Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

EDIT: Apparently the question is not clearly formulated enough. The issue I am having is that when the destructor is defined in the header it gets added into multiple .obj files and the linker complains. The actual question is:

When I add the destructor to a CPP file in a DLL project and use the dll with dynamic loading and the interface header file, does the base destructor still get called to prevent leaking memory?

I am using MSVC 10.0 and have a DLL project that implements an interface. The interface is an abstract (pure virtual) base class. The idea is that the header is used with dynamic loading of the library. Therefore, I have used a pure virtual destructor to make sure the destructor in the base class gets called. Here is sample code to explain this:

#pragma once

struct param {
    int something;

class ISplitter {
    virtual ~ISplitter() = 0;
    virtual void useful() = 0;

ISplitter::~ISplitter() {
    /* Make sure base class destructor gets called */

And the main implementation header

#pragma once
#include "CHelper.h"
#include "ISplitter.h"

class CSplitter : public ISplitter {
    CHelper hlp;
    void useful();

Some helper class

#pragma once
#include "ISplitter.h" // I need the struct

// Class definition should go here but is irrelevant

Now the problem is that the linker generates an error that tells me the destructor: ISplitter::~ISplitter(void) has been multiply declared and the system will not build. Error:

CHelper.obj : error LNK2005: "public: virtual __cdecl ISplitter::~ISplitter(void)" (??1ISplitter@@UEAA@XZ) already defined in CSplitter.obj

What is the correct way to fix this? I have placed the destructor in ISplitter.cpp, but I am worried this may not work if I dynamically load the library and upcast the base class to ISplitter.

share|improve this question
Please post real code. And the answer is to move the destructor definition to a.cpp file. – nbt May 30 '11 at 9:58
possible duplicate of Pure virtual destructor in C++ – Björn Pollex May 30 '11 at 10:01
The real code is proprietary – Wouter Simons May 30 '11 at 10:02
@Neil: Or to make the destructor not pure virtual in the first place. Why not just an empty virtual destructor? – Björn Pollex May 30 '11 at 10:03
@Wouter We don't need to see the original code, but we do need to see real C++ code that illustrates the problem. For example, here ISplitter::ISplitter() I assume there is a missing ~? – nbt May 30 '11 at 10:07

2 Answers 2

up vote 5 down vote accepted

The problem is that the base class destructor always gets called- but in this case, you've made it pure virtual, so it doesn't exist. The only reason to make a destructor pure virtual to is to enforce a class to be abstract when you have no other members. The destructor of a class needs to be defined in all cases.

Edit: I mis-read your code. Just define the destructor virtually inline.

virtual ~ISplitter() {}

There's no need for any pure virtual here, since you already have other pure virtual members.

share|improve this answer
It does exist, hence the multiple-definition errors, though this is not obvious from his "pseudocode". – nbt May 30 '11 at 10:03
@Neil: Ah, I see. Thanks for clarifying that. – Puppy May 30 '11 at 10:19
I believe that is what I prefer, much cleaner and I am sure that it will always be there. So I am accepting this answer. – Wouter Simons May 30 '11 at 10:37
+1 for "Just define the destructor inline", except I can't vote yet. He could also make the definition inline by qualifying the out-of-line definition of the destructor with inline. – David Hammen May 30 '11 at 12:13
I think the inline keyword is handled differently based on optimization settings – Wouter Simons May 30 '11 at 12:47

Sharptooth's answers is correct in that you HAVE to provide a definition to the pure virtual destructor (see this GotW). But it is wrong in that you cannot write

virtual ~A() = 0 {};

according to this clause in the standard (although many compilers support this extension)

Clause 10.4 paragraph 2 of C++03 tells us what an abstract class is and, as a side note, the following:

[Note: a function declaration cannot provide both a pure-specifier and a definition —end note] [Example:

struct C {
virtual void f() = 0 { }; // ill-formed

—end example]

See this question of mine for more details

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.