public Vector GetPossibleStartPlace(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, Vector botCoordinate)
{
return(figure
.Where(groundedChecker.CanRemove)
.FirstOrDefault(f => f.GetAdjacents()
.Any(adj => !figure.Contains(adj) && matrix.Contains(adj) && !isForbidden(botCoordinate))));
}
public Vector GetPossibleStartPlace(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, Vector botCoordinate)
{
return(figure.OrderByDescending(f => (f - botCoordinate).Mlen)
.Where(f => f != botCoordinate)
.Where(f => groundedChecker.CanPlace(f))
.FirstOrDefault(f => f.GetAdjacents()
.Any(adj => !figure.Contains(adj) && matrix.Contains(adj) && !isForbidden(botCoordinate))));
}
public PathWork(Vector botPosition, Vector endPosition, Matrix matrix, IsGroundedChecker isGroundedChecker, int botsCount, int botId, Matrix model)
{
BotPosition = botPosition;
EndPosition = endPosition;
this.matrix = matrix;
this.isGroundedChecker = isGroundedChecker;
BotsCount = botsCount;
BotId = botId;
this.model = model;
}
public BotMoveSearcher(Matrix matrix, Matrix model, Vector botPosition, Func <Vector, bool> isForbiddenArea, int botsCount, Vector end, IsGroundedChecker groundedChecker)
{
Matrix = matrix;
BotPosition = botPosition;
IsForbiddenArea = isForbiddenArea;
BotsCount = botsCount;
End = end;
GroundedChecker = groundedChecker;
Model = model;
}
public Dictionary <int, Vector> DoWork(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, out List <ICommand> commands, out List <Vector> vectors)
{
var searcher = new BotMoveSearcher(matrix, model, BotPosition, isForbidden, BotsCount, EndPosition, isGroundedChecker)
{
mongoOplogWriter = mongoOplogWriter
};
searcher.FindPath(out vectors, out commands, out _);
return(new Dictionary <int, Vector>
{
{ BotId, EndPosition }
});
}
public Vector SetWorkerAndGetInput(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, Vector botCoordinate, int botId)
{
if (start != null)
{
throw new Exception("too many workers");
}
BotId = botId;
return(start = figure
.Where(groundedChecker.CanRemove)
.FirstOrDefault(f => f.GetAdjacents()
.Any(adj => !figure.Contains(adj) && matrix.Contains(adj) && !isForbidden(botCoordinate))));
}
public static void Test()
{
var modelFilePath = @"..\..\..\data\models\LA020_tgt.mdl";
var matrix = MatrixDeserializer.Deserialize(File.ReadAllBytes(modelFilePath));
var mongoOplogWriter = new JsonOpLogWriter(new MongoJsonWriter());
mongoOplogWriter.WriteLogName("GreedyGravityAI_IsGrounded");
var state = State.CreateInitial(matrix.R, mongoOplogWriter);
mongoOplogWriter.WriteInitialState(state);
var groundedChecker = new IsGroundedChecker(matrix);
var vertexex = new List <Vector>();
for (int y = 0; y < matrix.R; y++)
{
for (int x = 0; x < matrix.R; x++)
{
for (int z = 0; z < matrix.R; z++)
{
var vector = new Vector(x, y, z);
if (matrix.IsVoid(vector))
{
continue;
}
vertexex.Add(vector);
}
}
}
var rand = new Random();
vertexex = vertexex.OrderBy(_ => rand.NextDouble()).ToList();
foreach (var vector in vertexex)
{
if (groundedChecker.CanRemove(vector))
{
groundedChecker.UpdateWithClear(vector);
continue;
}
mongoOplogWriter.WriteFill(vector);
}
mongoOplogWriter.Save();
}
public FigureDecomposer(Matrix targetMatrix, Matrix startMatrix = null)
{
R = targetMatrix.R;
costPerStep = 3 * R * R * R;
curMatrix = startMatrix?.Clone() ?? new Matrix(R);
this.targetMatrix = targetMatrix.Clone();
xorMatrix = curMatrix ^ targetMatrix;
curSums = new PointCounter(curMatrix);
targetSums = new PointCounter(targetMatrix);
xorSums = new PointCounter(xorMatrix);
curGroundChecker = new IsGroundedChecker(curMatrix);
rand = new Random(42);
}
public static void SearchTest()
{
//var trackFilePath = @"..\..\..\data\track\LA001.nbt";
var modelFilePath = @"..\..\..\data\models\LA180_tgt.mdl";
var matrix = MatrixDeserializer.Deserialize(File.ReadAllBytes(modelFilePath));
//var ai = new GreedyGravityAI(matrix);
Console.WriteLine("matrix loaded");
var mongoOplogWriter = new JsonOpLogWriter(new MongoJsonWriter());
mongoOplogWriter.WriteLogName("GreedyGravityAI_IsGrounded");
