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- <!doctype html>
- <title>CodeMirror: Internals</title>
- <meta charset="utf-8"/>
- <link rel=stylesheet href="docs.css">
- <style>dl dl {margin: 0;} .update {color: #d40 !important}</style>
- <script src="activebookmark.js"></script>
- <div id=nav>
- <a href="https://codemirror.net"><h1>CodeMirror</h1><img id=logo src="logo.png"></a>
- <ul>
- <li><a href="../index.html">Home</a>
- <li><a href="manual.html">Manual</a>
- <li><a href="https://github.com/codemirror/codemirror">Code</a>
- </ul>
- <ul>
- <li><a href="#top">Introduction</a></li>
- <li><a href="#approach">General Approach</a></li>
- <li><a href="#input">Input</a></li>
- <li><a href="#selection">Selection</a></li>
- <li><a href="#update">Intelligent Updating</a></li>
- <li><a href="#parse">Parsing</a></li>
- <li><a href="#summary">What Gives?</a></li>
- <li><a href="#btree">Content Representation</a></li>
- <li><a href="#keymap">Key Maps</a></li>
- </ul>
- </div>
- <article>
- <h2 id=top>(Re-) Implementing A Syntax-Highlighting Editor in JavaScript</h2>
- <p style="font-size: 85%" id="intro">
- <strong>Topic:</strong> JavaScript, code editor implementation<br>
- <strong>Author:</strong> Marijn Haverbeke<br>
- <strong>Date:</strong> March 2nd 2011 (updated November 13th 2011)
- </p>
- <p style="padding: 0 3em 0 2em"><strong>Caution</strong>: this text was written briefly after
- version 2 was initially written. It no longer (even including the
- update at the bottom) fully represents the current implementation. I'm
- leaving it here as a historic document. For more up-to-date
- information, look at the entries
- tagged <a href="http://marijnhaverbeke.nl/blog/#cm-internals">cm-internals</a>
- on my blog.</p>
- <p>This is a followup to
- my <a href="https://codemirror.net/story.html">Brutal Odyssey to the
- Dark Side of the DOM Tree</a> story. That one describes the
- mind-bending process of implementing (what would become) CodeMirror 1.
- This one describes the internals of CodeMirror 2, a complete rewrite
- and rethink of the old code base. I wanted to give this piece another
- Hunter Thompson copycat subtitle, but somehow that would be out of
- place—the process this time around was one of straightforward
- engineering, requiring no serious mind-bending whatsoever.</p>
- <p>So, what is wrong with CodeMirror 1? I'd estimate, by mailing list
- activity and general search-engine presence, that it has been
- integrated into about a thousand systems by now. The most prominent
- one, since a few weeks,
- being <a href="http://googlecode.blogspot.com/2011/01/make-quick-fixes-quicker-on-google.html">Google
- code's project hosting</a>. It works, and it's being used widely.</p>
- <p>Still, I did not start replacing it because I was bored. CodeMirror
- 1 was heavily reliant on <code>designMode</code>
- or <code>contentEditable</code> (depending on the browser). Neither of
- these are well specified (HTML5 tries
- to <a href="http://www.w3.org/TR/html5/editing.html#contenteditable">specify</a>
- their basics), and, more importantly, they tend to be one of the more
- obscure and buggy areas of browser functionality—CodeMirror, by using
- this functionality in a non-typical way, was constantly running up
- against browser bugs. WebKit wouldn't show an empty line at the end of
- the document, and in some releases would suddenly get unbearably slow.
