200 Double_t distsq = (local[0]-o2[0])*(local[0]-o2[0]) +
201 (local[1]-o2[1])*(local[1]-o2[1]) +
202 (local[2]-o2[2])*(local[2]-o2[2]);
214 dir[0] = (ldir2[0]-ldir1[0])*distsq;
215 dir[1] = (ldir2[1]-ldir1[1])*distsq;
216 dir[2] = (ldir2[2]-ldir1[2])*distsq;
223 if (dist1 > dist2)
return kTRUE;
247 norm[i] = (dir[i]>0)?1:(-1);
262 if (do2<=(mind*mind))
return kTRUE;
264 if (do2<=rmax2)
return kTRUE;
266 Double_t doct = dx*dir[0]+dy*dir[1]+dz*dir[2];
268 if (doct<=0)
return kFALSE;
269 Double_t dirnorm=dir[0]*dir[0]+dir[1]*dir[1]+dir[2]*dir[2];
270 if ((doct*doct)>=(do2-rmax2)*dirnorm)
return kTRUE;
279 const Int_t numPoints = 8;
315 Error(
"Divide",
"Wrong axis type for division");
320 vmulti->AddVolume(vol);
323 for (
Int_t ic=0; ic<ndiv; ic++) {
369 for (i=0; i<3; i++) newpt[i] = point[i] -
fOrigin[i];
370 saf[0] =
fDX+newpt[0];
371 saf[1] =
fDX-newpt[0];
372 saf[2] =
fDY+newpt[1];
373 saf[3] =
fDY-newpt[1];
374 saf[4] =
fDZ+newpt[2];
375 saf[5] =
fDZ-newpt[2];
376 if (iact<3 && safe) {
379 for (i=1;i<6;i++)
if (saf[i] < smin) smin = saf[i];
381 if (smin<0) *safe = 0.0;
387 for (i=0; i<3; i++) {
389 s = (dir[i]>0)?(saf[(i<<1)+1]/dir[i]):(-saf[i<<1]/dir[i]);
390 if (s < 0)
return 0.0;
391 if (s < smin) smin =
s;
407 for (i=0; i<3; i++) newpt[i] = point[i] - origin[i];
408 saf[0] = dx+newpt[0];
409 saf[1] = dx-newpt[0];
410 saf[2] = dy+newpt[1];
411 saf[3] = dy-newpt[1];
412 saf[4] = dz+newpt[2];
413 saf[5] = dz-newpt[2];
416 for (i=0; i<3; i++) {
418 s = (dir[i]>0)?(saf[(i<<1)+1]/dir[i]):(-saf[i<<1]/dir[i]);
419 if (s < 0)
return 0.0;
420 if (s < smin) smin =
s;
437 for (i=0; i<3; i++) newpt[i] = point[i] -
fOrigin[i];
441 for (i=0; i<3; i++) {
444 if (in && saf[i]>0) in=
kFALSE;
446 if (iact<3 && safe) {
452 if (saf[1] > *safe) *safe = saf[1];
453 if (saf[2] > *safe) *safe = saf[2];
469 if (saf[2]>ss) j = 2;
473 for (i=0; i<3; i++) {
474 if (saf[i]<0)
continue;
475 if (newpt[i]*dir[i] >= 0)
continue;
478 for (j=0; j<3; j++) {
480 coord=newpt[j]+snxt*dir[j];
486 if (!ibreak)
return snxt;
503 for (i=0; i<3; i++) newpt[i] = point[i] - origin[i];
507 for (i=0; i<3; i++) {
510 if (in && saf[i]>0) in=
kFALSE;
516 for (i=0; i<3; i++) {
517 if (saf[i]<0)
continue;
518 if (newpt[i]*dir[i] >= 0)
continue;
521 for (j=0; j<3; j++) {
523 coord=newpt[j]+snxt*dir[j];
529 if (!ibreak)
return snxt;
630 if (index<0 || index>6)
return kFALSE;
634 for (
Int_t isurf=0; isurf<6; isurf++) {
636 if (isurf>0) surf[isurf] += surf[isurf-1];
641 for (
Int_t i=0; i<npoints; i++) {
644 Int_t surfindex = index;
648 if (surfindex>6) surfindex=6;
702 Int_t ipoints = npoints - npnts;
703 Int_t icrt = 3*npnts;
707 for (
Int_t i=0; i<nsegs; i++) {
708 p0 = &array[3*buff.
fSegs[3*i+1]];
709 p1 = &array[3*buff.
