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OK, guys : memory optimization is definitely not my thing and since I'm currently working on a big, and cpu and memory-intensive project, I think I need your help.

The project is a Chess Engine and the actual problem lies (I guess) in one of the 2 following methods (the code above is not 100% exact but it's more-or-less that) :

Tree Search (MiniMax) - the actual code is an Alpha-Beta with different additions, but this quite basic example is more illustrative :

int Board::miniMax_(int ply)
    if (ply == this->searchDepth) return this->eval();

    int best = MINUS_INF;

    vector<Move*> moves = this->possibleMoves();

    FOREACH(Move*, move, moves)
        int val = -this->miniMax_(ply+1);

        if (val>best) { 
            if (ply==0) this->bestMove = (*move);
            best = val; 

    return best;

Move Generation (if you haven't ever played with Chess programming and bitboards, the following might simply look almost non-sensical; but you'll still get the idea in terms of memory handling - well, hopefully...):

vector<Move*> Board::possibleMoves()
    U64 ownPieces = this->piecesForColor(this->playing);
    U64 occupied = ~(this->pieces[empty]);

    vector<Move*> moves;

    // "Normal" Piece Moves

    const int from = (1+(this->playing))*3;
    const int to = (1+(this->playing))*3+6;

    for (int pieceType=from; pieceType<to; pieceType++)
        U64 piece = this->pieces[pieceType];

        for (; piece != 0; piece &= (piece - 1))
            UINT pos = log2(piece & ~(piece-1));

            U64 move;
            switch (pieceType)
                case bPawns:    move = BPAWN_(pos,ownPieces,occupied); break;
                case wPawns:    move = WPAWN_(pos,ownPieces,occupied); break;
                case bRooks:
                case wRooks:    move = ROOK_(pos,ownPieces,occupied); break;
                case bKnights:
                case wKnights:  move = KNIGHT_(pos,ownPieces,occupied); break;
                case bBishops:
                case wBishops:  move = BISHOP_(pos,ownPieces,occupied); break;
                case bQueen:
                case wQueen:    move = QUEEN_(pos,ownPieces,occupied); break;
                case bKing:
                case wKing:     move = KING_(pos,ownPieces,occupied); break;

            for (; move !=0; move &= (move-1))
                moves += new Move(pos, log2(move&~(move-1)),this);

    return moves;

The Move class

// Prototype

class Move
        Move (string m, Board* b) : from(ALG2FROM(m)), to(ALG2TO(m)), pieceFrom(b->atPosition[from]), pieceTo(b->atPosition[to]) {}
        Move (int f, int t, Board* b) : from(f), to(t), pieceFrom(b->atPosition[from]), pieceTo(b->atPosition[to]) {}
        Move (int val) : value(val) {}

        inline string notation();
        inline string out();
        int from, to;
        int pieceFrom, pieceTo;
        int value;

// Inline Functions

inline string Move::notation()
    return SSTR(SPOS(this->from) << SPOS(this->to));

inline string Move::out()
    return SSTR(this->notation() << " :: " << this->value);

Obviously, the first function being recursive AND called some millions of times, there is some expected load. The thing is once the search goes up to the 4th,5th ply or something, the app already takes up like 2GB. And the thing is that once it's complete (the search), the memory is still not freed - so I suppose this is indicating a problem.

So, any ideas?

Please, just let me know in case you need to know anything else about the implementation.

Hints :

  • FOREACH is just a macro for a vector iterator
  • the += for vector appending comes from Boost
  • everything in bold is a macro, but in terms of memory overhead, none of them is doing anything intensive (so I decided to omit them)
  • no destructors implemented whatsoever
share|improve this question
Holy macros batman. – Falmarri Jan 22 '13 at 4:22
Dumb question, but are you freeing that "new Move" anywhere? It would explain the leak if you're not... because destroying the vector doesn't call delete for all its members afaik. – Mike Trusov Jan 22 '13 at 4:24
And after you're done with them, they are destroyed.. how? I think paddy's answer may serve you pretty well, and not just with possible moves. – WhozCraig Jan 22 '13 at 4:39
"this seems like a major point." Its beyond "major". It is very likely the reason you're here in the first place. I would strongly suggest just a bit of time with this pdf and consider what paddy's answer may mean along these lines, and not just for move management. – WhozCraig Jan 22 '13 at 4:48
probably makes sense to just have Move possibleMoves[1024] declared as a member of the board along with an int numPossibleMoves. change the name of the function possibleMoves to updatePossibleMoves. – thang Jan 22 '13 at 5:26
up vote 3 down vote accepted


vector<Move*> moves = this->possibleMoves();

A vector of pointers does not free the pointers for you. You could try a vector of std::unique_ptr<Move> instead.

