closing_circle — Close a region with a circular structuring element.
closing_circle(Region : RegionClosing : Radius : )
closing_circle behaves analogously to
closing, i.e., the regions' boundaries are smoothed and
holes within a region which are smaller than the circular
structuring element of radius Radius are closed. The
closing_circle operation is defined as a dilation
followed by a Minkowski subtraction, both with the same circular
structuring element.
closing_circle is applied to each input region
separately. If gaps between different regions are to be closed,
union1 or union2 has to be called first.
Region (input_object) region(-array) → object
Regions to be closed.
RegionClosing (output_object) region(-array) → object
Closed regions.
Radius (input_control) real → (real / integer)
Radius of the circular structuring element.
Default value: 3.5
Suggested values: 1.5, 2.5, 3.5, 4.5, 5.5, 7.5, 9.5, 12.5, 15.5, 19.5, 25.5, 33.5, 45.5, 60.5, 110.5
Typical range of values: 0.5
≤
Radius
≤
511.5 (lin)
Minimum increment: 1.0
Recommended increment: 1.0
my_closing_circle(Hobject In, double Radius, Hobject *Out)
{
Hobject tmp, StructElement;
gen_circle(StructElement,100.0,100.0,Radius);
dilation1(In,StructElement,&tmp,1);
minkowski_sub1(tmp,StructElement,Out,1);
}
Let F1 be the area of the input region. Then the runtime complexity for one region is:
closing_circle returns 2 (H_MSG_TRUE) if all parameters are
correct. The behavior in case of empty or no input region can be
set via:
no region: set_system('no_object_result',<RegionResult>)
empty region: set_system('empty_region_result',<RegionResult>)
Otherwise, an exception is raised.
threshold,
regiongrowing,
connection,
union1,
watersheds,
class_ndim_norm
reduce_domain,
select_shape,
area_center,
connection
dilation1,
minkowski_sub1,
erosion1,
opening
Foundation