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CSS Exclusions define arbitrary areas around which inline content ([CSS21]) can flow. CSS Exclusions can be defined on any CSS block-level elements. CSS Exclusions extend the notion of content wrapping previously limited to floats.
CSS is a language for describing the rendering of structured documents (such as HTML and XML) on screen, on paper, in speech, etc.
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This section is not normative.
This specification defines features that allow inline flow content to wrap around outside the exclusion area of elements.
If a user agent implements both CSS Exclusions and CSS Shapes, the shape-outside property defines the exclusion area instead of the border box.
wrapping area
that corresponds to the subtraction of its wrapping context from
its own content area.
A box inherits its containing block’s wrapping context unless it specifically resets it using the wrap-through property.
Exclusion elements define exclusion areas that contribute to their containing block’s wrapping context. As a consequence, exclusions impact the layout of their containing block’s descendants.
Elements lay out their inline content in their content area and wrap around the exclusion areas in their associated wrapping context. If the element is itself an exclusion, it does not wrap around its own exclusion area and the impact of other exclusions on other exclusions is controlled by the z-index property as explained in the 'exclusions order' section.
An element becomes an exclusion when its wrap-flow property has a computed value other than auto.
Name: | wrap-flow |
---|---|
Value: | auto | both | start | end | minimum | maximum | clear |
Initial: | auto |
Applies to: | block-level elements. |
Inherited: | no |
Percentages: | N/A |
Media: | visual |
Computed value: | as specified except for element’s whose float computed value is not none, in which case the computed value is auto. |
Animatable: | no |
The values of this property have the following meanings:
If the property’s computed value is auto, the element does not become an exclusion.
Otherwise, a computed wrap-flow property value of both, start, end, minimum, maximum or clear on an element makes that element an exclusion element. It’s exclusion area is contributed to its containing block’s wrapping context, causing the containing block’s descendants to wrap around its exclusion area.
Determining the relevant edges of the exclusion depends on the writing mode [CSS3-WRITING-MODES] of the content wrapping around the 'exclusion area'.
An exclusion element establishes a new block formatting context (see [CSS21]) for its content.
The above figure illustrates how exclusions are combined. The outermost box represents an element’s content box. The A, B, C and D darker gray boxes represent exclusions in the element’s wrapping context. A, B, C and D have their respective wrap-flow computed to both, start, end and clear respectively. The lighter gray areas show the additional areas that are excluded for inline layout as a result of the 'wrap-flow’value. For example, the area to the right of B cannot be used for inline layout of left-to-right writing mode content because the wrap-flow for B is start.
The background blue area shows what areas are available for a left-to-right writing mode element’s inline content layout. All areas represented with a light or dark shade of gray are not available for (left-to-right writing mode) inline content layout.
<div id="grid"> <div id="top-right" class="exclusion"></div> <div id="bottom-left" class="exclusion"></div> <div id="content">Lorem ipsum…</div> </div> <style type="text/css"> #grid { width: 30em; height: 30em; display: grid; grid-columns: 25% 25% 25% 25%; grid-rows: 25% 25% 25% 25%; #top-right { grid-column: 3; grid-row: 2; } #bottom-left { grid-column: 2; grid-row: 3; } .exclusion { wrap-flow: <see below> } #content { grid-row: 1; grid-row-span: 4; grid-column: 1; grid-column-span: 4; } </style>
The following figures illustrate the visual rendering for different values of the wrap-flow property. The gray grid lines are marking the grid cells and the blue area is the exclusion box (positioned by the grid).
.exclusion{ wrap-flow: auto; } |
.exclusion{ wrap-flow: both; } |
.exclusion{ wrap-flow: start; } |
.exclusion{ wrap-flow: end; } |
.exclusion{ wrap-flow: minimum; } |
.exclusion{ wrap-flow: maximum; } |
.exclusion{ wrap-flow: clear; } |
|
An exclusion affects the inline flow content descended from the exclusion’s containing block (defined in CSS 2.1 10.1) and that of all descendant elements of the same containing block. All inline flow content inside the containing block of the exclusions is affected. To stop the effect of exclusions defined outside an element, the wrap-through property can be used (see the propagation of exclusions section below).
