Just a question, not really to the Vibrant but it's the phone I have.
Anyways, at school (tech dept) we use a program that we use for job requests. We can use the client or a web based version. but the Web Based requires IE to work properly. I tried loading it on the Dolphin but it doesn't seem to work on that or the Default browser. Is there anyway to get this to work on Andy?
We are looking to get Android Tablets for the techs and would like to use it.
Really biggest question is... is the site coded in asp (.Net derivative or otherwise)...
Second would be, are you ALLOWED to edit the source to comment out the IE requirement. (Assuming the site does browser detection).
Honestly, doubt you could make it work easily.... Unless the webclient doesnt do browser detection and its just on paper "IE only".
I'm in the same boat, IE only webapp (.net and ajax). I use PocketCloud vnc app to remote into a windows box and run it that way. Works well for me.
Sent from my SGH-T959 using XDA App
Haxel said:
Really biggest question is... is the site coded in asp (.Net derivative or otherwise)...
Click to expand...
Click to collapse
How is that a factor?
ASP, ASP.NET, et. al .NET back-end frameworks, don't require IE.
lol
Teamviewer is another app that works awesome as well. Just install Teamveiwer android app and teamviewer on your computer and you will be able to remote in without much difficulty.
Basically what we want to do is have the tablets and be able to use the web based version of the app to push things out to comptuers/look up work orders. The program is called Altiris. So third party apps like Teamviewer wouldn't be needed.
From Altiris we can push updates, programs via scripts to all computers on the domain, and apparently the app requires IE.. I don't have the exact details. I have emailed our lead guy working with Altiris to see if we can edit the tag for IE requirement or changing the browser check, havent' heard anything yet.
EDIT: Sorry for being kind of vague and short on the OP.
We use Alteris at my company as well and from a user perspective it is one painful app to have to deal with. When it scans the computer it slows down the user computer like nothing else.
presence06 said:
Basically what we want to do is have the tablets and be able to use the web based version of the app to push things out to comptuers/look up work orders. The program is called Altiris. So third party apps like Teamviewer wouldn't be needed.
From Altiris we can push updates, programs via scripts to all computers on the domain, and apparently the app requires IE.. I don't have the exact details. I have emailed our lead guy working with Altiris to see if we can edit the tag for IE requirement or changing the browser check, havent' heard anything yet.
EDIT: Sorry for being kind of vague and short on the OP.
Click to expand...
Click to collapse
Sounds like it's using active directory roles to do various things via built-in windows mechanisms.
A start would be to authenticate your device on the domain. No idea where to begin with that, though.
What mrxela was probably trying to say is that it could be using ActiveX. Do you know if this is the case?
Ian
It's kind a pain, esepeically when it goes down. But it is useful.
ipugh said:
How is that a factor?
ASP, ASP.NET, et. al .NET back-end frameworks, don't require IE.
lol
Click to expand...
Click to collapse
... oh lol your telling me a joke right? Your giving me a question then guessing answer to it... that must be your intent.
Based on coding, Firefox for various reasons does not acknowledge the "shortcuts" in code (usually the main reason asp sites do not work in FF, or "undocumented" microsoft api calls). Other browsers have similar issues, or may have a different issue with the same piece of code. Any more detail than that serves no purpose. So yes, ASP, ASP.NET and the framework can REQUIRE/ONLY work in IE. Thats why it is a factor.
I'll report back with hopefully some answers to these questions
Haxel said:
... oh lol your telling me a joke right? Your giving me a question then guessing answer to it... that must be your intent.
Based on coding, Firefox for various reasons does not acknowledge the "shortcuts" in code (usually the main reason asp sites do not work in FF, or "undocumented" microsoft api calls). Other browsers have similar issues, or may have a different issue with the same piece of code. Any more detail than that serves no purpose. So yes, ASP, ASP.NET and the framework can REQUIRE/ONLY work in IE. Thats why it is a factor.
Click to expand...
Click to collapse
You are unequivocally incorrect.
