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I've an app that places a fisheye effect on a bitmap. The image processing class runs concurrently. It distorts a bitmap then stores the pixels in an array from which the distorted bitmap is made.

The problem is that the distorted bitmap is empty after the distortion has taken place. I've put a log statement in the PartialResult() method printing out the values of the populated array. It only prints once in logcat. I would have thought there would be 1000's of logs at the length of the bitmap must be looped through. Is this why the resulting bitmap is empty?

public class MultiProcessorFilter {
    private static final String TAG = "mpf";

    public Bitmap barrel (Bitmap input, float k) {
        if (input!=null) {
            Log.e(TAG, "*********** bitmap input = "+input.toString());
        }
        int []arr = new int[input.getWidth()*input.getHeight()];
        // replace the j, i for loops:
        int jMax = input.getHeight();
        int jMid = jMax / 2;
        int iMax = input.getWidth();
        int iMid = iMax / 2;

        ExecutorService threadPool = Executors.newFixedThreadPool(2);

        FutureTask<PartialResult> task1 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(0, jMid - 1, input, k, iMid, iMax)); 
        FutureTask<PartialResult> task2 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(jMid, jMax - 1,input, k, iMid, iMax)); 
        Log.e(TAG, "*********** about to call task1.get()");
        try {
            PartialResult result1 = task1.get(); // blocks until the thread returns the result
            Log.e(TAG, "*********** just called task1.get()");
            result1.fill(arr);
            Log.e(TAG, "*********** result1 arr length = " + arr.length);

            Log.e(TAG, "*********** about to call task2.get()");
            PartialResult result2 = task2.get(); // blocks until the thread returns the result
            Log.e(TAG, "*********** just called task2.get()");
            result2.fill(arr);
            Log.e(TAG, "**** ******* result2 arr length = " + arr.length);
        } catch(Exception e) {
            e.printStackTrace();
        }
        Bitmap dst2 = Bitmap.createBitmap(arr,input.getWidth(),input.getHeight(),input.getConfig());
        if (dst2!=null)
            Log.e(TAG, "*********** dst2 is not null" );
        return dst2;
    }




    public class PartialResult {
        int startP;
        int endP;
        int[] storedValues;

        public PartialResult(int startp, int endp, Bitmap input) {
            this.startP = startp;
            this.endP = endp;
            this.storedValues = new int[input.getWidth()*input.getHeight()];
            Log.e(TAG, "*********** input  w = "+input.getWidth());
            Log.e(TAG, "*********** input dim  h = "+input.getHeight());
        }

        public void addValue(int p, int result) {
            storedValues[p] = result;
            // Log.e(TAG, "*********** p = " + p + "result = " + result);
        }

        public void fill(int[] arr) {
            int x = 0;
            // Log.e(TAG, "*********** startP = "+startP + "  endP = " + endP);
            for (int p = startP; p < endP; p++, x++)
                arr[p] = storedValues[p];
            Log.e(TAG, "*********** arr = " + arr[x]);
        }
    }



    public class PartialProcessing implements Callable<PartialResult> {
        int startJ;
        int endJ;

        // ... other members needed for the computation such as
        private int[] scalar;
        private float xscale;
        private float yscale;
        private float xshift;
        private float yshift;
        private float thresh = 1;
        private int [] s1;
        private int [] s2;
        private int [] s3;
        private int [] s4;
        private int [] s;
        private Bitmap input;
        private float k;
        private int startI;
        private int endI;


        public PartialProcessing(int startj, int endj, Bitmap input, float k, int starti, int endi) {
            this.startJ = startj;
            this.endJ = endj;
            this.input = input;
            this.k = k;
            this.startI = starti;
            this.endI = endi;
            s = new int[4];
            scalar = new int[4];
            s1 = new int[4];
            s2 = new int[4];
            s3 = new int[4];
            s4 = new int[4];
        }

        int [] getARGB(Bitmap buf,int x, int y) {
            int rgb = buf.getPixel(y, x); // Returns by default ARGB.
            // int [] scalar = new int[4];
            // scalar[0] = (rgb >>> 24) & 0xFF;
            scalar[1] = (rgb >>> 16) & 0xFF;
            scalar[2] = (rgb >>> 8) & 0xFF;
            scalar[3] = (rgb >>> 0) & 0xFF;
            return scalar;
        }

