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What is the worst real-world macros/pre-processor abuse you've ever come across (please no contrived IOCCC answers *haha*)?

Please add a short snippet or story if it is really entertaining. The goal is to teach something instead of always telling people "never use macros".


p.s.: I've used macros before... but usually I get rid of them eventually when I have a "real" solution (even if the real solution is inlined so it becomes similar to a macro).


Bonus: Give an example where the macro was really was better than a not-macro solution.

Related question: When are C++ macros beneficial?

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37  
#define true false //happy debugging :) –  n0rd Mar 17 '09 at 11:36
2  
"people are likely to get all bent out of shape and close it": Are you implying that you don't want any humorous/funny content on stack overflow? –  Trevor Boyd Smith Mar 19 '09 at 14:03
2  
Just a quick point, the pre-processor is part of the language and therefore not evil/wrong to use, just like anything else. –  John Apr 1 '10 at 10:31

71 Answers 71

up vote 410 down vote accepted

From memory, it looked something like this:

#define RETURN(result) return (result);}

int myfunction1(args) {
    int x = 0;
    // do something
    RETURN(x)

int myfunction2(args) {
    int y = 0;
    // do something
    RETURN(y)

int myfunction3(args) {
    int z = 0;
    // do something
    RETURN(z)

Yes that's right, no closing braces in any of the functions. Syntax highlighting was a mess, so he used vi to edit (not vim, it has syntax coloring!)

He was a Russian programmer who had mostly worked in assembly language. He was fanatical about saving as many bytes as possible because he had previously worked on systems with very limited memory. "It was for satellite. Only very few byte, so we use each byte over for many things." (bit fiddling, reusing machine instruction bytes for their numeric values) When I tried to find out what kinds of satellites, I was only able to get "Orbiting satellite. For making to orbit."

He had two other quirks: A convex mirror mounted above his monitor "For knowing who is watching", and an occasional sudden exit from his chair to do a quick ten pushups. He explained this last one as "Compiler found error in code. This is punishment".

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87  
"Compiler found error in code. This is punishment". !! Company found you ... punishment to the fellow employees ! –  Learning Mar 17 '09 at 6:40
227  
In Soviet Russia, program compiles YOU! –  Crashworks Mar 17 '09 at 8:03
53  
When I read about the compiler error "punishment", the first thing I thought of was "Dobby had to iron his hands". –  Graeme Perrow Mar 19 '09 at 13:09
124  
I think programmers (myself included) would be a lot more fit if we all did 10 pushups every time a compiler found an error in our code. This might also reduce the occurrence of testing by compilation. –  MikeyB Jun 25 '09 at 19:52
34  
Every time I look at this code I think it is Python –  1800 INFORMATION Aug 13 '09 at 21:28

My worst:

#define InterlockedIncrement(x) (x)++
#define InterlockedDecrement(x) (x)--

I spent two days of my life tracking down some multi-threaded COM ref-counting issue because some idiot put this in a header file. I won't mention the company I worked for at the time.

The moral of this story? If you don't understand something, read the documentation and learn about it. Don't just make it go away.

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16  
I wish I could vote this up twice. –  Joshua Mar 17 '09 at 4:27
146  
@Joshua: If you run this code in a multithreaded environment, you just might unintentionally do that –  1800 INFORMATION Mar 17 '09 at 21:27
11  
"If you don't understand something, read the documentation and learn about it. Don't just make it go away." - AMEN! –  Paul Alexander Jun 25 '09 at 19:22
36  
rotfl... this one just made me splort milk outta my nose –  Joel Spolsky Aug 13 '09 at 21:09
38  
The problem is that InterlockedIncrement is normally an atomic function defined in the Windows API. So when people call InterlockedIncrement, they expect to call into a function that is guaranteed to be executed atomically. Instead, someone defined a macro with the same name, which evaluates to a plain, non-atomic increment –  jalf Sep 20 '09 at 21:08
#define ever (;;)
for ever { 
   ...
}
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22  
only if you're a valley girl –  Joel Spolsky Mar 17 '09 at 2:08
52  
I prefer <#define forever for(;;)> so you can write <forever {...}> –  paxdiablo Mar 17 '09 at 2:16
6  
Isn't Pax's suggestion straight from K&R? Still, not worth the effort, I'd say. –  Jon Ericson Mar 17 '09 at 2:30
2  
It is clever(tm) but I really kinda like how it reads. –  vobject Jun 25 '09 at 21:11
9  
@pZy: yeah it is very cl(EVER) –  hayalci Jun 27 '09 at 13:52
#include <iostream>
#define System S s;s
#define public
#define static
#define void int
#define main(x) main()
struct F{void println(char* s){std::cout << s << std::endl;}};
struct S{F out;};

public static void main(String[] args) {
  System.out.println("Hello World!");
}

Challenge: Can anyone do it with fewer defines and structs? ;-)

