@bitbybit-dev/occt/lib/services/base/edges.service.d.ts

Bit By Bit Developers CAD algorithms using OpenCascade Technology kernel. Run in Node and in Browser.

import { Geom2d_Curve, Geom_Surface, OpenCascadeInstance, TopoDS_Edge, TopoDS_Shape, TopoDS_Wire } from "../../../bitbybit-dev-occt/bitbybit-dev-occt";
import * as Inputs from "../../api/inputs/inputs";
import { Base } from "../../api/inputs/inputs";
import { VectorHelperService } from "../../api/vector-helper.service";
import { ConverterService } from "./converter.service";
import { EntitiesService } from "./entities.service";
import { OCCReferencedReturns } from "../../occ-referenced-returns";
import { ShapeGettersService } from "./shape-getters";
import { IteratorService } from "./iterator.service";
import { EnumService } from "./enum.service";
import { GeomService } from "./geom.service";
import { TransformsService } from "./transforms.service";
export declare class EdgesService {
    private readonly occ;
    private readonly occRefReturns;
    private readonly shapeGettersService;
    private readonly entitiesService;
    private readonly iteratorService;
    private readonly converterService;
    private readonly enumService;
    private readonly geomService;
    private readonly transformsService;
    private readonly vecHelper;
    constructor(occ: OpenCascadeInstance, occRefReturns: OCCReferencedReturns, shapeGettersService: ShapeGettersService, entitiesService: EntitiesService, iteratorService: IteratorService, converterService: ConverterService, enumService: EnumService, geomService: GeomService, transformsService: TransformsService, vecHelper: VectorHelperService);
    getCornerPointsOfEdgesForShape(inputs: Inputs.OCCT.ShapeDto<TopoDS_Shape>): Inputs.Base.Point3[];
    getCircularEdgesAlongWire(inputs: Inputs.OCCT.ShapeDto<TopoDS_Wire>): TopoDS_Edge[];
    getLinearEdgesAlongWire(inputs: Inputs.OCCT.ShapeDto<TopoDS_Wire>): TopoDS_Edge[];
    getEdgesAlongWire(inputs: Inputs.OCCT.ShapeDto<TopoDS_Wire>): TopoDS_Edge[];
    fixEdgeOrientationsAlongWire(inputs: Inputs.OCCT.ShapeDto<TopoDS_Wire>): TopoDS_Wire;
    arcThroughThreePoints(inputs: Inputs.OCCT.ArcEdgeThreePointsDto): TopoDS_Edge;
    arcThroughTwoPointsAndTangent(inputs: Inputs.OCCT.ArcEdgeTwoPointsTangentDto): TopoDS_Edge;
    arcFromCircleAndTwoAngles(inputs: Inputs.OCCT.ArcEdgeCircleTwoAnglesDto<TopoDS_Edge>): TopoDS_Edge;
    arcFromCirclePointAndAngle(inputs: Inputs.OCCT.ArcEdgeCirclePointAngleDto<TopoDS_Edge>): TopoDS_Edge;
    lineEdge(inputs: Inputs.OCCT.LineDto): TopoDS_Edge;
    getEdgeLength(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): number;
    getEdgeLengthsOfShape(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): number[];
    getEdgesLengths(inputs: Inputs.OCCT.ShapesDto<TopoDS_Edge>): number[];
    getEdgesCentersOfMass(inputs: Inputs.OCCT.ShapesDto<TopoDS_Edge>): Base.Point3[];
    edgesToPoints(inputs: Inputs.OCCT.EdgesToPointsDto<TopoDS_Shape>): Inputs.Base.Point3[][];
    startPointOnEdge(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): Base.Point3;
    endPointOnEdge(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): Base.Point3;
    makeEdgeFromGeom2dCurveAndSurfaceBounded(inputs: Inputs.OCCT.CurveAndSurfaceDto<Geom2d_Curve, Geom_Surface>, umin: number, umax: number): TopoDS_Edge;
    makeEdgeFromGeom2dCurveAndSurface(inputs: Inputs.OCCT.CurveAndSurfaceDto<Geom2d_Curve, Geom_Surface>): TopoDS_Edge;
    constraintTanLinesFromTwoPtsToCircle(inputs: Inputs.OCCT.ConstraintTanLinesFromTwoPtsToCircleDto<TopoDS_Edge>): TopoDS_Shape[];
    constraintTanLinesFromPtToCircle(inputs: Inputs.OCCT.ConstraintTanLinesFromPtToCircleDto<TopoDS_Edge>): TopoDS_Shape[];
    constraintTanLinesOnTwoCircles(inputs: Inputs.OCCT.ConstraintTanLinesOnTwoCirclesDto<TopoDS_Edge>): TopoDS_Shape[];
    constraintTanCirclesOnCircleAndPnt(inputs: Inputs.OCCT.ConstraintTanCirclesOnCircleAndPntDto<TopoDS_Edge>): TopoDS_Shape[];
    private alignCircle;
    constraintTanCirclesOnTwoCircles(inputs: Inputs.OCCT.ConstraintTanCirclesOnTwoCirclesDto<TopoDS_Edge>): TopoDS_Shape[];
    divideEdgeByParamsToPoints(inputs: Inputs.OCCT.DivideDto<TopoDS_Edge>): Inputs.Base.Point3[];
    divideEdgeByEqualDistanceToPoints(inputs: Inputs.OCCT.DivideDto<TopoDS_Edge>): Base.Point3[];
    pointOnEdgeAtParam(inputs: Inputs.OCCT.DataOnGeometryAtParamDto<TopoDS_Edge>): Base.Point3;
    private reconstructCircleAndAlignBack;
    arcFromCircleAndTwoPoints(inputs: Inputs.OCCT.ArcEdgeCircleTwoPointsDto<TopoDS_Edge>): TopoDS_Edge;
    getCircularEdgePlaneDirection(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): Inputs.Base.Vector3;
    getCircularEdgeCenterPoint(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): Inputs.Base.Point3;
    getCircularEdgeRadius(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): number;
    private getGpCircleFromEdge;
    getGpCircle2dFromEdge(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): import("../../../bitbybit-dev-occt/bitbybit-dev-occt").gp_Circ2d_2;
    tangentOnEdgeAtParam(inputs: Inputs.OCCT.DataOnGeometryAtParamDto<TopoDS_Edge>): Base.Vector3;
    pointOnEdgeAtLength(inputs: Inputs.OCCT.DataOnGeometryAtLengthDto<TopoDS_Edge>): Base.Point3;
    tangentOnEdgeAtLength(inputs: Inputs.OCCT.DataOnGeometryAtLengthDto<TopoDS_Edge>): Base.Point3;
    getEdgeBounds(edge: TopoDS_Edge): {
        uMin: number;
        uMax: number;
    };
    isEdgeCircular(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): boolean;
    isEdgeLinear(inputs: Inputs.OCCT.ShapeDto<TopoDS_Edge>): boolean;
}