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Lines and angles from points

(Originally posted by gjermund on 10/03/2007)

Hello
This is my problem:
I would like to measure salmon hearts by 5 lengths and one angle. All of the above are defined by 4 points, see fig a. The lengths are the distances between P1-P2, P1-P3, P2-P3, P3-P4 and P4 - Line 1 (on the line between P3 and P4) green line in fig b. Finally I would like to measure the angle between line L1 and L4, see AF1 in fig c.

We have 6000 hearts, and need a macro that can measure these parameters based on the four points, which will have to be put in interactively with the mouse.

Appreciate any good tips on macro functions that can do this. Thanks.

Comments

  • (Originally posted by KevinR on 10/3/2007)

    The simplest way would be to prompt the user to draw the polygon using either the AOI or annotation tool, then look at the points in the polygon and calculate the geometric properties thereof.

    I would run a small loop that prompts the user with IpDocClick to click on the various points, drawing an annotation line with IpAnCreateObj( ) for each segment. After the 4th point draw the last connecting line, use IpAnGet with GO_ATTR_NUMPOINTS and GO_ATTR_POINTS to obtain the points for the lines, and then calculate your values using sin, cos, and atan.

  • edited June 2013

    (Originally posted by KevinR on 10/8/2007)

    Here's a few useful IpBasic routines for this sort of calculation. OffsetToAngle( ) converts an X and Y distance (from the differences between two points, for example) into an angle. TrimAngle is a utility function that makes certain angles remain between 0-2*pi. AngleDiff( ) gives you the difference between two angles.

    Lengths of lines defined by two points are simple geometry, the Euclidian distance:

    
    	Length = [ (x1-x2)^2 + (y1-y2)^2 ] ^0.5
    


    Here's the set of utility routines. These are written so that zero degrees is a vertical line, pointing to 12 o-clock as you look at the screen. This matches with angles produced by Count/Size, for example.

    
    Const PI = 3.14159265
    
    Function TrimAngle(angle As Single) As Single
    	If angle = 0.0 Then
    		TrimAngle = 0.0
    		Exit Function
    	End If
    
    	Do Until angle > 0.0
    		angle = angle + 2.0 * PI
    	Loop
    
    	Do Until angle <= 2.0 * PI
    		angle = angle - 2.0 * PI
    	Loop
    
    	TrimAngle = angle
    End Function
    
    Function OffsetToAngle(xOff As Long, yOff As Long) As Single
    	If xOff = 0 Then
    		If yOff < 0 Then
    			OffsetToAngle = 0.0
    		Else
    			OffsetToAngle = PI
    		End If
    	Else
    		OffsetToAngle = Atn(CSng(yOff)/CSng(xOff))
    		If xOff >= 0 And yOff >= 0 Then
    			' No change
    		ElseIf xOff < 0 And yOff >= 0 Then
    			OffsetToAngle = PI + OffsetToAngle
    		ElseIf xOff < 0 And yOff < 0 Then
    			OffsetToAngle = PI + OffsetToAngle
    		Else
    			OffsetToAngle = 2.0 * PI + OffsetToAngle
    		End If
    	End If
    	OffsetToAngle = OffsetToAngle + PI/2.0
    	OffsetToAngle = TrimAngle(OffsetToAngle)
    
    End Function
    
    
    Function AngleDiff(ByVal angle1 As Single, ByVal angle2 As Single) As Single
    	Dim diff1 As Single, diff2 As Single
    
    	diff1 = Abs(angle1 - angle2)
    
    	If angle1 > angle2 Then
    		angle2 = angle2 + 2.0*PI
    	Else
    		angle1 = angle1 + 2.0*PI
    	End If
    
    	diff2 = Abs(angle1 - angle2)
    
    	If diff1 < diff2 Then
    		AngleDiff = diff1
    	Else
    		AngleDiff = diff2
    	End If
    End Function
    


    For information such as distance between points and a line, projections of one line on another, and other geometric calculations, I would recommend checking with a geometry text or Googling the measurement of interest for the basic equations. Searching on "distance between point and line" gave the essential equations in four of the first five references.

  • (Originally posted by gjermund on 10/15/2007)

    Thanks! The advice was just what I needed!
    I now have a macro that does all the neccessary calculations from the four points.

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