Loops/Continue: Difference between revisions

Loops/Continue
You are encouraged to solve this task according to the task description, using any language you may know.

Task

Show the following output using one loop.

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Try to achieve the result by forcing the next iteration within the loop upon a specific condition, if your language allows it.

Related tasks

•   Loop over multiple arrays simultaneously
•   Loops/Break
•   Loops/Continue
•   Loops/Do-while
•   Loops/Downward for
•   Loops/For
•   Loops/For with a specified step
•   Loops/Foreach
•   Loops/Increment loop index within loop body
•   Loops/Infinite
•   Loops/N plus one half
•   Loops/Nested
•   Loops/While
•   Loops/with multiple ranges
•   Loops/Wrong ranges

11l

L(i) 1..10
   I i % 5 == 0
      print(i)
      L.continue
   print(i, end' ‘, ’)

1, 2, 3, 4, 5
6, 7, 8, 9, 10

360 Assembly

*        Loops/Continue            12/08/2015
LOOPCONT CSECT
         USING  LOOPCONT,R12
         LR     R12,R15
BEGIN    LA     R8,0
         SR     R5,R5
         LA     R6,1
         LA     R7,10
LOOPI    BXH    R5,R6,ELOOPI       for i=1 to 10
         LA     R3,MVC(R8)
         XDECO  R5,XDEC
         MVC    0(4,R3),XDEC+8
         LA     R8,4(R8)
         LR     R10,R5
         LA     R1,5
         SRDA   R10,32
         DR     R10,R1
         LTR    R10,R10
         BNZ    COMMA
         XPRNT  MVC,80
         LA     R8,0
         B      NEXTI
COMMA    LA     R3,MVC(R8)
         MVC    0(2,R3),=C', '
         LA     R8,2(R8)
NEXTI    B      LOOPI              next i
ELOOPI   XR     R15,R15
         BR     R14
MVC      DC     CL80' '
XDEC     DS     CL16
         YREGS  
         END    LOOPCONT

   1,    2,    3,    4,    5
   6,    7,    8,    9,   10

Ada

Ada doesn't have a continue statement, so we have to use a goto statement. The previous submitter said continue is not needed. In this example it is indeed not needed, but that is not always the case. An example is a loop where a number of interdependent conditions are checked before executing the main body of the loop. Without a continue statement (or goto), one ends up with nested statements with the main body to the far right of the page.

B.N. You should always try to avoid using a goto, but if you really must, it's there in Ada.

P.S. it is often simplest to place the label on top of the loop, as in real life the need occurs when reading input, so there is no range condition in the loop and we can forgo the null statement.

with Ada.Text_IO;
use Ada.Text_IO;

procedure Loop_Continue is
begin
        for I in 1..10 loop
                Put (Integer'Image(I));
                if I = 5 or I = 10 then
                        New_Line;
                        goto Continue;
                end if;
                Put (",");
                <<Continue>>  --Ada 2012 no longer requires a statement after the label
        end loop;
end Loop_Continue;

N. This is a more true-to-Ada strategy for 'continue' comprising of an outer iteration loop and an inner labeled single-pass loop. This is a safer strategy than using goto which could be problematic when dealing with complex nested loops.

with Ada.Text_IO;
use Ada.Text_IO;

procedure Loop_Continue is
begin
        Print_All:
        for I in 1 .. 10 loop
                Print_Element: loop
                        Put (Integer'Image(I));
                        if I = 5 or I = 10 then
                                New_Line;
                                exit Print_Element;
                        end if;
                        Put (",");
                exit Print_Element;
                end loop Print_Element;
        end loop Print_All;
end Loop_Continue;

Agena

Agena doesn't have a continue statement, conditional statements can be used instead.

for i to 10 do
    write( i );
    if i % 5 = 0
    then write( "\n" )
    else write( ", " )
    fi
od

Aikido

foreach i 1..10 {
    print (i)
    if ((i % 5) == 0) {
        println()
        continue
    } 
    print (", ")
}

ALGOL 60

 begin
   integer i;
   for i:=1 step 1 until 10 do begin
     outinteger(i);
     if i=(i div 5)*5 then
       outimage
     else
       outstring(", ")
     end
 end

         +1  ,          +2  ,          +3  ,          +4  ,          +5
         +6  ,          +7  ,          +8  ,          +9  ,         +10

