class Packet_emc

class Packet_emc_oldstyle: public Packet_w4

This is the packet which deals with data in PBSC_DCM0 format.

Inheritance:

Public Methods
virtual int iValue(const int channel, const char *what): with the "what" parameter you can decide which aspect of the data is made available.
virtual int iValue(const int channel, const int iy): This gives access to the 5 data words per channel, in case the use wants to look at that raw information.

Inherited from Packet_w4:

Inherited from Packet_A:

Inherited from Packet:

Public Methods
virtual float rValue(const int channel)
virtual float rValue(const int channel, const char * what)
virtual float rValue(const int channel, const int iy)
virtual int getArraylength(const char * what ="")
virtual int fillIntArray(int destination[], const int length, int * nw, const char * what="")
virtual int fillFloatArray(float destination[], const int length, int * nw, const char * what="")
virtual int* getIntArray(int * nw, const char * ="")
virtual float* getFloatArray(int * nw, const char * ="")
virtual int is_pointer_type() const
virtual int convert()
virtual int getLength() const
virtual int getDebugLength() const
virtual int getIdentifier() const
virtual int getPadding() const
virtual int getStructure() const
virtual int getHitFormat() const
virtual int getDataLength() const
virtual voidfullIdentify (std::ostream& os = std::cout) const (ostream & os = cout) const
virtual void dump(std::ostream& os = std::cout)
virtual void gdump(const int how = EVT_HEXADECIMAL, std::ostream& os = std::cout) const

Public

Documentation

This is the packet which deals with data in PBSC_DCM0 format. It inherits from Packet_w4 because the data are 32bit entities.

virtual int iValue(const int channel, const char *what)

with the "what" parameter you can decide which aspect of the data is made available. This class is one of those which have several different "kinds" of data; we use this to bring up the AMU cell information and all the misc. items in the FEM headers and trailers.

The AMU info is available as

 packet->iValue(0,"AMU") AMU cell from timing conversion 
 packet->iValue(1,"AMU") AMU cell from "pre" conversion
 packet->iValue(2,"AMU") AMU cell from "post" conversion

In addition, there is

 packet->iValue(0,"BCLK")     Beam clock value from FEM
 packet->iValue(0,"EVTNR")  The FEM event number
 packet->iValue(0,"MODULE")   The Module ID
 packet->iValue(i,"USERWORD") The USERWORD i, where i is from 0 through 7
 packet->iValue(i,"PARITY")   The longitudinal parity

virtual int iValue(const int channel, const int iy)

This gives access to the 5 data words per channel, in case the use wants to look at that raw information.

We chose to implement the 5 words of information as the two-dimensional interface, so packet->iValue(k,i) gives you the word "i" of channel k, where i is

packet->iValue(k,0) timing tag (TDC)
packet->iValue(k,1) high gain post sample
packet->iValue(k,2) low gain post sample
packet->iValue(k,3) high gain pre sample
packet->iValue(k,4) low gain pre sample

and "k" is the channel number from 0 through 143.

This class has no child classes.

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