2
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I just finished Project Euler #13 in Swift, and since there is not any version yet on Code Review, I would like to have some comments on what I did to try to improve it.

Work out the first ten digits of the sum of the following one-hundred 50-digit numbers.

37107287533902102798797998220837590246510135740250 46376937677490009712648124896970078050417018260538 74324986199524741059474233309513058123726617309629 91942213363574161572522430563301811072406154908250 23067588207539346171171980310421047513778063246676 89261670696623633820136378418383684178734361726757 28112879812849979408065481931592621691275889832738 44274228917432520321923589422876796487670272189318 47451445736001306439091167216856844588711603153276 70386486105843025439939619828917593665686757934951 62176457141856560629502157223196586755079324193331 64906352462741904929101432445813822663347944758178 92575867718337217661963751590579239728245598838407 58203565325359399008402633568948830189458628227828 80181199384826282014278194139940567587151170094390 35398664372827112653829987240784473053190104293586 86515506006295864861532075273371959191420517255829 71693888707715466499115593487603532921714970056938 54370070576826684624621495650076471787294438377604 53282654108756828443191190634694037855217779295145 36123272525000296071075082563815656710885258350721 45876576172410976447339110607218265236877223636045 17423706905851860660448207621209813287860733969412 81142660418086830619328460811191061556940512689692 51934325451728388641918047049293215058642563049483 62467221648435076201727918039944693004732956340691 15732444386908125794514089057706229429197107928209 55037687525678773091862540744969844508330393682126 18336384825330154686196124348767681297534375946515 80386287592878490201521685554828717201219257766954 78182833757993103614740356856449095527097864797581 16726320100436897842553539920931837441497806860984 48403098129077791799088218795327364475675590848030 87086987551392711854517078544161852424320693150332 59959406895756536782107074926966537676326235447210 69793950679652694742597709739166693763042633987085 41052684708299085211399427365734116182760315001271 65378607361501080857009149939512557028198746004375 35829035317434717326932123578154982629742552737307 94953759765105305946966067683156574377167401875275 88902802571733229619176668713819931811048770190271 25267680276078003013678680992525463401061632866526 36270218540497705585629946580636237993140746255962 24074486908231174977792365466257246923322810917141 91430288197103288597806669760892938638285025333403 34413065578016127815921815005561868836468420090470 23053081172816430487623791969842487255036638784583 11487696932154902810424020138335124462181441773470 63783299490636259666498587618221225225512486764533 67720186971698544312419572409913959008952310058822 95548255300263520781532296796249481641953868218774 76085327132285723110424803456124867697064507995236 37774242535411291684276865538926205024910326572967 23701913275725675285653248258265463092207058596522 29798860272258331913126375147341994889534765745501 18495701454879288984856827726077713721403798879715 38298203783031473527721580348144513491373226651381 34829543829199918180278916522431027392251122869539 40957953066405232632538044100059654939159879593635 29746152185502371307642255121183693803580388584903 41698116222072977186158236678424689157993532961922 62467957194401269043877107275048102390895523597457 23189706772547915061505504953922979530901129967519 86188088225875314529584099251203829009407770775672 11306739708304724483816533873502340845647058077308 82959174767140363198008187129011875491310547126581 97623331044818386269515456334926366572897563400500 42846280183517070527831839425882145521227251250327 55121603546981200581762165212827652751691296897789 32238195734329339946437501907836945765883352399886 75506164965184775180738168837861091527357929701337 62177842752192623401942399639168044983993173312731 32924185707147349566916674687634660915035914677504 99518671430235219628894890102423325116913619626622 73267460800591547471830798392868535206946944540724 76841822524674417161514036427982273348055556214818 97142617910342598647204516893989422179826088076852 87783646182799346313767754307809363333018982642090 10848802521674670883215120185883543223812876952786 71329612474782464538636993009049310363619763878039 62184073572399794223406235393808339651327408011116 66627891981488087797941876876144230030984490851411 60661826293682836764744779239180335110989069790714 85786944089552990653640447425576083659976645795096 66024396409905389607120198219976047599490197230297 64913982680032973156037120041377903785566085089252 16730939319872750275468906903707539413042652315011 94809377245048795150954100921645863754710598436791 78639167021187492431995700641917969777599028300699 15368713711936614952811305876380278410754449733078 40789923115535562561142322423255033685442488917353 44889911501440648020369068063960672322193204149535 41503128880339536053299340368006977710650566631954 81234880673210146739058568557934581403627822703280 82616570773948327592232845941706525094512325230608 22918802058777319719839450180888072429661980811197 77158542502016545090413245809786882778948721859617 72107838435069186155435662884062257473692284509516 20849603980134001723930671666823555245252804609722 53503534226472524250874054075591789781264330331690

