="Female"> <option value="Male"> </datalist> </label>
In the more elaborate case, the datalist
element can be given contents that are to
be displayed for down-level clients that don't support datalist
. In this case, the
option
elements are provided inside a select
element inside the
datalist
element.
<label> Sex: <input name=sex list=sexes> </label> <datalist id=sexes> <label> or select from the list: <select name=sex> <option value=""> <option>Female <option>Male </select> </label> </datalist>
The datalist
element is hooked up to an input
element using the list
attribute on the input
element.
Each option
element that is a descendant of the datalist
element,
that is not disabled, and whose value is a string that isn't the empty string, represents a
suggestion. Each suggestion has a value and a label.
options
Returns an HTMLCollection
of the options
elements of the
datalist
element.
The options
IDL attribute must return an
HTMLCollection
rooted at the datalist
node, whose filter matches
option
elements.
Constraint validation: If an element has a datalist
element
ancestor, it is barred from constraint validation.
optgroup
elementselect
element.option
and script-supporting elements.disabled
label
interface HTMLOptGroupElement : HTMLElement { attribute boolean disabled; attribute DOMString label; };
The optgroup
element represents a group of option
elements with a common label.
The element's group of option
elements consists of the option
elements that are children of the optgroup
element.
When showing option
elements in select
elements, user agents should
show the option
elements of such groups as being related to each other and separate
from other option
elements.
The disabled
attribute is a
boolean attribute and can be used to disable a group of option
elements
together.
The label
attribute must be specified. Its
value gives the name of the group, for the purposes of the user interface. User
agents should use this attribute's value when labeling the group of option
elements
in a select
element.
The disabled
and label
attributes must reflect the
respective content attributes of the same name.
The following snippet shows how a set of lessons from three courses could be offered in a
select
drop-down widget:
<form action="courseselector.dll" method="get"> <p>Which course would you like to watch today? <p><label>Course: <select name="c"> <optgroup label="8.01 Physics I: Classical Mechanics"> <option value="8.01.1">Lecture 01: Powers of Ten <option value="8.01.2">Lecture 02: 1D Kinematics <option value="8.01.3">Lecture 03: Vectors <optgroup label="8.02 Electricity and Magnestism"> <option value="8.02.1">Lecture 01: What holds our world together? <option value="8.02.2">Lecture 02: Electric Field <option value="8.02.3">Lecture 03: Electric Flux <optgroup label="8.03 Physics III: Vibrations and Waves"> <option value="8.03.1">Lecture 01: Periodic Phenomenon <option value="8.03.2">Lecture 02: Beats <option value="8.03.3">Lecture 03: Forced Oscillations with Damping </select> </label> <p><input type=submit value="▶ Play"> </form>
option
elementselect
element.datalist
element.optgroup
element.label
attribute and a value
attribute: Empty.label
attribute but no value
attribute: Text.label
attribute: Text that is not inter-element whitespace.disabled
label
selected
value
[NamedConstructor=Option(optional DOMString text = "", optional DOMString value, optional boolean defaultSelected = false, optional boolean selected = false)] interface HTMLOptionElement : HTMLElement { attribute boolean disabled; readonly attribute HTMLFormElement? form; attribute DOMString label; attribute boolean defaultSelected; attribute boolean selected; attribute DOMString value; attribute DOMString text; readonly attribute long index; };
The option
element represents an option in a select
element or as part of a list of suggestions in a datalist
element.
In certain circumstances described in the definition of the select
element, an
option
element can be a select
element's placeholder label
option. A placeholder label option does not represent an actual option, but
instead represents a label for the select
control.
The disabled
attribute is a boolean
attribute. An option
element is disabled if its disabled
attribute is present or if it is a child of an
optgroup
element whose disabled
attribute
is present.
An option
element that is disabled must
prevent any click
events that are queued on the user interaction task source from being dispatched on the
element.
The label
attribute provides a label for
element. The label of an option
element is
the value of the label
content attribute, if there is one,
or, if there is not, the value of the element's text
IDL
attribute.
The label
content attribute, if specified, must not be
empty.
The value
attribute provides a value for
element. The value of an option
element is
the value of the value
content attribute, if there is one,
or, if there is not, the value of the element's text
IDL
attribute.
The selected
attribute is a boolean
attribute. It represents the default selectedness of the element.
The dirtiness of an option
element is
a boolean state, initially false. It controls whether adding or removing the selected
content attribute has any effect.
The selectedness of an option
element is a boolean state, initially false. Except where otherwise specified, when the element is
created, its selectedness must be set to true if
the element has a selected
attribute. Whenever an
option
element's selected
attribute is
added, if its dirtiness is false, its selectedness must be set to true.
Whenever an
option
element's selected
attribute is
removed, if its dirtiness is false, its selectedness must be set to false.
The Option()
constructor, when called with three
or fewer arguments, overrides the initial state of the selectedness state to always be false even if the third
argument is true (implying that a selected
attribute is
to be set). The fourth argument can be used to explicitly set the initial selectedness state when using the constructor.
A select
element whose multiple
attribute is not specified must not have more than one descendant option
element with
its selected
attribute set.
An option
element's index is the number of
option
elements that are in the same list of
options but that come before it in tree order. If the option
element is not in a list of options, then the
option
element's index is zero.
selected
Returns true if the element is selected, and false otherwise.
Can be set, to override the current state of the element.
index
Returns the index of the element in its select
element's options
list.
form
Returns the element's form
element, if any, or null otherwise.
text
Same as textContent
, except that spaces are collapsed and script
elements are skipped.
Option
( [ text [, value [, defaultSelected [, selected ] ] ] ] )Returns a new option
element.
The text argument sets the contents of the element.
The value argument sets the value
attribute.
The defaultSelected argument sets the selected
attribute.
The selected argument sets whether or not the element is selected. If it is omitted, even if the defaultSelected argument is true, the element is not selected.
The disabled
IDL attribute must
reflect the content attribute of the same name. The defaultSelected
IDL attribute must
reflect the selected
content attribute.
The label
IDL attribute, on getting, must
return the element's label. On setting, the element's
label
content attribute must be set to the new value.
The value
IDL attribute, on getting, must
return the element's value. On setting, the element's
value
content attribute must be set to the new value.
The selected
IDL attribute, on getting,
must return true if the element's selectedness is
true, and false otherwise. On setting, it must set the element's selectedness to the new value, set its dirtiness to true, and then cause the
element to ask for a reset.
The index
IDL attribute must return the
element's index.
The text
IDL attribute, on getting, must return
the result of stripping and collapsing
whitespace from the concatenation of data of all the
Text
node descendants of the option
element, in tree order,
excluding any that are descendants of descendants of the option
element that are
themselves script
elements in the HTML namespace or script
elements in the SVG namespace.
On setting, the text
attribute must act as if the
textContent
IDL attribute on the element had been set to the new value.
The form
IDL attribute's behavior depends on
whether the option
element is in a select
element or not. If the
option
has a select
element as its parent, or has an
optgroup
element as its parent and that optgroup
element has a
select
element as its parent, then the form
IDL
attribute must return the same value as the form
IDL attribute
on that select
element. Otherwise, it must return null.
A constructor is provided for creating HTMLOptionElement
objects (in addition to
the factory methods from DOM such as createElement()
): Option(text, value, defaultSelected, selected)
. When invoked as a
constructor, it must return a new HTMLOptionElement
object (a new option
element). If the first argument is not the empty string, the new object must have as its only
child a Text
node whose data is the value of that argument. Otherwise, it must have
no children. If the value argument is present, the new object must have a
value
attribute set with the value of the argument as its
value. If the defaultSelected argument is true, the new object must have a
selected
attribute set with no value. If the selected argument is true, the new object must have its selectedness set to true; otherwise the selectedness must be set to false, even if the defaultSelected argument is true. The element's document must be the active
document of the browsing context of the Window
object on which
the interface object of the invoked constructor is found.
textarea
elementautocomplete
autofocus
cols
dirname
disabled
form
maxlength
minlength
name
placeholder
readonly
required
rows
wrap
interface HTMLTextAreaElement : HTMLElement { attribute DOMString autocomplete; attribute boolean autofocus; attribute unsigned long cols; attribute DOMString dirName; attribute boolean disabled; readonly attribute HTMLFormElement? form; attribute long maxLength; attribute long minLength; attribute DOMString name; attribute DOMString placeholder; attribute boolean readOnly; attribute boolean required; attribute unsigned long rows; attribute DOMString wrap; readonly attribute DOMString type; attribute DOMString defaultValue; [TreatNullAs=EmptyString] attribute DOMString value; readonly attribute unsigned long textLength; readonly attribute boolean willValidate; readonly attribute ValidityState validity; readonly attribute DOMString validationMessage; boolean checkValidity(); void setCustomValidity(DOMString error); readonly attribute NodeList labels; void select(); attribute unsigned long selectionStart; attribute unsigned long selectionEnd; attribute DOMString selectionDirection; void setRangeText(DOMString replacement); void setRangeText(DOMString replacement, unsigned long start, unsigned long end, optional SelectionMode selectionMode = "preserve"); void setSelectionRange(unsigned long start, unsigned long end, optional DOMString direction); };
The textarea
element represents a multiline plain text edit
control for the element's raw
value. The contents of the control represent the control's default value.
The raw value of a textarea
control must be initially the empty string.
This element has rendering requirements involving the bidirectional algorithm.
The readonly
attribute is a
boolean attribute used to control whether the text can be edited by the user or
not.
In this example, a text field is marked read-only because it represents a read-only file:
Filename: <code>/etc/bash.bashrc</code> <textarea name="buffer" readonly> # System-wide .bashrc file for interactive bash(1) shells. # To enable the settings / commands in this file for login shells as well, # this file has to be sourced in /etc/profile. # If not running interactively, don't do anything [ -z "$PS1" ] && return ...</textarea>
Constraint validation: If the readonly
attribute is specified on a textarea
element, the element is barred from constraint validation.
A textarea
element is mutable if it is
neither disabled nor has a readonly
attribute specified.
When a textarea
is mutable, its raw value should be editable by the user: the user agent
should allow the user to edit, insert, and remove text, and to insert and remove line breaks in
the form of "LF" (U+000A) characters. Any time the user causes the element's raw value to change, the user agent must queue a
task to fire a simple event that bubbles named input
at the textarea
element. User agents may wait for a
suitable break in the user's interaction before queuing the task; for example, a user agent could
wait for the user to have not hit a key for 100ms, so as to only fire the event when the user
pauses, instead of continuously for each keystroke.
A textarea
element has a dirty value
flag, which must be initially set to false, and must be set to true whenever the user
interacts with the control in a way that changes the raw
value.
When the textarea
element's textContent
IDL attribute changes value,
if the element's dirty value flag is false, then the
element's raw value must be set to the value of
the element's textContent
IDL attribute.
The reset algorithm for textarea
elements is to set the element's value to the
value of the element's textContent
IDL attribute.
If the element is mutable, the user agent should allow the user to change the writing direction of the element, setting it either to a left-to-right writing direction or a right-to-left writing direction. If the user does so, the user agent must then run the following steps:
Set the element's dir
attribute to "ltr
" if the user selected a left-to-right writing direction, and
"rtl
" if the user selected a right-to-left writing
direction.
Queue a task to fire a simple event that bubbles named input
at the textarea
element.
The cols
attribute specifies the expected
maximum number of characters per line. If the cols
attribute is specified, its value must be a valid non-negative integer greater than
zero. If applying the rules for parsing non-negative integers to
the attribute's value results in a number greater than zero, then the element's character width is that value; otherwise, it is
20.
The user agent may use the textarea
element's character width as a hint to the user as to how many
characters the server prefers per line (e.g. for visual user agents by making the width of the
control be that many characters). In visual renderings, the user agent should wrap the user's
input in the rendering so that each line is no wider than this number of characters.
The rows
attribute specifies the number of
lines to show. If the rows
attribute is specified, its
value must be a valid non-negative integer greater than zero. If
applying the rules for parsing non-negative integers to the attribute's value results
in a number greater than zero, then the element's character
height is that value; otherwise, it is 2.
Visual user agents should set the height of the control to the number of lines given by character height.
The wrap
attribute is an enumerated
attribute with two keywords and states: the soft
keyword which maps to the Soft state, and the hard
keyword which maps to the Hard state. The missing value default is the
Soft state.
The Soft state indicates that the text in the
textarea
is not to be wrapped when it is submitted (though it can still be wrapped in
the rendering).
The Hard state indicates that the text in the
textarea
is to have newlines added by the user agent so that the text is wrapped when
it is submitted.
