@bitbybit-dev/occt-worker

import { Inputs } from "@bitbybit-dev/occt"; import { OCCTWorkerManager } from "../../../occ-worker/occ-worker-manager"; export declare class OCCTShape { private readonly occWorkerManager; constructor(occWorkerManager: OCCTWorkerManager); /** * Remove internal edges that are not connected to any face in the shape * @param inputs shape * @returns purged shape * @group edit * @shortname purge internal edges * @drawable true */ purgeInternalEdges(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<Inputs.OCCT.TopoDSShapePointer>; /** * Unifies faces, edges in the same domain and has possibility to concatinate bsplines * @param inputs shape * @returns unified shape * @group edit * @shortname unify same domain * @drawable true */ unifySameDomain(inputs: Inputs.OCCT.UnifySameDomainDto<Inputs.OCCT.TopoDSShapePointer>): Promise<Inputs.OCCT.TopoDSShapePointer>; /** * Check if the shape is closed * @param inputs shape * @returns boolean answer * @group analysis * @shortname is closed * @drawable false */ isClosed(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is convex * @param inputs shape * @returns boolean answer * @group analysis * @shortname is convex * @drawable false */ isConvex(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is checked * @param inputs shape * @returns boolean answer * @group analysis * @shortname is checked * @drawable false */ isChecked(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is free * @param inputs shape * @returns boolean answer * @group analysis * @shortname is free * @drawable false */ isFree(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is infinite * @param inputs shape * @returns boolean answer * @group analysis * @shortname is infinite * @drawable false */ isInfinite(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is modified * @param inputs shape * @returns boolean answer * @group analysis * @shortname is modified * @drawable false */ isModified(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is locked * @param inputs shape * @returns boolean answer * @group analysis * @shortname is locked * @drawable false */ isLocked(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is null * @param inputs shape * @returns boolean answer * @group analysis * @shortname is null * @drawable false */ isNull(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is equal to other shape * @param inputs shapes * @returns boolean answer * @group analysis * @shortname is equal * @drawable false */ isEqual(inputs: Inputs.OCCT.CompareShapesDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is not equal to other shape * @param inputs shapes * @returns boolean answer * @group analysis * @shortname is not equal * @drawable false */ isNotEqual(inputs: Inputs.OCCT.CompareShapesDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is partner to other shape * @param inputs shapes * @returns boolean answer * @group analysis * @shortname is partner * @drawable false */ isPartner(inputs: Inputs.OCCT.CompareShapesDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Check if the shape is the same as the other shape * @param inputs shapes * @returns boolean answer * @group analysis * @shortname is same * @drawable false */ isSame(inputs: Inputs.OCCT.CompareShapesDto<Inputs.OCCT.TopoDSShapePointer>): Promise<boolean>; /** * Get the shape orientation * @param inputs shape * @returns shape orientation * @group analysis * @shortname get orientation * @drawable false */ getOrientation(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<Inputs.OCCT.topAbsOrientationEnum>; /** * Get the shape type * @param inputs shape * @returns shape type * @group analysis * @shortname get shape type * @drawable false */ getShapeType(inputs: Inputs.OCCT.ShapeDto<Inputs.OCCT.TopoDSShapePointer>): Promise<Inputs.OCCT.shapeTypeEnum>; }