import { IPosition } from '../interfaces/Position.ts';
/**
 * rotates the points for opening the claw
 * @param point the normal position of the point
 * @param pivot the anchor point for the rotation
 * @param angle the rotation angle
 */
export declare const rotatePoint: (point: IPosition, pivot: IPosition, angle: number) => IPosition;
/**
 * Calculates the shortest distance from a point to a line segment.
 *
 * @param px - The x-coordinate of the point.
 * @param py - The y-coordinate of the point.
 * @param x1 - The x-coordinate of the start of the line segment.
 * @param y1 - The y-coordinate of the start of the line segment.
 * @param x2 - The x-coordinate of the end of the line segment.
 * @param y2 - The y-coordinate of the end of the line segment.
 * @returns The shortest distance from the point (px, py) to the line segment from (x1, y1) to (x2, y2).
 */
export declare const distanceToLineSegment: (px: number, py: number, x1: number, y1: number, x2: number, y2: number) => number;
/**
 * Calculates the diagonal width based on the given claw width.
 *
 * @param clawWidth - The width of the claw.
 * @returns The diagonal width calculated using the Pythagorean theorem.
 */
export declare const calculateClawWidth: (clawWidth: number) => number;
/**
 * checks if the new value is inside the set Boundary between 0 and maxValue
 * @param value the new value
 * @param maxValue the maximum value
 */
export declare function calculateBoundary(value: number, maxValue: number): number;