To say that IE is more lenient on various standards is one thing, but to describe it in such a fashion that you have is completely wrong.
A browser is not making "api" calls to "undocumented" Microsoft libraries. lol.. Further, a browser is interpreting markup that is controlled by the developer. As far as I know, there are no back-end frameworks that limit or control what markup you generate.
This has zero to do with Microsoft, and a lot to do with browser-specific javascript or markup, etc.
But really, you're incorrect and to purport your answer as being a solution or a reason is not only wrong, but could potentially derail his efforts.
Ian
I wish I had more info on altiris, we reviewed it about 2 years ago and went with Landesk and SCCM combo. I dont remember much about it, if its AD integrated you may have other issues to add on to your plate along with the browser detection.
I might be able to find the old install CD on our share and see, but wouldnt be until Monday that I could go to the office to find it.
ipugh said:
You are unequivocally incorrect.
To say that IE is more lenient on various standards is one thing, but to describe it in such a fashion that you have is completely wrong.
A browser is not making "api" calls to "undocumented" Microsoft libraries. lol
This has zero to do with Microsoft, and a lot to do with browser-specific javascript or markup, etc.
But really, you're incorrect and to purport your answer as being a solution or a reason is not only wrong, but could potentially derail his efforts.
Ian
Click to expand...
Click to collapse
oooh you must be a programmer, thats great. Over thinking is a programmers strong point. I have to fix that kind of stuff all the time. Up until later in the posting you didnt even know the software he was using.
As far as "undocumented api", you can embed .NET applications into the site (as you should know)... along with vbscript ect ect. Which with proprietary software they can/have added such in and gone OOPSIE DONT APPLY PATCH X OR IT WILL BREAK. (Which BTW is why some calls remain "undocumented" as microsoft is not sure they wish to keep it in the current form for whatever reason.) This can and does involve microsoft, or am I mistaken C# and the like is microsoft engineered and is using their own proprietary interpreter (.NET). Even if it is server side, the client side matters. Not to mention if it uses ActiveX...
I was giving the poor soul warning on speed bumps he MAY run across. Take it as you will. This wasnt an epeen contest.
Haxel said:
oooh you must be a programmer, thats great. Over thinking is a programmers strong point. I have to fix that kind of stuff all the time.
Click to expand...
Click to collapse
Engineer. And I correct people who are incorrect on a regular basis.
Ian
Just to clarify, I have the pleasure of having to use a web based in-house app built in CF, app was coded with to specifically check for firefox client and disallow any other clients. Yes, it can be changed fairly easy to work with other browsers, but that's on infinite back-burner...
Another set of web apps is built in .NET with third party ajax modules. It does not run a client check, but no browser except IE6 and above is able to even load these applications. .vb code behind does not exist so no one can even begin to touch anything without messing up another process.
VNC and desktop clients are your ray of hope when you are knee deep in doo doo!
The Web Address/website needs Active X and has a .cab file that gets installed to use the Altiris web client..
Bump.
So if this site requires Active X to run properly is there a way to run it on a different browser or in Stock Android Browser?
presence06 said:
Bump.
So if this site requires Active X to run properly is there a way to run it on a different browser or in Stock Android Browser?
Click to expand...
Click to collapse
Active X is a Microsoft only technology and IE is the only browser that supports it. There are ways to do most things that can be done with Active X using other client side technologies and in some cases plug-ins, but it requires more work and a larger support footprint on the part of the developer. If the developer does not support or provide a plug-in for your browser or have an alternate page that will do the same thing in javascript then you are going to be stuck with IE.
On the Android mobile platform having add-on or plug-in ability means either using Dophin HD, or Firefox Mobile (used to be Fennec). However, this is a moot point since it sounds like the developers have chosen not to support the platform.
This is where pressure from clients that have purchased their software comes in. With the right pressure they may add the ability or at least put it in the roadmap for a future version, but for right now you are most likely stuck with Internet Exploder.
Hi @all,
yesterday i posted a nice article about how HW Acceleration is done since honeycomb (and the difference before).
