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Front-end advancement (8): In-depth currying of functions

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Release: 2017-04-04 17:56:45
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Front-end advancement (8): In-depth currying of functions

The accompanying picture has nothing to do with this article

Currying is a relatively advanced application of function. It is not necessary to understand it. Simple. So I've been thinking about how I should express myself more to make it easier for everyone to understand. After thinking about it for a long time, I decided to put aside the concept of currying and add two important but easily overlooked knowledge points.

1. Supplementary knowledge points of implicit conversion of functions

JavaScriptAs a weakly typed language, its implicit conversion is very flexible and interesting. When we do not have a deep understanding of implicit conversion, we may be confused by the results of some operations, such as 4 + true = 5. Of course, if you have a deep enough understanding of implicit conversion, you will definitely be able to greatly improve your ability to use js. It's just that I don't plan to share all the implicit conversion rules with you. Here I will only share some rules for implicit conversion of functions.

Let’s ask a simple question.

function fn() {
    return 20;
}

console.log(fn + 10); // 输出结果是多少?
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Modify it slightly and think about what the output will be?

function fn() {
    return 20;
}

fn.toString = function() {
    return 10;
}

console.log(fn + 10);  // 输出结果是多少?
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You can continue to modify it.

function fn() {
    return 20;
}

fn.toString = function() {
    return 10;
}

fn.valueOf = function() {
    return 5;
}

console.log(fn + 10); // 输出结果是多少?
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// 输出结果分别为
function fn() {
    return 20;
}10

20

15
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When using console.log, or performing calculations, implicit conversion may occur. From the above three examples we can draw some conclusions about implicit conversion of functions.

When we do not redefine toString and valueOf, the implicit conversion of the function will call the default toString method, which will return the definition content of the function as a string. When we actively define the toString/vauleOf method, the return result of the implicit conversion is controlled by ourselves. Among them, valueOf will be executed after toString. Therefore, the conclusion of the above example is easy to understand. I suggest you give it a try.

2. Supplementary knowledge points using c

all

/apply to seal
arraymapmethodmap( ): Runs the given function on each item in the array, returning an array of the results of each function call.

In layman's terms, it means

traversing each element of the array
and performing operations in the first parameter of the map (

callback function) Then return the calculation result. Returns a new array consisting of all calculation results.

// 回调函数中有三个参数
// 第一个参数表示newArr的每一项,第二个参数表示该项在数组中的索引值
// 第三个表示数组本身
// 除此之外,回调函数中的this,当map不存在第二参数时,this指向丢失,当存在第二个参数时,指向改参数所设定的对象
var newArr = [1, 2, 3, 4].map(function(item, i, arr) {
    console.log(item, i, arr, this);  // 可运行试试看
    return item + 1;  // 每一项加1
}, { a: 1 })

console.log(newArr); // [2, 3, 4, 5]
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The details of the map method are elaborated in the Comments of the above example. Now we have to face a problem, which is how to encapsulate the map.

You can think about it firstfor loop

. We can use a for loop to implement a map, but when encapsulating, we will consider some issues. When we use a for loop, a loop process is indeed easy to encapsulate, but it is difficult to encapsulate it with a fixed thing for what we need to do for each item in the for loop. Because in every scenario, the data processing in the for loop must be different.

So everyone thought of a good way to handle these different operations with a separate function, and let this function become the first parameter of the map method. Specifically, what will be in this callback function? Such operation is decided by ourselves when using it. Therefore, the encapsulation implementation based on this idea is as follows.

Array.prototype._map = function(fn, context) {
    var temp = [];
    if(typeof fn == 'function') {
        var k = 0;
        var len = this.length;
        // 封装for循环过程
        for(; k < len; k++) {
            // 将每一项的运算操作丢进fn里,利用call方法指定fn的this指向与具体参数
            temp.push(fn.call(context, this[k], k, this))
        }
    } else {
        console.error('TypeError: '+ fn +' is not a function.');
    }

    // 返回每一项运算结果组成的新数组
    return temp;
}

var newArr = [1, 2, 3, 4]._map(function(item) {
    return item + 1;
})
// [2, 3, 4, 5]
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In the above package, I first defined an empty temp array, which is used to store the final return result. In the for loop, every time it loops, the parameter fn function is executed once, and the parameters of fn are passed in using the call method.

