Latest 0.2.0
Homepage https://github.com/brynbellomy/SwiftBitmask
License MIT
Platforms ios 8.0, osx 10.10, requires ARC
Dependencies Funky
Authors

a replacement for NS_OPTIONS / RawOptionSet

Build Status
CocoaPods
CocoaPods
CocoaPods
[GitHub tag]()

Bitmask<T> is a quicker way to get NS_OPTIONS-style functionality in a Swift environment. It’s intended as a replacement for Swift’s RawOptionSet, which is so long and arduous to implement that someone wrote a code generator for it.

It allows you to use the simple, familiar syntax of Swift’s bitwise operators (|, &, ~, ^, etc.) with any custom struct, enum, or class type by wrapping that type in a Bitmask<T>.

install

Use CocoaPods.

In your Podfile:

pod 'SwiftBitmask'

And then from the command line:

$ pod install

Bitmask<T> with raw integer types

The Bitmask class takes a generic parameter indicating the type of integer you want to use to store the bitmask’s raw value. Code:

let bitmask = Bitmask<UInt16>(1 << 2 | 1 << 5)
bitmask.bitmaskValue  // returns UInt16(1 << 2 | 1 << 5)
let bitmaskA = Bitmask<UInt16>(1 << 2)
let bitmaskB = Bitmask<UInt16>(1 << 5)
let allTogetherNow = bitmaskA | bitmaskB
bitmask.bitmaskValue  // also returns UInt16(1 << 2 | 1 << 5), just like above

Bitmask<T> with any type

Bitmasks can be converted back and forth between non-integer types as well. Any type implementing the IBitmaskRepresentable protocol gets this functionality for free.

All the protocol requires is that you implement var bitmaskValue, ensuring that its type conforms to BitwiseOperationsType and Equatable:

public protocol IBitmaskRepresentable
{
    typealias BitmaskRawType : BitwiseOperationsType, Equatable
    var bitmaskValue : BitmaskRawType { get }
}

Just use any built-in integer type and it’ll work.

Here’s a quick example of a type that implements IBitmaskRepresentable:

enum MonsterAttributes : UInt16, IBitmaskRepresentable
{
    case Big = 1
    case Ugly = 2
    case Scary = 4

    var bitmaskValue : BitmaskRawType { return self.rawValue }

    init(bitmaskValue: UInt16) {
        self.init(rawValue:bitmaskValue)
    }
}

Now you can create a Bitmask<MonsterAttributes> and use it the same way you would use a Bitmask with a raw integer underlying type:

let b = Bitmask<MonsterAttributes>(.Big, .Scary)

what does this get me?

concise syntax

You can write code that’s almost as concise as the syntax you would use for simple, integral bitwise operations, but with the improved type safety and versatility of doing so with your own custom type. Note that you almost never have to write Bitmask<T>:

// prefix operator initialization
let bitmask = |MonsterAttributes.Scary         // == Bitmask(MonsterAttributes.Scary)

// implicit initialization via bitwise operators
let option : MonsterAttributes = .Ugly
let orWithVar = option | .Big                 // == Bitmask<UInt16> with a bitmaskValue of 1 | 2
let simpleOr  = MonsterAttributes.Big | .Ugly // == Bitmask<UInt16> with a bitmaskValue of 1 | 2

// the raw bitmask value can be obtained with from the bitmaskValue property
let simpleOrValue = simpleOr.bitmaskValue                        // == UInt16(1 | 2)
let orValue       = (MonsterAttributes.Big | .Ugly).bitmaskValue // == UInt16(1 | 2)

if statements

Bitmask also implements NilLiteralConvertible and BooleanType, which allow for concise conditionals:

// Bitmask<T> implements BooleanType
if simpleOr & MonsterAttributes.Scary {
    println("(boolean comparison) scary!")
}

// Bitmask<T> implements NilLiteralConvertible
if simpleOr & MonsterAttributes.Scary != nil {
    println("(nil literal comparison) scary!")
}

pattern matching + switch

Bitmask can tango with the pattern-matching operator (~=), which is basically equivalent to checking if bits are set using &:

// Bitmask<T> is compatible with ~=, the pattern-matching operator
if simpleOr ~= MonsterAttributes.Scary {
    println("(pattern matching operator) scary!")
}

if simpleOr ~= MonsterAttributes.Scary | .Big {
    println("(pattern matching operator) either big or scary!")
}

