IoObject *IoODEBox_pointDepth(IoODEBox *self, IoObject *locals, IoMessage *m)
{
dReal lx = IoMessage_locals_doubleArgAt_(m, locals, 0);
dReal ly = IoMessage_locals_doubleArgAt_(m, locals, 1);
dReal lz = IoMessage_locals_doubleArgAt_(m, locals, 2);
IoODEBox_assertHasBoxId(self, locals, m);
return IONUMBER(dGeomBoxPointDepth(GEOMID, lx, ly, lz));
}
static gfloat soy_bodies_box_real_pointDepth (soybodiesBody* base, gfloat x, gfloat y, gfloat z) {
soybodiesBox * self;
gfloat result = 0.0F;
struct dxGeom* _tmp0_;
gfloat _tmp1_;
gfloat _tmp2_;
gfloat _tmp3_;
dReal _tmp4_ = 0.0;
self = (soybodiesBox*) base;
_tmp0_ = ((soybodiesBody*) self)->geom;
_tmp1_ = x;
_tmp2_ = y;
_tmp3_ = z;
_tmp4_ = dGeomBoxPointDepth ((struct dxGeom*) _tmp0_, (dReal) _tmp1_, (dReal) _tmp2_, (dReal) _tmp3_);
result = (gfloat) _tmp4_;
return result;
}
int test_ray_and_box()
{
int i,j;
dContactGeom contact;
dVector3 s,p,q,n,q2,q3,q4; // s = box sides
dMatrix3 R;
dReal k;
dSimpleSpace space(0);
dGeomID ray = dCreateRay (0,0);
dGeomID box = dCreateBox (0,1,1,1);
dSpaceAdd (space,ray);
dSpaceAdd (space,box);
// ********** make a random box
for (j=0; j<3; j++) s[j] = dRandReal() + 0.1;
dGeomBoxSetLengths (box,s[0],s[1],s[2]);
dMakeRandomVector (p,3,1.0);
dGeomSetPosition (box,p[0],p[1],p[2]);
dRFromAxisAndAngle (R,dRandReal()*2-1,dRandReal()*2-1,
dRandReal()*2-1,dRandReal()*10-5);
dGeomSetRotation (box,R);
// ********** test zero length ray just inside box
dGeomRaySetLength (ray,0);
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*s[j];
i = dRandInt (3);
if (dRandReal() > 0.5) q[i] = 0.99*0.5*s[i]; else q[i] = -0.99*0.5*s[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
dGeomSetPosition (ray,q2[0],q2[1],q2[2]);
dRFromAxisAndAngle (R,dRandReal()*2-1,dRandReal()*2-1,
dRandReal()*2-1,dRandReal()*10-5);
dGeomSetRotation (ray,R);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 0) FAILED();
// ********** test zero length ray just outside box
dGeomRaySetLength (ray,0);
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*s[j];
i = dRandInt (3);
if (dRandReal() > 0.5) q[i] = 1.01*0.5*s[i]; else q[i] = -1.01*0.5*s[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
dGeomSetPosition (ray,q2[0],q2[1],q2[2]);
dRFromAxisAndAngle (R,dRandReal()*2-1,dRandReal()*2-1,
dRandReal()*2-1,dRandReal()*10-5);
dGeomSetRotation (ray,R);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 0) FAILED();
// ********** test finite length ray totally contained inside the box
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*0.99*s[j];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
for (j=0; j<3; j++) q3[j] = (dRandReal()-0.5)*0.99*s[j];
dMultiply0 (q4,dGeomGetRotation(box),q3,3,3,1);
for (j=0; j<3; j++) q4[j] += p[j];
for (j=0; j<3; j++) n[j] = q4[j] - q2[j];
dNormalize3 (n);
dGeomRaySet (ray,q2[0],q2[1],q2[2],n[0],n[1],n[2]);
dGeomRaySetLength (ray,dCalcPointsDistance3(q2,q4));
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 0) FAILED();
// ********** test finite length ray totally outside the box
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*s[j];
i = dRandInt (3);
if (dRandReal() > 0.5) q[i] = 1.01*0.5*s[i]; else q[i] = -1.01*0.5*s[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q3[j] = q2[j] + p[j];
dNormalize3 (q2);
dGeomRaySet (ray,q3[0],q3[1],q3[2],q2[0],q2[1],q2[2]);
dGeomRaySetLength (ray,10);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 0) FAILED();
