- Write
if
statements in JS - Write
if
-else if
-else
statements in JS - Use the ternary operator in JS
- Write
switch
statements in JS
Sometimes, we only want to allow the execution of code only under certain conditions.
Think of it this way. When you're driving a car, you can only go through a light if the light is green. Otherwise, if the light is yellow, you prepare to slow down; and if the light is red, you stop. Notice that we have distinct cases that we want to check for.
In programming, when we check for a statement in this way, we check to see whether the statement is true
or false
. JavaScript, being the friendly language that it is, uses true
and false
directly to mean exactly what they say.
The example above might be written, in pseudo-JavaScript (for once, this won't work in the browser console), like this:
if (lightIsGreen) {
go()
} else if (lightIsRed) {
stop()
} else if (lightIsYellow) {
slowDown()
}
When we get down to it, every if
statement like the above is saying, "If the thing in the parentheses is true
, then do what's between the curly braces."
But before we dive in to if
statements, how do the things in parentheses become true
or false
?
JavaScript lets us compare things. Most of these comparisons come straight from math: we can ask if something is less than something else (enter these in your console!):
3 < 5 // true
3 < 2 // false
3 < 3 // false
3 < 10000000 // true
'alpha' < 'beta' // true (!)
We can ask if something is greater than something else:
5 > -1 // true
5 > 5 // false
20 > 30 // false
'gamma' > 'beta' // true (!)
We can even ask if something is less-than-or-equal-to something else:
20 <= 30 // true
20 <= 20 // true
20 <= 10 // false
or greater-than-or-equal-to something:
5 >= 5 // true
5 >= 1 // true
5 >= 10 // false
How do we test if something is exactly equal to something else? We know that we can't just use =
, because that's how we assign values to variables. Instead, we need to use ===
:
5 === 5 // true
4 === 5 // false
'5' === 5 // false
parseInt('5', 10) === 5 // true
Top Tip: Sometimes you'll see only ==
for comparison in JavaScript. It's best to use ===
, as the former will try to coerce values in order to compare them, meaning that it's not always comparing what it says it's comparing!
We can string together these comparisons using &&
(pronounced "and") and ||
("or"):
5 === 5 && 10 < 11 // true
5 === 6 && 10 < 11 // false
5 === 5 && 10 < 9 // false
4 > 5 || 20 <= 20 // true
4 > 5 || 20 < 19 // false
4 > 3 || 20 < 19 // true
With &&
, both statements (to the left and right of &&
) must be true
in order for the entire expression (that is, the entire phrase) to be true
; with ||
, only one of the statements needs to be true
.
Keep in mind that JavaScript reads these combinations from left to right, returns the last statement it saw, and only evaluates as many statements as necessary. So if we write,
5 === 5 && 1
JavaScript won't return true
, it will return 1
. If instead we write,
5 === 4 && 0
JavaScript will return false
, because it stops evaluating the &&
expression (again, this just means the entire phrase of comparisons) on its first false encounter. Similarly, if we write,
200 < 100 || 'alphabet'
JavaScript will return 'alphabet', because it needs to evaluate the right-hand side of ||
(since 200 < 100
is false
). But if we write,
200 > 100 || 'treasure'
JavaScript simply returns true
— it doesn't even check the right-hand side of ||
.
JavaScript lets us control what blocks of code to execute using if
statements, if
-else
statements, if
-else if
-else
statements, ternary operators, and switch
statements.
You'll be writing your code in flow-control.js
. Make sure to run the tests using learn
.
if
statements look like this:
if (something) {
// do something
}
They work as the name implies: if something
is truthy (so the boolean true
or anything other than the empty string (''
), 0
, null
, or undefined
), the code in between the curly braces runs; if not, the code between the curly braces is skipped.
Now, in flow-control.js
let's write a function called basicTeenager
that accepts an age as a parameter. The function should contain an if-statement that checks to see if the age is a teenager. If the age is between 13 and 19, return "You are a teenager!"
You will often see an if
statement used in combination with an else
clause. An else
clause will only get executed if the previous if
statement is falsey.
Syntax:
if (conditionToTest) {
// executed if `conditionToTest` is truthy
} else {
// executed if `conditionToTest` is falsey
}
- Define a function
teenager
that accepts an age as a parameter. If the age is between 13 and 19 it should return"You are a teenager!"