You can write switch statements with Bitmask too, although in my experience playing around with this code so far, it almost never seems to be the control structure that makes the most sense. If you insist upon trying it out, just be careful to add fallthroughs where appropriate and put your case statements in an order that makes sense for your application:

switch simpleOr
{
    case |MonsterAttributes.Big:
        println("big!")
        fallthrough

    case MonsterAttributes.Big | .Scary:
        println("either big or scary!")
        fallthrough

    case |MonsterAttributes.Ugly:
        println("ugly!")
        fallthrough

    case |MonsterAttributes.Scary:
        println("scary!")
        fallthrough

    default:
        // ...
}

automatic bitmask raw values for the lazy and overworked

You can also have your Bitmask object auto-generate the bitmask values for your IBitmaskRepresentable type. This is useful if, say, your type is an enum with a non-integer raw type.

For example, let’s say you’re reading options out of a JSON config file and they’re represented as an array of strings, and you want your enum‘s rawValues to represent what’s in the file. By implementing IAutoBitmaskable, you can use a couple of convenience functions in your type’s implementation of IBitmaskRepresentable and escape having to write a big switch statement that doubles the length of your type’s code.

Just conform to IAutoBitmaskable and add class/static var autoBitmaskValues : [Self], which should return all of the values of your enum. You can then implement var bitmaskValue and init(bitmaskValue:T) with the auto-bitmasking functions like so:

enum MonsterAttributes : String, IBitmaskRepresentable, IAutoBitmaskable
{
    case Big = "big"
    case Ugly = "ugly"
    case Scary = "scary"

    static var autoBitmaskValues : [MonsterAttributes] = [.Big, .Ugly, .Scary,]

    var  bitmaskValue: UInt16  { return AutoBitmask.autoBitmaskValueFor(self) }
    init(bitmaskValue: UInt16) { self = AutoBitmask.autoValueFromBitmask(bitmaskValue) }
}

If you’re curious, the values in the autoBitmaskValues array are assigned integer bitmask values (i.e., 1 << 0, 1 << 1, … 1 << n) from left to right.

a few implementation details

It’s worth noting that because Bitmask stores its raw value as a basic BitwiseOperationsType (in other words, an integer of some kind), its memory footprint is incredibly small, especially compared with an implementation that basically functions as a wrapper over a Set (or some other collection type). This is particularly nice when you’re using bitmasks to initialize or configure a huge number of objects at the same time.

The trade-off, of course, is that any time you convert values back and forth between your IBitmaskRepresentable type and Bitmask, it incurs some processing overhead in accessing your object’s bitmaskValue property (and, if you implemented IAutoBitmaskable, there’s an array search operation involved as well — take a look at AutoBitmask.swift if you’re concerned about that).

I chose this implementation because I’m using Bitmask to initialize values during a load phase of a game I’m working on. Since the actual Bitmask objects are out of the picture as soon as loading is complete, there’s very little back-and-forth between my IBitmaskRepresentable types and Bitmask, meaning there’s not much processing overhead for me. I just hold onto the integer values, which is what the game engine wants anywway.

However, if you have a use case that would benefit from implementing Bitmask as a collection wrapper, I’d be interested in hearing about it in the issue queue!

license

ISC

authors / contributors

bryn bellomy < [email protected] >

Latest podspec

{
    "name": "SwiftBitmask",
    "version": "0.2.0",
    "summary": "NS_OPTIONS for Swift (type-checked bitmask container).  Basically an easier-to-implement RawOptionSet.",
    "authors": {
        "bryn austin bellomy": "[email protected]"
    },
    "license": {
        "type": "MIT",
        "file": "LICENSE.md"
    },
    "homepage": "https://github.com/brynbellomy/SwiftBitmask",
    "platforms": {
        "ios": "8.0",
        "osx": "10.10"
    },
    "source_files": "Source/*.swift",
    "requires_arc": true,
    "dependencies": {
        "Funky": [
            "0.3.0"
        ]
    },
    "source": {
        "git": "https://github.com/brynbellomy/SwiftBitmask.git",
        "tag": "0.2.0"
    }
}

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