In this case,
1 When Java is executing the program code, it encounters the method in the code.
2 The execution then branches to the myFunction() method and executes code inside the body of the method.
3 After the execution of the code inside the method body is completed, the program returns to the original state and executes the next statement.
Let’s see a Java method in action by defining a Java class.
1 When Java is executing the program code, it encounters the method in the code.
2 The execution then branches to the myFunction() method and executes code inside the body of the method.
3 After the execution of the code inside the method body is completed, the program returns to the original state and executes the next statement.
Let’s see a Java method in action by defining a Java class.
Now let’s talk about the method parameters.
Method parameters
Parameters are specified after the method name in a class, inside parentheses. You can add as many parameters as you want but just separate them with a comma. Data can be passed to functions as a parameter. Actually, parameters act as variables inside the method.
Let’s take a look at an example to understand this.
Method parameters
Parameters are specified after the method name in a class, inside parentheses. You can add as many parameters as you want but just separate them with a comma. Data can be passed to functions as a parameter. Actually, parameters act as variables inside the method.
Let’s take a look at an example to understand this.
You can also use any primitive data type or built-in Java class as a data type for the parameters or you can also use your own classes as parameter types.
So, this is about the method parameters in Java.
Now, let’s understand how to allocate memory for the methods that are called.
Memory allocation for methods calls
1 Methods calls are implemented through the stack.
2 Whenever a method is called by a stack, a frame is created within the stack area.
3 After that, the arguments are passed to and the local variables and the value to be returned by this called method are stored in the stack frame.
4 When the execution of the called method is finished, the allocated stack frame would be deleted.
5 There is also a stack pointer register that tracks the top of the stack which can be adjusted accordingly.
So, this is about the method parameters in Java.
Now, let’s understand how to allocate memory for the methods that are called.
Memory allocation for methods calls
1 Methods calls are implemented through the stack.
2 Whenever a method is called by a stack, a frame is created within the stack area.
3 After that, the arguments are passed to and the local variables and the value to be returned by this called method are stored in the stack frame.
4 When the execution of the called method is finished, the allocated stack frame would be deleted.
5 There is also a stack pointer register that tracks the top of the stack which can be adjusted accordingly.
public class Madam
{
public static void main(String[] args) { int a = 5; System.out.println(cube(a)); } static int cube(int theNum) { return theNum * theNum * theNum; } }
{
public static void main(String[] args) { int a = 5; System.out.println(cube(a)); } static int cube(int theNum) { return theNum * theNum * theNum; } }
Anonymous Poll
51%
125
27%
Compilation Error because cube is already defined in the java.lang.Math class.
12%
Throws an ArithmeticException.
10%
Compilation Error or Runtime Error for some other reason.
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