I want to create a game for Android and I need to choose between SDK and NDK. Mobile phones have limited hardware and I want to avoid slowdown, but Java is slow and uses too much memory.

Are NDK apps faster and more efficient than SDK apps?

Java uses a garbage collector, all objects are allocated on heap, I cannot allocate an object inside another object (without a pointer), and a simple class that is used as a struct inherits the Object class.

Will my NDK program be converted into Java bytecode? Will the compiler ignore my delete calls, add garbage collector, add the Object class and transfer all of my objects to heap?

  • The vast proportion of Android games out on the market are written in Java. That should answer your question. – Perception Jul 14 '11 at 2:43
  • Who said Java is slow and uses too much memory..? – Mudassir Jul 14 '11 at 3:55
  • Also thought I would add that having fast algorithms is exponentially more important than the language your are writing in. Having a good algorithm in a slow language is going to be waaaaay better than having a bad algorithm in a faster language. – Zarjio Jul 14 '11 at 21:08
  • @ZachJullion good algorithm in a fast language is better than good algorithm in a slow language. And Java can be annoying at some points when you can't optimize as you wish, because the constructs which are supposed to make your life "easier" don't let you do it. – Ixx Aug 30 '12 at 10:12

I'll attempt to clear up some things:

  • On Android, you always develop using the SDK. You can think of the NDK as a addon to the SDK. What the NDK does is allow you to develop native (e.g. C/C++) code in companion to your Java code (what you do on each side is up to you)
  • Are NDK apps faster? Again, it depends on what you're doing. Java can do a lot of things fast on devices with JIT especially. Well written C/C++ code is generally faster, yes. However, you also have to pay a penalty for going to and from Java/native (via JNI)
  • If you look, there are game engines for Android written in the NDK. As of NDK r5 (and of course newer Android versions) you have the ability to draw to the screen from the NDK without first passing through Java/JNI which can give huge performance gains.
  • No, your native code will absolutely not be converted to bytecode. It will be compiled as native ARM/MIPS/x86/whatever machine code.
  • Unless you implement your own GC in native code, new, delete, etc. behave as normal. The Java VM doesn't know anything about your native allocations unless you explicitly call JNI methods for creating new objects.
  • Are you sure about the NDK drawing to screen performance boost? – Henry Aloni Apr 9 '14 at 12:02
  • I'm referring to drawing directly vs rendering and going through JNI. – NuSkooler Apr 21 '14 at 16:28

It sounds like your understanding of NDK vs SDK is a bit unclear.

When you develop apps with the SDK, you are writing in Java. When you are develop apps for the NDK, you are writing in C/C++. I think a lot of people are going to argue that C/C++ is faster for games (among other things), but I believe if you want your development process to be easier, you might want to use the SDK; at least if you have a simple 2D game and don't need to implement a graphics engine with shaders, that is.

Your third paragraph is full of a lot of bad assumptions and wrong connotations. As if having a garbage collector is bad, all implementations of a heap are bad, basic Object-Oriented design structure of inheriting an Object class are bad. And yeah you can have objects inside objects.

And no, it won't be converted to bytecode. No, the compiler won't ignore delete, add the Object class (how/why/what?), or anything else.

  • 2
    Of course his understanding it's unclear, that's why he is making a question. And this answer isn't helpful, besides the last sentence I don't see anything really informative. – Ixx Aug 30 '12 at 10:16

In my understanding, the NDK simply allows you to program games (and apps if you wanted to) in C/C++ for Android. The code is compiled to Android machine code, not converted into Java in some way. It's questionable whether there's really a huge performance difference on modern phones however.

The big advantage of the NDK that hasn't been mentioned here is that it allows you to utilize OpenGL ES 2.0 on older Android versions rather than being stuck with 1.1 if you use Java. OpenGL ES 2.0 has been included in the Java SDK in Gingerbread EDIT: Actually it's Froyo not Gingerbread, as Leif Andersen pointed out in the comments, but at least at the moment, Gingerbread is not widely available Froyo is only on about 60% of Android phones (though that will continue to grow in the next few months).

The other huge advantage to the NDK is the ability to port iOS games (and games from some other platforms) that are written in C/C++.

If you're fine with using OpenGL ES 1.1, or want to use 2.0 but are fine targeting Gingerbread Froyo and above, and you aren't doing any iOS or other platform ports, then Java is going to almost definitely be the best solution for you. That is unless you're a seasoned C/C++ programmer, then you may be more comfortable programming using the NDK.

Also, another advantage to programming in Java is that if there are eventually x86 devices or other chips running Android, your game will still play fine. With NDK it would have to be specially compiled to run on those different chips.

  • 1
    "or want to use 2.0 but are fine targeting Gingerbread and above", actually, it's froyo or above, but does require an NDK hack, as demonstrated by this google io talk: google.com/events/io/2011/sessions/… . Also, I believe the latest version of the NDK (r5) can compile to x86 as well. – Leif Andersen Jul 14 '11 at 19:38
  • You are absolutely correct, somehow I got it in my head that it was Gingerbread, but it is in fact Froyo. And regarding the NDK and x86, I didn't mean it couldn't be compiled for other architectures, I just meant that if you compile and upload it for ARM, then if other architectures are used in the future it would need to be recompiled for them rather than just working out of the box. Or are you saying it makes come kind of universal ARM/x86 binary? – Ben Baron Jul 14 '11 at 20:49
  • Well, it's not universal in the sense of being some magical bytecode that all three platforms can understand, I'm not sure how that would work. But it does store a version of the library for all three platforms, and if it doesn't happen by default the line: "APP_ABI := armeabi armeabi-v7a x86" in the Application.mk file should trigger it, according the the docs: developer.android.com/sdk/ndk/index.html , although admittedly the library I'm currently working on vomits when I do that. – Leif Andersen Jul 15 '11 at 3:55
  • With regard to my previous comment, this seems to be a common problem: groups.google.com/forum/#!topic/android-ndk/Y1ozOWg1Cyw Rats. – Leif Andersen Jul 15 '11 at 4:23
  • So it looks like multiple architecture support is a bit of a PITA with the NDK, that's pretty much all I was getting at. With pure Java SDK you don't have to worry about architectures. /// And when I said universal binary, I meant like OS X does by packaging multiple architectures' binaries into a single file, not magical bytecode, though that would be pretty awesome :P – Ben Baron Jul 15 '11 at 5:39

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