328

I have a cross platform application and in a few of my functions not all the values passed to functions are utilised. Hence I get a warning from GCC telling me that there are unused variables.

What would be the best way of coding around the warning?

An #ifdef around the function?

#ifdef _MSC_VER
void ProcessOps::sendToExternalApp(QString sAppName, QString sImagePath, qreal qrLeft, qreal qrTop, qreal qrWidth, qreal qrHeight)
#else
void ProcessOps::sendToExternalApp(QString sAppName, QString sImagePath, qreal /*qrLeft*/, qreal /*qrTop*/, qreal /*qrWidth*/, qreal /*qrHeight*/)
#endif
{

This is so ugly but seems like the way the compiler would prefer.

Or do I assign zero to the variable at the end of the function? (which I hate because it's altering something in the program flow to silence a compiler warning).

Is there a correct way?

6
  • 7
    I just realized you asked a similar question last November. This is why it looks familiar! ;) stackoverflow.com/questions/308277/…
    – Alex B
    Commented Sep 28, 2009 at 13:18
  • 10
    Why not just comment them out for both compilers? If the arg is unused on one, it'll probably be unused on the other... Commented Sep 28, 2009 at 13:28
  • 12
    you should know that Qt has a Q_UNUSED macro just for this. Check it out in the documentation.
    – Evan Teran
    Commented Sep 28, 2009 at 14:04
  • 1
    The C solution works fine in C++ too: stackoverflow.com/a/3599170/1904815
    – JonnyJD
    Commented Feb 17, 2014 at 13:01
  • -Wno-unused-parameter might also be an option if you can have compiler-specific build flags Commented Apr 16, 2018 at 21:01

23 Answers 23

434

You can put it in "(void)var;" expression (does nothing) so that a compiler sees it is used. This is portable between compilers.

E.g.

void foo(int param1, int param2)
{
    (void)param2;
    bar(param1);
}

Or,

#define UNUSED(expr) do { (void)(expr); } while (0)
...

void foo(int param1, int param2)
{
    UNUSED(param2);
    bar(param1);
}
17
  • 28
    +1 - still I would document why you don't use the variable even if it's there. Commented Sep 29, 2009 at 9:41
  • 22
    This is how Q_UNUSED is implemented in principle. Commented Jan 17, 2012 at 11:02
  • 17
    @Cameron you can simply omit parameter name in C++. If it's templated, it won't be used in C, so you don't need the cast-to-void trick.
    – Alex B
    Commented Oct 7, 2013 at 4:55
  • 16
    Just #define UNUSED(expr) (void)(expr) should work too (without the do-while).
    – JonnyJD
    Commented Feb 17, 2014 at 13:02
  • 8
    I wonder how to do that for a variadic template. In template<typename... Args> void f(const Args&... args) I can't write (void)args; or (void)args...; because both are syntax errors.
    – panzi
    Commented May 18, 2014 at 16:27
141

In GCC and Clang you can use the __attribute__((unused)) preprocessor directive to achieve your goal.
For example:

int foo (__attribute__((unused)) int bar) {
   return 0;
}
4
  • 4
    This is the best solution for callback functions.
    – Sonic Atom
    Commented Apr 14, 2016 at 13:11
  • 2
    Also supported by clang: clang.llvm.org/docs/…
    – Alexander
    Commented May 30, 2018 at 11:07
  • 2
    @SonicAtom No, because it is not portable. Commented Aug 31, 2020 at 16:15
  • 4
    Sadly this won't compile with e.g. MSVC so it's not a good portable solution. Commented Dec 20, 2020 at 13:49
139

C++17 now provides the [[maybe_unused]] attribute.

http://en.cppreference.com/w/cpp/language/attributes

Quite nice and standard.

