Example #1
0
 public List<List<Point2D_F64>> getEdges() {
   if (this.scale != 1.0) {
     for (List<Point2D_F64> l : prunedCannyEdgeList) {
       for (Point2D_F64 p : l) {
         p.x *= this.scale;
         p.y *= this.scale;
       }
     }
     this.scale = 1.0;
   }
   return prunedCannyEdgeList;
 }
Example #2
0
 public List<List<Point2D_F64>> getBlobRegions() {
   if (this.scale != 1.0) {
     for (List<Point2D_F64> l : blobQuads) {
       for (Point2D_F64 p : l) {
         p.x *= this.scale;
         p.y *= this.scale;
       }
     }
     this.scale = 1.0;
   }
   return blobQuads;
   //		if (this.blobQuads.size() < 9) {
   //			System.out.println("blobs can't find enough things that might be cards");
   //		}
   //		else {
   //
   //			// See whether the top 9/12/15 ROIs by size are roughly the same size
   //			// Calculate areas and sort
   //			int[] areas = new int[blobQuads.size()];
   //			for (int i=0; i<blobQuads.size(); i++) {
   //				areas[i] = Segmenter.areaOfRegion(blobQuads.get(i));
   //			}
   //			Arrays.sort(areas);
   //
   //			// From the top, see if they're all within tolerance from the mean
   //			int similarSizedLargest = -1;
   //			if (blobQuads.size() >= 15 && Segmenter.topNSimilarSized(areas, 15)) {
   //				similarSizedLargest = 15;
   //			}
   //			else if (blobQuads.size() >= 12 && Segmenter.topNSimilarSized(areas, 12)) {
   //				similarSizedLargest = 12;
   //			}
   //			else if (Segmenter.topNSimilarSized(areas, 9)) {
   //				similarSizedLargest = 9;
   //			}
   //
   //			if (similarSizedLargest != -1) {
   //				List<List<Point2D_F64>> finalEdgeList =
   // blobQuads.subList(blobQuads.size()-similarSizedLargest, blobQuads.size()-1);
   //				return finalEdgeList;
   //			}
   //		}
   //		return null;
 }
Example #3
0
  /**
   * Given a sequence of points on the contour find the best fit line.
   *
   * @param contourIndex0 contour index of first point in the sequence
   * @param contourIndex1 contour index of last point (exclusive) in the sequence
   * @param line storage for the found line
   * @return true if successful or false if it failed
   */
  boolean fitLine(int contourIndex0, int contourIndex1, LineGeneral2D_F64 line) {
    int numPixels = CircularIndex.distanceP(contourIndex0, contourIndex1, contour.size());

    // if its too small
    if (numPixels < minimumLineLength) return false;

    Point2D_I32 c0 = contour.get(contourIndex0);
    Point2D_I32 c1 = contour.get(contourIndex1);

    double scale = c0.distance(c1);
    double centerX = (c1.x + c0.x) / 2.0;
    double centerY = (c1.y + c0.y) / 2.0;

    int numSamples = Math.min(20, numPixels);

    pointsFit.reset();
    for (int i = 0; i < numSamples; i++) {

      int index = i * (numPixels - 1) / (numSamples - 1);

      Point2D_I32 c = contour.get(CircularIndex.addOffset(contourIndex0, index, contour.size()));

      Point2D_F64 p = pointsFit.grow();
      p.x = (c.x - centerX) / scale;
      p.y = (c.y - centerY) / scale;
    }

    if (null == FitLine_F64.polar(pointsFit.toList(), linePolar)) {
      return false;
    }
    UtilLine2D_F64.convert(linePolar, line);

    // go from local coordinates into global
    line.C = scale * line.C - centerX * line.A - centerY * line.B;

    return true;
  }
 @Override
 public void compute(double x, double y, Point2D_F64 out) {
   out.x = x;
   out.y = height - y;
 }