sql字段解析器的实现示例 sql字段解析器的实现示例

1. 解题思路
2. 具体解析实现
3. 单元测试

用例：有一段sql语句，我们需要从中截取出所有字段部分，以便进行后续的类型推断或者别名字段抽取定义，请给出此解析方法。
想来很简单吧，因为 sql 中的字段列表，使用方式有限，比如 a as b, a, a b...

1. 解题思路
如果不想做复杂处理，最容易想到的，就是直接用某个特征做分割即可。比如，先截取出字段列表部分，然后再用逗号',' 分割，就可以得到一个个的字段了。然后再要细分，其实只需要用 as 进行分割就可以了。
看起来好像可行，但是存在许多漏洞，首先，这里面有太多的假设：各种截取部分要求必须符合要求，必须没有多余的逗号，必须要有as 等等。这明显不符合要求了。
其二，我们可以换一种转换方式。比如先截取到field部分，然后先以 as 分割，再以逗号分割，然后取最后一个词作为field。
看起来好像更差了，截取到哪里已经完全不知道了。即原文已经被破坏殆尽，而且同样要求要有 as 转换标签，而且对于函数觊觎有 as 的场景，就完全错误了。
其三，最好还是自行一个个单词地解析，field 字段无外乎几种情况，1. 普通字段如 select a; 2. 带as的普通字段如 select a as b; 3. 带函数的字段如 select coalesce(a, b); 4. 带函数且带as的字段如 select coalesce(a, b) ab; 5. 函数内带as的字段如 select cast(a as string) b; ...我们只需依次枚举对应的情况，就可以将字段解析出来了。
看起来是个不错的想法。但是具体实现如何？

2. 具体解析实现
主要分两个部分，1. 需要定义一个解析后的结果数据结构，以便清晰描述字段信息； 2. 分词解析sql并以结构体返回；
我们先来看看整个算法核心：