- Firefox would show the cursor in the wrong place. Internet Explorer
- would insist on linkifying everything that looked like a URL or email
- address, a behaviour that can't be turned off. Some bugs I managed to
- work around (which was often a frustrating, painful process), others,
- such as the Firefox cursor placement, I gave up on, and had to tell
- user after user that they were known problems, but not something I
- could help.</p>
- <p>Also, there is the fact that <code>designMode</code> (which seemed
- to be less buggy than <code>contentEditable</code> in Webkit and
- Firefox, and was thus used by CodeMirror 1 in those browsers) requires
- a frame. Frames are another tricky area. It takes some effort to
- prevent getting tripped up by domain restrictions, they don't
- initialize synchronously, behave strangely in response to the back
- button, and, on several browsers, can't be moved around the DOM
- without having them re-initialize. They did provide a very nice way to
- namespace the library, though—CodeMirror 1 could freely pollute the
- namespace inside the frame.</p>
- <p>Finally, working with an editable document means working with
- selection in arbitrary DOM structures. Internet Explorer (8 and
- before) has an utterly different (and awkward) selection API than all
- of the other browsers, and even among the different implementations of
- <code>document.selection</code>, details about how exactly a selection
- is represented vary quite a bit. Add to that the fact that Opera's
- selection support tended to be very buggy until recently, and you can
- imagine why CodeMirror 1 contains 700 lines of selection-handling
- code.</p>
- <p>And that brings us to the main issue with the CodeMirror 1
- code base: The proportion of browser-bug-workarounds to real
- application code was getting dangerously high. By building on top of a
- few dodgy features, I put the system in a vulnerable position—any
- incompatibility and bugginess in these features, I had to paper over
- with my own code. Not only did I have to do some serious stunt-work to
- get it to work on older browsers (as detailed in the
- previous <a href="https://codemirror.net/story.html">story</a>), things
- also kept breaking in newly released versions, requiring me to come up
- with <em>new</em> scary hacks in order to keep up. This was starting
- to lose its appeal.</p>
- <section id=approach>
- <h2>General Approach</h2>
- <p>What CodeMirror 2 does is try to sidestep most of the hairy hacks
- that came up in version 1. I owe a lot to the
- <a href="http://ace.ajax.org">ACE</a> editor for inspiration on how to
- approach this.</p>
- <p>I absolutely did not want to be completely reliant on key events to
- generate my input. Every JavaScript programmer knows that key event
- information is horrible and incomplete. Some people (most awesomely
- Mihai Bazon with <a href="http://ymacs.org">Ymacs</a>) have been able
- to build more or less functioning editors by directly reading key
- events, but it takes a lot of work (the kind of never-ending, fragile
- work I described earlier), and will never be able to properly support
- things like multi-keystoke international character
- input. <a href="#keymap" class="update">[see below for caveat]</a></p>
- <p>So what I do is focus a hidden textarea, and let the browser
- believe that the user is typing into that. What we show to the user is
- a DOM structure we built to represent his document. If this is updated
- quickly enough, and shows some kind of believable cursor, it feels
- like a real text-input control.</p>
- <p>Another big win is that this DOM representation does not have to
- span the whole document. Some CodeMirror 1 users insisted that they
- needed to put a 30 thousand line XML document into CodeMirror. Putting
- all that into the DOM takes a while, especially since, for some
- reason, an editable DOM tree is slower than a normal one on most
- browsers. If we have full control over what we show, we must only
- ensure that the visible part of the document has been added, and can
- do the rest only when needed. (Fortunately, the <code>onscroll</code>
- event works almost the same on all browsers, and lends itself well to
- displaying things only as they are scrolled into view.)</p>
- </section>
- <section id="input">
- <h2>Input</h2>
- <p>ACE uses its hidden textarea only as a text input shim, and does
- all cursor movement and things like text deletion itself by directly
- handling key events. CodeMirror's way is to let the browser do its
- thing as much as possible, and not, for example, define its own set of
- key bindings. One way to do this would have been to have the whole
- document inside the hidden textarea, and after each key event update
- the display DOM to reflect what's in that textarea.</p>
- <p>That'd be simple, but it is not realistic. For even medium-sized
- document the editor would be constantly munging huge strings, and get
- terribly slow. What CodeMirror 2 does is put the current selection,
- along with an extra line on the top and on the bottom, into the
- textarea.</p>
- <p>This means that the arrow keys (and their ctrl-variations), home,
- end, etcetera, do not have to be handled specially. We just read the
- cursor position in the textarea, and update our cursor to match it.
