ZdcLut Class Reference

Generation of ZDC Lookup tables and associate helper methods. More...

#include <ZdcLut.h>

Public Member Functions
std::vector< int >	get_lut (int emap_side, int emap_htr_fiber, int emap_fi_ch)
std::vector< int >	get_lut (std::string zdc_section, int zdc_side, int zdc_channel)
int	simple_loop (void)
	ZdcLut ()
	~ZdcLut ()

Private Attributes
std::vector< ZDC_sides >	side

Detailed Description

Generation of ZDC Lookup tables and associate helper methods.

Adopted to CMSSW HCAL LUT manager specs by Gena Kukartsev, Brown University, Dec 08, 2009

Author

Elijah Dunn

Definition at line 30 of file ZdcLut.h.

Constructor & Destructor Documentation

ZdcLut()

ZdcLut::ZdcLut

(

)

Definition at line 13 of file ZdcLut.cc.

References createfilelist::int, and side.

               {
  //constants for ADC to GeV conversion
  double ADC_GEV_EM = 13.55, ADC_GEV_HAD = 0.6;
  int LSB_EM = 1, LSB_HAD = 5;
  std::vector<int> fC_TDR;
  //fills in fC_TDR with values from table
  fC_TDR.push_back(0);
  fC_TDR.push_back(1);
  fC_TDR.push_back(2);
  fC_TDR.push_back(3);
  fC_TDR.push_back(4);
  fC_TDR.push_back(5);
  fC_TDR.push_back(6);
  fC_TDR.push_back(7);
  fC_TDR.push_back(8);
  fC_TDR.push_back(9);
  fC_TDR.push_back(10);
  fC_TDR.push_back(11);
  fC_TDR.push_back(12);
  fC_TDR.push_back(13);
  fC_TDR.push_back(14);
  fC_TDR.push_back(16);
  fC_TDR.push_back(18);
  fC_TDR.push_back(20);
  fC_TDR.push_back(22);
  fC_TDR.push_back(24);
  fC_TDR.push_back(26);
  fC_TDR.push_back(28);
  fC_TDR.push_back(31);
  fC_TDR.push_back(34);
  fC_TDR.push_back(37);
  fC_TDR.push_back(40);
  fC_TDR.push_back(44);
  fC_TDR.push_back(48);
  fC_TDR.push_back(52);
  fC_TDR.push_back(57);
  fC_TDR.push_back(62);
  fC_TDR.push_back(67);
  fC_TDR.push_back(62);
  fC_TDR.push_back(67);
  fC_TDR.push_back(72);
  fC_TDR.push_back(77);
  fC_TDR.push_back(82);
  fC_TDR.push_back(87);
  fC_TDR.push_back(92);
  fC_TDR.push_back(97);
  fC_TDR.push_back(102);
  fC_TDR.push_back(107);
  fC_TDR.push_back(112);
  fC_TDR.push_back(117);
  fC_TDR.push_back(122);
  fC_TDR.push_back(127);
  fC_TDR.push_back(132);
  fC_TDR.push_back(142);
  fC_TDR.push_back(152);
  fC_TDR.push_back(162);
  fC_TDR.push_back(172);
  fC_TDR.push_back(182);
  fC_TDR.push_back(192);
  fC_TDR.push_back(202);
  fC_TDR.push_back(217);
  fC_TDR.push_back(232);
  fC_TDR.push_back(247);
  fC_TDR.push_back(262);
  fC_TDR.push_back(282);
  fC_TDR.push_back(302);
  fC_TDR.push_back(322);
  fC_TDR.push_back(347);
  fC_TDR.push_back(372);
  fC_TDR.push_back(397);
  fC_TDR.push_back(372);
  fC_TDR.push_back(397);
  fC_TDR.push_back(422);
  fC_TDR.push_back(447);
  fC_TDR.push_back(472);
  fC_TDR.push_back(497);
  fC_TDR.push_back(522);
  fC_TDR.push_back(547);
  fC_TDR.push_back(572);
  fC_TDR.push_back(597);
  fC_TDR.push_back(622);
  fC_TDR.push_back(647);
  fC_TDR.push_back(672);
  fC_TDR.push_back(697);
  fC_TDR.push_back(722);
  fC_TDR.push_back(772);
  fC_TDR.push_back(822);
  fC_TDR.push_back(872);
  fC_TDR.push_back(922);
  fC_TDR.push_back(972);
  fC_TDR.push_back(1022);
  fC_TDR.push_back(1072);
  fC_TDR.push_back(1147);
  fC_TDR.push_back(1222);
  fC_TDR.push_back(1297);
  fC_TDR.push_back(1372);
  fC_TDR.push_back(1472);
  fC_TDR.push_back(1572);
  fC_TDR.push_back(1672);
  fC_TDR.push_back(1797);
  fC_TDR.push_back(1922);
  fC_TDR.push_back(2047);
  fC_TDR.push_back(1922);
  fC_TDR.push_back(2047);
  fC_TDR.push_back(2172);
  fC_TDR.push_back(2297);
  fC_TDR.push_back(2422);
  fC_TDR.push_back(2547);
  fC_TDR.push_back(2672);
  fC_TDR.push_back(1797);
  fC_TDR.push_back(2922);
  fC_TDR.push_back(3047);
  fC_TDR.push_back(3172);
  fC_TDR.push_back(3297);
  fC_TDR.push_back(3422);
  fC_TDR.push_back(2547);
  fC_TDR.push_back(3672);
  fC_TDR.push_back(3922);
  fC_TDR.push_back(4172);
  fC_TDR.push_back(4422);
  fC_TDR.push_back(4672);
  fC_TDR.push_back(4922);
  fC_TDR.push_back(5172);
  fC_TDR.push_back(5422);
  fC_TDR.push_back(5797);
  fC_TDR.push_back(6172);
  fC_TDR.push_back(6547);
  fC_TDR.push_back(6922);
  fC_TDR.push_back(7422);
  fC_TDR.push_back(7922);
  fC_TDR.push_back(8422);
  fC_TDR.push_back(9047);
  fC_TDR.push_back(9672);
  fC_TDR.push_back(10297);

