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axiosengine/axios/Collision/QuadTree.cs
nathan@daedalus 5bdc5db408 Adding initial files
2012-03-19 18:57:59 -05:00

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C#
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using System;
using System.Collections.Generic;
using FarseerPhysics.Collision;
using Microsoft.Xna.Framework;
public class Element<T>
{
public QuadTree<T> Parent;
public AABB Span;
public T Value;
public Element(T value, AABB span)
{
Span = span;
Value = value;
Parent = null;
}
}
public class QuadTree<T>
{
public int MaxBucket;
public int MaxDepth;
public List<Element<T>> Nodes;
public AABB Span;
public QuadTree<T>[] SubTrees;
public QuadTree(AABB span, int maxbucket, int maxdepth)
{
Span = span;
Nodes = new List<Element<T>>();
MaxBucket = maxbucket;
MaxDepth = maxdepth;
}
public bool IsPartitioned
{
get { return SubTrees != null; }
}
/// <summary>
/// returns the quadrant of span that entirely contains test. if none, return 0.
/// </summary>
/// <param name="span"></param>
/// <param name="test"></param>
/// <returns></returns>
private int Partition(AABB span, AABB test)
{
if (span.Q1.Contains(ref test)) return 1;
if (span.Q2.Contains(ref test)) return 2;
if (span.Q3.Contains(ref test)) return 3;
if (span.Q4.Contains(ref test)) return 4;
return 0;
}
public void AddNode(Element<T> node)
{
if (!IsPartitioned)
{
if (Nodes.Count >= MaxBucket && MaxDepth > 0) //bin is full and can still subdivide
{
//
//partition into quadrants and sort existing nodes amonst quads.
//
Nodes.Add(node); //treat new node just like other nodes for partitioning
SubTrees = new QuadTree<T>[4];
SubTrees[0] = new QuadTree<T>(Span.Q1, MaxBucket, MaxDepth - 1);
SubTrees[1] = new QuadTree<T>(Span.Q2, MaxBucket, MaxDepth - 1);
SubTrees[2] = new QuadTree<T>(Span.Q3, MaxBucket, MaxDepth - 1);
SubTrees[3] = new QuadTree<T>(Span.Q4, MaxBucket, MaxDepth - 1);
List<Element<T>> remNodes = new List<Element<T>>();
//nodes that are not fully contained by any quadrant
foreach (Element<T> n in Nodes)
{
switch (Partition(Span, n.Span))
{
case 1: //quadrant 1
SubTrees[0].AddNode(n);
break;
case 2:
SubTrees[1].AddNode(n);
break;
case 3:
SubTrees[2].AddNode(n);
break;
case 4:
SubTrees[3].AddNode(n);
break;
default:
n.Parent = this;
remNodes.Add(n);
break;
}
}
Nodes = remNodes;
}
else
{
node.Parent = this;
Nodes.Add(node);
//if bin is not yet full or max depth has been reached, just add the node without subdividing
}
}
else //we already have children nodes
{
//
//add node to specific sub-tree
//
switch (Partition(Span, node.Span))
{
case 1: //quadrant 1
SubTrees[0].AddNode(node);
break;
case 2:
SubTrees[1].AddNode(node);
break;
case 3:
SubTrees[2].AddNode(node);
break;
case 4:
SubTrees[3].AddNode(node);
break;
default:
node.Parent = this;
Nodes.Add(node);
break;
}
}
}
/// <summary>
/// tests if ray intersects AABB
/// </summary>
/// <param name="aabb"></param>
/// <returns></returns>
public static bool RayCastAABB(AABB aabb, Vector2 p1, Vector2 p2)
{
AABB segmentAABB = new AABB();
{
Vector2.Min(ref p1, ref p2, out segmentAABB.LowerBound);
Vector2.Max(ref p1, ref p2, out segmentAABB.UpperBound);
}
if (!AABB.TestOverlap(aabb, segmentAABB)) return false;
Vector2 rayDir = p2 - p1;
Vector2 rayPos = p1;
Vector2 norm = new Vector2(-rayDir.Y, rayDir.X); //normal to ray
if (norm.Length() == 0.0)
return true; //if ray is just a point, return true (iff point is within aabb, as tested earlier)
norm.Normalize();
float dPos = Vector2.Dot(rayPos, norm);
Vector2[] verts = aabb.GetVertices();
float d0 = Vector2.Dot(verts[0], norm) - dPos;
for (int i = 1; i < 4; i++)
{
float d = Vector2.Dot(verts[i], norm) - dPos;
if (Math.Sign(d) != Math.Sign(d0))
//return true if the ray splits the vertices (ie: sign of dot products with normal are not all same)
return true;
}
return false;
}
public void QueryAABB(Func<Element<T>, bool> callback, ref AABB searchR)
{
Stack<QuadTree<T>> stack = new Stack<QuadTree<T>>();
stack.Push(this);
while (stack.Count > 0)
{
QuadTree<T> qt = stack.Pop();
if (!AABB.TestOverlap(ref searchR, ref qt.Span))
continue;
foreach (Element<T> n in qt.Nodes)
if (AABB.TestOverlap(ref searchR, ref n.Span))
{
if (!callback(n)) return;
}
if (qt.IsPartitioned)
foreach (QuadTree<T> st in qt.SubTrees)
stack.Push(st);
}
}
public void RayCast(Func<RayCastInput, Element<T>, float> callback, ref RayCastInput input)
{
Stack<QuadTree<T>> stack = new Stack<QuadTree<T>>();
stack.Push(this);
float maxFraction = input.MaxFraction;
Vector2 p1 = input.Point1;
Vector2 p2 = p1 + (input.Point2 - input.Point1) * maxFraction;
while (stack.Count > 0)
{
QuadTree<T> qt = stack.Pop();
if (!RayCastAABB(qt.Span, p1, p2))
continue;
foreach (Element<T> n in qt.Nodes)
{
if (!RayCastAABB(n.Span, p1, p2))
continue;
RayCastInput subInput;
subInput.Point1 = input.Point1;
subInput.Point2 = input.Point2;
subInput.MaxFraction = maxFraction;
float value = callback(subInput, n);
if (value == 0.0f)
return; // the client has terminated the raycast.
if (value <= 0.0f)
continue;
maxFraction = value;
p2 = p1 + (input.Point2 - input.Point1) * maxFraction; //update segment endpoint
}
if (IsPartitioned)
foreach (QuadTree<T> st in qt.SubTrees)
stack.Push(st);
}
}
public void GetAllNodesR(ref List<Element<T>> nodes)
{
nodes.AddRange(Nodes);
if (IsPartitioned)
foreach (QuadTree<T> st in SubTrees) st.GetAllNodesR(ref nodes);
}
public void RemoveNode(Element<T> node)
{
node.Parent.Nodes.Remove(node);
}
public void Reconstruct()
{
List<Element<T>> allNodes = new List<Element<T>>();
GetAllNodesR(ref allNodes);
Clear();
allNodes.ForEach(AddNode);
}
public void Clear()
{
Nodes.Clear();
SubTrees = null;
}
}
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