Java8 Collectors求和功能的自定义扩展操作_Java教程

业务中需要将一组数据分类后收集总和，原本可以使用Collectors.summingInt()，但是我们的数据源是BigDecimal类型的，而Java8原生只提供了summingInt、summingLong、summingDouble三种基础类型的方法。

于是就自己动手丰衣足食吧。。

自定义工具类

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									public class MyCollectors {

									  private MyCollectors() {

									  }

									//  public static <T> Collector<T, ?, BigDecimal> summingBigDecimal(Function<? super T, BigDecimal> mapper) {}

									    // BigDecimal 类型的集合求和

									  public static <T> Collector<T, ?, BigDecimal> summingBigDecimal(ToBigDecimalFunction<? super T> mapper) {

									    return new CollectorImpl<>(

									        () -> new BigDecimal[] { BigDecimal.ZERO },

									        (a, t) -> a[0] = a[0].add(mapper.applyAsInt(t)),

									        (a, b) -> {

									          a[0] = a[0].add(b[0]);

									          return a;

									        },

									        a -> a[0],

									        Collections.emptySet()

									    );

									  }

									  static class CollectorImpl<T, A, R> implements Collector<T, A, R> {

									    // 创建一个计算用的容器

									    private final Supplier<A> supplier;

									    // 计算逻辑

									    private final BiConsumer<A, T> accumulator;

									    // 合并逻辑

									    private final BinaryOperator<A> combiner;

									    // 返回最终计算值

									    private final Function<A, R> finisher;

									    // 空Set

									    private final Set<Characteristics> characteristics;

									    CollectorImpl(Supplier<A> supplier, BiConsumer<A, T> accumulator, BinaryOperator<A> combiner,

									           Function<A, R> finisher, Set<Characteristics> characteristics) {

									      this.supplier = supplier;

									      this.accumulator = accumulator;

									      this.combiner = combiner;

									      this.finisher = finisher;

									      this.characteristics = characteristics;

									    }

									    CollectorImpl(Supplier<A> supplier, BiConsumer<A, T> accumulator, BinaryOperator<A> combiner,

									           Set<Characteristics> characteristics) {

									      this(supplier, accumulator, combiner, castingIdentity(), characteristics);

									    }

									    @Override

									    public BiConsumer<A, T> accumulator() {

									      return accumulator;

									    }

									    @Override

									    public Supplier<A> supplier() {

									      return supplier;

									    }

									    @Override

									    public BinaryOperator<A> combiner() {

									      return combiner;

									    }

									    @Override

									    public Function<A, R> finisher() {

									      return finisher;

									    }

									    @Override

									    public Set<Characteristics> characteristics() {

									      return characteristics;

									    }

									  }

									  @SuppressWarnings("unchecked")

									  private static <I, R> Function<I, R> castingIdentity() {

									    return i -> (R) i;

									  }

									}

自定义函数式接口

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									@FunctionalInterface

									public interface ToBigDecimalFunction<T> {

									  BigDecimal applyAsInt(T value);

									}

测试入口

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									public class AnswerApp {

									 public static void main(String[] args) {

									    List<BigDecimal> list = Lists.newArrayList();

									    for (int i = 0; i < 24; i++) {

									      list.add(BigDecimal.valueOf(i + 10.2121543));

									    }

									    // 方式1

									    BigDecimal sum = list.stream().collect(MyCollectors.summingBigDecimal(e -> e));

									    System.out.println(sum.doubleValue());

									    // 方式2

									    Optional<BigDecimal> reduce = list.stream().reduce(BigDecimal::add);

									    System.out.println(reduce.orElse(BigDecimal.valueOf(0)));

									 }    

									}

									// OUTPUT: 521.0917032

补充：Collectors扩展接口实现BigDecimal的相加

第一步

创建ToBigDecimalFunction接口

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									import java.math.BigDecimal;

