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src/cb_CTD_Si.cpp deleted 100644 → 0
View file @ ef97d84c
#include <XML/Helper.h>
#include "DDRec/Surface.h"
#include "DDRec/DetectorData.h"
#include "DD4hep/OpticalSurfaces.h"
#include "DD4hep/DetFactoryHelper.h"
#include "DD4hep/Printout.h"
//////////////////////////////////
// Central Barrel Tracker Silicon
//////////////////////////////////
using namespace std;
using namespace dd4hep;
static Ref_t createDetector(Detector& desc, xml_h e, SensitiveDetector sens)
{
xml_det_t x_det = e;
string detName = x_det.nameStr();
int detID = x_det.id();
xml_dim_t dim = x_det.dimensions();
double RIn = dim.rmin();
double ROut = dim.rmax();
double SizeZ = dim.length();
double SizeZCut = dim.zmax();
double SiLayerGap = dim.gap();
Material Vacuum = desc.material("Vacuum");
// Create Global Volume
Tube cb_CTD_GVol_Solid(RIn, ROut, SizeZ / 2.0, 0., 360.0 * deg);
Volume detVol("cb_CTD_GVol_Logic", cb_CTD_GVol_Solid, Vacuum);
detVol.setVisAttributes(desc.visAttributes(x_det.visStr()));
// Construct Silicon Layers
xml_comp_t x_layer = x_det.child(_U(layer));
const int repeat = x_layer.repeat();
xml_comp_t x_slice = x_layer.child(_U(slice));
Material slice_mat = desc.material(x_slice.materialStr());
double layerRIn[100];
double layerROut[100];
// Loop over layers
for(int i = 0; i < repeat; i++) {
layerRIn[i] = RIn + (SiLayerGap * i);
layerROut[i] = RIn + (0.01 + SiLayerGap * i);
if (layerROut[i] > ROut)
continue;
string logic_layer_name = detName + _toString(i, "_Logic_lay_%d");
if (i==7){logic_layer_name = detName + _toString(20, "_Logic_lay_%d");}
Volume layerVol(logic_layer_name,Tube(layerRIn[i], layerROut[i], SizeZ / 2.0, 0.0, 360.0 * deg), slice_mat);
layerVol.setVisAttributes(desc,x_layer.visStr());
sens.setType("tracker");
layerVol.setSensitiveDetector(sens);
Position layer_pos = Position(0.0, 0.0, 0.0);
PlacedVolume layerPV = detVol.placeVolume(layerVol, layer_pos);
layerPV.addPhysVolID("layer", i+1);
}
DetElement det(detName, detID);
Volume motherVol = desc.pickMotherVolume(det);
Transform3D tr(RotationZYX(0.0, 0.0, 0.0), Position(0.0, 0.0, 0.0));
PlacedVolume detPV = motherVol.placeVolume(detVol, tr);
detPV.addPhysVolID("system", detID);
detPV.addPhysVolID("barrel", 1);
det.setPlacement(detPV);
return det;
}
DECLARE_DETELEMENT(cb_CTD_Si, createDetector)
src/cb_DIRC.cpp deleted 100644 → 0
View file @ ef97d84c
#include "DD4hep/DetFactoryHelper.h"
#include "DD4hep/OpticalSurfaces.h"
#include "DD4hep/Printout.h"
#include "DDRec/DetectorData.h"
#include "DDRec/Surface.h"
#include <XML/Helper.h>
//////////////////////////////////
// Central Barrel DIRC
//////////////////////////////////
using namespace std;
using namespace dd4hep;
static Ref_t createDetector(Detector& desc, xml_h e, SensitiveDetector sens)
{
xml_det_t x_det = e;
string detName = x_det.nameStr();
int detID = x_det.id();
xml_dim_t dim = x_det.dimensions();
xml_dim_t pos = x_det.position();
double RIn = dim.rmin();
double ROut = dim.rmax();
double SizeZ = dim.length();
Material Vacuum = desc.material("Vacuum");
Tube cb_DIRC_Barrel_GVol_Solid(RIn, ROut, SizeZ / 2.0, 0., 360.0 * deg);
Volume detVol("cb_DIRC_GVol_Solid_Logic", cb_DIRC_Barrel_GVol_Solid, Vacuum);
detVol.setVisAttributes(desc.invisible());
DetElement det(detName, detID);
Volume motherVol = desc.pickMotherVolume(det);
Transform3D tr(RotationZYX(0.0, 0.0, 0.0), Position(0.0, 0.0, pos.z()));
PlacedVolume detPV = motherVol.placeVolume(detVol, tr);
detPV.addPhysVolID("system", detID);
detPV.addPhysVolID("barrel", 1);
det.setPlacement(detPV);
//////////////////
// DIRC Bars
//////////////////
double dR = 83.65 * cm;
double cb_DIRC_bars_DZ = SizeZ;
double cb_DIRC_bars_DY = 42. * cm;
double cb_DIRC_bars_DX = 1.7 * cm;
double myL = 2 * M_PI * dR;
int NUM = myL / cb_DIRC_bars_DY;
double cb_DIRC_bars_deltaphi = 2 * 3.1415926 / NUM;
Material cb_DIRC_bars_Material = desc.material("Quartz");
Box cb_DIRC_bars_Solid(cb_DIRC_bars_DX / 2., cb_DIRC_bars_DY / 2., cb_DIRC_bars_DZ / 2.);
