I want to create an Android app which uses BOW + SVM in native (using C++) for predicting. Unfortunately I have problem with building the native part. Since the non-free module is not included in the OpenCV SDK for Android, I need to build the module myself, using this tutorial. It seems I built the .so file successfully. Here is the output:

[armeabi-v7a] Prebuilt       : libopencv_java.so <= /home/crash-id/Development/SDK/OpenCV-2.4.9-android-sdk/sdk/native/jni/../libs/armeabi-v7a/
[armeabi-v7a] SharedLibrary  : libnonfree.so
[armeabi-v7a] Install        : libnonfree.so => libs/armeabi-v7a/libnonfree.so
[armeabi-v7a] Install        : libopencv_java.so => libs/armeabi-v7a/libopencv_java.so

So the problem comes here, when I have to add this .so file to my project. I added libnonfree.so to my jni folder. Then I edited the Android.mk. Here I provide my .mk files.


LOCAL_PATH := $(call my-dir)

include $(CLEAR_VARS)
LOCAL_MODULE    := nonfree_prebuilt
LOCAL_SRC_FILES := libnonfree.so

include $(CLEAR_VARS)

include /home/crash-id/Development/SDK/OpenCV-2.4.9-android-sdk/sdk/native/jni/OpenCV.mk
#LOCAL_SHARED_LIBRARIES := nonfree_prebuilt #if I add this, it says undefined reference for everything in the cv namespace.
LOCAL_SRC_FILES  := SVMDetector.cpp
LOCAL_MODULE     := svm_detector

LOCAL_C_INCLUDES        += /home/crash-id/Development/SDK/OpenCV-2.4.9-android-sdk/sdk/native/jni/include

LOCAL_CFLAGS            := -Werror -O3 -ffast-math 
LOCAL_LDLIBS            += -llog -ldl 



APP_STL := gnustl_static
APP_CPPFLAGS := -frtti -fexceptions

APP_ABI := armeabi-v7a

APP_PLATFORM := android-15

But this doesn't work. When I try to build the app, I get the following error:

./obj/local/armeabi-v7a/objs/svm_detector/SVMDetector.o: in function Java_org_elsys_thesisdiploma_cammect_FrameProcess_SVMDetect:jni/SVMDetector.cpp:23: error: undefined reference to 'cv::initModule_nonfree()'

When I click right button on initModule_nonfree();, Eclipse opens the nonfree.hpp file and here are it's contents:


#include "opencv2/nonfree/features2d.hpp"

namespace cv

CV_EXPORTS_W bool initModule_nonfree();



But I'm not sure the linker knows where is the implementation of this method. Since it gives an error, it doesn't.


If I add LOCAL_ALLOW_UNDEFINED_SYMBOLS := true, the project compiles successfully but it causes run time error:

 02-17 00:15:58.197: E/AndroidRuntime(8793): FATAL EXCEPTION: main
02-17 00:15:58.197: E/AndroidRuntime(8793): Process: com.example.cammect, PID: 8793
02-17 00:15:58.197: E/AndroidRuntime(8793): java.lang.UnsatisfiedLinkError: dlopen failed: cannot locate symbol "_ZN2cv18initModule_nonfreeEv" referenced by "libsvm_detector.so"...

Do you know what am I doing wrong? Thanks in advance!

  • are you able to compile the demo program (test_sift.cpp) with the Android.mk attached in the zip file? – Kornel Feb 16 '15 at 8:57
  • I haven't try yet. I'll try and write again. Do you think everything is fine with my mk scriptrs? – definera Feb 16 '15 at 14:31
  • No, I don't because the linker will unable to resolve nonfree's symbols in the absence of LOCAL_SHARED_LIBRARIES. – Kornel Feb 16 '15 at 14:52
  • But as I said in the question, if I add the line with LOCAL_SHARED_LIBRARIES "it says undefined reference for everything in the cv namespace." – definera Feb 16 '15 at 14:57
  • I ran the demo project from here web.guohuiwang.com/technical-notes/… with success. Still I don't know how to fix my application.. – definera Feb 16 '15 at 16:21

My development environment is set up as follows:

  • android-ndk-r10d (install path: D:\adt-bundle-windows-x86_64-20140702\android-ndk-r10d\)
  • OpenCV-2.4.10-android-sdk (install path: D:\CODE\OpenCV-2.4.10-android-sdk\), Download link
  • OpenCV-2.4.10 (install path: D:\CODE\OpenCV-2.4.10\), Download link

Building the nonfree module

  1. We actually only need to copy a few files from OpenCV-2.4.10 source code to OpenCV-2.4.10-android-sdk, namely:
    Copy the nonfree folder from OpenCV-2.4.10\sources\modules\nonfree\include\opencv2\ to OpenCV-2.4.10-android-sdk\sdk\native\jni\include\opencv2.

