1 files changed, 1019 insertions, 0 deletions

diff --git a/extern/bullet2/BulletSoftBody/btSoftBodyHelpers.cpp b/extern/bullet2/BulletSoftBody/btSoftBodyHelpers.cpp
new file mode 100644
index 00000000000..516485bf4e5
--- /dev/null
+++ b/extern/bullet2/BulletSoftBody/btSoftBodyHelpers.cpp
@@ -0,0 +1,1019 @@
+/*
+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.
+*/
+///btSoftBodyHelpers.cpp by Nathanael Presson
+
+#include "btSoftBodyInternals.h"
+#include <stdio.h>
+#include <string.h>
+#include "btSoftBodyHelpers.h"
+#include "LinearMath/btConvexHull.h"
+
+//
+static void				drawVertex(	btIDebugDraw* idraw,
+								   const btVector3& x,btScalar s,const btVector3& c)
+{
+	idraw->drawLine(x-btVector3(s,0,0),x+btVector3(s,0,0),c);
+	idraw->drawLine(x-btVector3(0,s,0),x+btVector3(0,s,0),c);
+	idraw->drawLine(x-btVector3(0,0,s),x+btVector3(0,0,s),c);
+}
+
+//
+static void				drawBox(	btIDebugDraw* idraw,
+								const btVector3& mins,
+								const btVector3& maxs,
+								const btVector3& color)
+{
+	const btVector3	c[]={	btVector3(mins.x(),mins.y(),mins.z()),
+		btVector3(maxs.x(),mins.y(),mins.z()),
+		btVector3(maxs.x(),maxs.y(),mins.z()),
+		btVector3(mins.x(),maxs.y(),mins.z()),
+		btVector3(mins.x(),mins.y(),maxs.z()),
+		btVector3(maxs.x(),mins.y(),maxs.z()),
+		btVector3(maxs.x(),maxs.y(),maxs.z()),
+		btVector3(mins.x(),maxs.y(),maxs.z())};
+	idraw->drawLine(c[0],c[1],color);idraw->drawLine(c[1],c[2],color);
+	idraw->drawLine(c[2],c[3],color);idraw->drawLine(c[3],c[0],color);
+	idraw->drawLine(c[4],c[5],color);idraw->drawLine(c[5],c[6],color);
+	idraw->drawLine(c[6],c[7],color);idraw->drawLine(c[7],c[4],color);
+	idraw->drawLine(c[0],c[4],color);idraw->drawLine(c[1],c[5],color);
+	idraw->drawLine(c[2],c[6],color);idraw->drawLine(c[3],c[7],color);
+}
+
+//
+static void				drawTree(	btIDebugDraw* idraw,
+								 const btDbvtNode* node,
+								 int depth,
+								 const btVector3& ncolor,
+								 const btVector3& lcolor,
+								 int mindepth,
+								 int maxdepth)
+{
+	if(node)
+	{
+		if(node->isinternal()&&((depth<maxdepth)||(maxdepth<0)))
+		{
+			drawTree(idraw,node->childs[0],depth+1,ncolor,lcolor,mindepth,maxdepth);
+			drawTree(idraw,node->childs[1],depth+1,ncolor,lcolor,mindepth,maxdepth);
+		}
+		if(depth>=mindepth)
+		{
+			const btScalar	scl=(btScalar)(node->isinternal()?1:1);
+			const btVector3	mi=node->volume.Center()-node->volume.Extents()*scl;
+			const btVector3	mx=node->volume.Center()+node->volume.Extents()*scl;
+			drawBox(idraw,mi,mx,node->isleaf()?lcolor:ncolor);
+		}
+	}
+}
+
+//
+template <typename T>
+static inline T				sum(const btAlignedObjectArray<T>& items)
+{
+	T	v;
+	if(items.size())
+	{
+		v=items[0];
+		for(int i=1,ni=items.size();i<ni;++i)
+		{
+			v+=items[i];
+		}
+	}
+	return(v);
+}
+
+//
+template <typename T,typename Q>
+static inline void			add(btAlignedObjectArray<T>& items,const Q& value)
+{
+	for(int i=0,ni=items.size();i<ni;++i)
+	{
+		items[i]+=value;
+	}
+}
+
+//
+template <typename T,typename Q>
+static inline void			mul(btAlignedObjectArray<T>& items,const Q& value)
+{
+	for(int i=0,ni=items.size();i<ni;++i)
+	{
+		items[i]*=value;
+	}
+}
+
+//
+template <typename T>
+static inline T				average(const btAlignedObjectArray<T>& items)
+{
+	const btScalar	n=(btScalar)(items.size()>0?items.size():1);
+	return(sum(items)/n);
+}
+
+//
+static inline btScalar		tetravolume(const btVector3& x0,
+										const btVector3& x1,
+										const btVector3& x2,
+										const btVector3& x3)
+{
+	const btVector3	a=x1-x0;
+	const btVector3	b=x2-x0;
+	const btVector3	c=x3-x0;
+	return(btDot(a,btCross(b,c)));
+}
+
+//
+#if 0
