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Understanding the Varargs mechanism in Java

黄舟
Release: 2017-02-23 10:23:36
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J2SE 1.5 provides the "Varargs" mechanism. With this mechanism, you can define formal parameters that can match multiple actual parameters. Thus, a variable number of actual parameters can be passed in a simpler way. This article introduces how to use this mechanism, as well as several issues when this mechanism interacts with arrays, generics, and overloading.

Until J2SE 1.4, it has been impossible to define a method with a variable number of actual parameters in a Java program - because Java requires that the number and type of actual parameters (Arguments) and formal parameters (Parameters) must match one by one. , and the number of formal parameters is fixed when the method is defined. Although it is possible to provide versions with different numbers of formal parameters for the same method through the overloading mechanism, this still cannot achieve the purpose of allowing the actual parameter quantities to change arbitrarily.

However, the semantics of some methods require that they must be able to accept a variable number of actual parameters - for example, the famous main method needs to be able to accept all command line parameters as actual parameters, and the command line parameters The number cannot be determined in advance.

For this problem, traditionally the approach of "using an array to wrap the actual parameters to be passed" is used to deal with this problem.

Wrap actual parameters with arrays

The method of "wrapping actual parameters with arrays" can be divided into three steps: first, define an array parameter for this method; then When calling, generate an array containing all the actual parameters to be passed; finally, pass this array as an actual parameter.

This approach can effectively achieve the purpose of "allowing the method to accept a variable number of parameters", but the form of the call is not simple enough.

J2SE 1.5 provides the Varargs mechanism, allowing you to directly define formal parameters that can match multiple actual parameters. Thus, a variable number of actual parameters can be passed in a simpler way.

The meaning of Varargs

Generally speaking, "Varargs" means "variable number of arguments". Sometimes it is simply called "variable arguments", but because this term does not explain what is variable, the meaning is a little vague.

The method of defining a variable number of actual parameters

Just add three consecutive "" between the "type" and "parameter name" of a formal parameter ." (that is, "...", the ellipsis in the sentence in English), you can match it with an uncertain number of actual parameters. A method with such formal parameters is a method with a variable number of actual parameters.

Listing 1: A method with a variable number of actual parameters

private static int sumUp(int... values) {    
}
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Note that only the last formal parameter can be defined Becomes "able to match an uncertain number of actual parameters". Therefore, there can only be one such parameter in a method. In addition, if this method has other formal parameters, put them in the front position.

The compiler will secretly convert this last formal parameter into an array parameter, and put a mark in the compiled class file to indicate that this is a method with a variable number of actual parameters.

Listing 2: The secret form of a method with a variable number of actual parameters

private static int sumUp(int[] values) {    
}
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Because there is such a transformation, so You can no longer define a method for this class with the same signature as the converted method.

Listing 3: Combinations that will cause compilation errors

private static int sumUp(int... values) {   
}   

private static int sumUp(int[] values) {   
}
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The survival problem of whitespace

According to J2SE 1.5 syntax, the whitespace character before "..." is optional. In this way, there are two ways of writing: adding blank characters in front of "..." (formed as "Object... args") and not adding blank characters in front of "..." (formed as "Object... args"). Because the Java Code Conventions that are currently compatible with J2SE 1.5 have not been officially released, it is impossible to know which writing method is more orthodox. However, considering that array parameters can also be written in two ways: "Object [] args" and "Object[] args", and the orthodox way of writing is not to add blank characters before "[]", it seems to use "Object... args" without white space. "The way of writing is more coordinated overall.

Call a method with a variable number of actual parameters

As long as you write the actual parameters to be passed to the corresponding positions one by one, you can call a method with a variable number of actual parameters. mutable methods. No other steps are required.

Listing 4: Several actual parameters can be passed

sumUp(1, 3, 5, 7);
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Behind the scenes, the compiler will convert this calling process For the form of "wrapping actual parameters with an array":

Listing 5: Sneaky array creation

sumUp(new int[]{1, 2, 3, 4});
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In addition, here The "uncertain number" also includes zero, so such a call is reasonable:

Listing 6: You can also pass zero actual parameters

sumUp(); 

这种调用方法被编译器秘密转化之后的效果,则等同于这样:
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Listing 7: Zero actual parameters correspond to empty array

sumUp(new int[]{});
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Note that an empty array is passed at this time , rather than null. In this way, it can be handled in a unified form without having to detect which situation it belongs to.

