GLAST / LAT > DAQ and FSW > FSW > Doxygen Index> QSE / V2-2-2 > qse / sun-gcc
_Hdr0 | Maps out the fields as a union of a 16-bit integer and its bit field representation |
_Hdr0_bf | Maps out the fields of the first header word as bit fields |
_Hdr1 | Maps out the fields as a union of a 16-bit integer and its bit field representation |
_Hdr1_bf | Maps out the fields of the second header word as bit fields |
_Hdr2 | Maps out the fields as a union of a 16-bit integer and its bit field representation |
_Hdr2_bf | Maps out the fields of the third header word as bit fields |
_LayerCnt | Union of an uninterpretted 32-bit value with the bit-field representation of the the layer count structure |
_LayerCnt_bf | LayerCnt_bf |
_LayerHdr | Union of an uninterpretted 32-bit value with the bit-field representation of the the layer count structure |
_LayerHdr_bf | LayerHdr_bf |
_QDF_acdCtx | The data used in decoding the compressed data |
_QDF_acdEvt | Intermediate format to hold the ACD data while it is being decoded |
_QDF_acdHdrEvt | Standard header that most go on the top of the standard and pedestal event structures |
_QDF_acdPedEvt | Representation to make it easier to pack |
_QDF_acdStdEvt | Intermediate format to hold the ACD data while it is being decoded |
_QDF_aem_ped_lists | Channel bit lists, by cable |
_QDF_aem_ped_phax | Describes a PHA exception value.as union between the field representation and an unsigned 32-bit integer |
_QDF_aem_ped_phax_f | Describes a PHA exception value.in the field representation |
_QDF_cal_prd | Constants used when predicting one gain range from another |
_QDF_cal_prd_layer | The range predictors for one range of one layer |
_QDF_cal_prd_log | The prediction constants for one log |
_QDF_cal_prd_log_end_table | The table prediction constants for one log end |
_QDF_cal_prd_tower | Constants used when predicting one gain range from another, one tower's worth |
_QDF_calCtx | The data used in decoding the compressed data |
_QDF_calEvt | Intermediate format to hold the CAL data while it is being decoded |
_QDF_calEvtAdrsLyr | Captures the hit log information for one layer |
_QDF_calEvtAdrsTwr | Captures the hit log information for one tower |
_QDF_calEvtCopyDir | Captures the beginning address and log count for each tower |
_QDF_calEvtCopyDsc | Captures the beginning address and log count for each tower |
_QDF_calEvtPhas | Captures the hit log information for LAT |
_QDF_calPedEvt | Intermediate format to hold the CAL data while it is being decoded in the pedestal format |
_QDF_calStdEvt | Intermediate format to hold the CAL data while it is being decoded in the standard format |
_QDF_dgnCalAccept | Structure for the decoded CAL diagnostic accept data |
_QDF_dgnCalAcceptMatch | Struct of the perfect accepts maps |
_QDF_dgnCalAcceptTwr | Union of the perfect and imperfect accepts maps for one tower |
_QDF_dgnCalDat | The CAL diagnostic data, binds the CAL trigger and CAL accept data |
_QDF_dgnCalTrg | Structure for the decoded CAL diagnostic trigger data |
_QDF_dgnCtx | Diagnostic Block, decoding context |
_QDF_dgnDat | The diagnostic data, binding together the CAL and TKR diagnostic data |
_QDF_dgnEvt | Intermediate format to hold the diagnostic data while it is being decoded |
_QDF_dgnHdrEvt | Standard header that most go on the top of the standard and pedestal event structures |
_QDF_dgnPedEvt | Diagnostic Block, binds together all the information used by the higher compression levels to format the diagnostic data from a pedestal event |
_QDF_dgnStdEvt | Diagnostic Block, binds together all the information used by the higher compression levels to format the diagnostic data from a standard event |
_QDF_dgnTkrAccept | Structure for the decoded TKR diagnostic accept data |
_QDF_dgnTkrDat | The TKR diagnostic data. This is really more for symmetry, paralleling the QDF_dgnCalDat structure |
_QDF_errCtx | The data used in decoding the compressed data |
_QDF_errEvt | Temporary structure to hold the ERR event as it is being decoded |
_QDF_errTem | The decoded error data for one tower |
_QDF_errTemHeader | TEM header error information. This captures the contents of the fixed sized information |
_QDF_errTemRepackAll | Acts as the storage area for all the error repacking parameters |
_QDF_errTemRepackBugA | Structure to repack the error information for one TEM by using the decoding of the common TEM BUG A |
_QDF_errTemRepackBugB | Structure to repack the error information for one TEM by using the decoding of the common TEM BUG B |
_QDF_errTemRepackCopy | Structure to repack the error information for one TEM by using a simple copy |
_QDF_errTemTkr | TKR error information for TEM BUG A blocks |
_QDF_esbCtx | Event Summary Block, decoding context |
_QDF_esbEvt | Event Summary Block, binds together all the information used by the higher compression levels to format an event |
_QDF_esw | Union of an unsigned 32-bit integer with the bit field representation of the first header summary word |
_QDF_esw_bf | The summary word mapped out by bit fields |