ALGOL 68

ALGOL 68 has no continue reserved word, nor does it need one. The continue reserved word is only syntactic sugar for operations that can be achieved without it as in the following example:

FOR i FROM 1 TO 10 DO
  print ((i, 
    IF i MOD 5 = 0 THEN
      new line
    ELSE
      ","
    FI
  ))
OD

         +1,         +2,         +3,         +4,         +5
         +6,         +7,         +8,         +9,        +10

ALGOL W

Algol W doesn't have a continue statement - conditional statements can be used instead.

begin
    i_w := 1; s_w := 0; % set output format %
    for i := 1 until 10 do begin
        writeon( i );
        if i rem 5 = 0
        then write()
        else writeon( ", " )
    end for_i
end.

AppleScript

set table to {return}
repeat with i from 1 to 10
	if i < 5 or (i ≥ 6 and i < 10) then
		set end of table to i & ", "
	else if i = 5 or i = 10 then
		set end of table to i & return
	end if
end repeat
return table as string

"
1, 2, 3, 4, 5
6, 7, 8, 9, 10
"

Arturo

loop 1..10 'i [
    prints i
    if 0 = i%5 [
        print ""
        continue
    ]
    prints ", "
]

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Asymptote

Asymptote's control structures are similar to those in C/C++

for(int i = 1; i <= 10; ++i) {
  write(i, suffix=none);
  if(i % 5 == 0) {
    write("");
    continue;
  } else {
    write(", ", suffix=none);
  }
}

AutoHotkey

Loop, 10 {
  Delimiter := (A_Index = 5) || (A_Index = 10) ? "`n":", "
  Index .= A_Index . Delimiter
}
MsgBox %Index%

AWK

BEGIN {
  for(i=1; i <= 10; i++) {
    printf("%d", i)
    if ( i % 5 == 0 ) {
      print
      continue
    }
    printf(", ")
  }
}

BASIC

Applesoft BASIC

 10  FOR I = 1 TO 10
 20  PRINT I;
 30  IF I -  INT (I / 5) * 5 = 0 THEN  PRINT : GOTO 50"CONTINUE
 40  PRINT ", ";
 50  NEXT

BASIC256

for i = 1 to 10
	print string(i);
	if i mod 5 = 0 then
		print
		continue for
	end if
	print ", ";
next
print
end

BBC BASIC

BBC BASIC doesn't have a 'continue' statement so the remainder of the loop must be made conditional.

      FOR i% = 1 TO 10
        PRINT ; i% ;
        IF i% MOD 5 = 0 PRINT ELSE PRINT ", ";
      NEXT

Commodore BASIC

Commodore BASIC also doesn't have a 'continue' statement. In this example, a GOTO statement is used to simulate 'CONTINUE'. However, Commodore BASIC doesn't have a modulo (remainder) operator, so value of I/5 is check against INT(I/5). If they are the same, the remainder is zero.

10 FOR I = 1 to 10
20 PRINT I;
30 IF INT(I/5) = I/5 THEN PRINT : GOTO 50
40 PRINT ", ";
50 NEXT

FreeBASIC

' FB 1.05.0 Win64
For i As Integer = 1 To 10
  Print Str(i);
  If i Mod 5 = 0 Then
    Print
    Continue For
  End If
  Print ", ";
Next

Print
Sleep

1, 2, 3, 4, 5
6, 7, 8, 9, 10

IS-BASIC

100 FOR I=1 TO 10
110   PRINT STR$(I);
120   IF MOD(I,5)=0 THEN
130     PRINT 
140   ELSE
150     PRINT ", ";
160   END IF
170 NEXT

Liberty BASIC

for i =1 to 10
    if i mod 5 <>0 then print i; ", "; else print i
next i
end

PureBasic

OpenConsole()

For i.i = 1 To 10
  Print(Str(i))
  If i % 5 = 0
    PrintN("")
    Continue
  EndIf
  Print(",")
Next

Repeat: Until Inkey() <> ""

QB64

Dim i As Integer
For i = 1 To 10
    Print LTrim$(Str$(i));
    If i Mod 5 = 0 Then
        Print
        _Continue
    End If
    Print ", ";
Next

Run BASIC

for i = 1 to 10
    if i mod 5 <> 0 then print i;", "; else print i
next i

Sinclair ZX81 BASIC

This probably isn't the most idiomatic way to produce the specified output—but it does illustrate ZX81 BASIC's equivalent of if <condition> continue, which is IF <condition> THEN NEXT <loop-control variable>.

