Vampire number: Difference between revisions
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=={{header|C++}}== |
=={{header|C++}}== |
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{{incorrect|C++| <br> Output is missing '''6880''' <br><br>}} |
{{incorrect|C++| <br> Output is missing vamparic numbers '''6880''' <br> and '''120600''' <br><br>}} |
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<lang cpp>#include <vector> |
<lang cpp>#include <vector> |
Revision as of 22:03, 1 February 2018
You are encouraged to solve this task according to the task description, using any language you may know.
A vampire number is a natural number with an even number of digits, that can be factored into two integers. These two factors are called the fangs, and must have the following properties:
- they each contain half the number of the digits of the original number
- together they consist of exactly the same digits as the original number
- at most one of them has a trailing zero
An example of a Vampire number and its fangs: 1260 : (21, 60)
- Task
- Print the first 25 Vampire numbers and their fangs.
- Check if the following numbers are Vampire numbers and, if so, print them and their fangs:
16758243290880, 24959017348650, 14593825548650
Note that a Vampire number can have more than one pair of fangs.
- See also
AutoHotkey
The following code should work for older (1.0.*) AHK versions as well: <lang AutoHotkey>SetBatchLines -1 ; used to improve performance
- (you can make it much faster by removing the informative tooltips)
- CONFIG
StartingNumber := 10 NumberLimit := 126030 CounterLimit := 25 ; calculations stop when one of these limits is reached AdditionalNumbers := "16758243290880,24959017348650,14593825548650"
CurrentCounter := 0, CurrentNumber := StartingNumber
Loop {
if !Mod(A_Index,75) ; informative tooltip (every 75 calculations, to avoid slowing down) ToolTip, % "Checking numbers...`nNumber: " CurrentNumber . "/" NumberLimit "`nFound: " CurrentCounter "/" CounterLimit if ( CurrentCounter >= CounterLimit ) || ( CurrentNumber >= NumberLimit ) Break if Mod(StrLen(CurrentNumber),2) CurrentNumber *= 10 else if ( ( CurrentResult := GetFangs(CurrentNumber) ) <> "" ) Output .= "`n" CurrentNumber ":`t" CurrentResult, CurrentCounter++ CurrentNumber++
} ToolTip ; hide informative tooltip
MsgBox % SubStr(Output,2) ; show output (first part)
Output := "" Loop, Parse, AdditionalNumbers, % "," {
ToolTip, % "Getting fangs for " A_LoopField " ..." ; informative tooltip Output .= "`n" A_LoopField ":`n`t" GetFangs(A_LoopField) "`n"
} ToolTip ; hide informative tooltip
MsgBox % SubStr(Output,2) ; show output (second part - additional numbers) ExitApp
- ----------------------------------------------------------------------------------
CharSorter(Input) { ; required by GetFangs()
Loop, Parse, Input Output .= A_LoopField "`n" Sort, Output StringReplace, Output, Output, % "`n",, All Return Output
}
- ----------------------------------------------------------------------------------
GetFangs(CurrentNumber) { ; requires CharSorter()
ResultIndex := 1 Length := StrLen(CurrentNumber) Power := (Length//2)-1 if Mod(Length,2) OR !Power Return "" NumberLimit := Floor(Sqrt(CurrentNumber)) Lower := 10 ** Power Loop, % NumberLimit - Lower { if !Mod(CurrentNumber,Lower) { FactorTwo := CurrentNumber//Lower if ( !Mod(Lower,10) && !Mod(FactorTwo,10) ) Return "" Check := CharSorter( Lower . FactorTwo ) if (CharSorter(CurrentNumber) = Check) && (StrLen(Lower) = StrLen(FactorTwo)) Output .= "`n`t[" Lower "," FactorTwo "]" } Lower++ } Return SubStr(Output,3) ; 3 = 1 + length of "`n`t"
}</lang>
- Output:
1260: [21,60] 1395: [15,93] 1435: [35,41] 1530: [30,51] 1827: [21,87] 2187: [27,81] 6880: [80,86] 102510: [201,510] 104260: [260,401] 105210: [210,501] 105264: [204,516] 105750: [150,705] 108135: [135,801] 110758: [158,701] 115672: [152,761] 116725: [161,725] 117067: [167,701] 118440: [141,840] 123354: [231,534] 124483: [281,443] 125248: [152,824] 125433: [231,543] 125460: [204,615] [246,510] 125500: [251,500] 126027: [201,627] ------------------------------------ 16758243290880: [1982736,8452080] [2123856,7890480] [2751840,6089832] [2817360,5948208] 24959017348650: [2947050,8469153] [2949705,8461530] [4125870,6049395] [4129587,6043950] [4230765,5899410] 14593825548650:
Bracmat
<lang Bracmat>( ( vampire
= N len R fangsList . !arg:@(?N:? [?len) & 1/2*!len:~/:?len & ( R = len numpart left right allowed fangs rdigits , tried digit untried head tail found . !arg:(?len.?left.?numpart.?allowed) & :?found & ( !len:>0 & ( @( !numpart : ?tried ( #%@?digit & !allowed:?head !digit ?tail & !head !tail:?allowed ) ( ?untried & R $ ( !len+-1 . 10*!left+!digit . str$(!tried !untried) . 0 1 2 3 4 5 6 7 8 9 ) : ?fangs & !found !fangs:?found & ~ ) ) | !found ) | !N*!left^-1:~/?right:~<!left:?rdigits & (!left*1/10:/|!right*1/10:/) & ( @( !numpart : ? ( #%@?digit ? & @(!rdigits:?head !digit ?tail) & str$(!head !tail):?rdigits & ~ ) ) | !rdigits:&(!left,!right) ) ) ) & R$(!len.0.!N.1 2 3 4 5 6 7 8 9) : ( | ?fangsList & out$(!N !fangsList) & 1+!count:?count ) )
& 0:?count & 10:?i & 16758243290880 24959017348650 14593825548650:?bignums & whl
' ( ( vampire$!i&1+!i:?i | !i*10:?i ) & (!count:<25|!bignums:%?i ?bignums) )
);</lang> Output:
1260 (21,60) 1395 (15,93) 1435 (35,41) 1530 (30,51) 1827 (21,87) 2187 (27,81) 6880 (80,86) 102510 (201,510) 104260 (260,401) 105210 (210,501) 105264 (204,516) 105750 (150,705) 108135 (135,801) 110758 (158,701) 115672 (152,761) 116725 (161,725) 117067 (167,701) 118440 (141,840) 120600 (201,600) 123354 (231,534) 124483 (281,443) 125248 (152,824) 125433 (231,543) 125460 (246,510) (204,615) 125500 (251,500) 16758243290880 (1982736,8452080) (2123856,7890480) (2751840,6089832) (2817360,5948208) 24959017348650 (2949705,8461530) (2947050,8469153) (4230765,5899410) (4129587,6043950) (4125870,6049395)
C
<lang c>#include <stdio.h>
- include <stdlib.h>
- include <stdint.h>
- include <math.h>
typedef uint64_t xint; typedef unsigned long long ull;
xint tens[20];
inline xint max(xint a, xint b) { return a > b ? a : b; } inline xint min(xint a, xint b) { return a < b ? a : b; } inline int ndigits(xint x) { int n = 0; while (x) n++, x /= 10; return n; }
inline xint dtally(xint x) { xint t = 0; while (x) t += 1<<((x%10) * 6), x /= 10;
return t; }
int fangs(xint x, xint *f) { int n = 0; int nd = ndigits(x); if (nd & 1) return 0; nd /= 2;
xint lo, hi; lo = max(tens[nd-1], (x + tens[nd] - 2)/ (tens[nd] - 1)); hi = min(x / lo, sqrt(x));
xint a, b, t = dtally(x); for (a = lo; a <= hi; a++) { b = x / a; if (a * b == x && ((a%10) || (b%10)) && t == dtally(a) + dtally(b)) f[n++] = a; }
return n; }
void show_fangs(xint x, xint *f, xint cnt) { printf("%llu", (ull)x); int i; for (i = 0; i < cnt; i++) printf(" = %llu x %llu", (ull)f[i], (ull)(x / f[i])); putchar('\n'); }
int main(void) { int i, j, n; xint x, f[16], bigs[] = {16758243290880ULL, 24959017348650ULL, 14593825548650ULL, 0};
tens[0] = 1; for (i = 1; i < 20; i++) tens[i] = tens[i-1] * 10;
for (x = 1, n = 0; n < 25; x++) { if (!(j = fangs(x, f))) continue; printf("%2d: ", ++n); show_fangs(x, f, j); }
putchar('\n'); for (i = 0; bigs[i]; i++) { if ((j = fangs(bigs[i], f))) show_fangs(bigs[i], f, j); else printf("%llu is not vampiric\n", (ull)bigs[i]); }
return 0; }</lang>
1: 1260 = 21 x 60 2: 1395 = 15 x 93 3: 1435 = 35 x 41 4: 1530 = 30 x 51 5: 1827 = 21 x 87 6: 2187 = 27 x 81 7: 6880 = 80 x 86 8: 102510 = 201 x 510 9: 104260 = 260 x 401 10: 105210 = 210 x 501 11: 105264 = 204 x 516 12: 105750 = 150 x 705 13: 108135 = 135 x 801 14: 110758 = 158 x 701 15: 115672 = 152 x 761 16: 116725 = 161 x 725 17: 117067 = 167 x 701 18: 118440 = 141 x 840 19: 120600 = 201 x 600 20: 123354 = 231 x 534 21: 124483 = 281 x 443 22: 125248 = 152 x 824 23: 125433 = 231 x 543 24: 125460 = 204 x 615 = 246 x 510 25: 125500 = 251 x 500 16758243290880 = 1982736 x 8452080 = 2123856 x 7890480 = 2751840 x 6089832 = 2817360 x 5948208 24959017348650 = 2947050 x 8469153 = 2949705 x 8461530 = 4125870 x 6049395 = 4129587 x 6043950 = 4230765 x 5899410 14593825548650 is not vampiric
C#
<lang csharp>using System;
namespace RosettaVampireNumber {
class Program { static void Main(string[] args) { int i, j, n; ulong x; var f = new ulong[16]; var bigs = new ulong[] { 16758243290880UL, 24959017348650UL, 14593825548650UL, 0 }; ulong[] tens = new ulong[20]; tens[0] = 1; for (i = 1; i < 20; i++) tens[i] = tens[i - 1] * 10; for (x = 1, n = 0; n < 25; x++) { if ((j = fangs(x, f, tens)) == 0) continue; Console.Write(++n + ": "); show_fangs(x, f, j); }
Console.WriteLine(); for (i = 0; bigs[i] > 0 ; i++) { if ((j = fangs(bigs[i], f, tens)) > 0) show_fangs(bigs[i], f, j); else Console.WriteLine(bigs[i] + " is not vampiric."); } Console.ReadLine(); }
private static void show_fangs(ulong x, ulong[] f, int cnt) { Console.Write(x); int i; for (i = 0; i < cnt; i++) Console.Write(" = " + f[i] + " * " + (x / f[i])); Console.WriteLine(); }
private static int fangs(ulong x, ulong[] f, ulong[] tens) { int n = 0; int nd = ndigits(x); if ((nd & 1) > 0) return 0; nd /= 2;
ulong lo, hi; lo = Math.Max(tens[nd - 1], (x + tens[nd] - 2) / (tens[nd] - 1)); hi = Math.Min(x / lo, (ulong) Math.Sqrt(x));
ulong a, b, t = dtally(x); for (a = lo; a <= hi; a++) { b = x / a; if (a * b == x && ((a % 10) > 0 || (b % 10) > 0) && t == dtally(a) + dtally(b)) f[n++] = a; }
return n; }
private static ulong dtally(ulong x) { ulong t = 0; while (x > 0) { t += 1UL << (int)((x % 10) * 6); x /= 10; }
return t; }
private static int ndigits(ulong x) { int n = 0; while (x > 0) { n++; x /= 10; } return n; } }
}</lang>
- Output:
1: 1260 = 21 * 60 2: 1395 = 15 * 93 3: 1435 = 35 * 41 4: 1530 = 30 * 51 5: 1827 = 21 * 87 6: 2187 = 27 * 81 7: 6880 = 80 * 86 8: 102510 = 201 * 510 9: 104260 = 260 * 401 10: 105210 = 210 * 501 11: 105264 = 204 * 516 12: 105750 = 150 * 705 13: 108135 = 135 * 801 14: 110758 = 158 * 701 15: 115672 = 152 * 761 16: 116725 = 161 * 725 17: 117067 = 167 * 701 18: 118440 = 141 * 840 19: 120600 = 201 * 600 20: 123354 = 231 * 534 21: 124483 = 281 * 443 22: 125248 = 152 * 824 23: 125433 = 231 * 543 24: 125460 = 204 * 615 = 246 * 510 25: 125500 = 251 * 500 16758243290880 = 1982736 * 8452080 = 2123856 * 7890480 = 2751840 * 6089832 = 2817360 * 5948208 24959017348650 = 2947050 * 8469153 = 2949705 * 8461530 = 4125870 * 6049395 = 4129587 * 6043950 = 4230765 * 5899410 14593825548650 is not vampiric.