- Also, copy and paste work pretty much for free, and people get their
- native key bindings, without any special work on my part. For example,
- I have emacs key bindings configured for Chrome and Firefox. There is
- no way for a script to detect this. <a class="update"
- href="#keymap">[no longer the case]</a></p>
- <p>Of course, since only a small part of the document sits in the
- textarea, keys like page up and ctrl-end won't do the right thing.
- CodeMirror is catching those events and handling them itself.</p>
- </section>
- <section id="selection">
- <h2>Selection</h2>
- <p>Getting and setting the selection range of a textarea in modern
- browsers is trivial—you just use the <code>selectionStart</code>
- and <code>selectionEnd</code> properties. On IE you have to do some
- insane stuff with temporary ranges and compensating for the fact that
- moving the selection by a 'character' will treat \r\n as a single
- character, but even there it is possible to build functions that
- reliably set and get the selection range.</p>
- <p>But consider this typical case: When I'm somewhere in my document,
- press shift, and press the up arrow, something gets selected. Then, if
- I, still holding shift, press the up arrow again, the top of my
- selection is adjusted. The selection remembers where its <em>head</em>
- and its <em>anchor</em> are, and moves the head when we shift-move.
- This is a generally accepted property of selections, and done right by
- every editing component built in the past twenty years.</p>
- <p>But not something that the browser selection APIs expose.</p>
- <p>Great. So when someone creates an 'upside-down' selection, the next
- time CodeMirror has to update the textarea, it'll re-create the
- selection as an 'upside-up' selection, with the anchor at the top, and
- the next cursor motion will behave in an unexpected way—our second
- up-arrow press in the example above will not do anything, since it is
- interpreted in exactly the same way as the first.</p>
- <p>No problem. We'll just, ehm, detect that the selection is
- upside-down (you can tell by the way it was created), and then, when
- an upside-down selection is present, and a cursor-moving key is
- pressed in combination with shift, we quickly collapse the selection
- in the textarea to its start, allow the key to take effect, and then
- combine its new head with its old anchor to get the <em>real</em>
- selection.</p>
- <p>In short, scary hacks could not be avoided entirely in CodeMirror
- 2.</p>
- <p>And, the observant reader might ask, how do you even know that a
- key combo is a cursor-moving combo, if you claim you support any
- native key bindings? Well, we don't, but we can learn. The editor
- keeps a set known cursor-movement combos (initialized to the
- predictable defaults), and updates this set when it observes that
- pressing a certain key had (only) the effect of moving the cursor.