									@FunctionalInterface

									public interface ToBigDecimalFunction<T> {

									  BigDecimal applyAsBigDecimal(T value);

									}

第二步

创建工具类实现接口

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									import java.math.BigDecimal;

									import java.util.Collections;

									import java.util.Set;

									import java.util.function.BiConsumer;

									import java.util.function.BinaryOperator;

									import java.util.function.Function;

									import java.util.function.Supplier;

									import java.util.stream.Collector;

									public class CollectorsUtil {

									  static final Set<Collector.Characteristics> CH_NOID = Collections.emptySet();

									  private CollectorsUtil() {

									  }

									  @SuppressWarnings("unchecked")

									  private static <I, R> Function<I, R> castingIdentity() {

									    return i -> (R) i;

									  }

									  /**

									   * Simple implementation class for {@code Collector}.

									   *

									   * @param <T>

									   *      the type of elements to be collected

									   * @param <R>

									   *      the type of the result

									   */

									  static class CollectorImpl<T, A, R> implements Collector<T, A, R> {

									    private final Supplier<A> supplier;

									    private final BiConsumer<A, T> accumulator;

									    private final BinaryOperator<A> combiner;

									    private final Function<A, R> finisher;

									    private final Set<Characteristics> characteristics;

									    CollectorImpl(Supplier<A> supplier, BiConsumer<A, T> accumulator, BinaryOperator<A> combiner,

									           Function<A, R> finisher, Set<Characteristics> characteristics) {

									      this.supplier = supplier;

									      this.accumulator = accumulator;

									      this.combiner = combiner;

									      this.finisher = finisher;

									      this.characteristics = characteristics;

									    }

									    CollectorImpl(Supplier<A> supplier, BiConsumer<A, T> accumulator, BinaryOperator<A> combiner,

									           Set<Characteristics> characteristics) {

									      this(supplier, accumulator, combiner, castingIdentity(), characteristics);

									    }

									    @Override

									    public BiConsumer<A, T> accumulator() {

									      return accumulator;

									    }

									    @Override

									    public Supplier<A> supplier() {

									      return supplier;

									    }

									    @Override

									    public BinaryOperator<A> combiner() {

									      return combiner;

									    }

									    @Override

									    public Function<A, R> finisher() {

									      return finisher;

									    }

									    @Override

									    public Set<Characteristics> characteristics() {

									      return characteristics;

									    }

									  }

									  public static <T> Collector<T, ?, BigDecimal> summingBigDecimal(ToBigDecimalFunction<? super T> mapper) {

									    return new CollectorImpl<>(() -> new BigDecimal[1], (a, t) -> {

									      if (a[0] == null) {

									        a[0] = BigDecimal.ZERO;

									      }

									      a[0] = a[0].add(mapper.applyAsBigDecimal(t));

									    }, (a, b) -> {

									      a[0] = a[0].add(b[0]);

									      return a;

									    }, a -> a[0], CH_NOID);

									  }

									}

使用测试

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									import com.example.javademo.JavaDemoApplicationTests;

									import com.example.javademo.pojo.Student;

									import com.example.javademo.utils.DataUtils;

									import org.junit.Test;

									import java.math.BigDecimal;

									import java.util.stream.Collectors;

									public class TestBigDecimal extends JavaDemoApplicationTests {

									  @Test

									  public void testGroupByAfterBigdecimal(){

									    /*

									    自定义实现对分组后的集合，属性为bigdecmal进行相加

									     */

									    System.out.println(DataUtils.getData().stream().collect(Collectors.groupingBy(Student::getSchool,CollectorsUtil.summingBigDecimal(Student::getMoney))));

									    //归约造作

									    BigDecimal reduce = DataUtils.getData().stream().map(Student::getMoney).reduce(BigDecimal.ZERO, BigDecimal::add);

									    System.out.println(reduce);

									    int sum = DataUtils.getData().stream().mapToInt(Student::getAge).sum();

									    System.out.println(sum);

									  }

									}