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Numbers with same digit set in base 10 and base 16

From Rosetta Code
Numbers with same digit set in base 10 and base 16 is a draft programming task. It is not yet considered ready to be promoted as a complete task, for reasons that should be found in its talk page.
Task

Find decimal numbers   n   that when converted to hexadecimal produce a number that uses the same set of digits (regardless of order and ignoring duplicates) as the original number,   where   n  <  100000


Example

The decimal number   2339   is   923   when written in hexadecimal.

The set of digits used,   ignoring order and duplicates,   is   {2, 3, 9}   in both cases and hence this number satisfies the task requirements.

Ada[edit]

with Ada.Text_Io;
 
procedure Same_Digits is
 
Columns : constant := 10;
Width  : constant := 8;
 
type Set_Type is array (0 .. 15) of Boolean;
 
function Digit_Set_Of (N : Natural; Base : Natural) return Set_Type is
Nn  : Natural  := N;
Set : Set_Type := (others => False);
begin
while Nn /= 0 loop
Set (Nn mod Base) := True;
Nn := Nn / Base;
end loop;
return Set;
end Digit_Set_Of;
 
package Natural_Io is new Ada.Text_Io.Integer_Io (Natural);
use Ada.Text_Io, Natural_Io;
 
Count : Natural := 0;
begin
for N in 0 .. 99_999 loop
if Digit_Set_Of (N, Base => 10) = Digit_Set_Of (N, Base => 16) then
Count := Count + 1;
Put (N, Width => Width);
if Count mod Columns = 0 then
New_Line;
end if;
end if;
end loop;
New_Line;
Put ("Total numbers: "); Put (Count, Width => 3); New_Line;
end Same_Digits;
Output:
       0       1       2       3       4       5       6       7       8       9
      53     371     913    1040    2080    2339    4100    5141    5412    5441
    6182    8200    9241   13593   13665   13969   16406   20530   26946   30979
   32803   33638   33840   33841   33842   33843   33844   33845   33846   33847
   33848   33849   34883   37943   38931   38966   38995   66310   71444   71497
   71511   75120   75121   75122   75123   75124   75125   75126   75127   75128
   75129   75621   86150   88165   91465   91769   96617   98711   99481
Total numbers:  69

ALGOL W[edit]

Generates the candidate numbers (ones that only have the digits 0-9 in their hexadecimal representation) to cut down the numbers to check.

begin % find numbers that use the same digits in decimal and hexadecimal      %
integer hdCount, h20, h300, h4000, h50000;
logical array hex, dec ( 0 :: 9 );
integer x2, x3, x4, x5, hx2, hx3, hx4, hx5;
hdCount := 0;
 % note 100 000 is 186A0 in hexadecimal, so we need to consider numbers  %
 % with up to 5 hexadedcimal digits  %
 % powers of 16 %
x2 := 16; x3 := x2 * 16; x4 := x3 * 16; x5 := x4 * 16;
for hPos := 0 until 9 do hex( hPos ) := false;
 % construct the numbers that have only 0-9 in their hex representations  %
for h5 := 0 until 1 do begin
hx5 := h5 * x5;
for h4 := 0 until 9 do begin
hx4 := h4 * x4;
for h3 := 0 until 9 do begin
hx3 := h3 * x3;
for h2 := 0 until 9 do begin
hx2 := h2 * x2;
for h1 := 0 until 9 do begin
integer n, d;
n := d := hx5 + hx4 + hx3 + hx2 + h1;
if n > 100000 then goto endSearch;
for dPos := 0 until 9 do dec( dPos ) := false;
if d = 0 then dec( 0 ) := true;
while d > 0 do begin
dec( d rem 10 ) := true;
d := d div 10
end while_d_gt_0 ;
if h5 not = 0 then hex( h5 ) := true;
if h5 + h4 not = 0 then hex( h4 ) := true;
if h5 + h4 + h3 not = 0 then hex( h3 ) := true;
if h5 + h4 + h3 + h2 not = 0 then hex( h2 ) := true;
hex( h1 ) := true;
if hex( 0 ) = dec( 0 ) and hex( 1 ) = dec( 1 )
and hex( 2 ) = dec( 2 ) and hex( 3 ) = dec( 3 )
and hex( 4 ) = dec( 4 ) and hex( 5 ) = dec( 5 )
and hex( 6 ) = dec( 6 ) and hex( 7 ) = dec( 7 )
and hex( 8 ) = dec( 8 ) and hex( 9 ) = dec( 9 )
then begin
 % the decimal and hexadecimal representations  %
 % use the same digits  %
writeon( i_w := 7, s_w := 0, " ", n );
hdCount := hdCount + 1;
if hdCount rem 10 = 0 then write()
end if_allSame ;
hex( h1 ) := false;
hex( h2 ) := false;
hex( h3 ) := false;
hex( h4 ) := false;
hex( h5 ) := false;
end for_h5
end for_h4
end for_h3
end for_h2
end for_h1 ;
endSearch:
write( i_w := 1, s_w := 0, "Found ", hdCount, " numbers up to 100000 " );
write( " where the decimal and hexadecimal "
, "representations use the same digits"
);
end.
Output:
       0       1       2       3       4       5       6       7       8       9
      53     371     913    1040    2080    2339    4100    5141    5412    5441
    6182    8200    9241   13593   13665   13969   16406   20530   26946   30979
   32803   33638   33840   33841   33842   33843   33844   33845   33846   33847
   33848   33849   34883   37943   38931   38966   38995   66310   71444   71497
   71511   75120   75121   75122   75123   75124   75125   75126   75127   75128
   75129   75621   86150   88165   91465   91769   96617   98711   99481
Found 69 numbers up to 100000
      where the decimal and hexadecimal representations use the same digits