+static btVector3		stresscolor(btScalar stress)
+{
+	static const btVector3	spectrum[]=	{	btVector3(1,0,1),
+		btVector3(0,0,1),
+		btVector3(0,1,1),
+		btVector3(0,1,0),
+		btVector3(1,1,0),
+		btVector3(1,0,0),
+		btVector3(1,0,0)};
+	static const int		ncolors=sizeof(spectrum)/sizeof(spectrum[0])-1;
+	static const btScalar	one=1;
+	stress=btMax<btScalar>(0,btMin<btScalar>(1,stress))*ncolors;
+	const int				sel=(int)stress;
+	const btScalar			frc=stress-sel;
+	return(spectrum[sel]+(spectrum[sel+1]-spectrum[sel])*frc);
+}
+#endif
+
+//
+void			btSoftBodyHelpers::Draw(	btSoftBody* psb,
+										btIDebugDraw* idraw,
+										int drawflags)
+{
+	const btScalar		scl=(btScalar)0.1;
+	const btScalar		nscl=scl*5;
+	const btVector3		lcolor=btVector3(0,0,0);
+	const btVector3		ncolor=btVector3(1,1,1);
+	const btVector3		ccolor=btVector3(1,0,0);
+	int i,j,nj;
+
+	/* Nodes	*/ 
+	if(0!=(drawflags&fDrawFlags::Nodes))
+	{
+		for(i=0;i<psb->m_nodes.size();++i)
+		{
+			const btSoftBody::Node&	n=psb->m_nodes[i];
+			if(0==(n.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			idraw->drawLine(n.m_x-btVector3(scl,0,0),n.m_x+btVector3(scl,0,0),btVector3(1,0,0));
+			idraw->drawLine(n.m_x-btVector3(0,scl,0),n.m_x+btVector3(0,scl,0),btVector3(0,1,0));
+			idraw->drawLine(n.m_x-btVector3(0,0,scl),n.m_x+btVector3(0,0,scl),btVector3(0,0,1));
+		}
+	}
+	/* Links	*/ 
+	if(0!=(drawflags&fDrawFlags::Links))
+	{
+		for(i=0;i<psb->m_links.size();++i)
+		{
+			const btSoftBody::Link&	l=psb->m_links[i];
+			if(0==(l.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			idraw->drawLine(l.m_n[0]->m_x,l.m_n[1]->m_x,lcolor);
+		}
+	}
+	/* Normals	*/ 
+	if(0!=(drawflags&fDrawFlags::Normals))
+	{
+		for(i=0;i<psb->m_nodes.size();++i)
+		{
+			const btSoftBody::Node&	n=psb->m_nodes[i];
+			if(0==(n.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			const btVector3			d=n.m_n*nscl;
+			idraw->drawLine(n.m_x,n.m_x+d,ncolor);
+			idraw->drawLine(n.m_x,n.m_x-d,ncolor*0.5);
+		}
+	}
+	/* Contacts	*/ 
+	if(0!=(drawflags&fDrawFlags::Contacts))
+	{
+		static const btVector3		axis[]={btVector3(1,0,0),
+			btVector3(0,1,0),
+			btVector3(0,0,1)};
+		for(i=0;i<psb->m_rcontacts.size();++i)
+		{		
+			const btSoftBody::RContact&	c=psb->m_rcontacts[i];
+			const btVector3				o=	c.m_node->m_x-c.m_cti.m_normal*
+				(btDot(c.m_node->m_x,c.m_cti.m_normal)+c.m_cti.m_offset);
+			const btVector3				x=btCross(c.m_cti.m_normal,axis[c.m_cti.m_normal.minAxis()]).normalized();
+			const btVector3				y=btCross(x,c.m_cti.m_normal).normalized();
+			idraw->drawLine(o-x*nscl,o+x*nscl,ccolor);
+			idraw->drawLine(o-y*nscl,o+y*nscl,ccolor);
+			idraw->drawLine(o,o+c.m_cti.m_normal*nscl*3,btVector3(1,1,0));
+		}
+	}
+	/* Anchors	*/ 
+	if(0!=(drawflags&fDrawFlags::Anchors))
+	{
+		for(i=0;i<psb->m_anchors.size();++i)
+		{
+			const btSoftBody::Anchor&	a=psb->m_anchors[i];
+			const btVector3				q=a.m_body->getWorldTransform()*a.m_local;
+			drawVertex(idraw,a.m_node->m_x,0.25,btVector3(1,0,0));
+			drawVertex(idraw,q,0.25,btVector3(0,1,0));
+			idraw->drawLine(a.m_node->m_x,q,btVector3(1,1,1));
+		}
+		for(i=0;i<psb->m_nodes.size();++i)
+		{
+			const btSoftBody::Node&	n=psb->m_nodes[i];		
+			if(0==(n.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			if(n.m_im<=0)
+			{
+				drawVertex(idraw,n.m_x,0.25,btVector3(1,0,0));
+			}
+		}
+	}
+	/* Faces	*/ 
+	if(0!=(drawflags&fDrawFlags::Faces))
+	{
+		const btScalar	scl=(btScalar)0.8;
+		const btScalar	alp=(btScalar)1;
+		const btVector3	col(0,(btScalar)0.7,0);
+		for(i=0;i<psb->m_faces.size();++i)
+		{
+			const btSoftBody::Face&	f=psb->m_faces[i];
