1 files changed, 0 insertions, 1497 deletions

diff --git a/libraries/ode-0.9/ode/src/collision_trimesh_box.cpp b/libraries/ode-0.9/ode/src/collision_trimesh_box.cpp
deleted file mode 100644
index 0194d02..0000000
--- a/libraries/ode-0.9/ode/src/collision_trimesh_box.cpp
+++ /dev/null
@@ -1,1497 +0,0 @@
-/*************************************************************************
- *                                                                       *
- * Open Dynamics Engine, Copyright (C) 2001-2003 Russell L. Smith.       *
- * All rights reserved.  Email: russ@q12.org   Web: www.q12.org          *
- *                                                                       *
- * This library is free software; you can redistribute it and/or         *
- * modify it under the terms of EITHER:                                  *
- *   (1) The GNU Lesser General Public License as published by the Free  *
- *       Software Foundation; either version 2.1 of the License, or (at  *
- *       your option) any later version. The text of the GNU Lesser      *
- *       General Public License is included with this library in the     *
- *       file LICENSE.TXT.                                               *
- *   (2) The BSD-style license that is included with this library in     *
- *       the file LICENSE-BSD.TXT.                                       *
- *                                                                       *
- * This library is distributed in the hope that it will be useful,       *
- * but WITHOUT ANY WARRANTY; without even the implied warranty of        *
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the files    *
- * LICENSE.TXT and LICENSE-BSD.TXT for more details.                     *
- *                                                                       *
- *************************************************************************/
-
-
-/*************************************************************************
- *                                                                       *
- * Triangle-box collider by Alen Ladavac and Vedran Klanac.              *
- * Ported to ODE by Oskari Nyman.                                        *
- *                                                                       *
- *************************************************************************/
-
-
-#include <ode/collision.h>
-#include <ode/matrix.h>
-#include <ode/rotation.h>
-#include <ode/odemath.h>
-#include "collision_util.h"
-
-#define TRIMESH_INTERNAL
-#include "collision_trimesh_internal.h"
-
-#if dTRIMESH_ENABLED
-
-
-static void
-GenerateContact(int in_Flags, dContactGeom* in_Contacts, int in_Stride,
-                dxGeom* in_g1,  dxGeom* in_g2,
-                const dVector3 in_ContactPos, const dVector3 in_Normal, dReal in_Depth,
-                int& OutTriCount);
-
-
-// largest number, double or float
-#if defined(dSINGLE)
-  #define MAXVALUE FLT_MAX
-#else
-  #define MAXVALUE DBL_MAX
-#endif
-
-
-// dVector3
-// r=a-b
-#define SUBTRACT(a,b,r) do{ \
-  (r)[0]=(a)[0] - (b)[0]; \
-  (r)[1]=(a)[1] - (b)[1]; \
-  (r)[2]=(a)[2] - (b)[2]; }while(0)
-
-
-// dVector3
-// a=b
-#define SET(a,b) do{ \
-  (a)[0]=(b)[0]; \
-  (a)[1]=(b)[1]; \
-  (a)[2]=(b)[2]; }while(0)
-
-
-// dMatrix3
-// a=b
-#define SETM(a,b) do{ \
-  (a)[0]=(b)[0]; \
-  (a)[1]=(b)[1]; \
-  (a)[2]=(b)[2]; \
-  (a)[3]=(b)[3]; \
-  (a)[4]=(b)[4]; \
-  (a)[5]=(b)[5]; \
-  (a)[6]=(b)[6]; \
-  (a)[7]=(b)[7]; \
-  (a)[8]=(b)[8]; \
-  (a)[9]=(b)[9]; \
-  (a)[10]=(b)[10]; \
-                     (a)[11]=(b)[11]; }while(0)
-
-
-// dVector3
-// r=a+b
-#define ADD(a,b,r) do{ \
-  (r)[0]=(a)[0] + (b)[0]; \
-  (r)[1]=(a)[1] + (b)[1]; \
-  (r)[2]=(a)[2] + (b)[2]; }while(0)
-
-
-// dMatrix3, int, dVector3
-// v=column a from m
-#define GETCOL(m,a,v) do{ \
-  (v)[0]=(m)[(a)+0]; \
-  (v)[1]=(m)[(a)+4]; \
-  (v)[2]=(m)[(a)+8]; }while(0)
-
-
-// dVector4, dVector3
-// distance between plane p and point v
-#define POINTDISTANCE(p,v) \
-  ( p[0]*v[0] + p[1]*v[1] + p[2]*v[2] + p[3] )
-
-
-// dVector4, dVector3, dReal
-// construct plane from normal and d
-#define CONSTRUCTPLANE(plane,normal,d) do{ \
-  plane[0]=normal[0];\
-  plane[1]=normal[1];\
-  plane[2]=normal[2];\
-  plane[3]=d; }while(0)
-
-
-// dVector3
-// length of vector a
-#define LENGTHOF(a) \
-  dSqrt(a[0]*a[0]+a[1]*a[1]+a[2]*a[2])
-
-
-// box data
-static dMatrix3 mHullBoxRot;
-static dVector3 vHullBoxPos;
-static dVector3 vBoxHalfSize;
-
-// mesh data
-static dVector3   vHullDstPos;
-
-// global collider data
-static dVector3 vBestNormal;
-static dReal    fBestDepth;
-static int    iBestAxis = 0;
-static int    iExitAxis = 0;
-static dVector3 vE0, vE1, vE2, vN;
-
-// global info for contact creation
-static int iFlags;
-static dContactGeom *ContactGeoms;
-static int iStride;
-static dxGeom *Geom1;
-static dxGeom *Geom2;
-static int ctContacts = 0;
-
-
-
-// Test normal of mesh face as separating axis for intersection
-static bool _cldTestNormal( dReal fp0, dReal fR, dVector3 vNormal, int iAxis )
-{
-  // calculate overlapping interval of box and triangle
-  dReal fDepth = fR+fp0;
-
-  // if we do not overlap
-  if ( fDepth<0 ) {
-    // do nothing
-    return false;
-  }
-
-  // calculate normal's length
-  dReal fLength = LENGTHOF(vNormal);
-  // if long enough
-  if ( fLength > 0.0f ) {
-
-    dReal fOneOverLength = 1.0f/fLength;
-    // normalize depth
-    fDepth = fDepth*fOneOverLength;
-
-    // get minimum depth
