User:K8joc8ohGee9j/sandbox
ABAP[edit]
REPORT ZHELLOWORLD.
WRITE 'Hello, world!'.
ActionScript 3.0[edit]
trace ("Hello, world!");
or (if you want it to show on the stage)
package com.example
{
import flash.text.TextField;
import flash.display.Sprite;
public class Greeter extends Sprite
{
public function Greeter()
{
var txtHello:TextField = new TextField();
txtHello.text = "Hello, world!";
addChild(txtHello);
}
}
}
Ada[edit]
with Ada.Text_IO;
procedure Hello_World is
use Ada.Text_IO;
begin
Put_Line("Hello, world!");
end;
Adventure Game Studio Script[edit]
Display("Hello, world!");
or (if you want to draw it to the background surface)
DrawingSurface *surface = Room.GetDrawingSurfaceForBackground();
surface.DrawString(0, 100, Game.NormalFont, "Hello, world!");
surface.Release();
Agda[edit]
module hello where
open import IO
main = run (putStrLn "Hello World!")
Compiled using Agda 2.4.02. Note that the IO module is part of the Haskell FFI. (You may need to run cabal install inside the ffi folder of your agda standard library.)
ALGOL[edit]
BEGIN
DISPLAY ("Hello, world!");
END.ALGOL 68[edit]
print("Hello, world!")Amiga E[edit]
PROC main()
WriteF('Hello, world!')
ENDPROC
APL[edit]
'Hello, world!'
AppleScript[edit]
display dialog "Hello, world!"
or if you want a button to trigger the dialog:
on helloWorld()
display dialog "Hello, world!"
end helloWorld
helloWorld()
AS/400 Control Language[edit]
PGM
SNDPGMMSG MSG('Hello, world!')
ENDPGM
ASP.Net[edit]
Response.Write("Hello World!");
Assembly language — MOS Technology 6502, Apple II (II+, IIe, IIC)[edit]
; Uses S-C Assembler variant.
; .or is origin
; .as is ASCII String
; .hs is Hex String
.or $300
main ldy #$00
.1 lda str,y
beq .2
jsr $fded ; ROM routine, COUT, y is preserved
iny
bne .1
.2 rts
str .as "HELLO WORLD"
.hs 0D00
Assembly language — MOS Technology 6502, Acorn MOS[edit]
100 REM Hello World using a mix of BBC Basic and 6502 assembler
110 $&A200 = "!dlrow olleH"
115 code% = &A100
120 str = &A200
130 oswrch = &FFEE
140 FOR pass%=0 TO 3 STEP 3
150 P% = code%
160 [
170 OPT pass%
180 .START LDY 11
190 CLC
200 .LOOP
210 LDA str,Y
220 JSR oswrch
230 DEY
240 BCC LOOP
250 LDA 13
260 JSR oswrch
270 RTS
280 ]
290 NEXT
300 CALL code%
Assembly language — ARM, BBC BASIC inline assembler[edit]
1000 REM Hello World using a mix of BBC Basic and ARM assembler
1010 DIM org 100
1020 OS_Write0 = &2
1030 FOR pass=0 TO 3 STEP 3
1040 PROCasm(pass,org)
1050 NEXT pass
1060 CALL org
1070 END
1080
2000 DEF PROCasm(pass,org)
2010 P%=org
2020 [ OPT pass
2030 ADR R0, message
2040 SWI OS_Write0
2050 MOV PC, R14
2060 .message
2070 EQUS "Hello, World!" + CHR$(0)
2080 ALIGN
2090 ]
2100 ENDPROC
Assembly language — Intel 8086 Microprocessor Emulator - emu8086[edit]
Without using print procedure :
; this example prints out "hello world!"
; by writing directly to video memory.
; in vga memory: first byte is ascii character, byte that follows is character attribute.
; if you change the second byte, you can change the color of
; the character even after it is printed.
; character attribute is 8 bit value,
; high 4 bits set background color and low 4 bits set foreground color.
; hex bin color
;
; 0 0000 black
; 1 0001 blue
; 2 0010 green
; 3 0011 cyan
; 4 0100 red
; 5 0101 magenta
; 6 0110 brown
; 7 0111 light gray
; 8 1000 dark gray
; 9 1001 light blue
; a 1010 light green
; b 1011 light cyan
; c 1100 light red
; d 1101 light magenta
; e 1110 yellow
; f 1111 white
org 100h
; set video mode
mov ax, 3 ; text mode 80x25, 16 colors, 8 pages (ah=0, al=3)
int 10h ; do it!