fSegs[3*i+2]];
710 if (i==(nsegs-1)) nperseg = ipoints;
711 dx = (p1[0]-p0[0])/(nperseg+1);
712 dy = (p1[1]-p0[1])/(nperseg+1);
713 dz = (p1[2]-p0[2])/(nperseg+1);
714 for (
Int_t j=0; j<nperseg; j++) {
715 x = p0[0] + (j+1)*dx;
716 y = p0[1] + (j+1)*dy;
717 z = p0[2] + (j+1)*dz;
718 array[icrt++] =
x; array[icrt++] =
y; array[icrt++] =
z;
732 Error(
"GetFittingBox",
"cannot handle parametrized rotated volumes");
739 Error(
"GetFittingBox",
"wrong matrix - parametrized box is outside this");
745 dd[0] = parambox->
GetDX();
746 dd[1] = parambox->
GetDY();
747 dd[2] = parambox->
GetDZ();
748 for (
Int_t iaxis=0; iaxis<3; iaxis++) {
749 if (dd[iaxis]>=0)
continue;
752 dd[iaxis] =
TMath::Min(origin[iaxis]-xlo, xhi-origin[iaxis]);
754 Error(
"GetFittingBox",
"wrong matrix");
774 Error(
"GetMakeRuntimeShape",
"cannot fit this to mother");
795 printf(
"*** Shape %s: TGeoBBox ***\n",
GetName());
796 printf(
" dX = %11.5f\n",
fDX);
797 printf(
" dY = %11.5f\n",
fDY);
798 printf(
" dZ = %11.5f\n",
fDZ);
862 if (safy < safe) safe = safy;
863 if (safz < safe) safe = safz;
868 if (safy > safe) safe = safy;
869 if (safz > safe) safe = safz;
881 out <<
" dx = " <<
fDX <<
";" << std::endl;
882 out <<
" dy = " <<
fDY <<
";" << std::endl;
883 out <<
" dz = " <<
fDZ <<
";" << std::endl;
887 out <<
" origin[0] = " <<
fOrigin[0] <<
";" << std::endl;
888 out <<
" origin[1] = " <<
fOrigin[1] <<
";" << std::endl;
889 out <<
" origin[2] = " <<
fOrigin[2] <<
";" << std::endl;
890 out <<
" TGeoShape *" <<
GetPointerName() <<
" = new TGeoBBox(\"" <<
GetName() <<
"\", dx,dy,dz,origin);" << std::endl;
892 out <<
" TGeoShape *" <<
GetPointerName() <<
" = new TGeoBBox(\"" <<
GetName() <<
"\", dx,dy,dz);" << std::endl;
925 Error(
"SetDimensions",
"null parameters");
953 xmax =
fDX+fOrigin[0];
954 ymin = -
fDY+fOrigin[1];
955 ymax =
fDY+fOrigin[1];
956 zmin = -
fDZ+fOrigin[2];
957 zmax =
fDZ+fOrigin[2];
958 points[ 0] =
xmin; points[ 1] =
ymin; points[ 2] = zmin;
959 points[ 3] =
xmin; points[ 4] =
ymax; points[ 5] = zmin;
960 points[ 6] =
xmax; points[ 7] =
ymax; points[ 8] = zmin;
961 points[ 9] =
xmax; points[10] =
ymin; points[11] = zmin;
962 points[12] =
xmin; points[13] =
ymin; points[14] = zmax;
963 points[15] =
xmin; points[16] =
ymax; points[17] = zmax;
964 points[18] =
xmax; points[19] =
ymax; points[20] = zmax;
965 points[21] =
xmax; points[22] =
ymin; points[23] = zmax;
976 xmax =
fDX+fOrigin[0];
977 ymin = -
fDY+fOrigin[1];
978 ymax =
fDY+fOrigin[1];
979 zmin = -
fDZ+fOrigin[2];
980 zmax =
fDZ+fOrigin[2];
981 points[ 0] =
xmin; points[ 1] =
ymin; points[ 2] = zmin;
982 points[ 3] =
xmin; points[ 4] =
ymax; points[ 5] = zmin;
983 points[ 6] =
xmax; points[ 7] =
ymax; points[ 8] = zmin;
984 points[ 9] =
xmax; points[10] =
ymin; points[11] = zmin;
985 points[12] =
xmin; points[13] =
ymin; points[14] = zmax;
986 points[15] =
xmin; points[16] =
ymax; points[17] = zmax;
987 points[18] =
xmax; points[19] =
ymax; points[20] = zmax;
988 points[21] =
xmax; points[22] =
ymin; points[23] = zmax;
1012 if (buffer.