+			if(0==(f.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			const btVector3			x[]={f.m_n[0]->m_x,f.m_n[1]->m_x,f.m_n[2]->m_x};
+			const btVector3			c=(x[0]+x[1]+x[2])/3;
+			idraw->drawTriangle((x[0]-c)*scl+c,
+				(x[1]-c)*scl+c,
+				(x[2]-c)*scl+c,
+				col,alp);
+		}	
+	}
+	/* Clusters	*/ 
+	if(0!=(drawflags&fDrawFlags::Clusters))
+	{
+		srand(1806);
+		for(i=0;i<psb->m_clusters.size();++i)
+		{
+			if(psb->m_clusters[i]->m_collide)
+			{
+				btVector3						color(	rand()/(btScalar)RAND_MAX,
+					rand()/(btScalar)RAND_MAX,
+					rand()/(btScalar)RAND_MAX);
+				color=color.normalized()*0.75;
+				btAlignedObjectArray<btVector3>	vertices;
+				vertices.resize(psb->m_clusters[i]->m_nodes.size());
+				for(j=0,nj=vertices.size();j<nj;++j)
+				{				
+					vertices[j]=psb->m_clusters[i]->m_nodes[j]->m_x;
+				}
+				HullDesc		hdsc(QF_TRIANGLES,vertices.size(),&vertices[0]);
+				HullResult		hres;
+				HullLibrary		hlib;
+				hdsc.mMaxVertices=vertices.size();
+				hlib.CreateConvexHull(hdsc,hres);
+				const btVector3	center=average(hres.m_OutputVertices);
+				add(hres.m_OutputVertices,-center);
+				mul(hres.m_OutputVertices,(btScalar)1);
+				add(hres.m_OutputVertices,center);
+				for(j=0;j<(int)hres.mNumFaces;++j)
+				{
+					const int idx[]={hres.m_Indices[j*3+0],hres.m_Indices[j*3+1],hres.m_Indices[j*3+2]};
+					idraw->drawTriangle(hres.m_OutputVertices[idx[0]],
+						hres.m_OutputVertices[idx[1]],
+						hres.m_OutputVertices[idx[2]],
+						color,1);
+				}
+				hlib.ReleaseResult(hres);
+			}
+			/* Velocities	*/ 
+#if 0
+			for(int j=0;j<psb->m_clusters[i].m_nodes.size();++j)
+			{
+				const btSoftBody::Cluster&	c=psb->m_clusters[i];
+				const btVector3				r=c.m_nodes[j]->m_x-c.m_com;
+				const btVector3				v=c.m_lv+btCross(c.m_av,r);
+				idraw->drawLine(c.m_nodes[j]->m_x,c.m_nodes[j]->m_x+v,btVector3(1,0,0));
+			}
+#endif
+			/* Frame		*/ 
+			btSoftBody::Cluster& c=*psb->m_clusters[i];
+			idraw->drawLine(c.m_com,c.m_framexform*btVector3(10,0,0),btVector3(1,0,0));
+			idraw->drawLine(c.m_com,c.m_framexform*btVector3(0,10,0),btVector3(0,1,0));
+			idraw->drawLine(c.m_com,c.m_framexform*btVector3(0,0,10),btVector3(0,0,1));
+		}
+	}
+
+	/* Tetras	*/ 
+	if(0!=(drawflags&fDrawFlags::Tetras))
+	{
+		const btScalar	scl=(btScalar)0.8;
+		const btScalar	alp=(btScalar)1;
+		const btVector3	col((btScalar)0.7,(btScalar)0.7,(btScalar)0.7);
+		for(int i=0;i<psb->m_tetras.size();++i)
+		{
+			const btSoftBody::Tetra&	t=psb->m_tetras[i];
+			if(0==(t.m_material->m_flags&btSoftBody::fMaterial::DebugDraw)) continue;
+			const btVector3				x[]={t.m_n[0]->m_x,t.m_n[1]->m_x,t.m_n[2]->m_x,t.m_n[3]->m_x};
+			const btVector3				c=(x[0]+x[1]+x[2]+x[3])/4;
+			idraw->drawTriangle((x[0]-c)*scl+c,(x[1]-c)*scl+c,(x[2]-c)*scl+c,col,alp);
+			idraw->drawTriangle((x[0]-c)*scl+c,(x[1]-c)*scl+c,(x[3]-c)*scl+c,col,alp);
+			idraw->drawTriangle((x[1]-c)*scl+c,(x[2]-c)*scl+c,(x[3]-c)*scl+c,col,alp);
+			idraw->drawTriangle((x[2]-c)*scl+c,(x[0]-c)*scl+c,(x[3]-c)*scl+c,col,alp);
+		}	
+	}
+
+	/* Notes	*/ 
+	if(0!=(drawflags&fDrawFlags::Notes))
+	{
+		for(i=0;i<psb->m_notes.size();++i)
+		{
+			const btSoftBody::Note&	n=psb->m_notes[i];
+			btVector3				p=n.m_offset;
+			for(int j=0;j<n.m_rank;++j)
+			{
+				p+=n.m_nodes[j]->m_x*n.m_coords[j];
+			}
+			idraw->draw3dText(p,n.m_text);
+		}
+	}
+	/* Node tree	*/ 
+	if(0!=(drawflags&fDrawFlags::NodeTree))		DrawNodeTree(psb,idraw);
+	/* Face tree	*/ 
+	if(0!=(drawflags&fDrawFlags::FaceTree))		DrawFaceTree(psb,idraw);
+	/* Cluster tree	*/ 
+	if(0!=(drawflags&fDrawFlags::ClusterTree))	DrawClusterTree(psb,idraw);
+	/* Joints		*/ 
+	if(0!=(drawflags&fDrawFlags::Joints))
+	{