  2. Create a folder to hold our new project for libnonfree.so. Here, I call it libnonfree. Create a jni folder under libnonfree. Copy the following files from OpenCV-2.4.10\sources\modules\nonfree\src to libnonfree\jni\ folder:

  3. Building libnonfree.so:
    Create Android.mk and Application.mk scripts. This Android.mk is used to build libnonfree.so.

    cd into the project folder libnonfree and type ndk-build to build the libnonfree.so.

So far, you have got libnonfree.so along with libopencv_java.so and libgnustl_shared.so in libnonfree\libs\armeabi-v7a folder.
You can easily build any SIFT or SURF applications using those libraries. If you want to use SIFT and SURF in JAVA code in your Android application, you only need to write JNI interfaces for the functions you want to use.

Building a sample application

  1. Create a project folder call libnonfree_demo. Create a jni folder inside the project folder. Then copy libnonfree.so along with libopencv_java.so and libgnustl_shared.so into jni.

  2. Create a nonfree_jni.cpp in jni. It is simple SIFT test program. It basically reads an image and detects the keypoints, then extracts feature descriptors, finally draws the keypoints to an output image.

  3. Create Android.mk and Application.mk inside jni:

    cd into the project folder libnonfree_demo and type ndk-build to build the libnonfree_demo.so.

At this point you can easily extend the sample app with your SVMDetector. Just copy the source and include files int to the folder libnonfree_demo\jni and add cpp files to LOCAL_SRC_FILES in Android.mk.

The whole source can be downloaded from: https://github.com/bkornel/opencv_android_nonfree.

Original source from: http://web.guohuiwang.com/technical-notes/sift_surf_opencv_android

  • Oh, my god!!! Thank you so much!!! It worked!!! – definera Feb 19 '15 at 0:07
  • 1
    @Kornel, this is a great summary. And a good update on the newer OpenCV package. I haven't updated that article for a while (sorry, too lazy). I will attach this link to the article, so that people who needs newer information can benefit from your great answer. – Robert Wang Mar 18 '15 at 17:48
  • @kornel I followed thos step but it doesn't work. I get the following error In file included from jni/nonfree_init.cpp:43:0: jni/precomp.hpp:46:22: fatal error: cvconfig.h: No such file or directory #include "cvconfig.h" ^ compilation terminated. make.exe: *** [obj/local/armeabi-v7a/objs/nonfree/nonfree_init.o] Error 1 – nawara Mar 23 '15 at 14:48
  • 1
    You should put the line #include "cvconfig.h" into comment in precomp.hpp. – Kornel Mar 23 '15 at 19:16
  • 2
    @Kornel How can I get the nonfree libs in OpenCV 3.1 for Android? – xsorifc28 Feb 4 '16 at 16:45

May I add that, in order to use the new libraries in the running application, there are the following steps to do:

1) in your folder libnonfree/libs/[TARGET PLATFORM]/, there are now 3 files: - libgnustl_shared.so - libnonfree.so - libopencv_java.so

in your own project (my IDE is the Android Studio), you have a folder src/main/, with the subfolders: - java - res

create a new folder (if not already there): "jniLibs" [this folder is auto-parsed by Gradle]

COPY the 3 above-mentioned folders under "libnonfree/libs/" into the "jniLibs" folder. you end up with a structure like that: screenshot of the jniLibs folder

/app/src/main/jniLibs/[armeabi, armeabi-v7a, ...]/[libgnustl_shared.so, libopencv_java.so, libnonfree.so]

2) Somewhere in your code, you have a line like this:

OpenCVLoader.initAsync(OpenCVLoader.OPENCV_VERSION_2_4_10, this, mLoaderCallback);

this line tells your app to dynamically load the pre-compiled library from the locally-installed OpenCV Manager. In order to use the self-compiled non-free version, we replace the above line with the following:



now, we made sure to use the nonfree-included libraries we provide with the app.

3) well, run a SURF descriptor:

Bitmap mPhotograph = BitmapFactory.decodeFile(_image_path);
Mat real_image = new Mat();
Utils.bitmapToMat(mPhotograph, real_image);
MatOfKeyPoint keypoints_real = new MatOfKeyPoint();
FeatureDetector detector = FeatureDetector.create(FeatureDetector.SURF);
detector.detect(real_image, keypoints_real);

while before, the app would return with a bad signal, this time it does its job and you can evaluate the resulting keypoints.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.