From 104ad1eaba7ada2d5f9b18ced70d06721908f0be Mon Sep 17 00:00:00 2001
From: Aki <please@ignore.pl>
Date: Fri, 1 Oct 2021 23:18:37 +0200
Subject: Removed unused OpcodeLib

---
 Opcode/OpcodeLib/OPC_TreeCollider.cpp | 943 ----------------------------------
 1 file changed, 943 deletions(-)
 delete mode 100644 Opcode/OpcodeLib/OPC_TreeCollider.cpp

(limited to 'Opcode/OpcodeLib/OPC_TreeCollider.cpp')

diff --git a/Opcode/OpcodeLib/OPC_TreeCollider.cpp b/Opcode/OpcodeLib/OPC_TreeCollider.cpp
deleted file mode 100644
index f8c0ca3..0000000
--- a/Opcode/OpcodeLib/OPC_TreeCollider.cpp
+++ /dev/null
@@ -1,943 +0,0 @@
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/*
- *	OPCODE - Optimized Collision Detection
- *	Copyright (C) 2001 Pierre Terdiman
- *	Homepage: http://www.codercorner.com/Opcode.htm
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Contains code for a tree collider.
- *	\file		OPC_TreeCollider.cpp
- *	\author		Pierre Terdiman
- *	\date		March, 20, 2001
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Contains an AABB tree collider.
- *	This class performs a collision test between two AABB trees.
- *
- *	\class		AABBTreeCollider
- *	\author		Pierre Terdiman
- *	\version	1.3
- *	\date		March, 20, 2001
-*/
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-// Precompiled Header
-#include "Stdafx.h"
-
-using namespace Opcode;
-
-#include "OPC_BoxBoxOverlap.h"
-#include "OPC_TriBoxOverlap.h"
-#include "OPC_TriTriOverlap.h"
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Constructor.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-AABBTreeCollider::AABBTreeCollider() :
-	mNbBVBVTests		(0),
-	mNbPrimPrimTests	(0),
-	mNbBVPrimTests		(0),
-	mFullBoxBoxTest		(true),
-	mFullPrimBoxTest	(true),
-	mIMesh0				(null),
-	mIMesh1				(null)
-{
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Destructor.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-AABBTreeCollider::~AABBTreeCollider()
-{
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Validates current settings. You should call this method after all the settings and callbacks have been defined.
- *	\return		null if everything is ok, else a string describing the problem
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-const char* AABBTreeCollider::ValidateSettings()
-{
-	if(TemporalCoherenceEnabled() && !FirstContactEnabled())	return "Temporal coherence only works with ""First contact"" mode!";
-	return null;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Generic collision query for generic OPCODE models. After the call, access the results with:
- *	- GetContactStatus()
- *	- GetNbPairs()
- *	- GetPairs()
- *
- *	\param		cache			[in] collision cache for model pointers and a colliding pair of primitives
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\return		true if success
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::Collide(BVTCache& cache, const Matrix4x4* world0, const Matrix4x4* world1)
-{
-	// Checkings
-	if(!cache.Model0 || !cache.Model1)								return false;
-	if(cache.Model0->HasLeafNodes()!=cache.Model1->HasLeafNodes())	return false;
-	if(cache.Model0->IsQuantized()!=cache.Model1->IsQuantized())	return false;
-
-	/*
-	
-	  Rules:
-		- perform hull test
-		- when hulls collide, disable hull test
-		- if meshes overlap, reset countdown
-		- if countdown reaches 0, enable hull test
-
-	*/
-
-#ifdef __MESHMERIZER_H__
-	// Handle hulls
-	if(cache.HullTest)
-	{
-		if(cache.Model0->GetHull() && cache.Model1->GetHull())
-		{
-			struct Local
-			{
-				static IcePoint* SVCallback(const IcePoint& sv, udword& previndex, udword user_data)
-				{
-					CollisionHull* Hull = (CollisionHull*)user_data;
-					previndex = Hull->ComputeSupportingVertex(sv, previndex);
-					return (IcePoint*)&Hull->GetVerts()[previndex];
-				}
-			};
-
-			bool Collide;
-
-			if(0)
-			{
-				static GJKEngine GJK;
