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This code apparently runs well, but I read about pthreads and two threads can't read/write at the same time.

class Sound{
    private:
        std::vector<int> waveColors;
        int progress;
    public:
        void analyze(){
            do{
                //Perform FFT and update progress
                waveColors.push_back(color)
            }while(progress < 100);
        }
        void getWaveColors(std::vector<int> *colors, int offset, int length){
            for(int i=offset;i<offset+length;i++){
                colors.push_back(waveColors[i]);
            }
        }
        int getProgress(){
            return (progress);
        }
}


Sound *sound = new Sound();
void *analyzeThread(void *arg){
    sound->analyze();
}
pthread_t analyzeThreadId;
pthread_create (&analyzeThreadId, NULL, analyzeThread, 0);

jintArray Java_package_getWaveColors(JNIEnv* env, jobject thiz, jint offset, jint limit){
    std::vector<int> colors;
    sound->getWaveColors(&colors, offset, limit);

    jintArray out = env->NewIntArray(colors.size());
env->SetIntArrayRegion(out, 0, colors.size(), (jint *)&colors[0]);
    return out;
}
jint Java_package_getProgress(JNIEnv* env, jobject thiz){
    return (jint)sound->getProgress();
}

What is the correct way (semaphores, mutual exclusions?) in this class for keep running the UI update loop?

Thanks in advance

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Based on the guidance on the front page of the Android NDK, I'd suggest writing your application in Java, and then re-writing a very small performance-intensive part of it in C++ - not any of the the UI parts.

The C++ part might be purely the FFT computation itself. Structure it so you can carry out a limited but significant "chunk" of the work in a single step, and have the chunk-size controlled by a variable so you can try adjusting it later.

Finally, when using a background worker thread in this way, create a thread-safe queue to use for communication purposes. The worker can push chunks of results on to the back of the queue as it completes them, and the foreground thread can pop those completed chunks from the front of the queue each time it refreshes the UI. Of course, you need to ensure that you don't modify the chunk objects once they are "published" to the queue.

Reference for thread-safe queues in Java: http://docs.oracle.com/javase/6/docs/api/java/util/concurrent/package-summary.html

Ideally you should read this: http://www.amazon.com/Java-Concurrency-Practice-Brian-Goetz/dp/0321349601/

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