71 printf(
"trd2 : dx1=%f, dx2=%f, dy1=%f, dy2=%f, dz=%f\n", dx1, dx2, dy1, dy2, dz);
90 printf(
"trd2 : dx1=%f, dx2=%f, dy1=%f, dy2=%f, dz=%f\n", dx1, dx2, dy1, dy2, dz);
148 norm[0] = norm[1] = 0;
149 norm[2] = (dir[2] >= 0) ? 1 : -1;
156 if (safe < safemin) {
158 norm[0] = (point[0] > 0) ? calf : (-calf);
161 Double_t dot = norm[0] * dir[0] + norm[1] * dir[1] + norm[2] * dir[2];
175 distx = 0.5 * (
fDy1 +
fDy2) - fy * point[2];
178 if (safe < safemin) {
180 norm[1] = (point[1] > 0) ? calf : (-calf);
182 Double_t dot = norm[0] * dir[0] + norm[1] * dir[1] + norm[2] * dir[2];
217 if (iact < 3 && safe) {
222 if (iact == 1 && step < *safe)
236 for (
Int_t i = 0; i < 3; i++)
239 dist[0] = -(point[2] +
fDz) / dir[2];
240 }
else if (dir[2] > 0) {
241 dist[0] = (
fDz - point[2]) / dir[2];
246 cn = -dir[0] + fx * dir[2];
248 dist[1] = point[0] + distx;
253 cn = dir[0] + fx * dir[2];
263 cn = -dir[1] + fy * dir[2];
265 dist[2] = point[1] + disty;
270 cn = dir[1] + fy * dir[2];
289 if (iact < 3 && safe) {
294 if (iact == 1 && step < *safe)
311 if (point[2] <= -
fDz) {
318 xnew = point[0] + snxt * dir[0];
320 ynew = point[1] + snxt * dir[1];
324 }
else if (point[2] >=
fDz) {
331 xnew = point[0] + snxt * dir[0];
333 ynew = point[1] + snxt * dir[1];
339 if (point[0] <= -distx) {
340 cn = -dir[0] + fx * dir[2];
344 Double_t snxt = (point[0] + distx) / cn;
346 znew = point[2] + snxt * dir[2];
349 ynew = point[1] + snxt * dir[1];
354 if (point[0] >= distx) {
355 cn = dir[0] + fx * dir[2];
359 Double_t snxt = (distx - point[0]) / cn;
361 znew = point[2] + snxt * dir[2];
364 ynew = point[1] + snxt * dir[1];
370 if (point[1] <= -disty) {
371 cn = -dir[1] + fy * dir[2];
375 Double_t snxt = (point[1] + disty) / cn;
377 znew = point[2] + snxt * dir[2];
380 xnew = point[0] + snxt * dir[0];
385 if (point[1] >= disty) {
386 cn = dir[1] + fy * dir[2];
390 Double_t snxt = (disty - point[1]) / cn;
392 znew = point[2] + snxt * dir[2];
395 xnew = point[0] + snxt * dir[0];
403 if (safz < safx && safz < safy) {
404 if (point[2] * dir[2] >= 0)
409 cn =
TMath::Sign(1.0, point[1]) * dir[1] + fy * dir[2];
414 cn =
TMath::Sign(1.0, point[0]) * dir[0] + fx * dir[2];
452 memset(normals, 0, 9 *
sizeof(
Double_t));
454 if (point[0] > distx) {
464 if (point[1] > disty) {
474 if (point[2] >
fDz) {
494 normals[0] = -normals[0];
499 normals[4] = -normals[4];
504 normals[8] = -normals[8];
524 Double_t zmin, zmax, dx1n, dx2n, dy1n, dy2n;
528 case 1:
Warning(
"Divide",
"dividing a Trd2 on X not implemented");
return 0;
529 case 2:
Warning(
"Divide",
"dividing a Trd2 on Y not implemented");
return 0;
535 for (
id = 0;
id < ndiv;
id++) {
536 zmin = start +
id * step;
537 zmax = start + (
id + 1) * step;
542 shape =
new TGeoTrd2(dx1n, dx2n, dy1n, dy2n, step / 2.);
550 default:
Error(
"Divide",
"Wrong axis type for division");
return 0;
570 Error(
"GetFittingBox",
"cannot handle parametrized rotated volumes");
577 Error(
"GetFittingBox",
"wrong matrix - parametrized box is outside this");
582 dd[0] = parambox->
GetDX();
583 dd[1] = parambox->
GetDY();
584 dd[2] = parambox->
GetDZ();
589 Error(
"GetFittingBox",
"wrong matrix");
593 if (dd[0] >= 0 && dd[1] >= 0) {
605 dd[0] = dx0 - fx * z - origin[0];
606 dd[1] = dy0 - fy * z - origin[1];
607 z = origin[2] + dd[2];
608 dd[0] =
TMath::Min(dd[0], dx0 - fx * z - origin[0]);