; cancel blinking and enable all 16 colors:
mov ax, 1003h
mov bx, 0
int 10h
; set segment register:
mov ax, 0b800h
mov ds, ax
; print "hello world"
; first byte is ascii code, second byte is color code.
mov [02h], 'H'
mov [04h], 'e'
mov [06h], 'l'
mov [08h], 'l'
mov [0ah], 'o'
mov [0ch], ','
mov [0eh], 'W'
mov [10h], 'o'
mov [12h], 'r'
mov [14h], 'l'
mov [16h], 'd'
mov [18h], '!'
; color all characters:
mov cx, 12 ; number of characters.
mov di, 03h ; start from byte after 'h'
c: mov [di], 11101100b ; light red(1100) on yellow(1110)
add di, 2 ; skip over next ascii code in vga memory.
loop c
; wait for any key press:
mov ah, 0
int 16h
ret
Assembly language — MOS Technology 6502, CBM KERNAL[edit]
A_CR = $0D ;carriage return
BSOUT = $FFD2 ;kernel ROM sub, write to current output device
;
LDX #$00 ;starting index in .X register
;
LOOP LDA MSG,X ;read message text
BEQ LOOPEND ;end of text
;
JSR BSOUT ;output char
INX
BNE LOOP ;repeat
;
LOOPEND RTS ;return from subroutine
;
MSG .BYT 'Hello, world!',A_CR,$00
Assembly language — Motorola 68000, Atari TOS[edit]
; Assmebled with Devpac and VASM
; VASM -devpac -m68000 -no-opt -nosym -Ftos
;Cconws
pea Text(PC)
move.w #9,-(SP)
trap #1
addq.l #6,SP
;Pterm0
clr.w -(A7)
trap #1
Text
dc.b "Hello, world!",0
Assembly language — x86 DOS[edit]
; The output file is 22 bytes.
; 14 bytes are taken by "Hello, world!$
;
; Written by Stewart Moss - May 2006
; This is a .COM file so the CS and DS are in the same segment
;
; I assembled and linked using TASM
;
; tasm /m3 /zn /q hello.asm
; tlink /t hello.obj
.model tiny
.code
org 100h
main proc
mov ah,9 ; Display String Service
mov dx,offset hello_message ; Offset of message (Segment DS is the right segment in .COM files)
int 21h ; call DOS int 21h service to display message at ptr ds:dx
retn ; returns to address 0000 off the stack
; which points to bytes which make int 20h (exit program)
hello_message db 'Hello, world!$'
main endp
end main
Assembly language — x86 Windows[edit]
; This program displays "Hello, World!" in a windows messagebox and then quits.
;
; Written by Stewart Moss - May 2006
;
; Assemble using TASM 5.0 and TLINK32
;
; The output EXE is standard 4096 bytes long.
; It is possible to produce really small windows PE exe files, but that
; is outside of the scope of this demo.
.486p
.model flat,STDCALL
include win32.inc
extrn MessageBoxA:PROC
extrn ExitProcess:PROC
.data
HelloWorld db "Hello, world!",0
msgTitle db "Hello world program",0
.code
Start:
push MB_ICONQUESTION + MB_APPLMODAL + MB_OK
push offset msgTitle
push offset HelloWorld
push 0
call MessageBoxA
push 0
call ExitProcess
ends
end Start
Assembly language — x86-64 Linux, AT&T syntax[edit]
# The helloWorld.s file contains the source for a linux-x86_64 hello world
# example using the new 64 bit system call ABI.
# 2014 John Wassilak
#
# Compile with :
# as -o helloWorld.o helloWorld.s
# ld -e main -o helloWorld -s -Os helloWorld.o
.section .rodata # The rodata section contains the
# constants used by the program.
string: .ascii "Hello, world!\n" # The string constant contains the
# string to be printed.
length: .quad . - string # The length constant contains the
# length of the string constant.
.section .text # The text section contains the
# executable instructions of the
# program.
.globl main # Declare the main symbol as global so
# that the linker can see it.
main: # The main symbol is the entry point of
# the program.
mov $1, %rax # Move 1(sys_write) into rax.
mov $1, %rdi # Move 1(fd stdOut) into rdi.
mov $string, %rsi # Move the location of the string
# constant into rsi.
mov length, %rdx # Move the length of the string
# constant into rdx.
syscall # Print the string constant to stdOut by
# making a system call.
# written = sys_write(
# stdOut, string, length
# )
mov %rax, %rdi # Move the number of bytes written to
# rdi.
mov $60, %rax # Move 60(sys_exit) into rax.
