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The Xtc package defines several classes.
Class
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Xtc
This is class defines a base class for any source of information in the xtc file (e.g. Detector, Beamline, Process). Defined in pdsdata/xtc/Src.hhcontainer for data stored in an xtc file. An event is a collection of such containers. The size and location of the unspecified data contained are defined by the "sizeofPayload" and "payload" functions. To iterate over a set of such containers see "XtcIterator.hh".
Public Member Functions:
Constructors:
| Code Block |
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// Constructors
Src();Constructor used to create an empty, unlabeled
SrcXtc(Level::Type level)) : damage(0), extent(0) {};
uint32_t log() const; // logical identifier// Copy constructor, will copy everything, but NOT the payload.
uint32_t phy() const;Xtc(const Xtc& xtc) :
// physical identifier
Level::Type level() const; damage(xtc.damage), src(xtc.src), contains(xtc.contains), extent(sizeof(Xtc)) {}
// level
bool operator==Xtc(const SrcTypeId& stype) const;
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Protected Attributes
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: uint32_t _log; // logical identifier uint32_t _phy; // physical identifier |
Class BldInfo
Beamline data Information. This is a derived class that inherits from Src.
Defined in pdsdata/xtc/BldInfo.hh
Public Types:
| Code Block |
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enum Type { EBeam = 0, PhaseCavity = 1, FEEGasDetEnergy = 2, NumberOf = 3 };
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Public Member Functions
- Constructors and Destructor
Code Block BldInfo() {} BldInfo(uint32_t processId, Type type); - Accessors
Code Block uint32_t processId() const; Type type() const;
Static Public Member Functions
| Code Block |
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static const char* name(const BldInfo&);
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Class ProcInfo
Process information class. This is a derived class that inherits from Src.
Holds process info for all Levels except Source.
Public Member Functions:
| Code Block |
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// Constructor
ProcInfo(Level::Type level, //
uint32_t processId, //
uint32_t ipAddr); //
uint32_t processId() const;
uint32_t ipAddr() const;
void ipAddr(int);
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Class DetInfo
Detector information. Inherits from Src. Defined in pdsdata/xtc/DetInfo.hh and implemented in pdsdata/xtc/src/DetInfo.cc.
Public Types:
| Code Block |
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enum Detector {
NoDetector = 0,
AmoIms = 1, // AMO Ion Momentum Spectrometer
AmoGasdet = 2, // AMO Gas Detector (in FrontEnd Enclosure)
AmoETof = 3, // AMO Electron Time-of-flight
AmoITof = 4, // AMO Ion Time-of-flight
AmoMbes = 5, // AMO Magnetic bottle electron spectrometer
AmoVmi = 6, // AMO Velocity map imaging
AmoBps = 7, // AMO Beam position screen
Camp = 8, // CFel-ASG-Multi-Purpose EndStation
EpicsArch = 9, //
BldEb = 10,
SxrBeamline = 11,
SxrEndstation = 12,
XppSb1Ipm = 13,
XppSb1Pim = 14,
XppMonPim = 15,
XppSb2Ipm = 16,
XppSb3Ipm = 17,
XppSb3Pim = 18,
XppSb4Pim = 19,
XppGon = 20,
XppLas = 21,
XppEndstation = 22,
AmoEndstation = 23,
CxiEndstation = 24,
XcsEndstation = 25,
MecEndstation = 26,
NumDetector = 27
};
enum Device {
NoDevice = 0,
Evr = 1,
Acqiris = 2,
Opal1000 = 3,
TM6740 = 4,
pnCCD = 5,
Princeton = 6,
Fccd = 7,
Ipimb = 8,
Encoder = 9,
Cspad = 10,
NumDevice = 11
};
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Public Member Functions
| Code Block |
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// Constructors
DetInfo() {}
DetInfo(uint32_t processId, //
Detector det, //
uint32_t detId, //
Device dev, //
uint32_t devId); //
bool operator==(const DetInfo &) const;
uint32_t processId() const;
Detector detector() const;
Device device() const;
uint32_t detId() const;
uint32_t devId() const;
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Static Public Member Functions
| Code Block |
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static const char *name(Detector);
static const char *name(Device);
static const char *name(const DetInfo &);
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Class ClockTime
Defined in pdsdata/xtc/ClockTime.hh.
