#ifndef ElectronicsQuantity_h
#define ElectronicsQuantity_h

/**
 *	file:		ElectronicsQuantity.h
 *	Author:		Viktor Khristenko
 */

#include "DQM/HcalCommon/interface/Quantity.h"
#include <unordered_map>

namespace hcaldqm {
  namespace quantity {
    enum ElectronicsQuantityType {
      fFED = 0,
      fFEDuTCA = 1,
      fFEDVME = 2,
      fCrate = 3,
      fCrateuTCA = 4,
      fCrateVME = 5,
      fSlotuTCA = 6,
      fSlotVME = 7,
      fSpigot = 8,
      fFiberuTCA = 9,
      fFiberVME = 10,
      fFiberCh = 11,

      //	Complex Quantities
      fFEDuTCASlot = 12,
      fFEDVMESpigot = 13,
      fFiberuTCAFiberCh = 14,
      fFiberVMEFiberCh = 15,

      //	Adding Trigger Quantities for VME
      fSLB = 16,
      fSLBCh = 17,
      fSLBSLBCh = 18,

      //	Adding Trigger Quantities for uTCA
      fFiberuTCATP = 19,
      fFiberChuTCATP = 20,
      fFiberuTCATPFiberChuTCATP = 21,

      nElectronicsQuantityType = 22
    };

    int getValue_FED(HcalElectronicsId const &);
    int getValue_FEDuTCA(HcalElectronicsId const &);
    int getValue_FEDVME(HcalElectronicsId const &);
    int getValue_Crate(HcalElectronicsId const &);
    int getValue_CrateuTCA(HcalElectronicsId const &);
    int getValue_CrateVME(HcalElectronicsId const &);
    int getValue_SlotuTCA(HcalElectronicsId const &);
    int getValue_SlotVME(HcalElectronicsId const &);
    int getValue_Spigot(HcalElectronicsId const &);
    int getValue_FiberuTCA(HcalElectronicsId const &);
    int getValue_FiberVME(HcalElectronicsId const &);
    int getValue_FiberCh(HcalElectronicsId const &);
    int getValue_FEDuTCASlot(HcalElectronicsId const &);
    int getValue_FEDVMESpigot(HcalElectronicsId const &);
    int getValue_FiberuTCAFiberCh(HcalElectronicsId const &);
    int getValue_FiberVMEFiberCh(HcalElectronicsId const &);
    int getValue_SLB(HcalElectronicsId const &);
    int getValue_SLBCh(HcalElectronicsId const &);
    int getValue_SLBSLBCh(HcalElectronicsId const &);
    int getValue_FiberuTCATP(HcalElectronicsId const &);
    int getValue_FiberChuTCATP(HcalElectronicsId const &);
    int getValue_FiberuTCATPFiberChuTCATP(HcalElectronicsId const &);
    uint32_t getBin_FED(HcalElectronicsId const &);
    uint32_t getBin_FEDuTCA(HcalElectronicsId const &);
    uint32_t getBin_FEDVME(HcalElectronicsId const &);
    uint32_t getBin_Crate(HcalElectronicsId const &);
    uint32_t getBin_CrateuTCA(HcalElectronicsId const &);
    uint32_t getBin_CrateVME(HcalElectronicsId const &);
    uint32_t getBin_SlotuTCA(HcalElectronicsId const &);
    uint32_t getBin_SlotVME(HcalElectronicsId const &);
    uint32_t getBin_Spigot(HcalElectronicsId const &);
    uint32_t getBin_FiberuTCA(HcalElectronicsId const &);
    uint32_t getBin_FiberVME(HcalElectronicsId const &);
    uint32_t getBin_FiberCh(HcalElectronicsId const &);
    uint32_t getBin_FEDuTCASlot(HcalElectronicsId const &);
    uint32_t getBin_FEDVMESpigot(HcalElectronicsId const &);
    uint32_t getBin_FiberuTCAFiberCh(HcalElectronicsId const &);
    uint32_t getBin_FiberVMEFiberCh(HcalElectronicsId const &);
    uint32_t getBin_SLB(HcalElectronicsId const &);
    uint32_t getBin_SLBCh(HcalElectronicsId const &);
    uint32_t getBin_SLBSLBCh(HcalElectronicsId const &);
    uint32_t getBin_FiberuTCATP(HcalElectronicsId const &);
    uint32_t getBin_FiberChuTCATP(HcalElectronicsId const &);
    uint32_t getBin_FiberuTCATPFiberChuTCATP(HcalElectronicsId const &);
    HcalElectronicsId getEid_FED(int);
    HcalElectronicsId getEid_FEDuTCA(int);
    HcalElectronicsId getEid_FEDVME(int);
    HcalElectronicsId getEid_Crate(int);
    HcalElectronicsId getEid_CrateuTCA(int);
    HcalElectronicsId getEid_CrateVME(int);
    HcalElectronicsId getEid_SlotuTCA(int);
    HcalElectronicsId getEid_SlotVME(int);
    HcalElectronicsId getEid_Spigot(int);
    HcalElectronicsId getEid_FiberuTCA(int);
    HcalElectronicsId getEid_FiberVME(int);
    HcalElectronicsId getEid_FiberCh(int);
    HcalElectronicsId getEid_FEDuTCASlot(int);
    HcalElectronicsId getEid_FEDVMESpigot(int);
    HcalElectronicsId getEid_FiberuTCAFiberCh(int);
    HcalElectronicsId getEid_FiberVMEFiberCh(int);
    HcalElectronicsId getEid_SLB(int);
    HcalElectronicsId getEid_SLBCh(int);
    HcalElectronicsId getEid_SLBSLBCh(int);
    HcalElectronicsId getEid_FiberuTCATP(int);
    HcalElectronicsId getEid_FiberChuTCATP(int);
    HcalElectronicsId getEid_FiberuTCATPFiberChuTCATP(int);
    std::vector<std::string> getLabels_FED();
    std::vector<std::string> getLabels_FEDuTCA();
    std::vector<std::string> getLabels_FEDVME();
    std::vector<std::string> getLabels_Crate();
    std::vector<std::string> getLabels_CrateuTCA();
    std::vector<std::string> getLabels_CrateVME();
    std::vector<std::string> getLabels_SlotuTCA();
    std::vector<std::string> getLabels_SlotVME();
    std::vector<std::string> getLabels_Spigot();
    std::vector<std::string> getLabels_FiberuTCA();
    std::vector<std::string> getLabels_FiberVME();
    std::vector<std::string> getLabels_FiberCh();
    std::vector<std::string> getLabels_FEDuTCASlot();
    std::vector<std::string> getLabels_FEDVMESpigot();
    std::vector<std::string> getLabels_FiberuTCAFiberCh();
    std::vector<std::string> getLabels_FiberVMEFiberCh();
    std::vector<std::string> getLabels_SLB();
    std::vector<std::string> getLabels_SLBCh();
    std::vector<std::string> getLabels_SLBSLBCh();
    std::vector<std::string> getLabels_FiberuTCATP();
    std::vector<std::string> getLabels_FiberChuTCATP();
    std::vector<std::string> getLabels_FiberuTCATPFiberChuTCATP();