APL[edit]

Works with: Dyalog APL
(⊢(/⍨)(≡/((⊂∘⍋⌷⊢)∘∪¨10 16(⊥⍣¯1)¨⊂))¨)0,⍳99999
Output:
0 1 2 3 4 5 6 7 8 9 53 371 913 1040 2080 2339 4100 5141 5412 5441 6182
      8200 9241 13593 13665 13969 16406 20530 26946 30979 32803 33638
      33840 33841 33842 33843 33844 33845 33846 33847 33848 33849 34883
      37943 38931 38966 38995 66310 71444 71497 71511 75120 75121 75122
      75123 75124 75125 75126 75127 75128 75129 75621 86150 88165 91465
      91769 96617 98711 99481

AppleScript[edit]

use AppleScript version "2.3.1" -- Mac OS X 10.9 (Mavericks) or later.
use sorter : script "Insertion sort" -- <https://www.rosettacode.org/wiki/Sorting_algorithms/Insertion_sort#AppleScript>
 
on sameDigitSetDecHex(n)
(* Integer number input assumed.
Numbers whose hex LSD > 9 are eliminated immediately. Ditto negatives.
Thereafter the hex form's tested first so that the dec form doesn't have to be if the hex is unsuitable. *)

tell n mod 16 to if ((it > 9) or (it < 0)) then return false
 
script o
on digitsOf(n, base)
set digits to {n mod base}
set n to n div base
repeat until (n = 0)
set d to n mod base
if (d > 9) then return false
if (d is not in digits) then set end of digits to d
set n to n div base
end repeat
tell sorter to sort(digits, 1, -1)
 
return digits
end digitsOf
end script
 
tell o's digitsOf(n, 16) to return ((it is not false) and (it = o's digitsOf(n, 10)))
end sameDigitSetDecHex
 
local output, n
set output to {}
repeat with n from 0 to 99999
if (sameDigitSetDecHex(n)) then set end of output to n
end repeat
return output
Output:
{0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 53, 371, 913, 1040, 2080, 2339, 4100, 5141, 5412, 5441, 6182, 8200, 9241, 13593, 13665, 13969, 16406, 20530, 26946, 30979, 32803, 33638, 33840, 33841, 33842, 33843, 33844, 33845, 33846, 33847, 33848, 33849, 34883, 37943, 38931, 38966, 38995, 66310, 71444, 71497, 71511, 75120, 75121, 75122, 75123, 75124, 75125, 75126, 75127, 75128, 75129, 75621, 86150, 88165, 91465, 91769, 96617, 98711, 99481}

AWK[edit]

 
# syntax: GAWK -f DECIMAL_-_HEXADECIMAL_NUMBERS.AWK
BEGIN {
start = 0
stop = 99999
for (i=start; i<=stop; i++) {
tmp = sprintf("%X",i)
leng_dec = length(i)
leng_hex = length(tmp)
hits_dec = hits_hex = 0
for (j=1; j<=leng_dec; j++) {
if (tmp ~ substr(i,j,1)) {
hits_dec++
}
}
if (leng_dec == hits_dec) {
for (j=1; j<=leng_hex; j++) {
if (i ~ substr(tmp,j,1)) {
hits_hex++
}
}
}
if (leng_hex == hits_hex) {
printf("%6d%1s",i,++count%10?"":"\n")
}
}
printf("\nDecimal matches hexadecimal %d-%d: %d\n",start,stop,count)
exit(0)
}
 
Output:
     0      1      2      3      4      5      6      7      8      9
    53    371    913   1040   2080   2339   4100   5141   5412   5441
  6182   8200   9241  13593  13665  13969  16406  20530  26946  30979
 32803  33638  33840  33841  33842  33843  33844  33845  33846  33847
 33848  33849  34883  37943  38931  38966  38995  66310  71444  71497
 71511  75120  75121  75122  75123  75124  75125  75126  75127  75128
 75129  75621  86150  88165  91465  91769  96617  98711  99481
Decimal matches hexadecimal 0-99999: 69

C[edit]

#include <stdio.h>
#define LIMIT 100000
 
int digitset(int num, int base) {
int set;
for (set = 0; num; num /= base)
set |= 1 << num % base;
return set;
}
 
int main() {
int i, c = 0;
for (i = 0; i < LIMIT; i++)
if (digitset(i,10) == digitset(i,16))
printf("%6d%c", i, ++c%10 ? ' ' : '\n');
printf("\n");
return 0;
}
Output:
     0      1      2      3      4      5      6      7      8      9
    53    371    913   1040   2080   2339   4100   5141   5412   5441
  6182   8200   9241  13593  13665  13969  16406  20530  26946  30979
 32803  33638  33840  33841  33842  33843  33844  33845  33846  33847
 33848  33849  34883  37943  38931  38966  38995  66310  71444  71497
 71511  75120  75121  75122  75123  75124  75125  75126  75127  75128
 75129  75621  86150  88165  91465  91769  96617  98711  99481