- This, of course, doesn't work if the first time the key is used was
- for extending an inverted selection, but it works most of the
- time.</p>
- </section>
- <section id="update">
- <h2>Intelligent Updating</h2>
- <p>One thing that always comes up when you have a complicated internal
- state that's reflected in some user-visible external representation
- (in this case, the displayed code and the textarea's content) is
- keeping the two in sync. The naive way is to just update the display
- every time you change your state, but this is not only error prone
- (you'll forget), it also easily leads to duplicate work on big,
- composite operations. Then you start passing around flags indicating
- whether the display should be updated in an attempt to be efficient
- again and, well, at that point you might as well give up completely.</p>
- <p>I did go down that road, but then switched to a much simpler model:
- simply keep track of all the things that have been changed during an
- action, and then, only at the end, use this information to update the
- user-visible display.</p>
- <p>CodeMirror uses a concept of <em>operations</em>, which start by
- calling a specific set-up function that clears the state and end by
- calling another function that reads this state and does the required
- updating. Most event handlers, and all the user-visible methods that
- change state are wrapped like this. There's a method
- called <code>operation</code> that accepts a function, and returns
- another function that wraps the given function as an operation.</p>
- <p>It's trivial to extend this (as CodeMirror does) to detect nesting,
- and, when an operation is started inside an operation, simply
- increment the nesting count, and only do the updating when this count
- reaches zero again.</p>
- <p>If we have a set of changed ranges and know the currently shown
- range, we can (with some awkward code to deal with the fact that
- changes can add and remove lines, so we're dealing with a changing
- coordinate system) construct a map of the ranges that were left
- intact. We can then compare this map with the part of the document
- that's currently visible (based on scroll offset and editor height) to
- determine whether something needs to be updated.</p>
- <p>CodeMirror uses two update algorithms—a full refresh, where it just
- discards the whole part of the DOM that contains the edited text and
- rebuilds it, and a patch algorithm, where it uses the information
- about changed and intact ranges to update only the out-of-date parts
- of the DOM. When more than 30 percent (which is the current heuristic,
- might change) of the lines need to be updated, the full refresh is
- chosen (since it's faster to do than painstakingly finding and
- updating all the changed lines), in the other case it does the
- patching (so that, if you scroll a line or select another character,
- the whole screen doesn't have to be
- re-rendered). <span class="update">[the full-refresh
- algorithm was dropped, it wasn't really faster than the patching
- one]</span></p>
- <p>All updating uses <code>innerHTML</code> rather than direct DOM
- manipulation, since that still seems to be by far the fastest way to
- build documents. There's a per-line function that combines the
- highlighting, <a href="manual.html#markText">marking</a>, and
- selection info for that line into a snippet of HTML. The patch updater
- uses this to reset individual lines, the refresh updater builds an
- HTML chunk for the whole visible document at once, and then uses a
- single <code>innerHTML</code> update to do the refresh.</p>
- </section>
- <section id="parse">
- <h2>Parsers can be Simple</h2>
- <p>When I wrote CodeMirror 1, I
- thought <a href="https://codemirror.net/story.html#parser">interruptible
- parsers</a> were a hugely scary and complicated thing, and I used a
- bunch of heavyweight abstractions to keep this supposed complexity
- under control: parsers
- were <a href="http://bob.pythonmac.org/archives/2005/07/06/iteration-in-javascript/">iterators</a>
- that consumed input from another iterator, and used funny
- closure-resetting tricks to copy and resume themselves.</p>
- <p>This made for a rather nice system, in that parsers formed strictly
- separate modules, and could be composed in predictable ways.
- Unfortunately, it was quite slow (stacking three or four iterators on
- top of each other), and extremely intimidating to people not used to a
- functional programming style.</p>
- <p>With a few small changes, however, we can keep all those
- advantages, but simplify the API and make the whole thing less
- indirect and inefficient. CodeMirror
- 2's <a href="manual.html#modeapi">mode API</a> uses explicit state
- objects, and makes the parser/tokenizer a function that simply takes a
- state and a character stream abstraction, advances the stream one
- token, and returns the way the token should be styled. This state may