-    if (fDepth<fBestDepth) {
-      vBestNormal[0] = -vNormal[0]*fOneOverLength;
-      vBestNormal[1] = -vNormal[1]*fOneOverLength;
-      vBestNormal[2] = -vNormal[2]*fOneOverLength;
-      iBestAxis = iAxis;
-      //dAASSERT(fDepth>=0);
-      fBestDepth = fDepth;
-    }
-
-  }
-
-  return true;
-}
-
-
-
-
-// Test box axis as separating axis
-static bool _cldTestFace( dReal fp0, dReal fp1, dReal fp2, dReal fR, dReal fD,
-                          dVector3 vNormal, int iAxis )
-{
-  dReal fMin, fMax;
-
-  // find min of triangle interval
-  if ( fp0 < fp1 ) {
-    if ( fp0 < fp2 ) {
-      fMin = fp0;
-    } else {
-      fMin = fp2;
-    }
-  } else {
-    if( fp1 < fp2 ) {
-      fMin = fp1;
-    } else {
-      fMin = fp2;
-    }
-  }
-
-  // find max of triangle interval
-  if ( fp0 > fp1 ) {
-    if ( fp0 > fp2 ) {
-      fMax = fp0;
-    } else {
-      fMax = fp2;
-    }
-  } else {
-    if( fp1 > fp2 ) {
-      fMax = fp1;
-    } else {
-      fMax = fp2;
-    }
-  }
-
-  // calculate minimum and maximum depth
-  dReal fDepthMin = fR - fMin;
-  dReal fDepthMax = fMax + fR;
-
-  // if we dont't have overlapping interval
-  if ( fDepthMin < 0 || fDepthMax < 0 ) {
-    // do nothing
-    return false;
-  }
-
-  dReal fDepth = 0;
-
-  // if greater depth is on negative side
-  if ( fDepthMin > fDepthMax ) {
-    // use smaller depth (one from positive side)
-    fDepth = fDepthMax;
-    // flip normal direction
-    vNormal[0] = -vNormal[0];
-    vNormal[1] = -vNormal[1];
-    vNormal[2] = -vNormal[2];
-    fD = -fD;
-  // if greater depth is on positive side
-  } else {
-    // use smaller depth (one from negative side)
-    fDepth = fDepthMin;
-  }
-
-
-  // if lower depth than best found so far
-  if (fDepth<fBestDepth) {
-    // remember current axis as best axis
-    vBestNormal[0]  = vNormal[0];
-    vBestNormal[1]  = vNormal[1];
-    vBestNormal[2]  = vNormal[2];
-    iBestAxis    = iAxis;
-    //dAASSERT(fDepth>=0);
-    fBestDepth   = fDepth;
-  }
-
-  return true;
-}
-
-
-
-
-
-// Test cross products of box axis and triangle edges as separating axis
-static bool _cldTestEdge( dReal fp0, dReal fp1, dReal fR, dReal fD,
-                          dVector3 vNormal, int iAxis )
-{
-  dReal fMin, fMax;
-
-
-  // ===== Begin Patch by Francisco Leon, 2006/10/28 =====
-
-  // Fixed Null Normal. This prevents boxes passing
-  // through trimeshes at certain contact angles
-
-  fMin = vNormal[0] * vNormal[0] +
-                 vNormal[1] * vNormal[1] +
-                 vNormal[2] * vNormal[2];
-
-  if ( fMin <= dEpsilon ) /// THIS NORMAL WOULD BE DANGEROUS
-          return true;
-
-  // ===== Ending Patch by Francisco Leon =====
-
-
-  // calculate min and max interval values
-  if ( fp0 < fp1 ) {
-    fMin = fp0;
-    fMax = fp1;
-  } else {
-    fMin = fp1;
-    fMax = fp0;
-  }
-
-  // check if we overlapp
-  dReal fDepthMin = fR - fMin;
-  dReal fDepthMax = fMax + fR;
-
-  // if we don't overlapp
-  if ( fDepthMin < 0 || fDepthMax < 0 ) {
-    // do nothing
-    return false;
-  }
-
-  dReal fDepth;
-
-
-  // if greater depth is on negative side
-  if ( fDepthMin > fDepthMax ) {
-    // use smaller depth (one from positive side)
-    fDepth = fDepthMax;
-    // flip normal direction
-    vNormal[0] = -vNormal[0];
-    vNormal[1] = -vNormal[1];
-    vNormal[2] = -vNormal[2];
-    fD = -fD;
-  // if greater depth is on positive side
-  } else {
-    // use smaller depth (one from negative side)
-    fDepth = fDepthMin;
-  }
-
-  // calculate normal's length
-  dReal fLength = LENGTHOF(vNormal);
-
-  // if long enough
-  if ( fLength > 0.0f ) {
-
-    // normalize depth
-    dReal fOneOverLength = 1.0f/fLength;
-    fDepth = fDepth*fOneOverLength;
-    fD*=fOneOverLength;
-
-
-    // if lower depth than best found so far (favor face over edges)
-    if (fDepth*1.5f<fBestDepth) {
-      // remember current axis as best axis
-      vBestNormal[0]  = vNormal[0]*fOneOverLength;
-      vBestNormal[1]  = vNormal[1]*fOneOverLength;
-      vBestNormal[2]  = vNormal[2]*fOneOverLength;
-      iBestAxis    = iAxis;
-      //dAASSERT(fDepth>=0);
-      fBestDepth   = fDepth;
-    }
-  }
-
-  return true;
-}
-
-
-
-
-
-// clip polygon with plane and generate new polygon points
-static void _cldClipPolyToPlane( dVector3 avArrayIn[], int ctIn,
-                      dVector3 avArrayOut[], int &ctOut,
-                      const dVector4 &plPlane )
-{
-  // start with no output points
-  ctOut = 0;
-
-  int i0 = ctIn-1;
-
-  // for each edge in input polygon
-  for (int i1=0; i1<ctIn; i0=i1, i1++) {
-
-
-    // calculate distance of edge points to plane
-    dReal fDistance0 = POINTDISTANCE( plPlane ,avArrayIn[i0] );
-    dReal fDistance1 = POINTDISTANCE( plPlane ,avArrayIn[i1] );
-
-
-    // if first point is in front of plane
-    if( fDistance0 >= 0 ) {
-      // emit point
-      avArrayOut[ctOut][0] = avArrayIn[i0][0];
-      avArrayOut[ctOut][1] = avArrayIn[i0][1];
-      avArrayOut[ctOut][2] = avArrayIn[i0][2];
-      ctOut++;
-    }
-
-    // if points are on different sides
-    if( (fDistance0 > 0 && fDistance1 < 0) || ( fDistance0 < 0 && fDistance1 > 0) ) {
-
-      // find intersection point of edge and plane
-      dVector3 vIntersectionPoint;
-      vIntersectionPoint[0]= avArrayIn[i0][0] - (avArrayIn[i0][0]-avArrayIn[i1][0])*fDistance0/(fDistance0-fDistance1);
-      vIntersectionPoint[1]= avArrayIn[i0][1] - (avArrayIn[i0][1]-avArrayIn[i1][1])*fDistance0/(fDistance0-fDistance1);
