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I'm designing a simple Connect 4 game. So far, I have 4 underlying classes:

Colour - responsible for representing colours (RGBA). Includes conversion operators.

Player - represents a player of the game. Each Player has a Colour and a name.

Board - represents the playing board. It contains dimensions, as well as a 2D vector of Tiles with those dimensions.

Tile - a nested class within Board. Represents one space on the board. Each Tile has a Colour and an std::unique_ptr to the owner of that tile. The owner starts as nullptr and can be changed once to a Player. The colour starts as a transparent black.

I've tested my Colour class and it appears to be working fine. My Player class is in tip-top shape as well. However, I'm having some problems with the Board/Tile classes.

My test consisted of creating two players, and a board. These executed normally. Next, I loop through the dimensions of the board, once for each tile. I then call

board.tile (j, i).claimBy (p2); 

The loop goes through rows with i and columns with j, the way you'd expect to print it.

tile (j, i) retrieves the tile I'm working with. It works as expected.

Chain of Events Leading to the Crash:

claimBy (p2) sets the tile to become claimed by player 2. It is implemented as follows:

bool Board::Tile::claimBy (const Player &owner)
    if (!_owner)
        *_owner = owner;
        _colour = owner.colour();
        return true;

    return false;

_owner is my std::unique_ptr<Player>. It first checks whether the owner of the tile has been set before (i.e. is not nullptr). If not, it sets the Player inside to the one passed in. It then updates the tile's colour and returns true. If the tile has been previously claimed, it returns false.

Following the debugger, the crash occurs in the line *_owner = owner;. Stepping in takes me to the line struct Player (my declaration of the Player class), which I take to be the implicit copy constructor (remember the class only has a Colour _colour and a std::string _name).

Stepping in again leads me to Colour::operator= (which makes sense for a copy constructor to call). Here's the definition:

Colour &Colour::operator= (const Colour &rhs)
    if (*this != rhs)
        _red = rhs.red();
        _green = rhs.green();
        _blue = rhs.blue();
        _alpha = rhs.alpha();

    return *this;

The path turns into *this != rhs. This is just a reverse call to operator==, which is:

return red() == rhs.red()
    && green() == rhs.green()
    && blue() == rhs.blue()
    && alpha() == rhs.alpha();

The first comparison here red() == rhs.red() has red() which is just return _red;. This is the point at which the program crashes. The debugger states that this (this->_red) is 0x0.

I'm clueless about why this is happening. My best guess is that I'm using the smart pointer wrongly. I've never actually used one before, but it should be pretty similar to normal pointers, and I didn't think release would accomplish anything if the pointer is nullptr.

What could be the cause of this being 0x0?

I'm sure everything is initialized, as I do so in each constructor, in member initializers (e.g. Board::Tile::Tile() : _colour (Colours::NONE), _owner (nullptr){}), where NONE is a transparent black.

I'm also not too proficient with a debugger, as I haven't used it that much over printing debugging values.

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Side note: Does it really make sense for tiles to be boards? –  Cameron Apr 26 '12 at 2:03
@Cameron, the is-a relationship pertains to inheritance. My goal with the Tile class was to completely contain it in Board. The tile function was originally a const return, but I just changed that for testing. The tiles can be accessed from outside of Board, but no new tiles may be created, just worked with. Of course Board has non-const access through the vector of tiles (there's the has-a relationship I do provide). In short, a board object has-a 2D vector of tiles. –  chris Apr 26 '12 at 2:10
An unrelated comment on your design: the game logic that manipulates the board shouldn't have to concern itself with RGBA colors. I'd have the tile just refer to the player who controls it, and let the drawing code choose the color based on which player it is. –  Wyzard Apr 26 '12 at 2:11
@chris: Yes, it's the inheritance I was questioning :-) While it may be convenient to inherit from Board, conceptually it doesn't really make sense. –  Cameron Apr 26 '12 at 2:13
@Wyzard, I was debating that, as owner().colour() is just one short step extra. –  chris Apr 26 '12 at 2:13

2 Answers 2

up vote 3 down vote accepted

The line

*_owner = owner;

means "make a copy of the owner object, and store it at the place that _owner points to." The problem is that _owner doesn't point to anything yet; it's still null.

If you really want to make a copy of the Player object in each tile that the player controls, you'd need to do

_owner.reset(new Player(owner));

But making copies of the Player object is a strange thing to do. Consider using shared_ptr instead — you can have both owner and _owner be shared_ptrs, and just assign one to the other in the usual way.

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I'll look into that, thank you. I'd like the argument to be an actual Player, but I was thinking unique_ptr because it would only ever be nullptr or one Player. I guess I thought wrong. –  chris Apr 26 '12 at 2:01
The "unique" in unique_ptr doesn't mean that once you point it to a Player you can't make it point to a different one. It means that when you point it to a Player, you're promising that nothing else points to that same Player, so it's safe to delete the Player when the unique_ptr goes out of scope. A shared_ptr lets you have several pointers to the same Player (e.g. one in each tile that the player controls), and the Player won't be deleted until all those pointers go out of scope. –  Wyzard Apr 26 '12 at 2:05
The reset seems to have done the trick :) I thought about it, but the fact is that each player is initialized, and has no changes made from then on. The next layer up is the "interface", which takes care of turns, wins, etc. Due to this behaviour, it is perfectly fine to make a copy and store it just for reading the player's colour, and at the same time, whether it is owned. I've read about smart pointers, so I know what the differences are, but I guess my logic behind that decision was flawed. –  chris Apr 26 '12 at 2:18
Making the copies won't produce wrong results (as long as you don't need to modify the Player afterward) but it's inefficient. I'd recommend using shared_ptrs to a single Player object as a matter of practicing good habits, even if the current design doesn't cause significant problems right now. –  Wyzard Apr 26 '12 at 2:23
That is a valid point. Although speed for claiming each tile isn't important at all, it is more scalable, and provides me with the opportunity to try out a new smart pointer. –  chris Apr 26 '12 at 2:24

You start off with a default initialized std::unique_ptr<Player>. That is to say, the equivalent of a NULL pointer with some cleanup semantics. Then you try to dereference it in the statement *_owner=owner; so that you can assign to it.

Thus the statement *_owner=owner; is basically equivalent to ((Player*)NULL)->operator=(owner);, calling the implicit assignment operator. The first thing this does is then equivalent to ((Player*)NULL)->_colour=owner._colour; Finding this==NULL is not surprising here; indeed, it's expected.

The fix depends on what you actually want to happen. Should each Board::Tile be given a completely new copy of its owner? Then you want to instead say _owner.reset(new Player(owner)). Do you just want each tile to hold a reference to an already existing player? Can you guarantee that the Player object owner will outlive the Board::Tile object? Then you want a raw pointer: (in declaration of Board::Tile) Player const *_owner; (in implementation) _owner=&owner;.

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