Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

A class of mine has destructor like:

virtual ~MergeMove()
{

    mergeIndex1=-1; // for debugging
    mergeIndex2=-1; // for debugging
}

Another class contains a member of type boost::shared_ptr<Move> , where Move is the baseclass of MergeMove. The destructor of Move is virtual.

class Forest
{
     vector< boost::shared_ptr<Move> > moves;
     ....
}

At the point my code crashes, I find that moves.at(i)->mergeIndex1=-1 . I'm pretty sure only the destructor can set it to -1. Also, valgrind reports some invalid reads. I have been debugging the problem for more than 24 hours ... with no luck. I think I have followed the standard guidelines for using shared_ptrs.

1) Always assigned the result of new to a shared_ptr immediately. There are no raw pointers.

2) while passing this to a function expecting shared_ptr, I used shared_from_this() . But I have passed *this to some functions taking a reference - I guess it should be fine.

What could be the problem? I am using gcc version 4.4.5 (Ubuntu/Linaro 4.4.4-14ubuntu5.1) Are there some known bugs? How can I debug it further?

here is the output from valgrind ... which confirms premature deletion:

==28242== Invalid read of size 8
==28242==    at 0x5CAAFA: boost::shared_ptr<Symbol>::get() const (shared_ptr.hpp:424)
==28242==    by 0x5E0160: bool boost::operator==<Symbol, Symbol>(boost::shared_ptr<Symbol> const&, boost::shared_ptr<Symbol> const&) (shared_ptr.hpp:481)
==28242==    by 0x5C5851: MergeMove::applyMove(Forest&) (mcmcParsh.h:1022)
==28242==    by 0x5C43C4: Forest::applyMove(int) (mcmcParsh.h:704)
==28242==    by 0x5C4408: Forest::applyMoveToClone(int) (mcmcParsh.h:709)
==28242==    by 0x5C46C1: Forest::genMoveAndApplyToClone() (mcmcParsh.h:753)
==28242==    by 0x5C64D3: BeamSearch::sampleNextBeam() (mcmcParsh.h:1414)
==28242==    by 0x5C65F9: BeamSearch::runBeamSearch() (mcmcParsh.h:1431)
==28242==    by 0x58F2CA: find_most_violated_constraint_marginrescaling(pattern, label, structmodel*, struct_learn_parm*) (svm_struct_api.cpp:221)
==28242==    by 0x5AC5FE: find_most_violated_constraint(svector**, double*, example*, svector*, long, structmodel*, struct_learn_parm*, double*, double*, long*) (svm_struct_learn.cpp:944)
==28242==    by 0x5AB339: svm_learn_struct_joint(sample, struct_learn_parm*, learn_parm*, kernel_parm*, structmodel*, int) (svm_struct_learn.cpp:719)
==28242==    by 0x5A62F5: main (svm_struct_main.cpp:81)
==28242==  Address 0x31461568 is 152 bytes inside a block of size 200 free'd
==28242==    at 0x4C27A83: operator delete(void*) (vg_replace_malloc.c:387)
==28242==    by 0x5C4EC0: MergeMove::~MergeMove() (mcmcParsh.h:971)
==28242==    by 0x60A0BA: void boost::checked_delete<MergeMove>(MergeMove*) (checked_delete.hpp:34)
==28242==    by 0x63A299: boost::detail::sp_counted_impl_p<MergeMove>::dispose() (sp_counted_impl.hpp:78)
==28242==    by 0x5AFBD9: boost::detail::sp_counted_base::release() (sp_counted_base_gcc_x86.hpp:145)
 ==28242==    by 0x5AFC9C: boost::detail::shared_count::~shared_count() (shared_count.hpp:217)
==28242==    by 0x5C367D: boost::shared_ptr<Move>::~shared_ptr() (shared_ptr.hpp:169)
==28242==    by 0x61EA5F: void std::_Destroy<boost::shared_ptr<Move> >(boost::shared_ptr<Move>*) (stl_construct.h:83)
==28242==    by 0x615EFF: void std::_Destroy_aux<false>::__destroy<boost::shared_ptr<Move>*>(boost::shared_ptr<Move>*, boost::shared_ptr<Move>*) (stl_construct.h:93)
==28242==    by 0x609806: void std::_Destroy<boost::shared_ptr<Move>*>(boost::shared_ptr<Move>*, boost::shared_ptr<Move>*) (stl_construct.h:116)
==28242==    by 0x5F57C4: void std::_Destroy<boost::shared_ptr<Move>*, boost::shared_ptr<Move> >(boost::shared_ptr<Move>*, boost::shared_ptr<Move>*, std::allocator<boost::shared_ptr<Move> >&) (stl_construct.h:142)
==28242==    by 0x5DF807: std::vector<boost::shared_ptr<Move>, std::allocator<boost::shared_ptr<Move> > >::~vector() (stl_vector.h:313)