If the element's wrap
attribute is in the Hard state, the cols
attribute must be specified.
For historical reasons, the element's value is normalised in three different ways for three
different purposes. The raw value is the value as
it was originally set. It is not normalized. The API
value is the value used in the value
IDL attribute.
It is normalized so that line breaks use "LF" (U+000A) characters. Finally, there is the
form submission value. It is normalized so that line breaks
use U+000D CARRIAGE RETURN "CRLF" (U+000A) character pairs, and in addition, if necessary
given the element's wrap
attribute, additional line breaks
are inserted to wrap the text at the given width.
The element's API value is defined to be the element's raw value with the following transformation applied:
Replace every U+000D CARRIAGE RETURN "CRLF" (U+000A) character pair from the raw value with a single "LF" (U+000A) character.
Replace every remaining U+000D CARRIAGE RETURN character from the raw value with a single "LF" (U+000A) character.
The element's value is defined to be the element's raw value with the following transformation applied:
Replace every occurrence of a "CR" (U+000D) character not followed by a "LF" (U+000A) character, and every occurrence of a "LF" (U+000A) character not preceded by a "CR" (U+000D) character, by a two-character string consisting of a U+000D CARRIAGE RETURN "CRLF" (U+000A) character pair.
If the element's wrap
attribute is in the Hard state, insert U+000D CARRIAGE RETURN "CRLF" (U+000A) character pairs into the string using a UA-defined algorithm so that each line
has no more than character width characters. For
the purposes of this requirement, lines are delimited by the start of the string, the end of the
string, and U+000D CARRIAGE RETURN "CRLF" (U+000A) character pairs.
The maxlength
attribute is a form control maxlength
attribute controlled
by the textarea
element's dirty value
flag.
If the textarea
element has a maximum allowed value length, then the
element's children must be such that the code-unit length of the value of the
element's textContent
IDL attribute is equal to or less than the element's
maximum allowed value length.
The minlength
attribute is a form control minlength
attribute controlled
by the textarea
element's dirty value
flag.
The required
attribute is a
boolean attribute. When specified, the user will be required to enter a value before
submitting the form.
Constraint validation: If the element has its required
attribute specified, and the element is mutable, and the element's value is the empty string, then the element is suffering
from being missing.
The placeholder
attribute represents
a short hint (a word or short phrase) intended to aid the user with data entry when the
control has no value. A hint could be a sample value or a brief description of the expected
format.
The placeholder
attribute
should not be used as a replacement for a label
. For a
longer hint or other advisory text, place the text next to the control.
Use of the placeholder
attribute as a replacement for a label
can reduce the
accessibility and usability of the control for a range of users including older
users and users with cognitive, mobility, fine motor skill or vision impairments.
While the hint given by the control's label
is shown at all times, the short
hint given in the placeholder
attribute is only shown before the user enters a value. Furthermore,
placeholder
text may be mistaken for
a pre-filled value, and as commonly implemented the default color of the placeholder text
provides insufficient contrast and the lack of a separate visible label
reduces the size of the hit region available for setting focus on the control.
User agents should present this hint to the user when the element's value is the empty string and the control is not focused (e.g. by displaying it inside a blank unfocused control). All U+000D CARRIAGE RETURN U+000A LINE FEED character pairs (CRLF) in the hint, as well as all other "CR" (U+000D) and "LF" (U+000A) characters in the hint, must be treated as line breaks when rendering the hint.
The name
attribute represents the element's name.
The dirname
attribute controls how the element's directionality is submitted.
The disabled
attribute is used to make the control
non-interactive and to prevent its value from being submitted.
The form
attribute is used to explicitly associate the
textarea
element with its form owner.
The autofocus
attribute controls focus.
The autocomplete
attribute controls how the user agent
provides autofill behavior.
type
Returns the string "textarea
".
value
Returns the current value of the element.
Can be set, to change the value.
The cols
, placeholder
, required
, rows
, and wrap
attributes must reflect the
respective content attributes of the same name. The cols
and rows
attributes are limited to only non-negative
numbers greater than zero. The cols
attribute's
default value is 20. The rows
attribute's default value is
2. The dirName
IDL attribute must
reflect the dirname
content attribute. The maxLength
IDL attribute must
reflect the maxlength
content attribute,
limited to only non-negative numbers. The minLength
IDL attribute must
reflect the minlength
content attribute,
limited to only non-negative numbers. The readOnly
IDL attribute must reflect
the readonly
content attribute.
The type
IDL attribute must return the value
"textarea
".
The defaultValue
IDL attribute must
act like the element's textContent
IDL attribute.
The value
attribute must, on getting, return
the element's API value; on setting, it must set
the element's raw value to the new value, set the
element's dirty value flag to true, and should then
move the text entry cursor position to the end of the text field, unselecting any selected text
and resetting the selection direction to none.
The textLength
IDL attribute must
return the code-unit length of the element's API value.
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The select()
, selectionStart
, selectionEnd
, selectionDirection
, setRangeText()
, and setSelectionRange()
methods and IDL attributes
expose the element's text selection. The autofocus
, disabled
, form
, and name
IDL attributes are part of the element's forms API.
Here is an example of a textarea
being used for unrestricted free-form text input
in a form:
<p>If you have any comments, please let us know: <textarea cols=80 name=comments></textarea></p>
To specify a maximum length for the comments, one can use the maxlength
attribute:
<p>If you have any short comments, please let us know: <textarea cols=80 name=comments maxlength=200></textarea></p>
To give a default value, text can be included inside the element:
<p>If you have any comments, please let us know: <textarea cols=80 name=comments>You rock!</textarea></p>
You can also give a minimum length. Here, a letter needs to be filled out by the user; a template (which is shorter than the minimum length) is provided, but is insufficient to submit the form:
<textarea required minlength="500">Dear Madam Speaker, Regarding your letter dated ... ... Yours Sincerely, ...</textarea>
A placeholder can be given as well, to suggest the basic form to the user, without providing an explicit template:
<textarea placeholder="Dear Francine, They closed the parks this week, so we won't be able to meet your there. Should we just have dinner? Love, Daddy"></textarea>
To have the browser submit the directionality of
the element along with the value, the dirname
attribute can be
specified:
<p>If you have any comments, please let us know (you may use either English or Hebrew for your comments): <textarea cols=80 name=comments dirname=comments.dir></textarea></p>
keygen
elementautofocus
challenge
disabled
form
keytype
name
interface HTMLKeygenElement : HTMLElement { attribute boolean autofocus; attribute DOMString challenge; attribute boolean disabled; readonly attribute HTMLFormElement? form; attribute DOMString keytype; attribute DOMString name; readonly attribute DOMString type; readonly attribute boolean willValidate; readonly attribute ValidityState validity; readonly attribute DOMString validationMessage; boolean checkValidity(); void setCustomValidity(DOMString error); readonly attribute NodeList labels; };
The keygen
element represents a key pair generator control. When the
control's form is submitted, the private key is stored in the local keystore, and the public key
is packaged and sent to the server.
The challenge
attribute may be specified.
Its value will be packaged with the submitted key.
The keytype
attribute is an
enumerated attribute. The following table lists the keywords and states for the
attribute — the keywords in the left column map to the states listed in the cell in the
second column on the same row as the keyword. User agents are not required to support these
values, and must only recognize values whose corresponding algorithms they support.
Keyword | State |
---|---|
rsa
| RSA |
The invalid value default state is the unknown state. The missing value default state is the RSA state, if it is supported, or the unknown state otherwise.
This specification does not specify what key types user agents are to support — it is possible for a user agent to not support any key types at all.
The user agent may expose a user interface for each keygen
element to allow the
user to configure settings of the element's key pair generator, e.g. the key length.
The reset algorithm for keygen
elements is to set these various configuration settings back to their defaults.
The element's value is the string returned from the following algorithm:
Use the appropriate step from the following list:
keytype
attribute is in the RSA stateGenerate an RSA key pair using the settings given by the user, if appropriate, using the
md5WithRSAEncryption
RSA signature algorithm (the signature algorithm
with MD5 and the RSA encryption algorithm) referenced in section 2.2.1 ("RSA Signature
Algorithm") of RFC 3279, and defined in RFC 2313. [RFC3279] [RFC2313]
keytype
attribute is in the unknown stateThe given key type is not supported. Return the empty string and abort this algorithm.
Let private key be the generated private key.
Let public key be the generated public key.
Let signature algorithm be the selected signature algorithm.
If the element has a challenge
attribute, then let
challenge be that attribute's value. Otherwise, let challenge be the empty string.
Let algorithm be an ASN.1 AlgorithmIdentifier
structure as defined by RFC 5280, with the algorithm
field giving the
ASN.1 OID used to identify signature algorithm, using the OIDs defined in
section 2.2 ("Signature Algorithms") of RFC 3279, and the parameters
field
set up as required by RFC 3279 for AlgorithmIdentifier
structures for that
algorithm. [X690] [RFC5280] [RFC3279]
Let spki be an ASN.1 SubjectPublicKeyInfo
structure
as defined by RFC 5280, with the algorithm
field set to the algorithm structure from the previous step, and the subjectPublicKey
field set to the BIT STRING value resulting from ASN.1 DER
encoding the public key. [X690] [RFC5280]
Let publicKeyAndChallenge be an ASN.1 PublicKeyAndChallenge
structure as defined below, with the spki
field set to the spki structure from the previous step, and the challenge
field set to the string challenge obtained earlier. [X690]
Let signature be the BIT STRING value resulting from ASN.1 DER encoding the signature generated by applying the signature algorithm to the byte string obtained by ASN.1 DER encoding the publicKeyAndChallenge structure, using private key as the signing key. [X690]
Let signedPublicKeyAndChallenge be an ASN.1
SignedPublicKeyAndChallenge
structure as defined below, with the publicKeyAndChallenge
field set to the publicKeyAndChallenge
structure, the signatureAlgorithm
field set to the algorithm structure, and the signature
field set to the BIT
STRING signature from the previous step. [X690]
Return the result of base64 encoding the result of ASN.1 DER encoding the signedPublicKeyAndChallenge structure. [RFC4648] [X690]
The data objects used by the above algorithm are defined as follows. These definitions use the same "ASN.1-like" syntax defined by RFC 5280. [RFC5280]
PublicKeyAndChallenge ::= SEQUENCE { spki SubjectPublicKeyInfo, challenge IA5STRING } SignedPublicKeyAndChallenge ::= SEQUENCE { publicKeyAndChallenge PublicKeyAndChallenge, signatureAlgorithm AlgorithmIdentifier, signature BIT STRING }
Constraint validation: The keygen
element is barred from
constraint validation.
The form
attribute is used to explicitly associate the
keygen
element with its form owner. The name
attribute represents the element's name. The disabled
attribute is used to make the control non-interactive and
to prevent its value from being submitted. The autofocus
attribute controls focus.
type
Returns the string "keygen
".
The challenge
IDL attribute must
reflect the content attribute of the same name.
The keytype
IDL attribute must
reflect the content attribute of the same name, limited to only known
values.
The type
IDL attribute must return the value
"keygen
".
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The autofocus
, disabled
, form
, and name
IDL attributes are
part of the element's forms API.
This specification does not specify how the private key generated is to be used.
It is expected that after receiving the SignedPublicKeyAndChallenge
(SPKAC)
structure, the server will generate a client certificate and offer it back to the user for
download; this certificate, once downloaded and stored in the key store along with the private
key, can then be used to authenticate to services that use TLS and certificate authentication.
To generate a key pair, add the private key to the user's key store, and submit the public key to the server, markup such as the following can be used:
<form action="processkey.cgi" method="post" enctype="multipart/form-data"> <p><keygen name="key"></p> <p><input type=submit value="Submit key..."></p> </form>
The server will then receive a form submission with a packaged RSA public key as the value of
"key
". This can then be used for various purposes, such as generating a
client certificate, as mentioned above.
output
elementfor
form
name
interface HTMLOutputElement : HTMLElement {
[PutForwards=value] readonly attribute DOMSettableTokenList htmlFor;
readonly attribute HTMLFormElement? form;
attribute DOMString name;
readonly attribute DOMString type;
attribute DOMString defaultValue;
attribute DOMString value;
readonly attribute boolean willValidate;
readonly attribute ValidityState validity;
readonly attribute DOMString validationMessage;
boolean checkValidity();
void setCustomValidity(DOMString error);
readonly attribute NodeList labels;
};
The output
element represents the result of a calculation or user
action.