Public Member Functions:
- Constructors (ClockTime has no destructor)
Code Block ClockTime(); ClockTime(const ClockTime& t); ClockTime(unsigned sec, unsigned nsec); - Accessors:
Code Block unsigned seconds () const {return _high;} unsigned nanoseconds() const {return _low;} - Operators
Code Block ClockTime& operator=(const ClockTime&); bool operator> (const ClockTime&) const; bool operator==(const ClockTime&) const;
Class Damage
Defined in pdsdata/xtc/Damage.hh, inline implementation.
Public Types:
| Code Block |
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enum Value {
DroppedContribution = 1,
OutOfOrder = 12,
OutOfSynch = 13,
UserDefined = 14,
IncompleteContribution = 15,
ContainsIncomplete = 16
};
// reserve the top byte to augment user defined errors
enum {NotUserBitsMask=0x00FFFFFF, UserBitsShift = 24};
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Public Member Functions:
| Code Block |
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// Constructor
Damage(uint32_t v) : _damage(v) {}
uint32_t value() const { return _damage; }
void increase(Damage::Value v) { _damage |= ((1<<v) & NotUserBitsMask); }
void increase(uint32_t v) { _damage |= v & NotUserBitsMask; }
uint32_t bits() const { return _damage & NotUserBitsMask;}
uint32_t userBits() const { return _damage >> UserBitsShift; }
void userBits(uint32_t v) {
_damage &= NotUserBitsMask;
_damage |= (v << UserBitsShift);
}
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Class Dgram
Datagram - structure of a piece of information within the xtc file.
Public Attributes:
| Code Block |
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PDS_DGRAM_STRUCT // #define PDS_DGRAM_STRUCT Sequence seq; Env env; Xtc xtc
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Class Sequence
Defined in pdsdata/xtc/Sequence.hh.
Public Types:
| Code Block |
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enum Type {Event = 0, Occurrence = 1, Marker = 2};
enum {NumberOfTypes = 3};
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Public Member Functions:
| Code Block |
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// Constructors
Sequence() {}
Sequence(const Sequence&);
Sequence(const ClockTime& clock, const TimeStamp& stamp);
Sequence(Type, TransitionId::Value, const ClockTime&, const TimeStamp&);
Type type() const;
TransitionId::Value service() const;
bool isExtended() const;
bool isEvent() const;
const ClockTime& clock() const {return _clock;}
const TimeStamp& stamp() const {return _stamp;}
Sequence& operator=(const Sequence&);
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Class Env
Defined in pdsdata/xtc/Env.hh
Public Member Functions
| Code Block |
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// Constructors
Env() {}
Env(const Env& in) : _env(in._env) {}
Env(uint32_t env);
uint32_t value() const;
const Env& operator=(const Env& that);
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Class Level
Defined in pdsdata/xtc/Level.hh
Public Types:
| Code Block |
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enum Type{Control, Source, Segment, Event, Recorder, Observer, Reporter,
NumberOfLevels};
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Static Public Member Functions
| Code Block |
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static const char* name(Type type);
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Class TimeStamp
Public Types:
| Code Block |
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enum {NumFiducialBits = 17};
enum {MaxFiducials = (1<<17)-32};
enum {ErrFiducial = (1<<17)-1};
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Public Member Functions:
| Code Block |
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TimeStamp();
TimeStamp(const TimeStamp&);
TimeStamp(const TimeStamp&, unsigned control);
TimeStamp(unsigned ticks, unsigned fiducials, unsigned vector, unsigned control=0);
unsigned ticks () const;
unsigned fiducials() const;
unsigned control () const;
unsigned vector () const;
TimeStamp& operator= (const TimeStamp&);
bool operator==(const TimeStamp&) const;
bool operator>=(const TimeStamp&) const;
bool operator<=(const TimeStamp&) const;
bool operator< (const TimeStamp&) const;
bool operator> (const TimeStamp&) const;
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Class TransitionId