    typedef int (*getValueType_eid)(HcalElectronicsId const &);
    typedef uint32_t (*getBinType_eid)(HcalElectronicsId const &);
    typedef HcalElectronicsId (*getEid_eid)(int);
    typedef std::vector<std::string> (*getLabels_eid)();
    const std::map<ElectronicsQuantityType, getValueType_eid> getValue_functions_eid = {
        {fFED, getValue_FED},
        {fFEDuTCA, getValue_FEDuTCA},
        {fFEDVME, getValue_FEDVME},
        {fCrate, getValue_Crate},
        {fCrateuTCA, getValue_CrateuTCA},
        {fCrateVME, getValue_CrateVME},
        {fSlotuTCA, getValue_SlotuTCA},
        {fSlotVME, getValue_SlotVME},
        {fSpigot, getValue_Spigot},
        {fFiberuTCA, getValue_FiberuTCA},
        {fFiberVME, getValue_FiberVME},
        {fFiberCh, getValue_FiberCh},
        {fFEDuTCASlot, getValue_FEDuTCASlot},
        {fFEDVMESpigot, getValue_FEDVMESpigot},
        {fFiberuTCAFiberCh, getValue_FiberuTCAFiberCh},
        {fFiberVMEFiberCh, getValue_FiberVMEFiberCh},
        {fSLB, getValue_SLB},
        {fSLBCh, getValue_SLBCh},
        {fSLBSLBCh, getValue_SLBSLBCh},
        {fFiberuTCATP, getValue_FiberuTCATP},
        {fFiberChuTCATP, getValue_FiberChuTCATP},
        {fFiberuTCATPFiberChuTCATP, getValue_FiberuTCATPFiberChuTCATP},
    };
    const std::map<ElectronicsQuantityType, getBinType_eid> getBin_functions_eid = {
        {fFED, getBin_FED},
        {fFEDuTCA, getBin_FEDuTCA},
        {fFEDVME, getBin_FEDVME},
        {fCrate, getBin_Crate},
        {fCrateuTCA, getBin_CrateuTCA},
        {fCrateVME, getBin_CrateVME},
        {fSlotuTCA, getBin_SlotuTCA},
        {fSlotVME, getBin_SlotVME},
        {fSpigot, getBin_Spigot},
        {fFiberuTCA, getBin_FiberuTCA},
        {fFiberVME, getBin_FiberVME},
        {fFiberCh, getBin_FiberCh},
        {fFEDuTCASlot, getBin_FEDuTCASlot},
        {fFEDVMESpigot, getBin_FEDVMESpigot},
        {fFiberuTCAFiberCh, getBin_FiberuTCAFiberCh},
        {fFiberVMEFiberCh, getBin_FiberVMEFiberCh},
        {fSLB, getBin_SLB},
        {fSLBCh, getBin_SLBCh},
        {fSLBSLBCh, getBin_SLBSLBCh},
        {fFiberuTCATP, getBin_FiberuTCATP},
        {fFiberChuTCATP, getBin_FiberChuTCATP},
        {fFiberuTCATPFiberChuTCATP, getBin_FiberuTCATPFiberChuTCATP},
    };
    const std::map<ElectronicsQuantityType, getEid_eid> getEid_functions_eid = {
        {fFED, getEid_FED},
        {fFEDuTCA, getEid_FEDuTCA},
        {fFEDVME, getEid_FEDVME},
        {fCrate, getEid_Crate},
        {fCrateuTCA, getEid_CrateuTCA},
        {fCrateVME, getEid_CrateVME},
        {fSlotuTCA, getEid_SlotuTCA},
        {fSlotVME, getEid_SlotVME},
        {fSpigot, getEid_Spigot},
        {fFiberuTCA, getEid_FiberuTCA},
        {fFiberVME, getEid_FiberVME},
        {fFiberCh, getEid_FiberCh},
        {fFEDuTCASlot, getEid_FEDuTCASlot},