C++
<lang cpp>#include <vector>
- include <utility>
- include <algorithm>
- include <iostream>
- include <sstream>
- include <string>
- include <cmath>
bool isVampireNumber( long number, std::vector<std::pair<long, long> > & solution ) {
std::ostringstream numberstream ; numberstream << number ; std::string numberstring( numberstream.str( ) ) ; std::sort ( numberstring.begin( ) , numberstring.end( ) ) ; int fanglength = numberstring.length( ) / 2 ; long start = static_cast<long>( std::pow( 10 , fanglength - 1 ) ) ; long end = start * 10 ; for ( long i = start ; i < ( end - start ) / 2 ; i++ ) { if ( number % i == 0 ) {
long quotient = number / i ; if ( ( i % 10 == 0 ) && ( quotient % 10 == 0 ) ) return false ; numberstream.str( "" ) ; //clear the number stream numberstream << i << quotient ; std::string divisorstring ( numberstream.str( ) ) ;
std::sort ( divisorstring.begin( ) , divisorstring.end( ) ) ;
if ( divisorstring == numberstring ) { std::pair<long , long> divisors = std::make_pair( i, quotient ) ; solution.push_back( divisors ) ; }
} } return !solution.empty( ) ;
}
void printOut( const std::pair<long, long> & solution ) {
std::cout << "[ " << solution.first << " , " << solution.second << " ]" ;
}
int main( ) {
int vampireNumbersFound = 0 ; std::vector<std::pair<long , long> > solutions ; double i = 1.0 ; while ( vampireNumbersFound < 25 ) { long start = static_cast<long>( std::pow( 10 , i ) ) ; long end = start * 10 ; for ( long num = start ; num < end ; num++ ) {
if ( isVampireNumber( num , solutions ) ) { std::cout << vampireNumbersFound << " :" << num << " is a vampire number! These are the fangs:\n" ; std::for_each( solutions.begin( ) , solutions.end( ) , printOut ) ; std::cout << "\n_______________" << std::endl ; solutions.clear( ) ; vampireNumbersFound++ ; if ( vampireNumbersFound == 25 ) break ; }
} i += 2.0 ; } std::vector<long> testnumbers ; testnumbers.push_back( 16758243290880 ) ; testnumbers.push_back( 2495901734865 ) ; testnumbers.push_back( 14593825548650 ) ; for ( std::vector<long>::const_iterator svl = testnumbers.begin( ) ;
svl != testnumbers.end( ) ; svl++ ) {
if ( isVampireNumber( *svl , solutions ) ) {
std::cout << *svl << " is a vampire number! The fangs:\n" ; std::for_each( solutions.begin( ) , solutions.end( ) , printOut ) ; std::cout << std::endl ; solutions.clear( ) ;
} else {
std::cout << *svl << " is not a vampire number!" << std::endl ;
} } return 0 ;
}</lang>
- Output:
0 :1260 is a vampire number! These are the fangs: [ 21 , 60 ] _______________ 1 :1395 is a vampire number! These are the fangs: [ 15 , 93 ] _______________ 2 :1435 is a vampire number! These are the fangs: [ 35 , 41 ][ 41 , 35 ] _______________ 3 :1530 is a vampire number! These are the fangs: [ 30 , 51 ] _______________ 4 :1827 is a vampire number! These are the fangs: [ 21 , 87 ] _______________ 5 :2187 is a vampire number! These are the fangs: [ 27 , 81 ] _______________ 6 :102510 is a vampire number! These are the fangs: [ 201 , 510 ] _______________ 7 :104260 is a vampire number! These are the fangs: [ 260 , 401 ][ 401 , 260 ] _______________ 8 :105210 is a vampire number! These are the fangs: [ 210 , 501 ] _______________ 9 :105264 is a vampire number! These are the fangs: [ 204 , 516 ] _______________ 10 :105750 is a vampire number! These are the fangs: [ 150 , 705 ] _______________ 11 :108135 is a vampire number! These are the fangs: [ 135 , 801 ] _______________ 12 :110758 is a vampire number! These are the fangs: [ 158 , 701 ] _______________ 13 :115672 is a vampire number! These are the fangs: [ 152 , 761 ] _______________ 14 :116725 is a vampire number! These are the fangs: [ 161 , 725 ] _______________ 15 :117067 is a vampire number! These are the fangs: [ 167 , 701 ] _______________ 16 :118440 is a vampire number! These are the fangs: [ 141 , 840 ] _______________ 17 :123354 is a vampire number! These are the fangs: [ 231 , 534 ] _______________ 18 :124483 is a vampire number! These are the fangs: [ 281 , 443 ][ 443 , 281 ] _______________ 19 :125248 is a vampire number! These are the fangs: [ 152 , 824 ] _______________ 20 :125433 is a vampire number! These are the fangs: [ 231 , 543 ] _______________ 21 :125460 is a vampire number! These are the fangs: [ 204 , 615 ][ 246 , 510 ] _______________ 22 :125500 is a vampire number! These are the fangs: [ 251 , 500 ] _______________ 23 :126027 is a vampire number! These are the fangs: [ 201 , 627 ] _______________ 24 :126846 is a vampire number! These are the fangs: [ 261 , 486 ] _______________ 16758243290880 is a vampire number! The fangs: [ 1982736 , 8452080 ][ 2123856 , 7890480 ][ 2751840 , 6089832 ][ 2817360 , 5948208 ] 2495901734865 is a vampire number! The fangs: [ 294705 , 8469153 ][ 412587 , 6049395 ] 14593825548650 is not a vampire number!
Clojure
<lang Clojure>(defn factor-pairs [n]
(for [x (range 2 (Math/sqrt n)) :when (zero? (mod n x))] [x (quot n x)]))
(defn fangs [n]
(let [dlen (comp count str) half (/ (dlen n) 2) halves? #(apply = (cons half (map dlen %))) digits #(sort (apply str %))] (filter #(and (halves? %) (= (sort (str n)) (digits %))) (factor-pairs n))))
(defn vampiric? [n]
(let [fangs (fangs n)] (if (empty? fangs) nil [n fangs])))
(doseq [n (take 25 (keep vampiric? (range)))]
(prn n))
(doseq [n [16758243290880, 24959017348650, 14593825548650]]
(println (or (vampiric? n) (str n " is not vampiric."))))</lang>
Common Lisp
<lang lisp>(defun trailing-zerop (number)
"Is the lowest digit of `number' a 0" (zerop (rem number 10)))
(defun integer-digits (integer)
"Return the number of digits of the `integer'" (assert (integerp integer)) (length (write-to-string integer)))
(defun paired-factors (number)
"Return a list of pairs that are factors of `number'" (loop :for candidate :from 2 :upto (sqrt number) :when (zerop (mod number candidate)) :collect (list candidate (/ number candidate))))
(defun vampirep (candidate &aux
(digits-of-candidate (integer-digits candidate)) (half-the-digits-of-candidate (/ digits-of-candidate 2))) "Is the `candidate' a vampire number?" (remove-if #'(lambda (pair) (> (length (remove-if #'null (mapcar #'trailing-zerop pair))) 1)) (remove-if-not #'(lambda (pair) (string= (sort (copy-seq (write-to-string candidate)) #'char<) (sort (copy-seq (format nil "~A~A" (first pair) (second pair))) #'char<))) (remove-if-not #'(lambda (pair) (and (eql (integer-digits (first pair)) half-the-digits-of-candidate) (eql (integer-digits (second pair)) half-the-digits-of-candidate))) (paired-factors candidate)))))
(defun print-vampire (candidate fangs &optional (stream t))
(format stream "The number ~A is a vampire number with fangs: ~{ ~{~A~^, ~}~^; ~}~%" candidate fangs))
- Print the first 25 vampire numbers
(loop
:with count := 0 :for candidate :from 0 :until (eql count 25) :for fangs := (vampirep candidate) :do (when fangs (print-vampire candidate fangs) (incf count)))
- Check if 16758243290880, 24959017348650, 14593825548650 are vampire numbers
(dolist (candidate '(16758243290880 24959017348650 14593825548650))
(let ((fangs (vampirep candidate))) (when fangs (print-vampire candidate fangs))))
</lang>
- Output:
The number 1260 is a vampire number with fangs: 21, 60 The number 1395 is a vampire number with fangs: 15, 93 The number 1435 is a vampire number with fangs: 35, 41 The number 1530 is a vampire number with fangs: 30, 51 The number 1827 is a vampire number with fangs: 21, 87 The number 2187 is a vampire number with fangs: 27, 81 The number 6880 is a vampire number with fangs: 80, 86 The number 102510 is a vampire number with fangs: 201, 510 The number 104260 is a vampire number with fangs: 260, 401 The number 105210 is a vampire number with fangs: 210, 501 The number 105264 is a vampire number with fangs: 204, 516 The number 105750 is a vampire number with fangs: 150, 705 The number 108135 is a vampire number with fangs: 135, 801 The number 110758 is a vampire number with fangs: 158, 701 The number 115672 is a vampire number with fangs: 152, 761 The number 116725 is a vampire number with fangs: 161, 725 The number 117067 is a vampire number with fangs: 167, 701 The number 118440 is a vampire number with fangs: 141, 840 The number 120600 is a vampire number with fangs: 201, 600 The number 123354 is a vampire number with fangs: 231, 534 The number 124483 is a vampire number with fangs: 281, 443 The number 125248 is a vampire number with fangs: 152, 824 The number 125433 is a vampire number with fangs: 231, 543 The number 125460 is a vampire number with fangs: 204, 615; 246, 510 The number 125500 is a vampire number with fangs: 251, 500 The number 16758243290880 is a vampire number with fangs: 1982736, 8452080; 2123856, 7890480; 2751840, 6089832; 2817360, 5948208 The number 24959017348650 is a vampire number with fangs: 2947050, 8469153; 2949705, 8461530; 4125870, 6049395; 4129587, 6043950; 4230765, 5899410 The number 16758243290880 is a vampire number with fangs: 1982736, 8452080; 2123856, 7890480; 2751840, 6089832; 2817360, 5948208 The number 24959017348650 is a vampire number with fangs: 2947050, 8469153; 2949705, 8461530; 4125870, 6049395; 4129587, 6043950; 4230765, 5899410
D
The two versions show two styles of D code: compact script-like mostly-functional code, and efficient lower-level code.
