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.

i am seeing the linker error so need your help. i have X.dll in which i have a class called DBFieldBase. in my workspace X i am using vector for some data base related applications. the vector which i am using is from thirdparty ospace. now i am trying to use vector in one more workspace Y. I added the corresponding include files and .lib files in linker->input option in visual studio 2010. I did dllexport for workspace X and to use it in Y i am using dllimport. The error which i am getting is given below

X.lib(X.dll) : error LNK2005: "public: class DBFieldBase * & __thiscall vector::operator[](unsigned int)" (??A?$vector@PAVDBFieldBase@@@@QAEAAPAVDBFieldBase@@I@Z) already defined in sdb.obj

I dont know exactly what is causing this error. The same code was getting successfully compiled in VS 6.0 now i am trying to build it in VS2010. Please let me know if i am missing anything or so. Thanks in advance.

P.S. I tried to search the solution on internet for similar problem but unfortunately no success.

the code for vector which is from third party is given below:

class os_vector
{
public:
typedef T                        value_type;
typedef OS_REFERENCE( T )        reference;
typedef OS_CONST_REFERENCE( T )  const_reference;
typedef OS_SIZE_TYPE( T )        size_type;
typedef OS_DIFF_TYPE( T )        difference_type;
typedef OS_ALLOCATOR( T )        allocator_type;

typedef T*        pointer;
typedef const T*  const_pointer;

typedef T*        iterator;
typedef const T*  const_iterator;

typedef os_reverse_iterator
  <
  T*,
  T,
  OS_REFERENCE( T ),
  T*,
  OS_DIFF_TYPE( T )
  >  reverse_iterator;
typedef os_reverse_iterator
  <
  const T*,
  T,
  OS_CONST_REFERENCE( T ),
  const T*,
  OS_DIFF_TYPE( T )
  >  const_reverse_iterator;

// Construct me to be an empty vector.
os_vector() :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_()
  {
  }

// Construct me to be an empty vector.
explicit os_vector( const OS_ALLOCATOR( T ) & alloc ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  }

// Construct me to contain `n` ( >0 ) elements. Each element will be
// a copy of `value`.
os_vector
  (
  size_type n,
  const T& value, // = T()
  const OS_ALLOCATOR( T ) & alloc // = OS_ALLOCATOR( T )()
  ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( n, value );
  }

os_vector ( size_type n, const T& value ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_()
  {
  assign( n, value );
  }

os_vector ( size_type n ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_()
  {
  assign( n, T() );
  }


// Construct me to contain copies of all the elements in `original`.
os_vector( const os_vector OS_ALLOCATE_ARG_2( T, Allocator ) & original ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( original.get_allocator() )
  {
  assign( original.begin(), original.end() );
  }

// Construct me to contain all of the elements in the
// range [`first`, `last`).
  template< class InIt >
  os_vector
    (
    InIt first,
    InIt last,
    const OS_ALLOCATOR( T ) & alloc = OS_ALLOCATOR( T )()
    ) :

  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( first, last );
  }

// Destroy me.
~os_vector()
  {
  clear();
  }

// Replace my contents with a copy of the elements in `original`,
// resizing if necessary.
os_vector OS_ALLOCATE_ARG_2( T, Allocator ) & operator=
  (
  const os_vector OS_ALLOCATE_ARG_2( T, Allocator ) & original
  );

// Remove all my current elements, and then insert the elements
// in range [`first`, `last`).
void assign( const_iterator first, const_iterator last )
  {
  if ( first == begin() )
    erase( begin() + ( last - first ), end() );
  else
    assign_aux( first, last );
  }


  // Remove all my current elements, and then insert the elements
  // in range [`first`, `last`).
  template< class InIt >
  void assign( InIt first, InIt last )
    {
    assign_aux( first, last );
    }


// Remove all my current elements, and then insert `n` copies of
// `value`.
void assign( size_type n, const T& value );


  void assign( size_type n )
    {
    assign( n, T() );
    }


// Return a copy of the allocator I am using.
allocator_type get_allocator() const
  {
  return alloc_;
  }

// Return a random access iterator positioned at my first element.
iterator begin()
  {
  return start_;
  }

// Return a constant random access iterator positioned at my first
// element.
const_iterator begin() const
  {
  return start_;
  }

// Return a random access iterator positioned immediately after my
// last element.
iterator end()
  {
  return finish_;
  }

// Return a constant random access iterator positioned immediately after
// my last element.
const_iterator end() const
  {
  return finish_;
  }