-				static bool GJKInitDone=false;
-				if(!GJKInitDone)
-				{
-					GJK.Enable(GJK_BACKUP_PROCEDURE);
-					GJK.Enable(GJK_DEGENERATE);
-					GJK.Enable(GJK_HILLCLIMBING);
-					GJKInitDone = true;
-				}
-				GJK.SetCallbackObj0(Local::SVCallback);
-				GJK.SetCallbackObj1(Local::SVCallback);
-				GJK.SetUserData0(udword(cache.Model0->GetHull()));
-				GJK.SetUserData1(udword(cache.Model1->GetHull()));
-				Collide = GJK.Collide(*world0, *world1, &cache.SepVector);
-			}
-			else
-			{
-				static SVEngine SVE;
-				SVE.SetCallbackObj0(Local::SVCallback);
-				SVE.SetCallbackObj1(Local::SVCallback);
-				SVE.SetUserData0(udword(cache.Model0->GetHull()));
-				SVE.SetUserData1(udword(cache.Model1->GetHull()));
-				Collide = SVE.Collide(*world0, *world1, &cache.SepVector);
-			}
-
-			if(!Collide)
-			{
-		// Reset stats & contact status
-		mFlags &= ~OPC_CONTACT;
-		mNbBVBVTests		= 0;
-		mNbPrimPrimTests	= 0;
-		mNbBVPrimTests		= 0;
-		mPairs.Reset();
-		return true;
-			}
-		}
-	}
-
-	// Here, hulls collide
-	cache.HullTest = false;
-#endif // __MESHMERIZER_H__
-
-	// Checkings
-	if(!Setup(cache.Model0->GetMeshInterface(), cache.Model1->GetMeshInterface()))	return false;
-
-	// Simple double-dispatch
-	bool Status;
-	if(!cache.Model0->HasLeafNodes())
-	{
-		if(cache.Model0->IsQuantized())
-		{
-			const AABBQuantizedNoLeafTree* T0 = (const AABBQuantizedNoLeafTree*)cache.Model0->GetTree();
-			const AABBQuantizedNoLeafTree* T1 = (const AABBQuantizedNoLeafTree*)cache.Model1->GetTree();
-			Status = Collide(T0, T1, world0, world1, &cache);
-		}
-		else
-		{
-			const AABBNoLeafTree* T0 = (const AABBNoLeafTree*)cache.Model0->GetTree();
-			const AABBNoLeafTree* T1 = (const AABBNoLeafTree*)cache.Model1->GetTree();
-			Status = Collide(T0, T1, world0, world1, &cache);
-		}
-	}
-	else
-	{
-		if(cache.Model0->IsQuantized())
-		{
-			const AABBQuantizedTree* T0 = (const AABBQuantizedTree*)cache.Model0->GetTree();
-			const AABBQuantizedTree* T1 = (const AABBQuantizedTree*)cache.Model1->GetTree();
-			Status = Collide(T0, T1, world0, world1, &cache);
-		}
-		else
-		{
-			const AABBCollisionTree* T0 = (const AABBCollisionTree*)cache.Model0->GetTree();
-			const AABBCollisionTree* T1 = (const AABBCollisionTree*)cache.Model1->GetTree();
-			Status = Collide(T0, T1, world0, world1, &cache);
-		}
-	}
-
-#ifdef __MESHMERIZER_H__
-	if(Status)
-	{
-		// Reset counter as long as overlap occurs
-		if(GetContactStatus())	cache.ResetCountDown();
-
-		// Enable hull test again when counter reaches zero
-		cache.CountDown--;
-		if(!cache.CountDown)
-		{
-			cache.ResetCountDown();
-			cache.HullTest = true;
-		}
-	}
-#endif
-	return Status;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Initializes a collision query :
- *	- reset stats & contact status
- *	- setup matrices
- *
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::InitQuery(const Matrix4x4* world0, const Matrix4x4* world1)
-{
-	// Reset stats & contact status
-	Collider::InitQuery();
-	mNbBVBVTests		= 0;
-	mNbPrimPrimTests	= 0;
-	mNbBVPrimTests		= 0;
-	mPairs.Reset();
-
-	// Setup matrices
-	Matrix4x4 InvWorld0, InvWorld1;
-	if(world0)	InvertPRMatrix(InvWorld0, *world0);
-	else		InvWorld0.Identity();
-
-	if(world1)	InvertPRMatrix(InvWorld1, *world1);
-	else		InvWorld1.Identity();
-
-	Matrix4x4 World0to1 = world0 ? (*world0 * InvWorld1) : InvWorld1;
-	Matrix4x4 World1to0 = world1 ? (*world1 * InvWorld0) : InvWorld0;
-
-	mR0to1 = World0to1;		World0to1.GetTrans(mT0to1);
-	mR1to0 = World1to0;		World1to0.GetTrans(mT1to0);
-
-	// Precompute absolute 1-to-0 rotation matrix
-	for(udword i=0;i<3;i++)
-	{
-		for(udword j=0;j<3;j++)
-		{
-			// Epsilon value prevents floating-point inaccuracies (strategy borrowed from RAPID)
-			mAR.m[i][j] = 1e-6f + fabsf(mR1to0.m[i][j]);
-		}
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Takes advantage of temporal coherence.
