A brief discussion of CSS preprocessors (1): Why use preprocessors

高洛峰
Release: 2017-02-09 13:06:10
Original
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Background

Since the birth of CSS, the basic syntax and core mechanism have not changed essentially. Its development is almost entirely an improvement in expressiveness. In the beginning, the role of CSS in web pages was only auxiliary decoration, and ease of learning was the biggest requirement; however, the complexity of websites is no longer the same, and native CSS has overwhelmed developers.

When a language has insufficient capabilities and the user's operating environment does not support other options, the language will become a "compilation target" language. Developers will choose another higher-level language to develop in, and then compile to the low-level language to actually run.

So, in the front-end field, everyone has a great responsibility, and the CSS preprocessor came into being. The ancient language CSS has “re-adapted” to the needs of web development in another way.

The "superpowers" given to us by the preprocessor

To briefly summarize, the CSS preprocessor has brought us several important capabilities, which are listed as follows from shallow to deep. (Don’t care how much you use it, no matter how deep it is, you will benefit.)

File segmentation

The pages are becoming more and more complex, and the CSS files that need to be loaded are getting larger and larger. We It is necessary to split large files, otherwise it will be difficult to maintain. Traditional CSS file splitting solutions are basically CSS native @import directives, or loading multiple CSS files in HTML. These solutions usually cannot meet performance requirements.

The CSS preprocessor extends the capabilities of the @import directive and re-merges the split files into one large file through the compilation process. On the one hand, this solves the problem of inconvenient maintenance of large files, and on the other hand, it also solves the performance problem when loading a bunch of small files.

Modularization

Taking the idea of ​​file segmentation one step further is "modularization". After a large CSS file is reasonably split, the relationship between the resulting small files should be a tree structure.

The root node of the tree is generally called the "entry file", and the other nodes of the tree are generally called "module files". Entry files usually depend on multiple module files, and each module file may also depend on other terminal modules, thus forming the entire tree.

The following is a simple example:

entry.styl
 ├─ base.styl
 │   ├─ normalize.styl
 │   └─ reset.styl
 ├─ layout.styl
 │   ├─ header.styl
 │   │   └─ nav.styl
 │   └─ footer.styl
 ├─ section-foo.styl
 ├─ section-bar.styl
 └─ ...
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(The entry file entry.styl will introduce the required modules during compilation, generate entry.css, and then be referenced by the page.)

If you have used other programming languages ​​​​with a module mechanism, you should already have a deep understanding that modularization is a very good way of organizing code and an important means for developers to design code structure. Modules can clearly implement code layering, reuse and dependency management, allowing the CSS development process to enjoy the convenience of modern program development.

Selector nesting

Selector nesting is a code organization method within a file, which allows a series of related rules to present a hierarchical relationship. In the past, if we wanted to achieve this goal, we could only write like this:

.nav {margin: auto /* 水平居中 */; width: 1000px; color: #333;}
    .nav li {float: left /* 水平排列 */; width: 100px;}
        .nav li a {display: block; text-decoration: none;}
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这种写法需要我们手工维护缩进关系,当上级选择符发生变化时,所有相关的下级选择符都要修改;此外,把每条规则写成一行也不易阅读,为单条声明写注释也很尴尬(只能插在声明之间了)。

在 CSS 预处理语言中,嵌套语法可以很容易地表达出规则之间的层级关系,为单条声明写注释也很清晰易读:

.nav
    margin: auto  // 水平居中
    width: 1000px
    color: #333
    li
        float: left  // 水平排列
        width: 100px
        a
            display: block
            text-decoration: none
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变量

在变更出现之前,CSS 中的所有属性值都是 “幻数”。你不知道这个值是怎么来的、它的什么样的意义。有了变量之后,我们就可以给这些 “幻数” 起个名字了,便于记忆、阅读和理解。

接下来我们会发现,当某个特定的值在多处用到时,变量就是一种简单而有效的抽象方式,可以把这种重复消灭掉,让你的代码更加 DRY。

我们来比较一下以下两段代码:

/* 原生 CSS 代码 */
strong {
    color: #ff4466;
    font-weight: bold;
}

/* ... */

.notice {
    color: #ff4466;
}
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// 用 Stylus 来写
$color-primary = #ff4466

strong
    color: $color-primary
    font-weight: bold

/* ... */

.notice
    color: $color-primary
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你可能已经意识到了,变量让开发者更容易实现网站视觉风格的统一,也让 “换肤” 这样的需求变得更加轻松易行。

运算

光有变量还是不够的,我们还需要有运算。如果说变量让值有了意义,那么运算则可以让值和值建立关联。有些属性的值其实跟其它属性的值是紧密相关的,CSS 语法无法表达这层关系;而在预处理语言中,我们可以用变量和表达式来呈现这种关系。

举个例子,我们需要让一个容器最多只显示三行文字,在以前我们通常是这样写的:

.wrapper {
    overflow-y: hidden;
    line-height: 1.5;
    max-height: 4.5em;  /* = 1.5 x 3 */
}
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大家可以发现,我们只能用注释来表达 max-height 的值是怎么来的,而且注释中 3 这样的值也是幻数,还需要进一步解释。未来当行高或行数发生变化的时候,max-height 的值和注释中的算式也需要同步更新,维护起来很不方便。

接下来我们用预处理语言来改良一下:

.wrapper
    $max-lines = 3
    $line-height = 1.5

    overflow-y: hidden
    line-height: $line-height
    max-height: unit($line-height * $max-lines, 'em')
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乍一看,代码行数似乎变多了,但代码的意图却更加清楚了——不需要任何注释就把整件事情说清楚了。在后期维护时,只要修改那两个变量就可以了。

值得一提的是,这种写法还带来另一个好处。$line-height 这个变量可以是 .wrapper 自己定义的局部变量(比如上面那段代码),也可以从更上层的作用域获取:

$line-height = 1.5  // 全局统一行高

body
    line-height: $line-height

.wrapper
    $max-lines = 3

    max-height: unit($line-height * $max-lines, 'em')
    overflow-y: hidden
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这意味着 .wrapper 可以向祖先继承行高,而不需要为这个 “只显示三行” 的需求把自己的行高写死。有了运算,我们就有能力表达属性与属性之间的关联,它令我们的代码更加灵活、更加 DRY。

函数

把常用的运算操作抽象出来,我们就得到了函数。

开发者可以自定义函数,预处理器自己也内置了大量的函数。最常用的内置函数应该就是颜色的运算函数了吧!有了它们,我们甚至都不需要打开 Photoshop 来调色,就可以得到某个颜色的同色系变种了。

举个例子,我们要给一个按钮添加鼠标悬停效果,而最简单的悬停效果就是让按钮的颜色加深一些。我们写出的 CSS 代码可能是这样的:

.button {
    background-color: #ff4466;
}
.button:hover {
    background-color: #f57900;
}
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我相信即使是最资深的视觉设计师,也很难分清 #ff4466 和 #f57900 这两种颜色到底有什么关联。而如果我们的代码是用预处理语言来写的,那事情就直观多了:

.button
    $color = #ff9833

    background-color: $color
    &:hover
        background-color: darken($color, 20%)
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此外,预处理器的函数往往还支持默认参数、具名实参、arguments 对象等高级功能,内部还可以设置条件分支,可以满足复杂的逻辑需求。

Mixin

Mixin 是 CSS 预处理器提供的又一项实用功能。Mixin 的形态和用法跟函数十分类似——先定义,然后在需要的地方调用,在调用时可以接受参数。它与函数的不同之处在于,函数用于产生一个值,而 Mixin 的作用是产生一段 CSS 代码。

Mixin 可以产生多条 CSS 规则,也可以只产生一些 CSS 声明。

一般来说,Mixin 可以把 CSS 文件中类似的代码块抽象出来,并给它一个直观的名字。比如 CSS 框架可以把一些常用的代码片断包装为 mixin 备用,在内部按需调用,或暴露给使用者在业务层调用。

举个例子,我们经常会用到 clearfix 来闭合浮动。在原生 CSS 中,如果要避免 clearfix 代码的重复,往往只能先定义好一个 .clearfix 类,然后在 HTML 中挂载到需要的元素身上:

/* 为 clearfix 定义一个类 */
.clearfix {...}
.clearfix::after {...}
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<!-- 挂载到这两个元素身上 -->
<div class="info clearfix">...</div>
...
<footer class="clearfix">...</footer>
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把表现层的实现暴露到了结构层,是不是很不爽?而在预处理器中,我们还可以选择另一种重用方式:

// 为 clearfix 定义一个 mixin
clearfix()
    ...
    &::after
        ...

// 在需要的元素身上调用
.info
    clearfix()

footer
    clearfix()
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工程化

CSS 预处理语言无法直接运行于浏览器环境,这意味着我们编写的源码需要编译为 CSS 代码之后才能用于网页。这似乎是一个门槛,需要我们付出 “额外” 的成本。

但在目前的大环境下,大多数项目的前端开发流程已经包含了构建环节,比如选择任何一个脚本模块化方案都是需要在部署时走一道打包程序的。所以对大多数团队来说,这个门槛其实已经跨过去一大半了。

而一旦接受了这种设定,我们还可以享受到 “额外” 的福利。在给 CSS 的开发加入编译环节的同时,还可以顺道加入其它构建环节,比如代码校验、代码压缩、代码后处理等等。

“代码后处理” 是指 PostCSS 平台上各类插件所提供的功能,光是 Autoprefixer 这一项就已经值回票价了。我们再也不需要在 CSS 代码中手工添加浏览器前缀了,直接使用标准写法,剩下的事情让工具搞定吧!

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