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00001 // S. Won, Northwestern University, 5 June 2009
00002 
00003 #include <vector>
00004 #include <string>
00005 
00006 #include "CalibFormats/HcalObjects/interface/HcalText2DetIdConverter.h"
00007 
00008 #include "CondFormats/HcalObjects/interface/AllObjects.h"
00009 #include "CalibCalorimetry/HcalStandardModules/interface/HcalCondXML.h"
00010 namespace {
00011   void dumpHeader (std::ostream& fOutput, unsigned fRun, const std::string& fTableName, const std::string& fTypeName) {
00012     fOutput << "<?xml version='1.0' encoding='UTF-8' standalone='no'?>" << std::endl;
00013 //    fOutput << "<!DOCTYPE root []>" << std::endl;
00014     fOutput << "<ROOT>" << std::endl;
00015     fOutput << "  <HEADER>" << std::endl;
00016     fOutput << "    <TYPE>" << std::endl;
00017     fOutput << "      <EXTENSION_TABLE_NAME>" << fTableName << "</EXTENSION_TABLE_NAME>" << std::endl;
00018     fOutput << "      <NAME>" << fTypeName << "</NAME>" << std::endl;
00019     fOutput << "    </TYPE>" << std::endl;
00020     fOutput << "    <RUN>"<< std::endl;
00021     fOutput << "      <RUN_TYPE>" << "HcalCalibrations" << "</RUN_TYPE>"<< std::endl;
00022     fOutput << "      <RUN_NUMBER>" << fRun << "</RUN_NUMBER>"<< std::endl;
00023     fOutput << "    </RUN>" << std::endl;
00024     fOutput << "    <HINTS channelmap='HCAL_CHANNELS'/>" << std::endl;
00025     fOutput << "   </HEADER>" << std::endl;
00026   }
00027 
00028   void dumpMapping (std::ostream& fOutput, unsigned fRun, const std::string& fKind,
00029                     unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd,
00030                     const std::string& fTag, unsigned fVersion, const std::vector<DetId>& fChannels) {
00031     const std::string IOV_ID = "IOV_ID";
00032     const std::string TAG_ID = "TAG_ID";
00033     fOutput << "<ELEMENTS>" << std::endl;
00034     // set IOV
00035     fOutput << "<DATA_SET id=\"-1\"/>" << std::endl;
00036     fOutput << "   <IOV id=\"1\">" << std::endl;
00037     fOutput << "      <INTERVAL_OF_VALIDITY_BEGIN>" << fGMTIOVBegin << "</INTERVAL_OF_VALIDITY_BEGIN>"<< std::endl;
00038     fOutput << "      <INTERVAL_OF_VALIDITY_END>" << fGMTIOVEnd << "</INTERVAL_OF_VALIDITY_END>"<< std::endl;
00039     fOutput << "   </IOV>" << std::endl;
00040     // set TAG
00041     fOutput << "   <TAG id=\"2\" mode=\"auto\">"<< std::endl;
00042     fOutput << "      <TAG_NAME>" << fTag << "</TAG_NAME>"<< std::endl;
00043     fOutput << "      <DETECTOR_NAME>HCAL</DETECTOR_NAME>"<< std::endl;
00044     fOutput << "      <COMMENT_DESCRIPTION>Automatically created by HcalCondXML</COMMENT_DESCRIPTION>" << std::endl;
00045     fOutput << "   </TAG>" << std::endl;
00046 
00047     fOutput << "</ELEMENTS>" << std::endl;
00048 
00049     fOutput << "<MAPS>" << std::endl;
00050     fOutput << "   <TAG idref=\"2\">" << std::endl;
00051     fOutput << "      <IOV idref=\"1\">" << std::endl;
00052     fOutput << "         <DATA_SET idref=\"-1\"/>" << std::endl;
00053     fOutput << "      </IOV>" << std::endl;
00054     fOutput << "   </TAG>" << std::endl;
00055     fOutput << "</MAPS>" << std::endl;