The for
content attribute allows an explicit
relationship to be made between the result of a calculation and the elements that represent the
values that went into the calculation or that otherwise influenced the calculation. The for
attribute, if specified, must contain a string consisting of an
unordered set of unique space-separated tokens that are case-sensitive,
each of which must have the value of an ID of an element in the
same Document
.
The form
attribute is used to explicitly associate the
output
element with its form owner. The name
attribute represents the element's name.
The element has a value mode flag which is either value or default. Initially, the value mode flag must be set to default.
The element also has a default value. Initially, the default value must be the empty string.
When the value mode flag is in mode default, the contents of the element represent both the
value of the element and its default value. When
the value mode flag is in mode value, the contents of the element represent the value of
the element only, and the default value is only
accessible using the defaultValue
IDL attribute.
Whenever the element's descendants are changed in any way, if the value mode flag is in mode default, the element's default value must be set to the value of the element's
textContent
IDL attribute.
The reset algorithm for output
elements is to set the element's value mode flag to default and then to set the element's
textContent
IDL attribute to the value of the element's default value (thus replacing the element's child
nodes).
value
[ = value ]Returns the element's current value.
Can be set, to change the value.
defaultValue
[ = value ]Returns the element's current default value.
Can be set, to change the default value.
type
Returns the string "output
".
The value
IDL attribute must act like the
element's textContent
IDL attribute, except that on setting, in addition, before the
child nodes are changed, the element's value mode flag
must be set to value.
The defaultValue
IDL attribute, on
getting, must return the element's default value.
On setting, the attribute must set the element's default
value, and, if the element's value mode flag is in
the mode default, set the element's
textContent
IDL attribute as well.
The type
attribute must return the string
"output
".
The htmlFor
IDL attribute must
reflect the for
content attribute.
The willValidate
, validity
, and validationMessage
IDL attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The labels
IDL
attribute provides a list of the element's label
s. The form
and name
IDL attributes are part
of the element's forms API.
A simple calculator could use output
for its display of calculated results:
<form onsubmit="return false" oninput="o.value = a.valueAsNumber + b.valueAsNumber"> <input name=a type=number step=any> + <input name=b type=number step=any> = <output name=o for="a b"></output> </form>
In this example, an output
element is used to report the results from a remote
server, as they come in:
<output id="result"></output> <script> var primeSource = new WebSocket('ws://primes.example.net/'); primeSource.onmessage = function (event) { document.getElementById('result').value = event.data; } </script>
progress
elementprogress
element descendants.value
max
interface HTMLProgressElement : HTMLElement { attribute double value; attribute double max; readonly attribute double position; readonly attribute NodeList labels; };
The progress
element represents the completion progress of a task.
The progress is either indeterminate, indicating that progress is being made but that it is not
clear how much more work remains to be done before the task is complete (e.g. because the task is
waiting for a remote host to respond), or the progress is a number in the range zero to a maximum,
giving the fraction of work that has so far been completed.
There are two attributes that determine the current task completion represented by the element.
The value
attribute specifies how much of the
task has been completed, and the max
attribute
specifies how much work the task requires in total. The units are arbitrary and not specified.
To make a determinate progress bar, add a value
attribute with the current progress (either a number from
0.0 to 1.0, or, if the max
attribute is specified, a number
from 0 to the value of the max
attribute). To make an
indeterminate progress bar, remove the value
attribute.
Authors are encouraged to also include the current value and the maximum value inline as text inside the element, so that the progress is made available to users of legacy user agents.
Here is a snippet of a Web application that shows the progress of some automated task:
<section> <h2>Task Progress</h2> <p>Progress: <progress id="p" max=100><span>0</span>%</progress></p> <script> var progressBar = document.getElementById('p'); function updateProgress(newValue) { progressBar.value = newValue; progressBar.getElementsByTagName('span')[0].textContent = newValue; } </script> </section>
(The updateProgress()
method in this example would be called by some other code
on the page to update the actual progress bar as the task progressed.)
The value
and max
attributes, when present, must have values that are valid floating-point numbers. The value
attribute, if present, must have a value equal to or
greater than zero, and less than or equal to the value of the max
attribute, if present, or 1.0, otherwise. The max
attribute, if present, must have a value greater than
zero.
The progress
element is the wrong element to use for something that
is just a gauge, as opposed to task progress. For instance, indicating disk space usage using
progress
would be inappropriate. Instead, the meter
element is available
for such use cases.
User agent requirements: If the value
attribute is omitted, then the progress bar is an indeterminate progress bar. Otherwise, it is a
determinate progress bar.
If the progress bar is a determinate progress bar and the element has a max
attribute, the user agent must parse the max
attribute's value according to the rules for parsing
floating-point number values. If this does not result in an error, and if the parsed value
is greater than zero, then the maximum value of the
progress bar is that value. Otherwise, if the element has no max
attribute, or if it has one but parsing it resulted in an
error, or if the parsed value was less than or equal to zero, then the maximum value of the progress bar is 1.0.
If the progress bar is a determinate progress bar, user agents must parse the value
attribute's value according to the rules for
parsing floating-point number values. If this does not result in an error, and if the
parsed value is less than the maximum value and
greater than zero, then the current value of the
progress bar is that parsed value. Otherwise, if the parsed value was greater than or equal to the
maximum value, then the current value of the progress bar is the maximum value of the progress bar. Otherwise, if parsing
the value
attribute's value resulted in an error, or a
number less than or equal to zero, then the current
value of the progress bar is zero.
UA requirements for showing the progress bar: When representing a
progress
element to the user, the UA should indicate whether it is a determinate or
indeterminate progress bar, and in the former case, should indicate the relative position of the
current value relative to the maximum value.
position
For a determinate progress bar (one with known current and maximum values), returns the result of dividing the current value by the maximum value.
For an indeterminate progress bar, returns −1.
If the progress bar is an indeterminate progress bar, then the position
IDL attribute must return −1.
Otherwise, it must return the result of dividing the current
value by the maximum value.
If the progress bar is an indeterminate progress bar, then the value
IDL attribute, on getting, must return 0.
Otherwise, it must return the current value. On
setting, the given value must be converted to the best representation of the number as a
floating-point number and then the value
content
attribute must be set to that string.
Setting the value
IDL attribute to itself
when the corresponding content attribute is absent would change the progress bar from an
indeterminate progress bar to a determinate progress bar with no progress.
The max
IDL attribute must
reflect the content attribute of the same name, limited to numbers greater than
zero. The default value for max
is 1.0.
The labels
IDL attribute provides a list of the element's
label
s.
meter
elementmeter
element descendants.value
min
max
low
high
optimum
interface HTMLMeterElement : HTMLElement { attribute double value; attribute double min; attribute double max; attribute double low; attribute double high; attribute double optimum; readonly attribute NodeList labels; };
The meter
element represents a scalar measurement within a known
range, or a fractional value; for example disk usage, the relevance of a query result, or the
fraction of a voting population to have selected a particular candidate.
This is also known as a gauge.
The meter
element should not be used to indicate progress (as in a
progress bar). For that role, HTML provides a separate progress
element.
The meter
element also does not represent a scalar value of arbitrary
range — for example, it would be wrong to use this to report a weight, or height, unless
there is a known maximum value.
There are six attributes that determine the semantics of the gauge represented by the element.
The min
attribute specifies the lower bound of
the range, and the max
attribute specifies the
upper bound. The value
attribute specifies the
value to have the gauge indicate as the "measured" value.
The other three attributes can be used to segment the gauge's range into "low", "medium", and
"high" parts, and to indicate which part of the gauge is the "optimum" part. The low
attribute specifies the range that is considered to
be the "low" part, and the high
attribute
specifies the range that is considered to be the "high" part. The optimum
attribute gives the position that is
"optimum"; if that is higher than the "high" value then this indicates that the higher the value,
the better; if it's lower than the "low" mark then it indicates that lower values are better, and
naturally if it is in between then it indicates that neither high nor low values are good.
Authoring requirements: The value
attribute must be specified. The value
, min
, low
, high
, max
, and optimum
attributes,
when present, must have values that are valid
floating-point numbers.
In addition, the attributes' values are further constrained:
Let value be the value
attribute's
number.
If the min
attribute is specified, then let minimum be that attribute's value; otherwise, let it be zero.
If the max
attribute is specified, then let maximum be that attribute's value; otherwise, let it be 1.0.
The following inequalities must hold, as applicable:
low
≤ maximum (if low
is specified)high
≤ maximum (if high
is specified)optimum
≤ maximum (if optimum
is specified)low
≤ high
(if
both low
and high
are
specified)If no minimum or maximum is specified, then the range is assumed to be 0..1, and the value thus has to be within that range.
Authors are encouraged to include a textual representation of the gauge's state in the
element's contents, for users of user agents that do not support the meter
element.
The following examples show three gauges that would all be three-quarters full:
Storage space usage: <meter value=6 max=8>6 blocks used (out of 8 total)</meter> Voter turnout: <meter value=0.75><img alt="75%" src="graph75.png"></meter> Tickets sold: <meter min="0" max="100" value="75"></meter>
The following example is incorrect use of the element, because it doesn't give a range (and since the default maximum is 1, both of the gauges would end up looking maxed out):
<p>The grapefruit pie had a radius of <meter value=12>12cm</meter> and a height of <meter value=2>2cm</meter>.</p> <!-- BAD! -->
Instead, one would either not include the meter element, or use the meter element with a defined range to give the dimensions in context compared to other pies:
<p>The grapefruit pie had a radius of 12cm and a height of 2cm.</p> <dl> <dt>Radius: <dd> <meter min=0 max=20 value=12>12cm</meter> <dt>Height: <dd> <meter min=0 max=10 value=2>2cm</meter> </dl>
There is no explicit way to specify units in the meter
element, but the units may
be specified in the title
attribute in free-form text.
The example above could be extended to mention the units:
<dl> <dt>Radius: <dd> <meter min=0 max=20 value=12 title="centimeters">12cm</meter> <dt>Height: <dd> <meter min=0 max=10 value=2 title="centimeters">2cm</meter> </dl>
User agent requirements: User agents must parse the min
, max
, value
, low
, high
, and optimum
attributes using the rules for parsing floating-point number values.
User agents must then use all these numbers to obtain values for six points on the gauge, as follows. (The order in which these are evaluated is important, as some of the values refer to earlier ones.)
If the min
attribute is specified and a value could be
parsed out of it, then the minimum value is that value. Otherwise, the minimum value is
zero.
If the max
attribute is specified and a value could be
parsed out of it, then the candidate maximum value is that value. Otherwise, the candidate
maximum value is 1.0.
If the candidate maximum value is greater than or equal to the minimum value, then the maximum value is the candidate maximum value. Otherwise, the maximum value is the same as the minimum value.
If the value
attribute is specified and a value could
be parsed out of it, then that value is the candidate actual value. Otherwise, the candidate
actual value is zero.
If the candidate actual value is less than the minimum value, then the actual value is the minimum value.
Otherwise, if the candidate actual value is greater than the maximum value, then the actual value is the maximum value.
Otherwise, the actual value is the candidate actual value.
If the low
attribute is specified and a value could be
parsed out of it, then the candidate low boundary is that value. Otherwise, the candidate low
boundary is the same as the minimum value.
If the candidate low boundary is less than the minimum value, then the low boundary is the minimum value.
Otherwise, if the candidate low boundary is greater than the maximum value, then the low boundary is the maximum value.
Otherwise, the low boundary is the candidate low boundary.
If the high
attribute is specified and a value could be
parsed out of it, then the candidate high boundary is that value. Otherwise, the candidate high
boundary is the same as the maximum value.
If the candidate high boundary is less than the low boundary, then the high boundary is the low boundary.
Otherwise, if the candidate high boundary is greater than the maximum value, then the high boundary is the maximum value.
Otherwise, the high boundary is the candidate high boundary.
If the optimum
attribute is specified and a value
could be parsed out of it, then the candidate optimum point is that value. Otherwise, the
candidate optimum point is the midpoint between the minimum value and the maximum value.
If the candidate optimum point is less than the minimum value, then the optimum point is the minimum value.
Otherwise, if the candidate optimum point is greater than the maximum value, then the optimum point is the maximum value.
Otherwise, the optimum point is the candidate optimum point.
All of which will result in the following inequalities all being true:
UA requirements for regions of the gauge: If the optimum point is equal to the low boundary or the high boundary, or anywhere in between them, then the region between the low and high boundaries of the gauge must be treated as the optimum region, and the low and high parts, if any, must be treated as suboptimal. Otherwise, if the optimum point is less than the low boundary, then the region between the minimum value and the low boundary must be treated as the optimum region, the region from the low boundary up to the high boundary must be treated as a suboptimal region, and the remaining region must be treated as an even less good region. Finally, if the optimum point is higher than the high boundary, then the situation is reversed; the region between the high boundary and the maximum value must be treated as the optimum region, the region from the high boundary down to the low boundary must be treated as a suboptimal region, and the remaining region must be treated as an even less good region.