. Otherwise, the function should return"You are not a teenager"
.
if
statements can also be combined with an else if
clause. This is like an else
statement, but with its own condition. It will only run if its condition is true, and the previous statement's condition was false.
if (conditionToTest1) {
// condition is false hence code is not executed
} else if (conditionToTest2) {
// execute this code if `conditionToTest1`statement is falsey AND `conditionToTest2` is truthy
}
You can optionally add a final else
statement after all of your else if
statements. You can probably guess what will happen: if all of the other statements are falsey, this final else
block will execute; otherwise, an earlier statement executes and the else
block is skipped.
if (conditionToTest1) {
// condition is false hence code is not executed
} else if (conditionToTest2) {
// execute this code if `conditionToTest1` statement is falsey AND `conditionToTest2` is truthy
} else {
// execute this code iff none of the other conditions are met
}
- Define a function
ageChecker
that takes in an age as a parameter. If the age is between 13-19 it should return"You are a teenager!"
. If the age is 12 or below, it should return"You are a kid"
. If the age is above 19, it should return"You are a grownup"
Top tip: Remember, if you place a return
statement before the end of the function, anything after return
won't get executed. We can use this to make code terser:
function canGo(lightColor) {
if (lightColor === 'green') {
return true
}
return false
}
The above function will return true
if lightColor
is 'green'
— go ahead
and try it out.
canGo('green') // true
And false
otherwise:
canGo('red') // false
Notice that we didn't have to use an else
statement; we can just depend on
return
.
We need to be careful with return
, however, because it's easy to return too
early and not execute important parts of the function. For example,
function canGo(lightColor) {
return true
if (lightColor === 'red') {
return false
}
}
will always return true
, even if lightColor
is 'red'
. Try it!
canGo('red') // true
And that's a great way to cause an accident.
You can think of it as a shortcut for the if-else
statement.
This operator tests a condition; if the condition is truthy, it evaluates the left-hand side of the colon; otherwise it evaluates the right-hand side of the colon.
Syntax:
conditionToTest ? valueToBeReturnedIfTrue : valueToBeReturnedIfFalse
- Define a function
ternaryTeenager
that accepts age as a parameter. The body of the function should use the ternary operator to return"You are a teenager"
if age is between 13-19 and returns"You are not a teenager"
if the age is anything else.
Switch statements acts like a big if/else if/else chain. The switch expression is evaluated once and the value of the expression is compared with the values of each case. If there is a match, the associated block of code is executed.
Syntax:
switch (expression) {
case n:
// code to be executed if case n is true
break; // break out of switch statement once code executed
case m:
// code to be executed if case m is true
break; // break out of switch statement once code executed
default: // all other cases
// code to be executed if case n and case m false
}
Example:
var mood = "hungry"
switch(mood) {
case "happy":
console.log("Dance to Pharrel's Happy");
break;
case "sad":
console.log("You should eat a pint of icecream");
break;
case "anxious":
console.log("Take some deep breaths");
break;
case "hungry":
console.log("You should eat a big chocolate cake");
break;
default:
console.log("That's not a mood we support");
}
In the example above, we'll see "You should eat a big chocolate cake"
printed to the console. If we change the value of the mood
variable to sad
you'll see "You should eat a pint of icecream"
. If the value of mood
changed to "grumpy"
, the default statement would trigger and print out "That's not a mood we support"
.
- Define a function
switchAge
that accepts an age as a parameter. The case statement should switch onage
and return"You are a teenager"
if the age is 13, 14, 15, 16, 17, 18, or 19, and return"You have an age"
as the default.
As with any function, return
will halt execution at any point. Thus if we
wrote,
function feelings(mood) {
switch(mood) {
case "happy":
return "Dance to PHarrel's 'Happy'"
default:
return "I don't recognize that mood."
}
console.log("Let us know how you're feeling tomorrow!")
}
the console.log()
statement at the bottom of the function will
never run. This is a major difference between return
and break
:
return
exits the function and returns a value; break
exits a
block and does not (generally speaking) have a value associated with it.
- Codecademy - if/if else/if else if else
- MDN - if..else
- Codecademy - Ternary Operator
- Codecademy - Switch Statements
View JavaScript Flow Control on Learn.co and start learning to code for free.