Belle II Software development
ECLPackerModule Class Reference

Module that pack's MC info into a dataformat that comes from the detector. More...

#include <eclPackerModule.h>

Inheritance diagram for ECLPackerModule:
Module PathElement

Public Types

enum  EModulePropFlags {
  c_Input = 1 ,
  c_Output = 2 ,
  c_ParallelProcessingCertified = 4 ,
  c_HistogramManager = 8 ,
  c_InternalSerializer = 16 ,
  c_TerminateInAllProcesses = 32 ,
  c_DontCollectStatistics = 64
}
 Each module can be tagged with property flags, which indicate certain features of the module. More...
 
typedef ModuleCondition::EAfterConditionPath EAfterConditionPath
 Forward the EAfterConditionPath definition from the ModuleCondition.
 

Public Member Functions

virtual void initialize () override
 initialize
 
virtual void beginRun () override
 beginRun
 
virtual void event () override
 event
 
virtual void endRun () override
 endRun
 
virtual void terminate () override
 terminate
 
 BELLE2_DEFINE_EXCEPTION (Write_adc_samples_error, "Error packing adc samples to buffer")
 exception for errors during packing ADC data buffer
 
 BELLE2_DEFINE_EXCEPTION (eclPacker_internal_error, "Something wrong with ECL Packer")
 wrong indexes for ShaperDSP, channel or crate are appeared
 
virtual std::vector< std::string > getFileNames (bool outputFiles)
 Return a list of output filenames for this modules.
 
const std::string & getName () const
 Returns the name of the module.
 
const std::string & getType () const
 Returns the type of the module (i.e.
 
const std::string & getPackage () const
 Returns the package this module is in.
 
const std::string & getDescription () const
 Returns the description of the module.
 
void setName (const std::string &name)
 Set the name of the module.
 
void setPropertyFlags (unsigned int propertyFlags)
 Sets the flags for the module properties.
 
LogConfiggetLogConfig ()
 Returns the log system configuration.
 
void setLogConfig (const LogConfig &logConfig)
 Set the log system configuration.
 
void setLogLevel (int logLevel)
 Configure the log level.
 
void setDebugLevel (int debugLevel)
 Configure the debug messaging level.
 
void setAbortLevel (int abortLevel)
 Configure the abort log level.
 
void setLogInfo (int logLevel, unsigned int logInfo)
 Configure the printed log information for the given level.
 
void if_value (const std::string &expression, const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
 Add a condition to the module.
 
void if_false (const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
 A simplified version to add a condition to the module.
 
void if_true (const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
 A simplified version to set the condition of the module.
 
bool hasCondition () const
 Returns true if at least one condition was set for the module.
 
const ModuleConditiongetCondition () const
 Return a pointer to the first condition (or nullptr, if none was set)
 
const std::vector< ModuleCondition > & getAllConditions () const
 Return all set conditions for this module.
 
bool evalCondition () const
 If at least one condition was set, it is evaluated and true returned if at least one condition returns true.
 
std::shared_ptr< PathgetConditionPath () const
 Returns the path of the last true condition (if there is at least one, else reaturn a null pointer).
 
Module::EAfterConditionPath getAfterConditionPath () const
 What to do after the conditional path is finished.
 
std::vector< std::shared_ptr< Path > > getAllConditionPaths () const
 Return all condition paths currently set (no matter if the condition is true or not).
 
bool hasProperties (unsigned int propertyFlags) const
 Returns true if all specified property flags are available in this module.
 
bool hasUnsetForcedParams () const
 Returns true and prints error message if the module has unset parameters which the user has to set in the steering file.
 
const ModuleParamListgetParamList () const
 Return module param list.
 
template<typename T >
ModuleParam< T > & getParam (const std::string &name) const
 Returns a reference to a parameter.
 
bool hasReturnValue () const
 Return true if this module has a valid return value set.
 
int getReturnValue () const
 Return the return value set by this module.
 
std::shared_ptr< PathElementclone () const override
 Create an independent copy of this module.
 
std::shared_ptr< boost::python::list > getParamInfoListPython () const
 Returns a python list of all parameters.
 

Static Public Member Functions

static void exposePythonAPI ()
 Exposes methods of the Module class to Python.
 

Protected Member Functions

virtual void def_initialize ()
 Wrappers to make the methods without "def_" prefix callable from Python.
 
virtual void def_beginRun ()
 Wrapper method for the virtual function beginRun() that has the implementation to be used in a call from Python.
 
virtual void def_event ()
 Wrapper method for the virtual function event() that has the implementation to be used in a call from Python.
 
virtual void def_endRun ()
 This method can receive that the current run ends as a call from the Python side.
 
virtual void def_terminate ()
 Wrapper method for the virtual function terminate() that has the implementation to be used in a call from Python.
 
void setDescription (const std::string &description)
 Sets the description of the module.
 
void setType (const std::string &type)
 Set the module type.
 
template<typename T >
void addParam (const std::string &name, T &paramVariable, const std::string &description, const T &defaultValue)
 Adds a new parameter to the module.
 
template<typename T >
void addParam (const std::string &name, T &paramVariable, const std::string &description)
 Adds a new enforced parameter to the module.
 
void setReturnValue (int value)
 Sets the return value for this module as integer.
 
void setReturnValue (bool value)
 Sets the return value for this module as bool.
 
void setParamList (const ModuleParamList &params)
 Replace existing parameter list.
 

Private Member Functions

void writeNBits (unsigned int *buff, unsigned int value, unsigned int bitsToWrite)
 write N bits to the collector buffer
 
void resetBuffPosition ()
 reset current position in the buffer
 
void setBuffLength (int bufLength)
 set buffer length
 
std::list< ModulePtrgetModules () const override
 no submodules, return empty list
 
std::string getPathString () const override
 return the module name.
 
void setParamPython (const std::string &name, const boost::python::object &pyObj)
 Implements a method for setting boost::python objects.
 
void setParamPythonDict (const boost::python::dict &dictionary)
 Implements a method for reading the parameter values from a boost::python dictionary.
 

Private Attributes

int m_EvtNum = 0
 Event number.
 
int m_bufPos
 position in the data array
 
int m_bufLength
 length data

 
int m_bitPos
 bit position for bit-by-bit data read

 
int m_ampThreshold
 DSP amplitude threshold.
 
bool m_compressMode
 enable/disable compression of waveform data
 
bool m_pcie40Data
 true-pack data in PCIe40 format, false-pack data in COPPER format
 
int m_WaveformRareFactor
 the rate of writing of the ADC samples
 
std::string m_eclRawCOPPERsName
 name of output collection for RawCOPPER
 
std::string m_eclMapperInitFileName
 name of the file with correspondence between cellID and crate/shaper/channel numbers

 
int m_EclWaveformSamples [ECL_ADC_SAMPLES_PER_CHANNEL]
 array of ADC samples
 
ECL::ECLChannelMapper m_eclMapper
 channel mapper
 
StoreArray< RawECLm_eclRawCOPPERs
 Output data

 
unsigned int adcBuffer_temp [static_cast< int >(ECL::ECL_CHANNELS_IN_SHAPER) *static_cast< int >(ECL_ADC_SAMPLES_PER_CHANNEL)]
 temporary buffer to store ADC data
 
int collectorMaskArray [ECL::ECL_CRATES]
 array of triggered collectors
 
int shaperMaskArray [ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
 triggered shapers
 
int shaperADCMaskArray [ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
 shapers with ADC data
 
int shaperNWaveform [ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
 Number of waveforms per shaper.
 
int shaperNHits [ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
 Number of hits per shaper.
 
int iEclDigIndices [ECL::ECL_TOTAL_CHANNELS]
 indexes of related eclDigits
 
int iEclWfIndices [ECL::ECL_TOTAL_CHANNELS]
 indexes of related waveforms
 
StoreArray< ECLDigitm_eclDigits
 ECLDigit dataStore object.
 
StoreArray< ECLDspm_eclDsps
 ECLDSP dataStore object.
 
StoreObjPtr< EventMetaDatam_eventMetaData
 store objptr for EventMetaData
 
std::string m_name
 The name of the module, saved as a string (user-modifiable)
 
std::string m_type
 The type of the module, saved as a string.
 
std::string m_package
 Package this module is found in (may be empty).
 
std::string m_description
 The description of the module.
 
unsigned int m_propertyFlags
 The properties of the module as bitwise or (with |) of EModulePropFlags.
 
LogConfig m_logConfig
 The log system configuration of the module.
 
ModuleParamList m_moduleParamList
 List storing and managing all parameter of the module.
 
bool m_hasReturnValue
 True, if the return value is set.
 
int m_returnValue
 The return value.
 
std::vector< ModuleConditionm_conditions
 Module condition, only non-null if set.
 

Detailed Description

Module that pack's MC info into a dataformat that comes from the detector.

Definition at line 36 of file eclPackerModule.h.

Member Typedef Documentation

◆ EAfterConditionPath

Forward the EAfterConditionPath definition from the ModuleCondition.