- *	\param		cache	[in] cache for a pair of previously colliding primitives
- *	\return		true if we can return immediately
- *	\warning	only works for "First Contact" mode
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::CheckTemporalCoherence(Pair* cache)
-{
-	// Checkings
-	if(!cache)	return false;
-
-	// Test previously colliding primitives first
-	if(TemporalCoherenceEnabled() && FirstContactEnabled())
-	{
-		PrimTest(cache->id0, cache->id1);
-		if(GetContactStatus())	return true;
-	}
-	return false;
-}
-
-#define UPDATE_CACHE						\
-	if(cache && GetContactStatus())			\
-	{										\
-		cache->id0 = mPairs.GetEntry(0);	\
-		cache->id1 = mPairs.GetEntry(1);	\
-	}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Collision query for normal AABB trees.
- *	\param		tree0			[in] AABB tree from first object
- *	\param		tree1			[in] AABB tree from second object
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\param		cache			[in/out] cache for a pair of previously colliding primitives
- *	\return		true if success
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::Collide(const AABBCollisionTree* tree0, const AABBCollisionTree* tree1, const Matrix4x4* world0, const Matrix4x4* world1, Pair* cache)
-{
-	// Init collision query
-	InitQuery(world0, world1);
-
-	// Check previous state
-	if(CheckTemporalCoherence(cache))		return true;
-
-	// Perform collision query
-	_Collide(tree0->GetNodes(), tree1->GetNodes());
-
-	UPDATE_CACHE
-
-	return true;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Collision query for no-leaf AABB trees.
- *	\param		tree0			[in] AABB tree from first object
- *	\param		tree1			[in] AABB tree from second object
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\param		cache			[in/out] cache for a pair of previously colliding primitives
- *	\return		true if success
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::Collide(const AABBNoLeafTree* tree0, const AABBNoLeafTree* tree1, const Matrix4x4* world0, const Matrix4x4* world1, Pair* cache)
-{
-	// Init collision query
-	InitQuery(world0, world1);
-
-	// Check previous state
-	if(CheckTemporalCoherence(cache))		return true;
-
-	// Perform collision query
-	_Collide(tree0->GetNodes(), tree1->GetNodes());
-
-	UPDATE_CACHE
-
-	return true;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Collision query for quantized AABB trees.
- *	\param		tree0			[in] AABB tree from first object
- *	\param		tree1			[in] AABB tree from second object
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\param		cache			[in/out] cache for a pair of previously colliding primitives
- *	\return		true if success
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::Collide(const AABBQuantizedTree* tree0, const AABBQuantizedTree* tree1, const Matrix4x4* world0, const Matrix4x4* world1, Pair* cache)
-{
-	// Init collision query
-	InitQuery(world0, world1);
-
-	// Check previous state
-	if(CheckTemporalCoherence(cache))		return true;
-
-	// Setup dequantization coeffs
-	mCenterCoeff0	= tree0->mCenterCoeff;
-	mExtentsCoeff0	= tree0->mExtentsCoeff;
-	mCenterCoeff1	= tree1->mCenterCoeff;
-	mExtentsCoeff1	= tree1->mExtentsCoeff;
-
-	// Dequantize box A
-	const AABBQuantizedNode* N0 = tree0->GetNodes();
-	const IcePoint a(float(N0->mAABB.mExtents[0]) * mExtentsCoeff0.x, float(N0->mAABB.mExtents[1]) * mExtentsCoeff0.y, float(N0->mAABB.mExtents[2]) * mExtentsCoeff0.z);
-	const IcePoint Pa(float(N0->mAABB.mCenter[0]) * mCenterCoeff0.x, float(N0->mAABB.mCenter[1]) * mCenterCoeff0.y, float(N0->mAABB.mCenter[2]) * mCenterCoeff0.z);
-	// Dequantize box B
-	const AABBQuantizedNode* N1 = tree1->GetNodes();
-	const IcePoint b(float(N1->mAABB.mExtents[0]) * mExtentsCoeff1.x, float(N1->mAABB.mExtents[1]) * mExtentsCoeff1.y, float(N1->mAABB.mExtents[2]) * mExtentsCoeff1.z);
-	const IcePoint Pb(float(N1->mAABB.mCenter[0]) * mCenterCoeff1.x, float(N1->mAABB.mCenter[1]) * mCenterCoeff1.y, float(N1->mAABB.mCenter[2]) * mCenterCoeff1.z);
-
-	// Perform collision query
-	_Collide(N0, N1, a, Pa, b, Pb);
-
-	UPDATE_CACHE
-
-	return true;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Collision query for quantized no-leaf AABB trees.