C++[edit]

#include <iostream>
#include <iomanip>
#include <bitset>
 
const int LIMIT = 100000;
 
std::bitset<16> digitset(int num, int base) {
std::bitset<16> set;
for (; num; num /= base) set.set(num % base);
return set;
}
 
int main() {
int c = 0;
for (int i=0; i<LIMIT; i++) {
if (digitset(i,10) == digitset(i,16)) {
std::cout << std::setw(7) << i;
if (++c % 10 == 0) std::cout << std::endl;
}
}
std::cout << std::endl;
return 0;
}
Output:
      0      1      2      3      4      5      6      7      8      9
     53    371    913   1040   2080   2339   4100   5141   5412   5441
   6182   8200   9241  13593  13665  13969  16406  20530  26946  30979
  32803  33638  33840  33841  33842  33843  33844  33845  33846  33847
  33848  33849  34883  37943  38931  38966  38995  66310  71444  71497
  71511  75120  75121  75122  75123  75124  75125  75126  75127  75128
  75129  75621  86150  88165  91465  91769  96617  98711  99481

Cowgol[edit]

include "cowgol.coh";
 
const LIMIT := 100000;
 
sub digitset(n: uint32, base: uint8): (set: uint16) is
var one: uint16 := 1;
set := 0;
while n != 0 loop
set := set | (one << (n % base as uint32) as uint8);
n := n / base as uint32;
end loop;
end sub;
 
var i: uint32 := 0;
var c: uint8 := 0;
while i < LIMIT loop
if digitset(i,10) == digitset(i,16) then
print_i32(i);
if c<9 then
c := c + 1;
print_char('\t');
else
c := 0;
print_nl();
end if;
end if;
i := i + 1;
end loop;
print_nl();
Output:
0       1       2       3       4       5       6       7       8       9
53      371     913     1040    2080    2339    4100    5141    5412    5441
6182    8200    9241    13593   13665   13969   16406   20530   26946   30979
32803   33638   33840   33841   33842   33843   33844   33845   33846   33847
33848   33849   34883   37943   38931   38966   38995   66310   71444   71497
71511   75120   75121   75122   75123   75124   75125   75126   75127   75128
75129   75621   86150   88165   91465   91769   96617   98711   99481

F#[edit]

 
// Decimal-Hexdecimal: Nigel Galloway. June 7th., 2021
let rec fN g=function n when n<10->Some(Set.add n g)|n when n%16<10->fN(g.Add(n%16))(n/16) |_->None
let rec fG n g=match n/10,n%10 with (0,n)->Some(Set.add n g)|(n,i)->fG n (Set.add i g)
let g=Set.empty in seq{0..100000}|>Seq.filter(fun n->fN g n=fG n g)|>Seq.iter(printf "%d "); printfn ""
 
Output:
0 1 2 3 4 5 6 7 8 9 53 371 913 1040 2080 2339 4100 5141 5412 5441 6182 8200 9241 13593 13665 13969 16406 20530 26946 30979 32803 33638 33840 33841 33842 33843 33844 33845 33846 33847 33848 33849 34883 37943 38931 38966 38995 66310 71444 71497 71511 75120 75121 75122 75123 75124 75125 75126 75127 75128 75129 75621 86150 88165 91465 91769 96617 98711 99481

Factor[edit]

Works with: Factor version 0.99 2021-02-05
USING: formatting grouping io kernel math.parser present
sequences sets ;
 
100,000 <iota> [ dup present swap >hex set= ] filter
10 group [ [ "%5d " printf ] each nl ] each
Output:
    0     1     2     3     4     5     6     7     8     9 
   53   371   913  1040  2080  2339  4100  5141  5412  5441 
 6182  8200  9241 13593 13665 13969 16406 20530 26946 30979 
32803 33638 33840 33841 33842 33843 33844 33845 33846 33847 
33848 33849 34883 37943 38931 38966 38995 66310 71444 71497 
71511 75120 75121 75122 75123 75124 75125 75126 75127 75128 
75129 75621 86150 88165 91465 91769 96617 98711 99481 

Go[edit]

Translation of: Wren
package main
 
import (
"fmt"
"rcu"
"strconv"
)
 
func equalSets(s1, s2 map[rune]bool) bool {
if len(s1) != len(s2) {
return false
}
for k, _ := range s1 {
_, ok := s2[k]
if !ok {
return false
}
}
return true
}
 
func main() {
const limit = 100_000
count := 0
fmt.Println("Numbers under 100,000 which use the same digits in decimal or hex:")
for n := 0; n < limit; n++ {
h := strconv.FormatInt(int64(n), 16)
hs := make(map[rune]bool)
for _, c := range h {
hs[c] = true
}
ns := make(map[rune]bool)
for _, c := range strconv.Itoa(n) {
ns[c] = true
}
if equalSets(hs, ns) {
count++
fmt.Printf("%6s ", rcu.Commatize(n))
if count%10 == 0 {
fmt.Println()
}
}
}
fmt.Printf("\n\n%d such numbers found.\n", count)
}
Output:
Numbers under 100,000 which use the same digits in decimal or hex:
     0      1      2      3      4      5      6      7      8      9 
    53    371    913  1,040  2,080  2,339  4,100  5,141  5,412  5,441 
 6,182  8,200  9,241 13,593 13,665 13,969 16,406 20,530 26,946 30,979 
32,803 33,638 33,840 33,841 33,842 33,843 33,844 33,845 33,846 33,847 
33,848 33,849 34,883 37,943 38,931 38,966 38,995 66,310 71,444 71,497 
71,511 75,120 75,121 75,122 75,123 75,124 75,125 75,126 75,127 75,128 
75,129 75,621 86,150 88,165 91,465 91,769 96,617 98,711 99,481 

69 such numbers found.

