Tuesday, November 26, 2019
If-Then and If-Then-Else Conditional Statements in Java
If-Then and If-Then-Else Conditional Statements in Java The if-then and if-then-elseconditional statements let a Java program make simple decisions about what to do next. They work in the same logical way as we do when making decisions in real life. For example, when making a plan with a friend, you could say If Mike gets home before 5:00 PM, then well go out for an early dinner. When 5:00 PM arrives, the condition (i.e., Mike is home), which determines whether everyone goes out for an early dinner, will either be true or false. It works exactly the same in Java. The if-then Statementà Lets say part of a program were writing needs to calculate if the purchaser of a ticket is eligible for a childs discount. Anyone under the age of 16 gets a 10% discount on the ticket price. We can let our program make this decision by using an if-then statement: if (age 16) isChild true; In our program, an integer variable called age holds the age of the ticket purchaser. The condition (i.e., is the ticket purchaser under 16) is placed inside the brackets. If this condition is true, then the statement beneath the if statement is executed in this case a boolean variable isChild is set to true. The syntax follows the same pattern every time. The if keyword followed by a condition in brackets, with the statement to execute underneath: if (condition is true) execute this statement The key thing to remember is the condition must equate to a boolean value (i.e., true or false). Often, a Java program needs to execute more than one statement if a condition is true. This is achieved by using a blockà (i.e., enclosing the statements in curly brackets): if (age 16)ââ¬â¹{ isChild true; discount 10;} This form of the if-then statement is the most commonly used, and itsà recommended to use curly brackets even when there is only one statement to execute. It improves the readability of the code and leads to fewer programming mistakes. Without the curly brackets, its easy to overlook the effect of the decision being made or to come back later and add another statement to execute but forget to also add the curly brackets. The if-then-else Statement The if-then statement can be extended to have statements that are executed when the condition is false. The if-then-else statement executes the first set of statements if the condition is true, otherwise, the second set of statements are executed: if (condition) { execute statement(s) if condition is true}else{ execute statement(s) if condition is false} In the ticket program,à lets say we need to make sure the discount is equal to 0 if the ticket purchaser is not a child: if (age 16){ isChild true; discount 10;}else{ discount 0;} The if-then-else statement also allows the nesting of if-then statements. This allows decisions to follow a path of conditions. For example, the ticket program might have several discounts. We might first test to see if the ticket purchaser is a child, then if theyre a pensioner, then if theyre a student and so on: if (age 16){ isChild true; discount 10;}else if (age 65){ isPensioner true; discount 15;}else if (isStudent true){ discount 5;} As you can see, the if-then-else statement pattern just repeats itself. If at any time the condition is trueà , then the relevant statements are executed and any conditions beneath are not tested to see whether they are true or false. For example, if the age of the ticket purchaser is 67, then the highlighted statements are executed and the (isStudent true) condition is never tested and the program just continues on. There is something worth noting about the (isStudent true) condition. The condition is written to make it clear that were testing whether isStudent has a value of true, but because it is a boolean variable, we can actually write: else if (isStudent){ discount 5;} If this is confusing, the way to think about it is like this we know a condition is tested to be true or false. For integer variables like age, we have to write an expression that can be evaluated to true or false (e.g., age 12, age 35, etc..). However, boolean variables already evaluate to be true or false. We dont need to write an expression to prove it because if (isStudent) is already saying if isStudent is true... If you want to test that a boolean variable is false, just use the unary operator!. It inverts a boolean value, therefore if (!isStudent) is essentially saying if isStudent is false.
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