static Block()
{
PhysicsProvider = new BlockPhysicsProvider();
BoundingBoxHandlers = new Dictionary <short, BoundingBoxHandler>();
IsSolidOnFaceHandlers = new Dictionary <short, IsSolidOnFaceHandler>();
BlockMinedHandlers = new Dictionary <short, BlockMinedHandler>();
BlockRightClickedHandlers = new Dictionary <short, BlockRightClickedHandler>();
BlockHardness = new Dictionary <short, double>();
BlockNames = new Dictionary <short, string>();
BlockPlacementSoundEffects = new Dictionary <short, string>();
ReflectBlocks(typeof(Block).Assembly);
}
public bool TestTerrainCollisionCylinder(IAABBEntity entity, out Vector3 collisionPoint)
{
collisionPoint = Vector3.Zero;
var testBox = GetAABBVelocityBox(entity);
var testCylinder = new BoundingCylinder(testBox.Min, testBox.Max,
entity.BoundingBox.Min.DistanceTo(entity.BoundingBox.Max));
var collision = false;
for (var x = (int)Math.Floor(testBox.Min.X); x <= (int)Math.Ceiling(testBox.Max.X); x++)
{
for (var z = (int)Math.Floor(testBox.Min.Z); z <= (int)Math.Ceiling(testBox.Max.Z); z++)
{
for (var y = (int)Math.Floor(testBox.Min.Y); y <= (int)Math.Ceiling(testBox.Max.Y); y++)
{
var coords = new Coordinates3D(x, y, z);
if (!World.IsValidPosition(coords))
{
continue;
}
var _box = BlockPhysicsProvider.GetBoundingBox(World, coords);
if (_box == null)
{
continue;
}
var box = _box.Value.OffsetBy(coords.AsVector3());
if (testCylinder.Intersects(box))
{
if (testBox.Intersects(box))
{
collision = true;
AdjustVelocityForCollision(entity, box);
testBox = GetAABBVelocityBox(entity);
testCylinder = new BoundingCylinder(testBox.Min, testBox.Max,
entity.BoundingBox.Min.DistanceTo(entity.BoundingBox.Max));
collisionPoint = coords.AsVector3();
}
}
}
}
}
return(collision);
}
/// <summary>
/// Performs terrain collision tests and adjusts the Z-axis velocity accordingly
/// </summary>
/// <returns>True if the entity collides with the terrain</returns>
private bool AdjustVelocityZ(IAABBEntity entity, ReadOnlyWorld world, out Vector3 collision, out Vector3 collisionDirection)
{
collision = Vector3.Zero;
collisionDirection = Vector3.Zero;
if (entity.Velocity.Z == 0)
{
return(false);
}
// Do some enviornment guessing to improve speed
int minX = (int)entity.Position.X - (entity.Position.X < 0 ? 1 : 0);
int maxX = (int)(entity.Position.X + entity.Size.Depth) - (entity.Position.X < 0 ? 1 : 0);
int minY = (int)entity.Position.Y - (entity.Position.Y < 0 ? 1 : 0);
int maxY = (int)(entity.Position.Y + entity.Size.Width) - (entity.Position.Y < 0 ? 1 : 0);
int minZ, maxZ;
// Expand bounding box to include area to be tested
if (entity.Velocity.Z < 0)
{
TempBoundingBox = new BoundingBox(
new Vector3(entity.BoundingBox.Min.X, entity.BoundingBox.Min.Y, entity.BoundingBox.Min.Z + entity.Velocity.Z),
entity.BoundingBox.Max);
maxZ = (int)(TempBoundingBox.Max.Z);
minZ = (int)(TempBoundingBox.Min.Z + entity.Velocity.Z) - 1;
}
else
{
TempBoundingBox = new BoundingBox(
entity.BoundingBox.Min,
new Vector3(entity.BoundingBox.Max.X, entity.BoundingBox.Max.Y, entity.BoundingBox.Max.Z + entity.Velocity.Z)
);
minZ = (int)(entity.BoundingBox.Min.Z);
maxZ = (int)(entity.BoundingBox.Max.Z + entity.Velocity.Z) + 1;
}
// Do terrain checks
double? collisionPoint = null;
BoundingBox blockBox;