Definition at line 88 of file Module.h.

Member Enumeration Documentation

◆ EModulePropFlags

enum EModulePropFlags
inherited

Each module can be tagged with property flags, which indicate certain features of the module.

Enumerator
c_Input 

This module is an input module (reads data).

c_Output 

This module is an output module (writes data).

c_ParallelProcessingCertified 

This module can be run in parallel processing mode safely (All I/O must be done through the data store, in particular, the module must not write any files.)

c_HistogramManager 

This module is used to manage histograms accumulated by other modules.

c_InternalSerializer 

This module is an internal serializer/deserializer for parallel processing.

c_TerminateInAllProcesses 

When using parallel processing, call this module's terminate() function in all processes().

This will also ensure that there is exactly one process (single-core if no parallel modules found) or at least one input, one main and one output process.

c_DontCollectStatistics 

No statistics is collected for this module.

Definition at line 77 of file Module.h.

77 {
78 c_Input = 1,
79 c_Output = 2,
85 };
@ c_HistogramManager
This module is used to manage histograms accumulated by other modules.
Definition: Module.h:81
@ c_Input
This module is an input module (reads data).
Definition: Module.h:78
@ c_DontCollectStatistics
No statistics is collected for this module.
Definition: Module.h:84
@ c_ParallelProcessingCertified
This module can be run in parallel processing mode safely (All I/O must be done through the data stor...
Definition: Module.h:80
@ c_InternalSerializer
This module is an internal serializer/deserializer for parallel processing.
Definition: Module.h:82
@ c_Output
This module is an output module (writes data).
Definition: Module.h:79
@ c_TerminateInAllProcesses
When using parallel processing, call this module's terminate() function in all processes().
Definition: Module.h:83

Constructor & Destructor Documentation

◆ ECLPackerModule()

Definition at line 31 of file eclPackerModule.cc.

31 :
32 m_bufPos(0),
33 m_bufLength(0),
34 m_bitPos(0),
46{
47 setDescription("The module reads ECLDigits from the DataStore and writes ECLRaw data.");
48 addParam("InitFileName", m_eclMapperInitFileName, "Initialization file", string("/ecl/data/ecl_channels_map.txt"));
49 addParam("RawCOPPERsName", m_eclRawCOPPERsName, "Name of the RawECL container", string("RawECLs"));
50 addParam("CompressMode", m_compressMode, "compress mode for ADC samples", true);
51 addParam("AmpThreshold", m_ampThreshold, "Amplitude threshold", -50);
52 addParam("PackWfRareFactor", m_WaveformRareFactor, "Pack ADC samples for one of N events. No waveform is packed if 0", 100);
53 addParam("Pcie40Data", m_pcie40Data,
54 "If true: pack data as if sent from PCIe40 boards. Otherwise: pack data as if sent from COPPERs", false);
55}
@ c_Event
Different object in each event, all objects/arrays are invalidated after event() function has been ca...
Definition: DataStore.h:59
int m_ampThreshold
DSP amplitude threshold.
int iEclDigIndices[ECL::ECL_TOTAL_CHANNELS]
indexes of related eclDigits
int shaperNHits[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
Number of hits per shaper.
int shaperMaskArray[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
triggered shapers
ECL::ECLChannelMapper m_eclMapper
channel mapper
int iEclWfIndices[ECL::ECL_TOTAL_CHANNELS]
indexes of related waveforms
int shaperADCMaskArray[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
shapers with ADC data
int m_bufPos
position in the data array
int m_EclWaveformSamples[ECL_ADC_SAMPLES_PER_CHANNEL]
array of ADC samples
int shaperNWaveform[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
Number of waveforms per shaper.
int m_WaveformRareFactor
the rate of writing of the ADC samples
int m_bitPos
bit position for bit-by-bit data read
std::string m_eclMapperInitFileName
name of the file with correspondence between cellID and crate/shaper/channel numbers
bool m_pcie40Data
true-pack data in PCIe40 format, false-pack data in COPPER format
StoreArray< RawECL > m_eclRawCOPPERs
Output data
unsigned int adcBuffer_temp[static_cast< int >(ECL::ECL_CHANNELS_IN_SHAPER) *static_cast< int >(ECL_ADC_SAMPLES_PER_CHANNEL)]
temporary buffer to store ADC data
bool m_compressMode
enable/disable compression of waveform data
int m_bufLength
length data
int collectorMaskArray[ECL::ECL_CRATES]
array of triggered collectors
std::string m_eclRawCOPPERsName
name of output collection for RawCOPPER
void setDescription(const std::string &description)
Sets the description of the module.
Definition: Module.cc:214
void addParam(const std::string &name, T &paramVariable, const std::string &description, const T &defaultValue)
Adds a new parameter to the module.
Definition: Module.h:560

◆ ~ECLPackerModule()

~ECLPackerModule ( )
virtual

Definition at line 57 of file eclPackerModule.cc.

58{
59}

Member Function Documentation

◆ beginRun()

void beginRun ( void  )
overridevirtual

beginRun

Reimplemented from Module.

Definition at line 73 of file eclPackerModule.cc.

74{
75 // Initialize channel mapper at run start to account for possible
76 // changes in ECL mapping between runs.
77 if (!m_eclMapper.initFromDB()) {
78 B2FATAL("ECL Packer: Can't initialize eclChannelMapper!");
79 }
80
81 //TODO
82}
bool initFromDB()
Initialize channel mapper from the conditions database.

◆ clone()

std::shared_ptr< PathElement > clone ( ) const
overridevirtualinherited

Create an independent copy of this module.

Note that parameters are shared, so changing them on a cloned module will also affect the original module.

Implements PathElement.

Definition at line 179 of file Module.cc.

180{
182 newModule->m_moduleParamList.setParameters(getParamList());
183 newModule->setName(getName());
184 newModule->m_package = m_package;
185 newModule->m_propertyFlags = m_propertyFlags;
186 newModule->m_logConfig = m_logConfig;
187 newModule->m_conditions = m_conditions;
188
189 return newModule;
190}
std::shared_ptr< Module > registerModule(const std::string &moduleName, std::string sharedLibPath="") noexcept(false)
Creates an instance of a module and registers it to the ModuleManager.
static ModuleManager & Instance()
Exception is thrown if the requested module could not be created by the ModuleManager.
const ModuleParamList & getParamList() const
Return module param list.
Definition: Module.h:363
const std::string & getName() const
Returns the name of the module.
Definition: Module.h:187
const std::string & getType() const
Returns the type of the module (i.e.
Definition: Module.cc:41
unsigned int m_propertyFlags
The properties of the module as bitwise or (with |) of EModulePropFlags.
Definition: Module.h:512
LogConfig m_logConfig
The log system configuration of the module.
Definition: Module.h:514
std::vector< ModuleCondition > m_conditions
Module condition, only non-null if set.
Definition: Module.h:521
std::string m_package
Package this module is found in (may be empty).
Definition: Module.h:510
std::shared_ptr< Module > ModulePtr
Defines a pointer to a module object as a boost shared pointer.
Definition: Module.h:43

◆ def_beginRun()

virtual void def_beginRun ( )
inlineprotectedvirtualinherited

Wrapper method for the virtual function beginRun() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 426 of file Module.h.

426{ beginRun(); }
virtual void beginRun()
Called when entering a new run.
Definition: Module.h:147

◆ def_endRun()

virtual void def_endRun ( )
inlineprotectedvirtualinherited

This method can receive that the current run ends as a call from the Python side.

For regular C++-Modules that forwards the call to the regular endRun() method.

Reimplemented in PyModule.

Definition at line 439 of file Module.h.

439{ endRun(); }
virtual void endRun()
This method is called if the current run ends.
Definition: Module.h:166

◆ def_event()

virtual void def_event ( )
inlineprotectedvirtualinherited

Wrapper method for the virtual function event() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 432 of file Module.h.

432{ event(); }
virtual void event()
This method is the core of the module.
Definition: Module.h:157

◆ def_initialize()

virtual void def_initialize ( )
inlineprotectedvirtualinherited

Wrappers to make the methods without "def_" prefix callable from Python.

Overridden in PyModule. Wrapper method for the virtual function initialize() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 420 of file Module.h.

420{ initialize(); }
virtual void initialize()
Initialize the Module.
Definition: Module.h:109

◆ def_terminate()

virtual void def_terminate ( )
inlineprotectedvirtualinherited

Wrapper method for the virtual function terminate() that has the implementation to be used in a call from Python.

Reimplemented in PyModule.

Definition at line 445 of file Module.h.

445{ terminate(); }
virtual void terminate()
This method is called at the end of the event processing.
Definition: Module.h:176

◆ endRun()

void endRun ( void  )
overridevirtual

endRun

Reimplemented from Module.

Definition at line 419 of file eclPackerModule.cc.

420{
421 //TODO
422}

◆ evalCondition()

bool evalCondition ( ) const
inherited

If at least one condition was set, it is evaluated and true returned if at least one condition returns true.

