Add code for intersecting axis-aligned bounding boxes with segments & each other

GitOrigin-RevId: 99a855c1a813c0fcdd4fca0fd31456b62e964abb
This commit is contained in:
Colin McMillen 2020-01-29 13:54:16 -05:00
parent 61b50efa40
commit 878d434b22
4 changed files with 279 additions and 0 deletions

151
Shared/Geometry.cs Normal file
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using Microsoft.Xna.Framework;
using System;
// Design largely from https://noonat.github.io/intersect/.
namespace SemiColinGames {
public readonly struct Hit {
public readonly Aabb Collider;
public readonly Vector2 Position;
public readonly Vector2 Delta;
public readonly Vector2 Normal;
public readonly float Time; // ranges from [0, 1].
public Hit(Aabb collider, Vector2 position, Vector2 delta, Vector2 normal) :
this(collider, position, delta, normal, 0.0f) {
}
public Hit(Aabb collider, Vector2 position, Vector2 delta, Vector2 normal, float time) {
Collider = collider;
Position = position;
Delta = delta;
Normal = normal;
Time = time;
}
}
public readonly struct Sweep {
public readonly Hit? Hit;
public readonly Vector2 Position;
public readonly float Time;
public Sweep(Hit? hit, Vector2 position, float time) {
Hit = hit;
Position = position;
Time = time;
}
}
public readonly struct Aabb {
public readonly Vector2 Position; // centroid
public readonly Vector2 HalfSize;
static float Clamp(float value, float min, float max) {
if (value < min) {
return min;
} else if (value > max) {
return max;
} else {
return value;
}
}
public Aabb(Vector2 position, Vector2 halfSize) {
Position = position;
HalfSize = halfSize;
}
public Hit? Intersect(Aabb box) {
float dx = box.Position.X - Position.X;
float px = box.HalfSize.X + HalfSize.X - Math.Abs(dx);
if (px <= 0) {
return null;
}
float dy = box.Position.Y - Position.Y;
float py = box.HalfSize.Y + HalfSize.Y - Math.Abs(dy);
if (py <= 0) {
return null;
}
// TODO: which of delta/normal/hitPos do we actually care about?
if (px < py) {
int sign = Math.Sign(dx);
Vector2 delta = new Vector2(px * sign, 0);
Vector2 normal = new Vector2(sign, 0);
Vector2 hitPos = new Vector2(Position.X + HalfSize.X * sign, box.Position.Y);
return new Hit(box, hitPos, delta, normal);
} else {
int sign = Math.Sign(dy);
Vector2 delta = new Vector2(0, py * sign);
Vector2 normal = new Vector2(0, sign);
Vector2 hitPos = new Vector2(box.Position.X, Position.Y + HalfSize.Y * sign);
return new Hit(this, hitPos, delta, normal);
}
}