You will have better performance if you do not do individual allocations of moves. Use a memory pool. In that respect, you might not really need a vector at all.

Unless Move is a polymorphic class, I suggest you don't allocate it at all. Instead, make a bunch of Set functions on Move and declare your possibleMoves function like this:

void Board::possibleMoves( vector<Move> & moves )

And obviously call it like this:

vector<Move> moves;
possibleMoves( moves );

So, this means that when you add a move, instead of doing a new, you can do something like this:

    moves.push_back( Move(pos, log2(move&~(move-1)),this) );

That invokes the copy constructor. If you want to avoid an extra copy, then make an empty constructor for Move and make the afore-mentioned 'setter' function:

    moves.resize( moves.size()+1 );
    Move & m = moves.back();
    m.Set( pos, log2(move&~(move-1)),this );

I am not 100% sure whether that will be any quicker. Anyway, another thing... If you expect that a typical board almost always has less than 50 possible moves, you can improve performance by doing this at the beginning of possibleMoves:


That means the vector will hardly ever have to be resized, and thus makes the push_back operation faster.

share|improve this answer
Could you please elaborate a bit more on the idea (I'm not 100% sure what you mean). Btw, I just posted the full code (except for the macros) of the Move class. – Dr.Kameleon Jan 22 '13 at 4:32
Hey, I'm gonna edit with a better theory. This other stuff still holds. Stand by. -- Actually, no that was dumb.. Okay, which part do you need clarification on? – paddy Jan 22 '13 at 4:32
Glad it was helpful. The speed gain is not unexpected. You were leaking memory up the wazoo. Your program would quite likely have been having memory paging trouble. It would pay to study a bit more about memory management and object lifetime in C++ so you don't fall into this trap again. Happy coding =) – paddy Jan 22 '13 at 7:21
@paddy ya gotta love Ph.Ds. Their ideas for algorithms and the math behind them borderline on brilliant sometimes, but too often their coding skills.. ouch. At least he has some good ideas going forward. I hope he takes them to heart. and nice job. – WhozCraig Jan 22 '13 at 7:48
@Dr.Kameleon Oh, well in that case you likely agree with my now-completely-unrelated point. All is well regardless. I hope your project turned out good! If you want a strong practice to try and stick to, consider always striving for RAII It does not mean don't use dynamic allocation. Rather, it simply means resource acquisitions are always controlled by scope-based protection (like a call-stack). – WhozCraig Mar 4 '13 at 9:17

I'm not sure std::vector is the best container in this case.

The number of possible moves is finite, and it should be possible to calculate it. I'm not going to guess on how you'd do that, but assuming you can do it (or just use a const big number)... then it might be worth using an array instead:

Move *moves = new Move[maxMoves];
FillPossibleMoves(moves, maxMoves)
// do stuff
delete [] moves;

Then you can update your possible moves function to:

int Board::FillPossibleMoves(Move *moves, int maxMoves)
    int i = 0;
    moves[i].Something = Whatever;
    return i;

That way you'll be allocating memory only once, and cleaning it up when you're done with it.

If you agree with: Using arrays or std::vectors in C++, what's the performance gap? which says to avoid dynamic arrays, then:

std::vector<Move> moves(maxMoves);
// if you use a const, then you can keep declaration above as a member
// and call moves.clear() here instead
int movesAdded = board->FillPossibleMoves(moves);
// do stuff

int Board::FillPossibleMoves(std::vector<Move> &moves)
    int i = 0;
    moves[i].Something = Whatever;
    return i;
share|improve this answer
And this differs from a std::vector<Move> moves(maxMoves); how? RAII, my friend. It's whats for dinner. – WhozCraig Jan 22 '13 at 4:46
@WhozCraig: Well because the OP is obviously having problems understanding memory management and pointer ownership, so it simplifies that. – Falmarri Jan 22 '13 at 4:48
In that respect you'd be better off getting dirty, ditching the vector and class paradigm altogether and making a great big buffer that the recursive calls use as a stack. – paddy Jan 22 '13 at 4:49
@paddy strangely, its amazing how many game engines with look-ahead theory are pretty much exactly what you just described =P – WhozCraig Jan 22 '13 at 4:50
Something tells me using a vector has a little bit more overhead than using an array. You can go ahead and argue all you like about arrays being unsafe and evil. – Mike Trusov Jan 22 '13 at 4:54

no destructors implemented whatsoever

Why do you think memory should be released. You're calling new a whole crapload of times but you're never deleting the Moves you create.

Also, show us the definition of the Move class

share|improve this answer
Just posted the whole Move class (nothing is missing - except for the Macro definitions of course...) – Dr.Kameleon Jan 22 '13 at 4:31

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