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355 lines
21 KiB
HTML
355 lines
21 KiB
HTML
<!-- This Source Code Form is subject to the terms of the Mozilla Public
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- License, v. 2.0. If a copy of the MPL was not distributed with this
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- file, You can obtain one at http://mozilla.org/MPL/2.0/. -->
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<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
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<html>
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<head>
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<title>Layout Overview</title>
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<meta http-equiv="content-type"
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content="text/html; charset=ISO-8859-1">
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</head>
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<body>
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<h1>Layout System Overview</h1>
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<br>
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<h3>Layout's Job: Provide the Presentation</h3>
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Layout is primarily concerned with providing a presentation to an HTML or
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XML document. This presentation is typically formatted in accordance with
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the requirements of the <a href="http://www.w3.org/TR/REC-CSS1">CSS1</a>
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and <a href="http://www.w3.org/TR/REC-CSS2/">CSS2</a> specifications from
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the W3C. Presentation formatting is also required to provide compatibility
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with legacy browsers (Microsoft Internet Explorer and Netscape Navigator
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4.x). The decision about when to apply CSS-specified formatting and when
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to apply legacy formatting is controlled by the document's DOCTYPE specification.
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These layout modes are referred to as 'Standards' and 'NavQuirks' modes. (DOCTYPE
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and modes are explained in more detail <a
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href="http://www.mozilla.org/quality/help/bugzilla-helper.html">here</a>).<br>
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<br>
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The presentation generally is constrained by the width of the window in which
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the presentation is to be displayed, and a height that extends as far as
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necessary. This is referred to as the Galley Mode presentation, and is what
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one expects from a typical browser. Additionally, layout must support a paginated
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presentation, where the width of the presentation is constrained by the dimensions
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of the printed output (paper) and the height of each page is fixed. This
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paged presentation presents several challenges not present in the galley
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presentation, namely how to break up elements that are larger than a single
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page, and how to handle changes to page dimensions.<br>
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<br>
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The original design of the Layout system allowed for multiple, possibly different,
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presentations to be supported simultaneously from the same content model.
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In other words, the same HTML or XML document could be viewed as a normal
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galley presentation in a browser window, while simultaneously being presented
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in a paged presentation to a printer, or even an aural presentation to a
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speech-synthesizer. To date the only real use of this multiple presentation
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ability is seen in printing, where multiple presentations are managed, all
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connected to the same content model. (note: it is unclear if this is really
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a benefit - it may have been better to use a copy of the content model for
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each presentation, and to remove the complexity of managing separate presentations
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- analysis is needed here). The idea of supporting a non-visual presentation
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is interesting. Layout's support for aural presentations is undeveloped,
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though conceptually, it is possible and supported by the architecture.<br>
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<br>
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<h3>How Layout Does its Job: Frames and Reflow</h3>
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So, layout is concerned with providing a presentation, in galley or paged
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mode. Given a content model, how does the layout system actually create the
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presentation? Through the creation and management of frames. Frames are an
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encapsulation of a region on the screen, a region that contains geometry
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(size and location, stacking order). Generally frames correspond to the content
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elements, though there is often a one-to-many correspondence between content
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elements and frames. Layout creates frames for content based on either the
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specific HTML rules for an element or based on the CSS display type of the
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element. In the case of the HTML-specific elements, the frame types that
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correspond to the element are hard-coded, but in the more general case where
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the display type is needes, the layout system must determine that display
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type by using the Style System. A content element is passed to the Style
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System and a request is made to resolve the style for that element. This
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causes the Style System to apply all style rules that correspond to the element
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and results in a resolved Style Context - the style data specific to that
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element. The Layout module looks at the 'display' field of the style context
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to determine what kind of frame to create (block, inline, table, etc.). The
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style context is associated with the frame via a reference because it is
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needed for many other computations during the formatting of the frames.<br>
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<br>
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Once a frame is created for a content element, it must be formatted. We refer
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to this as 'laying out' the frame, or as 'reflowing' the frame. Each frame
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implements a Reflow method to compute its position and size, among other
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things. For more details on the Reflow mechanism, see the Reflow Overview
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document... The CSS formatting requirements present two distinct layout
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models: 1) the in-flow model, where the geometry of an element is influenced
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by the geometry of the elements that precede it, and 2) the positioned model,
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where the geometry of an element is not influenced by the geometry of the
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elements that precede it, or in any case, is influenced more locally. The
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in-flow cased is considered the 'normal' case, and corresponds to normal
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HTML formatting. The later case, called 'out of flow' puts the document author
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in control of the layout, and the author must specify the locations and sizes
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of all of the elements that are positioned. There is, of course, some complexity
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involved with managing these two models simultanelusly...<br>
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<br>
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So far the general flow of layout looks like this:<br>
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<br>
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1) Obtain a document's content model<br>
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2) Utilize the Style System to resolve the style of each element in the content
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model<br>
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3) Construct the frames that correspond to the content model, according to
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the resolved style data.<br>
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4) Perform the initial layout, or initial reflow, on the newly constructed
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frame.<br>
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<br>
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This is pretty straight-forward, but is complicated somewhat by the notion
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of <i>incrementalism</i>. One of the goals of the Layout system's design
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is to create parts of the presentation as they become available, rather than
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waiting for the entire document to be read, parsed, and then presented. This
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is a major benefit for large documents because the user does not have to wait
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for the 200th page of text to be read in before the first page can be displayed
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- they can start reading something right away. So really, this sequence of
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operations Resolve Style, Create Frame, Layout Frame, gets repeated many
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times as the content becomes available. In the normal in-flow case this is
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quite natural because the sequential addition of new content results in sequential
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addition of new frames, and because everything is in-flow, the new frames
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do not influence the geometry of the frames that have already been formatted.
