distance_point_linedistance_point_lineDistancePointLineDistancePointLinedistance_point_line (Operator)

Name

distance_point_linedistance_point_lineDistancePointLineDistancePointLinedistance_point_line — Calculate the distance between a 3D point and a 3D line given by two points on the line.

Signature

distance_point_line( : : PointX, PointY, PointZ, Point1X, Point1Y, Point1Z, Point2X, Point2Y, Point2Z : Distance)

Description

distance_point_linedistance_point_lineDistancePointLineDistancePointLinedistance_point_line calculates the orthogonal distance between 3D points and 3D lines. The lines are specified by two points on the line ( and ). The result is returned in DistanceDistanceDistancedistancedistance. The input tuples can define 1 or n points. The points are specified by (PointXPointXPointXpointXpoint_x, PointYPointYPointYpointYpoint_y, PointZPointZPointZpointZpoint_z). The line is specified by two points on the line (Point1XPoint1XPoint1Xpoint1Xpoint_1x, Point1YPoint1YPoint1Ypoint1Ypoint_1y, Point1ZPoint1ZPoint1Zpoint1Zpoint_1z) and (Point2XPoint2XPoint2Xpoint2Xpoint_2x, Point2YPoint2YPoint2Ypoint2Ypoint_2y, Point2ZPoint2ZPoint2Zpoint2Zpoint_2z).

Let denote the point (PointXPointXPointXpointXpoint_x, PointYPointYPointYpointYpoint_y, PointZPointZPointZpointZpoint_z), the first point (Point1XPoint1XPoint1Xpoint1Xpoint_1x, Point1YPoint1YPoint1Ypoint1Ypoint_1y, Point1ZPoint1ZPoint1Zpoint1Zpoint_1z) on the line, and the second point (Point2XPoint2XPoint2Xpoint2Xpoint_2x, Point2YPoint2YPoint2Ypoint2Ypoint_2y, Point2ZPoint2ZPoint2Zpoint2Zpoint_2z) on the line. First, the line direction and its length are computed. If , the points and do not define a line and an error is returned. Furthermore, let denote the distance DistanceDistanceDistancedistancedistance. Then, , where denotes the cross product of two vectors.

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

PointXPointXPointXpointXpoint_x (input_control) point3d.x(-array) → (real)

X coordinate of the original points.

PointYPointYPointYpointYpoint_y (input_control) point3d.y(-array) → (real)

Y coordinate of the original points.

PointZPointZPointZpointZpoint_z (input_control) point3d.z(-array) → (real)

Z coordinate of the original points.

Point1XPoint1XPoint1Xpoint1Xpoint_1x (input_control) point3d.x(-array) → (real / integer)

X coordinate of the first point on the line.

Point1YPoint1YPoint1Ypoint1Ypoint_1y (input_control) point3d.y(-array) → (real / integer)

Y coordinate of the first point on the line.

Point1ZPoint1ZPoint1Zpoint1Zpoint_1z (input_control) point3d.z(-array) → (real / integer)

Z coordinate of the first point on the line.

Point2XPoint2XPoint2Xpoint2Xpoint_2x (input_control) point3d.x(-array) → (real / integer)

X coordinate of the second point on the line.

Point2YPoint2YPoint2Ypoint2Ypoint_2y (input_control) point3d.y(-array) → (real / integer)

Y coordinate of the second point on the line.

Point2ZPoint2ZPoint2Zpoint2Zpoint_2z (input_control) point3d.z(-array) → (real / integer)

Z coordinate of the second point on the line.

DistanceDistanceDistancedistancedistance (output_control) real(-array) → (real)

Distance between the points and the lines.

Possible Predecessors

get_line_of_sightget_line_of_sightGetLineOfSightGetLineOfSightget_line_of_sight

Alternatives

distance_point_pluecker_linedistance_point_pluecker_lineDistancePointPlueckerLineDistancePointPlueckerLinedistance_point_pluecker_line

Module

Foundation

Operators