for (int x = minX; x <= maxX; x++)
{
for (int y = minY; y <= maxY; y++)
{
for (int z = minZ; z <= maxZ; z++)
{
var position = new Coordinates3D(x, y, z);
var boundingBox = BlockPhysicsProvider.GetBoundingBox(world.World, position);
if (boundingBox == null)
{
continue;
}
blockBox = boundingBox.Value.OffsetBy(position + new Vector3(0.5));
if (TempBoundingBox.Intersects(blockBox))
{
if (entity.Velocity.Z < 0)
{
if (!collisionPoint.HasValue)
{
collisionPoint = blockBox.Max.Z;
}
else if (collisionPoint.Value < blockBox.Max.Z)
{
collisionPoint = blockBox.Max.Z;
}
}
else
{
if (!collisionPoint.HasValue)
{
collisionPoint = blockBox.Min.Z;
}
else if (collisionPoint.Value > blockBox.Min.Z)
{
collisionPoint = blockBox.Min.Z;
}
}
collision = position;
}
}
}
}
if (collisionPoint != null)
{
if (entity.Velocity.Z < 0)
{
entity.Velocity = new Vector3(
entity.Velocity.X,
entity.Velocity.Y,
entity.Velocity.Z - (TempBoundingBox.Min.Z - collisionPoint.Value));
collisionDirection = Vector3.Backwards;
}
else if (entity.Velocity.Z > 0)
{
entity.Velocity = new Vector3(
entity.Velocity.X,
entity.Velocity.Y,
entity.Velocity.Z - (TempBoundingBox.Max.Z - collisionPoint.Value));
collisionDirection = Vector3.Forwards;
}
return(true);
}
return(false);
}
/// <summary>
/// Performs terrain collision tests and adjusts the Y-axis velocity accordingly
/// </summary>
/// <returns>True if the entity collides with the terrain</returns>
private bool AdjustVelocityY(IAABBEntity entity, ReadOnlyWorld world, out Vector3 collision, out Vector3 collisionDirection)
{
collision = Vector3.Zero;
collisionDirection = Vector3.Zero;
if (entity.Velocity.Y == 0)
{
return(false);
}
// Do some enviornment guessing to improve speed
int minX = (int)entity.Position.X - (entity.Position.X < 0 ? 1 : 0);
int maxX = (int)(entity.Position.X + entity.Size.Width) - (entity.Position.X < 0 ? 1 : 0);
int minZ = (int)entity.Position.Z - (entity.Position.Z < 0 ? 1 : 0);
int maxZ = (int)(entity.Position.Z + entity.Size.Depth) - (entity.Position.Z < 0 ? 1 : 0);
int minY, maxY;
// Expand bounding box to include area to be tested
if (entity.Velocity.Y < 0)
{
TempBoundingBox = new BoundingBox(
new Vector3(entity.BoundingBox.Min.X, entity.BoundingBox.Min.Y + entity.Velocity.Y, entity.BoundingBox.Min.Z),
entity.BoundingBox.Max);
maxY = (int)(TempBoundingBox.Max.Y);
minY = (int)(TempBoundingBox.Min.Y + entity.Velocity.Y) - 1;
}
else
{
TempBoundingBox = new BoundingBox(
entity.BoundingBox.Min,
new Vector3(entity.BoundingBox.Max.X, entity.BoundingBox.Max.Y + entity.Velocity.Y, entity.BoundingBox.Max.Z));
minY = (int)(entity.BoundingBox.Min.Y);
maxY = (int)(entity.BoundingBox.Max.Y + entity.Velocity.Y) + 1;
}
// Clamp Y into map boundaries
if (minY < 0)
{
minY = 0;
}
if (minY >= TrueCraft.Core.World.World.Height)
{
minY = TrueCraft.Core.World.World.Height - 1;
}
if (maxY < 0)
{
maxY = 0;
}
if (maxY >= TrueCraft.Core.World.World.Height)
{
maxY = TrueCraft.Core.World.World.Height - 1;
}
// Do terrain checks
double? collisionPoint = null;
BoundingBox blockBox;
for (int x = minX; x <= maxX; x++)
{
for (int y = minY; y <= maxY; y++)
{
for (int z = minZ; z <= maxZ; z++)
{
var position = new Coordinates3D(x, y, z);
if (!World.IsValidPosition(position))