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When out-of-flow frames are present this is a more difficult problem, however.
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Sometimes a content element comes in incrementally, and invalidates the formatting
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of some of the frames that precede it, frame that have already been formatted.
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In this case the Layout System has to detect that impact and reflow again
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the impacted frames. This is referred to as an <i>incremental reflow</i>.<br>
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<br>
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<a name="DHTML_interaction"></a>Another responsibility of layout is to manage
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dynamic changes to the content model, changes that occur after the document
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has been loaded and (possibly) presented. These dynamic changes are caused
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by manipulations of the content model via the <acronym
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title="Document Object Model">DOM<acronym></acronym></acronym> (generally
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through java script). When a content element is modified, added or removed,
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Layout is notified. If content elements have been inserted, new frames are
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created and formatted (and impacts to other frames are managed by performing
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further incremental reflows). If content is removed, the corresponding frames
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are destroyed (again, impacts to other elements are managed). If a content
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element is modified, layout must determine if the chage influences the formatting
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of that or other elements' presentations, and must then reformat, or re-reflow,
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the impacted elements. In all cases, the determination of the impact is critical
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to avoid either the problem of not updating impacted elements, thus presenting
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an invalid presentation, or updating too much of the presentation and thus
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doing too much work, potentially causing performance problems.<br>
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<br>
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One very special case of dynamic content manipulation is the HTML Editor.
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Layout is used to implement both a full-blown WYSIWYG HTML editor, and a single
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and multi-line text entry control. In both cases, the content is manipulated
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by the user (via the DOM) and the resulting visual impacts must be shown as
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quickly as possible, without disconcerting flicker or other artifacts that
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might bother the user. Consider a text entry field: the user types text into
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a form on the web. As the user types a new character it is inserted into
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the content model. This causes layout to be notified that a new piece of
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content has been entered, which causes Layout to create a new frame and format
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it. This must happen very fast, so the user's typing is not delayed. In the
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case of the WYSIWYG HTML editor, the user expects that the modifications
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they make to the document will apear immediately, not seconds later. This
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is especially critical when the user is typing into the document: it would
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be quite unusable if typing a character at the end of a document in the HTML
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editor caused the entire document to be reformated - it would be too slow,
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at least on low-end machines. Thus the HTML editor and text controls put
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considerable performance requirements on the layout system's handling of dynamic
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content manipulation.<br>
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<h3>The Fundamentals of Frames: Block and Line</h3>
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There are many types of frames that are designed to model various formatting
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requirements of different HTML and XML elements. CSS2 defines several (block,
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inline, list-item, marker, run-in, compact, and various table types) and
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the standard HTML form controls require their own special frame types to
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be formatted as expected. The most essential frame types are Block and Inline,
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and these correspond to the most important Layout concepts, the Block and
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Line.<br>
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<br>
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A block is a rectangular region that is composed of one or more lines. A
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line is a single row of text or other presentational elements. All layout
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happens in the context of a block, and all of the contents of a block are
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formatted into lines within that block. As the width of a block is changed,
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the contents of the lines must be reformatted. consider for example a large
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paragraph of text sitting in paragraph:<br>
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<br>
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<pre><p><br> We need documentation for users, web developers, and developers working
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on Mozilla. If you write your own code, document it. Much of the
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existing code <b>isn’t very well documented</b>. In the process of figuring
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things out, try and document your discoveries.