Volume cb_DIRC_bars_Logic("cb_DIRC_bars_Logix", cb_DIRC_bars_Solid, cb_DIRC_bars_Material);
cb_DIRC_bars_Logic.setVisAttributes(desc.visAttributes(x_det.visStr()));
sens.setType("photoncounter");
cb_DIRC_bars_Logic.setSensitiveDetector(sens);
for (int ia = 0; ia < NUM; ia++) {
double phi = (ia * (cb_DIRC_bars_deltaphi));
double x = -dR * cos(phi);
double y = -dR * sin(phi);
Transform3D tr(RotationZ(cb_DIRC_bars_deltaphi * ia), Position(x, y, 0));
PlacedVolume barPV = detVol.placeVolume(cb_DIRC_bars_Logic, tr);
barPV.addPhysVolID("module", ia);
}
return det;
}
DECLARE_DETELEMENT(cb_DIRC, createDetector)
src/cb_VTX_Barrel.cpp deleted 100644 → 0
View file @ ef97d84c
#include <XML/Helper.h>
#include "DDRec/Surface.h"
#include "DDRec/DetectorData.h"
#include "DD4hep/OpticalSurfaces.h"
#include "DD4hep/DetFactoryHelper.h"
#include "DD4hep/Printout.h"
//////////////////////////////////
// Central Barrel Vertex Detector
//////////////////////////////////
using namespace std;
using namespace dd4hep;
static Ref_t createDetector(Detector& desc, xml_h e, SensitiveDetector sens)
{
xml_det_t x_det = e;
string detName = x_det.nameStr();
int detID = x_det.id();
xml_dim_t dim = x_det.dimensions();
double RIn = dim.rmin();
double ROut = dim.rmax();
double SizeZ = dim.length();
xml_dim_t pos = x_det.position();
Material Vacuum = desc.material("Vacuum");
// Create Global Volume
Tube cb_VTX_Barrel_GVol_Solid(RIn, ROut, SizeZ / 2.0, 0., 360.0 * deg);
Volume detVol("cb_VTX_Barrel_GVol_Logic", cb_VTX_Barrel_GVol_Solid, Vacuum);
detVol.setVisAttributes(desc.visAttributes(x_det.visStr()));
//////////////////
// Barrel Ladder
//////////////////
xml_comp_t x_layer = x_det.child(_U(layer));
const int repeat = x_layer.repeat();
xml_comp_t x_slice = x_layer.child(_U(slice));
Material slice_mat = desc.material(x_slice.materialStr());
double x = 0.0 * cm;
double y = 0.0 * cm;
double z = 0.0 * cm;
int FDIV = 0;
double dR = 0.0;
double length = 0.0;
double phi = 0.0;
// Ladder Layer Parameters
double lay_Dx[6];
double lay_Dy[6];
double lay_Dz[6];
double lay_Rin[6];
lay_Dx[0] = 0.050 * mm; lay_Dy[0] = 1.0 * cm; lay_Dz[0] = 10.0 * cm; lay_Rin[0] = 3.5 * cm;
lay_Dx[1] = 0.050 * mm; lay_Dy[1] = 1.0 * cm; lay_Dz[1] = 11.0 * cm; lay_Rin[1] = 4.5 * cm;
lay_Dx[2] = 0.150 * mm; lay_Dy[2] = 2.0 * cm; lay_Dz[2] = 18.0 * cm; lay_Rin[2] = 6.5 * cm;
lay_Dx[3] = 0.150 * mm; lay_Dy[3] = 2.0 * cm; lay_Dz[3] = 24.0 * cm; lay_Rin[3] = 10.5 * cm;
lay_Dx[4] = 0.150 * mm; lay_Dy[4] = 3.0 * cm; lay_Dz[4] = 36.0 * cm; lay_Rin[4] = 13.5 * cm;
lay_Dx[5] = 0.150 * mm; lay_Dy[5] = 3.0 * cm; lay_Dz[5] = 48.0 * cm; lay_Rin[5] = 15.5 * cm;
int i_layer = 0;
int i_module = 0;
// Loop over layers
for(int i = 0; i < repeat; i++) {
double cb_VTX_Barrel_ladder_DZ = lay_Dz[i];
double cb_VTX_Barrel_ladder_DY = lay_Dy[i];
double cb_VTX_Barrel_ladder_Thickness = lay_Dx[i];
dR = lay_Rin[i];
length = 2.0 * 3.1415 * dR;
int laddersCount = length / cb_VTX_Barrel_ladder_DY;
for (int i = 0; i < 2; i++) {
double LN = cb_VTX_Barrel_ladder_DY * laddersCount;
double LN1 = cb_VTX_Barrel_ladder_DY * (laddersCount + 1.0 + i);
if (LN/LN1 > 0.8)
laddersCount = laddersCount + 1;
}
double cb_VTX_Barrel_ladder_deltaphi = 2.0 * 3.1415926 / laddersCount;
string ladderBoxName = detName + _toString(i, "_ladder_Solid_%d");
string ladderName = detName + _toString(i, "_ladder_Logic_%d");
Volume ladderVol(ladderName, Box(cb_VTX_Barrel_ladder_Thickness * 0.5, cb_VTX_Barrel_ladder_DY * 0.5, cb_VTX_Barrel_ladder_DZ * 0.5), slice_mat);
ladderVol.setVisAttributes(desc,x_layer.visStr());
sens.setType("tracker");
ladderVol.setSensitiveDetector(sens);
i_layer++;
for (int ia = 0; ia < laddersCount; ia++) {
phi = (ia * (cb_VTX_Barrel_ladder_deltaphi));
x = - dR * cos(phi);
y = - dR * sin(phi);
RotationZYX ladder_rot = RotationZYX(cb_VTX_Barrel_ladder_deltaphi * ia, 0.0, 0.0);
Position ladder_pos = Position(x, y, z);
string ladderName = detName + _toString(i, "_ladder_Phys_%d") + _toString(ia, "_%d");
PlacedVolume ladderPV = detVol.placeVolume(ladderVol, Transform3D(ladder_rot, ladder_pos));