import Foundation

func addToResult(inout results:[Int], var addResult:Int, index:Int) {

    if index == results.count {
        results.append(0)
    }

    addResult = results[index] + addResult

    var result = addResult % 10

    results[index] = result

    var retain = addResult / 10
    if retain > 0 {
        addToResult(&results, retain, index + 1)
    }
}

func add(left:String, right:String) -> String {

    let leftNumbers:[Int] = Array(left).reverse().map() { String($0).toInt()! }
    let rightNumbers:[Int] = Array(right).reverse().map() { String($0).toInt()! }

    var results:[Int] = [Int]()
    var index = max(leftNumbers.count, rightNumbers.count)

    var i = 0
    while i < index {

        let leftNumber = i >= leftNumbers.count ? 0 : leftNumbers[i]
        let rightNumber = i >= rightNumbers.count ? 0 : rightNumbers[i]

        let addResult = leftNumber + rightNumber
        addToResult(&results, addResult, i)

        i++
    }

    return "".join(results.reverse().map() { String($0) } )
}

func largeSum(numbers:[String]) -> String {

    var result = ""
    for number in numbers {

        result = add(result, number)

    }

    return result
}

func euler13() {
    let numbers = [
        "37107287533902102798797998220837590246510135740250",
        "46376937677490009712648124896970078050417018260538",
        "74324986199524741059474233309513058123726617309629",
        "91942213363574161572522430563301811072406154908250",
        "23067588207539346171171980310421047513778063246676",
        "89261670696623633820136378418383684178734361726757",
        "28112879812849979408065481931592621691275889832738",
        "44274228917432520321923589422876796487670272189318",
        "47451445736001306439091167216856844588711603153276",
        "70386486105843025439939619828917593665686757934951",
        "62176457141856560629502157223196586755079324193331",
        "64906352462741904929101432445813822663347944758178",
        "92575867718337217661963751590579239728245598838407",
        "58203565325359399008402633568948830189458628227828",
        "80181199384826282014278194139940567587151170094390",
        "35398664372827112653829987240784473053190104293586",
        "86515506006295864861532075273371959191420517255829",
        "71693888707715466499115593487603532921714970056938",
        "54370070576826684624621495650076471787294438377604",
        "53282654108756828443191190634694037855217779295145",
        "36123272525000296071075082563815656710885258350721",
        "45876576172410976447339110607218265236877223636045",
        "17423706905851860660448207621209813287860733969412",
        "81142660418086830619328460811191061556940512689692",
        "51934325451728388641918047049293215058642563049483",
        "62467221648435076201727918039944693004732956340691",
        "15732444386908125794514089057706229429197107928209",
        "55037687525678773091862540744969844508330393682126",
        "18336384825330154686196124348767681297534375946515",
        "80386287592878490201521685554828717201219257766954",
        "78182833757993103614740356856449095527097864797581",
        "16726320100436897842553539920931837441497806860984",
        "48403098129077791799088218795327364475675590848030",
        "87086987551392711854517078544161852424320693150332",
        "59959406895756536782107074926966537676326235447210",
        "69793950679652694742597709739166693763042633987085",
        "41052684708299085211399427365734116182760315001271",
        "65378607361501080857009149939512557028198746004375",
        "35829035317434717326932123578154982629742552737307",
        "94953759765105305946966067683156574377167401875275",
        "88902802571733229619176668713819931811048770190271",
        "25267680276078003013678680992525463401061632866526",
        "36270218540497705585629946580636237993140746255962",
        "24074486908231174977792365466257246923322810917141",
        "91430288197103288597806669760892938638285025333403",
        "34413065578016127815921815005561868836468420090470",
        "23053081172816430487623791969842487255036638784583",
        "11487696932154902810424020138335124462181441773470",
        "63783299490636259666498587618221225225512486764533",
        "67720186971698544312419572409913959008952310058822",
        "95548255300263520781532296796249481641953868218774",
        "76085327132285723110424803456124867697064507995236",
        "37774242535411291684276865538926205024910326572967",
        "23701913275725675285653248258265463092207058596522",
        "29798860272258331913126375147341994889534765745501",
        "18495701454879288984856827726077713721403798879715",
        "38298203783031473527721580348144513491373226651381",
        "34829543829199918180278916522431027392251122869539",
        "40957953066405232632538044100059654939159879593635",
        "29746152185502371307642255121183693803580388584903",
        "41698116222072977186158236678424689157993532961922",
        "62467957194401269043877107275048102390895523597457",
        "23189706772547915061505504953922979530901129967519",
        "86188088225875314529584099251203829009407770775672",
        "11306739708304724483816533873502340845647058077308",
        "82959174767140363198008187129011875491310547126581",
        "97623331044818386269515456334926366572897563400500",
        "42846280183517070527831839425882145521227251250327",
        "55121603546981200581762165212827652751691296897789",
        "32238195734329339946437501907836945765883352399886",
        "75506164965184775180738168837861091527357929701337",
        "62177842752192623401942399639168044983993173312731",
        "32924185707147349566916674687634660915035914677504",
        "99518671430235219628894890102423325116913619626622",
        "73267460800591547471830798392868535206946944540724",
        "76841822524674417161514036427982273348055556214818",
        "97142617910342598647204516893989422179826088076852",
        "87783646182799346313767754307809363333018982642090",
        "10848802521674670883215120185883543223812876952786",
        "71329612474782464538636993009049310363619763878039",
        "62184073572399794223406235393808339651327408011116",
        "66627891981488087797941876876144230030984490851411",
        "60661826293682836764744779239180335110989069790714",
        "85786944089552990653640447425576083659976645795096",
        "66024396409905389607120198219976047599490197230297",
        "64913982680032973156037120041377903785566085089252",
        "16730939319872750275468906903707539413042652315011",
        "94809377245048795150954100921645863754710598436791",
        "78639167021187492431995700641917969777599028300699",
        "15368713711936614952811305876380278410754449733078",
        "40789923115535562561142322423255033685442488917353",
        "44889911501440648020369068063960672322193204149535",
        "41503128880339536053299340368006977710650566631954",
        "81234880673210146739058568557934581403627822703280",
        "82616570773948327592232845941706525094512325230608",
        "22918802058777319719839450180888072429661980811197",
        "77158542502016545090413245809786882778948721859617",
        "72107838435069186155435662884062257473692284509516",
        "20849603980134001723930671666823555245252804609722",
        "53503534226472524250874054075591789781264330331690"
    ]