here is the code for Base class

class Move
{
 private:
double costDelta;
double transProb;
LOSS_MAP_TYPE addMap;
LOSS_MAP_TYPE delMap;
protected:
bool transProbSet;
bool applied;


void setTransProbFromDelta()
{
    transProb=exp(costDelta/10.0);
    transProbSet=true;
}

public:
typedef  boost::shared_ptr<Move> SPtr;

virtual Move::SPtr clone()=0;
void applylabelMapDelta( LOSS_MAP_TYPE & lab)
{
    subtractLabelmap(delMap,lab);

    appendLabelmap(addMap,lab);
}

typedef SupportComplex<Floor> SCENE_TYPE;
void resetCostDelta()
{
    costDelta=0;
}

void adjustCostDeltaForNodeAddition(Symbol::Ptr newNode, Forest & cfor);
void adjustCostDeltaForNodeRemoval(Symbol::Ptr remNode, Forest & cfor);
virtual void adjustCostDeltaByLossForNodeAddition(Symbol::Ptr newNode, Forest & cfor);
virtual void adjustCostDeltaByLossForNodeRemoval(Symbol::Ptr remNode, Forest & cfor);

virtual string toString()=0;
double getCostDelta()
{
    return costDelta;
}

Move()
{
    transProb=false;
    costDelta=0;
    applied=false;
}

virtual bool moveCreationSucceded()
{
    return true;
}


virtual void applyMove(Forest & cfor)=0;
/**
 * 
 * @return Q(f',f) where f' is the forest which will be generated when
 * applyMove is called on f
 */
virtual double getTransitionProbUnnormalized()
{
    assert(transProbSet);
    return transProb;
}

virtual bool isInvalidatedOnDeletion(int index)=0;
virtual bool handleMove(int oldIndex, int newIndex)=0;
virtual ~Move() {}
};

Symbol::Ptr is also a shared_ptr

class MergeMove: public Move
{
int mergeIndex1,mergeIndex2;
Symbol::Ptr mergeNode1,mergeNode2; // store nodes also for additional safety check
RulePtr mergeRule;
NonTerminal_SPtr mergeResult;

public:
virtual Move::SPtr clone()
{
    boost::shared_ptr<MergeMove> ret (new MergeMove(*this));
    cerr<<"mmclon:"<<toString()<<":"<<this<<"->"<<ret.get()<<endl;
    assert(ret->mergeIndex1!=-1);
    assert(ret->mergeIndex2!=-1);
    return ret;
}
typedef  boost::shared_ptr<MergeMove> SPtr;

virtual bool moveCreationSucceded()
{
    return (mergeResult!=NULL);
}

vector<Symbol::Ptr> marshalParams(RulePtr mergeRule)
{
    vector<Symbol::Ptr> nodes;
    if(mergeRule->getChildrenTypes().at(0)==string(typeid(*mergeNode1).name()))
    {
          nodes.push_back(mergeNode1);
          nodes.push_back(mergeNode2);
    }
    else
    {            
        assert(mergeRule->getChildrenTypes().at(0)==string(typeid(*mergeNode2).name()));
          nodes.push_back(mergeNode2);
          nodes.push_back(mergeNode1);            
    }
    return nodes;
}

virtual ~MergeMove()
{

    if(moveCreationSucceded())
            cerr<<"mmdel:"<<toString()<<":"<<this<<endl;
    mergeIndex1=-1; // for debugging
    mergeIndex2=-1; // for debugging
}