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If you’d like to contribute, let us know.<br></p></pre>
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There is one block that corresponds to the <p> element, and then a number
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of lines of text that correspond to the text. As the width of the block changes
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(due to the window being resized, for example) the length of the lines within
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it changes, and thus more or less text appears on each line. The block is
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responsible for managing the lines. Note that lines may contain only inline
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elements, whereas block may contain both inline elements and other blocks.<br>
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<h3>Other Layout Models: XUL</h3>
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In addition to managing CSS-defined formatting, the layout system provides
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a way to integrate other layout schemes into the presentation. Currently
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layout supports the formatting of XUL elements, which utilize a constraint-based
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layout language. The Box is introduced into the layout system's frame model
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via an adapter (BoxToBlockAdapter) that translates the normal layout model
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into the box formatting model. Conceptually, this could be used to introduce
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other layout systems, but it might be worth noting that there was no specific
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facility designed into the layout system to accommodate this. Layout deals
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with frames, but as long as the layout system being considered has no need
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to influence presentational elements from other layout systems, it can be
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adapted using a frame-based adapter, ala XUL.<br>
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<br>
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<h2>Core Classes</h2>
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At the highest level, the layout system is a group of classes that manages
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the presentation within a fixed width and either unlimited height (galley
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presentation) or discrete page heights (paged presentation). Digging just
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a tiny bit deeper into the system we find that the complexity (and interest)
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mushrooms very rapidly. The idea of formatting text and graphics to fit within
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a given screen area sounds simple, but the interaction of in-flow and out-of-flow
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elements, the considerations of incremental page rendering, and the performance
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concerns of dynamic content changes makes for a system that has a lot of
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work to do, and a lot of data to manage. Here are the high-level classes
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that make up the layout system. Of course this is a small percentage of the
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total clases in layout (see the detailed design documents for the details
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on all of the classes, in the context of their actual role).<br>
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<h3>Presentation Shell / Presentation Context</h3>
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Together the presentation shell and the presentation context provide the
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root of the current presentation. The original design provided for a single
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Presentation Shell to manage multiple Presentation Contexts, to allow a single
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shell to handle multiple presentations. It is unclear if this is really possible,
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however, and in general it is assumed that there is a one-to-one correspondence
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between a presentation shell and a presentation context. The two classes
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should probably be folded into one, or the distinction between them formalized
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and utilized in the code. The Presentation Shell currently owns a controlling
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reference to the Presentation Context. Further references to the Presentation
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Shell and Presentation Context will be made by using the term Presentation
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Shell.<br>
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<br>
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The Presentation Shell is the root of the presentation, and as such it owns
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and manges a lot of layout objects that are used to create and maintain a
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presentation (<font color="#990000">note that the DocumentViewer is the owner
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of the Presentation Shell, and in some cases the creator of the objects
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used by the Presentation Shell to manage the presentation. More details
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of the Document Viewer are needed here...</font>). The Presentation Shell,
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or PresShell, is first and foremost the owner of the formatting objects,
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the frames. Management of the frames is facilitated by the Frame Manager,
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an instance of which the PresShell owns. Additionally, the PresShell provides
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a specialized storage heap for frames, called an Arena, that is used to make
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allocation and deallocation of frames faster and less likely to fragment
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the global heap. <br>
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<br>
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The Presentation Shell also owns the root of the Style System, the Style
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Set. In many cases the Presentation Shell provides pass-through methods to
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the Style Set, and generally uses the Style Set to do style resolution and
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Style Sheet management.<br>
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<br>
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One of the critical aspects of the Presentation Shell is the handling of
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frame formatting, or reflow. The Presentation Shell owns and maintains a
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Reflow Queue where requests for reflow are held until it is time to perform
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a reflow, and then pulled out and executed.<br>
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<br>
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It is also important to see the Presentation Shell as an observer of many
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kinds of events in the system. For example, the Presentation Shell receives
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notifications of document load events, which are used to trigger updates
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to the formatting of the frames in some cases. The Presentation Shell also
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receives notifications about changes in cursor and focus states, whereby
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the selection and caret updates can be made visible.<br>
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<br>
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There are dozens of other data objects managed by the Presentation Shell
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and Presentation Context, all necessary for the internal implementation.