i_module++;
ladderPV.addPhysVolID("layer", i_layer).addPhysVolID("module", i_module);
}
}
// TODO: Pixels
DetElement det(detName, detID);
Volume motherVol = desc.pickMotherVolume(det);
Transform3D tr(RotationZYX(0.0, 0.0, 0.0), Position(0.0, 0.0, pos.z()));
PlacedVolume detPV = motherVol.placeVolume(detVol, tr);
detPV.addPhysVolID("system", detID);
detPV.addPhysVolID("barrel", 1);
det.setPlacement(detPV);
return det;
}
DECLARE_DETELEMENT(cb_VTX_Barrel, createDetector)
src/ce_MRICH.cpp deleted 100644 → 0
View file @ ef97d84c
#include <XML/Helper.h>
#include "TMath.h"
#include "TString.h"
#include "DDRec/Surface.h"
#include "DDRec/DetectorData.h"
#include "DD4hep/OpticalSurfaces.h"
#include "DD4hep/DetFactoryHelper.h"
#include "DD4hep/Printout.h"
#include "GeometryHelpers.h"
using namespace std;
using namespace dd4hep;
using namespace dd4hep::rec;
void addModules(Volume &mother, xml::DetElement &detElem, Detector &desc, SensitiveDetector &sens);
// create the detector
static Ref_t createDetector(Detector& desc, xml::Handle_t handle, SensitiveDetector sens)
{
xml::DetElement detElem = handle;
std::string detName = detElem.nameStr();
int detID = detElem.id();
DetElement det(detName, detID);
xml::Component dims = detElem.dimensions();
// xml::Component rads = detElem.child(_Unicode(radiator));
auto rmin = dims.rmin();
auto rmax = dims.rmax();
auto length = dims.length();
auto z0 = dims.z();
auto gasMat = desc.material("AirOptical");
// detector envelope
Tube envShape(rmin, rmax, length/2., 0., 2*M_PI);
Volume envVol("ce_MRICH_GVol", envShape, gasMat);
envVol.setVisAttributes(desc.visAttributes(detElem.visStr()));
// modules
addModules(envVol, detElem, desc, sens);
// place envelope
Volume motherVol = desc.pickMotherVolume(det);
PlacedVolume envPV = motherVol.placeVolume(envVol, Position(0, 0, z0));
envPV.addPhysVolID("system", detID);
det.setPlacement(envPV);
return det;
}
void addModules(Volume &mother, xml::DetElement &detElem, Detector &desc, SensitiveDetector &sens)
{
xml::Component dims = detElem.dimensions();
xml::Component mods = detElem.child(_Unicode(modules));
auto rmin = dims.rmin();
auto rmax = dims.rmax();
auto mThick = mods.attr<double>(_Unicode(thickness));
auto mWidth = mods.attr<double>(_Unicode(width));
auto mGap = mods.attr<double>(_Unicode(gap));
auto modMat = desc.material(mods.materialStr());
auto gasMat = desc.material("AirOptical");
// single module
Box mShape(mWidth/2., mWidth/2., mThick/2. - 0.1*mm);
Volume mVol("ce_MRICH_mod_Solid", mShape, modMat);
// a thin gas layer to detect optical photons
Box modShape(mWidth/2., mWidth/2., mThick/2.);
Volume modVol("ce_MRICH_mod_Solid_v", modShape, gasMat);
// thin gas layer is on top (+z) of the material
modVol.placeVolume(mVol, Position(0., 0., -0.1*mm));
modVol.setVisAttributes(desc.visAttributes(mods.visStr()));
sens.setType("photoncounter");
modVol.setSensitiveDetector(sens);
// place modules in the sectors (disk)
auto points = ref::utils::fillSquares({0., 0.}, mWidth + mGap, rmin - mGap, rmax + mGap);
// determine module direction, always facing z = 0
double roty = dims.z() > 0. ? M_PI/2. : -M_PI/2.;
int imod = 1;
for (auto &p : points) {
// operations are inversely ordered
Transform3D tr = Translation3D(p.x(), p.y(), 0.) // move to position
* RotationY(roty); // facing z = 0.
auto modPV = mother.placeVolume(modVol, tr);
modPV.addPhysVolID("sector", 1).addPhysVolID("module", imod ++);
}
}
// clang-format off
DECLARE_DETELEMENT(refdet_ce_MRICH, createDetector)
src/deprecated/BarrelCalorimeterHybrid_geo.cpp 0 → 100644
View file @ 1008a184
//==========================================================================
// AIDA Detector description implementation
//--------------------------------------------------------------------------
// Copyright (C) Organisation europeenne pour la Recherche nucleaire (CERN)
// All rights reserved.
//
// For the licensing terms see $DD4hepINSTALL/LICENSE.
// For the list of contributors see $DD4hepINSTALL/doc/CREDITS.