Public Types:
| Code Block |
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enum Value {
Unknown, Reset,
Map, Unmap,
Configure, Unconfigure,
BeginRun, EndRun,
BeginCalibCycle, EndCalibCycle,
Enable, Disable,
L1Accept,
NumberOf };
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Static Public Member Functions:
| Code Block |
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static const char* name(TransitionId::Value id);
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Class TypeId
Public Types:
| Code Block |
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enum Type {
Any,
Id_Xtc, // generic hierarchical container
Id_Frame, // raw image
Id_AcqWaveform,
Id_AcqConfig,
Id_TwoDGaussian, // 2-D Gaussian + covariances
Id_Opal1kConfig,
Id_FrameFexConfig,
Id_EvrConfig,
Id_TM6740Config,
Id_ControlConfig,
Id_pnCCDframe,
Id_pnCCDconfig,
Id_Epics, // Epics Data Type
Id_FEEGasDetEnergy,
Id_EBeam,
Id_PhaseCavity,
Id_PrincetonFrame,
Id_PrincetonConfig,
Id_EvrData,
Id_FrameFccdConfig,
Id_FccdConfig,
Id_IpimbData,
Id_IpimbConfig,
Id_EncoderData,
Id_EncoderConfig,
Id_EvrIOConfig,
Id_PrincetonInfo,
Id_CspadElement,
Id_CspadConfig,
Id_IpmFexConfig, // LUSI Diagnostics
Id_IpmFex,
Id_DiodeFexConfig,
Id_DiodeFex,
Id_PimImageConfig,
NumberOf};
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Public Member Functions:
| Code Block |
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TypeId() {}
TypeId(const TypeId& v);
TypeId(Type type, uint32_t version);
Type id() const;
uint32_t version() const;
uint32_t value() const;
static const char* name(Type type);
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Class XtcFileIterator
Public Member Functions:
| Code Block |
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// Constructor and destructor
XtcFileIterator(int fd, size_t maxDgramSize);
~XtcFileIterator();
Dgram* next();
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Class Xtc
This class is not used by any other classes in the xtc package.
But it is used by some applications in the app package.
| Code Block |
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Xtc() : damage(0), extent(0) {};
Xtc(const Xtc& xtc) :
damage(xtc.damage), src(xtc.src), contains(xtc.contains), extent(sizeof(Xtc)) {}
Xtc(const TypeId& type) :
damage(0), contains(type), extent(sizeof(Xtc)) {}
Xtc(const TypeId& type, const Src& _src) :
damage(0), src(_src), contains(type), extent(sizeof(Xtc)) {}
Xtc(const TypeId& _tag, const Src& _src, unsigned _damage) :
damage(_damage), src(_src), contains(_tag), extent(sizeof(Xtc)) {}
Xtc(const TypeId& _tag, const Src& _src, const Damage& _damage) : damage(_damage), src(_src), contains(_tag), extent(sizeof(Xtc)) {}
void* operator new(size_t size, char* p) { return (void*)p; }
void* operator new(size_t size, Xtc* p) { return p->alloc(size); }
char* payload() const { return (char*)(this+1); }
int sizeofPayload() const { return extent - sizeof(Xtc); }
Xtc* next() { return (Xtc*)((char*)this+extent); }
const Xtc* next() const { return (const Xtc*)((char*)this+extent); }
void* alloc(uint32_t size) { void* buffer = next(); extent += size; return buffer; }
Damage damage;
Src src;
TypeId contains;
uint32_t extent;
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Class XtcIterator
This is an abstract class.
This class is not used by any other classes in the xtc package.
But it is used by some applications in the app package.
This class allows iteration over a collection of "Xtc" objects. An "event" generated from DataFlow consists of data described by a collection of "Xtc" objects. Therefore, this class is instrumental in the navigation of an event's data. The set of "Xtc"s is determined by passing (typically to the constructor) a root "Xtc" which describes the collection of "Xtc"s to process. This root, for example is provided by an event's datagram. As this is an Abstract-Base-Class, it is expected that an application will subclass from this class, providing an implementation of the "process" method. This method will be called back for each "Xtc" in the collection. Note that the "Xtc" to process is passed as an argument. If the "process" method wishes to abort the iteration a zero (0) value is returned. The iteration is initiated by calling the "iterate" member function.
