button
elementdetails
elementinput
element as a text entry widgetinput
element as domain-specific widgetsinput
element as a range controlinput
element as a color wellinput
element as a checkbox and radio button widgetsinput
element as a file upload controlinput
element as a buttonmarquee
elementmeter
elementprogress
elementselect
elementtextarea
elementkeygen
elementtime
elementUser agents are not required to present HTML documents in any particular way. However, this section provides a set of suggestions for rendering HTML documents that, if followed, are likely to lead to a user experience that closely resembles the experience intended by the documents' authors. So as to avoid confusion regarding the normativity of this section, RFC2119 terms have not been used. Instead, the term "expected" is used to indicate behavior that will lead to this experience. For the purposes of conformance for user agents designated as supporting the suggested default rendering, the term "expected" in this section has the same conformance implications as the RFC2119-defined term "must".
In general, user agents are expected to support CSS, and many of the suggestions in this section are expressed in CSS terms. User agents that use other presentation mechanisms can derive their expected behavior by translating from the CSS rules given in this section.
In the absence of style-layer rules to the contrary (e.g. author style sheets), user agents are expected to render an element so that it conveys to the user the meaning that the element represents, as described by this specification.
The suggestions in this section generally assume a visual output medium with a resolution of 96dpi or greater, but HTML is intended to apply to multiple media (it is a media-independent language). User agent implementors are encouraged to adapt the suggestions in this section to their target media.
An element is being rendered if it is in a
Document
, either its parent node is itself
being rendered or it is the Document
node,
and it is not explicitly excluded from the rendering using either:
Just being off-screen does not mean the element is
not being rendered. The presence of the hidden
attribute normally means the
element is not being rendered, though this might be
overridden by the style sheets.
The CSS rules given in these subsections are, except where otherwise specified, expected to be used as part of the user-agent level style sheet defaults for all documents that contain HTML elements.
Some rules are intended for the author-level zero-specificity presentational hints part of the CSS cascade; these are explicitly called out as presentational hints.
Some of the rules regarding left and right margins are given here as appropriate for elements whose 'direction' property is 'ltr', and are expected to be flipped around on elements whose 'direction' property is 'rtl'. These are marked "LTR-specific".
Similarly, for the purpose of the rules marked "case-insensitive", user agents are expected to use ASCII case-insensitive matching of attribute values rather than case-sensitive matching, even for attributes in XHTML documents.
These markings only affect the handling of attribute values, not attribute names or element names.
When the text below says that an attribute attribute on an element element maps to the pixel length property (or properties) properties, it means that if element has an attribute attribute set, and parsing that attribute's value using the rules for parsing non-negative integers doesn't generate an error, then the user agent is expected to use the parsed value as a pixel length for a presentational hint for properties.
When the text below says that an attribute attribute on an element element maps to the dimension property (or properties) properties, it means that if element has an attribute attribute set, and parsing that attribute's value using the rules for parsing dimension values doesn't generate an error, then the user agent is expected to use the parsed dimension as the value for a presentational hint for properties, with the value given as a pixel length if the dimension was an integer, and with the value given as a percentage if the dimension was a percentage.
@namespace url(http://www.w3.org/1999/xhtml); [hidden], area, base, basefont, command, datalist, head, input[type=hidden], link, menu[type=context], meta, noembed, noframes, param, rp, script, source, style, track, title { /* case-insensitive */ display: none; } address, article, aside, blockquote, body, center, dd, dir, div, dl, dt, figure, figcaption, footer, form, h1, h2, h3, h4, h5, h6, header, hgroup, hr, html, legend, listing, menu, nav, ol, p, plaintext, pre, section, summary, ul, xmp { display: block; unicode-bidi: isolate; } table { display: table; unicode-bidi: isolate; } caption { display: table-caption; unicode-bidi: isolate; } colgroup, colgroup[hidden] { display: table-column-group; unicode-bidi: isolate; } col, col[hidden] { display: table-column; unicode-bidi: isolate; } thead, thead[hidden] { display: table-header-group; unicode-bidi: isolate; } tbody, tbody[hidden] { display: table-row-group; unicode-bidi: isolate; } tfoot, tfoot[hidden] { display: table-footer-group; unicode-bidi: isolate; } tr, tr[hidden] { display: table-row; unicode-bidi: isolate; } td, th, td[hidden], th[hidden] { display: table-cell; unicode-bidi: isolate; } colgroup[hidden], col[hidden], thead[hidden], tbody[hidden], tfoot[hidden], tr[hidden], td[hidden], th[hidden] { visibility: collapse; } li { display: list-item; unicode-bidi: isolate; } ruby { display: ruby; } rt { display: ruby-text; }
For the purposes of the CSS table model, the col
element is expected to be treated as if it was present as many times
as its span
attribute specifies.
For the purposes of the CSS table model, the
colgroup
element, if it contains no col
element, is expected to be treated as if it had as many such
children as its span
attribute specifies.
For the purposes of the CSS table model, the colspan
and rowspan
attributes on
td
and th
elements are expected to provide the
special knowledge regarding cells spanning rows and
columns.
For the purposes of the CSS ruby model, runs of children of
ruby
elements that are not rt
or
rp
elements are expected to be wrapped in anonymous
boxes whose 'display' property has the value 'ruby-base'. [CSSRUBY]
User agents that do not support correct ruby rendering are
expected to render parentheses around the text of rt
elements in the absence of rp
elements.
The user agent is expected to hide noscript
elements
for whom scripting is enabled,
irrespective of CSS rules.
In HTML documents, the user agent is expected to
hide form
elements that are children of
table
, thead
, tbody
,
tfoot
, or tr
elements, irrespective of CSS
rules.
@namespace url(http://www.w3.org/1999/xhtml); blockquote, dir, dl, figure, listing, menu, ol, p, plaintext, pre, ul, xmp { margin-top: 1em; margin-bottom: 1em; } dir dir, dir dl, dir menu, dir ol, dir ul, dl dir, dl dl, dl menu, dl ol, dl ul, menu dir, menu dl, menu menu, menu ol, menu ul, ol dir, ol dl, ol menu, ol ol, ol ul, ul dir, ul dl, ul menu, ul ol, ul ul { margin-top: 0; margin-bottom: 0; } h1 { margin-top: 0.67em; margin-bottom: 0.67em; } h2 { margin-top: 0.83em; margin-bottom: 0.83em; } h3 { margin-top: 1.00em; margin-bottom: 1.00em; } h4 { margin-top: 1.33em; margin-bottom: 1.33em; } h5 { margin-top: 1.67em; margin-bottom: 1.67em; } h6 { margin-top: 2.33em; margin-bottom: 2.33em; } dd { margin-left: 40px; } /* LTR-specific: use 'margin-right' for rtl elements */ dir, menu, ol, ul { padding-left: 40px; } /* LTR-specific: use 'padding-right' for rtl elements */ blockquote, figure { margin-left: 40px; margin-right: 40px; } table { border-spacing: 2px; border-collapse: separate; } td, th { padding: 1px; }
The article
, aside
, nav
,
and section
elements are expected to affect the margins
of h1
elements, based on the nesting depth. If x is a selector that matches elements that are either
article
, aside
, nav
, or
section
elements, then the following rules capture what
is expected:
@namespace url(http://www.w3.org/1999/xhtml); x h1 { margin-top: 0.83em; margin-bottom: 0.83em; } x x h1 { margin-top: 1.00em; margin-bottom: 1.00em; } x x x h1 { margin-top: 1.33em; margin-bottom: 1.33em; } x x x x h1 { margin-top: 1.67em; margin-bottom: 1.67em; } x x x x x h1 { margin-top: 2.33em; margin-bottom: 2.33em; }
For each property in the table below, given a body
element, the first attribute that exists maps to the pixel
length property on the body
element. If none of
the attributes for a property are found, or if the value of the
attribute that was found cannot be parsed successfully, then a
default value of 8px is expected to be used for that property
instead.
Property | Source |
---|---|
'margin-top' | body element's marginheight attribute
|
The body element's container frame element's marginheight attribute
| |
body element's topmargin attribute
| |
'margin-right' | body element's marginwidth attribute
|
The body element's container frame element's marginwidth attribute
| |
body element's rightmargin attribute
| |
'margin-bottom' | body element's marginheight attribute
|
The body element's container frame element's marginheight attribute
| |
body element's bottommargin attribute
| |
'margin-left' | body element's marginwidth attribute
|
The body element's container frame element's marginwidth attribute
| |
body element's leftmargin attribute
|
If the body
element's Document
's
browsing context is a nested browsing
context, and the browsing context container of
that nested browsing context is a frame
or
iframe
element, then the container frame
element of the body
element is that
frame
or iframe
element. Otherwise, there
is no container frame element.
The above requirements imply that a page can
change the margins of another page (including one from another
origin) using, for example, an
iframe
. This is potentially a security risk, as it
might in some cases allow an attack to contrive a situation in which
a page is rendered not as the author intended, possibly for the
purposes of phishing or otherwise misleading the user.
If the Document
has a root element, and
the Document
's browsing context is a
nested browsing context, and the browsing context
container of that nested browsing context is a
frame
or iframe
element, and that element
has a scrolling
attribute, then the user agent is expected to compare the value of
the attribute in an ASCII case-insensitive manner to
the values in the first column of the following table, and if one of
them matches, then the user agent is expected to treat that
attribute as a presentational
hint for the aforementioned root element's 'overflow'
property, setting it to the value given in the corresponding cell on
the same row in the second column:
Attribute value | 'overflow' value |
---|---|
on
| 'scroll' |
scroll
| 'scroll' |
yes
| 'scroll' |
off
| 'hidden' |
noscroll
| 'hidden' |
no
| 'hidden' |
auto
| 'auto' |
The table
element's cellspacing
attribute
maps to the pixel length property 'border-spacing' on the
element.
The table
element's cellpadding
attribute maps to the pixel length
properties 'padding-top', 'padding-right', 'padding-bottom',
and 'padding-left' of any td
and th
elements that have corresponding cells in the table corresponding to the
table
element.
The table
element's hspace
attribute maps to the dimension properties
'margin-left' and 'margin-right' on the table
element.
The table
element's vspace
attribute maps to the dimension properties
'margin-top' and 'margin-bottom' on the table
element.
The table
element's height
attribute maps to the
dimension property 'height' on the table
element.
