I am having a strange problem instantiating a structure living inside a class, where in construction it calls the destructor (several times) and even calls the parent object destructor.

Class with structure:

class Model {

     struct StepModelIO {
         StepModelIO(Model model, ...) {DoConstruction(Model model, ...);}

         StepModelIO(const StepModelIO &other) {DoConstruction(Model model, ...); }

         ~StepModelIO() {}

         DoConstruction() {
    Model(...) {

    Model(const Model &other) {DoConstruction(...);}

    ~Model() {
    DoConstruction(...) {



Calling function:

void main() {

    Model::StepModelIO stepArgs = Model::StepModelIO(...);


The resulting set of calls, with 'object' being the StepModelIO and 'parent' being the Model:

  1. Construct parent w/ copy constructor
  2. Construct object
  3. Destruct parent
  4. Construct object w/ copy constructor
  5. Construct parent w/ copy constructor
  6. Construct object
  7. Destruct parent
  8. Destruct object
  9. Destruct object (again...)
  10. Destruct parent

Unsurprisingly the resulting structure (a StepModelIO) is not in a good state after this all happens, and the path seemed ridiculous. I have the structure housed like this to use the same generic at the parent Model object, which may explain some of the issues.

I have tried (perhaps naively) to use the 'rule of three' on constructors and destructors, it's possible I've munged this up badly.

Edit: Full code

template<typename U, typename V>
class Model{


    struct StepModelIO {
        Model<U, V> model;
        U u;
        V v;

        StepModelIO() {}

        StepModelIO(Model<U, V> model, U u, V v) {
            this->model = model;
            this->u = u;
            this->v = v;

        StepModelIO (const StepModelIO &other) {
            StepModelIO(other.model, other.u, other.v);

        ~StepModelIO() {

    Model(char * libraryPath) {DoConstruction(libraryPath);}

    Model() {}

    Model (const Model &other) {

    ~Model() {

    void Init() {
        if (!this->m_Initialised) {
            m_Initialised = true;

    void Stop() {
        if (this->m_Initialised) {
            m_Initialised = false;

    void Restart() {

    void Step(U u, V v) {
        ModelStep(u, v);


    char* m_LibraryPath;

    bool m_Initialised;

    typedef int (__cdecl * EmptyModelFunctionPointer)(); // Interpret integer as C code pointer named 'EmptyModelFunctionPointer'
    typedef int (__cdecl * ModelFunctionPointer)(U u, V v);

    EmptyModelFunctionPointer ModelInit;
    EmptyModelFunctionPointer ModelStop;
    EmptyModelFunctionPointer ModelRestart;
    ModelFunctionPointer ModelStep;

    virtual void DoConstruction(char * libraryPath){
        this->m_Initialised = false;
        this->m_LibraryPath = libraryPath;
        this->m_ModelDLL = LoadLibrary(libraryPath);
        this->ModelInit = GetFunction<EmptyModelFunctionPointer>(m_ModelDLL, "Init");   
        this->ModelStop = GetFunction<EmptyModelFunctionPointer>(m_ModelDLL, "Stop");
        this->ModelRestart = GetFunction<EmptyModelFunctionPointer>(m_ModelDLL, "Restart");
        this->ModelStep = GetFunction<ModelFunctionPointer>(m_ModelDLL, "Step");

    template<typename pointerType>
    pointerType GetFunction(HINSTANCE modelLibrary, char * functionName){
        return (pointerType)GetProcAddress(HMODULE (modelLibrary),functionName);


StepModelIO<Type_1*, Type_2*> stepArgs = StepModelIO<Type_1*, Type_2*>(newModel, &a, &b[0]);
  • Did you check with a debugger? Sounds like you may corrupt the stack in your initalisation, but since you posted no real code, this is just guessing from the crystal ball. – Devolus Oct 28 '13 at 9:49
  • 1
    The declaration you show in the main function does not create an instance of the "parent" class. If it does, then you're doing something you're not showing us. Please make a short and self contained example showing the problem. – Some programmer dude Oct 28 '13 at 9:52
  • Code you posted does not show any problem. Are there any temporary local object instances inside constructors? Are there member pointers? – mas.morozov Oct 28 '13 at 9:52
  • Post the real code with real parameters used – Erbureth says Reinstate Monica Oct 28 '13 at 9:53
  • 2
    All those ... and the void main are not valid C++. Please show us your real testcase; the one you've been debugging on for the past few days. Note: a testcase is not your "full code", but a different program with a similar structure and no irrelevant code, that reproduces the issue. – Lightness Races in Orbit Oct 28 '13 at 11:10

You're passing things by value, which will result in temporary objects being constructed and destructed. Pass them by const reference instead.


  StepModelIO(Model model, ...) 


  StepModelIO(const Model &model, ...) 

You've now changed the code. So you really want this, I think.

 StepModelIO(const Model<U, V> &model, const U &u, const V &v)
| improve this answer | |
  • Hi @Roddy thanks for the help, yep I wasn't sure if the generics were going to be a part of the problem or no, tried to simplify it. I think your first sentence might be a start towards my understanding the problem. You're suggesting passing objects by value implicitly calls constructors/destructors/copies etc. Could you explain that a little more? – J Collins Oct 28 '13 at 10:08
  • @JCollins - Here's a good place to start. herbsutter.com/2013/05/13/gotw-2-solution-temporary-objects – Roddy Oct 28 '13 at 10:16
  • Thanks @Roddy I had no idea unmanaged languages behaved this way. I have seen a similar thing with .net properties with ByRef vs ByVal passing of arguments, but I figured in the unmanaged world I was responsible for everything quite manually. – J Collins Oct 28 '13 at 10:48

I have notices tat inside the class StepModelIO you have a member Model<U, V> model; so for each instance of class StepModelIO the destructor of model will be caled also; first ~StepModelIO() and second ~Model<U, V>()

so given the code you provided:

Model::StepModelIO stepArgs = Model::StepModelIO(...);

This has two objects of the type StepModelIO. One is the on in the right (rvalue) and the second one is stepArgs.

First the destructor for the one in the right is called resulting in:

1:Destruct StepModelIO

2:Destruct Model

And when the destruction of stepArgs occurs :

3:Destruct StepModelIO

4:Destruct Model

| improve this answer | |

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