public Hit? IntersectSegment(Vector2 pos, Vector2 delta) {
return IntersectSegment(pos, delta, Vector2.Zero);
}
public Hit? IntersectSegment(Vector2 pos, Vector2 delta, Vector2 padding) {
float scaleX = 1.0f / delta.X;
float scaleY = 1.0f / delta.Y;
int signX = Math.Sign(scaleX);
int signY = Math.Sign(scaleY);
float nearTimeX = (Position.X - signX * (HalfSize.X + padding.X) - pos.X) * scaleX;
float nearTimeY = (Position.Y - signY * (HalfSize.Y + padding.Y) - pos.Y) * scaleY;
float farTimeX = (Position.X + signX * (HalfSize.X + padding.X) - pos.X) * scaleX;
float farTimeY = (Position.Y + signY * (HalfSize.Y + padding.Y) - pos.Y) * scaleY;
if (nearTimeX > farTimeY || nearTimeY > farTimeX) {
return null;
}
float nearTime = Math.Max(nearTimeX, nearTimeY);
float farTime = Math.Min(farTimeX, farTimeY);
if (nearTime >= 1 || farTime <= 0) {
return null;
}
// If we've gotten this far, a collision is happening. If the near time is greater than zero,
// the segment starts outside and is entering the box. Otherwise, the segment starts inside
// the box, so we set the hit time to zero.
float hitTime = Math.Max(0, nearTime);
Vector2 normal = nearTimeX > nearTimeY ?
new Vector2(-signX, 0) :
new Vector2(0, -signY);
// TODO: replace these with Vector2.Multiply (etc)
Vector2 hitDelta = new Vector2((1.0f - hitTime) * -delta.X, (1.0f - hitTime) * -delta.Y);
Vector2 hitPos = new Vector2(pos.X + delta.X * hitTime, pos.Y + delta.Y * hitTime);
return new Hit(this, hitPos, hitDelta, normal, hitTime);
}
public Sweep Sweep(Aabb box, Vector2 delta) {
// fast-path case if the other box is static
if (delta.X == 0 && delta.Y == 0) {
Hit? staticHit = Intersect(box);
// TODO: I don't understand the original source here, but I think this is correct.
return new Sweep(staticHit, box.Position, staticHit?.Time ?? 1);
}
Hit? maybeHit = IntersectSegment(box.Position, delta, box.HalfSize);
if (maybeHit == null) {
return new Sweep(null, Vector2.Add(box.Position, delta), 1);
}
Hit hit = (Hit) maybeHit;
Vector2 hitPos = new Vector2(
box.Position.X + delta.X * hit.Time,
box.Position.Y + delta.Y * hit.Time);
Vector2 direction = Vector2.Normalize(delta);
// TODO: why is this calculation made, and then thrown away?
Vector2 sweepHitPos = new Vector2(
Clamp(hit.Position.X + direction.X * box.HalfSize.X,
Position.X - HalfSize.X,
Position.X + HalfSize.X),
Clamp(hit.Position.Y + direction.Y * box.HalfSize.Y,
Position.Y - HalfSize.Y,
Position.Y + HalfSize.Y));
return new Sweep(hit, hitPos, hit.Time);
}
}
}