The table
element's width
attribute maps to the
dimension property 'width' on the table
element.
The col
element's width
attribute maps to the
dimension property 'width' on the col
element.
The tr
element's height
attribute maps to the
dimension property 'height' on the tr
element.
The td
and th
elements' height
attributes map to the dimension property 'height'
on the element.
The td
and th
elements' width
attributes map to the dimension property 'width'
on the element.
In quirks mode, the following rules are also expected to apply:
@namespace url(http://www.w3.org/1999/xhtml); form { margin-bottom: 1em; }
When a Document
is in quirks mode,
margins on HTML elements at the top or bottom of
body
, td
, or th
elements are
expected to be collapsed to zero.
@namespace url(http://www.w3.org/1999/xhtml); thead, tbody, tfoot, table > tr { vertical-align: middle; } tr, td, th { vertical-align: inherit; } sub { vertical-align: sub; } sup { vertical-align: super; }
The following rules are also expected to apply, as presentational hints:
@namespace url(http://www.w3.org/1999/xhtml); table[align=left] { float: left; } /* case-insensitive */ table[align=right] { float: right; } /* case-insensitive */ table[align=center], table[align=abscenter], table[align=absmiddle], table[align=middle] { /* case-insensitive */ margin-left: auto; margin-right: auto; } thead[align=absmiddle], tbody[align=absmiddle], tfoot[align=absmiddle], tr[align=absmiddle], td[align=absmiddle], th[align=absmiddle] { /* case-insensitive */ text-align: center; } caption[align=bottom] { caption-side: bottom; } /* case-insensitive */ p[align=left], h1[align=left], h2[align=left], h3[align=left], h4[align=left], h5[align=left], h6[align=left] { /* case-insensitive */ text-align: left; } p[align=right], h1[align=right], h2[align=right], h3[align=right], h4[align=right], h5[align=right], h6[align=right] { /* case-insensitive */ text-align: right; } p[align=center], h1[align=center], h2[align=center], h3[align=center], h4[align=center], h5[align=center], h6[align=center] { /* case-insensitive */ text-align: center; } p[align=justify], h1[align=justify], h2[align=justify], h3[align=justify], h4[align=justify], h5[align=justify], h6[align=justify] { /* case-insensitive */ text-align: justify; } thead[valign=top], tbody[valign=top], tfoot[valign=top], tr[valign=top], td[valign=top], th[valign=top] { /* case-insensitive */ vertical-align: top; } thead[valign=middle], tbody[valign=middle], tfoot[valign=middle], tr[valign=middle], td[valign=middle], th[valign=middle] { /* case-insensitive */ vertical-align: middle; } thead[valign=bottom], tbody[valign=bottom], tfoot[valign=bottom], tr[valign=bottom], td[valign=bottom], th[valign=bottom] { /* case-insensitive */ vertical-align: bottom; } thead[valign=baseline], tbody[valign=baseline], tfoot[valign=baseline], tr[valign=baseline], td[valign=baseline], th[valign=baseline] { /* case-insensitive */ vertical-align: baseline; }
The center
element, the caption
element
unless specified otherwise below, and the div
,
thead
, tbody
, tfoot
,
tr
, td
, and th
elements when
they have an align
attribute
whose value is an ASCII case-insensitive match for
either the string "center
" or the string
"middle
", are expected to center text within
themselves, as if they had their 'text-align' property set to
'center' in a presentational
hint, and to align descendants to the
center.
The div
, caption
, thead
,
tbody
, tfoot
, tr
,
td
, and th
elements, when they have an
align
attribute whose value is an
ASCII case-insensitive match for the string "left
", are expected to left-align text within
themselves, as if they had their 'text-align' property set to 'left'
in a presentational hint,
and to align descendants to the left.
The div
, caption
, thead
,
tbody
, tfoot
, tr
,
td
, and th
elements, when they have an
align
attribute whose value is an
ASCII case-insensitive match for the string "right
", are expected to right-align text within
themselves, as if they had their 'text-align' property set to
'right' in a presentational
hint, and to align descendants to the right.
The div
, caption
, thead
,
tbody
, tfoot
, tr
,
td
, and th
elements, when they have an
align
attribute whose value is an
ASCII case-insensitive match for the string "justify
", are expected to full-justify text within
themselves, as if they had their 'text-align' property set to
'justify' in a presentational
hint, and to align descendants to the left.
When a user agent is to align descendants of a node,
the user agent is expected to align only those descendants that have
both their 'margin-left' and 'margin-right' properties computing to
a value other than 'auto', that are over-constrained and that have
one of those two margins with a used value forced to a greater
value, and that do not themselves have an applicable align
attribute. When multiple elements
are to align a particular
descendant, the most deeply nested such element is expected to
override the others.
User agents are expected to have a rule in their user agent
stylesheet that matches th
elements that have a parent
node whose computed value for the 'text-align' property is its
initial value, whose declaration block consists of just a single
declaration that sets the 'text-align' property to the value
'center'.
@namespace url(http://www.w3.org/1999/xhtml); address, cite, dfn, em, i, var { font-style: italic; } b, strong, th { font-weight: bold; } code, kbd, listing, plaintext, pre, samp, tt, xmp { font-family: monospace; } h1 { font-size: 2.00em; font-weight: bold; } h2 { font-size: 1.50em; font-weight: bold; } h3 { font-size: 1.17em; font-weight: bold; } h4 { font-size: 1.00em; font-weight: bold; } h5 { font-size: 0.83em; font-weight: bold; } h6 { font-size: 0.67em; font-weight: bold; } big { font-size: larger; } small, sub, sup { font-size: smaller; } sub, sup { line-height: normal; } :link { color: blue; } :visited { color: purple; } mark { background: yellow; color: black; } table, td, th { border-color: gray; } thead, tbody, tfoot, tr { border-color: inherit; } table[rules=none], table[rules=groups], table[rules=rows], table[rules=cols], table[rules=all], table[frame=void], table[frame=above], table[frame=below], table[frame=hsides], table[frame=lhs], table[frame=rhs], table[frame=vsides], table[frame=box], table[frame=border], table[rules=none] > tr > td, table[rules=none] > tr > th, table[rules=groups] > tr > td, table[rules=groups] > tr > th, table[rules=rows] > tr > td, table[rules=rows] > tr > th, table[rules=cols] > tr > td, table[rules=cols] > tr > th, table[rules=all] > tr > td, table[rules=all] > tr > th, table[rules=none] > thead > tr > td, table[rules=none] > thead > tr > th, table[rules=groups] > thead > tr > td, table[rules=groups] > thead > tr > th, table[rules=rows] > thead > tr > td, table[rules=rows] > thead > tr > th, table[rules=cols] > thead > tr > td, table[rules=cols] > thead > tr > th, table[rules=all] > thead > tr > td, table[rules=all] > thead > tr > th, table[rules=none] > tbody > tr > td, table[rules=none] > tbody > tr > th, table[rules=groups] > tbody > tr > td, table[rules=groups] > tbody > tr > th, table[rules=rows] > tbody > tr > td, table[rules=rows] > tbody > tr > th, table[rules=cols] > tbody > tr > td, table[rules=cols] > tbody > tr > th, table[rules=all] > tbody > tr > td, table[rules=all] > tbody > tr > th, table[rules=none] > tfoot > tr > td, table[rules=none] > tfoot > tr > th, table[rules=groups] > tfoot > tr > td, table[rules=groups] > tfoot > tr > th, table[rules=rows] > tfoot > tr > td, table[rules=rows] > tfoot > tr > th, table[rules=cols] > tfoot > tr > td, table[rules=cols] > tfoot > tr > th, table[rules=all] > tfoot > tr > td, table[rules=all] > tfoot > tr > th { /* case-insensitive */ border-color: black; }
The initial value for the 'color' property is expected to be black. The initial value for the 'background-color' property is expected to be 'transparent'. The canvas' background is expected to be white.
The article
, aside
, nav
,
and section
elements are expected to affect the font
size of h1
elements, based on the nesting depth. If
x is a selector that matches elements that are
either article
, aside
, nav
,
or section
elements, then the following rules capture
what is expected:
@namespace url(http://www.w3.org/1999/xhtml); x h1 { font-size: 1.50em; } x x h1 { font-size: 1.17em; } x x x h1 { font-size: 1.00em; } x x x x h1 { font-size: 0.83em; } x x x x x h1 { font-size: 0.67em; }
When a body
, table
, thead
,
tbody
, tfoot
, tr
,
td
, or th
element has a background
attribute set to a
non-empty value, the new value is expected to be resolved relative to the element, and
if this is successful, the user agent is expected to treat the
attribute as a presentational
hint setting the element's 'background-image' property to the
resulting absolute URL.
When a body
, table
, thead
,
tbody
, tfoot
, tr
,
td
, or th
element has a bgcolor
attribute set, the new value is expected to
be parsed using the rules for parsing a legacy color
value, and if that does not return an error, the user agent
is expected to treat the attribute as a presentational hint setting the element's
'background-color' property to the resulting color.
When a body
element has a text
attribute, its value is expected
to be parsed using the rules for parsing a legacy color
value, and if that does not return an error, the user
agent is expected to treat the attribute as a presentational hint setting the
element's 'color' property to the resulting color.
When a body
element has a link
attribute, its value is expected
to be parsed using the rules for parsing a legacy color
value, and if that does not return an error, the user agent
is expected to treat the attribute as a presentational hint setting the 'color' property of
any element in the Document
matching the ':link'
pseudo-class to the resulting color.
When a body
element has a vlink
attribute, its value is
expected to be parsed using the rules for parsing a legacy
color value, and if that does not return an error, the user
agent is expected to treat the attribute as a presentational hint setting the
'color' property of any element in the Document
matching the ':visited' pseudo-class to the resulting color.
When a body
element has a alink
attribute, its value is
expected to be parsed using the rules for parsing a legacy
color value, and if that does not return an error, the user
agent is expected to treat the attribute as a presentational hint setting the
'color' property of any element in the Document
matching the ':active' pseudo-class and either the ':link'
pseudo-class or the ':visited' pseudo-class to the resulting
color.
When a table
element has a bordercolor
attribute, its
value is expected to be parsed using the rules for parsing a
legacy color value, and if that does not return an error, the
user agent is expected to treat the attribute as a presentational hint setting the
element's 'border-top-color', 'border-right-color',
'border-bottom-color', and 'border-right-color' properties to the
resulting color.
