在java裡,我們是怎麼寫for迴圈的程式碼呢。下面是小編為大家帶來的關於java增強for迴圈的原理驗證的知識,歡迎閱讀。
java增強for迴圈的原理驗證第一種:最傳統的for迴圈寫法,for(程式碼段a;程式碼段b;程式碼段c),其中程式碼段a是初次進入for迴圈時執行的程式碼,程式碼段b是一個boolean的表示式,true則繼續執行for迴圈內容,false則停止for迴圈,程式碼段c則是在for迴圈內部執行完後執行。
第二種:針對集合的遍歷,for(型別 單個物件:集合物件)。第二種即是增強for迴圈。
本文的目的就是講解增強for迴圈的原理。先看我的測試用例:
jdk版本:1.7.0_51
java 用例程式碼:
package ;
import ys;
import ator;
import ;
/**
* 增強for迴圈編譯測試
* Created by cd_huang on 2017/4/14.
*/
public class ForeachTest {
public static void superForeachTestArray(){
String[] args =new String[]{"1","2"};
for(String s:args) {
tln(s);
}
}
public static void foreachTestArray(){
String[] args =new String[]{"1","2"};
String[] args2 = args;
int len = th;
for(int i = 0; i < len; ++i) {
String s= args2[i];
tln(s);
}
}
public static void superForeachTestIterator(){
List list = st(new String[]{"1","2"});
for(String s:list) {
tln(s);
}
}
public static void foreachTestIterator(){
List list = st(new String[]{"1","2"});
Iterator it = ator();
while(ext()) {
String s = (String)();
tln(s);
}
}
}
命令列輸入:C:Usershcd>javac c:
生成s檔案。
命令列輸入:C:Usershcd>javap -v c:s
生成java編譯後的位元組碼指令。
Classfile /c:/s
Last modified 2017-4-14; size 1307 bytes
MD5 checksum 5296942b41a468b4fa1f88e3123db02f
Compiled from ""
public class achTest
SourceFile: ""
minor version: 0
major version: 51
flags: ACC_PUBLIC, ACC_SUPER
Constant pool:
#1 = Methodref #13.#28 // java/lang/Object."":()V
#2 = Class #29 // java/lang/String
#3 = String #30 // 1
#4 = String #31 // 2
#5 = Fieldref #32.#33 // java/lang/:Ljava/io/PrintStream;
#6 = Methodref #34.#35 // java/io/tln:(Ljava/lang/String;)V
#7 = Methodref #36.#37 // java/util/st:([Ljava/lang/Object;)Ljava/util/List;
#8 = InterfaceMethodref #38.#39 // java/util/ator:()Ljava/util/Iterator;
#9 = InterfaceMethodref #40.#41 // java/util/ext:()Z
#10 = InterfaceMethodref #40.#42 // java/util/:()Ljava/lang/Object;
#11 = InterfaceMethodref #38.#39 // java/util/ator:()Ljava/util/Iterator;
#12 = Class #43 // com/onlyou/olyfinance/supply/web/ForeachTest
#13 = Class #44 // java/lang/Object
#14 = Utf8
#15 = Utf8 ()V
#16 = Utf8 Code
#17 = Utf8 LineNumberTable
#18 = Utf8 superForeachTestArray
#19 = Utf8 StackMapTable
#20 = Class #45 // "[Ljava/lang/String;"
#21 = Utf8 foreachTestArray
#22 = Utf8 superForeachTestIterator
#23 = Class #46 // java/util/List
#24 = Class #47 // java/util/Iterator
#25 = Utf8 foreachTestIterator
#26 = Utf8 SourceFile
#27 = Utf8
#28 = NameAndType #14:#15 // "":()V
#29 = Utf8 java/lang/String
#30 = Utf8 1
#31 = Utf8 2
#32 = Class #48 // java/lang/System
#33 = NameAndType #49:#50 // out:Ljava/io/PrintStream;
#34 = Class #51 // java/io/PrintStream
#35 = NameAndType #52:#53 // println:(Ljava/lang/String;)V
#36 = Class #54 // java/util/Arrays
#37 = NameAndType #55:#56 // asList:([Ljava/lang/Object;)Ljava/util/List;
#38 = Class #46 // java/util/List
#39 = NameAndType #57:#58 // iterator:()Ljava/util/Iterator;