- be copied, optionally in a mode-defined way, in order to be able to
- continue a parse at a given point. Even someone who's never touched a
- lambda in his life can understand this approach. Additionally, far
- fewer objects are allocated in the course of parsing now.</p>
- <p>The biggest speedup comes from the fact that the parsing no longer
- has to touch the DOM though. In CodeMirror 1, on an older browser, you
- could <em>see</em> the parser work its way through the document,
- managing some twenty lines in each 50-millisecond time slice it got. It
- was reading its input from the DOM, and updating the DOM as it went
- along, which any experienced JavaScript programmer will immediately
- spot as a recipe for slowness. In CodeMirror 2, the parser usually
- finishes the whole document in a single 100-millisecond time slice—it
- manages some 1500 lines during that time on Chrome. All it has to do
- is munge strings, so there is no real reason for it to be slow
- anymore.</p>
- </section>
- <section id="summary">
- <h2>What Gives?</h2>
- <p>Given all this, what can you expect from CodeMirror 2?</p>
- <ul>
- <li><strong>Small.</strong> the base library is
- some <span class="update">45k</span> when minified
- now, <span class="update">17k</span> when gzipped. It's smaller than
- its own logo.</li>
- <li><strong>Lightweight.</strong> CodeMirror 2 initializes very
- quickly, and does almost no work when it is not focused. This means
- you can treat it almost like a textarea, have multiple instances on a
- page without trouble.</li>
- <li><strong>Huge document support.</strong> Since highlighting is
- really fast, and no DOM structure is being built for non-visible
- content, you don't have to worry about locking up your browser when a
- user enters a megabyte-sized document.</li>
- <li><strong>Extended API.</strong> Some things kept coming up in the
- mailing list, such as marking pieces of text or lines, which were
- extremely hard to do with CodeMirror 1. The new version has proper
- support for these built in.</li>
- <li><strong>Tab support.</strong> Tabs inside editable documents were,
- for some reason, a no-go. At least six different people announced they
- were going to add tab support to CodeMirror 1, none survived (I mean,
- none delivered a working version). CodeMirror 2 no longer removes tabs
- from your document.</li>
- <li><strong>Sane styling.</strong> <code>iframe</code> nodes aren't
- really known for respecting document flow. Now that an editor instance
- is a plain <code>div</code> element, it is much easier to size it to
- fit the surrounding elements. You don't even have to make it scroll if
- you do not <a href="../demo/resize.html">want to</a>.</li>
- </ul>
- <p>On the downside, a CodeMirror 2 instance is <em>not</em> a native
- editable component. Though it does its best to emulate such a
- component as much as possible, there is functionality that browsers
- just do not allow us to hook into. Doing select-all from the context
- menu, for example, is not currently detected by CodeMirror.</p>
- <p id="changes" style="margin-top: 2em;"><span style="font-weight:
- bold">[Updates from November 13th 2011]</span> Recently, I've made
- some changes to the codebase that cause some of the text above to no
- longer be current. I've left the text intact, but added markers at the
- passages that are now inaccurate. The new situation is described
- below.</p>
- </section>
- <section id="btree">
- <h2>Content Representation</h2>
- <p>The original implementation of CodeMirror 2 represented the
- document as a flat array of line objects. This worked well—splicing
- arrays will require the part of the array after the splice to be
- moved, but this is basically just a simple <code>memmove</code> of a
- bunch of pointers, so it is cheap even for huge documents.</p>
- <p>However, I recently added line wrapping and code folding (line
- collapsing, basically). Once lines start taking up a non-constant
- amount of vertical space, looking up a line by vertical position
- (which is needed when someone clicks the document, and to determine
- the visible part of the document during scrolling) can only be done
- with a linear scan through the whole array, summing up line heights as
- you go. Seeing how I've been going out of my way to make big documents
- fast, this is not acceptable.</p>
- <p>The new representation is based on a B-tree. The leaves of the tree
- contain arrays of line objects, with a fixed minimum and maximum size,
- and the non-leaf nodes simply hold arrays of child nodes. Each node
- stores both the amount of lines that live below them and the vertical
- space taken up by these lines. This allows the tree to be indexed both
- by line number and by vertical position, and all access has
- logarithmic complexity in relation to the document size.</p>
- <p>I gave line objects and tree nodes parent pointers, to the node
- above them. When a line has to update its height, it can simply walk