UA requirements for showing the gauge: When representing a meter
element to the user, the UA should indicate the relative position of the actual value to the
minimum and maximum values, and the relationship between the actual value and the three regions of
the gauge.
The following markup:
<h3>Suggested groups</h3> <ul> <li> <p><a href="/group/comp.infosystems.www.authoring.stylesheets/view">comp.infosystems.www.authoring.stylesheets</a> - <a href="/group/comp.infosystems.www.authoring.stylesheets/subscribe">join</a></p> <p>Group description: <strong>Layout/presentation on the WWW.</strong></p> <p><meter value="0.5">Moderate activity,</meter> Usenet, 618 subscribers</p> </li> <li> <p><a href="/group/netscape.public.mozilla.xpinstall/view">netscape.public.mozilla.xpinstall</a> - <a href="/group/netscape.public.mozilla.xpinstall/subscribe">join</a></p> <p>Group description: <strong>Mozilla XPInstall discussion.</strong></p> <p><meter value="0.25">Low activity,</meter> Usenet, 22 subscribers</p> </li> <li> <p><a href="/group/mozilla.dev.general/view">mozilla.dev.general</a> - <a href="/group/mozilla.dev.general/subscribe">join</a></p> <p><meter value="0.25">Low activity,</meter> Usenet, 66 subscribers</p> </li> </ul>
Might be rendered as follows:
User agents may combine the value of the title
attribute and the other attributes to provide context-sensitive
help or inline text detailing the actual values.
For example, the following snippet:
<meter min=0 max=60 value=23.2 title=seconds></meter>
...might cause the user agent to display a gauge with a tooltip saying "Value: 23.2 out of 60." on one line and "seconds" on a second line.
The value
IDL attribute, on getting, must
return the actual value. On setting, the given value
must be converted to the best representation of the number as a floating-point number
and then the value
content attribute must be set to that
string.
The min
IDL attribute, on getting, must return
the minimum value. On setting, the given value must be
converted to the best representation of the number as a floating-point number and
then the min
content attribute must be set to that string.
The max
IDL attribute, on getting, must return
the maximum value. On setting, the given value must be
converted to the best representation of the number as a floating-point number and
then the max
content attribute must be set to that string.
The low
IDL attribute, on getting, must return
the low boundary. On setting, the given value must be
converted to the best representation of the number as a floating-point number and
then the low
content attribute must be set to that string.
The high
IDL attribute, on getting, must return
the high boundary. On setting, the given value must be
converted to the best representation of the number as a floating-point number and
then the high
content attribute must be set to that
string.
The optimum
IDL attribute, on getting, must
return the optimum value. On setting, the given value
must be converted to the best representation of the number as a floating-point number
and then the optimum
content attribute must be set to that
string.
The labels
IDL attribute provides a list of the element's
label
s.
The following example shows how a gauge could fall back to localized or pretty-printed text.
<p>Disk usage: <meter min=0 value=170261928 max=233257824>170 261 928 bytes used out of 233 257 824 bytes available</meter></p>
fieldset
elementlegend
element, followed by flow content.disabled
form
name
interface HTMLFieldSetElement : HTMLElement { attribute boolean disabled; readonly attribute HTMLFormElement? form; attribute DOMString name; readonly attribute DOMString type; readonly attribute HTMLFormControlsCollection elements; readonly attribute boolean willValidate; readonly attribute ValidityState validity; readonly attribute DOMString validationMessage; boolean checkValidity(); void setCustomValidity(DOMString error); };
The fieldset
element represents a set of form controls optionally
grouped under a common name.
The name of the group is given by the first legend
element that is a child of the
fieldset
element, if any. The remainder of the descendants form the group.
The disabled
attribute, when specified,
causes all the form control descendants of the fieldset
element, excluding those that
are descendants of the fieldset
element's first legend
element child, if
any, to be disabled.
The form
attribute is used to explicitly associate the
fieldset
element with its form owner. The name
attribute represents the element's name.
type
Returns the string "fieldset".
elements
Returns an HTMLFormControlsCollection
of the form controls in the element.
The disabled
IDL attribute must
reflect the content attribute of the same name.
The type
IDL attribute must return the string
"fieldset
".
The elements
IDL attribute must return an
HTMLFormControlsCollection
rooted at the fieldset
element, whose filter
matches listed elements.
The willValidate
, validity
, and validationMessage
attributes, and the checkValidity()
, and setCustomValidity()
methods, are part of the
constraint validation API. The form
and name
IDL attributes are part of the element's forms API.
This example shows a fieldset
element being used to group a set of related
controls:
<fieldset> <legend>Display</legend> <div><label><input type=radio name=c value=0 checked> Black on White</label></div> <div><label><input type=radio name=c value=1> White on Black</label></div> <div><label><input type=checkbox name=g> Use grayscale</label></div> <div><label>Enhance contrast <input type=range name=e list=contrast min=0 max=100 value=0 step=1></label></div> <datalist id=contrast> <option label=Normal value=0> <option label=Maximum value=100> </datalist> </fieldset>
The div elements used in the code samples above and below are not intended to convey any semantic meaning and are used only to create a non-inline rendering of the grouped fieldset controls.
The following snippet shows a fieldset with a checkbox in the legend that controls whether or not the fieldset is enabled. The contents of the fieldset consist of two required text fields and an optional year/month control.
<fieldset name="clubfields" disabled> <legend> <label> <input type=checkbox name=club onchange="form.clubfields.disabled = !checked"> Use Club Card </label> </legend> <div><label>Name on card: <input name=clubname required></label></div> <div><label>Card number: <input name=clubnum required pattern="[-0-9]+"></label></div> <div><label>Expiry date: <input name=clubexp type=date></label></div> </fieldset>
You can also nest fieldset
elements. Here is an example expanding on the previous
one that does so:
<fieldset name="clubfields" disabled> <legend> <label> <input type=checkbox name=club onchange="form.clubfields.disabled = !checked"> Use Club Card </label> </legend> <div><label>Name on card: <input name=clubname required></label></div> <fieldset name="numfields"> <legend> <label> <input type=radio checked name=clubtype onchange="form.numfields.disabled = !checked"> My card has numbers on it </label> </legend> <div><label>Card number: <input name=clubnum required pattern="[-0-9]+"></label></div> </fieldset> <fieldset name="letfields" disabled> <legend> <label> <input type=radio name=clubtype onchange="form.letfields.disabled = !checked"> My card has letters on it </label> </legend> <div><label>Card code: <input name=clublet required pattern="[A-Za-z]+"></label></> </fieldset> </fieldset>
In this example, if the outer "Use Club Card" checkbox is not checked, everything inside the
outer fieldset
, including the two radio buttons in the legends of the two nested
fieldset
s, will be disabled. However, if the checkbox is checked, then the radio
buttons will both be enabled and will let you select which of the two inner
fieldset
s is to be enabled.
legend
elementfieldset
element.interface HTMLLegendElement : HTMLElement { readonly attribute HTMLFormElement? form; };
The legend
element represents a caption for the rest of the contents
of the legend
element's parent fieldset
element, if
any.
form
Returns the element's form
element, if any, or null otherwise.
The form
IDL attribute's behavior depends on
whether the legend
element is in a fieldset
element or not. If the
legend
has a fieldset
element as its parent, then the form
IDL attribute must return the same value as the form
IDL attribute on that fieldset
element. Otherwise,
it must return null.
Form controls have a value and a checkedness. (The latter is only used by input
elements.) These are used to describe how the user interacts with the control.
To define the behaviour of constraint validation in the face of the input
element's multiple
attribute, input
elements
can also have separately defined values.
A form control can be designated as mutable.
This determines (by means of definitions and requirements in this specification that rely on whether an element is so designated) whether or not the user can modify the value or checkedness of a form control, or whether or not a control can be automatically prefilled.
A form-associated element can have a relationship with a form
element, which is called the element's form owner. If a form-associated
element is not associated with a form
element, its form owner is
said to be null.
A form-associated element is, by default, associated with its nearest ancestor form
element (as described
below), but, if it is reassociateable, may have a
form
attribute specified to override this.
This feature allows authors to work around the lack of support for nested
form
elements.
If a reassociateable form-associated
element has a form
attribute specified, then that
attribute's value must be the ID of a form
element in
the element's owner Document
.
The rules in this section are complicated by the fact that although conforming
documents will never contain nested form
elements, it is quite possible (e.g. using a
script that performs DOM manipulation) to generate documents that have such nested elements. They
are also complicated by rules in the HTML parser that, for historical reasons, can result in a
form-associated element being associated with a form
element that is not
its ancestor.
When a form-associated element is created, its form owner must be initialized to null (no owner).
When a form-associated element is to be associated with a form, its form owner must be set to that form.
When a form-associated element or one of its ancestors is inserted into a Document
, then the user agent must
reset the form owner of that form-associated element. The HTML parser overrides this requirement when inserting form
controls.
When an element is removed from a
Document
resulting in a form-associated element and its
form owner (if any) no longer being in the same home subtree, then the
user agent must reset the form owner of that form-associated
element.
When a reassociateable form-associated
element's form
attribute is set, changed, or removed,
then the user agent must reset the form owner of that element.
When a reassociateable form-associated
element has a form
attribute and the ID of any of the elements in the Document
changes, then the
user agent must reset the form owner of that form-associated
element.
When a reassociateable form-associated
element has a form
attribute and an element with an
ID is inserted
into or removed from the
Document
, then the user agent must reset the form owner of that
form-associated element.
When the user agent is to reset the form owner of a form-associated element, it must run the following steps:
If the element's form owner is not null, and either the element is not reassociateable or its form
content attribute is not present, and the element's form owner is its nearest
form
element ancestor after the change to the ancestor chain, then do nothing, and
abort these steps.
Let the element's form owner be null.
If the element is reassociateable, has a form
content attribute, and is itself in a Document
, then run these substeps:
If the first element in the Document
to
have an ID that is case-sensitively equal to the element's form
content attribute's value is a form
element,
then associate the form-associated
element with that form
element.
Abort the "reset the form owner" steps.
Otherwise, if the form-associated element in question has an ancestor
form
element, then associate the
form-associated element with the nearest such ancestor form
element.
Otherwise, the element is left unassociated.
In the following non-conforming snippet:
... <form id="a"> <div id="b"></div> </form> <script> document.getElementById('b').innerHTML = '<table><tr><td><form id="c"><input id="d"></table>' + '<input id="e">'; </script> ...
The form owner of "d" would be the inner nested form "c", while the form owner of "e" would be the outer form "a".
This happens as follows: First, the "e" node gets associated with "c" in the HTML
parser. Then, the innerHTML
algorithm moves the nodes
from the temporary document to the "b" element. At this point, the nodes see their ancestor chain
change, and thus all the "magic" associations done by the parser are reset to normal ancestor
associations.
This example is a non-conforming document, though, as it is a violation of the content models
to nest form
elements.
form
Returns the element's form owner.
Returns null if there isn't one.
Reassociateable form-associated elements have a form
IDL attribute, which, on getting, must return the element's form owner, or null if
there isn't one.
name
attributeThe name
content attribute gives the name of the
form control, as used in form submission and in the form
element's elements
object. If the attribute is specified, its value must
not be the empty string.
Any non-empty value for name
is allowed, but the names
"_charset_
" and "isindex
" are special:
isindex
This value, if used as the name of a Text control
that is the first control in a form that is submitted using the application/x-www-form-urlencoded
mechanism, causes
the submission to only include the value of this control, with no name.
_charset_
This value, if used as the name of a Hidden
control with no value
attribute, is automatically given a
value during submission consisting of the submission character encoding.
dirname
attributeThe dirname
attribute on a form control element
enables the submission of the directionality of the element, and gives the name of
the field that contains this value during form submission. If such an attribute is
specified, its value must not be the empty string.
In this example, a form contains a text field and a submission button:
<form action="addcomment.cgi" method=post> <p><label>Comment: <input type=text name="comment" dirname="comment.dir" required></label></p> <p><button name="mode" type=submit value="add">Post Comment</button></p> </form>
When the user submits the form, the user agent includes three fields, one called "comment", one called "comment.dir", and one called "mode"; so if the user types "Hello", the submission body might be something like:
comment=Hello&comment.dir=ltr&mode=add
If the user manually switches to a right-to-left writing direction and enters "مرحبا", the submission body might be something like:
comment=%D9%85%D8%B1%D8%AD%D8%A8%D8%A7&comment.dir=rtl&mode=add
maxlength
attributeA form control maxlength
attribute,
controlled by a dirty value flag, declares a limit on the number of characters
a user can input.