Public Member Functions:
Constructors and destructor:
| Code Block |
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XtcIterator(Xtc* root);
XtcIterator() {}
virtual ~XtcIterator() {}
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The first constructor takes an argument the "Xtc" which defines the collection to iterate over.
| Code Block |
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virtual int process(Xtc* xtc) = 0;
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This function is pure virtual and must be implemented by all derived classes.
| Code Block |
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void iterate();
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This function commences iteration over the collection specified by the constructor.
| Code Block |
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void iterate(Xtc*);
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Iterate over the collection specifed as an argument to the function. For each "Xtc" found call back the "process" function. If the "process" function returns zero (0) the iteration is aborted and control is returned to the caller. Otherwise, control is returned when all elements of the collection have been scanned.
| Code Block |
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const Xtc* root() const;
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...
damage(0), contains(type), extent(sizeof(Xtc)) {}
Xtc(const TypeId& type, const Src& _src) :
damage(0), src(_src), contains(type), extent(sizeof(Xtc)) {}
Xtc(const TypeId& _tag, const Src& _src, unsigned _damage) :
damage(_damage), src(_src), contains(_tag), extent(sizeof(Xtc)) {}
Xtc(const TypeId& _tag, const Src& _src, const Damage& _damage) :
damage(_damage), src(_src), contains(_tag), extent(sizeof(Xtc)) {}
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Overloaded allocation operators to allow the insertion of a dummy "Xtc" within a datagram.
| Code Block |
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void* operator new(size_t size, char* p) { return (void*)p; }
void* operator new(size_t size, Xtc* p) { return p->alloc(size); }
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| Code Block |
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// Return a pointer (of unspecified type) to the payload associated with this class
char* payload() const { return (char*)(this+1); }
// Return the size (in bytes) of the payload associated with the class.
int sizeofPayload() const { return extent - sizeof(Xtc); }
// Return the Xtc which is immediately following an object of this class.
Xtc* next() { return (Xtc*)((char*)this+extent); }
const Xtc* next() const { return (const Xtc*)((char*)this+extent); }
void* alloc(uint32_t size) { void* buffer = next(); extent += size; return buffer; }
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Public Attributes:
| Code Block |
|---|
Damage damage;
Src src;
TypeId contains;
uint32_t extent;
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Class XtcIterator
This is an abstract class.
This class allows iteration over a collection of "Xtc" objects. An "event" generated from DataFlow consists of data described by a collection of "Xtc" objects. Therefore, this class is instrumental in the navigation of an event's data. The set of "Xtc"s is determined by passing (typically to the constructor) a root "Xtc" which describes the collection of "Xtc"s to process. This root, for example is provided by an event's datagram. As this is an Abstract-Base-Class, it is expected that an application will subclass from this class, providing an implementation of the "process" method. This method will be called back for each "Xtc" in the collection. Note that the "Xtc" to process is passed as an argument. If the "process" method wishes to abort the iteration a zero (0) value is returned. The iteration is initiated by calling the "iterate" member function.
Public Member Functions:
Constructors and destructor:
| Code Block |
|---|
XtcIterator(Xtc* root);
XtcIterator() {}
virtual ~XtcIterator() {}
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The first constructor takes an argument the "Xtc" which defines the collection to iterate over.
| Code Block |
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virtual int process(Xtc* xtc) = 0;
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This function is pure virtual and must be implemented by all derived classes.
| Code Block |
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void iterate();
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This function commences iteration over the collection specified by the constructor.
| Code Block |
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void iterate(Xtc*);
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Iterate over the collection specifed as an argument to the function. For each "Xtc" found call back the "process" function. If the "process" function returns zero (0) the iteration is aborted and control is returned to the caller. Otherwise, control is returned when all elements of the collection have been scanned.
| Code Block |
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const Xtc* root() const;
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This function returns the collection specified by the constructor.
Class Src
This is a base class for any source of information in the xtc file (e.g. Detector, Beamline, Process). Defined in pdsdata/xtc/Src.hh
Public Member Functions:
| Code Block |
|---|
// Constructors
Src();
Src(Level::Type level);
uint32_t log() const; // logical identifier
uint32_t phy() const; // physical identifier
Level::Type level() const; // level
bool operator==(const Src& s) const;
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Protected Attributes
| Code Block |
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uint32_t _log; // logical identifier
uint32_t _phy; // physical identifier
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Class BldInfo
Beamline data Information. This is a derived class that inherits from Src.
Defined in pdsdata/xtc/BldInfo.hh
Public Types:
| Code Block |
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enum Type { EBeam = 0, PhaseCavity = 1, FEEGasDetEnergy = 2, NumberOf = 3 };
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Public Member Functions
- Constructors and Destructor
Code Block BldInfo() {} BldInfo(uint32_t processId, Type type); - Accessors
Code Block uint32_t processId() const; Type type() const;
Static Public Member Functions
| Code Block |
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static const char* name(const BldInfo&);
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Class ProcInfo
Process information class. This is a derived class that inherits from Src.