{
continue;
}
var boundingBox = BlockPhysicsProvider.GetBoundingBox(world.World, position);
if (boundingBox == null)
{
continue;
}
blockBox = boundingBox.Value.OffsetBy(position + new Vector3(0.5));
if (TempBoundingBox.Intersects(blockBox))
{
if (entity.Velocity.Y < 0)
{
if (!collisionPoint.HasValue)
{
collisionPoint = blockBox.Max.Y;
}
else if (collisionPoint.Value < blockBox.Max.Y)
{
collisionPoint = blockBox.Max.Y;
}
}
else
{
if (!collisionPoint.HasValue)
{
collisionPoint = blockBox.Min.Y;
}
else if (collisionPoint.Value > blockBox.Min.Y)
{
collisionPoint = blockBox.Min.Y;
}
}
collision = position;
}
}
}
}
if (collisionPoint != null)
{
if (entity.Velocity.Y < 0)
{
// TODO: Do block event
//var block = world.GetBlock(collision);
//block.OnBlockWalkedOn(world, collision, this);
entity.Velocity = new Vector3(entity.Velocity.X,
entity.Velocity.Y + (collisionPoint.Value - TempBoundingBox.Min.Y),
entity.Velocity.Z);
collisionDirection = Vector3.Down;
}
else if (entity.Velocity.Y > 0)
{
entity.Velocity = new Vector3(entity.Velocity.X,
entity.Velocity.Y - (TempBoundingBox.Max.Y - collisionPoint.Value),
entity.Velocity.Z);
collisionDirection = Vector3.Up;
}
return(true);
}
return(false);
}
public bool TestTerrainCollisionZ(IAABBEntity entity, out Vector3 collisionPoint)
{
// Things we need to do:
// 1 - expand bounding box to include the destination and everything within
// 2 - collect all blocks within that area
// 3 - test bounding boxes in direction of motion
collisionPoint = Vector3.Zero;
if (entity.Velocity.Z == 0)
{
return(false);
}
bool negative;
BoundingBox testBox;
if (entity.Velocity.Z < 0)
{
testBox = new BoundingBox(
new Vector3(
entity.BoundingBox.Min.X,
entity.BoundingBox.Min.Y,
entity.BoundingBox.Min.Z + entity.Velocity.Z),
entity.BoundingBox.Max);
negative = true;
}
else
{
testBox = new BoundingBox(
entity.BoundingBox.Min,
new Vector3(
entity.BoundingBox.Max.X,
entity.BoundingBox.Max.Y,
entity.BoundingBox.Max.Z + entity.Velocity.Z));
negative = false;
}
double?collisionExtent = null;
for (var x = (int)Math.Floor(testBox.Min.X); x <= (int)Math.Ceiling(testBox.Max.X); x++)
{
for (var z = (int)Math.Floor(testBox.Min.Z); z <= (int)Math.Ceiling(testBox.Max.Z); z++)
{
for (var y = (int)Math.Floor(testBox.Min.Y); y <= (int)Math.Ceiling(testBox.Max.Y); y++)
{
var coords = new Coordinates3D(x, y, z);
if (!World.IsValidPosition(coords))
{
continue;
}
var _box = BlockPhysicsProvider.GetBoundingBox(World, coords);
if (_box == null)
{
continue;
}
var box = _box.Value.OffsetBy(coords.AsVector3());
if (testBox.Intersects(box))
{
if (negative)
{
if (collisionExtent == null || collisionExtent.Value < box.Max.Z)
{
collisionExtent = box.Max.Z;
collisionPoint = coords.AsVector3();
}
}
else
{
if (collisionExtent == null || collisionExtent.Value > box.Min.Z)
{
collisionExtent = box.Min.Z;
collisionPoint = coords.AsVector3();
}
}
}
}
}
}
if (collisionExtent != null) // Collision detected, adjust accordingly
{
var extent = collisionExtent.Value;
double diff;
if (negative)
{
diff = -(entity.BoundingBox.Min.Z - extent);
}
else
{
diff = extent - entity.BoundingBox.Max.Z;
}
entity.Velocity = new Vector3(entity.Velocity.X, entity.Velocity.Y, (float)diff);
return(true);
}
return(false);
}
