В общем сабж, есть одна игра(курсовая), нужно сделать так чтобы процесс игры можно было сохранять, и загружать соответственно, читал про сериализацию, но никак не смог осуществить ее на своем проекте. Как это сделать на примере какого-нибудь объекта, т.е где и че нужно дописать/переписать в проекте, чтобы можно было бы реализовать сохранение/загрузка.
using System;
using System.Collections.Generic;
using System.Text;
using System.Drawing;
namespace BoxGame
{
public enum MoveScore
{
NotAllowed = -1,
Zero = 0,
One = 1,
Two = 2
}
public enum BoxDirection
{
Up,
Down,
Left,
Right
}
class GameBoard : IGameBoard, ICornerMapper
{
List<List<Corner>> m_CornerRows;
List<IMove> m_Moves;
List<Move> m_RemainingMoves;
List<Box> m_Boxes;
IGraphicProvider m_Graphics;
readonly int m_Rows;
readonly int m_Columns;
readonly int m_PointsPerInch = 2;
readonly int m_PossibleLines;
public GameBoard(int rows, int columns)
{
m_Rows = rows;
m_Columns = columns;
m_CornerRows = new List<List<Corner>>(m_Rows);
for (int i = 0; i < m_Rows; i++)
{
List<Corner> row = new List<Corner>(m_Columns);
for (int col = 0; col < m_Columns; col++)
{
row.Add(new Corner(new Point(col, i), this, Color.Black));
}
m_CornerRows.Add(row);
}
m_PossibleLines = ((m_Rows - 1) * m_Columns) + ((m_Columns - 1) * m_Rows);
m_Moves = new List<IMove>(m_PossibleLines);
PopulateAvailableMoves();
m_Boxes = new List<Box>( (m_Rows-1) * (m_Columns-1) );
}
public int MovesRemaining
{
get
{
return m_PossibleLines - m_Moves.Count;
}
}
public List<Move> AvailableMoves
{
get
{
return m_RemainingMoves;
}
}
public MoveScore MakeMove(IMove move, Player p)
{
List<Box> results = SpeculateMove(move, p);
bool foundSlot = false;
foreach(Move m in AvailableMoves)
{
if (move.CompareTo(m) == 0)
{
m.SetPlayer(p);
AvailableMoves.Remove(m);
Moves.Add(m);
foundSlot = true;
break;
}
}
System.Diagnostics.Debug.Assert(foundSlot);
MoveScore score = MoveScore.Zero;
if (results.Count > 0)
{
foreach (Box b in results)
{
m_Boxes.Add(b);
score = BumpScore(score);
}
p.AddScore(results.Count);
}
return score;
}
void PopulateAvailableMoves()
{
m_RemainingMoves = new List<Move>(m_PossibleLines);
for (int row = 0; row < m_Rows; row++)
{
for (int col = 0; col < m_Columns; col++)
{
if (col != m_Columns - 1)
{
Line l = new Line(m_CornerRows[row][col], m_CornerRows[row][col + 1]);
Move m = new Move(l);
if (IsAvailableMove(m))
{
m_RemainingMoves.Add(m);
}
}
if (row != m_Rows - 1)
{
Line l = new Line(m_CornerRows[row][col], m_CornerRows[row + 1][col]);
Move m = new Move(l);
if (IsAvailableMove(m))
{
m_RemainingMoves.Add(m);
}
}
}
}
}
public IGraphicProvider GraphicsProvider
{
get
{
return m_Graphics;
}
set
{
m_Graphics = value;
}
}
int IGameBoard.Rows
{
get
{
return m_Rows;
}
}
int IGameBoard.Columns
{
get
{
return m_Columns;
}
}
ICorner[] IGameBoard.this[int index]
{
get
{
return m_CornerRows[index].ToArray();
}
}
bool bgRendered = false;
public void Render(IGraphicProvider gfx)
{
if (bgRendered == false)
{
Bitmap b = GenerateEmptyBackground(Color.White);
gfx.DrawImage(b, 0, 0);
bgRendered = true;
}
for(int i = 0; i < m_Rows; i++)
{
