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标题:JAVA编程思想(第四版)
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lampeter123
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JAVA编程思想(第四版)
TIJ4-code.zip (542.57 KB)

Java已经成为了编程语言的骄子。我们可以看到,越来越多的大学在教授数据结构、程序设计和算法分析等课程时,选择以Java语言为载体。这本<Java编程思想>赢得了全球程序员的广泛赞誉,即使是最晦涩的概念,在Bruce Eckel的文字亲和力和小而直接的编程示例面前也会化解于无形。
搜索更多相关主题的帖子: 思想 JAVA 
2010-07-31 10:10
lampeter123
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Everything Is an Object
程序代码:
//: object/ShowProperties.java

public class ShowProperties {
  public static void main(String[] args) {
    System.getProperties().list(System.out);
    System.out.println(System.getProperty("user.name"));
    System.out.println(
      System.getProperty("java.library.path"));
  }
} ///:~



//: object/HelloDate.java
import java.util.*;

/** The first Thinking in Java example program.
* Displays a string and today's date.
* @author Bruce Eckel
* @author www.* @version 4.0
*/
public class HelloDate {
  /** Entry point to class & application.
   * @param args array of string arguments
   * @throws exceptions No exceptions thrown
  */
  public static void main(String[] args) {
    System.out.println("Hello, it's: ");
    System.out.println(new Date());
  }
} /* Output: (55% match)
Hello, it's:
Wed Oct 05 14:39:36 MDT 2005
*///:~


//: object/Documentation1.java
/** A class comment */
public class Documentation1 {
  /** A field comment */
  public int i;
  /** A method comment */
  public void f() {}
} ///:~


//: object/Documentation2.java
/**
* <pre>
* System.out.println(new Date());
* </pre>
*/
public class Documentation2 {}
///:~



//: object/Documentation3.java
/**
* You can <em>even</em> insert a list:
* <ol>
* <li> Item one
* <li> Item two
* <li> Item three
* </ol>
*/
public class Documentation3 {}
///:~






[ 本帖最后由 lampeter123 于 2010-7-31 10:17 编辑 ]

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2010-07-31 10:12
lampeter123
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Operators
程序代码:
//: operators/HelloDate.java
import java.util.*;
import static net.mindview.util.Print.*;

public class HelloDate {
  public static void main(String[] args) {
    print("Hello, it's: ");
    print(new Date());
  }
} /* Output: (55% match)
Hello, it's:
Wed Oct 05 14:39:05 MDT 2005
*///:~


//: operators/Precedence.java

public class Precedence {
  public static void main(String[] args) {
    int x = 1, y = 2, z = 3;
    int a = x + y - 2/2 + z;           // (1)
    int b = x + (y - 2)/(2 + z);       // (2)
    System.out.println("a = " + a + " b = " + b);
  }
} /* Output:
a = 5 b = 1
*///:~


//: operators/Assignment.java
// Assignment with objects is a bit tricky.
import static net.mindview.util.Print.*;

class Tank {
  int level;
}    

public class Assignment {
  public static void main(String[] args) {
    Tank t1 = new Tank();
    Tank t2 = new Tank();
    t1.level = 9;
    t2.level = 47;
    print("1: t1.level: " + t1.level +
          ", t2.level: " + t2.level);
    t1 = t2;
    print("2: t1.level: " + t1.level +
          ", t2.level: " + t2.level);
    t1.level = 27;
    print("3: t1.level: " + t1.level +
          ", t2.level: " + t2.level);
  }
} /* Output:
1: t1.level: 9, t2.level: 47
2: t1.level: 47, t2.level: 47
3: t1.level: 27, t2.level: 27
*///:~



//: operators/PassObject.java
// Passing objects to methods may not be
// what you're used to.
import static net.mindview.util.Print.*;

class Letter {
  char c;
}

public class PassObject {
  static void f(Letter y) {
    y.c = 'z';
  }
  public static void main(String[] args) {
    Letter x = new Letter();
    x.c = 'a';
    print("1: x.c: " + x.c);
    f(x);
    print("2: x.c: " + x.c);
  }
} /* Output:
1: x.c: a
2: x.c: z
*///:~



//: operators/MathOps.java
// Demonstrates the mathematical operators.
import java.util.*;
import static net.mindview.util.Print.*;

public class MathOps {
  public static void main(String[] args) {
    // Create a seeded random number generator:
    Random rand = new Random(47);
    int i, j, k;
    // Choose value from 1 to 100:
    j = rand.nextInt(100) + 1;
    print("j : " + j);
    k = rand.nextInt(100) + 1;
    print("k : " + k);
    i = j + k;
    print("j + k : " + i);
    i = j - k;
    print("j - k : " + i);
    i = k / j;
    print("k / j : " + i);
    i = k * j;
    print("k * j : " + i);
    i = k % j;
    print("k % j : " + i);
    j %= k;
    print("j %= k : " + j);
    // Floating-point number tests:
    float u, v, w; // Applies to doubles, too
    v = rand.nextFloat();
    print("v : " + v);
    w = rand.nextFloat();
    print("w : " + w);
    u = v + w;
    print("v + w : " + u);
    u = v - w;
    print("v - w : " + u);
    u = v * w;
    print("v * w : " + u);
    u = v / w;
    print("v / w : " + u);
    // The following also works for char,
    // byte, short, int, long, and double:
    u += v;
    print("u += v : " + u);
    u -= v;
    print("u -= v : " + u);
    u *= v;
    print("u *= v : " + u);
    u /= v;
    print("u /= v : " + u);
  }
} /* Output:
j : 59
k : 56
j + k : 115
j - k : 3
k / j : 0
k * j : 3304
k % j : 56
j %= k : 3
v : 0.5309454
w : 0.0534122
v + w : 0.5843576
v - w : 0.47753322
v * w : 0.028358962
v / w : 9.940527
u += v : 10.471473
u -= v : 9.940527
u *= v : 5.2778773
u /= v : 9.940527
*///:~