-      vIntersectionPoint[2]= avArrayIn[i0][2] - (avArrayIn[i0][2]-avArrayIn[i1][2])*fDistance0/(fDistance0-fDistance1);
-
-      // emit intersection point
-      avArrayOut[ctOut][0] = vIntersectionPoint[0];
-      avArrayOut[ctOut][1] = vIntersectionPoint[1];
-      avArrayOut[ctOut][2] = vIntersectionPoint[2];
-      ctOut++;
-    }
-  }
-
-}
-
-
-
-
-static bool _cldTestSeparatingAxes(const dVector3 &v0, const dVector3 &v1, const dVector3 &v2) {
-  // reset best axis
-  iBestAxis = 0;
-  iExitAxis = -1;
-  fBestDepth = MAXVALUE;
-
-  // calculate edges
-  SUBTRACT(v1,v0,vE0);
-  SUBTRACT(v2,v0,vE1);
-  SUBTRACT(vE1,vE0,vE2);
-
-  // calculate poly normal
-  dCROSS(vN,=,vE0,vE1);
-
-  // extract box axes as vectors
-  dVector3 vA0,vA1,vA2;
-  GETCOL(mHullBoxRot,0,vA0);
-  GETCOL(mHullBoxRot,1,vA1);
-  GETCOL(mHullBoxRot,2,vA2);
-
-  // box halfsizes
-  dReal fa0 = vBoxHalfSize[0];
-  dReal fa1 = vBoxHalfSize[1];
-  dReal fa2 = vBoxHalfSize[2];
-
-  // calculate relative position between box and triangle
-  dVector3 vD;
-  SUBTRACT(v0,vHullBoxPos,vD);
-
-  // calculate length of face normal
-  dReal fNLen = LENGTHOF( vN );
-
-  dVector3 vL;
-  dReal fp0, fp1, fp2, fR, fD;
-
-  // Test separating axes for intersection
-  // ************************************************
-  // Axis 1 - Triangle Normal
-  SET(vL,vN);
-  fp0  = dDOT(vL,vD);
-  fp1  = fp0;
-  fp2  = fp0;
-  fR=fa0*dFabs( dDOT(vN,vA0) ) + fa1 * dFabs( dDOT(vN,vA1) ) + fa2 * dFabs( dDOT(vN,vA2) );
-
-
-  if( !_cldTestNormal( fp0, fR, vL, 1) ) {
-    iExitAxis=1;
-    return false;
-  }
-
-  // ************************************************
-
-  // Test Faces
-  // ************************************************
-  // Axis 2 - Box X-Axis
-  SET(vL,vA0);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 + dDOT(vA0,vE0);
-  fp2 = fp0 + dDOT(vA0,vE1);
-  fR  = fa0;
-
-
-  if( !_cldTestFace( fp0, fp1, fp2, fR, fD, vL, 2) ) {
-    iExitAxis=2;
-    return false;
-  }
-  // ************************************************
-
-  // ************************************************
-  // Axis 3 - Box Y-Axis
-  SET(vL,vA1);
-  fD = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 + dDOT(vA1,vE0);
-  fp2 = fp0 + dDOT(vA1,vE1);
-  fR  = fa1;
-
-
-  if( !_cldTestFace( fp0, fp1, fp2, fR, fD, vL, 3) ) {
-    iExitAxis=3;
-    return false;
-  }
-
-  // ************************************************
-
-  // ************************************************
-  // Axis 4 - Box Z-Axis
-  SET(vL,vA2);
-  fD = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 + dDOT(vA2,vE0);
-  fp2 = fp0 + dDOT(vA2,vE1);
-  fR  = fa2;
-
-
-  if( !_cldTestFace( fp0, fp1, fp2, fR, fD, vL, 4) ) {
-    iExitAxis=4;
-    return false;
-  }
-
-  // ************************************************
-
-  // Test Edges
-  // ************************************************
-  // Axis 5 - Box X-Axis cross Edge0
-  dCROSS(vL,=,vA0,vE0);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0;
-  fp2 = fp0 + dDOT(vA0,vN);
-  fR  = fa1 * dFabs(dDOT(vA2,vE0)) + fa2 * dFabs(dDOT(vA1,vE0));
-
-
-  if( !_cldTestEdge( fp1, fp2, fR, fD, vL, 5) ) {
-    iExitAxis=5;
-    return false;
-  }
-  // ************************************************
-
-  // ************************************************
-  // Axis 6 - Box X-Axis cross Edge1
-  dCROSS(vL,=,vA0,vE1);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA0,vN);
-  fp2 = fp0;
-  fR  = fa1 * dFabs(dDOT(vA2,vE1)) + fa2 * dFabs(dDOT(vA1,vE1));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 6) ) {
-    iExitAxis=6;
-    return false;
-  }
-  // ************************************************
-
-  // ************************************************
-  // Axis 7 - Box X-Axis cross Edge2
-  dCROSS(vL,=,vA0,vE2);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA0,vN);
-  fp2 = fp0 - dDOT(vA0,vN);
-  fR  = fa1 * dFabs(dDOT(vA2,vE2)) + fa2 * dFabs(dDOT(vA1,vE2));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 7) ) {
-    iExitAxis=7;
-    return false;
-  }
-
-  // ************************************************
-
-  // ************************************************
-  // Axis 8 - Box Y-Axis cross Edge0
-  dCROSS(vL,=,vA1,vE0);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0;
-  fp2 = fp0 + dDOT(vA1,vN);
-  fR  = fa0 * dFabs(dDOT(vA2,vE0)) + fa2 * dFabs(dDOT(vA0,vE0));
-
-
-  if( !_cldTestEdge( fp0, fp2, fR, fD, vL, 8) ) {
-    iExitAxis=8;
-    return false;
-  }
-
-  // ************************************************
-
-  // ************************************************
-  // Axis 9 - Box Y-Axis cross Edge1
-  dCROSS(vL,=,vA1,vE1);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA1,vN);
-  fp2 = fp0;
-  fR  = fa0 * dFabs(dDOT(vA2,vE1)) + fa2 * dFabs(dDOT(vA0,vE1));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 9) ) {
-    iExitAxis=9;
-    return false;
-  }
-
-  // ************************************************
-
-  // ************************************************
-  // Axis 10 - Box Y-Axis cross Edge2
-  dCROSS(vL,=,vA1,vE2);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA1,vN);
-  fp2 = fp0 - dDOT(vA1,vN);
-  fR  = fa0 * dFabs(dDOT(vA2,vE2)) + fa2 * dFabs(dDOT(vA0,vE2));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 10) ) {
-    iExitAxis=10;
-    return false;
-  }
-
-  // ************************************************
-
-  // ************************************************
