try-catch 深入理解
try-catch 深入理解
下面看一个例子(例1),来讲解java里面中try、catch、finally的处理流程
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public class TryCatchFinally { @SuppressWarnings ( "finally" ) public static final String test() { String t = "" ; try { t = "try" ; return t; } catch (Exception e) { // result = "catch"; t = "catch" ; return t; } finally { t = "finally" ; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } } |
首先程序执行try语句块,把变量t赋值为try,由于没有发现异常,接下来执行finally语句块,把变量t赋值为finally,然后return t,则t的值是finally,最后t的值就是finally,程序结果应该显示finally,但是实际结果为try。为什么会这样,我们不妨先看看这段代码编译出来的class对应的字节码,看虚拟机内部是如何执行的。
我们用javap -verbose TryCatchFinally 来显示目标文件(.class文件)字节码信息
系统运行环境:mac os lion系统 64bit
jdk信息:Java(TM) SE Runtime Environment (build 1.6.0_29-b11-402-11M3527) Java HotSpot(TM) 64-Bit Server VM (build 20.4-b02-402, mixed mode)
编译出来的字节码部分信息,我们只看test方法,其他的先忽略掉
public static final java.lang.String test(); Code: Stack=1, Locals=4, Args_size=0 0: ldc #16; //String 2: astore_0 3: ldc #18; //String try 5: astore_0 6: aload_0 7: astore_3 8: ldc #20; //String finally 10: astore_0 11: aload_3 12: areturn 13: astore_1 14: ldc #22; //String catch 16: astore_0 17: aload_0 18: astore_3 19: ldc #20; //String finally 21: astore_0 22: aload_3 23: areturn 24: astore_2 25: ldc #20; //String finally 27: astore_0 28: aload_2 29: athrow Exception table: from to target type 3 8 13 Class java/lang/Exception 3 8 24 any 13 19 24 any LineNumberTable: line 5: 0 line 8: 3 line 9: 6 line 15: 8 line 9: 11 line 10: 13 line 12: 14 line 13: 17 line 15: 19 line 13: 22 line 14: 24 line 15: 25 line 16: 28 LocalVariableTable: Start Length Slot Name Signature 3 27 0 t Ljava/lang/String; 14 10 1 e Ljava/lang/Exception; StackMapTable: number_of_entries = 2 frame_type = 255 /* full_frame */ offset_delta = 13 locals = [ class java/lang/String ] stack = [ class java/lang/Exception ] frame_type = 74 /* same_locals_1_stack_item */ stack = [ class java/lang/Throwable ]
首先看LocalVariableTable信息,这里面定义了两个变量 一个是t String类型,一个是e Exception 类型
接下来看Code部分
第[0-2]行,给第0个变量赋值“”,也就是String t="";
第[3-6]行,也就是执行try语句块 赋值语句 ,也就是 t = "try";
第7行,重点是第7行,把第s对应的值"try"付给第三个变量,但是这里面第三个变量并没有定义,这个比较奇怪
第[8-10] 行,对第0个变量进行赋值操作,也就是t="finally"
第[11-12]行,把第三个变量对应的值返回
通过字节码,我们发现,在try语句的return块中,return 返回的引用变量(t 是引用类型)并不是try语句外定义的引用变量t,而是系统重新定义了一个局部引用t’,这个引用指向了引用t对应的值,也就是try ,即使在finally语句中把引用t指向了值finally,因为return的返回引用已经不是t ,所以引用t的对应的值和try语句中的返回值无关了。
下面在看一个例子:(例2)
1 public class TryCatchFinally { 2 3 @SuppressWarnings("finally") 4 public static final String test() { 5 String t = ""; 6 7 try { 8 t = "try"; 9 return t; 10 } catch (Exception e) { 11 // result = "catch"; 12 t = "catch"; 13 return t; 14 } finally { 15 t = "finally"; 16 return t; 17 } 18 } 19 20 public static void main(String[] args) { 21 System.out.print(TryCatchFinally.test()); 22 } 23 24 }
这里稍微修改了 第一段代码,只是在finally语句块里面加入了 一个 return t 的表达式。
按照第一段代码的解释,先进行try{}语句,然后在return之前把当前的t的值try保存到一个变量t',然后执行finally语句块,修改了变量t的值,在返回变量t。
这里面有两个return语句,但是程序到底返回的是try 还是 finally。接下来我们还是看字节码信息
public static final java.lang.String test(); Code: Stack=1, Locals=2, Args_size=0 0: ldc #16; //String 2: astore_0 3: ldc #18; //String try 5: astore_0 6: goto 17 9: astore_1 10: ldc #20; //String catch 12: astore_0 13: goto 17 16: pop 17: ldc #22; //String finally 19: astore_0 20: aload_0 21: areturn Exception table: from to target type 3 9 9 Class java/lang/Exception 3 16 16 any LineNumberTable: line 5: 0 line 8: 3 line 9: 6 line 10: 9 line 12: 10 line 13: 13 line 14: 16 line 15: 17 line 16: 20 LocalVariableTable: Start Length Slot Name Signature 3 19 0 t Ljava/lang/String; 10 6 1 e Ljava/lang/Exception; StackMapTable: number_of_entries = 3 frame_type = 255 /* full_frame */ offset_delta = 9 locals = [ class java/lang/String ] stack = [ class java/lang/Exception ] frame_type = 70 /* same_locals_1_stack_item */ stack = [ class java/lang/Throwable ] frame_type = 0 /* same */