609 dd[1] =
TMath::Min(dd[1], dy0 - fy * z - origin[1]);
610 if (dd[0] < 0 || dd[1] < 0) {
611 Error(
"GetFittingBox",
"wrong matrix");
629 Error(
"GetMakeRuntimeShape",
"invalid mother");
634 dx1 = ((
TGeoTrd2 *)mother)->GetDx1();
638 dx2 = ((
TGeoTrd2 *)mother)->GetDx2();
642 dy1 = ((
TGeoTrd2 *)mother)->GetDy1();
646 dy2 = ((
TGeoTrd2 *)mother)->GetDy2();
654 return (
new TGeoTrd2(dx1, dx2, dy1, dy2, dz));
662 printf(
"*** Shape %s: TGeoTrd2 ***\n",
GetName());
663 printf(
" dx1 = %11.5f\n",
fDx1);
664 printf(
" dx2 = %11.5f\n",
fDx2);
665 printf(
" dy1 = %11.5f\n",
fDy1);
666 printf(
" dy2 = %11.5f\n",
fDy2);
667 printf(
" dz = %11.5f\n",
fDz);
668 printf(
" Bounding box:\n");
689 saf[1] = (distx -
TMath::Abs(point[0])) * calf;
694 distx = 0.5 * (
fDy1 +
fDy2) - fy * point[2];
698 saf[2] = (distx -
TMath::Abs(point[1])) * calf;
702 for (
Int_t i = 0; i < 3; i++)
715 out <<
" dx1 = " <<
fDx1 <<
";" << std::endl;
716 out <<
" dx2 = " <<
fDx2 <<
";" << std::endl;
717 out <<
" dy1 = " <<
fDy1 <<
";" << std::endl;
718 out <<
" dy2 = " <<
fDy2 <<
";" << std::endl;
719 out <<
" dz = " <<
fDZ <<
";" << std::endl;
720 out <<
" TGeoShape *" <<
GetPointerName() <<
" = new TGeoTrd2(\"" <<
GetName() <<
"\", dx1,dx2,dy1,dy2,dz);"
847 for (
Int_t i = 0; i < vecsize; i++)
858 for (
Int_t i = 0; i < vecsize; i++)
868 for (
Int_t i = 0; i < vecsize; i++)
878 for (
Int_t i = 0; i < vecsize; i++)
889 for (
Int_t i = 0; i < vecsize; i++)
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize id
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t points
R__EXTERN TGeoManager * gGeoManager
virtual const Double_t * GetOrigin() const
void GetBoundingCylinder(Double_t *param) const override
Fill vector param[4] with the bounding cylinder parameters.
virtual Double_t GetDX() const
virtual Double_t GetDZ() const
virtual Double_t GetDY() const
void InspectShape() const override
Prints shape parameters.
void Sizeof3D() const override
TGeoVolumeMulti * MakeVolumeMulti(const char *name, TGeoMedium *medium)
Make a TGeoVolumeMulti handling a list of volumes.
Geometrical transformation package.
Bool_t IsRotation() const
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
Node containing an offset.
Base finder class for patterns.
void SetDivIndex(Int_t index)
Base abstract class for all shapes.
void SetShapeBit(UInt_t f, Bool_t set)
Equivalent of TObject::SetBit.
const char * GetPointerName() const
Provide a pointer name containing uid.
const char * GetName() const override
Get the shape name.
static Double_t Tolerance()
Bool_t TestShapeBit(UInt_t f) const
A trapezoid with only X varying with Z.
void DistFromOutside_v(const Double_t *points, const Double_t *dirs, Double_t *dists, Int_t vecsize, Double_t *step) const override
Compute distance from array of input points having directions specified by dirs. Store output in dist...
Int_t GetFittingBox(const TGeoBBox *parambox, TGeoMatrix *mat, Double_t &dx, Double_t &dy, Double_t &dz) const override
Fills real parameters of a positioned box inside this. Returns 0 if successful.
Double_t DistFromOutside(const Double_t *point, const Double_t *dir, Int_t iact=1, Double_t step=TGeoShape::Big(), Double_t *safe=nullptr) const override
Compute distance from outside point to surface of the trd2 Boundary safe algorithm.