// Return a random access reverse iterator positioned immediately after
// my last element.
reverse_iterator rbegin()
  {
  return reverse_iterator( end() );
  }

// Return a constant random access reverse iterator positioned
// immediately after my last element.
const_reverse_iterator rbegin() const
  {
  return const_reverse_iterator( end() );
  }

// Return a random access reverse iterator positioned at my first
// element.
reverse_iterator rend()
  {
  return reverse_iterator( begin() );
  }

// Return a constant random access reverse iterator positioned at my
// first element.
const_reverse_iterator rend() const
  {
  return const_reverse_iterator( begin() );
  }

// Return the number of elements that I contain.
size_type size() const
  {
  return end() - begin();
  }

// Return the maximum number of elements that I can contain.
size_type max_size() const
  {
  return alloc_.max_size();
  }

// Cause myself to hold `n` elements, using `value` to expand
// myself if necessary.
void resize( size_type n, T value )
  {
  if ( n > size() )
    insert( end(), n - size(), value );
  else
    erase( begin() + n, end() );
  }

// Cause myself to hold `n` elements using the default constructor
// to expand myself if necessary.
void resize( size_type n )
  {
  resize( n, T() );
  }

// Return the number of elements that I can contain without allocating
// more memory.
size_type capacity() const
  {
  return end_of_storage_ - start_;
  }

// Return true if I contain no elements.
bool empty() const
  {
  return begin() == end();
  }

// Change my capacity to be at least `n`.  Does not affect my
// current size.
void reserve( size_type n );

// Return a reference to my `n`th element.
reference operator[]( size_type n )
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  OS_ASSERT_INDEX_OK( n, 0, size() - 1 )
  return *( begin() + n );
  }

// Return a constant reference to my `n`th element.
const_reference operator[]( size_type n ) const
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  OS_ASSERT_INDEX_OK( n, 0, size() - 1 )
  return *( begin() + n );
  }

// Return a reference to my `n`th element.
reference at( size_type n )
  {
  if ( n >= size() )
    os_throw_out_of_range();
  return *( begin() + n );
  }

// Return a constant reference to my `n`th element.
const_reference at( size_type n ) const
  {
  if ( n >= size() )
    os_throw_out_of_range();
  return *( begin() + n );
  }

// Return a reference to my first element.
reference front()
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  return *begin();
  }

// Return a constant reference to my first element.
const_reference front() const
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  return *begin();
  }

// Return a reference to my last element.
reference back()
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  return *( end() - 1 );
  }

// Return a constant reference to my last element.
const_reference back() const
  {
  OS_ASSERT_NOT_EMPTY( empty() )
  return *( end() - 1 );
  }

// Add `value` at my end.
void push_back( const_reference value )
  {
  if ( finish_ != end_of_storage_ )
    {
    alloc_.construct( finish_, value );
    ++finish_;
    }
  else
    insert_aux( end(), value );
  }

// Erase my last element.
void pop_back()
  {
  OS_ASSERT_NOT_EMPTY_ELSE( empty() )
    {
    --finish_; // not on a single line due to Borland problem
    alloc_.destroy( finish_ );
    }
  }

// Insert `value` at `pos` and return an iterator pointing to the new
// element's position.
iterator insert( iterator pos, const T& value )
  {
  size_type n = pos - begin();
  if ( finish_ != end_of_storage_ && pos == finish_ )
    {
    alloc_.construct( finish_, value );
    ++finish_;
    }
  else
    insert_aux( pos, value );
  return begin() + n;
  }

// Insert an element constructed with the default constructor at `pos` and
// return an iterator pointing to the new element's position.
// not standard, left for backward compatibility

 iterator insert( iterator pos )
   {
   return insert( pos, T() );
   }



// Insert `n` copies of `value` at `pos`.
void insert( iterator pos, size_type n, const T& value );

// Insert copies of the elements in range [`first`, `last`) at `pos`.

  template< class InIt >
  void insert( iterator pos, InIt first, InIt last );


// Erase the element at `pos`.
iterator erase( iterator pos )
  {
  if ( !( pos + 1 == end() ) )
    copy( pos + 1, end(), pos );
  pop_back();
  return pos;
  }

// Erase the elements in range [`first`, `last`).
iterator erase( iterator first, iterator last )
  {
  iterator i = copy( last, end(), first );
  destroy( i, finish_, alloc_ );
  finish_ = finish_ - ( last - first );
  return first;
  }

