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/** @file |
/** @file |
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* $Source: /home/cvsmanager/yoda/techmodel/Calib2_Ac1Reader.cpp,v $ |
* $Source: /home/cvsmanager/yoda/techmodel/Calib2_Ac1Reader.cpp,v $ |
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* $Id: CalibAcReader.cpp,v 2.2 2004/12/03 22:08:00 kusanagi Exp $ |
* $Id: Calib2_Ac1Reader.cpp,v 2.1 2004/12/16 17:32:57 kusanagi Exp $ |
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* $Author: kusanagi $ |
* $Author: kusanagi $ |
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* |
* |
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* Implementation of the Calib2_Ac1Reader class. |
* Implementation of the Calib2_Ac1Reader class. |
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* Get a string with the version info of the algorithm. |
* Get a string with the version info of the algorithm. |
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*/ |
*/ |
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std::string Calib2_Ac1Reader::GetVersionInfo(void) const { |
std::string Calib2_Ac1Reader::GetVersionInfo(void) const { |
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return "$Header: /home/cvsmanager/yoda/techmodel/Calib2_Ac1Reader.cpp,v 2.2 2004/12/03 22:08:00 kusanagi Exp $\n"; |
return "$Header: /home/cvsmanager/yoda/techmodel/Calib2_Ac1Reader.cpp,v 2.1 2004/12/16 17:32:57 kusanagi Exp $\n"; |
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} |
} |
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/** |
/** |
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* Unpack the CalibAc event from an input file. |
* Unpack the CalibAc event from an input file. |
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*/ |
*/ |
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void Calib2_Ac1Reader::RunEvent(int EventNumber, long int dataLength) throw (Exception){ |
void Calib2_Ac1Reader::RunEvent(int EventNumber, long int dataLength) throw (Exception){ |
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char subData[dataLength]; |
char subData[dataLength]; |
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struct calibstruct output; |
struct calibstruct output[2]; |
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int ERROR; |
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/* |
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InputFile->read(subData, sizeof(unsigned char)*dataLength); |
InputFile->read(subData, sizeof(unsigned char)*dataLength); |
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calib2_Ac1->ERROR = ACcalib(dataLength, (unsigned char*)subData, &output); |
calib2_Ac1->ERROR = ACcalib(dataLength, (unsigned char*)subData, &(*output)); |
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memcpy(calib2_Ac1->header, output.header, sizeof(output.header)); |
for (int i = 0; i<2; i++){ |
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memcpy(calib2_Ac1->status, output.status, sizeof(output.status)); |
memcpy(calib2_Ac1->header[i], output[i].header, sizeof(output[i].header)); |
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memcpy(calib2_Ac1->temp, output.temp, sizeof(output.temp)); |
memcpy(calib2_Ac1->status[i], output[i].status, sizeof(output[i].status)); |
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memcpy(calib2_Ac1->DAC1, output.DAC1, sizeof(output.DAC1)); |
memcpy(calib2_Ac1->temp[i], output[i].temp, sizeof(output[i].temp)); |
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memcpy(calib2_Ac1->DAC2, output.DAC2, sizeof(output.DAC2)); |
memcpy(calib2_Ac1->DAC1[i], output[i].DAC1, sizeof(output[i].DAC1)); |
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memcpy(calib2_Ac1->regist, output.regist, sizeof(output.regist)); |
memcpy(calib2_Ac1->DAC2[i], output[i].DAC2, sizeof(output[i].DAC2)); |
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memcpy(calib2_Ac1->time, output.time, sizeof(output.time)); |
memcpy(calib2_Ac1->regist[i], output[i].regist, sizeof(output[i].regist)); |
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calib2_Ac1->n_tr = output.n_tr; |
memcpy(calib2_Ac1->time[i], output[i].time, sizeof(output[i].time)); |
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memcpy(calib2_Ac1->hitmap_tr, output.hitmap_tr, sizeof(output.hitmap_tr)); |
calib2_Ac1->n_tr[i] = output[i].n_tr; |
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memcpy(calib2_Ac1->curve1, output.curve1, sizeof(output.curve1)); |
memcpy(calib2_Ac1->hitmap_tr[i], output[i].hitmap_tr, sizeof(output[i].hitmap_tr)); |
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memcpy(calib2_Ac1->curve2, output.curve2, sizeof(output.curve2)); |
memcpy(calib2_Ac1->curve1[i], output[i].curve1, sizeof(output[i].curve1)); |
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calib2_Ac1->iCRC = output.iCRC; |
memcpy(calib2_Ac1->curve2[i], output[i].curve2, sizeof(output[i].curve2)); |
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calib2_Ac1->tail = output.tail; |
calib2_Ac1->iCRC[i] = output[i].iCRC; |
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calib2_Ac1->CRC = output.CRC; |
calib2_Ac1->tail[i] = output[i].tail; |
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*/ |
calib2_Ac1->CRC[i] = output[i].CRC; |
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} |
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//delete [] subData; |
//delete [] subData; |
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} |
} |
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