Up until now, all the code in our programs has been executed chronologically. Let's enrich our code by adding conditional execution!
- The
if
keyword defines a conditional statement, also called a test. The associated code block is only run if the condition is satisfied (its value istrue
). Thus, a condition is an expression whose evaluation always produces a boolean result (true
orfalse
).
if (condition) {
// Code to run when the condition is true
}
-
The code block associated to an
if
is delimited by a pair of opening and closing braces. To improve visibility, its statements are generally indented (shifted to the right). -
The comparison operators
===
,!==
,<
,<=
,>
and>=
are used to compare numbers inside a condition. All of them return a boolean result. -
An
else
statement can be associated to anif
to express an alternative. Depending on the condition value, either the code block associated to theif
or the one associated to theelse
will be run, but never both. There is no limit to the depth of condition nesting.
if (condition) {
// Code to run when the condition is true
}
else {
// Code to run when the condition is false
}
-
Complex conditions can be created using the logical operators
&&
("and"),||
("or") and!
("not"). -
The
switch
statement is used to kick off the execution of one code block among many, depending on the value of an expression.
switch (expression) {
case value1:
// Code to run when the expression matches value1
break;
case value2:
// Code to run when the expression matches value2
break;
...
default:
// Code to run when neither case matches
}
Suppose we want to write a program that asks the user to enter a number and then displays a message if the number is positive. Here is the corresponding algorithm.
Enter a number
If the number is positive
Display a message
The message should display only if the number is positive; this means it's "subject" to a condition.
Here's how you translate the program to JavaScript.
const number = Number(prompt("Enter a number:"));
if (number > 0) {
console.log(`${number} is positive`);
}
The console.log(...)
command is executed only if the number is positive. Test this program to see for yourself!
Conditional syntax looks like this:
if (condition) {
// Code to run when the condition is true
}
The pair of opening and closing braces defines the block of code associated with an if
statement. This statement represents a test. It results in the following: "If the condition is true, then executes the instructions contained in the code block".
The condition is always placed in parentheses after the if
. The statements within the associated code block are shifted to the right. This practice is called indentation and helps make your code more readable. As your programs grow in size and complexity, it will become more and more important. The indentation value is often 2 or 4 spaces.
I> When the code block has only one statement, braces may be omitted. As a beginner, you should nonetheless always use braces when writing your first conditions.
A condition is an expression that evaluates as a value either true or false: it's called a boolean value. When the value of a condition is true, we say that this condition is satisfied.
We have already studied numbers and strings, two types of data in JavaScript. Booleans are another type. This type has only two possible values: true
and false
.
Any expression producing a boolean value (either true
or false
) can be used as a condition in an if
statement. If the value of this expression is true
, the code block associated with it is executed.
if (true) {
// The condition for this if is always true
// This block of code will always be executed
}
if (false) {
// The condition for this if is always false
// This block of code will never be executed
}
Boolean expressions can be created using the comparison operators shown in the following table.
Operator | Meaning |
---|---|
=== |
Equal |
!== |
Not equal to |
< |
Less than |
<= |
Less than or equal to |
> |
Greater than |
>= |
Greater than or equal to |
In some other programming languages, equality and inequality operators are ==
and !=
. They also exist in JavaScript, but it's safer to use ===
and !==
(more details).
E> It's easy to confuse comparison operators like ===
(or ==
) with the assignment operator =
. They're very, very different. Be warned!
Now let's modify the example code to replace >
with >=
and change the message, then test it with the number 0.
const number = Number(prompt("Enter a number:"));
if (number >= 0) {
console.log(`${number} is positive or zero`);
}
If the user input is 0, the message appears in the console, which means that the condition(number >= 0)
was satisfied.
You'll often want to have your code execute one way when something's true and another way when something's false.
Let's enrich our sample with different messages depending if the number's positive or not.
const number = Number(prompt("Enter a number:"));
if (number > 0) {
console.log(`${number} is positive`);
}
else {
console.log(`${number} is negative or zero`);
}
Test this code with a positive number, negative number, and zero, while watching the result in the console. The code executes differently depending if the condition (number > 0)
is true or false.
The syntax for creating an alternative is to add an else
keyword after an initial if
.
if (condition) {
// Code to run when the condition is true
}
else {
// Code to run when the condition is false
}
You can translate an if
/else
statement like this: "If the condition is true, then execute this first set of code; otherwise, execute this next set of code". Only one of the two code blocks will be executed.
Let's go to the next level and display a specific message if the entered number is zero. See this example, which has a positive test case, negative test case, and a last resort of the number being zero.
const number = Number(prompt("Enter a number:"));
if (number > 0) {
console.log(`${number} is positive`);
} else {
// number <= 0
if (number < 0) {
console.log(`${number} is negative`);
} else {
// number === 0
console.log(`${number} is zero`);
}
}
Let's wrap our heads around it. If the code block associated to the first else
is run, then the number has to be either strictly negative or zero. Inside this block, a second if
statement checks if the number is negative. If it's not, we know for sure that it's zero.
I> When learning to write nested conditions, you should add descriptive comments to each condition, just like in the previous example.
The execution flow for the previous program can be expressed graphically using a flow diagram.
This example shows how essential indentation is for understanding a program's flow. There is no limit to the possible depth of condition nesting, but too many will affect program visibility.