- *	\param		tree0			[in] AABB tree from first object
- *	\param		tree1			[in] AABB tree from second object
- *	\param		world0			[in] world matrix for first object
- *	\param		world1			[in] world matrix for second object
- *	\param		cache			[in/out] cache for a pair of previously colliding primitives
- *	\return		true if success
- *	\warning	SCALE NOT SUPPORTED. The matrices must contain rotation & translation parts only.
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-bool AABBTreeCollider::Collide(const AABBQuantizedNoLeafTree* tree0, const AABBQuantizedNoLeafTree* tree1, const Matrix4x4* world0, const Matrix4x4* world1, Pair* cache)
-{
-	// Init collision query
-	InitQuery(world0, world1);
-
-	// Check previous state
-	if(CheckTemporalCoherence(cache))		return true;
-
-	// Setup dequantization coeffs
-	mCenterCoeff0	= tree0->mCenterCoeff;
-	mExtentsCoeff0	= tree0->mExtentsCoeff;
-	mCenterCoeff1	= tree1->mCenterCoeff;
-	mExtentsCoeff1	= tree1->mExtentsCoeff;
-
-	// Perform collision query
-	_Collide(tree0->GetNodes(), tree1->GetNodes());
-
-	UPDATE_CACHE
-
-	return true;
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-// Standard trees
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-// The normal AABB tree can use 2 different descent rules (with different performances)
-//#define ORIGINAL_CODE			//!< UNC-like descent rules
-#define ALTERNATIVE_CODE		//!< Alternative descent rules
-
-#ifdef ORIGINAL_CODE
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision query for normal AABB trees.
- *	\param		b0		[in] collision node from first tree
- *	\param		b1		[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_Collide(const AABBCollisionNode* b0, const AABBCollisionNode* b1)
-{
-	// Perform BV-BV overlap test
-	if(!BoxBoxOverlap(b0->mAABB.mExtents, b0->mAABB.mCenter, b1->mAABB.mExtents, b1->mAABB.mCenter))	return;
-
-	if(b0->IsLeaf() && b1->IsLeaf()) { PrimTest(b0->GetPrimitive(), b1->GetPrimitive()); return; }
-
-	if(b1->IsLeaf() || (!b0->IsLeaf() && (b0->GetSize() > b1->GetSize())))
-	{
-		_Collide(b0->GetNeg(), b1);
-		if(ContactFound()) return;
-		_Collide(b0->GetPos(), b1);
-	}
-	else
-	{
-		_Collide(b0, b1->GetNeg());
-		if(ContactFound()) return;
-		_Collide(b0, b1->GetPos());
-	}
-}
-#endif
-
-#ifdef ALTERNATIVE_CODE
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision query for normal AABB trees.
- *	\param		b0		[in] collision node from first tree
- *	\param		b1		[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_Collide(const AABBCollisionNode* b0, const AABBCollisionNode* b1)
-{
-	// Perform BV-BV overlap test
-	if(!BoxBoxOverlap(b0->mAABB.mExtents, b0->mAABB.mCenter, b1->mAABB.mExtents, b1->mAABB.mCenter))
-	{
-		return;
-	}
-
-	if(b0->IsLeaf())
-	{
-		if(b1->IsLeaf())
-		{
-			PrimTest(b0->GetPrimitive(), b1->GetPrimitive());
-		}
-		else
-		{
-			_Collide(b0, b1->GetNeg());
-			if(ContactFound()) return;
-			_Collide(b0, b1->GetPos());
-		}
-	}
-	else if(b1->IsLeaf())
-	{
-		_Collide(b0->GetNeg(), b1);
-		if(ContactFound()) return;
-		_Collide(b0->GetPos(), b1);
-	}
-	else
-	{
-		_Collide(b0->GetNeg(), b1->GetNeg());
-		if(ContactFound()) return;
-		_Collide(b0->GetNeg(), b1->GetPos());
-		if(ContactFound()) return;
-		_Collide(b0->GetPos(), b1->GetNeg());
-		if(ContactFound()) return;
-		_Collide(b0->GetPos(), b1->GetPos());
-	}
-}
-#endif
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-// No-leaf trees
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Leaf-leaf test for two primitive indices.
