|
|
Objects, Classes, and Interfaces |
Similar to functions in other programming languages, Java methods accept input from the caller through its argments. Arguments provide information to the method from outside the scope of the method.When you write your method, you determine the number and type of the arguments required by that method. You declare the type and name for each argument in the method signature. For example, the following is a method that computes the monthly payments for a home loan based on the amount of the loan, the interest rate, the length of the loan (the number of periods), and the future value of the loan (presumably the future value of the loan is zero because at the end of the loan, you've paid it off).
This method takes four arguments:double computePayment(double loanAmt, double rate, double futureValue, int numPeriods) { double I, partial1, denominator, answer; I = rate / 100.0; partial1 = Math.pow((1 + I), (0.0 - numPeriods)); denominator = (1 - partial1) / I; answer = ((-1 * loanAmt) / denominator) - ((futureValue * partial1) / denominator); return answer; }double loanAmt,double rate,double futureValue, andint numPeriods. The first three are double-precision floating point numbers, and the fourth is an integer. The set of arguments to any method is a comma-delimited list of variable declarations where each variable declaration is a type/name pair:type name.As you can see from the body of the method, you simply use the argument name to refer to its value.
Argument Types
In Java, you can pass an argument of any valid Java data type into a method. This includes simple data types such as doubles, floats and integers as you saw in thecomputePayment()method above, and complex data types such as objects and arrays. Here's an example of a method that accepts an array as an argument. In this example, the method creates a new Polygon object from a list ofx,ypoints.Unlike some other languages, you cannot pass methods into Java methods.Polygon polygonFrom(Point listOfPoints[]) { . . . }Argument Names
When you declare an argument to a Java method, you provide a name for that argument. This name is used within the method body to refer to the item. As with other names in Java, an argument name must be a legal Java identifier.A method argument can have the same name as one of the class's member variables. If this is the case, then the argument is said to hide the member variable. Arguments that hide member variables are often used in constructors to initialize a class. For example, take the following Circle class and its constructor:
The Circle class has three member variablesclass Circle { int x, y, radius; public Circle(int x, int y, int radius) { . . . } }x, y andradius. In addition, the constructor for the Circle class accepts three arguments each of which shares its name with the member variable for which the argument provides an initial value.The argument names hide the member variables. Thus using
x,yorradiuswithin the body of the constructor refers to the argument, not to the member variable. To access the member variable, you must reference it throughthis--the current object:Names of method arguments cannot be the same as another argument name for the same method, the name of any variable local to the method, or the name of any parameter to aclass Circle { int x, y, radius; public Circle(int x, int y, int radius) { this.x = x; this.y = y; this.radius = radius; } }catch()clause within the same method.Pass by Value
In Java methods, arguments of simple data types are passed by value. When invoked, the method receives the value of the variable passed in, not a reference to the variable itself. For example, consider this series of Java statements which attempts to retrieve the current color of a Pen object in a graphics application:At the time when the. . . int r = -1, g = -1, b = -1; pen.getRGBColor(r, g, b); System.out.println("red = " + r + ", green = " + g + ", blue = " + b); . . .getRGBColor()method is called, the variablesr,g, andball have the value -1. The caller is expecting thegetRGBColor()method to pass back the red, green and blue values of the current color in ther,g, andbvariables.However, the Java runtime passes the variables' values (
-1) into thegetRGBColor()method; not a reference to ther,g, andbvariables. Thus the call togetRGBColor()actually looks like this:getRGBColor(-1, -1, -1).When control passes into the
getRGBColor()method, new, local variables are created with the names of the parameters provided in the method signature and are initialized to the value passed into the method.So,class Pen { int redValue, greenValue, blueValue; void getRGBColor(int red, int green, int blue) { . . . } }getRGBColor()gets access to the values ofr,g, andbin the caller through its local variablesred,green, andblue, respectively. The method gets a new copy of the values to use locally. Any changes made to those local variables are not reflected in the original variables from the caller.Now, let's look at the implementation of
getRGBColor()within the Pen class that the method signature above implies:This method will not work. When control gets to theclass Pen { int redValue, greenValue, blueValue; void getRGBColor(int red, int green, int blue) { red = redValue; green = greenValue; blue = blueValue; } }println()statement in this code snippet,getRGBColor()'s local variablesred,green, andblueno longer exist. Therefore the assignments made to those variables had no effect;r,g, andbare all still equal to-1.Passing variables by value affords the programmer some safety. Methods cannot unintentially modify a variable that is outside of its scope. However, you often want a method to be able to modify one or more of its arguments. The. . . int r = -1, g = -1, b = -1; pen.getRGBColor(r, g, b); System.out.println("red = " + r + ", green = " + g + ", blue = " + b); . . .getRGBColor()method is a case in point. The caller wants the method to return three values through its arguments. However, the method cannot modify its arguments, and, furthermore, a method can only return one value through its return value. So, how can a method return more than one value, or have an effect (modify some value) outside of its scope.To allow a method to modify a argument, you must pass in an object. Objects in Java are also passed by value, however, the value of an object is a reference. So, the effect is that the object is passed in by reference. When passing an argument by reference, the method gets a reference to the object. A reference to an object is the address of the object in memory. Now, the local variable within the method is referring to the same memory location as the variable within the caller.
So, let's rewrite the
getRGBColor()method so that it actually works. First, you must introduce a new object, RGBColor, that can hold the red, green and blue values of a color in RGB space.Now, we can rewriteclass RGBColor { public int red, green, blue; }getRGBColor()so that it accepts an RGBColor object as an argument. ThegetRGBColor()method returns the current color of the pen by setting thered,greenandbluemember variables of its RGBColor argument.And finally, let's rewrite the calling sequence:class Pen { int redValue, greenValue, blueValue; void getRGBColor(RGBColor aColor) { aColor.red = redValue; aColor.green = greenValue; aColor.blue = blueValue; } }The modifications made to the RGBColor object within the. . . RGBColor penColor = new RGBColor(); pen.getRGBColor(penColor); System.out.println("red = " + penColor.red + ", green = " + penColor.green + ", blue = " + penColor.blue); . . .getRGBColor()method affect the object created in the calling sequence, because the namespenColor(in the calling sequence) andaColor(in thegetRGBColor()method) refer to the same object.The data type wrapper classes (Float, Integer, and so on) provided in the java.lang package are particularly useful for returning a single value whose type is one of Java's built-in simple types through a method's arguments.
|
|
Objects, Classes, and Interfaces |