    let number = largeSum(numbers)

    println(number)
}

func printTimeElapsedWhenRunningCode(operation:() -> ()) {
    let startTime = CFAbsoluteTimeGetCurrent()
    operation()
    let timeElapsed = CFAbsoluteTimeGetCurrent() - startTime
    println("Time elapsed : \(timeElapsed) s")
}

printTimeElapsedWhenRunningCode(euler13)

The code executes in 0.1s

I'm not fan of the add function I did. Maybe storing the results in an [Int], was not the best choice, but I do not like the way String ranges/nTh character are handled. I did not find an elegant/performant way to have something like this :

let str = "123"
str[3] // An Optional Int?
str[2] // 3 as an Int
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2 Answers 2

1
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The definition of the numbers array

let numbers = [
    "37107287533902102798797998220837590246510135740250",
    ...
    "53503534226472524250874054075591789781264330331690"
]

takes a lot of space in the euler13() function and therefore distracts from the relevant code. I would store the original data from the Project Euler problem into a text file and load the data from there. That also helps to avoid copy/paste errors or other typos, e.g. when adding the quotation marks and commas.

For an Xcode command-line project this is done by adding a "Other->Empty" file "data.txt" to the project and adding this file to the "Copy Files" build phase:

enter image description here

Then you can copy/paste the given data into this file and load it at runtime, so that the main function becomes

func euler13() {
    let path = NSBundle.mainBundle().pathForResource("data", ofType: "txt")!
    let data = NSString(contentsOfFile: path, encoding: NSUTF8StringEncoding, error: nil)!
    let numbers = data.componentsSeparatedByString("\n") as [String]

    let number = largeSum(numbers)
    println(number)
}

Strictly speaking, your output is not correct, as the problem asks only for the first 10 digits of the sum. This would be done with

func euler13() {
    // ...

    let number = largeSum(numbers)
    println(number[number.startIndex ..< advance(number.startIndex, 10)])
}

Storing the numbers in an integer array is a good choice, as working on a Swift string directly would most probably be much slower. But I would separate the String <-> [Int] conversions into separate functions:

func stringToIntArray(str : String) -> [Int] {
    return Array(str).reverse().map() { String($0).toInt()! }
}

func intArrayToString(num: [Int]) -> String {
    return "".join(num.reverse().map() { String($0) } )
}

Your code computes the sum of two "large numbers" in an integer array and then converts that array back to a string. In the next step the string is converted to an integer array again for the next addition.

