Shape-Machine: Difference between revisions

Task:

Get user input (or store the number somewhere if the programing langauge doesn't support input) and then add 3, multiply that 0.86 and repeat that over and over again.

Optionally, halt the loop when quiescence has been achieved, i.e. when the value does not change, and report that value and the corresponding number of iterations.

See Also

• Esolangs.org page

ALGOL 68

Non-terminating

BEGIN
    REAL a := BEGIN INT n; read( n ); n END;
    DO
        print( ( fixed( a +:= 3 *:= 0.86, -16, 14 ), newline ) )
    OD
END

Terminating after successive values converge

Based on Raku, using 64-bit floating point (assuming REAL is 64-bit in the implementation you are using - which is very likely these days and true for Algol 68G).

BEGIN
    REAL a      := BEGIN INT n; read( n ); n END;
    REAL prev a := IF a = 0 THEN 1 ELSE 0 FI;
    INT  count  := 0;
    WHILE prev a /= a
    DO
        count +:= 1;
        prev a := a;
        print( ( fixed( a +:= 3 *:= 0.86, -16, 14 ), newline ) )
    OD;
    print( ( whole( count, 0 ), " repetitions" ) )
END

With 4 as the input

6.02000000000000
7.75720000000000
9.25119200000000
10.5360251200000
11.6409816032000
12.5912441787520
13.4084699937267
14.1112841946050
...
18.3988095846536
18.4029762428021
18.4065595688098
...
18.4285714285714
18.4285714285714
18.4285714285714
231 repetitions

32-bit terminating

If you have an implementation of Algol 68 where SHORT REAL is 32-bit, here's a version that would converge faster to a less precise value. Note that in Algol 68G, both REAL and SHORT REAL are 64-bit. Interestingly, the final value appears to converge to slightly different values depending on the input - presumably because 32-bit floats are more limited in precision.

BEGIN
    INT n; read( ( n, newline ) );
    SHORT REAL a      := n;
    SHORT REAL prev a := IF a = 0 THEN 1 ELSE 0 FI;
    INT  count  := 0;
    WHILE prev a /= a
    DO
        count +:= 1;
        prev a := a;
        print( ( fixed( a +:= 3 *:= 0.86, -9, 5 ), newline ) )
    OD;
    print( ( whole( count, 0 ), " repetitions" ) )
END

With 451 as the input value

390.44000
338.35840
293.56824
...
 18.42858
 18.42858
 18.42858
120 repetitions

With 4 as the input value

  6.02000
  7.75720
  9.25119
 10.53603
 11.64098
...
 18.42857
 18.42857
 18.42857
97 repetitions

ALGOL W

begin
    real a;
    integer n;
    read( n );
    a := n;
    while true do begin
        a := a + 3;
        a := a * 0.86;
        write( r_format := "A", r_w := 8, r_d := 5, a )
    end
end.

With 4 as the input

 6.02000
 7.75720
 9.25119
10.53603
11.64098
12.59124
13.40847
14.11128
...
18.42857
18.42857
18.42857
...

BASIC

_{NOTE FROM THE CREATOR OF THE TASK:i haven't tested this code on other interpriters of BASIC. Also $ is not in the PBASIC keyboard of PB95 8-bit computers}

10 INPUT I$
20 LET I = I + 3
30 LET I = I * 0.86
40 PRINT I
50 GOTO 20

ANSI BASIC

100 REM Shape-Machine
110 LET Cnt = 1
120 INPUT Prev
130 DO
140    LET Sgte = (Prev + 3) * 0.86
150    IF Prev = Sgte THEN EXIT DO
160    PRINT Sgte
170    LET Prev = Sgte
180    LET Cnt = Cnt + 1
190 LOOP
200 PRINT "Took"; Cnt; "iterations."
210 END

With 4 as the input.

 6.02 
 7.7572 
 9.251192 
 10.53602512 
 11.6409816032 
 12.591244178752 
 13.4084699937267 

...