List<Corner> row = m_CornerRows[i];
foreach (Corner c in row)
{
c.Render(gfx);
}
}
foreach (IMove m in m_Moves)
{
m.Render(gfx);
}
foreach (Box b in m_Boxes)
{
b.Render(gfx);
}
gfx.Invalidate();
}
public Point GetGraphicsPoint(ICorner corner)
{
int SpacingX = m_Graphics.DpiX / m_PointsPerInch;
int SpacingY = m_Graphics.DpiY / m_PointsPerInch;
for (int row = 0; row < m_Rows; row++)
{
for (int index = 0; index < m_Columns; index++)
{
if(corner.Equals(m_CornerRows[row][index]))
{
int x = (SpacingX * index + SpacingX);
int y = (SpacingY * row + SpacingY);
return new Point(x, y);
}
}
}
throw new ArgumentOutOfRangeException("corner");
}
public Size GetMinimumGraphicsSize(int DpiX, int DpiY)
{
int SpacingX = DpiX / m_PointsPerInch;
int SpacingY = DpiY / m_PointsPerInch;
int width = m_Columns * SpacingX + SpacingX;
int height = m_Rows * SpacingY + SpacingY;
return new Size(width, height);
}
static int Distance(Point p1, Point p2)
{
double xprime = Math.Pow((p1.X - p2.X), 2);
double yprime = Math.Pow((p1.Y - p2.Y), 2);
return (int) Math.Ceiling(Math.Sqrt(xprime + yprime));
}
public ICorner ClosestCornerFromGraphicsPoint(Point p)
{
ICorner nearest = null;
int dist = int.MaxValue;
for (int row = 0; row < m_Rows; row++)
{
foreach (ICorner c in m_CornerRows[row])
{
int temp = Distance(p, this.GetGraphicsPoint(c));
if (temp < dist)
{
dist = temp;
nearest = c;
}
}
}
return nearest;
}
private static void SetBGColor(Bitmap b, Color c)
{
for (int x = 0; x < b.Width; x++)
{
for (int y = 0; y < b.Height; y++)
{
b.SetPixel(x, y, c);
}
}
}
private Bitmap GenerateEmptyBackground(Color bgColor)
{
Size s = GetMinimumGraphicsSize(m_Graphics.DpiX, m_Graphics.DpiY);
Bitmap b = new Bitmap(s.Width, s.Height, m_Graphics.PixelFormat);
SetBGColor(b, bgColor);
return b;
}
private bool CornerPointOnBoard(Point p)
{
return (p.X >= 0 && p.X < m_Columns &&
p.Y >= 0 && p.Y < m_Rows);
}
public List<IMove> Moves
{
get
{
return m_Moves;
}
}
public bool AreBoxableCorners(Corner ul, Corner ur, Corner ll, Corner lr)
{
bool areBoxable = false;
if (CornerPointOnBoard(ul.Location) && CornerPointOnBoard(ur.Location) &&
CornerPointOnBoard(ll.Location) && CornerPointOnBoard(lr.Location))
{
if (ul.IsAdjacentTo(ll) && ul.IsAdjacentTo(ur))
{
if (lr.IsAdjacentTo(ll) && lr.IsAdjacentTo(ur))
{
areBoxable = true;
}
}
}
return areBoxable;
}
public bool MakesBox(Corner ul, Corner ur, Corner ll, Corner lr, Move move)
{
int filledLines = 0;
bool fillsGap = false;
bool makesBox = false;
if(AreBoxableCorners(ul, ur, ll, lr))
{
if (!IsAvailableMove(ul, ur))
{
filledLines++;
}
else
{
fillsGap = (move.Line.Start.Location == ul.Location &&
move.Line.End.Location == ur.Location);
}
if (!IsAvailableMove(ur, lr))
{
filledLines++;
}
else
{
fillsGap = (move.Line.Start.Location == ur.Location &&
move.Line.End.Location == lr.Location);
}
if (!IsAvailableMove(ll, lr))
{
filledLines++;
}
else
{
fillsGap = (move.Line.Start.Location == ll.Location &&
move.Line.End.Location == lr.Location);
}
if (!IsAvailableMove(ul, ll))
{
filledLines++;
}
else
{
fillsGap = (move.Line.Start.Location == ul.Location &&