/** * 功能描述: 简单sql字段解析器 * *样例如1: *select COALESCE(t1.xno, t2.xno, t3.xno) as xno, *case when t1.no is not null then 1 else null end as xxk001, *case when t2.no is not null then 1 else null end as xxk200, *case when t3.xno is not null then 1 else null end as xx3200 *from xxk001 t1 *full join xxkj100 t2 on t1.xno = t2.xno *full join xxkj200 t3 on t1.xno = t3.xno; * *样例如2: *select cast(a as string) as b from ccc; * *样例如3: *with a as(select cus,x1 from b1), b as (select cus,x2 from b2) *select a.cus as a_cus from a join b on a.cus=b.cus where xxx; * *样例如4: *select a.xno,b.xx from a_tb as a join b_tb as b on a.id = b.id * *样例如5: *select cast\t(a as string) a_str, cc (a as double) a_double from x * */public class SimpleSqlFieldParser {/*** 解析一段次标签sql 中的字段列表** @param sql 原始sql, 需如 select xx from xxx join ... 格式* @return 字段列表*/public static List parse(String sql) {String columnPart = adaptFieldPartSql(sql); int deep = 0; List fieldTokenSwap = new ArrayList<>(); StringBuilder currentTokenBuilder = new StringBuilder(); List fieldList = new ArrayList<>(); fieldTokenSwap.add(currentTokenBuilder); int len = columnPart.length(); char[] columnPartChars = columnPart.toCharArray(); for(int i = 0; i < len; i++) {// 空格忽略，换行忽略，tab忽略// 字符串相接// 左(号入栈，++deep；// 右)号出栈，--deep；// deep>0 忽略所有其他直接拼接// as 则取下一个值为fieldName// case 则直接取到end为止；//,号则重置token，构建结果集char currentChar = columnPartChars[i]; switch (currentChar) {case '(':++deep; currentTokenBuilder.append(currentChar); break; case ')':--deep; currentTokenBuilder.append(currentChar); break; case ',':if(deep == 0) {addNewField(fieldList, fieldTokenSwap, true); fieldTokenSwap = new ArrayList<>(); currentTokenBuilder = new StringBuilder(); fieldTokenSwap.add(currentTokenBuilder); break; }currentTokenBuilder.append(currentChar); break; case ' ':case '\t':case '\r':case '\n':if(deep > 0) {currentTokenBuilder.append(currentChar); continue; }if(currentTokenBuilder.length() == 0) {continue; }// original_name as--> aliasif(i + 1 < len) {int j = i + 1; // 收集连续的空格StringBuilder spaceHolder = new StringBuilder(); boolean isNextLeftBracket = false; do {char nextChar = columnPart.charAt(j++); if(nextChar == ' ' || nextChar == '\t'|| nextChar == '\r' || nextChar == '\n') {spaceHolder.append(nextChar); continue; }if(nextChar == '(') {isNextLeftBracket = true; }break; } while (j < len); if(isNextLeftBracket) {currentTokenBuilder.append(currentChar); }if(spaceHolder.length() > 0) {currentTokenBuilder.append(spaceHolder); i += spaceHolder.length(); }if(isNextLeftBracket) {// continue next for, function begincontinue; }}if(fieldTokenSwap.size() == 1) {if(fieldTokenSwap.get(0).toString().equalsIgnoreCase("case")) {String caseWhenPart = CommonUtil.readSplitWord(columnPartChars, i, " ", "end"); currentTokenBuilder.append(caseWhenPart); if(caseWhenPart.length() <= 0) {throw new BizException("语法错误，未找到case..when的结束符"); }i += caseWhenPart.length(); }}addNewField(fieldList, fieldTokenSwap, false); currentTokenBuilder = new StringBuilder(); fieldTokenSwap.add(currentTokenBuilder); break; // 空格忽略default:currentTokenBuilder.append(currentChar); break; }}// 处理剩余尚未存储的字段信息addNewField(fieldList, fieldTokenSwap, true); return fieldList; }/*** 新增一个字段描述** @param fieldList 字段容器* @param fieldTokenSwap 候选词*/private static void addNewField(List fieldList,List fieldTokenSwap,boolean forceAdd) {int ts = fieldTokenSwap.size(); if(ts == 1 && forceAdd) {// db.original_name,String fieldName = fieldTokenSwap.get(0).toString(); String alias = fieldName; if(fieldName.contains(".")) {alias = fieldName.substring(fieldName.lastIndexOf('.') + 1); }fieldList.add(new SelectFieldClauseDescriptor(fieldName, alias)); return; }if(ts < 2) {return; }if(ts == 2) {// original_name alias,if(fieldTokenSwap.get(1).toString().equalsIgnoreCase("as")) {return; }fieldList.add(new SelectFieldClauseDescriptor(fieldTokenSwap.get(0).toString(),fieldTokenSwap.get(1).toString())); }else if(ts == 3) {// original_name as alias,fieldList.add(new SelectFieldClauseDescriptor(fieldTokenSwap.get(0).toString(),fieldTokenSwap.get(2).toString())); }else {throw new BizException("字段语法解析错误，超过3个以字段描述信息:" + ts); }}// 截取适配 field 字段信息部分private static String adaptFieldPartSql(String fullSql) {int start = fullSql.lastIndexOf("select "); int end = fullSql.lastIndexOf(" from"); String columnPart = fullSql.substring(start + "select ".length(), end); return columnPart.trim(); }}

应该说是比较简单的，一个for, 一个 switch ，就搞定了。其他的，更多的是逻辑判定。
下面我们来看看字段描述类的写法，其实就是两个字段，源字段和别名。

/** * 功能描述: sql字段描述 select 字段描述类 * */public class SelectFieldClauseDescriptor {private String fieldName; private String alias; public SelectFieldClauseDescriptor(String fieldName, String alias) {this.fieldName = fieldName; this.alias = alias; }public String getFieldName() {return fieldName; }public String getAlias() {return alias; }@Overridepublic boolean equals(Object o) {if (this == o) return true; if (o == null || getClass() != o.getClass()) return false; SelectFieldClauseDescriptor that = (SelectFieldClauseDescriptor) o; return Objects.equals(fieldName, that.fieldName) &&Objects.equals(alias, that.alias); }@Overridepublic int hashCode() {return Objects.hash(fieldName, alias); }@Overridepublic String toString() {return "SelectFieldClauseDescriptor{" +"fieldName='" + fieldName + '\'' +", alias='" + alias + '\'' +'}'; }}