//: operators/AutoInc.java
// Demonstrates the ++ and -- operators.
import static net.mindview.util.Print.*;

public class AutoInc {
  public static void main(String[] args) {
    int i = 1;
    print("i : " + i);
    print("++i : " + ++i); // Pre-increment
    print("i++ : " + i++); // Post-increment
    print("i : " + i);
    print("--i : " + --i); // Pre-decrement
    print("i-- : " + i--); // Post-decrement
    print("i : " + i);
  }
} /* Output:
i : 1
++i : 2
i++ : 2
i : 3
--i : 2
i-- : 2
i : 1
*///:~



//: operators/Equivalence.java

public class Equivalence {
  public static void main(String[] args) {
    Integer n1 = new Integer(47);
    Integer n2 = new Integer(47);
    System.out.println(n1 == n2);
    System.out.println(n1 != n2);
  }
} /* Output:
false
true
*///:~



//: operators/EqualsMethod.java

public class EqualsMethod {
  public static void main(String[] args) {
    Integer n1 = new Integer(47);
    Integer n2 = new Integer(47);
    System.out.println(n1.equals(n2));
  }
} /* Output:
true
*///:~



//: operators/EqualsMethod2.java
// Default equals() does not compare contents.

class Value {
  int i;
}

public class EqualsMethod2 {
  public static void main(String[] args) {
    Value v1 = new Value();
    Value v2 = new Value();
    v1.i = v2.i = 100;
    System.out.println(v1.equals(v2));
  }
} /* Output:
false
*///:~



//: operators/Bool.java
// Relational and logical operators.
import java.util.*;
import static net.mindview.util.Print.*;

public class Bool {
  public static void main(String[] args) {
    Random rand = new Random(47);
    int i = rand.nextInt(100);
    int j = rand.nextInt(100);
    print("i = " + i);
    print("j = " + j);
    print("i > j is " + (i > j));
    print("i < j is " + (i < j));
    print("i >= j is " + (i >= j));
    print("i <= j is " + (i <= j));
    print("i == j is " + (i == j));
    print("i != j is " + (i != j));
    // Treating an int as a boolean is not legal Java:
//! print("i && j is " + (i && j));
//! print("i || j is " + (i || j));
//! print("!i is " + !i);
    print("(i < 10) && (j < 10) is "
       + ((i < 10) && (j < 10)) );
    print("(i < 10) || (j < 10) is "
       + ((i < 10) || (j < 10)) );
  }
} /* Output:
i = 58
j = 55
i > j is true
i < j is false
i >= j is true
i <= j is false
i == j is false
i != j is true
(i < 10) && (j < 10) is false
(i < 10) || (j < 10) is false
*///:~



//: operators/ShortCircuit.java
// Demonstrates short-circuiting behavior
// with logical operators.
import static net.mindview.util.Print.*; 

public class ShortCircuit {
  static boolean test1(int val) {
    print("test1(" + val + ")");
    print("result: " + (val < 1));
    return val < 1;
  }
  static boolean test2(int val) {
    print("test2(" + val + ")");
    print("result: " + (val < 2));
    return val < 2;
  }
  static boolean test3(int val) {
    print("test3(" + val + ")");
    print("result: " + (val < 3));
    return val < 3;
  }
  public static void main(String[] args) {
    boolean b = test1(0) && test2(2) && test3(2);
    print("expression is " + b);
  }
} /* Output:
test1(0)
result: true
test2(2)
result: false
expression is false
*///:~


//: operators/Literals.java
import static net.mindview.util.Print.*; 

public class Literals {
  public static void main(String[] args) {
    int i1 = 0x2f; // Hexadecimal (lowercase)
    print("i1: " + Integer.toBinaryString(i1));
    int i2 = 0X2F; // Hexadecimal (uppercase)
    print("i2: " + Integer.toBinaryString(i2));
    int i3 = 0177; // Octal (leading zero)
    print("i3: " + Integer.toBinaryString(i3));
    char c = 0xffff; // max char hex value
    print("c: " + Integer.toBinaryString(c));
    byte b = 0x7f; // max byte hex value
    print("b: " + Integer.toBinaryString(b));
    short s = 0x7fff; // max short hex value
    print("s: " + Integer.toBinaryString(s));
    long n1 = 200L; // long suffix
    long n2 = 200l; // long suffix (but can be confusing)
    long n3 = 200;
    float f1 = 1;
    float f2 = 1F; // float suffix
    float f3 = 1f; // float suffix
    double d1 = 1d; // double suffix
    double d2 = 1D; // double suffix
    // (Hex and Octal also work with long)
  }
} /* Output:
i1: 101111
i2: 101111
i3: 1111111
c: 1111111111111111
b: 1111111
s: 111111111111111
*///:~


//: operators/Exponents.java
// "e" means "10 to the power."

public class Exponents {
  public static void main(String[] args) {
    // Uppercase and lowercase ‘e’ are the same:
    float expFloat = 1.39e-43f;
    expFloat = 1.39E-43f;
    System.out.println(expFloat);
    double expDouble = 47e47d; // ‘d’ is optional
    double expDouble2 = 47e47; // Automatically double
    System.out.println(expDouble); 
    System.out.println(expDouble2);
  }
} /* Output:
1.39E-43
4.7E48
4.7E48
*///:~


//: operators/URShift.java
// Test of unsigned right shift.
import static net.mindview.util.Print.*;

public class URShift {
  public static void main(String[] args) {
    int i = -1;
    print(Integer.toBinaryString(i));
    i >>>= 10;
    print(Integer.toBinaryString(i));
    long l = -1;
    print(Long.toBinaryString(l));
    l >>>= 10;
    print(Long.toBinaryString(l));
    short s = -1;
    print(Integer.toBinaryString(s));
    s >>>= 10;
    print(Integer.toBinaryString(s));
    byte b = -1;
    print(Integer.toBinaryString(b));
    b >>>= 10;
    print(Integer.toBinaryString(b));
    b = -1;
    print(Integer.toBinaryString(b));
    print(Integer.toBinaryString(b>>>10));
  }
} /* Output:
11111111111111111111111111111111
1111111111111111111111
1111111111111111111111111111111111111111111111111111111111111111
111111111111111111111111111111111111111111111111111111
11111111111111111111111111111111
11111111111111111111111111111111
11111111111111111111111111111111
11111111111111111111111111111111
11111111111111111111111111111111
1111111111111111111111
*///:~ 