_QDF_exc | The exception handling context |
_QDF_gemCtx | The data used in decoding the compressed data |
_QDF_gemEvt | The unpacked GEM data plus any out-of-band support data |
_QDF_maps | Maps of towers/triggers where the diagnostic data does not match the actual data. In a perfect world these would always be 0 |
_QDF_temCtx | The combined CAL, TKR DGN and ERR contexts |
_QDF_temEvt | The combined CAL, TKR DGN and ERR event data |
_QDF_tkrBsa | The tracks bulk storage area |
_QDF_tkrCtx | The data used in decoding the compressed data |
_QDF_tkrEvt | Temporary structure to hold the TKR event as it is being decoded |
_QDF_tkrSplits | The lo and hi split points for entire TKR expressed as a union of field definition and an array definition |
_QDF_tkrSplitsLayer | The lo and hi split points for one layer expressed as a union of field definition and an array definition |
_QDF_tkrSplitsLimit | Defines the low and high strip numbers for each layer end |
_QDF_tkrSplitsTower | The lo and hi split points for one tower expressed as a union of field definition and an array definition |
_QDF_tkrTwrErr | Data needed to reconstitute a tower in error |
_QDF_tkrTwrErrData | Holds all the data associated with an erroring tower |
_QDF_tkrTwrErrTimeout | Data needed to reconstitute a tower in error when the TKR is a timeout tower |
_QDF_tkrTwrErrTimeoutLzs | Data needed to reconstitute the leading zeroes for the CCs with timeout errors is a timeout tower |
_QDF_tkrTwrErrTots | Holds decoded TOTs stored in a dense fashion |
_QDF_tkrTwrErrZcopy | Data reneeded to reconstitute a tower in error when the TKR data is zcopied |
_QSE_acd | Holds the unpacked ACD information |
_QSE_acdRemap | Defines the information necessary to remap all ACD information laid out in electronics space to a geographical space |
_QSE_acdRemapBrd | Structure defining the remapping the ACD data on a single board from electronics space into the standard 4 geographically oriented lists |
_QSE_aem | Holds the unpacked QSE_aem information |
_QSE_aem_cableStatus | Summary cable bit status masks |
_QSE_aem_chn_af | Maps out the information for one ADC channel as an alternative bit field representation, where the end bit is paired with the tile address to form the extended tile address and where all the fields of the PHA vector (ADC range, ADC value and PHA parity error fields are presented as a single PHA vector field |
_QSE_aem_chn_bf | Maps out the information for one ADC channel as the most primitve bit fields possible |
_QSE_aem_chn_cf | Maps out the information for one channel, as alternative bit field representation favoring consolidating all the state information as a single field and combining the ADC range and ADC value field as a single PHA field |
_QSE_aem_chn_u | Maps out the information for one channel, union of bit field with unsigned int |
_QSE_cal | Structure containing the unpacked CAL data for all towers |
_QSE_calLog | Maps out the 32-bit value of a CAL log data field both in bit fields and as an unsigned 32-bit integer |
_QSE_calLog_bf | Maps out the 32-bit value of a CAL log data field as bit fields |
_QSE_calLog_cf | Maps out the 32-bit value of a CAL log data field as bit fields. This mapping keeps the RNG and ADC value contigious |
_QSE_calTwr | Structure containing the unpacked CAL data for this tower |
_QSE_ctx | Binds together all the meta-information about an event |
_QSE_ctxCounters | Maps out the counters |
_QSE_ctxTime | The time/clock information for the 1-second of the first event and the previous 1-second period |
_QSE_ctxUpdateInfo | The information needed by QSE_ctxUpdateAtEvent |
_QSE_ebfEvt | Describes an EBF formatted event |
_QSE_ebfHdr | Describes the packet header on a returned EBF structure |
_QSE_ecal | Structure containing the unpacked CAL data for all towers |
_QSE_ecalGbl | Global energies |
_QSE_ecalTwr | Structure containing the unpacked CAL data for one tower |
_QSE_evt | Representation of the event |
_QSE_evtAll | All the possible representations of an event |
_QSE_tkr | Structure containing the unpacked TKR data for all towers |
_QSE_tkrLyr | Information about the hit strips in one layer |
_QSE_tkrTwr | Structure containing the unpacked TKR data for this tower |
_TKR_2strips | Maps out the first word containing strip addresses |
_TKR_2strips_bf | Maps out the first word containing strip addresses |
_TKR_8strips0 | Maps out the first word of the 3 strip address pattern words as bit fields and uninterpretted 32-bit integer |
_TKR_8strips0_bf | Maps out the first word of the 3 strip address pattern words as bit fields |
_TKR_8strips1 | Maps out the second word of the 3 strip address pattern words as bit fields and uninterpretted 32-bit integer |
_TKR_8strips1_bf | Maps out the second word of the 3 strip address pattern words as bit fields |
_TKR_8strips2 | Maps out the third word of the 3 strip address pattern words as bit fields and uninterpretted 32-bit integer |
_TKR_8strips2_bf | Maps out the third word of the 3 strip address pattern words as bit fields |