Halt and catch fire
You are encouraged to solve this task according to the task description, using any language you may know.
- Task
Create a program that crashes as soon as possible, with as few lines of code as possible. Be smart and don't damage your computer, ok?
The code should be syntactically valid. It should be possible to insert [a subset of] your submission into another program, presumably to help debug it, or perhaps for use when an internal corruption has been detected and it would be dangerous and irresponsible to continue.
- References
- Related Tasks
11l
<lang 11l>assert(0B)</lang>
6502 Assembly
Upon executing this byte as code, the processor will halt. No interrupts can occur either. This does not occur on 65c02-based hardware such as the Apple II or Atari Lynx. <lang 6502asm> db $02</lang>
This version works on all 6502 models: <lang 6502asm>forever: jmp forever</lang>
This code is often written as JMP $
which means the same thing. (In addition to the hexadecimal token, $ can refer to the value of the program counter at that instruction's address.
8080 Assembly
<lang 8080asm>di hlt</lang>
8086 Assembly
Disabling interrupts prior to a HLT
command will cause the CPU to wait forever.
<lang asm>cli
hlt</lang>
68000 Assembly
The 68000 can only read words or longs at even addresses. Attempting to do so at an odd address will crash the CPU. <lang 68000devpac>CrashBandicoot equ $100001 LEA CrashBandicoot,A0 MOVE.W (A0),D0</lang>
Ada
<lang Ada>procedure Halt_And_Catch_Fire is begin
raise Program_Error with "Halt and catch fire";
end Halt_And_Catch_Fire;</lang>
- Output:
raised PROGRAM_ERROR : Halt and catch fire
ALGOL 68
This program will crash immediately on startup. <lang algol68>( print( ( 1 OVER 0 ) ) )</lang>
ALGOL W
This won't halt the CPU but the program will crash immediately on startup. <lang algolw>assert false.</lang>
Arturo
<lang rebol>0/0</lang>
- Output:
>> Runtime | File: halt and catch fire.art error | Line: 1 | | uncaught system exception: | division by zero
AWK
<lang AWK>
- syntax: GAWK -f HALT_AND_CATCH_FIRE.AWK
- This won't halt the CPU but the program will crash immediately on startup
- with "error: division by zero attempted".
BEGIN { 1/0 }
- This will heat up the CPU, don't think it will catch on fire.
BEGIN { while(1) {} }
- Under TAWK 5.0 using AWKW will immediately abort.
BEGIN { abort(1) } </lang>
- Output:
gawk: C:\AWK\HALT_AND_CATCH_FIRE.AWK:5: error: division by zero attempted
C
<lang c>int main(){int a=0, b=0, c=a/b;}</lang>
C++
Use an unhandled exception to crash the program. <lang cpp>#include <stdexcept> int main() {
throw std::runtime_error("boom");
}</lang>
- Output:
terminate called after throwing an instance of 'std::runtime_error' what(): boom
The output depends on the compiler and platform but should be similar.
C#
This throws a DivideByZeroException at runtime.
<lang csharp>int a=0,b=1/a;</lang>
This will throw a compile-time exception, so technically not a valid solution.
<lang csharp>int a=1/0;</lang>
This one-liner also works
<lang csharp>throw new System.Exception();</lang>
Computer/zero Assembly
<lang 6502asm>STP</lang>
Crystal
<lang crystal>raise "fire"</lang>
F#
<lang fsharp> 0/0 </lang>
- Output:
[ERROR] FATAL UNHANDLED EXCEPTION: System.DivideByZeroException: Attempted to divide by zero. exit status 1
Factor
REPL
Causing a stack underflow is trivial; just call any word that expects arguments with an empty data stack. <lang factor>+</lang>
- Output:
Data stack underflow
script
This crashes because Factor expects the data stack to be empty at the end of a program. However, it is not here. <lang factor>1</lang>
- Output:
Quotation's stack effect does not match call site quot [ 1 ] call-site ( -- ) (U) Quotation: [ c-to-factor => ] Word: c-to-factor (U) Quotation: [ [ (get-catchstack) push ] dip call => (get-catchstack) pop* ] (O) Word: command-line-startup (O) Word: run (O) Word: load-vocab (O) Method: M\ vocab (require) (O) Word: load-source (O) Word: wrong-values (O) Method: M\ object throw (U) Quotation: [ OBJ-CURRENT-THREAD special-object error-thread set-global current-continuation => error-continuation set-global [ original-error set-global ] [ rethrow ] bi
deployed
When deploying as a standalone executable, a main word and vocabulary must be declared. The stack effect checker must be satisfied, so we can't rely on either of the tricks used before. Therefore die
is called instead.
