Oct 11

Developer-oriented features and experiments

Tilt is a Firefox addon that lets you visualize any web page in 3D. A new update is available, coming with more developer-oriented features. Try the addon.

Since the first alpha version of Tilt was announced (a Firefox extension focused on creating a 3D visualization of a webpage), a lot of work has been done to add a great number of developer-oriented features. These focus on debugging the structure of a webpage, inspecting styling and attributes for each node and seamlessly refreshing the visualization when the DOM structure changes or after contents of document are repainted.

Solve nesting problems

Tilt is useful when searching problems in the HTML structure (like finding unclosed DIV elements for example) by providing the extra third dimension, layering each node based on nesting in the DOM tree. Stacks of elements visually represent branches in the DOM, and each node can be inspected for the inner HTML contents, its computed CSS style and the attributes.

Clicking anywhere on the visualization highlights a color-coded rectangle surrounding the corresponding node. Double click shows up the source preview for that node. Tilt also tries to show the most relevant information when needed (one is most likely to inspect the attributes of an input, button or image element, for example, but can easily switch between HTML, CSS and attributes view at any time).

Minidom map

The “minidom” is a tree view representation showing a minimalistic snapshot of the document object model. Each node is assigned a color associated by tag name (blue for div, green for span etc.) and represented as a strip, along with visual markers for the id and/or class if available. Each one of these strips also has a width relative to the type, id and class name length for the respective element, and the corresponding 3D stack in the visualization has color-coded margins. The coloring for individual elements is easily changeable using the color picker near to the minidom legend.

Clicking a strip in the tree view (or directly a stack on the 3D document visualization mesh) also highlights the node with a colored quad. This behavior is a good way to relate with the Style Inspector, and a more unified interaction between Tilt and other Developer Tools is planned in the future. All of these additions make it easier to analyze the bounds of each node, along with the HTML, computed CSS and attributes.

Realtime editing

Because Tilt is able to detect when a webpage’s DOM structure changes or when a repaint is necessary, integration is seamless with existing Developer Tools. Using Tilt and Firebug or Style Editor at the same time is easy. One can enable or disable CSS properties, changing the style of a node, and the visualization changes accordingly.

To enable realtime updates for the 3D webpage, go to the Options menu and check “Refresh visualization”.

Useful for learning

Developer tools such as “view source” have always been used to help people learn about web development. The 3D view highlights the structure of a page better than a flat view, thus anyone can immediately understand the parent-child relationship between nodes in a webpage, their positioning and how the layout is influenced.

One use case for this is the Hackasaurus mashup. The X-Ray Goggles is a nice and fun tool designed to make it easier to learn about the different document node types, the “building blocks” which create a webpage.


A requested feature was the ability to export the visualization as a 3D mesh, to be used in games or other 3D editors. Tilt adds the ability to export to .obj, along with a material .mtl file and a .png texture (a screenshot of the entire webpage). The open .obj format ensures the fact that the mesh can be opened with almost any editor. Here’s a ray-traced rendering of hacks.mozilla.org in Blender:

Fun with experiments

As soon as it was released, many people found clever and interesting alternative ways to interact with Tilt. One experiment was creating a 3D visualization of an image, by exporting chunks of pixels to a HTML representation. The result was a voxel-like representation, with node blocks and stacks instead of pixels. A simple Image2Tilt converter was written in JavaScript, and you can try it directly in the browser.

Accelerometer support was another addition based on community request. This shows how easy it is to add functionality that wasn’t originally planned.

You can view the source code, fork it and also contribute to the addon with ideas or feature requests on Github, at github.com/victorporof/Tilt.

Available as an addon

The latest version of Tilt can be found on Github, but you can also download Tilt as an addon from addons.mozilla.org.

For compatibility, Tilt requires WebGL capabilities. Go to get.webgl.org to check availability and troubleshoot any issues. The current version works with Firefox 6.0 to latest 10.0 Nightly releases (latest Nightly builds now also support WebGL anti-aliasing, working great with Tilt).

To start Tilt, hit Control+Shift+M (or Command+Shift+M if you’re on Mac OS), or go to Web Developer -> Tilt, available in the Firefox application menu (or the Tools menu on Mac OS). You can modify this hotkey (and other properties) from the Options menu after starting Tilt.

More information about Tilt, the development process and milestone updates can be found on blog.mozilla.org/tilt.


Tilt has become an active Developer Tools project, and an ongoing effort is made to integrate it with other existing tools like Style Inspector and Style Editor (source code and latest builds). As the 3D view of a webpage has proven to be useful for debugging, this main functionality will gradually become part of Firefox in future releases.

Sep 11

Version 0.82 released

Download: Tilt.xpi
August was a busy month. Tilt development was focused on finishing the user interface and adding an improved user experience. We also added more developer-oriented features and functionality.

The most interesting addition was the “minidom” — a tree view representation in the lower left, showing a minimalistic snapshot of the document object model of a webpage. Each node is assigned a color associated by tag name (blue for div, green for span etc.) and represented as a strip, along with visual markers for it’s id and/or class if available. Each one of these strips also has a width relative to the type, id and class name length for the respective element. The coloring for individual elements is easily changeable using a color picker.

Clicking a strip in the tree view (or directly a node on the 3D document visualization mesh) now also highlights the node with a colored quad. This behavior is a good way to relate with the Style Inspector, and a more unified interaction between them is planned in the future (along with other developer tools like Style Editor).

All of these additions make it easier to analyze the bounds of each node, along with the html, computed css and attributes (which are available in the popup panel editor).

A requested feature was the ability to export the visualization as a 3D mesh, to be used in games or other 3D editors. In version 0.82, Tilt adds the ability to export to .obj, along with a material .mtl file and a .png texture. The .obj open format ensures the fact that the mesh can be opened with almost any editor, from Blender to Maya. Here’s a ray-traced rendering of hacks.mozilla.org in Blender:

The exported .png can also be used to create full screenshots of webpages, as it saves the visible part of a document along with it’s “offscreen” elements.

The three months dedicated to developing Tilt in the Google Summer of Code timeframe have finished, but that doesn’t mean an ending for improving this extension. It’s worth mentioning that version 0.82 of Tilt is now waiting approval to be public in addons.mozilla.org and a great thing to know that, already, even though Tilt isn’t public yet, there are already over 8,000 users.

Implementing more and more features is a sure thing in the near future. The nearest milestone (0.9) will add enhancements like: highlighting and scrolling a selected element in the “minidom”, making a selected strip center/zoom the node stack in the visualization, adding controls to move up/down the dom tree in the editor panel popup, and adding more functionality for the user interface. See all the TODOs and the planned features for more details. You can try some of these additions in the beta from the r90 branch on github.

Aug 11

Hackasaurus X-Ray Goggles Mashup

The X-Ray Goggles is a nice and fun inspector tool, designed to make it easier to learn about the different document node types and “building blocks” which create a webpage, letting you “see inside the web”. To quote, “Hackasaurus makes it easy to remix and change any web page like magic”.

This is a nice opportunity for Tilt and Goggles to work together and create an interesting mashup, having some gamification ideas in mind. The first game-like experience will be adding a Portal style transition between two webpages, to symbolize finishing a level and entering a new one.

Since Tilt was originally thought out to be more of a developer tool than a game-oriented extension, and new features designed to better integrate with Goggles don’t always make sense from a developer point of view, a new branch will be created especially for this mashup.

See the Hackasaurus games and blog for more information.

Jun 11

Visualizing the DOM nodes depth and coordinates

The most important part of Tilt was actually visualizing the DOM nodes depth and coordinates in 3D manner, by positioning them relative to parent offsets and sizing them based on the client width and height dimensions. This is exactly what’s been implemented in the past week, so let’s take a look.

This is an idea of the direction in which Tilt should evolve, as seen on the wiki page:

Tilt mockupFrom the start, the general concept was that “Tilt allows a person to instantly see the relationship between various parts of a web-page and their ancestors in a fun and graphical way”. As you can see, by layering the DOM nodes based on the depth as stacks, positioning and even texturing them accordingly makes a very interesting web-page inspector. These “layers could be built from DIVs, ULs or any containing node with children” and also “elements with absolute position or floats”.

Therefore, two main challenges arise so let’s analyze each problem and find the solution.

  1. Acquiring the texture of the webpage
  2. Traversing the DOM to create the visualization mesh

To get the texture of the webpage, until a WebGL extension will be created to access the actual pixels and share memory with the renderer, a shim could be implemented in Javascript to simulate this behavior. This is easily done using the canvas.drawWindow() method, as explained in the “Drawing graphics with canvas” article on the MDC docs. For security reasons, this API cannot currently be used by Web content. It is chrome only. Long story short, this is the implementation (for more code, see jTiltUtils.js and jTiltExtensions.js on github):

The second challenge was traversing a document object model and building the visualization mesh from it. This is done quite easily using a recursive function and harnessing the Javascript beauty of lambda functions. Starting from the top node, traverse each of the children and call a function:

Quite elegant. Moreover, the get the coordinates (x, y, width and height) for each node, we make use of the offsetParent, offsetTop, offsetLeft and clientWidth & clientHeight properties:

If you want to see more details on how the visualization mesh with each stack shape is build and how the texture coordinates are calculated, check out the jTiltVisualization.js file. Here’s a quick look on how things look for now:

Note that a single mesh is created! Drawing chunks of 3D models, each one with it’s own texture (for example) would be highly inefficient, thus some clever optimizations are done here. An entire object, built of triangles is computed, without duplicating any vertex or corner (by using index buffers), and a single texture is applied to the entire mesh, by computing the u, v coordinates relative to the width and height of the DOM texture.

The following videos are a proof of concept of visualizing the DOM nodes depth and coordinates. The only thing remaining to do now is make the extension usable, ergonomic and fun. But you can check it out now!

Having fun with DOM nodes and effects, and applying the document texture:

Jun 11

Tilt at Summer Web 2011

Summer Web 2011 is an event organized in conjunction to the first edition of the Design Jam Iasi, “a two-day venue, during which people team up to discuss, share ideas and solve engaging UX challenges”. The event is non-profit and supported by the Mozilla Labs Concept Series. Find more information on the Summer Web blog.

During this event, I’ve presented and explained the Tilt project to a wide audience of “neophytes, apprentices, and experts in Web technologies and HCI (Human-Computer Interaction)”, and received amazing feedback and interest from the community.

Most of the questions were regarding the schedule and deliverables, but one interesting aspect worth mentioning was about the actual rendering of the webpage itself and not the visualization (which is achieved using WebGL).

The main problem is grabbing the 2d rendering of a webpage, to calculate texture coordinates for each node in the DOM and applying the texture to stacks like in this draft concept of Tilt. Actually, creating a new webpage renderer would be a very bad idea, so Tilt will take full advantage of the implemented Gecko engine, continuously under development at mozilla.org (“the open source browser engine designed to support open Internet standards such as HTML, CSS, the W3C DOM, XML, JavaScript, and others”).

Fetching the webpage texture will be done using a WebGL extension, MOZ_dom_element_texture, built in collaboration with Cedric Vivier from Mozilla DevTools. This is an optimized equivalent of the canvas.drawWindow() function, and it would be used for rendering the DOM elements in WebGL texture. “The extension would be listed by getExtensions from privileged/chrome JavaScript only (similarly to canvas.drawWindow)”.

Take a look at the presentation:

Jun 11

First implementation

A lot has happened in the past few days, and interesting progress has been done with Tilt, both from a developer point of view, and from the community side. But first thing’s first: Tilt is an extension, there’s working code on https://github.com/victorporof/Tilt (currently there are 19 followers and counting! lots for such a short period of time), so let’s see what it’s made of.

Project structureThe project structure is quite standard and follows the lines of any Firefox extension, with an install.rdf file containing description about the project (id, name, description, homepage url etc.) and also the target application, which is currently set to a Firefox minimum version of 4.0 and maximum version 7.0a1. I will probably change these as Firefox 7 ships in about five weeks, and it’s a pretty good idea to support even Aurora and Minefield releases. Currently, Tilt is not bootstrapped (it needs a Firefox restart when installed), but I don’t see it as a problem right now. As the project advances, I will most likely use Mozilla’s Addons SDK to achieve this.

The chrome.manifest is composed of three sections: content, locale and skin. MDN defines chrome as: “the set of user interface elements of the application window that are outside of a window’s content area. Toolbars, menu bars, progress bars, and window title bars are all examples of elements that are typically part of the chrome.” These files are all packaged in a JAR archive.


From the top, the content contains mostly .xul and .js files. The XUL holds the user interface and (view) and Javascript is responsible for the logic (controller) of the extension. For example, this extension will create an iframe overlaying the current browser parent node (and adding it to the stack), while this is done by accessing a menu under “Tools” -> “Tilt” -> “Initialize Tilt”.

Here is how the XUL currently looks like, also: what happens when initializing Tilt. These two files (browserOverlay.js and browserOverlay.xul) are at the highest level of the extension content. Most of the other files represent the engine to render everything (I called it jTilt for now), some helper draw functions built on top of this engine, and the visualization logic. Other helpful libraries like glMatrix are used, providing great performance, so that everything is efficient to achieve smooth rendering.

An important requirement of any Firefox extension is making it “localizable, basically the locale .dtd and .properties files containing all of the strings, messages and titles or captions of any view component. Thus, it’s easy to translate this extension in many different languages and making it scalable from this point of view.

The third and final part is the skin, with .css files defining the look and other assets (.png, .jpg, images in general) used by the extension.

I’m currently using a TextMate development environment, but there’s also a Komodo Edit project file if you prefer it instead. There’s no “right” IDE for developing Firefox extensions, and any text editor you’re most comfortable with will do. Read this for more information.

Currently, you can find the latest .xpi file in the bin folder. Drag and drop it in your Firefox window to install it. Start it by accessing “Tools” -> “Tilt” -> “Initialize Tilt”, and you should see a rotating quad, tinted with a green color and a texture loaded from chrome:

Tilt screenshot

Tilt screenshot (6 Jun, 2011)

The Bugzilla page for this project is Implement Tilt: a WebGL-based 3D visualization of a Webpage, I’ve received some quite useful feedback already. You might want to cc yourself there to receive updates on the development as soon as they appear. Of course, this blog has RSS, and I encourage you to subscribe to it.

A few other things worth mentioning are some bug pages on Bugzilla:

May 11

Tilt: a WebGL-based 3D visualization of a Webpage

Tilt represents a new way of visualizing a web page. This tool creates a 3D representation of the document, with the purpose of displaying, understanding and easily analyzing the DOM. It will take advantage of the great tools Firefox has to offer, as it is an extension which contains a WebGL implementation, providing rich user-experience, fun interaction and useful information, while taking full advantage of 3D hardware acceleration, GLSL shaders and what OpenGL ES 2.0 has to offer.

The implementation consists of a Firefox extension containing a 3D representation of a web page, as both a fun visualization tool and a developer-friendly environment for debugging the document’s structure, contents and nesting of the DOM tree. Various information besides the actual contents will be displayed on request, regarding each node’s type, class, id, and other attributes if available. The rendering will be dynamic, in-browser, using WebGL and GLSL shaders.

This blog will be weekly updated with progress about the development. In the meantime, for more interesting stuff, see

The source code is available for download on github. Check it out!