moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld (Operator)

Name

moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld — Arbitrary geometric moments of contours or polygons.

Signature

moments_any_xld(XLD : : Mode, PointOrder, Area, CenterRow, CenterCol, P, Q : M)

Description

moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld calculates arbitrary moments MMMmm of the regions enclosed by the contours or polygons XLDXLDXLDXLDxld. The moments are computed by applying Green's theorem using only the points on the contour or polygon, i.e., no region is generated explicitly for the purpose of calculating the features. It is assumed that the contours or polygons are closed. If this is not the case moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld will artificially close the contours or polygons.

It should be noted that moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld only returns useful results if the contour or polygon encloses a region in the plane. In particular, the contour or polygon must not intersect itself. This is particularly important if open contours or polygons are passed because they are closed automatically, which can produce a self-intersection. To test whether the contours or polygons intersect themselves, test_self_intersection_xldtest_self_intersection_xldTestSelfIntersectionXldTestSelfIntersectionXldtest_self_intersection_xld can be used. If the contour or polygon intersects itself, useful values for the moments can be calculated with moments_any_points_xldmoments_any_points_xldMomentsAnyPointsXldMomentsAnyPointsXldmoments_any_points_xld.

The computed moments are normalized depending on the desired mode ModeModeModemodemode:

'unnormalized':

No normalization. Let be the enclosed image region. Then the computed moment is equivalent to:

'unnormalized_central':

Shift the region by its centroid [CenterRowCenterRowCenterRowcenterRowcenter_row, CenterColCenterColCenterColcenterColcenter_col]:

'normalized':

Normalization by the area AreaAreaAreaareaarea of the enclosed image region:

'central':

Normalization by the area AreaAreaAreaareaarea of the enclosed image region and a shift of the region by it's centroid [CenterRowCenterRowCenterRowcenterRowcenter_row, CenterColCenterColCenterColcenterColcenter_col]:

For the normalization of the moments three specific moments are used: The area AreaAreaAreaareaarea of the enclosed image region and the coordinates CenterRowCenterRowCenterRowcenterRowcenter_row,CenterColCenterColCenterColcenterColcenter_col of it's centroid (this values can be calculated with area_center_xldarea_center_xldAreaCenterXldAreaCenterXldarea_center_xld). In addition to that moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld expects information about the point order of the input contours/polygons in PointOrderPointOrderPointOrderpointOrderpoint_order, see area_center_xldarea_center_xldAreaCenterXldAreaCenterXldarea_center_xld again.

If more than one contour or polygon is passed, MMMmm contains all desired moments of the first contour/polygon followed by all the moments of the second contour/polygon and so forth.

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

XLDXLDXLDXLDxld (input_object) xld(-array) → object

Contours or polygons to be examined.

ModeModeModemodemode (input_control) string → (string)

Computation mode.

Default: 'unnormalized' "unnormalized" "unnormalized" "unnormalized" "unnormalized"

Suggested values: 'unnormalized'"unnormalized""unnormalized""unnormalized""unnormalized", 'unnormalized_central'"unnormalized_central""unnormalized_central""unnormalized_central""unnormalized_central", 'normalized'"normalized""normalized""normalized""normalized", 'central'"central""central""central""central"

PointOrderPointOrderPointOrderpointOrderpoint_order (input_control) string(-array) → (string)

Point order along the boundary.

Default: 'positive' "positive" "positive" "positive" "positive"

Suggested values: 'positive'"positive""positive""positive""positive", 'negative'"negative""negative""negative""negative"

AreaAreaAreaareaarea (input_control) real(-array) → (real)

Area enclosed by the contour or polygon.

CenterRowCenterRowCenterRowcenterRowcenter_row (input_control) point.y(-array) → (real)

Row coordinate of the centroid.

CenterColCenterColCenterColcenterColcenter_col (input_control) point.x(-array) → (real)

Column coordinate of the centroid.

PPPpp (input_control) point.x(-array) → (integer)

First index of the desired moments .

Default: 1

Suggested values: 0, 1, 2, 3, 4

QQQqq (input_control) point.x(-array) → (integer)

Second index of the desired moments .

Default: 1

Suggested values: 0, 1, 2, 3, 4

MMMmm (output_control) real(-array) → (real)

The computed moments.

Complexity

Let n be the number of points of the contour or polygon. Then the run time is O(n).

Result

moments_any_xldmoments_any_xldMomentsAnyXldMomentsAnyXldmoments_any_xld returns 2 ( H_MSG_TRUE) if the input is not empty. If the input is empty the behavior can be set via set_system(::'no_object_result',<Result>:)set_system("no_object_result",<Result>)SetSystem("no_object_result",<Result>)SetSystem("no_object_result",<Result>)set_system("no_object_result",<Result>). If necessary, an exception is raised.

Possible Predecessors

area_center_xldarea_center_xldAreaCenterXldAreaCenterXldarea_center_xld, gen_contours_skeleton_xldgen_contours_skeleton_xldGenContoursSkeletonXldGenContoursSkeletonXldgen_contours_skeleton_xld, smooth_contours_xldsmooth_contours_xldSmoothContoursXldSmoothContoursXldsmooth_contours_xld, gen_polygons_xldgen_polygons_xldGenPolygonsXldGenPolygonsXldgen_polygons_xld

Alternatives

moments_xldmoments_xldMomentsXldMomentsXldmoments_xld, moments_any_points_xldmoments_any_points_xldMomentsAnyPointsXldMomentsAnyPointsXldmoments_any_points_xld

Module

Foundation

Operators