High-Level Version
(Runtime about 1.34 seconds with dmd.) <lang d>import std.stdio, std.range, std.algorithm, std.typecons, std.conv;
auto fangs(in long n) pure nothrow @safe {
auto pairs = iota(2, cast(int)(n ^^ 0.5)) // n.isqrt .filter!(x => !(n % x)).map!(x => [x, n / x]); enum dLen = (in long x) => x.text.length; immutable half = dLen(n) / 2; enum halvesQ = (long[] p) => p.all!(u => dLen(u) == half); enum digits = (long[] p) => dtext(p[0], p[1]).dup.sort(); const dn = n.to!(dchar[]).sort(); return tuple(n, pairs.filter!(p => halvesQ(p) && dn == digits(p)));
}
void main() {
foreach (v; int.max.iota.map!fangs.filter!q{ !a[1].empty } .take(25).chain([16758243290880, 24959017348650, 14593825548650].map!fangs)) writefln("%d: (%(%(%s %)) (%))", v[]);
}</lang>
- Output:
1260: (21 60) 1395: (15 93) 1435: (35 41) 1530: (30 51) 1827: (21 87) 2187: (27 81) 6880: (80 86) 102510: (201 510) 104260: (260 401) 105210: (210 501) 105264: (204 516) 105750: (150 705) 108135: (135 801) 110758: (158 701) 115672: (152 761) 116725: (161 725) 117067: (167 701) 118440: (141 840) 120600: (201 600) 123354: (231 534) 124483: (281 443) 125248: (152 824) 125433: (231 543) 125460: (204 615) (246 510) 125500: (251 500) 16758243290880: (1982736 8452080) (2123856 7890480) (2751840 6089832) (2817360 5948208) 24959017348650: (2947050 8469153) (2949705 8461530) (4125870 6049395) (4129587 6043950) (4230765 5899410) 14593825548650: ()
Fast Version
(Runtime about 0.27 seconds with dmd, about 0.25 seconds with ldc2 compilers.) <lang d>import std.stdio, std.math, std.algorithm, std.array, std.traits;
T[N] pows(T, size_t N)() pure nothrow @safe @nogc {
typeof(return) result; result[0] = 1; foreach (immutable i, ref r; result[1 .. $]) r = result[i] * 10; return result;
}
__gshared immutable tenPowsU = pows!(uint, 10); __gshared immutable tenPowsUL = pows!(ulong, 20);
size_t nDigits(T)(in T x) pure nothrow @safe @nogc {
Unqual!T y = x; size_t n = 0; while (y) { n++; y /= 10; } return n;
}
T dTally(T)(in T x) pure nothrow @safe @nogc {
Unqual!T y = x; T t = 0; while (y) { t += 1 << ((y % 10) * 6); y /= 10; } return t;
}
T[] fangs(T)(in T x, T[] f) pure nothrow @safe @nogc if (is(T == uint) || is(T == ulong)) {
alias tenPows = Select!(is(T == ulong), tenPowsUL, tenPowsU);
immutable nd0 = nDigits(x); if (nd0 & 1) return null; immutable nd = nd0 / 2;
immutable lo = max(tenPows[nd - 1], (x + tenPows[nd] - 2) / (tenPows[nd] - 1)); immutable hi = min(x / lo, cast(T)sqrt(real(x))); immutable t = x.dTally;
size_t n = 0; foreach (immutable a; lo .. hi + 1) { immutable b = x / a; if (a * b == x && (a % 10 || b % 10) && t == (a.dTally + b.dTally)) { f[n] = a; n++; } }
return f[0 .. n];
}
void showFangs(T)(in T x, in T[] fs) {
x.write; foreach (immutable fi; fs) writef(" = %d x %d", fi, x / fi); writeln;
}
void main() {
uint[16] fu; for (uint x = 1, n = 0; n < 25; x++) { const fs = fangs(x, fu); if (fs.empty) continue; n++; writef("%2d: ", n); showFangs(x, fs); } writeln;
static immutable ulong[3] bigs = [16_758_243_290_880UL, 24_959_017_348_650UL, 14_593_825_548_650UL]; ulong[fu.length] ful; foreach (immutable bi; bigs) { const fs = fangs(bi, ful); if (fs.empty) writeln(bi, " is not vampiric"); else showFangs(bi, fs); }
}</lang>
- Output:
2: 1395 = 15 x 93 3: 1435 = 35 x 41 4: 1530 = 30 x 51 5: 1827 = 21 x 87 6: 2187 = 27 x 81 7: 6880 = 80 x 86 8: 102510 = 201 x 510 9: 104260 = 260 x 401 10: 105210 = 210 x 501 11: 105264 = 204 x 516 12: 105750 = 150 x 705 13: 108135 = 135 x 801 14: 110758 = 158 x 701 15: 115672 = 152 x 761 16: 116725 = 161 x 725 17: 117067 = 167 x 701 18: 118440 = 141 x 840 19: 120600 = 201 x 600 20: 123354 = 231 x 534 21: 124483 = 281 x 443 22: 125248 = 152 x 824 23: 125433 = 231 x 543 24: 125460 = 204 x 615 = 246 x 510 25: 125500 = 251 x 500 16758243290880 = 1982736 x 8452080 = 2123856 x 7890480 = 2751840 x 6089832 = 2817360 x 5948208 24959017348650 = 2947050 x 8469153 = 2949705 x 8461530 = 4125870 x 6049395 = 4129587 x 6043950 = 4230765 x 5899410 14593825548650 is not vampiric
Eiffel
<lang Eiffel> class APPLICATION
create make
feature
fang_check (original, fang1, fang2: INTEGER_64): BOOLEAN -- Are 'fang1' and 'fang2' correct fangs of the 'original' number? require original_positive: original > 0 fangs_positive: fang1 > 0 and fang2 > 0 local original_length: INTEGER fang, ori: STRING sort_ori, sort_fang: SORTED_TWO_WAY_LIST [CHARACTER] do create sort_ori.make create sort_fang.make create ori.make_empty create fang.make_empty original_length := original.out.count // 2 if fang1.out.count /= original_length or fang2.out.count /= (original_length) then Result := False elseif fang1.out.ends_with ("0") and fang2.out.ends_with ("0") then Result := False else across 1 |..| original.out.count as c loop sort_ori.extend (original.out [c.item]) end across sort_ori as o loop ori.extend (o.item) end across 1 |..| fang1.out.count as c loop sort_fang.extend (fang1.out [c.item]) sort_fang.extend (fang2.out [c.item]) end across sort_fang as f loop fang.extend (f.item) end Result := fang.same_string (ori) end ensure fangs_right_length: Result implies original.out.count = fang1.out.count + fang2.out.count end
make
-- Uses fang_check to find vampire nubmers.
local i, numbers: INTEGER fang1, fang2: INTEGER_64 num: ARRAY [INTEGER_64] math: DOUBLE_MATH do create math from i := 1000 until numbers > 25 loop if i.out.count \\ 2 = 0 then from fang1 := 10 until fang1 >= math.sqrt (i) loop if (i \\ fang1 = 0) then fang2 := i // fang1 if i \\ 9 = (fang1 + fang2) \\ 9 then if fang1 * fang2 = i and fang1 <= fang2 and then fang_check (i, fang1, fang2) then numbers := numbers + 1 io.put_string (i.out + ": " + fang1.out + " " + fang2.out) io.new_line end end end fang1 := fang1 + 1 end end i := i + 1 end num := <<16758243290880, 24959017348650, 14593825548650>> across num as n loop from fang1 := 1000000 until fang1 >= math.sqrt (n.item) + 1 loop if (n.item \\ fang1 = 0) then fang2 := (n.item // fang1) if fang1 * fang2 = n.item and fang1 <= fang2 and then fang_check (n.item, fang1, fang2) then io.put_string (n.item.out + ": " + fang1.out + " " + fang2.out + "%N") end end fang1 := fang1 + 1 end end end
end </lang>
- Output:
1260: 21, 60 1395: 15, 93 1435: 35, 41 1530: 30, 51 1827: 21, 87 2187: 27, 81 6880: 80, 86 102510: 201, 510 104260: 260, 401 105210: 210, 501 105264: 204, 516 105750: 150, 705 108135: 135, 801 110758: 158, 701 115672: 152, 761 116725: 161, 725 117067: 167, 701 118440: 141, 840 120600: 201, 600 123354: 231, 534 124483: 281, 443 125248: 152, 824 125433: 231, 543 125460: 204, 615 125460: 246, 510 125500: 251, 500 126027: 201, 627 16758243290880: 1982736, 8452080 16758243290880: 2123856, 7890480 16758243290880: 2751840, 6089832 16758243290880: 2817360, 5948208 24959017348650: 2947050, 8469153 24959017348650: 2949705, 8461530 24959017348650: 4125870, 6049395 24959017348650: 4129587, 6043950 24959017348650: 4230765, 5899410
Elixir
<lang elixir>defmodule Vampire do
def factor_pairs(n) do first = trunc(n / :math.pow(10, div(char_len(n), 2))) last = :math.sqrt(n) |> round for i <- first .. last, rem(n, i) == 0, do: {i, div(n, i)} end def vampire_factors(n) do if rem(char_len(n), 2) == 1 do [] else half = div(length(to_char_list(n)), 2) sorted = Enum.sort(String.codepoints("#{n}")) Enum.filter(factor_pairs(n), fn {a, b} -> char_len(a) == half && char_len(b) == half && Enum.count([a, b], fn x -> rem(x, 10) == 0 end) != 2 && Enum.sort(String.codepoints("#{a}#{b}")) == sorted end) end end defp char_len(n), do: length(to_char_list(n)) def task do Enum.reduce_while(Stream.iterate(1, &(&1+1)), 1, fn n, acc -> case vampire_factors(n) do [] -> {:cont, acc} vf -> IO.puts "#{n}:\t#{inspect vf}" if acc < 25, do: {:cont, acc+1}, else: {:halt, acc+1} end end) IO.puts "" Enum.each([16758243290880, 24959017348650, 14593825548650], fn n -> case vampire_factors(n) do [] -> IO.puts "#{n} is not a vampire number!" vf -> IO.puts "#{n}:\t#{inspect vf}" end end) end
end
Vampire.task</lang>
- Output:
1260: [{21, 60}] 1395: [{15, 93}] 1435: [{35, 41}] 1530: [{30, 51}] 1827: [{21, 87}] 2187: [{27, 81}] 6880: [{80, 86}] 102510: [{201, 510}] 104260: [{260, 401}] 105210: [{210, 501}] 105264: [{204, 516}] 105750: [{150, 705}] 108135: [{135, 801}] 110758: [{158, 701}] 115672: [{152, 761}] 116725: [{161, 725}] 117067: [{167, 701}] 118440: [{141, 840}] 120600: [{201, 600}] 123354: [{231, 534}] 124483: [{281, 443}] 125248: [{152, 824}] 125433: [{231, 543}] 125460: [{204, 615}, {246, 510}] 125500: [{251, 500}] 16758243290880: [{1982736, 8452080}, {2123856, 7890480}, {2751840, 6089832}, {2817360, 5948208}] 24959017348650: [{2947050, 8469153}, {2949705, 8461530}, {4125870, 6049395}, {4129587, 6043950}, {4230765, 5899410}] 14593825548650 is not a vampire number!