var state = State.CreateInitial(matrix.R, mongoOplogWriter);
mongoOplogWriter.WriteInitialState(state);
var groundedChecker = new IsGroundedChecker(matrix);
var startPosition = new Vector(0, 0, 0);
for (int i = 0; i < matrix.R; i++)
{
for (int j = 0; j < matrix.R; j++)
{
for (int k = 0; k < matrix.R; k++)
{
var vector = new Vector(i, j, k);
if (matrix.IsVoid(vector))
{
continue;
}
mongoOplogWriter.WriteColor(vector, "0000FF", 0.5);
}
}
}
Console.WriteLine("matrix inited");
var rand = new Random(15);
var forbidden = new HashSet <Vector>();
Console.WriteLine("start");
for (int i = 0; i < 1002; i++)
{
var endPosition = new Vector(rand.Next(matrix.R), rand.Next(matrix.R), rand.Next(matrix.R));
while (forbidden.Contains(endPosition) || matrix.IsFull(endPosition))
{
endPosition = new Vector(rand.Next(matrix.R), rand.Next(matrix.R), rand.Next(matrix.R));
}
mongoOplogWriter.WriteColor(endPosition, "00FF00", 1);
DateTime d = DateTime.UtcNow;
var pathBuilder = new BotMoveSearcher(matrix, state.Matrix, startPosition, vector => forbidden.Contains(vector), 39, endPosition, groundedChecker);
pathBuilder.FindPath(out var movePath, out var commands, out var iterations);
if (movePath == null)
{
break;
}
Console.WriteLine($"{commands.Count}: {d - DateTime.UtcNow} - {iterations}");
movePath.ForEach(c => forbidden.Add(c));
foreach (var vector in movePath)
{
mongoOplogWriter.WriteFill(vector);
}
mongoOplogWriter.WriteColor(endPosition, "0000FF", 1);
startPosition = endPosition;
}
mongoOplogWriter.Save();
}
public Dictionary <int, Vector> DoWork(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, out List <ICommand> commands, out List <Vector> volatiles)
{
if (figure.Where(isForbidden).Any())
{
throw new ArgumentException("`figure` should not intersect `prohibited`");
}
if (!figure.Contains(start))
{
throw new ArgumentException("`figure` should contain `start`");
}
var gravity = CalcGravity(figure, start);
Console.WriteLine("figure.Count = {0}", figure.Count);
Console.WriteLine("gravity.Count = {0}", gravity.Count);
var removeFills = new Dictionary <Vector, int>();
var filled = new HashSet <Vector>();
var curPoint = start;
volatiles = new List <Vector>();
commands = new List <ICommand>();
Dictionary <Vector, int> filltimes = new Dictionary <Vector, int>();
int time = 0;
while (filled.Count < figure.Count)
{
time++;
var nextPoint = curPoint.GetAdjacents()
.Where(p => figure.Contains(p) && !filled.Contains(p))
.OrderByDescending(p => gravity[p])
.FirstOrDefault();
if (nextPoint == null)
{
break;
}
try
{
List <Vector> curPath = null;
List <ICommand> curCommands = null;
if (!curPoint.IsAdjacentTo(nextPoint))
{
//Move(figure, isForbidden, curPoint, nextPoint, true, out curPath, out curCommands);
}
else
{
MoveStraight(curPoint, nextPoint, out curPath, out curCommands);
}
if (curPath == null)
{
break;
}
foreach (var vector in curPath.Where(vector => filled.Contains(vector)))
{
removeFills[vector] = removeFills.TryGetValue(vector, out var val) ? val + 1 : 1;
mongoOplogWriter?.WriteColor(vector, "FFFF00", 0.5);
}
filled.Add(curPoint);
volatiles.AddRange(curPath);
commands.AddRange(curCommands);
foreach (var fillCommand in curCommands.OfType <FillCommand>())
{
filltimes[fillCommand.RealFill] = time;
}
}
catch (ArgumentException)
{
Console.WriteLine("Exception, was able to draw only {0} points", filled.Count);
break;
}
curPoint = nextPoint;
}
commands = commands.Where(command =>
{
if (removeFills.Count == 0)
{
return(true);
}
var fillCommand = command as FillCommand;
if (fillCommand == null)
{
return(true);
}
if (!removeFills.TryGetValue(fillCommand.RealFill, out var val) || val == 0)
{
return(true);
}
removeFills[fillCommand.RealFill]--;
return(false);
}).ToList();
return(new Dictionary <int, Vector> {
{ BotId, curPoint }
});
}
public Vector SetWorkerAndGetInput(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, Vector botCoordinate, int botId)
{
throw new NotImplementedException();
}
public Vector GetPossibleStartPlace(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, Vector botCoordinate)