I think its a good idea to post here nice and interesting articles - this can help the devs here but the users to why
sometimes its simply impossible to code things or fix things.
Please dont spam this thread, even its in general section - let users read interesting things instead of pages full of ****
"The Reason Android is Laggy"
Dianne starts off her post with a surprising revelation:
“Looking at drawing inside of a window, you don’t necessarily need to do this in hardware to achieve full 60fps rendering.
This depends very much on the number of pixels in your display and the speed of your CPU. For example, Nexus S has no
trouble doing 60fps rendering of all the normal stuff you see in the Android UI like scrolling lists on its 800x480 screen.”
Hun? How can this be the case? Anybody who’s used a Nexus S knows it slows down in all but the simplest of ListViews.
And forget any semblance of decent performance if a background task is occurring, like installing an app or updating the
UI from disk. On the other hand, iOS is 100% smooth even when installing apps. But we know Dianne isn’t lying about the
potential CPU performance, so what’s going on?
The Root Cause
It’s not GC pauses. It’s not because Android runs bytecode and iOS runs native code. It’s because on iOS all UI rendering
occurs in a dedicated UI thread with real-time priority. On the other hand, Android follows the traditional PC model of rendering
occurring on the main thread with normal priority.
This is a not an abstract or academic difference. You can see it for yourself. Grab your closest iPad or iPhone and open Safari.
Start loading a complex web page like Facebook. Half way through loading, put your finger on the screen and move it around.
All rendering instantly stops. The website will literally never load until you remove your finger. This is because the UI thread is
intercepting all events and rendering the UI at real-time priority.
If you repeat this exercise on Android, you’ll notice that the browser will attempt to both animate the page and render the HTML,
and do an ‘ok’ job at both. On Android, this a case where an efficient dual core processor really helps, which is why the Galaxy
S II is famous for its smoothness.
On iOS when an app is installing from the app store and you put your finger on the screen, the installation instantly pauses until
all rendering is finished. Android tries to do both at the same priority, so the frame rate suffers. Once you notice this happening,
you’ll see it everywhere on an Android phone. Why is scrolling in the Movies app slow? Because movie cover thumbnails are
dynamically added to the movie list as you scroll down, while on iOS they are lazily added after all scrolling stops.
Other Reasons
The fundamental reason Android is laggy is UI rendering threading and priority, but it’s not the only reason. First, hardware
acceleration, despite Dianna’s reservations, does help. My Nexus S has never been snappier since upgrading to ICS. Hardware
acceleration makes a huge difference in apps like the home screen and Android market. Offloading rendering to the GPU also
increases battery life, because GPUs are fixed-function hardware, so they operate at a lower power envelope.
Second, contrary to what I claimed earlier, garbage collection is still a problem, even with the work on concurrent GC in Dalvik.
For example, if you’ve ever used the photo gallery app in Honeycomb or ICS you may wonder why the frame rate is low. It turns
out the frame rate is capped at 30 FPS because without the cap, swiping through photos proceeds at 60 FPS most of the time,
but occasionally a GC pause causes a noticeable “hiccup”. Capping the frame rate at 30 fixes the hiccup problem at the expense
of buttery smooth animations at all times.
Third, there are the hardware problems that Dianne discussed. The Tegra 2, despite Nvidia’s grandiose marketing claims, is hurt
by low memory bandwidth and no NEON instruction set support (NEON instructions are the ARM equivalent of Intel’s SSE, which
allow for faster matrix math on CPUs). Honeycomb tablets would be better off with a different GPU, even if it was theoretically
less powerful in some respects than the Tegra 2. For example, the Samsung Hummingbird in the Nexus S or Apple A4. It’s telling
that the fastest released Honeycomb tablet, the Galaxy Tab 7.7, is running the Exynos CPU from the Galaxy S II.
Fourth, Android has a ways to go toward more efficient UI compositing. On iOS, each UI view is rendered separately and stored
in memory, so many animations only require the GPU to recomposite UI views. GPUs are extremely good at this. Unfortunately, on
Android, the UI hierarchy is flattened before rendering, so animations require every animating section of the screen to be redrawn.