2
  • 1
    This would be the best answer, unfortunately this solution seems to trigger some warnings in gcc stackoverflow.com/questions/50646334/…
    – Antonio
    Commented Jan 5, 2021 at 12:45
  • Works fine for me with gcc, you probably just need to enable c++17 or c++20 Commented May 25, 2022 at 16:27
63

C++17 Update

In C++17 we gain the attribute [[maybe_unused]] which is covered in [dcl.attr.unused]

The attribute-token maybe_unused indicates that a name or entity is possibly intentionally unused. It shall appear at most once in each attribute-list and no attribute-argument-clause shall be present. ...

Example:

 [[maybe_unused]] void f([[maybe_unused]] bool thing1,
                        [[maybe_unused]] bool thing2) {
  [[maybe_unused]] bool b = thing1 && thing2;
    assert(b);
 }

Implementations should not warn that b is unused, whether or not NDEBUG is defined. —end example ]

For the following example:

int foo ( int bar) {
    bool unused_bool ;
    return 0;
}

Both clang and gcc generate a diagnostic using -Wall -Wextra for both bar and unused_bool (See it live).

While adding [[maybe_unused]] silences the diagnostics:

int foo ([[maybe_unused]] int bar) {
    [[maybe_unused]] bool unused_bool ;
    return 0;
}

see it live.

Before C++17

In C++11 an alternative form of the UNUSED macro could be formed using a lambda expression(via Ben Deane) with an capture of the unused variable:

#define UNUSED(x) [&x]{}()

The immediate invocation of the lambda expression should be optimized away, given the following example:

int foo (int bar) {
    UNUSED(bar) ;
    return 0;
}

we can see in godbolt that the call is optimized away:

foo(int):
xorl    %eax, %eax
ret
3
  • 8
    So you mention C++11 and then manage to present a macro?! Ouch! Maybe using a function would be cleaner? template <class T> inline void NOTUSED( T const & result ) { static_cast<void>(result); } You could also use a lambda in the function, I suppose. Commented Sep 23, 2016 at 0:50
  • godbolt is a great resource
    – yano
    Commented Nov 10, 2016 at 19:54
  • 10
    [&x]{}() does not really silence the warning, but passes the warning over from caller function to the lambda instead. It'll take time till compilers identify this as a warning, but clang-tidy already complains about an unused variable in capture list.
    – nVxx
    Commented Apr 17, 2018 at 12:06
46

Your current solution is best - comment out the parameter name if you don't use it. That applies to all compilers, so you don't have to use the pre-processor to do it specially for GCC.

7
  • 8
    Just to reinforce this answer - you don't need the #ifdef, just comment out the unused parameter names.
    – quamrana
    Commented Sep 28, 2009 at 14:54
  • 6
    I have a case where the parameter is part of a callback and commenting it out breaks the compile (so I'm not sure why g++ is warning about it.) In such a case, what would you recommend? Commented Jan 31, 2013 at 20:36
  • 1
    Imagine an inline virtual method with unused parameters /*commented*/, the client of the interface will not see the parameter name during autocompletion in most IDEs. In this case the UNUSED() solution is more convenient, although less cleaner.
    – cbuchart
    Commented Jul 17, 2014 at 6:57
  • I think simpler is better, commenting out is very clear
    – fievel
    Commented Nov 16, 2018 at 10:07
  • @DrewNoakes did you just comment out the parameter name or also the parameter type?
    – Zac
    Commented Sep 28, 2022 at 15:55
30

An even cleaner way is to just comment out variable names:

int main(int /* argc */, char const** /* argv */) {
  return 0;
}
6
  • 12
    This is not good if you have doxygen and want to document the parameters. Commented Feb 2, 2014 at 5:47
  • 24
    @AlexisWilke: That would qualify as a bug in doxygen, IMO
    – 6502
    Commented Apr 10, 2014 at 12:30
  • 3
    You can #define YOUR_PROJECT_UNUSED(argname) conditionally upon #ifdef DOXYGEN so that doxygen can see the name and the real compiler does not, via int main(int YOUR_PROJECT_UNUSED(argc), ...). Not fabulous, but does work.
    – mabraham
    Commented May 7, 2015 at 13:11
  • I find it very painful to comment out a block of code with many such nested comments. (the compiler complains about every one). Commented Jun 14, 2018 at 23:12
  • @JeffMcClintock just use single-line comments. Most decent editors support vertical block editing (e.g. [Ctrl]+[V] in Vim). Otherwise, use #if 0 / #endif block comments.
    – Ruslan
    Commented Aug 13, 2018 at 9:46
27

doesn't flag these warnings by default. This warning must have been turned on either explicitly by passing -Wunused-parameter to the compiler or implicitly by passing -Wall -Wextra (or possibly some other combination of flags).