  // two vectors containing the LUT; one for Hadronic and one for Electromagnetic
  std::vector<int> HADlut(128);
  std::vector<int> EMlut(128);
  //uses the constants to fill each LUT
  for (int zdci = 0; zdci < 128; zdci++) {
    EMlut[zdci] = (int)((fC_TDR[zdci] / ADC_GEV_EM) / LSB_EM + 0.5);
  }
  for (int zdci = 0; zdci < 128; zdci++) {
    HADlut[zdci] = (int)((fC_TDR[zdci] / ADC_GEV_HAD) / LSB_HAD + 0.5);
  }

  side.resize(2);
  side[0].fiber.resize(3);
  side[1].fiber.resize(3);
  side[0].fiber[0].channel.resize(3);
  side[0].fiber[1].channel.resize(3);
  side[0].fiber[2].channel.resize(3);
  side[1].fiber[0].channel.resize(3);
  side[1].fiber[1].channel.resize(3);
  side[1].fiber[2].channel.resize(3);
  side[0].fiber[0].channel[0].LUT = EMlut;
  side[0].fiber[0].channel[1].LUT = EMlut;
  side[0].fiber[0].channel[2].LUT = EMlut;
  side[0].fiber[1].channel[0].LUT = EMlut;
  side[0].fiber[1].channel[1].LUT = EMlut;
  side[0].fiber[1].channel[2].LUT = HADlut;
  side[0].fiber[2].channel[0].LUT = HADlut;
  side[0].fiber[2].channel[1].LUT = HADlut;
  side[0].fiber[2].channel[2].LUT = HADlut;
  side[1].fiber[0].channel[0].LUT = EMlut;
  side[1].fiber[0].channel[1].LUT = EMlut;
  side[1].fiber[0].channel[2].LUT = EMlut;
  side[1].fiber[1].channel[0].LUT = EMlut;
  side[1].fiber[1].channel[1].LUT = EMlut;
  side[1].fiber[1].channel[2].LUT = HADlut;
  side[1].fiber[2].channel[0].LUT = HADlut;
  side[1].fiber[2].channel[1].LUT = HADlut;
  side[1].fiber[2].channel[2].LUT = HADlut;
}