//
// Author : M.Frank
//
//==========================================================================
//
// Specialized generic detector constructor
//
//==========================================================================
//
// Implementation of the Sci Fiber geometry: M. Żurek 07/19/2021
#include "DD4hep/DetFactoryHelper.h"
#include "XML/Layering.h"
#include "Math/Point2D.h"
#include "TGeoPolygon.h"
#include "TMath.h"
using namespace std;
using namespace dd4hep;
using namespace dd4hep::detail;
typedef ROOT::Math::XYPoint Point;
// Fill fiber lattice into trapezoid starting from position (0,0) in x-z coordinate system
vector<vector<Point>> fiberPositions(double radius, double x_spacing, double z_spacing, double x, double z, double phi, double spacing_tol = 1e-2) {
// z_spacing - distance between fiber layers in z
// x_spacing - distance between fiber centers in x
// x - half-length of the shorter (bottom) base of the trapezoid
// z - height of the trapezoid
// phi - angle between z and trapezoid arm
vector<vector<Point>> positions;
int z_layers = floor((z/2-radius-spacing_tol)/z_spacing); // number of layers that fit in z/2
double z_pos = 0.;
double x_pos = 0.;
for(int l = -z_layers; l < z_layers+1; l++) {
vector<Point> xline;
z_pos = l*z_spacing;
double x_max = x + (z/2. + z_pos)*tan(phi) - spacing_tol; // calculate max x at particular z_pos
(l % 2 == 0) ? x_pos = 0. : x_pos = x_spacing/2; // account for spacing/2 shift
while(x_pos < (x_max - radius)) {
xline.push_back(Point(x_pos, z_pos));
if(x_pos != 0.) xline.push_back(Point(-x_pos, z_pos)); // using symmetry around x=0
x_pos += x_spacing;
}
// Sort fiber IDs for a better organization
sort(xline.begin(), xline.end(), [](const Point &p1, const Point &p2) {
return p1.x() < p2.x();
});
positions.emplace_back(std::move(xline));
}
return positions;
}
// Calculate number of divisions for the readout grid for the fiber layers
std::pair<int, int> getNdivisions(double x, double z, double dx, double dz) {
// x and z defined as in vector<Point> fiberPositions
// dx, dz - size of the grid in x and z we want to get close to with the polygons
// See also descripltion when the function is called
double SiPMsize = 13.0*mm;
double grid_min = SiPMsize + 3.0*mm;
if(dz < grid_min) {
dz = grid_min;
}
if(dx < grid_min) {
dx = grid_min;
}
int nfit_cells_z = floor(z/dz);
int n_cells_z = nfit_cells_z;
if(nfit_cells_z == 0) n_cells_z++;
int nfit_cells_x = floor((2*x)/dx);
int n_cells_x = nfit_cells_x;
if(nfit_cells_x == 0) n_cells_x++;
return std::make_pair(n_cells_x, n_cells_z);
}
// Calculate dimensions of the polygonal grid in the cartesian coordinate system x-z
vector< tuple<int, Point, Point, Point, Point> > gridPoints(int div_x, int div_z, double x, double z, double phi) {
// x, z and phi defined as in vector<Point> fiberPositions
// div_x, div_z - number of divisions in x and z
double dz = z/div_z;
std::vector<std::tuple<int, Point, Point, Point, Point>> points;
for(int iz = 0; iz < div_z + 1; iz++){
for(int ix = 0; ix < div_x + 1; ix++){
double A_z = -z/2 + iz*dz;
double B_z = -z/2 + (iz+1)*dz;
double len_x_for_z = 2*(x+iz*dz*tan(phi));
double len_x_for_z_plus_1 = 2*(x + (iz+1)*dz*tan(phi));
double dx_for_z = len_x_for_z/div_x;
double dx_for_z_plus_1 = len_x_for_z_plus_1/div_x;
double A_x = -len_x_for_z/2. + ix*dx_for_z;
double B_x = -len_x_for_z_plus_1/2. + ix*dx_for_z_plus_1;
double C_z = B_z;
double D_z = A_z;
double C_x = B_x + dx_for_z_plus_1;
double D_x = A_x + dx_for_z;
int id = ix + div_x * iz;
auto A = Point(A_x, A_z);
auto B = Point(B_x, B_z);
auto C = Point(C_x, C_z);
auto D = Point(D_x, D_z);
// vertex points filled in the clock-wise direction
points.push_back(make_tuple(id, A, B, C, D));
}
}
return points;
}
// Create detector
static Ref_t create_detector(Detector& description, xml_h e, SensitiveDetector sens) {
static double tolerance = 0e0;
Layering layering (e);
xml_det_t x_det = e;
Material air = description.air();
int det_id = x_det.id();
string det_name = x_det.nameStr();
xml_comp_t x_staves = x_det.staves();
xml_comp_t x_dim = x_det.dimensions();
int nsides = x_dim.numsides();
double inner_r = x_dim.rmin();
double dphi = (2*M_PI/nsides);
double hphi = dphi/2;
double support_thickness = 0.0;
if(x_staves.hasChild("support")){
support_thickness = getAttrOrDefault(x_staves.child(_U(support)), _U(thickness), 5.0 * cm);
}
double mod_z = layering.totalThickness() + support_thickness;
double outer_r = inner_r + mod_z;
double totThick = mod_z;
double offset = x_det.attr<double>(_Unicode(offset));
DetElement sdet (det_name,det_id);
Volume motherVol = description.pickMotherVolume(sdet);
PolyhedraRegular hedra (nsides,inner_r,inner_r+totThick+tolerance*2e0,x_dim.z());
Volume envelope (det_name,hedra,air);
PlacedVolume env_phv = motherVol.placeVolume(envelope,Transform3D(Translation3D(0,0,offset)*RotationZ(M_PI/nsides)));
env_phv.addPhysVolID("system",det_id);
sdet.setPlacement(env_phv);
DetElement stave_det("stave0",det_id);
double dx = 0.0; //mod_z / std::sin(dphi); // dx per layer
// Compute the top and bottom face measurements.
double trd_x2 = (2 * std::tan(hphi) * outer_r - dx)/2 - tolerance;
double trd_x1 = (2 * std::tan(hphi) * inner_r + dx)/2 - tolerance;
double trd_y1 = x_dim.z()/2 - tolerance;
double trd_y2 = trd_y1;
double trd_z = mod_z/2 - tolerance;
// Create the trapezoid for the stave.
Trapezoid trd(trd_x1, // Outer side, i.e. the "long" X side.
trd_x2, // Inner side, i.e. the "short" X side.
trd_y1, // Corresponds to subdetector (or module) Z.
trd_y2, //
trd_z); // Thickness, in Y for top stave, when rotated.