-  // Axis 11 - Box Z-Axis cross Edge0
-  dCROSS(vL,=,vA2,vE0);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0;
-  fp2 = fp0 + dDOT(vA2,vN);
-  fR  = fa0 * dFabs(dDOT(vA1,vE0)) + fa1 * dFabs(dDOT(vA0,vE0));
-
-
-  if( !_cldTestEdge( fp0, fp2, fR, fD, vL, 11) ) {
-    iExitAxis=11;
-    return false;
-  }
-  // ************************************************
-
-  // ************************************************
-  // Axis 12 - Box Z-Axis cross Edge1
-  dCROSS(vL,=,vA2,vE1);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA2,vN);
-  fp2 = fp0;
-  fR  = fa0 * dFabs(dDOT(vA1,vE1)) + fa1 * dFabs(dDOT(vA0,vE1));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 12) ) {
-    iExitAxis=12;
-    return false;
-  }
-  // ************************************************
-
-  // ************************************************
-  // Axis 13 - Box Z-Axis cross Edge2
-  dCROSS(vL,=,vA2,vE2);
-  fD  = dDOT(vL,vN)/fNLen;
-  fp0 = dDOT(vL,vD);
-  fp1 = fp0 - dDOT(vA2,vN);
-  fp2 = fp0 - dDOT(vA2,vN);
-  fR  = fa0 * dFabs(dDOT(vA1,vE2)) + fa1 * dFabs(dDOT(vA0,vE2));
-
-
-  if( !_cldTestEdge( fp0, fp1, fR, fD, vL, 13) ) {
-    iExitAxis=13;
-    return false;
-  }
-
-  // ************************************************
-  return true;
-}
-
-
-
-
-
-// find two closest points on two lines
-static bool _cldClosestPointOnTwoLines( dVector3 vPoint1, dVector3 vLenVec1,
-                                        dVector3 vPoint2, dVector3 vLenVec2,
-                                        dReal &fvalue1, dReal &fvalue2)
-{
-  // calulate denominator
-  dVector3 vp;
-  SUBTRACT(vPoint2,vPoint1,vp);
-  dReal fuaub  = dDOT(vLenVec1,vLenVec2);
-  dReal fq1    = dDOT(vLenVec1,vp);
-  dReal fq2    = -dDOT(vLenVec2,vp);
-  dReal fd     = 1.0f - fuaub * fuaub;
-
-  // if denominator is positive
-  if (fd > 0.0f) {
-    // calculate points of closest approach
-    fd = 1.0f/fd;
-    fvalue1 = (fq1 + fuaub*fq2)*fd;
-    fvalue2 = (fuaub*fq1 + fq2)*fd;
-    return true;
-  // otherwise
-  } else {
-    // lines are parallel
-    fvalue1 = 0.0f;
-    fvalue2 = 0.0f;
-    return false;
-  }
-
-}
-
-
-
-
-
-// clip and generate contacts
-static void _cldClipping(const dVector3 &v0, const dVector3 &v1, const dVector3 &v2) {
-  dIASSERT( !(iFlags & CONTACTS_UNIMPORTANT) || ctContacts < (iFlags & NUMC_MASK) ); // Do not call the function if there is no room to store results
-
-  // if we have edge/edge intersection
-  if ( iBestAxis > 4 ) {
-
-    dVector3 vub,vPb,vPa;
-
-    SET(vPa,vHullBoxPos);
-
-    // calculate point on box edge
-    for( int i=0; i<3; i++) {
-      dVector3 vRotCol;
-      GETCOL(mHullBoxRot,i,vRotCol);
-      dReal fSign = dDOT(vBestNormal,vRotCol) > 0 ? 1.0f : -1.0f;
-
-      vPa[0] += fSign * vBoxHalfSize[i] * vRotCol[0];
-      vPa[1] += fSign * vBoxHalfSize[i] * vRotCol[1];
-      vPa[2] += fSign * vBoxHalfSize[i] * vRotCol[2];
-    }
-
-    int iEdge = (iBestAxis-5)%3;
-
-    // decide which edge is on triangle
-    if ( iEdge == 0 ) {
-      SET(vPb,v0);
-      SET(vub,vE0);
-    } else if ( iEdge == 1) {
-      SET(vPb,v2);
-      SET(vub,vE1);
-    } else {
-      SET(vPb,v1);
-      SET(vub,vE2);
-    }
-
-
-    // setup direction parameter for face edge
-    dNormalize3(vub);
-
-    dReal fParam1, fParam2;
-
-    // setup direction parameter for box edge
-    dVector3 vua;
-    int col=(iBestAxis-5)/3;
-    GETCOL(mHullBoxRot,col,vua);
-
-    // find two closest points on both edges
-    _cldClosestPointOnTwoLines( vPa, vua, vPb, vub, fParam1, fParam2 );
-    vPa[0] += vua[0]*fParam1;
-    vPa[1] += vua[1]*fParam1;
-    vPa[2] += vua[2]*fParam1;
-
-    vPb[0] += vub[0]*fParam2;
-    vPb[1] += vub[1]*fParam2;
-    vPb[2] += vub[2]*fParam2;
-
-    // calculate collision point
-    dVector3 vPntTmp;
-    ADD(vPa,vPb,vPntTmp);
-
-    vPntTmp[0]*=0.5f;
-    vPntTmp[1]*=0.5f;
-    vPntTmp[2]*=0.5f;
-
-    // generate contact point between two closest points
-#if 0 //#ifdef ORIG -- if to use conditional define, GenerateContact must be moved into #else
-        dContactGeom* Contact = SAFECONTACT(iFlags, ContactGeoms, ctContacts, iStride);
-        Contact->depth = fBestDepth;
-        SET(Contact->normal,vBestNormal);
-        SET(Contact->pos,vPntTmp);
-        Contact->g1 = Geom1;
-        Contact->g2 = Geom2;
-        ctContacts++;
-#endif
-    GenerateContact(iFlags, ContactGeoms, iStride,  Geom1, Geom2,
-                    vPntTmp, vBestNormal, fBestDepth, ctContacts);
-
-
-  // if triangle is the referent face then clip box to triangle face
-  } else if ( iBestAxis == 1 ) {
-
-
-    dVector3 vNormal2;
-    vNormal2[0]=-vBestNormal[0];
-    vNormal2[1]=-vBestNormal[1];
-    vNormal2[2]=-vBestNormal[2];
-
-
-    // vNr is normal in box frame, pointing from triangle to box
-    dMatrix3 mTransposed;
-    mTransposed[0*4+0]=mHullBoxRot[0*4+0];
-    mTransposed[0*4+1]=mHullBoxRot[1*4+0];
-    mTransposed[0*4+2]=mHullBoxRot[2*4+0];
-
-    mTransposed[1*4+0]=mHullBoxRot[0*4+1];
-    mTransposed[1*4+1]=mHullBoxRot[1*4+1];
-    mTransposed[1*4+2]=mHullBoxRot[2*4+1];
-
-    mTransposed[2*4+0]=mHullBoxRot[0*4+2];
-    mTransposed[2*4+1]=mHullBoxRot[1*4+2];
-    mTransposed[2*4+2]=mHullBoxRot[2*4+2];
-
-    dVector3 vNr;
-    vNr[0]=mTransposed[0*4+0]*vNormal2[0]+  mTransposed[0*4+1]*vNormal2[1]+  mTransposed[0*4+2]*vNormal2[2];
-    vNr[1]=mTransposed[1*4+0]*vNormal2[0]+  mTransposed[1*4+1]*vNormal2[1]+  mTransposed[1*4+2]*vNormal2[2];
