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I just ran across the following error (and found the solution online, but it's not present in Stack Overflow):

(.gnu.linkonce.[stuff]): undefined reference to [method] [object file]:(.gnu.linkonce.[stuff]): undefined reference to `typeinfo for [classname]'

Why might one get one of these "undefined reference to typeinfo" linker errors?

(Bonus points if you can explain what's going on behind the scenes.)

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I know it's an old post, but I had the same problem today, and the solution was simply to define my virtual function as virtual abc() {} in the base class, instead of virtual abc(); which gave the error. –  Nav Nov 30 '10 at 9:04
better yet as virtual void abc() =0; (if the base version is never called) –  dhardy Jul 9 '12 at 8:27
@Nav: If you define abc() like that you can easily forget to redefine abc() in the derived class and think that everything is okay, since you will still can call the function without any problem. A good practice for implementing pure virtual functions is found in this article, and this is to make the function print "Pure virtual function called" and then crash the program. –  HelloGoodbye Sep 27 '12 at 11:44
i was having same error. i've found that changing order of references to "lib" may help. i just moved problem lib's from the beggining to the end of the list and this resolved the problem –  javapowered Sep 23 '14 at 10:02

10 Answers 10

up vote 98 down vote accepted

One possible reason is because you are declaring a virtual function without defining it.

When you declare it without defining it in the same compilation unit, you're indicating that it's defined somewhere else - this means the linker phase will try to find it in one of the other compilation units (or libraries).

An example of defining the virtual function is:

virtual void fn() { /* insert code here */ }

In this case, you are attaching a definition to the declaration, which means the linker doesn't need to resolve it later.

The line

virtual void fn();

declares fn() without defining it and will cause the error message you asked about.

It's very similar to the code:

extern int i;
int *pi = &i;

which states that the integer i is declared in another compilation unit which must be resolved at link time (otherwise pi can't be set to it's address).

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It is incorrect to say that virtual void fn() = 0 is a definition. It is not a definition, but a mere declaration. The only reason the linker is not trying to resolve it is that the corresponding VMT entry will not refer to a function body (will contain null-pointer most likely). However, nobody prohibits you from calling this pure virtual function in a non-virtual manner, i.e. by using a fully-qualified name. In this case the linker will look for the body, and you will have to define the function. And yes, you can define a body for a pure virtual function. –  AnT Jun 25 '10 at 0:41
And sometimes one even must declare a body for a pure virtual function. –  mark Mar 25 '13 at 1:31
The compiler (g++) will tell you what is the missing symbol. Note: In case of dynamic library linking you may get a mangled name. Use c++filt <mangledNameVariable> to get it in a readable form. The typeinfo error with a class name was in my case because of a missing virtual destructor implementation in some base class. –  chmike Jul 10 '13 at 14:24
The question specifically mentions that it is typeinfo that is missing, which has to do with rtti. See comment from Damon in stackoverflow.com/questions/11904519/… –  wilsonmichaelpatrick May 9 '14 at 22:38
@gbmhunter, fair enough. Made the change. –  paxdiablo Sep 11 '14 at 4:22

This can also happen when you mix -fno-rtti and -frtti code. Then you need to ensure that any class, which type_info is accessed in the -frtti code, have their key method compiled with -frtti. Such access can happen when you create an object of the class, use dynamic_cast etc.


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THANK YOU SO MUCH. That fixed my problem after 5 hour searching. –  steipete Jul 3 '11 at 13:05
@steipete: glad this is helpful :) –  Sergiy Byelozyorov Dec 8 '11 at 10:57
source link is dead, it was surely the same as permalink.gmane.org/gmane.comp.gcc.help/32475 –  math Apr 13 '12 at 10:10
Thanks for pointing this out. Original page is still available here: web.archive.org/web/20100503172629/http://www.pubbs.net/201004/… –  Sergiy Byelozyorov Apr 14 '12 at 7:04
StackOverflow.com to the rescue again! I wish I could upvote more than once. After banging my head on the keyboard for an hour your answer was what I needed. –  spartygw Dec 2 '13 at 14:47

Quoting from the gcc manual:

For polymorphic classes (classes with virtual functions), the type_info object is written out along with the vtable [...] For all other types, we write out the type_info object when it is used: when applying `typeid' to an expression, throwing an object, or referring to a type in a catch clause or exception specification.

And a bit earlier on the same page:

If the class declares any non-inline, non-pure virtual functions, the first one is chosen as the “key method” for the class, and the vtable is only emitted in the translation unit where the key method is defined.

So, this error happens when the "key method" is missing its definition, as other answers already mentioned.