Fifth, the Dalvik VM is not as mature as a desktop class JVM. Java is notorious for terrible GUI performance on desktop. However,
many of the issues don’t carry over to the Dalvik implementation. Swing was terrible because it was a cross platform layer on top
of native APIs. It is interesting to note that Windows Phone 7’s core UI is built in native code, even though the original plan was to
base it entirely on Silverlight. Microsoft ultimately decided that to get the kind of UI performance required, the code would have to
be native. It’s easy to see the difference between native and bytecode on Windows Phone 7, because third party apps are written
in Silverlight and have inferior performance (NoDo and Mango have alleviated this problem and the Silverlight UIs are generally very
smooth now).
Thankfully, each of the five issues listed above is solvable without radical changes to Android. Hardware acceleration will be on all
Android phones running ICS, Dalvik continues to improve GC efficiency, the Tegra 2 is finally obsolete, there are existing workarounds
for the UI compositing problems, and Dalvik becomes a faster VM with every release. I recently asked +Jason Kincaid of +TechCrunch
if his Galaxy Nexus was smooth, and he had this to say:
“In general I've found ICS on the Galaxy Nexus to be quite smooth. There are occasional stutters — the one place where I can
consistently get jitters on the Galaxy Nexus is when I hit the multitasking button, where it often will pause for a quarter second.
That said, I find that the iPhone 4S also jitters more than I had expected, especially when I go to access the systemwide search
(where you swipe left from the home screen).”
So there you go, the Android lag problem is mostly solved, right? Not so fast.
Going Forward
Android UI will never be completely smooth because of the design constraints I discussed at the beginning:
- UI rendering occurs on the main thread of an app
- UI rendering has normal priority
Even with a Galaxy Nexus, or the quad-core EeePad Transformer Prime, there is no way to guarantee a smooth frame rate if these
two design constraints remain true. It’s telling that it takes the power of a Galaxy Nexus to approach the smoothness of a three year
old iPhone. So why did the Android team design the rendering framework like this?
Work on Android started before the release of the iPhone, and at the time Android was designed to be a competitor to the Blackberry.
The original Android prototype wasn’t a touch screen device. Android’s rendering trade-offs make sense for a keyboard and trackball device.
When the iPhone came out, the Android team rushed to release a competitor product, but unfortunately it was too late to rewrite the UI
framework.
This is the same reason why Windows Mobile 6.5, Blackberry OS, and Symbian have terrible touch screen performance. Like Android, they
were not designed to prioritise UI rendering. Since the iPhone’s release, RIM, Microsoft, and Nokia have abandoned their mobile OS’s and
started from scratch. Android is the only mobile OS left that existed pre-iPhone.
So, why doesn’t the Android team rewrite the rendering framework? I’ll let Romain Guy explain:
“...a lot of the work we have to do today is because of certain choices made years ago... ...having the UI thread handle animations is the
biggest problem. We are working on other solutions to try to improve this (schedule drawing on vsync instead of block on vsync after drawing,
possible use a separate rendering thread, etc.) An easy solution would of course to create a new UI toolkit but there are many downsides to
this also.”
Romain doesn’t elaborate on what the downsides are, but it’s not difficult to speculate:
- All Apps would have to be re-written to support the new framework
- Android would need a legacy support mode for old apps
- Work on other Android features would be stalled while the new framework is developed
However, I believe the rewrite must happen, despite the downsides. As an aspiring product manager, I find Android’s lagginess absolutely
unacceptable. It should be priority #1 for the Android team.
When the topic of Android comes up with both technical and nontechnical friends, I hear over and over that Android is laggy and slow.
The reality is that Android can open apps and render web pages as fast or faster than iOS, but perception is everything. Fixing the UI lag
will go a long way to repairing Android’s image.
