'use strict'; // Load modules const Hoek = require('hoek'); // Declare internals const internals = {}; module.exports = class Topo { constructor() { this._items = []; this.nodes = []; } add(nodes, options) { options = options || {}; // Validate rules const before = [].concat(options.before || []); const after = [].concat(options.after || []); const group = options.group || '?'; const sort = options.sort || 0; // Used for merging only Hoek.assert(!before.includes(group), `Item cannot come before itself: ${group}`); Hoek.assert(!before.includes('?'), 'Item cannot come before unassociated items'); Hoek.assert(!after.includes(group), `Item cannot come after itself: ${group}`); Hoek.assert(!after.includes('?'), 'Item cannot come after unassociated items'); ([].concat(nodes)).forEach((node, i) => { const item = { seq: this._items.length, sort, before, after, group, node }; this._items.push(item); }); // Insert event const error = this._sort(); Hoek.assert(!error, 'item', (group !== '?' ? `added into group ${group}` : ''), 'created a dependencies error'); return this.nodes; } merge(others) { others = [].concat(others); for (let i = 0; i < others.length; ++i) { const other = others[i]; if (other) { for (let j = 0; j < other._items.length; ++j) { const item = Object.assign({}, other._items[j]); // Shallow cloned this._items.push(item); } } } // Sort items this._items.sort(internals.mergeSort); for (let i = 0; i < this._items.length; ++i) { this._items[i].seq = i; } const error = this._sort(); Hoek.assert(!error, 'merge created a dependencies error'); return this.nodes; } _sort() { // Construct graph const graph = {}; const graphAfters = Object.create(null); // A prototype can bungle lookups w/ false positives const groups = Object.create(null); for (let i = 0; i < this._items.length; ++i) { const item = this._items[i]; const seq = item.seq; // Unique across all items const group = item.group; // Determine Groups groups[group] = groups[group] || []; groups[group].push(seq); // Build intermediary graph using 'before' graph[seq] = item.before; // Build second intermediary graph with 'after' const after = item.after; for (let j = 0; j < after.length; ++j) { graphAfters[after[j]] = (graphAfters[after[j]] || []).concat(seq); } } // Expand intermediary graph let graphNodes = Object.keys(graph); for (let i = 0; i < graphNodes.length; ++i) { const node = graphNodes[i]; const expandedGroups = []; const graphNodeItems = Object.keys(graph[node]); for (let j = 0; j < graphNodeItems.length; ++j) { const group = graph[node][graphNodeItems[j]]; groups[group] = groups[group] || []; for (let k = 0; k < groups[group].length; ++k) { expandedGroups.push(groups[group][k]); } } graph[node] = expandedGroups; } // Merge intermediary graph using graphAfters into final graph const afterNodes = Object.keys(graphAfters); for (let i = 0; i < afterNodes.length; ++i) { const group = afterNodes[i]; if (groups[group]) { for (let j = 0; j < groups[group].length; ++j) { const node = groups[group][j]; graph[node] = graph[node].concat(graphAfters[group]); } } } // Compile ancestors let children; const ancestors = {}; graphNodes = Object.keys(graph); for (let i = 0; i < graphNodes.length; ++i) { const node = graphNodes[i]; children = graph[node]; for (let j = 0; j < children.length; ++j) { ancestors[children[j]] = (ancestors[children[j]] || []).concat(node); } } // Topo sort const visited = {}; const sorted = []; for (let i = 0; i < this._items.length; ++i) { // Really looping thru item.seq values out of order let next = i; if (ancestors[i]) { next = null; for (let j = 0; j < this._items.length; ++j) { // As above, these are item.seq values if (visited[j] === true) { continue; } if (!ancestors[j]) { ancestors[j] = []; } const shouldSeeCount = ancestors[j].length; let seenCount = 0; for (let k = 0; k < shouldSeeCount; ++k) { if (visited[ancestors[j][k]]) { ++seenCount; } } if (seenCount === shouldSeeCount) { next = j; break; } } } if (next !== null) { visited[next] = true; sorted.push(next); } } if (sorted.length !== this._items.length) { return new Error('Invalid dependencies'); } const seqIndex = {}; for (let i = 0; i < this._items.length; ++i) { const item = this._items[i]; seqIndex[item.seq] = item; } const sortedNodes = []; this._items = sorted.map((value) => { const sortedItem = seqIndex[value]; sortedNodes.push(sortedItem.node); return sortedItem; }); this.nodes = sortedNodes; } }; internals.mergeSort = (a, b) => { return a.sort === b.sort ? 0 : (a.sort < b.sort ? -1 : 1); };