When a font
element has a color
attribute, its value is
expected to be parsed using the rules for parsing a legacy
color value, and if that does not return an error, the user
agent is expected to treat the attribute as a presentational hint setting the
element's 'color' property to the resulting color.
When a font
element has a face
attribute, the user agent is
expected to treat the attribute as a presentational hint setting the element's
'font-family' property to the attribute's value.
When a font
element has a size
attribute, the user agent is
expected to use the following steps to treat the attribute as a
presentational hint
setting the element's 'font-size' property:
Let input be the attribute's value.
Let position be a pointer into input, initially pointing at the start of the string.
If position is past the end of input, there is no presentational hint. Abort these steps.
If the character at position is a U+002B PLUS SIGN character (+), then let mode be relative-plus, and advance position to the next character. Otherwise, if the character at position is a U+002D HYPHEN-MINUS character (-), then let mode be relative-minus, and advance position to the next character. Otherwise, let mode be absolute.
Collect a sequence of characters in the range U+0030 DIGIT ZERO (0) to U+0039 DIGIT NINE (9), and let the resulting sequence be digits.
If digits is the empty string, there is no presentational hint. Abort these steps.
Interpret digits as a base-ten integer. Let value be the resulting number.
If mode is relative-plus, then increment value by 3. If mode is relative-minus, then let value be the result of subtracting value from 3.
If value is greater than 7, let it be 7.
If value is less than 1, let it be 1.
Set 'font-size' to the keyword corresponding to the value of value according to the following table:
value | 'font-size' keyword | Notes |
---|---|---|
1 | xx-small | |
2 | small | |
3 | medium | |
4 | large | |
5 | x-large | |
6 | xx-large | |
7 | xxx-large | see below |
The 'xxx-large' value is a non-CSS value used here to indicate a font size one "step" larger than 'xx-large'.
@namespace url(http://www.w3.org/1999/xhtml); :link, :visited, ins, u { text-decoration: underline; } abbr[title], acronym[title] { text-decoration: dotted underline; } del, s, strike { text-decoration: line-through; } blink { text-decoration: blink; } :focus { outline: auto; } q:before { content: open-quote; } q:after { content: close-quote; } br { content: '\A'; white-space: pre; } nobr { white-space: nowrap; } listing, plaintext, pre, xmp { white-space: pre; } textarea { white-space: pre-wrap; } ol { list-style-type: decimal; } dir, menu, ul { list-style-type: disc; } dir dl, dir menu, dir ul, menu dl, menu menu, menu ul, ol dl, ol menu, ol ul, ul dl, ul menu, ul ul { list-style-type: circle; } dir dir dl, dir dir menu, dir dir ul, dir menu dl, dir menu menu, dir menu ul, dir ol dl, dir ol menu, dir ol ul, dir ul dl, dir ul menu, dir ul ul, menu dir dl, menu dir menu, menu dir ul, menu menu dl, menu menu menu, menu menu ul, menu ol dl, menu ol menu, menu ol ul, menu ul dl, menu ul menu, menu ul ul, ol dir dl, ol dir menu, ol dir ul, ol menu dl, ol menu menu, ol menu ul, ol ol dl, ol ol menu, ol ol ul, ol ul dl, ol ul menu, ol ul ul, ul dir dl, ul dir menu, ul dir ul, ul menu dl, ul menu menu, ul menu ul, ul ol dl, ul ol menu, ul ol ul, ul ul dl, ul ul menu, ul ul ul { list-style-type: square; } table { border-style: outset; } td, th { border-style: inset; } :ltr { direction: ltr; } :rtl { direction: rtl; } [dir] { unicode-bidi: embed; } bdi, output, [dir=auto] { unicode-bidi: isolate; } /* case-insensitive */ bdo, bdo[dir] { unicode-bidi: bidi-override; } bdo[dir=auto] { unicode-bidi: bidi-override isolate; } /* case-insensitive */ textarea[dir=auto], pre[dir=auto] { unicode-bidi: plaintext; } /* case-insensitive */
Rules setting the 'quotes' property appropriately for the locales and languages understood by the user are expected to be present.
User agents are expected to
support the 'clear' property on inline elements (in order to render
br
elements with clear
attributes) in the manner
described in the non-normative note to this effect in CSS2.1.
The following rules are also expected to apply, as presentational hints:
@namespace url(http://www.w3.org/1999/xhtml); td[nowrap], th[nowrap] { white-space: nowrap; } pre[wrap] { white-space: pre-wrap; } br[clear=left] { clear: left; } /* case-insensitive */ br[clear=right] { clear: right; } /* case-insensitive */ br[clear=all], br[clear=both] { clear: both; } /* case-insensitive */ ol[type=1], li[type=1] { list-style-type: decimal; } ol[type=a], li[type=a] { list-style-type: lower-alpha; } ol[type=A], li[type=A] { list-style-type: upper-alpha; } ol[type=i], li[type=i] { list-style-type: lower-roman; } ol[type=I], li[type=I] { list-style-type: upper-roman; } ul[type=disc], li[type=disc] { list-style-type: disc; } /* case-insensitive */ ul[type=circle], li[type=circle] { list-style-type: circle; } /* case-insensitive */ ul[type=square], li[type=square] { list-style-type: square; } /* case-insensitive */ table[rules=none], table[rules=groups], table[rules=rows], table[rules=cols], table[rules=all] { border-style: none; border-collapse: collapse; } table[frame=void] { border-style: hidden hidden hidden hidden; } table[frame=above] { border-style: solid hidden hidden hidden; } table[frame=below] { border-style: hidden hidden solid hidden; } table[frame=hsides] { border-style: solid hidden solid hidden; } table[frame=lhs] { border-style: hidden hidden hidden solid; } table[frame=rhs] { border-style: hidden solid hidden hidden; } table[frame=vsides] { border-style: hidden solid hidden solid; } table[frame=box], table[frame=border] { border-style: solid solid solid solid; } table[rules=none] > tr > td, table[rules=none] > tr > th, table[rules=none] > thead > tr > td, table[rules=none] > thead > tr > th, table[rules=none] > tbody > tr > td, table[rules=none] > tbody > tr > th, table[rules=none] > tfoot > tr > td, table[rules=none] > tfoot > tr > th, table[rules=groups] > tr > td, table[rules=groups] > tr > th, table[rules=groups] > thead > tr > td, table[rules=groups] > thead > tr > th, table[rules=groups] > tbody > tr > td, table[rules=groups] > tbody > tr > th, table[rules=groups] > tfoot > tr > td, table[rules=groups] > tfoot > tr > th, table[rules=rows] > tr > td, table[rules=rows] > tr > th, table[rules=rows] > thead > tr > td, table[rules=rows] > thead > tr > th, table[rules=rows] > tbody > tr > td, table[rules=rows] > tbody > tr > th, table[rules=rows] > tfoot > tr > td, table[rules=rows] > tfoot > tr > th { border-style: none; } table[rules=groups] > colgroup, table[rules=groups] > thead, table[rules=groups] > tbody, table[rules=groups] > tfoot { border-style: solid; } table[rules=rows] > tr, table[rules=rows] > thead > tr, table[rules=rows] > tbody > tr, table[rules=rows] > tfoot > tr { border-style: solid; } table[rules=cols] > tr > td, table[rules=cols] > tr > th, table[rules=cols] > thead > tr > td, table[rules=cols] > thead > tr > th, table[rules=cols] > tbody > tr > td, table[rules=cols] > tbody > tr > th, table[rules=cols] > tfoot > tr > td, table[rules=cols] > tfoot > tr > th { border-style: none solid none solid; } table[rules=all] > tr > td, table[rules=all] > tr > th, table[rules=all] > thead > tr > td, table[rules=all] > thead > tr > th, table[rules=all] > tbody > tr > td, table[rules=all] > tbody > tr > th, table[rules=all] > tfoot > tr > td, table[rules=all] > tfoot > tr > th { border-style: solid; } table[border] > tr > td, table[border] > tr > th, table[border] > thead > tr > td, table[border] > thead > tr > th, table[border] > tbody > tr > td, table[border] > tbody > tr > th, table[border] > tfoot > tr > td, table[border] > tfoot > tr > th { border-width: 1px; }
When rendering li
elements, user agents are expected
to use the ordinal value of the li
element
to render the counter in the list item marker.
The table
element's border
attribute maps to the pixel length
properties 'border-top-width', 'border-right-width',
'border-bottom-width', 'border-left-width' on the element. If the
attribute is present but parsing the attribute's value using the
rules for parsing non-negative integers generates an
error, a default value of 1px is expected to be used for that
property instead.
The wbr
element is expected to override the
'white-space' property and always provide a line-breaking
opportunity.
The following rules are also expected to be in play, resetting certain properties to block inheritance by default.
@namespace url(http://www.w3.org/1999/xhtml); table, input, select, option, optgroup, button, textarea, keygen { text-indent: initial; }
In quirks mode, the following rules are also expected to apply:
@namespace url(http://www.w3.org/1999/xhtml); table { font-weight: initial; font-style: initial; font-variant: initial; font-size: initial; line-height: initial; white-space: initial; text-align: initial; } input { box-sizing: border-box; }
hr
element@namespace url(http://www.w3.org/1999/xhtml); hr { color: gray; border-style: inset; border-width: 1px; margin: 0.5em auto; }
The following rules are also expected to apply, as presentational hints:
@namespace url(http://www.w3.org/1999/xhtml); hr[align=left] { margin-left: 0; margin-right: auto; } /* case-insensitive */ hr[align=right] { margin-left: auto; margin-right: 0; } /* case-insensitive */ hr[align=center] { margin-left: auto; margin-right: auto; } /* case-insensitive */ hr[color], hr[noshade] { border-style: solid; }
If an hr
element has either a color
attribute or a noshade
attribute, and furthermore
also has a size
attribute, and
parsing that attribute's value using the rules for parsing
non-negative integers doesn't generate an error, then the
user agent is expected to use the parsed value divided by two as a
pixel length for presentational hints for the properties
'border-top-width', 'border-right-width', 'border-bottom-width', and
'border-left-width' on the element.