Julia[edit]

dhstring(N) = [i for i in 0:N if sort(unique(digits(i))) == sort(unique(digits(i, base=16)))]
 
foreach(p -> print(rpad(p[2], 6), p[1] % 10 == 0 ? "\n" : ""), enumerate(dhstring(100000)))
 
Output:
0     1     2     3     4     5     6     7     8     9     
53    371   913   1040  2080  2339  4100  5141  5412  5441
6182  8200  9241  13593 13665 13969 16406 20530 26946 30979
32803 33638 33840 33841 33842 33843 33844 33845 33846 33847
33848 33849 34883 37943 38931 38966 38995 66310 71444 71497
71511 75120 75121 75122 75123 75124 75125 75126 75127 75128
75129 75621 86150 88165 91465 91769 96617 98711 99481

Nim[edit]

There are many ways to find the numbers. We chose to build directly the set of digits in base 10 and base 16 rather than using the string representations (more code but more efficient).

import strutils, sugar
 
const Lim = 99_999
 
type Digit = 0..15
 
func digitSet(n: Natural; b: Positive): set[Digit] =
## Return the set of digits of "n" written in base "b".
assert b <= 16
if n == 0: return {Digit 0}
var n = n
while n != 0:
result.incl n mod b
n = n div b
 
# Build the list of numbers.
let list = collect(newSeq):
for n in 0..Lim:
if n.digitSet(10) == n.digitSet(16): n
 
# Display result.
echo "Found $1 numbers less than $2:".format(list.len, insertSep($(Lim + 1)))
for i, n in list:
stdout.write ($n).align(5), if (i + 1) mod 10 == 0: '\n' else: ' '
echo()
Output:
Found 69 numbers less than 100_000:
    0     1     2     3     4     5     6     7     8     9
   53   371   913  1040  2080  2339  4100  5141  5412  5441
 6182  8200  9241 13593 13665 13969 16406 20530 26946 30979
32803 33638 33840 33841 33842 33843 33844 33845 33846 33847
33848 33849 34883 37943 38931 38966 38995 66310 71444 71497
71511 75120 75121 75122 75123 75124 75125 75126 75127 75128
75129 75621 86150 88165 91465 91769 96617 98711 99481 

Pascal[edit]

simply adding 1 to a number and convert as if hex digits.

program Dec_Hex_same_UsedDigits;
{$IFDEF FPC}
{$MODE DELPHI} {$OPTIMIZATION ON,ALL} {$COPERATORS ON}
{$ELSE}
{$APPTYPE CONSOLE}
{$ENDIF}
const
UpperLimit = 100*1000;//1000*1000*1000
type
tUsedDigits = array[0..15] of byte;
var
FormCnt: Int32;
UsedDigits : tUsedDigits;
 
procedure Out_(n,h:Uint32);
Begin
write(n:11,':',h:7);
inc(FormCnt);
If FormCnt >= 4 then
Begin
FormCnt := 0;
writeln;
end;
end;
 
function DecHexToDec(n:Uint32):UInt32;
//convert n as its decimal digits are a hex number
//marking used Digits
var
pD : pUint64;
q,r,pot16 : UInt32;
begin
//clear UsedDigits
//For q := Low(UsedDigits) to High(UsedDigits) do UsedDigits[q] := 0;
//much faster
pD := @UsedDigits;pD[0]:= 0;pD[1]:= 0;
 
result := 0;
pot16 := 0;
repeat
q := n Div 10;
r := n - 10* q;//n mod 10
//marked by hex
UsedDigits[r] := 2;
result := result+ r shl pot16;
inc(pot16,4);
n := q;
until n = 0;
end;
 
var
DecHex,n:Uint32;
i,q,r,count : Uint32;
Begin
FormCnt := 0;
count := 0;
DecHex := 0;
repeat
n := DecHexToDec(DecHex);
if n > UpperLimit then
break;
//check UsedDigits
i := n;
repeat
q := i Div 10;
r := i - 10* q;
//if unused digit then break
if UsedDigits[r] = 0 then
BREAK;
//marked by dec
UsedDigits[r] := 1;
i := q;
until i = 0;
if i = 0 then
Begin
repeat
//was marked only by hex
if UsedDigits[i]>1 then
break;
inc(i);
until i > 9;
if i > 9 then
Begin
if n< 100*1000 then
Out_(n,DecHex);
inc(count);
end;
end;
inc(DecHex);
until false;
writeln;
writeln('count : ',count);
END.
 
