62 axis0min, axis1min, axis0max, axis1max),
66 G4Exception(
"G4TwistTubsSide::G4TwistTubsSide()",
"GeomSolids0002",
101 SetCorners( EndInnerRadius, EndOuterRadius, EndPhi, EndZ) ;
226 for (i=0; i<2; i++) {
251 isvalid[0], 0, validate, &gp, &gv);
271 distance[0] = - c /
b;
272 xx[0] = p + distance[0]*
v;
276 areacode[0] = GetAreaCode(xx[0]);
278 if (distance[0] >= 0) isvalid[0] =
true;
281 areacode[0] = GetAreaCode(xx[0],
false);
283 if (distance[0] >= 0) isvalid[0] =
true;
289 if (distance[0] >= 0) isvalid[0] =
true;
293 areacode[0], isvalid[0],
294 0, validate, &gp, &gv);
300 isvalid[0], 1, validate, &gp, &gv);
312 isvalid[0], 0, validate, &gp, &gv);
324 G4bool tmpisvalid[2] = {
false,
false};
327 for (i=0; i<2; i++) {
333 if ( b * D < 0 && std::fabs(bminusD / D) < protection ) {
335 tmpdist[i] = - c/b * ( 1 - acovbb * (1 + 2*acovbb));
337 tmpdist[i] = factor * bminusD;
341 tmpxx[i] = p + tmpdist[i]*
v;
344 tmpareacode[i] = GetAreaCode(tmpxx[i]);
346 if (tmpdist[i] >= 0) tmpisvalid[i] =
true;
350 tmpareacode[i] = GetAreaCode(tmpxx[i],
false);
352 if (tmpdist[i] >= 0) tmpisvalid[i] =
true;
357 if (tmpxx[i].
x() > 0) {
359 if (tmpdist[i] >= 0) tmpisvalid[i] =
true;
368 if (tmpdist[0] <= tmpdist[1]) {
369 distance[0] = tmpdist[0];
370 distance[1] = tmpdist[1];
375 areacode[0] = tmpareacode[0];
376 areacode[1] = tmpareacode[1];
377 isvalid[0] = tmpisvalid[0];
378 isvalid[1] = tmpisvalid[1];
380 distance[0] = tmpdist[1];
381 distance[1] = tmpdist[0];
386 areacode[0] = tmpareacode[1];
387 areacode[1] = tmpareacode[0];
388 isvalid[0] = tmpisvalid[1];
389 isvalid[1] = tmpisvalid[0];
393 isvalid[0], 2, validate, &gp, &gv);
395 isvalid[1], 2, validate, &gp, &gv);
399 for (
G4int k=0; k<2; k++) {
400 if (!isvalid[k])
continue;
403 * xx[k].
z() , xx[k].
z());
404 G4double deltaY = (xx[k] - xxonsurface).mag();
411 for (l=0; l<maxcount; l++) {
414 surfacenormal, xx[k]);
415 deltaY = (xx[k] - xxonsurface).mag();
416 if (deltaY > lastdeltaY) {
425 xxonsurface.
set(xx[k].
x(),
426 fKappa * std::fabs(xx[k].
x()) * xx[k].
z(),
430 std::ostringstream message;
431 message <<
"Exceeded maxloop count!" <<
G4endl
432 <<
" maxloop count " << maxcount;
433 G4Exception(
"G4TwistTubsFlatSide::DistanceToSurface(p,v)",
445 isvalid[0], 0, validate, &gp, &gv);
470 for (i=0; i<2; i++) {
491 for (i=0; i<2; i++) {
495 if ((gp - lastgxx[0]).mag() < halftol
496 || (gp - lastgxx[1]).mag() < halftol) {
548 }
else if (p.
z() < C.
z()) {
554 }
else if (p.
z() < A.
z()) {
563 for (i=0; i<2; i++) {
566 B = x0[i] + ((A.
z() - x0[i].
z()) / d[i].
z()) * d[i];
570 D = x0[i] + ((C.
z() - x0[i].
z()) / d[i].