- *	\param		id0		[in] index from first leaf-triangle
- *	\param		id1		[in] index from second leaf-triangle
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::PrimTest(udword id0, udword id1)
-{
-	// Request vertices from the app
-	VertexPointers VP0;
-	VertexPointers VP1;
-	mIMesh0->GetTriangle(VP0, id0);
-	mIMesh1->GetTriangle(VP1, id1);
-
-	// Transform from space 1 to space 0
-	IcePoint u0,u1,u2;
-	TransformPoint(u0, *VP1.Vertex[0], mR1to0, mT1to0);
-	TransformPoint(u1, *VP1.Vertex[1], mR1to0, mT1to0);
-	TransformPoint(u2, *VP1.Vertex[2], mR1to0, mT1to0);
-
-	// Perform triangle-triangle overlap test
-	if(TriTriOverlap(*VP0.Vertex[0], *VP0.Vertex[1], *VP0.Vertex[2], u0, u1, u2))
-	{
-		// Keep track of colliding pairs
-		mPairs.Add(id0).Add(id1);
-		// Set contact status
-		mFlags |= OPC_CONTACT;
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Leaf-leaf test for a previously fetched triangle from tree A (in B's space) and a new leaf from B.
- *	\param		id1		[in] leaf-triangle index from tree B
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-inline_ void AABBTreeCollider::PrimTestTriIndex(udword id1)
-{
-	// Request vertices from the app
-	VertexPointers VP;
-	mIMesh1->GetTriangle(VP, id1);
-
-	// Perform triangle-triangle overlap test
-	if(TriTriOverlap(mLeafVerts[0], mLeafVerts[1], mLeafVerts[2], *VP.Vertex[0], *VP.Vertex[1], *VP.Vertex[2]))
-	{
-		// Keep track of colliding pairs
-		mPairs.Add(mLeafIndex).Add(id1);
-		// Set contact status
-		mFlags |= OPC_CONTACT;
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Leaf-leaf test for a previously fetched triangle from tree B (in A's space) and a new leaf from A.
- *	\param		id0		[in] leaf-triangle index from tree A
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-inline_ void AABBTreeCollider::PrimTestIndexTri(udword id0)
-{
-	// Request vertices from the app
-	VertexPointers VP;
-	mIMesh0->GetTriangle(VP, id0);
-
-	// Perform triangle-triangle overlap test
-	if(TriTriOverlap(mLeafVerts[0], mLeafVerts[1], mLeafVerts[2], *VP.Vertex[0], *VP.Vertex[1], *VP.Vertex[2]))
-	{
-		// Keep track of colliding pairs
-		mPairs.Add(id0).Add(mLeafIndex);
-		// Set contact status
-		mFlags |= OPC_CONTACT;
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision of a leaf node from A and a branch from B.
- *	\param		b		[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_CollideTriBox(const AABBNoLeafNode* b)
-{
-	// Perform triangle-box overlap test
-	if(!TriBoxOverlap(b->mAABB.mCenter, b->mAABB.mExtents))	return;
-
-	// Keep same triangle, deal with first child
-	if(b->HasPosLeaf())	PrimTestTriIndex(b->GetPosPrimitive());
-	else				_CollideTriBox(b->GetPos());
-
-	if(ContactFound()) return;
-
-	// Keep same triangle, deal with second child
-	if(b->HasNegLeaf())	PrimTestTriIndex(b->GetNegPrimitive());
-	else				_CollideTriBox(b->GetNeg());
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision of a leaf node from B and a branch from A.
