javascript技巧

关注公众号 jb51net

关闭
首页 > 网络编程 > JavaScript > javascript技巧 > js正则中g标志

JavaScript正则表达式中g标志详解

作者:伍陆柒

正则的思想都是一样的,但是具体的写法会有所不同,下面这篇文章主要给大家介绍了关于JavaScript正则表达式中g标志的相关资料,文中通过实例代码介绍的非常详细,需要的朋友可以参考下

缘起

有一天在思否社区看到有个问题,大致描述如下

const list = ['a', 'b', '-', 'c', 'd'];
const reg = /[a-z]/g;
const letters = list.filter(i => reg.test(i));

// letters === ['a', 'c'];
// 如果正则不使用`g`标志可以得到所有的字母
// 为什么加入`g`之后就不可以了

对问题而言,遍历中的i就是一个字符,不需要用到g。

但是就我对正则的理解(过于浅薄)感觉上有没有g(只是全局搜索,不会匹配到就停下来)应该不影响,激发了我的好奇心。

上面题的建议写法如下

const reg = /[a-z]/g;
reg.test('a'); // => true
reg.test('a'); // => false
reg.test('a'); // => true
reg.test('a'); // => false
reg.test('a'); // => true

解密过程

首先可以确定的表现一定是g导致的

搜索引擎

打开 MDN 仔细查看g标志的作用,得到结论和我的理解无二。

我猜想应该就是g可能启用了某种缓存,又因为reg相对过滤器是全局变量,我将代码改为:

const list = ['a', 'b', '-', 'c', 'd'];
const letters = list.filter(i => /[a-z]/g.test(i));

// letters === ['a', 'b', 'c', 'd'];

将正则声明到每一次遍历,得到结论就是正确的,验证了我的猜想。也得到了,缓存就是正则中的某个地方

下面我找到对应的源码来查看问题的原因

源码层面

由于最近在看 Rust,所以使用 Rust 编写的源码查看

打开项目后,点击.进入 vscode 模式,command+p 搜索 regexp 关键词

进入test.rs文件,command+f 搜索/g可以找到在 90 行有个last_index()的测试

#[test]
fn last_index() {
    let mut context = Context::default();
    let init = r#"
        var regex = /[0-9]+(\.[0-9]+)?/g;
        "#;
    // forward 的作用:更改 context,并返回结果的字符串。
    eprintln!("{}", forward(&mut context, init));
    assert_eq!(forward(&mut context, "regex.lastIndex"), "0");
    assert_eq!(forward(&mut context, "regex.test('1.0foo')"), "true");
    assert_eq!(forward(&mut context, "regex.lastIndex"), "3");
    assert_eq!(forward(&mut context, "regex.test('1.0foo')"), "false");
    assert_eq!(forward(&mut context, "regex.lastIndex"), "0");
}

看到了有lastIndex关键字,这里再已经大致猜到问题的原因了,g 标志存在匹配后的最后一个下标,导致出现问题。

我们将视线移入到mod.rs文件中,搜索test

在 631 行看到了fn test()方法

pub(crate) fn test(
    this: &JsValue,
    args: &[JsValue],
    context: &mut Context,
) -> JsResult<JsValue> {
    // 1. Let R be the this value.
    // 2. If Type(R) is not Object, throw a TypeError exception.
    let this = this.as_object().ok_or_else(|| {
        context
            .construct_type_error("RegExp.prototype.test method called on incompatible value")
    })?;

    // 3. Let string be ? ToString(S).
    let arg_str = args
        .get(0)
        .cloned()
        .unwrap_or_default()
        .to_string(context)?;

    // 4. Let match be ? RegExpExec(R, string).
    let m = Self::abstract_exec(this, arg_str, context)?;

    // 5. If match is not null, return true; else return false.
    if m.is_some() {
        Ok(JsValue::new(true))
    } else {
        Ok(JsValue::new(false))
    }
}

test()方法中找到了Self::abstract_exec()方法

pub(crate) fn abstract_exec(
    this: &JsObject,
    input: JsString,
    context: &mut Context,
) -> JsResult<Option<JsObject>> {
    // 1. Assert: Type(R) is Object.
    // 2. Assert: Type(S) is String.