MergeMove(Forest & cfor, int mergeIndex1, int mergeIndex2, RulePtr mergeRule)
{

    assert(mergeIndex1>=0);
    assert(mergeIndex2>=0);
    this->mergeIndex1=mergeIndex1;
    this->mergeIndex2=mergeIndex2;
    this->mergeRule=mergeRule;
    assert(mergeRule->getChildrenTypes().size()==2);

    assert(mergeIndex1!=mergeIndex2);

    mergeNode1=cfor.getTree(mergeIndex1);
    mergeNode2=cfor.getTree(mergeIndex2);

    assert(cfor.getTree(mergeIndex1)==mergeNode1);
    assert(cfor.getTree(mergeIndex2)==mergeNode2);
    mergeResult=mergeRule->applyRuleMarshalledParams(marshalParams(mergeRule));


    if(mergeResult==NULL)
    {
        return;
    }

    mergeResult->declareOptimal(false);

            adjustCostDeltaForNodeAddition(mergeResult,cfor);
    adjustCostDeltaForNodeRemoval(mergeNode1,cfor);
    adjustCostDeltaForNodeRemoval(mergeNode2,cfor);
    setTransProbFromDelta();
            cerr<<"mmcreat:"<<toString()<<endl;

}

virtual string toString()
{
    return mergeNode1->getName()+","+mergeNode2->getName()+"->"+mergeResult->getName();
}

virtual void applyMove(Forest & cfor)
{
    applied=true;
    // safety checks ... in the face of index updates
    assert(cfor.getTree(mergeIndex1)==mergeNode1);
    assert(cfor.getTree(mergeIndex2)==mergeNode2);


    cfor.deleteTree(mergeIndex1);// max to reduce #index updates in moves

    assert(cfor.getTree(mergeIndex2)==mergeNode2);

    cfor.replaceTree(mergeIndex2,mergeResult); // isSpanDisjo
}


virtual bool isInvalidatedOnDeletion(int index)
{
    if(index==mergeIndex1 || index==mergeIndex2)
        return true;


    return false;
}

virtual bool handleMove(int oldIndex, int newIndex )
{
    bool changed=false;


    if(mergeIndex1 == oldIndex)
    {
        mergeIndex1 = newIndex;
        changed=true;
    }

    if(mergeIndex2 == oldIndex)
    {
        mergeIndex2 = newIndex;
        changed=true;
    }



    return changed;
}
};
share|improve this question
    
What's is the initial value of mergeIndex1 in constructor MergeMove() ? –  iammilind May 29 '12 at 3:57
1  
most likely your problem is with shared_from_this. however, re your point (1), don't use new. use make_shared. –  Cheers and hth. - Alf May 29 '12 at 4:00
1  
Where did you see point #3 mentioned as a "standard guideline"? ... From what I've seen and read, even Herb Sutter has said that shared_ptr can be safely passed by reference (especially by const reference)... –  Jason May 29 '12 at 4:03
    
Show the full code. –  Cheers and hth. - Alf May 29 '12 at 4:06
2  
"Also, valgrind reports some invalid reads" Debugged this? This is information crucial if the code base is too big. –  Alok Save May 29 '12 at 4:17

1 Answer 1

Looks like I fixed the segfault. Also, valgrind does not report invalid read anymore. But I'm not sure why it was segfaulting earlier. Probably, my assumption in second line of second point in the question was wrong -"But I have passed *this to some functions taking a reference - I guess it should be fine."

previously, Move::applyMove was declared as

virtual void applyMove(Forest & cfor)=0;

I made a wrapper and made sure all calls use the wrapper.

virtual void applyMove(boost::shared_ptr<Forest> cfor)
{
    applyMove(*cfor);
}

All Forest objects in my code are dynamically allocated and managed by shared_ptr

Correspondingly, my Forest::applyMove(int) changed from

void applyMove(int index)
{
    Move::SPtr selMove=moves.at(index);
    selMove->applyMove(*this);
}

to

void applyMove(int index)
{
    Move::SPtr selMove=moves.at(index);
    selMove->applyMove(shared_from_this());
}
share|improve this answer

Your Answer

 
discard

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.