它存在的意义，仅仅是为了使用方更方便取值，以为更进一步的解析提供了依据。

3. 单元测试
其实像写这种工具类，单元测试最是方便简单。因为最初的结果，我们早已预料，以测试驱动开发最合适不过了。而且，基本上一出现不符合预期的值时，很快速就定位问题了。

/** * 功能描述: sql字段解析器测试 **/public class SimpleSqlFieldParserTest {@Testpublic void testParse() {String sql; List parsedFieldList; sql = "select COALESCE(t1.xno, t2.xno, t3.xno) as xno,\n" +"case when t1.xno is not null then 1 else null end as xxk001,\n" +"case when t2.xno is not null then 1 else null end as xxk200,\n" +"case when t3.xno is not null then 1 else null end as xx3200\n" +"from xxk001 t1\n" +"full join xxkj100 t2 on t1.xno = t2.xno\n" +"full join xxkj200 t3 on t1.xno = t3.xno; "; parsedFieldList = SimpleSqlFieldParser.parse(sql); System.out.println("result:"); parsedFieldList.forEach(System.out::println); Assert.assertEquals("字段个数解析不正确",4, parsedFieldList.size()); Assert.assertEquals("字段别名解析不正确","xno", parsedFieldList.get(0).getAlias()); Assert.assertEquals("字段别名解析不正确","xx3200", parsedFieldList.get(3).getAlias()); sql = "select cast(a as string) as b from ccc; "; parsedFieldList = SimpleSqlFieldParser.parse(sql); System.out.println("result:"); parsedFieldList.forEach(System.out::println); Assert.assertEquals("字段个数解析不正确",1, parsedFieldList.size()); Assert.assertEquals("字段别名解析不正确","b", parsedFieldList.get(0).getAlias()); sql = "with a as(select cus,x1 from b1), b as (select cus,x2 from b2)\n" +"select a.cus as a_cus, cast(a \nas string) as a_cus2, " +"b.x2 b2 from a join b on a.cus=b.cus where xxx; "; parsedFieldList = SimpleSqlFieldParser.parse(sql); System.out.println("result:"); parsedFieldList.forEach(System.out::println); Assert.assertEquals("字段个数解析不正确",3, parsedFieldList.size()); Assert.assertEquals("字段别名解析不正确","a_cus", parsedFieldList.get(0).getAlias()); Assert.assertEquals("字段别名解析不正确","b2", parsedFieldList.get(2).getAlias()); sql = "select a.xno,b.xx,qqq from a_tb as a join b_tb as b on a.id = b.id"; parsedFieldList = SimpleSqlFieldParser.parse(sql); System.out.println("result:"); parsedFieldList.forEach(System.out::println); Assert.assertEquals("字段个数解析不正确",3, parsedFieldList.size()); Assert.assertEquals("字段别名解析不正确","xno", parsedFieldList.get(0).getAlias()); Assert.assertEquals("字段别名解析不正确","qqq", parsedFieldList.get(2).getAlias()); sql = "select cast (a.a_int as string) a_str, b.xx, coalesce\n( a, b, c) qqq from a_tb as a join b_tb as b on a.id = b.id"; parsedFieldList = SimpleSqlFieldParser.parse(sql); System.out.println("result:"); parsedFieldList.forEach(System.out::println); Assert.assertEquals("字段个数解析不正确",3, parsedFieldList.size()); Assert.assertEquals("字段别名解析不正确","a_str", parsedFieldList.get(0).getAlias()); Assert.assertEquals("字段原始名解析不正确","cast (a.a_int as string)", parsedFieldList.get(0).getFieldName()); Assert.assertEquals("字段别名解析不正确","qqq", parsedFieldList.get(2).getAlias()); Assert.assertEquals("字段原始名解析不正确","coalesce\n( a, b, c)", parsedFieldList.get(2).getFieldName()); }}

至此，一个简单的字段解析器完成。小工具，供参考！

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