~ZdcLut()

ZdcLut::~ZdcLut

(

void

)

Definition at line 188 of file ZdcLut.cc.

{}

Member Function Documentation

get_lut() [1/2]

std::vector< int > ZdcLut::get_lut	(	int	emap_side,
		int	emap_htr_fiber,
		int	emap_fi_ch
	)

Definition at line 206 of file ZdcLut.cc.

References createfilelist::int, and side.

                                                                                {
  int side_num = (1 - emap_side) / 2;
  int fiber_num = (int)(emap_htr_fiber / 4) + (emap_htr_fiber % 4);
  int channel_num = emap_fi_ch;
  return side[side_num].fiber[fiber_num].channel[channel_num].LUT;
}

get_lut() [2/2]

std::vector< int > ZdcLut::get_lut	(	std::string	zdc_section,
		int	zdc_side,
		int	zdc_channel
	)

Definition at line 214 of file ZdcLut.cc.

References gather_cfg::cout, beamvalidation::exit(), createfilelist::int, and side.

                                                                                   {
  int side_num = (1 - zdc_side) / 2;
  int fiber_num = -1;
  int channel_num = -1;
  if (zdc_section.find("ZDC EM") != std::string::npos) {
    fiber_num = (int)(zdc_channel / 4);
    channel_num = (int)((zdc_channel - 1) / 3) % 3;
  } else if (zdc_section.find("ZDC HAD") != std::string::npos) {
    if (zdc_channel == 1) {
      fiber_num = 1;
      channel_num = 2;
    } else if (zdc_channel == 2) {
      fiber_num = 2;
      channel_num = 0;
    } else if (zdc_channel == 3) {
      fiber_num = 2;
      channel_num = 1;
    } else if (zdc_channel == 4) {
      fiber_num = 2;
      channel_num = 2;
    } else {
      std::cout << zdc_channel << ": unknown ZDC channel, exiting..." << std::endl;
      exit(-1);
    }
  } else {
    std::cout << zdc_section << ": unknown ZDC section, exiting..." << std::endl;
    exit(-1);
  }
  // FIXME: add validity check here
  if (1 == 1) {
    return side[side_num].fiber[fiber_num].channel[channel_num].LUT;
  } else
    return side[side_num].fiber[fiber_num].channel[channel_num].LUT;
}

simple_loop()

int ZdcLut::simple_loop

(

void

)

Definition at line 190 of file ZdcLut.cc.

References gather_cfg::cout, and side.

                        {
  for (unsigned int zdcs = 0; zdcs < side.size(); zdcs++) {
    for (unsigned int zdcf = 0; zdcf < side[zdcs].fiber.size(); zdcf++) {
      for (unsigned int zdcc = 0; zdcc < side[zdcs].fiber[zdcf].channel.size(); zdcc++) {
        for (unsigned int zdcl = 0; zdcl < side[zdcs].fiber[zdcf].channel[zdcc].LUT.size(); zdcl++) {
          std::cout << side[zdcs].fiber[zdcf].channel[zdcc].LUT[zdcl] << " ";
        }
        std::cout << std::endl;
      }
      std::cout << std::endl;
    }
    std::cout << std::endl;
  }
  return 0;
}

Member Data Documentation

side

std::vector<ZDC_sides> ZdcLut::side

private

Definition at line 45 of file ZdcLut.h.

Referenced by get_lut(), simple_loop(), and ZdcLut().