FreeBASIC
<lang FreeBASIC>'Vampire numbers. 'FreeBASIC version 24. Windows 'Vampire.bas Function WithinString(n As Ulongint,f As Ulongint) As Integer
var m=Str(n),p=Str(f) For z As Integer=0 To Len(p)-1 var i=Instr(m,Chr(p[z])) If i Then m=Mid(m,1,i-1)+Mid(m,i+1) Else Return 0 End If Next z Return -1
End Function
Sub AllFactors(N As Ulongint,factors() As Ulongint)
Dim As String Sn=Str(n) Dim As Integer half=Len(sn)\2 Redim factors(1 To 1) #macro bsort(array) For p1 As Integer = 1 To Ubound(array) - 1 For p2 As Integer = p1 + 1 To Ubound(array) If array(p1)>array(p2) Then Swap array(p1),array(p2) Next p2 Next p1 #endmacro Dim As Ulongint c For i As Ulongint = 1 To Sqr(N) If N Mod i=0 Then If Len(Str(i))=half Then If WithinString(N,i) Then c=c+1 Redim Preserve factors(1 To c) factors(c)=i End If End If If N <> i*i Then If Len(Str(n\i))=half Then If WithinString(N,n\i) Then c=c+1 Redim Preserve factors(1 To c) factors(c)=n\i End If End If End If End If Next i bsort(factors)
End Sub
Function VampireNumbers(N As Ulongint) As Integer
Dim As Integer flag Dim As Ulongint LastFactor Redim As Ulongint Factor() AllFactors(N,Factor()) For p1 As Integer = 1 To Ubound(Factor) For p2 As Integer=1 To Ubound(Factor) If Factor(p1)*Factor(p2)=n Then If Factor(p1) Mod 10<>0 Or Factor(p2) Mod 10 <>0 Then If WithinString(n,valulng(Str(Factor(p1))+Str(Factor(p2)))) Then If LastFactor=Factor(p2) Then Exit For,For flag=1 Print n;": [";Factor(p1);",";Factor(p2);"]" LastFactor=Factor(p1) End If End If End If Next p2 Next p1 If flag Then Return -1
End Function
'============== IMPLEMENT ============================== print "First 28 Vampire numbers" print Print "Number: [fangs]" Print Dim As Ulongint n=1000 Dim As Integer count Dim As Double t1,t2 t1=Timer Do
n=n+1 Var s=Str(n) If Len(s) Mod 2<>0 Then n=n*10 If vampireNumbers(n) Then count=count+1
Loop Until count=27 Print print "Individual tests:" print 'individual tests n=16758243290880ull If Not vampirenumbers(n) Then Print n;": [returns no fangs]" Print n=24959017348650ull If Not vampirenumbers(n) Then Print n;": [returns no fangs]" print n=14593825548650ull If Not vampirenumbers(n) then print n;": [returns no fangs]" t2=Timer print Print "Completed in "; Print t2-t1;" Seconds" Sleep</lang>
- Output:
First 28 Vampire numbers Number: [fangs] 1260: [21,60] 1395: [15,93] 1435: [35,41] 1530: [30,51] 1827: [21,87] 2187: [27,81] 6880: [80,86] 102510: [201,510] 104260: [260,401] 105210: [210,501] 105264: [204,516] 105750: [150,705] 108135: [135,801] 110758: [158,701] 115672: [152,761] 116725: [161,725] 117067: [167,701] 118440: [141,840] 120600: [201,600] 123354: [231,534] 124483: [281,443] 125248: [152,824] 125433: [231,543] 125460: [204,615] 125460: [246,510] 125500: [251,500] 126027: [201,627] 126846: [261,486] Individual tests: 16758243290880: [1982736,8452080] 16758243290880: [2123856,7890480] 16758243290880: [2751840,6089832] 16758243290880: [2817360,5948208] 24959017348650: [2947050,8469153] 24959017348650: [2949705,8461530] 24959017348650: [4125870,6049395] 24959017348650: [4129587,6043950] 24959017348650: [4230765,5899410] 14593825548650: [returns no fangs] Completed in 1.286374813709699 Seconds
Go
<lang go>package main
import (
"fmt" "math"
)
func max(a, b uint64) uint64 {
if a > b { return a } return b
}
func min(a, b uint64) uint64 {
if a < b { return a } return b
}
func ndigits(x uint64) (n int) {
for ; x > 0; x /= 10 { n++ } return
}
func dtally(x uint64) (t uint64) {
for ; x > 0; x /= 10 { t += 1 << (x % 10 * 6) } return
}
var tens [20]uint64
func init() {
tens[0] = 1 for i := 1; i < 20; i++ { tens[i] = tens[i-1] * 10 }
}
func fangs(x uint64) (f []uint64) {
nd := ndigits(x) if nd&1 == 1 { return } nd /= 2 lo := max(tens[nd-1], (x+tens[nd]-2)/(tens[nd]-1)) hi := min(x/lo, uint64(math.Sqrt(float64(x)))) t := dtally(x) for a := lo; a <= hi; a++ { b := x / a if a*b == x && (a%10 > 0 || b%10 > 0) && t == dtally(a)+dtally(b) { f = append(f, a) } } return
}
func showFangs(x uint64, f []uint64) {
fmt.Print(x) if len(f) > 1 { fmt.Println() } for _, a := range f { fmt.Println(" =", a, "×", x/a) }
}
func main() {
for x, n := uint64(1), 0; n < 26; x++ { if f := fangs(x); len(f) > 0 { n++ fmt.Printf("%2d: ", n) showFangs(x, f) } } fmt.Println() for _, x := range []uint64{16758243290880, 24959017348650, 14593825548650} { if f := fangs(x); len(f) > 0 { showFangs(x, f) } else { fmt.Println(x, "is not vampiric") } }
}</lang>
- Output:
1: 1260 = 21 × 60 2: 1395 = 15 × 93 3: 1435 = 35 × 41 4: 1530 = 30 × 51 5: 1827 = 21 × 87 6: 2187 = 27 × 81 7: 6880 = 80 × 86 8: 102510 = 201 × 510 9: 104260 = 260 × 401 10: 105210 = 210 × 501 11: 105264 = 204 × 516 12: 105750 = 150 × 705 13: 108135 = 135 × 801 14: 110758 = 158 × 701 15: 115672 = 152 × 761 16: 116725 = 161 × 725 17: 117067 = 167 × 701 18: 118440 = 141 × 840 19: 120600 = 201 × 600 20: 123354 = 231 × 534 21: 124483 = 281 × 443 22: 125248 = 152 × 824 23: 125433 = 231 × 543 24: 125460 = 204 × 615 = 246 × 510 25: 125500 = 251 × 500 26: 126027 = 201 × 627 16758243290880 = 1982736 × 8452080 = 2123856 × 7890480 = 2751840 × 6089832 = 2817360 × 5948208 24959017348650 = 2947050 × 8469153 = 2949705 × 8461530 = 4125870 × 6049395 = 4129587 × 6043950 = 4230765 × 5899410 14593825548650 is not vampiric
Haskell
<lang haskell>import Data.List (sort) import Control.Arrow ((&&&))
-- VAMPIRE NUMBERS ------------------------------------------------------------ vampires :: [Int] vampires = filter ((0 <) . length . fangs) [1 ..]
fangs :: Int -> [(Int, Int)] fangs n
| odd w = [] | otherwise = ((,) <*> quot n) <$> filter isfang (integerFactors n) where ndigit :: Int -> Int ndigit 0 = 0 ndigit n = 1 + ndigit (quot n 10) w = ndigit n xmin = 10 ^ (quot w 2 - 1) xmax = xmin * 10 isfang x = x > xmin && x < y && y < xmax && -- same length (quot x 10 /= 0 || quot y 10 /= 0) && -- not zero-ended sort (show n) == sort (show x ++ show y) where y = quot n x
-- FACTORS -------------------------------------------------------------------- integerFactors :: Int -> [Int] integerFactors n
| n < 1 = [] | otherwise = lows ++ (quot n <$> (if intSquared == n -- A perfect square, then tail -- and cofactor of square root would be redundant. else id) (reverse lows)) where (intSquared, lows) = (^ 2) &&& (filter ((0 ==) . rem n) . enumFromTo 1) $ floor (sqrt $ fromIntegral n)
-- TEST ----------------------------------------------------------------------- main :: IO [()] main =
mapM (print . ((,) <*>) fangs) (take 25 vampires ++ [16758243290880, 24959017348650, 14593825548650])</lang>
- Output:
(1260,[(21,60)]) (1395,[(15,93)]) (1435,[(35,41)]) (1530,[(30,51)]) (1827,[(21,87)]) (2187,[(27,81)]) (6880,[(80,86)]) (102510,[(201,510)]) (104260,[(260,401)]) (105210,[(210,501)]) (105264,[(204,516)]) (105750,[(150,705)]) (108135,[(135,801)]) (110758,[(158,701)]) (115672,[(152,761)]) (116725,[(161,725)]) (117067,[(167,701)]) (118440,[(141,840)]) (120600,[(201,600)]) (123354,[(231,534)]) (124483,[(281,443)]) (125248,[(152,824)]) (125433,[(231,543)]) (125460,[(204,615),(246,510)]) (125500,[(251,500)]) (16758243290880,[(1982736,8452080),(2123856,7890480),(2751840,6089832),(2817360,5948208)]) (24959017348650,[(2947050,8469153),(2949705,8461530),(4125870,6049395),(4129587,6043950),(4230765,5899410)]) (14593825548650,[])
Icon and Unicon
The following works in both languages.
