Round up a CGFloat in Swift

Use it on swift 5

let x = 6.5

// Equivalent to the C 'round' function:
print(x.rounded(.toNearestOrAwayFromZero))
// Prints "7.0"

// Equivalent to the C 'trunc' function:
print(x.rounded(.towardZero))
// Prints "6.0"

// Equivalent to the C 'ceil' function:
print(x.rounded(.up))
// Prints "7.0"

// Equivalent to the C 'floor' function:
print(x.rounded(.down))
// Prints "6.0"

Update: Apple have now defined some CGFloat-specific versions of common functions like ceil:

func ceil(x: CGFloat) -> CGFloat

...specifically to cope with the 32/64-bit difference. If you simply use ceil with a CGFloat argument it should now work on all architectures.

My original answer:

This is pretty horrible, I think, but can anyone think of a better way? #if doesn't seem to work for CGFLOAT_IS_DOUBLE; I think you're limited to build configurations, from what I can see in the documentation for conditional compilation.

var x = CGFloat(0.5)

#if arch(x86_64) || arch(arm64)
var test = ceil(x)
#else
var test = ceilf(x)
#endif

With Swift 5, you can choose one of the 3 following paths in order to round up a CGFloat.


#1. Using CGFloat's rounded(_:) method

FloatingPoint protocol gives types that conform to it a rounded(_:) method. CGFloat's rounded(_:) has the following declaration:

func rounded(_ rule: FloatingPointRoundingRule) -> CGFloat

Returns this value rounded to an integral value using the specified rounding rule.

The Playground sample code below shows how to use rounded(_:) in order to round up a CGFloat value:

import CoreGraphics

let value1: CGFloat = -0.4
let value2: CGFloat = -0.5
let value3: CGFloat = -1
let value4: CGFloat = 0.4
let value5: CGFloat = 0.5
let value6: CGFloat = 1

let roundedValue1 = value1.rounded(.up)
let roundedValue2 = value2.rounded(.up)
let roundedValue3 = value3.rounded(.up)
let roundedValue4 = value4.rounded(.up)
let roundedValue5 = value5.rounded(.up)
let roundedValue6 = value6.rounded(.up)

print(roundedValue1) // prints -0.0
print(roundedValue2) // prints -0.0
print(roundedValue3) // prints -1.0
print(roundedValue4) // prints 1.0
print(roundedValue5) // prints 1.0
print(roundedValue6) // prints 1.0

#2. Using ceil(_:) function

Darwin provides a ceil(_:) function that has the following declaration:

func ceil<T>(_ x: T) -> T where T : FloatingPoint

The Playground code below shows how to use ceil(_:) in order to round up a CGFloat value:

import CoreGraphics

let value1: CGFloat = -0.4
let value2: CGFloat = -0.5
let value3: CGFloat = -1
let value4: CGFloat = 0.4
let value5: CGFloat = 0.5
let value6: CGFloat = 1

let roundedValue1 = ceil(value1)
let roundedValue2 = ceil(value2)
let roundedValue3 = ceil(value3)
let roundedValue4 = ceil(value4)
let roundedValue5 = ceil(value5)
let roundedValue6 = ceil(value6)

print(roundedValue1) // prints -0.0
print(roundedValue2) // prints -0.0
print(roundedValue3) // prints -1.0
print(roundedValue4) // prints 1.0
print(roundedValue5) // prints 1.0
print(roundedValue6) // prints 1.0

#3. Using NumberFormatter

If you want to round up a CGFloat and format it with style in the same operation, you may use NumberFormatter.

import Foundation
import CoreGraphics

let value1: CGFloat = -0.4
let value2: CGFloat = -0.5
let value3: CGFloat = -1
let value4: CGFloat = 0.4
let value5: CGFloat = 0.5
let value6: CGFloat = 1

let formatter = NumberFormatter()
formatter.numberStyle = NumberFormatter.Style.decimal
formatter.roundingMode = NumberFormatter.RoundingMode.ceiling
formatter.maximumFractionDigits = 0

let roundedValue1 = formatter.string(for: value1)
let roundedValue2 = formatter.string(for: value2)
let roundedValue3 = formatter.string(for: value3)
let roundedValue4 = formatter.string(for: value4)
let roundedValue5 = formatter.string(for: value5)
let roundedValue6 = formatter.string(for: value6)

print(String(describing: roundedValue1)) // prints Optional("-0")
print(String(describing: roundedValue2)) // prints Optional("-0")
print(String(describing: roundedValue3)) // prints Optional("-1")
print(String(describing: roundedValue4)) // prints Optional("1")
print(String(describing: roundedValue5)) // prints Optional("1")
print(String(describing: roundedValue6)) // prints Optional("1")