-    vNr[2]=mTransposed[2*4+0]*vNormal2[0]+  mTransposed[2*4+1]*vNormal2[1]+  mTransposed[2*4+2]*vNormal2[2];
-
-
-    dVector3 vAbsNormal;
-    vAbsNormal[0] = dFabs( vNr[0] );
-    vAbsNormal[1] = dFabs( vNr[1] );
-    vAbsNormal[2] = dFabs( vNr[2] );
-
-    // get closest face from box
-    int iB0, iB1, iB2;
-    if (vAbsNormal[1] > vAbsNormal[0]) {
-      if (vAbsNormal[1] > vAbsNormal[2]) {
-        iB1 = 0;  iB0 = 1;  iB2 = 2;
-      } else {
-        iB1 = 0;  iB2 = 1;  iB0 = 2;
-      }
-    } else {
-
-      if (vAbsNormal[0] > vAbsNormal[2]) {
-        iB0 = 0;  iB1 = 1;  iB2 = 2;
-      } else {
-        iB1 = 0;  iB2 = 1;  iB0 = 2;
-      }
-    }
-
-    // Here find center of box face we are going to project
-    dVector3 vCenter;
-    dVector3 vRotCol;
-    GETCOL(mHullBoxRot,iB0,vRotCol);
-
-    if (vNr[iB0] > 0) {
-        vCenter[0] = vHullBoxPos[0] - v0[0] - vBoxHalfSize[iB0] * vRotCol[0];
-      vCenter[1] = vHullBoxPos[1] - v0[1] - vBoxHalfSize[iB0] * vRotCol[1];
-      vCenter[2] = vHullBoxPos[2] - v0[2] - vBoxHalfSize[iB0] * vRotCol[2];
-    } else {
-      vCenter[0] = vHullBoxPos[0] - v0[0] + vBoxHalfSize[iB0] * vRotCol[0];
-      vCenter[1] = vHullBoxPos[1] - v0[1] + vBoxHalfSize[iB0] * vRotCol[1];
-      vCenter[2] = vHullBoxPos[2] - v0[2] + vBoxHalfSize[iB0] * vRotCol[2];
-    }
-
-    // Here find 4 corner points of box
-    dVector3 avPoints[4];
-
-    dVector3 vRotCol2;
-    GETCOL(mHullBoxRot,iB1,vRotCol);
-    GETCOL(mHullBoxRot,iB2,vRotCol2);
-
-    for(int x=0;x<3;x++) {
-        avPoints[0][x] = vCenter[x] + (vBoxHalfSize[iB1] * vRotCol[x]) - (vBoxHalfSize[iB2] * vRotCol2[x]);
-        avPoints[1][x] = vCenter[x] - (vBoxHalfSize[iB1] * vRotCol[x]) - (vBoxHalfSize[iB2] * vRotCol2[x]);
-        avPoints[2][x] = vCenter[x] - (vBoxHalfSize[iB1] * vRotCol[x]) + (vBoxHalfSize[iB2] * vRotCol2[x]);
-        avPoints[3][x] = vCenter[x] + (vBoxHalfSize[iB1] * vRotCol[x]) + (vBoxHalfSize[iB2] * vRotCol2[x]);
-    }
-
-
-    // clip Box face with 4 planes of triangle (1 face plane, 3 egde planes)
-    dVector3 avTempArray1[9];
-    dVector3 avTempArray2[9];
-    dVector4 plPlane;
-
-    int iTempCnt1=0;
-    int iTempCnt2=0;
-
-    // zeroify vectors - necessary?
-    for(int i=0; i<9; i++) {
-      avTempArray1[i][0]=0;
-      avTempArray1[i][1]=0;
-      avTempArray1[i][2]=0;
-
-      avTempArray2[i][0]=0;
-      avTempArray2[i][1]=0;
-      avTempArray2[i][2]=0;
-    }
-
-
-    // Normal plane
-    dVector3 vTemp;
-    vTemp[0]=-vN[0];
-    vTemp[1]=-vN[1];
-    vTemp[2]=-vN[2];
-    dNormalize3(vTemp);
-    CONSTRUCTPLANE(plPlane,vTemp,0);
-
-    _cldClipPolyToPlane( avPoints, 4, avTempArray1, iTempCnt1, plPlane  );
-
-
-    // Plane p0
-    dVector3 vTemp2;
-    SUBTRACT(v1,v0,vTemp2);
-    dCROSS(vTemp,=,vN,vTemp2);
-    dNormalize3(vTemp);
-    CONSTRUCTPLANE(plPlane,vTemp,0);
-
-    _cldClipPolyToPlane( avTempArray1, iTempCnt1, avTempArray2, iTempCnt2, plPlane  );
-
-
-    // Plane p1
-    SUBTRACT(v2,v1,vTemp2);
-    dCROSS(vTemp,=,vN,vTemp2);
-    dNormalize3(vTemp);
-    SUBTRACT(v0,v2,vTemp2);
-    CONSTRUCTPLANE(plPlane,vTemp,dDOT(vTemp2,vTemp));
-
-    _cldClipPolyToPlane( avTempArray2, iTempCnt2, avTempArray1, iTempCnt1, plPlane  );
-
-
-    // Plane p2
-    SUBTRACT(v0,v2,vTemp2);
-    dCROSS(vTemp,=,vN,vTemp2);
-    dNormalize3(vTemp);
-    CONSTRUCTPLANE(plPlane,vTemp,0);
-
-    _cldClipPolyToPlane( avTempArray1, iTempCnt1, avTempArray2, iTempCnt2, plPlane  );
-
-
-    // END of clipping polygons
-
-
-
-    // for each generated contact point
-    for ( int i=0; i<iTempCnt2; i++ ) {
-      // calculate depth
-      dReal fTempDepth = dDOT(vNormal2,avTempArray2[i]);
-
-      // clamp depth to zero
-      if (fTempDepth > 0) {
-        fTempDepth = 0;
-      }
-
-      dVector3 vPntTmp;
-      ADD(avTempArray2[i],v0,vPntTmp);
-
-#if 0 //#ifdef ORIG -- if to use conditional define, GenerateContact must be moved into #else
-      dContactGeom* Contact = SAFECONTACT(iFlags, ContactGeoms, ctContacts, iStride);
-          
-      Contact->depth = -fTempDepth;
-      SET(Contact->normal,vBestNormal);
-      SET(Contact->pos,vPntTmp);
-      Contact->g1 = Geom1;
-      Contact->g2 = Geom2;
-      ctContacts++;
-#endif
-                GenerateContact(iFlags, ContactGeoms, iStride,  Geom1, Geom2,
-                                                vPntTmp, vBestNormal, -fTempDepth, ctContacts);
-
-                if ((ctContacts | CONTACTS_UNIMPORTANT) == (iFlags & (NUMC_MASK | CONTACTS_UNIMPORTANT))) {
-                        break;
-                }
-    }
-
-    //dAASSERT(ctContacts>0);
-
-  // if box face is the referent face, then clip triangle on box face
-  } else { // 2 <= if iBestAxis <= 4
-
-    // get normal of box face
-    dVector3 vNormal2;
-    SET(vNormal2,vBestNormal);
-
-    // get indices of box axes in correct order
-    int iA0,iA1,iA2;
-    iA0 = iBestAxis-2;
-    if ( iA0 == 0 ) {
-      iA1 = 1; iA2 = 2;
-    } else if ( iA0 == 1 ) {
-      iA1 = 0; iA2 = 2;
-    } else {
-      iA1 = 0; iA2 = 1;
-    }
-
-    dVector3 avPoints[3];
-    // calculate triangle vertices in box frame
-    SUBTRACT(v0,vHullBoxPos,avPoints[0]);
-    SUBTRACT(v1,vHullBoxPos,avPoints[1]);
-    SUBTRACT(v2,vHullBoxPos,avPoints[2]);
-
-    // CLIP Polygons
-    // define temp data for clipping
-    dVector3 avTempArray1[9];
-    dVector3 avTempArray2[9];
-
-    int iTempCnt1, iTempCnt2;
-
-    // zeroify vectors - necessary?