If an element has its form control maxlength
attribute specified, the attribute's value must be a valid
non-negative integer. If the attribute is specified and applying the rules for
parsing non-negative integers to its value results in a number, then that number is the
element's maximum allowed value length. If the attribute is omitted or parsing its
value results in an error, then there is no maximum allowed value length.
Constraint validation: If an element has a maximum allowed value length, its dirty value flag is true, its value was last changed by a user edit (as opposed to a change made by a script), and the code-unit length of the element's value is greater than the element's maximum allowed value length, then the element is suffering from being too long.
User agents may prevent the user from causing the element's value to be set to a value whose code-unit length is greater than the element's maximum allowed value length.
minlength
attributeA form control minlength
attribute,
controlled by a dirty value flag, declares a lower bound on the number of
characters a user can input.
The minlength
attribute does not imply the
required
attribute. If the form control has no minlength
attribute, then the value can still be omitted; the
minlength
attribute only kicks in once the user has entered
a value at all. If the empty string is not allowed, then the required
attribute also needs to be set.
If an element has its form control minlength
attribute specified, the attribute's value must be a valid
non-negative integer. If the attribute is specified and applying the rules for
parsing non-negative integers to its value results in a number, then that number is the
element's minimum allowed value length. If the attribute is omitted or parsing its
value results in an error, then there is no minimum allowed value length.
If an element has both a maximum allowed value length and a minimum allowed value length, the minimum allowed value length must be smaller than or equal to the maximum allowed value length.
Constraint validation: If an element has a minimum allowed value length, its value is not the empty string, and the code-unit length of the element's value is less than the element's minimum allowed value length, then the element is suffering from being too short.
In this example, there are four text fields. The first is required, and has to be at least 5 characters long. The other three are optional, but if the user fills one in, the user has to enter at least 10 characters.
<form action="/events/menu.cgi" method="post"> <p><label>Name of Event: <input required minlength=5 maxlength=50 name=event></label></p> <p><label>Describe what you would like for breakfast, if anything: <textarea name="breakfast" minlength="10"></textarea></label></p> <p><label>Describe what you would like for lunch, if anything: <textarea name="lunch" minlength="10"></textarea></label></p> <p><label>Describe what you would like for dinner, if anything: <textarea name="dinner" minlength="10"></textarea></label></p> <p><input type=submit value="Submit Request"></p> </form>
disabled
attributeThe disabled
content attribute is a
boolean attribute.
A form control is disabled if its disabled
attribute is set, or if it is a descendant of a
fieldset
element whose disabled
attribute
is set and is not a descendant of that fieldset
element's first
legend
element child, if any.
A form control that is disabled must prevent any click
events that are queued on the
user interaction task source from being dispatched on the element.
Constraint validation: If an element is disabled, it is barred from constraint validation.
The disabled
IDL attribute must
reflect the disabled
content attribute.
Attributes for form submission can be specified both on form
elements
and on submit buttons (elements that represent buttons
that submit forms, e.g. an input
element whose type
attribute is in the Submit Button state).
The attributes for form submission that may be specified on form
elements are action
, enctype
, method
, novalidate
, and target
.
The corresponding attributes for form submission that may be specified on submit buttons are formaction
, formenctype
, formmethod
, formnovalidate
, and formtarget
. When omitted, they default to the values given on
the corresponding attributes on the form
element.
The action
and formaction
content attributes, if specified, must
have a value that is a valid non-empty URL potentially surrounded by spaces.
The action of an element is the value of the element's
formaction
attribute, if the element is a submit button and has such an attribute, or the value of its
form owner's action
attribute, if it has
one, or else the empty string.
The method
and formmethod
content attributes are enumerated attributes with the following keywords and
states:
get
, mapping to the
state GET, indicating the HTTP GET method.post
, mapping to the
state POST, indicating the HTTP POST method.The invalid value default for these attributes is the GET state. The missing value default for the method
attribute is also the GET state. (There is no missing value default for the
formmethod
attribute.)
The method of an element is one of those states. If the
element is a submit button and has a formmethod
attribute, then the element's method is that attribute's state; otherwise, it is the form
owner's method
attribute's state.
Here the method
attribute is used to explicitly specify
the default value, "get
", so that the search
query is submitted in the URL:
<form method="get" action="/search.cgi"> <p><label>Search terms: <input type=search name=q></label></p> <p><input type=submit></p> </form>
On the other hand, here the method
attribute is used to
specify the value "post
", so that the user's
message is submitted in the HTTP request's body:
<form method="post" action="/post-message.cgi"> <p><label>Message: <input type=text name=m></label></p> <p><input type=submit value="Submit message"></p> </form>
The enctype
and formenctype
content attributes are enumerated attributes with the following keywords and
states:
application/x-www-form-urlencoded
" keyword and corresponding state.multipart/form-data
" keyword and corresponding state.text/plain
" keyword and corresponding state.The invalid value default for these attributes is the application/x-www-form-urlencoded
state. The missing
value default for the enctype
attribute is also the application/x-www-form-urlencoded
state. (There is no
missing value default for the formenctype
attribute.)
The enctype of an element is one of those three states.
If the element is a submit button and has a formenctype
attribute, then the element's enctype is that attribute's state; otherwise, it is the
form owner's enctype
attribute's state.
The target
and formtarget
content attributes, if specified, must
have values that are valid browsing context
names or keywords.
The target of an element is the value of the element's
formtarget
attribute, if the element is a submit button and has such an attribute; or the value of its
form owner's target
attribute, if it has
such an attribute; or, if the Document
contains a base
element with a
target
attribute, then the value of the target
attribute of the first such base
element; or,
if there is no such element, the empty string.
The novalidate
and formnovalidate
content attributes are boolean attributes. If present, they indicate that the form is
not to be validated during submission.
The no-validate state of an element is true if the
element is a submit button and the element's formnovalidate
attribute is present, or if the element's
form owner's novalidate
attribute is present,
and false otherwise.
This attribute is useful to include "save" buttons on forms that have validation constraints, to allow users to save their progress even though they haven't fully entered the data in the form. The following example shows a simple form that has two required fields. There are three buttons: one to submit the form, which requires both fields to be filled in; one to save the form so that the user can come back and fill it in later; and one to cancel the form altogether.
<form action="editor.cgi" method="post"> <p><label>Name: <input required name=fn></label></p> <p><label>Essay: <textarea required name=essay></textarea></label></p> <p><input type=submit name=submit value="Submit essay"></p> <p><input type=submit formnovalidate name=save value="Save essay"></p> <p><input type=submit formnovalidate name=cancel value="Cancel"></p> </form>
The action
IDL attribute must
reflect the content attribute of the same name, except that on getting, when the
content attribute is missing or its value is the empty string, the document's address
must be returned instead. The target
IDL attribute
must reflect the content attribute of the same name. The method
and enctype
IDL attributes must reflect the
respective content attributes of the same name, limited to only known values. The
encoding
IDL attribute must reflect
the enctype
content attribute, limited to only known
values. The noValidate
IDL attribute must
reflect the novalidate
content attribute. The
formAction
IDL attribute must
reflect the formaction
content attribute,
except that on getting, when the content attribute is missing or its value is the empty string,
the document's address must be returned instead. The formEnctype
IDL attribute must reflect
the formenctype
content attribute, limited to only
known values. The formMethod
IDL
attribute must reflect the formmethod
content
attribute, limited to only known values. The formNoValidate
IDL attribute must
reflect the formnovalidate
content
attribute. The formTarget
IDL attribute must
reflect the formtarget
content attribute.
autofocus
attributeThe autofocus
content attribute allows the
author to indicate that a control is to be focused as soon as the page is loaded,
allowing the user to just start typing
without having to manually focus the main control.
The autofocus
attribute is a boolean
attribute.
An element's nearest ancestor autofocus scoping root element is the element's root element.
There must not be two elements with the same nearest ancestor autofocus scoping root
element that both have the autofocus
attribute
specified.
When an element with the autofocus
attribute specified
is inserted into a document, user agents
should run the following steps:
Let target be the element's Document
.
If target has no browsing context, abort these steps.
If target's browsing context has no top-level browsing context (e.g. it is a nested browsing context with no parent browsing context), abort these steps.
If target's active sandboxing flag set has the sandboxed automatic features browsing context flag, abort these steps.
If target's origin is not the same as the origin of the Document
of the currently
focused element in target's top-level browsing context, abort
these steps.
If target's origin is not the same as the origin of the active document of target's top-level browsing context, abort these steps.
If the user agent has already reached the last step of this list of steps in response to
an element being inserted into a
Document
whose top-level browsing context's active
document is the same as target's top-level browsing
context's active document, abort these steps.
If the user has indicated (for example, by starting to type in a form control) that he does not wish focus to be changed, then optionally abort these steps.
Queue a task that checks to see if the element is focusable, and if so, runs the focusing steps for that element. User agents may also change the scrolling position of the document, or perform some other action that brings the element to the user's attention. The task source for this task is the user interaction task source.
This handles the automatic focusing during document load.
Focusing the control does not imply that the user agent must focus the browser window if it has lost focus.
The autofocus
IDL attribute must
reflect the content attribute of the same name.
In the following snippet, the text control would be focused when the document was loaded.
<input maxlength="256" name="q" value="" autofocus> <input type="submit" value="Search">
autocomplete
attributeUser agents sometimes have features for helping users fill forms in, for example prefilling the
user's address based on earlier user input. The autocomplete
content attribute can be used to hint
to the user agent how to, or indeed whether to, provide such a feature.
The attribute, if present, must have a value that is an ASCII case-insensitive
match for the string "off
", or a single token that
is an ASCII case-insensitive match for the string "on
"
The "off
" keyword indicates either
that the control's input data is particularly sensitive (for example the activation code for a
nuclear weapon); or that it is a value that will never be reused (for example a one-time-key for a
bank login) and the user will therefore have to explicitly enter the data each time, instead of
being able to rely on the UA to prefill the value for him; or that the document provides its own
autocomplete mechanism and does not want the user agent to provide autocompletion values.
The "on
" keyword indicates that the
user agent is allowed to provide the user with autocompletion values, but does not provide any
further information about what kind of data the user might be expected to enter. User agents would
have to use heuristics to decide what autocompletion values to suggest.
If the autocomplete
attribute is omitted, the default
value corresponding to the state of the element's form owner's autocomplete
attribute is used instead (either "on
" or "off
"). If there is no form owner, then the
value "on
" is used.
When an element's autofill field name is "off
", the user agent should not remember the control's
value, and should not offer past values to the user.
In addition, when an element's autofill field name is "off
", values are reset
when traversing the history.
Banks frequently do not want UAs to prefill login information:
<p><label>Account: <input type="text" name="ac" autocomplete="off"></label></p> <p><label>PIN: <input type="password" name="pin" autocomplete="off"></label></p>
When an element's autofill field name is not "off
", the user agent may store the control's value, and may offer previously stored values to the user.
When the autofill field name is "on
",
the user agent should attempt to use heuristics to determine the most appropriate values to offer
the user, e.g. based on the element's name
value, the position
of the element in the document's DOM, what other fields exist in the form, and so forth.
The autocompletion mechanism must be implemented by the user agent acting as if the user had modified the element's value, and must be done at a time where the element is mutable (e.g. just after the element has been inserted into the document, or when the user agent stops parsing). User agents must only prefill controls using values that the user could have entered.
A user agent prefilling a form control's value must not cause that control to suffer from a type mismatch, suffer from a pattern mismatch, suffer from being too long, suffer from being too short, suffer from an underflow, suffer from an overflow, or suffer from a step mismatch. Where possible given the control's constraints, user agents must use the format given as canonical in the aforementioned table. Where it's not possible for the canonical format to be used, user agents should use heuristics to attempt to convert values so that they can be used.
A user agent may allow the user to override an element's autofill field name, e.g.
to change it from "off
" to "on
" to allow values to be remembered and prefilled despite
the page author's objections, or to always "off
",
never remembering values. However, user agents should not allow users to trivially override the
autofill field name from "off
" to
"on
" or other values, as there are significant
security implications for the user if all values are always remembered, regardless of the site's
preferences.
The autocomplete
IDL attribute, on getting,
must return the element's IDL-exposed autofill value, and on setting, must
reflect the content attribute of the same name.
