Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

[BigInt tests] ❌ Nodejs tests #243

Open
wants to merge 2 commits into
base: biginteger
Choose a base branch
from
Open
Show file tree
Hide file tree
Changes from all commits
Commits
File filter

Filter by extension

Filter by extension

Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
69 changes: 69 additions & 0 deletions Tests/BigIntTests/Helpers/BigInt+Extensions.swift
Original file line number Diff line number Diff line change
@@ -0,0 +1,69 @@
//===--- BigInt+Extensions.swift ------------------------------*- swift -*-===//
//
// This source file is part of the Swift Numerics open source project
//
// Copyright (c) 2023 Apple Inc. and the Swift Numerics project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
//
//===----------------------------------------------------------------------===//

import BigIntModule

extension BigInt {

internal typealias Word = Words.Element

internal init(isPositive: Bool, magnitude: [BigIntPrototype.Word]) {
let p = BigIntPrototype(isPositive: isPositive, magnitude: magnitude)
self = p.create()
}

internal init(_ sign: BigIntPrototype.Sign, magnitude: BigIntPrototype.Word) {
let p = BigIntPrototype(sign, magnitude: magnitude)
self = p.create()
}

internal init(_ sign: BigIntPrototype.Sign, magnitude: [BigIntPrototype.Word]) {
let p = BigIntPrototype(sign, magnitude: magnitude)
self = p.create()
}

internal func power(exponent: BigInt) -> BigInt {
precondition(exponent >= 0, "Exponent must be positive")

if exponent == 0 {
return BigInt(1)
}

if exponent == 1 {
return self
}

// This has to be after 'exp == 0', because 'pow(0, 0) -> 1'
if self == 0 {
return 0
}

var base = self
var exponent = exponent
var result = BigInt(1)

// Eventually we will arrive to most significant '1'
while exponent != 1 {
let exponentIsOdd = exponent & 0b1 == 1

if exponentIsOdd {
result *= base
}

base *= base
exponent >>= 1 // Basically divided by 2, but faster
}

// Most significant '1' is odd:
result *= base
return result
}
}
293 changes: 293 additions & 0 deletions Tests/BigIntTests/Helpers/BigIntPrototype.swift
Original file line number Diff line number Diff line change
@@ -0,0 +1,293 @@
//===--- BigIntPrototype.swift --------------------------------*- swift -*-===//
//
// This source file is part of the Swift Numerics open source project
//
// Copyright (c) 2023 Apple Inc. and the Swift Numerics project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
//
//===----------------------------------------------------------------------===//

import XCTest
import BigIntModule

// MARK: - BigIntPrototype

/// Abstract way of representing `BigInt` without assuming internal representation.
/// Basically an immutable `Word` collection with a sign.
///
/// It can be used to create multiple independent `BigInt` instances with
/// the same value (used during equality tests etc).
internal struct BigIntPrototype {

internal typealias Word = UInt64

internal enum Sign {
case positive
case negative
}

/// Internally `Int1`.
internal let sign: Sign
/// Least significant word is at index `0`.
/// Empty means `0`.
internal let magnitude: [Word]

internal var isPositive: Bool {
return self.sign == .positive
}

internal var isNegative: Bool {
return self.sign == .negative
}

internal var isZero: Bool {
return self.magnitude.isEmpty
}

/// Is `magnitude == 1`?` It may be `+1` or `-1` depending on the `self.sign`.
internal var isMagnitude1: Bool {
return self.magnitude.count == 1 && self.magnitude[0] == 1
}

internal init(_ sign: Sign, magnitude: Word) {
self.init(sign, magnitude: [magnitude])
}

internal init(_ sign: Sign, magnitude: [Word]) {
self.sign = sign
self.magnitude = magnitude

let isZero = self.magnitude.isEmpty
let zeroHasPositiveSign = !isZero || sign == .positive
assert(zeroHasPositiveSign, "[BigIntPrototype] Negative zero")
}

internal init(isPositive: Bool, magnitude: [Word]) {
let sign: Sign = isPositive ? .positive : .negative
self.init(sign, magnitude: magnitude)
}

/// `BigInt` -> `BigIntPrototype`.
@available(
*,
deprecated,
message: "Use only when writing test cases to convert BigInt -> Prototype."
)
internal init(_ big: BigInt) {
var n = abs(big)

let power = BigInt(Word.max) + 1
var magnitude = [Word]()

while n != 0 {
let rem = n % power
magnitude.append(Word(rem))
n /= power
}

let sign = big < 0 ? Sign.negative : Sign.positive
self = BigIntPrototype(sign, magnitude: magnitude)
}

internal var withOppositeSign: BigIntPrototype {
assert(!self.isZero, "[BigIntPrototype] Negative zero: (0).withOppositeSign")
return BigIntPrototype(isPositive: !self.isPositive, magnitude: self.magnitude)
}

internal func withAddedWord(word: Word) -> BigIntPrototype {
var magnitude = self.magnitude
magnitude.append(word)
return BigIntPrototype(isPositive: self.isPositive, magnitude: magnitude)
}

internal var withRemovedWord: BigIntPrototype {
assert(!self.isZero, "[BigIntPrototype] Removing word from zero")

var magnitude = self.magnitude
magnitude.removeLast()