-    for(int i=0; i<9; i++) {
-      avTempArray1[i][0]=0;
-      avTempArray1[i][1]=0;
-      avTempArray1[i][2]=0;
-
-      avTempArray2[i][0]=0;
-      avTempArray2[i][1]=0;
-      avTempArray2[i][2]=0;
-    }
-
-    // clip triangle with 5 box planes (1 face plane, 4 edge planes)
-
-    dVector4 plPlane;
-
-    // Normal plane
-    dVector3 vTemp;
-    vTemp[0]=-vNormal2[0];
-    vTemp[1]=-vNormal2[1];
-    vTemp[2]=-vNormal2[2];
-    CONSTRUCTPLANE(plPlane,vTemp,vBoxHalfSize[iA0]);
-
-    _cldClipPolyToPlane( avPoints, 3, avTempArray1, iTempCnt1, plPlane );
-
-
-    // Plane p0
-    GETCOL(mHullBoxRot,iA1,vTemp);
-    CONSTRUCTPLANE(plPlane,vTemp,vBoxHalfSize[iA1]);
-
-    _cldClipPolyToPlane( avTempArray1, iTempCnt1, avTempArray2, iTempCnt2, plPlane );
-
-
-    // Plane p1
-    GETCOL(mHullBoxRot,iA1,vTemp);
-    vTemp[0]=-vTemp[0];
-    vTemp[1]=-vTemp[1];
-    vTemp[2]=-vTemp[2];
-    CONSTRUCTPLANE(plPlane,vTemp,vBoxHalfSize[iA1]);
-
-    _cldClipPolyToPlane( avTempArray2, iTempCnt2, avTempArray1, iTempCnt1, plPlane );
-
-
-    // Plane p2
-    GETCOL(mHullBoxRot,iA2,vTemp);
-    CONSTRUCTPLANE(plPlane,vTemp,vBoxHalfSize[iA2]);
-
-    _cldClipPolyToPlane( avTempArray1, iTempCnt1, avTempArray2, iTempCnt2, plPlane );
-
-
-    // Plane p3
-    GETCOL(mHullBoxRot,iA2,vTemp);
-    vTemp[0]=-vTemp[0];
-    vTemp[1]=-vTemp[1];
-    vTemp[2]=-vTemp[2];
-    CONSTRUCTPLANE(plPlane,vTemp,vBoxHalfSize[iA2]);
-
-    _cldClipPolyToPlane( avTempArray2, iTempCnt2, avTempArray1, iTempCnt1, plPlane );
-
-
-    // for each generated contact point
-    for ( int i=0; i<iTempCnt1; i++ ) {
-      // calculate depth
-      dReal fTempDepth = dDOT(vNormal2,avTempArray1[i])-vBoxHalfSize[iA0];
-
-      // clamp depth to zero
-      if (fTempDepth > 0) {
-        fTempDepth = 0;
-      }
-
-      // generate contact data
-      dVector3 vPntTmp;
-      ADD(avTempArray1[i],vHullBoxPos,vPntTmp);
-
-#if 0 //#ifdef ORIG -- if to use conditional define, GenerateContact must be moved into #else
-      dContactGeom* Contact = SAFECONTACT(iFlags, ContactGeoms, ctContacts, iStride);
-
-      Contact->depth = -fTempDepth;
-      SET(Contact->normal,vBestNormal);
-      SET(Contact->pos,vPntTmp);
-      Contact->g1 = Geom1;
-      Contact->g2 = Geom2;
-      ctContacts++;
-#endif
-                GenerateContact(iFlags, ContactGeoms, iStride,  Geom1, Geom2,
-                                          vPntTmp, vBestNormal, -fTempDepth, ctContacts);
-
-                if ((ctContacts | CONTACTS_UNIMPORTANT) == (iFlags & (NUMC_MASK | CONTACTS_UNIMPORTANT))) {
-                        break;
-                }
-    }
-
-    //dAASSERT(ctContacts>0);
-  }
-
-}
-
-
-
-
-
-// test one mesh triangle on intersection with given box
-static void _cldTestOneTriangle(const dVector3 &v0, const dVector3 &v1, const dVector3 &v2)//, void *pvUser)
-{
-  // do intersection test and find best separating axis
-  if(!_cldTestSeparatingAxes(v0, v1, v2) ) {
-     // if not found do nothing
-    return;
-  }
-
-  // if best separation axis is not found
-  if ( iBestAxis == 0 ) {
-    // this should not happen (we should already exit in that case)
-    //dMessage (0, "best separation axis not found");
-    // do nothing
-    return;
-  }
-
-  _cldClipping(v0, v1, v2);
-}
-
-
-
-
-
-// OPCODE version of box to mesh collider
-#if dTRIMESH_OPCODE
-int dCollideBTL(dxGeom* g1, dxGeom* BoxGeom, int Flags, dContactGeom* Contacts, int Stride){
-  dIASSERT (Stride >= (int)sizeof(dContactGeom));
-  dIASSERT (g1->type == dTriMeshClass);
-  dIASSERT (BoxGeom->type == dBoxClass);
-  dIASSERT ((Flags & NUMC_MASK) >= 1);
-
-
-  dxTriMesh* TriMesh = (dxTriMesh*)g1;
-
-
-  // get source hull position, orientation and half size
-  const dMatrix3& mRotBox=*(const dMatrix3*)dGeomGetRotation(BoxGeom);
-  const dVector3& vPosBox=*(const dVector3*)dGeomGetPosition(BoxGeom);
-
-  // to global
-  SETM(mHullBoxRot,mRotBox);
-  SET(vHullBoxPos,vPosBox);
-
-  dGeomBoxGetLengths(BoxGeom, vBoxHalfSize);
-  vBoxHalfSize[0] *= 0.5f;
-  vBoxHalfSize[1] *= 0.5f;
-  vBoxHalfSize[2] *= 0.5f;
-
-
-
-  // get destination hull position and orientation
-  const dMatrix3& mRotMesh=*(const dMatrix3*)dGeomGetRotation(TriMesh);
-  const dVector3& vPosMesh=*(const dVector3*)dGeomGetPosition(TriMesh);
-
-  // to global
-  SET(vHullDstPos,vPosMesh);
-
-
-
-  // global info for contact creation
-  ctContacts = 0;
-  iStride=Stride;
-  iFlags=Flags;
-  ContactGeoms=Contacts;
-  Geom1=TriMesh;
-  Geom2=BoxGeom;
-
-
-
-  // reset stuff
-  fBestDepth = MAXVALUE;
-  vBestNormal[0]=0;
-  vBestNormal[1]=0;
-  vBestNormal[2]=0;
-
-  OBBCollider& Collider = TriMesh->_OBBCollider;
-
-
-
-
-  // Make OBB
-  OBB Box;
-  Box.mCenter.x = vPosBox[0];
-  Box.mCenter.y = vPosBox[1];
-  Box.mCenter.z = vPosBox[2];
-
-  // It is a potential issue to explicitly cast to float 
-  // if custom width floating point type is introduced in OPCODE.