Otherwise, if an hr
element has neither a color
attribute nor a noshade
attribute, but does have a
size
attribute, and parsing that
attribute's value using the rules for parsing non-negative
integers doesn't generate an error, then: if the parsed value
is one, then the user agent is expected to use the attribute as a
presentational hint
setting the element's 'border-bottom-width' to 0; otherwise, if the
parsed value is greater than one, then the user agent is expected to
use the parsed value minus two as a pixel length for
presentational hints for the 'height' property on the
element.
The width
attribute on an
hr
element maps to the dimension property
'width' on the element.
When an hr
element has a color
attribute, its value is expected
to be parsed using the rules for parsing a legacy color
value, and if that does not return an error, the user agent
is expected to treat the attribute as a presentational hint setting the element's 'color'
property to the resulting color.
fieldset
element@namespace url(http://www.w3.org/1999/xhtml); fieldset { margin-left: 2px; margin-right: 2px; border: groove 2px ThreeDFace; padding: 0.35em 0.625em 0.75em; }
The fieldset
element is expected to establish a new
block formatting context.
If the fieldset
element has a child that matches the
conditions in the list below, then the first such child is the
fieldset
element's rendered legend:
legend
element.A fieldset
element's rendered legend,
if any, is expected to be rendered over the top border edge of the
fieldset
element as a 'block' box (overriding any
explicit 'display' value). In the absence of an explicit width, the
box should shrink-wrap. If the legend
element in
question has an align
attribute, and its value is an ASCII case-insensitive
match for one of the strings in the first column of the following
table, then the legend
is expected to be rendered
horizontally aligned over the border edge in the position given in
the corresponding cell on the same row in the second column. If the
attribute is absent or has a value that doesn't match any of the
cases in the table, then the position is expected to be on the right
if the 'direction' property on this element has a computed value of
'rtl', and on the left otherwise.
Attribute value | Alignment position |
---|---|
left
| On the left |
right
| On the right |
center
| In the middle |
The embed
, iframe
, and
video
elements are expected to be treated as replaced
elements.
A canvas
element that represents
embedded content is expected to be treated as a
replaced element. Other canvas
elements are expected to
be treated as ordinary elements in the rendering model.
An object
element that represents an
image, plugin, or nested browsing context is expected
to be treated as a replaced element. Other object
elements are expected to be treated as ordinary elements in the
rendering model.
An applet
element that represents a
plugin is expected to be treated as a replaced
element. Other applet
elements are expected to be
treated as ordinary elements in the rendering model.
The audio
element, when it is exposing a user interface, is
expected to be treated as a replaced element about one line high, as
wide as is necessary to expose the user agent's user interface
features. When an audio
element is not exposing a user
interface, the user agent is expected to hide it,
irrespective of CSS rules.
Whether a video
element is exposing a user interface is not
expected to affect the size of the rendering; controls are expected
to be overlaid with the page content without causing any layout
changes, and are expected to disappear when the user does not need
them.
When a video
element represents a poster frame or
frame of video, the poster frame or frame of video is expected to be
rendered at the largest size that maintains the aspect ratio of that
poster frame or frame of video without being taller or wider than
the video
element itself, and is expected to be
centered in the video
element.
Any subtitles or captions are expected to be overlayed directly
on top of their video
element, as defined by the
relevant rendering rules; for WebVTT, those are the
WebVTT cue text rendering rules defined below.
When the user agent starts exposing a user interface for a
video
element, the user agent should run the rules
for updating the text track rendering of each of the text tracks in the video
element's list of text tracks that are showing or showing by default (e.g., for text tracks based on
WebVTT, the rules for updating the display of
WebVTT text tracks).
Resizing video
and canvas
elements does not interrupt video playback or clear the canvas.
The following CSS rules are expected to apply:
@namespace url(http://www.w3.org/1999/xhtml);
iframe:not([seamless]) { border: 2px inset; }
video { object-fit: contain; }
This section is intended to be moved to its own CSS module once an editor is found to run with it.
The rules for updating the display of WebVTT text
tracks render the text
tracks of a media element (specifically, a
video
element), or of another playback mechanism, by
applying the steps below. All the text
tracks that use these rules for a given media
element, or other playback mechanism, are rendered together,
to avoid overlapping subtitles from multiple tracks.
The output of the steps below is a set of CSS boxes that covers the rendering area of the media element or other playback mechanism, which user agents are expected to render in a manner suiting the user.
The rules are as follows:
If the media element is an audio
element, or is another playback mechanism with no rendering area,
abort these steps. There is nothing to render.
Let video be the media element or other playback mechanism.
Let output be an empty list of absolutely positioned CSS block boxes.
If the user agent is exposing a user interface for video, add to output one or more completely transparent positioned CSS block boxes that cover the same region as the user interface.
If the last time these rules were run, the user agent was not exposing a user interface for video, but now it is, let reset be true. Otherwise, let reset be false.
Let tracks be the subset of video's list of text tracks that have as their rules for updating the text track rendering these rules for updating the display of WebVTT text tracks, and whose text track mode is showing or showing by default.
Let cues be an empty list of text track cues.
For each track track in tracks, append to cues all the cues from track's list of cues that have their text track cue active flag set.
If reset is false, then, for each text track cue cue in cues: if cue's text track cue display state has a set of CSS boxes, then add those boxes to output, and remove cue from cues.
For each text track cue cue in cues that has not yet had corresponding CSS boxes added to output, in text track cue order, run the following substeps:
Let nodes be the list of WebVTT Node Objects obtained by applying the WebVTT cue text parsing rules to the cue's text track cue text.
Apply the Unicode Bidirectional Algorithm's Paragraph Level steps to nodes using the following constraints, to determine the paragraph embedding level of the cue: [BIDI]
If the paragraph embedding level determined in the previous step is even (the paragraph direction is left-to-right), let direction be 'ltr', otherwise, let it be 'rtl'.
If the text track cue writing direction is horizontal, then let block-flow be 'tb'. Otherwise, if the text track cue writing direction is vertical growing left, then let block-flow be 'lr'. Otherwise, the text track cue writing direction is vertical growing right; let block-flow be 'rl'.
Determine the value of maximum size for cue as per the appropriate rules from the following list:
Let maximum size be the text track cue text position subtracted from 100.
Let maximum size be the text track cue text position.
Let maximum size be the text track cue text position multiplied by two.
Let maximum size be the result of subtracting text track cue text position from 100 and then multiplying the result by two.
If the text track cue size is less than maximum size, then let size be text track cue size. Otherwise, let size be maximum size.
If the text track cue writing direction is horizontal, then let width be 'size vw' and height be 'auto'. Otherwise, let width be 'auto' and height be 'size vh'. (These are CSS values used by the next section to set CSS properties for the rendering; 'vw' and 'vh' are CSS units.) [CSSVALUES]
Determine the value of x-position or y-position for cue as per the appropriate rules from the following list:
Let x-position be the text track cue text position.
Let x-position be the text track cue text position subtracted from 100.
Let y-position be the text track cue text position.
Let y-position be the text track cue text position subtracted from 100.
Let x-position be the text track cue text position minus half of size.
Let x-position-reverse be the text track cue text position minus half of size.
Let x-position be x-position-reverse subtracted from 100.
Let y-position be the text track cue text position minus half of size.
Determine the value of whichever of x-position or y-position is not yet calculated for cue as per the appropriate rules from the following list:
Let y-position be zero.
Let y-position be the text track cue line position.
Let x-position be zero.
Let x-position be the text track cue line position.
Let left be 'x-position vw' and top be 'y-position vh'. (These again are CSS values used by the next section to set CSS properties for the rendering; 'vw' and 'vh' are CSS units.) [CSSVALUES]
Apply the terms of the CSS specifications to nodes within the following constraints, thus obtaining a set of CSS boxes positioned relative to an initial containing block: [CSS]
The document tree is the tree of WebVTT Node Objects rooted at nodes.
For the purposes of processing by the CSS specification, WebVTT Internal Node Objects are equivalent to elements with the same contents.
Let boxes be the boxes generated as descendants of the initial containing block, along with their positions.
If there are no line boxes in boxes, skip the remainder of these substeps for cue. The cue is ignored.
Adjust the positions of boxes according to the appropriate steps from the following list:
Many of the steps in this algorithm vary according to the text track cue writing direction. Steps labeled "Horizontal" must be followed only when the text track cue writing direction is horizontal, steps labeled "Vertical" must be followed when the text track cue writing direction is either vertical growing left or vertical growing right, steps labeled "Vertical Growing Left" must be followed only when the text track cue writing direction is vertical growing left, and steps labeled "Vertical Growing Right" must be followed only when the text track cue writing direction is vertical growing right.
Horizontal: Let step be the height of the first line box in boxes.
Vertical: Let step be the width of the first line box in boxes.
If step is zero, then jump to the step labeled done positioning below.
Let line position be the text track cue line position.
Vertical Growing Left: Add one to line position then negate it.
Let position be the result of multiplying step and line position.
Vertical Growing Left: Decrease position by the width of the bounding box of the boxes in boxes, then increase position by step.
Horizontal: If line position is less than zero then increase position by the height of the video's rendering area, and negate step (so its value is now minus the height of the first line box in boxes).
Vertical: If line position is less than zero then increase position by the width of the video's rendering area, and negate step.
Horizontal: Move all the boxes in boxes down by the distance given by position.
Vertical: Move all the boxes in boxes right by the distance given by position.
Default: Remember the position of all the boxes in boxes as their default position.
Let switched be false.
Step loop: If none of the boxes in boxes would overlap any of the boxes in output, and all the boxes in output are within the video's rendering area, then jump to the step labeled done positioning below.
Horizontal: If step is negative and the top of the first line box in boxes is now above the top of the video's rendering area, or if step is positive and the bottom of the first line box in boxes is now below the bottom of the video's rendering area, jump to the step labeled switch direction.
Vertical: If step is negative and the left edge of the first line box in boxes is now to the left of the left edge of the video's rendering area, or if step is positive and the right edge of the first line box in boxes is now to the right of the right edge of the video's rendering area, jump to the step labeled switch direction.
Horizontal: Move all the boxes in boxes down by the distance given by step. (If step is negative, then this will actually result in an upwards movement of the boxes in absolute terms.)
Vertical: Move all the boxes in boxes right by the distance given by step. (If step is negative, then this will actually result in a leftwards movement of the boxes in absolute terms.)
Jump back to the step labeled step loop.
Switch direction: Move all the boxes in boxes back to their default position as determined in the step above labeled default.