这段代码翻译出来的字节码和第一段代码完全不同,还是继续看code属性
第[0-2]行、[3-5]行第一段代码逻辑类似,就是初始化t,把try中的t进行赋值try
第6行,这里面跳转到第17行,[17-19]就是执行finally里面的赋值语句,把变量t赋值为finally,然后返回t对应的值
我们发现try语句中的return语句给忽略。可能jvm认为一个方法里面有两个return语句并没有太大的意义,所以try中的return语句给忽略了,直接起作用的是finally中的return语句,所以这次返回的是finally。
接下来在看看复杂一点的例子:(例3)
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (Exception e) { t = "catch"; return t; } finally { t = "finally"; // System.out.println(t); // return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这里面try语句里面会抛出 java.lang.NumberFormatException,所以程序会先执行catch语句中的逻辑,t赋值为catch,在执行return之前,会把返回值保存到一个临时变量里面t ',执行finally的逻辑,t赋值为finally,但是返回值和t',所以变量t的值和返回值已经没有关系了,返回的是catch
例4:
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (Exception e) { t = "catch"; return t; } finally { t = "finally"; return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这个和例2有点类似,由于try语句里面抛出异常,程序转入catch语句块,catch语句在执行return语句之前执行finally,而finally语句有return,则直接执行finally的语句值,返回finally
例5:
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (Exception e) { t = "catch"; Integer.parseInt(null); return t; } finally { t = "finally"; //return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这个例子在catch语句块添加了Integer.parser(null)语句,强制抛出了一个异常。然后finally语句块里面没有return语句。继续分析一下,由于try语句抛出异常,程序进入catch语句块,catch语句块又抛出一个异常,说明catch语句要退出,则执行finally语句块,对t进行赋值。然后catch语句块里面抛出异常。结果是抛出java.lang.NumberFormatException异常
例子6:
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (Exception e) { t = "catch"; Integer.parseInt(null); return t; } finally { t = "finally"; return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这个例子和上面例子中唯一不同的是,这个例子里面finally 语句里面有return语句块。try catch中运行的逻辑和上面例子一样,当catch语句块里面抛出异常之后,进入finally语句快,然后返回t。则程序忽略catch语句块里面抛出的异常信息,直接返回t对应的值 也就是finally。方法不会抛出异常
例子7:
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (NullPointerException e) { t = "catch"; return t; } finally { t = "finally"; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这个例子里面catch语句里面catch的是NPE异常,而不是java.lang.NumberFormatException异常,所以不会进入catch语句块,直接进入finally语句块,finally对s赋值之后,由try语句抛出java.lang.NumberFormatException异常。
例子8
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try"; Integer.parseInt(null); return t; } catch (NullPointerException e) { t = "catch"; return t; } finally { t = "finally"; return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
和上面的例子中try catch的逻辑相同,try语句执行完成执行finally语句,finally赋值s 并且返回s ,最后程序结果返回finally
例子9:
public class TryCatchFinally { @SuppressWarnings("finally") public static final String test() { String t = ""; try { t = "try";return t; } catch (Exception e) { t = "catch"; return t; } finally { t = "finally"; String.valueOf(null); return t; } } public static void main(String[] args) { System.out.print(TryCatchFinally.test()); } }
这个例子中,对finally语句中添加了String.valueOf(null), 强制抛出NPE异常。首先程序执行try语句,在返回执行,执行finally语句块,finally语句抛出NPE异常,整个结果返回NPE异常。
对以上所有的例子进行总结
1 try、catch、finally语句中,在如果try语句有return语句,则返回的之后当前try中变量此时对应的值,此后对变量做任何的修改,都不影响try中return的返回值
2 如果finally块中有return 语句,则返回try或catch中的返回语句忽略。
3 如果finally块中抛出异常,则整个try、catch、finally块中抛出异常
所以使用try、catch、finally语句块中需要注意的是
1 尽量在try或者catch中使用return语句。通过finally块中达到对try或者catch返回值修改是不可行的。
2 finally块中避免使用return语句,因为finally块中如果使用return语句,会显示的消化掉try、catch块中的异常信息,屏蔽了错误的发生
3 finally块中避免再次抛出异常,否则整个包含try语句块的方法回抛出异常,并且会消化掉try、catch块中的异常
本文转自:http://www.cnblogs.com/aigongsi/archive/2012/04/19/2457735.html