var options = {}; var hasOwn = options.hasOwnProperty; // RegExp matching strings that don't start with a `.` or a `/`. var topLevelIdPattern = /^[^./]/; // This function will be called whenever a module identifier that hasn't // been installed is required. For backwards compatibility, and so that we // can require binary dependencies on the server, we implement the // fallback in terms of Npm.require. options.fallback = function (id, dir, error) { // For simplicity, we honor only top-level module identifiers here. // We could try to honor relative and absolute module identifiers by // somehow combining `id` with `dir`, but we'd have to be really careful // that the resulting modules were located in a known directory (not // some arbitrary location on the file system), and we only really need // the fallback for dependencies installed in node_modules directories. if (topLevelIdPattern.test(id)) { if (typeof Npm === "object" && typeof Npm.require === "function") { return Npm.require(id); } } throw error; }; if (Meteor.isServer) { // Defining Module.prototype.useNode allows the module system to // delegate evaluation to Node, unless useNode returns false. (options.Module = function Module(id) { // Same as the default Module constructor implementation. this.id = id; this.children = []; }).prototype.useNode = function () { if (typeof npmRequire !== "function") { // Can't use Node if npmRequire is not defined. return false; } var parts = this.id.split("/"); var start = 0; if (parts[start] === "") ++start; if (parts[start] === "node_modules" && parts[start + 1] === "meteor") { start += 2; } if (parts.indexOf("node_modules", start) < 0) { // Don't try to use Node for modules that aren't in node_modules // directories. return false; } try { npmRequire.resolve(this.id); } catch (e) { return false; } this.exports = npmRequire(this.id); return true; }; } meteorInstall = makeInstaller(options);