If switched is true, jump to the step labeled done positioning below.
Negate step.
Set switched to true.
Jump back to the step labeled step loop.
Set up x and y as follows:
Let x be a percentage given by the text track cue text position, and let y be a percentage given by the text track cue line position.
Let x be a percentage given by the text track cue text position subtracted from 100, and let y be a percentage given by the text track cue line position.
Let x be a percentage given by the text track cue line position subtracted from 100, and let y be a percentage given by the text track cue text position.
Let x be a percentage given by the text track cue line position, and let y be a percentage given by the text track cue text position.
Position the boxes in boxes such that the point x% along the width of the bounding box of the boxes in boxes is x% of the way across the width of the video's rendering area, and the point y% along the height of the bounding box of the boxes in boxes is y% of the way across the height of the video's rendering area, while maintaining the relative positions of the boxes in boxes to each other.
If none of the boxes in boxes would overlap any of the boxes in output, and all the boxes in output are within the video's rendering area, then jump to the step labeled done positioning below.
If there is a position to which the boxes in boxes can be moved while maintaining the relative positions of the boxes in boxes to each other such that none of the boxes in boxes would overlap any of the boxes in output, and all the boxes in output would be within the video's rendering area, then move the boxes in boxes to the closest such position to their current position, and then jump to the step labeled done positioning below. If there are multiple such positions that are equidistant from their current position, use the highest one amongst them; if there are several at that height, then use the leftmost one amongst them.
Otherwise, jump to the step labeled done positioning below. (The boxes will unfortunately overlap.)
Done positioning: If there are any line boxes in the (possibly now repositioned) boxes that do not completely fit inside video's rendering area, remove those offending line boxes from boxes.
Let cue's text track cue display state have the CSS boxes in boxes.
Add the CSS boxes in boxes to output.
Return output.
When following the rules for updating the display of WebVTT text tracks, user agents must set properties of WebVTT Node Objects as defined in this section. [CSS]
On the (root) List of WebVTT Node Objects, the 'position' property must be set to 'absolute', the 'direction' property must be set to direction, the 'block-flow' property must be set to block-flow, the 'top' property must be set to top, the 'left' property must be set to left, the 'width' property must be set to width, and the 'height' property must be set to height, where direction, block-flow, top, left, width, and height are the values with those names determined by the rules for updating the display of WebVTT text tracks for the text track cue from whose text the List of WebVTT Node Objects was constructed.
The 'font' shorthand property on the (root) List of WebVTT Node Objects must be set to '0.1vh sans-serif'. [CSSRUBY] [CSSVALUES]
The 'color' property on the (root) List of WebVTT Node Objects must be set to 'rgba(255,255,255,0)'. [CSSCOLOR]
The 'background' shorthand property on the WebVTT cue background box must be set to 'rgba(0,0,0,0.8)'. [CSSCOLOR]
A text outline or stroke may also be set on the (root) List of WebVTT Node Objects, if supported.
The 'font-style' property on WebVTT Italic Objects must be set to 'italic'.
The 'font-weight' property on WebVTT Bold Objects must be set to 'bold'.
The 'text-decoration' property on WebVTT Underline Objects must be set to 'underline'.
The 'display' property on WebVTT Ruby Objects must be set to 'ruby'. [CSSRUBY]
The 'display' property on WebVTT Ruby Text Objects must be set to 'ruby-text'. [CSSRUBY]
If there are style sheets that apply to the media element or other playback mechanism, then they must be interpreted as defined in the next section.
All other non-inherited properties must be set to their initial values; inherited properties on the root List of WebVTT Node Objects must inherit their values from the media element for which the text track cue is being rendered, if any. If there is no media element (i.e. if the text track is being rendered for another media playback mechanism), then inherited properties on the root List of WebVTT Node Objects must take their initial values.
When a user agent is rendering one or more text track cues according to the WebVTT cue text rendering rules, WebVTT Node Objects in the list of WebVTT Node Objects used in the rendering can be matched by certain pseudo-selectors as defined below. These selectors can begin or stop matching individual WebVTT Node Objects while a cue is being rendered, even in between applications of the WebVTT cue text rendering rules (which are only run when the set of active cues changes). User agents that support the pseudo-element described below must dynamically update renderings accordingly.
Pseudo-elements apply to elements that are matched by selectors. For the purpose of this section, that element is the matched element. The pseudo-elements defined in the following sections affect the styling of parts of text track cues that are being rendered for the matched element.
If the matched element is not a
video
element, the pseudo-elements defined below won't
have any effect according to this specification.
A CSS user agent that implements the text tracks model must implement the '::cue' and '::cue(selector)' pseudo-elements, and the ':past' and ':future' pseudo-classes.
The '::cue' pseudo-element (with no argument) matches any List of WebVTT Node Objects constructed for the matched element, with the exception that the properties corresponding to the 'background' shorthand must be applied to the WebVTT cue background box rather than the List of WebVTT Node Objects.
The following properties apply to the '::cue' pseudo-element with no argument; other properties set on the pseudo-element must be ignored:
The '::cue(selector)' pseudo-element with an argument must have an argument that consists of a group of selectors. It matches any WebVTT Internal Node Object constructed for the matched element that also matches the given group of selectors, with the nodes being treated as follows:
The document tree against which the selectors are matched is the tree of WebVTT Node Objects rooted at the list of WebVTT Node Objects for the cue.
WebVTT Internal Node Objects are elements in the tree.
For the purposes of element type selectors, the names of WebVTT Internal Node Objects are as given by the following table, where objects having the concrete class given in a cell in the first column have the name given by the second column of the same row:
Concrete class | Name |
---|---|
WebVTT Class Objects | c
|
WebVTT Italic Objects | i
|
WebVTT Bold Objects | b
|
WebVTT Underline Objects | u
|
WebVTT Ruby Objects | ruby
|
WebVTT Ruby Text Objects | rt
|
WebVTT Voice Objects | v
|
Other elements (specifically, Lists of WebVTT Node Objects) | No explicit name. |
For the purposes of element type and universal selectors, WebVTT Internal Node Objects are considered as being in the namespace expressed as the empty string.
For the purposes of attribute selector matching, WebVTT Internal Node
Objects have no attributes, except for WebVTT Voice Objects, which
have a single attribute named "voice
"
whose value is the value of the WebVTT Voice
Object.
For the purposes of class selector matching, WebVTT Internal Node Objects have the classes described as the WebVTT Node Object's applicable classes.
The following properties apply to the '::cue()' pseudo-element with an argument:
The following properties apply to the '::cue()' pseudo-element with an argument when the selector does not contain the ':past' and ':future' pseudo-classes:
Properties that do not apply must be ignored.
As a special exception, the properties corresponding to the 'background' shorthand, when they would have been applied to the List of WebVTT Node Objects, must instead be applied to the WebVTT cue background box.
The ':past' and ':future' pseudo-classes only match WebVTT Node Objects.
The ':past' pseudo-class only matches WebVTT Node Objects that are in the past.
A WebVTT Node Object c is in the past if, in a pre-order, depth-first traversal of the text track cue's List of WebVTT Node Objects, there exists a WebVTT Timestamp Object whose value is less than the current playback position of the media element that is the matched element, entirely after the WebVTT Node Object c.
The ':future' pseudo-class only matches WebVTT Node Objects that are in the future.
A WebVTT Node Object c is in the future if, in a pre-order, depth-first traversal of the text track cue's List of WebVTT Node Objects, there exists a WebVTT Timestamp Object whose value is greater than the current playback position of the media element that is the matched element, entirely before the WebVTT Node Object c.
When an img
element or an input
element
when its type
attribute is in
the Image Button state
represents an image, it is expected to be treated as a
replaced element.
When an img
element or an input
element
when its type
attribute is in
the Image Button state
does not represent an image, but the
element already has intrinsic dimensions (e.g. from the
dimension attributes or CSS rules), and either the user
agent has reason to believe that the image will become available
and be rendered in due course or the Document
is in
quirks mode, the element is expected to be treated as a
replaced element whose content is the text that the element
represents, if any, optionally alongside an icon indicating that the
image is being obtained. For input
elements, the text
is expected to appear button-like to indicate that the element is a
button.
When an img
element represents some
text and the user agent does not expect this to change, the element
is expected to be treated as an inline element whose content is the
text, optionally with an icon indicating that an image is
missing.
When an img
element represents nothing
and the user agent does not expect this to change, the element is
expected to not be rendered at all.
When an img
element might be a key part of the
content, but neither the image nor any kind of alternative text is
available, and the user agent does not expect this to change, the
element is expected to be treated as an inline element whose content
is an icon indicating that an image is missing.
When an input
element whose type
attribute is in the Image Button state does not
represent an image and the user
agent does not expect this to change, the element is expected to be
treated as a replaced element consisting of a button whose content
is the element's alternative text. The intrinsic dimensions of the
button are expected to be about one line in height and whatever
width is necessary to render the text on one line.
The icons mentioned above are expected to be relatively small so as not to disrupt most text but be easily clickable. In a visual environment, for instance, icons could be 16 pixels by 16 pixels square, or 1em by 1em if the images are scalable. In an audio environment, the icon could be a short bleep. The icons are intended to indicate to the user that they can be used to get to whatever options the UA provides for images, and, where appropriate, are expected to provide access to the context menu that would have come up if the user interacted with the actual image.
All animated images with the same absolute URL and the same image data are expected to be rendered synchronized to the same timeline as a group, with the timeline starting at the time of the most recent addition to the group.
In other words, the animation loop of an animated image is restarted each time another image with the same absolute URL and image data begins to animate, e.g. after being inserted into the document.
