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00002
00003
00004 #ifndef MATACQRAWEVENT_H
00005 #define MATACQRAWEVENT_H
00006
00007 #include <inttypes.h>
00008 #include <vector>
00009
00010 #if 0 //replace 1 by 0 to remove XDAQ dependency. In this case it is assumed the
00011
00012 #include "i2o/utils/endian.h"
00013 #define UINT32_FROM_LE i2odecodel
00014 #define UINT16_FROM_LE i2odecodes
00015 #define INT16_FROM_LE i2odecodes
00016
00017 #else //assuming little endianness of the machine
00018
00019 #define UINT32_FROM_LE
00020 #define UINT16_FROM_LE
00021 #define INT16_FROM_LE
00022
00023 #endif
00024
00025 #include <sys/time.h>
00026
00030 class MatacqRawEvent{
00031
00032 public:
00033 enum matacqError_t {
00037 errorLengthConsistency = 1<<0,
00040 errorLength = 1<<1,
00043 errorWrongBoe = 1<<2
00044 };
00045
00046
00047
00048
00050 struct uint32le_t{
00051 uint32_t littleEndianInt;
00052 operator uint32_t() const{
00053 return UINT32_FROM_LE(littleEndianInt);
00054 }
00055 };
00056
00057 struct uint16le_t{
00058 uint16_t littleEndianInt;
00059 operator uint16_t() const{
00060 return UINT16_FROM_LE(littleEndianInt);
00061 }
00062 };
00063
00064 struct int16le_t{
00065 int16_t littleEndianInt;
00066 operator int16_t() const{
00067 return INT16_FROM_LE(littleEndianInt);
00068 }
00069 };
00071
00072 struct ChannelData{
00075 int chId;
00078 int nSamples;
00081 const int16le_t* samples;
00082 };
00083
00084 private:
00087
00088
00089
00090
00091
00092
00093
00094
00095
00096
00097
00100 struct field32spec_t{
00101 int offset;
00102 unsigned int mask;
00103 };
00104
00106
00108 static const field32spec_t fov32;
00109 static const field32spec_t fedId32;
00110 static const field32spec_t bxId32;
00111 static const field32spec_t lv132;
00112 static const field32spec_t triggerType32;
00113 static const field32spec_t boeType32;
00114 static const field32spec_t dccLen32;
00115 static const field32spec_t dccErrors32;
00116 static const field32spec_t runNum32;
00117 static const field32spec_t h1Marker32;
00119
00121
00123 static const field32spec_t formatVersion32;
00124 static const field32spec_t freqGHz32;
00125 static const field32spec_t channelCount32;
00126 static const field32spec_t timeStamp32;
00127 static const field32spec_t tTrigPs32;
00128 static const field32spec_t orbitId32;
00129 static const field32spec_t trigRec32;
00130 static const field32spec_t postTrig32;
00131 static const field32spec_t vernier0_32;
00132 static const field32spec_t vernier1_32;
00133 static const field32spec_t vernier2_32;
00134 static const field32spec_t vernier3_32;
00135 static const field32spec_t timeStampMicroSec32;
00136
00137 static const field32spec_t laserPower32;
00138 static const field32spec_t attenuation_dB32;
00139 static const field32spec_t emtcPhase32;
00140 static const field32spec_t emtcDelay32;
00141 static const field32spec_t delayA32;
00142 static const field32spec_t dccId32;
00143 static const field32spec_t color32;
00144 static const field32spec_t trigType32;
00145 static const field32spec_t side32;
00146
00148
00149
00150 public:
00160 MatacqRawEvent(const unsigned char* dataBuffer, size_t bufferSize): vernier(std::vector<int>(4)){
00161 setRawData(dataBuffer, bufferSize);
00162 }
00163
00164 public:
00171 int getFov() const { return read32(daqHeader, fov32);}
00172
00176 int getFedId() const { return read32(daqHeader, fedId32);}
00177
00181 int getBxId() const { return read32(daqHeader, bxId32);}
00182
00186 unsigned getEventId() const { return read32(daqHeader, lv132);}