move.Line.End.Location == ll.Location);
}
makesBox = filledLines == 3 && fillsGap;
}
return makesBox;
}
Corner GetCornerFromDirection(Corner orig, BoxDirection direction)
{
Corner result = null;
Point newP = orig.Location;
switch (direction)
{
case BoxDirection.Up:
newP.Offset(0, -1);
break;
case BoxDirection.Down:
newP.Offset(0, 1);
break;
case BoxDirection.Left:
newP.Offset(-1, 0);
break;
case BoxDirection.Right:
newP.Offset(1, 0);
break;
}
if (CornerPointOnBoard(newP))
{
result = m_CornerRows[newP.Y][newP.X];
}
return result;
}
Box CreateBox(IMove move, BoxDirection direction, Player player)
{
bool wouldBox = false;
Corner ul = null, ur = null, ll = null, lr = null;
switch (direction)
{
case BoxDirection.Up:
{
if(!(move.Line as Line).Vertical)
{
ll = move.Line.Start as Corner;
ul = GetCornerFromDirection(ll, BoxDirection.Up);
lr = move.Line.End as Corner;
ur = GetCornerFromDirection(lr, BoxDirection.Up);
}
}
break;
case BoxDirection.Down:
{
if (!(move.Line as Line).Vertical)
{
ul = move.Line.Start as Corner;
ur = move.Line.End as Corner;
ll = GetCornerFromDirection(ul, BoxDirection.Down);
lr = GetCornerFromDirection(ur, BoxDirection.Down);
}
}
break;
case BoxDirection.Left:
{
if ((move.Line as Line).Vertical)
{
ur = move.Line.Start as Corner;
lr = move.Line.End as Corner;
ul = GetCornerFromDirection(ur, BoxDirection.Left);
ll = GetCornerFromDirection(lr, BoxDirection.Left);
}
}
break;
case BoxDirection.Right:
{
if ((move.Line as Line).Vertical)
{
ul = move.Line.Start as Corner;
ll = move.Line.End as Corner;
ur = GetCornerFromDirection(ul, BoxDirection.Right);
lr = GetCornerFromDirection(ll, BoxDirection.Right);
}
}
break;
default:
throw new ArgumentException("JILZZ");
}
Box box = null;
if (ul != null && ur != null && ll != null && lr != null)
{
wouldBox = MakesBox(ul, ur, ll, lr, move as Move);
if (wouldBox)
{
box = new Box(ul, ur, lr, ll, player, this);
}
}
return box;
}
static MoveScore BumpScore(MoveScore score)
{
switch (score)
{
case MoveScore.NotAllowed:
return MoveScore.One;
case MoveScore.Zero:
return MoveScore.One;
case MoveScore.One:
return MoveScore.Two;
default:
return MoveScore.NotAllowed;
}
}
static void AddIfNotNull(List<Box> list, Box b)
{
if (b != null)
{
list.Add(b);
}
}
public List<Box> SpeculateMove(IMove move, Player player)
{
List<Box> results = new List<Box>();
if (IsAvailableMove(move))
{
AddIfNotNull(results, CreateBox(move, BoxDirection.Up, player));
AddIfNotNull(results, CreateBox(move, BoxDirection.Down, player));
AddIfNotNull(results, CreateBox(move, BoxDirection.Left, player));
AddIfNotNull(results, CreateBox(move, BoxDirection.Right, player));
}
return results;
}
public bool IsAvailableMove(Corner start, Corner end)
{
return IsAvailableMove(new Move(new Line(start, end)));
}
public bool IsAvailableMove(IMove move)
{
Point start = move.Line.Start.Location;
Point end = move.Line.End.Location;
if (CornerPointOnBoard(start) && CornerPointOnBoard(end))
{
foreach (Move m in m_Moves)
{
if (m.Line.Start == move.Line.Start &&
m.Line.End == move.Line.End)
{
return false;
}
}
return true;
}
return false;
}
}
}