dist_ellipse_contour_xld dist_ellipse_contour_xld DistEllipseContourXld DistEllipseContourXld dist_ellipse_contour_xld (Operator)
Name
dist_ellipse_contour_xld dist_ellipse_contour_xld DistEllipseContourXld DistEllipseContourXld dist_ellipse_contour_xld
Signature
dist_ellipse_contour_xld (Contours Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
Herror dist_ellipse_contour_xld (const Hobject Contours Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
Herror T_dist_ellipse_contour_xld (const Hobject Contours Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
void DistEllipseContourXld (const HObject& Contours Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
void HXLDCont ::DistEllipseContourXld (const HString& Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
void HXLDCont ::DistEllipseContourXld (const HString& Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
void HXLDCont ::DistEllipseContourXld (const char* Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
void HXLDCont ::DistEllipseContourXld (const wchar_t* Mode MaxNumPoints ClippingEndPoints Row Column Phi Radius1 Radius2 MinDist MaxDist AvgDist SigmaDist
(Windows only)
static void HOperatorSet .DistEllipseContourXld (HObject contours HTuple mode HTuple maxNumPoints HTuple clippingEndPoints HTuple row HTuple column HTuple phi HTuple radius1 HTuple radius2 HTuple minDist HTuple maxDist HTuple avgDist HTuple sigmaDist
void HXLDCont .DistEllipseContourXld (string mode maxNumPoints clippingEndPoints row column phi radius1 radius2 HTuple minDist HTuple maxDist HTuple avgDist HTuple sigmaDist
void HXLDCont .DistEllipseContourXld (string mode maxNumPoints clippingEndPoints row column phi radius1 radius2 minDist maxDist avgDist sigmaDist
def dist_ellipse_contour_xld (contours mode max_num_points clipping_end_points row column phi radius_1 radius_2
def dist_ellipse_contour_xld_s (contours mode max_num_points clipping_end_points row column phi radius_1 radius_2
Description
dist_ellipse_contour_xld dist_ellipse_contour_xld DistEllipseContourXld DistEllipseContourXld DistEllipseContourXld dist_ellipse_contour_xld Contours Contours Contours Contours contours contours Row Row Row Row row row Column Column Column Column column column Phi Phi Phi Phi phi phi Radius1 Radius1 Radius1 Radius1 radius1 radius_1 Radius2 Radius2 Radius2 Radius2 radius2 radius_2
Mode Mode Mode Mode mode mode
'geometric'
The underlying distance measure is the geometric distance between a point
on the contour and the ellipse. This measure is also called
orthogonal or Euclidian distance.
'algebraic'
The distance is measured by the algebraic distance
Radius2 Radius2 Radius2 Radius2 radius2 radius_2 high curvature bias : Near points of
high curvature on the ellipse (like the poles on the main axis)
the distance is smaller than near points with low curvature.
'focpoints'
The distance is measured by the deviation
Radius1 Radius1 Radius1 Radius1 radius1 radius_1 low curvature bias :
Near points of high curvature on the ellipse (like the poles on the main
axis) the distance is larger than near points with low curvature.
'bisec'
The distance is measured by the distance between X and the
intersection of the angular bisector of the two lines through X and the
focal points with the ellipse. This is a good approximation of
the orthogonal distance from X to the ellipse.
The accuracy of the approximation depends on both the aspect ratio of the
ellipse and the distance.
The operator returns the minimum absolute distance MinDist MinDist MinDist MinDist minDist min_dist MaxDist MaxDist MaxDist MaxDist maxDist max_dist AvgDist AvgDist AvgDist AvgDist avgDist avg_dist SigmaDist SigmaDist SigmaDist SigmaDist sigmaDist sigma_dist
To reduce the computational load, the computation of the distances
can be restricted to a subset of the contour points: If a value other
than -1 is assigned to MaxNumPoints MaxNumPoints MaxNumPoints MaxNumPoints maxNumPoints max_num_points MaxNumPoints MaxNumPoints MaxNumPoints MaxNumPoints maxNumPoints max_num_points ClippingEndPoints ClippingEndPoints ClippingEndPoints ClippingEndPoints clippingEndPoints clipping_end_points
Execution Information
Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Processed without parallelization.
Parameters
Contours Contours Contours Contours contours contours xld_cont(-array) → object HXLDCont HObject HXLDCont Hobject
Input contours.
Mode Mode Mode Mode mode mode string → HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Method for the determination of the distances.