4. 处理个数可变的实参

处理个数可变的实参的办法,和处理数组实参的办法基本相同。所有的实参,都被保存到一个和形参同名的数组里。根据实际的需要,把这个数组里的元素读出之后,要蒸要煮,就可以随意了。

清单8:处理收到的实参们

private static int sumUp(int... values) {   
    int sum = 0;   
    for (int i = 0; i < values.length; i++) {   
        sum += values[i];   
    }   
    return sum;   
}
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5. 转发个数可变的实参

有时候,在接受了一组个数可变的实参之后,还要把它们传递给另一个实参个数可变的方法。因为编码时无法知道接受来的这一组实参的数目,所以“把它们 逐一写到该出现的位置上去”的做法并不可行。不过,这并不意味着这是个不可完成的任务,因为还有另外一种办法,可以用来调用实参个数可变的方法。

在J2SE 1.5的编译器的眼中,实参个数可变的方法是最后带了一个数组形参的方法的特例。因此,事先把整组要传递的实参放到一个数组里,然后把这个数组作为最后一个实参,传递给一个实参个数可变的方法,不会造成任何错误。借助这一特性,就可以顺利的完成转发了。

清单9:转发收到的实参们

public class PrintfSample {   

    public static void main(String[] args) {   
        // 打印出“Pi:3.141593 E:2.718282”   
        printOut("Pi:%f E:%f/n", Math.PI, Math.E);   
    }   

    private static void printOut(String format, Object... args) {   
        // J2SE 1.5里PrintStream新增的printf(String format, Object... args)方法   
        System.out.printf(format, args);   
    }   
}
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Java里的“printf”和“sprintf”

C语言里的printf(按一定的格式输出字符串)和sprintf(按一定的格式组合字符串)是十分经典的使用Varargs机制的例子。在 J2SE 1.5中,也分别在java.io.PrintStream类和java.lang.String类中提供了类似的功能。

按一定的格式输出字符串的功能,可以通过调用PrintStream对象的printf(String format, Object… args)方法来实现。

按一定的格式组合字符串的工作,则可以通过调用String类的String format(String format, Object… args)静态方法来进行。

6. 是数组?不是数组?

尽管在背地里,编译器会把能匹配不确定个实参的形参,转化为数组形参;而且也可以用数组包了实参,再传递给实参个数可变的方法;但是,这并不表示“能匹配不确定个实参的形参”和“数组形参”完全没有差异。

一个明显的差异是,如果按照调用实参个数可变的方法的形式,来调用一个最后一个形参是数组形参的方法,只会导致一个“cannot be applied to”的编译错误。

清单10:一个“cannot be applied to”的编译错误

private static void testOverloading(int[] i) {   
    System.out.println("A");   
}   

public static void main(String[] args) {   
    testOverloading(1, 2, 3);// 编译出错   
}
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由于这一原因,不能在调用只支持用数组包裹实参的方法的时候(例如在不是专门为J2SE 1.5设计第三方类库中遗留的那些),直接采用这种简明的调用方式。

如果不能修改原来的类,为要调用的方法增加参数个数可变的版本,而又想采用这种简明的调用方式,那么可以借助“引入外加函数(Introduce Foreign Method)”和“引入本地扩展(Intoduce Local Extension)”的重构手法来近似的达到目的。

7. 当个数可变的实参遇到泛型

J2SE 1.5中新增了“泛型”的机制,可以在一定条件下把一个类型参数化。例如,可以在编写一个类的时候,把一个方法的形参的类型用一个标识符(如T)来代表, 至于这个标识符到底表示什么类型,则在生成这个类的实例的时候再行指定。这一机制可以用来提供更充分的代码重用和更严格的编译时类型检查。

