From 373dc625f82b47096893add42c4472e4a57ab7eb Mon Sep 17 00:00:00 2001
From: Aki <please@ignore.pl>
Date: Wed, 9 Feb 2022 22:23:03 +0100
Subject: Moved third-party libraries to a separate subdirectory

---
 Opcode/OPC_SphereTriOverlap.h | 187 ------------------------------------------
 1 file changed, 187 deletions(-)
 delete mode 100644 Opcode/OPC_SphereTriOverlap.h

(limited to 'Opcode/OPC_SphereTriOverlap.h')

diff --git a/Opcode/OPC_SphereTriOverlap.h b/Opcode/OPC_SphereTriOverlap.h
deleted file mode 100644
index 012d9ea..0000000
--- a/Opcode/OPC_SphereTriOverlap.h
+++ /dev/null
@@ -1,187 +0,0 @@
-
-// This is collision detection. If you do another distance test for collision *response*,
-// if might be useful to simply *skip* the test below completely, and report a collision.
-// - if sphere-triangle overlap, result is ok
-// - if they don't, we'll discard them during collision response with a similar test anyway
-// Overall this approach should run faster.
-
-// Original code by David Eberly in Magic.
-BOOL SphereCollider::SphereTriOverlap(const IcePoint& vert0, const IcePoint& vert1, const IcePoint& vert2)
-{
-	// Stats
-	mNbVolumePrimTests++;
-
-	// Early exit if one of the vertices is inside the sphere
-	IcePoint kDiff = vert2 - mCenter;
-	float fC = kDiff.SquareMagnitude();
-	if(fC <= mRadius2)	return TRUE;
-
-	kDiff = vert1 - mCenter;
-	fC = kDiff.SquareMagnitude();
-	if(fC <= mRadius2)	return TRUE;
-
-	kDiff = vert0 - mCenter;
-	fC = kDiff.SquareMagnitude();
-	if(fC <= mRadius2)	return TRUE;
-
-	// Else do the full distance test
-	IcePoint TriEdge0	= vert1 - vert0;
-	IcePoint TriEdge1	= vert2 - vert0;
-
-//IcePoint kDiff	= vert0 - mCenter;
-	float fA00	= TriEdge0.SquareMagnitude();
-	float fA01	= TriEdge0 | TriEdge1;
-	float fA11	= TriEdge1.SquareMagnitude();
-	float fB0	= kDiff | TriEdge0;
-	float fB1	= kDiff | TriEdge1;
-//float fC	= kDiff.SquareMagnitude();
-	float fDet	= fabsf(fA00*fA11 - fA01*fA01);
-	float u		= fA01*fB1-fA11*fB0;
-	float v		= fA01*fB0-fA00*fB1;
-	float SqrDist;
-
-	if(u + v <= fDet)
-	{
-		if(u < 0.0f)
-		{
-			if(v < 0.0f)  // region 4
-			{
-				if(fB0 < 0.0f)
-				{
-//					v = 0.0f;
-					if(-fB0>=fA00)			{ /*u = 1.0f;*/		SqrDist = fA00+2.0f*fB0+fC;	}
-					else					{ u = -fB0/fA00;	SqrDist = fB0*u+fC;			}
-				}
-				else
-				{
-//					u = 0.0f;
-					if(fB1>=0.0f)			{ /*v = 0.0f;*/		SqrDist = fC;				}
-					else if(-fB1>=fA11)		{ /*v = 1.0f;*/		SqrDist = fA11+2.0f*fB1+fC;	}
-					else					{ v = -fB1/fA11;	SqrDist = fB1*v+fC;			}
-				}
-			}
-			else  // region 3
-			{
-//				u = 0.0f;
-				if(fB1>=0.0f)				{ /*v = 0.0f;*/		SqrDist = fC;				}
