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I'm working with my new app which processed captured image from cellphone camera. My phone is Nexus S, 2.3.4.

I create a ARGB_8888 Bitmap with captured data. I know the ndk image lib, but it's only support 2.2 and above. So I pass the int[] of Bitmap to NDK and found the color byte order is little-endian.

I searched the wiki and found arm architecture is bi-endian.

My question is if arm is bi-endian, how to judge the byte order in specific device? Should I test the byte order every time before access the data?

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I'm surprised it's necessary, doesn't bi-endianity imply that the OS would configure a common endian format across all devices? Have you come across any situation where the colour byte order is not little-endian? – Jodes Jun 2 '11 at 10:05
Since ARMv6, you can dynamically switch the endian-ness of ARM, but iOS, Android and Windows (all flavors) use little-endian. This does not change on different devices. – BitBank Jun 8 '11 at 14:32
Thank you, Jodes and BitBank. It seems like I should only focus on the little-endian on Android devices. – Matrix Bai Jun 9 '11 at 8:21

4 Answers 4

up vote 19 down vote accepted

Yes most cpus bi-endian, but most end user operating systems in use today choose to use the cpus in little-endian. Along those lines, ARM can operate in both as a convenience, its actual default after ARM 3 is little-endianess which is the endian mode it starts up in. I think one can safely assume that all Android devices are little endian, otherwise it would be extra work if different android devices were a mixture of endianess.

Because network byte order is big-endian, it can be helpful to convert any format you plan on using for data interchange to network byte order. Again, though, Mac OS X on Intel, Windows, iOS and Android are little-endian, so you might just code up structures with the native endianness and hope the next great OS you want to port data to doesn't go big-endian.

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Rather, 95% of the computers you're likely to encounter are little-endian. – dascandy Nov 18 '11 at 6:41
Android isnt about desktops or other big computers. Its about phones, tablets most of which are powered by ARM cpus. – mP. Nov 19 '11 at 6:42
It appears that all Android systems are little endian. – Steve Harris Jan 11 '12 at 15:34
Android may be little endian, but Java is not. :/… – techtonik Jan 6 '14 at 16:50

Directly from my Nexus S:

> import java.nio.*;
> System.out.println(ByteOrder.nativeOrder());

There should also be some way to get the ordering in the NDK.

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ARM processors (on which some Android is running) supports both endian formats.

In NDK-ROOT/platforms/android-[x]/arch-arm/usr/include/machine/endian.h you can find:

#ifdef __ARMEB__

__ARMEB__ is defined by the gcc compiler when using the -mbig-endian ARM option. Even if most Android architectures are using little endian by default you shouldn't take this for granted and for portability reasons your native code should be able to handle both endiannes.

To do that you should #include <endian.h> and check BYTE_ORDER to architecture your code properly.

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Good answer, small correction: actually, _BYTE_ORDER is defined in NDK-ROOT/platforms/android-[x]/arch-arm/usr/include/machine/endian.h – Mark Kahn Mar 31 '14 at 7:31
-1. Randomly defining ARMEB isn't going to make the byte order magically big endian, it'll just make the BYTE_ORDER macro incorrect. – Nicholas Wilson Apr 17 at 8:52
@NicholasWilson I've explicitly said you shouldn't define ARMEB – MihaiPopescu Sep 15 at 10:31
Thank you @MarkKahn for the correction. I'm not sure though if it holds true for all SDKs. – MihaiPopescu Sep 15 at 10:33
@mehy Where? Your answer suggests that defining _ARMEB_ on the commandline will affect the endianness you get, which is false. – Nicholas Wilson Sep 21 at 6:55
bool isLittleEndian() {
    unsigned short word=0x0102;
    return *(char*)&word==2;


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