00056   }
00057 
00058   void dumpFooter (std::ostream& fOutput) {
00059     fOutput << "</ROOT>" << std::endl;
00060   }
00061 
00062   void dumpDataset (std::ostream& fOutput, unsigned fVersion = 0) {
00063     fOutput << "<DATA_SET>" << std::endl;
00064     fOutput << "   <VERSION>" << fVersion << "</VERSION>" << std::endl;
00065   }
00066 
00067   void endDataset (std::ostream& fOutput) {
00068     fOutput << "</DATA_SET>" << std::endl;
00069   }
00070 
00071   void dumpChannelIdOld (std::ostream& fOutput, DetId fChannel) {
00072     HcalText2DetIdConverter converter (fChannel);
00073     fOutput << "<CHANNEL> "<< std::endl;
00074     fOutput << "   <EXTENSION_TABLE_NAME>HCAL_CHANNELS</EXTENSION_TABLE_NAME> "<< std::endl;
00075     fOutput << "   <ETA>" << abs (converter.getField (1)) << "</ETA>"<< std::endl;
00076     fOutput << "   <PHI>" << converter.getField (2) << "</PHI> "<< std::endl;
00077     fOutput << "   <DEPTH>" << converter.getField (3) << "</DEPTH> "<< std::endl;
00078     fOutput << "   <Z>" << (converter.getField (1) > 0 ? "1" : "-1") << "</Z> "<< std::endl;
00079     fOutput << "   <DETECTOR_NAME>" << converter.getFlavor () << "</DETECTOR_NAME> "<< std::endl;
00080     fOutput << "   <HCAL_CHANNEL_ID>" << converter.getId().rawId () << "</HCAL_CHANNEL_ID> "<< std::endl;
00081     fOutput << "</CHANNEL>"<< std::endl;
00082     fOutput << std::endl;
00083   }
00084 
00085   void dumpChannelId (std::ostream& fOutput, DetId fChannel) {
00086     HcalText2DetIdConverter converter (fChannel);
00087     fOutput << "<CHANNEL> "<< std::endl;
00088     fOutput << "   <EXTENSION_TABLE_NAME>HCAL_CHANNELS</EXTENSION_TABLE_NAME> "<< std::endl;
00089     fOutput << "   <SUBDET>" << converter.getFlavor () << "</SUBDET> "<< std::endl;
00090     fOutput << "   <IETA>" << converter.getField (1) << "</IETA>"<< std::endl;
00091     fOutput << "   <IPHI>" << converter.getField (2) << "</IPHI> "<< std::endl;
00092     fOutput << "   <DEPTH>" << converter.getField (3) << "</DEPTH> "<< std::endl;
00093 //    fOutput << "   <HCAL_CHANNEL_ID>" << converter.getId().rawId () << "</HCAL_CHANNEL_ID> "<< std::endl;
00094     fOutput << "</CHANNEL>"<< std::endl;
00095     fOutput << std::endl;
00096   }
00097 
00098   void dumpZSData (std::ostream& fOutput, HcalZSThreshold fValue) {
00099     fOutput << "<DATA> "<< std::endl;
00100     fOutput << "   <ZERO_SUPPRESSION>" << fValue.getValue() << "</ZERO_SUPPRESSION> "<< std::endl;
00101     fOutput << "</DATA> " << std::endl;
00102   }
00103 
00104   void dumpPedData (std::ostream& fOutput, HcalPedestal fValue, HcalPedestalWidth fValue2, int isADC) {
00105     fOutput << "<DATA> "<< std::endl;
00106     fOutput << "   <CAP0>" << fValue.getValue(0) << "</CAP0> "<< std::endl;
00107     fOutput << "   <CAP1>" << fValue.getValue(1) << "</CAP1> "<< std::endl;
00108     fOutput << "   <CAP2>" << fValue.getValue(2) << "</CAP2> "<< std::endl;
00109     fOutput << "   <CAP3>" << fValue.getValue(3) << "</CAP3> "<< std::endl;
00110     fOutput << "   <SIGMA_00>" << fValue2.getWidth(0) << "</SIGMA_00> "<< std::endl;
