Rounding numbers in swift - swift

In Swift, I need to be able to round numbers based on their value. If a number is whole, which just ".0" after it, I need to convert it to an integer, and if the number has digits after the decimal that is greater than 2 digits, I need to round it to 2 digits.
For example:
1.369352 --> 1.37
7.75 --> 7.75
2.0 --> 2
How can I check my numbers and round them according to these rules?

Something like this should be good?
func formatNumber (number: Double) -> String? {
let formatter = NSNumberFormatter()
formatter.maximumFractionDigits = 2
let formattedNumberString = formatter.stringFromNumber(number)
return formattedNumberString?.stringByReplacingOccurrencesOfString(".00", withString: "")
}
formatNumber(3.25) // 3.25
formatNumber(3.00) // 3
formatNumber(3.25678) // 3.26

this function returns a string of the result needed.
func roundnumber(roundinput:Double) ->String{
var roundoutputint=0
var roundoutputfloat=0.0
if (roundinput - floor(roundinput) < 0.00001) { // 0.000001 can be changed depending on the level of precision you need
//integer
roundoutputint = Int(round(roundinput))
return String(roundoutputint)
}
else {
//not integer
//roundoutputfloat=round(10 * roundinput) / 10
return String(format:"%.2f",roundinput)
}
}
for example:
roundnumber(1.3693434) //returns "1.37"
roundnumber(7.75) //returns "7.75"
roundnumber(2.0) // returns "2"

Related

How to print all the digits in a large number of 10 power 25 in swift?

I have been working on a hacker rank problem where I have to print a number which is a factorial of 25. Here is the code I used.
func extraLongFactorials(n: Int) -> Void {
let factorialNumber = factorial(number: n)
var arrayForStorage: [Int] = []
var loop = factorialNumber
while (loop > 0) {
let digit = loop.truncatingRemainder(dividingBy: 10)
arrayForStorage.append(Int(digit))
loop /= 10
}
arrayForStorage = arrayForStorage.reversed()
var returnString = ""
for element in arrayForStorage {
returnString = "\(returnString)\(element)"
}
print(returnString)
}
func factorial(number: Int) -> Double {
if number == 0 || number == 1 {
return 1
} else if number == 2 {
return 2
} else {
return Double(number) * factorial(number: number - 1)
}
}
But when I try to print the factorial number it just prints 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000015511210043330982408266888 when it should print
15511210043330985984000000.
I think for a Double number truncatingRemainder(dividingBy: 10) method is not giving me the exact number of the remainder. Because when I tried to print the truncatingRemainder of 15511210043330985984000000 it is giving me as 8. Here is the code.
let number: Double = 15511210043330985984000000
print(number.truncatingRemainder(dividingBy: 10))
So finally I didn't find any solution for the problem of how to split the large number and add it into an array. Looking forward for the solution.
Type Double stores a number as a mantissa and an exponent. The mantissa represents the significant figures of the number, and the exponent represents the magnitude of the number. A Double can only represent about 16 significant figures, and your number has 26 digits, so you can't accurately store 15511210043330985984000000 in a Double.
let number1: Double = 15511210043330985984000000
let number2: Double = 15511210043330985984012345
if number1 == number2 {
print("they are equal")
}
they are equal
You will need another approach to find large factorials like the one shown in this answer.

Convert pounds to pound decimals in Swift (2.2)

How can I convert pounds to pound decimals?
For instance if the user enters 1.8 lbs, I would like to be able to convert it to 1.5 lbs so I can do some calculations.
The code below has two issues.
1- It only works when the user enters less then 10 (e.g 1.9) ounces since I'm multiplying the ounces by 10.
2- It only returns the decimal ounces, It does not return the whole number (pounds).
func poundsToDecimals(pounds:Double)->Double{
let ounces = Double(pounds % 1)
let decimals = ounces / 16 * 10
return decimals
}
print(poundsToDecimals(1.4)) //prints... 0.25
To solve your first problem try converting it the number into a String and then split it up like so:
func poundsToDecimals(pounds: Double) -> Double {
let numberAsString = String(pounds)
var numbers = numberAsString.components(separatedBy: ["."])
let seperatedPounds = Double(numbers[0])!
let ounces = Double(numbers[1])!
let decimals = ounces / 16 * 10
return decimals
}
Can you please specify your second problem further. if you want to return more then one value you usally do it like this.
func poundsToDecimals(pounds: Double) -> (Double, Double) {
let numberAsString = String(pounds)
var numbers = numberAsString.components(separatedBy: ["."])
let seperatedPounds = Double(numbers[0])!
let ounces = Double(numbers[1])!
let decimals = ounces / 16 * 10
return (decimals, seperatedPounds)
}
Hope that helps