+		for(i=0;i<psb->m_joints.size();++i)
+		{
+			const btSoftBody::Joint*	pj=psb->m_joints[i];
+			switch(pj->Type())
+			{
+			case	btSoftBody::Joint::eType::Linear:
+				{
+					const btSoftBody::LJoint*	pjl=(const btSoftBody::LJoint*)pj;
+					const btVector3	a0=pj->m_bodies[0].xform()*pjl->m_refs[0];
+					const btVector3	a1=pj->m_bodies[1].xform()*pjl->m_refs[1];
+					idraw->drawLine(pj->m_bodies[0].xform().getOrigin(),a0,btVector3(1,1,0));
+					idraw->drawLine(pj->m_bodies[1].xform().getOrigin(),a1,btVector3(0,1,1));
+					drawVertex(idraw,a0,0.25,btVector3(1,1,0));
+					drawVertex(idraw,a1,0.25,btVector3(0,1,1));
+				}
+				break;
+			case	btSoftBody::Joint::eType::Angular:
+				{
+					//const btSoftBody::AJoint*	pja=(const btSoftBody::AJoint*)pj;
+					const btVector3	o0=pj->m_bodies[0].xform().getOrigin();
+					const btVector3	o1=pj->m_bodies[1].xform().getOrigin();
+					const btVector3	a0=pj->m_bodies[0].xform().getBasis()*pj->m_refs[0];
+					const btVector3	a1=pj->m_bodies[1].xform().getBasis()*pj->m_refs[1];
+					idraw->drawLine(o0,o0+a0*10,btVector3(1,1,0));
+					idraw->drawLine(o0,o0+a1*10,btVector3(1,1,0));
+					idraw->drawLine(o1,o1+a0*10,btVector3(0,1,1));
+					idraw->drawLine(o1,o1+a1*10,btVector3(0,1,1));
+					break;
+				}
+				default:
+				{
+				}
+					
+			}		
+		}
+	}
+}
+
+//
+void			btSoftBodyHelpers::DrawInfos(		btSoftBody* psb,
+											 btIDebugDraw* idraw,
+											 bool masses,
+											 bool areas,
+											 bool /*stress*/)
+{
+	for(int i=0;i<psb->m_nodes.size();++i)
+	{
+		const btSoftBody::Node&	n=psb->m_nodes[i];
+		char					text[2048]={0};
+		char					buff[1024];
+		if(masses)
+		{
+			sprintf(buff," M(%.2f)",1/n.m_im);
+			strcat(text,buff);
+		}
+		if(areas)
+		{
+			sprintf(buff," A(%.2f)",n.m_area);
+			strcat(text,buff);
+		}
+		if(text[0]) idraw->draw3dText(n.m_x,text);
+	}
+}
+
+//
+void			btSoftBodyHelpers::DrawNodeTree(	btSoftBody* psb,
+												btIDebugDraw* idraw,
+												int mindepth,
+												int maxdepth)
+{
+	drawTree(idraw,psb->m_ndbvt.m_root,0,btVector3(1,0,1),btVector3(1,1,1),mindepth,maxdepth);
+}
+
+//
+void			btSoftBodyHelpers::DrawFaceTree(	btSoftBody* psb,
+												btIDebugDraw* idraw,
+												int mindepth,
+												int maxdepth)
+{
+	drawTree(idraw,psb->m_fdbvt.m_root,0,btVector3(0,1,0),btVector3(1,0,0),mindepth,maxdepth);
+}
+
+//
+void			btSoftBodyHelpers::DrawClusterTree(	btSoftBody* psb,
+												   btIDebugDraw* idraw,
+												   int mindepth,
+												   int maxdepth)
+{
+	drawTree(idraw,psb->m_cdbvt.m_root,0,btVector3(0,1,1),btVector3(1,0,0),mindepth,maxdepth);
+}
+
+//
+void			btSoftBodyHelpers::DrawFrame(		btSoftBody* psb,
+											 btIDebugDraw* idraw)
+{
+	if(psb->m_pose.m_bframe)
+	{
+		static const btScalar	ascl=10;
+		static const btScalar	nscl=(btScalar)0.1;
+		const btVector3			com=psb->m_pose.m_com;
+		const btMatrix3x3		trs=psb->m_pose.m_rot*psb->m_pose.m_scl;
+		const btVector3			Xaxis=(trs*btVector3(1,0,0)).normalized();
+		const btVector3			Yaxis=(trs*btVector3(0,1,0)).normalized();
+		const btVector3			Zaxis=(trs*btVector3(0,0,1)).normalized();
+		idraw->drawLine(com,com+Xaxis*ascl,btVector3(1,0,0));
+		idraw->drawLine(com,com+Yaxis*ascl,btVector3(0,1,0));
+		idraw->drawLine(com,com+Zaxis*ascl,btVector3(0,0,1));
+		for(int i=0;i<psb->m_pose.m_pos.size();++i)
+		{
+			const btVector3	x=com+trs*psb->m_pose.m_pos[i];
+			drawVertex(idraw,x,nscl,btVector3(1,0,1));
+		}
+	}
+}
+
+//
+btSoftBody*		btSoftBodyHelpers::CreateRope(	btSoftBodyWorldInfo& worldInfo, const btVector3& from,
+											  const btVector3& to,
+											  int res,
+											  int fixeds)