00111     fOutput << "   <SIGMA_11>" << fValue2.getWidth(1) << "</SIGMA_11> "<< std::endl;
00112     fOutput << "   <SIGMA_22>" << fValue2.getWidth(2) << "</SIGMA_22> "<< std::endl;
00113     fOutput << "   <SIGMA_33>" << fValue2.getWidth(3) << "</SIGMA_33> "<< std::endl;
00114     fOutput << "   <SIGMA_01>" << fValue2.getSigma(0,1) << "</SIGMA_01> "<< std::endl;
00115     fOutput << "   <SIGMA_02>" << fValue2.getSigma(0,2) << "</SIGMA_02> "<< std::endl;
00116     fOutput << "   <SIGMA_03>" << fValue2.getSigma(0,3) << "</SIGMA_03> "<< std::endl;
00117     fOutput << "   <SIGMA_12>" << fValue2.getSigma(1,2) << "</SIGMA_12> "<< std::endl;
00118     fOutput << "   <SIGMA_13>" << fValue2.getSigma(1,3) << "</SIGMA_13> "<< std::endl;
00119     fOutput << "   <SIGMA_23>" << fValue2.getSigma(2,3) << "</SIGMA_23> "<< std::endl;
00120     fOutput << "   <IS_ADC_COUNTS>" << isADC << "</IS_ADC_COUNTS>" << std::endl;
00121     fOutput << "</DATA> " << std::endl;
00122   }
00123 
00124   void dumpGainData (std::ostream& fOutput, HcalGain fValue) {
00125     fOutput << "<DATA> "<< std::endl;
00126     fOutput << "   <CAP0>" << fValue.getValue(0) << "</CAP0> "<< std::endl;
00127     fOutput << "   <CAP1>" << fValue.getValue(1) << "</CAP1> "<< std::endl;
00128     fOutput << "   <CAP2>" << fValue.getValue(2) << "</CAP2> "<< std::endl;
00129     fOutput << "   <CAP3>" << fValue.getValue(3) << "</CAP3> "<< std::endl;
00130     fOutput << "</DATA> " << std::endl;
00131   }
00132 
00133   void dumpGainWidthData (std::ostream& fOutput, HcalGainWidth fValue) {
00134     fOutput << "<DATA> "<< std::endl;
00135     fOutput << "   <CAP0>" << fValue.getValue(0) << "</CAP0> "<< std::endl;
00136     fOutput << "   <CAP1>" << fValue.getValue(1) << "</CAP1> "<< std::endl;
00137     fOutput << "   <CAP2>" << fValue.getValue(2) << "</CAP2> "<< std::endl;
00138     fOutput << "   <CAP3>" << fValue.getValue(3) << "</CAP3> "<< std::endl;
00139     fOutput << "</DATA> " << std::endl;
00140   }
00141 
00142   void dumpRespCorrData (std::ostream& fOutput, HcalRespCorr fValue) {
00143     fOutput << "<DATA> "<< std::endl;
00144     fOutput << "   <VALUE>" << fValue.getValue() << "</VALUE> "<< std::endl;
00145     fOutput << "</DATA> " << std::endl;
00146   }
00147 
00148   void dumpQIEData (std::ostream& fOutput, HcalQIECoder fValue) {
00149     fOutput << "<DATA> "<< std::endl;
00150     fOutput << "   <CAP0_RANGE0_SLOPE>" << fValue.slope(0,0) << "</CAP0_RANGE0_SLOPE>" << std::endl; 
00151     fOutput << "   <CAP0_RANGE1_SLOPE>" << fValue.slope(0,1) << "</CAP0_RANGE1_SLOPE>" << std::endl;
00152     fOutput << "   <CAP0_RANGE2_SLOPE>" << fValue.slope(0,2) << "</CAP0_RANGE2_SLOPE>" << std::endl;
00153     fOutput << "   <CAP0_RANGE3_SLOPE>" << fValue.slope(0,3) << "</CAP0_RANGE3_SLOPE>" << std::endl;
00154     fOutput << "   <CAP1_RANGE0_SLOPE>" << fValue.slope(1,0) << "</CAP1_RANGE0_SLOPE>" << std::endl;
00155     fOutput << "   <CAP1_RANGE1_SLOPE>" << fValue.slope(1,1) << "</CAP1_RANGE1_SLOPE>" << std::endl;
00156     fOutput << "   <CAP1_RANGE2_SLOPE>" << fValue.slope(1,2) << "</CAP1_RANGE2_SLOPE>" << std::endl;
00157     fOutput << "   <CAP1_RANGE3_SLOPE>" << fValue.slope(1,3) << "</CAP1_RANGE3_SLOPE>" << std::endl;