Unused parameter warnings can simply be suppressed by passing -Wno-unused-parameter to the compiler, but note that this disabling flag must come after any possible enabling flags for this warning in the compiler command line, so that it can take effect.

1
  • 2
    Even though, this might not be the best answer to the question (because the question was how to avoid the warning, not how to disable it), this answer might be the people coming from google (like me) were searching for ("how to disable this warning"). So I give +1, thanks for your answer!
    – mozzbozz
    Commented Sep 11, 2014 at 11:28
25

A coworker just pointed me to this nice little macro here

For ease I'll include the macro below.

#ifdef UNUSED
#elif defined(__GNUC__) 
# define UNUSED(x) UNUSED_ ## x __attribute__((unused)) 
#elif defined(__LCLINT__) 
# define UNUSED(x) /*@unused@*/ x 
#else 
# define UNUSED(x) x 
#endif

void dcc_mon_siginfo_handler(int UNUSED(whatsig))
1
  • 17
    "nice" "macro" "c++" - pick 2. Commented Jun 14, 2018 at 23:12
16

macro-less and portable way to declare one or more parameters as unused:

template <typename... Args> inline void unused(Args&&...) {}

int main(int argc, char* argv[])
{
    unused(argc, argv);
    return 0;
}
4
  • Very good, but note that this requires C++11 (or newer, of course).
    – Paul R
    Commented Jan 13, 2017 at 14:10
  • I voted this answer down because I wouldn't want to sacrifice compile time (by using templates) just to get rid of the warning. Commented May 9, 2019 at 16:02
  • 1
    @KonradKleine: How much compile time could this possibly consume? Testing on my computer, I can execute a thousand of these unused() calls in a tenth of the second. Commented Oct 3, 2019 at 18:11
  • @DanielMcLaury this was just my guessing and I haven't done any experiments. Commented Jan 15, 2020 at 10:45
12

I have seen this instead of the (void)param2 way of silencing the warning:

void foo(int param1, int param2)
{
    std::ignore = param2;
    bar(param1);
}

Looks like this was added in C++11

1
  • It seems doing something, not being ignored after compiling.
    – ghchoi
    Commented Feb 23, 2020 at 6:58
12

Lol! I dont think there is another question on SO that reveal all the heretics corrupted by Chaos better that this one!

With all due respect to C++17 there is a clear guideline in C++ Core Guidelines. AFAIR, back in 2009 this option was available as well as today. And if somebody says it is considered as a bug in Doxygen then there is a bug in Doxygen

2
  • 3
    how typical for SO! the best answer having the lowest voting... (palmface)
    – Dmitry
    Commented Jul 7, 2020 at 19:57
  • 1
    C++ core guidelines are pretty clear F.9: Unused parameters should be unnamed. I love the note... Note: Allowing parameters to be unnamed was introduced in the early 1980 to address this problem.
    – GrendleM
    Commented Sep 16, 2020 at 17:30
9

Using preprocessor directives is considered evil most of the time. Ideally you want to avoid them like the Pest. Remember that making the compiler understand your code is easy, allowing other programmers to understand your code is much harder. A few dozen cases like this here and there makes it very hard to read for yourself later or for others right now.

One way might be to put your parameters together into some sort of argument class. You could then use only a subset of the variables (equivalent to your assigning 0 really) or having different specializations of that argument class for each platform. This might however not be worth it, you need to analyze whether it would fit.