 

/*
Calculate Order of short(s >>>= 10;) and byte(b >>>= 10;):
1.Change the value to int
2.Shift the int value
3.assign the result value to the variable 
*/ 




//: operators/BitManipulation.java
// Using the bitwise operators.
import java.util.*;
import static net.mindview.util.Print.*;

public class BitManipulation {
  public static void main(String[] args) {
    Random rand = new Random(47);
    int i = rand.nextInt();
    int j = rand.nextInt();
    printBinaryInt("-1", -1);
    printBinaryInt("+1", +1);
    int maxpos = 2147483647;
    printBinaryInt("maxpos", maxpos);
    int maxneg = -2147483648;
    printBinaryInt("maxneg", maxneg);
    printBinaryInt("i", i);
    printBinaryInt("~i", ~i);
    printBinaryInt("-i", -i);
    printBinaryInt("j", j);
    printBinaryInt("i & j", i & j);
    printBinaryInt("i | j", i | j);
    printBinaryInt("i ^ j", i ^ j);
    printBinaryInt("i << 5", i << 5);
    printBinaryInt("i >> 5", i >> 5);
    printBinaryInt("(~i) >> 5", (~i) >> 5);
    printBinaryInt("i >>> 5", i >>> 5);
    printBinaryInt("(~i) >>> 5", (~i) >>> 5);

    long l = rand.nextLong();
    long m = rand.nextLong();
    printBinaryLong("-1L", -1L);
    printBinaryLong("+1L", +1L);
    long ll = 9223372036854775807L;
    printBinaryLong("maxpos", ll);
    long lln = -9223372036854775808L;
    printBinaryLong("maxneg", lln);
    printBinaryLong("l", l);
    printBinaryLong("~l", ~l);
    printBinaryLong("-l", -l);
    printBinaryLong("m", m);
    printBinaryLong("l & m", l & m);
    printBinaryLong("l | m", l | m);
    printBinaryLong("l ^ m", l ^ m);
    printBinaryLong("l << 5", l << 5);
    printBinaryLong("l >> 5", l >> 5);
    printBinaryLong("(~l) >> 5", (~l) >> 5);
    printBinaryLong("l >>> 5", l >>> 5);
    printBinaryLong("(~l) >>> 5", (~l) >>> 5);
  }
  static void printBinaryInt(String s, int i) {
    print(s + ", int: " + i + ", binary:\n   " +
      Integer.toBinaryString(i));
  }
  static void printBinaryLong(String s, long l) {
    print(s + ", long: " + l + ", binary:\n    " +
      Long.toBinaryString(l));
  }
} /* Output:
-1, int: -1, binary:
   11111111111111111111111111111111
+1, int: 1, binary:
   1
maxpos, int: 2147483647, binary:
   1111111111111111111111111111111
maxneg, int: -2147483648, binary:
   10000000000000000000000000000000
i, int: -1172028779, binary:
   10111010001001000100001010010101
~i, int: 1172028778, binary:
   1000101110110111011110101101010
-i, int: 1172028779, binary:
   1000101110110111011110101101011
j, int: 1717241110, binary:
   1100110010110110000010100010110
i & j, int: 570425364, binary:
   100010000000000000000000010100
i | j, int: -25213033, binary:
   11111110011111110100011110010111
i ^ j, int: -595638397, binary:
   11011100011111110100011110000011
i << 5, int: 1149784736, binary:
   1000100100010000101001010100000
i >> 5, int: -36625900, binary:
   11111101110100010010001000010100
(~i) >> 5, int: 36625899, binary:
   10001011101101110111101011
i >>> 5, int: 97591828, binary:
   101110100010010001000010100
(~i) >>> 5, int: 36625899, binary:
   10001011101101110111101011
...
*///:~   


//: operators/TernaryIfElse.java

import static net.mindview.util.Print.*;

public class TernaryIfElse {
  static int ternary(int i) {
    return i < 10 ? i * 100 : i * 10;
  }
  static int standardIfElse(int i) {
    if(i < 10)
      return i * 100;
    else
      return i * 10;
  }
  public static void main(String[] args) {
    print(ternary(9));
    print(ternary(10));
    print(standardIfElse(9));
    print(standardIfElse(10));
  }
}
/* Output:
900
100
900
100
*///:~


//: operators/StringOperators.java
import static net.mindview.util.Print.*;

public class StringOperators {
  public static void main(String[] args) {
    int x = 0, y = 1, z = 2;
    String s = "x, y, z ";
    print(s + x + y + z);
    print(x + " " + s); // Converts x to a String
    s += "(summed) = "; // Concatenation operator
    print(s + (x + y + z));
    print("" + x); // Shorthand for Integer.toString()
  }
} /* Output:
x, y, z 012
0 x, y, z
x, y, z (summed) = 3
0
*///:~


 


//: operators/Casting.java

public class Casting {
  public static void main(String[] args) {
    int i = 200;
    long lng = (long)i;
    lng = i; // "Widening," so cast not really required
    long lng2 = (long)200;
    lng2 = 200;
    // A "narrowing conversion":
    i = (int)lng2; // Cast required
  }
} ///:~



//: operators/CastingNumbers.java
// What happens when you cast a float
// or double to an integral value?
import static net.mindview.util.Print.*;

public class CastingNumbers {
  public static void main(String[] args) {
    double above = 0.7, below = 0.4;
    float fabove = 0.7f, fbelow = 0.4f;
    print("(int)above: " + (int)above);
    print("(int)below: " + (int)below);
    print("(int)fabove: " + (int)fabove);
    print("(int)fbelow: " + (int)fbelow);
  }
} /* Output:
(int)above: 0
(int)below: 0
(int)fabove: 0
(int)fbelow: 0
*///:~    