- these pointers to the top of the tree, adding or subtracting the
- difference in height from each node it encounters. The parent pointers
- also make it cheaper (in complexity terms, the difference is probably
- tiny in normal-sized documents) to find the current line number when
- given a line object. In the old approach, the whole document array had
- to be searched. Now, we can just walk up the tree and count the sizes
- of the nodes coming before us at each level.</p>
- <p>I chose B-trees, not regular binary trees, mostly because they
- allow for very fast bulk insertions and deletions. When there is a big
- change to a document, it typically involves adding, deleting, or
- replacing a chunk of subsequent lines. In a regular balanced tree, all
- these inserts or deletes would have to be done separately, which could
- be really expensive. In a B-tree, to insert a chunk, you just walk
- down the tree once to find where it should go, insert them all in one
- shot, and then break up the node if needed. This breaking up might
- involve breaking up nodes further up, but only requires a single pass
- back up the tree. For deletion, I'm somewhat lax in keeping things
- balanced—I just collapse nodes into a leaf when their child count goes
- below a given number. This means that there are some weird editing
- patterns that may result in a seriously unbalanced tree, but even such
- an unbalanced tree will perform well, unless you spend a day making
- strangely repeating edits to a really big document.</p>
- </section>
- <section id="keymap">
- <h2>Keymaps</h2>
- <p><a href="#approach">Above</a>, I claimed that directly catching key
- events for things like cursor movement is impractical because it
- requires some browser-specific kludges. I then proceeded to explain
- some awful <a href="#selection">hacks</a> that were needed to make it
- possible for the selection changes to be detected through the
- textarea. In fact, the second hack is about as bad as the first.</p>
- <p>On top of that, in the presence of user-configurable tab sizes and
- collapsed and wrapped lines, lining up cursor movement in the textarea
- with what's visible on the screen becomes a nightmare. Thus, I've
- decided to move to a model where the textarea's selection is no longer
- depended on.</p>
- <p>So I moved to a model where all cursor movement is handled by my
- own code. This adds support for a goal column, proper interaction of
- cursor movement with collapsed lines, and makes it possible for
- vertical movement to move through wrapped lines properly, instead of
- just treating them like non-wrapped lines.</p>
- <p>The key event handlers now translate the key event into a string,
- something like <code>Ctrl-Home</code> or <code>Shift-Cmd-R</code>, and
- use that string to look up an action to perform. To make keybinding
- customizable, this lookup goes through
- a <a href="manual.html#option_keyMap">table</a>, using a scheme that
- allows such tables to be chained together (for example, the default
- Mac bindings fall through to a table named 'emacsy', which defines
- basic Emacs-style bindings like <code>Ctrl-F</code>, and which is also
- used by the custom Emacs bindings).</p>
- <p>A new
- option <a href="manual.html#option_extraKeys"><code>extraKeys</code></a>
- allows ad-hoc keybindings to be defined in a much nicer way than what
- was possible with the
- old <a href="manual.html#option_onKeyEvent"><code>onKeyEvent</code></a>
- callback. You simply provide an object mapping key identifiers to
- functions, instead of painstakingly looking at raw key events.</p>
- <p>Built-in commands map to strings, rather than functions, for
- example <code>"goLineUp"</code> is the default action bound to the up
- arrow key. This allows new keymaps to refer to them without
- duplicating any code. New commands can be defined by assigning to
- the <code>CodeMirror.commands</code> object, which maps such commands
- to functions.</p>
- <p>The hidden textarea now only holds the current selection, with no
- extra characters around it. This has a nice advantage: polling for
- input becomes much, much faster. If there's a big selection, this text
- does not have to be read from the textarea every time—when we poll,
- just noticing that something is still selected is enough to tell us
- that no new text was typed.</p>
- <p>The reason that cheap polling is important is that many browsers do
- not fire useful events on IME (input method engine) input, which is
- the thing where people inputting a language like Japanese or Chinese
- use multiple keystrokes to create a character or sequence of
- characters. Most modern browsers fire <code>input</code> when the
- composing is finished, but many don't fire anything when the character
- is updated <em>during</em> composition. So we poll, whenever the
- editor is focused, to provide immediate updates of the display.</p>
- </section>
- </article>
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