Beyond the perception issue, lag is a violation of one of Google’s core philosophies. Google believes that things should be fast. That’s a driving
philosophy behind Google Search, Gmail, and Chrome. It’s why Google created SPDY to improve on HTTP. It’s why Google builds tools to help
websites optimize their site. It’s why Google runs it’s own CDN. It’s why Google Maps is rendered in WebGL. It’s why buffering on Youtube is
something most of us remember, but rarely see anymore.
But perhaps the most salient reason why UI lag in Android is unacceptable comes from the field of Human-Computer Interaction (HCI). Modern
touch screens imply an affordance language of 1 to 1 mapping between your finger and animations on the screen. This is why the iOS over-scroll
(elastic band) effect is so cool, fun, and intuitive. And this is why the touch screens on Virgin America Flights are so frustrating: they are incredibly
laggy, unresponsive, and imprecise.
A laggy UI breaks the core affordance language of a touch screen. The device no longer feels natural. It loses the magic. The user is pulled out of
their interaction and must implicitly acknowledge they are using an imperfect computer simulation. I often get “lost” in an iPad, but I cringe when a
Xoom stutters between home screens. The 200 million users of Android deserve better.
And I know they will have it eventually. The Android team is one of the most dedicated and talented development teams in the world. With stars like
+Dianne Hackborn and +Romain Guy around, the Android rendering framework is in good hands.
I hope this post has reduced confusion surrounding Android lag. With some luck, Android 5.0 will bring the buttery-smooth Android we’ve all dreamed
about since we first held an HTC G1. In the mean time, I’ll be in Redmond working my butt off trying to get a beautiful and smooth mobile OS some
of the recognition it deserves.
Click to expand...
Click to collapse
How do Android Apps work- Java, its compilation and role of DalvikVM
OK, here goes mine..
was researching around about the role of java in android and I found this piece of info..
it explains the way android apps work and stuff..
Visit here for the full article..
What is Java?
Android applications are developed using the Java language. As of now, that’s really your only option for native applications. Java is a very popular programming language developed by Sun Microsystems (now owned by Oracle). Developed long after C and C++, Java incorporates many of the powerful features of those powerful languages while addressing some of their drawbacks. Still, programming languages are only as powerful as their libraries. These libraries exist to help developers build applications.
Some of the Java’s important core features are:
It’s easy to learn and understand
It’s designed to be platform-independent and secure, using
virtual machines
It’s object-oriented
Android relies heavily on these Java fundamentals. The Android SDK includes many standard Java libraries (data structure libraries, math libraries, graphics libraries, networking libraries and everything else you could want) as well as special Android libraries that will help you develop awesome Android applications.
Why is Platform Independence Important?
With many programming languages, you need to use a compiler to reduce your code down into machine language that the device can understand. While this is well and good, different devices use different machine languages. This means that you might need to compile your applications for each different device or machine language—in other words, your code isn’t very portable. This is not the case with Java. The Java compilers convert your code from human readable Java source files to something called “bytecode” in the Java world. These are interpreted by a Java Virtual Machine, which operates much like a physical CPU might operate on machine code, to actually execute the compiled code. Although it might seem like this is inefficient, much effort has been put into making this process very fast and efficient. These efforts have paid off in that Java performance in generally second only to C/C++ in common language performance comparisons.
Android applications run in a special virtual machine called the Dalvik VM. While the details of this VM are unimportant to the average developer, it can be helpful to think of the Dalvik VM as a bubble in which your Android application runs, allowing you to not have to worry about whether the device is a Motorola Droid, an HTC Evo, or the latest toaster running Android. You don’t care so long as the device is Dalvik VM friendly—and that’s the device manufacturer’s job to implement, not yours.
Why is Java Secure?
Let’s take this bubble idea a bit further. Because Java applications run within the bubble that is a virtual machine, they are isolated from the underlying device hardware. Therefore, a virtual machine can encapsulate, contain, and manage code execution in a safe manner compared to languages that operate in machine code directly. The Android platform takes things a step further. Each Android application runs on the (Linux-based) operating system using a different user account and in its own instance of the Dalvik VM. Android applications are closely monitored by the operating system and shut down if they don’t play nice (e.g. use too much processing power, become unresponsive, waste resources, etc.). Therefore, it’s important to develop applications that are stable and responsive. Applications can communicate with one another using well-defined protocols.