        //... add other methods needed for the computation that where in class Filters

        float getRadialX(float x,float y,float cx,float cy,float k){
            x = (x*xscale+xshift);
            y = (y*yscale+yshift);
            float res = x+((x-cx)*k*((x-cx)*(x-cx)+(y-cy)*(y-cy)));
            return res;
        }

        float getRadialY(float x,float y,float cx,float cy,float k){
            x = (x*xscale+xshift);
            y = (y*yscale+yshift);
            float res = y+((y-cy)*k*((x-cx)*(x-cx)+(y-cy)*(y-cy)));
            return res;
        }



          float calc_shift(float x1,float x2,float cx,float k){

            float x3 = (float)(x1+(x2-x1)*0.5);
            float res1 = x1+((x1-cx)*k*((x1-cx)*(x1-cx)));
            float res3 = x3+((x3-cx)*k*((x3-cx)*(x3-cx)));

            if(res1>-thresh && res1 < thresh)
              return x1;
            if(res3<0){
              return calc_shift(x3,x2,cx,k);
            }
            else{
              return calc_shift(x1,x3,cx,k);
            }
          }


          void sampleImage(Bitmap arr, float idx0, float idx1)
          {

             // s = new int [4];
            if(idx0<0 || idx1<0 || idx0>(arr.getHeight()-1) || idx1>(arr.getWidth()-1)){
              s[0]=0;
              s[1]=0;
              s[2]=0;
              s[3]=0;
              return;
            }

            float idx0_fl=(float) Math.floor(idx0);
            float idx0_cl=(float) Math.ceil(idx0);
            float idx1_fl=(float) Math.floor(idx1);
            float idx1_cl=(float) Math.ceil(idx1);



             s1 = getARGB(arr,(int)idx0_fl,(int)idx1_fl);
             s2 = getARGB(arr,(int)idx0_fl,(int)idx1_cl);
             s3 = getARGB(arr,(int)idx0_cl,(int)idx1_cl);
             s4 = getARGB(arr,(int)idx0_cl,(int)idx1_fl);

            float x = idx0 - idx0_fl;
            float y = idx1 - idx1_fl;

           // s[0]= (int) (s1[0]*(1-x)*(1-y) + s2[0]*(1-x)*y + s3[0]*x*y + s4[0]*x*(1-y));
            s[1]= (int) (s1[1]*(1-x)*(1-y) + s2[1]*(1-x)*y + s3[1]*x*y + s4[1]*x*(1-y));
            s[2]= (int) (s1[2]*(1-x)*(1-y) + s2[2]*(1-x)*y + s3[2]*x*y + s4[2]*x*(1-y));
            s[3]= (int) (s1[3]*(1-x)*(1-y) + s2[3]*(1-x)*y + s3[3]*x*y + s4[3]*x*(1-y));


          }


        // this will be called on some new thread
        @Override public PartialResult call() { 

             PartialResult partialResult = new PartialResult(startJ, endJ,input);

             float centerX=input.getWidth()/2; //center of distortion
             float centerY=input.getHeight()/2;

             int width = input.getWidth(); //image bounds
             int height = input.getHeight();

              xshift = calc_shift(0,centerX-1,centerX,k);

              float newcenterX = width-centerX;
              float xshift_2 = calc_shift(0,newcenterX-1,newcenterX,k);

              yshift = calc_shift(0,centerY-1,centerY,k);

              float newcenterY = height-centerY;
              float yshift_2 = calc_shift(0,newcenterY-1,newcenterY,k);

              xscale = (width-xshift-xshift_2)/width;

              yscale = (height-yshift-yshift_2)/height;


            int p = startI; // not 0! at the start since we don't start at j = 0
            int origPixel = 0;
            int color = 0;
            for (int j = startJ; j <  endJ; j++){
                for (int i = startI; i < endI; i++, p++){
                    //... copy the rest of the code

             origPixel = input.getPixel(i,j);

             float x = getRadialX((float)j,(float)i,centerX,centerY,k);


             float y = getRadialY((float)j,(float)i,centerX,centerY,k);

             sampleImage(input,x,y);

             color = ((s[1]&0x0ff)<<16)|((s[2]&0x0ff)<<8)|(s[3]&0x0ff);

             if(((i-centerX)*(i-centerX) + (j-centerY)*(j-centerY)) <= 5500){

                //arr[p]=color;
                 partialResult.addValue(p, color);
                // Log.e(TAG, "*********** color = " + color);

