The Data Fanout or "dfanout" record is used to forward data to up to eight other records. It's similar to the fanout record except that the capability to forward data has been added to it. If has no associated device support.
The record-specific fields are described below, grouped by functionality.
The data fanout record has the standard fields for specifying under what circumstances it will be processed. These fields are listed in Scan Fields.
The data fanout record must specify where the desired output value originates,
the data which is to be fowarded to the records in its output links.
The output mode select (OMSL) field determines whether the output originates from another record or from run-time database access.
When set to
the desired output is retrieved from the link specified in the desired output (DOL) field,
which can specify either a database or a channel access link,
and placed into the VAL field.
When set to
the desired output can be written to the VAL field via dbPuts at run-time.
The DOL field can also be a constant in which case the VAL field is initialized to the constant value.
Note that there are no conversion parameters, so the desired output value undergoes no conversions before it is sent out to the output links.
Field Summary Type DCT Default Read Write CA PP DOL Desired Output Loc INLINK Yes Yes Yes No OMSL Output Mode Select MENU (menuOmsl) Yes Yes Yes No VAL Desired Output DOUBLE Yes Yes Yes Yes
The OUTA-OUTH fields specify where VAL is to be sent. Each field that is to forward data must specify an address to another record. See "Address Specification" for information on specifying links.
The SELL, SELM, and SELN fields specify which output links are to be used.
SELM is a menu, with three choices:
Index Identifier Choice String 0 dfanoutSELM_All All 1 dfanoutSELM_Specified Specified 2 dfanoutSELM_Mask Mask
If SELM=="All", then all output links are used, and the values of SELL and SELN are ignored.
If SELM=="Specified", then the value of SELN is used to specify a single link which will be used. If SELN==0, then no link will be used; if SELN==1, then OUTA will be used, and so on.
SELN can either have its value set directly, or have its values retrieved from another EPICS PV. If SELL is a valid PV link, then SELN will be set to the values of the linked PV.
If SELM=="Mask", then SELN will be treated as a bit mask. If bit one of SELN is set, then OUTA will be used, if bit two is set, OUTB will be used. Thus if SELN==5, OUTC and OUTA will be used.
Field Summary Type DCT Default Read Write CA PP OUTA Output Spec A OUTLINK Yes Yes Yes No OUTB Output Spec B OUTLINK Yes Yes Yes No OUTC Output Spec C OUTLINK Yes Yes Yes No OUTD Output Spec D OUTLINK Yes Yes Yes No OUTE Output Spec E OUTLINK Yes Yes Yes No OUTF Output Spec F OUTLINK Yes Yes Yes No OUTG Output Spec G OUTLINK Yes Yes Yes No OUTH Output Spec H OUTLINK Yes Yes Yes No
These parameters are used to present meaningful data to the operator. They display the value and other parameters of the data fanout record either textually or graphically.
The EGU field can contain a string of up to 16 characters describing the value on the VAL field.
The HOPR and LOPR fields determine the upper and lower display limits for graphic displays and the upper and lower control limits for control displays.
They apply to the VAL,
and LOLO fields.
The record support routines
get_control_double() retrieve HOPR and LOPR.
See Fields Common to All Record Types for more on the record name (NAME) and description (DESC) fields.
Field Summary Type DCT Default Read Write CA PP EGU Engineering Units STRING  Yes Yes Yes No HOPR High Operating Range DOUBLE Yes Yes Yes No LOPR Low Operating Range DOUBLE Yes Yes Yes No NAME Record Name STRING  No Yes No No DESC Descriptor STRING  Yes Yes Yes No
The possible alarm conditions for data fanouts are the SCAN, READ, INVALID, and limit alarms. The SCAN and READ alarms are called by the record routines. The limit alarms are configured by the user in the HIHI, LOLO, HIGH, and LOW fields using floating point values. The limit alarms apply only to the VAL field. The severity for each of these limits is specified in the corresponding field (HHSV, LLSV, HSV, LSV) and can be either NO_ALARM, MINOR, or MAJOR. In the hysteresis field (HYST) can be entered a number which serves as the deadband on the limit alarms.
Field Summary Type DCT Default Read Write CA PP HIHI Hihi Alarm Limit DOUBLE Yes Yes Yes Yes HIGH High Alarm Limit DOUBLE Yes Yes Yes Yes LOW Low Alarm Limit DOUBLE Yes Yes Yes Yes LOLO Lolo Alarm Limit DOUBLE Yes Yes Yes Yes HHSV Hihi Severity MENU (menuAlarmSevr) Yes Yes Yes Yes HSV High Severity MENU (menuAlarmSevr) Yes Yes Yes Yes LSV Low Severity MENU (menuAlarmSevr) Yes Yes Yes Yes LLSV Lolo Severity MENU (menuAlarmSevr) Yes Yes Yes Yes HYST Alarm Deadband DOUBLE Yes Yes Yes No
These parameters are used to determine when to send monitors placed on the VAL field. These monitors are sent when the value field exceeds the last monitored fields by the specified deadband, ADEL for archivers monitors and MDEL for all other types of monitors. If these fields have a value of zero, everytime the value changes, a monitor will be triggered; if they have a value of -1, everytime the record is scanned, monitors are triggered. See "Monitor Specification" for a complete explanation of monitors.
Field Summary Type DCT Default Read Write CA PP ADEL Archive Deadband DOUBLE Yes Yes Yes No MDEL Monitor Deadband DOUBLE Yes Yes Yes No
These parameters are used by the run-time code for processing the data fanout record. Ther are not configurable. They are used to implement the hysteresis factors for monitor callbacks.
Field Summary Type DCT Default Read Write CA PP LALM Last Value Alarmed DOUBLE No Yes No No ALST Last Value Archived DOUBLE No Yes No No MLST Last Val Monitored DOUBLE No Yes No No
This routine initializes all output links that are defined. Then it initializes DOL if DOL is a constant or a PV_LINK. When initializing the output links and the DOL link, a non-zero value is returned if an error occurs.
See next section.
The routine copies the string specified in the EGU field to the location specified by a pointer which is passed to the routine.
If the referenced field is VAL,
this routine sets the
upper_disp_limit member of the
dbr_grDouble structure to the HOPR and the
lower_disp_limit member to the LOPR.
If the referenced field is not one of the above fields,
recGblGetControlDouble() routine is called.
Same as the
get_graphic_double() routine except that it uses the
This sets the members of the
dbr_alDouble structure to the specified alarm limits when the referenced field is VAL:
upper_alarm_limit = HIHI
upper_warning_limit = HIGH
lower_warning_limit = LOW
lower_alarm_limit = LOLO
If the referenced field is not VAL,
recGblGetAlarmDouble() routine is called.
process()routine first checks that DOL is not a constant link and that OMSL is set to "closed_loop". If so, it retrieves a value through DOL and places it into VAL. If no errors occur, UDF is set to FALSE.
dbPutLink()for each link, conditional on the setting of SELM and the value in SELN.