syscall # Terminate the process, returning the
# number of bytes written by
# sys_write as the exit status.
# sys_exit(written)
Assembly language — x86-64 Unix-like operating systems, NASM syntax[edit]
; MacOS X: /usr/local/bin/nasm -f macho64 *.s && ld -macosx_version_min 10.7 *.o
; Solaris/FreeBSD/DragonFly: nasm -f elf64 -D UNIX *.s && ld *.o
; NetBSD: nasm -f elf64 -D UNIX -D NetBSD *.s && ld *.o
; OpenBSD: nasm -f elf64 -D UNIX -D OpenBSD *.s && ld -static *.o
; OpenIndiana: nasm -f elf64 -D UNIX *.s && ld -m elf_x86_64 *.o
; Linux: nasm -f elf64 *.s && ld *.o
%ifdef NetBSD
section .note.netbsd.ident
dd 7,4,1
db "NetBSD",0,0
dd 200000000 ; amd64 supported since 2.0
%endif
%ifdef OpenBSD
section .note.openbsd.ident
align 2
dd 8,4,1
db "OpenBSD",0
dd 0
align 2
%endif
section .text
%ifidn __OUTPUT_FORMAT__, macho64 ; MacOS X
%define SYS_exit 0x2000001
%define SYS_write 0x2000004
global start
start:
%elifidn __OUTPUT_FORMAT__, elf64
%ifdef UNIX ; Solaris/OI/FreeBSD/NetBSD/OpenBSD/DragonFly
%define SYS_exit 1
%define SYS_write 4
%else ; Linux
%define SYS_exit 60
%define SYS_write 1
%endif
global _start
_start:
%else
%error "Unsupported platform"
%endif
mov rax,SYS_write
mov rdi,1 ; stdout
mov rsi,msg
mov rdx,len
syscall
mov rax,SYS_exit
xor rdi,rdi ; exit code 0
syscall
section .data
msg db "Hello, world!",10
len equ $-msg
Assembly language — Z80[edit]
CR EQU $0D ; carriage return
PROUT EQU $xxxx ; character output routine
;
LD HL,MSG ; Point to message
;
PRLOOP LD A,(HL) ; read byte from message
AND A ; set zero flag from byte read
RET Z ; end of text if zero
CALL PROUT ; output char
INC HL ; point to next char
JR PRLOOP ; repeat
;
MSG DB "Hello, world!",CR,0
;
For TI 83, TI 83+, TI 83+SE, TI 84+, and TI 84+SE calculators:
.NOLIST
#include "ti83plus.inc"
.LIST
.org $9D93
.db $BB,$6D
ld a,0 ; load the value 0 to register a, the ''accumulator''
ld ($844C),a ; assign the contents of register a to memory address (CURCOL) in the RAM
ld ($844B),a ; assign the contents of register a to memory address (CURROW) in the RAM
ld hl,text ; load the data in label "text" to register hl
rst $28
.dw $450A ; calls a function in the calculator's rom to print text
rst $28
.dw $452E ; calls a function to insert a lnbreak (for legibility)
ret ; returns from the program to the calc's OS
text:
.db "Hello, World",0
.end
end
And in pure hex:
219F9D EF0A45 EF2E45 C9 48692100
AutoHotkey[edit]
Msgbox, Hello, world!
Traytip,, Hello, world!
AutoIt[edit]
#include <MsgBoxConstants.au3>
Msgbox($MB_ICONINFORMATION, "", "Hello, world!")
AWK[edit]
BEGIN { print "Hello, world!" }
Axe Parser — TI-83/TI-84 plus and SE[edit]
ClrHome Disp "HELLO, WORLD!" Return
Backbone.js[edit]
<!DOCTYPE html>
<html>
<head>
<meta charset="utf-8">
<title>hello-backbonejs</title>
</head>
<body>
<script src="http://code.jquery.com/jquery-1.11.0.js"></script>
<script src="https://raw.githubusercontent.com/douglascrockford/JSON-js/master/json2.js"></script>
<script src="http://underscorejs.org/underscore.js"></script>
<script src="http://backbonejs.org/backbone.js"></script>
<script>
(function($){
var MyView = Backbone.View.extend({
initialize: function(){
this.render();
},
render: function(){
$('body').append("<h4>hello world</h4>");
}
});
var myView = new MyView();
})(jQuery);
</script>
<div>test</div>
</body>
</html>
BASH[edit]
echo "Hello World"
BASIC[edit]
PRINT "Hello, world!"