The input
and textarea
elements define the following members in their
DOM interfaces for handling their selection:
void select(); attribute unsigned long selectionStart; attribute unsigned long selectionEnd; attribute DOMString selectionDirection; void setRangeText(DOMString replacement); void setRangeText(DOMString replacement, unsigned long start, unsigned long end, optional SelectionMode selectionMode = "preserve"); void setSelectionRange(unsigned long start, unsigned long end, optional DOMString direction = "preserve");
The setRangeText
method uses the following
enumeration:
enum SelectionMode { "select", "start", "end", "preserve" // default };
These methods and attributes expose and control the selection of input
and
textarea
text fields.
select
()Selects everything in the text field.
selectionStart
[ = value ]Returns the offset to the start of the selection.
Can be set, to change the start of the selection.
selectionEnd
[ = value ]Returns the offset to the end of the selection.
Can be set, to change the end of the selection.
selectionDirection
[ = value ]Returns the current direction of the selection.
Can be set, to change the direction of the selection.
The possible values are "forward
", "backward
", and "none
".
setSelectionRange
(start, end [, direction] )Changes the selection to cover the given substring in the given direction. If the direction is omitted, it will be reset to be the platform default (none or forward).
setRangeText
(replacement [, start, end [, selectionMode ] ] )Replaces a range of text with the new text. If the start and end arguments are not provided, the range is assumed to be the selection.
The final argument determines how the selection should be set after the text has been replaced. The possible values are:
select
"start
"end
"preserve
"For input
elements, calling these methods while they don't apply, and getting or setting these attributes while they don't apply, must throw an InvalidStateError
exception. Otherwise, they
must act as described below.
For input
elements, these methods and attributes must operate on the element's
value. For textarea
elements, these methods and
attributes must operate on the element's raw
value.
Where possible, user interface features for changing the text selection in input
and textarea
elements must be implemented in terms of the DOM API described in this
section, so that, e.g., all the same events fire.
The selections of input
and textarea
elements have a
direction, which is either forward, backward, or none. This direction
is set when the user manipulates the selection. The exact meaning of the selection direction
depends on the platform.
On Windows, the direction indicates the position of the caret relative to the selection: a forward selection has the caret at the end of the selection and a backward selection has the caret at the start of the selection. Windows has no none direction. On Mac, the direction indicates which end of the selection is affected when the user adjusts the size of the selection using the arrow keys with the Shift modifier: the forward direction means the end of the selection is modified, and the backwards direction means the start of the selection is modified. The none direction is the default on Mac, it indicates that no particular direction has yet been selected. The user sets the direction implicitly when first adjusting the selection, based on which directional arrow key was used.
The select()
method must cause the
contents of the text field to be fully selected, with the selection direction being none, if the
platform support selections with the direction none, or otherwise forward. The user
agent must then queue a task to fire a simple event that bubbles named
select
at the element, using the user interaction task
source as the task source.
The selectionStart
attribute
must, on getting, return the offset (in logical order) to the character that immediately follows
the start of the selection. If there is no selection, then it must return the offset (in logical
order) to the character that immediately follows the text entry cursor.
On setting, it must act as if the setSelectionRange()
method had been called,
with the new value as the first argument; the current value of the selectionEnd
attribute as the second argument,
unless the current value of the selectionEnd
is less than the new value, in which case the second argument must also be the new value; and the
current value of the selectionDirection
as the third argument.
The selectionEnd
attribute
must, on getting, return the offset (in logical order) to the character that immediately follows
the end of the selection. If there is no selection, then it must return the offset (in logical
order) to the character that immediately follows the text entry cursor.
On setting, it must act as if the setSelectionRange()
method had been called,
with the current value of the selectionStart
attribute as the first argument,
the new value as the second argument, and the current value of the selectionDirection
as the third argument.
The selectionDirection
attribute must, on getting, return the string corresponding to the current selection direction: if
the direction is forward, "forward
"; if the direction is
backward, "backward
"; and otherwise, "none
".
On setting, it must act as if the setSelectionRange()
method had been called,
with the current value of the selectionStart
attribute as the first argument,
the current value of the selectionEnd
attribute as the second argument, and the new value as the third argument.
The setSelectionRange(start, end, direction)
method
must set the selection of the text field to the sequence of characters starting with the character
at the startth position (in logical order) and ending with the character at
the (end-1)th position. Arguments greater than the
length of the value of the text field must be treated as pointing at the end of the text field. If
end is less than or equal to start then the start of the
selection and the end of the selection must both be placed immediately before the character with
offset end. In UAs where there is no concept of an empty selection, this must
set the cursor to be just before the character with offset end. The direction
of the selection must be set to backward if direction is a
case-sensitive match for the string "backward
", forward
if direction is a case-sensitive match for the string "forward
" or if the platform does not support selections with the direction
none, and none otherwise (including if the argument is omitted). The user agent must
then queue a task to fire a simple event that bubbles named select
at the element, using the user interaction task
source as the task source.
The setRangeText(replacement, start, end, selectMode)
method must run the following steps:
If the method has only one argument, then let start and end have the values of the selectionStart
attribute and the selectionEnd
attribute respectively.
Otherwise, let start, end have the values of the second and third arguments respectively.
If start is greater than end, then throw an
IndexSizeError
exception and abort these steps.
If start is greater than the length of the value of the text field, then set it to the length of the value of the text field.
If end is greater than the length of the value of the text field, then set it to the length of the value of the text field.
Let selection start be the current value of the selectionStart
attribute.
Let selection end be the current value of the selectionEnd
attribute.
If start is less than end, delete the sequence of characters starting with the character at the startth position (in logical order) and ending with the character at the (end-1)th position.
Insert the value of the first argument into the text of the value of the text field, immediately before the startth character.
Let new length be the length of the value of the first argument.
Let new end be the sum of start and new length.
Run the appropriate set of substeps from the following list:
select
"Let selection start be start.
Let selection end be new end.
start
"Let selection start and selection end be start.
end
"Let selection start and selection end be new end.
preserve
" (the default)Let old length be end minus start.
Let delta be new length minus old length.
If selection start is greater than end, then increment it by delta. (If delta is negative, i.e. the new text is shorter than the old text, then this will decrease the value of selection start.)
Otherwise: if selection start is greater than start, then set it to start. (This snaps the start of the selection to the start of the new text if it was in the middle of the text that it replaced.)
If selection end is greater than end, then increment it by delta in the same way.
Otherwise: if selection end is greater than start, then set it to new end. (This snaps the end of the selection to the end of the new text if it was in the middle of the text that it replaced.)
Set the selection of the text field to the sequence of characters starting with the character at the selection startth position (in logical order) and ending with the character at the (selection end-1)th position. In UAs where there is no concept of an empty selection, this must set the cursor to be just before the character with offset end. The direction of the selection must be set to forward if the platform does not support selections with the direction none, and none otherwise.
Queue a task to fire a simple event that bubbles named select
at the element, using the user interaction task
source as the task source.
All elements to which this API applies have either a selection or a text entry cursor position at all times (even for elements that are not being rendered). User agents should follow platform conventions to determine their initial state.
Characters with no visible rendering, such as U+200D ZERO WIDTH JOINER, still count as characters. Thus, for instance, the selection can include just an invisible character, and the text insertion cursor can be placed to one side or another of such a character.
To obtain the currently selected text, the following JavaScript suffices:
var selectionText = control.value.substring(control.selectionStart, control.selectionEnd);
To add some text at the start of a text control, while maintaining the text selection, the three attributes must be preserved:
var oldStart = control.selectionStart; var oldEnd = control.selectionEnd; var oldDirection = control.selectionDirection; var prefix = "http://"; control.value = prefix + control.value; control.setSelectionRange(oldStart + prefix.length, oldEnd + prefix.length, oldDirection);
A submittable element is a candidate for constraint
validation except when a condition has barred
the element from constraint validation. (For example, an element is barred from
constraint validation if it is an object
element.)
An element can have a custom validity error message defined. Initially, an element
must have its custom validity error message set to the empty string. When its value
is not the empty string, the element is suffering from a custom error. It can be set
using the setCustomValidity()
method. The user
agent should use the custom validity error message when alerting the user to the
problem with the control.
An element can be constrained in various ways. The following is the list of validity states that a form control can be in, making the control invalid for the purposes of constraint validation. (The definitions below are non-normative; other parts of this specification define more precisely when each state applies or does not.)
When a control has no value but has a required
attribute (input
required
, select
required
, textarea
required
), or, in the case of an element in a radio
button group, any of the other elements in the group has a required
attribute.
When a control that allows arbitrary user input has a value that is not in the correct syntax (E-mail, URL).
When a control has a value that doesn't satisfy the
pattern
attribute.
When a control has a value that is too long for the
form control maxlength
attribute
(input
maxlength
, textarea
maxlength
).
When a control has a value that is too short for the
form control minlength
attribute
(input
minlength
, textarea
minlength
).
When a control has a value that is too low for the
min
attribute.
When a control has a value that is too high for the
max
attribute.
When a control has a value that doesn't fit the
rules given by the step
attribute.
When a control has incomplete input and the user agent does not think the user ought to be able to submit the form in its current state.
When a control's custom validity error message (as set by the element's
setCustomValidity()
method) is not the empty
string.
An element can still suffer from these states even when the element is disabled; thus these states can be represented in the DOM even if validating the form during submission wouldn't indicate a problem to the user.
An element satisfies its constraints if it is not suffering from any of the above validity states.
When the user agent is required to statically validate the constraints of
form
element form, it must run the following steps, which return
either a positive result (all the controls in the form are valid) or a negative
result (there are invalid controls) along with a (possibly empty) list of elements that are
invalid and for which no script has claimed responsibility:
Let controls be a list of all the submittable elements whose form owner is form, in tree order.
Let invalid controls be an initially empty list of elements.
For each element field in controls, in tree order, run the following substeps:
If field is not a candidate for constraint validation, then move on to the next element.
Otherwise, if field satisfies its constraints, then move on to the next element.
Otherwise, add field to invalid controls.
If invalid controls is empty, then return a positive result and abort these steps.
Let unhandled invalid controls be an initially empty list of elements.
For each element field in invalid controls, if any, in tree order, run the following substeps:
Fire a simple event named invalid
that
is cancelable at field.
If the event was not canceled, then add field to unhandled invalid controls.
Return a negative result with the list of elements in the unhandled invalid controls list.
If a user agent is to interactively validate the constraints of form
element form, then the user agent must run the following steps:
Statically validate the constraints of form, and let unhandled invalid controls be the list of elements returned if the result was negative.
If the result was positive, then return that result and abort these steps.
Report the problems with the constraints of at least one of the elements given in unhandled invalid controls to the user. User agents may focus one of those
elements in the process, by running the focusing steps for that element, and may
change the scrolling position of the document, or perform some other action that brings the
element to the user's attention. User agents may report more than one constraint violation. User
agents may coalesce related constraint violation reports if appropriate (e.g. if multiple radio
buttons in a group are marked as required, only one error
need be reported). If one of the controls is not being rendered (e.g. it has the
hidden
attribute set) then user agents may report a script
error.
Return a negative result.
willValidate
Returns true if the element will be validated when the form is submitted; false otherwise.
setCustomValidity
(message)Sets a custom error, so that the element would fail to validate. The given message is the message to be shown to the user when reporting the problem to the user.
If the argument is the empty string, clears the custom error.
validity
. valueMissing
Returns true if the element has no value but is a required field; false otherwise.
validity
. typeMismatch
Returns true if the element's value is not in the correct syntax; false otherwise.
validity
. patternMismatch
Returns true if the element's value doesn't match the provided pattern; false otherwise.
validity
. tooLong
Returns true if the element's value is longer than the provided maximum length; false otherwise.
validity
. tooShort
Returns true if the element's value, if it is not the empty string, is shorter than the provided minimum length; false otherwise.
validity
. rangeUnderflow
Returns true if the element's value is lower than the provided minimum; false otherwise.
validity
. rangeOverflow
Returns true if the element's value is higher than the provided maximum; false otherwise.
validity
. stepMismatch
Returns true if the element's value doesn't fit the rules given by the step
attribute; false otherwise.
validity
. badInput
Returns true if the user has provided input in the user interface that the user agent is unable to convert to a value; false otherwise.
validity
. customError
Returns true if the element has a custom error; false otherwise.
validity
. valid
Returns true if the element's value has no validity problems; false otherwise.
checkValidity
()Returns true if the element's value has no validity problems; false otherwise. Fires an invalid
event at the element in the latter case.
validationMessage
Returns the error message that would be shown to the user if the element was to be checked for validity.
