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InfoChip.cc
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InfoChip.cc
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#ifndef INFOCHIP_CC
#define INFOCHIP_CC
using std::cout;
using std::endl;
/* COMMENTS
________ ________
| | | ^ +y
_______| | | |
|DIF/ | FEV | |
|___/____________|________| --> +x
board (0,0) at center of FEV, chip (0,0) at center of wafer quadrant
*/
class InfoChip {
public:
int GetASUChipNumberFromChipID(int chipID){
// Assuming the slow control numbers the chips with the PCB numeration
return chipID;
}
double GetX(int chip, int channel){
return posX[chip][channel];
}
double GetY(int chip, int channel){
return posY[chip][channel];
}
void FindChipChannel(double x, double y, int& chip, int& channel){
chip = -1;
channel = -1;
for (int i=0; i<NCHIPS; i++) {
for (int j=0; j<NCHANNELS; j++) {
//cout << i << " " << j << " " << posX[i][j] << " " << posY[i][j] << endl;
if (x==posX[i][j] && y==posY[i][j]) {
//cout << "--> OK" << endl;
chip = i;
channel = j;
}
}
}
}
InfoChip () {
posX = new double* [NCHIPS];
posY = new double* [NCHIPS];
for(int i = 0;i<NCHIPS;i++) {
posX[i] = new double[NCHANNELS];
posY[i] = new double[NCHANNELS];
}
// locations for quadrant center (1 chip=1 quadrant)
// locations for pads in a Left or Right handed quadrant (chip rotated by
// 180o)
ifstream fileChipPos("FEV10/PositionChips.txt");
ifstream filePadPos("FEV10/PositionPads.txt");
double val;
// Ignore column headers (4 fields)
char tmp[100];
for (int i=0; i<4 && !fileChipPos.eof() && !filePadPos.eof(); i++) {
fileChipPos >> tmp;
filePadPos >> tmp;
}
// Read Chips positions
double ChipPosX[NCHIPS];
double ChipPosY[NCHIPS];
for (int i=0; i<NCHIPS; i++) {
if(!fileChipPos.eof()) { fileChipPos >> val; }
if(!fileChipPos.eof()) { fileChipPos >> val; }
if(!fileChipPos.eof()) { fileChipPos >> ChipPosX[i]; }
if(!fileChipPos.eof()) { fileChipPos >> ChipPosY[i]; }
if(fileChipPos.eof()) { cout << "Error in Chip's position file" << endl; }
}
// Read Pads positions LEFT
double PadPosX[NCHANNELS];
double PadPosY[NCHANNELS];
for (int j=0; j<NCHANNELS; j++) {
if(!filePadPos.eof()) { filePadPos >> val; }
if(!filePadPos.eof()) { filePadPos >> val; }
if(!filePadPos.eof()) { filePadPos >> PadPosX[ (int) (val)];}
if(!filePadPos.eof()) { filePadPos >> PadPosY[ (int) (val)];}
if(filePadPos.eof()) { cout << "Error in Pad's position file" << endl; }
}
// Add them up
for (int i=0; i<NCHIPS; i++) {
for (int j=0; j<NCHANNELS; j++) {
//if (i/4==0 || i/4==2) { //for old numbering convention
if (i%2==0) { //calicoes June'15
posX[i][j] = ChipPosX[i] + PadPosX[j];
posY[i][j] = ChipPosY[i] + PadPosY[j];
}
else {
posX[i][j] = ChipPosX[i] - PadPosX[j];
posY[i][j] = ChipPosY[i] - PadPosY[j];
}
}
}
// DEBUG
//for (int i=0; i<NCHIPS; i++) {
// for (int j=0; j<NCHANNELS; j++) {cout<<posX[i][j]<<" "<<posY[i][j]<<endl;}}
}
~InfoChip(){
delete posX;
delete posY;
}
double **posX;
double **posY;
private:
enum {
MEMDEPTH=15,
NCHANNELS=64,
NCHIPS=16
};
};
#endif