new file: ecal.xml

	new file:   ../src/cb_EMCAL.cpp

compact/ecal.xml

+<lccdd>
+
+  <define>
+    <constant name="CrystalEndcap_rmin"  value="VertexTrackerInnerRadius"/>
+    <constant name="CrystalEndcap_rmax"  value="EcalEndcapN_rmin"/>
+    <constant name="CrystalBox_x_length" value="20.0*mm"/>
+    <constant name="CrystalBox_y_length" value="20.0*mm"/>
+    <constant name="CrystalBox_z_length" value="200.0*mm"/>
+    <constant name="CrystalBox_offset"   value="0.000001*mm"/>
+    <constant name="CrystalEndcap_x_pos" value="0.0*m"/>
+    <constant name="CrystalEndcap_y_pos" value="0.0*m"/>
+    <constant name="CrystalEndcap_z_pos" value="-EcalEndcap_zmin"/>
+  </define>
+
+  <limits>
+  </limits>
+
+  <regions>
+  </regions>
+
+  <!-- Common Generic visualization attributes -->
+  <comment>Common Generic visualization attributes</comment>
+  <display>
+  </display>
+
+  <detectors>
+
+    <comment>
+      ---------------------
+      Barrel EM Calorimeter
+      ---------------------
+      A layered EM calorimeter with tungsten and silicon (or scintillator) strips
+    </comment>
+    <detector 
+      id="ECalBarrel_ID"
+      name="EcalBarrel"
+      type="DD4hep_EcalBarrel"
+      readout="EcalBarrelHits"
+      calorimeterType="EM_BARREL">
+      <dimensions 
+        numsides="CaloSides" 
+        rmin="EcalBarrel_rmin" 
+        z="EcalBarrelLength"/>
+      <staves vis="EcalBarrelVis"/>
+      <layer repeat="1">
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalBarrelThinLayers">
+        <slice material="TungstenDens24" thickness="EcalThinTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalBarrelThickLayers">
+        <slice material="TungstenDens24" thickness="EcalThickTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+    </detector>
+
+    <comment>
+      -----------------------------
+      Forward Endcap EM Calorimeter
+      -----------------------------
+      A layered EM calorimeter with tungsten and silicon (or scintillator) strips
+    </comment>
+    <detector id="ECalEndcapP_ID" 
+      name="EcalEndcapP" 
+      type="DD4hep_PolyhedraEndcapCalorimeter2" 
+      reflect="false" 
+      readout="EcalEndcapHits" 
+      vis="EcalEndcapVis" 
+      calorimeterType="EM_ENDCAP" >
+      <dimensions 
+        numsides="CaloSides" 
+        zmin="EcalEndcap_zmin" 
+        rmin="EcalEndcapP_rmin" 
+        rmax="EcalBarrel_rmax " />
+      <layer repeat="1">
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalEndcapThinLayers">
+        <slice material="TungstenDens24" thickness="EcalThinTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalEndcapThickLayers">
+        <slice material="TungstenDens24" thickness="EcalThickTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+    </detector>
+
+
+    <comment>
+      -------------------------------
+      Backwards Endcap EM Calorimeter
+      -------------------------------
+      A layered EM calorimeter with tungsten and silicon (or scintillator) strips
+    </comment>
+    <detector id="ECalEndcapN_ID" 
+      name="EcalEndcapN" 
+      type="topside_PolyhedraEndcapCalorimeter2" 
+      reflect="true" 
+      readout="EcalEndcapHits" 
+      vis="EcalEndcapVis" 
+      calorimeterType="EM_ENDCAP">
+      <dimensions 
+        numsides="CaloSides" 
+        zmin="EcalEndcap_zmin" 
+        rmin="EcalEndcapN_rmin" 
+        rmax="EcalBarrel_rmax " />
+      <layer repeat="1">
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalEndcapThinLayers">
+        <slice material="TungstenDens24" thickness="EcalThinTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+      <layer repeat="EcalEndcapThickLayers">
+        <slice material="TungstenDens24" thickness="EcalThickTungstenThickness"/>
+        <slice material="Air" thickness="EcalAir2Thickness"/>
+        <slice material="Silicon" thickness="EcalSiliconThickness" sensitive="yes" limits="cal_limits"/>
+        <slice material="Copper" thickness="EcalCopperThickness"/>
+        <slice material="Kapton" thickness="EcalKaptonThickness"/>
+        <slice material="Air" thickness="EcalAir1Thickness"/>
+      </layer>
+    </detector>
+  </detectors>
+
+  <!--  Definition of the readout segmentation/definition  -->
+  <readouts>
+    <!--  
+    <readout name="PlaneTrackerHits">
+      <segmentation type="CartesianGridXY" grid_size_x="20.0*mm" grid_size_y="20.0*mm" />
+      <id>system:5,module:4,x:32:-16,y:-16</id>
+    </readout>
+    -->
+    <readout name="CrystalEcalHits">
+      <segmentation type="CartesianGridXY" grid_size_x="CrystalBox_x_length" grid_size_y="CrystalBox_y_length" />
+      <id>system:8,sector:4,module:20,x:48:-8,y:-8</id>
+    </readout>
+    <readout name="EcalBarrelHits">
+      <segmentation type="CartesianGridXY" grid_size_x="3.5 * mm" grid_size_y="3.5 * mm"/>
+      <id>system:8,barrel:3,module:4,layer:6,slice:5,x:32:-16,y:-16</id>
+    </readout>
+    <readout name="EcalEndcapHits">
+      <segmentation type="CartesianGridXY" grid_size_x="3.5 * mm" grid_size_y="3.5 * mm"/>
+      <id>system:8,barrel:3,module:4,layer:6,slice:5,x:32:-16,y:-16</id>
+    </readout>
+  </readouts>
+
+  <plugins>
+  </plugins>
+
+<fields>
+</fields>
+</lccdd>