z()) * d[i];
604 }
else if (test < 0) {
636 if (std::fabs(distToACB) <= halftol || std::fabs(distToCAD) <= halftol) {
637 xx = (std::fabs(distToACB) < std::fabs(distToCAD) ? xxacb : xxcad);
647 if (distToACB * distToCAD > 0 && distToACB < 0) {
651 distance[0] = DistanceToPlane(p, A, B, C, D, parity, xx, normal);
653 if (distToACB * distToCAD > 0) {
656 if (distToACB <= distToCAD) {
657 distance[0] = distToACB;
660 distance[0] = distToCAD;
667 distance[0] = distToACB;
670 distance[0] = distToCAD;
709 if (distToanm * distTocmn > 0 && distToanm < 0) {
712 "Point p is behind the surfaces.");
716 if (std::fabs(distToanm) <= halftol) {
720 }
else if (std::fabs(distTocmn) <= halftol) {
726 if (distToanm <= distTocmn) {
734 return DistanceToPlane(p, A, M, N, D, parity, xx, n);
744 return DistanceToPlane(p, C, N, M, B, parity, xx, n);
773 if (xx.
x() <=
fAxisMin[xaxis] - ctol) isoutside =
true;
775 }
else if (xx.
x() >
fAxisMax[xaxis] - ctol) {
777 if (xx.
x() >=
fAxisMax[xaxis] + ctol) isoutside =
true;
787 if (xx.
z() <=
fAxisMin[zaxis] - ctol) isoutside =
true;
789 }
else if (xx.
z() >
fAxisMax[zaxis] - ctol) {
792 if (areacode & sBoundary) areacode |=
sCorner;
794 if (xx.
z() >=
fAxisMax[zaxis] + ctol) isoutside =
true;
802 areacode = tmpareacode;
803 }
else if ((areacode & sBoundary) !=
sBoundary) {
821 if (areacode & sBoundary) areacode |=
sCorner;
826 if (areacode & sBoundary) areacode |=
sCorner;
830 if ((areacode & sBoundary) !=
sBoundary) {
838 "Feature NOT implemented !");
846 void G4TwistTubsSide::SetCorners(
862 x = endInnerRad[zmin]*std::cos(endPhi[zmin]);
863 y = endInnerRad[zmin]*std::sin(endPhi[zmin]);
868 x = endOuterRad[zmin]*std::cos(endPhi[zmin]);
869 y = endOuterRad[zmin]*std::sin(endPhi[zmin]);
874 x = endOuterRad[zmax]*std::cos(endPhi[zmax]);
875 y = endOuterRad[zmax]*std::sin(endPhi[zmax]);
880 x = endInnerRad[zmax]*std::cos(endPhi[zmax]);
881 y = endInnerRad[zmax]*std::sin(endPhi[zmax]);
886 std::ostringstream message;
887 message <<
"Feature NOT implemented !" <<
G4endl
889 <<
" fAxis[1] = " <<
fAxis[1];
898 void G4TwistTubsSide::SetCorners()
902 "Method NOT implemented !");
908 void G4TwistTubsSide::SetBoundaries()
918 direction = direction.
unit();
924 direction = direction.
unit();
930 direction = direction.
unit();
936 direction = direction.
unit();
941 std::ostringstream message;
942 message <<
"Feature NOT implemented !" <<
G4endl
944 <<
" fAxis[1] = " <<
fAxis[1];
969 for ( i = 0 ; i<
n ; i++ )
974 for ( j = 0 ; j<k ; j++ ) {
976 nnode =
GetNode(i,j,k,n,iside) ;
982 x = xmin + j*(xmax-xmin)/(k-1) ;
984 x = xmax - j*(xmax-xmin)/(k-1) ;
989 xyz[nnode][0] = p.
x() ;
990 xyz[nnode][1] = p.
y() ;
991 xyz[nnode][2] = p.