Batch File[edit]
@echo Hello, world!
BCPL[edit]
GET "LIBHDR"
LET START() BE
$(
WRITES("Hello, world!*N")
$)
BennuGD[edit]
import "mod_say"
Process Main()
Begin
say("Hello World!");
End
Befunge[edit]
>25*"!dlrow ,olleH":v
v:,_@
> ^
Boo[edit]
print "Hello World!"
brainfuck[edit]
+++++ +++++ initialize counter (cell #0) to 10
[ use loop to set the next four cells to 70/100/30/10/40
> +++++ ++ add 7 to cell #1
> +++++ +++++ add 10 to cell #2
> +++ add 3 to cell #3
> + add 1 to cell #4
> ++++ add 4 to cell #5
<<<<< - decrement counter (cell #0)
]
> ++ . print 'H'
> + . print 'e'
+++++ ++ . print 'l'
. print 'l'
+++ . print 'o'
>>> ++++ . print ','
<< ++ . print ' '
< +++++ +++ . print 'w'
----- --- . print 'o'
+++ . print 'r'
----- - . print 'l'
----- --- . print 'd'
> + . print '!'
> . print '\n'
==
#include <stdio.h>
main()
{
printf("Hello, world!\n");
}
C++[edit]
#include <iostream>
int main()
{
std::cout << "Hello, world!\n";
}
C++/CLI[edit]
using namespace System;
int main(array<System::String ^> ^args)
{
Console::WriteLine(L"Hello World");
return 0;
}
C++/CX[edit]
#include "stdafx.h"
#using <Platform.winmd>
using namespace Platform;
[MTAThread]
int main(Array<String^>^ args)
{
String^ message("Hello World!");
Details::Console::WriteLine(message);
}
C++/Qt[edit]
#include <QCoreApplication>
#include <QDebug>
int main(int argc, char *argv[])
{
QCoreApplication a(argc, argv);
qDebug() << "Hello World!";
return a.exec();
}
Via a GUI QLabel widget:
#include <QApplication>
#include <QLabel>
int main(int argc, char *argv[])
{
QApplication a(argc, argv);
QLabel label( "Hello World!" );
label.show();
return a.exec();
}
Via a GUI static QMessageBox dialog:
#include <QApplication>
#include <QMessagebox>
int main(int argc, char *argv[])
{
QApplication a(argc, argv);
QMessageBox::information( NULL, "Hello World!", "Hello World!" );
return a.exec();
}
C#[edit]
In a console or terminal:
using System;
class Program
{
public static void Main(string[] args)
{
Console.WriteLine("Hello, world!");
}
}
Via a GUI message box:
using System.Windows.Forms;
class Program
{
public static void Main(string[] args)
{
MessageBox.Show("Hello, World!");
}
}
Caché ObjectScript[edit]
w "Hello, World!"
Casio BASIC[edit]
"HELLO, WORLD!"
Ceylon[edit]
void hello() {
print("Hello, World!");
}
Clipper[edit]
? "Hello World"
Clojure[edit]
Console version:
(println "Hello, world!")
GUI version:
(javax.swing.JOptionPane/showMessageDialog nil "Hello, world!")
COBOL[edit]
IDENTIFICATION DIVISION.
PROGRAM-ID. HELLO-WORLD.
PROCEDURE DIVISION.
DISPLAY 'Hello, world!'.
STOP RUN.
CoffeeScript[edit]
To display an alert dialog box:
alert 'Hello, world!'
To write to a console or debugging log:
console.log 'Hello, world!'
COMAL-80[edit]
10 PRINT "Hello, world!"
Common Intermediate Language[edit]
.assembly Hello {}
.assembly extern mscorlib {}
.method static void Main()
{
.entrypoint
.maxstack 1
ldstr "Hello, world!"
call void [mscorlib]System.Console::WriteLine(string)
call string[mscorlib]System.Console::ReadKey(true)
pop
ret
}ColdFusion Markup Language (CFML)[edit]
CF Script:
<cfscript>
variables.greeting = "Hello, world!";
WriteOutput( variables.greeting );
</cfscript>
CFML Tags:
<cfset variables.greeting = "Hello, world!">
<cfoutput>#variables.greeting#</cfoutput>
==
import std.stdio;
void main()
{
writeln("Hello, world!");
}
Dart[edit]
main() {
print('Hello, world!');
}
DCL[edit]
WRITE SYS$OUTPUT "Hello, world!"