SetRawSizes(8, 3*8, 12, 3*12, 6, 6*6)) {
1055 for (
Int_t i=0; i<vecsize; i++) inside[i] =
Contains(&points[3*i]);
1065 for (
Int_t i=0; i<vecsize; i++)
ComputeNormal(&points[3*i], &dirs[3*i], &norms[3*i]);
1073 for (
Int_t i=0; i<vecsize; i++) dists[i] =
DistFromInside(&points[3*i], &dirs[3*i], 3, step[i]);
1081 for (
Int_t i=0; i<vecsize; i++) dists[i] =
DistFromOutside(&points[3*i], &dirs[3*i], 3, step[i]);
1091 for (
Int_t i=0; i<vecsize; i++) safe[i] =
Safety(&points[3*i], inside[i]);
TGeoVolumeMulti * MakeVolumeMulti(const char *name, TGeoMedium *medium)
Make a TGeoVolumeMulti handling a list of volumes.
virtual void ComputeNormal(const Double_t *point, const Double_t *dir, Double_t *norm)
Computes normal to closest surface from POINT.
static Bool_t AreOverlapping(const TGeoBBox *box1, const TGeoMatrix *mat1, const TGeoBBox *box2, const TGeoMatrix *mat2)
Check if 2 positioned boxes overlap.
virtual Bool_t GetPointsOnFacet(Int_t index, Int_t npoints, Double_t *array) const
Fills array with n random points located on the surface of indexed facet.
virtual void MasterToLocalVect(const Double_t *master, Double_t *local) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix
void SetFinder(TGeoPatternFinder *finder)
virtual Double_t GetAxisRange(Int_t iaxis, Double_t &xlo, Double_t &xhi) const
Get range of shape for a given axis.
virtual Double_t GetDX() const
virtual void ComputeNormal_v(const Double_t *points, const Double_t *dirs, Double_t *norms, Int_t vecsize)
Compute the normal for an array o points so that norm.dot.dir is positive Input: Arrays of point coor...
void AddNodeOffset(TGeoVolume *vol, Int_t copy_no, Double_t offset=0, Option_t *option="")
Add a division node to the list of nodes.
Geometrical transformation package.
virtual void DistFromInside_v(const Double_t *points, const Double_t *dirs, Double_t *dists, Int_t vecsize, Double_t *step) const
Compute distance from array of input points having directions specified by dirs. Store output in dist...
virtual TGeoShape * GetMakeRuntimeShape(TGeoShape *mother, TGeoMatrix *mat) const
In case shape has some negative parameters, these has to be computed in order to fit the mother...
TGeoVolume, TGeoVolumeMulti, TGeoVolumeAssembly are the volume classes.
R__ALWAYS_INLINE Bool_t TestBit(UInt_t f) const
virtual Double_t DistFromInside(const Double_t *point, const Double_t *dir, Int_t iact=1, Double_t step=TGeoShape::Big(), Double_t *safe=0) const
Compute distance from inside point to surface of the box.
virtual TBuffer3D * MakeBuffer3D() const
Creates a TBuffer3D describing this shape.
Short_t Min(Short_t a, Short_t b)
virtual void GetMeshNumbers(Int_t &nvert, Int_t &nsegs, Int_t &npols) const
Returns numbers of vertices, segments and polygons composing the shape mesh.
virtual void InspectShape() const
Prints shape parameters.
TObject * At(Int_t idx) const
virtual void ComputeBBox()
Compute bounding box - nothing to do in this case.
static Bool_t IsSameWithinTolerance(Double_t a, Double_t b)
Check if two numbers differ with less than a tolerance.
void SetBit(UInt_t f, Bool_t set)
Set or unset the user status bits as specified in f.
static Double_t Tolerance()
Int_t GetNdaughters() const
virtual void FillBuffer3D(TBuffer3D &buffer, Int_t reqSections, Bool_t localFrame) const
Fill the supplied buffer, with sections in desired frame See TBuffer3D.h for explanation of sections...
virtual const char * ClassName() const
Returns name of class to which the object belongs.
virtual Int_t GetNmeshVertices() const
TGeoMedium * GetMedium() const
void SetSectionsValid(UInt_t mask)
void SetBoxPoints(Double_t *points) const
Fill box vertices to an array.
const char * GetPointerName() const
Provide a pointer name containing uid.
virtual Double_t Rndm()
Machine independent random number generator.
Base finder class for patterns.
virtual const char * GetName() const
Get the shape name.
Int_t ShapeDistancetoPrimitive(Int_t numpoints, Int_t px, Int_t py) const
Returns distance to shape primitive mesh.
Bool_t SectionsValid(UInt_t mask) const
Base abstract class for all shapes.
void SetAABoundingBox(const Double_t origin[3], const Double_t halfLengths[3])
Set fBBVertex in kBoundingBox section to a axis aligned (local) BB using supplied origin and box half...
virtual void Contains_v(const Double_t *points, Bool_t *inside, Int_t vecsize) const
Check the inside status for each of the points in the array.
virtual ~TGeoBBox()
Destructor.
virtual void Sizeof3D() const
virtual void DistFromOutside_v(const Double_t *points, const Double_t *dirs, Double_t *dists, Int_t vecsize, Double_t *step) const
Compute distance from array of input points having directions specified by dirs. Store output in dist...
void TransformPoints(Double_t *points, UInt_t NbPoints) const
Tranform a set of points (LocalToMaster)
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
virtual const Double_t * GetOrigin() const
Bool_t SetRawSizes(UInt_t reqPnts, UInt_t reqPntsCapacity, UInt_t reqSegs, UInt_t reqSegsCapacity, UInt_t reqPols, UInt_t reqPolsCapacity)
Set kRaw tessellation section of buffer with supplied sizes.
