16 for (
int iSample=0;iSample<
SAMPLES;iSample++) {
23 for (
int jCrate=0;jCrate<
NUM_CRATES;jCrate++) {
29 iCrate=4 ; dcc9[iCrate]=700; dcc19[iCrate]=701;
30 iCrate=0 ; dcc9[iCrate]=702; dcc19[iCrate]=703;
31 iCrate=1 ; dcc9[iCrate]=704; dcc19[iCrate]=705;
32 iCrate=5 ; dcc9[iCrate]=706; dcc19[iCrate]=707;
33 iCrate=11; dcc9[iCrate]=708; dcc19[iCrate]=709;
34 iCrate=15; dcc9[iCrate]=710; dcc19[iCrate]=711;
35 iCrate=17; dcc9[iCrate]=712; dcc19[iCrate]=713;
36 iCrate=14; dcc9[iCrate]=714; dcc19[iCrate]=715;
37 iCrate=10; dcc9[iCrate]=716; dcc19[iCrate]=717;
38 iCrate=2 ; dcc9[iCrate]=718; dcc19[iCrate]=719;
39 iCrate=9 ; dcc9[iCrate]=720; dcc19[iCrate]=721;
40 iCrate=12; dcc9[iCrate]=722; dcc19[iCrate]=723;
41 iCrate=3 ; dcc9[iCrate]=724; dcc19[iCrate]=725;
42 iCrate=7 ; dcc9[iCrate]=726; dcc19[iCrate]=727;
43 iCrate=6 ; dcc9[iCrate]=728; dcc19[iCrate]=729;
44 iCrate=13; dcc9[iCrate]=730; dcc19[iCrate]=731;
58 int fiber_channel=(
m_chan-1)%3;
59 int fiber=(
m_chan-fiber_channel-1)/3 +1;
79 int side=hdid.
zside();
80 int depth=hdid.
depth();
84 if (pattern_number==1) {
95 if (pattern_number==2) {
97 if (subdet==4 && etaabs<30)
return;
99 if ((etaabs+2)%4!=0)
return;
101 if (i<1 || i>7)
return;
103 if ((phi+3)%4!=0)
return;
105 if (j<1 || j>18)
return;
109 if (side>0)
fCCoded[phi+10]=i+16;
112 if (pattern_number==3) {
113 if (depth>1 || etaabs!=18 || side!=1 || phi!=32)
return;
120 catch (...) {
return;}
134 for (
int samples=0; samples<data->size(); samples++) {
158 for (
int samples=0; samples<data->size(); samples++) {
182 for (
int samples=0; samples<data->size(); samples++) {
196 for (
int i=0;
i<24;
i++)
208 for (
int tb=0;tb<2;tb++) {
217 for (
int tb=0;tb<2;tb++) {
void Fill_by_hand(const HcalElectronicsMap *, int)
HcalSubdetector subdet() const
get the subdetector
HalfHtrData * m_slotsDoubled[ChannelPattern::NUM_SLOTS][2]
int zside() const
get the z-side of the cell (1/-1)
std::vector< HBHEDataFrame >::const_iterator const_iterator
static const int NUM_CRATES
int depth() const
get the tower depth
void Fill(HtrXmlPatternToolParameters *params, HBHEDigiCollection::const_iterator data)
double fCQuantized[SAMPLES]
ChannelPattern m_patterns[24]
CrateData(int crate, int slotsActive[ChannelPattern::NUM_SLOTS])
static const int NUM_SLOTS
int ietaAbs() const
get the absolute value of the cell ieta
int iphi() const
get the cell iphi
void setHTR(int crate, int slot, int tb)
HalfHtrData(int crate, int slot, int tb)
HalfHtrData * getHalfHtrData(int slot, int one_two_tb)
CrateData * getCrate(int crate)
HtrXmlPatternSet(int cratesActive[ChannelPattern::NUM_CRATES], int slotsActive[ChannelPattern::NUM_SLOTS])
char data[epos_bytes_allocation]
Readout chain identification for Hcal.
CrateData * m_crates[ChannelPattern::NUM_CRATES]
const DetId lookup(HcalElectronicsId fId) const
lookup the logical detid associated with the given electronics id