If no condition or result value was defined, the method returns false. Otherwise, the condition is evaluated and true returned, if at least one condition returns true. To speed up the evaluation, the condition strings were already parsed in the method if_value().

Returns
True if at least one condition and return value exists and at least one condition expression was evaluated to true.

Definition at line 96 of file Module.cc.

97{
98 if (m_conditions.empty()) return false;
99
100 //okay, a condition was set for this Module...
101 if (!m_hasReturnValue) {
102 B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
103 }
104
105 for (const auto& condition : m_conditions) {
106 if (condition.evaluate(m_returnValue)) {
107 return true;
108 }
109 }
110 return false;
111}
int m_returnValue
The return value.
Definition: Module.h:519
bool m_hasReturnValue
True, if the return value is set.
Definition: Module.h:518

◆ event()

void event ( void  )
overridevirtual

event

Reimplemented from Module.

Definition at line 84 of file eclPackerModule.cc.

85{
86 if (m_eventMetaData.isValid()) {
87 m_EvtNum = m_eventMetaData->getEvent();
88 } else {
89 m_EvtNum = -1;
90 }
91
92 B2DEBUG(50, "EclPacker:: event called ");
93 // output data
94 m_eclRawCOPPERs.clear();
95
96 B2DEBUG(50, "EclPacker:: output data arrays created");
97
98 int nActiveChannelsWithADCData, nActiveDSPChannels;
99 int triggerPhase = 0, dspMask = 0;
100
101 // get total number of hits
102 int nEclDigits = m_eclDigits.getEntries();
103 int nEclWaveform = m_eclDsps.getEntries();
104
105 for (int i = 0; i < ECL_CRATES; i++) {
106 collectorMaskArray[i] = 0;
107 for (int j = 0; j < ECL_BARREL_SHAPERS_IN_CRATE; j++) {
108 shaperMaskArray[i][j] = 0;
109 shaperNHits[i][j] = 0;
110 shaperADCMaskArray[i][j] = 0;
111 shaperNWaveform[i][j] = 0;
112 }
113 }
114
115 for (int j = 0; j < ECL_TOTAL_CHANNELS; j++) {
116 iEclDigIndices[j] = -1;
117 iEclWfIndices[j] = -1;
118 }
119
120 B2DEBUG(100, "EclPacker:: N_Digits = " << nEclDigits);
121 B2DEBUG(100, "EclPacker:: N_Waveforms = " << nEclWaveform);
122
123 int iCOPPER, iFINESSE, iCrate, iShaper, iChannel, nShapers;
124
125 B2DEBUG(100, "EclPacker:: Hits ======>> ");
126 int tot_dsp_hits = 0;
127 // fill number of hits, masks and fill correspondence between cellID and index in container
128 for (int i_digit = 0; i_digit < nEclDigits; i_digit++) {
129 int cid = m_eclDigits[i_digit]->getCellId();
130 int amp = m_eclDigits[i_digit]->getAmp();
131
132 if (amp < m_ampThreshold) continue;
133
134 //TODO: Threshold
135 iCrate = m_eclMapper.getCrateID(cid);
136 iShaper = m_eclMapper.getShaperPosition(cid);
137 iChannel = m_eclMapper.getShaperChannel(cid);
138
139 if (iCrate < 1 && iShaper < 1 && iChannel < 1) {
140 B2ERROR("Wrong crate/shaper/channel ids: " << iCrate << " " << iShaper << " " << iChannel << " for CID " << cid);
141 throw eclPacker_internal_error();
142 }
143 collectorMaskArray[iCrate - 1] |= (1 << (iShaper - 1));
144
145 shaperMaskArray[iCrate - 1][iShaper - 1] |= (1 << (iChannel - 1));
146 shaperNHits[iCrate - 1][iShaper - 1]++;
147
148 iEclDigIndices[cid - 1] = i_digit;
149 tot_dsp_hits++;
150 }
151
152 B2DEBUG(100, "ECL Packer:: N Hits above threshold = " << tot_dsp_hits << " nWaveforms = " << nEclWaveform);
153
154 if (m_WaveformRareFactor != 0)
155 if (m_EvtNum % m_WaveformRareFactor == 0) {
156 B2DEBUG(100, "ECL Packer:: Pack waveform data for this event: " << m_EvtNum);
157 for (int i_wf = 0; i_wf < nEclWaveform; i_wf++) {
158 int cid = m_eclDsps[i_wf]->getCellId();
159 iCrate = m_eclMapper.getCrateID(cid);
160 iShaper = m_eclMapper.getShaperPosition(cid);
161 iChannel = m_eclMapper.getShaperChannel(cid);
162
163 //check corresponding amplitude in ecl digits
164 int amp = 0;
165 for (int i_digit = 0; i_digit < nEclDigits; i_digit++) {
166 if (m_eclDigits[i_digit]->getCellId() == cid) {
167 amp = m_eclDigits[i_digit]->getAmp();
168 break;
169 }
170 }
171 if (amp < m_ampThreshold) continue;
172
173 shaperADCMaskArray[iCrate - 1][iShaper - 1] |= (1 << (iChannel - 1));
174 shaperNWaveform[iCrate - 1][iShaper - 1]++;
175
176 iEclWfIndices[cid - 1] = i_wf;
177 }
178 }
179
180 // fill rawCOPPERPacker data
181 RawCOPPERPackerInfo rawcprpacker_info;
182 rawcprpacker_info.exp_num = 0;
183 rawcprpacker_info.run_subrun_num = 1; // run number : 14bits, subrun # : 8bits
184 rawcprpacker_info.eve_num = m_EvtNum;
185 rawcprpacker_info.tt_ctime = 0x7123456; //??? (copy-past from CDC)
186 rawcprpacker_info.tt_utime = 0xF1234567; //???
187 rawcprpacker_info.b2l_ctime = 0x7654321; //???
188
189
190 B2DEBUG(100, "EclPacker:: proceed COPPERs... ");
191 B2DEBUG(100, "EclPacker:: ECL_COPPERS = " << ECL_COPPERS);
192
193 //Set the number of nodes
194 int max_nodes;
195 if (m_pcie40Data) {
196 max_nodes = 3;
197 } else {
198 max_nodes = ECL_COPPERS;
199 }
200 const static int max_channels = MAX_PCIE40_CH;
201
202 //cycle over all coppers
203 for (iCOPPER = 1; iCOPPER <= max_nodes; iCOPPER++) {
204 std::vector <unsigned int> buff[max_channels];
205 int channels_count;
206 if (m_pcie40Data) {
207 channels_count = iCOPPER < 3 ? 18 : 16;
208 } else {
209 channels_count = 2;
210 }
211
212 for (int i = 0; i < max_channels; i++) buff[i].clear();
213
214 int iCOPPERNode;
215 if (m_pcie40Data) {
216 iCOPPERNode = BECL_ID + iCOPPER;
217 } else {
218 iCOPPERNode = (iCOPPER <= ECL_BARREL_COPPERS) ? BECL_ID + iCOPPER : EECL_ID + iCOPPER - ECL_BARREL_COPPERS;
219 }
220
221 bool skipNode = true;
222
223 //check if at least one of FINESSES have hits
224 for (int i = 0; i < channels_count; i++) {
225 int icr = m_eclMapper.getCrateID(iCOPPERNode, i, m_pcie40Data);
226 B2DEBUG(200, "iCOPPERNode = 0x" << std::hex << iCOPPERNode << std::dec << " nCrate = " << icr);
227 if (!collectorMaskArray[icr - 1]) continue;
228 skipNode = false;
229 break;
230 }
231
232 if (skipNode) continue;
233
234 rawcprpacker_info.node_id = iCOPPERNode;
235
236 // Create RawECL object
237
238 int nwords[max_channels] = {0, 0};
239 const int finesseHeaderNWords = 3;
240
241 //cycle over finesses in copper
242 for (iFINESSE = 0; iFINESSE < channels_count; iFINESSE++) {
243 iCrate = m_eclMapper.getCrateID(iCOPPERNode, iFINESSE, m_pcie40Data);
244
245 nShapers = m_eclMapper.getNShapersInCrate(iCrate);
246 if (!nShapers) B2ERROR("Ecl packer:: Wrong shapers number " << nShapers);
247
248 if (!shaperMaskArray[iCrate - 1]) continue;
249 B2DEBUG(200, "Pack data for iCrate = " << iCrate << " nShapers = " << nShapers);
250
251 // write EclCollector header to the buffer
252 unsigned int eclCollectorHeader = (1 << nShapers) - 1;
253 if (m_compressMode) eclCollectorHeader += (1 << 12);
254 buff[iFINESSE].push_back(eclCollectorHeader);
255
256 for (iShaper = 1; iShaper <= nShapers; iShaper++) {
257
258 nActiveDSPChannels = shaperNHits[iCrate - 1][iShaper - 1];
259 B2DEBUG(200, "iCrate = " << iCrate << " iShaper = " << iShaper << " nActiveDSPChannels = " << nActiveDSPChannels);
260 nActiveChannelsWithADCData = shaperNWaveform[iCrate - 1][iShaper - 1];
261 B2DEBUG(200, "nActiveChannelsWithADCData = " << nActiveChannelsWithADCData);
262
263 // write 4 words of shaper header
264
265 unsigned int shaperDataLength = 4 + nActiveDSPChannels + nActiveChannelsWithADCData * ECL_ADC_SAMPLES_PER_CHANNEL;
266 // fill shaperDsp header
267 unsigned int shaper_header_w0 = (0x10 << 16) + (shaperDataLength & 0xFFFF);
268 buff[iFINESSE].push_back(shaper_header_w0);
269
270 triggerPhase = 0; //?????