10 FOR I=1 TO 10
20 PRINT I;
30 IF I/5=INT (I/5) THEN PRINT
40 IF I/5=INT (I/5) THEN NEXT I
50 PRINT ", ";
60 NEXT I

TI-89 BASIC

count()
Prgm 
  ""→s
  For i,1,10
    s&string(i)→s
    If mod(i,5)=0 Then
      Disp s
      ""→s
      Cycle
    EndIf
    s&", "→s
  EndFor
EndPrgm

Ti-89 lacks support for multi-argument display command or controlling the print position so that one can print several data on the same line. The display command (Disp) only accepts one argument and prints it on a single line (causing a line a feed at the end, so that the next Disp command will print in the next line). The solution is appending data to a string (s), using the concatenator operator (&), by converting numbers to strings, and then printing the string at the end of the line.

True BASIC

FOR i = 1 TO 10
    PRINT STR$(i);
    IF REMAINDER(i, 5) = 0 THEN
       PRINT
    ELSE                          !No existe el comando CONTINUE
       PRINT ", ";
    END IF
NEXT i
PRINT
END

VB-DOS, PDS

OPTION EXPLICIT

DIM i AS INTEGER

CLS
FOR i = 1 TO 10
 PRINT STR$(i);
 IF (i MOD 5) THEN PRINT ",";  ELSE PRINT
NEXT i
END

Visual Basic .NET

For i = 1 To 10
    Console.Write(i)
    If i Mod 5 = 0 Then
        Console.WriteLine()
    Else
        Console.Write(", ")
    End If
Next

bc

Requires a bc with the print and continue statements. POSIX bc has not these statements.

for (i = 1; i <= 10; i++) {
	print i
	if (i % 5) {
		print ", "
		continue
	}
	print "\n"
}
quit

BCPL

In BCPL, the continue statement is named loop.

get "libhdr"

let start() be
    for i = 1 to 10
    $(  writen(i)
        if i rem 5 = 0
        $(  wrch('*N')
            loop
        $)
        writes(", ")
    $)

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Befunge

Befunge outputs numbers with a space after them, so the formatting is slightly off in this version.

1>:56+\`#v_@
 +v %5:.:<
 1>#v_55+,v
 ^        <
    >" ,",,v
 ^         <

This version outputs a 'backspace' ASCII character to try to correct the format, but it may or may not work depending on if the character is accounted for by the output

1>:56+\`#v_@
 +v5:,8.:<
 1>%#v_55+,v
 ^         <
     >" ,",v
 ^        ,<

Bracmat

Bracmat has no continue statement.

( 0:?i
&   whl
  ' ( 1+!i:~>10:?i
    &   put
      $ ( str
        $ ( !i
            (mod$(!i.5):0&\n|", ")
          )
        )
    )
);

C

for(int i = 1;i <= 10; i++){
   printf("%d", i);
   if(i % 5 == 0){
      printf("\n");
      continue;
   }
   printf(", ");
}

C#

using System;

class Program {
    static void Main(string[] args) {
        for (int i = 1; i <= 10; i++) {
            Console.Write(i);

            if (i % 5 == 0) {
                Console.WriteLine();
                continue;
            }

            Console.Write(", ");
        }
    }
}

C++

for(int i = 1;i <= 10; i++){
   cout << i;
   if(i % 5 == 0){
      cout << endl;
      continue;
   }
   cout << ", ";
}

C3

for (int i = 1; i <= 10; i++)
{
   io::print(i);
   if (i % 5 == 0)
   {
      io::printn();
      continue;
   }
   io::print(", ");
}

Chapel

for i in 1..10 {
        write(i);
        if i % 5 == 0 then {
                writeln();
                continue;
        }
        write(", ");
}

Clipper

LOOP keyword is used here instead of continue.

Works as is with Harbour 3.0.0 (Rev. 16951)

FOR i := 1 TO 10
   ?? i
   IF i % 5 == 0
      ?
      LOOP
   ENDIF
   ?? ", "
NEXT

Clojure

Clojure doesn't have a continue keyword. It has a recur keyword, although I prefer to work with ranges in this case.

