Java 8, 485 byte

4

Java 8, 485 byte

Bisa mengurangi 5 byte lain penamaan fungsi, dbukandivide atau 16 byte lain jika tidak menghitung definisi kelas.

public class G{int l(String a){return a.length();}String s(String n,String m){while(l(n)>l(m))m=0+m;String a="";for(int c=1,i=l(n);i>0;c=c/10){c=n.charAt(--i)+c-m.charAt(i)+9;a=c%10+a;}return e(a);}String e(String a){return a.replaceAll("^0+(?=[0-9])","");}String divide(String n,String m){String q="",p=q,y;for(int b=0,i=0;b<=l(n);i--){y=n.substring(0,b);if(l(y)==l(p)&&p.compareTo(y)<=0||l(y)>l(p)){y=s(y,p);n=y+n.substring(b);q+=i;b=l(y)+1;i=10;p=m+0;}p=s(p,m);}return e(q)+","+n;}}

Dapat digunakan seperti ini:

public static void main(String[] args) {
    G devision = new G();
    System.out.println(devision.divide("20397882081197443358640281739902897356800000000",
            "265252859812191058636308480000000"));
    System.out.println(devision.divide("31035053229546199656252032972759319953190362094566672920420940313",
            "1234567891011121314151617181920"));
    System.out.println(devision.divide(
            "271841734957981007420619769446411009306983931324177095509044302452019682761900886307931759877838550251114468516268739270368160832305944024022562873534438165159941045492295721222833276717171713647977188671055774220331117951120982666270758190446133158400369433755555593913760141099290463039666313245735358982466993720002701605636609796997120000000000000000000000000000000000000000000000000",
            "247"));
}

menghasilkan

76899763100160,0
25138393324103249083146424239449429,62459510197626865203087816633
1100573825740813795225181252819477770473619155158611722708681386445423816849801159141424129060075102231232666057768175183676764503262931271346408394876267875141461722640873365274628650676808557279259873162169126398101692109801549256156915750794061370041981513180387019893765753438422927286098434193260562682052606153857091520795991080960000000000000000000000000000000000000000000000000,0

Tidak Terkumpul:

public class ArbitraryPrecisionDivision {

    /**
     * Length of String
     */
    int l(String a) {
        return a.length();
    }

    /**
     * substract m of n; n >= m
     */
    String s(String n, String m) {
        while (l(n) > l(m))
            m = 0 + m;
        String a = "";
        for (int c = 1, i = l(n); i > 0; c = c / 10) {
            c = n.charAt(--i) + c - m.charAt(i) + 9;
            a = c % 10 + a;
        }
        return e(a);
    }

    /**
     * trim all leading 0s
     */
    String e(String a) {
        return a.replaceAll("^0+(?=[0-9])", "");
    }

    /**
     * divide n by m returning n/m,n%m; m may not start with a 0!
     */
    String divide(String n, String m) {
        // q stores the quotient, p stores m*i, y are the b leading digits of n
        String q = "", p = q, y;
        for (int b = 0, i = 0; b <= l(n); i--) {
            y = n.substring(0, b);
            if (l(y) == l(p) && p.compareTo(y) <= 0 || l(y) > l(p)) {
                y = s(y, p);
                n = y + n.substring(b);
                q += i;
                b = l(y) + 1;
                i = 10;
                p = m + 0;
            }
            p = s(p, m);
        }
        return e(q) + "," + n;
    }

    public static void main(String[] args) {
        ArbitraryPrecisionDivision division = new ArbitraryPrecisionDivision();
        System.out.println(division.divide("20397882081197443358640281739902897356800000000",
                "265252859812191058636308480000000"));
        System.out.println(division.divide("31035053229546199656252032972759319953190362094566672920420940313",
                "1234567891011121314151617181920"));
        System.out.println(division.divide(
                "271841734957981007420619769446411009306983931324177095509044302452019682761900886307931759877838550251114468516268739270368160832305944024022562873534438165159941045492295721222833276717171713647977188671055774220331117951120982666270758190446133158400369433755555593913760141099290463039666313245735358982466993720002701605636609796997120000000000000000000000000000000000000000000000000",
                "247"));
    }
}

Saya mengorbankan sedikit kecepatan dengan tidak menghitung ulang array dengan mwaktu 1 hingga 9 dan mulai dengan b=0alih - alihb=l(m) , tetapi menghemat banyak byte dengan melakukannya. Jika Anda tertarik pada penambahan presisi sewenang-wenang, lihat versi sebelumnya .

Saya kira ini bukan solusi tersingkat, tapi mungkin ini memberikan awal yang baik.

Korektor
sumber
Jika Anda menerapkan penambahan, perkalian, dan pengurangan untuk ini juga, saya akan membuat hadiah 500 rep untuk ini. : D Saya suka ide ketelitian Stringy.
Addison Crump
@VoteToClose akan melihat ini besok. Kira bagian tersulit dilakukan.
TheConstructor

Jawaban:

1

Mathematica, 251 byte

r=Reverse;f=FoldPairList;s={0}~Join~#&;
p[a_,b_]:={First@#,#[[2,1,-1,2]]}/.{Longest[0..],x__}:>{x}&@Reap@f[Sow@{Length@#-1,Last@#}&@NestWhileList[r@f[{#~Mod~10,⌊#/10⌋}&[#+Subtract@@#2]&,0,r@Thread@{#,s@b}]&,Rest@#~Join~{#2},Order[#,s@b]<=0&]&,0s@b,s@a]

Penjelasan

Aritmatika pada angka desimal dapat dengan mudah diterapkan oleh FoldPairList. Sebagai contoh,

times[lint_,m_]:=Reverse@FoldPairList[{#~Mod~10,⌊#/10⌋}&[m #2+#]&,0,Reverse@lint]

hanya meniru proses melakukan perkalian dengan tangan.

times[{1,2,3,4,5},8]
(* {9,8,7,6,0} *)

Kasus cobaan

p[{1,2,3,4,5,6,7,8,9},{5,4,3,2,1}] 
(* {{2,2,7,2},{3,9,4,7,7}} *)

berarti 123456789 / 54321= 2272...39477.

njpipeorgan
sumber