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Guava字符串处理Joiner源码分析

Guava

Joiner的使用以及实现原理 作用

  1. 和并字符串的作用,还可以去掉null的值哦
  2. Joining together a sequence of strings with a separator can be unnecessarily tricky – but it shouldn’t be. If your sequence contains nulls, it can be even harder.(连接字符串,但是去掉Null有点麻烦哦)
例子 简单的使用
/** * @method: skipNulls * @means: 去调为Null的连接 */ Joiner joiner = Joiner.on("; ").skipNulls(); String joinStr = joiner.join("Harry", null, "Ron", "Hermione"); //return info:Harry; Ron; Hermione System.out.println(joinStr); String listStr =Joiner.on(",").join(Arrays.asList(1, 5, 7)); //return info:"1,5,7" System.out.println(listStr);

构造函数
public static Joiner on(String separator) { return new Joiner(separator); }

on:以什么为分隔符
Joiner joiner = Joiner.on("; ")

join加入各种数据类型
  • 连接字符的方式很多,可以是数组,可以是实现了Iterable接口或者Iterator接口
    数组->List
public final String join(Object[] parts) { return join(Arrays.asList(parts)); }

数组——>list(Iterable 实现了的)
public final String join(@Nullable Object first, @Nullable Object second, Object... rest) { //iterable转换为List数组,但是没有进行空间的复制 return join(iterable(first, second, rest)); }//这个是继承JDK的抽象List新创建一个list匿名类,没有进行数据复制操作! private static Iterable iterable( final Object first, final Object second, final Object[] rest) { checkNotNull(rest); return new AbstractList() { @Override public int size() { return rest.length + 2; } @Override public Object get(int index) { switch (index) { case 0: return first; case 1: return second; default: return rest[index - 2]; } } };
List->Iterable接口(可以forEach…)
public final String join(Iterable< ?> parts) { return join(parts.iterator()); }

Iterable调用->Iterator接口(Iterator是Iterable接口的一个成员变量)
public final String join(Iterator< ?> parts) { return appendTo(new StringBuilder(), parts).toString(); }

然后调用appendTo成员变量进行处理。
之前的处理的都是为了各种类型的数据而进行的构造相互之间调用,和设置分隔符on方法
private final String separator,这个是唯一的一个成员变量的信息。appendTo方法处理将所有的字符串按照给定的格式进行处理。append也是一样的有各种类型的append方法将各种类型的数据进行转换,因为这个要被子类进行覆盖处理哦,这样就可以不要Null的或者处理map等等。
appendTo
  • 字段类型的可变参数
public final StringBuilder appendTo( StringBuilder builder, @Nullable Object first, @Nullable Object second, Object... rest) { return appendTo(builder, iterable(first, second, rest)); }

  • 可以forEach的集合,实现了Iterable接口信息
public final StringBuilder appendTo(StringBuilder builder, Iterable parts) { return appendTo(builder, parts.iterator()); }

  • 迭代器接口.Stringbuffer是Appendable的实现类
public final StringBuilder appendTo(StringBuilder builder, Iterator parts) { try { appendTo((Appendable) builder, parts); } catch (IOException impossible) { throw new AssertionError(impossible); } return builder; }

  • 最终处理的信息哦,这里被覆盖了就可以随便的操作要不要null,看到这里有处理分隔符,有遍历Iterator的集合的信息哦。这里就是最远上的处理
publicA appendTo(A appendable, Iterator parts) throws IOException { checkNotNull(appendable); if (parts.hasNext()) { appendable.append(toString(parts.next())); while (parts.hasNext()) { appendable.append(separator); appendable.append(toString(parts.next())); } } return appendable; } //不能为null CharSequence toString(Object part) { checkNotNull(part); // checkNotNull for GWT (do not optimize). return (part instanceof CharSequence) ? (CharSequence) part : part.toString(); }