+{
+	/* Create nodes	*/ 
+	const int		r=res+2;
+	btVector3*		x=new btVector3[r];
+	btScalar*		m=new btScalar[r];
+	int i;
+
+	for(i=0;i<r;++i)
+	{
+		const btScalar	t=i/(btScalar)(r-1);
+		x[i]=lerp(from,to,t);
+		m[i]=1;
+	}
+	btSoftBody*		psb= new btSoftBody(&worldInfo,r,x,m);
+	if(fixeds&1) psb->setMass(0,0);
+	if(fixeds&2) psb->setMass(r-1,0);
+	delete[] x;
+	delete[] m;
+	/* Create links	*/ 
+	for(i=1;i<r;++i)
+	{
+		psb->appendLink(i-1,i);
+	}
+	/* Finished		*/ 
+	return(psb);
+}
+
+//
+btSoftBody*		btSoftBodyHelpers::CreatePatch(btSoftBodyWorldInfo& worldInfo,const btVector3& corner00,
+											   const btVector3& corner10,
+											   const btVector3& corner01,
+											   const btVector3& corner11,
+											   int resx,
+											   int resy,
+											   int fixeds,
+											   bool gendiags)
+{
+#define IDX(_x_,_y_)	((_y_)*rx+(_x_))
+	/* Create nodes	*/ 
+	if((resx<2)||(resy<2)) return(0);
+	const int	rx=resx;
+	const int	ry=resy;
+	const int	tot=rx*ry;
+	btVector3*	x=new btVector3[tot];
+	btScalar*	m=new btScalar[tot];
+	int iy;
+
+	for(iy=0;iy<ry;++iy)
+	{
+		const btScalar	ty=iy/(btScalar)(ry-1);
+		const btVector3	py0=lerp(corner00,corner01,ty);
+		const btVector3	py1=lerp(corner10,corner11,ty);
+		for(int ix=0;ix<rx;++ix)
+		{
+			const btScalar	tx=ix/(btScalar)(rx-1);
+			x[IDX(ix,iy)]=lerp(py0,py1,tx);
+			m[IDX(ix,iy)]=1;
+		}
+	}
+	btSoftBody*		psb=new btSoftBody(&worldInfo,tot,x,m);
+	if(fixeds&1)	psb->setMass(IDX(0,0),0);
+	if(fixeds&2)	psb->setMass(IDX(rx-1,0),0);
+	if(fixeds&4)	psb->setMass(IDX(0,ry-1),0);
+	if(fixeds&8)	psb->setMass(IDX(rx-1,ry-1),0);
+	delete[] x;
+	delete[] m;
+	/* Create links	and faces */ 
+	for(iy=0;iy<ry;++iy)
+	{
+		for(int ix=0;ix<rx;++ix)
+		{
+			const int	idx=IDX(ix,iy);
+			const bool	mdx=(ix+1)<rx;
+			const bool	mdy=(iy+1)<ry;
+			if(mdx) psb->appendLink(idx,IDX(ix+1,iy));
+			if(mdy) psb->appendLink(idx,IDX(ix,iy+1));
+			if(mdx&&mdy)
+			{
+				if((ix+iy)&1)
+				{
+					psb->appendFace(IDX(ix,iy),IDX(ix+1,iy),IDX(ix+1,iy+1));
+					psb->appendFace(IDX(ix,iy),IDX(ix+1,iy+1),IDX(ix,iy+1));
+					if(gendiags)
+					{
+						psb->appendLink(IDX(ix,iy),IDX(ix+1,iy+1));
+					}
+				}
+				else
+				{
+					psb->appendFace(IDX(ix,iy+1),IDX(ix,iy),IDX(ix+1,iy));
+					psb->appendFace(IDX(ix,iy+1),IDX(ix+1,iy),IDX(ix+1,iy+1));
+					if(gendiags)
+					{
+						psb->appendLink(IDX(ix+1,iy),IDX(ix,iy+1));
+					}
+				}
+			}
+		}
+	}
+	/* Finished		*/ 
+#undef IDX
+	return(psb);
+}
+
+//
+btSoftBody*		btSoftBodyHelpers::CreatePatchUV(btSoftBodyWorldInfo& worldInfo,
+												 const btVector3& corner00,
+												 const btVector3& corner10,
+												 const btVector3& corner01,
+												 const btVector3& corner11,
+												 int resx,
+												 int resy,
+												 int fixeds,
+												 bool gendiags,
+												 float* tex_coords)
+{
+
+	/*
+	*
+	*  corners:
+	*
+	*  [0][0]     corner00 ------- corner01   [resx][0]
+	*                |                |
+	*                |                |
+	*  [0][resy]  corner10 -------- corner11  [resx][resy]
+	*
+	*
+	*
+	*
+	*
+	*
+	*   "fixedgs" map:
+	*
+	*  corner00     -->   +1
+	*  corner01     -->   +2
+	*  corner10     -->   +4
+	*  corner11     -->   +8
+	*  upper middle -->  +16
+	*  left middle  -->  +32
+	*  right middle -->  +64
+	*  lower middle --> +128
+	*  center       --> +256
+	*
+	*
+	*   tex_coords size   (resx-1)*(resy-1)*12
+	*
+	*
+	*
+	*     SINGLE QUAD INTERNALS
+	*
+	*  1) btSoftBody's nodes and links,
+	*     diagonal link is optional ("gendiags")
+	*
+	*
+	*    node00 ------ node01
+	*      | .              
