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swift-pons

Protocol-Oriented Number System in Pure Swift

Synopsis

var bi = BigInt(1) << 1024 - 1          // BigInt
var bq = BigInt(1).over(BigInt(2))      // BigRat
bq = BigRat.sqrt(bq)                    // and Its math functions
var bf = BigFloat(bq)                   // and BigFloat
BigFloat.acos(bf)                       // and Its math functions, too
var cd  = Complex.sqrt(-1.0)            // and Complex<Double>
let pi128 = BigFloat.PI(precision:128)
var cbf = Complex.exp(pi128.i)          // and Complex<BigFloat>
// and more!

Description

Back in the day of Swift 2, PONS was created to demonstrate

func fib<T:SomeType>(_ n:T)->T {
    return n < 2 ? n: (2...Int(n)).reduce((T(0), T(1))){
        (p, _) in (p.1, p.0 + p.1)
    }.1
}

let F11  = fib(11 as Int8)
let F13  = fib(13 as UInt8)
let F23  = fib(23 as Int16)
let F24  = fib(24 as UInt16)
let F46  = fib(46 as Int32)
let F47  = fib(47 as UInt32)
let F92  = fib(92 as Int64)
let F93  = fib(93 as UInt64)
let F666 = fib(666 as BigInt)

is possible. With SE-0104 which is implemented in Swift 4, you can do that out-of-the-box. Just replace SomeType with BinaryInteger and it just works. Ironically that broke the previous version but I am glad Swift has evolved the way it should be. What I was not so happy was that PONS was more than a prototype of protocol-oriented numeric types. It offered

  • Arbitrary-precision Integer (BigInt)
  • Arbitrary-precision Rational (BigRat)
  • Arbitrary-precision Floating Point (BigFloat)
  • Generic Complex.

and so forth. So I decided to restore them but this time with Swift Standard Library and Swift Package Manager. See the graph below.

As you see most types are Swift built-ins and the new PONS acts as an add-on. Now see the graph below.

This is what PONS was. Virtually all necessary protocols and types were custom-made.

PONS was also too monolithic, which was ironical because the best part of the protocol-oriented programming was modularization, or distribution of labor. Thanks to Swift Package Manager PONS is modular. BigInt, for instance, is fetched from attaswift/BigInt. PONS is now an aggregator module that currently binds the following:

  • BigInt: arbitrary-precision integer
  • BigNum: arbitrary-precision floating-point (BigRat and BigFloat
  • Int2X: Double-width integers that is recursively built as typealias Int128 = Int2X<UInt64>
  • Interval: Interval arithmetic. Interval<FloatingPioint> is also <FloatingPoint> so interval arithmetic is easier than ever.
  • Complex: Complex numbers. Any FloatingPoint can be its .real and .imag. To avoid misuse, complex integers are named GaussianInt.

Usage

build

$ git clone https://github.com/dankogai/swift-pons.git
$ cd swift-pons # the following assumes your $PWD is here
$ swift build

REPL

Simply

$ scripts/run-repl.sh

or

$ swift run --repl

and in your repl,

Welcome to Apple Swift version 4.1 (swiftlang-902.0.48 clang-902.0.39.1). Type :help for assistance.
  1> import PONS

Xcode

Xcode project is deliberately excluded from the repository because it should be generated via swift package generate-xcodeproj . For convenience, you can

$ scripts/prep-xcode

And the Workspace opens up for you with Playground on top. The playground is written as a manual.

From Your SwiftPM-Managed Projects

Add the following to the dependencies section:

.package(
  url: "https://github.com/dankogai/swift-pons.git", .branch("master")
)

and the following to the .target argument:

.target(
  name: "YourSwiftyPackage",
  dependencies: ["PONS"])

Now all you have to do is:

import PONS

in your code. Enjoy!

Prerequisite

Swift 5 or better, OS X or Linux to build.

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Protocol-Oriented Number System in Pure Swift

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