Holds process info for all Levels except Source.
Public Member Functions:
| Code Block |
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// Constructor
ProcInfo(Level::Type level, //
uint32_t processId, //
uint32_t ipAddr); //
uint32_t processId() const;
uint32_t ipAddr() const;
void ipAddr(int);
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Class DetInfo
Detector information. Inherits from Src. Defined in pdsdata/xtc/DetInfo.hh and implemented in pdsdata/xtc/src/DetInfo.cc.
Public Types:
| Code Block |
|---|
enum Detector {
NoDetector = 0,
AmoIms = 1, // AMO Ion Momentum Spectrometer
AmoGasdet = 2, // AMO Gas Detector (in FrontEnd Enclosure)
AmoETof = 3, // AMO Electron Time-of-flight
AmoITof = 4, // AMO Ion Time-of-flight
AmoMbes = 5, // AMO Magnetic bottle electron spectrometer
AmoVmi = 6, // AMO Velocity map imaging
AmoBps = 7, // AMO Beam position screen
Camp = 8, // CFel-ASG-Multi-Purpose EndStation
EpicsArch = 9, //
BldEb = 10,
SxrBeamline = 11,
SxrEndstation = 12,
XppSb1Ipm = 13,
XppSb1Pim = 14,
XppMonPim = 15,
XppSb2Ipm = 16,
XppSb3Ipm = 17,
XppSb3Pim = 18,
XppSb4Pim = 19,
XppGon = 20,
XppLas = 21,
XppEndstation = 22,
AmoEndstation = 23,
CxiEndstation = 24,
XcsEndstation = 25,
MecEndstation = 26,
NumDetector = 27
};
enum Device {
NoDevice = 0,
Evr = 1,
Acqiris = 2,
Opal1000 = 3,
TM6740 = 4,
pnCCD = 5,
Princeton = 6,
Fccd = 7,
Ipimb = 8,
Encoder = 9,
Cspad = 10,
NumDevice = 11
};
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Public Member Functions
| Code Block |
|---|
// Constructors
DetInfo() {}
DetInfo(uint32_t processId, //
Detector det, //
uint32_t detId, //
Device dev, //
uint32_t devId); //
bool operator==(const DetInfo &) const;
uint32_t processId() const;
Detector detector() const;
Device device() const;
uint32_t detId() const;
uint32_t devId() const;
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Static Public Member Functions
| Code Block |
|---|
static const char *name(Detector);
static const char *name(Device);
static const char *name(const DetInfo &);
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Class ClockTime
Defined in pdsdata/xtc/ClockTime.hh.
Public Member Functions:
- Constructors (ClockTime has no destructor)
Code Block ClockTime(); ClockTime(const ClockTime& t); ClockTime(unsigned sec, unsigned nsec); - Accessors:
Code Block unsigned seconds () const {return _high;} unsigned nanoseconds() const {return _low;} - Operators
Code Block ClockTime& operator=(const ClockTime&); bool operator> (const ClockTime&) const; bool operator==(const ClockTime&) const;
Class Damage
Defined in pdsdata/xtc/Damage.hh, inline implementation.
Public Types:
| Code Block |
|---|
enum Value {
DroppedContribution = 1,
OutOfOrder = 12,
OutOfSynch = 13,
UserDefined = 14,
IncompleteContribution = 15,
ContainsIncomplete = 16
};
// reserve the top byte to augment user defined errors
enum {NotUserBitsMask=0x00FFFFFF, UserBitsShift = 24};
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Public Member Functions:
| Code Block |
|---|
// Constructor
Damage(uint32_t v) : _damage(v) {}
uint32_t value() const { return _damage; }
void increase(Damage::Value v) { _damage |= ((1<<v) & NotUserBitsMask); }
void increase(uint32_t v) { _damage |= v & NotUserBitsMask; }
uint32_t bits() const { return _damage & NotUserBitsMask;}
uint32_t userBits() const { return _damage >> UserBitsShift; }
void userBits(uint32_t v) {
_damage &= NotUserBitsMask;
_damage |= (v << UserBitsShift);
}
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Class Dgram
Datagram - structure of a piece of information within the xtc file.
