// traverse the node_modules/package.json tree // looking for duplicates. If any duplicates are found, // then move them up to the highest level necessary // in order to make them no longer duplicated. // // This is kind of ugly, and really highlights the need for // much better "put pkg X at folder Y" abstraction. Oh well, // whatever. Perfect enemy of the good, and all that. var fs = require("fs") var asyncMap = require("slide").asyncMap var path = require("path") var readJson = require("read-package-json") var archy = require("archy") var util = require("util") var RegClient = require("npm-registry-client") var npmconf = require("npmconf") var npm = require("npm") var semver = require("semver") var npm = require("npm") var rimraf = require("rimraf") var log = require("npmlog") var npm = require("./npm.js") module.exports = dedupe dedupe.usage = "npm dedupe [pkg pkg...]" function dedupe (args, silent, cb) { if (typeof silent === "function") cb = silent, silent = false var dryrun = false if (npm.command.match(/^find/)) dryrun = true return dedupe_(npm.prefix, args, {}, dryrun, silent, cb) } function dedupe_ (dir, filter, unavoidable, dryrun, silent, cb) { readInstalled(path.resolve(dir), {}, null, function (er, data, counter) { if (er) { return cb(er) } if (!data) { return cb() } // find out which things are dupes var dupes = Object.keys(counter || {}).filter(function (k) { if (filter.length && -1 === filter.indexOf(k)) return false return counter[k] > 1 && !unavoidable[k] }).reduce(function (s, k) { s[k] = [] return s }, {}) // any that are unavoidable need to remain as they are. don't even // try to touch them or figure it out. Maybe some day, we can do // something a bit more clever here, but for now, just skip over it, // and all its children. ;(function U (obj) { if (unavoidable[obj.name]) { obj.unavoidable = true } if (obj.parent && obj.parent.unavoidable) { obj.unavoidable = true } Object.keys(obj.children).forEach(function (k) { U(obj.children[k]) }) }) // then collect them up and figure out who needs them ;(function C (obj) { if (dupes[obj.name] && !obj.unavoidable) { dupes[obj.name].push(obj) obj.duplicate = true } obj.dependents = whoDepends(obj) Object.keys(obj.children).forEach(function (k) { C(obj.children[k]) }) })(data) if (dryrun) { var k = Object.keys(dupes) if (!k.length) return cb() return npm.commands.ls(k, silent, cb) } var summary = Object.keys(dupes).map(function (n) { return [n, dupes[n].filter(function (d) { return d && d.parent && !d.parent.duplicate && !d.unavoidable }).map(function M (d) { return [d.path, d.version, d.dependents.map(function (k) { return [k.path, k.version, k.dependencies[d.name] || ""] })] })] }).map(function (item) { var name = item[0] var set = item[1] var ranges = set.map(function (i) { return i[2].map(function (d) { return d[2] }) }).reduce(function (l, r) { return l.concat(r) }, []).map(function (v, i, set) { if (set.indexOf(v) !== i) return false return v }).filter(function (v) { return v !== false }) var locs = set.map(function (i) { return i[0] }) var versions = set.map(function (i) { return i[1] }).filter(function (v, i, set) { return set.indexOf(v) === i }) var has = set.map(function (i) { return [i[0], i[1]] }).reduce(function (set, kv) { set[kv[0]] = kv[1] return set }, {}) var loc = locs.length ? locs.reduce(function (a, b) { // a=/path/to/node_modules/foo/node_modules/bar // b=/path/to/node_modules/elk/node_modules/bar // ==/path/to/node_modules/bar a = a.split(/\/node_modules\//) b = b.split(/\/node_modules\//) var name = a.pop() b.pop() // find the longest chain that both A and B share. // then push the name back on it, and join by /node_modules/ var res = [] for (var i = 0, al = a.length, bl = b.length; i < al && i < bl && a[i] === b[i]; i++); return a.slice(0, i).concat(name).join("/node_modules/") }) : undefined return [item[0], { item: item , ranges: ranges , locs: locs , loc: loc , has: has , versions: versions }] }).filter(function (i) { return i[1].loc }) findVersions(npm, summary, function (er, set) { if (er) return cb(er) if (!set.length) return cb() installAndRetest(set, filter, dir, unavoidable, silent, cb) }) }) } function installAndRetest (set, filter, dir, unavoidable, silent, cb) { //return cb(null, set) var remove = [] asyncMap(set, function (item, cb) { // [name, has, loc, locMatch, regMatch, others] var name = item[0] var has = item[1] var where = item[2] var locMatch = item[3] var regMatch = item[4] var others = item[5] // nothing to be done here. oh well. just a conflict. if (!locMatch && !regMatch) { log.warn("unavoidable conflict", item[0], item[1]) log.warn("unavoidable conflict", "Not de-duplicating") unavoidable[item[0]] = true return cb() } // nothing to do except to clean up the extraneous deps if (locMatch && has[where] === locMatch) { remove.push.apply(remove, others) return cb() } if (regMatch) { var what = name + "@" + regMatch // where is /path/to/node_modules/foo/node_modules/bar // for package "bar", but we need it to be just // /path/to/node_modules/foo where = where.split(/\/node_modules\//) where.pop() where = where.join("/node_modules/") remove.push.apply(remove, others) return npm.commands.install(where, what, cb) } // hrm? return cb(new Error("danger zone\n" + name + " " + + regMatch + " " + locMatch)) }, function (er, installed) { if (er) return cb(er) asyncMap(remove, rimraf, function (er) { if (er) return cb(er) remove.forEach(function (r) { log.info("rm", r) }) dedupe_(dir, filter, unavoidable, false, silent, cb) }) }) } function findVersions (npm, summary, cb) { // now, for each item in the summary, try to find the maximum version // that will satisfy all the ranges. next step is to install it at // the specified location. asyncMap(summary, function (item, cb) { var name = item[0] var data = item[1] var loc = data.loc var locs = data.locs.filter(function (l) { return l !== loc }) // not actually a dupe, or perhaps all the other copies were // children of a dupe, so this'll maybe be picked up later. if (locs.length === 0) { return cb(null, []) } // { : } var has = data.has // the versions that we already have. // if one of these is ok, then prefer to use that. // otherwise, try fetching from the registry. var versions = data.versions var ranges = data.ranges npm.registry.get(name, function (er, data) { var regVersions = er ? [] : Object.keys(data.versions) var locMatch = bestMatch(versions, ranges) var regMatch = bestMatch(regVersions, ranges) cb(null, [[name, has, loc, locMatch, regMatch, locs]]) }) }, cb) } function bestMatch (versions, ranges) { return versions.filter(function (v) { return !ranges.some(function (r) { return !semver.satisfies(v, r, true) }) }).sort(semver.compareLoose).pop() } function readInstalled (dir, counter, parent, cb) { var pkg, children, realpath fs.realpath(dir, function (er, rp) { realpath = rp next() }) readJson(path.resolve(dir, "package.json"), function (er, data) { if (er && er.code !== "ENOENT" && er.code !== "ENOTDIR") return cb(er) if (er) return cb() // not a package, probably. counter[data.name] = counter[data.name] || 0 counter[data.name]++ pkg = { _id: data._id , name: data.name , version: data.version , dependencies: data.dependencies || {} , optionalDependencies: data.optionalDependencies || {} , devDependencies: data.devDependencies || {} , bundledDependencies: data.bundledDependencies || [] , path: dir , realPath: dir , children: {} , parent: parent , family: Object.create(parent ? parent.family : null) , unavoidable: false , duplicate: false } if (parent) { parent.children[data.name] = pkg parent.family[data.name] = pkg } next() }) fs.readdir(path.resolve(dir, "node_modules"), function (er, c) { children = c || [] // error is ok, just means no children. children = children.filter(function (p) { return !p.match(/^[\._-]/) }) next() }) function next () { if (!children || !pkg || !realpath) return // ignore devDependencies. Just leave them where they are. children = children.filter(function (c) { return !pkg.devDependencies.hasOwnProperty(c) }) pkg.realPath = realpath if (pkg.realPath !== pkg.path) children = [] var d = path.resolve(dir, "node_modules") asyncMap(children, function (child, cb) { readInstalled(path.resolve(d, child), counter, pkg, cb) }, function (er) { cb(er, pkg, counter) }) } } function whoDepends (pkg) { var start = pkg.parent || pkg return whoDepends_(pkg, [], start) } function whoDepends_ (pkg, who, test) { if (test !== pkg && test.dependencies[pkg.name] && test.family[pkg.name] === pkg) { who.push(test) } Object.keys(test.children).forEach(function (n) { whoDepends_(pkg, who, test.children[n]) }) return who }