00158     fOutput << "   <CAP2_RANGE0_SLOPE>" << fValue.slope(2,0) << "</CAP2_RANGE0_SLOPE>" << std::endl;
00159     fOutput << "   <CAP2_RANGE1_SLOPE>" << fValue.slope(2,1) << "</CAP2_RANGE1_SLOPE>" << std::endl;
00160     fOutput << "   <CAP2_RANGE2_SLOPE>" << fValue.slope(2,2) << "</CAP2_RANGE2_SLOPE>" << std::endl;
00161     fOutput << "   <CAP2_RANGE3_SLOPE>" << fValue.slope(2,3) << "</CAP2_RANGE3_SLOPE>" << std::endl;
00162     fOutput << "   <CAP3_RANGE0_SLOPE>" << fValue.slope(3,0) << "</CAP3_RANGE0_SLOPE>" << std::endl;
00163     fOutput << "   <CAP3_RANGE1_SLOPE>" << fValue.slope(3,1) << "</CAP3_RANGE1_SLOPE>" << std::endl;
00164     fOutput << "   <CAP3_RANGE2_SLOPE>" << fValue.slope(3,2) << "</CAP3_RANGE2_SLOPE>" << std::endl;
00165     fOutput << "   <CAP3_RANGE3_SLOPE>" << fValue.slope(3,3) << "</CAP3_RANGE3_SLOPE>" << std::endl;
00166     fOutput << "   <CAP0_RANGE0_OFFSET>" << fValue.offset(0,0) << "</CAP0_RANGE0_OFFSET>" << std::endl;
00167     fOutput << "   <CAP0_RANGE1_OFFSET>" << fValue.offset(0,1) << "</CAP0_RANGE1_OFFSET>" << std::endl;
00168     fOutput << "   <CAP0_RANGE2_OFFSET>" << fValue.offset(0,2) << "</CAP0_RANGE2_OFFSET>" << std::endl;
00169     fOutput << "   <CAP0_RANGE3_OFFSET>" << fValue.offset(0,3) << "</CAP0_RANGE3_OFFSET>" << std::endl;
00170     fOutput << "   <CAP1_RANGE0_OFFSET>" << fValue.offset(1,0) << "</CAP1_RANGE0_OFFSET>" << std::endl;
00171     fOutput << "   <CAP1_RANGE1_OFFSET>" << fValue.offset(1,1) << "</CAP1_RANGE1_OFFSET>" << std::endl;
00172     fOutput << "   <CAP1_RANGE2_OFFSET>" << fValue.offset(1,2) << "</CAP1_RANGE2_OFFSET>" << std::endl;
00173     fOutput << "   <CAP1_RANGE3_OFFSET>" << fValue.offset(1,3) << "</CAP1_RANGE3_OFFSET>" << std::endl;
00174     fOutput << "   <CAP2_RANGE0_OFFSET>" << fValue.offset(2,0) << "</CAP2_RANGE0_OFFSET>" << std::endl;
00175     fOutput << "   <CAP2_RANGE1_OFFSET>" << fValue.offset(2,1) << "</CAP2_RANGE1_OFFSET>" << std::endl;
00176     fOutput << "   <CAP2_RANGE2_OFFSET>" << fValue.offset(2,2) << "</CAP2_RANGE2_OFFSET>" << std::endl;
00177     fOutput << "   <CAP2_RANGE3_OFFSET>" << fValue.offset(2,3) << "</CAP2_RANGE3_OFFSET>" << std::endl;
00178     fOutput << "   <CAP3_RANGE0_OFFSET>" << fValue.offset(3,0) << "</CAP3_RANGE0_OFFSET>" << std::endl;
00179     fOutput << "   <CAP3_RANGE1_OFFSET>" << fValue.offset(3,1) << "</CAP3_RANGE1_OFFSET>" << std::endl;
00180     fOutput << "   <CAP3_RANGE2_OFFSET>" << fValue.offset(3,2) << "</CAP3_RANGE2_OFFSET>" << std::endl;
00181     fOutput << "   <CAP3_RANGE3_OFFSET>" << fValue.offset(3,3) << "</CAP3_RANGE3_OFFSET>" << std::endl;
00182     fOutput << "</DATA> " << std::endl;
00183   }
00184 
00185   void dumpChannelQualityData (std::ostream& fOutput, HcalChannelStatus fValue) {
00186     fOutput << "<DATA> "<< std::endl;
00187     if(fValue.isBitSet(0))
00188     {
00189        fOutput << "   <CHANNEL_ON_OFF_STATE>0</CHANNEL_ON_OFF_STATE> "<< std::endl;
00190     }else{
00191        fOutput << "   <CHANNEL_ON_OFF_STATE>1</CHANNEL_ON_OFF_STATE> "<< std::endl; 
00192     }