Compiling Your Code
Like many languages, Java is still a compiled language even though it doesn’t compile all the way down to machine code. This means you, the developer, need to compile your Android projects and package them up to deploy onto devices. The Eclipse development environment (used with the Android Development plug-in) makes this pretty painless. In Eclipse, automatic compilation is often turned on by default. This means that every time you save a project file, Eclipse recompiles the changes for your application package. You immediately see compile errors. Eclipse also interprets Java as you type, providing handy code coloring and formatting as well as showing many types of errors as you go. Often, you can click on the error and have Eclipse automatically fix a typo, or add an import statement, or provide a method stub for you, saving lots of typing.
You can still manually compile your code if you so desire. Within Eclipse, you’ll find the Build settings under the project menu. If you have “Build Automatically” turned on, you can still choose the “Clean…” option that will allow you to do full rebuild of all files. If “Build Automatically” is turned off, “Build All” and “Build Project” menu options are enabled. “Build All” means to build all of the projects in the workspace. You can have many projects in an Eclipse workspace.
The build process, for regular Java projects, results in a file with the extension of JAR – Java ARchive. Android applications take JAR files and package them for deployment on devices as Android PacKage files with an extension .apk. These formats not only include your compiled Java code, but also any other resources, such as strings, images, or sound files, that your application requires to run as well as the Application Manifest file, AndroidManifest.xml. The Android Manifest file is a file required by all Android applications, which you use to define configuration details about your app.
Click to expand...
Click to collapse
And here goes another article, by an Ex-Intern Andrew Munn who worked on the android project..
i just post the link here, its a huge article...
Follow up to “Android graphics true facts”, or The Reason Android is Laggy
Click to expand...
Click to collapse
An Extremely important thread for me..........My friend has an iPhone 3GS and he always considers it better than Android, underestimating my LG O1 I've many a times proved him wrong, but not with technical aspects.....Now he'd understand what is ANDROID!!!!
D3oDex3D_Ayush717 said:
An Extremely important thread for me..........My friend has an iPhone 3GS and he always considers it better than Android, underestimating my LG O1 I've many a times proved him wrong, but not with technical aspects.....Now he'd understand what is ANDROID!!!!
Click to expand...
Click to collapse
exactly ! android is 100 times better and powerfull than ios ! if in an iphone ui rendering didnt happen didicatedly, it would be 100 times more laggy than android. one other thing that shows that ios does concentrate completly on ui when scrolling- swipe left right through homscreens in speed (even with all apps closed) - ull see that the dots below which indicate which screen ur on , doesnt change at all untill uve stopped scrolling and then it moves directly to the current screen indicator!
---------- Post added at 03:16 PM ---------- Previous post was at 03:09 PM ----------
btw this here is a contradicting article to what andy you posted ! here ! :
Dianne Hackborn - 00:38 (edited) - Public
A few days ago I wrote a post trying to correct a lot of the inaccurate statements I have seen repeatedly mentioned about how graphics on Android works. This resulted in a lot of nice discussion, but unfortunately has also lead some people to come up with new, novel, and often technically inaccurate complaints about how Android works.
These new topics have been more about some fundamental design decisions in Android, and why they are wrong. I’d like to help people better understand (and judge) these discussions by giving some real background on why Android’s UI was designed the way it is and how it actually works.
One issue that has been raised is that Android doesn’t use thread priorities to reduce how much background work interrupts the user interface. This is outright wrong. It actually uses a number of priorities, which you can even find defined right here http://developer.android.com/reference/android/os/Process.html#THREAD_PRIORITY_AUDIO in the SDK.
The most important of these are the background and default priorities. User interface threads normally run at the default priority; background threads run in the background priority. Application processes that are in the background have all of their threads forced to the background priority.
