pom
<dependency>
<groupId>com.googlecode.aviator</groupId>
<artifactId>aviator</artifactId>
<version>4.2.10</version>
</dependency>
<dependency>
<groupId>org.mvel</groupId>
<artifactId>mvel2</artifactId>
<version>2.4.10.Final</version>
</dependency>
对单一map的简单操作
import java.util.HashMap; import java.util.Map; import com.googlecode.aviator.AviatorEvaluator; import com.googlecode.aviator.runtime.function.AbstractFunction; import com.googlecode.aviator.runtime.function.FunctionUtils; import com.googlecode.aviator.runtime.type.AviatorBigInt; import com.googlecode.aviator.runtime.type.AviatorObject; public class App { static{ //注册函数 AviatorEvaluator.addFunction(new MinFunction()); } public static void main( String[] args ) { Map<String, Object> sourceMapItem = new HashMap<String, Object>(); sourceMapItem.put("pt", "mi"); sourceMapItem.put("ab", "abc"); sourceMapItem.put("xy", "xyz"); sourceMapItem.put("int1", 135); sourceMapItem.put("int2", 68); sourceMapItem.put("decimal2", 19.83); sourceMapItem.put("mydate", "2020-10-10 28:35:00"); sourceMapItem.put("value", 999); String expStr = "pt == 'mi'"; Object result; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); //逻辑与 + 简单表达式 expStr = "pt == 'mi' && ab == 'abc' && int1 > 100 && decimal2 < 20.50"; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); //逻辑与或组合 expStr = "pt == 'mi1' || (decimal2 < 20.50 && xy+'X' == 'xyzX')"; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); //三目运算 expStr = "pt == 'mi1' ? ab == 'ab' : ab == 'abc'"; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); //函数 expStr = "pt != 'mi1' && string.length(xy) >= 5 "; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); //自定义函数 expStr = "pt == 'mi1' || myMin(int2 , int1) > 10 "; result = AviatorEvaluator.execute(expStr, sourceMapItem); System.out.println(expStr+" --- "+result); } static class MinFunction extends AbstractFunction { @Override public AviatorObject call(Map<String, Object> env, AviatorObject arg1, AviatorObject arg2) { Number left = FunctionUtils.getNumberValue(arg1, env); Number right = FunctionUtils.getNumberValue(arg2, env); return new AviatorBigInt(Math.min(left.doubleValue(), right.doubleValue())); } public String getName() { return "myMin"; } } }
输出结果
pt == 'mi' --- true
pt == 'mi' && ab == 'abc' && int1 > 100 && decimal2 < 20.50 --- true
pt == 'mi1' || (decimal2 < 20.50 && xy+'X' == 'xyzX') --- true
pt == 'mi1' ? ab == 'ab' : ab == 'abc' --- true
pt != 'mi1' && string.length(xy) >= 5 --- false
pt == 'mi1' || myMin(int2 , int1) > 10 --- true
一个扩展的任务,Aviator对嵌套map进行stream过滤
import java.util.HashMap; import java.util.Map; import java.util.Optional; import java.util.stream.Collectors; import com.googlecode.aviator.AviatorEvaluator; public class MapForFilter { final static String EXPSTR = "(pt == 'mi' && ab == 'abc' && int1 > 100) || " + "(decimal2 < 20.50 && string.length(xy) >= 5)"; public static void main( String[] args ) { aviatorEvaluatorDemo(); } private static void aviatorEvaluatorDemo() { Map<String, Map<String, Object>> sourceMap = fillData(); Map<String, Map<String, Object>> resultdMap = parseMapForFilter(sourceMap,EXPSTR); System.out.println("过滤后:"+resultdMap); } private static Map<String, Map<String, Object>> fillData() { Map<String, Map<String, Object>> sourceMap = new HashMap<String, Map<String, Object>>(); Map<String, Object> sourceMapItem1 = new HashMap<String, Object>(); sourceMapItem1.put("pt", "mi"); sourceMapItem1.put("ab", "abc"); sourceMapItem1.put("xy", "xyz"); sourceMapItem1.put("int1", 135); sourceMapItem1.put("int2", 68); sourceMapItem1.put("decimal2", 19.83); sourceMapItem1.put("mydate", "2020-10-10 28:35:00"); sourceMapItem1.put("value", 999); Map<String, Object> sourceMapItem2 = new HashMap<String, Object>(); sourceMapItem2.put("pt", "oppo"); sourceMapItem2.put("ab", "ab"); sourceMapItem2.put("xy", "xy"); sourceMapItem2.put("int1", 24); sourceMapItem2.put("int2", 56); sourceMapItem2.put("decimal2", 519.83); sourceMapItem2.put("mydate", "2020-10-11 28:35:00"); sourceMapItem2.put("value", 888); Map<String, Object> sourceMapItem3 = new HashMap<String, Object>(); sourceMapItem3.put("pt", "oppo"); sourceMapItem3.put("ab", "cde"); sourceMapItem3.put("xy", "xy"); sourceMapItem3.put("int1", 213); sourceMapItem3.put("int2", 473); sourceMapItem3.put("decimal2", 119.83); sourceMapItem3.put("mydate", "2020-10-12 28:35:00"); sourceMapItem3.put("value", 777); Map<String, Object> sourceMapItem4 = new HashMap<String, Object>(); sourceMapItem4.put("pt", "oppo"); sourceMapItem4.put("ab", "fgh"); sourceMapItem4.put("xy", "xyz123"); sourceMapItem4.put("int1", 156); sourceMapItem4.put("int2", 215); sourceMapItem4.put("decimal2", 15.92); sourceMapItem4.put("mydate", "2020-10-13 28:35:00"); sourceMapItem4.put("value", 666); sourceMap.put("2020-10-10",sourceMapItem1); sourceMap.put("2020-10-11",sourceMapItem2); sourceMap.put("2020-10-12",sourceMapItem3); sourceMap.put("2020-10-13",sourceMapItem4); return sourceMap; } public static Map<String, Map<String, Object>> parseMapForFilter(Map<String, Map<String, Object>> sourceMap,String exp) { return Optional.ofNullable(sourceMap).map( (v) -> { Map<String, Map<String, Object>> params = v.entrySet().stream() .filter(map -> checkItem(map.getValue(),exp)) .collect(Collectors.toMap(map -> map.getKey(), map -> map.getValue())); return params; } ).orElse(null); } private static boolean checkItem(Map<String, Object> itemMap,String exp) { Object result = AviatorEvaluator.execute(exp, itemMap); return (boolean) result; } }
MVEL的实现同样的过滤任务
为了适应MVEL,注意表达式的字符有少许不同。
import java.util.HashMap; import java.util.Map; import java.util.Optional; import java.util.stream.Collectors; import org.mvel2.MVEL; public class MapForFilterMvel { final static String EXPSTR = "(m.pt == 'mi' && m.ab == 'abc' && m.int1 > 100) || " + "(m.decimal2 < 20.50 && m.xy.length()>5)"; public static void main( String[] args ) { mvelDemo(); } private static void mvelDemo() { Map<String, Map<String, Object>> sourceMap = fillData(); Map<String, Map<String, Object>> resultdMap = parseMapForMvelFilter(sourceMap); System.out.println("过滤后:"+resultdMap); } private