src/cb_EMCAL.cpp

+#include <XML/Helper.h>
+
+using namespace dd4hep;
+
+static Ref_t createDetector(Detector& desc, xml_h handle, SensitiveDetector sens) {
+  xml::DetElement detElem = handle;
+  std::string     detName = detElem.nameStr();
+  int             detID   = detElem.id();
+
+  xml::Component dims      = detElem.dimensions();
+  double         rInner    = dims.inner_radius();
+  double         rMin      = dims.rmin();
+  double         thickness = dims.thickness();
+  double         innerZ    = dims.inner_z();
+  double         angle     = dims.angle();
+
+  Material mat = desc.material(detElem.materialStr());
+
+  Tube             outerTubeShape(rMin, rInner + thickness, innerZ + thickness);
+  Tube             innerTubeShape(0, rInner, innerZ);
+  SubtractionSolid unchamferedShape(outerTubeShape, innerTubeShape);
+  Cone             chamferShape(thickness, 0, rMin, 0, rMin + 2 * tan(angle) * thickness);
+  SubtractionSolid detShape(unchamferedShape, chamferShape, Position(0, 0, innerZ + thickness));
+  Volume           detVol(detName, detShape, mat);
+
+  detVol.setVisAttributes(desc.visAttributes(detElem.visStr()));
+
+  DetElement   det(detName, detID);
+  Volume       motherVol = desc.pickMotherVolume(det);
+  PlacedVolume detPV     = motherVol.placeVolume(detVol);
+  det.setPlacement(detPV);
+  return det;
+
+
+//struct cb_EMCAL_Config
+//{
+//    double RIn;
+//    double ROut;
+//    double ROutshift = 5 * cm;
+//    double Thickness = 40 * cm;
+//    double SizeZ;
+//};
+//
+//
+//class cb_EMCAL_Design
+//{
+//public:
+//    inline void Construct(cb_EMCAL_Config cfg, cb_Solenoid_Config cfgsolenoid, G4Material *worldMaterial, G4VPhysicalVolume *motherVolume)
+//    {
+//        spdlog::debug("Begin cb_EMCAL volume \n");
+//
+//        ConstructionConfig = cfg;
+//
+//        //........................EMCAL Barrel detector----------------------------------------------
+//
+//        // working
+//
+//        //    G4double EMCALB_R_cone[4]={cb_EMCAL_GVol_RIn,  cb_EMCAL_GVol_ROut, cb_EMCAL_GVol_ROut, cb_EMCAL_GVol_RIn };
+//        //  G4double cb_EMCAL_GVol_ConeZ[4]={ -SizeZ/2, -SizeZ/2+60*cm, SizeZ/2-60*cm, SizeZ/2};
+//
+//
+//        double coneROut[4] = {cfg.ROut, cfg.ROut, cfg.ROut, cfg.ROut};
+//        double coneRIn[4] = {cfg.ROut - 1. * cm, cfg.RIn, cfg.RIn, cfg.ROut - 1. * cm};
+//        double coneZ[4] = {-cfgsolenoid.SizeZ / 2, -cfgsolenoid.SizeZ / 2 + 30 * cm, cfgsolenoid.SizeZ / 2 - 30 * cm, cfgsolenoid.SizeZ / 2};
+//
+//        Solid = new G4Polycone("cb_EMCAL_GVol_Solid", 0. * deg, 360. * deg, 4, coneZ, coneRIn, coneROut);
+//        Logic = new G4LogicalVolume(Solid, worldMaterial, "cb_EMCAL_GVol_Logic");
+//        Phys = new G4PVPlacement(0, G4ThreeVector(), "cb_EMCAL_GVol_Phys", Logic, motherVolume, false, 0);
+//
+//
+//        G4VisAttributes *visAttr = new G4VisAttributes(G4Color(0.3, 0.5, 0.9, 1.));
+//        visAttr->SetLineWidth(1);
+//        visAttr->SetForceSolid(false);
+//        Logic->SetVisAttributes(visAttr);
+//    }
+//
+//
+//    inline void ConstructBars()
+//    {
+//        // Setting material
+//        cb_EMCAL_det_Material = fMat->GetMaterial("PbWO4");
+//        Logic->SetMaterial(cb_EMCAL_det_Material);
+//
+//        // Visualising it differently
+//        auto visualAttributes = new G4VisAttributes(G4Color(0.3, 0.5, 0.9, 1.));
+//        visualAttributes->SetLineWidth(1);
+//        visualAttributes->SetForceSolid(true);
+//        Logic->SetVisAttributes(visualAttributes);
+//        //    fPhysicsEMCAL = new G4PVPlacement(0, G4ThreeVector(0,0,-40*cm), "EMCALbSolPhys",fLogicEMCAL,
+//        //                               cb_EMCAL_GVol_Phys, false,     0 );
+//    }
+//
+//    G4Polycone *Solid;      //pointer to the solid
+//    G4LogicalVolume *Logic;    //pointer to the logical
+//    G4VPhysicalVolume *Phys;  //pointer to the physical
+//
+//    /// Parameters that was used in the moment of construction
+//    cb_EMCAL_Config ConstructionConfig;
+
+}
+
+// clang-format off
+DECLARE_DETELEMENT(cb_EMCAL, createDetector)