PhysicsObjUpdate.HandleAllCollisions — retail CPhysicsObj::handle_all_collisions (0x00514780, pc:282647): the velocity 'bleed on block' decision. fsf<=1 → reflect the into-surface component (v += -(v·n)(elasticity+1)·n) unless staying-on-walkable (retail's should_reflect guard, restoring the broader rule AD-25 suppressed); INELASTIC zeros instead; fsf>1 → v=0 entirely (the airborne-stuck fix). Bit round-trip owned by the Core resolve writeback (Slice 1), not re-encoded here. 7 conformance tests green. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
111 lines
4.7 KiB
C#
111 lines
4.7 KiB
C#
using System.Numerics;
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using AcDream.Core.Physics;
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using Xunit;
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namespace AcDream.Core.Tests.Physics;
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/// <summary>
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/// Conformance tests for <see cref="PhysicsObjUpdate.HandleAllCollisions"/> — the port of
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/// retail <c>CPhysicsObj::handle_all_collisions</c> (0x00514780, pc:282647). This is the
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/// velocity "bleed on block" decision: reflect (fsf≤1) vs zero (fsf>1).
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/// </summary>
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public class HandleAllCollisionsTests
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{
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private static PhysicsBody Airborne(Vector3 v, int fsf = 0) => new PhysicsBody
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{
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State = PhysicsStateFlags.Gravity | PhysicsStateFlags.ReportCollisions,
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TransientState = TransientStateFlags.None,
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Velocity = v,
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FramesStationaryFall = fsf,
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};
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[Fact]
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public void Fsf0_AirborneWallHit_ReflectsIntoWallComponent()
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{
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var b = Airborne(new Vector3(3f, 0f, 0f)); // moving +X into a wall whose outward normal is -X
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var n = new Vector3(-1f, 0f, 0f);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: false);
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// dot = 3*-1 = -3 < 0 → k = -(-3*(0.05+1)) = 3.15 → v += (-1,0,0)*3.15 → x = 3 - 3.15 = -0.15
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Assert.Equal(-0.15f, b.Velocity.X, precision: 3);
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}
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[Fact]
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public void Fsf0_MovingAwayFromSurface_DoesNotReflect()
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{
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var b = Airborne(new Vector3(0f, 0f, 2f)); // moving up, normal also up (already separating)
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var n = new Vector3(0f, 0f, 1f);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: false);
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Assert.Equal(2f, b.Velocity.Z); // dot = +2 >= 0 → no reflection
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}
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[Fact]
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public void Fsf2_ZeroesVelocity_TheAirborneStuckBleed()
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{
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// The #182 case: a straight-up jump blocked by a near-horizontal creature normal.
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// At fsf>1 the whole velocity is zeroed so gravity resumes → the player falls/glides off.
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var b = Airborne(new Vector3(0f, 0f, 18f), fsf: 2);
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var n = new Vector3(-0.96f, -0.25f, -0.15f);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: false);
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Assert.Equal(Vector3.Zero, b.Velocity);
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}
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[Fact]
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public void Fsf3_ZeroesVelocity_EvenWithoutCollisionNormal()
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{
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var b = Airborne(new Vector3(1f, 2f, 18f), fsf: 3);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: false, collisionNormal: default,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: false);
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Assert.Equal(Vector3.Zero, b.Velocity);
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}
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[Fact]
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public void StayingOnWalkable_DoesNotReflect_CorridorWallSlidePreserved()
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{
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// Grounded before AND after → should_reflect is false → the tangential wall-slide
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// velocity is preserved (retail's rule; the corridor shuffle, not a sticky bounce).
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var b = new PhysicsBody
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{
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Velocity = new Vector3(3f, 0f, 0f),
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TransientState = TransientStateFlags.Contact | TransientStateFlags.OnWalkable,
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FramesStationaryFall = 0,
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};
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var n = new Vector3(-1f, 0f, 0f);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: true, prevOnWalkable: true, nowOnWalkable: true);
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Assert.Equal(3f, b.Velocity.X);
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}
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[Fact]
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public void Inelastic_ZeroesInsteadOfReflecting()
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{
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var b = Airborne(new Vector3(3f, 0f, 0f));
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b.State |= PhysicsStateFlags.Inelastic; // spell projectile / missile
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var n = new Vector3(-1f, 0f, 0f);
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: false);
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Assert.Equal(Vector3.Zero, b.Velocity);
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}
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[Fact]
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public void LandingReflects_RetailRuleRestored_NotSuppressed()
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{
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// prev airborne → now grounded (a landing). Retail reflects here too (AD-25 retired);
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// at elasticity 0.05 the effect is a tiny, imperceptible deflection.
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var b = Airborne(new Vector3(0f, 0f, -5f)); // falling
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var n = new Vector3(0f, 0f, 1f); // floor normal up
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PhysicsObjUpdate.HandleAllCollisions(b,
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collisionNormalValid: true, collisionNormal: n,
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prevContact: false, prevOnWalkable: false, nowOnWalkable: true);
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// dot = -5 < 0 → k = -(-5*1.05) = 5.25 → v.z = -5 + 5.25 = 0.25 (tiny bounce)
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Assert.Equal(0.25f, b.Velocity.Z, precision: 3);
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}
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}
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