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128 lines
5.8 KiB
Plaintext
128 lines
5.8 KiB
Plaintext
This is the "Mikulas' HTML Processor". The parser and renderer we actually use.
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It's scary, yes.
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Parser - renderer interaction
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=============================
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(See also doc/hacking.txt. Incoherent (and possibly misleaded on some points;
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don't trust it to the letter) rambling follows.)
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The parser is written modularily so it is separated from the renderer and can
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be actually used with a different renderer as well (they do that in Links2,
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using graphics renderer with the current parser). The entry point from the rest
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of ELinks is inside the renderer, which sets up couple of callbacks (like "put
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this text on screen" or "special element indicator", where special element
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might be a <hr>, a link or a table) and calls the parser.
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Usually, renderer just lets the parser chew through the document on its own and
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just processes the callbacks, sometimes it kicks in though - at that point it
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does a "management override", skips a chunk of the source and resumes the parser
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after it's over. Most commonly it does this with tables - when you hit a table,
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html_table() does basically nothing and the renderer at that point skips to
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</table>. What happens with the table you ask? The renderer calls itself
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recursively on just the table; that means a separate parser instance is run for
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the table, and for each distinct cell a new renderer instance is called. The
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table is (parsed and) rendered two times - first to just find out the wanted
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cell sizes, then it optimizes that and figures out the layout and does a second
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rendering pass with figured out cell sizes enforced and cells actually written
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out to the canvas.
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Box model plans
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===============
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What you've seen above - renderer called recursively on table and each cell -
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is a cheap substitute for box model. Basically, now except of those cases the
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renderer just writes on the canvas sequentially as the text comes in, moving
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the pen only rightwards and down; there are only some parameters like
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indentation and border sizes which affect the rightwards and down motion.
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It needs to be changed so that the renderer maintains a *box model* - at each
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moment the text being written out is inside a stack of boxes. This is what
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the table renderer achieves by just making each box a separate renderer
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instance - you can't get away without boxes when rendering tables. But boxes
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are essential for all block elements at the moment you go CSS, and we went CSS
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and would like to support floating elements.
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Even without float, boxes will have an immediate advantage since you will be
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able to e.g. set their background - now e.g. slashdot looks really ugly since
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it has bg set on some block elements but since we have no box model we set the
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background only on the rendered text itself, not the rectangural canvas around
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it.
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Boxes can be probably implemented by just transmitting information "here a new
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box (block element) begins" and "here a box ends" from parser to the renderer,
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and maintaining box stack with some geometry information in the renderer (and
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wow, you've just got DOM for block elements if you turn this from a temporary
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stack to a persistent tree; but we might not want to do that, at least not
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unconditionally).
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Rendering boxes
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~~~~~~~~~~~~~~~
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When you are actually rendering, you must not apply the attributes on the whole
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box after rendering; inline elements might have custom attributes and we won't
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have boxes for those. Also, you don't know the box width until you've already
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rendered it. Several possibilities occur to me:
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(i) Dry-run each box to find out the dimensions, prefill the rectangle with
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attributes and then hard-render. Awfully quadratic, would kill performance.
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(ii) Post-fill: for each line and each box in stack, remember "content width".
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After the box is over you look at its each line and post-fill it from the
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content width to the box width (at both sides).
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(iii) Maximalistic: assume maximal spread and reduce afterwards. Basically fill
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the whole line (from starting X coordinate) with the box attributes and when
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the box is done rendering, fill the rest of all its lines (from ending X
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coordinate) with the parent's box attributes.
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I like (iii) most.
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Boxes and floats
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~~~~~~~~~~~~~~~~
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In order to be able to support floats, you want to be able to revisit previous
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boxes and resize them based on the new box. To do that, you need to remember
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parser contexts for all the boxes in the stack (you should have only few of
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those). If you hit a floating box, you:
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* dry-render it to find out the dimensions and then do the dimensions
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negotiation like you'd do with cell tables; or maybe a different one,
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I didn't read the specs on it; don't put anything on canvas
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* pop the floating box
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* duplicate the parent box, so you have a "sibling box" that contains
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all the content hit so far; limit its parser context to reach
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only to the start of your floating box
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Note that you don't want to merge multiple float boxes together.
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So, an implementation might have something like this instead of the
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"duplication":
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struct box {
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struct box floaters[];
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}
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where floaters are children of this box; normally you have one
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which is mostly read-only and contains everything rendered so far,
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and one which points to the next box in your stack. When you process
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a floating box, it gets a separate entry in the floaters[] array
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and won't get merged to floaters[0].
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* wipe the sibling box (floaters[*]) from canvas
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* rerender the sibling box with calculated geometry constraints
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* rerender the floating box dtto
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(This might be modified based on how floats are actually supposed to behave;
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I'm not sure of that. ;-) ) This algorithm is careful not to keep a list of
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all sibling boxes in memory since with a simple long document a mere sequence
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of paragraphs would cost us huge amount of memory. There's probably no way
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around keeping a list of sibling floating boxes in memory, though.
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