After understanding the encapsulation process of map, we can understand why we always expect a return value in the first callback function when using map. In the rules of eslint, if we do not set a return value when using map, it will be judged as an error.

ok, now that we understand the implicit conversion rules of functions and how call/apply is used in this scenario, we can try to understand currying through a simple example.

3. Currying from Easy to Deep

In the front-end interview, there is an interview question about currying that is widely circulated.

Implement an add method so that the calculation results can meet the following expectations:

add(1)(2)(3) = 6


add (1, 2, 3)(4) = 10
add(1)(2)(3)(4)(5) = 15
Obviously, the calculation result is the sum of all parameters. Every time the add method is run, it must return the same function and continue to calculate the remaining parameters.

We can find solutions step by step from the simplest examples.

当我们只调用两次时,可以这样封装。

function add(a) {
    return function(b) {
        return a + b;
    }
}

console.log(add(1)(2));  // 3
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如果只调用三次:

function add(a) {
    return function(b) {
        return function (c) {
            return a + b + c;
        }
    }
}

console.log(add(1)(2)(3)); // 6
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上面的封装看上去跟我们想要的结果有点类似,但是参数的使用被限制得很死,因此并不是我们想要的最终结果,我们需要通用的封装。应该怎么办?总结一下上面2个例子,其实我们是利用闭包的特性,将所有的参数,集中到最后返回的函数里进行计算并返回结果。因此我们在封装时,主要的目的,就是将参数集中起来计算。

来看看具体实现。

function add() {
    // 第一次执行时,定义一个数组专门用来存储所有的参数
    var _args = [].slice.call(arguments);

    // 在内部声明一个函数,利用闭包的特性保存_args并收集所有的参数值
    var adder = function () {
        var _adder = function() {
            [].push.apply(_args, [].slice.call(arguments));
            return _adder;
        };

        // 利用隐式转换的特性,当最后执行时隐式转换,并计算最终的值返回
        _adder.toString = function () {
            return _args.reduce(function (a, b) {
                return a + b;
            });
        }

        return _adder;
    }
    return adder.apply(null, [].slice.call(arguments));
}

// 输出结果,可自由组合的参数
console.log(add(1, 2, 3, 4, 5));  // 15
console.log(add(1, 2, 3, 4)(5));  // 15
console.log(add(1)(2)(3)(4)(5));  // 15
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上面的实现,利用闭包的特性,主要目的是想通过一些巧妙的方法将所有的参数收集在一个数组里,并在最终隐式转换时将数组里的所有项加起来。因此我们在调用add方法的时候,参数就显得非常灵活。当然,也就很轻松的满足了我们的需求。

那么读懂了上面的demo,然后我们再来看看柯里化的定义,相信大家就会更加容易理解了。

柯里化(英语:Currying),又称为部分求值,是把接受多个参数的函数变换成接受一个单一参数(最初函数的第一个参数)的函数,并且返回一个新的函数的技术,新函数接受余下参数并返回运算结果。

  • 接收单一参数,因为要携带不少信息,因此常常以回调函数的理由来解决。

  • 将部分参数通过回调函数等方式传入函数中

  • 返回一个新函数,用于处理所有的想要传入的参数

在上面的例子中,我们可以将add(1, 2, 3, 4)转换为add(1)(2)(3)(4)。这就是部分求值。每次传入的参数都只是我们想要传入的所有参数中的一部分。当然实际应用中,并不会常常这么复杂的去处理参数,很多时候也仅仅只是分成两部分而已。

咱们再来一起思考一个与柯里化相关的问题。

假如有一个计算要求,需要我们将数组里面的每一项用我们自己想要的字符给连起来。我们应该怎么做?想到使用join方法,就很简单。

var arr = [1, 2, 3, 4, 5];

