Drawing the Cheongwadae building which is the Presidential Residence of the Republic of Korea, using ROOT geometry class.
This macro was created for the evaluation of Computational Physics course in 2006. We thank to Prof. Inkyu Park for his special lecture on ROOT and to all of ROOT team
void cheongwadae()
{
char nBlocks[100];
int di[2]; di[0] = 0; di[1] = 30;
for(int k=0;k<7;k++){
for(int i=0;i<20;i++){
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.6,1.8,63);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.7,1.8,58);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 26,1.2,63);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 26,2,63);
for(int k=0;k<7;k++){
for(int i=0;i<20;i++){
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.6,1.8,63);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.7,1.8,58);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 26,1.2,63);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,22,58);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 3.5,8,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 3.5,8,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.2,0.1);
for(int k=0;k<7;k++){
for(int i=0;i<20;i++){
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.6,1.8,63);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 0.7,1.8,58);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 26,1.2,63);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 26,2,63);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 82,2,82);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 85,0.5,85);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 88,2,88);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 30, 0, 180, 0, 180);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 0.1,30,0.1);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeTubs(nBlocks,Iron, 0,30,4,360,360);
for(int i=0;i<8;i++){
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 2,22,2);
}
for(int i=0;i<8;i++){
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 2,22,2);
}
for(int i=0;i<7;i++){
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 2,22,2);
}
for(int i=0;i<7;i++){
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 2,22,2);
}
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 100,0.5,160);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 10,0.01,160);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeSphere(nBlocks, Iron, 0, 5, 0, 180, 0, 180);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 0.1,10,0.1);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 5,3,0.1);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 0.1,10,0.1);
sprintf(nBlocks,
"ab%d",
N++);
mBlock = geom->
MakeBox(nBlocks,Iron, 5,3,0.1);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 7,1.5,5);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 7,1,5);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 7,0.5,5);
sprintf(nBlocks,
"f%d_bg%d",
f,
N++);
mBlock = geom->
MakeBox(nBlocks, Iron, 7,0.1,5);
}
Class describing rotation + translation.
The manager class for any TGeo geometry.
void CloseGeometry(Option_t *option="d")
Closing geometry implies checking the geometry validity, fixing shapes with negative parameters (run-...
TGeoVolume * MakeBox(const char *name, TGeoMedium *medium, Double_t dx, Double_t dy, Double_t dz)
Make in one step a volume pointing to a box shape with given medium.
TGeoVolume * MakeSphere(const char *name, TGeoMedium *medium, Double_t rmin, Double_t rmax, Double_t themin=0, Double_t themax=180, Double_t phimin=0, Double_t phimax=360)
Make in one step a volume pointing to a sphere shape with given medium.
void SetTopVolume(TGeoVolume *vol)
Set the top volume and corresponding node as starting point of the geometry.
void SetTopVisible(Bool_t vis=kTRUE)
make top volume visible on screen
TGeoVolume * MakeTubs(const char *name, TGeoMedium *medium, Double_t rmin, Double_t rmax, Double_t dz, Double_t phi1, Double_t phi2)
Make in one step a volume pointing to a tube segment shape with given medium.
Base class describing materials.
Media are used to store properties related to tracking and which are useful only when using geometry ...
Class describing rotations.
Class describing translations.
TGeoVolume, TGeoVolumeMulti, TGeoVolumeAssembly are the volume classes.
virtual void SetVisibility(Bool_t vis=kTRUE)
set visibility of this volume
virtual void AddNodeOverlap(TGeoVolume *vol, Int_t copy_no, TGeoMatrix *mat=0, Option_t *option="")
Add a TGeoNode to the list of nodes.
virtual void Draw(Option_t *option="")
draw top volume according to option
virtual void SetLineColor(Color_t lcolor)
Set the line color.