- *	\param		b		[in] collision node from first tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_CollideBoxTri(const AABBNoLeafNode* b)
-{
-	// Perform triangle-box overlap test
-	if(!TriBoxOverlap(b->mAABB.mCenter, b->mAABB.mExtents))	return;
-
-	// Keep same triangle, deal with first child
-	if(b->HasPosLeaf())	PrimTestIndexTri(b->GetPosPrimitive());
-	else				_CollideBoxTri(b->GetPos());
-
-	if(ContactFound()) return;
-
-	// Keep same triangle, deal with second child
-	if(b->HasNegLeaf())	PrimTestIndexTri(b->GetNegPrimitive());
-	else				_CollideBoxTri(b->GetNeg());
-}
-
-//! Request triangle vertices from the app and transform them
-#define FETCH_LEAF(prim_index, imesh, rot, trans)				\
-	mLeafIndex = prim_index;									\
-	/* Request vertices from the app */							\
-	VertexPointers VP;	imesh->GetTriangle(VP, mLeafIndex);		\
-	/* Transform them in a common space */						\
-	TransformPoint(mLeafVerts[0], *VP.Vertex[0], rot, trans);	\
-	TransformPoint(mLeafVerts[1], *VP.Vertex[1], rot, trans);	\
-	TransformPoint(mLeafVerts[2], *VP.Vertex[2], rot, trans);
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision query for no-leaf AABB trees.
- *	\param		a	[in] collision node from first tree
- *	\param		b	[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_Collide(const AABBNoLeafNode* a, const AABBNoLeafNode* b)
-{
-	// Perform BV-BV overlap test
-	if(!BoxBoxOverlap(a->mAABB.mExtents, a->mAABB.mCenter, b->mAABB.mExtents, b->mAABB.mCenter))	return;
-
-	// Catch leaf status
-	BOOL BHasPosLeaf = b->HasPosLeaf();
-	BOOL BHasNegLeaf = b->HasNegLeaf();
-
-	if(a->HasPosLeaf())
-	{
-		FETCH_LEAF(a->GetPosPrimitive(), mIMesh0, mR0to1, mT0to1)
-
-		if(BHasPosLeaf)	PrimTestTriIndex(b->GetPosPrimitive());
-		else			_CollideTriBox(b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)	PrimTestTriIndex(b->GetNegPrimitive());
-		else			_CollideTriBox(b->GetNeg());
-	}
-	else
-	{
-		if(BHasPosLeaf)
-		{
-			FETCH_LEAF(b->GetPosPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetPos());
-		}
-		else _Collide(a->GetPos(), b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)
-		{
-			FETCH_LEAF(b->GetNegPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetPos());
-		}
-		else _Collide(a->GetPos(), b->GetNeg());
-	}
-
-	if(ContactFound()) return;
-
-	if(a->HasNegLeaf())
-	{
-		FETCH_LEAF(a->GetNegPrimitive(), mIMesh0, mR0to1, mT0to1)
-
-		if(BHasPosLeaf)	PrimTestTriIndex(b->GetPosPrimitive());
-		else			_CollideTriBox(b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)	PrimTestTriIndex(b->GetNegPrimitive());
-		else			_CollideTriBox(b->GetNeg());
-	}
-	else
-	{
-		if(BHasPosLeaf)
-		{
-			// ### That leaf has possibly already been fetched
-			FETCH_LEAF(b->GetPosPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetNeg());
-		}
-		else _Collide(a->GetNeg(), b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)
-		{
-			// ### That leaf has possibly already been fetched
-			FETCH_LEAF(b->GetNegPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetNeg());
-		}
-		else _Collide(a->GetNeg(), b->GetNeg());
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-// Quantized trees
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision query for quantized AABB trees.