Formatting decimal places with unknown number

I'm printing out a number whose value I don't know. In most cases the number is whole or has a trailing .5. In some cases the number ends in .25 or .75, and very rarely the number goes to the thousandths place. How do I specifically detect that last case? Right now my code detects a whole number (0 decimal places), exactly .5 (1 decimal), and then reverts to 2 decimal spots in all other scenarios, but I need to go to 3 when it calls for that.
class func getFormattedNumber(number: Float) -> NSString {
var formattedNumber = NSString()
// Use the absolute value so it works even if number is negative
if (abs(number % 2) == 0) || (abs(number % 2) == 1) { // Whole number, even or odd
formattedNumber = NSString(format: "%.0f", number)
}
else if (abs(number % 2) == 0.5) || (abs(number % 2) == 1.5) {
formattedNumber = NSString(format: "%.1f", number)
}
else {
formattedNumber = NSString(format: "%.2f", number)
}
return formattedNumber
}
A Float uses a binary (IEEE 754) representation and cannot represent
all decimal fractions precisely. For example,
let x : Float = 123.456
stores in x the bytes 42f6e979, which is approximately
123.45600128173828. So does x have 3 or 14 fractional digits?
You can use NSNumberFormatter if you specify a maximum number
of decimal digits that should be presented:
let fmt = NSNumberFormatter()
fmt.locale = NSLocale(localeIdentifier: "en_US_POSIX")
fmt.maximumFractionDigits = 3
fmt.minimumFractionDigits = 0
println(fmt.stringFromNumber(123)!) // 123
println(fmt.stringFromNumber(123.4)!) // 123.4
println(fmt.stringFromNumber(123.45)!) // 123.45
println(fmt.stringFromNumber(123.456)!) // 123.456
println(fmt.stringFromNumber(123.4567)!) // 123.457
Swift 3/4 update:
let fmt = NumberFormatter()
fmt.locale = Locale(identifier: "en_US_POSIX")
fmt.maximumFractionDigits = 3
fmt.minimumFractionDigits = 0
print(fmt.string(for: 123.456)!) // 123.456
You can use %g to suppress trailing zeros. Then I think you do not need to go through the business of determining the number of places. Eg -
var num1:Double = 5.5
var x = String(format: "%g", num1) // "5.5"
var num2:Double = 5.75
var x = String(format: "%g", num2) // "5.75"
Or this variation where the number of places is specified. Eg -
var num3:Double = 5.123456789
var x = String(format: "%.5g", num3) // "5.1235"
My 2 cents ;) Swift 3 ready
Rounds the floating number and strips the trailing zeros to the required minimum/maximum fraction digits.
extension Double {
func toString(minimumFractionDigits: Int = 0, maximumFractionDigits: Int = 2) -> String {
let formatter = NumberFormatter()
formatter.locale = Locale(identifier: "en_US_POSIX")
formatter.minimumFractionDigits = minimumFractionDigits
formatter.maximumFractionDigits = maximumFractionDigits
return formatter.string(from: self as NSNumber)!
}
}
Usage:
Double(394.239).toString() // Output: 394.24
Double(394.239).toString(maximumFractionDigits: 1) // Output: 394.2
If you want to print a floating point number to 3 decimal places, you can use String(format: "%.3f"). This will round, so 0.10000001 becomes 0.100, 0.1009 becomes 0.101 etc.
But it sounds like you don’t want the trailing zeros, so you might want to trim them off. (is there a way to do this with format? edit: yes, g as #simons points out)
Finally, this really shouldn’t be a class function since it’s operating on primitive types. Better to either make it a free function, or perhaps extend Double/Float:
extension Double {
func toString(#decimalPlaces: Int)->String {
return String(format: "%.\(decimalPlaces)g", self)
}
}
let number = -0.3009
number.toString(decimalPlaces: 3) // -0.301