        {fFEDVMESpigot, getEid_FEDVMESpigot},
        {fFiberuTCAFiberCh, getEid_FiberuTCAFiberCh},
        {fFiberVMEFiberCh, getEid_FiberVMEFiberCh},
        {fSLB, getEid_SLB},
        {fSLBCh, getEid_SLBCh},
        {fSLBSLBCh, getEid_SLBSLBCh},
        {fFiberuTCATP, getEid_FiberuTCATP},
        {fFiberChuTCATP, getEid_FiberChuTCATP},
        {fFiberuTCATPFiberChuTCATP, getEid_FiberuTCATPFiberChuTCATP},
    };
    const std::map<ElectronicsQuantityType, getLabels_eid> getLabels_functions_eid = {
        {fFED, getLabels_FED},
        {fFEDuTCA, getLabels_FEDuTCA},
        {fFEDVME, getLabels_FEDVME},
        {fCrate, getLabels_Crate},
        {fCrateuTCA, getLabels_CrateuTCA},
        {fCrateVME, getLabels_CrateVME},
        {fSlotuTCA, getLabels_SlotuTCA},
        {fSlotVME, getLabels_SlotVME},
        {fSpigot, getLabels_Spigot},
        {fFiberuTCA, getLabels_FiberuTCA},
        {fFiberVME, getLabels_FiberVME},
        {fFiberCh, getLabels_FiberCh},
        {fFEDuTCASlot, getLabels_FEDuTCASlot},
        {fFEDVMESpigot, getLabels_FEDVMESpigot},
        {fFiberuTCAFiberCh, getLabels_FiberuTCAFiberCh},
        {fFiberVMEFiberCh, getLabels_FiberVMEFiberCh},
        {fSLB, getLabels_SLB},
        {fSLBCh, getLabels_SLBCh},
        {fSLBSLBCh, getLabels_SLBSLBCh},
        {fFiberuTCATP, getLabels_FiberuTCATP},
        {fFiberChuTCATP, getLabels_FiberChuTCATP},
        {fFiberuTCATPFiberChuTCATP, getLabels_FiberuTCATPFiberChuTCATP},
    };
    const std::map<ElectronicsQuantityType, std::string> name_eid = {
        {fFED, "FED"},
        {fFEDuTCA, "FEDuTCA"},
        {fFEDVME, "FEDVME"},
        {fCrate, "Crate"},
        {fCrateuTCA, "CrateuTCA"},
        {fCrateVME, "CrateVME"},
        {fSlotuTCA, "SlotuTCA"},
        {fSlotVME, "SlotVME"},
        {fSpigot, "Spigot"},
        {fFiberuTCA, "FiberuTCA"},
        {fFiberVME, "FiberVME"},
        {fFiberCh, "FiberCh"},
        {fFEDuTCASlot, "FEDuTCASlot"},
        {fFEDVMESpigot, "FEDVMESpigot"},
        {fFiberuTCAFiberCh, "FiberuTCAFiberCh"},
        {fFiberVMEFiberCh, "FiberVMEFiberCh"},
        {fSLB, "SLB"},
        {fSLBCh, "SLBCh"},
        {fSLBSLBCh, "SLB-SLBCh"},
        {fFiberuTCATP, "TPFiber"},
        {fFiberChuTCATP, "TPFiberCh"},
        {fFiberuTCATPFiberChuTCATP, "TPF-TPFCh"},
    };
    const std::map<ElectronicsQuantityType, double> min_eid = {
        {fFED, -0.5},
        {fFEDuTCA, -0.5},
        {fFEDVME, -0.5},
        {fCrate, -0.5},
        {fCrateuTCA, -0.5},
        {fCrateVME, -0.5},
        {fSlotuTCA, 0.},
        {fSlotVME, 0.},
        {fSpigot, 0.},
        {fFiberuTCA, 0.},
        {fFiberVME, 0.},
        {fFiberCh, 0.},
        {fFEDuTCASlot, 0.},
        {fFEDVMESpigot, 0.},
        {fFiberuTCAFiberCh, 0.},