271 unsigned int shaper_header_w1 = (nActiveChannelsWithADCData & 0x1F) << 24;
272 shaper_header_w1 |= (ECL_ADC_SAMPLES_PER_CHANNEL & 0x7F) << 16;
273 shaper_header_w1 |= (nActiveDSPChannels & 0x1F) << 8;
274 shaper_header_w1 |= triggerPhase;
275 buff[iFINESSE].push_back(shaper_header_w1);
276
277 dspMask = shaperMaskArray[iCrate - 1][iShaper - 1];
278 B2DEBUG(200, "dspMask = " << std::hex << dspMask);
279 unsigned int shaper_header_w2 = (dspMask & 0xFFFF) << 16;
280 shaper_header_w2 |= (m_EvtNum & 0xFFFF); // trigger tag
281 buff[iFINESSE].push_back(shaper_header_w2);
282
283 unsigned int adcMask = shaperADCMaskArray[iCrate - 1][iShaper - 1];
284 B2DEBUG(100, "adcMask = " << std::hex << adcMask);
285 unsigned int shaper_header_w3 = (adcMask & 0xFFFF);
286 buff[iFINESSE].push_back(shaper_header_w3);
287
288 // cycle over shaper channels and push DSP data to buffer
289 for (iChannel = 1; iChannel <= ECL_CHANNELS_IN_SHAPER; iChannel++) {
290
291 const int cid = m_eclMapper.getCellId(iCrate, iShaper, iChannel);
292
293 if (cid < 1) continue;
294
295 const int i_digit = iEclDigIndices[cid - 1];
296 if (i_digit < 0) continue;
297 const int qua = m_eclDigits[i_digit]->getQuality();
298 const int amp = m_eclDigits[i_digit]->getAmp();
299 const int chi = m_eclDigits[i_digit]->getChi();
300 int tim = 0;
301 if (qua == 2) {
302 // pack chisquare
303
304 int chi_mantissa = 0, chi_exponent = 0;
305 int n_bits = ceil(log2(double(chi)));
306 if (n_bits > 9) {
307 chi_exponent = ceil(float(n_bits - 9) / 2.0);
308 chi_mantissa = chi >> chi_exponent * 2;
309 } else {
310 chi_exponent = 0;
311 chi_mantissa = chi;
312 }
313 tim = (chi_exponent << 9) | chi_mantissa;
314 } else {
315 // pack time
316 tim = m_eclDigits[i_digit]->getTimeFit();
317 }
318 unsigned int hit_data = ((unsigned int)(qua & 3) << 30) & 0xC0000000;
319 hit_data |= (tim & 0xFFF) << 18;
320 hit_data |= ((amp + 128) & 0x3FFFF);
321 buff[iFINESSE].push_back(hit_data);
322
323 B2DEBUG(100, "cid = " << cid << " amp = " << amp << " tim = " << tim);
324 }
325
326 for (int i = 0; i < ECL_CHANNELS_IN_SHAPER; i++) adcBuffer_temp[i] = 0;
328 setBuffLength(static_cast<int>(ECL_ADC_SAMPLES_PER_CHANNEL) * static_cast<int>(ECL_CHANNELS_IN_SHAPER));
329 for (iChannel = 1; iChannel <= ECL_CHANNELS_IN_SHAPER; iChannel++) {
330 int cid = m_eclMapper.getCellId(iCrate, iShaper, iChannel);
331 if (cid < 1) continue;
332 int i_wf = iEclWfIndices[cid - 1];
333 if (i_wf < 0) continue;
334 B2DEBUG(200, "i_wf = " << i_wf);
335 m_eclDsps[i_wf]->getDspA(m_EclWaveformSamples); // Check this method in implementation of ECLDsp.h!!!
336
337 if (m_compressMode) {
338 unsigned int adc_data_base = 0;
339 unsigned int adc_data_diff_width = 0;
340
341 // calculate adc_data_base and adc_data_diff_width for compressed mode
342 unsigned int ampMin = m_EclWaveformSamples[0];
343 unsigned int ampMax = m_EclWaveformSamples[0];
344
345 for (unsigned int iSample = 0; iSample < ECL_ADC_SAMPLES_PER_CHANNEL; iSample++) {
346 if ((unsigned int) m_EclWaveformSamples[iSample] > ampMax) ampMax = m_EclWaveformSamples[iSample];
347 if ((unsigned int) m_EclWaveformSamples[iSample] < ampMin) ampMin = m_EclWaveformSamples[iSample];
348 }
349
350 B2DEBUG(250, "ampMin = " << ampMin << " ampMax = " << ampMax);
351
352 adc_data_base = ampMin & 0x3FFFF;
353 writeNBits(adcBuffer_temp, adc_data_base, 18);
354 adc_data_diff_width = (unsigned int)(log2((float)ampMax - (float)ampMin)) + 1;
355 adc_data_diff_width &= 0x1F;
356 writeNBits(adcBuffer_temp, adc_data_diff_width, 5);
357
358 B2DEBUG(250, "Width = " << adc_data_diff_width << " Base = " << adc_data_base);
359
360 for (unsigned int iSample = 0; iSample < ECL_ADC_SAMPLES_PER_CHANNEL; iSample++) {
361 unsigned int adc_data_offset = m_EclWaveformSamples[iSample] - adc_data_base;
362 B2DEBUG(250, "offset = " << adc_data_offset);
363 writeNBits(adcBuffer_temp, adc_data_offset, adc_data_diff_width);
364 }
365 } else {
366 for (unsigned int iSample = 0; iSample < ECL_ADC_SAMPLES_PER_CHANNEL; iSample++) {
367 buff[iFINESSE].push_back(m_EclWaveformSamples[iSample]);
368 }
369
370 }
371
372 }
373 if (m_compressMode) {
374 if (m_bitPos > 0) m_bufPos++;
375 for (int i = 0; i < m_bufPos; i++) {
376 buff[iFINESSE].push_back(adcBuffer_temp[i]);
377
378 B2DEBUG(500, "Buff word " << std::hex << adcBuffer_temp[i]);
379 }
380 }
381 }
382 }
383
384 RawECL* newRawECL = m_eclRawCOPPERs.appendNew();
385
386 for (int i = 0; i < channels_count; i++) {
387 nwords[i] = buff[i].size();
388
389 buff[i][0] |= (nwords[i] - finesseHeaderNWords) * 4;
390 }
391
392 B2DEBUG(100, "**** iEvt = " << m_EvtNum << " node= " << iCOPPERNode);
393 for (int i = 0; i < channels_count; i++)
394 for (unsigned int j = 0; j < buff[i].size(); j++) {
395 B2DEBUG(210, ">> " << std::hex << setfill('0') << setw(8) << buff[i][j]);
396 }
397
398 B2DEBUG(100, "Call PackDetectorBuf");
399 if (m_pcie40Data) {
400 int* pcie40_words[MAX_PCIE40_CH];
401 int pcie40_nwords[MAX_PCIE40_CH] = {};
402
403 for (int i = 0; i < channels_count; i++) {
404 pcie40_nwords[i] = nwords[i];
405 pcie40_words[i] = new int[ nwords[i] ];
406 for (int j = 0; j < nwords[i]; j++) {
407 pcie40_words[i][j] = buff[i][j];
408 }
409 }
410
411 newRawECL->PackDetectorBuf(pcie40_words, pcie40_nwords, rawcprpacker_info);
412 } else { // COPPER data
413 newRawECL->PackDetectorBuf((int*)buff[0].data(), nwords[0], (int*)buff[1].data(), nwords[1],
414 nullptr, 0, nullptr, 0, rawcprpacker_info);
415 }
416 }
417}
StoreArray< ECLDsp > m_eclDsps
ECLDSP dataStore object.
int m_EvtNum
Event number.
StoreArray< ECLDigit > m_eclDigits
ECLDigit dataStore object.
StoreObjPtr< EventMetaData > m_eventMetaData
store objptr for EventMetaData
void setBuffLength(int bufLength)
set buffer length
void writeNBits(unsigned int *buff, unsigned int value, unsigned int bitsToWrite)
write N bits to the collector buffer
void resetBuffPosition()
reset current position in the buffer
int getNShapersInCrate(int iCrate)
Get number of ShaperDSP modules in the given VME crate number.
int getCellId(int iCrate, int iShaper, int iChannel)
Get CellId by given crate number, shaper position in the crate and DSP channel number in the shaper.
int getShaperChannel(int cellID)
Get number of DSP channel in the shaper by given number of CellId.
int getShaperPosition(int cellID)
Get position of the shaper in the crate by given CellId.
int getCrateID(int iCOPPERNode, int iFINESSE, bool pcie40=false)
Get crate number by given COPPER node number and FINESSE number.
struct to contain header information used by RawCOPPERFormat::Packer()
unsigned int b2l_ctime
32bit unitx time at trigger timing distributed by FTSW. For details, see Nakao-san's belle2link user ...
unsigned int eve_num
Run # and subrun # ( 22bit )
unsigned int tt_ctime
Node ID (32bit)
unsigned int tt_utime
27bit clock ticks at trigger timing distributed by FTSW. For details, see Nakao-san's belle2link user...
unsigned int node_id
Event Number (32bit)
unsigned int run_subrun_num
Experiment number (10bit)
unsigned int exp_num
Experiment number (10bit)
void PackDetectorBuf(int *detector_buf_1st, int nwords_1st, int *detector_buf_2nd, int nwords_2nd, int *detector_buf_3rd, int nwords_3rd, int *detector_buf_4th, int nwords_4th, RawCOPPERPackerInfo rawcprpacker_info)
Packer for RawCOPPER class Pack data (format ver.
Definition: RawCOPPER.cc:183
The Raw ECL class Class for RawCOPPER class data taken by ECL Currently, this class is almost same as...
Definition: RawECL.h:26