NSNumberFormatter PercentStyle decimal places

I'm using Swift
let myDouble = 8.5 as Double
let percentFormatter = NSNumberFormatter()
percentFormatter.numberStyle = NSNumberFormatterStyle.PercentStyle
percentFormatter.multiplier = 1.00
let myString = percentFormatter.stringFromNumber(myDouble)!
println(myString)
Outputs 8% and not 8.5%, how would I get it to output 8.5%? (But only up to 2 decimal places)
To set the number of fraction digits use:
percentFormatter.minimumFractionDigits = 1
percentFormatter.maximumFractionDigits = 1
Set minimum and maximum to your needs. Should be self-explanatory.
With Swift 5, NumberFormatter has an instance property called minimumFractionDigits. minimumFractionDigits has the following declaration:
var minimumFractionDigits: Int { get set }
The minimum number of digits after the decimal separator allowed as input and output by the receiver.
NumberFormatter also has an instance property called maximumFractionDigits. maximumFractionDigits has the following declaration:
var maximumFractionDigits: Int { get set }
The maximum number of digits after the decimal separator allowed as input and output by the receiver.
The following Playground code shows how to use minimumFractionDigits and maximumFractionDigits in order to set the number of digits after the decimal separator when using NumberFormatter:
import Foundation
let percentFormatter = NumberFormatter()
percentFormatter.numberStyle = NumberFormatter.Style.percent
percentFormatter.multiplier = 1
percentFormatter.minimumFractionDigits = 1
percentFormatter.maximumFractionDigits = 2
let myDouble1: Double = 8
let myString1 = percentFormatter.string(for: myDouble1)
print(String(describing: myString1)) // Optional("8.0%")
let myDouble2 = 8.5
let myString2 = percentFormatter.string(for: myDouble2)
print(String(describing: myString2)) // Optional("8.5%")
let myDouble3 = 8.5786
let myString3 = percentFormatter.string(for: myDouble3)
print(String(describing: myString3)) // Optional("8.58%")
When in doubt, look in apple documentation for minimum fraction digits and maximum fraction digits which will give you these lines you have to add before formatting your number:
numberFormatter.minimumFractionDigits = 1
numberFormatter.maximumFractionDigits = 2
Also notice, your input has to be 0.085 to get 8.5%. This is caused by the multiplier property, which is for percent style set to 100 by default.

Split a double by dot to two numbers

So I am trying to split a number in swift, I have tried searching for this on the internet but have had no success. So first I will start with a number like:
var number = 34.55
And from this number, I want to create two separate number by splitting from the dot. So the output should be something like:
var firstHalf = 34
var secondHalf = 55
Or the output can also be in an array of thats easier. How can I achieve this?
The easiest way would be to first cast the double to a string:
var d = 34.55
var b = "\(d)" // or String(d)
then split the string with the global split function:
var c = split(b) { $0 == "." } // [34, 55]
You can also bake this functionality into a double:
extension Double {
func splitAtDecimal() -> [Int] {
return (split("\(self)") { $0 == "." }).map({
return String($0).toInt()!
})
}
}
This would allow you to do the following:
var number = 34.55
print(number.splitAtDecimal()) // [34, 55]
Well, what you have there is a float, not a string. You can't really "split" it, and remember that a float is not strictly limited to 2 digits after the separator.
One solution is :
var firstHalf = Int(number)
var secondHalf = Int((number - firstHalf) * 100)
It's nasty but it'll do the right thing for your example (it will, however, fail when dealing with numbers that have more than two decimals of precision)
Alternatively, you could convert it into a string and then split that.
var stringified = NSString(format: "%.2f", number)
var parts = stringifed.componentsSeparatedByString(".")
Note that I'm explicitly calling the formatter here, to avoid unwanted behavior of standard float to string conversions.
Add the following extension:
extension Double {
func splitIntoParts(decimalPlaces: Int, round: Bool) -> (leftPart: Int, rightPart: Int) {
var number = self
if round {
//round to specified number of decimal places:
let divisor = pow(10.0, Double(decimalPlaces))
number = Darwin.round(self * divisor) / divisor
}
//convert to string and split on decimal point:
let parts = String(number).components(separatedBy: ".")
//extract left and right parts:
let leftPart = Int(parts[0]) ?? 0
let rightPart = Int(parts[1]) ?? 0
return(leftPart, rightPart)
}
Usage - Unrounded:
let number:Double = 95.99999999
let parts = number.splitIntoParts(decimalPlaces: 3, round: false)
print("LeftPart: \(parts.leftPart) RightPart: \(parts.rightPart)")
Outputs:
LeftPart: 95 RightPart: 999
Usage Rounded:
let number:Double = 95.199999999
let parts = number.splitIntoParts(decimalPlaces: 1, round: true)
Outputs:
LeftPart: 95 RightPart: 2
Actually, it's not possible to split a double by dot into two INTEGER numbers. All earlier offered solutions will produce a bug in nearly 10% of cases.
Here's why:
The breaking case will be numbers with decimal parts starting with one or more zeroes, for example: 1.05, 11.00698, etc.
Any decimal part that starts with one or more zeroes will have those zeroes discarded when converted to integers. The result of those conversions:
1.05 will become (1, 5)
11.00698 will become (11, 698)
An ugly and hard to find bug is guaranteed...
The only way to meaningfully split a decimal number is to convert it to (Int, Double). Below is a simple extension to Double that does that:
extension Double {
func splitAtDecimal() -> (Int, Double) {
let whole = Int(self)
let decimal = self - Darwin.floor(self)
return (whole, decimal)
}
}