Module: CVFFI::ImagePatch

Defined in:
lib/opencv-ffi-wrappers/features2d/image_patch.rb

Defined Under Namespace

Classes: CircularMask, Mask, Params, Result, ResultsArray, SquareMask

Class Method Summary collapse

Class Method Details

.describe(img, keypoints, params) ⇒ Object 



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# File 'lib/opencv-ffi-wrappers/features2d/image_patch.rb', line 217

def self.describe( img, keypoints, params )
  img = img.to_IplImage.ensure_greyscale
  preOriented = false

  half_size = (params.size/2).floor

  results = ResultsArray.new( params )
  mask = results.mask

  puts "Extracting #{keypoints.length} keypoints"
  keypoints.each_with_index { |kp,idx|
    next if kp.x < half_size or 
    kp.y < half_size or
    (img.width - kp.x) <= half_size or
    (img.height - kp.y) <= half_size

    angle = 0.0
    rect = Rect.new( [ kp.x-half_size, kp.y-half_size, params.size, params.size ] )
    CVFFI::cvSetImageROI( img, rect.to_CvRect )
    #
    ## Simple single-channel implementation
    #  Patch is row-major (i == row == y, j = column == x)
    patch = Array.new( params.size ) { |i|
      Array.new( params.size ) { |j|
         mask.valid?(i,j) ?  CVFFI::cvGetReal2D( img, i,j ) : 0.0
      }
    }
    CVFFI::cvResetImageROI( img )

    if params.oriented  == true
      # Calculate covariance matrix by Yingen Xiong
      patch_sum = mxi = mxj = 0.0
      patch.each_index { |i|
        patch[i].each_index { |j|
          if mask.valid?(i,j)
            patch_sum += patch[i][j]
            mxi += i*patch[i][j]
            mxj += j*patch[i][j]
          end
        }
      }
      mxi /= patch_sum
      mxj /= patch_sum

    #  puts "Medoids = " + [mxi,mxj].join(',')

      c11 = c12 = c22 = 0.0
      patch.each_index { |i|
        patch[i].each_index { |j|
          if mask.valid?(i,j)
            c11 += patch[i][j] * (i-mxi)*(i-mxi)
            c12 += patch[i][j] * (i-mxi)*(j-mxj)
            c22 += patch[i][j] * (j-mxj)*(j-mxj)
          end
        }
      }

      c = Matrix.rows( [ [c11,c12],[c12,c22] ] )
      d,v = CVFFI::Eigen.eigen( c )

      d = d.to_a
      i = if d[0] == d[1]
            # Equal eigenvalues
            0
          else
            d.find_index( d.max )
          end

      vec = v.to_Matrix.column_vectors[i]

      # Eigenvector corresponding to larger eignvector defines orientation
      #  However it's in i-j space, which is OpenCV (y-down, x-right)
      #  Subtract from 2PI to put in mathematical (x-right, y-up) space
      angle = 2*Math::PI - Math::atan2( vec[0],vec[1] )
      angle %= 2*Math::PI
      #puts "Computed angle #{angle * 180.0/Math::PI}"

        ## Pre-orient patch
       # puts "Pre-orienting patch"
        rotmat = CVFFI::CvMat.new CVFFI::cvCreateMat( 2,3, :CV_32F )
        CVFFI::cv2DRotationMatrix( kp.to_CvPoint2D32f, -angle*180.0/Math::PI, 1.0, rotmat )

        dstimg = img.twin
        CVFFI::cvWarpAffine( img, dstimg, rotmat )
        CVFFI::cvSetImageROI( dstimg, rect.to_CvRect )
        patch = Array.new( params.size ) { |i|
          Array.new( params.size ) { |j|
            mask.valid?(i,j) ?  CVFFI::cvGetReal2D( dstimg, i,j ) : 0.0
          }
        }
        CVFFI::cvResetImageROI( dstimg )
        CVFFI::cvReleaseImage( dstimg )
        preOriented = true

        GC.start if (idx % 5) == 0 

    end

    results << Result.new( kp, patch, angle, preOriented )
  }

  results
end