(doseq [n (range 1 11)]
  (print n)
  (if (zero? (rem n 5))
      (println)
      (print ", ")))

To address the task, however, here's an example loop/recur:

(loop [xs (range 1 11)]
  (when-let [x (first xs)]
    (print x)
    (if (zero? (rem x 5))
        (println)
        (print ", "))
    (recur (rest xs))))

COBOL

       IDENTIFICATION DIVISION.
       PROGRAM-ID. loop-continue.

       DATA DIVISION.
       WORKING-STORAGE SECTION.
       01  i PIC 99.

       PROCEDURE DIVISION.
           PERFORM VARYING i FROM 1 BY 1 UNTIL 10 < i
               DISPLAY i WITH NO ADVANCING

               IF FUNCTION MOD(i, 5) = 0
                   DISPLAY SPACE
                   EXIT PERFORM CYCLE
               END-IF

               DISPLAY ", " WITH NO ADVANCING
           END-PERFORM

           GOBACK
           .

Note: COBOL does have a CONTINUE verb, but this is a no-operation statement used in IF and EVALUATE statements.

ColdFusion

Remove the leading space from the line break tag.

<cfscript>
  for( i = 1; i <= 10; i++ )
  {
    writeOutput( i );
    if( 0 == i % 5 )
    {
      writeOutput( "< br />" );
      continue;
    }
    writeOutput( "," );
  }
</cfscript>

Common Lisp

Common Lisp doesn't have a continue keyword, but the do iteration construct does use an implicit tagbody, so it's easy to go to any label. Four solutions follow. The first pushes the conditional (whether to print a comma and a space or a newline) into the format string. The second uses the implicit tagbody and go. The third is a do loop with conditionals outside of the output functions.

(do ((i 1 (1+ i)))
    ((> i 10))
  (format t "~a~:[, ~;~%~]" i (zerop (mod i 5))))

(do ((i 1 (1+ i)))
    ((> i 10))
  (write i)
  (when (zerop (mod i 5))
    (terpri)
    (go end))
  (write-string ", ")
  end)

(do ((i 1 (1+ i)))
    ((> i 10))
  (write i)
  (if (zerop (mod i 5))
    (terpri)
    (write-string ", ")))

These use the loop iteration form, which does not contain an implicit tagbody (though one could be explicitly included). The first uses an explicit condition to omit the rest of the loop; the second uses block/return-from to obtain the effect of skipping the rest of the code in the block which makes up the entire loop body.

(loop for i from 1 to 10
      do (write i)
      if (zerop (mod i 5))
        do (terpri)
      else
        do (write-string ", "))

(loop for i from 1 to 10 do
  (block continue
    (write i)
    (when (zerop (mod i 5))
      (terpri)
      (return-from continue))
    (write-string ", ")))

Cowgol

include "cowgol.coh";

var n: uint8 := 0;
while n < 10 loop
    n := n + 1;
    print_i8(n);
    if n % 5 == 0 then
        print_nl();
        continue;
    end if;
    print(", ");
end loop;

1, 2, 3, 4, 5
6, 7, 8, 9, 10

D

import std.stdio;

void main() {
    foreach (i; 1 .. 11) {
        write(i);
        if (i % 5 == 0) {
            writeln();
            continue;
        }
        write(", ");
    }
}

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Shorter version

import std.stdio;

void main()
{
  foreach(i; 1..11) i % 5 ? writef("%s, ", i) : writeln(i);
}

dc

The four commands # n J M are special to OpenBSD dc. The # command starts a comment. The n command prints a number without a newline.

1 si		# i = 1
[2Q]sA		# A = code to break loop
[[, ]P 1J]sB	# B = code to print comma, continue loop
[
 li n		# print i
 li 5 % 0 !=B	# call B if i % 5
 [
]P              # print newline
 M		# mark from calling B
 li 1 + si	# i += 1
 li 10!<C	# continue loop if 10 >= i
]sC li 10!<C	# enter loop if 10 >= i

This program uses J and M to force the next iteration of a loop. The nJ command breaks n levels of brackets (like nQ does so), but then skips to the next M command. One can place M at the end of the iteration.