不过泛型机制却不能和个数可变的形参配合使用。如果把一个能和不确定个实参相匹配的形参的类型,用一个标识符来代表,那么编译器会给出一个“generic array creation”的错误。

清单11:当Varargs遇上泛型

private static <T> void testVarargs(T... args) {   
    // 编译出错   
}
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造成这个现象的原因在于J2SE 1.5中的泛型机制的一个内在约束——不能拿用标识符来代表的类型来创建这一类型的实例。在出现支持没有了这个约束的Java版本之前,对于这个问题,基本没有太好的解决办法。

不过,传统的“用数组包裹”的做法,并不受这个约束的限制。

清单12:可以编译的变通做法

private static <T> void testVarargs(T[] args) {   
    for (int i = 0; i < args.length; i++) {   
        System.out.println(args[i]);   
    }   
}
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8. 重载中的选择问题

Java支持“重载”的机制,允许在同一个类拥有许多只有形参列表不同的方法。然后,由编译器根据调用时的实参来选择到底要执行哪一个方法。

传统上的选择,基本是依照“特殊者优先”的原则来进行。一个方法的特殊程度,取决于为了让它顺利运行而需要满足的条件的数目,需要条件越多的越特殊。

在引入Varargs机制之后,这一原则仍然适用,只是要考虑的问题丰富了一些——传统上,一个重载方法的各个版本之中,只有形参数量与实参数量正 好一致的那些有被进一步考虑的资格。但是Varargs机制引入之后,完全可以出现两个版本都能匹配,在其它方面也别无二致,只是一个实参个数固定,而一 个实参个数可变的情况。

遇到这种情况时,所用的判定规则是“实参个数固定的版本优先于实参个数可变的版本”。

清单13:实参个数固定的版本优先

public class OverloadingSampleA {   

    public static void main(String[] args) {   
        testOverloading(1);// 打印出A   
        testOverloading(1, 2);// 打印出B   
        testOverloading(1, 2, 3);// 打印出C   
    }   

    private static void testOverloading(int i) {   
        System.out.println("A");   
    }   

    private static void testOverloading(int i, int j) {   
        System.out.println("B");   
    }   

    private static void testOverloading(int i, int... more) {   
        System.out.println("C");   
    }   
}
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如果在编译器看来,同时有多个方法具有相同的优先权,它就会陷入无法就到底调用哪个方法作出一个选择的状态。在这样的时候,它就会产生一个 “reference to 被调用的方法名 is ambiguous”的编译错误,并耐心的等候作了一些修改,足以免除它的迷惑的新源代码的到来。

在引入了Varargs机制之后,这种可能导致迷惑的情况,又增加了一些。例如现在可能会有两个版本都能匹配,在其它方面也如出一辙,而且都是实参个数可变的冲突发生。

清单14:左右都不是,为难了编译器

public class OverloadingSampleB {   

    public static void main(String[] args) {   
        testOverloading(1, 2, 3);// 编译出错   
    }   

    private static void testOverloading(Object... args) {   
    }   

    private static void testOverloading(Object o, Object... args) {   
    }   
}
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另外,因为J2SE 1.5中有“Autoboxing/Auto-Unboxing”机制的存在,所以还可能发生两个版本都能匹配,而且都是实参个数可变,其它方面也一模一样,只是一个能接受的实参是基本类型,而另一个能接受的实参是包裹类的冲突发生。

清单15:Autoboxing/Auto-Unboxing带来的新问题

public class OverloadingSampleC {   

    public static void main(String[] args) { /* 编译出错 */  
        testOverloading(1, 2); /* 还是编译出错 */  
        testOverloading(new Integer(1), new Integer(2));   
    }   

    private static void testOverloading(int... args) {   
    }   

    private static void testOverloading(Integer... args) {   
    }   
}
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9. 归纳总结

和“用数组包裹”的做法相比,真正的实参个数可变的方法,在调用时传递参数的操作更为简单,含义也更为清楚。不过,这一机制也有它自身的局限,并不是一个完美无缺的解决方案。

 以上就是Java 中 Varargs 机制的理解 的内容,更多相关内容请关注PHP中文网(www.php.cn)!

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