Double_t Safety(const Double_t *point, Bool_t in=kTRUE) const override
computes the closest distance from given point to this shape, according to option.
void SavePrimitive(std::ostream &out, Option_t *option="") override
Save a primitive as a C++ statement(s) on output stream "out".
void SetPoints(Double_t *points) const override
create trd2 mesh points
void ComputeNormal(const Double_t *point, const Double_t *dir, Double_t *norm) override
Compute normal to closest surface from POINT.
void Sizeof3D() const override
fill size of this 3-D object
Double_t Capacity() const override
Computes capacity of the shape in [length^3].
void ComputeBBox() override
compute bounding box for a trd2
Double_t GetAxisRange(Int_t iaxis, Double_t &xlo, Double_t &xhi) const override
Get range of shape for a given axis.
void Safety_v(const Double_t *points, const Bool_t *inside, Double_t *safe, Int_t vecsize) const override
Compute safe distance from each of the points in the input array.
void SetDimensions(Double_t *param) override
set arb8 params in one step :
void DistFromInside_v(const Double_t *points, const Double_t *dirs, Double_t *dists, Int_t vecsize, Double_t *step) const override
Compute distance from array of input points having directions specified by dirs. Store output in dist...
TGeoVolume * Divide(TGeoVolume *voldiv, const char *divname, Int_t iaxis, Int_t ndiv, Double_t start, Double_t step) override
Divide this trd2 shape belonging to volume "voldiv" into ndiv volumes called divname,...
void GetBoundingCylinder(Double_t *param) const override
Fill vector param[4] with the bounding cylinder parameters.
void ComputeNormal_v(const Double_t *points, const Double_t *dirs, Double_t *norms, Int_t vecsize) override
Compute the normal for an array o points so that norm.dot.dir is positive Input: Arrays of point coor...
void GetOppositeCorner(const Double_t *point, Int_t inorm, Double_t *vertex, Double_t *normals) const
get the opposite corner of the intersected face
void SetVertex(Double_t *vertex) const
set vertex of a corner according to visibility flags
Bool_t Contains(const Double_t *point) const override
test if point is inside this shape check Z range
Double_t DistFromInside(const Double_t *point, const Double_t *dir, Int_t iact=1, Double_t step=TGeoShape::Big(), Double_t *safe=nullptr) const override
Compute distance from inside point to surface of the trd2 Boundary safe algorithm.
void InspectShape() const override
print shape parameters
void GetVisibleCorner(const Double_t *point, Double_t *vertex, Double_t *normals) const
get the most visible corner from outside point and the normals
void Contains_v(const Double_t *points, Bool_t *inside, Int_t vecsize) const override
Check the inside status for each of the points in the array.
TGeoShape * GetMakeRuntimeShape(TGeoShape *mother, TGeoMatrix *mat) const override
in case shape has some negative parameters, these has to be computed in order to fit the mother
~TGeoTrd2() override
destructor
void AddVolume(TGeoVolume *vol)
Add a volume with valid shape to the list of volumes.
TGeoVolume, TGeoVolumeMulti, TGeoVolumeAssembly are the volume classes.
void AddNodeOffset(TGeoVolume *vol, Int_t copy_no, Double_t offset=0, Option_t *option="")
Add a division node to the list of nodes.
TGeoMedium * GetMedium() const
void SetFinder(TGeoPatternFinder *finder)
Int_t GetNdaughters() const
TObject * At(Int_t idx) const override
R__ALWAYS_INLINE Bool_t TestBit(UInt_t f) const
virtual const char * ClassName() const
Returns name of class to which the object belongs.
virtual void Warning(const char *method, const char *msgfmt,...) const
Issue warning message.
void SetBit(UInt_t f, Bool_t set)
Set or unset the user status bits as specified in f.
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
const char * Data() const
Long64_t LocMin(Long64_t n, const T *a)
Returns index of array with the minimum element.
Short_t Max(Short_t a, Short_t b)
Returns the largest of a and b.
T1 Sign(T1 a, T2 b)
Returns a value with the magnitude of a and the sign of b.
Long64_t LocMax(Long64_t n, const T *a)
Returns index of array with the maximum element.
Double_t Sqrt(Double_t x)
Returns the square root of x.
Short_t Min(Short_t a, Short_t b)
Returns the smallest of a and b.
Short_t Abs(Short_t d)
Returns the absolute value of parameter Short_t d.