--- date: 20201022 id: c5010eb1-4ce2-4415-8421-7710daecad0a title: JavaScript Proxies --- # Introduction ECMAScript 6 proxies bring intercession to [JavaScript](20200613170905-javascript). They work as follows. There are many operations that you can perform on an [object](20200826201605-objects) obj. For example: - Getting the property `prop` of an object `obj` (`obj.prop`) - Checking whether an object `obj` has a property `prop` (`'prop' in obj`) Proxies are special objects that allow you customize some of these operations. A proxy is created with two parameters: - `handler`: For each operation, there is a corresponding handler method that – if present – performs that operation. Such a method *intercepts* the operation (on its way to the target) and is called a *trap* (a term borrowed from the domain of operating systems). - `target`: If the handler doesn’t intercept an operation then it is performed on the target. That is, it acts as a fallback for the handler. In a way, the proxy wraps the target. # Examples In the following example the handler intercepts the operations `get` and `has`: ``` javascript const target = {}; const handler = { /** Intercepts: getting properties */ get(target, propKey, receiver) { console.log(`GET ${propKey}`); return 123; }, /** Intercepts: checking whether properties exist */ has(target, propKey) { console.log(`HAS ${propKey}`); return true; }, }; const proxy = new Proxy(target, handler); console.log(proxy.foo); // 123 console.log("hello" in proxy); // true proxy.bar = "abc"; console.log(target.bar); // "abc" ``` # Use cases for proxies ## Tracing property acesses (get, set) ``` javascript function tracePropAccess(obj, propKeys) { const propKeySet = new Set(propKeys); return new Proxy(obj, { get(target, propKey, receiver) { if (propKeySet.has(propKey)) { console.log("GET " + propKey); } return Reflect.get(target, propKey, receiver); }, set(target, propKey, value, receiver) { if (propKeySet.has(propKey)) { console.log("SET " + propKey + "=" + value); } return Reflect.set(target, propKey, value, receiver); }, }); } class Point { constructor(x, y) { this.x = x; this.y = y; } toString() { return `Point(${this.x}, ${this.y})`; } } // Trace accesses to properties `x` and `y` let p = new Point(5, 7); p = tracePropAccess(p, ["x", "y"]); // GET x // 4 console.log(p.x); // SET x=21 // 21 console.log((p.x = 21)); // GET x // GET y // Point(21, 7) console.log(p.toString()); ``` ## Warning about unknown properties (get,set) When it comes to accessing properties, JavaScript is very forgiving. For example, if you try to read a property and misspell its name, you don’t get an exception, you get the result `undefined`. You can use proxies to get an exception in such a case. This works as follows. We make the proxy a prototype of an object. If a property isn’t found in the object, the `get` trap of the proxy is triggered. If the property doesn’t even exist in the prototype chain after the proxy, it really is missing and we throw an exception. Otherwise, we return the value of the inherited property. We do so by forwarding the `get` operation to the target (the prototype of the target is also the prototype of the proxy). ### Unknown Property Examples 1. Object ``` javascript const PropertyChecker = new Proxy( {}, { get(target, propKey, receiver) { if (!(propKey in target)) { throw new ReferenceError("Unknown property: " + propKey); } return Reflect.get(target, propKey, receiver); }, } ); const obj = { __proto__: PropertyChecker, foo: 123 }; // 123 console.log(obj.foo); // ReferenceError: Unknown property: fo obj.fo // [object Object] obj.toString() ``` 2. Class If we turn `PropertyChecker` into a constructor, we can use it for [classes](20201008090316-class_notation) via extends: ``` javascript function PropertyChecker() {} PropertyChecker.prototype = new Proxy(/*···*/); class Point extends PropertyChecker { constructor(x, y) { super(); this.x = x; this.y = y; } } const p = new Point(5, 7); console.log(p.x); // 5 console.log(p.z); // ReferenceError ``` ## Negative Array indices (get) Some [array prototype methods](20201009090331-javascript_array_prototype_methods) let you refer to the last element via -1, to the second-to-last element via -2, etc. For example: ``` javascript console.log(["a", "b", "c"].slice(-1)); // ['c'] ``` Alas, that doesn’t work when accessing elements via the bracket operator (\[\]). We can, however, use proxies to add that capability. The following function createArray() creates Arrays that support negative indices. It does so by wrapping proxies around Array instances. The proxies intercept the get operation that is triggered by the bracket operator. ``` javascript function createArray(...elements) { const handler = { get(target, propKey, receiver) { // Sloppy way of checking for negative indices const index = Number(propKey); if (index < 0) { propKey = String(target.length + index); } return Reflect.get(target, propKey, receiver); }, }; // Wrap a proxy around an Array const target = []; target.push(...elements); return new Proxy(target, handler); } const arr = createArray("a", "b", "c"); console.log(arr[-1]); // c ``` ## Data binding (set) ``` javascript function createObservedArray(callback) { const array = []; return new Proxy(array, { set(target, propertyKey, value, receiver) { callback(propertyKey, value); return Reflect.set(target, propertyKey, value, receiver); } }); } const observedArray = createObservedArray( (key, value) => console.log(`${key}=${value}`)); observedArray.push('a'); ``` ## Accessing a restful web service ``` javascript function httpGet(url) { return new Promise((resolve, reject) => { const request = new XMLHttpRequest(); Object.assign(request, { onload() { if (this.status === 200) { // Success resolve(this.response); } else { // Something went wrong (404 etc.) reject(new Error(this.statusText)); } }, onerror() { reject(new Error("XMLHttpRequest Error: " + this.statusText)); }, }); request.open("GET", url); request.send(); }); } function createWebService(baseUrl) { return new Proxy( {}, { get(target, propKey, receiver) { // Return the method to be called return () => httpGet(baseUrl + "/" + propKey); }, } ); } const service = createWebService("http://example.com/data"); // Read JSON data in http://example.com/data/employees service.employees().then((json) => { const employees = JSON.parse(json); }); ``` ## Recoverable references *Revocable references* work as follows: A client is not allowed to access an important resource (an object) directly, only via a reference (an intermediate object, a wrapper around the resource). Normally, every operation applied to the reference is forwarded to the resource. After the client is done, the resource is protected by revoking the reference, by switching it off. Henceforth, applying operations to the reference throws exceptions and nothing is forwarded, anymore. In the following example, we create a revocable reference for a resource. We then read one of the resource’s properties via the reference. That works, because the reference grants us access. Next, we revoke the reference. Now the reference doesn’t let us read the property, anymore. ``` javascript function createRevocableReference(target) { const handler = {}; // forward everything const { proxy, revoke } = Proxy.revocable(target, handler); return { reference: proxy, revoke }; } const resource = { x: 11, y: 8 }; const { reference, revoke } = createRevocableReference(resource); // Access granted console.log(reference.x); // 11 revoke(); // Access denied console.log(reference.x); // TypeError: Revoked ``` # See also - [Metaprogramming](20201022095438-javascript_metaprogramming)