//: operators/RoundingNumbers.java
// Rounding floats and doubles.
import static net.mindview.util.Print.*;

public class RoundingNumbers {
  public static void main(String[] args) {
    double above = 0.7, below = 0.4;
    float fabove = 0.7f, fbelow = 0.4f;
    print("Math.round(above): " + Math.round(above));
    print("Math.round(below): " + Math.round(below));
    print("Math.round(fabove): " + Math.round(fabove));
    print("Math.round(fbelow): " + Math.round(fbelow));
  }
} /* Output:
Math.round(above): 1
Math.round(below): 0
Math.round(fabove): 1
Math.round(fbelow): 0
*///:~



//: operators/Overflow.java
// Surprise! Java lets you overflow.

public class Overflow {
  public static void main(String[] args) {
    int big = Integer.MAX_VALUE;
    System.out.println("big = " + big);
    int bigger = big * 4;
    System.out.println("bigger = " + bigger);
  }
} /* Output:
big = 2147483647
bigger = -4
*///:~   



 

[ 本帖最后由 lampeter123 于 2010-7-31 10:27 编辑 ]

你的优秀和我的人生无关!!!!
    
    我要过的,是属于我自己的生活~~~
2010-07-31 10:14
lampeter123
Rank: 16Rank: 16Rank: 16Rank: 16
等 级:版主
威 望:54
帖 子:2508
专家分:6424
注 册:2009-1-30
收藏
得分:0 
Controlling Execution
程序代码:
//: control/IfElse.java
import static net.mindview.util.Print.*;

public class IfElse {
  static int result = 0;
  static void test(int testval, int target) {
    if(testval > target)
      result = +1;
    else if(testval < target)
      result = -1;
    else
      result = 0; // Match
  }
  public static void main(String[] args) {
    test(10, 5);
    print(result);
    test(5, 10);
    print(result);
    test(5, 5);
    print(result);
  }
} /* Output:
1
-1
0
*///:~



//: control/WhileTest.java
// Demonstrates the while loop.

public class WhileTest {
  static boolean condition() {
    boolean result = Math.random() < 0.99;
    System.out.print(result + ", ");
    return result;
  }
  public static void main(String[] args) {
    while(condition())
      System.out.println("Inside 'while'");
    System.out.println("Exited 'while'");
  }
} /* (Execute to see output) *///:~




//: control/ListCharacters.java
// Demonstrates "for" loop by listing
// all the lowercase ASCII letters.

public class ListCharacters {
  public static void main(String[] args) {
    for(char c = 0; c < 128; c++)
      if(Character.isLowerCase(c))
        System.out.println("value: " + (int)c +
          " character: " + c);
  }
} /* Output:
value: 97 character: a
value: 98 character: b
value: 99 character: c
value: 100 character: d
value: 101 character: e
value: 102 character: f
value: 103 character: g
value: 104 character: h
value: 105 character: i
value: 106 character: j
...
*///:~




//: control/ForEachFloat.java
import java.util.*;

public class ForEachFloat {
  public static void main(String[] args) {
    Random rand = new Random(47);
    float f[] = new float[10];
    for(int i = 0; i < 10; i++)
      f[i] = rand.nextFloat();
    for(float x : f)
      System.out.println(x);
  }
} /* Output:
0.72711575
0.39982635
0.5309454
0.0534122
0.16020656
0.57799757
0.18847865
0.4170137
0.51660204
0.73734957
*///:~




//: control/ForEachString.java

public class ForEachString {
  public static void main(String[] args) {
    for(char c : "An African Swallow".toCharArray() )
      System.out.print(c + " ");
  }
} /* Output:
A n   A f r i c a n   S w a l l o w
*///:~




//: control/ForEachInt.java
import static net.mindview.util.Range.*;
import static net.mindview.util.Print.*;

public class ForEachInt {
  public static void main(String[] args) {
    for(int i : range(10)) // 0..9
      printnb(i + " ");
    print();
    for(int i : range(5, 10)) // 5..9
      printnb(i + " ");
    print();
    for(int i : range(5, 20, 3)) // 5..20 step 3
      printnb(i + " ");
    print();
  }
} /* Output:
0 1 2 3 4 5 6 7 8 9
5 6 7 8 9
5 8 11 14 17
*///:~




//: control/IfElse2.java
import static net.mindview.util.Print.*;

public class IfElse2 {
  static int test(int testval, int target) {
    if(testval > target)
      return +1;
    else if(testval < target)
      return -1;
    else
      return 0; // Match
  }
  public static void main(String[] args) {
    print(test(10, 5));
    print(test(5, 10));
    print(test(5, 5));
  }
} /* Output:
1
-1
0
*///:~




//: control/LabeledFor.java
// For loops with "labeled break" and "labeled continue."
import static net.mindview.util.Print.*;

public class LabeledFor {
  public static void main(String[] args) {
    int i = 0;
    outer: // Can't have statements here
    for(; true ;) { // infinite loop
      inner: // Can't have statements here
      for(; i < 10; i++) {
        print("i = " + i);
        if(i == 2) {
          print("continue");
          continue;
        }
        if(i == 3) {
          print("break");
          i++; // Otherwise i never
               // gets incremented.
          break;
        }
        if(i == 7) {
          print("continue outer");
          i++; // Otherwise i never
               // gets incremented.
          continue outer;
        }
        if(i == 8) {
          print("break outer");
          break outer;
        }
        for(int k = 0; k < 5; k++) {
          if(k == 3) {
            print("continue inner");
            continue inner;
          }
        }
      }
    }
    // Can't break or continue to labels here
  }
} /* Output:
i = 0
continue inner
i = 1
continue inner
i = 2
continue
i = 3
break
i = 4
continue inner
i = 5
continue inner
i = 6
continue inner
i = 7
continue outer
i = 8
break outer
*///:~