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In my case, I had a base class which declared but did not define virtual methods that were not pure virtual. Once I made them pure virtual, which is what I meant, the linker errors went away. –  Tatiana Racheva Jun 16 '11 at 18:42

This occurs when declared (non-pure) virtual functions are missing bodies. In your class definition, something like:

virtual void foo();

Should be defined (inline or in a linked source file):

virtual void foo() {}

Or declared pure virtual:

virtual void foo() = 0;
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You saved my day. It's easy to forget an = 0 ... –  Lake Apr 23 at 14:56

If you're linking one .so to another, yet one more possibility is compiling with "-fvisibility=hidden" in gcc or g++. If both .so files were built with "-fvisibility=hidden" and the key method is not in the same .so as another of the virtual function's implementations, the latter won't see the vtable or typeinfo of the former. To the linker, this looks like an unimplemented virtual function (as in paxdiablo's and cdleary's answers).

In this case, you must make an exception for the visibility of the base class with

__attribute__ ((visibility("default")))

in the class declaration. For instance,

class __attribute__ ((visibility("default"))) boom{
    virtual void stick();

Another solution, of course, is to not use "-fvisibility=hidden." That does complicate things for the compiler and linker, possibly to the detriment of code performance.

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You don't need to export (unhide) the base class if it is abstract or unused, just the non-virtual functions, normally just the constructor. The derived classes on the other hand have to be exported, if they are used. –  Chris Huang-Leaver Dec 20 '10 at 18:36
feels like a hack, but it did solve the symptoms on my side. Thanks ! –  malat Jul 28 '14 at 7:19

The above answers are correct, but this error can also be caused by attempting to use typeid on an object of a class that has no virtual functions. C++ RTTI requires a vtable, so classes that you wish to perform type identification on require at least one virtual function.

If you want type information to work on a class for which you don't really want any virtual functions, make the destructor virtual.

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Upmodded because I think this is more likely to be the cause of that specific error message (as opposed to the more general case of undefined methods...) –  Alastair Rankine Nov 21 '08 at 1:20
One thing I had to get used to with SO is not referring to "above" answers since the order may change based on votes. I don't usually refer to any other answers now since they can be deleted as well. My belief is that answers should be standalone. I still refer to user names for attribution however. –  paxdiablo Nov 21 '08 at 1:37
You can use typeid without a vtable; see my answer for the quotes from the gcc manual. –  CesarB Nov 21 '08 at 1:37
@paxdiablo - can edit the answer. –  Tatiana Racheva Jun 16 '11 at 20:41

Possible solutions for code that deals with RTTI and non-RTTI libraries:

a) recompile everything with either -frtti or -fno-rtti b) if a) is not possible for you, try the following:

assume libfoo is built without RTTI. Your code uses libfoo and compiles with RTTI. If you use a class (Foo) in libfoo that has virtuals, you're likely to run into a link time error that says: missing typeinfo for class Foo.

Define another class (e.g. FooAdapter) that has no virtual and will forward calls to Foo that you use. Compile FooAdapter in a small static lib that doesn't use RTTI and only depends on libfoo symbols. Provide a header for it and use that instead in your code (which uses RTTI). Since FooAdapter has no virtual function it won't have any typeinfo and you'll be able to link your binary. If you use a lot of different classes from libfoo, this solution may not be convenient but it's a start.

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In the base class ( an abstract base class) you declare a virtual destructor and as you cannot declare a destructor as a pure virtual function, either you have to define it right here in the abstract class, just a dummy definition like virtual ~base() { } will do, or in any of the derived class.

If you fail to do this, you will end up in an "undefined symbol" at link time. Since VMT has an entry for all the pure virtual functions with a matching NULL as it updates the table depending on the implementation in the derived class. But for the non pure but virtual functions, it needs the definition at the link time so that it can update the VMT table.

use c++filt to demangle the symbol like $c++filt _ZTIN10storageapi8BaseHostE will output something like "typeinfo for storageapi::BaseHost"

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Similarly to the RTTI, NO-RTTI discussion above, this problem can also occur if you use dynamic_cast and fail to include the object code containing the class implementation.

I ran into this problem building on Cygwin and then porting code to Linux. The make files, directory structure and even the gcc versions (4.8.2) were identical in both cases, but the code linked and operated correctly on Cygwin but failed to link on Linux. Red Hat Cygwin has apparently made compiler/linker modifications that avoid the object code linking requirement.

The Linux linker error message properly directed me to the dynamic_cast line, but earlier messages in this forum had me looking for missing function implementations rather than the actual problem: missing object code. My workaround was to substitute a virtual type function in the base and derived class, e.g. virtual int isSpecialType(), rather than use dynamic_cast. This technique avoids the requirement to link object implementation code just to get dynamic_cast to work properly.

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I got a lot of these errors just now. What happened is that I split a header-file-only class into a header file and a cpp file. However, I didn't update my build system, so the cpp file didn't get compiled. Among simply having undefined references to the functions declared in the header but not implemented, I got a lot of these typeinfo errors.

The solution was to re-run the build system to compile and link the new cpp file.

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