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I got this macro that posts events to some event-queue.

POST_(myTarget, event)

The event may either be posted directly to a local queue or may be serialized and posted to the event-queue of a I2C service which sends the event to another microcontroller. Wether the receiving service is local or remote is defined like

#define myTarget_REMOTE
#define anotherTarget_LOCAL

What I want to do is sth like this (which is certainly not allowed)

#define POST(target, e) \
    #ifdef target##_REMOTE \
        /* create a i2c request-event with serialized(e) 
           as parameter and post to I2c-Manager */
    #else \
        /* post directly */
        POST_(target, event) \

so, all the information is there at compile time, but i dont know how to tell the preprocessor what to do.

  • i could create two macros for each target depending on its local/remote define, but this would be messy.
  • i could do the test at runtime, but this would be a sad story also.


an example how the program will look like to be more clear:

#define target1_LOCAL
#define target2_REMOTE

POST(target1, e) ==preprocessor==> POST_(target1, e)

POST(target2, e) ==preprocessor==> 
    do { \
        req = createI2cRequest(serialize(e)); \
        POST_(I2cManager, req); \

so, in the programm i just use POST(target, event) and the location of the target is completely transparent.

share|improve this question
Why are you trying to do this (unsuccessfully) with a macro ? – Paul R Sep 3 '12 at 20:16
this done quite often and i think it should be possible anyhow cause all information is present at compile time. – Dill Sep 3 '12 at 20:19
No - it's not going to work - you can't have conditional compilation within a macro definition (or rather you can, but it doesn't do what you want it to) – Paul R Sep 3 '12 at 20:21
For the sake of precision, you can't do anything at compile time using macros, for the simple reason that the compile is fed with already precompiled files :p – Geoffroy Sep 3 '12 at 20:27
You should at least remove the semicolon after the funky do { ...} while(0) macro. – wildplasser Sep 3 '12 at 22:25

4 Answers 4

Conditional programming inside macros is a bit tricky, but doable with C99. In P99 I have programmed a family of conditionals that could be helpfull here.

#define myTarget_TYPE 0
#define anotherTarget_TYPE 1

#define POST(target, e)                                   \
    P99_IF_EQ_1(P99_PASTE2(target, _TYPE))                \
      (                                                   \
        /* create a i2c request-event with serialized(e)  \
           as parameter and post to I2c-Manager */        \
      )(                                                  \
        /* post directly */                               \
        POST_(target, event)                              \

The trick is that you should always have the one macro per target. For those that you want the first alternative you have it to the token 1. You could even omit to declare the others be to 0.

The general form is something like

P99_IF_COND( /* expression(s) for condition */ )(/* case true */)(/* case false*/)

there are a lot of things that you can do with COND above, testing for equality to a specific token, equality of decimal numbers, emptyness of a parameter list...

share|improve this answer
thanks for this, unfortunately my compiler (IAR for ARM Cortex) does complain in p99_block.h, line 472 "noreturn",: Error: expected a string literal. – Dill Sep 4 '12 at 8:23
@Dill, ah this compiler I don't know. There are probably some switches to adjust. You could try to just put a -Dnoreturn on the compiler comand line for a start. I would be happy to look into this but I will be traveling the next days. – Jens Gustedt Sep 4 '12 at 9:05
@Dill, could you please send me a more precise bug report offline? It would be nice to have something equivalent to gcc option -dM, something like gcc -E -dM ./p99.h to know all macros that your preprocessor provides. – Jens Gustedt Sep 10 '12 at 15:50
im on vacation till october, then ill do that. – Dill Sep 12 '12 at 21:14

Pull some definitions up like:-

#ifdef I2C
#define POST(target, e) POST(target##TARGETFUNC,e)
share|improve this answer
i dont get this one. i edit the original post to be more clear what i want to do. – Dill Sep 3 '12 at 20:37
#define post_myTarget(x)       remote_post(x)
#define post_anotherTarget(x)  local_post(x)

#define POST(target, e) post_##target(e)
share|improve this answer
this needs a #define for each target. if this is the only way ill do a check at runtime and choose a stable and maintainable program over speed. – Dill Sep 3 '12 at 20:46
up vote 0 down vote accepted

So i finally figured it out. The trick is to use the preprocessor to give the compiler all needed information and rely on the compiler to optimize the if/else away.

#define REMOTE  1
#define LOCAL   0


#define TEST(target) do { \
        if(target##_LOCATION == REMOTE) printf("REMOTE\n"); \
        else printf("LOCAL\n"); \



share|improve this answer

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