The following CSS rules are expected to apply when the
Document
is in quirks mode:
@namespace url(http://www.w3.org/1999/xhtml); img[align=left] { margin-right: 3px; } /* case-insensitive */ img[align=right] { margin-left: 3px; } /* case-insensitive */
The following CSS rules are expected to apply as presentational hints:
@namespace url(http://www.w3.org/1999/xhtml); iframe[frameborder=0], iframe[frameborder=no] { border: none; } /* case-insensitive */ applet[align=left], embed[align=left], iframe[align=left], img[align=left], input[type=image][align=left], object[align=left] { /* case-insensitive */ float: left; } applet[align=right], embed[align=right], iframe[align=right], img[align=right], input[type=image][align=right], object[align=right] { /* case-insensitive */ float: right; } applet[align=top], embed[align=top], iframe[align=top], img[align=top], input[type=image][align=top], object[align=top] { /* case-insensitive */ vertical-align: top; } applet[align=baseline], embed[align=baseline], iframe[align=baseline], img[align=baseline], input[type=image][align=baseline], object[align=baseline] { /* case-insensitive */ vertical-align: baseline; } applet[align=texttop], embed[align=texttop], iframe[align=texttop], img[align=texttop], input[type=image][align=texttop], object[align=texttop] { /* case-insensitive */ vertical-align: text-top; } applet[align=absmiddle], embed[align=absmiddle], iframe[align=absmiddle], img[align=absmiddle], input[type=image][align=absmiddle], object[align=absmiddle], applet[align=abscenter], embed[align=abscenter], iframe[align=abscenter], img[align=abscenter], input[type=image][align=abscenter], object[align=abscenter] { /* case-insensitive */ vertical-align: middle; } applet[align=bottom], embed[align=bottom], iframe[align=bottom], img[align=bottom], input[type=image][align=bottom], object[align=bottom] { /* case-insensitive */ vertical-align: bottom; }
When an applet
, embed
,
iframe
, img
, or object
element, or an input
element whose type
attribute is in the Image Button state, has an
align
attribute whose value is
an ASCII case-insensitive match for the string "center
" or the string "middle
", the user agent is expected to act as if the
element's 'vertical-align' property was set to a value that aligns
the vertical middle of the element with the parent element's
baseline.
The hspace
attribute of
applet
, embed
, iframe
,
img
, or object
elements, and
input
elements with a type
attribute in the Image Button state, maps to the dimension
properties 'margin-left' and 'margin-right' on the
element.
The vspace
attribute of
applet
, embed
, iframe
,
img
, or object
elements, and
input
elements with a type
attribute in the Image Button state, maps to the dimension
properties 'margin-top' and 'margin-bottom' on the
element.
When an img
element, object
element, or
input
element with a type
attribute in the Image Button state is contained
within a hyperlink and has a border
attribute whose value, when
parsed using the rules for parsing non-negative
integers, is found to be a number greater than zero, the user
agent is expected to use the parsed value for eight
presentational hints: four setting the parsed value as
a pixel length for the element's 'border-top-width',
'border-right-width', 'border-bottom-width', and 'border-left-width'
properties, and four setting the element's 'border-top-style',
'border-right-style', 'border-bottom-style', and 'border-left-style'
properties to the value 'solid'.
The width
and height
attributes on
applet
, embed
, iframe
,
img
, object
or video
elements, and input
elements with a type
attribute in the Image Button state, map to the dimension
properties 'width' and 'height' on the element
respectively.
Shapes on an image map are expected to act, for the
purpose of the CSS cascade, as elements independent of the original
area
element that happen to match the same style rules
but inherit from the img
or object
element.
For the purposes of the rendering, only the 'cursor' property is expected to have any effect on the shape.
Thus, for example, if an area
element has a style
attribute that
sets the 'cursor' property to 'help', then when the user designates
that shape, the cursor would change to a Help cursor.
Similarly, if an area
element had a
CSS rule that set its 'cursor' property to 'inherit' (or if no rule
setting the 'cursor' property matched the element at all), the
shape's cursor would be inherited from the img
or
object
element of the image map, not from
the parent of the area
element.
When a menu
element's type
attribute is in the toolbar state, the element is
expected to be treated as a replaced element with a height about two
lines high and a width derived from the contents of the element.
The element is expected to have, by default, the appearance of a toolbar on the user agent's platform. It is expected to contain the menu that is built from the element.
A number of elements have their rendering defined in terms of the 'binding' property. [BECSS]
The CSS snippets below set the 'binding' property to a
user-agent-defined value, represented below by keywords like button
. The rules then described for
these bindings are only expected to apply if the element's 'binding'
property has not been overridden (e.g. by the author) to have
another value.
Exactly how the bindings are implemented is not specified by this specification. User agents are encouraged to make their bindings set the 'appearance' CSS property appropriately to achieve platform-native appearances for widgets, and are expected to implement any relevant animations, etc, that are appropriate for the platform. [CSSUI]
button
element@namespace url(http://www.w3.org/1999/xhtml); button { binding: button; }
When the button binding applies to a
button
element, the element is expected to render as an
'inline-block' box rendered as a button whose contents are the
contents of the element.
details
element@namespace url(http://www.w3.org/1999/xhtml); details { binding: details; }
When the details binding applies to a
details
element, the element is expected to render as a
'block' box with its 'padding-left' property set to '40px' for
left-to-right elements (LTR-specific) and with its
'padding-right' property set to '40px' for right-to-left
elements. The element's shadow tree is expected to take the
element's first child summary
element, if any, and
place it in a first 'block' box container, and then take the
element's remaining descendants, if any, and place them in a second
'block' box container.
The first container is expected to contain at least one line box,
and that line box is expected to contain a disclosure widget
(typically a triangle), horizontally positioned within the left
padding of the details
element. That widget is expected
to allow the user to request that the details be shown or
hidden.
The second container is expected to have its 'overflow' property
set to 'hidden'. When the details
element does not have
an open
attribute, this
second container is expected to be removed from the rendering.
input
element as a text entry widget@namespace url(http://www.w3.org/1999/xhtml); input { binding: input-textfield; } input[type=password] { binding: input-password; } /* case-insensitive */ /* later rules override this for other values of type="" */
When the input-textfield binding applies to an
input
element whose type
attribute is in the Text, Search, Telephone, URL, or E-mail state, the element is
expected to render as an 'inline-block' box rendered as a text
field.
When the input-password binding applies, to an
input
element whose type
attribute is in the Password state, the element
is expected to render as an 'inline-block' box rendered as a text
field whose contents are obscured.
If an input
element whose type
attribute is in one of the above
states has a size
attribute,
and parsing that attribute's value using the rules for parsing
non-negative integers doesn't generate an error, then the
user agent is expected to use the attribute as a presentational hint for the
'width' property on the element, with the value obtained from
applying the converting a character width to pixels
algorithm to the value of the attribute.
If an input
element whose type
attribute is in one of the above
states does not have a size
attribute, then the user agent
is expected to act as if it had a user-agent-level style sheet rule
setting the 'width' property on the element to the value obtained
from applying the converting a character width to
pixels algorithm to the number 20.
The converting a character width to pixels algorithm returns (size-1)×avg + max, where size is the character width to convert, avg is the average character width of the primary font for the element for which the algorithm is being run, in pixels, and max is the maximum character width of that same font, also in pixels. (The element's 'letter-spacing' property does not affect the result.)
input
element as domain-specific widgets@namespace url(http://www.w3.org/1999/xhtml); input[type=datetime] { binding: input-datetime; } /* case-insensitive */ input[type=date] { binding: input-date; } /* case-insensitive */ input[type=month] { binding: input-month; } /* case-insensitive */ input[type=week] { binding: input-week; } /* case-insensitive */ input[type=time] { binding: input-time; } /* case-insensitive */ input[type=datetime-local] { binding: input-datetime-local; } /* case-insensitive */ input[type=number] { binding: input-number; } /* case-insensitive */
When the input-datetime binding applies to an
input
element whose type
attribute is in the Date and Time state, the
element is expected to render as an 'inline-block' box depicting a
Date and Time control.
When the input-date binding applies to an
input
element whose type
attribute is in the Date state, the element is
expected to render as an 'inline-block' box depicting a Date
control.
When the input-month binding applies to an
input
element whose type
attribute is in the Month state, the element is
expected to render as an 'inline-block' box depicting a Month
control.
When the input-week binding applies to an
input
element whose type
attribute is in the Week state, the element is
expected to render as an 'inline-block' box depicting a Week
control.
When the input-time binding applies to an
input
element whose type
attribute is in the Time state, the element is
expected to render as an 'inline-block' box depicting a Time
control.
When the input-datetime-local binding applies to an
input
element whose type
attribute is in the Local Date and Time
state, the element is expected to render as an 'inline-block' box
depicting a Local Date and Time control.
When the input-number binding applies to an
input
element whose type
attribute is in the Number state, the element is
expected to render as an 'inline-block' box depicting a Number
control.
These controls are all expected to be about one line high, and about as wide as necessary to show the widest possible value.
input
element as a range control@namespace url(http://www.w3.org/1999/xhtml); input[type=range] { binding: input-range; } /* case-insensitive */
When the input-range binding applies to an
input
element whose type
attribute is in the Range state, the element is
expected to render as an 'inline-block' box depicting a slider
control.
When the control is wider than it is tall (or square), the control is expected to be a horizontal slider, with the lowest value on the right if the 'direction' property on this element has a computed value of 'rtl', and on the left otherwise. When the control is taller than it is wide, it is expected to be a vertical slider, with the lowest value on the bottom.
Predefined suggested values (provided by the list
attribute) are expected to be
shown as tick marks on the slider, which the slider can snap to.
input
element as a color well@namespace url(http://www.w3.org/1999/xhtml); input[type=color] { binding: input-color; } /* case-insensitive */
When the input-color binding applies to an
input
element whose type
attribute is in the Color state, the element is
expected to render as an 'inline-block' box depicting a color well,
which, when activated, provides the user with a color picker (e.g. a
color wheel or color palette) from which the color can be
changed.
Predefined suggested values (provided by the list
attribute) are expected to be
shown in the color picker interface, not on the color well
itself.
input
element as a checkbox and radio button widgets@namespace url(http://www.w3.org/1999/xhtml); input[type=checkbox] { binding: input-checkbox; } /* case-insensitive */ input[type=radio] { binding: input-radio; } /* case-insensitive */
When the input-checkbox binding applies to an
input
element whose type
attribute is in the Checkbox state, the element
is expected to render as an 'inline-block' box containing a single
checkbox control, with no label.