As a reminder, for exclusions with position:fixed, the containing block is established by the root element.
By default, an element inherits its parent wrapping context. In other words it is subject to the exclusions defined outside the element.
Setting the wrap-through property to none prevents an element from inheriting its parent wrapping context. In other words, exclusions defined outside the element, have not effect on the element’s children layout.
Exclusions defined by an element’s descendants still contribute to their containing block’s wrapping context. If that containing block is a child of an element with wrap-through computes to none, or the element itself, then exclusion still have an effect on the children of that containing block element.
Name: | wrap-through |
---|---|
Value: | wrap | none |
Initial: | wrap |
Applies to: | block-level elements |
Inherited: | no |
Percentages: | N/A |
Media: | visual |
Computed value: | as specified |
Animatable: | no |
The values of this property have the following meanings:
<style type="text/css">
#grid {
display: grid;
grid-columns: 25% 50% 25%;
grid-rows: 25% 25% 25% 25%;
}
#exclusion {
grid-row: 2;
grid-row-span: 2;
grid-column: 2;
wrap-flow: <see below>
}
#rowA, #rowB {
grid-row-span: 2;
grid-column: 1;
grid-column-span: 3;
}
#rowA {
grid-row: 1;
}
#rowB {
grid-row: 3;
}
</style>
<style type="text/css">
.exclusion {
wrap-flow: both;
position: absolute;
left: 20%;
top: 20%;
width: 50%;
height: 50%;
background-color: rgba(220, 230, 242, 0.5);
}
</style>
<div id="grid">
<div class=”exclusion”></div>
<div id="rowA" style=”wrap-through: wrap;”> Lorem ipsum dolor sit amet...</div>
<div id="rowB" style=”wrap-through: none;”> Lorem ipsum dolor sit amet...</div>
</div>
Exclusions follow the painting order (See [CSS21] Appendix E). Exclusions are applied in reverse to the document order in which they are defined. The last exclusion appears on top of all other exclusion, thus it affects the inline flow content of all other preceding exclusions or elements descendant of the same containing block. The z-index property can be used to change the ordering of positioned exclusion boxes (see [CSS21]). Statically positioned exclusions are not affected by the z-index property and thus follow the painting order.
Ordering of exclusions.
<style type="text/css">
.exclusion {
wrap-flow: both;
position: absolute;
width: 200px;
}
.topleft {
top: 10px;
left: 10px;
background-color: lightblue;
}
.middle {
top: 90px;
left: 90px;
background-color: lightgreen;
}
.bottomright {
top: 170px;
left: 170px;
background-color: pink;
}
</style>
<div class="exclusion topleft">
The top left div...
</div>
<div class="exclusion middle">
The middle div...
</div>
<div class="exclusion bottomright">
The bottom right div...
</div>
.middle { z-index: auto; } |
.middle { z-index: 1; } |
Is the CSS exclusions processing model incorrect?
The current draft provides a model for exclusions without a collision-avoidance model. The existing exclusion model in CSS uses floats, which have both exclusion and collision-avoidance behavior. Concerns have been raised that allowing exclusions without collision avoidance could be harmful, particularly with absolutely-positioned elements. Three options should be considered:
Applying exclusions is a two-step process:
In this step, the user agent determines which containing block each exclusion area
belongs to. This is a simple step, based on the definition of containing
blocks and elements with a computed value for wrap-flow that is not
auto
.
In this step, starting from the top of the rendering tree (see [CSS21]), the the agent processes each containing block in two sub-steps.
Resolving the position and size of exclusion boxes in the wrapping context may or may not require a layout. For example, if an exclusion box is absolutely positioned and sized, a layout may not be needed to resolve its position and size. In other situations, laying out the containing block’s content is required.
When a layout is required, it is carried out without applying any exclusion area. In other words, the containing block is laid out without a wrapping context.
Step 2-A yields a position and size for all exclusion boxes in the wrapping context. Each exclusion box is processed in turn, starting from the top-most, and each exclusion area is computed and contributed to the containing block’s wrapping context.
Scrolling is ignored in this step when resolving the position and size of position: fixed exclusion boxes.