Volume mod_vol("stave",trd,air);
double l_pos_z = -(layering.totalThickness() / 2) - support_thickness/2.0;
//double trd_x2_support = trd_x1;
double trd_x1_support = (2 * std::tan(hphi) * outer_r - dx- support_thickness)/2 - tolerance;
Solid support_frame_s;
// optional stave support
if(x_staves.hasChild("support")){
xml_comp_t x_support = x_staves.child(_U(support));
// is the support on the inside surface?
bool is_inside_support = getAttrOrDefault<bool>(x_support, _Unicode(inside), true);
// number of "beams" running the length of the stave.
int n_beams = getAttrOrDefault<int>(x_support, _Unicode(n_beams), 3);
double beam_thickness = support_thickness / 4.0; // maybe a parameter later...
trd_x1_support = (2 * std::tan(hphi) * (outer_r - support_thickness + beam_thickness)) / 2 - tolerance;
double grid_size = getAttrOrDefault(x_support, _Unicode(grid_size), 25.0 * cm);
double beam_width = 2.0 * trd_x1_support / (n_beams + 1); // quick hack to make some gap between T beams
double cross_beam_thickness = support_thickness/4.0;
//double trd_x1_support = (2 * std::tan(hphi) * (inner_r + beam_thickness)) / 2 - tolerance;
double trd_x2_support = trd_x2;
int n_cross_supports = std::floor((trd_y1-cross_beam_thickness)/grid_size);
Box beam_vert_s(beam_thickness / 2.0 - tolerance, trd_y1, support_thickness / 2.0 - tolerance);
Box beam_hori_s(beam_width / 2.0 - tolerance, trd_y1, beam_thickness / 2.0 - tolerance);
UnionSolid T_beam_s(beam_vert_s, beam_hori_s, Position(0, 0, -support_thickness / 2.0 + beam_thickness / 2.0));
// cross supports
Trapezoid trd_support(trd_x1_support,trd_x2_support,
beam_thickness / 2.0 - tolerance, beam_thickness / 2.0 - tolerance,
support_thickness / 2.0 - tolerance - cross_beam_thickness/2.0);
UnionSolid support_array_start_s(T_beam_s,trd_support,Position(0,0,cross_beam_thickness/2.0));
for (int isup = 0; isup < n_cross_supports; isup++) {
support_array_start_s = UnionSolid(support_array_start_s, trd_support, Position(0, -1.0 * isup * grid_size, cross_beam_thickness/2.0));
support_array_start_s = UnionSolid(support_array_start_s, trd_support, Position(0, 1.0 * isup * grid_size, cross_beam_thickness/2.0));
}
support_array_start_s =
UnionSolid(support_array_start_s, beam_hori_s,
Position(-1.8 * 0.5*(trd_x1+trd_x2_support) / n_beams, 0, -support_thickness / 2.0 + beam_thickness / 2.0));
support_array_start_s =
UnionSolid(support_array_start_s, beam_hori_s,
Position(1.8 * 0.5*(trd_x1+trd_x2_support) / n_beams, 0, -support_thickness / 2.0 + beam_thickness / 2.0));
support_array_start_s =
UnionSolid(support_array_start_s, beam_vert_s, Position(-1.8 * 0.5*(trd_x1+trd_x2_support) / n_beams, 0, 0));
support_array_start_s =
UnionSolid(support_array_start_s, beam_vert_s, Position(1.8 * 0.5*(trd_x1+trd_x2_support) / n_beams, 0, 0));
support_frame_s = support_array_start_s;
Material support_mat = description.material(x_support.materialStr());
Volume support_vol("support_frame_v", support_frame_s, support_mat);
support_vol.setVisAttributes(description,x_support.visStr());
// figure out how to best place
//auto pv = mod_vol.placeVolume(support_vol, Position(0.0, 0.0, l_pos_z + support_thickness / 2.0));
auto pv = mod_vol.placeVolume(support_vol, Position(0.0, 0.0, -l_pos_z - support_thickness / 2.0));
}
//l_pos_z += support_thickness;
sens.setType("calorimeter");
{ // ===== buildBarrelStave(description, sens, module_volume) =====
// Parameters for computing the layer X dimension:
double stave_z = trd_y1;
double tan_hphi = std::tan(hphi);
double l_dim_x = trd_x1; // Starting X dimension for the layer.
// Loop over the sets of layer elements in the detector.
int l_num = 1;
for(xml_coll_t li(x_det,_U(layer)); li; ++li) {
xml_comp_t x_layer = li;
int repeat = x_layer.repeat();
// Loop over number of repeats for this layer.
for (int j=0; j<repeat; j++) {
string l_name = _toString(l_num,"layer%d");
double l_thickness = layering.layer(l_num-1)->thickness(); // Layer's thickness.
Position l_pos(0,0,l_pos_z+l_thickness/2); // Position of the layer.
double l_trd_x1 = l_dim_x - tolerance;
double l_trd_x2 = l_dim_x + l_thickness*tan_hphi - tolerance;
double l_trd_y1 = stave_z-tolerance;
double l_trd_y2 = l_trd_y1;
double l_trd_z = l_thickness/2-tolerance;
Trapezoid l_trd(l_trd_x1,l_trd_x2,l_trd_y1,l_trd_y2,l_trd_z);
Volume l_vol(l_name,l_trd,air);
DetElement layer(stave_det, l_name, det_id);
// Loop over the sublayers or slices for this layer.