Output:
TIO.RUN
        0:     0        1:     1        2:     2        3:     3
        4:     4        5:     5        6:     6        7:     7
        8:     8        9:     9       53:    35      371:   173
      913:   391     1040:   410     2080:   820     2339:   923
     4100:  1004     5141:  1415     5412:  1524     5441:  1541
     6182:  1826     8200:  2008     9241:  2419    13593:  3519
    13665:  3561    13969:  3691    16406:  4016    20530:  5032
    26946:  6942    30979:  7903    32803:  8023    33638:  8366
    33840:  8430    33841:  8431    33842:  8432    33843:  8433
    33844:  8434    33845:  8435    33846:  8436    33847:  8437
    33848:  8438    33849:  8439    34883:  8843    37943:  9437
    38931:  9813    38966:  9836    38995:  9853    66310: 10306
    71444: 11714    71497: 11749    71511: 11757    75120: 12570
    75121: 12571    75122: 12572    75123: 12573    75124: 12574
    75125: 12575    75126: 12576    75127: 12577    75128: 12578
    75129: 12579    75621: 12765    86150: 15086    88165: 15865
    91465: 16549    91769: 16679    96617: 17969    98711: 18197
    99481: 18499
count : 69
//1000*1000*1000
  966366598:39999586  966366853:39999685
count : 54558 Real time: 1.666 s

Perl[edit]

use strict;
no warnings;
use feature 'say';
 
sub eqv { (join '', sort split '', $_[0]) eq (join '', sort split '', $_[1]) }
say join ' ', grep { eqv $_, sprintf '%x', $_ } 1..100_000;
Output:
1 2 3 4 5 6 7 8 9 53 371 913 4100 5141 5412 6182 8200 9241 75120 75121 75122 75123 75124 75125 75126 75127 75128 75129 75621 86150 91465 98711 99481

Phix[edit]

function handusc(integer n) return unique(sprintf("%x",n))=unique(sprintf("%d",n)) end function
?shorten(filter(tagset(100000,0),handusc),"found",10)
Output:
{0,1,2,3,4,5,6,7,8,9,"...",75128,75129,75621,86150,88165,91465,91769,96617,98711,99481," (69 found)"}

Python[edit]

Procedural[edit]

col = 0
for i in range(100000):
if set(str(i)) == set(hex(i)[2:]):
col += 1
print("{:7}".format(i), end='\n'[:col % 10 == 0])
print()
Output:
      0      1      2      3      4      5      6      7      8      9
     53    371    913   1040   2080   2339   4100   5141   5412   5441
   6182   8200   9241  13593  13665  13969  16406  20530  26946  30979
  32803  33638  33840  33841  33842  33843  33844  33845  33846  33847
  33848  33849  34883  37943  38931  38966  38995  66310  71444  71497
  71511  75120  75121  75122  75123  75124  75125  75126  75127  75128
  75129  75621  86150  88165  91465  91769  96617  98711  99481

Functional[edit]

'''Decimal - Hexadecimal numbers'''
 
 
# p :: Int -> Bool
def p(n):
'''True if the hex and dec representations
of n use the same set of digits.
'''

return set(hex(n)[2:]) == set(str(n))
 
 
# ------------------------- TEST -------------------------
# main :: IO ()
def main():
'''Matches below 100000'''
print(
table(10)([
str(x) for x in range(100000)
if p(x)
])
)
 
 
# ----------------------- GENERIC ------------------------
 
# chunksOf :: Int -> [a] -> [[a]]
def chunksOf(n):
'''A series of lists of length n, subdividing the
contents of xs. Where the length of xs is not evenly
divisible, the final list will be shorter than n.
'''

def go(xs):
return (
xs[i:n + i] for i in range(0, len(xs), n)
) if 0 < n else None
return go
 
 
# table :: Int -> [a] -> String
def table(n):
'''A list of values formatted as
right-justified rows of n columns.
'''

def go(xs):
w = len(xs[-1])
return '\n'.join(
' '.join(row) for row in chunksOf(n)([
x.rjust(w, ' ') for x in xs
])
)
return go
 
 
# MAIN ---
if __name__ == '__main__':
main()
Output:
    0     1     2     3     4     5     6     7     8     9
   53   371   913  1040  2080  2339  4100  5141  5412  5441
 6182  8200  9241 13593 13665 13969 16406 20530 26946 30979
32803 33638 33840 33841 33842 33843 33844 33845 33846 33847
33848 33849 34883 37943 38931 38966 38995 66310 71444 71497
71511 75120 75121 75122 75123 75124 75125 75126 75127 75128
75129 75621 86150 88165 91465 91769 96617 98711 99481

Quackery[edit]

  [ 0 swap witheach [ bit | ] ] is ->set   ( [ --> s )
 
[ 10 base put
dup number$ ->set
16 base replace
swap number$ ->set
base release
= ] is dec=hex ( n --> b )
 
[]
100000 times
[ i^ dec=hex if
[ i^ number$
nested join ] ]
60 wrap$
Output:
0 1 2 3 4 5 6 7 8 9 53 371 913 1040 2080 2339 4100
5141 5412 5441 6182 8200 9241 13593 13665 13969
16406 20530 26946 30979 32803 33638 33840 33841
33842 33843 33844 33845 33846 33847 33848 33849
34883 37943 38931 38966 38995 66310 71444 71497
71511 75120 75121 75122 75123 75124 75125 75126
75127 75128 75129 75621 86150 88165 91465 91769
96617 98711 99481

Raku[edit]

Only bother to check numbers that could possibly match.