- *	\param		b0		[in] collision node from first tree
- *	\param		b1		[in] collision node from second tree
- *	\param		a		[in] extent from box A
- *	\param		Pa		[in] center from box A
- *	\param		b		[in] extent from box B
- *	\param		Pb		[in] center from box B
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_Collide(const AABBQuantizedNode* b0, const AABBQuantizedNode* b1, const IcePoint& a, const IcePoint& Pa, const IcePoint& b, const IcePoint& Pb)
-{
-	// Perform BV-BV overlap test
-	if(!BoxBoxOverlap(a, Pa, b, Pb))	return;
-
-	if(b0->IsLeaf() && b1->IsLeaf()) { PrimTest(b0->GetPrimitive(), b1->GetPrimitive()); return; }
-
-	if(b1->IsLeaf() || (!b0->IsLeaf() && (b0->GetSize() > b1->GetSize())))
-	{
-		// Dequantize box
-		const QuantizedAABB* Box = &b0->GetNeg()->mAABB;
-		const IcePoint negPa(float(Box->mCenter[0]) * mCenterCoeff0.x, float(Box->mCenter[1]) * mCenterCoeff0.y, float(Box->mCenter[2]) * mCenterCoeff0.z);
-		const IcePoint nega(float(Box->mExtents[0]) * mExtentsCoeff0.x, float(Box->mExtents[1]) * mExtentsCoeff0.y, float(Box->mExtents[2]) * mExtentsCoeff0.z);
-		_Collide(b0->GetNeg(), b1, nega, negPa, b, Pb);
-
-		if(ContactFound()) return;
-
-		// Dequantize box
-		Box = &b0->GetPos()->mAABB;
-		const IcePoint posPa(float(Box->mCenter[0]) * mCenterCoeff0.x, float(Box->mCenter[1]) * mCenterCoeff0.y, float(Box->mCenter[2]) * mCenterCoeff0.z);
-		const IcePoint posa(float(Box->mExtents[0]) * mExtentsCoeff0.x, float(Box->mExtents[1]) * mExtentsCoeff0.y, float(Box->mExtents[2]) * mExtentsCoeff0.z);
-		_Collide(b0->GetPos(), b1, posa, posPa, b, Pb);
-	}
-	else
-	{
-		// Dequantize box
-		const QuantizedAABB* Box = &b1->GetNeg()->mAABB;
-		const IcePoint negPb(float(Box->mCenter[0]) * mCenterCoeff1.x, float(Box->mCenter[1]) * mCenterCoeff1.y, float(Box->mCenter[2]) * mCenterCoeff1.z);
-		const IcePoint negb(float(Box->mExtents[0]) * mExtentsCoeff1.x, float(Box->mExtents[1]) * mExtentsCoeff1.y, float(Box->mExtents[2]) * mExtentsCoeff1.z);
-		_Collide(b0, b1->GetNeg(), a, Pa, negb, negPb);
-
-		if(ContactFound()) return;
-
-		// Dequantize box
-		Box = &b1->GetPos()->mAABB;
-		const IcePoint posPb(float(Box->mCenter[0]) * mCenterCoeff1.x, float(Box->mCenter[1]) * mCenterCoeff1.y, float(Box->mCenter[2]) * mCenterCoeff1.z);
-		const IcePoint posb(float(Box->mExtents[0]) * mExtentsCoeff1.x, float(Box->mExtents[1]) * mExtentsCoeff1.y, float(Box->mExtents[2]) * mExtentsCoeff1.z);
-		_Collide(b0, b1->GetPos(), a, Pa, posb, posPb);
-	}
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-// Quantized no-leaf trees
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision of a leaf node from A and a quantized branch from B.
- *	\param		leaf	[in] leaf triangle from first tree
- *	\param		b		[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_CollideTriBox(const AABBQuantizedNoLeafNode* b)
-{
-	// Dequantize box
-	const QuantizedAABB* bb = &b->mAABB;
-	const IcePoint Pb(float(bb->mCenter[0]) * mCenterCoeff1.x, float(bb->mCenter[1]) * mCenterCoeff1.y, float(bb->mCenter[2]) * mCenterCoeff1.z);
-	const IcePoint eb(float(bb->mExtents[0]) * mExtentsCoeff1.x, float(bb->mExtents[1]) * mExtentsCoeff1.y, float(bb->mExtents[2]) * mExtentsCoeff1.z);
-
-	// Perform triangle-box overlap test
-	if(!TriBoxOverlap(Pb, eb))	return;
-
-	if(b->HasPosLeaf())	PrimTestTriIndex(b->GetPosPrimitive());
-	else				_CollideTriBox(b->GetPos());
-
-	if(ContactFound()) return;
-
-	if(b->HasNegLeaf())	PrimTestTriIndex(b->GetNegPrimitive());
-	else				_CollideTriBox(b->GetNeg());
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision of a leaf node from B and a quantized branch from A.