//: control/LabeledWhile.java
// While loops with "labeled break" and "labeled continue."
import static net.mindview.util.Print.*;

public class LabeledWhile {
  public static void main(String[] args) {
    int i = 0;
    outer:
    while(true) {
      print("Outer while loop");
      while(true) {
        i++;
        print("i = " + i);
        if(i == 1) {
          print("continue");
          continue;
        }
        if(i == 3) {
          print("continue outer");
          continue outer;
        }
        if(i == 5) {
          print("break");
          break;
        }
        if(i == 7) {
          print("break outer");
          break outer;
        }
      }
    }
  }
} /* Output:
Outer while loop
i = 1
continue
i = 2
i = 3
continue outer
Outer while loop
i = 4
i = 5
break
Outer while loop
i = 6
i = 7
break outer
*///:~




//: control/VowelsAndConsonants.java
// Demonstrates the switch statement.
import java.util.*;
import static net.mindview.util.Print.*;

public class VowelsAndConsonants {
  public static void main(String[] args) {
    Random rand = new Random(47);
    for(int i = 0; i < 100; i++) {
      int c = rand.nextInt(26) + ‘a’;
      printnb((char)c + ", " + c + ": ");
      switch(c) {
        case ‘a’:
        case ‘e’:
        case ‘i’:
        case ‘o’:
        case ‘u’: print("vowel");
                  break;
        case ‘y’:
        case ‘w’: print("Sometimes a vowel");
                  break;
        default:  print("consonant");
      }
    }
  }
} /* Output:
y, 121: Sometimes a vowel
n, 110: consonant
z, 122: consonant
b, 98: consonant
r, 114: consonant
n, 110: consonant
y, 121: Sometimes a vowel
g, 103: consonant
c, 99: consonant
f, 102: consonant
o, 111: vowel
w, 119: Sometimes a vowel
z, 122: consonant
...
*///:~



你的优秀和我的人生无关!!!!
    
    我要过的,是属于我自己的生活~~~
2010-07-31 10:36
lampeter123
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收藏
得分:0 
Initialization & Cleanup
程序代码:
//: initialization/SimpleConstructor.java
// Demonstration of a simple constructor.

class Rock {
  Rock() { // This is the constructor
    System.out.print("Rock ");
  }
}

public class SimpleConstructor {
  public static void main(String[] args) {
    for(int i = 0; i < 10; i++)
      new Rock();
  }
} /* Output:
Rock Rock Rock Rock Rock Rock Rock Rock Rock Rock
*///:~





//: initialization/SimpleConstructor2.java
// Constructors can have arguments.

class Rock2 {
  Rock2(int i) {
    System.out.print("Rock " + i + " ");
  }
}

public class SimpleConstructor2 {
  public static void main(String[] args) {
    for(int i = 0; i < 8; i++)
      new Rock2(i);
  }
} /* Output:
Rock 0 Rock 1 Rock 2 Rock 3 Rock 4 Rock 5 Rock 6 Rock 7
*///:~





//: initialization/PrimitiveOverloading.java
// Promotion of primitives and overloading.
import static net.mindview.util.Print.*;

public class PrimitiveOverloading {
  void f1(char x) { printnb("f1(char) "); }
  void f1(byte x) { printnb("f1(byte) "); }
  void f1(short x) { printnb("f1(short) "); }
  void f1(int x) { printnb("f1(int) "); }
  void f1(long x) { printnb("f1(long) "); }
  void f1(float x) { printnb("f1(float) "); }
  void f1(double x) { printnb("f1(double) "); }

  void f2(byte x) { printnb("f2(byte) "); }
  void f2(short x) { printnb("f2(short) "); }
  void f2(int x) { printnb("f2(int) "); }
  void f2(long x) { printnb("f2(long) "); }
  void f2(float x) { printnb("f2(float) "); }
  void f2(double x) { printnb("f2(double) "); }

  void f3(short x) { printnb("f3(short) "); }
  void f3(int x) { printnb("f3(int) "); }
  void f3(long x) { printnb("f3(long) "); }
  void f3(float x) { printnb("f3(float) "); }
  void f3(double x) { printnb("f3(double) "); }

  void f4(int x) { printnb("f4(int) "); }
  void f4(long x) { printnb("f4(long) "); }
  void f4(float x) { printnb("f4(float) "); }
  void f4(double x) { printnb("f4(double) "); }

  void f5(long x) { printnb("f5(long) "); }
  void f5(float x) { printnb("f5(float) "); }
  void f5(double x) { printnb("f5(double) "); }

  void f6(float x) { printnb("f6(float) "); }
  void f6(double x) { printnb("f6(double) "); }

  void f7(double x) { printnb("f7(double) "); }

  void testConstVal() {
    printnb("5: ");
    f1(5);f2(5);f3(5);f4(5);f5(5);f6(5);f7(5); print();
  }
  void testChar() {
    char x = 'x';
    printnb("char: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testByte() {
    byte x = 0;
    printnb("byte: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testShort() {
    short x = 0;
    printnb("short: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testInt() {
    int x = 0;
    printnb("int: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testLong() {
    long x = 0;
    printnb("long: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testFloat() {
    float x = 0;
    printnb("float: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  void testDouble() {
    double x = 0;
    printnb("double: ");
    f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); print();
  }
  public static void main(String[] args) {
    PrimitiveOverloading p =
      new PrimitiveOverloading();
    p.testConstVal();
    p.testChar();
    p.testByte();
    p.testShort();
    p.testInt();
    p.testLong();
    p.testFloat();
    p.testDouble();
  }
} /* Output:
5: f1(int) f2(int) f3(int) f4(int) f5(long) f6(float) f7(double)
char: f1(char) f2(int) f3(int) f4(int) f5(long) f6(float) f7(double)
byte: f1(byte) f2(byte) f3(short) f4(int) f5(long) f6(float) f7(double)
short: f1(short) f2(short) f3(short) f4(int) f5(long) f6(float) f7(double)
int: f1(int) f2(int) f3(int) f4(int) f5(long) f6(float) f7(double)
long: f1(long) f2(long) f3(long) f4(long) f5(long) f6(float) f7(double)
float: f1(float) f2(float) f3(float) f4(float) f5(float) f6(float) f7(double)
double: f1(double) f2(double) f3(double) f4(double) f5(double) f6(double) f7(double)
*///:~