Several different interpretations of the (originally very vague) task instructions. It has now been clarified to mean the second.

say "Numbers up to 100,000 which when expressed in hexadecimal and in decimal
are composed of the same digit glyphs. (All the same glyphs, all the same
quantity.)\n"
;
display-numbers calculated-with &infix:<eqv>, <Bag>;
 
say "\nNumbers up to 100,000 which when expressed in hexadecimal and in decimal
are composed from the same digit glyphs. (All the same glyphs are present,
possibly different quantity.)\n"
;
display-numbers calculated-with &infix:<eqv>, <Set>;
 
say "\nNumbers up to 100,000 which, when expressed in hexadecimal use glyphs
that are a subset of those used when expressed in decimal. (Every glyph in
decimal is present in hexadecimal the same or fewer (possibly zero) times)\n"
;
display-numbers calculated-with &infix:<>, <Bag>;
 
say "\nNumbers up to 100,000 which, when expressed in hexadecimal use glyphs
that are a subset of those used when expressed in decimal. (Every glyph in
decimal is present in hexadecimal in some quantity, possibly zero, possibly more
than in decimal)\n"
;
display-numbers calculated-with &infix:<>, <Set>;
 
sub display-numbers ($_) { say .elems ~ " found:\n" ~ .batch(20)».fmt('%5d').join: "\n" }
 
sub calculated-with ( &op, $container ) {
cache ^18699 .map( {:16(.Str)} ).hyper(:1000batch).grep( {
reduce( &op, (.fmt('%x'), $_).map: { .comb."$container"() } )
} )
}
Output:
Numbers which when expressed in hexadecimal and in decimal are composed of
the same digit glyphs. (All the same glyphs, all the same quantity.)

34 found:
    0     1     2     3     4     5     6     7     8     9    53   371   913  4100  5141  5412  6182  8200  9241 75120
75121 75122 75123 75124 75125 75126 75127 75128 75129 75621 86150 91465 98711 99481

Numbers which when expressed in hexadecimal and in decimal are composed
from the same digit glyphs. (All the same glyphs are present, possibly
different quantity.)

69 found:
    0     1     2     3     4     5     6     7     8     9    53   371   913  1040  2080  2339  4100  5141  5412  5441
 6182  8200  9241 13593 13665 13969 16406 20530 26946 30979 32803 33638 33840 33841 33842 33843 33844 33845 33846 33847
33848 33849 34883 37943 38931 38966 38995 66310 71444 71497 71511 75120 75121 75122 75123 75124 75125 75126 75127 75128
75129 75621 86150 88165 91465 91769 96617 98711 99481

Numbers which, when expressed in hexadecimal use glyphs that are a subset
of those used when expressed in decimal. (Every glyph in decimal is present in
hexadecimal the same or fewer (possibly zero) times)

141 found:
    0     1     2     3     4     5     6     7     8     9    53   371   913  1040  1041  1042  1043  1044  1045  1046
 1047  1048  1049  1345  1937  2080  2081  2082  2083  2084  2085  2086  2087  2088  2089  2339  4100  5141  5412  6182
 8200  9241 12306 13593 13665 13969 16400 16401 16402 16403 16404 16405 16406 16407 16408 16409 16743 18453 20513 20530
20546 21025 25169 25896 25986 26370 26738 26913 26930 26946 29217 29714 30768 30784 30979 32800 32801 32802 32803 32804
32805 32806 32807 32808 32809 32850 33589 33840 33841 33842 33843 33844 33845 33846 33847 33848 33849 34868 34880 34881
34882 34883 34884 34885 34886 34887 34888 34889 36902 36950 37492 37943 38931 38960 38961 38962 38963 38964 38965 38966
38967 38968 38969 38984 38995 39298 75120 75121 75122 75123 75124 75125 75126 75127 75128 75129 75621 86150 91465 98711
99481

Numbers which, when expressed in hexadecimal use glyphs that are a subset
of those used when expressed in decimal. (Every glyph in decimal is present in
hexadecimal in some quantity, possibly zero, possibly more than in decimal)