<lang unicon>procedure main()
write("First 25 vampire numbers and their fangs:") every fangs := vampire(n := seq())\25 do write(right(n,20),":",fangs) write("\nOther numbers:") every n := 16758243290880 | 24959017348650 | 14593825548650 do write(right(n,20),": ",vampire(n)|"toothless")
end
procedure vampire(n)
ns := string(n) if *ns % 2 = 1 then fail every (fangs := "") ||:= " "||fangCheck(n, *ns/2, f1 := 2 to integer(sqrt(n)), n/f1) if *fangs > 0 then return fangs
end
procedure fangCheck(n, n2, f1, f2)
if f1*f2 ~= n then fail if n2 ~= *(f1|f2) then fail if (f1|f2) % 10 ~= 0 then if csort(f1||f2) == csort(n) then return "("||f1||","||f2||")"
end
procedure csort(s) # Adapted from csort(s) in Icon IPL
every (s1 := "", c := !cset(s)) do every find(c, s) do s1 ||:= c return s1
end</lang>
Output:
First 25 vampire numbers and their fangs: 1260: (21,60) 1395: (15,93) 1435: (35,41) 1530: (30,51) 1827: (21,87) 2187: (27,81) 6880: (80,86) 102510: (201,510) 104260: (260,401) 105210: (210,501) 105264: (204,516) 105750: (150,705) 108135: (135,801) 110758: (158,701) 115672: (152,761) 116725: (161,725) 117067: (167,701) 118440: (141,840) 120600: (201,600) 123354: (231,534) 124483: (281,443) 125248: (152,824) 125433: (231,543) 125460: (204,615) (246,510) 125500: (251,500) Other numbers: 16758243290880: (1982736,8452080) (2123856,7890480) (2751840,6089832) (2817360,5948208) 24959017348650: (2947050,8469153) (2949705,8461530) (4125870,6049395) (4129587,6043950) (4230765,5899410) 14593825548650: toothless
J
<lang J> Filter=: (#~`)(`:6) odd =: 2&| even =: -.@:odd factors =: [: ([: /:~ [: */"1 ([: x: [) ^"1 [: > [: , [: { [: <@:i.@>: ])/ __ q: ] digits =: 10&(#.inv) tally =: # : [: half =: -: : [: even_number_of_digits =: even@:tally@:digits same_digits =: digits@:[ -:&(/:~) ,&digits/@:] assert 1 -: 1234 same_digits 23 14 assert 0 -: 1234 same_digits 23 140 half_the_digits =: (half@:tally@:digits@:[ = tally@:digits&>@:]) # ] factors_with_half_the_digits =: half_the_digits factors large =: (> <.@:%:)~ # ] candidates =: large factors_with_half_the_digits one_trailing_zero_permitted =: (0 < [: tally 0 -.~ 10&|)"1 Filter pairs =: (% ,. ]) one_trailing_zero_permitted@:candidates fangs =: (same_digits"0 1 # ]) pairs
A=:(0 2 -.@:-: $)&>Filter<@fangs"0]1000+i.1e4 B=:(0 2 -.@:-: $)&>Filter<@fangs"0]100000+i.25501 (,: */@:{.&.>)A,B
┌─────┬─────┬─────┬─────┬─────┬─────┬─────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┬───────┐ │21 60│15 93│35 41│30 51│21 87│27 81│80 86│201 510│260 401│210 501│204 516│150 705│135 801│158 701│152 761│161 725│167 701│141 840│201 600│231 534│281 443│152 824│231 543│246 510│251 500│ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │204 615│ │ ├─────┼─────┼─────┼─────┼─────┼─────┼─────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┼───────┤ │1260 │1395 │1435 │1530 │1827 │2187 │6880 │102510 │104260 │105210 │105264 │105750 │108135 │110758 │115672 │116725 │117067 │118440 │120600 │123354 │124483 │125248 │125433 │125460 │125500 │ └─────┴─────┴─────┴─────┴─────┴─────┴─────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┴───────┘
<@fangs"0[] 16758243290880 24959017348650 14593825548650
┌───────────────┬───────────────┬──┐ │2817360 5948208│4230765 5899410│ │ │2751840 6089832│4129587 6043950│ │ │2123856 7890480│4125870 6049395│ │ │1982736 8452080│2949705 8461530│ │ │ │2947050 8469153│ │ └───────────────┴───────────────┴──┘
fangs f. NB. <laugh>
((10&(#.^:_1)@:[ -:&(/:~) ,&(10&(#.^:_1))/@:])"0 1 # ]) ((% ,. ]) (#~ (0 < [: # :[: 0 -.~ 10&|)"1)@:(((> <.@:%:)~ # ]) (((-: :[:@:(# :[:)@:(10&(#.^:_1))@:[ = # :[:@:(10&(#.^:_1))&>@:]) # ]) ([: ([: /:~ [: */"1 ([: x: [) ^"1 [: > [: , [: { [: <@:i.@>: ])/ __ q: ])))) </lang>
Java
<lang java5>import java.util.Arrays; import java.util.HashSet;
public class VampireNumbers{
private static int numDigits(long num){ return Long.toString(Math.abs(num)).length(); }
private static boolean fangCheck(long orig, long fang1, long fang2){ if(Long.toString(fang1).endsWith("0") && Long.toString(fang2).endsWith("0")) return false;
int origLen = numDigits(orig); if(numDigits(fang1) != origLen / 2 || numDigits(fang2) != origLen / 2) return false;
byte[] origBytes = Long.toString(orig).getBytes(); byte[] fangBytes = (Long.toString(fang1) + Long.toString(fang2)).getBytes(); Arrays.sort(origBytes); Arrays.sort(fangBytes); return Arrays.equals(origBytes, fangBytes); }
public static void main(String[] args){ HashSet<Long> vamps = new HashSet<Long>(); for(long i = 10; vamps.size() <= 25; i++ ){ if((numDigits(i) % 2) != 0) {i = i * 10 - 1; continue;} for(long fang1 = 2; fang1 <= Math.sqrt(i) + 1; fang1++){ if(i % fang1 == 0){ long fang2 = i / fang1; if(fangCheck(i, fang1, fang2) && fang1 <= fang2){ vamps.add(i); System.out.println(i + ": [" + fang1 + ", " + fang2 +"]"); } } } } Long[] nums = {16758243290880L, 24959017348650L, 14593825548650L}; for(Long i : nums){ for(long fang1 = 2; fang1 <= Math.sqrt(i) + 1; fang1++){ if(i % fang1 == 0){ long fang2 = i / fang1; if(fangCheck(i, fang1, fang2) && fang1 <= fang2){ System.out.println(i + ": [" + fang1 + ", " + fang2 +"]"); } } } } }
}</lang> Output:
1260: [21, 60] 1395: [15, 93] 1435: [35, 41] 1530: [30, 51] 1827: [21, 87] 2187: [27, 81] 6880: [80, 86] 102510: [201, 510] 104260: [260, 401] 105210: [210, 501] 105264: [204, 516] 105750: [150, 705] 108135: [135, 801] 110758: [158, 701] 115672: [152, 761] 116725: [161, 725] 117067: [167, 701] 118440: [141, 840] 120600: [201, 600] 123354: [231, 534] 124483: [281, 443] 125248: [152, 824] 125433: [231, 543] 125460: [204, 615] 125460: [246, 510] 125500: [251, 500] 126027: [201, 627] 16758243290880: [1982736, 8452080] 16758243290880: [2123856, 7890480] 16758243290880: [2751840, 6089832] 16758243290880: [2817360, 5948208] 24959017348650: [2947050, 8469153] 24959017348650: [2949705, 8461530] 24959017348650: [4125870, 6049395] 24959017348650: [4129587, 6043950] 24959017348650: [4230765, 5899410]
Alternative version
<lang java>public class VampireNumber {
public static void main(String args[]) {
// scan only the ranges that have an even number of digits // for instance: 10 .. 99, 1000 .. 9999 etc long countVamps = 0, start = 10, tens = 10; outer: for (int numDigits = 2; numDigits <= 18; numDigits += 2) { long end = start * 10; for (long i = start; i < end; i++) { if (countFangs(i, tens) > 0) { if (++countVamps >= 26) break outer; } } start *= 100; tens *= 10; } System.out.println();
long[] bigs = {16758243290880L, 24959017348650L, 14593825548650L};
for (long b : bigs) countFangs(b, 10000000L); }
private static int countFangs(long n, long tens) { int countFangs = 0;
// limit the search space for factors (as in C example) long lo = Math.max(tens / 10, (n + tens - 2) / (tens - 1)); long hi = Math.min(n / lo, (long) Math.sqrt(n));
long nTally = tallyDigits(n);
for (long a = lo; a <= hi; a++) { long b = n / a;
if (a * b != n) continue;
// check for mod 9 congruence if (n % 9 != (a + b) % 9) continue;
if (a % 10 == 0 && b % 10 == 0) continue;
if (nTally == tallyDigits(a) + tallyDigits(b)) { if (countFangs == 0) System.out.printf("\n%d : ", n); System.out.printf("[%d, %d]", a, b); countFangs++; } } return countFangs; }
// sum to a unique number to represent set of digits (as in C example) private static long tallyDigits(long n) { long total = 0; while (n > 0) { total += 1L << ((n % 10) * 6); n /= 10; } return total; }
}</lang>
Output:
1260 : [21, 60] 1395 : [15, 93] 1435 : [35, 41] 1530 : [30, 51] 1827 : [21, 87] 2187 : [27, 81] 6880 : [80, 86] 102510 : [201, 510] 104260 : [260, 401] 105210 : [210, 501] 105264 : [204, 516] 105750 : [150, 705] 108135 : [135, 801] 110758 : [158, 701] 115672 : [152, 761] 116725 : [161, 725] 117067 : [167, 701] 118440 : [141, 840] 120600 : [201, 600] 123354 : [231, 534] 124483 : [281, 443] 125248 : [152, 824] 125433 : [231, 543] 125460 : [204, 615][246, 510] 125500 : [251, 500] 126027 : [201, 627] 16758243290880 : [1982736, 8452080][2123856, 7890480][2751840, 6089832][2817360, 5948208] 24959017348650 : [2947050, 8469153][2949705, 8461530][4125870, 6049395][4129587, 6043950][4230765, 5899410]
Julia
Functions <lang Julia> function divisors{T<:Integer}(n::T)
!isprime(n) || return [one(T), n] d = [one(T)] for (k, v) in factor(n) e = T[k^i for i in 1:v] append!(d, vec([i*j for i in d, j in e])) end sort(d)
end
function vampirefangs{T<:Integer}(n::T)
fangs = T[] isvampire = false vdcnt = ndigits(n) fdcnt = vdcnt>>1 iseven(vdcnt) || return (isvampire, fangs) !isprime(n) || return (isvampire, fangs) vdigs = sort(digits(n)) d = divisors(n) len = length(d) len = iseven(len) ? len>>1 : len>>1 + 1 for f in d[1:len] ndigits(f) == fdcnt || continue g = div(n, f) f%10!=0 || g%10!=0 || continue sort([digits(f), digits(g)]) == vdigs || continue isvampire = true append!(fangs, [f, g]) end if isvampire fangs = reshape(fangs, (2,length(fangs)>>1))' end return (isvampire, fangs)
end </lang>
Main <lang Julia> function showvampire{T<:Integer}(i::T, n::T, fangs::Array{T,2})
s = @sprintf "%6d %14d %s\n" i n join(fangs[1,:], "\u00d7") for i in 2:size(fangs)[1] s *= " "^23*join(fangs[i,:], "\u00d7")*"\n" end return s
end