//: initialization/Demotion.java
// Demotion of primitives and overloading.
import static net.mindview.util.Print.*;

public class Demotion {
  void f1(char x) { print("f1(char)"); }
  void f1(byte x) { print("f1(byte)"); }
  void f1(short x) { print("f1(short)"); }
  void f1(int x) { print("f1(int)"); }
  void f1(long x) { print("f1(long)"); }
  void f1(float x) { print("f1(float)"); }
  void f1(double x) { print("f1(double)"); }

  void f2(char x) { print("f2(char)"); }
  void f2(byte x) { print("f2(byte)"); }
  void f2(short x) { print("f2(short)"); }
  void f2(int x) { print("f2(int)"); }
  void f2(long x) { print("f2(long)"); }
  void f2(float x) { print("f2(float)"); }

  void f3(char x) { print("f3(char)"); }
  void f3(byte x) { print("f3(byte)"); }
  void f3(short x) { print("f3(short)"); }
  void f3(int x) { print("f3(int)"); }
  void f3(long x) { print("f3(long)"); }

  void f4(char x) { print("f4(char)"); }
  void f4(byte x) { print("f4(byte)"); }
  void f4(short x) { print("f4(short)"); }
  void f4(int x) { print("f4(int)"); }

  void f5(char x) { print("f5(char)"); }
  void f5(byte x) { print("f5(byte)"); }
  void f5(short x) { print("f5(short)"); }

  void f6(char x) { print("f6(char)"); }
  void f6(byte x) { print("f6(byte)"); }

  void f7(char x) { print("f7(char)"); }

  void testDouble() {
    double x = 0;
    print("double argument:");
    f1(x);f2((float)x);f3((long)x);f4((int)x);
    f5((short)x);f6((byte)x);f7((char)x);
  }
  public static void main(String[] args) {
    Demotion p = new Demotion();
    p.testDouble();
  }
} /* Output:
double argument:
f1(double)
f2(float)
f3(long)
f4(int)
f5(short)
f6(byte)
f7(char)
*///:~





//: initialization/DefaultConstructor.java

class Bird {}

public class DefaultConstructor {
  public static void main(String[] args) {
    Bird b = new Bird(); // Default!
  }
} ///:~





//: initialization/NoSynthesis.java

class Bird2 {
  Bird2(int i) {}
  Bird2(double d) {}
}

public class NoSynthesis {
  public static void main(String[] args) {
    //! Bird2 b = new Bird2(); // No default
    Bird2 b2 = new Bird2(1);
    Bird2 b3 = new Bird2(1.0);
  }
} ///:~





//: initialization/BananaPeel.java

class Banana { void peel(int i) { /* ... */ } }

public class BananaPeel {
  public static void main(String[] args) {
    Banana a = new Banana(),
           b = new Banana();
    a.peel(1);
    b.peel(2);
  }
} ///:~




//: initialization/Leaf.java
// Simple use of the "this" keyword.

public class Leaf {
  int i = 0;
  Leaf increment() {
    i++;
    return this;
  }
  void print() {
    System.out.println("i = " + i);
  }
  public static void main(String[] args) {
    Leaf x = new Leaf();
    x.increment().increment().increment().print();
  }
} /* Output:
i = 3
*///:~




//: initialization/Flower.java
// Calling constructors with "this"
import static net.mindview.util.Print.*;

public class Flower {
  int petalCount = 0;
  String s = "initial value";
  Flower(int petals) {
    petalCount = petals;
    print("Constructor w/ int arg only, petalCount= "
      + petalCount);
  }
  Flower(String ss) {
    print("Constructor w/ String arg only, s = " + ss);
    s = ss;
  }
  Flower(String s, int petals) {
    this(petals);
//!    this(s); // Can't call two!
    this.s = s; // Another use of "this"
    print("String & int args");
  }
  Flower() {
    this("hi", 47);
    print("default constructor (no args)");
  }
  void printPetalCount() {
//! this(11); // Not inside non-constructor!
    print("petalCount = " + petalCount + " s = "+ s);
  }
  public static void main(String[] args) {
    Flower x = new Flower();
    x.printPetalCount();
  }
} /* Output:
Constructor w/ int arg only, petalCount= 47
String & int args
default constructor (no args)
petalCount = 47 s = hi
*///:~





//: initialization/TerminationCondition.java
// Using finalize() to detect an object that
// hasn't been properly cleaned up.

class Book {
  boolean checkedOut = false;
  Book(boolean checkOut) {
    checkedOut = checkOut;
  }
  void checkIn() {
    checkedOut = false;
  }
  protected void finalize() {
    if(checkedOut)
      System.out.println("Error: checked out");
    // Normally, you'll also do this:
    // super.finalize(); // Call the base-class version
  }
}

public class TerminationCondition {
  public static void main(String[] args) {
    Book novel = new Book(true);
    // Proper cleanup:
    novel.checkIn();
    // Drop the reference, forget to clean up:
    new Book(true);
    // Force garbage collection & finalization:
    System.gc();
  }
} /* Output:
Error: checked out
*///:~





//: initialization/InitialValues.java
// Shows default initial values.
import static net.mindview.util.Print.*;

public class InitialValues {
  boolean t;
  char c;
  byte b;
  short s;
  int i;
  long l;
  float f;
  double d;
  InitialValues reference;
  void printInitialValues() {
    print("Data type      Initial value");
    print("boolean        " + t);
    print("char           [" + c + "]");
    print("byte           " + b);
    print("short          " + s);
    print("int            " + i);
    print("long           " + l);
    print("float          " + f);
    print("double         " + d);
    print("reference      " + reference);
  }
  public static void main(String[] args) {
    InitialValues iv = new InitialValues();
    iv.printInitialValues();
    /* You could also say:
    new InitialValues().printInitialValues();
    */
  }
} /* Output:
Data type      Initial value
boolean        false
char           [ ]
byte           0
short          0
int            0
long           0
float          0.0
double         0.0
reference      null
*///:~
// null 是一个值,用来表示一个个对象引用(reference)没有指向任何对象。





//: initialization/InitialValues2.java
// Providing explicit initial values.