<lang factor>USE: kernel IN: a : b ( -- ) die ; MAIN: b</lang>
- Output:
You have triggered a bug in Factor. Please report. critical_error: The die word was called by the library.: 0 Starting low level debugger... Basic commands: q ^Z -- quit Factor c -- continue executing Factor - NOT SAFE t -- throw exception in Factor - NOT SAFE .s .r .c -- print data, retain, call stacks help -- full help, including advanced commands >
FALSE
Any function with the exception of ^
(read from stdin) or ß
(flush stdin) will cause a stack underflow.
<lang false>.</lang>
Alternatively, the FALSE interpreter expects the stack to be empty at the end of the program's execution, and so leaving a value on the stack is also a valid strategy for crashing the program. <lang false> 0</lang>
Fermat
Defines, then calls, a function with no parameters that calls itself. A segfault occurs. <lang fermat>Func S=S. S;</lang> This alternative is five bytes longer but crashes more thoroughly; after a warning about end of line inside a string literal it locks my computer up for a good 2-3 minutes before exiting to the command prompt. <lang fermat>while 1 do !' od;</lang>
FreeBASIC
Instant segfault. <lang freebasic>poke 0,0</lang> This alternative crashes the compiler. <lang freebasic>#define A() B()
- define B() A()
A()</lang>
Go
This wouldn't survive go fmt which would stretch it out to 5 lines. However, that's not compulsory and the task says do it in as few lines as possible.
<lang go>package main; import "fmt"; func main(){a, b := 0, 0; fmt.Println(a/b)}</lang>
An alternative shorter line would be:
<lang go>package main; func main(){panic(0)}</lang>
GW-BASIC
<lang gwbasic>0 gosub 0</lang>
Haskell
An alternative to the following is to use undefined. <lang haskell>main = error "Instant crash"</lang>
Julia
To crash the running program:
<lang julia>@assert false "Halt and catch fire."</lang>
- Output:
ERROR: AssertionError: Halt and catch fire.
To crash the LLVM virtual machine running Julia with Exception: EXCEPTION_ILLEGAL_INSTRUCTION: <lang julia>unsafe_load(convert(Ptr{Int}, C_NULL))</lang>
Liberty BASIC
This is just one possibility. <lang lb>Let</lang>
Lua
Tricks could be used to shorten this, particularly from interactive REPL, where -_
would be enough (i.e., attempt arithmetic on a nil global), or from a file _()
would be enough (i.e., attempt to call a nil global). This instead focuses on the "be useful elsewhere" aspect of the task, because both seem short-enough as-is:
<lang lua>error(1)</lang>
- Output:
1 stack traceback: [C]: in function 'error' stdin:1: in main chunk [C]: in ?
Or: <lang lua>assert(false)</lang>
- Output:
stdin:1: assertion failed! stack traceback: [C]: in function 'assert' stdin:1: in main chunk [C]: in ?
Nim
One possibility: <lang Nim>assert false</lang>
Another solution with the same number of characters (we could also use mod
instead of div
):
<lang>echo 1 div 0</lang>
Pascal
Do an illegal memory access at $0
<lang pascal>begin pByte($0)^ := 0 end.</lang>
- Output:
Runtime error 216 at $0000000000401098
Perl
This is not a syntax error, it is a fatal run time error. See "perldoc perldiag". <lang perl>&a</lang>
- Output:
Undefined subroutine &main::a called at line 1.
PL/M
This will terminate the program by restarting CP/M. <lang plm>100H: GOTO 0; EOF</lang>
Phix
I normally and quite often just use this:
?9/0
The ? means print and/but obviously the 9/0 triggers a fatal error before it gets that far.
- Output:
C:\Program Files (x86)\Phix\test.exw:1 attempt to divide by 0 Global & Local Variables --> see C:\Program Files (x86)\Phix\ex.err Press Enter...
Alternatives include crash("some message") which produces similar output, and abort(n) which is somewhat quieter with abort(0) meaning (immediately) terminate normally without an error. All of those can be caught by try/catch: should you want to get properly brutal and defeat any active exception handler you can/must resort to inline assembly:
try #ilASM{ [PE32] push 1 -- uExitCode call "kernel32","ExitProcess" [PE64] sub rsp,8*5 mov rcx,1 -- uExitCode call "kernel32","ExitProcess" [ELF32] xor ebx, ebx mov eax, 1 -- SYSCALL_EXIT int 0x80 [ELF64] mov rax,231 -- sys_exit_group(rdi=int error_code) xor rdi,rdi syscall } catch e ?e end try
No output, the try/catch is just for show. ExitProcess/sys_exit are the only non-catchable things I know of, apart from a few other deliberates such as quitting the debugger, and aside from being technically difficult to catch it seems reasonable to classify them as direct actions rather than errors, and that way excuse the non-catchableness.
(I suppose [ok, actually know that] you could also write inline assembly that fubars the call stack to [effectively or quite deliberately] disable any active exception handler[s])
Python
<lang Python>0/0</lang>
- Output:
Traceback (most recent call last): File "<stdin>", line 1, in <module> ZeroDivisionError: division by zero
Quackery
Ripping lumps out of core definitions will do the trick.
> quackery Welcome to Quackery. Enter "leave" to leave the shell. Building extensions. /O> ' tuck take ... Quackery system damage detected. Python reported: maximum recursion depth exceeded
Raku
<lang perl6>++8</lang> Syntactically: Valid.
Semantically: Change the mathematical concept of 8 to 9, either in your whole computer, or maybe the whole universe.
Fails with this run-time error:
- Output:
Cannot resolve caller prefix:<++>(Int:D); the following candidates match the type but require mutable arguments: (Mu:D $a is rw) (Int:D $a is rw --> Int:D) The following do not match for other reasons: (Bool $a is rw) (Mu:U $a is rw) (Num:D $a is rw) (Num:U $a is rw) (int $a is rw --> int) (num $a is rw --> num) in block <unit> at -e line 1
Alternately, and perhaps more community condoned, to end the program as soon as possible without trying to change the Laws of the Universe, you could just enter: <lang perl6>die</lang>
- In REPL:
Died in block <unit> at <unknown file> line 1
Same character count, exits the program as soon as possible (though trappable if desired through the exception system,) and it looks more like an intentional act rather than a typo. Plus, you can add a message that will be added when it dies to explain why.
Here is a silly alternative : A standalone Unicode counterpart for the yada yada yada operator takes up 3 code units but visually just a single codepoint,
- Output:
cat test.raku ; wc test.raku … 1 1 4 test.raku raku -c test.raku ; echo $? Syntax OK 0 raku test.raku ; echo $? Stub code executed in block <unit> at test.raku line 1 1
However when I tried to combine all to test against the Test module, the last one somehow lived through an EVAL,
<lang perl6>use Test;
dies-ok { ++8 }; dies-ok { die }; dies-ok { … };
eval-dies-ok '++8'; eval-dies-ok 'die'; eval-dies-ok '…' ;</lang>
- Output:
ok 1 - ok 2 - ok 3 - ok 4 - ok 5 - not ok 6 - # Failed test at all.raku line 11
so it is indeed at one's discretion whether this one is qualified as a crasher.
REXX
Version 1
<lang rexx>_=1;_+=</lang>
There is no output shown in the DOS window. This REXX program (using Regina REXX) also crashes the Microsoft DOS window (application). ooRexx shows this: H:\>rexx c2 1 *-* _+= Error 35 running H:\c2.rex line 1: Invalid expression. Error 35.918: Missing expression following assignment instruction.
Version 2
one statement is enough <lang rexx>_+=1</lang>
H:\>regina crash 1 +++ _+=1 Error 41 running "H:\crash.rex", line 1: Bad arithmetic conversion Error 41.1: Non-numeric value ("_") to left of arithmetic operation "+=" H:\>rexx crash 1 *-* _+=1 Error 41 running H:\crash.rex line 1: Bad arithmetic conversion. Error 41.1: Nonnumeric value ("_") used in arithmetic operation.
Version 3
even shorter <lang rexx>+</lang>
H:\>rexx crash 1 *-* + Error 35 running H:\crash.rex line 1: Invalid expression. Error 35.901: Prefix operator "+" is not followed by an expression term. H:\>regina crash Error 35 running "H:\crash.rex", line 1: Invalid expression Error 35.1: Invalid expression detected at "
Ring
<lang ring> try
see 5/0
catch
see "Catch!" + nl + cCatchError
done </lang>
- Output:
Catch! Error (R1) : Can't divide by zero !
Ruby
<lang ruby> raise </lang>
- Output:
1:in `<main>': unhandled exception
Rust
Rust provides the panic! macro for stopping execution when encountering unrecoverable errors. This results in a crash, rather than a normal exit. <lang rust> fn main(){panic!("");} </lang>
- Output:
thread 'main' panicked at '', src\main.rs:1:12 note: run with `RUST_BACKTRACE=1` environment variable to display a backtrace
Swift
Swift provides a built-in function whose sole purpose is to stop execution in the event of unrecoverable errors. This is different from the standard exit function, as it causes an actual trap (i.e. program crash). As such, it uses the special return value of Never
, which allows it to be used in returns that normally expect another type.
<lang swift>fatalError("You've met with a terrible fate, haven't you?")</lang>
- Output:
$ ./.build/x86_64-apple-macosx/release/Runner Runner/main.swift:11: Fatal error: You've met with a terrible fate, haven't you? Illegal instruction: 4
Tiny BASIC
<lang tinybasic>0 gosub 0</lang>
Vlang
<lang vlang>fn main() { panic(0) }</lang>
Wren
<lang ecmascript>Fiber.abort("")</lang>
XBS
Calling the error function in the standard library should stop all running code. <lang xbs>error("Crashed");</lang>
- Output:
{XBS}: CodeError: Crashed
XPL0
This overflows the stack. It gives a "Segmentation fault" under Raspberry Pi OS, and just hangs (in some cases such that Ctrl+Alt+Del doesn't even work) under MS-DOS. <lang XPL0>proc Recurse; Recurse; Recurse</lang>
Z80 Assembly
The CPU will halt and will require a reset. (Earlier there was a mention that the Game Boy is different in this regard - that was an error; it is not.) <lang z80>di halt</lang>
- Programming Tasks
- Solutions by Programming Task
- Simple
- 11l
- 6502 Assembly
- 8080 Assembly
- 8086 Assembly
- 68000 Assembly
- Ada
- ALGOL 68
- ALGOL W
- Arturo
- AWK
- C
- C++
- C sharp
- Computer/zero Assembly
- Crystal
- F Sharp
- Factor
- FALSE
- Fermat
- FreeBASIC
- Go
- GW-BASIC
- Haskell
- Julia
- Liberty BASIC
- Lua
- Nim
- Pascal
- Perl
- PL/M
- Phix
- Python
- Quackery
- Raku
- REXX
- Ring
- Ruby
- Rust
- Swift
- Tiny BASIC
- Vlang
- Wren
- XBS
- XPL0
- Z80 Assembly