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<ItemGroup> <ItemGroup>
<Compile Include="$(MSBuildThisFileDirectory)Camera.cs" /> <Compile Include="$(MSBuildThisFileDirectory)Camera.cs" />
<Compile Include="$(MSBuildThisFileDirectory)Clock.cs" /> <Compile Include="$(MSBuildThisFileDirectory)Clock.cs" />
<Compile Include="$(MSBuildThisFileDirectory)Geometry.cs" />
<Compile Include="$(MSBuildThisFileDirectory)Input.cs" /> <Compile Include="$(MSBuildThisFileDirectory)Input.cs" />
<Compile Include="$(MSBuildThisFileDirectory)Debug.cs" /> <Compile Include="$(MSBuildThisFileDirectory)Debug.cs" />
<Compile Include="$(MSBuildThisFileDirectory)FpsCounter.cs" /> <Compile Include="$(MSBuildThisFileDirectory)FpsCounter.cs" />

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using Microsoft.Xna.Framework;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using System;
namespace SemiColinGames.Tests {
[TestClass]
public class GeometryTests {
[TestMethod]
public void TestIntersectSegmentNotColliding() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(8, 8));
Assert.IsNull(box.IntersectSegment(new Vector2(-16, -16), new Vector2(32, 0)));
}
[TestMethod]
public void TestIntersectSegmentHit() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(8, 8));
var point = new Vector2(-16, 4);
var delta = new Vector2(32, 0);
Hit? maybeHit = box.IntersectSegment(point, delta);
Assert.IsNotNull(maybeHit);
Hit hit = (Hit) maybeHit;
Assert.AreEqual(box, hit.Collider);
Assert.AreEqual(0.25, hit.Time);
Assert.AreEqual(point.X + delta.X * hit.Time, hit.Position.X);
Assert.AreEqual(point.Y + delta.Y * hit.Time, hit.Position.Y);
Assert.AreEqual((1.0f - hit.Time) * -delta.X, hit.Delta.X);
Assert.AreEqual((1.0f - hit.Time) * -delta.Y, hit.Delta.Y);
Assert.AreEqual(-1, hit.Normal.X);
Assert.AreEqual(0, hit.Normal.Y);
}
[TestMethod]
public void TestIntersectSegmentFromInsideBox() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(8, 8));
var point = new Vector2(-4, 4);
var delta = new Vector2(32, 0);
Hit? maybeHit = box.IntersectSegment(point, delta);
Assert.IsNotNull(maybeHit);
Hit hit = (Hit) maybeHit;
Assert.AreEqual(box, hit.Collider);
Assert.AreEqual(0.0, hit.Time);
Assert.AreEqual(-4, hit.Position.X);
Assert.AreEqual(4, hit.Position.Y);
Assert.AreEqual(-delta.X, hit.Delta.X);
Assert.AreEqual(-delta.Y, hit.Delta.Y);
Assert.AreEqual(-1, hit.Normal.X);
Assert.AreEqual(0, hit.Normal.Y);
}
[TestMethod]
public void TestIntersectSegmentWithPadding() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(8, 8));
var point = new Vector2(-16, 4);
var delta = new Vector2(32, 0);
int padding = 4;
Hit? maybeHit = box.IntersectSegment(point, delta, new Vector2(padding, padding));
Assert.IsNotNull(maybeHit);
Hit hit = (Hit) maybeHit;
Assert.AreEqual(box, hit.Collider);
Assert.AreEqual(0.125, hit.Time);
Assert.AreEqual(point.X + delta.X * hit.Time, hit.Position.X);
Assert.AreEqual(point.Y + delta.Y * hit.Time, hit.Position.Y);
Assert.AreEqual((1.0f - hit.Time) * -delta.X, hit.Delta.X);
Assert.AreEqual((1.0f - hit.Time) * -delta.Y, hit.Delta.Y);
Assert.AreEqual(-1, hit.Normal.X);
Assert.AreEqual(0, hit.Normal.Y);
}
[TestMethod]
public void TestIntersectSegmentFromTwoDirections() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(32, 32));
var farPos = new Vector2(64, 0);
var farToNearDelta = new Vector2(-32, 0);
Assert.IsNull(box.IntersectSegment(farPos, farToNearDelta));
var nearPos = new Vector2(32, 0);
var nearToFarDelta = new Vector2(32, 0);
Assert.IsNull(box.IntersectSegment(nearPos, nearToFarDelta));
}
[TestMethod]
public void TestIntersectSegmentXAxisAligned() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(16, 16));
var pos = new Vector2(-32, 0);
var delta = new Vector2(64, 0);
Hit? maybeHit = box.IntersectSegment(pos, delta);
Assert.IsNotNull(maybeHit);
Hit hit = (Hit) maybeHit;
Assert.AreEqual(0.25, hit.Time);
Assert.AreEqual(-1, hit.Normal.X);
Assert.AreEqual(0, hit.Normal.Y);
}
[TestMethod]
public void TestIntersectSegmentYAxisAligned() {
Aabb box = new Aabb(new Vector2(0, 0), new Vector2(16, 16));
var pos = new Vector2(0, -32);
var delta = new Vector2(0, 64);
Hit? maybeHit = box.IntersectSegment(pos, delta);
Assert.IsNotNull(maybeHit);
Hit hit = (Hit) maybeHit;
Assert.AreEqual(0.25, hit.Time);
Assert.AreEqual(0, hit.Normal.X);
Assert.AreEqual(-1, hit.Normal.Y);
}
}
}

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<Reference Include="System.Core" /> <Reference Include="System.Core" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<Compile Include="GeometryTests.cs" />
<Compile Include="HistoryTests.cs" /> <Compile Include="HistoryTests.cs" />
<Compile Include="LineTests.cs" /> <Compile Include="LineTests.cs" />
<Compile Include="Properties\AssemblyInfo.cs" /> <Compile Include="Properties\AssemblyInfo.cs" />