A particular case happens when the only statement in an else
block is an if
. In that case, you can write this else
on the same line as the if
and without braces. Here's a more concise way to write our example program.
const number = Number(prompt("Enter a number:"));
if (number > 0) {
console.log(`${number} is positive`);
} else if (number < 0) {
console.log(`${number} is negative`);
} else {
console.log(`${number} is zero`);
}
Suppose you want to check if a number is between 0 and 100. You're essentially checking if it's "greater than or equal to 0" and "less than or equal to 100". Both sub-conditions must be satisfied at the same time.
I> The expression 0 <= number <= 100
is correct from a mathematical point of view but cannot be written in JavaScript (neither in most other programming languages).
Here's how you'd translate that same check into JS.
if ((number >= 0) && (number <= 100)) {
console.log(`${number} is between 0 and 100, both included`);
}
I> Parentheses between sub-conditions are not mandatory but I advise you to add them anyway, to avoid nasty bugs in some special cases.
The &&
operator ("logical and") can apply to both types of boolean values. true
will only be the result of the statement if both conditions are true.
console.log(true && true); // true
console.log(true && false); // false
console.log(false && true); // false
console.log(false && false); // false
The previous result is the truth table of the &&
operator.
Now imagine you want to check that a number is outside the range of 0 and 100. To meet this requirement, the number should be less than 0 or greater than 100.
Here it is, translated into JavaScript:
if ((number < 0) || (number > 100)) {
console.log(`${number} is not in between 0 and 100`);
}
The ||
operator ("logical or") makes statements true
if at least one of the statements is true. Here's its truth table:
console.log(true || true); // true
console.log(true || false); // true
console.log(false || true); // true
console.log(false || false); // false
There's another operator for when you know what you don't want: the not operator! You'll use a !
for this.
if (!(number > 100)) {
console.log(`${number} is less than or equal to 100`);
}
Here's the truth table of the !
operator.
console.log(!true); // false
console.log(!false); // true
Let's write some code that helps people decide what to wear based on the weather using if
/else
.
const weather = prompt("What's the weather like?");
if (weather === "sunny") {
console.log("T-shirt time!");
} else if (weather === "windy") {
console.log("Windbreaker life.");
} else if (weather === "rainy") {
console.log("Bring that umbrella!");
} else if (weather === "snowy") {
console.log("Just stay inside!");
} else {
console.log("Not a valid weather type");
}
When a program should trigger a block from several operations depending on the value of an expression, you can write it using the JavaScript statement switch
to do the same thing.
const weather = prompt("What's the weather like?");
switch (weather) {
case "sunny":
console.log("T-shirt time!");
break;
case "windy":
console.log("Windbreaker life.");
break;
case "rainy":
console.log("Bring that umbrella!");
break;
case "snowy":
console.log("Winter is coming! Just stay inside!");
break;
default:
console.log("Not a valid weather type");
}
If you test it out, the result will be the same as the previous version.
The switch
statement kicks off the execution of one code block among many. Only the code block that matches the relevant situation will be executed.
switch (expression) {
case value1:
// Code to run when the expression matches value1
break;
case value2:
// Code to run when the expression matches value2
break;
// ...
default:
// Code to run when neither case matches
}
You can set as many cases as you want! The word default
, which is put at the end of switch
, is optional. It can let you handle errors or unexpected values.
Adding a break;
in each block is important so you get out of the switch statement!
const x = "abc";
switch (x) {
case "abc":
console.log("x = abc");
// break omitted: the next block is also run!
case "def":
console.log("x = def");
break;
}
The previous example show "x = abc"
(the correct result) but also "x = def"
.
Here are a few pieces of advice about these exercises:
-
Keep on choosing your variable names wisely, and respect indentation when creating code blocks associated to
if
,else
andswitch
statements. -
Try to find alternative solutions. For example, one using an
if
and another using aswitch
. -
Test your programs thoroughly, without fear of finding mistakes. It's a very important skill.
Write a program that accepts a day name from the user, then shows the name of the following day. Incorrect inputs must be taken into account.
Write a program that accepts two numbers, then compares their values and displays an appropriate message in all cases.
Take a look at the following program.
let nb1 = Number(prompt("Enter nb1:"));
let nb2 = Number(prompt("Enter nb2:"));
let nb3 = Number(prompt("Enter nb3:"));
if (nb1 > nb2) {
nb1 = nb3 * 2;
} else {
nb1++;
if (nb2 > nb3) {
nb1 += nb3 * 3;
} else {
nb1 = 0;
nb3 = nb3 * 2 + nb2;
}
}
console.log(nb1, nb2, nb3);
Before executing it, try to guess the final values of variables nb1
, nb2
and nb3
depending on their initial values. Complete the following table.
Initial values | nb1 final value |
nb2 final value |
nb3 final value |
---|---|---|---|
nb1=nb2=nb3=4 |
|||
nb1=4,nb2=3,nb3=2 |
|||
nb1=2,nb2=4,nb3=0 |
Check your predictions by executing the program.
Write a program that accepts a month number (between 1 and 12), then shows the number of days of that month. Leap years are excluded. Incorrect inputs must be taken into account.
Write a program that asks for a time under the form of three information (hours, minutes, seconds). The program calculates and shows the time one second after. Incorrect inputs must be taken into account.
This is not as simple as it seems... Look at the following results to see for yourself:
- 14h17m59s => 14h18m0s
- 6h59m59s => 7h0m0s
- 23h59m59s => 0h0m0s (midnight)