int s_num = 1;
double s_pos_z = -(l_thickness / 2);
for(xml_coll_t si(x_layer,_U(slice)); si; ++si) {
xml_comp_t x_slice = si;
string s_name = _toString(s_num,"slice%d");
double s_thick = x_slice.thickness();
Volume s_vol(s_name);
DetElement slice(layer,s_name,det_id);
double s_trd_x1 = l_dim_x + (s_pos_z+l_thickness/2)*tan_hphi - tolerance;
double s_trd_x2 = l_dim_x + (s_pos_z+l_thickness/2+s_thick)*tan_hphi - tolerance;
double s_trd_y1 = stave_z-tolerance;
double s_trd_y2 = s_trd_y1;
double s_trd_z = s_thick/2-tolerance;
Trapezoid s_trd(s_trd_x1, s_trd_x2, s_trd_y1, s_trd_y2, s_trd_z);
s_vol.setSolid(s_trd);
s_vol.setMaterial(description.material(x_slice.materialStr()));
if (x_slice.hasChild("fiber")) {
xml_comp_t x_fiber = x_slice.child(_Unicode(fiber));
double f_radius = getAttrOrDefault(x_fiber, _U(radius), 0.1 * cm);
double f_spacing_x = getAttrOrDefault(x_fiber, _Unicode(spacing_x), 0.122 * cm);
double f_spacing_z = getAttrOrDefault(x_fiber, _Unicode(spacing_z), 0.134 * cm);
std::string f_id_grid = getAttrOrDefault(x_fiber, _Unicode(identifier_grid), "grid");
std::string f_id_fiber = getAttrOrDefault(x_fiber, _Unicode(identifier_fiber), "fiber");
// Calculate fiber positions inside the slice
Tube f_tube(0, f_radius, stave_z-tolerance);
// Set up the readout grid for the fiber layers
// Trapezoid is divided into segments with equal dz and equal number of divisions in x
// Every segment is a polygon that can be attached later to the lightguide
// The grid size is assumed to be ~2x2 cm (starting values). This is to be larger than
// SiPM chip (for GlueX 13mmx13mm: 4x4 grid 3mmx3mm with 3600 50×50 μm pixels each)
// See, e.g., https://arxiv.org/abs/1801.03088 Fig. 2d
// Calculate number of divisions
pair<int, int> grid_div = getNdivisions(s_trd_x1, s_thick-tolerance, 2.0*cm, 2.0*cm);
// Calculate polygonal grid coordinates (vertices)
vector<tuple<int, Point, Point, Point, Point>> grid_vtx = gridPoints(grid_div.first, grid_div.second, s_trd_x1, s_thick-tolerance, hphi);
vector<int> f_id_count(grid_div.first*grid_div.second,0);
auto f_pos = fiberPositions(f_radius, f_spacing_x, f_spacing_z, s_trd_x1, s_thick-tolerance, hphi);
for (auto &line : f_pos) {
for (auto &p : line) {
int f_grid_id = -1;
int f_id = -1;
// Check to which grid fiber belongs to
for (auto &poly_vtx : grid_vtx) {
auto [grid_id, vtx_a, vtx_b, vtx_c, vtx_d] = poly_vtx;
double poly_x[4] = {vtx_a.x(), vtx_b.x(), vtx_c.x(), vtx_d.x()};
double poly_y[4] = {vtx_a.y(), vtx_b.y(), vtx_c.y(), vtx_d.y()};
double f_xy[2] = {p.x(), p.y()};
TGeoPolygon poly(4);
poly.SetXY(poly_x,poly_y);
poly.FinishPolygon();
if(poly.Contains(f_xy)) {
f_grid_id = grid_id;
f_id = f_id_count[grid_id];
f_id_count[grid_id]++;
}
}
string f_name = "fiber" + to_string(f_grid_id) + "_" + to_string(f_id);
Volume f_vol(f_name, f_tube, description.material(x_fiber.materialStr()));
DetElement fiber(slice, f_name, det_id);
if ( x_fiber.isSensitive() ) {
f_vol.setSensitiveDetector(sens);
}
fiber.setAttributes(description,f_vol,x_fiber.regionStr(),x_fiber.limitsStr(),x_fiber.visStr());
// Fiber placement
Transform3D f_tr(RotationZYX(0,0,M_PI*0.5),Position(p.x(), 0 ,p.y()));
PlacedVolume fiber_phv = s_vol.placeVolume(f_vol, f_tr);
fiber_phv.addPhysVolID(f_id_grid, f_grid_id + 1).addPhysVolID(f_id_fiber, f_id + 1);
fiber.setPlacement(fiber_phv);
}
}
}
if ( x_slice.isSensitive() ) {
s_vol.setSensitiveDetector(sens);
}
slice.setAttributes(description,s_vol,x_slice.regionStr(),x_slice.limitsStr(),x_slice.visStr());
// Slice placement.
PlacedVolume slice_phv = l_vol.placeVolume(s_vol,Position(0,0,s_pos_z+s_thick/2));
slice_phv.addPhysVolID("slice", s_num);
slice.setPlacement(slice_phv);
// Increment Z position of slice.
s_pos_z += s_thick;
// Increment slice number.
++s_num;
}
// Set region, limitset, and vis of layer.
layer.setAttributes(description,l_vol,x_layer.regionStr(),x_layer.limitsStr(),x_layer.visStr());
PlacedVolume layer_phv = mod_vol.placeVolume(l_vol,l_pos);
layer_phv.addPhysVolID("layer", l_num);
layer.setPlacement(layer_phv);
// Increment to next layer Z position.
double xcut = l_thickness * tan_hphi;
l_dim_x += xcut;
l_pos_z += l_thickness;
++l_num;
}
}
}
// Set stave visualization.
if ( x_staves ) {
mod_vol.setVisAttributes(description.visAttributes(x_staves.visStr()));
}
// Phi start for a stave.
double phi = M_PI / nsides;
double mod_x_off = dx / 2; // Stave X offset, derived from the dx.