static Map<String, Map<String, Object>> parseMapForMvelFilter(Map<String, Map<String, Object>> sourceMap) { return Optional.ofNullable(sourceMap).map( (v) -> { Map<String, Map<String, Object>> params = v.entrySet().stream() .filter(map -> checkItemByMvel(map.getValue())) .collect(Collectors.toMap(map -> map.getKey(), map -> map.getValue())); return params; } ).orElse(null); } private static boolean checkItemByMvel(Map<String, Object> value) { Map<String, Object> paramMap = new HashMap<String, Object>(); paramMap.put("m", value); Object object = MVEL.eval(EXPSTR, paramMap); return (boolean)object; } private static Map<String, Map<String, Object>> fillData() { Map<String, Map<String, Object>> sourceMap = new HashMap<String, Map<String, Object>>(); Map<String, Object> sourceMapItem1 = new HashMap<String, Object>(); sourceMapItem1.put("pt", "mi"); sourceMapItem1.put("ab", "abc"); sourceMapItem1.put("xy", "xyz"); sourceMapItem1.put("int1", 135); sourceMapItem1.put("int2", 68); sourceMapItem1.put("decimal2", 19.83); sourceMapItem1.put("mydate", "2020-10-10 28:35:00"); sourceMapItem1.put("value", 999); Map<String, Object> sourceMapItem2 = new HashMap<String, Object>(); sourceMapItem2.put("pt", "oppo"); sourceMapItem2.put("ab", "ab"); sourceMapItem2.put("xy", "xy"); sourceMapItem2.put("int1", 24); sourceMapItem2.put("int2", 56); sourceMapItem2.put("decimal2", 519.83); sourceMapItem2.put("mydate", "2020-10-11 28:35:00"); sourceMapItem2.put("value", 888); Map<String, Object> sourceMapItem3 = new HashMap<String, Object>(); sourceMapItem3.put("pt", "oppo"); sourceMapItem3.put("ab", "cde"); sourceMapItem3.put("xy", "xy"); sourceMapItem3.put("int1", 213); sourceMapItem3.put("int2", 473); sourceMapItem3.put("decimal2", 119.83); sourceMapItem3.put("mydate", "2020-10-12 28:35:00"); sourceMapItem3.put("value", 777); Map<String, Object> sourceMapItem4 = new HashMap<String, Object>(); sourceMapItem4.put("pt", "oppo"); sourceMapItem4.put("ab", "fgh"); sourceMapItem4.put("xy", "xyz123"); sourceMapItem4.put("int1", 156); sourceMapItem4.put("int2", 215); sourceMapItem4.put("decimal2", 15.92); sourceMapItem4.put("mydate", "2020-10-13 28:35:00"); sourceMapItem4.put("value", 666); sourceMap.put("2020-10-10",sourceMapItem1); sourceMap.put("2020-10-11",sourceMapItem2); sourceMap.put("2020-10-12",sourceMapItem3); sourceMap.put("2020-10-13",sourceMapItem4); return sourceMap; } }
对map集合的过滤:结果:
过滤后:
{
2020-10-10={ab=abc, xy=xyz, int2=68, mydate=2020-10-10 28:35:00, int1=135, pt=mi, decimal2=19.83, value=999},
2020-10-13={ab=fgh, xy=xyz123, int2=215, mydate=2020-10-13 28:35:00, int1=156, pt=oppo, decimal2=15.92, value=666}
}
Aviator的优缺点
final static String EXPSTR = "(pt == 'mi' && ab == 'abc' && int1 > 100) || (decimal2 < 20.50 && string.length(xy) >= 5)";
- 更轻量级。
- 对map的支持非常好,可以说就是为了Map量身定做的,对key变量直接使用就可以了。
- 函数只能使用内置函数或者自定义函数。
- 不支持对象的属性和方法。
- 不支持if else和for循环。
MVEL的优点
final static String EXPSTR = "(m.pt == 'mi' && m.ab == 'abc' && m.int1 > 100) || (m.decimal2 < 20.50 && m.xy.length()>5)";
- 功能更加强大。
- 使用map需要再包一层,用于指示map的根。稍微有些限制,但也不影响使用,固定一个map变量名就好了。