{
throw new NotImplementedException();
}
public List <BuildingTask> Decompose()
{
Console.WriteLine("FigureDecomposer.Decompose() started");
double initialTemp = EvaluateDifferenceFrom(curMatrix) / 10.0;
var tasks = new List <BuildingTask>();
ConvergenceStopper.Run(regionNo =>
{
var stopwatch = Stopwatch.StartNew();
if (xorSums.TotalFulls <= 3)
{
return(null);
}
Console.WriteLine($"Points to change: {xorSums.TotalFulls}\n");
var state = FindNextRectangle(regionNo, initialTemp);
if ((state.Region.Max - state.Region.Min).Clen <= 3)
{
Console.WriteLine("Too small region, it will be skipped");
return(xorSums.TotalFulls);
}
Region leg = null;
if (state.Fill && BreakesGrounding(state) && state.Region.Min.Y > 0)
{
var direction = state.Region.Max - state.Region.Min;
if (true /*direction.X < 3 || direction.Z < 3*/)
{
Console.WriteLine("We don't build regions like vertical lines if they are not grounded");
return(xorSums.TotalFulls);
}
var legX = state.Region.Min.X + 1;
var legZ = state.Region.Min.Z + 1;
leg = new Region(
new Vector(legX, 0, legZ),
new Vector(legX, state.Region.Min.Y - 1, legZ));
Console.WriteLine($"Building leg {leg} for region {state.Region}");
curMatrix.Fill(leg);
UpdateXorMatrix(leg);
if (leg.Volume >= 4)
{
tasks.Add(new BuildingTask(BuildingTaskType.GFill, leg));
}
else
{
tasks.AddRange(leg.AllPoints()
.Select(p => new BuildingTask(BuildingTaskType.Fill, new Region(p))));
}
}
if (!state.Fill && BreakesGrounding(state))
{
Console.WriteLine("Can't fix ungrounded GVoids");
return(xorSums.TotalFulls);
}
if (state.Fill)
{
curMatrix.Fill(state.Region);
}
else
{
curMatrix.Clear(state.Region);
}
UpdateXorMatrix(state.Region);
var type = state.Fill ? BuildingTaskType.GFill : BuildingTaskType.GVoid;
tasks.Add(new BuildingTask(type, state.Region));
var minChanged = leg == null ? state.Region.Min : new Vector(0, 0, 0);
curSums.Update(curMatrix, minChanged);
xorSums.Update(xorMatrix, minChanged);
curGroundChecker = new IsGroundedChecker(curMatrix);
Console.WriteLine($"Elapsed {stopwatch.ElapsedMilliseconds} ms");
return(xorSums.TotalFulls);
}, 0.001, 50);
Console.WriteLine($"Points to change: {xorSums.TotalFulls}");
tasks.AddRange(CreatePointwiseTasks());
Console.WriteLine("FigureDecomposer.Decompose() complete");
return(tasks);
}
public Dictionary <int, Vector> DoWork(IsGroundedChecker groundedChecker, Func <Vector, bool> isForbidden, out List <ICommand> commands, out List <Vector> volatiles)
{
if (figure.Where(isForbidden).Any())
{
throw new ArgumentException("`figure` should not intersect `prohibited`");
}
if (!figure.Contains(start))
{
throw new ArgumentException("`figure` should contain `start`");
}
var gravity = CalcGravity(figure, start);
Console.WriteLine("figure.Count = {0}", figure.Count);
Console.WriteLine("gravity.Count = {0}", gravity.Count);
var voided = new HashSet <Vector> {
start
};
if (matrix.IsFull(start))
{
groundedChecker.UpdateWithClear(start);
}
var curPoint = start;
volatiles = new List <Vector>();
commands = new List <ICommand>();
while (voided.Count < figure.Count)
{
var nextPoint = curPoint.GetAdjacents()
.Where(p => figure.Contains(p) && !voided.Contains(p))
.Where(groundedChecker.CanRemove)
.OrderByDescending(f => f.GetAdjacents().Count(f1 => matrix.Contains(f1) && matrix.IsFull(f1) && !voided.Contains(f1)) == 1)
.ThenByDescending(p => gravity[p])
.FirstOrDefault();
List <Vector> curPath;
List <ICommand> curCommands;
if (nextPoint == null)
{
break;
}
MoveStraight(curPoint, nextPoint, out curPath, out curCommands);
foreach (var vector in curPath.Where(vector => voided.Contains(vector)))
{
mongoOplogWriter?.WriteColor(vector, "FFFF00", 0.5);
}
voided.Add(nextPoint);
groundedChecker.UpdateWithClear(nextPoint);
commands.AddRange(curCommands);
volatiles.AddRange(curPath);
curPoint = nextPoint;
}
foreach (var vector in commands.OfType <VoidCommand>().Select(c => c.RealVoid).Reverse())
{
groundedChecker.UpdateWithFill(vector);
}
return(new Dictionary <int, Vector> {
{ BotId, curPoint }
});
}