Delphi

program DoLoop(output);
var
  i: integer;
begin
  for i := 1 to 10 do
  begin
    write(i);
    if i mod 5 = 0 then
    begin
      writeln;
      continue;
    end;
    write(', ');
  end;
end.

1, 2, 3, 4, 5
6, 7, 8, 9, 10

DWScript

var i : Integer;

for i := 1 to 10 do begin
   Print(i);
   if i mod 5 = 0 then begin
      PrintLn('');
      continue;
   end;
   Print(', ');
end;

Dyalect

for i in 1..10 {
    print(i, terminator: "")
    if i % 5 == 0 {
        print()
        continue
    }
    print(", ", terminator: "")
}

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Ela

Direct Approach

open monad io
 
loop n = 
  if n > 10 then do
      return () 
    else do
      putStr (show n)
      putStr f
      loop (n + 1)
  where f | n % 5 == 0 = "\r\n"
          | else = ", "

_ = loop 1 ::: IO

Using list

open monad io
 
loop [] = return ()
loop (x::xs) = do
      putStr (show x)
      putStr f
      loop xs
  where f | x % 5 == 0 = "\r\n"
          | else = ", "
 
_ = loop [1..10] ::: IO

This version is more generic and can work for any given range of values.

Elixir

defmodule Loops do
  def continue do
    Enum.each(1..10, fn i ->
      IO.write i
      IO.write if rem(i,5)==0, do: "\n", else: ", "
    end)
  end
end

Loops.continue

1, 2, 3, 4, 5
6, 7, 8, 9, 10

EMal

for int i = 1; i <= 10; ++i
  write(i)
  if i % 5 == 0
    writeLine()
    continue
  end
  write(", ")
end

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Erlang

%% Implemented by Arjun Sunel
-module(continue).
-export([main/0, for_loop/1]).
 
main() ->
	for_loop(1).
	
for_loop(N)  when N /= 5 , N <10 ->
	io:format("~p, ",[N] ),
	for_loop(N+1);
	
for_loop(N) when N >=10->
	if N=:=10 ->
		io:format("~p\n",[N] )
	end;
	 
for_loop(N) ->
	if N=:=5 ->
		io:format("~p\n",[N] ),
		for_loop(N+1)
	end.

1, 2, 3, 4, 5
6, 7, 8, 9, 10
ok

ERRE

FOR I=1 TO 10 DO
   PRINT(I;CHR$(29);)  ! printing a numeric value leaves a blank after it
                       ! chr$(29) delete it.....
   IF I MOD 5=0 THEN
      PRINT
      CONTINUE FOR
   END IF
   PRINT(",";)
END FOR
PRINT

Euphoria

include std\console.e --only for any_key to make running command window easier on windows

for i = 1 to 10 do
    if remainder(i,5) = 0 then
        printf(1, "%d\n", i)
        else
            printf(1,"%d, ", i)
            continue
    end if
end for
any_key()

Version without newline after 10 below.

include std\console.e --only for any_key to make running command window easier on windows

for i = 1 to 10 do
    if remainder(i,5) = 0 then
        switch i do 
            case 10 then
                printf(1,"%d ",i)
                break --new to euphoria 4.0.0+
            case else
                printf(1,"%d\n", i)
        end switch
                
        else
            printf(1,"%d, ", i)
            continue --new to euphoria 4.0.0+
    end if
end for
any_key()

F#

continue is a reserved word, but it has no function. In any case, it is not needed to complete this task.

Translation of: Ada

for i in 1 .. 10 do
  printf "%d" i
  if i % 5 = 0 then
    printf "\n"
  else
    printf ", "

Using Comma quibbling#The Function

let fN g=quibble (Seq.initInfinite(fun n ->if (n+1)%5=0 || (n+1)=List.length g then "\n" else ", ")) g  
fN [1] |> Seq.iter(fun(n,g)->printf "%d%s" n g)
fN [1..9] |> Seq.iter(fun(n,g)->printf "%d%s" n g)
fN [1..10] |> Seq.iter(fun(n,g)->printf "%d%s" n g)
fN [1..11] |> Seq.iter(fun(n,g)->printf "%d%s" n g)

1
1, 2, 3, 4, 5
6, 7, 8, 9
1, 2, 3, 4, 5
6, 7, 8, 9, 10
1, 2, 3, 4, 5
6, 7, 8, 9, 10
11
 

Factor

There is no built-in continue in Factor.

