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In the following code, *(long*)0=0; is used along with the if clause, but what is its purpose?

if(r.wid* < tot)
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This statement should have been a macro with a descriptive name. (It's one of the few good reasons for a macro. You want the crash to happen in the correct function so the stack frame is meaningful) – MSalters Jan 27 '14 at 11:05
C++ or C? I don't see any C++ features, but the standards may differ. – 11684 Jan 27 '14 at 13:51
Have you actually tried this? Last time I did, my compiler simply left the whole statement out. Perfectly legal according to the C standard. – ntoskrnl Jan 27 '14 at 14:43
A modern compiler might remove that whole piece of code. The then part is undefined behaviour and thus the compiler can assume it's unreachable. Assuming the if expression has no side effect, the whole if statement can be removed. – CodesInChaos Jan 27 '14 at 14:45
Redis uses a similar trick to simulate a seg fault and then you can pick up from there in the debugger, see What does “((char)-1) = 'x';” code mean?‌​. As I said in my answer to the linked question it is undefined behavior and I would not be surprised if this was optimized out in some cases. the previous thread What is the simplest standard conform way to produce a Segfault in C? is also apropos. – Shafik Yaghmour Jan 28 '14 at 14:29
up vote 58 down vote accepted

It writes 0 to 0 interpreted as the address of a long, i.e. the NULL pointer. It's not a valid thing to be doing, since NULL is never an address at which you can validly have data that your program can access. This code triggers undefined behavior; you cannot rely on it to have any particular effect, in general.

However, often code like this is used to force a segmentation fault-type crash, which is sometimes handy to drop into a debugger.

Again, this is undefined behavior; there is no guarantee that it will cause such a fault, but on systems that have segmentation faults, the above code is pretty likely to generate one. On other systems it might do something completely different.

If you get a segfault, it's sometimes more convenient to trigger one this way than by manually setting a breakpoint in the debugger. For instance if you're not using an IDE, it's often easier to type those few tokens into the code in the desired place, than it is to give the (textual) command to the debugger, specifying the exact source code file and line number manually can be a bit annoying.

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Why is it guaranteed that this code will cause a segmentation fault? – Maroun Maroun Jan 27 '14 at 9:03
Is there a reason to favor this over assert? – user694733 Jan 27 '14 at 9:08
@Zaibis The C99 draft says "If an invalid value has been assigned to the pointer, the behavior of the unary * operator is undefined", and clarifies this to include NULL pointers. – unwind Jan 27 '14 at 9:14
Although @unwind's answer is perfectly correct for most general purpose machines (and he correctly points out that it is undefined behavior, and not guaranteed), such code does find a place in embedded systems, where there really is something (memory mapped IO, or dedicated memory addresses) at the address 0 (or whatever address the null pointer maps to). – James Kanze Jan 27 '14 at 9:23
@Damon In the gigantic codebases I tend to work on, we tend to prefer to leave as many assertions enabled as possible in release builds, because it's effectively impossible to be sure you can't hit them via some code path that has, perchance, gotten missed despite the best efforts of QA and test development. – zwol Jan 27 '14 at 14:53

In textbook C, abort is the way to deliberately crash the program. However, when you're programming close to the metal, you might have to worry about the possibility of abort not working as intended! The standard POSIXy implementation of abort calls getpid and kill (via raise) to deliver SIGABRT to the process, which in turn may cause execution of a signal handler, which can do as it likes. There are situations, e.g. deep in the guts of malloc, in response to catastrophic, possibly-adversarial memory corruption, where you need to force a crash without touching the stack at all (specifically, without executing a return instruction, which might jump to malicious code). *(long *)0 = 0 is not the craziest thing to try in those circumstances. It does still risk executing a signal handler, but that's unavoidable; there is no way to trigger SIGKILL without making a function call. More seriously (IMHO) modern compilers are a little too likely to see that, observe that it has undefined behavior, delete it, and delete the test as well, because the test can't possibly ever be true, because no one would deliberately invoke undefined behavior, would they? If this kind of logic seems perverse, please read the LLVM group's discourse on undefined behavior and optimization (part 2, part 3).

There are better ways to achieve this goal. Many compilers nowadays have an intrinsic (e.g. gcc, clang: __builtin_trap()) that generates a machine instruction that is guaranteed to cause a hardware fault and delivery of SIGILL; unlike undefined tricks with pointers, the compiler won't optimize that out. If your compiler doesn't have that, but does have assembly inserts, you can manually insert such an instruction—this is probably low-level enough code that the additional bit of machine dependence isn't a big deal. Or, you could just call _exit. This is arguably the safest way to play it, because it doesn't risk running signal handlers, and it involves no function returns even internally. But it does mean you don't get a core dump.

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To be completely standard, see my common on another answer. The standard way of crashing with *(long *)0 = 0 would actually be *(long *)(void *)0 = 0. – Shahbaz Jan 27 '14 at 16:30
@Shahbaz Sorry, no, the intermediate void * makes no difference whatsoever. You are mistaken on two counts: first, 0 all by itself is a valid null pointer constant, therefore (long *)0 and (long *)(void *)0 are both null pointers. Second, dereferencing a null pointer provokes undefined behavior no matter how you constructed the null pointer. – zwol Jan 27 '14 at 16:39
0 is a valid NULL pointer if it's not cast to any pointer type. Otherwise the standard didn't have to single out the cast to void *. Let's take an imaginary compiler where NULL has the value 0xFFFF. If the compiler sees 0 assigned to a pointer, it will use 0xFFFF instead because that's the NULL pointer. If it sees (void *)0 it would also use 0xFFFF because that's the NULL pointer. But it should use the exact value of 0x0000 in (long *)0 because that's not the NULL pointer. – Shahbaz Jan 27 '14 at 16:43
@Shahbaz I see where you got that impression, but no, that is not how the language works. Converting an integer constant expression whose value is zero (it does not have to be literally 0) to any pointer type, by any means, always produces the null pointer of that type (technically each type could use a different bit representation). I don't have the standard on this computer, so I can't quote it at you, but if you have a copy, reread the description of the semantics of cast expressions very carefully. (1/2) – zwol Jan 27 '14 at 16:46
@Shahbaz The standard agrees with Zack: "An integer constant expression with the value 0, or such an expression cast to type void *, is called a null pointer constant." Then (parens mine): "If a null pointer constant (0, as above) is converted to a pointer type (long*), the resulting pointer, called a null pointer..." -- N1570 § – tab Jan 27 '14 at 16:50

To cause a program to 'exit abnormally', use the abort() function (

The standard C/C++ idiom for "if condition X is not true, make the program exit abnormally" is the assert() macro. The code above would be better written:

assert( !(r.wid* < tot) );

or (if you're happy to ignore edge cases), it reads more cleanly as:

assert( r.wid* >= tot );
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If width times height of r is less than total, crash the program.

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This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post - you can always comment on your own posts, and once you have sufficient reputation you will be able to comment on any post. – Franz Kafka Jan 27 '14 at 11:13
It's an answer; it's just not as useful an answer as you'd like. But that's no reason to say it's a non-answer. – Alice Jan 27 '14 at 13:45
That's the indent of the program, but not necessarily what it actually does. – CodesInChaos Jan 27 '14 at 14:46
The OP asked what was the purpose, the only way to know this is by guessing what the intention of the original author was - I think this answer sums that up quite nicely. – paulm Jan 27 '14 at 18:57

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