// ********** test ray from outside to just above surface
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*s[j];
i = dRandInt (3);
if (dRandReal() > 0.5) q[i] = 1.01*0.5*s[i]; else q[i] = -1.01*0.5*s[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q3[j] = 2*q2[j] + p[j];
k = dSqrt(q2[0]*q2[0] + q2[1]*q2[1] + q2[2]*q2[2]);
for (j=0; j<3; j++) q2[j] = -q2[j];
dGeomRaySet (ray,q3[0],q3[1],q3[2],q2[0],q2[1],q2[2]);
dGeomRaySetLength (ray,k*0.99);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 0) FAILED();
// ********** test ray from outside to just below surface
dGeomRaySetLength (ray,k*1.01);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom)) != 1) FAILED();
// ********** test contact point position for random rays
for (j=0; j<3; j++) q[j] = dRandReal()*s[j];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
for (j=0; j<3; j++) q3[j] = dRandReal()-0.5;
dNormalize3 (q3);
dGeomRaySet (ray,q2[0],q2[1],q2[2],q3[0],q3[1],q3[2]);
dGeomRaySetLength (ray,10);
if (dCollide (ray,box,1,&contact,sizeof(dContactGeom))) {
// check depth of contact point
if (dFabs (dGeomBoxPointDepth
(box,contact.pos[0],contact.pos[1],contact.pos[2])) > tol)
FAILED();
// check position of contact point
for (j=0; j<3; j++) contact.pos[j] -= p[j];
dMultiply1 (q,dGeomGetRotation(box),contact.pos,3,3,1);
if ( dFabs(dFabs (q[0]) - 0.5*s[0]) > tol &&
dFabs(dFabs (q[1]) - 0.5*s[1]) > tol &&
dFabs(dFabs (q[2]) - 0.5*s[2]) > tol) {
FAILED();
}
// also check normal signs
if (dCalcVectorDot3 (q3,contact.normal) > 0) FAILED();
draw_all_objects (space);
}
PASSED();
}
int test_box_point_depth()
{
int i,j;
dVector3 s,p,q,q2; // s = box sides
dMatrix3 R;
dReal ss,d; // ss = smallest side
dSimpleSpace space(0);
dGeomID box = dCreateBox (0,1,1,1);
dSpaceAdd (space,box);
// ********** make a random box
for (j=0; j<3; j++) s[j] = dRandReal() + 0.1;
dGeomBoxSetLengths (box,s[0],s[1],s[2]);
dMakeRandomVector (p,3,1.0);
dGeomSetPosition (box,p[0],p[1],p[2]);
dRFromAxisAndAngle (R,dRandReal()*2-1,dRandReal()*2-1,
dRandReal()*2-1,dRandReal()*10-5);
dGeomSetRotation (box,R);
// ********** test center point has depth of smallest side
ss = 1e9;
for (j=0; j<3; j++) if (s[j] < ss) ss = s[j];
if (dFabs(dGeomBoxPointDepth (box,p[0],p[1],p[2]) - 0.5*ss) > tol)
FAILED();
// ********** test point on surface has depth 0
for (j=0; j<3; j++) q[j] = (dRandReal()-0.5)*s[j];
i = dRandInt (3);
if (dRandReal() > 0.5) q[i] = 0.5*s[i]; else q[i] = -0.5*s[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
if (dFabs(dGeomBoxPointDepth (box,q2[0],q2[1],q2[2])) > tol) FAILED();
// ********** test points outside box have -ve depth
for (j=0; j<3; j++) {
q[j] = 0.5*s[j] + dRandReal() + 0.01;
if (dRandReal() > 0.5) q[j] = -q[j];
}
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
if (dGeomBoxPointDepth (box,q2[0],q2[1],q2[2]) >= 0) FAILED();
// ********** test points inside box have +ve depth
for (j=0; j<3; j++) q[j] = s[j] * 0.99 * (dRandReal()-0.5);
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
if (dGeomBoxPointDepth (box,q2[0],q2[1],q2[2]) <= 0) FAILED();
// ********** test random depth of point aligned along axis (up to ss deep)
i = dRandInt (3);
for (j=0; j<3; j++) q[j] = 0;
d = (dRandReal()*(ss*0.5+1)-1);
q[i] = s[i]*0.5 - d;
if (dRandReal() > 0.5) q[i] = -q[i];
dMultiply0 (q2,dGeomGetRotation(box),q,3,3,1);
for (j=0; j<3; j++) q2[j] += p[j];
if (dFabs(dGeomBoxPointDepth (box,q2[0],q2[1],q2[2]) - d) >= tol) FAILED();
PASSED();
}
