Method overload resolution in java
The compiler will consider not a downcast, but an unboxing conversion for overload resolution. Here, the Integer i will be unboxed to an int successfully. The String method isn't considered because an Integer cannot be widened to a String. The only possible overload is the one that considers unboxing, so 8 is printed.
The reason that the first code's output is 10 is that the compiler will consider a widening reference conversion (Integer to Object) over an unboxing conversion.
Section 15.12.2 of the JLS, when considering which methods are applicable, states:
- The first phase (§15.12.2.2) performs overload resolution without permitting boxing or unboxing conversion, or the use of variable arity method invocation. If no applicable method is found during this phase then processing continues to the second phase.
- The second phase (§15.12.2.3) performs overload resolution while allowing boxing and unboxing [...]
widening beats boxing, boxing beats var-args. In your example, the widening cannot happen, so the boxing it's applied and Integer is unboxed. Nothing unordinary.
Actually in the second example no downcasting is occurred. There occurred the following thing -
1. Integer is unwrapped/unboxed to primitive type int.
2. Then the TestOverLoad(int a) method is called.
In main method you declare Integer like -
Integer i = 9;
Then call -
test.TestOverLoad(i);
Whereas, you have 2 overloaded version of TestOverLoad() -
TestOverLoad(int a);
TestOverLoad(String a);
Here the second overloaded version of TestOverLoad() takes completely different argument String. Thats why Integer i is unboxed to a primitive type int and after that the first overloaded version is called.
In Java, resolving methods in case of method overloading is done with the following precedence:
1. Widening
2. Auto-boxing
3. Var-args
The java compiler thinks that widening a primitive parameter is more desirable than performing an auto-boxing operation.
In other words, as auto-boxing was introduced in Java 5, the compiler chooses the older style(widening) before it chooses the newer style(auto-boxing), keeping existing code more robust. Same is with var-args.
In your 1st code snippet, widening of reference variable occurs i.e,
IntegertoObjectrather than un-boxing i.e,Integertoint. And in your 2nd snippet, widening cannot happen fromIntegertoStringso unboxing happens.
Consider the below program which proves all the above statements:
class MethodOverloading {
static void go(Long x) {
System.out.print("Long ");
}
static void go(double x) {
System.out.print("double ");
}
static void go(Double x) {
System.out.print("Double ");
}
static void go(int x, int y) {
System.out.print("int,int ");
}
static void go(byte... x) {
System.out.print("byte... ");
}
static void go(Long x, Long y) {
System.out.print("Long,Long ");
}
static void go(long... x) {
System.out.print("long... ");
}
public static void main(String[] args) {
byte b = 5;
short s = 5;
long l = 5;
float f = 5.0f;
// widening beats autoboxing
go(b);
go(s);
go(l);
go(f);
// widening beats var-args
go(b, b);
// auto-boxing beats var-args
go(l, l);
}
}
The output is:
double double double double int,int Long,Long
Just for reference, here is my blog on method overloading in Java.
P.S: My answer is a modified version of an example given in SCJP.