Once the containing block’s wrapping context is computed, all exclusion boxes in that wrapping context are removed from the normal flow.
Finally, the content of the containing block is laid out, with the inline content wrapping around the wrapping context’s exclusion area.
When the containing block itself is an exclusion box, then rules on exclusions order define which exclusions affect the inline and descendant content of the box.
This section illustrates the exclusions processing model with an example. It is meant to be simple. Yet, it contains enough complexity to address the issues of layout dependencies and re-layout.
The code snippet in the following example has two exclusions affecting the document’s inline content.
<html> <style> #d1 { position:relative; height: auto; color: #46A4E9; border: 1px solid gray; } #e1 { wrap-flow: both; position: absolute; left: 50%; top: 50%; width: 40%; height: 40%; border: 1px solid red; margin-left: -20%; margin-top: -20%; } #d2 { position: static; width: 100%; height: auto; color: #808080; } #e2 { wrap-flow: both; position: absolute; right: 5ex; top: 1em; width: 12ex; height: 10em; border: 1px solid lime; } </style> <body> <div id="d1"> Lorem ipsusm ... <p id="e1"></p> </div> <div id="d2"> Lorem ipsusm ... <p id="e2" ></p> </div> </body> </html>
The following figures illustrate:
The figures illustrate how the boxes corresponding to the element sometimes
have a different containment hierarchy in the layout tree than in the DOM tree.
For example, the box generated by e1
is positioned in
its containing block’s box, which is the d1-box
, because
e1
is absolutely positioned and d1
is relatively positioned. However, while e2
is also absolutely
positioned, its containing block is the initial containing block (ICB). See the
section 10.1 of the CSS 2.1 specification ([CSS21]) for details.
As a result of the computation of containing blocks for the tree, the boxes belonging to the wrapping contexts of all the elements can be determined:
e2
box: WC-1 (Wrapping Context 1)
d1
inherits the
body element’s wrapping context and adds the e1-box
to it. So the wrapping context is made of both the
e1-box
and the e2-box
:
WC-2d2
inherits the
body element’s wrapping context: WC-1
In this step, each containing block is processed in turn. For each containing block, we (conceptually) go through two phases:
In our example, this breaks down to:
d1
element’s wrapping
context: RWC-2
d1
element
d2
element’s wrapping
context: RWC-1
d2
element
The top-most wrapping context in the layout tree contains the
e2
exclusion. Its position and size needs to be
resolved. In general, computing an exclusion’s position and size may or may
not require laying out other content. In this example, no content needs to be
laid out to resolve the e2
exclusion’s position
because it is absolutely positioned and its size can be resolved without
layout either. At this point, RWC-1 is resolved and can be used when laying
inline content out.
The process is similar: the position of the e1
exclusion needs to be resolved. Again, resolving the exclusion’s position and
size may require processing the containing block (d1 here). It is the case here
because the size and position of e1
depend on
resolving the percentage lengths. The percentages are relative to the size of
d1
’s box. As a result, in order to resolve a size for
d1
’s box, a first layout of d1
is done without any wrapping context (i.e., no exclusions applied).
The layout yields a position and size for e1
’s box.
At this point, RWC-2 is resolved because the position and size of both e1 and e2 are resolved.
The important aspect of the above processing example is that once an element’s wrapping context is resolved (by resolving its exclusions' position and size), the position and size of the exclusions are not re-processed if the element’s size changes between the layout that may be done without considering any wrapping context (as for RWC-2) and the layout done with the resolved wrapping context. This is what breaks the possible circular dependency between the resolution of wrapping contexts and the layout of containing blocks.
There are similarities between floats and exclusions in that inline content wraps around floats and also wraps around exclusion areas. However, there are very significant differences.
Floats have an effect on the positioning of exclusions and the layout of their inline content. For example, if an exclusion is an inline-box which happens to be on the same line as a float, its position, as computed in Step 2-A will be impacted by the float, as is any other inline content.
Exclusions have an effect on the positioning of floats as they have an effect on inline content. Therefore, in Step 2-B, floats will avoid exclusion areas.