-  // It is necessary to make a typedef and cast to it
-  // (e.g. typedef float opc_float;)
-  // However I'm not sure in what header it should be added.
-
-  Box.mExtents.x = /*(float)*/vBoxHalfSize[0];
-  Box.mExtents.y = /*(float)*/vBoxHalfSize[1];
-  Box.mExtents.z = /*(float)*/vBoxHalfSize[2];
-
-  Box.mRot.m[0][0] = /*(float)*/mRotBox[0];
-  Box.mRot.m[1][0] = /*(float)*/mRotBox[1];
-  Box.mRot.m[2][0] = /*(float)*/mRotBox[2];
-
-  Box.mRot.m[0][1] = /*(float)*/mRotBox[4];
-  Box.mRot.m[1][1] = /*(float)*/mRotBox[5];
-  Box.mRot.m[2][1] = /*(float)*/mRotBox[6];
-
-  Box.mRot.m[0][2] = /*(float)*/mRotBox[8];
-  Box.mRot.m[1][2] = /*(float)*/mRotBox[9];
-  Box.mRot.m[2][2] = /*(float)*/mRotBox[10];
-
-  Matrix4x4 amatrix;
-  Matrix4x4 BoxMatrix = MakeMatrix(vPosBox, mRotBox, amatrix);
-
-  Matrix4x4 InvBoxMatrix;
-  InvertPRMatrix(InvBoxMatrix, BoxMatrix);
-
-  // TC results
-  if (TriMesh->doBoxTC) {
-        dxTriMesh::BoxTC* BoxTC = 0;
-        for (int i = 0; i < TriMesh->BoxTCCache.size(); i++){
-                if (TriMesh->BoxTCCache[i].Geom == BoxGeom){
-                        BoxTC = &TriMesh->BoxTCCache[i];
-                        break;
-                }
-        }
-        if (!BoxTC){
-                TriMesh->BoxTCCache.push(dxTriMesh::BoxTC());
-
-                BoxTC = &TriMesh->BoxTCCache[TriMesh->BoxTCCache.size() - 1];
-                BoxTC->Geom = BoxGeom;
-    BoxTC->FatCoeff = 1.1f; // Pierre recommends this, instead of 1.0
-        }
-
-        // Intersect
-        Collider.SetTemporalCoherence(true);
-        Collider.Collide(*BoxTC, Box, TriMesh->Data->BVTree, null, &MakeMatrix(vPosMesh, mRotMesh, amatrix));
-  }
-  else {
-                Collider.SetTemporalCoherence(false);
-                Collider.Collide(dxTriMesh::defaultBoxCache, Box, TriMesh->Data->BVTree, null,
-                                                 &MakeMatrix(vPosMesh, mRotMesh, amatrix));
-        }
-
-  if (! Collider.GetContactStatus()) {
-        // no collision occurred
-        return 0;
-  }
-
-  // Retrieve data
-  int TriCount = Collider.GetNbTouchedPrimitives();
-  const int* Triangles = (const int*)Collider.GetTouchedPrimitives();
-
-  if (TriCount != 0){
-      if (TriMesh->ArrayCallback != null){
-         TriMesh->ArrayCallback(TriMesh, BoxGeom, Triangles, TriCount);
-    }
-
-    int ctContacts0 = 0;
-
-    // loop through all intersecting triangles
-    for (int i = 0; i < TriCount; i++){
-
-
-        const int Triint = Triangles[i];
-        if (!Callback(TriMesh, BoxGeom, Triint)) continue;
-
-
-        dVector3 dv[3];
-        FetchTriangle(TriMesh, Triint, vPosMesh, mRotMesh, dv);
-
-
-        // test this triangle
-        _cldTestOneTriangle(dv[0],dv[1],dv[2]);
-
-                // fill-in tri index for generated contacts
-                for (; ctContacts0<ctContacts; ctContacts0++)
-                        SAFECONTACT(iFlags, ContactGeoms, ctContacts0, iStride)->side1 = Triint;
-
-                /*
-                        NOTE by Oleh_Derevenko:
-                        The function continues checking triangles after maximal number 
-                        of contacts is reached because it selects maximal penetration depths.