If you can read impossible templates, you might find advanced tips in the "Exceptional C++" book. If the people who would read your code could get their skillset to encompass the crazy stuff taught in that book, then you would have beautiful code which can also be easily read. The compiler would also be well aware of what you are doing (instead of hiding everything by preprocessing)

4
  • 8
    "Using preprocessor directives is considered evil most of the time." Really? By who? Commented Sep 28, 2009 at 13:51
  • 15
    By anyone who cares about scope, being able to debug properly, or their sanity.
    – Bill
    Commented Sep 28, 2009 at 14:22
  • 3
    @Graeme, it looks innocent when we only see 4 lines of it, but spread around it does cause headache. #ifdef basically allows you to put multiple versions of a source code of which the compiler will only see one. As Bill mentions, it also makes it harder to debug. I have read about the evilness of preprocessor directives in diverse books and blogs, as well as having experienced it myself. Of course, everything is relative. Sometimes preprocessor directives simply make sense because anything else would have worse consequences, and my point is here only that it should be avoided where possible. Commented Sep 28, 2009 at 17:44
  • 2
    Overuse is bad, but I would call #define UNUSED(expr) (void)(expr) appropriate.
    – JonnyJD
    Commented Feb 17, 2014 at 13:03
7

First off the warning is generated by the variable definition in the source file not the header file. The header can stay pristine and should, since you might be using something like doxygen to generate the API-documentation.

I will assume that you have completely different implementation in source files. In these cases you can either comment out the offending parameter or just write the parameter.

Example:

func(int a, int b)
{
    b;
    foo(a);
}

This might seem cryptic, so defined a macro like UNUSED. The way MFC did it is:

#ifdef _DEBUG
#define UNUSED(x)
#else
#define UNUSED(x) x
#endif

Like this you see the warning still in debug builds, might be helpful.

4

Is it not safe to always comment out parameter names? If it's not you can do something like

#ifdef _MSC_VER
# define P_(n) n
#else
# define P_(n)
#endif

void ProcessOps::sendToExternalApp(
    QString sAppName, QString sImagePath,
    qreal P_(qrLeft), qreal P_(qrTop), qreal P_(qrWidth), qreal P_(qrHeight))

It's a bit less ugly.

2
  • 4
    The fact that the param name isn't mandatory in C++ -- it is in C -- is just to give a standard and easy way to prevent the warning. Commented Sep 28, 2009 at 13:24
  • 1
    @hacker, never said it was. I tend to point out differences between C and C++, especially when they are in regions which you'd think is the common subset... Just an habit because I'm working on a mixed code base. Commented Sep 28, 2009 at 15:09
4

Using an UNREFERENCED_PARAMETER(p) could work. I know it is defined in WinNT.h for Windows systems and can easily be defined for gcc as well (if it doesn't already have it).

UNREFERENCED PARAMETER(p) is defined as

#define UNREFERENCED_PARAMETER(P)          (P)

in WinNT.h.

1
  • So, using the parameter to hide warnings about it not being used?
    – user4945014
    Commented Sep 2, 2021 at 23:55
4

Use compiler's flag, e.g. flag for GCC: -Wno-unused-variable

1

In C++11, this is the solution I'm using:

template<typename... Ts> inline void Unreferenced(Ts&&...) {}

int Foo(int bar) 
{
    Unreferenced(bar);
    return 0;
}

int Foo2(int bar1, int bar2) 
{
    Unreferenced(bar1, bar2);
    return 0;
}

Verified to be portable (at least on modern msvc, clang and gcc) and not producing extra code when optimizations are enabled. With no optimization, the extra function call is performed and references to the parameters are copied to the stack, but there are no macros involved.

If the extra code is an issue, you can use this declaration instead:

(decltype(Unreferenced(bar1, bar2)))0;

but at that point, a macro provides better readability:

#define UNREFERENCED(...) { (decltype(Unreferenced(__VA_ARGS__)))0; }
1

This works well but requires C++11

template <typename ...Args>
void unused(Args&& ...args)
{
  (void)(sizeof...(args));
}
1
  • 1
    What about this requires C++14 and would not work in C++11? I can't see anything. Also, it is discouraged to use ALLCAPS for anything except macros, which is to make them look ugly and undesirable, but there isn't anything bad about this, really, except that a static_cast would be nicer. Commented Oct 27, 2018 at 17:00
0

I found most of the presented answers work for local unused variable only, and will cause compile error for unused static global variable.

