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diff --git a/extern/bullet2/src/BulletSoftBody/btSparseSDF.h b/extern/bullet2/src/BulletSoftBody/btSparseSDF.h
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+++ b/extern/bullet2/src/BulletSoftBody/btSparseSDF.h
@@ -0,0 +1,306 @@
+/*
+Bullet Continuous Collision Detection and Physics Library
+Copyright (c) 2003-2006 Erwin Coumans  http://continuousphysics.com/Bullet/
+
+This software is provided 'as-is', without any express or implied warranty.
+In no event will the authors be held liable for any damages arising from the use of this software.
+Permission is granted to anyone to use this software for any purpose,
+including commercial applications, and to alter it and redistribute it freely,
+subject to the following restrictions:
+
+1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required.
+2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
+3. This notice may not be removed or altered from any source distribution.
+*/
+///btSparseSdf implementation by Nathanael Presson
+
+#ifndef _14F9D17F_EAE8_4aba_B41C_292DB2AA70F3_
+#define _14F9D17F_EAE8_4aba_B41C_292DB2AA70F3_
+
+#include "BulletCollision/CollisionDispatch/btCollisionObject.h"
+#include "BulletCollision/NarrowPhaseCollision/btGjkEpa2.h"
+
+// Modified Paul Hsieh hash
+template <const int DWORDLEN>
+unsigned int HsiehHash(const void* pdata)
+	{
+	const unsigned short*	data=(const unsigned short*)pdata;
+	unsigned				hash=DWORDLEN<<2,tmp;
+	for(int i=0;i<DWORDLEN;++i)
+		{
+		hash	+=	data[0];
+		tmp		=	(data[1]<<11)^hash;
+		hash	=	(hash<<16)^tmp;
+		data	+=	2;
+		hash	+=	hash>>11;
+		}
+	hash^=hash<<3;hash+=hash>>5;
+	hash^=hash<<4;hash+=hash>>17;
+	hash^=hash<<25;hash+=hash>>6;
+	return(hash);
+	}
+
+template <const int CELLSIZE>
+struct	btSparseSdf
+	{
+	//
+	// Inner types
+	//
+	struct IntFrac
+		{
+		int					b;
+		int					i;
+		btScalar			f;
+		};
+	struct	Cell
+		{
+		btScalar			d[CELLSIZE+1][CELLSIZE+1][CELLSIZE+1];
+		int					c[3];
+		int					puid;
+		unsigned			hash;
+		btCollisionShape*	pclient;
+		Cell*				next;
+		};
+	//
+	// Fields
+	//
+	
+	btAlignedObjectArray<Cell*>		cells;	
+	btScalar						voxelsz;
+	int								puid;
+	int								ncells;
+	int								nprobes;
+	int								nqueries;	
+	
+	//
+	// Methods
+	//
+	
+	//
+	void					Initialize(int hashsize=2383)
+		{
+		cells.resize(hashsize,0);
+		Reset();		
+		}
+	//
+	void					Reset()
+		{
+		for(int i=0,ni=cells.size();i<ni;++i)
+			{
+			Cell*	pc=cells[i];
+			cells[i]=0;
+			while(pc)
+				{
+				Cell*	pn=pc->next;
+				delete pc;
+				pc=pn;
+				}
+			}
+		voxelsz		=0.25;
+		puid		=0;
+		ncells		=0;
+		nprobes		=1;
+		nqueries	=1;
+		}
+	//
+	void					GarbageCollect(int lifetime=256)
+		{
+		const int life=puid-lifetime;
+		for(int i=0;i<cells.size();++i)
+			{
+			Cell*&	root=cells[i];
+			Cell*	pp=0;
+			Cell*	pc=root;
+			while(pc)
+				{
+				Cell*	pn=pc->next;
+				if(pc->puid<life)
+					{
+					if(pp) pp->next=pn; else root=pn;
+					delete pc;pc=pp;--ncells;
+					}
+				pp=pc;pc=pn;
+				}
+			}
+		//printf("GC[%d]: %d cells, PpQ: %f\r\n",puid,ncells,nprobes/(btScalar)nqueries);
+		nqueries=1;
+		nprobes=1;
+		++puid;	/* TODO: Reset puid's when int range limit is reached	*/ 
+				/* else setup a priority list...						*/ 
+		}
+	//
+	int						RemoveReferences(btCollisionShape* pcs)
+		{
+		int	refcount=0;
+		for(int i=0;i<cells.size();++i)
+			{
+			Cell*&	root=cells[i];
+			Cell*	pp=0;
+			Cell*	pc=root;
+			while(pc)
+				{
+				Cell*	pn=pc->next;
+				if(pc->pclient==pcs)
+					{
+					if(pp) pp->next=pn; else root=pn;
+					delete pc;pc=pp;++refcount;
+					}
+				pp=pc;pc=pn;
+				}
+			}
+		return(refcount);
+		}
+	//
+	btScalar				Evaluate(	const btVector3& x,