public class InitialValues2 {
  boolean bool = true;
  char ch = 'x';
  byte b = 47;
  short s = 0xff;
  int i = 999;
  long lng = 1;
  float f = 3.14f;
  double d = 3.14159;
} ///:~





//: initialization/Measurement.java
class Depth {}

public class Measurement {
  Depth d = new Depth();
  // ...
} ///:~




//: initialization/MethodInit.java
public class MethodInit {
  int i = f();
  int f() { return 11; } 

} ///:~  






//: initialization/MethodInit2.java
public class MethodInit2 {
  int i = f();
  int j = g(i);
  int f() { return 11; }
  int g(int n) { return n * 10; }
} ///:~





//: initialization/MethodInit3.java
public class MethodInit3 {
  //! int j = g(i); // Illegal forward reference
  int i = f();
  int f() { return 11; }
  int g(int n) { return n * 10; }
} ///:~





//: initialization/Counter.java
public class Counter {
  int i;
  Counter() { i = 7; }
  // ...
} ///:~





//: initialization/OrderOfInitialization.java
// Demonstrates initialization order.
import static net.mindview.util.Print.*;

// When the constructor is called to create a
// Window object, you'll see a message:
class Window {
  Window(int marker) { print("Window(" + marker + ")"); }
}

class House {
  Window w1 = new Window(1); // Before constructor
  House() {
    // Show that we're in the constructor:
    print("House()");
    w3 = new Window(33); // Reinitialize w3
  }
  Window w2 = new Window(2); // After constructor
  void f() { print("f()"); }
  Window w3 = new Window(3); // At end
}

public class OrderOfInitialization {
  public static void main(String[] args) {
    House h = new House();
    h.f(); // Shows that construction is done
  }
} /* Output:
Window(1)
Window(2)
Window(3)
House()
Window(33)
f()
*///:~





//: initialization/StaticInitialization.java
// Specifying initial values in a class definition.
import static net.mindview.util.Print.*;

class Bowl {
  Bowl(int marker) {
    print("Bowl(" + marker + ")");
  }
  void f1(int marker) {
    print("f1(" + marker + ")");
  }
}

class Table {
  static Bowl bowl1 = new Bowl(1);
  Table() {
    print("Table()");
    bowl2.f1(1);
  }
  void f2(int marker) {
    print("f2(" + marker + ")");
  }
  static Bowl bowl2 = new Bowl(2);
}

class Cupboard {
  Bowl bowl3 = new Bowl(3);
  static Bowl bowl4 = new Bowl(4);
  Cupboard() {
    print("Cupboard()");
    bowl4.f1(2);
  }
  void f3(int marker) {
    print("f3(" + marker + ")");
  }
  static Bowl bowl5 = new Bowl(5);
}

public class StaticInitialization {
  public static void main(String[] args) {
    print("Creating new Cupboard() in main");
    new Cupboard();
    print("Creating new Cupboard() in main");
    new Cupboard();
    table.f2(1);
    cupboard.f3(1);
  }
  static Table table = new Table();
  static Cupboard cupboard = new Cupboard();
} /* Output:
Bowl(1)
Bowl(2)
Table()
f1(1)
Bowl(4)
Bowl(5)
Bowl(3)
Cupboard()
f1(2)
Creating new Cupboard() in main
Bowl(3)
Cupboard()
f1(2)
Creating new Cupboard() in main
Bowl(3)
Cupboard()
f1(2)
f2(1)
f3(1)
*///:~






//: initialization/Spoon.java
public class Spoon {
  static int i;
  static {
    i = 47;
  }
} ///:~






//: initialization/ExplicitStatic.java
// Explicit static initialization with the "static" clause.
import static net.mindview.util.Print.*;

class Cup {
  Cup(int marker) {
    print("Cup(" + marker + ")");
  }
  void f(int marker) {
    print("f(" + marker + ")");
  }
}

class Cups {
  static Cup cup1;
  static Cup cup2;
  static {
    cup1 = new Cup(1);
    cup2 = new Cup(2);
  }
  Cups() {
    print("Cups()");
  }
}

public class ExplicitStatic {
  public static void main(String[] args) {
    print("Inside main()");
    Cups.cup1.f(99);  // (1)
  }
  // static Cups cups1 = new Cups();  // (2)
  // static Cups cups2 = new Cups();  // (2)
} /* Output:
Inside main()
Cup(1)
Cup(2)
f(99)
*///:~





//: initialization/Mugs.java
// Java "Instance Initialization."
import static net.mindview.util.Print.*;

class Mug {
  Mug(int marker) {
    print("Mug(" + marker + ")");
  }
  void f(int marker) {
    print("f(" + marker + ")");
  }
}

public class Mugs {
  Mug mug1;
  Mug mug2;
  {
    mug1 = new Mug(1);
    mug2 = new Mug(2);
    print("mug1 & mug2 initialized");
  }
  Mugs() {
    print("Mugs()");
  }
  Mugs(int i) {
    print("Mugs(int)");
  }
  public static void main(String[] args) {
    print("Inside main()");
    new Mugs();
    print("new Mugs() completed");
    new Mugs(1);
    print("new Mugs(1) completed");
  }
} /* Output:
Inside main()
Mug(1)
Mug(2)
mug1 & mug2 initialized
Mugs()
new Mugs() completed
Mug(1)
Mug(2)
mug1 & mug2 initialized
Mugs(int)
new Mugs(1) completed
*///:~





//: initialization/ArraysOfPrimitives.java
import static net.mindview.util.Print.*;

public class ArraysOfPrimitives {
  public static void main(String[] args) {
    int[] a1 = { 1, 2, 3, 4, 5 };
    int[] a2;
    a2 = a1;
    for(int i = 0; i < a2.length; i++)
      a2[i] = a2[i] + 1;
    for(int i = 0; i < a1.length; i++)
      print("a1[" + i + "] = " + a1[i]);
  }
} /* Output:
a1[0] = 2
a1[1] = 3
a1[2] = 4
a1[3] = 5
a1[4] = 6
*///:~





