import * as graphlib from '../graphlib'; import * as types from './types'; export { DepGraphImpl }; declare type NodeId = string; declare type PkgId = string; declare class DepGraphImpl implements types.DepGraphInternal { private _graph; private _rootNodeId; private _pkgs; private _pkgNodes; private _pkgManager; static SCHEMA_VERSION: string; static getPkgId(pkg: types.Pkg): string; private _pkgList; private _depPkgsList; private _rootPkgId; private _countNodePathsToRootCache; private _hasCycles; constructor(_graph: graphlib.Graph, _rootNodeId: NodeId, _pkgs: Record, _pkgNodes: Record>, _pkgManager: types.PkgManager); get pkgManager(): types.PkgManager; get rootPkg(): types.PkgInfo; get rootNodeId(): string; /** * Get all unique packages in the graph (including the root package) */ getPkgs(): types.PkgInfo[]; /** * Get all unique packages in the graph (excluding the root package) */ getDepPkgs(): types.PkgInfo[]; getPkgNodes(pkg: types.Pkg): types.Node[]; getNode(nodeId: string): types.NodeInfo; getNodePkg(nodeId: string): types.PkgInfo; getPkgNodeIds(pkg: types.Pkg): string[]; getNodeDepsNodeIds(nodeId: string): string[]; getNodeParentsNodeIds(nodeId: string): string[]; hasCycles(): boolean; pkgPathsToRoot(pkg: types.Pkg, opts?: { limit?: number; }): types.PkgInfo[][]; countPathsToRoot(pkg: types.Pkg, opts?: { limit?: number; }): number; isTransitive(pkg: types.Pkg): boolean; equals(other: types.DepGraph, { compareRoot }?: { compareRoot?: boolean; }): boolean; directDepsLeadingTo(pkg: types.Pkg): types.PkgInfo[]; /** * Create a JSON representation of a dep graph. This is typically used to * send the dep graph over the wire */ toJSON(): types.DepGraphData; private nodeEquals; private getGraphNode; private pathsFromNodeToRoot; private countNodePathsToRoot; }