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19  
you just wrote a java-to-c converter! horray! –  Andreas Petersson Mar 17 '09 at 8:10
25  
Reported as "offensive." (I kid!) –  Annika Backstrom Mar 18 '09 at 14:00
40  
That is either hideously beautiful or beautifully hideous. –  Chris Lutz May 1 '09 at 18:37
4  
I don't even get how this works :( –  Mark Jun 26 '09 at 0:16
38  
@Mark - It declares public and static as nothing, void` as int, and main(x) as main(), so public static void main(String[] args) turns into int main(). Then System turns into S s;s, so System.out.println("Hello World!"); turns into S s; s.out.println("Hello World!"); which calls the println function in the F struct in the S struct. –  Chris Lutz Aug 9 '09 at 2:15
#define private public
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30  
wow for unit testing this might even be useful, even though the ghosts of object design will haunt you at night. –  Epaga Mar 17 '09 at 8:40
12  
Hmmm, undefined behavior, easy violation of the one-definition rule, potential layout differences. Yup, this is a winner. –  David Thornley Jun 25 '09 at 19:30
10  
So with that, I can access private and public stuff, but not protected stuff, and I can't access the stuff between the class keyword and the first access modifier. –  Ken Bloom Apr 28 '10 at 1:15
3  
@Ken: #define class struct #define protected public –  ybungalobill Aug 19 '11 at 10:12
#define if while

It was joke played on someone, it wasn't found amusing by those affected

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22  
#define while if would be even more insidious. –  starblue Mar 17 '09 at 7:05
7  
We should clarify your statement. It wasn't found amusing by the people affected. :-) –  Andrew Shepherd Jun 30 '09 at 23:08
6  
When I did homework assignments, I often did this kind of things on purpose, just to annoy my teachers. –  Eduardo León Jul 1 '09 at 14:06
15  
This is a good prank but it won't compile if there are any "else" statements. I've found that #define if(x) if(true) is most effective. –  Graphics Noob Oct 7 '09 at 15:42
32  
I always preferred #define sizeof(x) rand() –  Jon Dec 15 '10 at 22:15

The hideous:

#define begin {
#define end }
/* and so on */

Seriously, if you want to code in Pascal, buy a Pascal compiler, don't destroy the beautiful C language.

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45  
Now you've got me wondering what languages I can simulate with a clever enough header file. –  Bill the Lizard Mar 17 '09 at 2:24
29  
LOLCODE - lolcode.com/contributions/lolcode_h –  Chris Lutz Mar 17 '09 at 5:14
47  
C is not beautiful. It's rather ugly. –  rlbond Mar 17 '09 at 5:38
27  
Its beauty lies in its simplicity. It's been said it has all the speed of assembly language combined with the readability of ... assembly language :-) I prefer it over the bloated C++ (although I do prefer Java in my day job due to its huge library). –  paxdiablo Mar 17 '09 at 6:02
9  
No really. Find Bourne's original source for the bourne shell. He did exactly this to get some kind of bastard ALGOL-like mess. –  RBerteig Mar 17 '09 at 6:27

An 'architect', very humble guy, you know the type, had the following:

#define retrun return

because he liked to type fast. The brain-surgeon used to like to shout at people who were smarter than him (which was pretty much everyone), and threaten to use his black-belt on them.

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4  
rather teach your editor to autoreplace retrun into return. Ive done such hackeries to my IRC-client, at least –  Tetha Mar 17 '09 at 10:33
60  
Rather learn to type. –  Svante Jun 25 '09 at 20:17
1  
Hey, I think I used to work with that 'architect' as well. He eventually got reclassified senior-architect when he needed to have his ego appeased. –  CodeSlave Sep 18 '09 at 16:51
1  
I had 'rn' redefined to 'rm' in bash, because I couldn't type and the 'rn' newsreader took 5 minutes to startup and connect to the server. –  Martin Beckett Mar 11 '10 at 21:40
2  
You couldn't just open a new terminal (or switch to another vt) and do killall rn? –  Joe D Aug 9 '10 at 18:53

Real-world? MSVC has macros in minmax.h, called max and min, which cause a compiler error every time I intend to use the standard std::numeric_limits<T>::max() function.

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2  
Ah, yes, that's why I had a special header with sanity-restoring #undef's after the MS-specific ones... –  Pontus Gagge Mar 17 '09 at 10:53
3  
Solved with (std::numeric_limits<T>::max)() But yeah, pretty annoying. –  rlbond Jun 25 '09 at 20:04
36  
Add NOMINMAX to your project properties under C/C++ -> Preprocessor -> Preprocessor Definitions. –  mattnewport Aug 7 '09 at 1:12
18  
These macros have existed in the MS headers longer than min and max have been in the C++ Standard Library. –  Richard Sep 22 '09 at 8:15
4  
It's even worse when four of your other external dependencies also define min/max of their own, of varying degrees of suckiness, ranging from badly-parenthesised macros to well-written templates, and one of them just has to make it impossible to be undefined or otherwise skip these... In my book the language is 50% to blame though. –  romkyns Jan 25 '10 at 20:10

In college somebody in my class did this:

#define CUNT const unsigned int

It makes sense, but I think he did it because he didn't like our teacher.

