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Functions
Level1TriggerRates.cc File Reference
#include "DataFormats/Scalers/interface/Level1TriggerRates.h"
#include "DataFormats/Scalers/interface/Level1TriggerScalers.h"
#include <iostream>
#include <cstdio>

Go to the source code of this file.

Functions

std::ostream & operator<< (std::ostream &s, const Level1TriggerRates &c)
 Pretty-print operator for Level1TriggerRates. More...
 

Function Documentation

◆ operator<<()

std::ostream& operator<< ( std::ostream &  s,
const Level1TriggerRates c 
)

Pretty-print operator for Level1TriggerRates.

Definition at line 133 of file Level1TriggerRates.cc.

References DummyCfis::c, ALPAKA_ACCELERATOR_NAMESPACE::brokenline::constexpr(), mps_fire::i, mps_splice::line, and alignCSCRings::s.

133  {
134  constexpr size_t kLineBufferSize = 164;
135  char line[kLineBufferSize];
136  char zeitHeaven[128];
137  struct tm* horaHeaven;
138 
139  s << "Level1TriggerRates Version: " << c.version() << " Rates in Hz, DeltaT: ";
140 
141  if (c.deltaNS() > 0) {
142  s << c.deltaT() << " sec" << std::endl;
143  } else {
144  s << "n/a" << std::endl;
145  }
146 
147  struct timespec secondsToHeaven = c.collectionTime();
148  horaHeaven = gmtime(&secondsToHeaven.tv_sec);
149  strftime(zeitHeaven, sizeof(zeitHeaven), "%Y.%m.%d %H:%M:%S", horaHeaven);
150  snprintf(line, kLineBufferSize, " CollectionTime: %s.%9.9d", zeitHeaven, (int)secondsToHeaven.tv_nsec);
151  s << line << std::endl;
152 
153  snprintf(line, kLineBufferSize, " GtTriggersRate: %22.3f Hz", c.gtTriggersRate());
154  s << line << std::endl;
155 
156  snprintf(line, kLineBufferSize, " GtEventsRate: %22.3f Hz", c.gtEventsRate());
157  s << line << std::endl;
158 
159  secondsToHeaven = c.collectionTimeLumiSeg();
160  horaHeaven = gmtime(&secondsToHeaven.tv_sec);
161  strftime(zeitHeaven, sizeof(zeitHeaven), "%Y.%m.%d %H:%M:%S", horaHeaven);
162  snprintf(line, kLineBufferSize, " CollectionTimeLumiSeg: %s.%9.9d", zeitHeaven, (int)secondsToHeaven.tv_nsec);
163  s << line << std::endl;
164 
165  snprintf(line,
166  kLineBufferSize,
167  " TriggersPhysicsGeneratedFDLRate: %22.3f Hz",
168  c.triggersPhysicsGeneratedFDLRate());
169  s << line << std::endl;
170 
171  snprintf(
172  line, kLineBufferSize, " TriggersPhysicsLostRate: %22.3f Hz", c.triggersPhysicsLostRate());
173  s << line << std::endl;
174 
175  snprintf(line,
176  kLineBufferSize,
177  " TriggersPhysicsLostBeamActiveRate: %22.3f Hz",
178  c.triggersPhysicsLostBeamActiveRate());
179  s << line << std::endl;
180 
181  snprintf(line,
182  kLineBufferSize,
183  " TriggersPhysicsLostBeamInactiveRate: %22.3f Hz",
184  c.triggersPhysicsLostBeamInactiveRate());
185  s << line << std::endl;
186 
187  snprintf(line, kLineBufferSize, " L1AsPhysicsRate: %22.3f Hz", c.l1AsPhysicsRate());
188  s << line << std::endl;
189 
190  snprintf(line, kLineBufferSize, " L1AsRandomRate: %22.3f Hz", c.l1AsRandomRate());
191  s << line << std::endl;
192 
193  snprintf(line, kLineBufferSize, " L1AsTestRate: %22.3f Hz", c.l1AsTestRate());
194  s << line << std::endl;
195 
196  snprintf(line, kLineBufferSize, " L1AsCalibrationRate: %22.3f Hz", c.l1AsCalibrationRate());
197  s << line << std::endl;
198 
199  snprintf(line, kLineBufferSize, " DeadtimePercent: %22.3f %%", c.deadtimePercent());
200  s << line << std::endl;
201 
202  snprintf(
203  line, kLineBufferSize, " DeadtimeBeamActivePercent: %22.3f %%", c.deadtimeBeamActivePercent());
204  s << line << std::endl;
205 
206  snprintf(line,
207  kLineBufferSize,
208  " DeadtimeBeamActiveTriggerRulesPercent: %22.3f %%",
209  c.deadtimeBeamActiveTriggerRulesPercent());
210  s << line << std::endl;
211 
212  snprintf(line,
213  kLineBufferSize,
214  " DeadtimeBeamActiveCalibrationPercent: %22.3f %%",
215  c.deadtimeBeamActiveCalibrationPercent());
216  s << line << std::endl;
217 
218  snprintf(line,
219  kLineBufferSize,
220  " DeadtimeBeamActivePrivateOrbitPercent: %22.3f %%",
221  c.deadtimeBeamActivePrivateOrbitPercent());
222  s << line << std::endl;
223 
224  snprintf(line,
225  kLineBufferSize,
226  " DeadtimeBeamActivePartitionControllerPercent:%22.3f %%",
227  c.deadtimeBeamActivePartitionControllerPercent());
228  s << line << std::endl;
229 
230  snprintf(line,
231  kLineBufferSize,
232  " DeadtimeBeamActiveTimeSlotPercent: %22.3f %%",
233  c.deadtimeBeamActiveTimeSlotPercent());
234  s << line << std::endl;
235 
236  s << "Physics GtAlgoCountsRate, Hz" << std::endl;
237  const std::vector<double> gtAlgoCountsRate = c.gtAlgoCountsRate();
238  int length = gtAlgoCountsRate.size() / 4;
239  for (int i = 0; i < length; i++) {
240  snprintf(line,
241  kLineBufferSize,
242  " %3.3d: %12.3f %3.3d: %12.3f %3.3d: %12.3f %3.3d: %12.3f",
243  i,
244  gtAlgoCountsRate[i],
245  (i + length),
246  gtAlgoCountsRate[i + length],
247  (i + (length * 2)),
248  gtAlgoCountsRate[i + (length * 2)],
249  (i + (length * 3)),
250  gtAlgoCountsRate[i + (length * 3)]);
251  s << line << std::endl;
252  }
253 
254  s << "Test GtTechCountsRate, Hz" << std::endl;
255  const std::vector<double> gtTechCountsRate = c.gtTechCountsRate();
256  length = gtTechCountsRate.size() / 4;
257  for (int i = 0; i < length; i++) {
258  snprintf(line,
259  kLineBufferSize,
260  " %3.3d: %12.3f %3.3d: %12.3f %3.3d: %12.3f %3.3d: %12.3f",
261  i,
262  gtTechCountsRate[i],
263  (i + length),
264  gtTechCountsRate[i + length],
265  (i + (length * 2)),
266  gtTechCountsRate[i + (length * 2)],
267  (i + (length * 3)),
268  gtTechCountsRate[i + (length * 3)]);
269  s << line << std::endl;
270  }
271  return s;
272 }