vgoal = 25 vcnt = 0 dcnt = 0 println("Finding the first ", vgoal, " vampire numbers.") println(" N Vampire Fangs") while vcnt < vgoal
dcnt += 2 for i in (10^(dcnt-1)):(10^dcnt-1) (isvampire, fangs) = vampirefangs(i) isvampire || continue vcnt += 1 print(showvampire(vcnt, i, fangs)) vcnt < vgoal || break end
end
test = [16758243290880, 24959017348650, 14593825548650] println() println("Checking a few numbers.") println(" N Vampire Fangs") for (i, v) in enumerate(test)
(isvampire, fangs) = vampirefangs(v) if isvampire print(showvampire(i, v, fangs)) else println(@sprintf "%6d %14d is not a vampire" i v) end
end </lang>
- Output:
Finding the first 25 vampire numbers. N Vampire Fangs 1 1260 21×60 2 1395 15×93 3 1435 35×41 4 1530 30×51 5 1827 21×87 6 2187 27×81 7 6880 80×86 8 102510 201×510 9 104260 260×401 10 105210 210×501 11 105264 204×516 12 105750 150×705 13 108135 135×801 14 110758 158×701 15 115672 152×761 16 116725 161×725 17 117067 167×701 18 118440 141×840 19 120600 201×600 20 123354 231×534 21 124483 281×443 22 125248 152×824 23 125433 231×543 24 125460 204×615 246×510 25 125500 251×500 Checking a few numbers. N Vampire Fangs 1 16758243290880 1982736×8452080 2123856×7890480 2751840×6089832 2817360×5948208 2 24959017348650 2947050×8469153 2949705×8461530 4125870×6049395 4129587×6043950 4230765×5899410 3 14593825548650 is not a vampire
Kotlin
<lang scala>// version 1.1
data class Fangs(val fang1: Long = 0L, val fang2: Long = 0L)
fun pow10(n: Int): Long = when {
n < 0 -> throw IllegalArgumentException("Can't be negative") else -> { var pow = 1L for (i in 1..n) pow *= 10L pow }
}
fun countDigits(n: Long): Int = when {
n < 0L -> throw IllegalArgumentException("Can't be negative") n == 0L -> 1 else -> { var count = 0 var nn = n while (nn > 0L) { count++ nn /= 10L } count }
}
fun hasTrailingZero(n: Long): Boolean = when {
n < 0L -> throw IllegalArgumentException("Can't be negative") else -> n % 10L == 0L
}
fun sortedString(s: String): String {
val ca = s.toCharArray() ca.sort() return String(ca)
}
fun isVampiric(n: Long, fl: MutableList<Fangs>): Boolean {
if (n < 0L) return false val len = countDigits(n) if (len % 2L == 1L) return false val hlen = len / 2 val first = pow10(hlen - 1) val last = 10L * first var j: Long var cd: Int val ss = sortedString(n.toString()) for (i in first until last) { if (n % i != 0L) continue j = n / i if (j < i) return fl.size > 0 cd = countDigits(j) if (cd > hlen) continue if (cd < hlen) return fl.size > 0 if (ss != sortedString(i.toString() + j.toString())) continue if (!(hasTrailingZero(i) && hasTrailingZero(j))) { fl.add(Fangs(i, j)) } } return fl.size > 0
}
fun showFangs(fangsList: MutableList<Fangs>): String {
var s = "" for ((fang1, fang2) in fangsList) { s += " = $fang1 x $fang2" } return s
}
fun main(args: Array<String>) {
println("The first 25 vampire numbers and their fangs are:") var count = 0 var n: Long = 0 val fl = mutableListOf<Fangs>() while (true) { if (isVampiric(n, fl)) { count++ println("${"%2d".format(count)} : $n\t${showFangs(fl)}") fl.clear() if (count == 25) break } n++ } println() val va = longArrayOf(16758243290880L, 24959017348650L, 14593825548650L) for (v in va) { if (isVampiric(v, fl)) { println("$v\t${showFangs(fl)}") fl.clear() } else { println("$v\t = not vampiric") } }
}</lang>
- Output:
The first 25 vampire numbers and their fangs are: 1 : 1260 = 21 x 60 2 : 1395 = 15 x 93 3 : 1435 = 35 x 41 4 : 1530 = 30 x 51 5 : 1827 = 21 x 87 6 : 2187 = 27 x 81 7 : 6880 = 80 x 86 8 : 102510 = 201 x 510 9 : 104260 = 260 x 401 10 : 105210 = 210 x 501 11 : 105264 = 204 x 516 12 : 105750 = 150 x 705 13 : 108135 = 135 x 801 14 : 110758 = 158 x 701 15 : 115672 = 152 x 761 16 : 116725 = 161 x 725 17 : 117067 = 167 x 701 18 : 118440 = 141 x 840 19 : 120600 = 201 x 600 20 : 123354 = 231 x 534 21 : 124483 = 281 x 443 22 : 125248 = 152 x 824 23 : 125433 = 231 x 543 24 : 125460 = 204 x 615 = 246 x 510 25 : 125500 = 251 x 500 16758243290880 = 1982736 x 8452080 = 2123856 x 7890480 = 2751840 x 6089832 = 2817360 x 5948208 24959017348650 = 2947050 x 8469153 = 2949705 x 8461530 = 4125870 x 6049395 = 4129587 x 6043950 = 4230765 x 5899410 14593825548650 = not vampiric
Mathematica
<lang Mathematica>ClearAll[VampireQ] VampireQ[num_Integer] := Module[{poss, divs},
divs = Select[Divisors[num], # <= Sqrt[num] &]; poss = {#, num/#} & /@ divs; If[Length[poss] > 0, poss = Select[poss, Mod[#, 10] =!= {0, 0} &]; If[Length[poss] > 0, poss = Select[poss, Length[IntegerDigits[First[#]]] == Length[IntegerDigits[Last[#]]] &]; If[Length[poss] > 0, poss = Select[poss, Sort[IntegerDigits[num]] == Sort[Join @@ (IntegerDigits /@ #)] &]; If[Length[poss] > 0 , Sow[{num, poss}]; True , False ] , False ] , False ] , False ]
]</lang> Testing out the function: <lang Mathematica>Reap[Scan[VampireQ,Range[126027]]]2,1//Grid Reap[VampireQ[#]] & /@ {16758243290880, 24959017348650, 14593825548650} // Grid</lang>
- Output:
1260 {{21,60}} 1395 {{15,93}} 1435 {{35,41}} 1530 {{30,51}} 1827 {{21,87}} 2187 {{27,81}} 6880 {{80,86}} 102510 {{201,510}} 104260 {{260,401}} 105210 {{210,501}} 105264 {{204,516}} 105750 {{150,705}} 108135 {{135,801}} 110758 {{158,701}} 115672 {{152,761}} 116725 {{161,725}} 117067 {{167,701}} 118440 {{141,840}} 120600 {{201,600}} 123354 {{231,534}} 124483 {{281,443}} 125248 {{152,824}} 125433 {{231,543}} 125460 {{204,615},{246,510}} 125500 {{251,500}} True {{{16758243290880,{{1982736,8452080},{2123856,7890480},{2751840,6089832},{2817360,5948208}}}}} True {{{24959017348650,{{2947050,8469153},{2949705,8461530},{4125870,6049395},{4129587,6043950},{4230765,5899410}}}}} False {}
PARI/GP
<lang parigp>fang(n)=my(v=digits(n),u=List());if(#v%2,return([]));fordiv(n,d,if(#Str(d)==#v/2 && #Str(n/d)==#v/2 && vecsort(v)==vecsort(concat(digits(d),digits(n/d))) && (d%10 || (n/d)%10), if(d^2>n,return(Vec(u))); listput(u, d))); Vec(u) k=25;forstep(d=4,6,2,for(n=10^(d-1),10^d-1,f=fang(n); for(i=1,#f,print(n" "f[i]" "n/f[i]); if(i==#f && k--==0,return)))) print();v=[16758243290880, 24959017348650, 14593825548650]; for(i=1,#v,f=fang(v[i]); for(j=1,#f, print(v[i]" "f[j]" "v[i]/f[j])))</lang> Output:
1260 21 60 1395 15 93 1435 35 41 1530 30 51 1827 21 87 2187 27 81 6880 80 86 102510 201 510 104260 260 401 105210 210 501 105264 204 516 105750 150 705 108135 135 801 110758 158 701 115672 152 761 116725 161 725 117067 167 701 118440 141 840 120600 201 600 123354 231 534 124483 281 443 125248 152 824 125433 231 543 125460 204 615 125460 246 510 125500 251 500 16758243290880 1982736 8452080 16758243290880 2123856 7890480 16758243290880 2751840 6089832 16758243290880 2817360 5948208 24959017348650 2947050 8469153 24959017348650 2949705 8461530 24959017348650 4125870 6049395 24959017348650 4129587 6043950 24959017348650 4230765 5899410
Perl
By the way, the last condition (trailing zeros) is first triggered when searching for the 26th vampire number.
<lang perl>#!/usr/bin/perl use warnings; use strict; use feature qw(say);
sub fangs {
my $vampire = shift; my $length = length 0 + $vampire; return if $length % 2; my $fang_length = $length / 2; my $from = '1' . '0' x ($fang_length - 1); my $to = '9' x $fang_length; my $sorted = join q(), sort split //, $vampire; my @fangs; for my $f1 ($from .. 1 + sqrt $vampire) { next if $vampire % $f1; my $f2 = $vampire / $f1; next if $sorted ne join q(), sort split //, $f1 . $f2; next if 2 == grep '0' eq substr($_, -1 , 1), $f1, $f2; # Needed for the 26th number. push @fangs, [$f1, $f2]; } return @fangs;
}
my $count = 0; my $i = 9; while ($count < 25) {
$i++; my @f = fangs($i); $count++, say join ' ', "$count. $i:", map "[@$_]", @f if @f;
}
say join ' ', $_, map "[@$_]", fangs($_) for 16758243290880, 24959017348650, 14593825548650;</lang>
Perl 6
<lang perl6>sub is_vampire (Int $num) {
my $digits = $num.comb.sort; my @fangs; for vfactors($num) -> $this { my $that = $num div $this; @fangs.push("$this x $that") if !($this %% 10 && $that %% 10) and ($this ~ $that).comb.sort eq $digits; } return @fangs;
}
constant @vampires = gather for 1 .. * -> $n {
next if $n.log(10).floor %% 2; my @fangs = is_vampire($n); take "$n: { @fangs.join(', ') }" if @fangs.elems;
}
say "\nFirst 25 Vampire Numbers:\n";
.say for @vampires[^25];
say "\nIndividual tests:\n";
for 16758243290880, 24959017348650, 14593825548650 {
print "$_: "; my @fangs = is_vampire($_); if @fangs.elems { say @fangs.join(', '); } else { say 'is not a vampire number.'; }
}
sub vfactors (Int $n) {
map { $_ if $n %% $_ }, 10**$n.sqrt.log(10).floor .. $n.sqrt.ceiling;
}</lang>
First 25 Vampire Numbers: 1260: 21 x 60 1395: 15 x 93 1435: 35 x 41 1530: 30 x 51 1827: 21 x 87 2187: 27 x 81 6880: 80 x 86 102510: 201 x 510 104260: 260 x 401 105210: 210 x 501 105264: 204 x 516 105750: 150 x 705 108135: 135 x 801 110758: 158 x 701 115672: 152 x 761 116725: 161 x 725 117067: 167 x 701 118440: 141 x 840 120600: 201 x 600 123354: 231 x 534 124483: 281 x 443 125248: 152 x 824 125433: 231 x 543 125460: 204 x 615, 246 x 510 125500: 251 x 500 Individual tests: 16758243290880: 1982736 x 8452080, 2123856 x 7890480, 2751840 x 6089832, 2817360 x 5948208 24959017348650: 2947050 x 8469153, 2949705 x 8461530, 4125870 x 6049395, 4129587 x 6043950, 4230765 x 5899410 14593825548650: is not a vampire number.