 18.4285714285696 
 18.4285714285699 
 18.4285714285701 
 18.4285714285703 
 18.4285714285705 
 18.4285714285706 
 18.4285714285707 
 18.4285714285708 
 18.4285714285709 
 18.428571428571 
 18.4285714285711 
Took 208 iterations.                  

The output may vary depending on implementation.

Applesoft BASIC

10 INPUT "num:"; I : I = INT(I)
11 LET I = I + 3
12 LET I = I * 0.86
20 PRINT I
21 GOTO 11

BASIC256

input integer i
re: #
i += 3
i *= 0.86
? i
goto re

Commodore BASIC

10 REM SHAPE-MACHINE
20 CNT%=1
30 INPUT PREV
40 DO
50 SGTE=(PREV+3)*0.86
60 IF PREV=SGTE THEN EXIT
70 PRINT SGTE
80 PREV=SGTE
90 CNT%=CNT%+1
100 LOOP
110 PRINT "TOOK";CNT%;"ITERATIONS."
120 END

With 4 as the input.

 6.02                                   
 7.75720001                             
 9.25119201                             
 10.5360251                             
 11.6409816                             
 12.5912442                             
 13.40847  

...

 18.4285713                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
 18.4285714                             
TOOK 134 ITERATIONS.                    

FreeBASIC

Dim As Double prev, sgte
Dim As Integer cont = 1

Input " ", prev

Do
    sgte = (prev + 3) * 0.86
    If prev = sgte Then Exit Do
    Print sgte
    prev = sgte
    cont += 1
Loop

Print "Took"; cont; " iterations."

Sleep

With 4 as the input

 6.02
 7.757199999999999
 9.251192
 10.53602512
 11.6409816032
 12.591244178752
 13.40846999372672
 14.11128419460498
 14.71570440736028
 ...
 18.42857142857134
 18.42857142857135
 18.42857142857136
 18.42857142857137
 18.42857142857138
 18.42857142857139
 18.4285714285714
 18.4285714285714
 18.42857142857141
 18.42857142857141
Took 227 iterations.

Liberty BASIC

rem Shape-Machine
cnt = 1
input prev
sgte = (prev + 3) * 0.86
do while prev <> sgte
  print sgte
  prev = sgte
  cnt = cnt + 1
  sgte = (prev + 3) * 0.86
loop
print "Took "; cnt; " iterations."
end

With 4 as the input.

6.02
7.7572
9.251192
10.5360251
11.6409816
12.5912442
13.40847  

...

18.4285714
18.4285714
18.4285714
Took 231 iterations.

Minimal BASIC

10 REM Shape-Machine
20 LET C = 1
30 INPUT P
40 LET S = (P+3)*.86
50 IF P = S THEN 100
60 PRINT S
70 LET P = S
80 LET C = C+1
90 GOTO 40
100 PRINT "Took"; C; "iterations."
110 END

F#

// Shape-Machine. Nigel Galloway: July 22nd., 2024
let r=System.Random()
let n=Seq.unfold(fun x->Some(x,(x+3.0)*0.86))(r.NextDouble()* -100.0)|>Seq.pairwise|>Seq.takeWhile(fun(n,g)->n<>g)
printfn "starting with %.50f produces %.50f after %d iterations" (fst(Seq.head n)) (fst(Seq.last n)) (Seq.length n)

starting with -72.87210186675565637415274977684020996093750000000000 produces 18.42857142857141283798227959778159856796264648437500 after 242 iterations

jq

Works with jq, the C implementation of jq

Works with gojq, the Go implementation of jq

Works with jaq, the Rust implementation of jq

In accordance with the basic task description, here is a solution that does not terminate:

input | recurse(. + 3 | . * 0.86)

To examine the first five generated items, we could use the shell's `head` utility, e.g. as follows:

$ jq -n ' input | recurse(. + 3 | . * 0.86)' <<< 0 | head -n 5
0
2.58
4.7988
6.706968
8.34799248

Notice that the output of `recurse` includes the input value.