The willValidate
attribute must return
true if an element is a candidate for constraint validation, and false otherwise
(i.e. false if any conditions are barring it from
constraint validation).
The setCustomValidity(message)
, when invoked, must set the custom validity error
message to the value of the given message argument.
In the following example, a script checks the value of a form control each time it is edited,
and whenever it is not a valid value, uses the setCustomValidity()
method to set an appropriate
message.
<label>Feeling: <input name=f type="text" oninput="check(this)"></label> <script> function check(input) { if (input.value == "good" || input.value == "fine" || input.value == "tired") { input.setCustomValidity('"' + input.value + '" is not a feeling.'); } else { // input is fine -- reset the error message input.setCustomValidity(''); } } </script>
The validity
attribute must return a
ValidityState
object that represents the validity states of the element.
This object is live, and the same object must be returned each time the element's
validity
attribute is retrieved.
interface ValidityState { readonly attribute boolean valueMissing; readonly attribute boolean typeMismatch; readonly attribute boolean patternMismatch; readonly attribute boolean tooLong; readonly attribute boolean tooShort; readonly attribute boolean rangeUnderflow; readonly attribute boolean rangeOverflow; readonly attribute boolean stepMismatch; readonly attribute boolean badInput; readonly attribute boolean customError; readonly attribute boolean valid; };
A ValidityState
object has the following attributes. On getting, they must return
true if the corresponding condition given in the following list is true, and false otherwise.
valueMissing
The control is suffering from being missing.
typeMismatch
The control is suffering from a type mismatch.
patternMismatch
The control is suffering from a pattern mismatch.
tooLong
The control is suffering from being too long.
tooShort
The control is suffering from being too short.
rangeUnderflow
The control is suffering from an underflow.
rangeOverflow
The control is suffering from an overflow.
stepMismatch
The control is suffering from a step mismatch.
badInput
The control is suffering from bad input.
customError
The control is suffering from a custom error.
valid
None of the other conditions are true.
When the checkValidity()
method is
invoked, if the element is a candidate for constraint validation and does not satisfy its constraints, the user agent must fire a simple
event named invalid
that is cancelable (but in this case
has no default action) at the element and return false. Otherwise, it must only return true
without doing anything else.
The validationMessage
attribute must
return the empty string if the element is not a candidate for constraint validation
or if it is one but it satisfies its constraints; otherwise,
it must return a suitably localized message that the user agent would show the user if this were
the only form control with a validity constraint problem. If the user agent would not actually
show a textual message in such a situation (e.g. it would show a graphical cue instead), then the
attribute must return a suitably localized message that expresses (one or more of) the validity
constraint(s) that the control does not satisfy. If the element is a candidate for
constraint validation and is suffering from a custom error, then the
custom validity error message should be present in the return value.
Servers should not rely on client-side validation. Client-side validation can be intentionally bypassed by hostile users, and unintentionally bypassed by users of older user agents or automated tools that do not implement these features. The constraint validation features are only intended to improve the user experience, not to provide any kind of security mechanism.
This section is non-normative.
When a form is submitted, the data in the form is converted into the structure specified by the enctype, and then sent to the destination specified by the action using the given method.
For example, take the following form:
<form action="/find.cgi" method=get> <input type=text name=t> <input type=search name=q> <input type=submit> </form>
If the user types in "cats" in the first field and "fur" in the second, and then hits the
submit button, then the user agent will load /find.cgi?t=cats&q=fur
.
On the other hand, consider this form:
<form action="/find.cgi" method=post enctype="multipart/form-data"> <input type=text name=t> <input type=search name=q> <input type=submit> </form>
Given the same user input, the result on submission is quite different: the user agent instead does an HTTP POST to the given URL, with as the entity body something like the following text:
------kYFrd4jNJEgCervE Content-Disposition: form-data; name="t" cats ------kYFrd4jNJEgCervE Content-Disposition: form-data; name="q" fur ------kYFrd4jNJEgCervE--
A form
element's default button is the first submit button in tree order whose form
owner is that form
element.
If the user agent supports letting the user submit a form implicitly (for example, on some platforms hitting the "enter" key while a text field is focused implicitly submits the form), then doing so for a form whose default button has a defined activation behavior must cause the user agent to run synthetic click activation steps on that default button.
Consequently, if the default button is disabled, the form is not submitted when such an implicit submission mechanism is used. (A button has no activation behavior when disabled.)
There are pages on the Web that are only usable if there is a way to implicitly submit forms, so user agents are strongly encouraged to support this.
If the form has
no submit button, then the implicit submission
mechanism must do nothing if the form has more than one field that blocks implicit
submission, and must submit the form
element from the form
element itself otherwise.
For the purpose of the previous paragraph, an element is a field that blocks implicit
submission of a form
element if it is an input
element whose
form owner is that form
element and whose type
attribute is in one of the following states:
Text,
Search,
URL,
Telephone,
E-mail,
Password,
Date,
Time,
Number
When a form
element form is submitted from an element submitter
(typically a button), optionally with a submitted from submit()
method flag set, the user agent must run the
following steps:
Let form document be the form's
Document
.
If form document has no associated browsing context or its active sandboxing flag set has its sandboxed forms browsing context flag set, then abort these steps without doing anything.
Let form browsing context be the browsing context of form document.
If the submitted from submit()
method flag is not set, and the submitter element's no-validate state is false, then interactively
validate the constraints of form and examine the result: if the result
is negative (the constraint validation concluded that there were invalid fields and probably
informed the user of this) then fire a simple event named invalid
at the form element and then abort these
steps.
If the submitted from submit()
method flag is not set, then fire a simple event that bubbles and is
cancelable named submit
, at form. If the
event's default action is prevented (i.e. if the event is canceled) then abort these steps.
Otherwise, continue (effectively the default action is to perform the submission).
Let form data set be the result of constructing the form data set for form in the context of submitter.
Let action be the submitter element's action.
If action is the empty string, let action be the document's address of the form document.
Resolve the URL action, relative to the submitter element. If this fails, abort these steps.
Let action be the resulting absolute URL.
Let action components be the resulting parsed URL.
Let scheme be the scheme of the resulting parsed URL.
Let enctype be the submitter element's enctype.
Let method be the submitter element's method.
Let target be the submitter element's target.
If the user indicated a specific browsing context to use when submitting the form, then let target browsing context be that browsing context. Otherwise, apply the rules for choosing a browsing context given a browsing context name using target as the name and form browsing context as the context in which the algorithm is executed, and let target browsing context be the resulting browsing context.
If target browsing context was created in the previous step, or,
alternatively, if the form document has not yet completely
loaded and the submitted from submit()
method flag is set, then let replace be true. Otherwise, let it be
false.
Otherwise, select the appropriate row in the table below based on the value of scheme as given by the first cell of each row. Then, select the appropriate cell on that row based on the value of method as given in the first cell of each column. Then, jump to the steps named in that cell and defined below the table.
GET | POST | |
---|---|---|
http
| Mutate action URL | Submit as entity body |
https
| Mutate action URL | Submit as entity body |
ftp
| Get action URL | Get action URL |
javascript
| Get action URL | Get action URL |
data
| Get action URL | Post to data: |
mailto
| Mail with headers | Mail as body |
If scheme is not one of those listed in this table, then the behavior is not defined by this specification. User agents should, in the absence of another specification defining this, act in a manner analogous to that defined in this specification for similar schemes.
Each form
element has a planned navigation, which is either null or a
task; when the form
is first created, its
planned navigation must be set to null. In the behaviours described below, when the
user agent is required to plan to navigate to a particular resource destination, it must run the following steps:
If the form
has a non-null planned navigation, remove it from
its task queue.
Let the form
's planned navigation be a new task that consists of running the following steps:
Let the form
's planned navigation be null.
Navigate target browsing context to the particular resource destination. If replace is true, then target browsing context must be navigated with replacement enabled.
For the purposes of this task, target browsing context and replace are the variables that were set up when the overall form submission algorithm was run, with their values as they stood when this planned navigation was queued.
Queue the task that is the form
's new
planned navigation.
The task source for this task is the DOM manipulation task source.
The behaviors are as follows:
Let query be the result of encoding the form data
set using the application/x-www-form-urlencoded
encoding
algorithm, interpreted as a US-ASCII string.
Set parsed action's query component to query.
Let destination be a new URL formed by applying the URL serializer algorithm to parsed action.
Plan to navigate to destination.
Let entity body be the result of encoding the form data set using the appropriate form encoding algorithm.
Let MIME type be determined as follows:
application/x-www-form-urlencoded
application/x-www-form-urlencoded
".multipart/form-data
multipart/form-data;
", a U+0020 SPACE character, the string "boundary=
", and the multipart/form-data
boundary
string generated by the multipart/form-data
encoding
algorithm.text/plain
text/plain
".Otherwise, plan to navigate to action using the HTTP method given by method and with entity body as the entity body, of type MIME type.
Plan to navigate to action.
The form data set is discarded.
Let data be the result of encoding the form data set using the appropriate form encoding algorithm.
If action contains the string "%%%%
" (four U+0025
PERCENT SIGN characters), then percent encode all bytes in data that, if interpreted as US-ASCII, are not characters in the URL
default encode set, and then, treating the result as a US-ASCII string,
UTF-8 percent encode all the U+0025 PERCENT SIGN characters in the resulting
string and replace the first occurrence of "%%%%
" in action with the resulting doubly-escaped string. [URL]
Otherwise, if action contains the string "%%
"
(two U+0025 PERCENT SIGN characters in a row, but not four), then UTF-8 percent
encode all characters in data that, if interpreted as US-ASCII, are
not characters in the URL default encode set, and then, treating the result as a
US-ASCII string, replace the first occurrence of "%%
" in action with the resulting escaped string. [URL]
Plan to navigate to the potentially modified action (which
will be a data:
URL).
Let headers be the resulting encoding the form data
set using the application/x-www-form-urlencoded
encoding
algorithm, interpreted as a US-ASCII string.
Replace occurrences of "+" (U+002B) characters in headers with
the string "%20
".
Let destination consist of all the characters from the first character in action to the character immediately before the first "?" (U+003F) character, if any, or the end of the string if there are none.
Append a single "?" (U+003F) character to destination.
Append headers to destination.
Plan to navigate to destination.
Let body be the resulting of encoding the form data set using the appropriate form encoding algorithm and then percent encoding all the bytes in the resulting byte string that, when interpreted as US-ASCII, are not characters in the URL default encode set. [URL]
Let destination have the same value as action.
If destination does not contain a "?" (U+003F) character, append a single "?" (U+003F) character to destination. Otherwise, append a single U+0026 AMPERSAND character (&).
Append the string "body=
" to destination.
Append body, interpreted as a US-ASCII string, to destination.
Plan to navigate to destination.
The appropriate form encoding algorithm is determined as follows:
application/x-www-form-urlencoded
application/x-www-form-urlencoded
encoding
algorithm.multipart/form-data
multipart/form-data
encoding algorithm.text/plain
text/plain
encoding algorithm.The algorithm to construct the form data set for a form form optionally in the context of a submitter submitter is as follows. If not specified otherwise, submitter is null.
Let controls be a list of all the submittable elements whose form owner is form, in tree order.
Let the form data set be a list of name-value-type tuples, initially empty.
Loop: For each element field in controls, in tree order, run the following substeps:
If any of the following conditions are met, then skip these substeps for this element:
datalist
element ancestor.input
element whose type
attribute is in the Checkbox state and whose checkedness is false.input
element whose type
attribute is in the Radio Button state and whose checkedness is false.input
element whose type
attribute is in the Image Button state, and either the field element does not have a name
attribute
specified, or its name
attribute's value is the empty
string.object
element that is not using
a plugin.Otherwise, process field as follows:
Let type be the value of the type
IDL
attribute of field.
If the field element is an input
element whose type
attribute is in the Image Button state, then run these further nested
substeps:
If the field element has a name
attribute specified and its value is not the empty string, let name be
that value followed by a single "." (U+002E) character. Otherwise, let name be the empty string.
Let namex be the string consisting of the concatenation of name and a single U+0078 LATIN SMALL LETTER X character (x).
Let namey be the string consisting of the concatenation of name and a single U+0079 LATIN SMALL LETTER Y character (y).
The field element is submitter, and before this algorithm was invoked the user indicated a coordinate. Let x be the x-component of the coordinate selected by the user, and let y be the y-component of the coordinate selected by the user.
Append an entry to the form data set with the name namex, the value x, and the type type.