double mod_y_off = inner_r + mod_z/2; // Stave Y offset
// Create nsides staves.
for (int i = 0; i < nsides; i++, phi -= dphi) { // i is module number
// Compute the stave position
double m_pos_x = mod_x_off * std::cos(phi) - mod_y_off * std::sin(phi);
double m_pos_y = mod_x_off * std::sin(phi) + mod_y_off * std::cos(phi);
Transform3D tr(RotationZYX(0,phi,M_PI*0.5),Translation3D(-m_pos_x,-m_pos_y,0));
PlacedVolume pv = envelope.placeVolume(mod_vol,tr);
pv.addPhysVolID("system",det_id);
pv.addPhysVolID("module",i+1);
DetElement sd = i==0 ? stave_det : stave_det.clone(_toString(i,"stave%d"));
sd.setPlacement(pv);
sdet.add(sd);
}
// Set envelope volume attributes.
envelope.setAttributes(description,x_det.regionStr(),x_det.limitsStr(),x_det.visStr());
return sdet;
}
DECLARE_DETELEMENT(athena_EcalBarrelHybrid,create_detector)
views/generate_prim_files.yml 0 → 100644
View file @ 1008a184
view_prim:detector_only:
extends: .views
stage: test
script:
- ./bin/generate_prim_file -o ${LOCAL_DATA_PATH} -D -t detector_view
- ls -lrth && ls -lrth ${LOCAL_DATA_PATH}
view_prim:ev001:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/generate_prim_file -o ${LOCAL_DATA_PATH} -t view_ev001 -s 1
view_prim:ev002:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/generate_prim_file -o ${LOCAL_DATA_PATH} -t view_ev002 -s 2
view_prim:ev003:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/generate_prim_file -o ${LOCAL_DATA_PATH} -t view_ev003 -s 3
view_prim:ev004:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/generate_prim_file -o ${LOCAL_DATA_PATH} -t view_ev004 -s 4
view_prim:calorimeters:
extends: .views
stage: test
script:
- cp "compact/subsystem_views/calorimeters.xml" "${DETECTOR_PATH}/."
- ./bin/generate_prim_file -c ${DETECTOR_PATH}/calorimeters.xml -o ${LOCAL_DATA_PATH} -D -t calorimeters_view
- ls -lrth && ls -lrth ${LOCAL_DATA_PATH}
view_prim:calorimeters_ev001:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- cp "compact/subsystem_views/calorimeters.xml" "${DETECTOR_PATH}/."
- ./bin/generate_prim_file -c ${DETECTOR_PATH}/calorimeters.xml -o ${LOCAL_DATA_PATH} -t calorimeters_view_ev001 -s 1
view_prim:calorimeters_ev002:
extends: .views
stage: test
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- cp "compact/subsystem_views/calorimeters.xml" "${DETECTOR_PATH}/."
- ./bin/generate_prim_file -c ${DETECTOR_PATH}/calorimeters.xml -o ${LOCAL_DATA_PATH} -t calorimeters_view_ev002 -s 2
views/view1.yml
View file @ 1008a184
dawn_view_01:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view01 -d scripts/view1 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view01 -d scripts/view1 -D
dawn_view_01:ev001:
extends: .views
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
needs:
- job: view_prim:ev001
optional: true
script:
- ./bin/make_dawn_views -t view01_ev001 -d scripts/view1 -s 1
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view01_ev001 -d scripts/view1 -s 1
dawn_view_01:ev002:
extends: .views
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
needs:
- job: view_prim:ev002
optional: true
script:
- ./bin/make_dawn_views -t view01_ev002 -d scripts/view1 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view01_ev002 -d scripts/view1 -s 2
view_01:
stage: test
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
stage: collect
needs:
- job: dawn_view_01:detector
optional: false
......
views/view11.yml
View file @ 1008a184
dawn_view_11:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view11 -d scripts/view11 -D
dawn_view_11:ev000:
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
extends: .views
needs:
- job: view_prim:ev001
optional: true
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view11 -d scripts/view11
dawn_view_11:ev001:
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
extends: .views
needs:
- job: view_prim:ev001
optional: true
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11 -s 1
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view11 -d scripts/view11 -s 1
dawn_view_11:ev002:
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
extends: .views
needs:
- job: view_prim:ev002
optional: true
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev003.prim -t view11 -d scripts/view11 -s 2
dawn_view_11:ev003:
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
extends: .views
needs:
- job: view_prim:ev003
optional: true
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11 -s 3
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH} -t view11 -d scripts/view11 -s 3
dawn_view_11:ev004:
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
extends: .views
needs:
- job: view_prim:ev004
optional: true
script:
- ./bin/make_dawn_views -t view11 -d scripts/view11 -s 4
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH} -t view11 -d scripts/view11 -s 4
view_11:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
- job: compile
optional: false
- job: dawn_view_11:detector
optional: false
- job: dawn_view_11:ev001
......
views/view12.yml
View file @ 1008a184
dawn_view_12:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view12 -d scripts/view12 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view12 -d scripts/view12 -D -- ${SLICE}
- ls -lrth *
- ls -lrth images/*
parallel:
matrix:
- SLICE: ["100", "300", "500", "700", "900", "1100", "1300", "1500", "1700", "1900"]
view_12:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......
views/view13.yml
View file @ 1008a184
dawn_view_13:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view13 -d scripts/view13 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view13 -d scripts/view13 -D
view_13:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......
views/view14.yml
View file @ 1008a184
dawn_view_14:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view14 -d scripts/view14 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view14 -d scripts/view14 -D -- ${SLICE}
- ls -lrth *
- ls -lrth images/*
parallel:
matrix:
- SLICE: ["100", "300", "500", "700", "900", "1100", "1300", "1500", "1700", "1900"]
view_14:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......
