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so I have a vector of pairs of pointers in c++:

vector<pair<Move *,Piece *> > moveList;

where Move is an object and Piece is an object... Piece has the class variables type and side

so I add stuff to moveList:

    pair <Move *, Piece *> pr (&m,&(p));


where m is a Move object and p is a Piece object

but whenever I call the moveList.back(), method, for some reason it would modify the values of Piece

so I do

Move * j = moveList.back().first;

Piece should have its "type" variable's value set to 'X'

but when I debug, it turns out that right after the line above, for some reason, Piece's "type" variable's value gets set to some crazy number such as -56 '\310'.....

what am I doing wrong?


also moveList is set as a class variable

and the pushing into moveList and the getting the back() of moveList were done on different methods in that class

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Sounds like m and p were created on the stack instead of with new and they're now out of scope. –  Brian Roach Apr 24 '11 at 22:33
Post a little more code. Especially the declaration of m and p. –  pmr Apr 24 '11 at 22:35

2 Answers 2

up vote 5 down vote accepted

As others have pointed out, it's seems you may be holding pointers to objects on the stack. These objects will go out of scope once you exit the function/block. Since STL containers manage their memory internally, one approach could be to change the vector to hold objects directly instead of pointers.

vector <pair <Move, Piece> > moveList;
// To insert
moveList.push_back (make_pair <Move, Pair> (move, pair));

When the moveList object goes out of scope, it will automatically release the memory associated with the objects. In the case of pointers, you have to remember to manually deallocate the memory, else there will be a memory leak.

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There's not enough code to say for sure, but a wild guess is you created the objects on the stack and the stack frame they lived in is no longer alive. In this case one fix is to allocate the objects from the heap, like so:

Move * move = new Move;
Piece * piece = new Piece;
moveList.push_back( make_pair(move, piece) );

I didn't address exception safety in this example for clarity and brevity.


A possible idiomatic solution that addresses memory management and exception safety can be achieved by using smart pointers:

typedef pair< shared_ptr<Move>, shared_ptr<Piece> > MovePiece;
vector< MovePiece > moveList;
moveList.push_back( MovePiece(make_shared<Move>(), make_shared<Piece>()) );
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That fix will probably lead him straight to a memory leak. –  pmr Apr 24 '11 at 22:38
@pmr Probably true, but for the time being I don't want to climb too high without knowing what the real problem is. –  Peter G. Apr 24 '11 at 22:41
@Peter Why did you try to answer this if you don't know the real problem? I'm pretty sure what you posted will make his code compile but will still be far removed from idiomatic C++. Please, don't take this the wrong way. –  pmr Apr 24 '11 at 22:43
@pmr Added an idiomatic solution. –  Peter G. Apr 24 '11 at 23:14
I still would like to see the standard rap about how you should prefer value semantics over pointers. ;) –  pmr Apr 24 '11 at 23:21

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