Public Attributes:
| Code Block |
|---|
PDS_DGRAM_STRUCT // #define PDS_DGRAM_STRUCT Sequence seq; Env env; Xtc xtc
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Class Sequence
Defined in pdsdata/xtc/Sequence.hh.
Public Types:
| Code Block |
|---|
enum Type {Event = 0, Occurrence = 1, Marker = 2};
enum {NumberOfTypes = 3};
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Public Member Functions:
| Code Block |
|---|
// Constructors
Sequence() {}
Sequence(const Sequence&);
Sequence(const ClockTime& clock, const TimeStamp& stamp);
Sequence(Type, TransitionId::Value, const ClockTime&, const TimeStamp&);
Type type() const;
TransitionId::Value service() const;
bool isExtended() const;
bool isEvent() const;
const ClockTime& clock() const {return _clock;}
const TimeStamp& stamp() const {return _stamp;}
Sequence& operator=(const Sequence&);
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Class Env
Defined in pdsdata/xtc/Env.hh
Public Member Functions
| Code Block |
|---|
// Constructors
Env() {}
Env(const Env& in) : _env(in._env) {}
Env(uint32_t env);
uint32_t value() const;
const Env& operator=(const Env& that);
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Class Level
Defined in pdsdata/xtc/Level.hh
Public Types:
| Code Block |
|---|
enum Type{Control, Source, Segment, Event, Recorder, Observer, Reporter,
NumberOfLevels};
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Static Public Member Functions
| Code Block |
|---|
static const char* name(Type type);
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Class TimeStamp
Public Types:
| Code Block |
|---|
enum {NumFiducialBits = 17};
enum {MaxFiducials = (1<<17)-32};
enum {ErrFiducial = (1<<17)-1};
|
Public Member Functions:
| Code Block |
|---|
TimeStamp();
TimeStamp(const TimeStamp&);
TimeStamp(const TimeStamp&, unsigned control);
TimeStamp(unsigned ticks, unsigned fiducials, unsigned vector, unsigned control=0);
unsigned ticks () const;
unsigned fiducials() const;
unsigned control () const;
unsigned vector () const;
TimeStamp& operator= (const TimeStamp&);
bool operator==(const TimeStamp&) const;
bool operator>=(const TimeStamp&) const;
bool operator<=(const TimeStamp&) const;
bool operator< (const TimeStamp&) const;
bool operator> (const TimeStamp&) const;
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Class TransitionId
Public Types:
| Code Block |
|---|
enum Value {
Unknown, Reset,
Map, Unmap,
Configure, Unconfigure,
BeginRun, EndRun,
BeginCalibCycle, EndCalibCycle,
Enable, Disable,
L1Accept,
NumberOf };
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Static Public Member Functions:
| Code Block |
|---|
static const char* name(TransitionId::Value id);
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Class TypeId
Public Types:
| Code Block |
|---|
enum Type {
Any,
Id_Xtc, // generic hierarchical container
Id_Frame, // raw image
Id_AcqWaveform,
Id_AcqConfig,
Id_TwoDGaussian, // 2-D Gaussian + covariances
Id_Opal1kConfig,
Id_FrameFexConfig,
Id_EvrConfig,
Id_TM6740Config,
Id_ControlConfig,
Id_pnCCDframe,
Id_pnCCDconfig,
Id_Epics, // Epics Data Type
Id_FEEGasDetEnergy,
Id_EBeam,
Id_PhaseCavity,
Id_PrincetonFrame,
Id_PrincetonConfig,
Id_EvrData,
Id_FrameFccdConfig,
Id_FccdConfig,
Id_IpimbData,
Id_IpimbConfig,
Id_EncoderData,
Id_EncoderConfig,
Id_EvrIOConfig,
Id_PrincetonInfo,
Id_CspadElement,
Id_CspadConfig,
Id_IpmFexConfig, // LUSI Diagnostics
Id_IpmFex,
Id_DiodeFexConfig,
Id_DiodeFex,
Id_PimImageConfig,
NumberOf};
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Public Member Functions:
| Code Block |
|---|
TypeId() {}
TypeId(const TypeId& v);
TypeId(Type type, uint32_t version);
Type id() const;
uint32_t version() const;
uint32_t value() const;
static const char* name(Type type);
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Class XtcFileIterator
Public Member Functions:
| Code Block |
|---|
// Constructor and destructor
XtcFileIterator(int fd, size_t maxDgramSize);
~XtcFileIterator();
Dgram* next();
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