Default value:
'geometric'
"geometric"
"geometric"
"geometric"
"geometric"
"geometric"
List of values: 'algebraic' "algebraic" "algebraic" "algebraic" "algebraic" "algebraic" , 'bisec' "bisec" "bisec" "bisec" "bisec" "bisec" , 'focpoints' "focpoints" "focpoints" "focpoints" "focpoints" "focpoints" , 'geometric' "geometric" "geometric" "geometric" "geometric" "geometric"
MaxNumPoints MaxNumPoints MaxNumPoints MaxNumPoints maxNumPoints max_num_points integer → HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Maximum number of contour points used for the
computation (-1 for all points).
Default value: -1
Restriction: MaxNumPoints >= 3
ClippingEndPoints ClippingEndPoints ClippingEndPoints ClippingEndPoints clippingEndPoints clipping_end_points integer → HTuple int HTuple Htuple (integer) (int / long) (Hlong ) (Hlong )
Number of points at the beginning and the end of the
contours to be ignored for the computation of
distances.
Default value: 0
Restriction: ClippingEndPoints >= 0
Row Row Row Row row row ellipse.center.y → HTuple float HTuple Htuple (real) (double ) (double ) (double )
Row coordinate of the center of the ellipse.
Column Column Column Column column column ellipse.center.x → HTuple float HTuple Htuple (real) (double ) (double ) (double )
Column coordinate of the center of the ellipse.
Phi Phi Phi Phi phi phi ellipse.angle.rad → HTuple float HTuple Htuple (real) (double ) (double ) (double )
Orientation of the main axis in radian.
Restriction: Phi >= 0 && Phi <= 6.283185307
Radius1 Radius1 Radius1 Radius1 radius1 radius_1 ellipse.radius1 → HTuple float HTuple Htuple (real) (double ) (double ) (double )
Length of the larger half axis.
Restriction: Radius1 > 0
Radius2 Radius2 Radius2 Radius2 radius2 radius_2 ellipse.radius2 → HTuple float HTuple Htuple (real) (double ) (double ) (double )
Length of the smaller half axis.
Restriction: Radius2 >= 0 && Radius2 <= Radius1
MinDist MinDist MinDist MinDist minDist min_dist real(-array) → HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Minimum distance.
MaxDist MaxDist MaxDist MaxDist maxDist max_dist real(-array) → HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Maximum distance.
AvgDist AvgDist AvgDist AvgDist avgDist avg_dist real(-array) → HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Mean distance.
SigmaDist SigmaDist SigmaDist SigmaDist sigmaDist sigma_dist real(-array) → HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Standard deviation of the distance.
Example (HDevelop)
read_image (Image, 'caltab')
find_caltab (Image, CalPlate, 'caltab_big.descr', 3, 112, 5)
reduce_domain (Image, CalPlate, ImageReduced)
edges_sub_pix (ImageReduced, Edges, 'lanser2', 0.5, 20, 40)
select_contours_xld (Edges, EdgesClosed, 'closed', 0, 2.0, 0, 0)
select_contours_xld (EdgesClosed, EdgesMarks, 'contour_length', 20, 100, \
0, 0)
fit_ellipse_contour_xld (EdgesMarks, 'fitzgibbon', -1, 2, 0, 200, 3, 2.0, \
Row, Column, Phi, Radius1, Radius2, StartPhi, \
EndPhi, PointOrder)
for i := 0 to |Row|-1 by 1
select_obj (EdgesMarks, ObjectSelected, i+1)
dist_ellipse_contour_xld (ObjectSelected, 'bisec', -1, 0, Row[i], \
Column[i], Phi[i], Radius1[i], Radius2[i], \
MinDist, MaxDist, AvgDist, SigmaDist)
endfor
Example (HDevelop)
read_image (Image, 'caltab')
find_caltab (Image, CalPlate, 'caltab_big.descr', 3, 112, 5)
reduce_domain (Image, CalPlate, ImageReduced)