        {fFiberVMEFiberCh, 0.},
        {fSLB, 0.},
        {fSLBCh, 0.},
        {fSLBSLBCh, 0.},
        {fFiberuTCATP, 0.},
        {fFiberChuTCATP, 0.},
        {fFiberuTCATPFiberChuTCATP, 0.},
    };
    const std::map<ElectronicsQuantityType, double> max_eid = {
        {fFED, constants::fedList.size() - 0.5},
        {fFEDuTCA, constants::fedListuTCA.size() - 0.5},
        {fFEDVME, constants::fedListVME.size() - 0.5},
        {fCrate, constants::crateList.size() - 0.5},
        {fCrateuTCA, constants::crateListuTCA.size() - 0.5},
        {fCrateVME, constants::crateListVME.size() - 0.5},
        {fSlotuTCA, constants::SLOT_uTCA_NUM},
        {fSlotVME, constants::SLOT_VME_NUM},
        {fSpigot, constants::SPIGOT_NUM},
        {fFiberuTCA, constants::FIBER_uTCA_NUM},
        {fFiberVME, constants::FIBER_VME_NUM},
        {fFiberCh, constants::FIBERCH_NUM},
        {fFEDuTCASlot, constants::FED_uTCA_NUM *constants::SLOT_uTCA_NUM},
        {fFEDVMESpigot, constants::FED_VME_NUM *constants::SPIGOT_NUM},
        {fFiberuTCAFiberCh, constants::FIBER_uTCA_NUM *constants::FIBERCH_NUM},
        {fFiberVMEFiberCh, constants::FIBER_VME_NUM *constants::FIBERCH_NUM},
        {fSLB, constants::SLB_NUM},
        {fSLBCh, constants::SLBCH_NUM},
        {fSLBSLBCh, constants::SLB_NUM *constants::SLBCH_NUM},
        {fFiberuTCATP, constants::TPFIBER_NUM},
        {fFiberChuTCATP, constants::TPFIBERCH_NUM},
        {fFiberuTCATPFiberChuTCATP, constants::TPFIBER_NUM *constants::TPFIBERCH_NUM},
    };
    const std::map<ElectronicsQuantityType, double> nbins_eid = {
        {fFED, constants::fedList.size()},
        {fFEDuTCA, constants::fedListuTCA.size()},
        {fFEDVME, constants::fedListVME.size()},
        {fCrate, constants::crateList.size()},
        {fCrateuTCA, constants::crateListuTCA.size()},
        {fCrateVME, constants::crateListVME.size()},
        {fSlotuTCA, constants::SLOT_uTCA_NUM},
        {fSlotVME, constants::SLOT_VME_NUM},
        {fSpigot, constants::SPIGOT_NUM},
        {fFiberuTCA, constants::FIBER_uTCA_NUM},
        {fFiberVME, constants::FIBER_VME_NUM},
        {fFiberCh, constants::FIBERCH_NUM},
        {fFEDuTCASlot, constants::FED_uTCA_NUM *constants::SLOT_uTCA_NUM},
        {fFEDVMESpigot, constants::FED_VME_NUM *constants::SPIGOT_NUM},
        {fFiberuTCAFiberCh, constants::FIBER_uTCA_NUM *constants::FIBERCH_NUM},
        {fFiberVMEFiberCh, constants::FIBER_VME_NUM *constants::FIBERCH_NUM},
        {fSLB, constants::SLB_NUM},
        {fSLBCh, constants::SLBCH_NUM},
        {fSLBSLBCh, constants::SLB_NUM *constants::SLBCH_NUM},
        {fFiberuTCATP, constants::TPFIBER_NUM},
        {fFiberChuTCATP, constants::TPFIBERCH_NUM},
        {fFiberuTCATPFiberChuTCATP, constants::TPFIBER_NUM *constants::TPFIBERCH_NUM},
    };