Generic 3D primitive description class.
virtual void SetDimensions(Double_t *param)
Set dimensions based on the array of parameters param[0] - half-length in x param[1] - half-length in...
static double p1(double t, double a, double b)
R__EXTERN TRandom * gRandom
virtual Double_t GetDY() const
void SetDivIndex(Int_t index)
void SetBoxDimensions(Double_t dx, Double_t dy, Double_t dz, Double_t *origin=0)
Set parameters of the box.
virtual void LocalToMaster(const Double_t *local, Double_t *master) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix inverse
virtual Double_t Safety(const Double_t *point, Bool_t in=kTRUE) const
Computes the closest distance from given point to this shape.
virtual TGeoVolume * Divide(TGeoVolume *voldiv, const char *divname, Int_t iaxis, Int_t ndiv, Double_t start, Double_t step)
Divide this box shape belonging to volume "voldiv" into ndiv equal volumes called divname...
Bool_t IsRotation() const
virtual Int_t GetFittingBox(const TGeoBBox *parambox, TGeoMatrix *mat, Double_t &dx, Double_t &dy, Double_t &dz) const
Fills real parameters of a positioned box inside this one. Returns 0 if successful.
virtual void SetPoints(Double_t *points) const
Fill box points.
virtual Double_t Capacity() const
Computes capacity of the shape in [length^3].
R__EXTERN TGeoManager * gGeoManager
virtual void MasterToLocal(const Double_t *master, Double_t *local) const
convert a point by multiplying its column vector (x, y, z, 1) to matrix
virtual void SavePrimitive(std::ostream &out, Option_t *option="")
Save a primitive as a C++ statement(s) on output stream "out".
virtual Double_t DistFromOutside(const Double_t *point, const Double_t *dir, Int_t iact=1, Double_t step=TGeoShape::Big(), Double_t *safe=0) const
Compute distance from outside point to surface of the box.
Bool_t TestShapeBit(UInt_t f) const
Node containing an offset.
static constexpr double s
virtual Bool_t CouldBeCrossed(const Double_t *point, const Double_t *dir) const
Decides fast if the bounding box could be crossed by a vector.
virtual Double_t GetFacetArea(Int_t index=0) const
Get area in internal units of the facet with a given index.
virtual void SetSegsAndPols(TBuffer3D &buffer) const
Fills TBuffer3D structure for segments and polygons.
void SetShapeBit(UInt_t f, Bool_t set)
Equivalent of TObject::SetBit.
you should not use this method at all Int_t Int_t z
virtual void FillBuffer3D(TBuffer3D &buffer, Int_t reqSections, Bool_t localFrame) const
Fills the supplied buffer, with sections in desired frame See TBuffer3D.h for explanation of sections...
virtual const char * GetAxisName(Int_t iaxis) const
Returns name of axis IAXIS.
virtual const TBuffer3D & GetBuffer3D(Int_t reqSections, Bool_t localFrame) const
Fills a static 3D buffer and returns a reference.
virtual Bool_t Contains(const Double_t *point) const
Test if point is inside this shape.
virtual Bool_t GetPointsOnSegments(Int_t npoints, Double_t *array) const
Fills array with n random points located on the line segments of the shape mesh.
virtual void GetBoundingCylinder(Double_t *param) const
Fill vector param[4] with the bounding cylinder parameters.
virtual Int_t GetFittingBox(const TGeoBBox *parambox, TGeoMatrix *mat, Double_t &dx, Double_t &dy, Double_t &dz) const =0
Double_t Sqrt(Double_t x)
Long64_t LocMin(Long64_t n, const T *a)
Return index of array with the minimum element.
Int_t GetBasicColor() const
Get the basic color (0-7).
virtual void Safety_v(const Double_t *points, const Bool_t *inside, Double_t *safe, Int_t vecsize) const
Compute safe distance from each of the points in the input array.
TGeoBBox()
Default constructor.
virtual Int_t DistancetoPrimitive(Int_t px, Int_t py)
Compute closest distance from point px,py to each corner.
Long64_t BinarySearch(Long64_t n, const T *array, T value)
Binary search in an array of n values to locate value.
virtual Double_t GetDZ() const
const char * Data() const