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23  
CUINT was more appropriate, but less funny. –  Eduardo León Jul 1 '09 at 14:13
1  
Or you could go old-skol with CUNI (cunny) –  Dennis Sep 30 '11 at 16:46

A mix between Pascal syntax and french keywords:

#define debut {
#define fin }
#define si if(
#define alors ){
#define sinon }else{
#define finsi }
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22  
oh la la......... –  Tom Jun 25 '09 at 19:51
36  
#define zut_alors exit(-1) –  MikeyB Jun 25 '09 at 20:02
91  
#define merde throw std::runtime_error(...) –  1800 INFORMATION Jun 26 '09 at 0:41
8  
notre poule dans votre cour (our chicken in your yard in french or my dk in your a in romanian) =))))))) –  Andrei Rînea Sep 19 '09 at 9:40
4  
That is awesome and it made me laugh out loud. So, this is basically a localized French version of Basic implemented in C? –  Bobby Aug 30 '10 at 11:02

Raymond Chen has a really good rant against using flow control macros. His best example is straight from the original Bourne shell source code:

ADDRESS alloc(nbytes)
    POS     nbytes;
{
    REG POS rbytes = round(nbytes+BYTESPERWORD,BYTESPERWORD);

    LOOP    INT     c=0;
    REG BLKPTR  p = blokp;
    REG BLKPTR  q;
    REP IF !busy(p)
        THEN    WHILE !busy(q = p->word) DO p->word = q->word OD
    	IF ADR(q)-ADR(p) >= rbytes
    	THEN	blokp = BLK(ADR(p)+rbytes);
    	    IF q > blokp
    	    THEN    blokp->word = p->word;
    	    FI
    	    p->word=BLK(Rcheat(blokp)|BUSY);
    	    return(ADR(p+1));
    	FI
        FI
        q = p; p = BLK(Rcheat(p->word)&~BUSY);
    PER p>q ORF (c++)==0 DONE
    addblok(rbytes);
    POOL
}
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15  
Oh my god. I'm never using Bourne again. –  Crashworks Mar 17 '09 at 8:06
2  
Two points: one, this paste messed up the original indentation. And two, the code looks fine for what it is: 1970s Unix C by a fervent Algol-68 fan. If _why the lucky stiff can express himself in a quirky style, why can't Steve Bourne? Of course, someone condemned to maintain it who doesn't know Algol 68 may not appreciate this chance to broaden their own tastes. –  Darius Bacon May 16 '10 at 7:55
2  
I've seen if...else...elif...fi and case...esac before (in the very language that Bourne invented for sh), but loop...pool is a real gem. –  hobbs Aug 20 '11 at 2:57

I would like to submit for the contest a gem called chaos-pp, which implements a functional language by means of the preprocessor macros.

One of the examples is calculating the 500th fibonacci number entirely by the preprocessor:

The original code before preprocessor looks as this:

int main(void) {
   printf
     ("The 500th Fibonacci number is "
      ORDER_PP(8stringize(8to_lit(8fib(8nat(5,0,0)))))
      ".\n");
   return 0;
}

preprocessing the file we get the following result (after a rather long wait):

$ cpp -I../inc fibonacci.c 2>/dev/null | tail
  return fib_iter(n, 0, 1);
}
# 63 "fibonacci.c"
int main(void) {
   printf
     ("The 500th Fibonacci number is "
      "139423224561697880139724382870407283950070256587697307264108962948325571622863290691557658876222521294125"
      ".\n");
   return 0;
}
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3  
I'd like to see the macros –  Tilendor Sep 18 '09 at 20:36
1  
You can grab the code from CVS and take a look. I had put some more details about it into my blogpost a while ago when I stumbled upon it: bnpcs.blogspot.com/2009/02/… If not for the problem with debugging the resulting code (the problem of having hugely long lines if they are generated by such a "language"), it could have been even usable as a practical code-generator for C. –  Andrew Y Sep 19 '09 at 4:06
5  
This is beautiful. +1. –  Stephen Canon Oct 15 '09 at 17:03

Directly from Qt:

#define slots   /* */
#define signals /* */

Really nice to interact with other libs as boost::signals... Just an example, there are many others in Qt that create funny looking code like:

class X : public QObject {
   Q_OBJECT
private slots:
   //...
public signals:
   //...
};

And that is C++... but suddenly:

boost::signals::trackable

Is not valid C++ any more.

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5  
:) So it is a macro that breaks other libraries for nothing. That's even better than I expected :) –  David Rodríguez - dribeas Mar 17 '09 at 10:37
38  
Qt is very territorial and will viciously attack other libraries that try to occupy its namespace :) –  Jeremy Friesner Aug 7 '09 at 1:16
21  
Sadly Qt attacks libraries outside of its namespace with the use of macros –  David Rodríguez - dribeas Aug 8 '09 at 22:21
7  
Fortunately boost::signals2 has fixed this issue ;) –  bdonlan Aug 10 '09 at 22:14
9  
Use Q_SIGNALS and Q_SLOTS if you're afraid of this interaction. –  Tadeusz A. Kadłubowski Sep 18 '09 at 6:45

Windows.h has a lot of functions that abused macros.


MrValdez is annoyed by the GetObject macro found in Windows.h

The GetObject macro changes the GetObject() function into GetObjectA() or GetObjectW() (depending if the build is compiled in non-unicode and unicode, respectively)

MrValdez hates having to do before the GetObject function line

#undef GetObject

Object *GetObject()

The alternative is to change the function name to something else like GetGameObject()


jdkoftinoff in the comments have nailed it: The problem is that all windows API functions are macros.

Adam Rosenfield mentioned that that the issues can be fixed by defining NOGDI, WIN32_LEAN_AND_MEAN, NOMINMAX, etc before including windows.h to remove the issues.

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3  
You can suppress this but #define'ing NOGDI before including windows.h, provided of course that you don't need to use any of the various GDI functions. There are a bunch of other macros such as WIN32_LEAN_AND_MEAN, NOMINMAX, etc. that suppress other things from being defined or included. –  Adam Rosenfield Mar 17 '09 at 3:10
1  
GetObject is a pretty generic function name. Perhaps you could have used a more descriptive name given the context to avoid the collision. However, that is a pretty evil macro case. –  strager Mar 17 '09 at 3:20
6  
Problem is that all windows API functions are macros. One that bit me was GetTickCount(). Since I do most of my programming outside of windows, I found all the defines in the windows headers and then made my own include file which defined them all to verify compatibility beforehand. –  jdkoftinoff Mar 17 '09 at 3:38
12  
I think we have a winner. It's real-world, it's a ridiculously bad idea, and it's affected a huge number of innocent programmers. Whoever is responsible for this gem at Microsoft should be considered a war criminal... The best part is that Microsoft didn't think twice about using such amazingly common names, like GetObject, SendMessage or CreateWindow. –  jalf Aug 7 '09 at 13:22
4  
I've never seen a community wiki answer work this well! –  JasonFruit Aug 7 '09 at 13:39
#define return if (std::random(1000) < 2) throw std::exception(); else return

this is just so evil. It's random, which means it fires in different places all the time, it changes return statement, which usually have some code on it that could fail all by itself, it changes innocent looking keyword that you won't ever get suspicious over and it uses exception from std space so you won't try to search through your sources to find it's source. Just brilliant.

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4  
I doubt the person who made it will take it to code review. –  vava Jan 3 '10 at 23:44
4  
Just tested this one, at least it doesn't compile by default because of a missing include for random, and it's red-squiggled then. If you have the include by accident, however, things get worse - VC++2010 marks it still as a keyword and does not show the macro expansion tooltip, so no help from the IDE to find this :-/ –  OregonGhost Aug 4 '10 at 10:09

A coworker and I found these two gems in some of our code for object streaming. These macros were instantiated in EVERY SINGLE class file that did streaming. Not only is this hideous code spewed all over our code base, when we approached the original author about it, he wrote a 7 page article on our internal wiki defending this as the only possible way to accomplish what he was attempting to do here.

Needless to say, it has since been refactored out and is no longer used in our code base.

Don't be thrown off by the highlighted keywords. This is ALL a macro

#define DECLARE_MODIFICATION_REQUEST_PACKET( T )    											\
namespace NameSpace 																	\
{   																					\
    																					\
class T##ElementModificationRequestPacket;  														\
}   																					\
    																					\
DECLARE_STREAMING_TEMPLATES( IMPEXP_COMMON_TEMPLATE_DECLARE, NameSpace::ElementModificationRequestPacket<T>, OtherNameSpace::NetPacketBase )    \
DLLIMPEXP_COMMON_TEMPLATE_DECLARE( NameSpace::ElementModificationRequestPacket<T> ) 	\
DECLARE_AUTOGENERATION_TEMPLATES( DLLIMPEXP_COMMON_TEMPLATE_DECLARE, NameSpace::T##ModificationRequestPacket, NameSpace::ElementModificationRequestPacket<T> )  	\
    																					\
namespace NameSpace {   																\
class DLLIMPEXP_COMMON T##ModificationRequestPacket : public ElementModificationRequestPacket<T>\
{   																					\
public: 																				\
    T##ModificationRequestPacket( NetBase *	pParent )									\
    : ElementModificationRequestPacket<T>( pParent ), m_Gen() {}							\
    																					\
    T##ModificationRequestPacket( NetBase *	pParent,									\
    						Action			eAction,									\
    						const T &	rT )											\
    : ElementModificationRequestPacket<T>( pParent, eAction, rT ), m_Gen() {}				\
    																					\
    T##ModificationRequestPacket( const T##ModificationRequestPacket & rhs )						\
    : ElementModificationRequestPacket<T>( rhs ), m_Gen() {}								\
    																					\
    virtual						~T##ModificationRequestPacket( void ) {}						\
    																					\
    virtual Uint32			GetPacketTypeID( void ) const							\
    {																					\
    	return Net::T##_Modification_REQUEST_PACKET;										\
    }																					\
    																					\
    virtual	OtherNameSpace::ClassID	GetClassID ( void ) const							\
    {																					\
    	return OtherNameSpace::NetBase::GenerateHeader( OtherNameSpace::ID__LICENSING, 	\
    													 Net::T##_Modification_REQUEST_PACKET );	\
    }																					\
    																					\
    virtual T##ModificationRequestPacket * Create( void ) const								\
    { return new T##ModificationRequestPacket( m_pParent ); }									\
    																					\
    T##ModificationRequestPacket() {}															\
    																					\
protected:  																			\
    OtherNameSpace::ObjectAutogeneration<T##ModificationRequestPacket> m_Gen;						\
    																					\
    friend class OtherNameSpace::StreamingBase::StreamingClassInfoT<T##ModificationRequestPacket >;						\
    OtherNameSpace::StreamingBase::Streaming<T##ModificationRequestPacket, ElementModificationRequestPacket<T> >	m_Stream;	\
    																					\
};  																					\
}   																					\
DLLIMPEXP_COMMON_TEMPLATE_DECLARE( ThirdNameSpace::ListenerBase<const NameSpace::T##ModificationRequestPacket> )    		\
DLLIMPEXP_COMMON_TEMPLATE_DECLARE( ThirdNameSpace::BroadcasterT<const NameSpace::T##ModificationRequestPacket> )    		\
typedef  ThirdNameSpace::BroadcasterT<const T##ModificationRequestPacket>  T##ModifiedBroadcaster;



#define IMPLEMENT_MODIFICATION_REQUEST_PACKET( T )  																\
DLLIMPEXP_COMMON_TEMPLATE_INSTANTIATE( NameSpace::ElementModificationRequestPacket<T> ) 						\
DLLIMPEXP_COMMON_TEMPLATE_INSTANTIATE( ThirdNameSpace::ListenerBase<const NameSpace::T##ModificationRequestPacket> )    	\
DLLIMPEXP_COMMON_TEMPLATE_INSTANTIATE( ThirdNameSpace::BroadcasterT<const NameSpace::T##ModificationRequestPacket> )    	\
INSTANTIATE_STREAMING_TEMPLATES( DLLIMPEXP_COMMON_TEMPLATE_INSTANTIATE, NameSpace::ElementModificationRequestPacket<T>, OtherNameSpace::NetPacketBase ) \
INSTANTIATE_AUTOGENERATION_TEMPLATES( DLLIMPEXP_COMMON_TEMPLATE_INSTANTIATE, NameSpace::T##ModificationRequestPacket, NameSpace::ElementModificationRequestPacket<T> )


Update (December 17, 2009):

More good news regarding this hideous macro author. As of August, the employee responsible for this monstrosity was sacked.

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3  
Ho-le-shiznits. –  Robert P Sep 28 '09 at 20:35
21  
too long; backed away in terror –  bobince Dec 17 '09 at 18:44
6  
I like (don't like) how the entire right-hand side of the screen is a sea of "\" –  Chris Cooper Apr 7 '10 at 0:50
3  
Looks like raindrops along the right side. –  Lotus Notes Jul 5 '10 at 22:39
3  
he obviously has never heard of: "Debugging is twice as hard as writing the code in the first place. Therefore, if you write the code as cleverly as possible, you are, by definition, not smart enough to debug it." -Brian W. Kernighan –  Trevor Boyd Smith Jun 24 '11 at 18:47

I did the following myself, and I think I learned something from it.

In 1992 or so I wrote a small Lisp interpreter. It wasn't implemented in normal C, but in an interpreted C-like language. This C-like language used the standard C pre-processor, though.

The Lisp interpreter of course contained the functions car, which is used in Lisp to return the first element in a list, and cdr, which returns the rest of the list. They were implemented like this:

LISPID car(LISPID id) {
    CHECK_CONS("car", 1, id);
    return cons_cars[id - CONS_OFFSET];
} /* car */

LISPID cdr(LISPID id) {
    CHECK_CONS("cdr", 1, id);
    return cons_cdrs[id - CONS_OFFSET];
} /* cdr */

(Data were stored in arrays, since there were no structs. CONS_OFFSET is the constant 1000.)

car and cdr are used frequently in Lisp, and are short, and since function calls weren't very fast in the implementation language, I optimized my code by implementing those two Lisp functions as macros:

#define car(id) (CHECK_CONS("car", 1, (id)), cons_cars[(id) - CONS_OFFSET])
#define cdr(id) (CHECK_CONS("car", 1, (id)), cons_cdrs[(id) - CONS_OFFSET])

CHECK_CONS checks that its argument actually is a list, and since that one is also used frequently in the interpreter, and is short, I wrote that one too as a macro:

#define CHECK_CONS(fun, pos, arg)   \
    (!IS_CONS(arg) ?        \
        LISP_ERROR("Arg " + pos + " to " + fun +    \
                   " must be a list: " + lispid2string(arg)) : 0)

IS_CONS and LISP_ERROR were also used frequently, so I made them into macros too:

#define IS_CONS(id) \
    (   intp(id) && (id) >= CONS_OFFSET     \
     && ((id) - CONS_OFFSET) < sizeof(cons_cars))

#define LISP_ERROR(str)     (throw((str) + "\n"))

Seems reasonable?

But then, why did the entire system crash on this line:

id2 = car(car(car(car((id1))));

I worked a long time to find the problem, until I finally checked what that short line was expanded to by the pre-processor. It was expanded to a 31370-character line, which I have here split into lines (502 of them) for clarity:

id2 = ((!(intp( (((!(intp( (((!(intp( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
&& ( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) && ( (((!(intp( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) >= 1000 && (( (((!(intp(
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) - 1000) < sizeof(cons_cars))
? (throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 &&
(( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to
" + "car" + " must be a list: " + lispid2string( (id1))) + "\n"))
: 0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
>= 1000 && (( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && ((
(id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to "
+ "car" + " must be a list: " + lispid2string( (id1))) + "\n")) :
0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && ((
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])) - 1000]))) && ( (((!(intp(
(((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) && ( (((!(intp( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) >= 1000 && (( (((!(intp(
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) - 1000) < sizeof(cons_cars))
? (throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 &&
(( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to
" + "car" + " must be a list: " + lispid2string( (id1))) + "\n"))
: 0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
>= 1000 && (( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && ((
(id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to "
+ "car" + " must be a list: " + lispid2string( (id1))) + "\n")) :
0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && ((
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])) - 1000]))) >= 1000 && ((
(((!(intp( (((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && ((
(id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to "
+ "car" + " must be a list: " + lispid2string( (id1))) + "\n")) :
0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && ((
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) && ( (((!(intp( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) >= 1000 && (( (((!(intp(
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) - 1000) < sizeof(cons_cars))
? (throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 &&
(( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to
" + "car" + " must be a list: " + lispid2string( (id1))) + "\n"))
: 0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
>= 1000 && (( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && ((
(id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to "
+ "car" + " must be a list: " + lispid2string( (id1))) + "\n")) :
0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && ((
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])) - 1000]))) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (((!(intp( (((!(intp( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) && ( (((!(intp( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) >= 1000 && (( (((!(intp(
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && (( (((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000]))) - 1000) < sizeof(cons_cars))
? (throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 &&
(( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to
" + "car" + " must be a list: " + lispid2string( (id1))) + "\n"))
: 0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && (
(id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
>= 1000 && (( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (((!(intp( (id1)) && ( (id1)) >= 1000 && ((
(id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to "
+ "car" + " must be a list: " + lispid2string( (id1))) + "\n")) :
0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1)) && ( (id1))
>= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg "
+ 1 + " to " + "car" + " must be a list: " + lispid2string(
(id1))) + "\n")) : 0), cons_cars[(id1) - 1000]))) >= 1000 && ((
(((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1))
- 1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car"
+ " must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])))) + "\n")) : 0), cons_cars[(((!(intp(
(id1)) && ( (id1)) >= 1000 && (( (id1)) - 1000) <
sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" + " must
be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000])) - 1000])) - 1000])))) + "\n")) : 0),
cons_cars[(((!(intp( (((!(intp( (((!(intp( (id1)) && ( (id1)) >=
1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ? (throw(("Arg " +
1 + " to " + "car" + " must be a list: " + lispid2string( (id1)))
+ "\n")) : 0), cons_cars[(id1) - 1000]))) && ( (((!(intp( (id1))
&& ( (id1)) >= 1000 && (( (id1)) - 1000) < sizeof(cons_cars)) ?
(throw(("Arg " + 1 + " to " + "car" + " must be a list: " +
lispid2string( (id1))) + "\n")) : 0), cons_cars[(id1) - 1000])))
>= 1000 && (( (((!(intp( (id1)) && ( (id1)) >= 1000 && (( (id1)) -
1000) < sizeof(cons_cars)) ? (throw(("Arg " + 1 + " to " + "car" +
" must be a list: " + lispid2string( (id1))) + "\n")) : 0),
cons_cars[(id1) - 1000]))) - 1000) < sizeof(cons_cars))
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18  
I optimized my code by implementing those [..] functions as macros - famous last words... –  BlueRaja - Danny Pflughoeft May 24 '10 at 20:23
3  
I committed similar abuses in early versions of my Postscript interpreter. Push and pop were the functions that were so important that they should be macros. But composing an expression involving more than one of these leads to undefined behavior. The undefined behavior is only caught when compiling at -O3. And at -O3 the function versions would have been inlined anyway. –  luser droog Jul 15 '11 at 9:22

I once had to port a C application from unix to windows, the specific nature of which shall remain unnamed to protect the guilty. The guy who wrote it was a professor unaccustomed to writing production code, and had clearly come to C from some other language. It also happens that English wasn't his first language, though the country he came from the majority of people speak it quite well.

His application made heavy use of the preprocessor to twist the C language into a format he could better understand. But the macros he used the most were defined in a header file named 'Thing.h' (seriously), which included the following:

#define I  Any void_me
#define thou  Any void_thee
#define iam(klas)  klas me = (klas) void_me
#define thouart(klas)  klas thee = (klas) void_thee
#define my  me ->
#define thy  thee ->
#define his  him ->
#define our  my methods ->
#define your  thy methods ->

...which he then used to write monstrosities like the following:

void Thing_setName (I, const char *name) {
iam (Thing);
if (name != my name) {
    Melder_free (my name);
    my name = Melder_wcsdup (name);
    }
    our nameChanged (me);
}

void Thing_overrideClass (I, void *klas) {
iam (Thing);
my methods = (Thing_Table)klas;
if (! ((Thing_Table) klas) -> destroy)
    ((Thing_Table) klas) -> _initialize (klas);
}

The entire project (~60,000 LOC) was written in a similar style -- marco hell, weird names, Olde-English jargon, etc. Fortunately we were able to throw the code out since I found an OSS library which performed the same algorithm dozens of times faster.

(I've copied and edited this answer which I originally made on this question).

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3  
I'm rather charmed by the possessives and archaic English, for all that of course I agree the code looks terrible. –  Darius Bacon May 16 '10 at 8:09

The worst I've ever encountered was in a product containing a suite of executables where the designated technical leader hadn't figured out libraries.

Instead, he had sets of files that were shared in several Visual Source Safe folders. He then realised they needed to behave slightly differently for each application.

There's a number of refactoring steps you could apply here.

Instead, he used #ifdefs

   void DisplayLoadError()
   {
   #if defined __TIMETABLE_EDITOR
   MessageBox("Timetable Editor failed to load the correct timetable", MB_ERROR);
   #else if defined __SCHEDULESET_EDITOR
   MessageBox("Schedule Set Editor faied to load the correct Schedule Set", MB_ERROR);
   #else if defined __ROSTER_EDITOR
   MessageBox("Roster Editor failed to load the correct Roster", MB_ERROR);
   #endif
   }
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3  
Tech leader? More like the blind leading the blind. +1 –  dcw Mar 17 '09 at 5:53
3  
Complete with typo ('faied' for 'failed')? Ouch, anyway. –  Jonathan Leffler Sep 18 '09 at 14:26

The use of the LINE preprocessor to generate unique ID for messages passed over the network:

NetworkMessages.h

#define MSG_LOGIN  __LINE__
#define MSG_LOGOUT __LINE__
#define MSG_CHAT   __LINE__

This is an example where the macro really was better than a non-macro solution:

In a non-macro solution classes, functions and variables have to be built to keep track of what ID the message is. The developer may or may not make the message ID tracking complicated whereas this is easier to read and debug.

In addition, its easier to add new messages just by adding the message into the source.

The disadvantage of this situation is that the file has to be included in all code that uses messages. Compile time would increase whenever a message is edited.

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8  
And versions may be incompatible with each other (not good!). How come an enum didn't suffice? –  strager Mar 17 '09 at 3:19
17  
Now I come along and sort the #defines... and the protocol changes. Or I get the Doxygen religion and document all the message codes, and the protocol changes. At least an enum is stable under the latter change. –  RBerteig Mar 17 '09 at 6:33
3  
@MrValdez, it's less restrictive to keep a block of enums in order, than to keep defines on the same lines relative to file start. –  peterchen Jun 25 '09 at 22:31

One fairly bad example:

#ifdef __cplusplus
#define class _vclass
#endif

This allows a C structure that contains a member variable called class to be handled by a C++ compiler. There are two headers with this construct in it; one of them also contains '#undef class' at the end and the other doesn't.

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1  
This is why Objective-C uses @class instead of class. –  user142019 Dec 3 '11 at 13:37

In one year of the International Obfuscated C Coding Contest, there was an entry where the entire program was:

P

With the proviso that you could define P in the makefile to be whatever program you wanted.

As I recall, it won in one of the categories, and the next year a rule had popped up disallowing that style of entry.

(Edit: six months later or something... I'm sure the "No IOCCC" thing wasn't in the main question when I wrote this...)

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2  
it is indeed very obfuscated, you have to give him that. –  Stefano Borini Aug 7 '09 at 1:15
5  
Yeah, but easier to read than some of them are :). –  quark Aug 20 '09 at 4:52
4  
It may have won in a category like Best Abuse of the Rules. It's fully in the IOCCC spirit. –  David Thornley Sep 23 '09 at 14:44
4  
In 1988, Best abuse of the rules was #include "/dev/tty" which resulted in the judges saying, "We enjoyed this entry this year, however in the future programs must be able to be compiled from within a makefile without the need of human intervention." ioccc.org/1988/spinellis.hint Source code: ioccc.org/1988/spinellis.c –  Shannon Severance Oct 28 '11 at 7:15

I was bored one day and was playing around with blocks in Objective-C...

#define Lambda(var, body) [^ id(id (var)) { return (body);} copy]
#define Call(f, arg) ((id(^)(id))(f))(arg)
#define Int(num) [NSNumber numberWithInteger:(num)]
#define Mult(a, b) Int([(a) integerValue] * [(b) integerValue])
#define Add(a, b) Int([(a) integerValue] + [(b) integerValue])
#define Sub1(n) Int([(n) integerValue] - 1)
#define Add1(n) Int([(n) integerValue] + 1)
#define If(cond, thenblock, elseblock) ([(cond) integerValue] ? (thenblock) : (elseblock))
#define Cons(car, cdr_) [[ConsType alloc] initWithCar:(car) cdr:(cdr_)]
#define Car(list) [(list) car]
#define Cdr(list) [(list) cdr]
#define Define(var, value) id var = (value)
#define Nullq(value) Int(value == nil)

allowing "interesting" things like:

Define(Y, Lambda(f, Call(Lambda(x, Call(x, x)),
                         Lambda(x, Call(f, Lambda(y, Call(Call(x, x), y)))))));
Define(AlmostTotal, Lambda(f, Lambda(list, If(Nullq(list), Int(0),
                                              Add(Car(list), Call(f, Cdr(list)))))));
Define(Total, Call(Y, AlmostTotal));
Print(Call(Total, Cons(Int(4), Cons(Int(5), Cons(Int(8), nil)))));

(some function and class definitions not shown for sake of brevity)

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2  
Wow...turning C into LISP... –  Bobby Aug 30 '10 at 8:53

The worst one I saw was the non-use :-)

Someone wrote a strcpy (I think that was it... over 10 years ago now) function inside of a method (because they didn't want the overhead of calling strcpy... sigh).

They clued in that it wouldn't work for Japanese characters so they added an "if" at the start to do ASCII or Unicode. At that point the code was about a screen long... likely killing cache coherency and erasing his supposed savings for the inlining of the code.

The code was identical save for the types (so should have used a macro).

Of course the strcpy that they wrote was much much much slower than the hand tuned assembler one that was in the standard library...

Of course if they had just done it all as a macro it could have been replaced with a call to strcpy...

Of course I quit the company (not directly because of that...)

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1  
He should have used the built in strcpy! (and it was C code not C++ so no templates) :-P –  TofuBeer Feb 18 '11 at 0:35

The obligatory

#define FOR  for

and

#define ONE  1
#define TWO  2
...

Who knew?

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5  
But-but-but NO LITERALS IN CODE! ;) –  Bernard Mar 17 '09 at 11:03
1  
Never heard of that with COBOL, only with FORTRAN. COBOL, of course, has ZERO, ZEROS, and ZEROES as reserved words, all of them meaning the exact same thing as 0. –  David Thornley Jun 25 '09 at 19:34
#define TRUE 0 // dumbass

The person who did this explained himself some years later - most (if not all) C library functions return 0 as an indication that everything went well. So, he wanted to be able to write code like:

if (memcpy(buffer, packet, BUFFER_SIZE) == TRUE) {
; // rape that packet
}

Needless to say, nobody in our team (tester or developer) ever dared to glance at his code again.

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1  
i blame the C library functions for making 0 "everything is OK" :P –  RCIX Nov 30 '10 at 0:47
6  
Why not declare something like #define FLAG_SUCCESS 0? –  Eduardo León Jan 11 '11 at 16:14

I maintain code that has gotos in macros. So a function will have a label at the end but no visible goto in the function code. To make matters worse the macro is at the end of other statements usually off the screen unless you scroll horizontally.

#define CHECK_ERROR if (!SomeCondition) goto Cleanup

void SomeFunction() 
{ 
    SomeLongFunctionName(ParamOne, ParamTwo, ParamThree, ParamFour); CHECK_ERROR  
    //SomeOtherCode  
    Cleanup:    
   //Cleanup code  
}
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#include <iostream>
#define public_static_void_main(x) int main()
#define System_out_println(x) std::cout << x << std::endl

public_static_void_main(String[] args) {
  System_out_println("Hello World!");
}
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3  
And YOU wanted to write a runtime. Look at how much time I saved! –  Bernard Mar 17 '09 at 11:00
4  
@Trevor: Yeah... the smart ones are still doing Java instead. runs for cover –  Michael Myers Mar 17 '09 at 16:10
16  
I like the other one better. This one shows something close to Java being written with a few macros. The other one shows exact Java being written with a plethora of sneaky macros and structs with function members. The first one was a cheap joke, whereas the second one was an elaborate and well-though out joke. –  Chris Lutz Jun 25 '09 at 18:55

By a classmate who failed to understand the rules about magic numbers:
#define TWO_HUNDRED_AND_EIGHTY_THREE_POINT_ONE 283.1

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