Frobenius numbers: Difference between revisions

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m (→‎{{header|REXX}}: added a REXX stub.)
m (→‎{{header|REXX}}: added the computer programming language REXX.)
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=={{header|REXX}}==
=={{header|REXX}}==
<lang rexx>/*REXX program finds Frobenius numbers where the numbers are less than some number N. */
<lang rexx></lang>
parse arg hi cols . /*obtain optional argument from the CL.*/
if hi=='' | hi=="," then hi= 10000 /* " " " " " " */
if cols=='' | cols=="," then cols= 10 /* " " " " " " */
call genP /*build array of semaphores for primes.*/
w= 10 /*width of a number in any column. */
@Frob= ' Frobenius numbers that are < ' commas(hi)
if cols>0 then say ' index │'center(@Frob, 1 + cols*(w+1) )
if cols>0 then say '───────┼'center("" , 1 + cols*(w+1), '─')
idx= 1 /*initialize the index of output lines.*/
$= /*a list of Frobenius numbers (so far)*/
do j=1; jp= j + 1 /*generate Frobenius numbers < HI */
y= @.j * @.jp - @.j - @.jp
if y>= hi then leave
if cols==0 then iterate /*Build the list (to be shown later)? */
c= commas(y) /*maybe add commas to the number. */
$= $ right(c, max(w, length(c) ) ) /*add a Frobenius #──►list, allow big #*/
if j//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
say 'Found ' commas(j-1) @FROB
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 ?
/*──────────────────────────────────────────────────────────────────────────────────────*/
genP: @.1=2; @.2=3; @.3=5; @.4=7; @.5=11 /*define some low primes. */
#=5; s.#= @.# **2 /*number of primes so far; prime². */
/* [↓] generate more primes ≤ high.*/
do j=@.#+2 by 2 to hi /*find odd primes from here on. */
parse var j '' -1 _; if _==5 then iterate /*J divisible by 5? (right dig)*/
if j// 3==0 then iterate /*" " " 3? */
if j// 7==0 then iterate /*" " " 7? */
/* [↑] the above five lines saves time*/
do k=5 while s.k<=j /* [↓] divide by the known odd primes.*/
if j // @.k == 0 then iterate j /*Is J ÷ X? Then not prime. ___ */
end /*k*/ /* [↑] only process numbers ≤ √ J */
#= #+1; @.#= j; s.#= j*j /*bump # Ps; assign next P; P squared*/
end /*j*/; return</lang>
{{out|output|text=&nbsp; when using the default inputs:}}
<pre>
index │ Frobenius numbers that are < 10,000
───────┼───────────────────────────────────────────────────────────────────────────────────────────────────────────────
1 │ 1 7 23 59 119 191 287 395 615 839
11 │ 1,079 1,439 1,679 1,931 2,391 3,015 3,479 3,959 4,619 5,039
21 │ 5,615 6,395 7,215 8,447 9,599

Found 25 Frobenius numbers that are < 10,000
</pre>


=={{header|Ring}}==
=={{header|Ring}}==

Revision as of 23:25, 1 April 2021

Frobenius numbers 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

a(n) = prime(n)*prime(n+1) - prime(n) - prime(n+1), where prime(n) < 10,000

REXX

<lang rexx>/*REXX program finds Frobenius numbers where the numbers are less than some number N. */ parse arg hi cols . /*obtain optional argument from the CL.*/ if hi== | hi=="," then hi= 10000 /* " " " " " " */ if cols== | cols=="," then cols= 10 /* " " " " " " */ call genP /*build array of semaphores for primes.*/ w= 10 /*width of a number in any column. */ 

                                   @Frob= ' Frobenius numbers that are  < '    commas(hi)

if cols>0 then say ' index │'center(@Frob, 1 + cols*(w+1) ) if cols>0 then say '───────┼'center("" , 1 + cols*(w+1), '─') idx= 1 /*initialize the index of output lines.*/ $= /*a list of Frobenius numbers (so far)*/ 

    do j=1;    jp= j + 1                        /*generate   Frobenius numbers  <  HI  */
    y= @.j * @.jp   -   @.j  -  @.jp
    if y>= hi  then leave
    if cols==0           then iterate           /*Build the list  (to be shown later)? */
    c= commas(y)                                /*maybe add commas to the number.      */
    $= $ right(c, max(w, length(c) ) )          /*add a Frobenius #──►list, allow big #*/
    if j//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 say 'Found ' commas(j-1) @FROB 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 ? /*──────────────────────────────────────────────────────────────────────────────────────*/ genP: @.1=2; @.2=3; @.3=5; @.4=7; @.5=11 /*define some low primes. */ 

                       #=5;     s.#= @.# **2    /*number of primes so far;     prime². */
                                                /* [↓]  generate more  primes  ≤  high.*/
       do j=@.#+2  by 2  to hi                  /*find odd primes from here on.        */
       parse var j  -1 _; if     _==5  then iterate  /*J divisible by 5?  (right dig)*/
                            if j// 3==0  then iterate  /*"     "      " 3?             */
                            if j// 7==0  then iterate  /*"     "      " 7?             */
                                                /* [↑]  the above five lines saves time*/
              do k=5  while s.k<=j              /* [↓]  divide by the known odd primes.*/
              if j // @.k == 0  then iterate j  /*Is  J ÷ X?  Then not prime.     ___  */
              end   /*k*/                       /* [↑]  only process numbers  ≤  √ J   */
       #= #+1;    @.#= j;    s.#= j*j           /*bump # Ps;  assign next P;  P squared*/
       end          /*j*/;   return</lang>
output   when using the default inputs:
 index │                                     Frobenius numbers that are  <  10,000
───────┼───────────────────────────────────────────────────────────────────────────────────────────────────────────────
   1   │          1          7         23         59        119        191        287        395        615        839
  11   │      1,079      1,439      1,679      1,931      2,391      3,015      3,479      3,959      4,619      5,039
  21   │      5,615      6,395      7,215      8,447      9,599

Found  25  Frobenius numbers that are  <  10,000

Ring

<lang ring> load "stdlib.ring"

decimals(0) see "working..." + nl see "Frobenius numbers are:" + nl

row = 0 limit1 = 101 Frob = []

for n = 1 to limit1 

   if isprime(n)
      add(Frob,n)
   ok

next

for n = 1 to len(Frob)-1 

   row = row + 1
   fr = Frob[n]*Frob[n+1]-Frob[n]-Frob[n+1]
   see "" + fr + " "
   if row%5 = 0
      see nl
   ok

next

see "Found " + row + " Frobenius primes" + nl see "done..." + nl </lang>

Output:
working...
Frobenius primes are:
1 7 23 59 119 
191 287 395 615 839 
1079 1439 1679 1931 2391 
3015 3479 3959 4619 5039 
5615 6395 7215 8447 9599 
Found 25 Frobenius primes
done...
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