Delphi[edit]
program HelloWorld;
begin
Writeln('Hello, world!');
end.
==
println("Hello, world!")Eiffel[edit]
class
HELLO_WORLD
create
make
feature
make
do
print ("Hello, world!%N")
end
end
(message "Hello, World!")
</syntaxhighlight>
Euphoria[edit]
puts(1,"Hello World")Erlang[edit]
io:format("~s~n", ["Hello, world!"])
Ezhil[edit]
பதிப்பி "உலகே வணக்கம்"
F#[edit]
printfn "Hello, world!"
Falcon[edit]
printl( "Hello, world!" )or
> "Hello, world!"Filemaker[edit]
#Hello World using Filemaker Pro Show Custom Dialog ["Hello, world" ; "Hello, world"]
Flowgorithm[edit]
Forth[edit]
." Hello, world! "Fortran[edit]
Fortran 90 and later:
program hello
write(*,*) 'Hello, world!'
end program hello
OR
program hello
print *, 'Hello, world!'
end program hello
FORTRAN 77 and prior; also accepted in Fortran 90 and later:
PROGRAM HELLO
WRITE(*,*) 'Hello, world!'
END
OR
PROGRAM HELLO
PRINT *, 'Hello, world!'
END
FreeBASIC[edit]
print "Hello, world!"
Frost[edit]
import "io.frost";
main:args {
[print string:"Hello, world!\n" format:{}];
}
Go[edit]
package main
func main() {
println("Hello, world!")
}
Groovy[edit]
println "Hello, world!"
GraalScript 2[edit]
function onCreated() {
echo("Hello, world!");
}
Haskell[edit]
main = putStrLn "Hello, world!"
Haxe[edit]
class Test {
static function main() {
trace("Hello World !");
}
}
HTML[edit]
<!DOCTYPE html>
<html>
<head></head>
<body>
<p>Hello, world!</p>
</body>
</html>
HOP[edit]
(define-service (hello-world)
(<HTML>
(<HEAD>
(<TITLE> "Hello, world!"))
(<BODY>
"Hello, world!")))
IDL[edit]
print, "Hello, world!"
end
INTERCAL[edit]
DO ,1 <- #13
PLEASE DO ,1 SUB #1 <- #238
DO ,1 SUB #2 <- #108
DO ,1 SUB #3 <- #112
DO ,1 SUB #4 <- #0
DO ,1 SUB #5 <- #64
DO ,1 SUB #6 <- #194
DO ,1 SUB #7 <- #48
PLEASE DO ,1 SUB #8 <- #22
DO ,1 SUB #9 <- #248
DO ,1 SUB #10 <- #168
DO ,1 SUB #11 <- #24
DO ,1 SUB #12 <- #16
DO ,1 SUB #13 <- #162
PLEASE READ OUT ,1
PLEASE GIVE UPIo[edit]
"Hello, world!" println
ISLISP[edit]
(format (standard-output) "Hello, world!")
Inform7[edit]
when play begins, say "Hello World!"
==
'Hello, world!'
Java[edit]
In console:
public class HelloWorld {
public static void main(String[] args) {
System.out.println("Hello, world!");
}
}
or in window with Swing:
import javax.swing.JFrame; //Importing class JFrame
import javax.swing.JLabel; //Importing class JLabel
public class HelloWorld {
public static void main(String[] args) {
JFrame frame = new JFrame(); //Creating frame
frame.setTitle("Hi!"); //Setting title frame
frame.add(new JLabel("Hello, world!"));//Adding text to frame
frame.pack(); //Setting size to smallest
frame.setLocationRelativeTo(null); //Centering frame
frame.setVisible(true); //Showing frame
}
}
or in dialog:
import javax.swing.JOptionPane;
public class HelloWorld {
public static void main(String[] args) {
JOptionPane.showMessageDialog(null, "Hello, world!");
}
}
Test-Driven Development with Java[edit]
Best-practice coding now involves writing the automated test before the code. The test is coded, the test may be demonstrated to fail, code is then added and corrected until the test passes.