◆ exposePythonAPI()

void exposePythonAPI ( )
staticinherited

Exposes methods of the Module class to Python.

Definition at line 325 of file Module.cc.

326{
327 // to avoid confusion between std::arg and boost::python::arg we want a shorthand namespace as well
328 namespace bp = boost::python;
329
330 docstring_options options(true, true, false); //userdef, py sigs, c++ sigs
331
332 void (Module::*setReturnValueInt)(int) = &Module::setReturnValue;
333
334 enum_<Module::EAfterConditionPath>("AfterConditionPath",
335 R"(Determines execution behaviour after a conditional path has been executed:
336
337.. attribute:: END
338
339 End processing of this path after the conditional path. (this is the default for if_value() etc.)
340
341.. attribute:: CONTINUE
342
343 After the conditional path, resume execution after this module.)")
344 .value("END", Module::EAfterConditionPath::c_End)
345 .value("CONTINUE", Module::EAfterConditionPath::c_Continue)
346 ;
347
348 /* Do not change the names of >, <, ... we use them to serialize conditional pathes */
349 enum_<Belle2::ModuleCondition::EConditionOperators>("ConditionOperator")
356 ;
357
358 enum_<Module::EModulePropFlags>("ModulePropFlags",
359 R"(Flags to indicate certain low-level features of modules, see :func:`Module.set_property_flags()`, :func:`Module.has_properties()`. Most useful flags are:
360
361.. attribute:: PARALLELPROCESSINGCERTIFIED
362
363 This module can be run in parallel processing mode safely (All I/O must be done through the data store, in particular, the module must not write any files.)
364
365.. attribute:: HISTOGRAMMANAGER
366
367 This module is used to manage histograms accumulated by other modules
368
369.. attribute:: TERMINATEINALLPROCESSES
370
371 When using parallel processing, call this module's terminate() function in all processes. This will also ensure that there is exactly one process (single-core if no parallel modules found) or at least one input, one main and one output process.
372)")
373 .value("INPUT", Module::EModulePropFlags::c_Input)
374 .value("OUTPUT", Module::EModulePropFlags::c_Output)
375 .value("PARALLELPROCESSINGCERTIFIED", Module::EModulePropFlags::c_ParallelProcessingCertified)
376 .value("HISTOGRAMMANAGER", Module::EModulePropFlags::c_HistogramManager)
377 .value("INTERNALSERIALIZER", Module::EModulePropFlags::c_InternalSerializer)
378 .value("TERMINATEINALLPROCESSES", Module::EModulePropFlags::c_TerminateInAllProcesses)
379 ;
380
381 //Python class definition
382 class_<Module, PyModule> module("Module", R"(
383Base class for Modules.
384
385A module is the smallest building block of the framework.
386A typical event processing chain consists of a Path containing
387modules. By inheriting from this base class, various types of
388modules can be created. To use a module, please refer to
389:func:`Path.add_module()`. A list of modules is available by running
390``basf2 -m`` or ``basf2 -m package``, detailed information on parameters is
391given by e.g. ``basf2 -m RootInput``.
392
393The 'Module Development' section in the manual provides detailed information
394on how to create modules, setting parameters, or using return values/conditions:
395https://xwiki.desy.de/xwiki/rest/p/f4fa4/#HModuleDevelopment
396
397)");
398 module
399 .def("__str__", &Module::getPathString)
400 .def("name", &Module::getName, return_value_policy<copy_const_reference>(),
401 "Returns the name of the module. Can be changed via :func:`set_name() <Module.set_name()>`, use :func:`type() <Module.type()>` for identifying a particular module class.")
402 .def("type", &Module::getType, return_value_policy<copy_const_reference>(),
403 "Returns the type of the module (i.e. class name minus 'Module')")
404 .def("set_name", &Module::setName, args("name"), R"(
405Set custom name, e.g. to distinguish multiple modules of the same type.
406
407>>> path.add_module('EventInfoSetter')
408>>> ro = path.add_module('RootOutput', branchNames=['EventMetaData'])
409>>> ro.set_name('RootOutput_metadata_only')
410>>> print(path)
411[EventInfoSetter -> RootOutput_metadata_only]
412
413)")
414 .def("description", &Module::getDescription, return_value_policy<copy_const_reference>(),
415 "Returns the description of this module.")
416 .def("package", &Module::getPackage, return_value_policy<copy_const_reference>(),
417 "Returns the package this module belongs to.")
418 .def("available_params", &_getParamInfoListPython,
419 "Return list of all module parameters as `ModuleParamInfo` instances")
420 .def("has_properties", &Module::hasProperties, (bp::arg("properties")),
421 R"DOCSTRING(Allows to check if the module has the given properties out of `ModulePropFlags` set.
422
423>>> if module.has_properties(ModulePropFlags.PARALLELPROCESSINGCERTIFIED):
424>>> ...
425
426Parameters:
427 properties (int): bitmask of `ModulePropFlags` to check for.
428)DOCSTRING")
429 .def("set_property_flags", &Module::setPropertyFlags, args("property_mask"),
430 "Set module properties in the form of an OR combination of `ModulePropFlags`.");
431 {
432 // python signature is too crowded, make ourselves
433 docstring_options subOptions(true, false, false); //userdef, py sigs, c++ sigs
434 module
435 .def("if_value", &Module::if_value,
436 (bp::arg("expression"), bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
437 R"DOCSTRING(if_value(expression, condition_path, after_condition_path=AfterConditionPath.END)
438
439Sets a conditional sub path which will be executed after this
440module if the return value set in the module passes the given ``expression``.
441
442Modules can define a return value (int or bool) using ``setReturnValue()``,
443which can be used in the steering file to split the Path based on this value, for example
444
445>>> module_with_condition.if_value("<1", another_path)
446
447In case the return value of the ``module_with_condition`` for a given event is
448less than 1, the execution will be diverted into ``another_path`` for this event.
449
450You could for example set a special return value if an error occurs, and divert
451the execution into a path containing :b2:mod:`RootOutput` if it is found;
452saving only the data producing/produced by the error.
453
454After a conditional path has executed, basf2 will by default stop processing
455the path for this event. This behaviour can be changed by setting the
456``after_condition_path`` argument.
457
458Parameters:
459 expression (str): Expression to determine if the conditional path should be executed.
460 This should be one of the comparison operators ``<``, ``>``, ``<=``,
461 ``>=``, ``==``, or ``!=`` followed by a numerical value for the return value
462 condition_path (Path): path to execute in case the expression is fulfilled
463 after_condition_path (AfterConditionPath): What to do once the ``condition_path`` has been executed.
464)DOCSTRING")
465 .def("if_false", &Module::if_false,
466 (bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
467 R"DOC(if_false(condition_path, after_condition_path=AfterConditionPath.END)
468
469Sets a conditional sub path which will be executed after this module if
470the return value of the module evaluates to False. This is equivalent to
471calling `if_value` with ``expression=\"<1\"``)DOC")
472 .def("if_true", &Module::if_true,
473 (bp::arg("condition_path"), bp::arg("after_condition_path")= Module::EAfterConditionPath::c_End),
474 R"DOC(if_true(condition_path, after_condition_path=AfterConditionPath.END)
475
476Sets a conditional sub path which will be executed after this module if
477the return value of the module evaluates to True. It is equivalent to
478calling `if_value` with ``expression=\">=1\"``)DOC");
479 }
480 module
481 .def("has_condition", &Module::hasCondition,
482 "Return true if a conditional path has been set for this module "
483 "using `if_value`, `if_true` or `if_false`")
484 .def("get_all_condition_paths", &_getAllConditionPathsPython,
485 "Return a list of all conditional paths set for this module using "
486 "`if_value`, `if_true` or `if_false`")
487 .def("get_all_conditions", &_getAllConditionsPython,
488 "Return a list of all conditional path expressions set for this module using "
489 "`if_value`, `if_true` or `if_false`")
490 .add_property("logging", make_function(&Module::getLogConfig, return_value_policy<reference_existing_object>()),
@ c_GE
Greater or equal than: ">=".
@ c_SE
Smaller or equal than: "<=".
@ c_GT
Greater than: ">"
@ c_NE
Not equal: "!=".
@ c_EQ
Equal: "=" or "=="
@ c_ST
Smaller than: "<"
Base class for Modules.
Definition: Module.h:72
LogConfig & getLogConfig()
Returns the log system configuration.
Definition: Module.h:225
void if_value(const std::string &expression, const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
Add a condition to the module.
Definition: Module.cc:79
void setPropertyFlags(unsigned int propertyFlags)
Sets the flags for the module properties.
Definition: Module.cc:208
void if_true(const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
A simplified version to set the condition of the module.
Definition: Module.cc:90
void setReturnValue(int value)
Sets the return value for this module as integer.
Definition: Module.cc:220
void setLogConfig(const LogConfig &logConfig)
Set the log system configuration.
Definition: Module.h:230
const std::string & getDescription() const
Returns the description of the module.
Definition: Module.h:202
void if_false(const std::shared_ptr< Path > &path, EAfterConditionPath afterConditionPath=EAfterConditionPath::c_End)
A simplified version to add a condition to the module.
Definition: Module.cc:85
bool hasCondition() const
Returns true if at least one condition was set for the module.
Definition: Module.h:311
const std::string & getPackage() const
Returns the package this module is in.
Definition: Module.h:197
void setName(const std::string &name)
Set the name of the module.
Definition: Module.h:214
bool hasProperties(unsigned int propertyFlags) const
Returns true if all specified property flags are available in this module.
Definition: Module.cc:160
std::string getPathString() const override
return the module name.
Definition: Module.cc:192

