コード例 #1
0
    def dog_detection(overlay,img, imp, cal):

                 # Create a variable of the correct type (UnsignedByteType) for the value-extended view
				 zero = img.randomAccess().get().createVariable()
				
				 # Run the difference of Gaussian
				 cell = 8.0 # microns in diameter
				 min_peak = 2.0 # min intensity for a peak to be considered
				 dog = DogDetection(Views.extendValue(img, zero), img,
				                   [cal.pixelWidth, cal.pixelHeight,cal.pixelDepth],
				                   cell / 2, cell,
				                   DogDetection.ExtremaType.MINIMA, 
				                   min_peak, False,
				                   DoubleType())
				
				 peaks = dog.getPeaks()
				 roi = OvalRoi(0, 0, cell/cal.pixelWidth, cell/cal.pixelHeight)  
				 print ('Number of cells = ', len(peaks))
			 	 p = zeros(img.numDimensions(), 'i')  
			 	
				 boundRect = imp.getRoi()
				 for peak in peaks:  
				    # Read peak coordinates into an array of integers  XYZ location of spots
				    peak.localize(p)  
				    print(p)
				    if(boundRect is not None and boundRect.contains(p[0], p[1])):
						    oval = OvalRoi(p[0], p[1],cell/cal.pixelWidth,  cell/cal.pixelHeight)
						    oval.setColor(Color.RED)
						    overlay.add(oval) 
コード例 #2
0
ファイル: display.py プロジェクト: toyo97/bcmeasure
def circle_roi(cs, r, color):
    # type: (CellStack, int, Color) -> None
    """
Draw a circle roi with center and radius of the cell
    """
    d = r * 2
    x, y = cs.center[0] - r, cs.center[1] - r
    roi = OvalRoi(x, y, d, d)
    roi.setColor(color)
    cs.setRoi(roi)
コード例 #3
0
zero = img.randomAccess().get().createVariable()

# Run the difference of Gaussian
cell = 30.0  # microns in diameter
min_peak = 10.0  # min intensity for a peak to be considered
dog = DogDetection(
    Views.extendValue(img, zero),
    img,
    [cal.pixelWidth, cal.pixelHeight],
    cell / 2,
    cell,
    DogDetection.ExtremaType.MAXIMA,  #MAXIMA
    min_peak,
    False,
    DoubleType())

peaks = dog.getPeaks()
roi = OvalRoi(0, 0, cell / cal.pixelWidth, cell / cal.pixelHeight)
print('Number of cells = ', len(peaks))
p = zeros(img.numDimensions(), 'i')
overlay = Overlay()
imp.setOverlay(overlay)
for peak in peaks:
    # Read peak coordinates into an array of integers
    peak.localize(p)
    if (boundRect.contains(p[0], p[1])):
        oval = OvalRoi(p[0], p[1], cell / cal.pixelWidth,
                       cell / cal.pixelHeight)
        oval.setColor(Color.RED)
        overlay.add(oval)