Append an entry to the form data set with the name namey and the value y, and the type type.
Skip the remaining substeps for this element: if there are any more elements in controls, return to the top of the loop step, otherwise, jump to the end step below.
Let name be the value of the field element's
name
attribute.
If the field element is a select
element, then for each
option
element in the select
element's list of options whose selectedness is true and that is not disabled, append an entry to the form data
set with the name as the name, the value of the option
element as the value, and
type as the type.
Otherwise, if the field element is an input
element whose
type
attribute is in the Checkbox state or the Radio Button state, then run these further nested
substeps:
If the field element has a value
attribute specified, then let value
be the value of that attribute; otherwise, let value be the string "on
".
Append an entry to the form data set with name as the name, value as the value, and type as the type.
Otherwise, if the field element is an input
element
whose type
attribute is in the File Upload state, then for each file selected in the input
element,
append an entry to the form data set with the name as
the name, the file (consisting of the name, the type, and the body) as the value, and type as the type. If there are no selected files, then append an entry to the
form data set with the name as the name, the empty
string as the value, and application/octet-stream
as the type.
Otherwise, if the field element is an object
element:
try to obtain a form submission value from the plugin, and if that is successful,
append an entry to the form data set with name as the
name, the returned form submission value as the value, and the string "object
" as the type.
Otherwise, append an entry to the form data set with name as the name, the value of the field element as the value, and type as the type.
If the element has a dirname
attribute, and that
attribute's value is not the empty string, then run these substeps:
Let dirname be the value of the element's dirname
attribute.
Let dir be the string "ltr
" if the
directionality of the element is 'ltr', and "rtl
" otherwise (i.e. when the directionality of the element is
'rtl').
Append an entry to the form data set with dirname as the name, dir as the value, and the string
"direction
" as the type.
An element can only have a dirname
attribute if it is a textarea
element or an input
element whose
type
attribute is in either the Text state or the Search state.
End: For the name of each entry in the form data set, and for the
value of each entry in the form data set whose type is not "file
" or "textarea
", replace every occurrence of a "CR" (U+000D) character not followed by a "LF" (U+000A) character, and every
occurrence of a "LF" (U+000A) character not preceded by a "CR" (U+000D)
character, by a two-character string consisting of a U+000D CARRIAGE RETURN "CRLF" (U+000A) character pair.
In the case of the value of
textarea
elements, this newline normalization is already performed during the
conversion of the control's raw value into the
control's value (which also performs any necessary line
wrapping). In the case of input
elements type
attributes in the File Upload state, the value is not
normalized.
Return the form data set.
If the user agent is to pick an encoding for a form, optionally with an allow non-ASCII-compatible encodings flag set, it must run the following substeps:
Let input be the value of the form
element's accept-charset
attribute.
Let candidate encoding labels be the result of splitting input on spaces.
Let candidate encodings be an empty list of character encodings.
For each token in candidate encoding labels in turn (in the order in which they were found in input), get an encoding for the token and, if this does not result in failure, append the encoding to candidate encodings.
If the allow non-ASCII-compatible encodings flag is not set, remove any encodings that are not ASCII-compatible character encodings from candidate encodings.
If candidate encodings is empty, return UTF-8 and abort these steps.
Each character encoding in candidate encodings can represent a finite number of characters. (For example, UTF-8 can represent all 1.1 million or so Unicode code points, while Windows-1252 can only represent 256.)
For each encoding in candidate encodings, determine how many of the characters in the names and values of the entries in the form data set the encoding can represent (without ignoring duplicates). Let max be the highest such count. (For UTF-8, max would equal the number of characters in the names and values of the entries in the form data set.)
Return the first encoding in candidate encodings that can encode max characters in the names and values of the entries in the form data set.
This form data set encoding is in many ways an aberrant monstrosity, the result of many years of implementation accidents and compromises leading to a set of requirements necessary for interoperability, but in no way representing good design practices. In particular, readers are cautioned to pay close attention to the twisted details involving repeated (and in some cases nested) conversions between character encodings and byte sequences.
The application/x-www-form-urlencoded
encoding algorithm is as
follows:
Let result be the empty string.
If the form
element has an accept-charset
attribute, let the selected character
encoding be the result of picking an encoding for the form.
Otherwise, if the form
element has no accept-charset
attribute, but the document's
character encoding is an ASCII-compatible character encoding, then that is
the selected character encoding.
Otherwise, let the selected character encoding be UTF-8.
Let charset be the name of the selected character encoding.
For each entry in the form data set, perform these substeps:
If the entry's name is "_charset_
" and its
type is "hidden
", replace its value with charset.
If the entry's type is "file
", replace its value with the file's
name only.
For each character in the entry's name and value that cannot be expressed using the selected character encoding, replace the character by a string consisting of a U+0026 AMPERSAND character (&), a "#" (U+0023) character, one or more ASCII digits representing the Unicode code point of the character in base ten, and finally a ";" (U+003B) character.
Encode the entry's name and value using the encoder for the selected character encoding. The entry's name and value are now byte strings.
For each byte in the entry's name and value, apply the appropriate subsubsteps from the following list:
Leave the byte as is.
Let s be a string consisting of a U+0025 PERCENT SIGN character (%) followed by uppercase ASCII hex digits representing the hexadecimal value of the byte in question (zero-padded if necessary).
Encode the string s as US-ASCII, so that it is now a byte string.
Replace the byte in question in the name or value being processed by the bytes in s, preserving their relative order.
Interpret the entry's name and value as Unicode strings encoded in US-ASCII. (All of the bytes in the string will be in the range 0x00 to 0x7F; the high bit will be zero throughout.) The entry's name and value are now Unicode strings again.
If the entry's name is "isindex
", its type is
"text
", and this is the first entry in the form data
set, then append the value to result and skip the rest of the
substeps for this entry, moving on to the next entry, if any, or the next step in the overall
algorithm otherwise.
If this is not the first entry, append a single U+0026 AMPERSAND character (&) to result.
Append the entry's name to result.
Append a single "=" (U+003D) character to result.
Append the entry's value to result.
Encode result as US-ASCII and return the resulting byte stream.
To decode
application/x-www-form-urlencoded
payloads, the following algorithm should be
used. This algorithm uses as inputs the payload itself, payload, consisting of
a Unicode string using only characters in the range U+0000 to U+007F; a default character encoding
encoding; and optionally an isindex flag indicating that
the payload is to be processed as if it had been generated for a form containing an isindex
control. The output of this algorithm is a sorted list
of name-value pairs. If the isindex flag is set and the first control really
was an isindex
control, then the first name-value pair
will have as its name the empty string.
Which default character encoding to use can only be determined on a case-by-case basis, but generally the best character encoding to use as a default is the one that was used to encode the page on which the form used to create the payload was itself found. In the absence of a better default, UTF-8 is suggested.
The isindex flag is for legacy use only. Forms in conforming HTML documents will not generate payloads that need to be decoded with this flag set.
Let strings be the result of strictly splitting the string payload on U+0026 AMPERSAND characters (&).
If the isindex flag is set and the first string in strings does not contain a "=" (U+003D) character, insert a "=" (U+003D) character at the start of the first string in strings.
Let pairs be an empty list of name-value pairs.
For each string string in strings, run these substeps:
If string contains a "=" (U+003D) character, then let name be the substring of string from the start of string up to but excluding its first "=" (U+003D) character, and let value be the substring from the first character, if any, after the first "=" (U+003D) character up to the end of string. If the first "=" (U+003D) character is the first character, then name will be the empty string. If it is the last character, then value will be the empty string.
Otherwise, string contains no "=" (U+003D) characters. Let name have the value of string and let value be the empty string.
Replace any "+" (U+002B) characters in name and value with U+0020 SPACE characters.
Replace any escape in name and value with the character represented by the escape. This replacement must not be recursive.
An escape is a "%" (U+0025) character followed by two ASCII hex digits.
The character represented by an escape is the Unicode character whose code point is equal to the value of the two characters after the "%" (U+0025) character, interpreted as a hexadecimal number (in the range 0..255).
So for instance the string "A%2BC
" would become
"A+C
". Similarly, the string "100%25AA%21
" becomes
the string "100%AA!
".
Convert the name and value strings to their byte representation in ISO-8859-1 (i.e. convert the Unicode string to a byte string, mapping code points to byte values directly).
Add a pair consisting of name and value to pairs.
If any of the name-value pairs in pairs have a name component
consisting of the string "_charset_
" encoded in US-ASCII, and the value
component of the first such pair, when decoded as US-ASCII, is the name of a supported character
encoding, then let encoding be that character encoding (replacing the default
passed to the algorithm).
Convert the name and value components of each name-value pair in pairs to Unicode by interpreting the bytes according to the encoding encoding.
Return pairs.
Parameters on the application/x-www-form-urlencoded
MIME type are
ignored. In particular, this MIME type does not support the charset
parameter.
The multipart/form-data
encoding algorithm is as follows:
Let result be the empty string.
If the algorithm was invoked with an explicit character encoding, let the selected character
encoding be that encoding. (This algorithm is used by other specifications, which provide an
explicit character encoding to avoid the dependency on the form
element described
in the next paragraph.)
Otherwise, if the form
element has an accept-charset
attribute, let the selected character
encoding be the result of picking an encoding for the form.
Otherwise, if the form
element has no accept-charset
attribute, but the document's
character encoding is an ASCII-compatible character encoding, then that is
the selected character encoding.
Otherwise, let the selected character encoding be UTF-8.
Let charset be the name of the selected character encoding.
For each entry in the form data set, perform these substeps:
If the entry's name is "_charset_
" and its
type is "hidden
", replace its value with charset.
For each character in the entry's name and value that cannot be expressed using the selected character encoding, replace the character by a string consisting of a U+0026 AMPERSAND character (&), a "#" (U+0023) character, one or more ASCII digits representing the Unicode code point of the character in base ten, and finally a ";" (U+003B) character.
Encode the (now mutated) form data set using the rules described by RFC
2388, Returning Values from Forms: multipart/form-data
, and
return the resulting byte stream. [RFC2388]
Each entry in the form data set is a field, the name of the entry is the field name and the value of the entry is the field value.
The order of parts must be the same as the order of fields in the form data set. Multiple entries with the same name must be treated as distinct fields.
In particular, this means that multiple files submitted as part of a single
<input type=file multiple>
element will result in each file
having its own field; the "sets of files" feature ("multipart/mixed
") of
RFC 2388 is not used.
The parts of the generated multipart/form-data
resource that correspond
to non-file fields must not have a Content-Type
header specified. Their names and
values must be encoded using the character encoding selected above (field names in particular do
not get converted to a 7-bit safe encoding as suggested in RFC 2388).
File names included in the generated multipart/form-data
resource (as
part of file fields) must use the character encoding selected above, though the precise name may
be approximated if necessary (e.g. newlines could be removed from file names, quotes could be
changed to "%22", and characters not expressible in the selected character encoding could be
replaced by other characters). User agents must not use the RFC 2231 encoding suggested by RFC
2388.
The boundary used by the user agent in generating the return value of this algorithm is the
multipart/form-data
boundary string. (This value is used to
generate the MIME type of the form submission payload generated by this algorithm.)
For details on how to interpret multipart/form-data
payloads, see RFC 2388. [RFC2388]
The text/plain
encoding algorithm is as follows:
Let result be the empty string.
If the form
element has an accept-charset
attribute, let the selected character
encoding be the result of picking an encoding for the form, with the allow
non-ASCII-compatible encodings flag unset.
Otherwise, if the form
element has no accept-charset
attribute, then that is the selected
character encoding.
Let charset be the name of the selected character encoding.
If the entry's name is "_charset_
" and its type
is "hidden
", replace its value with charset.
If the entry's type is "file
", replace its value with the file's
name only.
For each entry in the form data set, perform these substeps:
Append the entry's name to result.
Append a single "=" (U+003D) character to result.
Append the entry's value to result.
Append a "CR" (U+000D) "LF" (U+000A) character pair to result.
Encode result using the encoder for the selected character encoding and return the resulting byte stream.
Payloads using the text/plain
format are intended to be human readable. They are
not reliably interpretable by computer, as the format is ambiguous (for example, there is no way
to distinguish a literal newline in a value from the newline at the end of the value).
When a form
element form is reset, the user agent must fire a simple event named
reset
, that bubbles and is cancelable, at form, and then, if that event is not canceled, must invoke the reset algorithm of each resettable element whose form owner is form.
Each resettable element defines its own reset algorithm. Changes made to form controls as part of
these algorithms do not count as changes caused by the user (and thus, e.g., do not cause input
events to fire).