Android’s background priority is actually pretty interesting. It uses a Linux facility called cgroups to put all background threads into a special scheduling group which, all together, can’t use more than 10% of the CPU. That is, if you have 10 processes in the background all trying to run at the same time, when combined they can't take away more than 10% of the time needed by foreground threads. This is enough to allow background threads to make some forward progress, without having enough of an impact on the foreground threads to be generally visible to the user.
(You may have noticed that a “foreground” priority is also defined. This is not used in current Android; it was in the original implementation, but we found that the Linux scheduler does not give enough preference to threads based on pure priority, so switched to cgroups in Android 1.6.)
I have also seen a number of claims that the basic Android design is fundamentally flawed and archaic because it doesn’t use a rendering thread like iOS. There are certainly some advantages to how iOS work, but this view is too focused on one specific detail to be useful, and glosses over actual similarities in how they behave.
Android had a number of very different original design goals than iOS did. A key goal of Android was to provide an open application platform, using application sandboxes to create a much more secure environment that doesn’t rely on a central authority to verify that applications do what they claim. To achieve this, it uses Linux process isolation and user IDs to prevent each application from being able to access the system or other application in ways that are not controlled and secure.
This is very different from iOS’s original design constraints, which remember didn’t allow any third party applications at all.
An important part of achieving this security is having a way for (EDIT: It has been pointed out to me that iOS does in fact use multiple windows and multiple GL contexts. Lesson to me, just don't talk about anything I haven't directly verified. That still doesn't change things for Android, though, where as I mention later we simply did not have hardware and drivers that could do multiple GL contexts until fairly recently.)
individual UI elements to share the screen in a secure way. This is why there are windows on Android. The status bar and its notification shade are windows owned and drawn by the system. These are separate from the application’s window, so the application can not touch anything about the status bar, such as to scrape the text of SMS messages as they are displayed there. Likewise the soft keyboard is a separate window, owned by a separate application, and it and the application can only interact with each other through a well defined and controlled interface. (This is also why Android can safely support third party input methods.)
Another objective of Android was to allow close collaboration between applications, so that for example it is easy to implement a share API that launches a part of another application integrated with the original application’s flow. As part of this, Android applications traditionally are split into pieces (called “Activities”) that handle a single specific part of the UI of the application. For example, the contacts lists is one activity, the details of a contact is another, and editing a contact is a third. Moving between those parts of the contacts UI means switching between these activities, and each of these activities is its own separate window.
Now we can see something interesting: in almost all of the places in the original Android UI where you see animations, you are actually seeing windows animate. Launching Contacts is an animation of the home screen window and the contacts list window. Tapping on a contact to see its details is an animation of the contacts list window and the contacts details window. Displaying the soft keyboard is an animation of the keyboard window. Showing the dialog where you pick an app to share with is an animation of a window displaying that dialog.
When you see a window on screen, what you are seeing is actually something called a “surface”. This is a separate piece of shared memory that the window draws its UI in, and is composited with the other windows to the screen by a separate system service (in a separate thread, running at a higher than normal priority) called the “surface flinger.” Does this sound familiar? In fact this is very much like what iOS is doing with its views being composited by a separate thread, just at a less fine-grained but significantly more secure level. (And this window composition has been hardware accelerated in Android from the beginning.)
The other main interesting interaction in the UI is tracking your finger -- scrolling and flinging a list, swiping a gallery, etc. These interactions involve updating the contents inside of a window, so require re-rendering that window for each movement. However, being able to do this rendering off the main thread probably doesn’t gain you much. These are not simple “move this part of the UI from X to Y, and maybe tell me when you are done” animations -- each movement is based on events received about the finger on the screen, which need to be processed by the application on its main thread.
That said, being able to avoid redrawing all of the contents of the parts of the UI that are moving can help performance. And this is also a technique that Android has employed since before 1.0; UI elements like a ListView that want to scroll their content can call http://developer.android.com/reference/android/view/View.html#setDrawingCacheEnabled(boolean) to have that content rendered into a cache so that only the bitmap needs to be drawn as it moves.
