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AvsFilter_FitPathToStripe3D


This is Filter Equivalent. This function may be present in generated code, but should not be used in hand-written code.

Header:AVL.h
Namespace:avs

Performs a series of 1D stripe detections in 3D and creates a path from the detected points.

Syntax

void avs::AvsFilter_FitPathToStripe3D
(
	FitPathToStripe3DState& ioState,
	const avl::Surface& inSurface,
	const avl::PathFittingField& inFittingField,
	atl::Optional<const avl::CoordinateSystem2D&> inFittingFieldAlignment,
	atl::Optional<float> inScanStep,
	atl::Optional<float> inSamplingStep,
	int inScanWidth,
	const avl::InterpolationMethod::Type inSurfaceInterpolation,
	const avl::StripeScanParams3D& inStripeScanParams,
	avl::Selection::Type inStripeSelection,
	atl::Optional<const avl::LocalBlindness&> inLocalBlindness,
	atl::Optional<int> inMaxProfileGapWidth,
	atl::Optional<int> inMaxPathInterpolationLength,
	atl::Optional<float> inMaxDeviationDelta,
	float inMaxIncompleteness,
	atl::Conditional<atl::Array<avl::Point3D> >& outPath,
	atl::Conditional<atl::Array<avl::Point3D> >& outLeftPath,
	atl::Conditional<atl::Array<avl::Point3D> >& outRightPath,
	atl::Optional<atl::Array<atl::Conditional<avl::SurfaceStripe1D> >&> outStripes = atl::NIL,
	atl::Optional<atl::Conditional<avl::Profile>&> outDeviationProfile = atl::NIL,
	atl::Optional<avl::PathFittingField&> outAlignedFittingField = atl::NIL,
	atl::Array<avl::Segment2D>& diagScanSegments,
	atl::Array<avl::Rectangle2D>& diagSamplingAreas,
	atl::Array<avl::Profile>& diagHeightProfiles,
	atl::Array<avl::Profile>& diagResponseProfiles
)

Parameters

Name Type Range Default Description
ioState FitPathToStripe3DState& Object used to maintain state of the function.
inSurface const Surface& Surface to fit path to
inFittingField const PathFittingField& Path fitting field
inFittingFieldAlignment Optional<const CoordinateSystem2D&> NIL Adjusts the fitting field to the position of the inspected object
inScanStep Optional<float> 0.0 - 5.0f Optional implicit conversion of the input path to an equidistant one
inSamplingStep Optional<float> NIL Desired distance between consecutive sampling points on the scan segments; if Nil, the bigger of surface X and Y scales is chosen
inScanWidth int 1 - 5 The width of each scan field (in pixels)
inSurfaceInterpolation const InterpolationMethod::Type Bilinear Interpolation method used for extraction of surface points
inStripeScanParams const StripeScanParams3D& StripeScanParams3D ( ProfileInterpolation: Quadratic4 SmoothingStdDev: 1.0f MinMagnitude: 5.0f MaxInnerEdgeMagnitude: Nil MinStripeWidth: 0.0f MaxStripeWidth: Nil StripePolarity: High ) Parameters controlling the stripe extraction process
inStripeSelection Selection::Type Selection mode of stripes
inLocalBlindness Optional<const LocalBlindness&> NIL Defines conditions in which weaker edges can be detected in the vicinity of stronger edges
inMaxProfileGapWidth Optional<int> 0 - 1 Maximal number of consecutive not existing profile points
inMaxPathInterpolationLength Optional<int> 0 - 1 Maximal number of consecutive points not found
inMaxDeviationDelta Optional<float> 0.0 - NIL Maximal difference between deviations of consecutive path points
inMaxIncompleteness float 0.0 - 0.999 0.1f Maximal fraction of stripe points not found
outPath Conditional<Array<Point3D> >& Fitted path or nothing if the fitting failed
outLeftPath Conditional<Array<Point3D> >& Fitted left path
outRightPath Conditional<Array<Point3D> >& Fitted right path
outStripes Optional<Array<Conditional<SurfaceStripe1D> >&> NIL Found stripes
outDeviationProfile Optional<Conditional<Profile>&> NIL Profile of distances between the actual path points and the corresponding reference path points
outAlignedFittingField Optional<PathFittingField&> NIL Fitting field used; in the image coordinate system
diagScanSegments Array<Segment2D>& Segments along which the scans were run
diagSamplingAreas Array<Rectangle2D>& Areas from which the input image is sampled
diagHeightProfiles Array<Profile>& Extracted surface height profiles
diagResponseProfiles Array<Profile>& Profiles of the edge (derivative) operator response

Optional Outputs

The computation of following outputs can be switched off by passing value atl::NIL to these parameters: outStripes, outDeviationProfile, outAlignedFittingField.

Read more about Optional Outputs.

Hardware Acceleration

This operation supports automatic parallelization for multicore and multiprocessor systems.