# Which Swift datatype do I use for currency

I have an iOS application that will be performing a lot of basic arithmetic on numbers representing USD currency (eg 25.00 representing \$25.00).

I have gotten into a lot of trouble using the datatype Double in other languages like Java and Javascript so I would like to know the best datatype to use for currency in Swift.

• Just curious, what kind of problems did you run into while using double as a datatype for currency ? Feb 9 '15 at 23:04
• @AbhishekMukherjee I ran into problems comparing values. When I thought 5.20 == 5.20 it was actually 5.200000001 == 5.20 Feb 10 '15 at 16:03
• That's been discussed quite a lot. The correct type to use in Java is BigDecimal.
– Rob
Dec 3 '15 at 18:11
• For my project, I was originally storing currency amounts as `Int` (multiplying the dollar amount by 100 to store, and then reversing it and casting as a `Double` when accessing it.) However, after implementing a multi-currency system where currencies have different numbers of decimal places, keeping track of whether it was the stored `Int` or accessed `Double` amount and whether it was in the original currency or base currency, the `Int` approach had too much overhead. Math was easier when using `Double`, but in the end I also recommend `NSDecimalNumber`. Apr 27 '16 at 15:48
• @userx The problem I found using Doubles is that just subtracting leads to REALLY long floating values, I don't know why. For example, something as easy as 650.50 - 300.50 would result in 350.0038420489380933, and I don't know why. Apr 12 '17 at 8:30

Use `Decimal`, and make sure you initialize it properly!

## CORRECT

``````
// Initialising a Decimal from a Double:
let monetaryAmountAsDouble = 32.111
let decimal: Decimal = NSNumber(floatLiteral: 32.111).decimalValue
print(decimal) // 32.111  😀
let result = decimal / 2
print(result) // 16.0555 😀

// Initialising a Decimal from a String:
let monetaryAmountAsString = "32,111.01"

let formatter = NumberFormatter()
formatter.locale = Locale(identifier: "en_US")
formatter.numberStyle = .decimal

if let number = formatter.number(from: monetaryAmountAsString) {
let decimal = number.decimalValue
print(decimal) // 32111.01 😀
let result = decimal / 2.1
print(result) // 15290.9571428571428571428571428571428571 😀
}
``````

## INCORRECT

``````let monetaryAmountAsDouble = 32.111
let decimal = Decimal(monetaryAmountAsDouble)
print(decimal) // 32.11099999999999488  😟

let monetaryAmountAsString = "32,111.01"
if let decimal = Decimal(string: monetaryAmountAsString, locale: Locale(identifier: "en_US")) {
print(decimal) // 32  😟
}
``````

Performing arithmetic operations on `Double`s or `Float`s representing currency amounts will produce inaccurate results. This is because the `Double` and `Float` types cannot accurately represent most decimal numbers. More information here.

Bottom line: Perform arithmetic operations on currency amounts using `Decimal`s or `Int`

• Thanks for showing proper way to initialize it. Can you also show proper way to convert `Decimal` back to `String`? I am not sure if other answers on StackOverflow are showing that correctly or not. May 18 '20 at 9:11
• Would using Decimal(floatLiteral:) be equal to using NSNumber(floatLiteral:).decimalValue? Feb 10 at 10:58
• @Roberto for whatever reason, Decimal(floatLiteral:) produces an incorrect (32.11099999999999488) result. Feb 16 at 9:44

I suggest you start with a `typealias` for `Decimal`. Example:

``````typealias Dollars = Decimal
let a = Dollars(123456)
let b = Dollars(1000)
let c = a / b
print(c)
``````

Output:

``````123.456
``````
• Does this approach maintain the number of digits after the decimal? Or will it create an approximation of the decimal that could stretch many digits passed the decimal point? Feb 10 '15 at 16:08
• I like this approach the most because it is feels the easiest to use. Feb 10 '15 at 16:14
• Why not just make a Money class?
– Rob
Dec 3 '15 at 18:56
• This is a terrible solution for currency, because initialising a `Decimal` with a `Double` can easily lead to rounding errors. For example: `Decimal(2.13) == 2.129999999999999488`
– Eric
Sep 9 '20 at 15:02
• My answer doesn't suggest converting from a `Double` to a `Decimal`. My answer shows how to accurately create a `Decimal` with fractional digits by dividing by a power of 10. Sep 9 '20 at 15:10

There's a really nice lib called Money:

``````let money: Money = 100
let moreMoney = money + 50 //150
``````

There a lot of nice features besides that, such as type-safe currencies:

``````let euros: EUR = 100
let dollars: USD = 1500
euros + dollars //Error
``````

Binary operator '+' cannot be applied to operands of type 'EUR' (aka '_Money') and 'USD' (aka '_Money')

• Warning with this class: It does not conform to NSCoding, meaning you will not be able to save values of type Money using NSCoder. Xcode will throw an error. Apr 12 '17 at 8:31

The Flight-School/Money is probably the best choice for a project full of monies.

In the ending of README @mattt provides a nice solution for a simple Money type:

``````struct Money {
enum Currency: String {
case USD, EUR, GBP, CNY // supported currencies here
}

var amount: Decimal
var currency: Currency
}
``````

Chapter 3 in 'Flight School Guide to Swift Numbers' is provides excellent intro into the topic.

We use this approach with `Currency` being a huge enum that has been generated in advance (don't forget a monetary value is just a number without its currency - they both belong together):

``````struct Money: Hashable, Equatable {

let value: Decimal
let currency: Currency
}

extension Money {

var string: String {
CurrencyFormatter.shared.string(from: self)
}
}
``````