PureBasic
<lang PureBasic>EnableExplicit DisableDebugger
Macro CheckVamp(CheckNum)
c=0 : i=CheckNum : Print(~"\nCheck number: "+Str(i)+~"\n") Gosub VampireLoop : If c=0 : Print(Str(i)+" is not vampiric.") : EndIf : PrintN("")
EndMacro
Procedure.i Factor(number.i,counter.i)
If number>0 And number>=counter*counter And number%counter=0 ProcedureReturn counter EndIf ProcedureReturn 0
EndProcedure
Procedure.b IsVampire(f1.i,f2.i)
Define a.s=Str(f1*f2), b.s=Str(f1), c.s=Str(f2), d.s=b+c, i.i If Len(a)=Len(d) And Len(b)=Len(c) While Len(a) i=FindString(d,Left(a,1)) If i a=Mid(a,2) d=RemoveString(d,Mid(d,i,1),#PB_String_NoCase,i,1) Else ProcedureReturn #False EndIf Wend ProcedureReturn Bool(Len(d)=0) EndIf ProcedureReturn #False
EndProcedure
OpenConsole("Vampire number") Define i.i,
j.i, m.i, c.i=0
PrintN("The first 25 Vampire numbers...") While c<25 : i+1 : Gosub VampireLoop : Wend PrintN("") CheckVamp(16758243290880) : CheckVamp(24959017348650) : CheckVamp(14593825548650) Input() End
VampireLoop:
For j=1 To Int(Sqr(i)) If Factor(i,j)>0 m=i/j Else Continue EndIf If IsVampire(m,j) c+1 PrintN(RSet(Str(c),3," ")+". "+RSet(Str(i),10," ")+": ["+Str(j)+", "+Str(m)+"]") EndIf Next
Return</lang>
- Output:
The first 25 Vampire numbers... 1. 1260: [21, 60] 2. 1395: [15, 93] 3. 1435: [35, 41] 4. 1530: [30, 51] 5. 1827: [21, 87] 6. 2187: [27, 81] 7. 6880: [80, 86] 8. 102510: [201, 510] 9. 104260: [260, 401] 10. 105210: [210, 501] 11. 105264: [204, 516] 12. 105750: [150, 705] 13. 108135: [135, 801] 14. 110758: [158, 701] 15. 115672: [152, 761] 16. 116725: [161, 725] 17. 117067: [167, 701] 18. 118440: [141, 840] 19. 120600: [201, 600] 20. 123354: [231, 534] 21. 124483: [281, 443] 22. 125248: [152, 824] 23. 125433: [231, 543] 24. 125460: [204, 615] 25. 125460: [246, 510] Check number: 16758243290880 1. 1675824329: [1982736, 8452080] 2. 1675824329: [2123856, 7890480] 3. 1675824329: [2751840, 6089832] 4. 1675824329: [2817360, 5948208] Check number: 24959017348650 1. 2495901734: [2947050, 8469153] 2. 2495901734: [2949705, 8461530] 3. 2495901734: [4125870, 6049395] 4. 2495901734: [4129587, 6043950] 5. 2495901734: [4230765, 5899410] Check number: 14593825548650 14593825548650 is not vampiric.
Python
This routine finds all the fangs for a number. <lang python>from __future__ import division
import math from operator import mul from itertools import product from functools import reduce
def fac(n):
\ return the prime factors for n >>> fac(600) [5, 5, 3, 2, 2, 2] >>> fac(1000) [5, 5, 5, 2, 2, 2] >>> step = lambda x: 1 + x*4 - (x//2)*2 maxq = int(math.floor(math.sqrt(n))) d = 1 q = n % 2 == 0 and 2 or 3 while q <= maxq and n % q != 0: q = step(d) d += 1 res = [] if q <= maxq: res.extend(fac(n//q)) res.extend(fac(q)) else: res=[n] return res
def fact(n):
\ return the prime factors and their multiplicities for n >>> fact(600) [(2, 3), (3, 1), (5, 2)] >>> fact(1000) [(2, 3), (5, 3)] >>> res = fac(n) return [(c, res.count(c)) for c in set(res)]
def divisors(n):
'Returns all the divisors of n' factors = fact(n) # [(primefactor, multiplicity), ...] primes, maxpowers = zip(*factors) powerranges = (range(m+1) for m in maxpowers) powers = product(*powerranges) return ( reduce(mul, (prime**power for prime, power in zip(primes, powergroup)), 1) for powergroup in powers)
def vampire(n):
fangsets = set( frozenset([d, n//d]) for d in divisors(n) if (len(str(d)) == len(str(n))/2. and sorted(str(d) + str(n//d)) == sorted(str(n)) and (str(d)[-1] == 0) + (str(n//d)[-1] == 0) <=1) ) return sorted(tuple(sorted(fangs)) for fangs in fangsets)
if __name__ == '__main__':
print('First 25 vampire numbers') count = n = 0 while count <25: n += 1 fangpairs = vampire(n) if fangpairs: count += 1 print('%i: %r' % (n, fangpairs)) print('\nSpecific checks for fangpairs') for n in (16758243290880, 24959017348650, 14593825548650): fangpairs = vampire(n) print('%i: %r' % (n, fangpairs))</lang>
- Output:
First 25 vampire numbers 1260: [(21, 60)] 1395: [(15, 93)] 1435: [(35, 41)] 1530: [(30, 51)] 1827: [(21, 87)] 2187: [(27, 81)] 6880: [(80, 86)] 102510: [(201, 510)] 104260: [(260, 401)] 105210: [(210, 501)] 105264: [(204, 516)] 105750: [(150, 705)] 108135: [(135, 801)] 110758: [(158, 701)] 115672: [(152, 761)] 116725: [(161, 725)] 117067: [(167, 701)] 118440: [(141, 840)] 120600: [(201, 600)] 123354: [(231, 534)] 124483: [(281, 443)] 125248: [(152, 824)] 125433: [(231, 543)] 125460: [(204, 615), (246, 510)] 125500: [(251, 500)] Specific checks for fangpairs 16758243290880: [(1982736, 8452080), (2123856, 7890480), (2751840, 6089832), (2817360, 5948208)] 24959017348650: [(2947050, 8469153), (2949705, 8461530), (4125870, 6049395), (4129587, 6043950), (4230765, 5899410)] 14593825548650: []
This alternative solution is not fast but it's short:
<lang python>from math import sqrt from itertools import imap, ifilter, islice, count
def factor_pairs(n):
return ((x, n // x) for x in xrange(2, int(sqrt(n))) if n % x == 0)
def fangs(n):
dlen = lambda x: len(str(x)) half = dlen(n) // 2 digits = lambda (x, y): sorted(str(x) + str(y)) halvesQ = lambda xs: all(y == half for y in imap(dlen, xs)) dn = sorted(str(n)) return [p for p in factor_pairs(n) if halvesQ(p) and dn==digits(p)]
def vampiricQ(n):
fn = fangs(n) return (n, fn) if fn else None
for v in islice(ifilter(None, imap(vampiricQ, count())), 0, 25):
print v
for n in [16758243290880, 24959017348650, 14593825548650]:
print vampiricQ(n) or str(n) + " is not vampiric."</lang>
- Output:
(1260, [(21, 60)]) (1395, [(15, 93)]) (1435, [(35, 41)]) (1530, [(30, 51)]) (1827, [(21, 87)]) (2187, [(27, 81)]) (6880, [(80, 86)]) (102510, [(201, 510)]) (104260, [(260, 401)]) (105210, [(210, 501)]) (105264, [(204, 516)]) (105750, [(150, 705)]) (108135, [(135, 801)]) (110758, [(158, 701)]) (115672, [(152, 761)]) (116725, [(161, 725)]) (117067, [(167, 701)]) (118440, [(141, 840)]) (120600, [(201, 600)]) (123354, [(231, 534)]) (124483, [(281, 443)]) (125248, [(152, 824)]) (125433, [(231, 543)]) (125460, [(204, 615), (246, 510)]) (125500, [(251, 500)]) (16758243290880L, [(1982736, 8452080L), (2123856, 7890480L), (2751840, 6089832L), (2817360, 5948208L)]) (24959017348650L, [(2947050, 8469153L), (2949705, 8461530L), (4125870, 6049395L), (4129587, 6043950L), (4230765, 5899410L)]) 14593825548650 is not vampiric.
