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21

Install Android NDK. Following instructions were verified with r8b, older versions may have problems, I don't know. Get the Android sources for libjpeg-turbo from Benjamin Gaignard: git clone git://git.linaro.org/people/tomgall/libjpeg-turbo/libjpeg-turbo.git -b linaro-android In the libjpeg-turbo directory created by git, edit file Android.mk: after ...


10

The vast majority of Android devices in the market use some flavor of ARM CPU. High end phones (e.g. HTC Sensation) tend to use ARM CPUs which support NEON (Qualcomm Snapdragon, OMAP4, Samsung Exynos, Tegra3). Older/less capable phones usually have some ARMv6 chipset such as the Qualcomm MSM72xx series. Some good examples are the Google G1 and the original ...


9

Ok, I know that you did already solve your problem, but as some people, just like me, could be searching some simple example I will share what I created. It is an example, compressing and decompressing an RGB image. Otherwise I think that the API documentation of TurboJPEG is quite easy to understand! Compression: #include <turbojpeg.h> const int ...


8

I ported libjpeg-turbo for use in android a number of months back. You can find the code here: http://git.linaro.org/gitweb?p=people/tomgall/libjpeg-turbo/libjpeg-turbo.git;a=shortlog;h=refs/heads/android Android.txt is there etc. Just moved out the external/jpeg directory and replace with this named exactly the same external/jpeg, it'll build and run ...


5

To build OpenCV 2.4.0 with libjpeg-turbo you need: build libjpeg-turbo as static library configure OpenCV with the following command: cmake -DWITH_JPEG=ON -DBUILD_JPEG=OFF -DJPEG_INCLUDE_DIR=/path/to/libjepeg-turbo/include/ -DJPEG_LIBRARY=/path/to/libjpeg-turbo/lib/libjpeg.a /path/to/OpenCV


5

for the libjpeg-turbo port that I did (and am still working on) there the following things to consider: instruction set (armv6, armv7), SIMD (with or without NEON) Libjpeg-turbo really shines on armv7 with NEON. NEON is arm's SIMD support. Tegra, Tegra2 doesn't have NEON but it is armv7 for instance. So libjpeg-turbo can be built right now turning NEON ...


4

I don't know about the library in question, but in order to perform a lossless rotation on a jpeg image, you would at least have to decompress the DCT coefficients in order to rotate them, and then re-compress. The DCT coefficients, fully expanded, will be the same size or larger than the original image data, as they have more bits of information. It's ...


3

This answer expands on Alex Cohn's answer. Full credit goes to him for getting me started. This answer will allow you to build libjpeg-turbo with assembly for ARM (with or without NEON) as well as x86. Compatibility is also provided for MIPS so that you can be a good citizen and build your app for all of the platforms that the r8e version of the Android ...


3

Looks good for me. Have you made sure that the libjpegturbo sources are valid and stable?


2

Thanks for the answers. It is actually possible to decompress and re-compress in around 100ms. After contacting the writer of libjpeg-turbo he told me that the dinfo.scale_num property I was using was wrong. This property is the scale numerator - I also needed to set the scale_denom (denominator) property. So the good code would be: dinfo.dct_method = ...


2

Here's a fragment of code what I use to load jpeg's from memory. Maybe it will require a bit of fixing, because I extracted it from different files in my project. It will load both - grayscale and rgb images (bpp will be set either to 1 or to 3). struct Image { int bpp; int width; int height; unsigned char* data; }; struct jerror_mgr { ...


2

Your code seems ok, it is well written and handles errors ok. But from what I see the problem can be either an error in the external lib, you cand test this by unloading(or uninit) and the reloading and reiniting the library and then encoding the next file. You can also try an older version of the lib to see if it works. The second problem may be a pointer ...


1

An old question but I'll add to it anyway just in case. Someone did go into detail and one of the issues was dynamically selecting NEON. It is explained here: libjpeg-turbo for android (markmanca's answer) The relevant section is item 4 to modify some lines in the init_simd() method.


1

The JPEG standard has no knowledge of color spaces. It simply compresses color components. If is the specific file format (e.g. JFIF, EXIF, ADOBE) that specifies the color format. In most cases it is YCbCR. In some cases it is not (some adobe). This link may explained the confusion http://en.wikipedia.org/wiki/Yuv#Confusion_with_Y.27CbCr YUV and YCbCR ...


1

No doubt, libjpeg-turbo can give you certain performance advantages, but I'd strongly suggest to start with libjpeg, which is preinstalled on all Android devices. You still need a JNI wrapper to convert the bytearray to uint8_t*. If you don't actually manipulate the bytes in Java, consider using direct ByteBuffer instead, to guarantee most efficient native ...


1

The correct way to deploy binaries to Heroku is to use buildpacks: https://devcenter.heroku.com/articles/buildpacks Use this one if you want to package up multiple binaries: https://github.com/ddollar/heroku-buildpack-multi There are a number of buildpacks already created for various binaries, but none for the ones you have listed.


1

The problem is that NDK build system strips all prebuilt shared libraries when copying them to destination folder. If you really need to use a libjpeg as shared library, then I would suggest that you run a post build script to copy the original file to the destination folder overwriting the stripped one. The best solution is to prebuild a libjpeg.a static ...


1

Just need to set ANativeWindow's format with ANativeWindow_setBuffersGeometry(_window, 0, 0, WINDOW_FORMAT_RGBA_8888). And then use TJPF_RGBA format instead of TJPF_ARGB.


1

Since the libjpeg_turbo is compiled as a C library and your Android native code is compiled as a C++ program, you should include the C library through linkage directive. Try this, extern "C" { #include "headers of libjpeg_turbo" }


1

You should create your own wrapper for the library in the native side. The steps are roughly these ones: In the class where you call: System.loadLibrary("libjpeg"); You declare the native methods you need to call in the Java side, without providing any implementation: public static native readJPEGFile(); Then you can use the javah command to create ...


1

The precompiled .lib and .dll files only support the version 6 functions. You need to compile your own library. Pass the -DWITH_JPEG8=1 flag to CMake to get those two functions.


1

In the end I used a combination of random code found on the internet (e.g. https://github.com/erlyvideo/jpeg/blob/master/c_src/jpeg.c) and the .c and header files for libjeg-turbo, which are well documented. This official API is a good information source aswell.


1

My bad, the file's in a branch in that repository. Also found this info: https://wiki.linaro.org/BenjaminGaignard/libjpeg-turboAndSkia



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