import static org.junit.Assert.assertEquals;
import java.io.ByteArrayOutputStream;
import java.io.PrintStream;
import org.junit.Test;
public class HelloWorldTest {
@Test
public void sayHelloWorld() {
ByteArrayOutputStream outContent = captureSystemOut();
HelloWorld.say();
assertEquals("Hello, World!", outContent.toString());
}
ByteArrayOutputStream captureSystemOut() {
ByteArrayOutputStream outContent = new ByteArrayOutputStream();
System.setOut(new PrintStream(outContent));
return outContent;
}
}
Then the simplest program to make the test pass is written.
public class HelloWorld {
public static void say() {
System.out.print("Hello, World!");
}
}
JavaScript[edit]
To write to a console or debugging log:
console.log('Hello, world!');
To display an alert dialog box:
alert('Hello, world!');
To write to an HTML document:
document.write('Hello, world!');
Using Mozilla's Rhino:
print('Hello, world!');
Julia[edit]
println("Hello world!")
Leet[edit]
Gr34t l33tN3$$?
M3h...
iT 41n't s0 7rIckY.
l33t sP33k is U8er keWl 4nD eA5y wehn u 7hink 1t tHr0uGh.
1f u w4nn4be UB3R-l33t u d3f1n1t3lY w4nt in 0n a b4d4sS h4xX0r1ng s1tE!!! ;p
w4r3Z c0ll3cT10n2 r 7eh l3Et3r!
Qu4k3 cL4nS r 7eh bE5t tH1ng 1n teh 3nTIr3 w0rlD!!!
g4m3s wh3r3 u g3t to 5h00t ppl r 70tAl1_y w1cK1d!!
I'M teh fr4GM4stEr aN I'lL t0t41_1Ly wIpE teh phr34k1ng fL00r ***j3d1 5tYlE*** wItH y0uR h1dE!!!! L0L0L0L!
t3lEphR4gG1nG l4m3rs wit mY m8tes r34lLy k1kK$ A$$
l33t hAxX0r$ CrE4t3 u8er- k3wL 5tUff lIkE n34t pR0gR4mm1nG lAnguidGe$...
s0m3tIm3$ teh l4nGu4gES l00k jUst l1k3 rE41_ 0neS 7o mAkE ppl Th1nk th3y'r3 ju$t n0rMal lEE7 5pEEk but th3y're 5ecRetLy c0dE!!!!
n080DY unDer5tAnD$ l33t SpEaK 4p4rT fr0m j3d1!!!!!
50mE kId 0n A me$$4gEb04rD m1ghT 8E a r0xX0r1nG hAxX0r wH0 w4nT2 t0 bR34k 5tuFf, 0r mAyb3 ju5t sh0w 7eh wAy5 l33t ppl cAn 8E m0re lIkE y0d4!!! hE i5 teh u8ER!!!!
1t m1ght 8E 5omE v1rus 0r a Pl4ySt4tI0n ch34t c0dE.
1t 3v3n MiTe jUs7 s4y "H3LL0 W0RLD!!!" u ju5t cAn'T gu3s5.
tH3r3's n3v3r anY p0iNt l00KiNg sC3pT1c4l c0s th4t, be1_1Ev3 iT 0r n0t, 1s whAt th1s 1s!!!!!
5uxX0r5!!!L0L0L0L0L!!!!!!!
Linden Scripting Language[edit]
default
{
state_entry()
{
llSay(0, "Hello, world!");
}
}Lisp[edit]
(princ "Hello, world!")
Logo[edit]
print [Hello, world!]
LOLCODE[edit]
HAI
CAN HAS STDIO?
VISIBLE "HAI WORLD!"
KTHXBYELua[edit]
print("Hello, world!")
M4[edit]
Hello, world!
Malbolge[edit]
('&%:9]!~}|z2Vxwv-,POqponl$Hjig%eB@@>}=<M:9wv6WsU2T|nm-,jcL(I&%$#"
`CB]V?Tx<uVtT`Rpo3NlF.Jh++FdbCBA@?]!~|4XzyTT43Qsqq(Lnmkj"Fhg${z@>
Mathematica[edit]
Print["Hello, world!"]
Maple[edit]
print(`Hello, world!`);
MATLAB[edit]
disp('Hello, world!')
Miranda[edit]
mira helloWorld.m
|| Start the editor
/edit
|| Type the following text
output = "Hello, world!\n"
|| Save and quit the Editor e.g. <Esc>:x
|| then enter at the "Miranda" prompt:
output
/quit
mIRC Script[edit]
echo -a Hello, world!Modula-2[edit]
MODULE Hello;
FROM STextIO IMPORT WriteString;
BEGIN
WriteString("Hello World!");
END Hello.
MUMPS[edit]
w "Hello, world!"
Oberon[edit]
MODULE Hello;
IMPORT Out;
BEGIN
Out.String("Hello, world!");
Out.Ln
END Hello.
Obix[edit]
system.console.write_line ( "Hello, world!" )
Objective-C[edit]
#import <stdio.h>
#import <Foundation/Foundation.h>
int main(void)
{
NSLog(@"Hello, world!\n");
return 0;
}
Otherwise (by gcc on pre-OpenStep or Apple Object based runtime):
#import <stdio.h>
#import <objc/Object.h>
@interface Hello: Object
- (void) say;
@end
@implementation Hello
- (void) say {
printf("Hello, world!\n");
}
@end
int main() {
Hello *hello = [Hello new];
[hello say];
[hello free];
return 0;
}
Pre-Modern (post-1994 OpenStep based Foundation APIs:
@interface Hello:NSObject
- (void) say;
@end
@implementation Hello
- (void) say {
NSLog(@"Hello, world!");
}
@end
int main(int argc, char *argv[])
{
NSAutoreleasePool *p = [[NSAutoreleasePool alloc] init];
Hello *hello = [Hello new];
[hello say];
[hello release];
[p release];
return 0;
}
Modern (llvm, ARC memory management):
@interface Hello:NSObject
- (void) say;
@end
@implementation Hello
- (void) say {
NSLog(@"Hello, world!");
}
@end
int main(int argc, char *argv[])
{
@autoreleasepool {;
[[Hello new] say];
}
return 0;
}
OCaml[edit]
print_endline "Hello, world!"
Opa[edit]
A "hello world" web server:
Server.start(Server.http,
{ title: "Hello, world!",
page: function() { <>Hello, world!</> } })
OpenEdge Advanced Business Language (PROGRESS)[edit]
DISPLAY "Hello World!".
Oriel[edit]
MessageBox(OK, 1, INFORMATION, "Hello, world!", "Oriel Says Hello", ResponseValue)
Oz[edit]
{Show 'Hello World'}
Pascal[edit]
program HelloWorld;
begin
WriteLn('Hello, world!');
end.
Pawn[edit]
main()
{
print("Hello, world!");
}
Perl 5[edit]
print "Hello, world!\n";
Or
use v5.10;
say 'Hello, world!';
PHP[edit]
<?php echo 'Hello, world!'; ?>
or
<?php print ('Hello, world!'); ?>
or
<?= 'Hello, world!' ?>
or
Hello world
This works because php will echo by default
PL/SQL[edit]
SET SERVEROUTPUT ON;
BEGIN
DBMS_OUTPUT.PUT_LINE('Hello, world!');
END;
PostScript[edit]
%!PS /Courier 72 selectfont 20 20 moveto (Hello World!) show showpage
PowerShell[edit]
'Hello, world!'
Processing[edit]
void setup(){
println("Hello, world!");
}
Prolog[edit]
main :- write('Hello, world!'), nl.
Python[edit]
Python 2:
print "Hello, world!"
Python 3:
print("Hello, world!")
Python IDLE:
"Hello, world!"
Qalb (قلب)[edit]
(قول "مرحبا يا عالم!")
==
cat('Hello, world!\n')
Racket[edit]
Trivial "hello world" program:
"Hello, world!"
Running this program produces "Hello, world!". More direct version:
#lang racket
(display "Hello, world!")
A "hello world" web server using Racket's web-server/insta language:
#lang web-server/insta
(define (start request) (response/xexpr '(html (body "Hello, world"))))
In Scribble, Racket's documentation language:
Hello, world!
Rebol[edit]
print "Hello, world!"
Red[edit]
Red [
Title: "Simple hello world script"
]
print "Hello World!"
REXX[edit]
say Hello, world!
RPL[edit]
<< "Hello, world!" MSGBOX >>
RPG (free-format)[edit]
/free dsply 'Hello, world!'; *inlr = *on; /end-free
RTL/2[edit]
TITLE Hello, world!;
LET NL=10;
EXT PROC(REF ARRAY BYTE) TWRT;
ENT PROC INT RRJOB();
TWRT("Hello, world!#NL#");
RETURN(1);
ENDPROC;
Ruby[edit]
puts "Hello, world!"
Rust[edit]
fn main() {
println!("Hello, world!");
}
Scala[edit]
object HelloWorld extends App {
println("Hello, world!")
}
or
object HelloWorld {
def main(args : Array[String]) {
println("Hello, world!")
}
}
Scheme[edit]
(display "Hello, world!")
Scratch[edit]
Sed[edit]
# convert input text stream to "Hello, world!"
s/.*/Hello, world!/
q
Shell[edit]
echo Hello, world!
SimpleC[edit]
OUT<"Hello, world!"
Simula[edit]
Begin
OutText ("Hello, world!");
Outimage;
End;
Small Basic[edit]
TextWindow.WriteLine("Hello, World!")
Smalltalk[edit]
Transcript show: 'Hello, world!'.
SmileBASIC[edit]
?"Hello, world!
or
PRINT "Hello, world!"
SNOBOL[edit]
OUTPUT = 'Hello, world!' END
Speakeasy[edit]
As an interactive statement :
"Hello, world!"
As a program :
program hello "Hello, world!" end
SQL[edit]
SELECT 'Hello, world!' FROM DUMMY; -- DUMMY is a standard table in SAP HANA.
SELECT 'Hello, world!' FROM DUAL; -- DUAL is a standard table in Oracle.
SELECT 'Hello, world!' -- Works for SQL Server, Microsoft Access, PostgreSQL and MySQL.
Stata[edit]
display "Hello, world!"
Swift[edit]
println("Hello, world!")
Tcl[edit]
puts "Hello, world!"
TI-BASIC[edit]
PROGRAM:HELLOWLD :ClrHome :Disp "HELLO, WORLD!"
or
PROGRAM:HELLOWLD :ClrDraw :Output(1,1,"HELLO, WORLD!") :DispGraph
For m68k calculators:
hellowld() :Prgm : ClrIO : Disp "HELLO, WORLD!" :EndPrgm
For Ti Nspire/CAS:
text"HELLO, WORLD!"
For Ti Nspire CX:
text "HELLO, WORLD!"
or
Disp "HELLO, WORLD"
Turing[edit]
put "Hello World!"
TypeScript[edit]
class Greeter {
constructor(public greeting: string) { }
greet() {
return "<h1>" + this.greeting + "</h1>";
}
};
var greeter = new Greeter("Hello, world!");
var str = greeter.greet();
document.body.innerHTML = str;
UnrealScript[edit]
Log("Hello, world!");
Vala[edit]
void main ()
{
print ("Hello, world!\n");
}
VBScript[edit]
MsgBox("Hello, World!")
Verilog[edit]
module hello();
initial begin
$display("Hello, world!");
$finish;
end
endmodule
VHDL[edit]
entity hello_world is
end entity;
architecture behavior of hello_world is
begin
PROCESS
begin
report "Hello, world!";
end PROCESS;
end architecture;
Visual Basic[edit]
MsgBox "Hello, world!"
Visual Basic .NET[edit]
In a console or terminal window:
Module Module1
Sub Main()
Console.WriteLine("Hello, world!")
End Sub
End Module
In a message box:
Module Module1
Sub Main()
MsgBox("Hello, world!")
End Sub
End Module
XSLT[edit]
<?xml version='1.0' encoding="ISO-8859-1"?>
<xsl:stylesheet xmlns:xsl='http://www.w3.org/1999/XSL/Transform' version='1.0' >
<xsl:output method="text"/>
<xsl:template match="/">
<xsl:text>Hello World</xsl:text>
</xsl:template>
</xsl:stylesheet>
Zebra[edit]
^XA^LH30,30
^FO20,10^ADN,90,50^AD^FDHello, World!^FS
^XZ
- ^ "Assembler". NTECS Consulting. Archived from the original on 6 January 2014. Retrieved 30 March 2014.
- ^ "x86-64 assembly on Linux - syscalls". callumscode. Archived from the original on 29 August 2013. Retrieved 20 May 2014.
- ^ "Linux System Call Table for x86_64". blog.rchapman. Archived from the original on 13 November 2013. Retrieved 20 May 2014.
- ^ Stroustrup, Bjarne (2000). The C++ Programming Language (Special ed.). Addison-Wesley. p. 46. ISBN 0-201-70073-5.
- ^ Stroustrup, Bjarne. "Open issues for The C++ Programming Language (3rd Edition)". This code is copied directly from Bjarne Stroustrup's errata page (p. 633). He addresses the use of
'\n'rather thanstd::endl. Also see Can I write "void main()"? for an explanation of the implicitreturn 0;in themainfunction. This implicit return is not available in other functions.{{cite web}}: External link in|postscript=|postscript=at position 156 (help)CS1 maint: postscript (link)