This is a framework implementing advanced numeric data types for the Swift programming language on macOS, iOS and Linux. Currently, the framework provides four new numeric types, each represented as a struct or enumeration:
BigInt
: arbitrary-size signed integersInteger
: arbitrary-size signed integers whose implementation depends on the size of the represented value.Rational
: signed rational numbersComplex
: complex floating-point numbers
Note: So far, with every major version of Swift, Apple decided to change the foundational APIs of the numeric
types in Swift significantly and consistently in a backward incompatible way. In order to be more isolated from
such changes in future, with Swift 3, I decided to introduce a distinct integer type used in NumberKit based on a
new protocol IntegerNumber
. All standard numeric integer types implement this protocol. This is now consistent
with the usage of protocol FloatingPointNumber
for floating point numbers, where there was, so far, never a
real, generic enough foundation (and still isn't).
BigInt
values are immutable, signed, arbitrary-size integers that can be used as a
drop-in replacement for the existing binary integer types of Swift 5.
Struct BigInt
defines all
the standard arithmetic integer operations and implements the corresponding numeric
protocols of Swift.
Integer
values are immutable, signed, arbitrary-size integers that can be used as a
drop-in replacement for the existing binary integer types of Swift 5. As opposed to BigInt
,
the representation of values is chosen to optimize for memory size and performance of
arithmetic operations. Enum Integer
defines all the standard arithmetic integer operations and implements the corresponding
numeric protocols of Swift.
Struct Rational<T>
defines immutable, rational numbers based on an existing signed integer
type T
, like Int32
, Int64
, or BigInt
. A rational number is a signed number that can
be expressed as the quotient of two integers a and b: a / b.
Struct Complex<T>
defines complex numbers based on an existing floating point type T
, like Float
or Double
. A complex number
consists of two components, a real part re and an imaginary part im and is typically written as: re + im * i
where i is the imaginary unit.
The following technologies are needed to build the components of the Swift NumberKit framework:
- Xcode 15 or Xcode 16
- Swift 5 or Swift 6
- Swift Package Manager
- macOS, iOS or Linux
Author: Matthias Zenger ([email protected])
Copyright © 2016-2024 Matthias Zenger. All rights reserved.