◆ getAfterConditionPath()

Module::EAfterConditionPath getAfterConditionPath ( ) const
inherited

What to do after the conditional path is finished.

(defaults to c_End if no condition is set)

Definition at line 133 of file Module.cc.

134{
135 if (m_conditions.empty()) return EAfterConditionPath::c_End;
136
137 //okay, a condition was set for this Module...
138 if (!m_hasReturnValue) {
139 B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
140 }
141
142 for (const auto& condition : m_conditions) {
143 if (condition.evaluate(m_returnValue)) {
144 return condition.getAfterConditionPath();
145 }
146 }
147
148 return EAfterConditionPath::c_End;
149}

◆ getAllConditionPaths()

std::vector< std::shared_ptr< Path > > getAllConditionPaths ( ) const
inherited

Return all condition paths currently set (no matter if the condition is true or not).

Definition at line 150 of file Module.cc.

151{
152 std::vector<std::shared_ptr<Path>> allConditionPaths;
153 for (const auto& condition : m_conditions) {
154 allConditionPaths.push_back(condition.getPath());
155 }
156
157 return allConditionPaths;
158}

◆ getAllConditions()

const std::vector< ModuleCondition > & getAllConditions ( ) const
inlineinherited

Return all set conditions for this module.

Definition at line 324 of file Module.h.

325 {
326 return m_conditions;
327 }

◆ getCondition()

const ModuleCondition * getCondition ( ) const
inlineinherited

Return a pointer to the first condition (or nullptr, if none was set)

Definition at line 314 of file Module.h.

315 {
316 if (m_conditions.empty()) {
317 return nullptr;
318 } else {
319 return &m_conditions.front();
320 }
321 }

◆ getConditionPath()

std::shared_ptr< Path > getConditionPath ( ) const
inherited

Returns the path of the last true condition (if there is at least one, else reaturn a null pointer).


Definition at line 113 of file Module.cc.

114{
115 PathPtr p;
116 if (m_conditions.empty()) return p;
117
118 //okay, a condition was set for this Module...
119 if (!m_hasReturnValue) {
120 B2FATAL("A condition was set for '" << getName() << "', but the module did not set a return value!");
121 }
122
123 for (const auto& condition : m_conditions) {
124 if (condition.evaluate(m_returnValue)) {
125 return condition.getPath();
126 }
127 }
128
129 // if none of the conditions were true, return a null pointer.
130 return p;
131}
std::shared_ptr< Path > PathPtr
Defines a pointer to a path object as a boost shared pointer.
Definition: Path.h:35

◆ getDescription()

const std::string & getDescription ( ) const
inlineinherited

Returns the description of the module.

Definition at line 202 of file Module.h.

202{return m_description;}
std::string m_description
The description of the module.
Definition: Module.h:511

◆ getFileNames()

virtual std::vector< std::string > getFileNames ( bool  outputFiles)
inlinevirtualinherited

Return a list of output filenames for this modules.

This will be called when basf2 is run with "--dry-run" if the module has set either the c_Input or c_Output properties.

If the parameter outputFiles is false (for modules with c_Input) the list of input filenames should be returned (if any). If outputFiles is true (for modules with c_Output) the list of output files should be returned (if any).

If a module has sat both properties this member is called twice, once for each property.

The module should return the actual list of requested input or produced output filenames (including handling of input/output overrides) so that the grid system can handle input/output files correctly.

This function should return the same value when called multiple times. This is especially important when taking the input/output overrides from Environment as they get consumed when obtained so the finalized list of output files should be stored for subsequent calls.

Reimplemented in RootInputModule, StorageRootOutputModule, and RootOutputModule.

Definition at line 134 of file Module.h.

135 {
136 return std::vector<std::string>();
137 }

◆ getLogConfig()

LogConfig & getLogConfig ( )
inlineinherited

Returns the log system configuration.

Definition at line 225 of file Module.h.

225{return m_logConfig;}

◆ getModules()

std::list< ModulePtr > getModules ( ) const
inlineoverrideprivatevirtualinherited

no submodules, return empty list

Implements PathElement.

Definition at line 506 of file Module.h.

506{ return std::list<ModulePtr>(); }

◆ getName()

const std::string & getName ( ) const
inlineinherited

Returns the name of the module.

This can be changed via e.g. set_name() in the steering file to give more useful names if there is more than one module of the same type.

For identifying the type of a module, using getType() (or type() in Python) is recommended.

Definition at line 187 of file Module.h.

187{return m_name;}
std::string m_name
The name of the module, saved as a string (user-modifiable)
Definition: Module.h:508

◆ getPackage()

const std::string & getPackage ( ) const
inlineinherited

Returns the package this module is in.

Definition at line 197 of file Module.h.

197{return m_package;}

◆ getParamInfoListPython()

std::shared_ptr< boost::python::list > getParamInfoListPython ( ) const
inherited

Returns a python list of all parameters.

Each item in the list consists of the name of the parameter, a string describing its type, a python list of all default values and the description of the parameter.

Returns
A python list containing the parameters of this parameter list.

Definition at line 279 of file Module.cc.

280{
282}
std::shared_ptr< boost::python::list > getParamInfoListPython() const
Returns a python list of all parameters.
ModuleParamList m_moduleParamList
List storing and managing all parameter of the module.
Definition: Module.h:516

◆ getParamList()

const ModuleParamList & getParamList ( ) const
inlineinherited

Return module param list.

Definition at line 363 of file Module.h.

363{ return m_moduleParamList; }

◆ getPathString()

std::string getPathString ( ) const
overrideprivatevirtualinherited

return the module name.

Implements PathElement.

Definition at line 192 of file Module.cc.

193{
194
195 std::string output = getName();
196
197 for (const auto& condition : m_conditions) {
198 output += condition.getString();
199 }
200
201 return output;
202}

◆ getReturnValue()

int getReturnValue ( ) const
inlineinherited

Return the return value set by this module.

This value is only meaningful if hasReturnValue() is true

Definition at line 381 of file Module.h.

381{ return m_returnValue; }

◆ getType()

const std::string & getType ( ) const
inherited

Returns the type of the module (i.e.

class name minus 'Module')

Definition at line 41 of file Module.cc.

42{
43 if (m_type.empty())
44 B2FATAL("Module type not set for " << getName());
45 return m_type;
46}
std::string m_type
The type of the module, saved as a string.
Definition: Module.h:509

◆ hasCondition()

bool hasCondition ( ) const
inlineinherited

Returns true if at least one condition was set for the module.

Definition at line 311 of file Module.h.

