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I'm trying to make a simple preprocessor loop. (I realize this is a horrible idea, but oh well.)

// Preprocessor.h

#ifndef PREPROCESSOR_LOOP_ITERATION

#define MAX_LOOP_ITERATION 16 // This can be changed.

#define PREPROCESSOR_LOOP_ITERATION 0

#endif

#if (PREPROCESSOR_LOOP_ITERATION < MAX_LOOP_ITERATION)
#define PREPROCESSOR_LOOP_ITERATION (PREPROCESSOR_LOOP_ITERATION + 1) // Increment PREPROCESSOR_LOOP_ITERATION.
#include "Preprocessor.h"
#endif

The issue is that it doesn't look like PREPROCESSOR_LOOP_ITERATION is being incremented, so it just keeps including itself infinitely. If I change the line to an actual integer (like 17), the preprocessor skips over the #include directive properly.

What am I doing incorrectly?

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5 Answers 5

up vote 4 down vote accepted

The "problem" is that macros are lazily evaluated. Consider your macro definition:

#define PREPROCESSOR_LOOP_ITERATION (PREPROCESSOR_LOOP_ITERATION + 1)

This defines a macro named PREPROCESSOR_LOOP_ITERATION and its replacement list is the sequence of five preprocessing tokens (, PREPROCESSOR_LOOP_ITERATION, +, 1, and ). The macro is not expanded in the replacement list when the macro is defined. Macro replacement only takes place when you invoke the macro. Consider a simpler example:

#define A X
#define B A

B // this expands to the token X

#undef A
#define A Y
B // this expands to the token Y

There is an additional rule that if the name of a macro being replaced is encountered in a replacement list, it is not treated as a macro and thus is not replaced (this effectively prohibits recursion during macro replacement). So, in your case, any time you invoke the PREPROCESSOR_LOOP_ITERATION macro, it gets replaced with

( PREPROCESSOR_LOOP_ITERATION + 1 )

then macro replacement stops and preprocessing continues with the next token.

You can perform limited arithmetic with the preprocessor by defining a sequence of macros and making use of the concatenation (##) operator, but it's quite tedious. You should consider using the Boost.Preprocessor library to help you with this. It will work with both C and C++ code. It allows for limited iteration, but what it does allow is extraordinarily useful. The closest feature that matches your use case is likely BOOST_PP_ITERATE. Other facilities like the sequence (BOOST_PP_SEQ) handlers are very helpful for writing generative code.

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Seriously, find another way to do this.

The preprocessor should be relegated to include guards and simple conditional compilations.

Everything else it was ever useful for has a better way to do it in C++ (inlining, templates and so forth).

The fact that you state I realize this is a horrible idea ... should be a dead giveaway that you should rethink what you're doing :-)

What I would suggest is that you step back and tell us the real problem that you're trying to solve. I suspect that implementing recursive macros isn't the problem, it's a means to solve a problem you're having. Knowing the root problem will open up all sorts of other wondrous possibilities.

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1  
+1. If you really need this kind of abuse at compile time, using a more powerful preprocessor such as m4. –  Adam Rosenfield Feb 17 '11 at 5:15
2  
There really isn't a "real" problem. I wanted to make a preprocessor loop for the sake of making a preprocessor loop. –  Maxpm Feb 17 '11 at 5:19
4  
@Maxpm: you have way too much free time on your hands. Get back to work, or go spend some time with the family, or go rock climbing or something :-) –  paxdiablo Feb 17 '11 at 5:21
1  
I understand the answer, but I disagree with it. Prior to variadic templates, preprocessor looping was the closest thing. (With respect to maintainability and extensibility, I mean.) –  GManNickG Feb 17 '11 at 5:48
1  
There are all sorts of interesting things that can only be accomplished using macros (ok, that last one is kind of a joke, but the other two are quite serious). The preprocessor absolutely sucks: its behavior is very convoluted in many cases and is quite limited, but if you want to generate code without using any external tools, it's often the best tool for the job. –  James McNellis Feb 17 '11 at 6:41

EDIT: As James pointed out, my original solution did not work due to lazy evaluation of macros. If your compiler supports it, the macro __COUNTER__ increments by one every time it is called, and you can use it to do a simple preprocessor loop like this:

// Preprocessor.h
#define MAX_LOOP_ITERATION 16 // Be careful of off-by-one

// do stuff

#if (__COUNTER__ < MAX_LOOP_ITERATION)
#include "Preprocessor.h"
#endif

I verified this in Visual C by running cl /P Preprocessor.h.

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Macro evaluation is lazy, so in the #if directive here, PREPROCESSOR_LOOP_ITERATION is replaced by TEMPVALUE, which is not defined as a macro, so macro replacement stops. –  James McNellis Feb 17 '11 at 6:35
    
It was as you said. Updated my answer to something that worked, though probably compiler dependent. –  irritate Feb 17 '11 at 8:11
    
As a side note, some other uses for the __COUNTER__ macro appear in another question here: stackoverflow.com/questions/652815/… –  irritate Feb 17 '11 at 8:22

Look at the Boost Preprocessor 'library'. It can do most stuff.

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which compiler are you using? GCC has guards to prevent recursive macros (macro defined in terms of self)

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It's not just the GCC preprocessor; it's a standard feature of the C and C++ preprocessors. –  James McNellis Feb 17 '11 at 6:33

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