1 10 [a,b] [ 
    [ number>string write ]
    [ 5 mod 0 = "\n" ", " ? write ] bi
] each

Fantom

While and for loops support continue to jump back to begin the next iteration of the loop.

class LoopsContinue
{
  public static Void main () 
  {
    for (Int i := 1; i <= 10; ++i)
    {
      Env.cur.out.print (i)
      if (i % 5 == 0) 
      {
        Env.cur.out.printLine ("")
        continue
      }
      Env.cur.out.print (", ")
    }
    Env.cur.out.printLine ("")
  }
}

Forth

Although this code solves the task, there is no portable equivalent to "continue" for either DO-LOOPs or BEGIN loops.

: main
  11 1 do
    i dup 1 r.
    5 mod 0= if cr else [char] , emit space then
  loop ;

Fortran

do i = 1, 10
   write(*, '(I0)', advance='no') i
   if ( mod(i, 5) == 0 ) then
      write(*,*)
      cycle
   end if
   write(*, '(A)', advance='no') ', '
end do

C     WARNING: This program is not valid ANSI FORTRAN 77 code. It uses
C     one nonstandard character on the line labelled 5001. Many F77
C     compilers should be okay with it, but it is *not* standard.
C
C     It is also worth noting that FORTRAN 77 uses the command CONTINUE,
C     but not in the semantic, looping sense of the word. In FORTRAN,
C     CONTINUE means "do absolutely nothing." It is a placeholder. If
C     anything, it means "continue to the next line."
C
C     Python does the same thing with `pass`; C and its family of
C     languages, with `{/* do nothing */}`. Write CONTINUE when you need
C     to write something but have nothing to write.
C
C     This page on Rosetta Code is about a very different "continue"
C     statement that tells a loop to go back to the beginning. In
C     FORTRAN, we use (you guessed it!) a GOTO to accomplish this.
      PROGRAM CONTINUELOOP
        INTEGER I

        DO 10 I = 1, 10
C         Is it five or ten?
          IF (MOD(I, 5) .EQ. 0) THEN
C           If it is, write a newline and no comma.
            WRITE (*,5000) I

C           Continue the loop; that is, skip to the end of the loop.
            GOTO 10
          ENDIF

C         Write I with a comma and no newline.
          WRITE (*,5001) I

C       Again, in this case, CONTINUE is completely unrelated to the
C       semantic, looping sense of the word.
   10   CONTINUE

        STOP

C       This will print an integer and a newline (no comma).
 5000   FORMAT (I3)

C       Standard FORTRAN 77 is completely incapable of completing a
C       WRITE statement without printing a newline. If you want to print
C       five integers in standard code, you have to do something like
C       this:
C
C           FORMAT (I3, ',', I3, ',', I3, ',', I3, ',', I3)
C
C       Writing `1, 2, 3, 4, 5` and then `6, 7, 8, 9, 10` to that format
C       would produce the following two lines:
C
C             1,  2,  3,  4,  5
C             6,  7,  8,  9, 10
C
C       However, this code exists to demonstrate continuing a FORTRAN 77
C       loop and not to demonstrate how to get around its rigidity about
C       newlines.
C
C       The dollar sign at the end of the format is a nonstandard
C       character. It tells the compiler not to print a newline. If you
C       are actually using FORTRAN 77, you should figure out what your
C       particular compiler accepts. If you are actually using Fortran
C       90 or later, you should replace this line with the commented
C       line that follows it.
 5001   FORMAT (I3, ',', $)
C5001   FORMAT (I3, ',', ADVANCE='NO')
      END

Relying instead upon the looping features of FORMAT

For historical reasons, 6 is often the default unit number for standard output.