Racket
Naive implementation, but notice the sequence-filter/sequence-map composition -- it's a good way to "find the first n numbers meeting predicate p?": <lang racket>#lang racket
- chock full of fun... including divisors
(require math/number-theory)
- predicate to tell if n is a vampire number
(define (sub-vampire?-and-fangs n)
(define digit-count-n (add1 (order-of-magnitude n))) (define (string-sort-characters s) (sort (string->list s) char<?)) (define digits-in-order-n (string-sort-characters (number->string n))) (define (fangs-of-n? d e) (and (<= d e) ; avoid duplication (= (add1 (order-of-magnitude d)) (add1 (order-of-magnitude e)) (/ digit-count-n 2)) (not (= 0 (modulo d 10) (modulo e 10))) (equal? digits-in-order-n (string-sort-characters (string-append (number->string d) (number->string e)))))) (let* ((fangses (for*/list ((d (in-list (divisors n))) #:when (fangs-of-n? d (/ n d))) (list d (/ n d))))) (and (not (null? fangses)) (cons n fangses))))
(define (vampire?-and-fangs n)
(and (odd? (order-of-magnitude n)) ; even number of digits - else not even worth looking! (sub-vampire?-and-fangs n)))
(displayln "First 25 vampire numbers:") (for ((vmp (sequence-filter identity (sequence-map vampire?-and-fangs (in-naturals 1))))
(cnt (in-range 1 (add1 25)))) (printf "#~a ~a~%" cnt vmp))
(displayln "Test the big numbers:") (displayln (vampire?-and-fangs 16758243290880)) (displayln (vampire?-and-fangs 24959017348650)) (displayln (vampire?-and-fangs 14593825548650))</lang> Output:
First 25 vampire numbers: #1 (1260 (21 60)) #2 (1395 (15 93)) #3 (1435 (35 41)) #4 (1530 (30 51)) #5 (1827 (21 87)) #6 (2187 (27 81)) #7 (6880 (80 86)) #8 (102510 (201 510)) #9 (104260 (260 401)) #10 (105210 (210 501)) #11 (105264 (204 516)) #12 (105750 (150 705)) #13 (108135 (135 801)) #14 (110758 (158 701)) #15 (115672 (152 761)) #16 (116725 (161 725)) #17 (117067 (167 701)) #18 (118440 (141 840)) #19 (120600 (201 600)) #20 (123354 (231 534)) #21 (124483 (281 443)) #22 (125248 (152 824)) #23 (125433 (231 543)) #24 (125460 (204 615) (246 510)) #25 (125500 (251 500)) Test the big numbers: (16758243290880 (1982736 8452080) (2123856 7890480) (2751840 6089832) (2817360 5948208)) (24959017348650 (2947050 8469153) (2949705 8461530) (4125870 6049395) (4129587 6043950) (4230765 5899410)) #f
REXX
Note: if the argument is negative, its absolute value is used to test if that number is vampiric. <lang rexx>/*REXX program displays N vampire numbers, or verifies if a number is vampiric. */ numeric digits 20 /*be able to handle gihugic numbers. */ parse arg N .; if N== | N=="," then N=25 /*Not specified? Then use the default.*/ !.0=1260; !.1=11453481; !.2=115672; !.3=124483; !.4=105264 /*lowest #, dig.*/ !.5=1395; !.6=126846; !.7=1827; !.8=110758; !.9=156289 /* " " " */
- =0 /*num. of vampire numbers found, so far*/
if N>0 then do j=1260 until # >= N /*search until N vampire numbers found.*/
if length(j) // 2 then do; j=j*10 - 1; iterate; end /*adjust J*/ _=right(j,1); if j<!._ then iterate /*is number tenable based on last dig? */ f=vampire(j); if f== then iterate /*Are fangs null? Yes, not vampire. */ #=# + 1 /*bump the vampire count, Vlad. */ say 'vampire number' right(#,length(N)) "is: " j', fangs=' f end /*j*/ /* [↑] process a range of numbers. */ else do; N=abs(N); f=vampire(N) /* [↓] process a number; obtain fangs.*/ if f== then say N " isn't a vampire number." else say N " is a vampire number, fangs=" f end
exit /*stick a fork in it, we're all done. */ /*──────────────────────────────────────────────────────────────────────────────────────*/ vampire: procedure; parse arg ?,, $. a bot; L=length(?); w=L % 2
if L//2 then return /*Is L an odd length? Then ¬vampire.*/ do k=1 for L; _=substr(?,k,1); $._=$._ || _; end /*k*/ do m=0 for 10; bot=bot || $.m; end /*m*/ top=left( reverse(bot), w); bot=left(bot, w) /*determine limits of search*/ inc=?//2 + 1 /*? is odd? INC=2. No? INC=1*/ beg=max(bot, 10**(w-1)); if inc=2 then if beg//2==0 then beg=beg + 1 /* [↑] odd BEG if odd INC*/ do d=beg to min(top, 10**w - 1) by inc if ? // d \==0 then iterate /*? not ÷ by D? Then skip,*/ q=? % d; if d>q then iterate /*is D > Q Then skip.*/ if q*d//9 \== (q+d)//9 then iterate /*modulo 9 congruence test. */ if length(q) \==w then iterate /*Len of Q ^= W? Then skip.*/ if right(q, 1) ==0 then if right(d, 1) ==0 then iterate dq=d || q t=?; do i=1 for L; p=pos( substr(dq, i, 1), t) if p==0 then iterate d; t=delstr(t, p, 1) end /*i*/ a=a '['d"∙"q']' end /*d*/ return a</lang>
- output when using the default input:
vampire number 1 is: 1260, fangs= [21∙60] vampire number 2 is: 1395, fangs= [15∙93] vampire number 3 is: 1435, fangs= [35∙41] vampire number 4 is: 1530, fangs= [30∙51] vampire number 5 is: 1827, fangs= [21∙87] vampire number 6 is: 2187, fangs= [27∙81] vampire number 7 is: 6880, fangs= [80∙86] vampire number 8 is: 102510, fangs= [201∙510] vampire number 9 is: 104260, fangs= [260∙401] vampire number 10 is: 105210, fangs= [210∙501] vampire number 11 is: 105264, fangs= [204∙516] vampire number 12 is: 105750, fangs= [150∙705] vampire number 13 is: 108135, fangs= [135∙801] vampire number 14 is: 110758, fangs= [158∙701] vampire number 15 is: 115672, fangs= [152∙761] vampire number 16 is: 116725, fangs= [161∙725] vampire number 17 is: 117067, fangs= [167∙701] vampire number 18 is: 118440, fangs= [141∙840] vampire number 19 is: 120600, fangs= [201∙600] vampire number 20 is: 123354, fangs= [231∙534] vampire number 21 is: 124483, fangs= [281∙443] vampire number 22 is: 125248, fangs= [152∙824] vampire number 23 is: 125433, fangs= [231∙543] vampire number 24 is: 125460, fangs= [204∙615] [246∙510] vampire number 25 is: 125500, fangs= [251∙500]
- output when using the input of: -16758243290880
16758243290880 is a vampire number, fangs= [1982736∙8452080] [2123856∙7890480] [2751840∙6089832] [2817360∙5948208]
{{out|output|text= when using the input of: -24959017348650
24959017348650 is a vampire number, fangs= [2947050∙8469153] [2949705∙8461530] [4125870∙6049395] [4129587∙6043950] [4230765∙5899410]
- output when using the input of: -14593825548650
14593825548650 isn't a vampire number.
Ring
<lang ring>
- Project : Vampire number
- Date : 2018/02/01
- Author : Gal Zsolt [~ CalmoSoft ~]
- Email : <calmosoft@gmail.com>
for p = 10 to 127000
vampire(p)
next
func vampire(listnum)
sum = 0 flag = 1 list = list(len(string(listnum))) total = newlist(len(list),2) for n = 1 to len(string(listnum)) liststr = string(listnum) list[n] = liststr[n] next
for perm = 1 to fact(len(list)) numstr = substr(list2str(list), nl, "") num1 = number(left(numstr,len(numstr)/2)) num2 = number(right(numstr,len(numstr)/2)) if (listnum = num1 * num2) for n = 1 to len(total) if (num1 = total[n][2] and num2 = total[n][1]) or (num1 = total[n][1] and num2 = total[n][2]) flag = 0 ok next if flag = 1 sum = sum + 1 total[sum][1] = num1 total[sum][2] = num2 see "" + listnum + ": [" + num1 + "," + num2 + "]" + nl ok ok nextPermutation(list) next
func nextPermutation(a)
elementcount = len(a) if elementcount < 1 then return ok pos = elementcount-1 while a[pos] >= a[pos+1] pos -= 1 if pos <= 0 permutationReverse(a, 1, elementcount) return ok end last = elementcount while a[last] <= a[pos] last -= 1 end temp = a[pos] a[pos] = a[last] a[last] = temp permutationReverse(a, pos+1, elementcount) func permutationReverse a, first, last while first < last temp = a[first] a[first] = a[last] a[last] = temp first += 1 last -= 1 end
func fact(nr)
if nr = 1 return 1 else return nr * fact(nr-1) ok
func newlist(x,y)
if isstring(x) x=0+x ok if isstring(y) y=0+y ok alist = list(x) for t in alist t = list(y) next return alist
</lang> Output:
1260: [21,60] 1395: [15,93] 1435: [35,41] 1530: [30,51] 1827: [21,87] 2187: [27,81] 6880: [80,86] 102510: [201,510] 104260: [260,401] 105210: [210,501] 105264: [204,516] 105750: [150,705] 108135: [135,801] 110758: [158,701] 115672: [152,761] 116725: [161,725] 117067: [167,701] 118440: [141,840] 123354: [231,534] 124483: [281,443] 125248: [152,824] 125433: [231,543] 125460: [204,615] [246,510] 125500: [251,500] 126027: [201,627]
Ruby
<lang Ruby>def factor_pairs n
first = n / (10 ** (n.to_s.size / 2) - 1)(first .. n ** 0.5).map {
{
set result [list 1 $n] if {$from<=1} {set from 2} for {set i $from} {$i<=sqrt($n)} {incr i} {
if {$n%$i} {} {lappend result $i [expr {$n/$i}]}
} return $result
}
proc vampireFactors {n} {
if {[string length $n]%2} return set half [expr {[string length $n]/2}] set digits [lsort [split $n ""]] set result {} foreach {a b} [factorPairs $n [expr {10**$half/10}]] {
if { [string length $a]==$half && [string length $b]==$half && ($a%10 || $b%10) && $digits eq [lsort [split $a$b ""]] } then { lappend result [list $a $b] }
} return $result
}</lang> Demonstrating: <lang tcl># A nicer way to print the evidence of vampire-ness proc printVampire {n pairs} {
set out "${n}:" foreach p $pairs {
append out " \[[join $p {, }]\]"
} puts $out
} set n 0 for {set i 0} {$i < 25} {incr i} {
while 1 {
if {[llength [set vamps [vampireFactors [incr n]]]]} { printVampire $n $vamps break }
}
} puts "" foreach n {16758243290880 24959017348650 14593825548650} {
if {[llength [set vamps [vampireFactors $n]]]} {
printVampire $n $vamps
} else {
puts "$n is not a vampire number"
}
}</lang>
- Output:
1260: [21, 60] 1395: [15, 93] 1435: [35, 41] 1530: [30, 51] 1827: [21, 87] 2187: [27, 81] 6880: [80, 86] 102510: [201, 510] 104260: [260, 401] 105210: [210, 501] 105264: [204, 516] 105750: [150, 705] 108135: [135, 801] 110758: [158, 701] 115672: [152, 761] 116725: [161, 725] 117067: [167, 701] 118440: [141, 840] 120600: [201, 600] 123354: [231, 534] 124483: [281, 443] 125248: [152, 824] 125433: [231, 543] 125460: [204, 615] [246, 510] 125500: [251, 500] 16758243290880: [1982736, 8452080] [2123856, 7890480] [2751840, 6089832] [2817360, 5948208] 24959017348650: [2947050, 8469153] [2949705, 8461530] [4125870, 6049395] [4129587, 6043950] [4230765, 5899410] 14593825548650 is not a vampire number
zkl
<lang zkl>fcn fangs(N){ //-->if Vampire number: (N,(a,b,c,...)), where a*x==N
var [const] tens=[0 .. 18].pump(List,(10.0).pow,"toInt");
(half:=N.numDigits) : if (_.isOdd) return(T);; half/=2; digits:=N.toString().sort(); lo:=tens[half-1].max((N+tens[half])/(tens[half])); hi:=(N/lo).min(N.toFloat().sqrt()); fs:=[lo .. hi].filter('wrap(n){ N%n==0 and (n%10!=0 or (N/n)%10!=0) and (n.toString()+(N/n).toString()).sort()==digits }); fs and T(N,fs) or T;
}</lang> <lang zkl>fcn vampiric(fangs,n=Void){
if(not fangs) return(n,"Not a Vampire number"); v:=fangs[0]; T(v,fangs[1].apply('wrap(n){T(n,v/n)})) }
T(16758243290880, 24959017348650, 14593825548650) .pump(Console.println,fcn(n){"%d: %s".fmt(vampiric(fangs(n),n).xplode())});
(0).walker(*).tweak(fangs).filter(26) .pump(Console.println,vampiric);</lang>
- Output:
16758243290880: L(L(1982736,8452080),L(2123856,7890480),L(2751840,6089832),L(2817360,5948208)) 24959017348650: L(L(2947050,8469153),L(2949705,8461530),L(4125870,6049395),L(4129587,6043950),L(4230765,5899410)) 14593825548650: Not a Vampire number L(1260,L(L(21,60))) L(1395,L(L(15,93))) L(1435,L(L(35,41))) L(1530,L(L(30,51))) L(1827,L(L(21,87))) L(2187,L(L(27,81))) L(6880,L(L(80,86))) L(102510,L(L(201,510))) L(104260,L(L(260,401))) L(105210,L(L(210,501))) L(105264,L(L(204,516))) L(105750,L(L(150,705))) L(108135,L(L(135,801))) L(110758,L(L(158,701))) L(115672,L(L(152,761))) L(116725,L(L(161,725))) L(117067,L(L(167,701))) L(118440,L(L(141,840))) L(120600,L(L(201,600))) L(123354,L(L(231,534))) L(124483,L(L(281,443))) L(125248,L(L(152,824))) L(125433,L(L(231,543))) L(125460,L(L(204,615),L(246,510))) L(125500,L(L(251,500))) L(126027,L(L(201,627)))