import { Geom_Surface, BitbybitOcctModule, TopoDS_Face, TopoDS_Shape, TopoDS_Wire } from "../../../bitbybit-dev-occt/bitbybit-dev-occt";
import { OccHelper } from "../../occ-helper";
import * as Inputs from "../../api/inputs";
import { Base } from "../../api/inputs";
export declare class OCCTFace {
    private readonly occ;
    private readonly och;
    constructor(occ: BitbybitOcctModule, och: OccHelper);
    fromBaseTriangle(inputs: Inputs.OCCT.TriangleBaseDto): TopoDS_Face;
    fromBaseMesh(inputs: Inputs.OCCT.MeshBaseDto): any[];
    createFaceFromWire(inputs: Inputs.OCCT.FaceFromWireDto<TopoDS_Wire>): TopoDS_Face;
    createFaceFromWireOnFace(inputs: Inputs.OCCT.FaceFromWireOnFaceDto<TopoDS_Face, TopoDS_Wire>): TopoDS_Face;
    createFacesFromWiresOnFace(inputs: Inputs.OCCT.FacesFromWiresOnFaceDto<TopoDS_Face, TopoDS_Wire>): TopoDS_Face[];
    createFaceFromWires(inputs: Inputs.OCCT.FaceFromWiresDto<TopoDS_Wire>): TopoDS_Face;
    createFacesFromWires(inputs: Inputs.OCCT.FacesFromWiresDto<TopoDS_Wire>): TopoDS_Face[];
    createFaceFromWiresOnFace(inputs: Inputs.OCCT.FaceFromWiresOnFaceDto<TopoDS_Wire, TopoDS_Face>): TopoDS_Face;
    faceFromSurface(inputs: Inputs.OCCT.ShapeWithToleranceDto<Geom_Surface>): TopoDS_Face;
    faceFromSurfaceAndWire(inputs: Inputs.OCCT.FaceFromSurfaceAndWireDto<Geom_Surface, TopoDS_Wire>): TopoDS_Face;
    getUMinBound(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): number;
    getUMaxBound(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): number;
    getVMinBound(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): number;
    getVMaxBound(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): number;
    subdivideToPointsControlled(inputs: Inputs.OCCT.FaceSubdivisionControlledDto<TopoDS_Face>): Base.Point3[];
    subdivideToPoints(inputs: Inputs.OCCT.FaceSubdivisionDto<TopoDS_Face>): Base.Point3[];
    subdivideToWires(inputs: Inputs.OCCT.FaceSubdivisionToWiresDto<TopoDS_Face>): TopoDS_Wire[];
    subdivideToRectangleWires(inputs: Inputs.OCCT.FaceSubdivideToRectangleWiresDto<TopoDS_Face>): TopoDS_Wire[];
    subdivideToRectangleHoles(inputs: Inputs.OCCT.FaceSubdivideToRectangleHolesDto<TopoDS_Face>): TopoDS_Face[];
    subdivideToHexagonWires(inputs: Inputs.OCCT.FaceSubdivideToHexagonWiresDto<TopoDS_Face>): TopoDS_Wire[];
    subdivideToHexagonHoles(inputs: Inputs.OCCT.FaceSubdivideToHexagonHolesDto<TopoDS_Face>): TopoDS_Face[];
    subdivideToNormals(inputs: Inputs.OCCT.FaceSubdivisionDto<TopoDS_Face>): Base.Point3[];
    subdivideToPointsOnParam(inputs: Inputs.OCCT.FaceLinearSubdivisionDto<TopoDS_Face>): Base.Point3[];
    wireAlongParam(inputs: Inputs.OCCT.WireAlongParamDto<TopoDS_Face>): TopoDS_Wire;
    wiresAlongParams(inputs: Inputs.OCCT.WiresAlongParamsDto<TopoDS_Face>): TopoDS_Wire[];