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These data members and their roles will be discussed in the Presentation
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Shell design documents. For this overview, the Frames, Style Set, and Reflow
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Queue are the most important high-level parts of the Presentation Shell.<br>
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<h3>Frame Manager</h3>
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The Frame Manager is used to, well, manage frames. Frames are basic formatting
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objects used in layout, and the Frame Manager is responsible for making frames
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available to clients. There are several collections of frames maintained
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by the Frame Manager. The most basic is a list of all of the frames starting
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at the root frame. Clients generally do not want to incur the expense of
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traversing all of the frames from the root to find the frame they are interested
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in, so the Frame Manager provides some other mappings based on the needs of
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the clients.<br>
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<br>
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The most crucial mapping is the Primary Frame Map. This collection provides
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access to a frame that is designated as the primary frame for a piece of
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content. When a frame is created for a piece of content, it may be the 'primary
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frame' for that content element (content elements that require multiple
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frames have primary and secondary frames; only the primary frame is mapped).
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The Frame Manager is then instructed to store the mapping from a content
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element to the primary frame. This mapping facilitates updates to frames
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that result in changes to content (see <a href="#DHTML_interaction">discussion
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above</a>).<br>
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<br>
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Another important mapping maintained by the Frame Manager is that of the
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undisplayed content. When a content element is defined as having no display
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(via the CSS property 'display:none') it is noted by a special entry in the
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undisplayed map. This is important because no frame is generated for these
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elements yet changes to their style values and to the content elements still
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need to be handled by layout, in case their display state changes from 'none'
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to something else. The Undisplayed Map keeps track of all content and style
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data for elements that currently have no frames. (<font color="#990000">note:
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the original architecture of the layout system included the creation of frames
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for elements with no display. This changed somewhere along the line, but
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there is no indication of why the change was made. Presumably it is more
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time and space-efficient to prevent frame creation for elements with no display.)</font><br>
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<br>
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The Frame Manager also maintains a list of Forms and Form Controls, as <i>content
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nodes</i>. This is presumably related to the fact that layout is responsible
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for form submission, but this is a design flaw that is being corrected by
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moving form submission into the content world. These collections of Forms
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and Form Controls should be removed eventually.<br>
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<br>
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<h3>CSS Frame Constructor</h3>
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The Frame Constructor is responsible for resolving style values for content
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elements and creating the appropriate frames corresponding to that element.
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In addition to managing the creation of frames, the Frame Constructor is
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responsible for managing changes to the frames. Frame Construction is generally
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achieved by the use of stateless methods, but in some cases there is the
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need to provide context to frames created as children of a container. The
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Frame Manager uses the Frame Constructor State class to manage the important
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information about the container of a frame being created (<font
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color="#990000">and lots of other state-stuff too - need to describe more
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fully</font>).<br>
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<h3>Frame</h3>
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The Frame is the most fundamental layout object. The class nsFrame is the
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base class for all frames, and it inherits from the base class nsIFrame (note:
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nsIFrame is NOT an interface, it is an abstract base class. It was once an
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interface but was changed to be a base class when the Style System was modified
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- the name was not changed to reflect that it is not an interface). The Frame
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provides generic functionality that can be used by subclasses but cannot
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itself be instantiated.<br>
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<br>
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nsFrame:<br>
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The Frame provides a mechanism to navigate to a parent frame as well as child
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frames. All frames have a parent except for the root frame. The Frame is
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able to provide a reference to its parent and to its children upon request.
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The basic data that all frames maintain include: a rectangle describing the
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dimensions of the frame, a pointer to the content that the frame is representing,
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the style context representing all of the stylistic data corresponding to
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the frame, a parent frame pointer, a sibling frame pointer, and a series
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of state bits.<br>
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<br>
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Frames are chained primarily by the sibling links. Given a frame, one can
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walk the sibling of that frame, and can also navigate back up to the parent
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frame. Specializations of the frame also allow for the management of child
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frames; this functionality is provided by the Container Frame.<br>
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<br>
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Container Frames:<br>
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The Container Frame is a specialization of the base frame class that introduces
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the ability to manage a list of child frames. All frames that need to manage
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child frames (e.g. frames that are not themselves leaf frames) derive from
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Container Frame.<br>
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<br>
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<br>
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<br>
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<h3>Block Frame<br>
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</h3>
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<h3>Reflow State</h3>
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<h3>Reflow Metrics<br>
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</h3>
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<h3>Space Manager<br>
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</h3>
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<h3>StyleSet</h3>
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<h3>StyleContext</h3>
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<br>
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<br>
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<hr width="100%" size="2"><br>
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<b>Document History:<br>
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</b>
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<ul>
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<li>05/20/2002 - Marc Attinasi: created, wrote highest level introduction
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to general layout concepts, links to relevant specs and existing documents.<br>
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</li>
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</ul>
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</body>
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</html>
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