Another macro needed to suppress the warning of unused static global variable.

template <typename T>
const T* UNUSED_VARIABLE(const T& dummy) { 
    return &dummy;
}
#define UNUSED_GLOBAL_VARIABLE(x) namespace {\
    const auto dummy = UNUSED_VARIABLE(x);\
}

static int a = 0;
UNUSED_GLOBAL_VARIABLE(a);

int main ()
{
    int b = 3;
    UNUSED_VARIABLE(b);
    return 0;
}

This works because no warning will be reported for non-static global variable in anonymous namespace.

C++ 11 is required though

 g++  -Wall -O3  -std=c++11 test.cpp
0
void func(void *aux UNUSED)
{
    return;
}

smth like that, in that case if u dont use aux it wont warn u

0

define a macro for unused local variable:

#define UNUSED(x)  (void)((x))
-1

For Objective-C:

You can use __unused to tell the compiler that variable might not be used.

- (void)myMethod:(__unused NSObject *)theObject    
{
    // there will be no warning about `theObject`, because you wrote `__unused`

    __unused int theInt = 0;
    // there will be no warning, but you are still able to use `theInt` in the future
}
2
  • 3
    Which compiler? Because __unused is not standard C++, and more to the point, neither is what you posted... That's Objective-C. So this answer is only really useful for specific compiler(s), and it makes the code non-portable, and in fact not really valid since user code is not meant to use identifiers beginning with __, which are reserved for the implementation. Commented Oct 27, 2018 at 16:54
  • @underscore_d alright, i have added a note that this is only valid for ObjC
    – OlDor
    Commented Apr 7 at 2:09
-16

I don't see your problem with the warning. Document it in the method/function header that compiler xy will issue a (correct) warning here, but that theses variables are needed for platform z.

The warning is correct, no need to turn it off. It does not invalidate the program - but it should be documented, that there is a reason.

13
  • 23
    The problem is that, if you have hundreds or thousands of such warnings, you might miss the one that is useful. (Twice I was in the situation to wade through several ten thousand warnings, eliminating most, and finding a few truly useful once that hinted at serious errors.) It's always good to compile without warnings, if possible on the highest warning level.
    – sbi
    Commented Sep 28, 2009 at 13:52
  • 6
    In a project I worked on last year I turned on the highest warning level and got ~10,000 warnings. Only a few dozen were really helpful. Among those were hidden about a dozen really nasty bugs, but it took several man weeks to clean the code base to the point where one could actually see the few serious ones. Had the warning level been up all the time and the code base been kept warning-free, those errors would never have crept into the code.
    – sbi
    Commented Sep 29, 2009 at 8:49
  • 1
    sorry - but doing the static code analysis (using whatever tool you have available, even if it's only the compiler) late in the project is a little bit like programming the whole program and when you finish, press compile and hope you have no errors. Commented Sep 29, 2009 at 9:40
  • 2
    @Richard: I worked on projects with thousands of source files. A little warning here and there, even well documented ones, quickly adds up. Even if you have only dozens of warnings flashing by during a build (instead of hundreds or thousands), having to look them up individually to see whether they are new ones or documented ones is too time-consuming and, in the end, won't be done. Therefor: Compile on the highest possible warning level with zero warnings. Every warning that comes up will be noticed immediately, looked at it, and either fixed or surpressed.
    – sbi
    Commented Sep 29, 2009 at 11:55
  • 2
    @sbi: turining on the highest warning level for your compiler is some form of static code analysis. Static code analysis is just reading the code without executing it and deducting information from it. That's exactly what the compiler does when he checks his rules for warnings. Commented Sep 30, 2009 at 5:56

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