    class ElectronicsQuantity : public Quantity {
    public:
      ElectronicsQuantity() {}
      ElectronicsQuantity(ElectronicsQuantityType type, bool isLog = false)
          : Quantity(name_eid.at(type), isLog), _type(type) {}
      ~ElectronicsQuantity() override {}
      ElectronicsQuantity *makeCopy() override { return new ElectronicsQuantity(_type, _isLog); }

      int getValue(HcalElectronicsId const &eid) override { return getValue_functions_eid.at(_type)(eid); }
      uint32_t getBin(HcalElectronicsId const &eid) override { return getBin_functions_eid.at(_type)(eid); }

      QuantityType type() override { return fElectronicsQuantity; }
      int nbins() override { return nbins_eid.at(_type); }
      double min() override { return min_eid.at(_type); }
      double max() override { return max_eid.at(_type); }
      bool isCoordinate() override { return true; }
      std::vector<std::string> getLabels() override { return getLabels_functions_eid.at(_type)(); }

    protected:
      ElectronicsQuantityType _type;
    };

    //	sorted list of FEDs you want to have on the axis
    class FEDQuantity : public ElectronicsQuantity {
    public:
      FEDQuantity() {}
      FEDQuantity(std::vector<int> const &vFEDs) : ElectronicsQuantity(fFED, false) { this->setup(vFEDs); }
      ~FEDQuantity() override {}

      virtual void setup(std::vector<int> const &vFEDs);
      int getValue(HcalElectronicsId const &) override;
      uint32_t getBin(HcalElectronicsId const &) override;

      int nbins() override { return _feds.size(); }
      double min() override { return 0; }
      double max() override { return _feds.size(); }
      std::vector<std::string> getLabels() override;

    protected:
      typedef std::unordered_map<int, uint32_t> FEDMap;
      FEDMap _feds;

    public:
      FEDQuantity *makeCopy() override {
        std::vector<int> vfeds;
        for (auto const &p : _feds) {
          vfeds.push_back(p.first);
        }

        //	MUST SORT BEFORE EXITING!
        std::sort(vfeds.begin(), vfeds.end());
        return new FEDQuantity(vfeds);
      }
    };

    // Crate quantity, initialized from emap (because it is not easy to turn a VME
    // crate in an EID)
    class CrateQuantity : public ElectronicsQuantity {
      typedef std::map<int, uint32_t> CrateHashMap;

    public:
      CrateQuantity() {}
      CrateQuantity(HcalElectronicsMap const *emap) : ElectronicsQuantity(fCrate, false) { this->setup(emap); }
      CrateQuantity(std::vector<int> crates, CrateHashMap crateHashes) : ElectronicsQuantity(fCrate, false) {
        this->setup(crates, crateHashes);
      }
      ~CrateQuantity() override {}

      virtual void setup(HcalElectronicsMap const *emap);
      virtual void setup(std::vector<int> crates, CrateHashMap crateHashes);
      int getValue(HcalElectronicsId const &) override;
      uint32_t getBin(HcalElectronicsId const &) override;

      int nbins() override { return _crates.size(); }
      double min() override { return 0; }
      double max() override { return _crates.size(); }
      std::vector<std::string> getLabels() override;

    protected:
      std::vector<int> _crates;
      CrateHashMap _crateHashes;

    public:
      CrateQuantity *makeCopy() override {
        // Make copies of the crate info
        std::vector<int> tmpCrates;
        std::map<int, uint32_t> tmpCrateHashes;
        for (auto &it_crate : _crates) {
          tmpCrates.push_back(it_crate);
          tmpCrateHashes[it_crate] = _crateHashes[it_crate];
        }
        return new CrateQuantity(tmpCrates, tmpCrateHashes);
      }
    };
  }  // namespace quantity
}  // namespace hcaldqm

#endif