各种继承的Joniner,处理原始的全部处理的Joiner之外还有三种Jonier 匿名类好像Guava非常喜欢使用这个东西,特别是在方法之中使用这个玩意
private Joiner(Joiner prototype) { this.separator = prototype.separator; }

public Joiner skipNulls(); 实现匿名类返回覆盖父类的方法,过滤掉为Null的
public Joiner skipNulls() { return new Joiner(this) { @Override //覆盖最后的一个实现,其他都一样的! publicA appendTo(A appendable, Iterator< ?> parts) throws IOException { checkNotNull(appendable, "appendable"); checkNotNull(parts, "parts"); //两次遍历的意义就是,找到第一个null之后再去添加分隔符 while (parts.hasNext()) { Object part = parts.next(); if (part != null) { appendable.append(Joiner.this.toString(part)); break; } } while (parts.hasNext()) { Object part = parts.next(); if (part != null) { appendable.append(separator); appendable.append(Joiner.this.toString(part)); } } return appendable; } //返回一种类型的Joiner不能再使用第二种类型的了 @Override public Joiner useForNull(String nullText) { throw new UnsupportedOperationException("already specified skipNulls"); }@Override public MapJoiner withKeyValueSeparator(String kvs) { throw new UnsupportedOperationException("can't use .skipNulls() with maps"); } }; }

public Joiner useForNull(final String nullText) 将为null的值替换为当前值
这个其实就是覆盖toString哈哈,使用一种之后能在使用其他的了
public Joiner useForNull(final String nullText) { checkNotNull(nullText); return new Joiner(this) { @Override CharSequence toString(@Nullable Object part) { return (part == null) ? nullText : Joiner.this.toString(part); } @Override public Joiner useForNull(String nullText) { throw new UnsupportedOperationException("already specified useForNull"); }@Override public Joiner skipNulls() { throw new UnsupportedOperationException("already specified useForNull"); } }; }

最后一种是处理map中的数据MapJoiner
【Guava字符串处理Joiner源码分析】例子:这个我们估计经常会使用这种的样子的字符串
name=doctor,sex=man这种数据估计可以经常看到吧!
Map map = Maps.newLinkedHashMap(); map.put("name", "doctor"); map.put("sex", "man"); /** * @method: withKeyValueSeparator * @means:将key使用什么分割 * date: 2017/4/7 * author: wangji */ String join = Joiner.on(",").withKeyValueSeparator("=").join(map); //return info: name=doctor,sex=man System.out.println(join);

MapJoiner没有进行继承,而是使用了组合模式,因为加入数据的方式变化了,不会可能是List之类的数据只能是Entry数组,或者Map接口,所以join变化了,但是append几乎还是以前的数据信息,进行简单的变化,处理数据的时候使用代理使用原来的那个joiner的方法,比如这里还可以将Null的值替换呢,就是使用了joiner.useForNull(nullText)
public static final class MapJoiner { private final Joiner joiner; private final String keyValueSeparator; private MapJoiner(Joiner joiner, String keyValueSeparator) { this.joiner = joiner; // only "this" is ever passed, so don't checkNotNull this.keyValueSeparator = checkNotNull(keyValueSeparator); }publicA appendTo(A appendable, Map map) throws IOException { return appendTo(appendable, map.entrySet()); }public StringBuilder appendTo(StringBuilder builder, Map map) { return appendTo(builder, map.entrySet()); }public String join(Map map) { return join(map.entrySet()); }publicA appendTo(A appendable, Iterable> entries) throws IOException { return appendTo(appendable, entries.iterator()); }publicA appendTo(A appendable, Iterator> parts) throws IOException { checkNotNull(appendable); if (parts.hasNext()) { Entry entry = parts.next(); //这里处理了两个分割符,一个来自外围的代理,一个是map的key的分割。 appendable.append(joiner.toString(entry.getKey())); appendable.append(keyValueSeparator); appendable.append(joiner.toString(entry.getValue())); while (parts.hasNext()) { appendable.append(joiner.separator); Entry e = parts.next(); appendable.append(joiner.toString(e.getKey())); appendable.append(keyValueSeparator); appendable.append(joiner.toString(e.getValue())); } } return appendable; } public StringBuilder appendTo(StringBuilder builder, Iterator> entries) { try { appendTo((Appendable) builder, entries); } catch (IOException impossible) { throw new AssertionError(impossible); } return builder; }public String join(Iterable> entries) { return join(entries.iterator()); }public String join(Iterator> entries) { return appendTo(new StringBuilder(), entries).toString(); } //将NULL的值进行替换掉处理! public MapJoiner useForNull(String nullText) { return new MapJoiner(joiner.useForNull(nullText), keyValueSeparator); } }

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