514 found:
    0     1     2     3     4     5     6     7     8     9    17    53    85   371   853   913  1024  1040  1041  1042
 1043  1044  1045  1046  1047  1048  1049  1345  1365  1604  1633  1635  1638  1689  1937  2048  2080  2081  2082  2083
 2084  2085  2086  2087  2088  2089  2178  2184  2339  4100  4160  4371  4417  4471  4481  4721  4913  4931  5140  5141
 5412  5441  5461  6168  6182  8200  8210  8320  8721  9241  9284  9523  9625  9762  9826  9862 10248 10258 10280 10529
12304 12305 12306 12307 12320 12340 12563 12593 12643 12803 12833 12834 12835 12853 12953 13056 13057 13059 13062 13072
13073 13075 13079 13080 13104 13105 13107 13124 13171 13175 13185 13187 13209 13364 13384 13427 13448 13459 13585 13587
13589 13593 13651 13653 13654 13665 13846 13862 13926 13969 14385 14387 14388 14739 16400 16401 16402 16403 16404 16405
16406 16407 16408 16409 16420 16480 16640 16704 16740 16742 16743 17408 17409 17425 17426 17428 17431 17442 17463 17473
17476 17479 17480 17495 17524 17745 18247 18440 18449 18452 18453 18456 18472 18483 18497 18504 18564 20485 20501 20512
20513 20514 20517 20530 20531 20533 20544 20546 20548 20549 20560 20561 20562 20563 20564 20565 20566 20567 20568 20569
20576 20597 21025 21395 21504 21524 21540 21541 21845 21905 22357 22568 22658 24608 24610 24630 24640 24680 25106 25126
25169 25186 25361 25604 25634 25684 25896 25961 25986 26129 26130 26131 26134 26145 26146 26148 26150 26163 26184 26208
26210 26214 26248 26370 26407 26470 26471 26487 26658 26728 26738 26758 26913 26914 26918 26921 26930 26931 26934 26937
26946 26948 26965 26978 26982 26984 26985 28704 28706 28740 28807 29217 29337 29714 29764 29847 30467 30471 30517 30547
30567 30576 30579 30728 30768 30784 30976 30979 31097 32800 32801 32802 32803 32804 32805 32806 32807 32808 32809 32840
32850 33280 33587 33589 33638 33689 33840 33841 33842 33843 33844 33845 33846 33847 33848 33849 33864 34678 34820 34852
34867 34868 34871 34872 34880 34881 34882 34883 34884 34885 34886 34887 34888 34889 34948 34968 36902 36950 36960 37139
37169 37492 37529 37689 37779 37924 37940 37943 37945 38195 38791 38792 38793 38920 38931 38952 38960 38961 38962 38963
38964 38965 38966 38967 38968 38969 38984 38995 39048 39185 39187 39193 39200 39201 39202 39203 39204 39205 39206 39207
39208 39209 39217 39218 39219 39225 39234 39241 39250 39251 39253 39257 39266 39267 39287 39298 39313 39315 39321 66310
67140 67190 69910 69913 69921 70001 70162 70513 71025 71206 71265 71266 71286 71440 71441 71442 71443 71444 71445 71446
71447 71448 71449 71462 71473 71489 71492 71495 71497 71504 71505 71509 71511 71526 71537 71539 71540 71541 71543 71569
71680 71748 71800 71808 71809 71815 71816 71940 71953 71957 71959 71961 71993 74129 75120 75121 75122 75123 75124 75125
75126 75127 75128 75129 75621 76129 78103 78131 78135 78136 78193 79153 79731 81940 82194 82241 82471 82514 84100 84104
86150 87315 87351 87415 88145 88152 88165 90163 91465 91665 91670 91671 91673 91682 91760 91761 91762 91763 91764 91765
91766 91767 91768 91769 92561 94617 95761 96017 96617 98581 98711 98712 98713 99481

REXX[edit]

/*REXX pgm finds integers when shown in  decimal and hexadecimal  use the same numerals.*/
parse arg n cols . /*obtain optional argument from the CL.*/
if n=='' | n=="," then n = 100000 /*Not specified? Then use the default.*/
if cols=='' | cols=="," then cols= 10 /* " " " " " " */
w= 10 /*width of a number in any column. */
@hHex= ' decimal integers when displayed in decimal and' ,
"hexadecimal use the same numerals, where N < " commas(n)
say ' index │'center(@hHex, 1 + cols*(w+1) ) /*display the title for the output. */
say '───────┼'center("" , 1 + cols*(w+1), '─') /* " a sep " " " */
dHex= 0; idx= 1 /*initialize # of high hexadecimal nums*/
$= /*list of high hexadecimal #'s (so far)*/
do j=0 for n; h= d2x(j) /*search for high hexadecimal numbers. */
if verify(j, h)>0 then iterate /*Does the decimal and hexadecimal ··· */ /* ◄■■■■■■■■ a filter. */
if verify(h, j)>0 then iterate /* ··· versions use same numerals? */ /* ◄■■■■■■■■ a filter. */
dHex= dHex + 1 /*bump number of decimal-hex numbers. */
$= $ right(commas(j), w) /*add a dec-hexadecimal number──► list.*/
if dHex // cols \== 0 then iterate /*have we populated a line of output? */
say center(idx, 7)'│' substr($, 2); $= /*display what we have so far (cols). */
idx= idx + cols /*bump the index count for the output*/
end /*j*/
 
if $\=='' then say center(idx, 7)"│" substr($, 2) /*possible display residual output.*/
say '───────┴'center("" , 1 + cols*(w+1), '─') /*display the foot sep for output. */
say
say 'Found ' commas(dHex) @hHex
exit 0 /*stick a fork in it, we're all done. */
/*──────────────────────────────────────────────────────────────────────────────────────*/
commas: parse arg ?; do jc=length(?)-3 to 1 by -3; ?=insert(',', ?, jc); end; return ?
output   when using the default inputs:
 index │     decimal integers when displayed in decimal and hexadecimal use the same numerals, where  N  <  100,000
───────┼───────────────────────────────────────────────────────────────────────────────────────────────────────────────
   1   │          0          1          2          3          4          5          6          7          8          9
  11   │         53        371        913      1,040      2,080      2,339      4,100      5,141      5,412      5,441
  21   │      6,182      8,200      9,241     13,593     13,665     13,969     16,406     20,530     26,946     30,979
  31   │     32,803     33,638     33,840     33,841     33,842     33,843     33,844     33,845     33,846     33,847
  41   │     33,848     33,849     34,883     37,943     38,931     38,966     38,995     66,310     71,444     71,497
  51   │     71,511     75,120     75,121     75,122     75,123     75,124     75,125     75,126     75,127     75,128
  61   │     75,129     75,621     86,150     88,165     91,465     91,769     96,617     98,711     99,481
───────┴───────────────────────────────────────────────────────────────────────────────────────────────────────────────