    // 3. Let exec be ? Get(R, "exec").
    let exec = this.get("exec", context)?;

    // 4. If IsCallable(exec) is true, then
    if let Some(exec) = exec.as_callable() {
        // a. Let result be ? Call(exec, R, « S »).
        let result = exec.call(&this.clone().into(), &[input.into()], context)?;

        // b. If Type(result) is neither Object nor Null, throw a TypeError exception.
        if !result.is_object() && !result.is_null() {
            return context.throw_type_error("regexp exec returned neither object nor null");
        }

        // c. Return result.
        return Ok(result.as_object().cloned());
    }

    // 5. Perform ? RequireInternalSlot(R, [[RegExpMatcher]]).
    if !this.is_regexp() {
        return context.throw_type_error("RegExpExec called with invalid value");
    }

    // 6. Return ? RegExpBuiltinExec(R, S).
    Self::abstract_builtin_exec(this, &input, context)
}

又在Self::abstract_exec()方法中找到了Self::abstract_builtin_exec()方法

pub(crate) fn abstract_builtin_exec(
    this: &JsObject,
    input: &JsString,
    context: &mut Context,
) -> JsResult<Option<JsObject>> {
    // 1. Assert: R is an initialized RegExp instance.
    let rx = {
        let obj = this.borrow();
        if let Some(rx) = obj.as_regexp() {
            rx.clone()
        } else {
            return context.throw_type_error("RegExpBuiltinExec called with invalid value");
        }
    };

    // 2. Assert: Type(S) is String.

    // 3. Let length be the number of code units in S.
    let length = input.encode_utf16().count();

    // 4. Let lastIndex be ℝ(? ToLength(? Get(R, "lastIndex"))).
    let mut last_index = this.get("lastIndex", context)?.to_length(context)?;

    // 5. Let flags be R.[[OriginalFlags]].
    let flags = &rx.original_flags;

    // 6. If flags contains "g", let global be true; else let global be false.
    let global = flags.contains('g');

    // 7. If flags contains "y", let sticky be true; else let sticky be false.
    let sticky = flags.contains('y');

    // 8. If global is false and sticky is false, set lastIndex to 0.
    if !global && !sticky {
        last_index = 0;
    }

    // 9. Let matcher be R.[[RegExpMatcher]].
    let matcher = &rx.matcher;

    // 10. If flags contains "u", let fullUnicode be true; else let fullUnicode be false.
    let unicode = flags.contains('u');

    // 11. Let matchSucceeded be false.
    // 12. Repeat, while matchSucceeded is false,
    let match_value = loop {
        // a. If lastIndex > length, then
        if last_index > length {
            // i. If global is true or sticky is true, then
            if global || sticky {
                // 1. Perform ? Set(R, "lastIndex", +0𝔽, true).
                this.set("lastIndex", 0, true, context)?;
            }

            // ii. Return null.
            return Ok(None);
        }

        // b. Let r be matcher(S, lastIndex).
        // Check if last_index is a valid utf8 index into input.
        let last_byte_index = match String::from_utf16(
            &input.encode_utf16().take(last_index).collect::<Vec<u16>>(),
        ) {
            Ok(s) => s.len(),
            Err(_) => {
                return context
                    .throw_type_error("Failed to get byte index from utf16 encoded string")
            }
        };
        let r = matcher.find_from(input, last_byte_index).next();

        match r {
            // c. If r is failure, then
            None => {
                // i. If sticky is true, then
                if sticky {
                    // 1. Perform ? Set(R, "lastIndex", +0𝔽, true).
                    this.set("lastIndex", 0, true, context)?;

                    // 2. Return null.
                    return Ok(None);
                }

                // ii. Set lastIndex to AdvanceStringIndex(S, lastIndex, fullUnicode).
                last_index = advance_string_index(input, last_index, unicode);
            }

            Some(m) => {
                // c. If r is failure, then
                #[allow(clippy::if_not_else)]
                if m.start() != last_index {
                    // i. If sticky is true, then
                    if sticky {
                        // 1. Perform ? Set(R, "lastIndex", +0𝔽, true).
                        this.set("lastIndex", 0, true, context)?;

                        // 2. Return null.
                        return Ok(None);
                    }

                    // ii. Set lastIndex to AdvanceStringIndex(S, lastIndex, fullUnicode).
                    last_index = advance_string_index(input, last_index, unicode);
                // d. Else,
                } else {
                    //i. Assert: r is a State.
                    //ii. Set matchSucceeded to true.
                    break m;
                }
            }
        }
    };

    // 13. Let e be r's endIndex value.
    let mut e = match_value.end();

    // 14. If fullUnicode is true, then
    if unicode {
        // e is an index into the Input character list, derived from S, matched by matcher.
        // Let eUTF be the smallest index into S that corresponds to the character at element e of Input.
        // If e is greater than or equal to the number of elements in Input, then eUTF is the number of code units in S.
        // b. Set e to eUTF.
        e = input.split_at(e).0.encode_utf16().count();
    }

