//: c04:PrimitiveOverloading.java // Promotion of primitives and overloading. // From 'Thinking in Java, 3rd ed.' (c) Bruce Eckel 2002 // www.BruceEckel.com. See copyright notice in CopyRight.txt. import com.bruceeckel.simpletest.*; public class PrimitiveOverloading { static Test monitor = new Test(); void f1(char x) { System.out.println("f1(char)"); } void f1(byte x) { System.out.println("f1(byte)"); } void f1(short x) { System.out.println("f1(short)"); } void f1(int x) { System.out.println("f1(int)"); } void f1(long x) { System.out.println("f1(long)"); } void f1(float x) { System.out.println("f1(float)"); } void f1(double x) { System.out.println("f1(double)"); } void f2(byte x) { System.out.println("f2(byte)"); } void f2(short x) { System.out.println("f2(short)"); } void f2(int x) { System.out.println("f2(int)"); } void f2(long x) { System.out.println("f2(long)"); } void f2(float x) { System.out.println("f2(float)"); } void f2(double x) { System.out.println("f2(double)"); } void f3(short x) { System.out.println("f3(short)"); } void f3(int x) { System.out.println("f3(int)"); } void f3(long x) { System.out.println("f3(long)"); } void f3(float x) { System.out.println("f3(float)"); } void f3(double x) { System.out.println("f3(double)"); } void f4(int x) { System.out.println("f4(int)"); } void f4(long x) { System.out.println("f4(long)"); } void f4(float x) { System.out.println("f4(float)"); } void f4(double x) { System.out.println("f4(double)"); } void f5(long x) { System.out.println("f5(long)"); } void f5(float x) { System.out.println("f5(float)"); } void f5(double x) { System.out.println("f5(double)"); } void f6(float x) { System.out.println("f6(float)"); } void f6(double x) { System.out.println("f6(double)"); } void f7(double x) { System.out.println("f7(double)"); } void testConstVal() { System.out.println("Testing with 5"); f1(5);f2(5);f3(5);f4(5);f5(5);f6(5);f7(5); } void testChar() { char x = 'x'; System.out.println("char argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testByte() { byte x = 0; System.out.println("byte argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testShort() { short x = 0; System.out.println("short argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testInt() { int x = 0; System.out.println("int argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testLong() { long x = 0; System.out.println("long argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testFloat() { float x = 0; System.out.println("float argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } void testDouble() { double x = 0; System.out.println("double argument:"); f1(x);f2(x);f3(x);f4(x);f5(x);f6(x);f7(x); } 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(); monitor.expect(new String[] { "Testing with 5", "f1(int)", "f2(int)", "f3(int)", "f4(int)", "f5(long)", "f6(float)", "f7(double)", "char argument:", "f1(char)", "f2(int)", "f3(int)", "f4(int)", "f5(long)", "f6(float)", "f7(double)", "byte argument:", "f1(byte)", "f2(byte)", "f3(short)", "f4(int)", "f5(long)", "f6(float)", "f7(double)", "short argument:", "f1(short)", "f2(short)", "f3(short)", "f4(int)", "f5(long)", "f6(float)", "f7(double)", "int argument:", "f1(int)", "f2(int)", "f3(int)", "f4(int)", "f5(long)", "f6(float)", "f7(double)", "long argument:", "f1(long)", "f2(long)", "f3(long)", "f4(long)", "f5(long)", "f6(float)", "f7(double)", "float argument:", "f1(float)", "f2(float)", "f3(float)", "f4(float)", "f5(float)", "f6(float)", "f7(double)", "double argument:", "f1(double)", "f2(double)", "f3(double)", "f4(double)", "f5(double)", "f6(double)", "f7(double)" }); } } ///:~