-				else if(-fB1>=fA11)			{ /*v = 1.0f;*/		SqrDist = fA11+2.0f*fB1+fC;	}
-				else						{ v = -fB1/fA11;	SqrDist = fB1*v+fC;			}
-			}
-		}
-		else if(v < 0.0f)  // region 5
-		{
-//			v = 0.0f;
-			if(fB0>=0.0f)					{ /*u = 0.0f;*/		SqrDist = fC;				}
-			else if(-fB0>=fA00)				{ /*u = 1.0f;*/		SqrDist = fA00+2.0f*fB0+fC;	}
-			else							{ u = -fB0/fA00;	SqrDist = fB0*u+fC;			}
-		}
-		else  // region 0
-		{
-			// minimum at interior IcePoint
-			if(fDet==0.0f)
-			{
-//				u = 0.0f;
-//				v = 0.0f;
-				SqrDist = MAX_FLOAT;
-			}
-			else
-			{
-				float fInvDet = 1.0f/fDet;
-				u *= fInvDet;
-				v *= fInvDet;
-				SqrDist = u*(fA00*u+fA01*v+2.0f*fB0) + v*(fA01*u+fA11*v+2.0f*fB1)+fC;
-			}
-		}
-	}
-	else
-	{
-		float fTmp0, fTmp1, fNumer, fDenom;
-
-		if(u < 0.0f)  // region 2
-		{
-			fTmp0 = fA01 + fB0;
-			fTmp1 = fA11 + fB1;
-			if(fTmp1 > fTmp0)
-			{
-				fNumer = fTmp1 - fTmp0;
-				fDenom = fA00-2.0f*fA01+fA11;
-				if(fNumer >= fDenom)
-				{
-//					u = 1.0f;
-//					v = 0.0f;
-					SqrDist = fA00+2.0f*fB0+fC;
-				}
-				else
-				{
-					u = fNumer/fDenom;
-					v = 1.0f - u;
-					SqrDist = u*(fA00*u+fA01*v+2.0f*fB0) + v*(fA01*u+fA11*v+2.0f*fB1)+fC;
-				}
-			}
-			else
-			{
-//				u = 0.0f;
-				if(fTmp1 <= 0.0f)		{ /*v = 1.0f;*/		SqrDist = fA11+2.0f*fB1+fC;	}
-				else if(fB1 >= 0.0f)	{ /*v = 0.0f;*/		SqrDist = fC;				}
-				else					{ v = -fB1/fA11;	SqrDist = fB1*v+fC;			}
-			}
-		}
-		else if(v < 0.0f)  // region 6
-		{
-			fTmp0 = fA01 + fB1;
-			fTmp1 = fA00 + fB0;
-			if(fTmp1 > fTmp0)
-			{
-				fNumer = fTmp1 - fTmp0;
-				fDenom = fA00-2.0f*fA01+fA11;
-				if(fNumer >= fDenom)
-				{
-//					v = 1.0f;
-//					u = 0.0f;
-					SqrDist = fA11+2.0f*fB1+fC;
-				}
-				else
-				{
-					v = fNumer/fDenom;
-					u = 1.0f - v;
-					SqrDist = u*(fA00*u+fA01*v+2.0f*fB0) + v*(fA01*u+fA11*v+2.0f*fB1)+fC;
-				}
-			}
-			else
-			{
-//				v = 0.0f;
-				if(fTmp1 <= 0.0f)		{ /*u = 1.0f;*/		SqrDist = fA00+2.0f*fB0+fC;	}
-				else if(fB0 >= 0.0f)	{ /*u = 0.0f;*/		SqrDist = fC;				}
-				else					{ u = -fB0/fA00;	SqrDist = fB0*u+fC;			}
-			}
-		}
-		else  // region 1
-		{
-			fNumer = fA11 + fB1 - fA01 - fB0;
-			if(fNumer <= 0.0f)
-			{
-//				u = 0.0f;
-//				v = 1.0f;
-				SqrDist = fA11+2.0f*fB1+fC;
-			}
-			else
-			{
-				fDenom = fA00-2.0f*fA01+fA11;
-				if(fNumer >= fDenom)
-				{
-//					u = 1.0f;
-//					v = 0.0f;
-					SqrDist = fA00+2.0f*fB0+fC;
-				}
-				else
-				{
-					u = fNumer/fDenom;
-					v = 1.0f - u;
-					SqrDist = u*(fA00*u+fA01*v+2.0f*fB0) + v*(fA01*u+fA11*v+2.0f*fB1)+fC;
-				}
-			}
-		}
-	}
-
-	return fabsf(SqrDist) < mRadius2;
-}
-- 
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