It would be more effective to use only integer arrays for all intermediate results, and convert only the final sum back to a string. Then largeSum() would look like this:

func largeSum(numbers:[String]) -> String {

    var result : [Int] = []
    for number in numbers {
        let num = stringToIntArray1(number)
        addToIntArray(&result, num)
    }

    return intArrayToString(result)
}

Your addToResult functions adds only a single digit to a "large integer" (represented as an [Int]) array. It is more effective to add two "large integers" in a single loop:

func addToIntArray(inout result: [Int], num: [Int]) {
    var carry = 0
    let commonLength = min(result.count, num.count)
    var index = 0
    while index < commonLength {
        let sum = result[index] + num[index] + carry
        result[index] = sum % 10
        carry = sum / 10
        index++
    }
    while index < num.count {
        let sum = num[index] + carry
        result.append(sum % 10)
        carry = sum / 10
        index++
    }
    while index < result.count && carry > 0 {
        let sum = result[index] + carry
        result[index] = sum % 10
        carry = sum / 10
        index++
    }
    if carry > 0 {
        result.append(carry)
    }
}

On my computer, these changes reduced the time from 0.032 to 0.017 seconds.

Now profiling showed that much of the time is spent in the stringToIntArray() function. The following version is significantly faster:

func stringToIntArray(str : String) -> [Int] {
    var num : [Int] = []
    let unicodeDigitZero = 48

    for digit in str.unicodeScalars {
        num.append(Int(digit.value) - unicodeDigitZero)
    }

    return reverse(num)
}

The computation time is now 0.006 seconds.

Ideas for further possible improvements:

  • Store more than one decimal digit in each element of the [Int] array. This would make the addition faster, but the string to array conversion more complicated.
  • Cheat. The problem asks only for the first 10 digits of the sum. That means that only a initial portion of the given numbers is actually needed.
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1
  • \$\begingroup\$ I changed everything but the add function. I just made it add the two large integers into a single loop. It is way faster/cleaner now! Thanks a lot for the good code reviews! Learning a lot. \$\endgroup\$ Jan 3, 2015 at 23:05
1
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You can shorten your program tremendously. Consider the following two things:

  1. You only need to sum the first 11 numbers to get the correct sum
  2. Take advantage of Swift's functional aspect

The entire solution can be condensed into this:

var totalSum = strings.map({
    $0.substringToIndex(advance($0.startIndex, 11)).toInt()!
}).reduce(0, +)

var stringSum : String = String(totalSum)
var sum = stringSum.substringToIndex(advance(stringSum.startIndex, 10))

println(sum)

Explanation

We use array.map() to create a new array from the existing numbers array. The new array contains the first 11 digits of each number from the original array. Each element is an int, converted using toInt(), which lets us apply reduce() to sum the array.

We then convert the sum to a string, and take the first 10 chars. And voila, you solved it.

This assumes you already have an array of strings, as is the case in your code:

let strings = [
    "37107287533902102798797998220837590246510135740250",
    // ...
    "53503534226472524250874054075591789781264330331690"
]
\$\endgroup\$
3
  • \$\begingroup\$ I did not want to "cheat". I am trying to get the "cleanest" solution possible. If the problem asked for the entire result, this solution would not work. But thanks for your answer! \$\endgroup\$ Jan 3, 2015 at 23:29
  • \$\begingroup\$ @Mehdi.Sqalli you are welcome. Even if you did not want to cheat, you can use the same code with two modifications: Change the int to a BigInt equivalent (not sure if Swift supports it out of the box) and remove the substring part. I understand you do not want to take shortcuts, but that's not cheating. It's part of Project Euler: it's expected, and encouraged to find the most efficient solution. For example, some problems, like problem 3, would take years for a computer to solve if you did not take a shortcut. \$\endgroup\$
    – Mohamad
    Jan 3, 2015 at 23:34
  • \$\begingroup\$ There is not any BigInt in swift yet. I totally understand the efficiency part of the Project Euler. I just used this problem to do my own infinite add. Which I had to do anyway for the Problem 16 (Power digit sum). \$\endgroup\$ Jan 3, 2015 at 23:41

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