00193     fOutput << "   <CHANNEL_STATUS_WORD>" << fValue.getValue() << "</CHANNEL_STATUS_WORD> "<< std::endl;
00194     fOutput << "</DATA> " << std::endl;
00195   }
00196 
00197   void dumpL1TriggerData (std::ostream& fOutput, HcalL1TriggerObject fValue) {
00198     fOutput << "<DATA> "<< std::endl;
00199     fOutput << "   <AVERAGE_PEDESTAL>" << fValue.getPedestal() << "</AVERAGE_PEDESTAL> "<< std::endl;
00200     fOutput << "   <RESPONSE_CORRECTED_GAIN>" << fValue.getRespGain() << "</RESPONSE_CORRECTED_GAIN> "<< std::endl;
00201     fOutput << "   <FLAG>" << fValue.getFlag() << "</FLAG> "<< std::endl;
00202     fOutput << "</DATA> " << std::endl;
00203   }
00204 
00205 
00206 }
00207 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00208                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00209                             const HcalZSThresholds& fObject) {
00210   const std::string KIND = "HCAL zero suppression [type 1]";
00211   const std::string TABLE = "HCAL_ZERO_SUPPRESSION_TYPE01";
00212 
00213   dumpHeader (fOutput, fRun, TABLE, KIND);
00214 
00215   std::vector<DetId> channels = fObject.getAllChannels ();
00216   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00217   for (std::vector<DetId>::iterator channel = channels.begin ();
00218        channel !=  channels.end ();
00219        channel++) {
00220     DetId chId = *channel;
00221     if(fObject.exists(chId))
00222     {
00223        const HcalZSThreshold * item = fObject.getValues(chId);
00224        dumpDataset (fOutput, fVersion);
00225        dumpChannelId (fOutput,chId);
00226        dumpZSData (fOutput, *item);
00227        endDataset (fOutput);
00228     }
00229   }
00230 
00231   dumpFooter (fOutput);
00232   return true;
00233 }
00234 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00235                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00236                             const HcalPedestals& fObject, const HcalPedestalWidths& fObject2) { 
00237   const std::string KIND = "HCAL Pedestals [V3]";
00238   const std::string TABLE = "HCAL_PEDESTALS_V3";
00239 
00240   dumpHeader (fOutput, fRun, TABLE, KIND);
00241   int isADC = 0;
00242   if(fObject.isADC()) isADC = 1;
00243 
00244   std::vector<DetId> channels = fObject.getAllChannels ();
00245   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00246   for (std::vector<DetId>::iterator channel = channels.begin ();
00247        channel !=  channels.end ();
00248        channel++) {
00249     DetId chId = *channel;
00250     if(fObject.exists(chId))
00251     {
00252        const HcalPedestal * item = fObject.getValues (chId);
00253        const HcalPedestalWidth * item2 = fObject2.getValues (chId);
00254 
00255        dumpDataset (fOutput, fVersion);
00256        dumpChannelId (fOutput,chId);
00257        dumpPedData (fOutput, *item, *item2, isADC);
00258        endDataset (fOutput);
00259     }
00260   }
00261 
00262   dumpFooter (fOutput);
00263   return true;
00264 }
00265 
00266 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00267                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00268                             const HcalRespCorrs& fObject) {