z() ;
993 if ( i<n-1 && j<k-1 ) {
995 nface =
GetFace(i,j,k,n,iside) ;
static const G4int sAxisZ
void set(double x, double y, double z)
G4int GetAreacode(G4int i) const
void SetCorner(G4int areacode, G4double x, G4double y, G4double z)
virtual void GetFacets(G4int m, G4int n, G4double xyz[][3], G4int faces[][4], G4int iside)
static const G4int sC0Min1Max
virtual G4ThreeVector GetNormal(const G4ThreeVector &xx, G4bool isGlobal=false)
static const G4double kInfinity
G4ThreeVector ComputeGlobalDirection(const G4ThreeVector &lp) const
G4ThreeVector ComputeLocalDirection(const G4ThreeVector &gp) const
G4SurfCurNormal fCurrentNormal
std::vector< ExP01TrackerHit * > a
G4double DistanceToPlaneWithV(const G4ThreeVector &p, const G4ThreeVector &v, const G4ThreeVector &x0, const G4ThreeVector &n0, G4ThreeVector &xx)
G4ThreeVector GetCorner(G4int areacode) const
static const G4int sOutside
virtual G4ThreeVector GetBoundaryAtPZ(G4int areacode, const G4ThreeVector &p) const
virtual ~G4TwistTubsSide()
double B(double temperature)
G4ThreeVector ComputeGlobalPoint(const G4ThreeVector &lp) const
static const G4int sAxisX
static double normal(HepRandomEngine *eptr)
static const G4int sC0Min1Min
virtual void GetBoundaryParameters(const G4int &areacode, G4ThreeVector &d, G4ThreeVector &x0, G4int &boundarytype) const
double A(double temperature)
G4bool IsOutside(G4int areacode) const
G4double GetDistance(G4int i) const
static const G4int sAxis1
static const G4int sC0Max1Max
static const G4int sBoundary
G4double DistanceToLine(const G4ThreeVector &p, const G4ThreeVector &x0, const G4ThreeVector &d, G4ThreeVector &xx)
void SetCurrentStatus(G4int i, G4ThreeVector &xx, G4double &dist, G4int &areacode, G4bool &isvalid, G4int nxx, EValidate validate, const G4ThreeVector *p, const G4ThreeVector *v=0)
virtual G4double DistanceToBoundary(G4int areacode, G4ThreeVector &xx, const G4ThreeVector &p)
G4bool IsValid(G4int i) const
G4double DistanceToPlane(const G4ThreeVector &p, const G4ThreeVector &x0, const G4ThreeVector &n0, G4ThreeVector &xx)
static const G4int sAxis0
G4bool IsInside(G4int areacode, G4bool testbitmode=false) const
static const G4int sAxisMin
virtual G4double GetBoundaryMax(G4double phi)
virtual G4ThreeVector SurfacePoint(G4double, G4double, G4bool isGlobal=false)
static const G4int sInside
virtual G4double GetBoundaryMin(G4double phi)
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *comments)
static const G4int sCorner
G4int GetNode(G4int i, G4int j, G4int m, G4int n, G4int iside)
static const G4int sAxisMax
G4ThreeVector GetXX(G4int i) const
virtual G4int DistanceToSurface(const G4ThreeVector &gp, const G4ThreeVector &gv, G4ThreeVector gxx[], G4double distance[], G4int areacode[], G4bool isvalid[], EValidate validate=kValidateWithTol)
G4TwistTubsSide(const G4String &name, const G4RotationMatrix &rot, const G4ThreeVector &tlate, G4int handedness, const G4double kappa, const EAxis axis0=kXAxis, const EAxis axis1=kZAxis, G4double axis0min=-kInfinity, G4double axis1min=-kInfinity, G4double axis0max=kInfinity, G4double axis1max=kInfinity)
virtual void SetBoundary(const G4int &axiscode, const G4ThreeVector &direction, const G4ThreeVector &x0, const G4int &boundarytype)
virtual G4int AmIOnLeftSide(const G4ThreeVector &me, const G4ThreeVector &vec, G4bool withTol=true)
HepRotation & rotateZ(double delta)
G4int GetFace(G4int i, G4int j, G4int m, G4int n, G4int iside)
G4ThreeVector ComputeLocalPoint(const G4ThreeVector &gp) const
G4int GetEdgeVisibility(G4int i, G4int j, G4int m, G4int n, G4int number, G4int orientation)
static const G4int sC0Max1Min
CurrentStatus fCurStatWithV
void ResetfDone(EValidate validate, const G4ThreeVector *p, const G4ThreeVector *v=0)