This specification is made possible by input from Andrei Bucur, Alexandru Chiculita, Arron Eicholz, Daniel Glazman, Arno Gourdol, Chris Jones, Bem Jones-Bey, Marcus Mielke, Alex Mogilevsky, Hans Muller, Mihnea Ovidenie, Virgil Palanciuc, Florian Rivoal, Peter Sorotokin, Bear Travis, Eugene Veselov, Stephen Zilles and the CSS Working Group members.
Conformance requirements are expressed with a combination of descriptive assertions and RFC 2119 terminology. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in the normative parts of this document are to be interpreted as described in RFC 2119. However, for readability, these words do not appear in all uppercase letters in this specification.
All of the text of this specification is normative except sections explicitly marked as non-normative, examples, and notes. [RFC2119]
Examples in this specification are introduced with the words "for example"
or are set apart from the normative text with class="example"
,
like this:
This is an example of an informative example.
Informative notes begin with the word "Note" and are set apart from the
normative text with class="note"
, like this:
Note, this is an informative note.
Advisements are normative sections styled to evoke special attention and are
set apart from other normative text with <strong class="advisement">
, like
this:
UAs MUST provide an accessible alternative.
Conformance to this specification is defined for three conformance classes:
A style sheet is conformant to this specification if all of its statements that use syntax defined in this module are valid according to the generic CSS grammar and the individual grammars of each feature defined in this module.
A renderer is conformant to this specification if, in addition to interpreting the style sheet as defined by the appropriate specifications, it supports all the features defined by this specification by parsing them correctly and rendering the document accordingly. However, the inability of a UA to correctly render a document due to limitations of the device does not make the UA non-conformant. (For example, a UA is not required to render color on a monochrome monitor.)
An authoring tool is conformant to this specification if it writes style sheets that are syntactically correct according to the generic CSS grammar and the individual grammars of each feature in this module, and meet all other conformance requirements of style sheets as described in this module.
So that authors can exploit the forward-compatible parsing rules to assign fallback values, CSS renderers must treat as invalid (and ignore as appropriate) any at-rules, properties, property values, keywords, and other syntactic constructs for which they have no usable level of support. In particular, user agents must not selectively ignore unsupported component values and honor supported values in a single multi-value property declaration: if any value is considered invalid (as unsupported values must be), CSS requires that the entire declaration be ignored.
To avoid clashes with future CSS features, the CSS2.1 specification reserves a prefixed syntax for proprietary and experimental extensions to CSS.
Prior to a specification reaching the Candidate Recommendation stage in the W3C process, all implementations of a CSS feature are considered experimental. The CSS Working Group recommends that implementations use a vendor-prefixed syntax for such features, including those in W3C Working Drafts. This avoids incompatibilities with future changes in the draft.
Once a specification reaches the Candidate Recommendation stage, non-experimental implementations are possible, and implementors should release an unprefixed implementation of any CR-level feature they can demonstrate to be correctly implemented according to spec.
To establish and maintain the interoperability of CSS across implementations, the CSS Working Group requests that non-experimental CSS renderers submit an implementation report (and, if necessary, the testcases used for that implementation report) to the W3C before releasing an unprefixed implementation of any CSS features. Testcases submitted to W3C are subject to review and correction by the CSS Working Group.
Further information on submitting testcases and implementation reports can be found from on the CSS Working Group’s website at http://www.w3.org/Style/CSS/Test/. Questions should be directed to the [email protected] mailing list.
Name | Value | Initial | Applies to | Inh. | %ages | Media | Animatable | Computed value |
---|---|---|---|---|---|---|---|---|
wrap-flow | auto | both | start | end | minimum | maximum | clear | auto | block-level elements. | no | N/A | visual | no | as specified except for element’s whose float computed value is not none, in which case the computed value is auto. |
wrap-through | wrap | none | wrap | block-level elements | no | N/A | visual | no | as specified |
The current draft provides a model for exclusions without a collision-avoidance model. The existing exclusion model in CSS uses floats, which have both exclusion and collision-avoidance behavior. Concerns have been raised that allowing exclusions without collision avoidance could be harmful, particularly with absolutely-positioned elements. Three options should be considered: