The C preprocessor is justifiably feared and shunned by the C++ community. In-lined functions, consts and templates are usually a safer and superior alternative to a #define.

The following macro:

#define SUCCEEDED(hr) ((HRESULT)(hr) >= 0)  

is in no way superior to the type safe:

inline bool succeeded(int hr) { return hr >= 0; }

But macros do have their place, please list the uses you find for macros that you can't do without the preprocessor.

Please put each use-cases in a seperate answer so it can be voted up and if you know of how to achieve one of the answers without the preprosessor point out how in that answer's comments.

closed as too broad by Samuel Liew Aug 7 '18 at 1:32

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

  • I once took a C++ application full of macros that took 45 minutes to build, replaced the macros with inline functions, and got the build down to less than 15 minutes. – endian Oct 23 '08 at 7:37
  • Static Assert – Özgür Mar 8 '09 at 0:42
  • The thread is about contexts in which macros are beneficial, not contexts in which they are suboptimal. – underscore_d May 25 '17 at 21:46

38 Answers 38


As wrappers for debug functions, to automatically pass things like __FILE__, __LINE__, etc:

#ifdef ( DEBUG )
#define M_DebugLog( msg )  std::cout << __FILE__ << ":" << __LINE__ << ": " << msg
#define M_DebugLog( msg )
  • 14
    Actually, the original snippet: << FILE ":" << is fine, FILE generates a string constant, which will be concatenated with the ":" into a single string by the pre-processor. – Frank Szczerba Mar 19 '09 at 23:59
  • 12
    This only requires the preprocessor because __FILE__ and __LINE__ also require the preprocessor. Using them in your code is like an infection vector for the preprocessor. – T.E.D. Apr 30 '12 at 18:53

Methods must always be complete, compilable code; macros may be code fragments. Thus you can define a foreach macro:

#define foreach(list, index) for(index = 0; index < list.size(); index++)

And use it as thus:

foreach(cookies, i)
    printf("Cookie: %s", cookies[i]);

Since C++11, this is superseded by the range-based for loop.

  • 6
    +1 If you are using some ridiculously complex iterator syntax, writing a foreach style macro can make your code much easier to read and maintain. I've done it, it works. – postfuturist Oct 25 '08 at 21:01
  • 9
    Most comments completely irrelevant to the point that macros may be code fragments instead of complete code. But thank you for the nitpicking. – jdmichal Nov 12 '08 at 20:15
  • 12
    This is C not C++. If you are doing C++, you should be using iterators and std::for_each. – chrish Jun 11 '09 at 19:19
  • 20
    I disagree, chrish. Before lambda's, for_each was a nasty thing, because the code each element was runnnig through was not local to the calling point. foreach, (and I highly recommend BOOST_FOREACH instead of a hand-rolled solution) let's you keep the code close to the iteration site, making it more readable. That said, once lambda's roll out, for_each might once again be the way to go. – GManNickG Aug 18 '09 at 23:50
  • 8
    And it's worth noting that BOOST_FOREACH is itself a macro (but a very well-thought-out one) – Tyler McHenry Aug 18 '09 at 23:56

Header file guards necessitate macros.

Are there any other areas that necessitate macros? Not many (if any).

Are there any other situations that benefit from macros? YES!!!

One place I use macros is with very repetitive code. For example, when wrapping C++ code to be used with other interfaces (.NET, COM, Python, etc...), I need to catch different types of exceptions. Here's how I do that:

catch (::mylib::exception& e) { \
    throw gcnew MyDotNetLib::Exception(e); \
} \
catch (::std::exception& e) { \
    throw gcnew MyDotNetLib::Exception(e, __LINE__, __FILE__); \
} \
catch (...) { \
    throw gcnew MyDotNetLib::UnknownException(__LINE__, __FILE__); \

I have to put these catches in every wrapper function. Rather than type out the full catch blocks each time, I just type:

void Foo()
    try {

This also makes maintenance easier. If I ever have to add a new exception type, there's only one place I need to add it.

There are other useful examples too: many of which include the __FILE__ and __LINE__ preprocessor macros.

Anyway, macros are very useful when used correctly. Macros are not evil -- their misuse is evil.

  • 7
    Most compilers support #pragma once these days, so I doubt guards are really necessary – 1800 INFORMATION Sep 18 '08 at 20:10
  • 13
    They are if you're writing for all compilers instead of only most ;-) – Steve Jessop Sep 18 '08 at 20:13
  • 29
    So instead of portable, standard preprocessor functionality, you recommend using a preprocessor extension to avoid using the preprocessor? Seems sort of ridiculous to me. – Logan Capaldo Mar 8 '09 at 0:49
  • #pragma once breaks on many common build systems. – Miles Rout Jun 3 '14 at 3:58
  • 4
    There is a solution for that that doesn't require macros: void handleExceptions(){ try { throw } catch (::mylib::exception& e) {....} catch (::std::exception& e) {...} ... }. And on the function side: void Foo(){ try {::mylib::Foo() } catch (...) {handleExceptions(); } } – MikeMB Jul 2 '16 at 23:59


  1. Include guards
  2. Conditional compilation
  3. Reporting (predefined macros like __LINE__ and __FILE__)
  4. (rarely) Duplicating repetitive code patterns.
  5. In your competitor's code.

Inside conditional compilation, to overcome issues of differences between compilers:

#ifdef ARE_WE_ON_WIN32
#define close(parm1)            _close (parm1)
#define rmdir(parm1)            _rmdir (parm1)
#define mkdir(parm1, parm2)     _mkdir (parm1)
#define access(parm1, parm2)    _access(parm1, parm2)
#define create(parm1, parm2)    _creat (parm1, parm2)
#define unlink(parm1)           _unlink(parm1)
  • 12
    In C++, the same could be obtained through the use of inline functions: <code>#ifdef ARE_WE_ON_WIN32 <br>inline int close(int i) { return _close(i) ; } <br> #endif</code> – paercebal Oct 22 '08 at 22:31
  • 2
    That removes the #define's, but not the #ifdef and #endif. Anyway, I agree with you. – Gorpik Oct 23 '08 at 8:16
  • 16
    NEVER EVER define lower case macros. Macros to alter functions are my nightmare (thank you Microsoft). Best example is in first line. Many libraries have close functions or methods. Then when you include header of this library and header with this macro than you have a big problem, you are unable to use library API. – Marek R May 28 '15 at 14:56
  • AndrewStein, do you see any benefit to the use of macros in this context over @paercebal's suggestion? If not, it seems macros are actually gratuitous. – einpoklum Apr 20 '16 at 11:10
  • 1
    #ifdef WE_ARE_ON_WIN32 plz :) – Lightness Races in Orbit Aug 3 '18 at 14:27

When you want to make a string out of an expression, the best example for this is assert (#x turns the value of x to a string).

#define ASSERT_THROW(condition) \
if (!(condition)) \
     throw std::exception(#condition " is false");
  • 5
    Just a nitpick, but I personally would leave the semicolon off. – Michael Myers Sep 18 '08 at 21:05
  • 10
    I agree, in fact I would put it in a do {} while(false) (to prevent else highjacking) but I wanted to keep it simple. – Motti Oct 5 '08 at 18:24

String constants are sometimes better defined as macros since you can do more with string literals than with a const char *.

e.g. String literals can be easily concatenated.

#define BASE_HKEY "Software\\Microsoft\\Internet Explorer\\"
// Now we can concat with other literals
RegOpenKey(HKEY_CURRENT_USER, BASE_HKEY "Settings", &settings);

If a const char * were used then some sort of string class would have to be used to perform the concatenation at runtime:

const char* BaseHkey = "Software\\Microsoft\\Internet Explorer\\";
RegOpenKey(HKEY_CURRENT_USER, (string(BaseHkey) + "Settings").c_str(), &settings);
RegOpenKey(HKEY_CURRENT_USER, (string(BaseHkey) + "TypedURLs").c_str(), &URLs);
  • 2
    In C++11, I'd consider this to be the most important part (other than include guards). Macros are really the best thing that we have for compile-time string processing. That is a feature that I hope we get in C++11++ – David Stone Nov 16 '12 at 3:34
  • 1
    This is the situation that led to me wishing for macros in C#. – Rawling Dec 5 '12 at 15:25
  • 2
    I wish I could +42 this. A very important, though not often remembered aspect of string literals. – Daniel Kamil Kozar Mar 25 '16 at 11:22

When you want to change the program flow (return, break and continue) code in a function behaves differently than code that is actually inlined in the function.

#define ASSERT_RETURN(condition, ret_val) \
if (!(condition)) { \
    assert(false && #condition); \
    return ret_val; }

// should really be in a do { } while(false) but that's another discussion.
  • Throwing an exception seems to me like a better alternative. – einpoklum Apr 20 '16 at 11:11
  • When writing python C(++) extensions, exceptions are propagated by setting an exception string, then returning -1 or NULL. So a macro can greatly reduce boilerplate code there. – black_puppydog Oct 14 '16 at 12:59

The obvious include guards

#ifndef MYHEADER_H
#define MYHEADER_H



You can't perform short-circuiting of function call arguments using a regular function call. For example:

#define andm(a, b) (a) && (b)

bool andf(bool a, bool b) { return a && b; }

andm(x, y) // short circuits the operator so if x is false, y would not be evaluated
andf(x, y) // y will always be evaluated
  • 3
    Maybe a more general point: functions evaluate their arguments exactly once. Macros can evaluate arguments more times or fewer times. – Steve Jessop Sep 18 '08 at 20:06
  • @[Greg Rogers] all the macro preprocessor does is substitute text. Once you understand that, there should be no more mystery about it. – 1800 INFORMATION Sep 18 '08 at 20:08
  • You could get the equivalent behavior by templatizing andf instead of forcing the evaluation to bool before calling the function. I wouldn't have realized what you said was true without trying it for myself though. Interesting. – Greg Rogers Sep 18 '08 at 20:11
  • How exactly could you do that with a template? – 1800 INFORMATION Sep 18 '08 at 21:47
  • 5
    Hiding short-circuiting operations behind a function style macro is one of the things I really don't want to see in production code. – MikeMB Jul 3 '16 at 0:08

Let's say we'll ignore obvious things like header guards.

Sometimes, you want to generate code that needs to be copy/pasted by the precompiler:

#define RAISE_ERROR_STL(p_strMessage)                                          \
do                                                                             \
{                                                                              \
   try                                                                         \
   {                                                                           \
      std::tstringstream strBuffer ;                                           \
      strBuffer << p_strMessage ;                                              \
      strMessage = strBuffer.str() ;                                           \
      raiseSomeAlert(__FILE__, __FUNCSIG__, __LINE__, strBuffer.str().c_str()) \
   }                                                                           \
   catch(...){}                                                                \
   {                                                                           \
   }                                                                           \
}                                                                              \

which enables you to code this:

RAISE_ERROR_STL("Hello... The following values " << i << " and " << j << " are wrong") ;

And can generate messages like:

Error Raised:
File : MyFile.cpp, line 225
Function : MyFunction(int, double)
Message : "Hello... The following values 23 and 12 are wrong"

Note that mixing templates with macros can lead to even better results (i.e. automatically generating the values side-by-side with their variable names)

Other times, you need the __FILE__ and/or the __LINE__ of some code, to generate debug info, for example. The following is a classic for Visual C++:

#define WRNG_PRIVATE_STR2(z) #z
#define WRNG __FILE__ "("WRNG_PRIVATE_STR1(__LINE__)") : ------------ : "

As with the following code:

#pragma message(WRNG "Hello World")

it generates messages like:

C:\my_project\my_cpp_file.cpp (225) : ------------ Hello World

Other times, you need to generate code using the # and ## concatenation operators, like generating getters and setters for a property (this is for quite a limited cases, through).

Other times, you will generate code than won't compile if used through a function, like:

#define MY_TRY      try{
#define MY_CATCH    } catch(...) {
#define MY_END_TRY  }

Which can be used as

   doSomethingDangerous() ;
   tryToRecoverEvenWithoutMeaningfullInfo() ;
   damnThoseMacros() ;

(still, I only saw this kind of code rightly used once)

Last, but not least, the famous boost::foreach !!!

#include <string>
#include <iostream>
#include <boost/foreach.hpp>

int main()
    std::string hello( "Hello, world!" );

    BOOST_FOREACH( char ch, hello )
        std::cout << ch;

    return 0;

(Note: code copy/pasted from the boost homepage)

Which is (IMHO) way better than std::for_each.

So, macros are always useful because they are outside the normal compiler rules. But I find that most the time I see one, they are effectively remains of C code never translated into proper C++.

  • 1
    Use the CPP only for what the compiler cannot do. For example, RAISE_ERROR_STL should use the CPP only to determine file, line, and function signature, and pass those to a function (possibly inline) that does the rest. – Rainer Blome Feb 4 '16 at 14:20
  • Please update your answer to reflect C++11 and address @RainerBlome's comment. – einpoklum Apr 20 '16 at 11:13
  • @RainerBlome : We do agree. The RAISE_ERROR_STL macro is pre-C++11, so in that context, it is fully justified. My understanding (but I have never had the occasion to deal with those specific features) is that you can use variadic templates (or macros?) in Modern C++ to solve the problem more elegantly. – paercebal Apr 24 '16 at 12:10
  • @einpoklum : "Please update your answer to reflect C++11 and address RainerBlome's comment" No. :-) . . . I believe, at best, I will add a section for Modern C++, with alternative implementations reducing or eliminating the need for macros, but the point stands: Macros are ugly and evil, but when you need to do something the compiler doesn't understand, you do it via macros. – paercebal Apr 24 '16 at 12:14
  • Even with C++11, a lot of what your macro does can be left for a function to do: #include <sstream> #include <iostream> using namespace std; void trace(char const * file, int line, ostream & o) { cerr<<file<<":"<<line<<": "<< static_cast<ostringstream & >(o).str().c_str()<<endl; } struct Oss { ostringstream s; ostringstream & lval() { return s; } }; #define TRACE(ostreamstuff) trace(__FILE__, __LINE__, Oss().lval()<<ostreamstuff) int main() { TRACE("Hello " << 123); return 0; } That way, the macro is way shorter. – Rainer Blome Apr 29 '16 at 13:28

Unit test frameworks for C++ like UnitTest++ pretty much revolve around preprocessor macros. A few lines of unit test code expand into a hierarchy of classes that wouldn't be fun at all to type manually. Without something like UnitTest++ and it's preprocessor magic, I don't know how you'd efficiently write unit tests for C++.

  • Unittests are perfectly possible to write without a framework. In the end, it only really depends on what kind of output you want. If you don't care, a simple exit value indicating success or failure should be perfectly fine. – Clearer Jun 19 '18 at 13:44

To fear the C preprocessor is like to fear the incandescent bulbs just because we get fluorescent bulbs. Yes, the former can be {electricity | programmer time} inefficient. Yes, you can get (literally) burned by them. But they can get the job done if you properly handle it.

When you program embedded systems, C uses to be the only option apart form assembler. After programming on desktop with C++ and then switching to smaller, embedded targets, you learn to stop worrying about “inelegancies” of so many bare C features (macros included) and just trying to figure out the best and safe usage you can get from those features.

Alexander Stepanov says:

When we program in C++ we should not be ashamed of its C heritage, but make full use of it. The only problems with C++, and even the only problems with C, arise when they themselves are not consistent with their own logic.

  • I think this is the wrong attitude. Just because you can learn to "properly handle it" doesn't mean it's worth anyone's time and effort. – Neil G Apr 7 '10 at 23:20

We use the __FILE__ and __LINE__ macros for diagnostic purposes in information rich exception throwing, catching and logging, together with automated log file scanners in our QA infrastructure.

For instance, a throwing macro OUR_OWN_THROW might be used with exception type and constructor parameters for that exception, including a textual description. Like this:

OUR_OWN_THROW(InvalidOperationException, (L"Uninitialized foo!"));

This macro will of course throw the InvalidOperationException exception with the description as constructor parameter, but it'll also write a message to a log file consisting of the file name and line number where the throw occured and its textual description. The thrown exception will get an id, which also gets logged. If the exception is ever caught somewhere else in the code, it will be marked as such and the log file will then indicate that that specific exception has been handled and that it's therefore not likely the cause of any crash that might be logged later on. Unhandled exceptions can be easily picked up by our automated QA infrastructure.


Code repetition.

Have a look to boost preprocessor library, it's a kind of meta-meta-programming. In topic->motivation you can find a good example.

  • I almost all, if not all, cases - code repetition can be avoided with function calls. – einpoklum Apr 20 '16 at 11:13
  • @einpoklum: I don't agree. Have a look to the link – Ruggero Turra Apr 20 '16 at 13:19

Some very advanced and useful stuff can still be built using preprocessor (macros), which you would never be able to do using the c++ "language constructs" including templates.


Making something both a C identifier and a string

Easy way to use variables of enum types as string in C

Boost Preprocessor Metaprogramming

  • The third link is broken fyi – Robin Hartland Jun 28 '15 at 21:01
  • Take a look stdio.h and sal.h file in vc12 for better understand. – Elshan May 17 '16 at 10:54

I occasionally use macros so I can define information in one place, but use it in different ways in different parts of the code. It's only slightly evil :)

For example, in "field_list.h":

 * List of fields, names and values.
FIELD(EXAMPLE1, "first example", 10)
FIELD(EXAMPLE2, "second example", 96)
FIELD(ANOTHER, "more stuff", 32)
#undef FIELD

Then for a public enum it can be defined to just use the name:

#define FIELD(name, desc, value) FIELD_ ## name,

typedef field_ {

#include "field_list.h"


} field_en;

And in a private init function, all the fields can be used to populate a table with the data:

#define FIELD(name, desc, value) \
    table[FIELD_ ## name].desc = desc; \
    table[FIELD_ ## name].value = value;

#include "field_list.h"

One common use is for detecting the compile environment, for cross-platform development you can write one set of code for linux, say, and another for windows when no cross platform library already exists for your purposes.

So, in a rough example a cross-platform mutex can have

void lock()
    #ifdef WIN32
    #ifdef POSIX

For functions, they are useful when you want to explicitly ignore type safety. Such as the many examples above and below for doing ASSERT. Of course, like a lot of C/C++ features you can shoot yourself in the foot, but the language gives you the tools and lets you decide what to do.

  • Since the questioner asked: this can be done without macros by including different headers via different include paths per platform. I'm inclined to agree though that macros are often more convenient. – Steve Jessop Sep 18 '08 at 19:59
  • I second that. If you start using macros for that purpose, the code can quickly become much less readable – Nemanja Trifunovic Sep 18 '08 at 20:38

Something like

void debugAssert(bool val, const char* file, int lineNumber);
#define assert(x) debugAssert(x,__FILE__,__LINE__);

So that you can just for example have

assert(n == true);

and get the source file name and line number of the problem printed out to your log if n is false.

If you use a normal function call such as

void assert(bool val);

instead of the macro, all you can get is your assert function's line number printed to the log, which would be less useful.

  • Why would you reinvent the wheel when implementations of the Standard Library already provide via <cassert> the assert() macro, which dumps the file/line/function info? (in all implementations I've seen, anyway) – underscore_d May 25 '17 at 21:39
#define ARRAY_SIZE(arr) (sizeof arr / sizeof arr[0])

Unlike the 'preferred' template solution discussed in a current thread, you can use it as a constant expression:

char src[23];
int dest[ARRAY_SIZE(src)];
  • 2
    This can be done with templates in a safer way (which won't compile if passed a pointer rather than an array) stackoverflow.com/questions/720077/calculating-size-of-an-array/… – Motti Aug 13 '09 at 20:17
  • Now that we have constexpr in C++11, the safe (non-macro) version can also be used in a constant expression. template<typename T, std::size_t size> constexpr std::size_t array_size(T const (&)[size]) { return size; } – David Stone Sep 9 '15 at 2:02

You can use #defines to help with debugging and unit test scenarios. For example, create special logging variants of the memory functions and create a special memlog_preinclude.h:

#define malloc memlog_malloc
#define calloc memlog calloc
#define free memlog_free

Compile you code using:

gcc -Imemlog_preinclude.h ...

An link in your memlog.o to the final image. You now control malloc, etc, perhaps for logging purposes, or to simulate allocation failures for unit tests.


I use macros to easily define Exceptions:

DEF_EXCEPTION(RessourceNotFound, "Ressource not found")


#define DEF_EXCEPTION(A, B) class A : public exception\
    virtual const char* what() const throw()\
      return B;\

Compilers can refuse your request to inline.

Macros will always have their place.

Something I find useful is #define DEBUG for debug tracing -- you can leave it 1 while debugging a problem (or even leave it on during the whole development cycle) then turn it off when it is time to ship.

  • 10
    If the compiler refuses your request to inline, it might have a very good reason. A good compiler will be better at inlining properly than you are, and a bad one will give you more performance problems than this. – David Thornley Oct 23 '08 at 19:22
  • @DavidThornley Or it might not be a great optimising compiler like GCC or CLANG/LLVM. Some compilers are just crap. – Miles Rout Jun 3 '14 at 4:08

When you are making a decision at compile time over Compiler/OS/Hardware specific behavior.

It allows you to make your interface to Comppiler/OS/Hardware specific features.

#if defined(MY_OS1) && defined(MY_HARDWARE1)
#define   MY_ACTION(a,b,c)      doSothing_OS1HW1(a,b,c);}
#elif define(MY_OS1) && defined(MY_HARDWARE2)
#define   MY_ACTION(a,b,c)      doSomthing_OS1HW2(a,b,c);}
#elif define(MY_SUPER_OS)
          /* On this hardware it is a null operation */
#define   MY_ACTION(a,b,c)
#error  "PLEASE DEFINE MY_ACTION() for this Compiler/OS/HArdware configuration"

In my last job, I was working on a virus scanner. To make thing easier for me to debug, I had lots of logging stuck all over the place, but in a high demand app like that, the expense of a function call is just too expensive. So, I came up with this little Macro, that still allowed me to enable the debug logging on a release version at a customers site, without the cost of a function call would check the debug flag and just return without logging anything, or if enabled, would do the logging... The macro was defined as follows:

#define dbgmsg(_FORMAT, ...)  if((debugmsg_flag  & 0x00000001) || (debugmsg_flag & 0x80000000))     { log_dbgmsg(_FORMAT, __VA_ARGS__);  }

Because of the VA_ARGS in the log functions, this was a good case for a macro like this.

Before that, I used a macro in a high security application that needed to tell the user that they didn't have the correct access, and it would tell them what flag they needed.

The Macro(s) defined as:

#define SECURITY_CHECK(lRequiredSecRoles) if(!DoSecurityCheck(lRequiredSecRoles, #lRequiredSecRoles, true)) return
#define SECURITY_CHECK_QUIET(lRequiredSecRoles) (DoSecurityCheck(lRequiredSecRoles, #lRequiredSecRoles, false))

Then, we could just sprinkle the checks all over the UI, and it would tell you which roles were allowed to perform the action you tried to do, if you didn't already have that role. The reason for two of them was to return a value in some places, and return from a void function in others...


LRESULT CAddPerson1::OnWizardNext() 
   if(m_Role.GetItemData(m_Role.GetCurSel()) == parent->ROLE_EMPLOYEE) {
   } else if(m_Role.GetItemData(m_Role.GetCurSel()) == parent->ROLE_CONTINGENT) {

Anyways, that's how I've used them, and I'm not sure how this could have been helped with templates... Other than that, I try to avoid them, unless REALLY necessary.


Yet another foreach macros. T: type, c: container, i: iterator

#define foreach(T, c, i) for(T::iterator i=(c).begin(); i!=(c).end(); ++i)
#define foreach_const(T, c, i) for(T::const_iterator i=(c).begin(); i!=(c).end(); ++i)

Usage (concept showing, not real):

void MultiplyEveryElementInList(std::list<int>& ints, int mul)
    foreach(std::list<int>, ints, i)
        (*i) *= mul;

int GetSumOfList(const std::list<int>& ints)
    int ret = 0;
    foreach_const(std::list<int>, ints, i)
        ret += *i;
    return ret;

Better implementations available: Google "BOOST_FOREACH"

Good articles available: Conditional Love: FOREACH Redux (Eric Niebler) http://www.artima.com/cppsource/foreach.html


Maybe the greates usage of macros is in platform-independent development. Think about cases of type inconsistency - with macros, you can simply use different header files -- like: --WIN_TYPES.H

typedef ...some struct


typedef ...some another struct


#ifdef WIN32

#include TYPES_H

Much readable than implementing it in other ways, to my opinion.


Seems VA_ARGS have only been mentioned indirectly so far:

When writing generic C++03 code, and you need a variable number of (generic) parameters, you can use a macro instead of a template.

#define CALL_RETURN_WRAPPER(FnType, FName, ...)          \
  if( FnType theFunction = get_op_from_name(FName) ) {   \
    return theFunction(__VA_ARGS__);                     \
  } else {                                               \
    throw invalid_function_name(FName);                  \
  }                                                      \

Note: In general, the name check/throw could also be incorporated into the hypothetical get_op_from_name function. This is just an example. There might be other generic code surrounding the VA_ARGS call.

Once we get variadic templates with C++11, we can solve this "properly" with a template.


I think this trick is a clever use of the preprocessor that can't be emulated with a function :

#define COMMENT_SLASH(s) /##s

#if defined _DEBUG
#define DEBUG_ONLY

Then you can use it like this:

cout <<"Hello, World!" <<endl;
DEBUG_ONLY cout <<"This is outputed only in debug mode" <<endl;

You can also define a RELEASE_ONLY macro.

  • 2
    This trick does not work according to the standard. It attempts to create a comment marker through the preprocessor, but comments are to be removed before the preprocessor runs. A conforming compiler will cause a syntax error here. – David Thornley Oct 23 '08 at 19:20
  • 2
    Sorry David but the compiler must contain a second copy of comment removal. – Joshua Aug 13 '09 at 20:16
  • much easier is to make the debugging flag a global const bool, and use code like this: if(debug) cout << "..."; -- no need for macros! – Stefan Monov Jan 17 '10 at 16:51
  • @Stefan : Indeed, it's what I do now. Any decent compiler will not generate any code if debug is false in that case. – Mathieu Pagé Jan 18 '10 at 2:14

You can #define constants on the compiler command line using the -D or /D option. This is often useful when cross-compiling the same software for multiple platforms because you can have your makefiles control what constants are defined for each platform.

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