00269   const std::string KIND = "HCAL Response corrections [V1]";
00270   const std::string TABLE = "HCAL_RESPONSE_CORRECTIONS_V1";
00271 
00272   dumpHeader (fOutput, fRun, TABLE, KIND);
00273 
00274   std::vector<DetId> channels = fObject.getAllChannels ();
00275   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00276   for (std::vector<DetId>::iterator channel = channels.begin ();
00277        channel !=  channels.end ();
00278        channel++) {
00279     DetId chId = *channel;
00280     if(fObject.exists(chId))
00281     {
00282        const HcalRespCorr * item = fObject.getValues(chId);
00283        dumpDataset (fOutput, fVersion);
00284        dumpChannelId (fOutput,chId);
00285        dumpRespCorrData (fOutput, *item);
00286        endDataset (fOutput);
00287     }
00288   }
00289 
00290   dumpFooter (fOutput);
00291   return true;
00292 }
00293 
00294 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00295                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00296                             const HcalGains& fObject) {
00297   const std::string KIND = "HCAL Inverse Gains [V1]";
00298   const std::string TABLE = "HCAL_INVERSE_GAINS_V1";
00299 
00300   dumpHeader (fOutput, fRun, TABLE, KIND);
00301 
00302   std::vector<DetId> channels = fObject.getAllChannels ();
00303   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00304   for (std::vector<DetId>::iterator channel = channels.begin ();
00305        channel !=  channels.end ();
00306        channel++) {
00307     DetId chId = *channel;
00308     if(fObject.exists(chId))
00309     {
00310        const HcalGain * item = fObject.getValues(chId);
00311        dumpDataset (fOutput, fVersion);
00312        dumpChannelId (fOutput,chId);
00313        dumpGainData (fOutput, *item);
00314        endDataset (fOutput);
00315     }
00316   }
00317 
00318   dumpFooter (fOutput);
00319   return true;
00320 }
00321 
00322 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00323                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00324                             const HcalGainWidths& fObject) {
00325   const std::string KIND = "HCAL Inverse Gain Widths [V1]";
00326   const std::string TABLE = "HCAL_INVERSE_GAIN_WIDTHS_V1";
00327 
00328   dumpHeader (fOutput, fRun, TABLE, KIND);
00329 
00330   std::vector<DetId> channels = fObject.getAllChannels ();
00331   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00332   for (std::vector<DetId>::iterator channel = channels.begin ();
00333        channel !=  channels.end ();
00334        channel++) {
00335     DetId chId = *channel;
00336     if(fObject.exists(chId))
00337     {
00338        const HcalGainWidth * item = fObject.getValues(chId);
00339        dumpDataset (fOutput, fVersion);
00340        dumpChannelId (fOutput,chId);
00341        dumpGainWidthData (fOutput, *item);
00342        endDataset (fOutput);
00343     }
00344   }
00345 
00346   dumpFooter (fOutput);
00347   return true;
00348 }
00349 
00350 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00351                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00352                             const HcalQIEData& fObject) {
