# Chapter 8. Functions **Function** = a block of JS code that's defined once but may be invoked multiple times. * *argument*: values provided by during invocation as function's parameters. * *return value*: computed by function using argument values * *invocation context*: value of `this` keyword for each invocation Utilization of functions: * **method of object**: if function is assigned to a property of an obj. * When a function is invoked on an object (e.g. `obj.method()`), this object become invocation context (aka `this`) for the function * **Constructor**: function designed to initialize a new obj. Function as **first class citizen** (object): * In JS, functions are obj. Hence, can be manipulated by programs * We can set properties on functions and invoke methods on them (i.e. pass function as parameter to method) JS function definitions can be nested within other functions ## 8.1 Defining Functions ### 8.1.1 Function Declarations **Function declaration (函数声明)** = `function` keyword + Identifier as function name + `(param1, param2, ...)` + `{JS statements as function body}` * `return` causes function to stop executing and return computed value to caller * if body has no `return`, value of function is `undefined` ```js // Print the name and value of each property of o. Return undefined. function printprops(o) { for(let p in o) { console.log(`${p}: ${o[p]}\n`); } } // Compute the distance between Cartesian points (x1,y1) and (x2,y2). function distance(x1, y1, x2, y2) { let dx = x2 - x1; let dy = y2 - y1; return Math.sqrt(dx*dx + dy*dy); } // A recursive function (one that calls itself) that computes factorials // Recall that x! is the product of x and all positive integers less than it. function factorial(x) { if (x <= 1) return 1; return x * factorial(x-1); } ``` * Name of function (in function declaration) becomes a variable, whose value is function itself. * function declaration statements are "hoisted" (level up) to top of enclosing block. * All function in a JS block will be defined before JS interpreter start execution ### 8.1.2 Function Expressions Multiple Function Expression e.g. ```js // This function expression defines a function that squares its argument. // Note that we assign it to a variable const square = function(x) { return x*x; }; // Function expressions can include names, which is useful for recursion. const f = function fact(x) { if (x <= 1) return 1; else return x*fact(x-1); }; // Function expressions can also be used as arguments to other functions: [3,2,1].sort(function(a,b) { return a-b; }); // Function expressions are sometimes defined and immediately invoked: let tensquared = (function(x) {return x*x;}(10)); ``` **Function Expression (FE 函数表达式)**: * FE appear within context of a larger expression, or within statement * name of function in FE is *optional*. (e.g. 1st FE e.g. has no function name) * FE/FD declare variable: * How FD use variable: (follow e.g. in 8.1.1 `function factorial(x)`) declares a variable and assigns a function obj to it. * How FE use variable: developer can decide whether assign the newly defined function obj to a const or var, so we can refer to it mult-times later. (e.g. 3rd & 5th FE e.g. does not assign function obj to obj, and directly use it) * Good practice: assign FE to `const` to protect function obj. FD vs (assign FE to variable after creation): * Function defined by FD: the func obj are created before the script get executed (i.e. hoisted), so we can call these functions from code that appears above FD. * Functions defined by FE **DO NOT EXIST** until FE are evaluated. * To invoke a function (either defined using FE/FD), JS must can refer to it, function defined by FE cannot be referred until it's assigned to a variable