+	*      |   .            
+	*      |     .          
+	*      |       .        
+	*      |         .      
+	*    node10        node11
+	*
+	*
+	*
+	*   2) Faces:
+	*      two triangles,
+	*      UV Coordinates (hier example for single quad)
+	*      
+	*     (0,1)          (0,1)  (1,1)
+	*     1 |\            3 \-----| 2
+	*       | \              \    |
+	*       |  \              \   |
+	*       |   \              \  |
+	*       |    \              \ |
+	*     2 |-----\ 3            \| 1
+	*     (0,0)    (1,0)       (1,0)
+	*
+	*
+	*
+	*
+	*
+	*
+	*/
+
+#define IDX(_x_,_y_)	((_y_)*rx+(_x_))
+	/* Create nodes		*/ 
+	if((resx<2)||(resy<2)) return(0);
+	const int	rx=resx;
+	const int	ry=resy;
+	const int	tot=rx*ry;
+	btVector3*	x=new btVector3[tot];
+	btScalar*	m=new btScalar[tot];
+
+	int iy;
+
+	for(iy=0;iy<ry;++iy)
+	{
+		const btScalar	ty=iy/(btScalar)(ry-1);
+		const btVector3	py0=lerp(corner00,corner01,ty);
+		const btVector3	py1=lerp(corner10,corner11,ty);
+		for(int ix=0;ix<rx;++ix)
+		{
+			const btScalar	tx=ix/(btScalar)(rx-1);
+			x[IDX(ix,iy)]=lerp(py0,py1,tx);
+			m[IDX(ix,iy)]=1;
+		}
+	}
+	btSoftBody*	psb=new btSoftBody(&worldInfo,tot,x,m);
+	if(fixeds&1)		psb->setMass(IDX(0,0),0);
+	if(fixeds&2)		psb->setMass(IDX(rx-1,0),0);
+	if(fixeds&4)		psb->setMass(IDX(0,ry-1),0);
+	if(fixeds&8)		psb->setMass(IDX(rx-1,ry-1),0);
+	if(fixeds&16)		psb->setMass(IDX((rx-1)/2,0),0);
+	if(fixeds&32)		psb->setMass(IDX(0,(ry-1)/2),0);
+	if(fixeds&64)		psb->setMass(IDX(rx-1,(ry-1)/2),0);
+	if(fixeds&128)		psb->setMass(IDX((rx-1)/2,ry-1),0);
+	if(fixeds&256)		psb->setMass(IDX((rx-1)/2,(ry-1)/2),0);
+	delete[] x;
+	delete[] m;
+
+
+	int z = 0;
+	/* Create links	and faces	*/ 
+	for(iy=0;iy<ry;++iy)
+	{
+		for(int ix=0;ix<rx;++ix)
+		{
+			const bool	mdx=(ix+1)<rx;
+			const bool	mdy=(iy+1)<ry;
+
+			int node00=IDX(ix,iy);
+			int node01=IDX(ix+1,iy);
+			int node10=IDX(ix,iy+1);
+			int node11=IDX(ix+1,iy+1);
+
+			if(mdx) psb->appendLink(node00,node01);
+			if(mdy) psb->appendLink(node00,node10);
+			if(mdx&&mdy)
+			{
+				psb->appendFace(node00,node10,node11);
+				if (tex_coords) {
+					tex_coords[z+0]=CalculateUV(resx,resy,ix,iy,0);
+					tex_coords[z+1]=CalculateUV(resx,resy,ix,iy,1);
+					tex_coords[z+2]=CalculateUV(resx,resy,ix,iy,0);
+					tex_coords[z+3]=CalculateUV(resx,resy,ix,iy,2);
+					tex_coords[z+4]=CalculateUV(resx,resy,ix,iy,3);
+					tex_coords[z+5]=CalculateUV(resx,resy,ix,iy,2);
+				}
+				psb->appendFace(node11,node01,node00);
+				if (tex_coords) {
+					tex_coords[z+6 ]=CalculateUV(resx,resy,ix,iy,3);
+					tex_coords[z+7 ]=CalculateUV(resx,resy,ix,iy,2);
+					tex_coords[z+8 ]=CalculateUV(resx,resy,ix,iy,3);
+					tex_coords[z+9 ]=CalculateUV(resx,resy,ix,iy,1);
+					tex_coords[z+10]=CalculateUV(resx,resy,ix,iy,0);
+					tex_coords[z+11]=CalculateUV(resx,resy,ix,iy,1);
+				}
+				if (gendiags) psb->appendLink(node00,node11);
+				z += 12;
+			}
+		}
+	}
+	/* Finished	*/ 
+#undef IDX
+	return(psb);
+}
+
+float   btSoftBodyHelpers::CalculateUV(int resx,int resy,int ix,int iy,int id)
+{
+
+	/*
+	*
+	*