- 支持对象属性、方法,这就厉害了,可以复用全部的java内置class,也可以使用你自己写的class的属性和方法。也可以自定义方法。
- 支持对象new操作,支持断言,支持对象赋值。
- 支持if else流程,支持循环。
操作符列表
| 序号 | 操作符 | 结合性 | 操作数限制 |
|---|---|---|---|
| 0 | () [ ] | 从左到右 | ()用于函数调用,[ ]用于数组和java.util.List的元素访问,要求[indx]中的index必须为整型 |
| 1 | ! - ~ | 从右到左 | ! 能用于Boolean,- 仅能用于Number,~仅能用于整数 |
| 2 | * / % | 从左到右 | Number之间 |
| 3 | + - | 从左到右 | + - 都能用于Number之间, + 还能用于String之间,或者String和其他对象 |
| 4 | << >> >>> | 从左到右 | 仅能用于整数 |
| 5 | < <= > >= | 从左到右 | Number之间、String之间、Pattern之间、变量之间、其他类型与nil之间 |
| 6 | == != =~ | 从左到右 | ==和!=作用于Number之间、String之间、Pattern之间、变量之间、其他类型与nil之间以及String和java.util.Date之间,=~仅能作用于String和Pattern之间 |
| 7 | & | 从左到右 | 整数之间 |
| 8 | ^ | 从左到右 | 整数之间 |
| 9 | ¦ | 从左到右 | 整数之间 |
| 10 | && | 从左到右 | Boolean之间,短路 |
| 11 | ¦¦ | 从左到右 | Boolean之间,短路 |
| 12 | ? : | 从右到左 | 第一个操作数的结果必须为Boolean,第二和第三操作数结果无限制 |
内置函数
| 函数名称 | 说明 |
|---|---|
| sysdate() | 返回当前日期对象java.util.Date |
| rand() | 返回一个介于0-1的随机数,double类型 |
| print([out],obj) | 打印对象,如果指定out,向out打印,否则输出到控制台 |
| println([out],obj) | 与print类似,但是在输出后换行 |
| now() | 返回System.currentTimeMillis |
| long(v) | 将值的类型转为long |
| double(v) | 将值的类型转为double |
| str(v) | 将值的类型转为string |
| date_to_string(date,format) | 将Date对象转化化特定格式的字符串,2.1.1新增 |
| string_to_date(source,format) | 将特定格式的字符串转化为Date对象,2.1.1新增 |
| string.contains(s1,s2) | 判断s1是否包含s2,返回Boolean |
| string.length(s) | 求字符串长度,返回Long |
| string.startsWith(s1,s2) | s1是否以s2开始,返回Boolean |
| string.endsWith(s1,s2) | s1是否以s2结尾,返回Boolean |
| string.substring(s,begin[,end]) | 截取字符串s,从begin到end,end如果忽略的话,将从begin到结尾,与java.util.String.substring一样。 |
| string.indexOf(s1,s2) | java中的s1.indexOf(s2),求s2在s1中的起始索引位置,如果不存在为-1 |
| string.split(target,regex,[limit]) | Java里的String.split方法一致,2.1.1新增函数 |
| string.join(seq,seperator) | 将集合seq里的元素以seperator为间隔连接起来形成字符串,2.1.1新增函数 |
| string.replace_first(s,regex,replacement) | Java里的String.replaceFirst 方法,2.1.1新增 |
| string.replace_all(s,regex,replacement) | Java里的String.replaceAll方法 ,2.1.1新增 |
| math.abs(d) | 求d的绝对值 |
| math.sqrt(d) | 求d的平方根 |
| math.pow(d1,d2) | 求d1的d2次方 |
| math.log(d) | 求d的自然对数 |
| math.log10(d) | 求d以10为底的对数 |
| math.sin(d) | 正弦函数 |
| math.cos(d) | 余弦函数 |
| math.tan(d) | 正切函数 |
| map(seq,fun) | 将函数fun作用到集合seq每个元素上,返回新元素组成的集合 |
| filter(seq,predicate) | 将谓词predicate作用在集合的每个元素上,返回谓词为true的元素组成的集合 |
| count(seq) | 返回集合大小 |
| include(seq,element) | 判断element是否在集合seq中,返回boolean值 |
| sort(seq) | 排序集合,仅对数组和List有效,返回排序后的新集合 |
| reduce(seq,fun,init) | fun接收两个参数,第一个是集合元素,第二个是累积的函数,本函数用于将fun作用在集合每个元素和初始值上面,返回最终的init值 |
| seq.eq(value) | 返回一个谓词,用来判断传入的参数是否跟value相等,用于filter函数,如filter(seq,seq.eq(3)) 过滤返回等于3的元素组成的集合 |
| seq.neq(value) | 与seq.eq类似,返回判断不等于的谓词 |
| seq.gt(value) | 返回判断大于value的谓词 |
| seq.ge(value) | 返回判断大于等于value的谓词 |
| seq.lt(value) | 返回判断小于value的谓词 |
| seq.le(value) | 返回判断小于等于value的谓词 |
| seq.nil() | 返回判断是否为nil的谓词 |
| seq.exists() | 返回判断不为nil的谓词 |
常量和变量
| 值 | 说明 |
|---|---|
| true | 真值 |
| false | 假值 |
| nil | 空值 |
$digit |
正则表达式匹配成功后的分组,$0表示匹配的字符串,$1表示第一个分组 etc. |
参考资料
5.0版以后成为了aviatorscript
https://github.com/killme2008/aviatorscript