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Reference Guide
shapes.py File Reference

Namespaces

namespace  shapes
 

Detailed Description

View in nbviewer Open in SWAN Draw the geometry using the x3d viewver.

Note that this viewver may also be invoked from the "View" menu in the canvas tool bar

once in x3d viewer, type m to see the menu. For example typing r will show a solid model of this geometry.

import ROOT
c1 = ROOT.TCanvas( 'c1', 'Geometry Shapes', 200, 10, 700, 500 )
# delete previous geometry objects in case this script is reexecuted
if hasattr(ROOT, 'gGeometry') and ROOT.gGeometry:
ROOT.gGeometry.GetListOfNodes().Delete()
ROOT.gGeometry.GetListOfShapes().Delete()
# Define some volumes
brik = ROOT.TBRIK( 'BRIK', 'BRIK', 'void', 200, 150, 150 )
trd1 = ROOT.TTRD1( 'TRD1', 'TRD1', 'void', 200, 50, 100, 100 )
trd2 = ROOT.TTRD2( 'TRD2', 'TRD2', 'void', 200, 50, 200, 50, 100 )
trap = ROOT.TTRAP( 'TRAP', 'TRAP', 'void', 190, 0, 0, 60, 40, 90, 15, 120, 80, 180, 15 )
para = ROOT.TPARA( 'PARA', 'PARA', 'void', 100, 200, 200, 15, 30, 30 )
gtra = ROOT.TGTRA( 'GTRA', 'GTRA', 'void', 390, 0, 0, 20, 60, 40, 90, 15, 120, 80, 180, 15 )
tube = ROOT.TTUBE( 'TUBE', 'TUBE', 'void', 150, 200, 400 )
tubs = ROOT.TTUBS( 'TUBS', 'TUBS', 'void', 80, 100, 100, 90, 235 )
cone = ROOT.TCONE( 'CONE', 'CONE', 'void', 100, 50, 70, 120, 150 )
cons = ROOT.TCONS( 'CONS', 'CONS', 'void', 50, 100, 100, 200, 300, 90, 270 )
sphe = ROOT.TSPHE( 'SPHE', 'SPHE', 'void', 25, 340, 45, 135, 0, 270 )
sphe1 = ROOT.TSPHE( 'SPHE1', 'SPHE1', 'void', 0, 140, 0, 180, 0, 360 )
sphe2 = ROOT.TSPHE( 'SPHE2', 'SPHE2', 'void', 0, 200, 10, 120, 45, 145 )
pcon = ROOT.TPCON( 'PCON', 'PCON', 'void', 180, 270, 4 )
pcon.DefineSection( 0, -200, 50, 100 )
pcon.DefineSection( 1, -50, 50, 80 )
pcon.DefineSection( 2, 50, 50, 80 )
pcon.DefineSection( 3, 200, 50, 100 )
pgon = ROOT.TPGON( 'PGON', 'PGON', 'void', 180, 270, 8, 4 )
pgon.DefineSection( 0, -200, 50, 100 )
pgon.DefineSection( 1, -50, 50, 80 )
pgon.DefineSection( 2, 50, 50, 80 )
pgon.DefineSection( 3, 200, 50, 100 )
# Set shapes attributes
brik.SetLineColor( 1 )
trd1.SetLineColor( 2 )
trd2.SetLineColor( 3 )
trap.SetLineColor( 4 )
para.SetLineColor( 5 )
gtra.SetLineColor( 7 )
tube.SetLineColor( 6 )
tubs.SetLineColor( 7 )
cone.SetLineColor( 2 )
cons.SetLineColor( 3 )
pcon.SetLineColor( 6 )
pgon.SetLineColor( 2 )
sphe.SetLineColor( ROOT.kRed )
sphe1.SetLineColor( ROOT.kBlack )
sphe2.SetLineColor( ROOT.kBlue )
# Build the geometry hierarchy
node1 = ROOT.TNode( 'NODE1', 'NODE1', 'BRIK' )
node1.cd()
node2 = ROOT.TNode( 'NODE2', 'NODE2', 'TRD1', 0, 0, -1000 )
node3 = ROOT.TNode( 'NODE3', 'NODE3', 'TRD2', 0, 0, 1000 )
node4 = ROOT.TNode( 'NODE4', 'NODE4', 'TRAP', 0, -1000, 0 )
node5 = ROOT.TNode( 'NODE5', 'NODE5', 'PARA', 0, 1000, 0 )
node6 = ROOT.TNode( 'NODE6', 'NODE6', 'TUBE', -1000, 0, 0 )
node7 = ROOT.TNode( 'NODE7', 'NODE7', 'TUBS', 1000, 0, 0 )
node8 = ROOT.TNode( 'NODE8', 'NODE8', 'CONE', -300, -300, 0 )
node9 = ROOT.TNode( 'NODE9', 'NODE9', 'CONS', 300, 300, 0 )
node10 = ROOT.TNode( 'NODE10', 'NODE10', 'PCON', 0, -1000, -1000 )
node11 = ROOT.TNode( 'NODE11', 'NODE11', 'PGON', 0, 1000, 1000 )
node12 = ROOT.TNode( 'NODE12', 'NODE12', 'GTRA', 0, -400, 700 )
node13 = ROOT.TNode( 'NODE13', 'NODE13', 'SPHE', 10, -400, 500 )
node14 = ROOT.TNode( 'NODE14', 'NODE14', 'SPHE1', 10, 250, 300 )
node15 = ROOT.TNode( 'NODE15', 'NODE15', 'SPHE2', 10, -100, -200 )
# for memory management
list_of_locals = dict(locals())
for l, o in list_of_locals.items():
if isinstance( o, ROOT.TShape ) or isinstance( o, ROOT.TNode ):
ROOT.SetOwnership( o, False )
# Draw this geometry in the current canvas
node1.cd()
node1.Draw( 'gl' )
c1.Update()
Author
Wim Lavrijsen

Definition in file shapes.py.