Traditionally on Android, views only have their drawing cache enabled as a transient state, such as while scrolling or tracking a finger. This is because they introduce a fair amount more overhead: extra memory for the bitmap (which can easily total to multiple times larger than the actual frame buffer if there are a number of visual layers), and when the contents inside of a cached view need to be redrawn it is more expensive because there is an additional step required to draw the cached bitmap back to the window.
So, all those things considered, in Android 1.0 having each view drawn into a texture and those textures composited to the window in another thread is just not that much of a gain, with a lot of cost. The cost is also in engineering time -- our time was better spent working on other things like a layout-based view hierarchy (to provide flexibility in adjusting for different screen sizes) and “remote views” for notifications and widgets, which have significantly benefited the platform as it develops.
In fact it was just not feasible to implement hardware accelerated drawing inside windows until recently. Because Android is designed around having multiple windows on the screen, to have the drawing inside each window be hardware accelerated means requiring that the GPU and driver support multiple active GL contexts in different processes running at the same time. The hardware at that time just didn’t support this, even ignoring the additional memory needed for it that was not available. Even today we are in the early stages of this -- most mobile GPUs still have fairly expensive GL context switching.
I hope this helps people better understand how Android works. And just to be clear again from my last point -- I am not writing this to make excuses for whatever things people don’t like about Android, I just get tired of seeing people write egregiously wrong explanations about how Android works and worse present themselves as authorities on the topic.
There are of course many things that can be improved in Android today, just as there are many things that have been improved since 1.0. As other more pressing issues are addressed, and hardware capabilities improve and change, we continue to push the platform forward and make it better.
One final thought. I saw an interesting comment from Brent Royal-Gordon on what developers sometimes need to do to achieve 60fps scrolling in iOS lists: “Getting it up to sixty is more difficult—you may have to simplify the cell's view hierarchy, or delay adding some of the content, or remove text formatting that would otherwise require a more expensive text rendering API, or even rip the subviews out of the cell altogether and draw everything by hand.”
I am no expert on iOS, so I’ll take that as as true. These are the exact same recommendations that we have given to Android’s app developers, and based on this statement I don't see any indication that there is something intrinsically flawed about Android in making lists scroll at 60fps, any more than there is in iOS.
D3oDex3D_Ayush717 said:
An Extremely important thread for me..........My friend has an iPhone 3GS and he always considers it better than Android, underestimating my LG O1 I've many a times proved him wrong, but not with technical aspects.....Now he'd understand what is ANDROID!!!!
Click to expand...
Click to collapse
Ehhhh I still think 3GS is better than optimus one
That's a lot of bull**** in even more words...
Kidding
But I don't understand anything of it, I'll leave it to the real devs (A)
Luck dev'ing
ok, here some basic informations on how long it take and why before a developer can
release a complete OS:
http://developer.sonyericsson.com/w...from-source-code-release-to-software-upgrade/
About Accelerated Android Rendering:
It's pretty interesting although these guys aren't talking about Ice Cream Sandwich (they're talking about Honeycomb that introduced hardware accelerated 2D rendering)
http://www.youtube.com/watch?v=v9S5EO7CLjo
I could be way off base here, but is there anything useful that could be extracted from qualcomm's adreno sdk?
https://developer.qualcomm.com/
terratrix said:
Ehhhh I still think 3GS is better than optimus one
Click to expand...
Click to collapse
I am not comparing 3Gs and O1, am talking abt. difference between AndroidOS and iOS............
Sent from my LG Optimus One P500 using XDA App
This week, google started a nice topic on the android developer page "Best practices to develop android applications".
Reading some articles is recommended for developers who want to save some battery and/or network traffic, want to spped
up listviews, save ram and other good things:
look here:
Improving Layout Performance
Optimizing Battery Life
Sharing content between applications
i hope, this can someone help to understand what we can do to make things nice.