00187
00191 int getTriggerType() const { return read32(daqHeader, triggerType32);}
00192
00196 int getBoe() const { return read32(daqHeader, boeType32);}
00197
00201 unsigned getDccLen() const { return read32(daqHeader, dccLen32);}
00202
00209 static unsigned getDccLen(unsigned char* data, size_t size){
00210 if(size<(unsigned)(dccLen32.offset+1)*4) return (unsigned)-1;
00211 return read32((uint32le_t*) data, dccLen32);
00212 }
00213
00221 static unsigned getOrbitId(unsigned char* data, size_t size){
00222 if(size<(unsigned)(orbitId32.offset+1)*8) return (unsigned)-1;
00223 return read32((uint32le_t*) data, orbitId32);
00224 }
00225
00232 static unsigned getRunNum(unsigned char* data, size_t size){
00233 if(size<(unsigned)(runNum32.offset+1)*8) return (unsigned)-1;
00234 return read32((uint32le_t*) data, runNum32);
00235 }
00236
00237
00241 unsigned getDaqLen() const { return fragLen;}
00242
00243
00247 int getDccErrors() const { return read32(daqHeader, dccErrors32);}
00248
00252 unsigned getRunNum() const { return read32(daqHeader, runNum32);}
00253
00257 int getH1Marker() const { return read32(daqHeader, h1Marker32);}
00258
00259
00263 int getMatacqDataFormatVersion() const { return matacqDataFormatVersion;}
00264
00269 int32_t getStatus() const { return error;}
00270
00274 int getFreqGHz() const { return freqGHz;}
00275
00279 int getChannelCount() const { return channelCount;}
00280
00286 const std::vector<ChannelData>& getChannelData() const{
00287 return channelData;
00288 }
00289
00294 int getParsedLen() { return parsedLen; }
00295
00301 time_t getTimeStamp() const { return timeStamp.tv_sec; }
00302
00308 void getTimeStamp(struct timeval& t) const { t = timeStamp; }
00309
00314 int getTTrigPs() const { return tTrigPs; }
00315
00320 uint32_t getOrbitId() const { return orbitId; }
00321
00326 int getTrigRec() const { return trigRec; }
00327
00331 int getPostTrig() const { return postTrig; }
00332
00336 std::vector<int> getVernier() const { return vernier; }
00337
00340 int getDelayA() const { return delayA; }
00341
00344 int getEmtcDelay() const { return emtcDelay; }
00345
00348 int getEmtcPhase() const { return emtcPhase; }
00349
00353 int getAttenuation_dB() const { return attenuation_dB; }
00354
00357 int getLaserPower() const { return laserPower; }
00358
00359 private:
00368 static int read32(uint32le_t* pData, field32spec_t spec, bool ovfTrans = false);
00369
00370
00371
00372
00373
00374
00375
00383 void setRawData(const unsigned char* buffer, size_t bufferSize);
00384
00385
00386 private:
00389 int boe;
00390
00393 int bxId;
00394
00397 int channelCount;
00398
00401 std::vector<ChannelData> channelData;
00402
00405 uint32le_t* daqHeader;
00406
00409 int dccErrors;
00410
00413 unsigned dccLen;
00414
00417 unsigned eventId;
00418
00421 int32_t error;
00422
00425 int fedId;
00426
00429 int fov;
00430
00433 int fragLen;
00434
00437 int freqGHz;
00438
00441 int h1Marker;
00442
00445
00446
00449 int matacqDataFormatVersion;
00450
00453 int parsedLen;
00454
00457 uint16le_t* pSamples;
00458
00461 unsigned runNum;
00462
00465 struct timeval timeStamp;
00466
00469 int tTrigPs;
00470
00473 int triggerType;
00474
00475
00476
00477 uint32_t orbitId;
00478
00481 int trigRec;
00482
00485 int postTrig;
00486
00489 std::vector<int> vernier;
00490
00493 int delayA;
00494
00497 int emtcDelay;
00498
00501 int emtcPhase;
00502
00506 int attenuation_dB;
00507
00510 int laserPower;
00511 };
00512
00513 #endif //MATACQRAWEVENT_H not defined