// Swap my contents with those of `original`.
void swap( os_vector OS_ALLOCATE_ARG_2( T, Allocator ) & original )
  {
  if ( !(alloc_ == original.alloc_ ) )
    {
    os_vector OS_ALLOCATE_ARG_2( T, Allocator ) tmp( *this );
    assign( original.begin(), original.end() );
    original.assign( tmp.begin(), tmp.end() );
    }
  else
    {

      ::swap( start_, original.start_ );
      ::swap( finish_, original.finish_ );
      ::swap( end_of_storage_, original.end_of_storage_ );
      ::swap( alloc_, original.alloc_ );

    }
  }

// Erase all of my elements.
void clear()
  {
  if ( start_ )
    {
    destroy( start_, finish_, alloc_ );
    alloc_.deallocate( start_ );
    }
  start_ = finish_ = end_of_storage_ = 0;
  }

protected:
void insert_aux( T* pos, const T& value );


  template< class InIt >
  void assign_aux( InIt first, InIt last );


private:
// Data members.
iterator start_;
iterator finish_;
iterator end_of_storage_;
allocator_type alloc_;


public:
// Construct me to contain n ( >0 ) elements. Each element will be
// default constructed.
// This remains for compatibility.  It will be removed in a future release.
os_vector
  (
  const OS_ALLOCATOR( T ) & alloc,
  size_type n
  ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( n, T() );
  }

// Construct me to contain n ( >0 ) elements. Each element will be
// a copy of `value`.
// This remains for compatibility.  It will be removed in a future release.
os_vector
  (
  const OS_ALLOCATOR( T ) & alloc,
  size_type n,
  const T& value
  ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( n, value );
  }

// Construct me to contain copies of all the elements in `original`.
// This remains for compatibility.  It will be removed in a future release.
os_vector
  (
  const OS_ALLOCATOR( T ) & alloc,
  const os_vector OS_ALLOCATE_ARG_2( T, Allocator ) & original
  ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( original.begin(), original.end() );
  }

// Construct me to contain all of the elements in the
// range [`first`, `last`).
// This remains for compatibility.  It will be removed in a future release.
os_vector
  (
  const OS_ALLOCATOR( T ) & alloc,
  const_iterator first,
  const_iterator last
  ) :
  start_( 0 ),
  finish_( 0 ),
  end_of_storage_( 0 ),
  alloc_( alloc )
  {
  assign( first, last );
  }

// Erase all of my elements.
// This remains for compatibility.  It will be removed in a future release.
void erase()
  {
  clear();
  }
};

in X.DLL i have a class DBFieldBase its like our our normal class with member variables and functions.

in Y workspace in one of the class i am using vector that usage is given below:

private:
vector < DBFieldBase *> &       GetASDVect (void);
vector <DBFieldBase *>          m_ASDVect;

Then outside class in same header file there is definition for GetASDVect. its inline

inline vector <DBFieldBase *> & ASD_sdb::GetASDVect (void)
{
return this->m_ASDVect; 
}

Let me know if you need anything else from my side.

share|improve this question
    
Can you post the header code of relevant types? Smeels like "inline" was forgotten somewhere. And make sure to not use any library code from VS 6.0, that compiler/library was already outdated when it was released, actually it's the worst compiler I ever tried and which I wasted many years on because I was a newbie that did not know better. –  phresnel Mar 13 '12 at 13:19
    
exactly which header code you want. you want a code for class DBFieldBase or the file where third party vector definition is present or the header file in workspace Y where i am using vector<DBFieldBase *> sorry i am not sure what exactly you asked so asking re question –  novice Mar 13 '12 at 13:26
    
Maybe begin with the code for the 3rd-party vector::operator[]. My guess is it's defined outside the class, but in the header, and without inline. –  phresnel Mar 13 '12 at 13:34
    
thank you. today i will try to give as much as code details related to this problem area. :) –  novice Mar 14 '12 at 4:29
    
@phresnel i tried to give the code for vector and the other usage of vector. please check and let me know –  novice Mar 14 '12 at 11:30

1 Answer 1

You've defined a symbol multiple times. I guess a symbol is defined in both X.dll and Y.dll ?

share|improve this answer
    
the symbol vector<DBFieldBase *> is getting used in number of places.it is a return type of functions. for some operations with Data base the result we are storing in vecotr of class DBfieldBase so i am confused why compiler is giving multiple definitions for it. Also the same code got compiled in VS6.0 so i wonder may be this error is something different than actual wordings. –  novice Mar 13 '12 at 13:21

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.