+										btCollisionShape* shape,
+										btVector3& normal,
+										btScalar margin)
+		{
+		/* Lookup cell			*/ 
+		const btVector3	scx=x/voxelsz;
+		const IntFrac	ix=Decompose(scx.x());
+		const IntFrac	iy=Decompose(scx.y());
+		const IntFrac	iz=Decompose(scx.z());
+		const unsigned	h=Hash(ix.b,iy.b,iz.b,shape);
+		Cell*&			root=cells[static_cast<int>(h%cells.size())];
+		Cell*			c=root;
+		++nqueries;
+		while(c)
+			{
+			++nprobes;
+			if(	(c->hash==h)	&&
+				(c->c[0]==ix.b)	&&
+				(c->c[1]==iy.b)	&&
+				(c->c[2]==iz.b)	&&
+				(c->pclient==shape))
+				{ break; }
+				else
+				{ c=c->next; }
+			}
+		if(!c)
+			{
+			++nprobes;		
+			++ncells;
+			c=new Cell();
+			c->next=root;root=c;
+			c->pclient=shape;
+			c->hash=h;
+			c->c[0]=ix.b;c->c[1]=iy.b;c->c[2]=iz.b;
+			BuildCell(*c);
+			}
+		c->puid=puid;
+		/* Extract infos		*/ 
+		const int		o[]={	ix.i,iy.i,iz.i};
+		const btScalar	d[]={	c->d[o[0]+0][o[1]+0][o[2]+0],
+								c->d[o[0]+1][o[1]+0][o[2]+0],
+								c->d[o[0]+1][o[1]+1][o[2]+0],
+								c->d[o[0]+0][o[1]+1][o[2]+0],
+								c->d[o[0]+0][o[1]+0][o[2]+1],
+								c->d[o[0]+1][o[1]+0][o[2]+1],
+								c->d[o[0]+1][o[1]+1][o[2]+1],
+								c->d[o[0]+0][o[1]+1][o[2]+1]};
+		/* Normal	*/ 
+		#if 1
+		const btScalar	gx[]={	d[1]-d[0],d[2]-d[3],
+								d[5]-d[4],d[6]-d[7]};
+		const btScalar	gy[]={	d[3]-d[0],d[2]-d[1],
+								d[7]-d[4],d[6]-d[5]};
+		const btScalar	gz[]={	d[4]-d[0],d[5]-d[1],
+								d[7]-d[3],d[6]-d[2]};
+		normal.setX(Lerp(	Lerp(gx[0],gx[1],iy.f),
+							Lerp(gx[2],gx[3],iy.f),iz.f));
+		normal.setY(Lerp(	Lerp(gy[0],gy[1],ix.f),
+							Lerp(gy[2],gy[3],ix.f),iz.f));
+		normal.setZ(Lerp(	Lerp(gz[0],gz[1],ix.f),
+							Lerp(gz[2],gz[3],ix.f),iy.f));
+		normal		=	normal.normalized();
+		#else
+		normal		=	btVector3(d[1]-d[0],d[3]-d[0],d[4]-d[0]).normalized();
+		#endif
+		/* Distance	*/ 
+		const btScalar	d0=Lerp(Lerp(d[0],d[1],ix.f),
+								Lerp(d[3],d[2],ix.f),iy.f);
+		const btScalar	d1=Lerp(Lerp(d[4],d[5],ix.f),
+								Lerp(d[7],d[6],ix.f),iy.f);
+		return(Lerp(d0,d1,iz.f)-margin);
+		}
+	//
+	void					BuildCell(Cell& c)
+		{
+		const btVector3	org=btVector3(	(btScalar)c.c[0],
+										(btScalar)c.c[1],
+										(btScalar)c.c[2])	*
+										CELLSIZE*voxelsz;
+		for(int k=0;k<=CELLSIZE;++k)
+			{
+			const btScalar	z=voxelsz*k+org.z();
+			for(int j=0;j<=CELLSIZE;++j)
+				{
+				const btScalar	y=voxelsz*j+org.y();
+				for(int i=0;i<=CELLSIZE;++i)
+					{
+					const btScalar	x=voxelsz*i+org.x();
+					c.d[i][j][k]=DistanceToShape(	btVector3(x,y,z),
+													c.pclient);
+					}
+				}
+			}
+		}
+	//
+	static inline btScalar	DistanceToShape(const btVector3& x,
+											btCollisionShape* shape)
+		{
+		btTransform	unit;
+		unit.setIdentity();
+		if(shape->isConvex())
+			{
+			btGjkEpaSolver2::sResults	res;
+			btConvexShape*				csh=static_cast<btConvexShape*>(shape);
+			return(btGjkEpaSolver2::SignedDistance(x,0,csh,unit,res));
+			}
+		return(0);
+		}
+	//
+	static inline IntFrac	Decompose(btScalar x)
+		{
+		/* That one need a lot of improvements...	*/
+		/* Remove test, faster floor...				*/ 
+		IntFrac			r;
+		x/=CELLSIZE;
+		const int		o=x<0?(int)(-x+1):0;
+		x+=o;r.b=(int)x;
+		const btScalar	k=(x-r.b)*CELLSIZE;
+		r.i=(int)k;r.f=k-r.i;r.b-=o;
+		return(r);
+		}
+	//
+	static inline btScalar	Lerp(btScalar a,btScalar b,btScalar t)
+		{
+		return(a+(b-a)*t);
+		}
+
+	
+
+	//
+	static inline unsigned int	Hash(int x,int y,int z,btCollisionShape* shape)
+		{
+		struct btS
+		{ 
+			int x,y,z;
+			void* p;
+		};
+
+		btS myset;
+		
+		myset.x=x;myset.y=y;myset.z=z;myset.p=shape;
+		const void* ptr = &myset;
+
+		unsigned int result = HsiehHash<sizeof(btS)/4> (ptr);
+		
+
+		return result;
+		}
+};
+	
+
+#endif