    subdivideToUVOnParam(inputs: Inputs.OCCT.FaceLinearSubdivisionDto<TopoDS_Face>): Base.Point2[];
    subdivideToUV(inputs: Inputs.OCCT.FaceSubdivisionDto<TopoDS_Face>): Base.Point2[];
    uvOnFace(inputs: Inputs.OCCT.DataOnUVDto<TopoDS_Face>): Base.Point2;
    pointsOnUVs(inputs: Inputs.OCCT.DataOnUVsDto<TopoDS_Face>): Base.Point3[];
    normalsOnUVs(inputs: Inputs.OCCT.DataOnUVsDto<TopoDS_Face>): Base.Vector3[];
    pointOnUV(inputs: Inputs.OCCT.DataOnUVDto<TopoDS_Face>): Base.Point3;
    normalOnUV(inputs: Inputs.OCCT.DataOnUVDto<TopoDS_Face>): Base.Vector3;
    createPolygonFace(inputs: Inputs.OCCT.PolygonDto): TopoDS_Face;
    createCircleFace(inputs: Inputs.OCCT.CircleDto): TopoDS_Face;
    hexagonsInGrid(inputs: Inputs.OCCT.HexagonsInGridDto): TopoDS_Face[];
    createEllipseFace(inputs: Inputs.OCCT.EllipseDto): TopoDS_Face;
    createSquareFace(inputs: Inputs.OCCT.SquareDto): TopoDS_Face;
    createRectangleFace(inputs: Inputs.OCCT.RectangleDto): TopoDS_Face;
    createLPolygonFace(inputs: Inputs.OCCT.LPolygonDto): TopoDS_Face;
    createIBeamProfileFace(inputs: Inputs.OCCT.IBeamProfileDto): TopoDS_Face;
    createHBeamProfileFace(inputs: Inputs.OCCT.HBeamProfileDto): TopoDS_Face;
    createTBeamProfileFace(inputs: Inputs.OCCT.TBeamProfileDto): TopoDS_Face;
    createUBeamProfileFace(inputs: Inputs.OCCT.UBeamProfileDto): TopoDS_Face;
    createStarFace(inputs: Inputs.OCCT.StarDto): TopoDS_Face;
    createChristmasTreeFace(inputs: Inputs.OCCT.ChristmasTreeDto): TopoDS_Face;
    createParallelogramFace(inputs: Inputs.OCCT.ParallelogramDto): TopoDS_Face;
    createHeartFace(inputs: Inputs.OCCT.Heart2DDto): TopoDS_Face;
    createNGonFace(inputs: Inputs.OCCT.NGonWireDto): TopoDS_Face;
    createFaceFromMultipleCircleTanWireCollections(inputs: Inputs.OCCT.FaceFromMultipleCircleTanWireCollectionsDto<TopoDS_Wire>): TopoDS_Shape;
    createFaceFromMultipleCircleTanWires(inputs: Inputs.OCCT.FaceFromMultipleCircleTanWiresDto<TopoDS_Wire>): TopoDS_Shape;
    getFace(inputs: Inputs.OCCT.ShapeIndexDto<TopoDS_Shape>): TopoDS_Face;
    getFaces(inputs: Inputs.OCCT.ShapeDto<TopoDS_Shape>): TopoDS_Face[];
    reversedFace(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): TopoDS_Face;
    getFaceArea(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): number;
    getFacesAreas(inputs: Inputs.OCCT.ShapesDto<TopoDS_Face>): number[];
    getFaceCenterOfMass(inputs: Inputs.OCCT.ShapeDto<TopoDS_Face>): Base.Point3;
    getFacesCentersOfMass(inputs: Inputs.OCCT.ShapesDto<TopoDS_Face>): Base.Point3[];
    filterFacePoints(inputs: Inputs.OCCT.FilterFacePointsDto<TopoDS_Face>): Base.Point3[];
    filterFacesPoints(inputs: Inputs.OCCT.FilterFacesPointsDto<TopoDS_Face>): Base.Point3[] | Base.Point3[][];
}