311{ return not m_conditions.empty(); };

◆ hasProperties()

bool hasProperties ( unsigned int  propertyFlags) const
inherited

Returns true if all specified property flags are available in this module.

Parameters
propertyFlagsOred EModulePropFlags which should be compared with the module flags.

Definition at line 160 of file Module.cc.

161{
162 return (propertyFlags & m_propertyFlags) == propertyFlags;
163}

◆ hasReturnValue()

bool hasReturnValue ( ) const
inlineinherited

Return true if this module has a valid return value set.

Definition at line 378 of file Module.h.

378{ return m_hasReturnValue; }

◆ hasUnsetForcedParams()

bool hasUnsetForcedParams ( ) const
inherited

Returns true and prints error message if the module has unset parameters which the user has to set in the steering file.

Definition at line 166 of file Module.cc.

167{
169 std::string allMissing = "";
170 for (const auto& s : missing)
171 allMissing += s + " ";
172 if (!missing.empty())
173 B2ERROR("The following required parameters of Module '" << getName() << "' were not specified: " << allMissing <<
174 "\nPlease add them to your steering file.");
175 return !missing.empty();
176}
std::vector< std::string > getUnsetForcedParams() const
Returns list of unset parameters (if they are required to have a value.

◆ if_false()

void if_false ( const std::shared_ptr< Path > &  path,
EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End 
)
inherited

A simplified version to add a condition to the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

It is equivalent to the if_value() method, using the expression "<1". This method is meant to be used together with the setReturnValue(bool value) method.

Parameters
pathShared pointer to the Path which will be executed if the return value is false.
afterConditionPathWhat to do after executing 'path'.

Definition at line 85 of file Module.cc.

86{
87 if_value("<1", path, afterConditionPath);
88}

◆ if_true()

void if_true ( const std::shared_ptr< Path > &  path,
EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End 
)
inherited

A simplified version to set the condition of the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

It is equivalent to the if_value() method, using the expression ">=1". This method is meant to be used together with the setReturnValue(bool value) method.

Parameters
pathShared pointer to the Path which will be executed if the return value is true.
afterConditionPathWhat to do after executing 'path'.

Definition at line 90 of file Module.cc.

91{
92 if_value(">=1", path, afterConditionPath);
93}

◆ if_value()

void if_value ( const std::string &  expression,
const std::shared_ptr< Path > &  path,
EAfterConditionPath  afterConditionPath = EAfterConditionPath::c_End 
)
inherited

Add a condition to the module.

Please note that successive calls of this function will add more than one condition to the module. If more than one condition results in true, only the last of them will be used.

See https://xwiki.desy.de/xwiki/rest/p/a94f2 or ModuleCondition for a description of the syntax.

Please be careful: Avoid creating cyclic paths, e.g. by linking a condition to a path which is processed before the path where this module is located in.

Parameters
expressionThe expression of the condition.
pathShared pointer to the Path which will be executed if the condition is evaluated to true.
afterConditionPathWhat to do after executing 'path'.

Definition at line 79 of file Module.cc.

80{
81 m_conditions.emplace_back(expression, path, afterConditionPath);
82}

◆ initialize()

void initialize ( void  )
overridevirtual

initialize

Reimplemented from Module.

Definition at line 61 of file eclPackerModule.cc.

62{
63 // require input data
64 m_eclDigits.isRequired();
65 m_eclDsps.isOptional();
66
67 // register output container in data store
68 m_eclRawCOPPERs.registerInDataStore(m_eclRawCOPPERsName);
69
70 B2INFO("ECL Packer: Compress mode = " << m_compressMode);
71}

◆ resetBuffPosition()

void resetBuffPosition ( )
private

reset current position in the buffer

Definition at line 433 of file eclPackerModule.cc.

434{
435 m_bufPos = 0;
436 m_bitPos = 0;
437}

◆ setAbortLevel()

void setAbortLevel ( int  abortLevel)
inherited

Configure the abort log level.

Definition at line 67 of file Module.cc.

68{
69 m_logConfig.setAbortLevel(static_cast<LogConfig::ELogLevel>(abortLevel));
70}
ELogLevel
Definition of the supported log levels.
Definition: LogConfig.h:26
void setAbortLevel(ELogLevel abortLevel)
Configure the abort level.
Definition: LogConfig.h:112

◆ setBuffLength()

void setBuffLength ( int  bufLength)
private

set buffer length

Definition at line 428 of file eclPackerModule.cc.

429{
430 m_bufLength = bufLength;
431}

◆ setDebugLevel()

void setDebugLevel ( int  debugLevel)
inherited

Configure the debug messaging level.

Definition at line 61 of file Module.cc.

62{
63 m_logConfig.setDebugLevel(debugLevel);
64}
void setDebugLevel(int debugLevel)
Configure the debug messaging level.
Definition: LogConfig.h:98

◆ setDescription()

void setDescription ( const std::string &  description)
protectedinherited

Sets the description of the module.

Parameters
descriptionA description of the module.

Definition at line 214 of file Module.cc.

215{
216 m_description = description;
217}

◆ setLogConfig()

void setLogConfig ( const LogConfig logConfig)
inlineinherited

Set the log system configuration.

Definition at line 230 of file Module.h.

230{m_logConfig = logConfig;}

◆ setLogInfo()

void setLogInfo ( int  logLevel,
unsigned int  logInfo 
)
inherited

Configure the printed log information for the given level.

Parameters
logLevelThe log level (one of LogConfig::ELogLevel)
logInfoWhat kind of info should be printed? ORed combination of LogConfig::ELogInfo flags.

Definition at line 73 of file Module.cc.

74{
75 m_logConfig.setLogInfo(static_cast<LogConfig::ELogLevel>(logLevel), logInfo);
76}
void setLogInfo(ELogLevel logLevel, unsigned int logInfo)
Configure the printed log information for the given level.
Definition: LogConfig.h:127

◆ setLogLevel()

void setLogLevel ( int  logLevel)
inherited

Configure the log level.

Definition at line 55 of file Module.cc.

56{
57 m_logConfig.setLogLevel(static_cast<LogConfig::ELogLevel>(logLevel));
58}
void setLogLevel(ELogLevel logLevel)
Configure the log level.
Definition: LogConfig.cc:25

◆ setName()

void setName ( const std::string &  name)
inlineinherited

Set the name of the module.

Note
The module name is set when using the REG_MODULE macro, but the module can be renamed before calling process() using the set_name() function in your steering file.
Parameters
nameThe name of the module

Definition at line 214 of file Module.h.

214{ m_name = name; };

◆ setParamList()

void setParamList ( const ModuleParamList params)
inlineprotectedinherited

Replace existing parameter list.

Definition at line 501 of file Module.h.

501{ m_moduleParamList = params; }

◆ setParamPython()

void setParamPython ( const std::string &  name,
const boost::python::object &  pyObj 
)
privateinherited

Implements a method for setting boost::python objects.

The method supports the following types: list, dict, int, double, string, bool The conversion of the python object to the C++ type and the final storage of the parameter value is done in the ModuleParam class.

Parameters
nameThe unique name of the parameter.
pyObjThe object which should be converted and stored as the parameter value.

Definition at line 234 of file Module.cc.

235{
236 LogSystem& logSystem = LogSystem::Instance();
237 logSystem.updateModule(&(getLogConfig()), getName());
238 try {
240 } catch (std::runtime_error& e) {
241 throw std::runtime_error("Cannot set parameter '" + name + "' for module '"
242 + m_name + "': " + e.what());
243 }
244
245 logSystem.updateModule(nullptr);
246}
Class for logging debug, info and error messages.
Definition: LogSystem.h:46
void updateModule(const LogConfig *moduleLogConfig=nullptr, const std::string &moduleName="")
Sets the log configuration to the given module log configuration and sets the module name This method...
Definition: LogSystem.h:191
static LogSystem & Instance()
Static method to get a reference to the LogSystem instance.
Definition: LogSystem.cc:31
void setParamPython(const std::string &name, const PythonObject &pyObj)
Implements a method for setting boost::python objects.

◆ setParamPythonDict()

void setParamPythonDict ( const boost::python::dict &  dictionary)
privateinherited

Implements a method for reading the parameter values from a boost::python dictionary.

The key of the dictionary has to be the name of the parameter and the value has to be of one of the supported parameter types.

Parameters
dictionaryThe python dictionary from which the parameter values are read.

Definition at line 249 of file Module.cc.

250{
251
252 LogSystem& logSystem = LogSystem::Instance();
253 logSystem.updateModule(&(getLogConfig()), getName());
254
255 boost::python::list dictKeys = dictionary.keys();
256 int nKey = boost::python::len(dictKeys);
257
258 //Loop over all keys in the dictionary
259 for (int iKey = 0; iKey < nKey; ++iKey) {
260 boost::python::object currKey = dictKeys[iKey];
261 boost::python::extract<std::string> keyProxy(currKey);
262
263 if (keyProxy.check()) {
264 const boost::python::object& currValue = dictionary[currKey];
265 setParamPython(keyProxy, currValue);
266 } else {
267 B2ERROR("Setting the module parameters from a python dictionary: invalid key in dictionary!");
268 }
269 }
270
271 logSystem.updateModule(nullptr);
272}
void setParamPython(const std::string &name, const boost::python::object &pyObj)
Implements a method for setting boost::python objects.
Definition: Module.cc:234

◆ setPropertyFlags()

void setPropertyFlags ( unsigned int  propertyFlags)
inherited

Sets the flags for the module properties.