    // 15. If global is true or sticky is true, then
    if global || sticky {
        // a. Perform ? Set(R, "lastIndex", 𝔽(e), true).
        this.set("lastIndex", e, true, context)?;
    }

    // 16. Let n be the number of elements in r's captures List. (This is the same value as 22.2.2.1's NcapturingParens.)
    let n = match_value.captures.len();
    // 17. Assert: n < 23^2 - 1.
    debug_assert!(n < 23usize.pow(2) - 1);

    // 18. Let A be ! ArrayCreate(n + 1).
    // 19. Assert: The mathematical value of A's "length" property is n + 1.
    let a = Array::array_create(n + 1, None, context)?;

    // 20. Perform ! CreateDataPropertyOrThrow(A, "index", 𝔽(lastIndex)).
    a.create_data_property_or_throw("index", match_value.start(), context)
        .expect("this CreateDataPropertyOrThrow call must not fail");

    // 21. Perform ! CreateDataPropertyOrThrow(A, "input", S).
    a.create_data_property_or_throw("input", input.clone(), context)
        .expect("this CreateDataPropertyOrThrow call must not fail");

    // 22. Let matchedSubstr be the substring of S from lastIndex to e.
    let matched_substr = if let Some(s) = input.get(match_value.range()) {
        s
    } else {
        ""
    };

    // 23. Perform ! CreateDataPropertyOrThrow(A, "0", matchedSubstr).
    a.create_data_property_or_throw(0, matched_substr, context)
        .expect("this CreateDataPropertyOrThrow call must not fail");

    // 24. If R contains any GroupName, then
    // 25. Else,
    let named_groups = match_value.named_groups();
    let groups = if named_groups.clone().count() > 0 {
        // a. Let groups be ! OrdinaryObjectCreate(null).
        let groups = JsValue::from(JsObject::empty());

        // Perform 27.f here
        // f. If the ith capture of R was defined with a GroupName, then
        // i. Let s be the CapturingGroupName of the corresponding RegExpIdentifierName.
        // ii. Perform ! CreateDataPropertyOrThrow(groups, s, capturedValue).
        for (name, range) in named_groups {
            if let Some(range) = range {
                let value = if let Some(s) = input.get(range.clone()) {
                    s
                } else {
                    ""
                };

                groups
                    .to_object(context)?
                    .create_data_property_or_throw(name, value, context)
                    .expect("this CreateDataPropertyOrThrow call must not fail");
            }
        }
        groups
    } else {
        // a. Let groups be undefined.
        JsValue::undefined()
    };

    // 26. Perform ! CreateDataPropertyOrThrow(A, "groups", groups).
    a.create_data_property_or_throw("groups", groups, context)
        .expect("this CreateDataPropertyOrThrow call must not fail");

    // 27. For each integer i such that i ≥ 1 and i ≤ n, in ascending order, do
    for i in 1..=n {
        // a. Let captureI be ith element of r's captures List.
        let capture = match_value.group(i);

        let captured_value = match capture {
            // b. If captureI is undefined, let capturedValue be undefined.
            None => JsValue::undefined(),
            // c. Else if fullUnicode is true, then
            // d. Else,
            Some(range) => {
                if let Some(s) = input.get(range) {
                    s.into()
                } else {
                    "".into()
                }
            }
        };

        // e. Perform ! CreateDataPropertyOrThrow(A, ! ToString(𝔽(i)), capturedValue).
        a.create_data_property_or_throw(i, captured_value, context)
            .expect("this CreateDataPropertyOrThrow call must not fail");
    }

    // 28. Return A.
    Ok(Some(a))
}

Self::abstract_builtin_exec()方法中存在global以及last_index这样看来最终执行的方法就是在这里了,仔细查看该方法中的代码(代码写的很详细而且每一步都有注释)

在第 12 步中:

第 13 步获取匹配到的值的 endIndex

第 15 步将 lastIndex 置为 endIndex

至此也就整明白了g标志的含义,在正则的原型链中存在一个lastIndex,如果匹配为真时lastIndex不会重置为 0 ,下一次开始时继承了上次位置,

结论

在问题代码中分析

const reg = /[a-z]/g; // 声明后,lastIndex 为 0
reg.test('a'); // => true;第一次匹配后,lastIndex 为 1
reg.test('a'); // => false;第二次匹配由于 lastIndex 为 1,且字符只有一个,得到 false,将 lastIndex 置为 0
reg.test('a'); // => true;下面依次循环前两次的逻辑
reg.test('a'); // => false;
reg.test('a'); // => true;

到此这篇关于JavaScript正则表达式中g标志详解的文章就介绍到这了,更多相关js正则中g标志内容请搜索脚本之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持脚本之家!

您可能感兴趣的文章:
阅读全文