views/view15.yml
View file @ 1008a184
dawn_view_15:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view15 -d scripts/view15 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view15 -d scripts/view15 -D -- ${SLICE}
- ls -lrth *
- ls -lrth images/*
parallel:
matrix:
- SLICE: ["100", "300", "500", "700", "900", "1100", "1300", "1500", "1700", "1900"]
view_15:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......
views/view2.yml
View file @ 1008a184
dawn_view_02:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view02 -d scripts/view2 -D
#dawn_view_02:ev001:
# extends: .views
# script:
# - ./bin/make_dawn_views -t view02_ev001 -d scripts/view2 -s 1
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view02 -d scripts/view2 -D
dawn_view_02:ev001:
extends: .views
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
needs:
- job: view_prim:ev001
optional: true
script:
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view02_ev001 -d scripts/view2 -s 1
dawn_view_02:ev002:
extends: .views
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
needs:
- job: view_prim:ev002
optional: true
script:
- ./bin/make_dawn_views -t view02_ev002 -d scripts/view2 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view02_ev002 -d scripts/view2 -s 2
dawn_view_02:ev003:
extends: .views
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
needs:
- job: view_prim:ev003
optional: true
script:
- ./bin/make_dawn_views -t view02_ev003 -d scripts/view2 -s 3
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev003.prim -t view02_ev003 -d scripts/view2 -s 3
view_02:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......@@ -30,7 +47,6 @@ view_02:
optional: true
- job: dawn_view_02:ev003
optional: true
#- ["dawn_view_02:detector", "dawn_view_02:ev001", "dawn_view_02:ev002", "dawn_view_02:ev003"]
script:
- ls -lrth *
- ls -lrth images/*
......
views/view20.yml 0 → 100644
View file @ 1008a184
dawn_view_20:detector:
extends: .views
needs:
- job: view_prim:calorimeters
optional: false
script:
- cp "compact/subsystem_views/calorimeters.xml" "${DETECTOR_PATH}/."
- ./bin/make_dawn_views -c ${DETECTOR_PATH}/calorimeters.xml -i ${LOCAL_DATA_PATH}/calorimeters_view.prim -t view20 -d scripts/view20 -D
dawn_view_20:ev001:
extends: .views
needs:
- job: view_prim:calorimeters_ev001
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/calorimeters_view_ev001.prim -t view20_ev001 -d scripts/view20 -s 1
dawn_view_20:ev002:
extends: .views
needs:
- job: view_prim:calorimeters_ev002
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/calorimeters_view_ev002.prim -t view20_ev002 -d scripts/view20 -s 2
view_20:
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
- job: dawn_view_20:detector
optional: false
- job: dawn_view_20:ev001
optional: true
- job: dawn_view_20:ev002
optional: true
script:
- ls -lrth *
- ls -lrth images/*
views/view3.yml
View file @ 1008a184
dawn_view_03:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view02 -d scripts/view2 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view03 -d scripts/view3 -D
#dawn_view_03:ev001:
# extends: .views
# needs:
# - job: view_prim:ev001
# optional: true
# script:
# - ./bin/make_dawn_views -t view02_ev001 -d scripts/view2 -s 1
# - ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view03_ev001 -d scripts/view3 -s 1
dawn_view_03:ev002:
extends: .views
needs:
- job: view_prim:ev002
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view02_ev002 -d scripts/view2 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view03_ev002 -d scripts/view3 -s 2
view_03:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......
views/view6.yml
View file @ 1008a184
dawn_view_06:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view06 -d scripts/view6 -D
dawn_view_06:ev001:
extends: .views
needs:
- job: view_prim:ev001
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view02 -d scripts/view2 -D
#dawn_view_06:ev001:
# extends: .views
# script:
# - ./bin/make_dawn_views -t view02_ev001 -d scripts/view2 -s 1
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view06_ev001 -d scripts/view6 -s 1
dawn_view_06:ev002:
extends: .views
needs:
- job: view_prim:ev002
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view02_ev002 -d scripts/view2 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view06_ev002 -d scripts/view6 -s 2
dawn_view_06:ev003:
extends: .views
needs:
- job: view_prim:ev003
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view02_ev003 -d scripts/view2 -s 3
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev003.prim -t view06_ev003 -d scripts/view6 -s 3
dawn_view_06:ev004:
extends: .views
needs:
- job: view_prim:ev004
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view02_ev004 -d scripts/view2 -s 4
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH} -t view06_ev004 -d scripts/view6 -s 4
view_06:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
- job: dawn_view_06:detector
optional: false
- job: dawn_view_06:ev001
optional: true
- job: dawn_view_06:ev002
optional: true
- job: dawn_view_06:ev003
......
views/view7.yml
View file @ 1008a184
dawn_view_07:detector:
extends: .views
needs:
- job: view_prim:detector_only
optional: false
script:
- ./bin/make_dawn_views -t view07 -d scripts/view2 -D
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/detector_view.prim -t view07 -d scripts/view7 -D
dawn_view_07:ev002:
extends: .views
needs:
- job: view_prim:ev002
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view07_ev002 -d scripts/view2 -s 2
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev001.prim -t view07_ev002 -d scripts/view7 -s 2
dawn_view_07:ev003:
extends: .views
needs:
- job: view_prim:ev003
optional: true
rules:
- if: '$DETECTOR_EVENT_VIEWS == "ON"'
script:
- ./bin/make_dawn_views -t view07_ev003 -d scripts/view2 -s 3
- ./bin/make_dawn_views -i ${LOCAL_DATA_PATH}/view_ev002.prim -t view07_ev003 -d scripts/view7 -s 3
view_07:
stage: test
stage: collect
rules:
- if: '$CI_SERVER_HOST == "eicweb.phy.anl.gov"'
needs:
......