Parameters
propertyFlagsbitwise OR of EModulePropFlags

Definition at line 208 of file Module.cc.

209{
210 m_propertyFlags = propertyFlags;
211}

◆ setReturnValue() [1/2]

void setReturnValue ( bool  value)
protectedinherited

Sets the return value for this module as bool.

The bool value is saved as an integer with the convention 1 meaning true and 0 meaning false. The value can be used in the steering file to divide the analysis chain into several paths.

Parameters
valueThe value of the return value.

Definition at line 227 of file Module.cc.

228{
229 m_hasReturnValue = true;
230 m_returnValue = value;
231}

◆ setReturnValue() [2/2]

void setReturnValue ( int  value)
protectedinherited

Sets the return value for this module as integer.

The value can be used in the steering file to divide the analysis chain into several paths.

Parameters
valueThe value of the return value.

Definition at line 220 of file Module.cc.

221{
222 m_hasReturnValue = true;
223 m_returnValue = value;
224}

◆ setType()

void setType ( const std::string &  type)
protectedinherited

Set the module type.

Only for use by internal modules (which don't use the normal REG_MODULE mechanism).

Definition at line 48 of file Module.cc.

49{
50 if (!m_type.empty())
51 B2FATAL("Trying to change module type from " << m_type << " is not allowed, the value is assumed to be fixed.");
52 m_type = type;
53}

◆ terminate()

void terminate ( void  )
overridevirtual

terminate

Reimplemented from Module.

Definition at line 424 of file eclPackerModule.cc.

425{
426}

◆ writeNBits()

void writeNBits ( unsigned int *  buff,
unsigned int  value,
unsigned int  bitsToWrite 
)
private

write N bits to the collector buffer

Definition at line 439 of file eclPackerModule.cc.

440{
441 if (!bitsToWrite) return;
442
443 if (bitsToWrite > sizeof(value) * 8) {
444 B2ERROR("Error compressing ADC samples: tying to write too long word");
445 throw Write_adc_samples_error();
446 }
447
448 if (m_bitPos + bitsToWrite > 32) {
449 if (m_bufPos == m_bufLength) {
450 B2ERROR("Error compressing ADC samples: unexpectedly reach end of buffer");
451 throw Write_adc_samples_error();
452 } else {
453 unsigned tmpval = (1 << m_bitPos) - 1;
454 buff[m_bufPos] &= tmpval;
455 buff[m_bufPos] += value << m_bitPos;
456 m_bufPos++;
457 buff[m_bufPos] = value >> (32 - m_bitPos);
458 m_bitPos += bitsToWrite;
459 m_bitPos -= 32;
460 }
461 } else {
462 unsigned tmpval = (1 << m_bitPos) - 1;
463 buff[m_bufPos] &= tmpval;
464 buff[m_bufPos] += value << m_bitPos;
465 m_bitPos += bitsToWrite;
466 if (m_bitPos == 32) {
467 m_bufPos++;
468 m_bitPos -= 32;
469 }
470 }
471
472}

Member Data Documentation

◆ adcBuffer_temp

unsigned int adcBuffer_temp[static_cast< int >(ECL::ECL_CHANNELS_IN_SHAPER) *static_cast< int >(ECL_ADC_SAMPLES_PER_CHANNEL)]
private

temporary buffer to store ADC data

Definition at line 100 of file eclPackerModule.h.

◆ collectorMaskArray

int collectorMaskArray[ECL::ECL_CRATES]
private

array of triggered collectors

Definition at line 104 of file eclPackerModule.h.

◆ iEclDigIndices

int iEclDigIndices[ECL::ECL_TOTAL_CHANNELS]
private

indexes of related eclDigits

Definition at line 115 of file eclPackerModule.h.

◆ iEclWfIndices

int iEclWfIndices[ECL::ECL_TOTAL_CHANNELS]
private

indexes of related waveforms

Definition at line 118 of file eclPackerModule.h.

◆ m_ampThreshold

int m_ampThreshold
private

DSP amplitude threshold.

Definition at line 73 of file eclPackerModule.h.

◆ m_bitPos

int m_bitPos
private

bit position for bit-by-bit data read

Definition at line 70 of file eclPackerModule.h.

◆ m_bufLength

int m_bufLength
private

length data

Definition at line 67 of file eclPackerModule.h.

◆ m_bufPos

int m_bufPos
private

position in the data array

Definition at line 64 of file eclPackerModule.h.

◆ m_compressMode

bool m_compressMode
private

enable/disable compression of waveform data

Definition at line 76 of file eclPackerModule.h.

◆ m_conditions

std::vector<ModuleCondition> m_conditions
privateinherited

Module condition, only non-null if set.

Definition at line 521 of file Module.h.

◆ m_description

std::string m_description
privateinherited

The description of the module.

Definition at line 511 of file Module.h.

◆ m_eclDigits

StoreArray<ECLDigit> m_eclDigits
private

ECLDigit dataStore object.

Definition at line 121 of file eclPackerModule.h.

◆ m_eclDsps

StoreArray<ECLDsp> m_eclDsps
private

ECLDSP dataStore object.

Definition at line 122 of file eclPackerModule.h.

◆ m_eclMapper

ECL::ECLChannelMapper m_eclMapper
private

channel mapper

Definition at line 94 of file eclPackerModule.h.

◆ m_eclMapperInitFileName

std::string m_eclMapperInitFileName
private

name of the file with correspondence between cellID and crate/shaper/channel numbers

Definition at line 88 of file eclPackerModule.h.

◆ m_eclRawCOPPERs

StoreArray<RawECL> m_eclRawCOPPERs
private

Output data

Definition at line 97 of file eclPackerModule.h.

◆ m_eclRawCOPPERsName

std::string m_eclRawCOPPERsName
private

name of output collection for RawCOPPER

Definition at line 85 of file eclPackerModule.h.

◆ m_EclWaveformSamples

int m_EclWaveformSamples[ECL_ADC_SAMPLES_PER_CHANNEL]
private

array of ADC samples

Definition at line 91 of file eclPackerModule.h.

◆ m_eventMetaData

StoreObjPtr<EventMetaData> m_eventMetaData
private

store objptr for EventMetaData

Definition at line 124 of file eclPackerModule.h.

◆ m_EvtNum

int m_EvtNum = 0
private

Event number.

Definition at line 61 of file eclPackerModule.h.

◆ m_hasReturnValue

bool m_hasReturnValue
privateinherited

True, if the return value is set.

Definition at line 518 of file Module.h.

◆ m_logConfig

LogConfig m_logConfig
privateinherited

The log system configuration of the module.

Definition at line 514 of file Module.h.

◆ m_moduleParamList

ModuleParamList m_moduleParamList
privateinherited

List storing and managing all parameter of the module.

Definition at line 516 of file Module.h.

◆ m_name

std::string m_name
privateinherited

The name of the module, saved as a string (user-modifiable)

Definition at line 508 of file Module.h.

◆ m_package

std::string m_package
privateinherited

Package this module is found in (may be empty).

Definition at line 510 of file Module.h.

◆ m_pcie40Data

bool m_pcie40Data
private

true-pack data in PCIe40 format, false-pack data in COPPER format

Definition at line 79 of file eclPackerModule.h.

◆ m_propertyFlags

unsigned int m_propertyFlags
privateinherited

The properties of the module as bitwise or (with |) of EModulePropFlags.

Definition at line 512 of file Module.h.

◆ m_returnValue

int m_returnValue
privateinherited

The return value.

Definition at line 519 of file Module.h.

◆ m_type

std::string m_type
privateinherited

The type of the module, saved as a string.

Definition at line 509 of file Module.h.

◆ m_WaveformRareFactor

int m_WaveformRareFactor
private

the rate of writing of the ADC samples

Definition at line 82 of file eclPackerModule.h.

◆ shaperADCMaskArray

int shaperADCMaskArray[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
private

shapers with ADC data

Definition at line 108 of file eclPackerModule.h.

◆ shaperMaskArray

int shaperMaskArray[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
private

triggered shapers

Definition at line 106 of file eclPackerModule.h.

◆ shaperNHits

int shaperNHits[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
private

Number of hits per shaper.

Definition at line 112 of file eclPackerModule.h.

◆ shaperNWaveform

int shaperNWaveform[ECL::ECL_CRATES][ECL::ECL_BARREL_SHAPERS_IN_CRATE]
private

Number of waveforms per shaper.

Definition at line 110 of file eclPackerModule.h.


The documentation for this class was generated from the following files: