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HTML5, CSS3, and performance factors, and how to develop mobile applications using PhoneGap3.0 for mobile devices, including Google Glass.
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HTML5 and CSS3 and Mobile Applications
SVCC 2013 (10/05/2013)
Foothill College Los Altos
Oswald Campesato
Main Topics in This Session
CSS3 Features (condensed summary) CSS3 Graphics/Animation (2D and 3D) CSS3 and the GPU (must-have support) Reflow/Repaint (what/when/how/why) Chrome Continuous Update (CSS3/JS) CSS3 "Gong" Game (CSS3/jQuery Mobile) PhoneGap 3.0 Mobile Apps (in 4 lines) CSS3-base Apps on Glass (also native) Fun Canvas Demos (video and animation)
CSS3 Features (condensed list)
(Perf) Gradients (linear and radial) (Perf) Rounded corners/drop shadows CSS3 filters (merged with SVG filters) Simple shapes (circle/ellipse/rectangle) (Perf) 2D and 3D animation Multi-column support Exclusions and regions Flexbox (like “grid bag” in Java AWT)
CSS3 Transforms (summary)
CSS3 2D transforms:
rotate, scale, translate, matrix, and perspective, and skew (deprecated)
• CSS3 3D transforms (invoke the GPU):
1) similar to 2D versions (but no ‘skew’)
2) also three axis-specific methods:
rotateX, rotateY, rotateZ (and so forth)
• CSS3 animation via keyframes rule
Frameworks and Toolkits (1)• Very good HTML5/CSS3 IDEs:
+ Sencha Animator and Adobe Edge (commercial?)
• JavaScript/SVG toolkits:
+ D3 (modern browsers) and Raphael (supports IE6-8)
+ Inkscape for SVG and iD (for maps)
• JavaScript-based toolkits for Canvas:
+ EaselJS, FabricJS, PaperJS
• http://graphicdesignjunction.com/2013/04/html5-tools-for-designers-developers/
Frameworks and Toolkits (2) Workless:
+ an HTML5-CSS3 framework for building cross-browsers websites
+ started as a mashup of Bootstrap + HTML5 Boilerplate
+ https://github.com/iKreativ/Workless
Junior:
+ an HTML5 framework for front-end creating mobile apps that look and behave like native
+ uses CSS3 transitions and supports swipeable carousels
+ includes various UI components (from Ratchet)
Frameworks and Toolkits (3) Literally Canvas:
+ an HTML5 open source widget
+ can be integrated into any page
+ enables users to draw online
+ provides with a simple set of tools including:
draw, erase, color-picker, undo, redo, pan and zoom
cgSceneGraph:
+ an OO JavaScript animation framework
+ built on top of HTML5 canvas
+ created for apps and games
+ works cross-browser
+ many built-in nodes (images/text/buttons/shapes)
Modular and Scalable CSS (1)
OOCSS: Object Oriented CSS
SMACSS: Scalable and Modular Architecture for CSS
DRY: Don’t Repeat Yourself CSS
BEM: Block, Element, Modifier
Modular and Scalable CSS (2)
#1 and #2 avoid id (prefer class) all share common goals they use different approaches provide general guidelines (not
absolute) try to understand underlying principles then take the relevant parts
What “Works” with CSS3?
Combine any of these with CSS3 in a Web Page: SVG and D3 (=Data Driven
Documents=JS+SVG) HTML5 Canvas (bitmap and without a DOM)
For Web applications: jQuery (cross-browser and cross-platform) BackboneJS (MVP reduces spaghetti code) AngularJS (open source from Google) Basically any JavaScript-based toolkit
When CSS3 Alone isn’t Enough CSS3 can leverage the power of SVG:
+ reference SVG documents via “url()”
• SVG can leverage CSS3 by:
+ embedding CSS selectors in an SVG doc
use jQuery methods:
+ the css() method for updating properties
• Use jQuery Mobile features:
+ use bindings to handle mouse/touch events
Strengths of CSS3/SVG/Canvas
CSS3: a) 2D/3D graphics/animation, b) GPU support, c) embeddable in SVG <defs> element, d) “easing functions” for animation, e) animate HTML elements
SVG: a) 2D graphics/animation, b) some GPU support, c) create arbitrary 2D shapes, d) custom <pattern>s, and e) grouping via the <g> element, and “easing functions in D3 (but SVG cannot animate HTML)
Canvas: a) 2D graphics/animation, b) GPU support, c) good for updating many small objects (games), d) works with video (use ThreeJS/WebGL for 3D animation)
Useful Features of SVG (summary)
An XML-based vocabulary for 2D shapes: render circles/ellipses/elliptic arcs squares/rectangles/parallelograms cubic/quadratic Bezier curves arbitrary polygons linear/radial gradients and filters mouse events and animation support (*) good for charts/graphs works well with CSS3 (*) consider using D3.js
Other Aspects of SVG
SVG elements are inserted in the DOM so you can track/manage groups of SVG elements
no blurred/jagged edges when zooming in Convenient format for import/export between tools Can apply XSL stylesheets to SVG documents
On the other hand:• Verbose (what do you expect? It’s XML)• Can be difficult/incomprehensible (SVG tiger) Animation code can be cumbersome/tedious Consider D3 instead of “pure” SVG
Blog by Patrick Dengler: SVG versus Canvas
The Famous SVG Tiger
Contents of SVG Tiger
• 100K SVG file versus 140K PNG file• Contains 240 SVG <path> elements <svg:path d="M-122.304 84.285 C-122.304
84.285 -122.203 86.179 -123.027 86.16 C-123.851 86.141 -140.305 38.066 -160.833 40.309 C-160.833 40.309 -143.05 32.956 -122.304 84.285z"/>
NVIDIA GPU-accelerated SVG path rendering:
http://www.youtube.com/watch?v=bCrohG6PJQE
CSS3 for SVG 3D Effects
#1: create an SVG document #2: create an SVG <defs> element #3: create CSS3 selectors with CSS3 3D animation
effects and put them in a <style> element #4: insert the <style> element in <defs> element #5: set the “class” attribute in SVG elements so that it
matches a CSS3 selector in the <style> element
Example: 3DSineWave4RG2TurbFilterAnim1.svg
NB: You can also reference an external CSS stylesheet
CSS3+SVG or CSS3+D3?
CSS3+SVG: useful when 1) you already have SVG-based data and 2) you must support IE6 (can do with Raphael toolkit but not D3)
• CSS3+D3: for modern browsers, and also easier for defining event handlers and animation (probably also easier to maintain/enhance)
• Notes:• CSS3+SVG might not have GPU support• Consider D3 with BackboneJS/AngularJS/etc
What about CSS3 and HTML5 Canvas?
Insert a <canvas> element in a Web page• JavaScript APIs for 2D shapes (similar to Skia) All shapes are rendered in a <canvas> element Modern browsers support <canvas> element “write-and-forget” (no DOM-based “history”)• CSS3 selectors can match the <canvas>
element• Canvas often faster than SVG for showing
polygons• Tracing Canvas calls:
http://www.html5rocks.com/en/tutorials/canvas/inspection/
Which is Faster: CSS3/Canvas/SVG?
• CSS3 is faster than Canvas for simple animation:
http://phrogz.net/tmp/image_move_speed.html• CSS3 is faster than SVG for gradients
• D3 is better/faster than SVG for “follow the mouse”
• Canvas is better than SVG for many small objects
• Test/compare performance on mobile devices
What is a GPU? Graphics Processing Unit
A GPU is a single-chip dedicated processor
Boost the performance of video/graphics:
2-D or 3-D graphics
Digital output to flat panel display monitors
Texture mapping
MPEG decoding
Rendering polygons
Hardware overlays
Nvidia and GPUs
• The first GPU:
developed by NVidia in 1999 (GeForce 256)
processed 10 million polygons/second
contained more than 22 million transistors
• Nexus 7 2 (Android 4.3):
400MHz Adreno 320 Snapdragon S4 Pro
64 ALU, 400MHz, 57GFLOPS
GPU Support in Browsers
the browser must be able to use the driver of the graphics card installed on the host OS
GPU acceleration for one browser on a given machine doesn’t guarantee support for all browsers
Opera: hardware acceleration turned off by default (might have changed recently)
http://www.useragentman.com/blog/2012/09/23/cross-browser-gpu-acceleration-and-requestanimationframe-in-depth/
CSS3 and GPU Acceleration
Add a “go faster hack” (aka “null transform”)
common CSS3 transforms to invoke the GPU:
translate3D(0,0,0) or translateZ(0)
• Preceding “no-op” guarantees GPU is invoked
• Absence of such code does not mean that the GPU is not invoked
• Convert some/all 2D transforms (except skew) to 3D?
Chrome and the “Null Transform”
#1) Chrome switches on hardware compositing mode (if supported and not already “on”)
#2) Chrome creates a new layer and “backing surface”
Comments:• A “backing surface” (= bitmap?) is a graphics context
(aka texture) into which layers are drawn • Backing surfaces are uploaded to the GPU• Layers sometimes share the same “backing surface”
• Rules that Chrome uses for creating new backing surfaces in the next slide…
Chrome + Layers + Backing SurfacesChrome creates new backing surface if a layer:
1) uses 3D or perspective transform CSS properties
2) is used by <video> element using accelerated video decoding
3) is used by a <canvas> element with a 3D context or accelerated 2D context
4) uses a CSS animation for its opacity or uses an animated webkit transform
5) uses accelerated CSS filters
6) has a descendant that is a compositing layer
7) has a sibling with a lower z-index which has a compositing layer (is the layer rendered on top of a composited layer?)
Null Transform: can it be slower?
Try this sample code in your browser:
http://dl.dropboxusercontent.com/u/17844821/zeug/hwtest.html
Contains 4,000 small <div> elements
Original stackoverflow post (04/2012):
http://stackoverflow.com/questions/10014461/why-does-enabling-hardware-acceleration-in-css3-slow-down-performance
CSS3 Mask + Performance
• Mask results in a new offscreen buffer (OSB) GPU first writes to the OSB instead of directly
to VRAM (Video RAM) then the OSB contents are copied to VRAM VRAM is comparatively limited on mobile
devices and it’s “easily exhausted” rounded corners and drop shadows use mask combination of rounded corners and drop
shadows is extra slow;(
What are Reflow and Repaint?
Reflow: process of calculating the position
of elements in a Web page
Repaint: re-rendering pixel colors in a Web page
Compare “display” versus “visibility” in CSS:
+ display: none it’s neither present nor visible so it requires reflow and repaint
+ visibility: hidden it’s still present, so no geometry change, and only repaint is required
(Performance difference is small in this scenario)
What Causes Reflow and Repaint?scroll and hover
box-shadow and drop shadows
floats and tables
opacity and gradients
border-radius
transparency and transitions
changing the font size
Add/remove/update the DOM
Leaf-side nodes: probably small changes
Top-side nodes: propagation can cause many changes
Chrome and Layout Changes
Chrome "batches" layout changes asynchronously in order to maximize rendering performance
• Style information causes synchronous updates:
+ offsetTop, offsetLeft
+ offsetWidth, offsetHeight
+ scrollTop/Left/Width/Height
+ clientTop/Left/Width/Height
+ getComputedStyle()
The goal: find and eliminate JavaScript code and/or CSS selectors that cause synchronous updates
Avoid Synchronous Updates (why?)#1) Any request for style information about a node forces the browser to provide the most up-to-date value.
#2) In order to do so, the browser must apply all scheduled changes, flush the queue, and perform a reflow.
Minimize this type of code:
el.style.left = el.offsetLeft + 10 + "px";
The Painting Process browser combines DOM and CSSOM
Involves “Skia” for:
+ rasterizing software with Canvas-like APIs
+ output is set of bitmaps• bitmaps are sent to the GPU and:
+ GPU composites them (calculates pixel values)
+ renders the output on screen
"Compositing is the process where each of the individual textures uploaded to the GPU is drawn
out in turn and results in the final page."
Using/Examining the Timeline (1)• Open Web Inspector and click on “Timeline”
• Click the (black) “start button
• search for elements with significant paint time:
look for “long” horizontal bars
Now do this: toggle the CSS styles of those elements to
determine performance culprit(s)
search for yellow warning icon in the timeline
hover over these records
You will see a “stack trace” that contains:
1) invalidating code, and also
2) code that caused the layout
Using/Examining the Timeline (2)
Detailed Timeline instructions: https
://developers.google.com/chrome-developer-tools/docs/timeline
Some Topics (many others as well): Analyzing Timeline recordings Viewing details about a record Locating forced synchronous layouts Emulate touch events
Using Chrome Continuous Paint (CCP)
• #1: load a Web page into browser• #2: Web Inspector > Profiles and select:
a) Collect JavaScript CPU Profile or
b) Collect CSS Selector Profile• #3: “Start CPU Profiling” by clicking on black dot in
lower-left corner• #4: Navigate around elements in the screen• #5: “Stop CPU Profiling” by clicking on red dot• #6: examine the newly generated timeline• Note: CCP is in Chrome v29
CSS3 Flying Borg Cube (Demo)
CSS3 2D skew (for the three cube faces) CSS3 3D linear/radial gradients CSS3 2D and 3D transforms CSS3 3D animation effects (keyframes)
No JS so select CSS profiling in Chrome
How Browsers Parse CSS Selectors
browsers read selectors right-to-left:
this is a "bottom up" approach
the “key” selector: the right-most part of a CSS selector
Why right-to-left is more efficient:
a) element:parent is 1:1 whereas
b) parent:child is many:1
Rewriting CSS Selectors (1) Sample CSS and HTML:
#mylist a { ... }
<ul id="mylist">
<li a=... class="abc" .../>
<li a=... class="abc" .../>
<li a=... class="abc" .../>
….
</ul>
Suppose you have:
1) 100 <a> elements, and
2) you only want the three <a> with an 'abc' class
Rewriting CSS Selectors (2) This CSS selector matches 100 elements:
#mylist a { ... }
This CSS selector matches 3 elements:
#mylist .abc { ... }
• Ariya Hidayat (Continuous Painting):
http://css.dzone.com/articles/continuous-painting-mode
Sample Selector and “Efficient” CSS calculate/layout/paint in a sample selector:
.results h2 { // recalculate style
height: 25px; // layout
text-shadow: 2px black; // paint
}
fast/efficient CSS (with null transform hack):
scale/translate/rotate/fade (opacity)• Other operations incur layout and/or paint• Paul Irish (Performance Tooling):
http://www.youtube.com/watch?v=HAqjyCH_LOE
Translate() versus top/left/right/bottom Factors in favor of translate():
+ tends to perform better
+ translate() does not touch the DOM
+ involves subpixels (and smoother due to blurring effect)
+ use it for “design-y motion” (animating a button press)
Factors in favor of top/left/right/bottom:
+ use when element has relative/absolute/fixed positioning
Note: Both can yield different results on different browsers
+ Detailed articles (Chris Coyier/Paul Irish):
http://css-tricks.com/tale-of-animation-performance/
http://www.paulirish.com/2012/why-moving-elements-with-translate-is-better-than-posabs-topleft/
Bootstrap 3.0 Improvements Bootstrap 3.0 is twice as fast as BS 2.3.2 Provides a “mobile first” responsive grid Bootswatch and WrapBootstrap (“full themes”)
Paul Irish checks BS 3.0 using CCP:
http://encosia.com/the-big-change-in-bootstrap-3-that-no-ones-talking-about/
• Pamela Fox (“When Bootstrap Attacks”):
http://www.youtube.com/watch?v=xbpnqbM6cRk&feature=youtu.be&goback=%2Egde_2071438_member_265749116#%21
Issues with iOS7 and HTML5 CSS-related requestAnimationFrame animations do not suspend
correctly
Resizing a composited layer (with 3D transforms) sometimes does not repaint correctly
Performance issues for SVG animation
Launching/quitting same home-screen app several times can hard-lock your device
Maximiliano Firtman’s iOS7/HTML5 post:
http://www.mobilexweb.com/blog/safari-ios7-html5-problems-apis-review
CSS3 “Gong” Game (Demo) Graphics: pure CSS3 (border-radius=50%)
Animation: setTimeout() function
JavaScript: for collision detection
• jQuery Mobile:
+ updating position (jQuery css() function)
+ creating elements (jQuery clone() function)
+ event handlers (jQuery Mobile vmouse)
• Deployed as an Android apk
CSS3 on Mobile: Android (Eclipse)
1) Create an Android app Hello and modify the main xml layout file and Java file (see below)
2) modify $TOP/res/layout/activity_main.xml:
insert a WebView component (shown later)
3) create the directory $TOP/assets/www
4) Copy Hello.html (+ assets) into $TOP/assets/www
5) modify $TOP/src/com/…/HelloActivity.java:
reference Hello.html in the method onCreate()
Contents of activity_main.xml
<?xml version="1.0" encoding="utf-8"?>
<WebView
xmlns:android="http://….”
android:id="@+id/webview"
android:layout_width="fill_parent"
android:layout_height="fill_parent"
/>
Contents of onCreate() in Java File= Initial contents:
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
= Additional (appended) contents:
mWebView = (WebView) findViewById(R.id.webview);
mWebView.getSettings().setJavaScriptEnabled(true);
mWebView.getSettings().setDomStorageEnabled(true);
mWebView.loadUrl(
"file:///android_asset/www/Hello.html");
HTML5/CSS3 and PhoneGap
A Plugin to create Hybrid Mobile apps
A JavaScript “bridge”
Available on 6 platforms
PhoneGap 3.0 requires NodeJS
Always creates an index.html Web page
Why use PhoneGap?
No compilation required No Java/Objective-C code Handles the manual steps for you
Provides access to hardware (camera/etc) PhoneGap 3.0 camera/sensors/etc support
is available via different modules
Create/Compile/Deploy in PhoneGap 3.0
Prerequisites: install NodeJS and PhoneGap
Create/compile/deploy:
#1: phonegap create hello com.demo.hello Hello1
#2: cd hello
#3: phonegap build android [ios …]
#4: phonegap install android [ios …]
Combine #3 and #4 with this step:
phonegap run android ios […]
CSS3 Demo on Google GlassStep #1: create and compile an Android project (let’s call it “CSS3Demo”) in Eclipse
Step #2: deploy the Android apk to Glass:
adb install CSS3Demo.apk
Step #3: get the package and main Android Activity:
Let’s call them “a.b.c” and “CSS3Main”
Step #4: launch from the command line:
adb shell am start -a android.intent.action.MAIN -n a.b.c/.CSS3Demo
CSS3 Resources
• caniuse.com
online forums (Yahoo group)
Various meetup groups in BA
stackoverflow.com
Impressive HTML5 Canvas Demos
• Various HTML5 Canvas demos:
http://www.craftymind.com/factory/html5video/CanvasVideo.html
http://codepen.io/stuffit/pen/KrAwx
http://davidwalsh.name/canvas-demos
Some “Favorite” People• Tab Atkins• Eric Bidelman• Mike Bostock• Pamela Fox• Paul Irish• John Resig• Alex Russell• Steve Souders• Lea Verou• David Walsh• Nicholas Zakas• Vincent Hardy/Brian Leroux/Tony Parisi (*)
Some Training Topics
• D3/SVG
• HTML5 (CSS3/Canvas/etc)
jQuery/jQuery Mobile
Android (iOS later)
BackboneJS/PhoneGap
Open Source Projects (graphics)
• Graphics Projects on http://code.google.com/p:
+ css3-graphics and html5-canvas-graphics
+ css3-jquery-graphics and d3-graphics
+ svg-graphics and svg-filters-graphics
+ easel-graphics, fabric-graphics, paper-graphics
+ ThreeJS, jQuery, Raphael, Google Go, Android
+ Dart, Dojo, JSF, Two.js, JavaFX 2.0
+ Lua, PHP, Perl, Python, Ruby, SWT graphics
Recent/Upcoming Books
1) HTML5 Canvas and CSS3 Graphics (2012)
2) jQuery, CSS3, and HTML5 for Mobile (2013)
3) HTML5 Pocket Primer (2013)
4) jQuery Pocket Primer (2013)
5) HTML5 Mobile Pocket Primer (2014)
6) D3 Pocket Primer (2014)
• “WebGL: Up and Running” (Tony Parisi)
Co-creator of VRML and X3D