edges_sub_pix (ImageReduced, Edges, 'lanser2', 0.5, 20, 40)
select_contours_xld (Edges, EdgesClosed, 'closed', 0, 2.0, 0, 0)
select_contours_xld (EdgesClosed, EdgesMarks, 'contour_length', 20, 100, \
0, 0)
fit_ellipse_contour_xld (EdgesMarks, 'fitzgibbon', -1, 2, 0, 200, 3, 2.0, \
Row, Column, Phi, Radius1, Radius2, StartPhi, \
EndPhi, PointOrder)
for i := 0 to |Row|-1 by 1
select_obj (EdgesMarks, ObjectSelected, i+1)
dist_ellipse_contour_xld (ObjectSelected, 'bisec', -1, 0, Row[i], \
Column[i], Phi[i], Radius1[i], Radius2[i], \
MinDist, MaxDist, AvgDist, SigmaDist)
endfor
Example (HDevelop)
read_image (Image, 'caltab')
find_caltab (Image, CalPlate, 'caltab_big.descr', 3, 112, 5)
reduce_domain (Image, CalPlate, ImageReduced)
edges_sub_pix (ImageReduced, Edges, 'lanser2', 0.5, 20, 40)
select_contours_xld (Edges, EdgesClosed, 'closed', 0, 2.0, 0, 0)
select_contours_xld (EdgesClosed, EdgesMarks, 'contour_length', 20, 100, \
0, 0)
fit_ellipse_contour_xld (EdgesMarks, 'fitzgibbon', -1, 2, 0, 200, 3, 2.0, \
Row, Column, Phi, Radius1, Radius2, StartPhi, \
EndPhi, PointOrder)
for i := 0 to |Row|-1 by 1
select_obj (EdgesMarks, ObjectSelected, i+1)
dist_ellipse_contour_xld (ObjectSelected, 'bisec', -1, 0, Row[i], \
Column[i], Phi[i], Radius1[i], Radius2[i], \
MinDist, MaxDist, AvgDist, SigmaDist)
endfor
Example (HDevelop)
read_image (Image, 'caltab')
find_caltab (Image, CalPlate, 'caltab_big.descr', 3, 112, 5)
reduce_domain (Image, CalPlate, ImageReduced)
edges_sub_pix (ImageReduced, Edges, 'lanser2', 0.5, 20, 40)
select_contours_xld (Edges, EdgesClosed, 'closed', 0, 2.0, 0, 0)
select_contours_xld (EdgesClosed, EdgesMarks, 'contour_length', 20, 100, \
0, 0)
fit_ellipse_contour_xld (EdgesMarks, 'fitzgibbon', -1, 2, 0, 200, 3, 2.0, \
Row, Column, Phi, Radius1, Radius2, StartPhi, \
EndPhi, PointOrder)
for i := 0 to |Row|-1 by 1
select_obj (EdgesMarks, ObjectSelected, i+1)
dist_ellipse_contour_xld (ObjectSelected, 'bisec', -1, 0, Row[i], \
Column[i], Phi[i], Radius1[i], Radius2[i], \
MinDist, MaxDist, AvgDist, SigmaDist)
endfor
Example (HDevelop)
read_image (Image, 'caltab')
find_caltab (Image, CalPlate, 'caltab_big.descr', 3, 112, 5)
reduce_domain (Image, CalPlate, ImageReduced)
edges_sub_pix (ImageReduced, Edges, 'lanser2', 0.5, 20, 40)
select_contours_xld (Edges, EdgesClosed, 'closed', 0, 2.0, 0, 0)
select_contours_xld (EdgesClosed, EdgesMarks, 'contour_length', 20, 100, \
0, 0)
fit_ellipse_contour_xld (EdgesMarks, 'fitzgibbon', -1, 2, 0, 200, 3, 2.0, \
Row, Column, Phi, Radius1, Radius2, StartPhi, \
EndPhi, PointOrder)
for i := 0 to |Row|-1 by 1
select_obj (EdgesMarks, ObjectSelected, i+1)
dist_ellipse_contour_xld (ObjectSelected, 'bisec', -1, 0, Row[i], \
Column[i], Phi[i], Radius1[i], Radius2[i], \
MinDist, MaxDist, AvgDist, SigmaDist)
endfor
Result
dist_ellipse_contour_xld dist_ellipse_contour_xld DistEllipseContourXld DistEllipseContourXld DistEllipseContourXld dist_ellipse_contour_xld 2 (H_MSG_TRUE ) if all parameter
values are correct. If necessary, an exception is raised.
Possible Predecessors
fit_ellipse_contour_xld fit_ellipse_contour_xld FitEllipseContourXld FitEllipseContourXld FitEllipseContourXld fit_ellipse_contour_xld
Alternatives
dist_ellipse_contour_points_xld dist_ellipse_contour_points_xld DistEllipseContourPointsXld DistEllipseContourPointsXld DistEllipseContourPointsXld dist_ellipse_contour_points_xld
Module
Foundation