-                        See also comments in GenerateContact()
-                */
-                // Putting "break" at the end of loop prevents unnecessary checks on first pass and "continue"
-                if ((ctContacts | CONTACTS_UNIMPORTANT) == (iFlags & (NUMC_MASK | CONTACTS_UNIMPORTANT)))
-                        break;
-    }
-  }
-
-
-  return ctContacts;
-}
-#endif
-
-// GIMPACT version of box to mesh collider
-#if dTRIMESH_GIMPACT
-int dCollideBTL(dxGeom* g1, dxGeom* BoxGeom, int Flags, dContactGeom* Contacts, int Stride)
-{
-  dIASSERT (Stride >= (int)sizeof(dContactGeom));
-  dIASSERT (g1->type == dTriMeshClass);
-  dIASSERT (BoxGeom->type == dBoxClass);
-  dIASSERT ((Flags & NUMC_MASK) >= 1);
-
-  
-  dxTriMesh* TriMesh = (dxTriMesh*)g1;
-
-
-  // get source hull position, orientation and half size
-  const dMatrix3& mRotBox=*(const dMatrix3*)dGeomGetRotation(BoxGeom);
-  const dVector3& vPosBox=*(const dVector3*)dGeomGetPosition(BoxGeom);
-
-  // to global
-  SETM(mHullBoxRot,mRotBox);
-  SET(vHullBoxPos,vPosBox);
-
-  dGeomBoxGetLengths(BoxGeom, vBoxHalfSize);
-  vBoxHalfSize[0] *= 0.5f;
-  vBoxHalfSize[1] *= 0.5f;
-  vBoxHalfSize[2] *= 0.5f;
-
-  // get destination hull position and orientation
-  /*const dMatrix3& mRotMesh=*(const dMatrix3*)dGeomGetRotation(TriMesh);
-  const dVector3& vPosMesh=*(const dVector3*)dGeomGetPosition(TriMesh);
-
-  // to global
-  SET(vHullDstPos,vPosMesh);*/
-
-  // global info for contact creation
-  ctContacts = 0;
-  iStride=Stride;
-  iFlags=Flags;
-  ContactGeoms=Contacts;
-  Geom1=TriMesh;
-  Geom2=BoxGeom;
-
-
-  // reset stuff
-  fBestDepth = MAXVALUE;
-  vBestNormal[0]=0;
-  vBestNormal[1]=0;
-  vBestNormal[2]=0;
-
-
-//*****at first , collide box aabb******//
-
-    GIM_TRIMESH * ptrimesh = &TriMesh->m_collision_trimesh;
-        aabb3f test_aabb;
-
-        test_aabb.minX = BoxGeom->aabb[0];
-        test_aabb.maxX = BoxGeom->aabb[1];
-        test_aabb.minY = BoxGeom->aabb[2];
-        test_aabb.maxY = BoxGeom->aabb[3];
-        test_aabb.minZ = BoxGeom->aabb[4];
-        test_aabb.maxZ = BoxGeom->aabb[5];
-
-        GDYNAMIC_ARRAY collision_result;
-        GIM_CREATE_BOXQUERY_LIST(collision_result);
-
-        gim_aabbset_box_collision(&test_aabb, &ptrimesh->m_aabbset , &collision_result);
-
-        if(collision_result.m_size==0)
-        {
-            GIM_DYNARRAY_DESTROY(collision_result);
-            return 0;
-        }
-//*****Set globals for box collision******//
-
-        //collide triangles
-
-        GUINT * boxesresult = GIM_DYNARRAY_POINTER(GUINT,collision_result);
-        gim_trimesh_locks_work_data(ptrimesh);
-
-    int ctContacts0 = 0;
-        
-        for(unsigned int i=0;i<collision_result.m_size;i++)
-        {
-                dVector3 dv[3];
-
-                int Triint = boxesresult[i];
-                gim_trimesh_get_triangle_vertices(ptrimesh, Triint,dv[0],dv[1],dv[2]);
-        // test this triangle
-        _cldTestOneTriangle(dv[0],dv[1],dv[2]);
-                
-                // fill-in tri index for generated contacts
-                for (; ctContacts0<ctContacts; ctContacts0++)
-                        SAFECONTACT(iFlags, ContactGeoms, ctContacts0, iStride)->side1 = Triint;
-                
-                /*
-                        NOTE by Oleh_Derevenko:
-                        The function continues checking triangles after maximal number 
-                        of contacts is reached because it selects maximal penetration depths.
-                        See also comments in GenerateContact()
-                */
-                // Putting "break" at the end of loop prevents unnecessary checks on first pass and "continue"
-                if ((ctContacts | CONTACTS_UNIMPORTANT) == (iFlags & (NUMC_MASK | CONTACTS_UNIMPORTANT)))
-                        break;
-        }
-
-        gim_trimesh_unlocks_work_data(ptrimesh);
-        GIM_DYNARRAY_DESTROY(collision_result);
-
-        return ctContacts;
-}
-#endif
-
-
-// GenerateContact - Written by Jeff Smith (jeff@burri.to)
-//   Generate a "unique" contact.  A unique contact has a unique
-//   position or normal.  If the potential contact has the same
-//   position and normal as an existing contact, but a larger
-//   penetration depth, this new depth is used instead
-//
-static void
-GenerateContact(int in_Flags, dContactGeom* in_Contacts, int in_Stride,
-                dxGeom* in_g1,  dxGeom* in_g2,
-                const dVector3 in_ContactPos, const dVector3 in_Normal, dReal in_Depth,
-                int& OutTriCount)
-{
-        /*
-                NOTE by Oleh_Derevenko:
-                This function is called after maximal number of contacts has already been 
-                collected because it has a side effect of replacing penetration depth of
-                existing contact with larger penetration depth of another matching normal contact.
-                If this logic is not necessary any more, you can bail out on reach of contact
-                number maximum immediately in dCollideBTL(). You will also need to correct 
-                conditional statements after invocations of GenerateContact() in _cldClipping().
-        */
-        do 
-        {
-                dContactGeom* Contact;
-                dVector3 diff;
-                
-                if (!(in_Flags & CONTACTS_UNIMPORTANT))
-                {
-                        bool duplicate = false;
-                        for (int i=0; i<OutTriCount; i++)
-                        {
-                                Contact = SAFECONTACT(in_Flags, in_Contacts, i, in_Stride);
-
-                                // same position?
-                                for (int j=0; j<3; j++)
-                                        diff[j] = in_ContactPos[j] - Contact->pos[j];
-                                if (dDOT(diff, diff) < dEpsilon)
-                                {
-                                        // same normal?
-                                        if (dFabs(dDOT(in_Normal, Contact->normal)) > (REAL(1.0)-dEpsilon))
-                                        {
-                                                if (in_Depth > Contact->depth)
-                                                        Contact->depth = in_Depth;
-                                                duplicate = true;
-                                                /*
-                                                        NOTE by Oleh_Derevenko:
-                                                        There may be a case when two normals are close to each other but not duplicate
-                                                        while third normal is detected to be duplicate for both of them.
-                                                        This is the only reason I can think of, there is no "break" statement.
-                                                        Perhaps author considered it to be logical that the third normal would 
-                                                        replace the depth in both of initial contacts. 
-                                                        However, I consider it a questionable practice which should not
-                                                        be applied without deep understanding of underlaying physics.
-                                                        Even more, is this situation with close normal triplet acceptable at all?
-                                                        Should not be two initial contacts reduced to one (replaced with the latter)?
-                                                        If you know the answers for these questions, you may want to change this code.
-                                                        See the same statement in GenerateContact() of collision_trimesh_trimesh.cpp
-                                                */
-                                        }
-                                }
-                        }
-                        if (duplicate || OutTriCount == (in_Flags & NUMC_MASK))
-                        {
-                                break;
-                        }
-                }
-                else
-                {
-                        dIASSERT(OutTriCount < (in_Flags & NUMC_MASK));
-                }
-
-                // Add a new contact
-                Contact = SAFECONTACT(in_Flags, in_Contacts, OutTriCount, in_Stride);
-
-                Contact->pos[0] = in_ContactPos[0];
-                Contact->pos[1] = in_ContactPos[1];
-                Contact->pos[2] = in_ContactPos[2];
-                Contact->pos[3] = 0.0;
-
-                Contact->normal[0] = in_Normal[0];
-                Contact->normal[1] = in_Normal[1];
-                Contact->normal[2] = in_Normal[2];
-                Contact->normal[3] = 0.0;
-
-                Contact->depth = in_Depth;
-
-                Contact->g1 = in_g1;
-                Contact->g2 = in_g2;
-
-                OutTriCount++;
-        }
-        while (false);
-}
-
-#endif // dTRIMESH_ENABLED