      WRITE (6,1) (I,I = 1,10)
    1 FORMAT (4(1X,I0,","),1X,I0)
      END

Here the break and continuation comes through the workings of the FORMAT interpreter. The feature 4(etc) means four repetitions of the format items within the brackets, and as each datum from the WRITE statement arrives, it is aligned with the next format item that can receive a datum, the I-format specifier (here I0, which means an integer of only as many digits as are needed for the value) and until such a reciever is encountered, intervening format items are acted upon - 1X means "one space", and the quotes surround a text literal. Accordingly, the first datum generates a space, a one-digit value, and a comma, as does the second and so on. When the sixth datum is received, the end of the format statement has been reached, and the convention is to write the current line and start a new line of output, and further, go back in the FORMAT specification to the first-encountered open-bracket symbol (the rightmost) which in this case is not the beginning of the FORMAT statement but the one that has a repetition count of four in front of it, and, resume interpretation. When the last datum has been accepted, naturally, the line is printed.

An alternative might be FORMAT (4(I2,","),I2) but that would generate

1, 2, 3, 4, 5
6, 7, 8, 9,10

Alternatively, FORMAT (4(I2,","),I2,/,4(I2,","),I3) would do the trick but there would no longer be the loop, break, continue aspect to the interpretation of the FORMAT statement, merely a grinding through a list.

This sort of scheme facilitates a compact way of printing a table with a heading, where the WRITE statement simply pours forth the data and relies on something like FORMAT("heading",/,(complex details for one line)) - thus printing the table line-by-line with only the first line having the heading, a saving on having a write and format statement pair for the heading and a second pair for the table body.

FutureBasic

include "NSLog.incl"

long num

for num = 1 to 10
  if ( num mod 5 )
    NSLog(@"%ld, \b",num)
  else
    NSLog(@"%ld",num)
  end if
next

HandleEvents

Gambas

Click this link to run this code

Public Sub Main()
Dim siCount As Short

For siCount = 1 To 10
  Print siCount;
  If siCount <> 5 And siCount <> 10 Then Print ",";
  If siCount = 5 Then Print gb.NewLine;
Next

End

Output:

1,2,3,4,5
6,7,8,9,10

GAP

for i in [1 .. 11] do
    if RemInt(i, 5) = 0 then
        Print(i, "\n");
        continue;
    fi;
    Print(i, ", ");
od;

# 1, 2, 3, 4, 5
# 6, 7, 8, 9, 10

GDScript

extends MainLoop


func _process(_delta: float) -> bool:
	for i in range(1,11):
		if i % 5 == 0:
			print(i)
			continue
		printraw(i, ", ")

	return true # Exit

GML

for(i = 1; i <= 10; i += 1)
    {
    show_message(string(i))
    i += 1
    if(i <= 10)
        continue
    }

Go

package main

import "fmt"

func main() {
    for i := 1; i <= 10; i++ {
        fmt.Printf("%d", i)
        if i%5 == 0 {
            fmt.Printf("\n")
            continue
        }
        fmt.Printf(", ")
    }
}

1, 2, 3, 4, 5
6, 7, 8, 9, 10

Groovy

for (i in 1..10) {
    print i
    if (i % 5 == 0) {
        println ()
        continue
    }
    print ', '
}

Haskell

As a functional language, it is not idiomatic to have true loops - recursion is used instead. Below is one of many possible implementations of the task. The below code uses a guard (| symbol) to compose functions differently for the two alternative output paths, instead of using continue like in an imperative language.

import Control.Monad (forM)
main = forM [1..10] out
    where
      out x | x `mod` 5 == 0 = print x
            | otherwise = (putStr . (++", ") . show) x

Haxe

for (i in 1...11) {
  Sys.print(i);
  if (i % 5 == 0) {
    Sys.print('\n');
    continue;
  }
  Sys.print(', ');
}

HicEst

DO i = 1, 10
  IF( MOD(i, 5) == 1 ) THEN
      WRITE(Format="i3") i
    ELSE
      WRITE(APPend, Format=" ',', i3 ") i
    ENDIF
ENDDO

Icon and Unicon

The following code demonstrates the use of 'next' (the reserved word for 'continue'):

procedure main()
every writes(x := 1 to 10) do {
   if x % 5 = 0 then {
      write()
      next         
      }
   writes(", ")
   }
end

However, the output sequence can be written without 'next' and far more succinctly as:

every writes(x := 1 to 10, if x % 5 = 0 then "\n" else ", ")

Io

for(i,1,10,
    write(i)
    if(i%5 == 0, writeln() ; continue)
    write(" ,")
)

J

J is array-oriented, so there is very little need for loops. For example, one could satisfy this task this way:

_2}."1'lq<, >'8!:2>:i.2 5