When the input-radio binding applies to an
input
element whose type
attribute is in the Radio Button state, the element
is expected to render as an 'inline-block' box containing a single
radio button control, with no label.
input
element as a file upload control@namespace url(http://www.w3.org/1999/xhtml); input[type=file] { binding: input-file; } /* case-insensitive */
When the input-file binding applies to an
input
element whose type
attribute is in the File Upload state, the element
is expected to render as an 'inline-block' box containing a span of
text giving the filename(s) of the selected files, if
any, followed by a button that, when activated, provides the user
with a file picker from which the selection can be changed.
input
element as a button@namespace url(http://www.w3.org/1999/xhtml); input[type=submit], input[type=reset], input[type=button] { /* case-insensitive */ binding: input-button; }
When the input-button binding applies to an
input
element whose type
attribute is in the Submit Button, Reset Button, or Button state, the element is
expected to render as an 'inline-block' box rendered as a button,
about one line high, containing the contents of the element's value
attribute, if any, or text
derived from the element's type
attribute in a user-agent-defined (and probably locale-specific)
fashion, if not.
marquee
element@namespace url(http://www.w3.org/1999/xhtml); marquee { binding: marquee; }
When the marquee binding applies to a
marquee
element, while the element is turned on, the element is expected
to render in an animated fashion according to its attributes as
follows:
behavior
attribute is in the
scroll stateSlide the contents of the element in the direction described by
the direction
attribute as defined below, such that it begins off the start side
of the marquee
, and ends flush with the inner end
side.
For example, if the direction
attribute is left (the default),
then the contents would start such that their left edge are off
the side of the right edge of the marquee
's content
area, and the contents would then slide up to the point where the
left edge of the contents are flush with the left inner edge of
the marquee
's content area.
Once the animation has ended, the user agent is expected to increment the marquee current loop index. If the element is still turned on after this, then the user agent is expected to restart the animation.
behavior
attribute is in the
slide stateSlide the contents of the element in the direction described by
the direction
attribute as defined below, such that it begins off the start side
of the marquee
, and ends off the end side of the
marquee
.
For example, if the direction
attribute is left (the default),
then the contents would start such that their left edge are off
the side of the right edge of the marquee
's content
area, and the contents would then slide up to the point where the
right edge of the contents are flush with the left inner
edge of the marquee
's content area.
Once the animation has ended, the user agent is expected to increment the marquee current loop index. If the element is still turned on after this, then the user agent is expected to restart the animation.
behavior
attribute is in the
alternate
stateWhen the marquee current loop index is even (or
zero), slide the contents of the element in the direction
described by the direction
attribute as
defined below, such that it begins flush with the start side of
the marquee
, and ends flush with the end side of the
marquee
.
When the marquee current loop index is odd, slide
the contents of the element in the opposite direction than that
described by the direction
attribute as
defined below, such that it begins flush with the end side of the
marquee
, and ends flush with the start side of the
marquee
.
For example, if the direction
attribute is left (the default),
then the contents would with their right edge flush with the right
inner edge of the marquee
's content area, and the
contents would then slide up to the point where the left
edge of the contents are flush with the left inner edge of the
marquee
's content area.
Once the animation has ended, the user agent is expected to increment the marquee current loop index. If the element is still turned on after this, then the user agent is expected to continue the animation.
The direction
attribute has the meanings described in the following table:
direction attribute state
| Direction of animation | Start edge | End edge | Opposite direction |
---|---|---|---|---|
left | ← Right to left | Right | Left | → Left to Right |
right | → Left to Right | Left | Right | ← Right to left |
up | ↑ Up (Bottom to Top) | Bottom | Top | ↓ Down (Top to Bottom) |
down | ↓ Down (Top to Bottom) | Top | Bottom | ↑ Up (Bottom to Top) |
In any case, the animation should proceed such that there is a delay given by the marquee scroll interval between each frame, and such that the content moves at most the distance given by the marquee scroll distance with each frame.
When a marquee
element has a bgcolor
attribute set, the value
is expected to be parsed using the rules for parsing a legacy
color value, and if that does not return an error, the user
agent is expected to treat the attribute as a presentational hint setting the
element's 'background-color' property to the resulting color.
The width
and height
attributes on a
marquee
element map to the dimension properties 'width' and
'height' on the element respectively.
The intrinsic height of a marquee
element with its
direction
attribute in
the up or down states is 200 CSS
pixels.
The vspace
attribute of
a marquee
element maps to the dimension properties 'margin-top' and
'margin-bottom' on the element. The hspace
attribute of a
marquee
element maps to the dimension properties 'margin-left' and
'margin-right' on the element.
The 'overflow' property on the marquee
element is
expected to be ignored; overflow is expected to always be
hidden.
meter
element@namespace url(http://www.w3.org/1999/xhtml); meter { binding: meter; }
When the meter binding applies to a
meter
element, the element is expected to render as an
'inline-block' box with a 'height' of '1em' and a 'width' of '5em',
a 'vertical-align' of '-0.2em', and with its contents depicting a
gauge.
When the element is wider than it is tall (or square), the depiction is expected to be of a horizontal gauge, with the minimum value on the right if the 'direction' property on this element has a computed value of 'rtl', and on the left otherwise. When the element is taller than it is wide, it is expected to depict a vertical gauge, with the minimum value on the bottom.
User agents are expected to use a presentation consistent with platform conventions for gauges, if any.
Requirements for what must be depicted in the gauge
are included in the definition of the meter
element.
progress
element@namespace url(http://www.w3.org/1999/xhtml); progress { binding: progress; }
When the progress binding applies to a
progress
element, the element is expected to render as
an 'inline-block' box with a 'height' of '1em' and a 'width' of
'10em', and a 'vertical-align' of '-0.2em'.
When the element is wider than it is tall, the element is expected to be depicted as a horizontal progress bar, with the start on the right and the end on the left if the 'direction' property on this element has a computed value of 'rtl', and with the start on the left and the end on the right otherwise. When the element is taller than it is wide, it is expected to depicted as a vertical progress bar, with the lowest value on the bottom. When the element is square, it is expected to be depicted as a direction-independent progress widget (e.g. a circular progress ring).
User agents are expected to use a presentation consistent with platform conventions for progress bars. In particular, user agents are expected to use different presentations for determinate and indeterminate progress bars. User agents are also expected to vary the presentation based on the dimensions of the element.
For example, on some platforms for showing indeterminate progress there is an asynchronous progress indicator with square dimensions, which could be used when the element is square, and an indeterminate progress bar, which could be used when the element is wide.
Requirements for how to determine if the progress
bar is determinate or indeterminate, and what progress a determinate
progress bar is to show, are included in the definition of the
progress
element.
select
element@namespace url(http://www.w3.org/1999/xhtml); select { binding: select; }
When the select binding applies to a
select
element whose multiple
attribute is present,
the element is expected to render as a multi-select list box.
When the select binding applies to a
select
element whose multiple
attribute is absent,
and the element's display
size is greater than 1, the element is expected to render as
a single-select list box.
When the element renders as a list box, it is expected to render
as an 'inline-block' box whose 'height' is the height necessary to
contain as many rows for items as given by the element's display size, or four rows if the
attribute is absent, and whose 'width' is the width of the
select
's labels plus the width of a
scrollbar.
When the select binding applies to a
select
element whose multiple
attribute is absent,
and the element's display
size is 1, the element is expected to render as a one-line
drop down box whose width is the width of the
select
's labels.
In either case (list box or drop-down box), the element's items
are expected to be the element's list of options, with the
element's optgroup
element children providing headers
for groups of options where applicable.
An optgroup
element is expected to be rendered by
displaying the element's label
attribute.
An option
element is expected to be rendered by
displaying the element's label
, indented under its
optgroup
element if it has one.
The width of the select
's labels is the
wider of the width necessary to render the widest
optgroup
, and the width necessary to render the widest
option
element in the element's list of options (including
its indent, if any).
If a select
element contains a placeholder
label option, the user agent is expected to render that
option
in a manner that conveys that it is a label,
rather than a valid option of the control. This can include
preventing the placeholder label option from being
explicitly selected by the user. When the placeholder label
option's selectedness is true, the
control is expected to be displayed in a fashion that indicates that
no valid option is currently selected.
User agents are expected to render the labels in a
select
in such a manner that any alignment remains
consistent whether the label is being displayed as part of the page
or in a menu control.
textarea
element@namespace url(http://www.w3.org/1999/xhtml); textarea { binding: textarea; white-space: pre-wrap; }
When the textarea binding applies to a
textarea
element, the element is expected to render as
an 'inline-block' box rendered as a multiline text field.
If the element has a cols
attribute, and parsing that attribute's value using the rules
for parsing non-negative integers doesn't generate an error,
then the user agent is expected to use the attribute as a presentational hint for the
'width' property on the element, with the value being the
textarea effective width (as defined below). Otherwise,
the user agent is expected to act as if it had a user-agent-level
style sheet rule setting the 'width' property on the element to the
textarea effective width.
The textarea effective width of a
textarea
element is size×avg + sbw, where size is the
element's character
width, avg is the average character width
of the primary font of the element, in CSS pixels, and sbw is the width of a scroll bar, in CSS pixels. (The
element's 'letter-spacing' property does not affect the result.)
If the element has a rows
attribute, and parsing that attribute's value using the rules
for parsing non-negative integers doesn't generate an error,
then the user agent is expected to use the attribute as a presentational hint for the
'height' property on the element, with the value being the
textarea effective height (as defined
below). Otherwise, the user agent is expected to act as if it had a
user-agent-level style sheet rule setting the 'height' property on
the element to the textarea effective height.
The textarea effective height of a
textarea
element is the height in CSS pixels of the
number of lines specified the element's character height, plus the
height of a scrollbar in CSS pixels.
User agents are expected to apply the 'white-space' CSS property
to textarea
elements. For historical reasons, if the
element has a wrap
attribute
whose value is an ASCII case-insensitive match for the
string "off
", then the
user agent is expected to treat the attribute as a presentational hint setting the
element's 'white-space' property to 'pre'.
keygen
element@namespace url(http://www.w3.org/1999/xhtml); keygen { binding: keygen; }
When the keygen binding applies to a
keygen
element, the element is expected to render as an
'inline-block' box containing a user interface to configure the key
pair to be generated.
time
element@namespace url(http://www.w3.org/1999/xhtml); time[datetime] { binding: time; }
When the time binding applies to a
time
element, the element is expected to render as if
it contained text conveying the date (if known), time (if known), and time-zone offset (if known)
represented by the element, in the fashion most convenient for the
user.
When an html
element's second child element is a
frameset
element, the user agent is expected to render
the frameset
element as described below across the
surface of the viewport, instead of applying the usual CSS rendering
rules.
When rendering a frameset
on a surface, the user
agent is expected to use the following layout algorithm:
The cols and rows variables are lists of zero or more pairs consisting of a number and a unit, the unit being one of percentage, relative, and absolute.