To limit the generator programmatically, one could use the `limit/2` built-in:

$ jq -n --argjson n 5 'input | limit($n; recurse(. + 3 | . * 0.86))' <<< 1
1
3.44
5.538399999999999
7.343023999999999
8.89500064

One way to suppress the first item produced by the generator would be to use `whilst/1`:

# like while/2 but emit the final term rather than the first one
def whilst(cond; update):
     def _whilst:
         if cond then update | (., _whilst) else empty end;
     _whilst;

input | whilst(true; . + 3 | .  * 0.86)

To stop when the generated number satisfies `trunc == 18`, one could use the following filter:

whilst(trunc != 18; . + 3 | .  * 0.86)

To determine how many iterations it takes until the truncated value is 18, one could use `until/2`:

$ jq -n '{i:input} | until(.i|trunc == 18; .i += 3 | .i *= 0.86 | .n+=1)' <<< 0
{
  "i": 18.003997862641942,
  "n": 25
}

To determine how many iterations it takes until quiescence:

{a: input}
| until(.aprime == .a;
  .i += 1
  | .aprime=.a
  | .a += 3 | .a  *= 0.86)

Using an initial value of 0, jq produces the result:

{"a":18.428571428571416,"i":233,"aprime":18.428571428571416}

Julia

using Printf
using Plots

function converge(startvalue, decimals = 36, maxiters = 10000)
    current, previous = startvalue, startvalue + 5
    for i in 0:maxiters
        if abs(previous - current) <= big"10.0"^(-decimals)
            return current, i
        end
        previous = current
        current += 3
        current *= big"0.86"
    end
    error("Too many iterations, over $maxiters")
end

print("Enter starting value --> ")
input = something(tryparse(BigFloat, readline()), big"0.0")
print("Enter number of decimal places --> ")
decimals = something(tryparse(Int, readline()), 36)
endvalue, iters = converge(input, decimals)
@printf("%f --> %.*f to %d places after %d repetitions",
   input, decimals, endvalue, decimals, iters)

startvalues = collect(0:0.1:36)
iterationcounts = [last(converge(BigFloat(x))) for x in startvalues]

plot(startvalues, iterationcounts, xlabel = "Starting input", 
   ylabel = "Iterations to reach 36 digit precision")

Enter starting value --> 4
Enter number of decimal places --> 36
4.000000 --> 18.428571428571428571428571428571428566 to 36 places after 556 repetitions

Oberon-07

MODULE ShapeMachine;
IMPORT In, Out;

VAR a, prevA : REAL;
    n, count : INTEGER;

BEGIN
    count := 0;
    In.Int( n );
    a     := FLT( n );
    prevA := 0.0;
    WHILE prevA # a
    DO
        count := count + 1;
        prevA := a;
        a     := ( a + 3.0 ) * 0.86;
        Out.Real( a, 9 );Out.Ln
    END;
    Out.Int( count, 0 );Out.String( " repetitions" )
END ShapeMachine.

With 4 as the input value.

 6.020000
 7.757201
 9.251192
10.536025
11.640982
...
18.428562
18.428564
18.428566
18.428568
18.428568
97 repetitions

Pascal

Free Pascal

Take care on windows
"and the extended type is available on all Intel x86 processors, except on the Windows 64-bit platform"
Here I have used Win11.

program ShapeMachine;
const
  offset = 3.0;
  factor = 0.86;
var
  before, after: extended;
  iterationsCount: uint32;
begin
  //x = (x+offset)*factor
  //x/factor-x = offset
  //x := offset/(1/factor-1) -> factor must be smaller than 1
  after := 4;
//  after := offset/(1/factor-1);
  iterationsCount := 0;
  Writeln('Start with value ',after);
  repeat
    before := after;
    after := (before + offset) * factor;
    Inc(iterationsCount);
  until before = after;
  writeln(before: 0: 20, ' after ', iterationsCount, ' iterations');
  {$IFDEF WINDOWS}
  readln;
  {$ENDIF}
end.