+	*    node00 --- node01
+	*      |          |
+	*    node10 --- node11
+	*
+	*
+	*   ID map:
+	*
+	*   node00 s --> 0
+	*   node00 t --> 1
+	*
+	*   node01 s --> 3
+	*   node01 t --> 1
+	*
+	*   node10 s --> 0
+	*   node10 t --> 2
+	*
+	*   node11 s --> 3
+	*   node11 t --> 2
+	*
+	*
+	*/
+
+	float tc=0.0f;
+	if (id == 0) {
+		tc = (1.0f/((resx-1))*ix);
+	}
+	else if (id==1) {
+		tc = (1.0f/((resy-1))*(resy-1-iy));
+	}
+	else if (id==2) {
+		tc = (1.0f/((resy-1))*(resy-1-iy-1));
+	}
+	else if (id==3) {
+		tc = (1.0f/((resx-1))*(ix+1));
+	}
+	return tc;
+}
+//
+btSoftBody*		btSoftBodyHelpers::CreateEllipsoid(btSoftBodyWorldInfo& worldInfo,const btVector3& center,
+												   const btVector3& radius,
+												   int res)
+{
+	struct	Hammersley
+	{
+		static void	Generate(btVector3* x,int n)
+		{
+			for(int i=0;i<n;i++)
+			{
+				btScalar	p=0.5,t=0;
+				for(int j=i;j;p*=0.5,j>>=1) if(j&1) t+=p;
+				btScalar	w=2*t-1;
+				btScalar	a=(SIMD_PI+2*i*SIMD_PI)/n;
+				btScalar	s=btSqrt(1-w*w);
+				*x++=btVector3(s*btCos(a),s*btSin(a),w);
+			}
+		}
+	};
+	btAlignedObjectArray<btVector3>	vtx;
+	vtx.resize(3+res);
+	Hammersley::Generate(&vtx[0],vtx.size());
+	for(int i=0;i<vtx.size();++i)
+	{
+		vtx[i]=vtx[i]*radius+center;
+	}
+	return(CreateFromConvexHull(worldInfo,&vtx[0],vtx.size()));
+}
+
+
+
+//
+btSoftBody*		btSoftBodyHelpers::CreateFromTriMesh(btSoftBodyWorldInfo& worldInfo,const btScalar*	vertices,
+													 const int* triangles,
+													 int ntriangles, bool randomizeConstraints)
+{
+	int		maxidx=0;
+	int i,j,ni;
+
+	for(i=0,ni=ntriangles*3;i<ni;++i)
+	{
+		maxidx=btMax(triangles[i],maxidx);
+	}
+	++maxidx;
+	btAlignedObjectArray<bool>		chks;
+	btAlignedObjectArray<btVector3>	vtx;
+	chks.resize(maxidx*maxidx,false);
+	vtx.resize(maxidx);
+	for(i=0,j=0,ni=maxidx*3;i<ni;++j,i+=3)
+	{
+		vtx[j]=btVector3(vertices[i],vertices[i+1],vertices[i+2]);
+	}
+	btSoftBody*		psb=new btSoftBody(&worldInfo,vtx.size(),&vtx[0],0);
+	for( i=0,ni=ntriangles*3;i<ni;i+=3)
+	{
+		const int idx[]={triangles[i],triangles[i+1],triangles[i+2]};
+#define IDX(_x_,_y_) ((_y_)*maxidx+(_x_))
+		for(int j=2,k=0;k<3;j=k++)
+		{
+			if(!chks[IDX(idx[j],idx[k])])
+			{
+				chks[IDX(idx[j],idx[k])]=true;
+				chks[IDX(idx[k],idx[j])]=true;
+				psb->appendLink(idx[j],idx[k]);
+			}
+		}
+#undef IDX
+		psb->appendFace(idx[0],idx[1],idx[2]);
+	}
+
+	if (randomizeConstraints)
+	{
+		psb->randomizeConstraints();
+	}
+
+	return(psb);
+}
+
+//
+btSoftBody*		btSoftBodyHelpers::CreateFromConvexHull(btSoftBodyWorldInfo& worldInfo,	const btVector3* vertices,
+														int nvertices, bool randomizeConstraints)
+{
+	HullDesc		hdsc(QF_TRIANGLES,nvertices,vertices);
+	HullResult		hres;
+	HullLibrary		hlib;/*??*/ 
+	hdsc.mMaxVertices=nvertices;
+	hlib.CreateConvexHull(hdsc,hres);
+	btSoftBody*		psb=new btSoftBody(&worldInfo,(int)hres.mNumOutputVertices,
+		&hres.m_OutputVertices[0],0);
+	for(int i=0;i<(int)hres.mNumFaces;++i)
+	{
+		const int idx[]={	hres.m_Indices[i*3+0],
+			hres.m_Indices[i*3+1],
+			hres.m_Indices[i*3+2]};
+		if(idx[0]<idx[1]) psb->appendLink(	idx[0],idx[1]);