- *	\param		b		[in] collision node from first tree
- *	\param		leaf	[in] leaf triangle from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_CollideBoxTri(const AABBQuantizedNoLeafNode* b)
-{
-	// Dequantize box
-	const QuantizedAABB* bb = &b->mAABB;
-	const IcePoint Pa(float(bb->mCenter[0]) * mCenterCoeff0.x, float(bb->mCenter[1]) * mCenterCoeff0.y, float(bb->mCenter[2]) * mCenterCoeff0.z);
-	const IcePoint ea(float(bb->mExtents[0]) * mExtentsCoeff0.x, float(bb->mExtents[1]) * mExtentsCoeff0.y, float(bb->mExtents[2]) * mExtentsCoeff0.z);
-
-	// Perform triangle-box overlap test
-	if(!TriBoxOverlap(Pa, ea))	return;
-
-	if(b->HasPosLeaf())	PrimTestIndexTri(b->GetPosPrimitive());
-	else				_CollideBoxTri(b->GetPos());
-
-	if(ContactFound()) return;
-
-	if(b->HasNegLeaf())	PrimTestIndexTri(b->GetNegPrimitive());
-	else				_CollideBoxTri(b->GetNeg());
-}
-
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-/**
- *	Recursive collision query for quantized no-leaf AABB trees.
- *	\param		a	[in] collision node from first tree
- *	\param		b	[in] collision node from second tree
- */
-///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
-void AABBTreeCollider::_Collide(const AABBQuantizedNoLeafNode* a, const AABBQuantizedNoLeafNode* b)
-{
-	// Dequantize box A
-	const QuantizedAABB* ab = &a->mAABB;
-	const IcePoint Pa(float(ab->mCenter[0]) * mCenterCoeff0.x, float(ab->mCenter[1]) * mCenterCoeff0.y, float(ab->mCenter[2]) * mCenterCoeff0.z);
-	const IcePoint ea(float(ab->mExtents[0]) * mExtentsCoeff0.x, float(ab->mExtents[1]) * mExtentsCoeff0.y, float(ab->mExtents[2]) * mExtentsCoeff0.z);
-	// Dequantize box B
-	const QuantizedAABB* bb = &b->mAABB;
-	const IcePoint Pb(float(bb->mCenter[0]) * mCenterCoeff1.x, float(bb->mCenter[1]) * mCenterCoeff1.y, float(bb->mCenter[2]) * mCenterCoeff1.z);
-	const IcePoint eb(float(bb->mExtents[0]) * mExtentsCoeff1.x, float(bb->mExtents[1]) * mExtentsCoeff1.y, float(bb->mExtents[2]) * mExtentsCoeff1.z);
-
-	// Perform BV-BV overlap test
-	if(!BoxBoxOverlap(ea, Pa, eb, Pb))	return;
-
-	// Catch leaf status
-	BOOL BHasPosLeaf = b->HasPosLeaf();
-	BOOL BHasNegLeaf = b->HasNegLeaf();
-
-	if(a->HasPosLeaf())
-	{
-		FETCH_LEAF(a->GetPosPrimitive(), mIMesh0, mR0to1, mT0to1)
-
-		if(BHasPosLeaf)	PrimTestTriIndex(b->GetPosPrimitive());
-		else			_CollideTriBox(b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)	PrimTestTriIndex(b->GetNegPrimitive());
-		else			_CollideTriBox(b->GetNeg());
-	}
-	else
-	{
-		if(BHasPosLeaf)
-		{
-			FETCH_LEAF(b->GetPosPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetPos());
-		}
-		else _Collide(a->GetPos(), b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)
-		{
-			FETCH_LEAF(b->GetNegPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetPos());
-		}
-		else _Collide(a->GetPos(), b->GetNeg());
-	}
-
-	if(ContactFound()) return;
-
-	if(a->HasNegLeaf())
-	{
-		FETCH_LEAF(a->GetNegPrimitive(), mIMesh0, mR0to1, mT0to1)
-
-		if(BHasPosLeaf)	PrimTestTriIndex(b->GetPosPrimitive());
-		else			_CollideTriBox(b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)	PrimTestTriIndex(b->GetNegPrimitive());
-		else			_CollideTriBox(b->GetNeg());
-	}
-	else
-	{
-		if(BHasPosLeaf)
-		{
-			// ### That leaf has possibly already been fetched
-			FETCH_LEAF(b->GetPosPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetNeg());
-		}
-		else _Collide(a->GetNeg(), b->GetPos());
-
-		if(ContactFound()) return;
-
-		if(BHasNegLeaf)
-		{
-			// ### That leaf has possibly already been fetched
-			FETCH_LEAF(b->GetNegPrimitive(), mIMesh1, mR1to0, mT1to0)
-
-			_CollideBoxTri(a->GetNeg());
-		}
-		else _Collide(a->GetNeg(), b->GetNeg());
-	}
-}
-- 
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