on Windows
Start with value  4.0000000000000000E+000
18.42857142857141600000 after 231 iterations

on Linux
Start with value  4.00000000000000000000E+0000
18.42857142857142856850 after 281 iterations

Start with value  1.8428571428571420E+001
18.42857142857142000000 after 1 iterations

Phix

with javascript_semantics
--atom n = prompt_number("") -- (not js compatible)
atom n = 4
integer count = 0
do
    printf(1,"%.20f\n",n)
    atom prev = n
    n = (n + 3) * 0.86
    count += 1
until n==prev
printf(1,"Took %d iterations.\n",count)

64-bit (which uses 80-bit floats)

4.00000000000000000000
6.01999999999999999998
7.75720000000000000067
9.25119200000000000035
...
18.42857142857142856499
18.42857142857142856672
18.42857142857142856845
Took 281 iterations.

32-bit (which uses 64-bit floats, as does JavaScript output from p2js)

4.0000000000000000
6.0199999999999996
7.7571999999999992
9.2511919999999996
...
18.4285714285714093
18.4285714285714128
18.4285714285714164
Took 231 iterations.

Python

 a=int(input())
 while True:
     a=(a+3)*0.86
     print(a)

Quackery

  [ $ "bigrat.qky" loadfile ] now!

  [ stack ]                              is places ( --> s )

  [ $ "Starting value: " input
    $->v drop
    $ "Number of decimal places: " input
    $->n drop places put
    0 temp put
    [ 1 temp tally
      2dup
      3 1 v+ 86 100 v*
      2swap 2over places share approx=
      until ]
    places share point$ echo$
    say " to "
    places take echo
    say " places after "
    temp take echo
    say " iterations." cr ]              is task   ( -->   )

Starting value: 4
Number of decimal places: 36
18.428571428571428571428571428571428566 to 36 places after 556 iterations.

However…

If, rather than specifying a precision to a number of decimal places, we apply mediant rounding to the rational representation that Quackery uses, after each iteration, with an appropriate maximum value for the denominator, it quickly homes in on the limit of the computation i.e. eighteen and three sevenths.

  [ stack ]                               is maxval ( --> s )

  [ $ "Starting value: " input
    $->v drop
    $ "Max denominator: " input
    $->n drop maxval put
    0 temp put
    [ 1 temp tally
      2dup
      3 1 v+ 86 100 v*
      proper maxval share round improper
      2swap 2over v- v0= until ]
    maxval release
    proper$ echo$
    say " after " temp take echo
    say " iterations." cr ]               is task   ( -->   )

Starting value: 4
Max denominator: 50
18 3/7 after 56 iterations.

Raku

my $input = (+prompt()).FatRat;
my $previous = 0.FatRat;
my $count;
my $places = 36;
loop {
    $input += 3;
    $input ×= .86;
    last if $previous.substr(0,$places) eq $input.substr(0,$places);
    ++$count;
    say ($previous = $input).substr(0,$places);
}
say "$count repetitions";

4
6.02
7.7572
9.251192
10.53602512
11.6409816032
12.591244178752
13.40846999372672
14.1112841946049792
14.715704407360282112
15.23550579032984261632
15.6825349796836646500352
16.066980082527951599030272

...
many, many lines omitted
...

18.428571428571428571428571428571416
18.428571428571428571428571428571418
18.428571428571428571428571428571419
18.428571428571428571428571428571420
18.428571428571428571428571428571421
18.428571428571428571428571428571422
18.428571428571428571428571428571423
18.428571428571428571428571428571424
512 repetitions

In the latest iteration of the task instructions, we are to optionally "halt the loop when quiescence has been achieved, i.e. when the value does not change". Unless a precision is specified, "quiescence" will never be achieved. This operation adds more places of precision with every iteration, and will never "quiesce". (Unless run on a processor or with a language that is unable to handle high precision.)