// 实际开发中并不建议直接给Array扩展新的方法
// 只是用这种方式演示能够更加清晰一点
Array.prototype.merge = function(chars) {
    return this.join(chars);
}

var string = arr.merge('-')

console.log(string);  // 1-2-3-4-5
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增加难度,将每一项加一个数后再连起来。那么这里就需要map来帮助我们对每一项进行特殊的运算处理,生成新的数组然后用字符连接起来了。实现如下:

var arr = [1, 2, 3, 4, 5];

Array.prototype.merge = function(chars, number) {
    return this.map(function(item) {
        return item + number;
    }).join(chars);
}

var string = arr.merge('-', 1);

console.log(string); // 2-3-4-5-6
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但是如果我们又想要让数组每一项都减去一个数之后再连起来呢?当然和上面的加法操作一样的实现。

var arr = [1, 2, 3, 4, 5];

Array.prototype.merge = function(chars, number) {
    return this.map(function(item) {
        return item - number;
    }).join(chars);
}

var string = arr.merge('~', 1);

console.log(string); // 0~1~2~3~4
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机智的小伙伴肯定发现困惑所在了。我们期望封装一个函数,能同时处理不同的运算过程,但是我们并不能使用一个固定的套路将对每一项的操作都封装起来。于是问题就变成了和封装map的时候所面临的问题一样了。我们可以借助柯里化来搞定。

与map封装同样的道理,既然我们事先并不确定我们将要对每一项数据进行怎么样的处理,我只是知道我们需要将他们处理之后然后用字符连起来,所以不妨将处理内容保存在一个函数里。而仅仅固定封装连起来的这一部分需求。

于是我们就有了以下的封装。

// 封装很简单,一句话搞定
Array.prototype.merge = function(fn, chars) {
    return this.map(fn).join(chars);
}

var arr = [1, 2, 3, 4];

// 难点在于,在实际使用的时候,操作怎么来定义,利用闭包保存于传递num参数
var add = function(num) {
    return function(item) {
        return item + num;
    }
}

var red = function(num) {
    return function(item) {
        return item - num;
    }
}

// 每一项加2后合并
var res1 = arr.merge(add(2), '-');

// 每一项减2后合并
var res2 = arr.merge(red(1), '-');

// 也可以直接使用回调函数,每一项乘2后合并
var res3 = arr.merge((function(num) {
    return function(item) {
        return item * num
    }
})(2), '-')

console.log(res1); // 3-4-5-6
console.log(res2); // 0-1-2-3
console.log(res3); // 2-4-6-8
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大家能从上面的例子,发现柯里化的特征吗?

四、柯里化通用式

通用的柯里化写法其实比我们上边封装的add方法要简单许多。

var currying = function(fn) {
    var args = [].slice.call(arguments, 1);

    return function() {
        // 主要还是收集所有需要的参数到一个数组中,便于统一计算
        var _args = args.concat([].slice.call(arguments));
        return fn.apply(null, _args);
    }
}

var sum = currying(function() {
    var args = [].slice.call(arguments);
    return args.reduce(function(a, b) {
        return a + b;
    })
}, 10)

console.log(sum(20, 10));  // 40
console.log(sum(10, 5));   // 25
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五、柯里化与bind
Object.prototype.bind = function(context) {
    var _this = this;
    var args = [].slice.call(arguments, 1);

    return function() {
        return _this.apply(context, args)
    }
}
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这个例子利用call与apply的灵活运用,实现了bind的功能。

在前面的几个例子中,我们可以总结一下柯里化的特点:

  • 接收单一参数,将更多的参数通过回调函数来搞定?

  • 返回一个新函数,用于处理所有的想要传入的参数;

  • 需要利用call/apply与arguments对象收集参数;

  • 返回的这个函数正是用来处理收集起来的参数。

希望大家读完之后都能够大概明白柯里化的概念,如果想要熟练使用它,就需要我们掌握更多的实际经验才行。


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