00353   const std::string KIND = "QIECARD_ADC_NORMMODE";
00354   const std::string TABLE = "XXX need to check XXX";
00355 
00356   dumpHeader (fOutput, fRun, TABLE, KIND);
00357 
00358   std::vector<DetId> channels = fObject.getAllChannels ();
00359   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00360   for (std::vector<DetId>::iterator channel = channels.begin ();
00361        channel !=  channels.end ();
00362        channel++) {
00363     DetId chId = *channel;
00364     if(fObject.exists(chId))
00365     {
00366        const HcalQIECoder * item = fObject.getCoder(chId);
00367        dumpDataset (fOutput, fVersion);
00368        dumpChannelId (fOutput,chId);
00369        dumpQIEData (fOutput, *item);
00370        endDataset (fOutput);
00371     }
00372   }
00373 
00374   dumpFooter (fOutput);
00375   return true;
00376 }
00377 
00378 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00379                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00380                             const HcalChannelQuality& fObject) {
00381   const std::string KIND = "HCAL_CHANNEL_QUALITY_V1";
00382   const std::string TABLE = "HCAL Channel Quality [V1]";
00383 
00384   dumpHeader (fOutput, fRun, TABLE, KIND);
00385 
00386   std::vector<DetId> channels = fObject.getAllChannels ();
00387   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00388   for (std::vector<DetId>::iterator channel = channels.begin ();
00389        channel !=  channels.end ();
00390        channel++) {
00391     DetId chId = *channel;
00392     if(fObject.exists(chId))
00393     {
00394        const HcalChannelStatus * item = fObject.getValues(chId);
00395        dumpDataset (fOutput, fVersion);
00396        dumpChannelId (fOutput,chId);
00397        dumpChannelQualityData (fOutput, *item);
00398        endDataset (fOutput);
00399     }
00400   }
00401 
00402   dumpFooter (fOutput);
00403   return true;
00404 }
00405 
00406 bool HcalCondXML::dumpObject (std::ostream& fOutput,
00407                             unsigned fRun, unsigned long fGMTIOVBegin, unsigned long fGMTIOVEnd, const std::string& fTag, unsigned fVersion,
00408                             const HcalL1TriggerObjects& fObject) {
00409   const std::string KIND = "HCAL_L1_TRIGGER_OBJECTS_V1";
00410   const std::string TABLE = "HCAL L1 Trigger Objects [V1]";
00411 
00412   dumpHeader (fOutput, fRun, TABLE, KIND);
00413 
00414   std::vector<DetId> channels = fObject.getAllChannels ();
00415   dumpMapping (fOutput, fRun, KIND, fGMTIOVBegin, fGMTIOVEnd, fTag, fVersion, channels);
00416   for (std::vector<DetId>::iterator channel = channels.begin ();
00417        channel !=  channels.end ();
00418        channel++) {
00419     DetId chId = *channel;
00420     if(fObject.exists(chId))
00421     {
00422        const HcalL1TriggerObject * item = fObject.getValues(chId);
00423        dumpDataset (fOutput, fVersion);
00424        dumpChannelId (fOutput,chId);
00425        dumpL1TriggerData (fOutput, *item);
00426        endDataset (fOutput);
00427     }
00428   }
00429 
00430   dumpFooter (fOutput);
00431   return true;
00432 }
00433