+		if(idx[1]<idx[2]) psb->appendLink(	idx[1],idx[2]);
+		if(idx[2]<idx[0]) psb->appendLink(	idx[2],idx[0]);
+		psb->appendFace(idx[0],idx[1],idx[2]);
+	}
+	hlib.ReleaseResult(hres);
+	if (randomizeConstraints)
+	{
+		psb->randomizeConstraints();
+	}
+	return(psb);
+}
+
+
+
+
+static int nextLine(const char* buffer)
+{
+	int numBytesRead=0;
+
+	while (*buffer != '\n')
+	{
+		buffer++;
+		numBytesRead++;
+	}
+
+	
+	if (buffer[0]==0x0a)
+	{
+		buffer++;
+		numBytesRead++;
+	}
+	return numBytesRead;
+}
+
+/* Create from TetGen .ele, .face, .node data							*/ 
+btSoftBody*	btSoftBodyHelpers::CreateFromTetGenData(btSoftBodyWorldInfo& worldInfo,
+													const char* ele,
+													const char* face,
+													const char* node,
+													bool bfacelinks,
+													bool btetralinks,
+													bool bfacesfromtetras)
+{
+btAlignedObjectArray<btVector3>	pos;
+int								nnode=0;
+int								ndims=0;
+int								nattrb=0;
+int								hasbounds=0;
+int result = sscanf(node,"%d %d %d %d",&nnode,&ndims,&nattrb,&hasbounds);
+result = sscanf(node,"%d %d %d %d",&nnode,&ndims,&nattrb,&hasbounds);
+node += nextLine(node);
+
+pos.resize(nnode);
+for(int i=0;i<pos.size();++i)
+	{
+	int			index=0;
+	//int			bound=0;
+	float	x,y,z;
+	sscanf(node,"%d %f %f %f",&index,&x,&y,&z);
+
+//	sn>>index;
+//	sn>>x;sn>>y;sn>>z;
+	node += nextLine(node);
+
+	//for(int j=0;j<nattrb;++j) 
+	//	sn>>a;
+
+	//if(hasbounds) 
+	//	sn>>bound;
+
+	pos[index].setX(btScalar(x));
+	pos[index].setY(btScalar(y));
+	pos[index].setZ(btScalar(z));
+	}
+btSoftBody*						psb=new btSoftBody(&worldInfo,nnode,&pos[0],0);
+#if 0
+if(face&&face[0])
+	{
+	int								nface=0;
+	sf>>nface;sf>>hasbounds;
+	for(int i=0;i<nface;++i)
+		{
+		int			index=0;
+		int			bound=0;
+		int			ni[3];
+		sf>>index;
+		sf>>ni[0];sf>>ni[1];sf>>ni[2];
+		sf>>bound;
+		psb->appendFace(ni[0],ni[1],ni[2]);	
+		if(btetralinks)
+			{
+			psb->appendLink(ni[0],ni[1],0,true);
+			psb->appendLink(ni[1],ni[2],0,true);
+			psb->appendLink(ni[2],ni[0],0,true);
+			}
+		}
+	}
+#endif
+
+if(ele&&ele[0])
+	{
+	int								ntetra=0;
+	int								ncorner=0;
+	int								neattrb=0;
+	sscanf(ele,"%d %d %d",&ntetra,&ncorner,&neattrb);
+	ele += nextLine(ele);
+	
+	//se>>ntetra;se>>ncorner;se>>neattrb;
+	for(int i=0;i<ntetra;++i)
+		{
+		int			index=0;
+		int			ni[4];
+
+		//se>>index;
+		//se>>ni[0];se>>ni[1];se>>ni[2];se>>ni[3];
+		sscanf(ele,"%d %d %d %d %d",&index,&ni[0],&ni[1],&ni[2],&ni[3]);
+		ele+=nextLine(ele);
+		//for(int j=0;j<neattrb;++j) 
+		//	se>>a;
+		psb->appendTetra(ni[0],ni[1],ni[2],ni[3]);
+		if(btetralinks)
+			{
+			psb->appendLink(ni[0],ni[1],0,true);
+			psb->appendLink(ni[1],ni[2],0,true);
+			psb->appendLink(ni[2],ni[0],0,true);
+			psb->appendLink(ni[0],ni[3],0,true);
+			psb->appendLink(ni[1],ni[3],0,true);
+			psb->appendLink(ni[2],ni[3],0,true);
+			}
+		}
+	}
+printf("Nodes:  %u\r\n",psb->m_nodes.size());
+printf("Links:  %u\r\n",psb->m_links.size());
+printf("Faces:  %u\r\n",psb->m_faces.size());
+printf("Tetras: %u\r\n",psb->m_tetras.size());
+return(psb);
+}
+