Use the rules for parsing a list of dimensions to
parse the value of the element's cols
attribute, if there is
one. Let cols be the result, or an empty list
if there is no such attribute.
Use the rules for parsing a list of dimensions to
parse the value of the element's rows
attribute, if there is
one. Let rows be the result, or an empty list
if there is no such attribute.
For any of the entries in cols or rows that have the number zero and the unit relative, change the entry's number to one.
If cols has no entries, then add a single entry consisting of the value 1 and the unit relative to cols.
If rows has no entries, then add a single entry consisting of the value 1 and the unit relative to rows.
Invoke the algorithm defined below to convert a list of
dimensions to a list of pixel values using cols as the input list, and the width of the
surface that the frameset
is being rendered into, in
CSS pixels, as the input dimension. Let sized
cols be the resulting list.
Invoke the algorithm defined below to convert a list of
dimensions to a list of pixel values using rows as the input list, and the height of the
surface that the frameset
is being rendered into, in
CSS pixels, as the input dimension. Let sized
rows be the resulting list.
Split the surface into a grid of w×h rectangles, where w is the number of entries in sized cols and h is the number of entries in sized rows.
Size the columns so that each column in the grid is as many CSS pixels wide as the corresponding entry in the sized cols list.
Size the rows so that each row in the grid is as many CSS pixels high as the corresponding entry in the sized rows list.
Let children be the list of
frame
and frameset
elements that are
children of the frameset
element for which the
algorithm was invoked.
For each row of the grid of rectangles created in the previous step, from top to bottom, run these substeps:
For each rectangle in the row, from left to right, run these substeps:
If there are any elements left in children, take the first element in the list, and assign it to the rectangle.
If this is a frameset
element, then recurse
the entire frameset
layout algorithm for that
frameset
element, with the rectangle as the
surface.
Otherwise, it is a frame
element; create a
nested browsing context sized to fit the
rectangle.
If there are any elements left in children, remove the first element from children.
If the frameset
element has a border,
draw an outer set of borders around the rectangles, using the
element's frame border color.
For each rectangle, if there is an element assigned to that rectangle, and that element has a border, draw an inner set of borders around that rectangle, using the element's frame border color.
For each (visible) border that does not abut a rectangle that
is assigned a frame
element with a noresize
attribute (including
rectangles in further nested frameset
elements), the
user agent is expected to allow the user to move the border,
resizing the rectangles within, keeping the proportions of any
nested frameset
grids.
A frameset
or frame
element has
a border if the following algorithm returns true:
If the element has a frameborder
attribute
whose value is not the empty string and whose first character is
either a U+0031 DIGIT ONE (1) character, a U+0079 LATIN SMALL
LETTER Y character (y), or a U+0059 LATIN CAPITAL LETTER Y
character (Y), then return true.
Otherwise, if the element has a frameborder
attribute,
return false.
Otherwise, if the element has a parent element that is a
frameset
element, then return true if that
element has a border, and false if it does
not.
Otherwise, return true.
The frame border color of a frameset
or
frame
element is the color obtained from the
following algorithm:
If the element has a bordercolor
attribute, and
applying the rules for parsing a legacy color value
to that attribute's value does not result in an error, then
return the color so obtained.
Otherwise, if the element has a parent element that is a
frameset
element, then the frame border
color of that element.
Otherwise, return gray.
The algorithm to convert a list of dimensions to a list of pixel values consists of the following steps:
Let input list be the list of numbers and units passed to the algorithm.
Let output list be a list of numbers the same length as input list, all zero.
Entries in output list correspond to the entries in input list that have the same position.
Let input dimension be the size passed to the algorithm.
Let count percentage be the number of entries in input list whose unit is percentage.
Let total percentage be the sum of all the numbers in input list whose unit is percentage.
Let count relative be the number of entries in input list whose unit is relative.
Let total relative be the sum of all the numbers in input list whose unit is relative.
Let count absolute be the number of entries in input list whose unit is absolute.
Let total absolute be the sum of all the numbers in input list whose unit is absolute.
Let remaining space be the value of input dimension.
If total absolute is greater than remaining space, then for each entry in input list whose unit is absolute, set the corresponding value in output list to the number of the entry in input list multiplied by remaining space and divided by total absolute. Then, set remaining space to zero.
Otherwise, for each entry in input list whose unit is absolute, set the corresponding value in output list to the number of the entry in input list. Then, decrement remaining space by total absolute.
If total percentage multiplied by the input dimension and divided by 100 is greater than remaining space, then for each entry in input list whose unit is percentage, set the corresponding value in output list to the number of the entry in input list multiplied by remaining space and divided by total percentage. Then, set remaining space to zero.
Otherwise, for each entry in input list whose unit is percentage, set the corresponding value in output list to the number of the entry in input list multiplied by the input dimension and divided by 100. Then, decrement remaining space by total percentage multiplied by the input dimension and divided by 100.
For each entry in input list whose unit is relative, set the corresponding value in output list to the number of the entry in input list multiplied by remaining space and divided by total relative.
Return output list.
User agents working with integer values for frame widths (as opposed to user agents that can lay frames out with subpixel accuracy) are expected to distribute the remainder first to the last entry whose unit is relative, then equally (not proportionally) to each entry whose unit is percentage, then equally (not proportionally) to each entry whose unit is absolute, and finally, failing all else, to the last entry.
User agents are expected to allow the user to control aspects of hyperlink activation and form submission, such as which browsing context is to be used for the subsequent navigation.
User agents are expected to allow users to discover the destination of hyperlinks and of forms before triggering their navigation.
User agents are expected to allow users to
navigate browsing contexts to the resources indicated by the cite
attributes on q
,
blockquote
,
ins
, and del
elements.
User agents are expected to surface hyperlinks created by link
elements in their user interface.
While link
elements that create hyperlinks will match the ':link' or
':visited' pseudo-classes, will react to clicks if visible, and so
forth, this does not extend to any browser interface constructs that
expose those same links. Activating a link through the browser's
interface, rather than in the page itself, does not trigger click
events and the like.
title
attributeGiven an element (e.g. the element designated by the mouse
cursor), if the element, or one of its ancestors, has a title
attribute, and the nearest such
attribute has a value that is not the empty string, it is expected
that the user agent will expose the contents of that attribute as a
tooltip.
U+000A LINE FEED (LF) characters are expected to cause line breaks in the tooltip, U+0009 CHARACTER TABULATION (tab) characters are expected to render as a non-zero horizontal shift that lines up the next glpyh with the next tab stop, with tab stops occurring at points that are multiples of 8 times the width of a U+0020 SPACE character.
User agents are encouraged to make it possible to view tooltips without the use of a pointing device, since not all users are able to use pointing devices.
For example, a visual user agent could make elements with a
title
attribute focusable, and
could make any focused element with a title
attribute show its tooltip under
the element while the element has focus. This would allow a user to
tab around the document to find all the advisory text.
As another example, a screen reader could provide an audio cue when reading an element with a tooltip, with an associated key to read the last tooltip for which a cue was played.
The current text editing caret (the one at the caret position in a focused editing host) is expected to act like an inline replaced element with the vertical dimensions of the caret and with zero width for the purposes of the CSS rendering model.
This means that even an empty block can have the caret inside it, and that when the caret is in such an element, it prevents margins from collapsing through the element.
User agents are expected to honor the Unicode semantics of text that is exposed in user interfaces, for example supporting the bidirectional algorithm in text shown in dialogs, title bars, pop-up menus, and tooltips. Text from elements (either attribute values or the contents of elements) is expected to be rendered in a manner that honors the directionality of the element from which the text was obtained.
Consider the following markup, which has Hebrew text asking for a programming language, the languages being text for which a left-to-right direction is important given the punctuation in some of their names:
<p dir="rtl" lang="he">
<label>
בחר שפת תכנות:
<select>
<option dir="ltr">C++</option>
<option dir="ltr">C#</option>
<option dir="ltr">FreePascal</option>
<option dir="ltr">F#</option>
</select>
</label>
</p>
If the select
element was rendered as a drop down
box, a correct rendering would ensure that the punctuation was the
same both in the drop down, and in the box showing the current
selection.
A string provided by a script (e.g. the argument to window.alert()
) is expected to be treated
as an independent set of one or more bidirectional algorithm
paragraphs when displayed, as defined by the bidirectional
algorithm, including, for instance, supporting the
paragraph-breaking behaviour of U+000A LINE FEED (LF) characters.
For the purposes of determining the paragraph level of such text in
the bidirectional algorithm, this specification does not
provide a higher-level override of rules P2 and P3. [BIDI]
When necessary, authors can enforce a particular direction for a given paragraph by starting it with the Unicode U+200E LEFT-TO-RIGHT MARK or U+200F RIGHT-TO-LEFT MARK characters.
Thus, the following script:
alert('\u05DC\u05DE\u05D3 HTML \u05D4\u05D9\u05D5\u05DD!')
...would always result in a message reading "למד LMTH היום!" (not "דמל HTML םויה!"), regardless of the language of the user agent interface or the direction of the page or any of its elements.
For a more complex example, consider the following script:
/* Warning: this script does not handle right-to-left scripts correctly */ var s; if (s = prompt('What is your name?')) { alert(s + '! Ok, Fred, ' + s + ', and Wilma will get the car.'); }
When the user enters "Kitty", the user agent would alert "Kitty! Ok, Fred, Kitty, and Wilma will get the car.". However, if the user enters "لا أفهم", then the bidirectional algorithm will determine that the direction of the paragraph is right-to-left, and so the output will be the following unintended mess: "لا أفهم! derF ,kO, لا أفهم, rac eht teg lliw amliW dna."
To force an alert that starts with user-provided text (or other text of unknown directionality) to render left-to-right, the string can be prefixed with a U+200E LEFT-TO-RIGHT MARK character:
var s; if (s = prompt('What is your name?')) { alert('\u200E' + s + '! Ok, Fred, ' + s + ', and Wilma will get the car.'); }
User agents are expected to allow the user to request the
opportunity to obtain a physical form (or a
representation of a physical form) of a Document
. For
example, selecting the option to print a page or convert it to PDF
format.
When the user actually obtains a physical form (or a representation of a
physical form) of a Document
, the user agent is
expected to create a new rendering of the Document
for
the print media.