// Removing word may have made the whole value '0', which could change sign!
let isZero = magnitude.isEmpty
let isPositive = self.isPositive || isZero
return BigIntPrototype(isPositive: isPositive, magnitude: magnitude)
}

/// Collection where each element is a `BigIntPrototype` with one of the words
/// modified by provided `wordChange`.
///
/// Used to easily create prototypes with smaller/bigger magnitude.
/// Useful for testing `==`, `<`, `>`, `<=` and `>=`.
internal func withEachMagnitudeWordModified(
byAdding wordChange: Int
) -> WithEachMagnitudeWordModified {
return WithEachMagnitudeWordModified(base: self, by: wordChange)
}

internal func create() -> BigInt {
return BigIntPrototype.create(isPositive: self.isPositive, magnitude: self.magnitude)
}

internal static func create<T: FixedWidthInteger>(
isPositive: Bool,
magnitude: [T]
) -> BigInt {
assert(!T.isSigned)
var result = BigInt()
var power = BigInt(1)

for word in magnitude {
// As for the magic '+1' in power:
// Without it (example for UInt8):
// [255] -> 255*1 = 255
// [0, 1] -> 0 *1 + 1*255 = 255
// So, we have 2 ways of representing '255' (aka. T.max)
// With it:
// [255] -> 255*1 = 255
// [0, 1] -> 0 *1 + 1*(255+1) = 256
result += BigInt(word) * power
power *= BigInt(T.max) + 1
}

if !isPositive {
result *= -1
}

return result
}

internal enum CompareResult {
case equal
case less
case greater
}

internal static func compare(_ lhs: BigIntPrototype,
_ rhs: BigIntPrototype) -> CompareResult {
let lhsM = lhs.magnitude
let rhsM = rhs.magnitude

guard lhsM.count == rhsM.count else {
return lhsM.count > rhsM.count ? .greater : .less
}

for (l, r) in zip(lhsM, rhsM).reversed() {
if l > r {
return .greater
}

if l < r {
return .less
}
}

return .equal
}
}

// MARK: - Modify magnitude words

internal struct WithEachMagnitudeWordModified: Sequence {

internal typealias Element = BigIntPrototype

internal struct Iterator: IteratorProtocol {

private let base: BigIntPrototype
private let wordChange: Int
private var wordIndex = 0

internal init(base: BigIntPrototype, wordChange: Int) {
self.base = base
self.wordChange = wordChange
}

internal mutating func next() -> Element? {
var magnitude = self.base.magnitude
let wordChangeMagnitude = BigIntPrototype.Word(self.wordChange.magnitude)

while self.wordIndex < magnitude.count {
let word = magnitude[self.wordIndex]
defer { self.wordIndex += 1 }

let (newWord, hasOverflow) = self.wordChange >= 0 ?
word.addingReportingOverflow(wordChangeMagnitude) :
word.subtractingReportingOverflow(wordChangeMagnitude)

if !hasOverflow {
magnitude[self.wordIndex] = newWord
let isPositive = self.base.isPositive
return BigIntPrototype(isPositive: isPositive, magnitude: magnitude)
}
}

return nil
}
}

private let base: BigIntPrototype
private let wordChange: Int

internal init(base: BigIntPrototype, by wordChange: Int) {
self.base = base
self.wordChange = wordChange
}

internal func makeIterator() -> Iterator {
return Iterator(base: self.base, wordChange: self.wordChange)
}
}

// MARK: - Tests

/// Tests for `BigIntPrototype`.
/// Yep… we are testing our test code…
class BigIntPrototypeTests: XCTestCase {

func test_create() {
let p1 = BigIntPrototype(.positive, magnitude: [.max])
let big1 = p1.create()
let expected1 = BigInt(BigIntPrototype.Word.max)
XCTAssertEqual(big1, expected1)

let p2 = BigIntPrototype(.positive, magnitude: [0, 1])
let big2 = p2.create()
let expected2 = BigInt(BigIntPrototype.Word.max) + 1
XCTAssertEqual(big2, expected2)
}

func test_magnitudeWordModified_positive() {
let p = BigIntPrototype(.positive, magnitude: [3, .max, 5])
let modified = p.withEachMagnitudeWordModified(byAdding: 7)
var iter = modified.makeIterator()

let p1 = iter.next()
XCTAssertEqual(p1?.magnitude, [10, .max, 5])

// '.max' should be skipped, because it overflows

let p2 = iter.next()
XCTAssertEqual(p2?.magnitude, [3, .max, 12])

let p3 = iter.next()
XCTAssertNil(p3)
}

func test_magnitudeWordModified_negative() {
let p = BigIntPrototype(.positive, magnitude: [7, 3, 11])
let modified = p.withEachMagnitudeWordModified(byAdding: -5)
var iter = modified.makeIterator()

let p1 = iter.next()
XCTAssertEqual(p1?.magnitude, [2, 3, 11])

// '3' should be skipped, because it overflows

let p2 = iter.next()
XCTAssertEqual(p2?.magnitude, [7, 3, 6])

let p3 = iter.next()
XCTAssertNil(p3)
}
}
Loading