Found  69  decimal integers when displayed in decimal and hexadecimal use the same numerals, where  N  <  100,000

Ring[edit]

 
see "working..." + nl
 
row = 0
limit = 100000
 
for n = 0 to limit
flag1 = 1
flag2 = 1
decStr = string(n)
hexStr = hex(n)
for m = 1 to len(decStr)
ind = substr(hexStr,decStr[m])
if ind < 1
flag1 = 0
exit
ok
next
for p = 1 to len(hexStr)
ind = substr(decStr,hexStr[p])
if ind < 1
flag2 = 0
exit
ok
next
if flag1 = 1 and flag2 = 1
row = row + 1
see "" + n + " "
if row%5 = 0
see nl
ok
ok
next
 
see nl + "Found " + row + " numbers" + nl
see "done..." + nl
 
Output:
working...
0 1 2 3 4 
5 6 7 8 9 
53 371 913 1040 2080 
2339 4100 5141 5412 5441 
6182 8200 9241 13593 13665 
13969 16406 20530 26946 30979 
32803 33638 33840 33841 33842 
33843 33844 33845 33846 33847 
33848 33849 34883 37943 38931 
38966 38995 66310 71444 71497 
71511 75120 75121 75122 75123 
75124 75125 75126 75127 75128 
75129 75621 86150 88165 91465 
91769 96617 98711 99481 
Found 69 numbers
done...

Sidef[edit]

Simple solution:

^1e5 -> grep { Set(.digits...) == Set(.digits(16)...) }.say

Recursively generate the numbers (2x faster):

func generate_from_prefix(limit, p, base, digits) {
 
var seq = [p]
 
for d in (digits) {
var t = [d, p...]
if (t.digits2num(base) <= limit) {
seq << __FUNC__(limit, t, base, digits)...
}
}
 
return seq
}
 
func numbers_with_same_digitset(limit, base = 10) {
 
(1..9).map {|p| generate_from_prefix(limit, [p], base, @(0..9))... }\
.map {|t| digits2num(t, base) }\
.grep {|t| Set(t.digits...) == Set(t.digits(base)...) }\
.sort\
.prepend(0)
}
 
say numbers_with_same_digitset(1e5, 16)
Output:
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 53, 371, 913, 1040, 2080, 2339, 4100, 5141, 5412, 5441, 6182, 8200, 9241, 13593, 13665, 13969, 16406, 20530, 26946, 30979, 32803, 33638, 33840, 33841, 33842, 33843, 33844, 33845, 33846, 33847, 33848, 33849, 34883, 37943, 38931, 38966, 38995, 66310, 71444, 71497, 71511, 75120, 75121, 75122, 75123, 75124, 75125, 75126, 75127, 75128, 75129, 75621, 86150, 88165, 91465, 91769, 96617, 98711, 99481]

Wren[edit]

Library: Wren-fmt
Library: Wren-set
import "/fmt" for Conv, Fmt
import "/set" for Set
 
var limit = 1e5
var count = 0
System.print("Numbers under 100,000 which use the same digits in decimal or hex:")
for (n in 0...limit) {
var h = Conv.hex(n)
var hs = Set.new(h)
var ns = Set.new(n.toString)
if (hs == ns) {
count = count + 1
Fmt.write("$,6d ", n)
if (count % 10 == 0) System.print()
}
}
System.print("\n\n%(count) such numbers found.")
Output:
Numbers under 100,000 which use the same digits in decimal or hex:
     0      1      2      3      4      5      6      7      8      9 
    53    371    913  1,040  2,080  2,339  4,100  5,141  5,412  5,441 
 6,182  8,200  9,241 13,593 13,665 13,969 16,406 20,530 26,946 30,979 
32,803 33,638 33,840 33,841 33,842 33,843 33,844 33,845 33,846 33,847 
33,848 33,849 34,883 37,943 38,931 38,966 38,995 66,310 71,444 71,497 
71,511 75,120 75,121 75,122 75,123 75,124 75,125 75,126 75,127 75,128 
75,129 75,621 86,150 88,165 91,465 91,769 96,617 98,711 99,481 

69 such numbers found.

XPL0[edit]

func    DigitSet(N, D);
\Return a bit array containing the set of digits in N divisible by D
int N, D;
int Set;
[Set:= 0;
repeat N:= N/D;
Set:= Set or 1<<rem(0);
until N=0;
return Set;
];
 
int Count, N;
[Count:= 0;
for N:= 0 to 99999 do
[if DigitSet(N,10) = DigitSet(N,16) then
[IntOut(0, N);
Count:= Count+1;
if rem(Count/10) = 0 then CrLf(0) else ChOut(0, 9\tab\);
];
];
CrLf(0); IntOut(0, Count); Text(0, " such numbers found.
")
]
Output:
0       1       2       3       4       5       6       7       8       9
53      371     913     1040    2080    2339    4100    5141    5412    5441
6182    8200    9241    13593   13665   13969   16406   20530   26946   30979
32803   33638   33840   33841   33842   33843   33844   33845   33846   33847
33848   33849   34883   37943   38931   38966   38995   66310   71444   71497
71511   75120   75121   75122   75123   75124   75125   75126   75127   75128
75129   75621   86150   88165   91465   91769   96617   98711   99481   
69 such numbers found.