For instance, the 1000th iteration, starting with 4 is exactly equal to:

say (4.FatRat, (* + 3) × .86 … *)[999]

18.428571428571428571428571428571428571428571428571428571428571428518562611055257476711345657046077536086307719590805662205008932637290716748623508143778473712167435511145273975385354947408188479662139937380449451942842937179508680530588633892945763008511616379084707917069957275072200539351914273993965066030011194811876547904839025263224744832595386782011862097471389181893672211696726485532183264057134602403929706908123592993235863786859888156665186026179826816128847575831458378844885123366878611593252686593421606487555134444315938261367778063531536534964127098858136548553001526656285822374662510184388742700972850063038414950295895060044238800011827580857336812976758443609296077801146559738910594736606435132635929690920618270821813108173656217015589361779205162675360527035288967300528197729261443766412283716792164777168702168039406788952779919915570541752416260293860518467707548712088056167502132216420672641269104901942501949966581723902330182247134406759443834453985391637796764689461663270662662993088449741102622767088092813554110022083926515230853581817905105492221230813528825959115645642043759816744064849863722778041272156387348996418369338438534662612609987037043047038131221189442288876209762806085696386445408093086328602555139121446610496274119187899056474561873403444794760343168250250584159942711177776533259811971409762989699214055857046134462937025863660124732727323402691866232023863821613479844954718192492032583994808226027774091320595373377362720291094591511865887665392365641680216202349251077081257991823441611723818589067580880018475492672710607080810164651535155593521646027992098574736200877274039486002214250862949227962977243520217727369412523884625435318388719886

(Notice that that, while very precise, is only accurate to 64 decimal places.)

Wren

This repeats until the next number (a 64 bit float) equals the previous number which will usually be sometime later than their string/display values (normally limited to 14 digits in Wren CLI) are equal.

import "./ioutil" for Input

var prev = Input.number("")
var count = 1
while (true) {
    var next = (prev + 3) * 0.86
    if (prev == next) break
    System.print(prev = next)
    count = count + 1
}
System.print("Took %(count) iterations.")

Sample input/output (abridged):

4
6.02
7.7572
9.251192
10.53602512
11.6409816032
12.591244178752
13.408469993727
14.111284194605
14.71570440736
...
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
18.428571428571
Took 231 iterations.

XPL0

real A;
[A:= RlIn(0);
while true do
    [A:= A+3.;
    A:= A*0.86;
    RlOut(0, A);
    ];
]

123
108.36000 95.76960 84.94186 75.63000 67.62180 60.73475 54.81188 49.71822
45.33767 41.57039 38.33054 35.54426 33.14807 31.08734 29.31511 27.79099
26.48026 25.35302 24.38360 23.54989 22.83291 22.21630 21.68602 21.22998
20.83778 20.50049 20.21042 19.96096 19.74643 19.56193 19.40326 19.26680
19.14945 19.04853 18.96173 18.88709 18.82290 18.76769 18.72022 18.67939
18.64427 18.61407 18.58810 18.56577 18.54656 18.53004 18.51584 18.50362
18.49311 18.48408 18.47631 18.46962 18.46388 18.45893 18.45468 18.45103
18.44788 18.44518 18.44285 18.44085 18.43914 18.43766 18.43638 18.43529
18.43435 18.43354 18.43285 18.43225 18.43173 18.43129 18.43091 18.43058
18.43030 18.43006 18.42985 18.42967 18.42952 18.42938 18.42927 18.42917
18.42909 18.42902 18.42895 18.42890 18.42885 18.42881 18.42878 18.42875
18.42873 18.42870 18.42869 18.42867 18.42866 18.42864 18.42863 18.42863
18.42862 18.42861 18.42861 18.42860 18.42860 18.42859 18.42859 18.42859
18.42859 18.42858 18.42858 18.42858 18.42858 18.42858 18.42858 18.42858
18.42858 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857
18.42857 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857
18.42857 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857 18.42857