#40 = Class #47 // java/util/Iterator
#41 = NameAndType #59:#60 // hasNext:()Z
#42 = NameAndType #61:#62 // next:()Ljava/lang/Object;
#43 = Utf8 com/onlyou/olyfinance/supply/web/ForeachTest
#44 = Utf8 java/lang/Object
#45 = Utf8 [Ljava/lang/String;
#46 = Utf8 java/util/List
#47 = Utf8 java/util/Iterator
#48 = Utf8 java/lang/System
#49 = Utf8 out
#50 = Utf8 Ljava/io/PrintStream;
#51 = Utf8 java/io/PrintStream
#52 = Utf8 println
#53 = Utf8 (Ljava/lang/String;)V
#54 = Utf8 java/util/Arrays
#55 = Utf8 asList
#56 = Utf8 ([Ljava/lang/Object;)Ljava/util/List;
#57 = Utf8 iterator
#58 = Utf8 ()Ljava/util/Iterator;
#59 = Utf8 hasNext
#60 = Utf8 ()Z
#61 = Utf8 next
#62 = Utf8 ()Ljava/lang/Object;
{
public achTest();
flags: ACC_PUBLIC
Code:
stack=1, locals=1, args_size=1
0: aload_0
1: invokespecial #1 // Method java/lang/Object."":()V
4: return
LineNumberTable:
line 11: 0
public static void superForeachTestArray();
flags: ACC_PUBLIC, ACC_STATIC
Code:
stack=4, locals=5, args_size=0
0: iconst_2
1: anewarray #2 // class java/lang/String
4: dup
5: iconst_0
6: ldc #3 // String 1
8: aastore
9: dup
10: iconst_1
11: ldc #4 // String 2
13: aastore
14: astore_0
15: aload_0
16: astore_1
17: aload_1
18: arraylength
19: istore_2
20: iconst_0
21: istore_3
22: iload_3
23: iload_2
24: if_icmpge 46
27: aload_1
28: iload_3
29: aaload
30: astore 4
32: getstatic #5 // Field java/lang/:Ljava/io/PrintStream;
35: aload 4
37: invokevirtual #6 // Method java/io/tln:(Ljava/lang/String;)V
40: iinc 3, 1
43: goto 22
46: return
LineNumberTable:
line 14: 0
line 15: 15
line 16: 32
line 15: 40
line 18: 46
StackMapTable: number_of_entries = 2
frame_type = 255 /* full_frame */
offset_delta = 22
locals = [ class "[Ljava/lang/String;", class "[Ljava/lang/String;", int, int ]
stack = []
frame_type = 248 /* chop */
offset_delta = 23
public static void foreachTestArray();
flags: ACC_PUBLIC, ACC_STATIC
Code:
stack=4, locals=5, args_size=0
0: iconst_2
1: anewarray #2 // class java/lang/String
4: dup
5: iconst_0
6: ldc #3 // String 1
8: aastore
9: dup
10: iconst_1
11: ldc #4 // String 2
13: aastore
14: astore_0
15: aload_0
16: astore_1
17: aload_0
18: arraylength
19: istore_2
20: iconst_0
21: istore_3
22: iload_3
23: iload_2
24: if_icmpge 46
27: aload_1
28: iload_3
29: aaload
30: astore 4
32: getstatic #5 // Field java/lang/:Ljava/io/PrintStream;
35: aload 4
37: invokevirtual #6 // Method java/io/tln:(Ljava/lang/String;)V
40: iinc 3, 1
43: goto 22
46: return
LineNumberTable:
line 21: 0
line 22: 15
line 23: 17
line 24: 20
line 25: 27
line 26: 32
line 24: 40
line 28: 46
StackMapTable: number_of_entries = 2
frame_type = 255 /* full_frame */
offset_delta = 22
locals = [ class "[Ljava/lang/String;", class "[Ljava/lang/String;", int, int ]
stack = []
frame_type = 250 /* chop */
offset_delta = 23
public static void superForeachTestIterator();
flags: ACC_PUBLIC, ACC_STATIC
Code:
stack=4, locals=3, args_size=0
0: iconst_2
1: anewarray #2 // class java/lang/String
4: dup
5: iconst_0
6: ldc #3 // String 1
8: aastore
9: dup
10: iconst_1
11: ldc #4 // String 2
13: aastore
14: invokestatic #7 // Method java/util/st:([Ljava/lang/Object;)Ljava/util/List;
17: astore_0
18: aload_0
19: invokeinterface #8, 1 // InterfaceMethod java/util/ator:()Ljava/util/Iterator;
24: astore_1
25: aload_1
26: invokeinterface #9, 1 // InterfaceMethod java/util/ext:()Z
31: ifeq 54
34: aload_1
35: invokeinterface #10, 1 // InterfaceMethod java/util/:()Ljava/lang/Object;
40: checkcast #2 // class java/lang/String
43: astore_2
44: getstatic #5 // Field java/lang/:Ljava/io/PrintStream;
47: aload_2
48: invokevirtual #6 // Method java/io/tln:(Ljava/lang/String;)V
51: goto 25
54: return
LineNumberTable:
line 31: 0
line 32: 18
line 33: 44
line 34: 51
line 35: 54
StackMapTable: number_of_entries = 2
frame_type = 253 /* append */
offset_delta = 25
locals = [ class java/util/List, class java/util/Iterator ]
frame_type = 250 /* chop */
offset_delta = 28
public static void foreachTestIterator();
flags: ACC_PUBLIC, ACC_STATIC
Code:
stack=4, locals=3, args_size=0
0: iconst_2
1: anewarray #2 // class java/lang/String
4: dup
5: iconst_0
6: ldc #3 // String 1
8: aastore
9: dup
10: iconst_1
11: ldc #4 // String 2
13: aastore
14: invokestatic #7 // Method java/util/st:([Ljava/lang/Object;)Ljava/util/List;
17: astore_0
18: aload_0
19: invokeinterface #11, 1 // InterfaceMethod java/util/ator:()Ljava/util/Iterator;
24: astore_1
25: aload_1
26: invokeinterface #9, 1 // InterfaceMethod java/util/ext:()Z
31: ifeq 54
34: aload_1
35: invokeinterface #10, 1 // InterfaceMethod java/util/:()Ljava/lang/Object;
40: checkcast #2 // class java/lang/String
43: astore_2
44: getstatic #5 // Field java/lang/:Ljava/io/PrintStream;
47: aload_2
48: invokevirtual #6 // Method java/io/tln:(Ljava/lang/String;)V
51: goto 25
54: return
LineNumberTable:
line 38: 0
line 39: 18
line 40: 25
line 41: 34
line 42: 44
line 43: 51
line 44: 54
StackMapTable: number_of_entries = 2
frame_type = 253 /* append */
offset_delta = 25
locals = [ class java/util/List, class java/util/Iterator ]
frame_type = 28 /* same */
}
上面的是java程式碼編譯過後的二進位制指令。不過單單看這個肯定是不夠的。需要對java的執行時記憶體模型有一定的瞭解,明白棧幀,運算元棧,區域性變量表,常量池這些東西的'概念,才能理解在執行這些指令時,對應的東西里會產生什麼變化。當然,要理解我說的增強for迴圈原理,並不需要看懂這些指令。認真觀察上面的二進位制指令,superForeachTestArray()方法編譯後的指令,即第86行到121行,和foreachTestArray() 方法編譯後的指令,即第137行到172行,兩個方法編譯後的指令是一樣的。
superForeachTestIterator()方法編譯後的指令,即第191行到222行,和foreachTestIterator() 方法編譯後的指令,即第237行到268行,兩個方法編譯後的指令是一樣的。
這說明什麼問題?說明了增強for迴圈是一個編譯前的概念,在編譯後編譯器會對程式碼進行優化。有兩種物件支援增強for迴圈:一種是陣列,編譯器對陣列的優化只是寫法上的優化,即superForeachTestArray()方法內的增強for迴圈在編譯後會變成foreachTestArray() 方法裡for迴圈的程式碼。一種是實現了Iterable介面的物件,對於這種,其實質是拿到物件的迭代器進行遍歷,即superForeachTestIterator()方法內的增強for迴圈在編譯後會變成foreachTestIterator() 方法內的迭代器遍歷。迭代器遍歷的好處是安全,且它是對遍歷的一種抽象,有種解耦的意味在裡面。