//: initialization/ArrayNew.java
// Creating arrays with new.
import java.util.*;
import static net.mindview.util.Print.*;

public class ArrayNew {
  public static void main(String[] args) {
    int[] a;
    Random rand = new Random(47);
    a = new int[rand.nextInt(20)];
    print("length of a = " + a.length);
    print(Arrays.toString(a));
  }
} /* Output:
length of a = 18
[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
*///:~





//: initialization/ArrayClassObj.java
// Creating an array of nonprimitive objects.
import java.util.*;
import static net.mindview.util.Print.*;

public class ArrayClassObj {
  public static void main(String[] args) {
    Random rand = new Random(47);
    Integer[] a = new Integer[rand.nextInt(20)];
    print("length of a = " + a.length);
    for(int i = 0; i < a.length; i++)
      a[i] = rand.nextInt(500); // Autoboxing
    print(Arrays.toString(a));
  }
} /* Output: (Sample)
length of a = 18
[55, 193, 361, 461, 429, 368, 200, 22, 207, 288, 128, 51, 89, 309, 278, 498, 361, 20]
*///:~





//: initialization/ArrayInit.java
// Array initialization.
import java.util.*;

public class ArrayInit {
  public static void main(String[] args) {
    Integer[] a = {
      new Integer(1),
      new Integer(2),
      3, // Autoboxing
    };
    Integer[] b = new Integer[]{
      new Integer(1),
      new Integer(2),
      3, // Autoboxing
    };
    System.out.println(Arrays.toString(a));
    System.out.println(Arrays.toString(b));
  }
} /* Output:
[1, 2, 3]
[1, 2, 3]
*///:~





//: initialization/DynamicArray.java
// Array initialization.

public class DynamicArray {
  public static void main(String[] args) {
    Other.main(new String[]{ "fiddle", "de", "dum" });
  }
}

class Other {
  public static void main(String[] args) {
    for(String s : args)
      System.out.print(s + " ");
  }
} /* Output:
fiddle de dum
*///:~





//: initialization/VarArgs.java
// Using array syntax to create variable argument lists.

class A {}

public class VarArgs {
  static void printArray(Object[] args) {
    for(Object obj : args)
      System.out.print(obj + " ");
    System.out.println();
  }
  public static void main(String[] args) {
    printArray(new Object[]{
      new Integer(47), new Float(3.14), new Double(11.11)
    });
    printArray(new Object[]{"one", "two", "three" });
    printArray(new Object[]{new A(), new A(), new A()});
  }
} /* Output: (Sample)
47 3.14 11.11
one two three
A@1a46e30 A@3e25a5 A@19821f
*///:~





//: initialization/NewVarArgs.java
// Using array syntax to create variable argument lists.

public class NewVarArgs {
  static void printArray(Object... args) {
    for(Object obj : args)
      System.out.print(obj + " ");
    System.out.println();
  }
  public static void main(String[] args) {
    // Can take individual elements:
    printArray(new Integer(47), new Float(3.14),
      new Double(11.11));
    printArray(47, 3.14F, 11.11);
    printArray("one", "two", "three");
    printArray(new A(), new A(), new A());
    // Or an array:
    printArray((Object[])new Integer[]{ 1, 2, 3, 4 });
    printArray(); // Empty list is OK
  }
} /* Output: (75% match)
47 3.14 11.11
47 3.14 11.11
one two three
A@1bab50a A@c3c749 A@150bd4d
1 2 3 4
*///:~





//: initialization/OptionalTrailingArguments.java

public class OptionalTrailingArguments {
  static void f(int required, String... trailing) {
    System.out.print("required: " + required + " ");
    for(String s : trailing)
      System.out.print(s + " ");
    System.out.println();
  }
  public static void main(String[] args) {
    f(1, "one");
    f(2, "two", "three");
    f(0);
  }
} /* Output:
required: 1 one
required: 2 two three
required: 0
*///:~





//: initialization/VarargType.java

public class VarargType {
  static void f(Character... args) {
    System.out.print(args.getClass());
    System.out.println(" length " + args.length);
  }
  static void g(int... args) {
    System.out.print(args.getClass());
    System.out.println(" length " + args.length);
  }
  public static void main(String[] args) {
    f('a');
    f();
    g(1);
    g();
    System.out.println("int[]: " + new int[0].getClass());
  }
} /* Output:
class [Ljava.lang.Character; length 1
class [Ljava.lang.Character; length 0
class [I length 1
class [I length 0
int[]: class [I
*///:~





//: initialization/Spiciness.java

public enum Spiciness {
  NOT, MILD, MEDIUM, HOT, FLAMING
} ///:~





//: initialization/EnumOrder.java

public class EnumOrder {
  public static void main(String[] args) {
    for(Spiciness s : Spiciness.values())
      System.out.println(s + ", ordinal " + s.ordinal());
  }
} /* Output:
NOT, ordinal 0
MILD, ordinal 1
MEDIUM, ordinal 2
HOT, ordinal 3
FLAMING, ordinal 4
*///:~




//: initialization/SimpleEnumUse.java

public class SimpleEnumUse {
  public static void main(String[] args) {
    Spiciness howHot = Spiciness.MEDIUM;
    System.out.println(howHot);
  }
} /* Output:
MEDIUM
*///:~




你的优秀和我的人生无关!!!!
    
    我要过的,是属于我自己的生活~~~
2010-07-31 10:52
syg5434
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强大!

不要迷恋哥,嫂子会揍你。阿-弥-陀-佛--!
2010-07-31 11:29
gameohyes
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支持...
lz辛苦咯...

C#超级群 74862681,欢迎大家的到来!
2010-07-31 18:27
东海一鱼
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谢谢楼主的无私奉献,藏品分享。

举世而誉之而不加劝,举世而非之而不加沮,定乎内外之分,辩乎荣辱之境,斯已矣。彼其于世未数数然也。
2010-07-31 18:47
baifenghan
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确实,这本书对oo和其他概念都非常到位.佳作,读过好几遍了
2010-08-01 14:44
wtuaimmmm
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2010-08-01 19:38
快速回复:JAVA编程思想(第四版)
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