            }else{

                //arr[p]=origPixel;
                partialResult.addValue(p, origPixel);
            }
                }
                     // partialResult.addValue(p, color);
        }
            return partialResult;
    }
}
}//end of MultiProcesorFilter





07-26 16:17:10.814: ERROR/mpf(2418): *********** just called task1.get()
07-26 16:17:10.814: ERROR/mpf(2418): *********** arr = 0
07-26 16:17:10.814: ERROR/mpf(2418): *********** result1 arr length = 22500
07-26 16:17:10.814: ERROR/mpf(2418): *********** about to call task2.get()
07-26 16:17:10.814: ERROR/mpf(2418): *********** just called task2.get()
07-26 16:17:10.814: ERROR/mpf(2418): *********** arr = 0
07-26 16:17:10.819: ERROR/mpf(2418): *********** result2 arr length = 22500
07-26 16:17:10.819: ERROR/mpf(2418): *********** dst2 is not null

[edit]

The executor service setup:

ExecutorService threadPool = Executors.newFixedThreadPool(2);

FutureTask<PartialResult> task1 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(0, jMid - 1, input, k, iMid, iMax)); 
FutureTask<PartialResult> task2 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(jMid, jMax - 1,input, k, iMid, iMax)); 
Log.e(TAG, "*********** about to call task1.get()");
try{
PartialResult result1 = task1.get();// blocks until the thread returns the result
Log.e(TAG, "*********** just called task1.get()");
result1.fill(arr);

Calls to partialprocessing addvalue, which populates an array in PartialResult:

            int p = startI; // not 0! at the start since we don't start at j = 0
            int origPixel = 0;
            int color = 0;
            for (int j = startJ; j <  endJ; j++){
                for (int i = startI; i < endI; i++, p++){
                    //... copy the rest of the code

             origPixel = input.getPixel(i,j);

             float x = getRadialX((float)j,(float)i,centerX,centerY,k);
             float y = getRadialY((float)j,(float)i,centerX,centerY,k);
             sampleImage(input,x,y);
             color = ((s[1]&0x0ff)<<16)|((s[2]&0x0ff)<<8)|(s[3]&0x0ff);

             if(((i-centerX)*(i-centerX) + (j-centerY)*(j-centerY)) <= 5500){
                //arr[p]=color;
                 partialResult.addValue(p, color);
                // Log.e(TAG, "*********** color = " + color);
            }else{
                //arr[p]=origPixel;
                partialResult.addValue(p, origPixel);
            }
         }
                     // partialResult.addValue(p, color);
        }
        return partialResult;
    }
}

This is where the partialresult array gets filled and where the loop is that is not iterating:

public void addValue(int p, int result) {
      storedValues[p] = result;
     // Log.e(TAG, "*********** p = " + p + "result = " + result);
}

public void fill(int[] arr) {
    int x = 0;
   // Log.e(TAG, "*********** startP = "+startP + "  endP = " + endP);
   for (int p = startP; p < endP; p++, x++)
      arr[p] = storedValues[p];

   Log.e(TAG, "*********** arr = " + arr[x]);
   }
}

[update2]

FutureTask<PartialResult> task1 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(0, jMid - 1, input, k)); 
FutureTask<PartialResult> task2 = (FutureTask<PartialResult>) threadPool.submit(new PartialProcessing(jMid, jMax - 1,input, k)); 

int p = startJ; // not 0! at the start since we don't start at j = 0
int origPixel = 0;
int color = 0;
for (int j = startJ; j <  endJ; j++){
    for (int i = startJ; i < endJ; i++, p++){
share|improve this question
1  
that's a lot of code. could you pick out a snippet and post it? –  Suchi Jul 26 '11 at 15:34
    
@suchi hi, update with snippets –  turtleboy Jul 26 '11 at 15:46
    
You define both PartialProcessing from iMid to iMax. You would need 4 PartialProcessing's to convert all combinations j < jMid, j > jMid, i < iMid, i > iMid. But you should actually NOT split the i part, only parallelizing with the j is sufficient and less confusing. –  toto2 Jul 26 '11 at 15:49
    
@toto hi, sorry not sure what you mean –  turtleboy Jul 26 '11 at 15:53
    
'threadPool.submit(new PartialProcessing(0, jMid - 1, input, k, iMid, iMax));' and you have another one that does jMid to jMax and iMid to iMax. You have a whole lot of (j, i) values which you are never computing. Your arr is probably not empty right now, but it is missing many values. –  toto2 Jul 26 '11 at 15:58

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