Select Record (sel)

The select record computes a value based on input obtained from up to 12 locations. The selection algorithm can be one of the following: Specified, High Signal, Low Signal, Median Signal. Each input can be a constant, a database link, or a channel access link.

Parameter Fields

The record-specific fields are described below, grouped by functionality.

Scan Parameters

The select record has the standard fields for specifying under what circumstances the record will be processed. These fields are listed in Scan Fields.

Read Parameters

The INPA-L links determine where the selection record retrieves the values from which it is to select or compute its final value. The INPA-L links are input links configured by the user to be either constants, channel access links, or database links. If channel access or database links, a value is retrieved for each link and placed in the corresponding value field, A-L. If any input link is a constant, the value field for that link will be initialized with the constant value given to it and can be modified via dbPuts.

Any links not defined are ignored by the selection record and its algorithm. An undefined link is any constant link whose value is 0. At initialization time, the corresponding value links for such fields are set to NaN, which means MISSING. The value field of an undefined link can be changed at run-time from NaN to another value in order to define the link and its field. Note that all undefined links must be recognized as such if the selection algorithm is to work as expected.

Field

Summary

Type

DCT

Default

Read

Write

CA PP

INPA

Input A

INLINK

Yes

Yes

Yes

No

INPB

Input B

INLINK

Yes

Yes

Yes

No

INPC

Input C

INLINK

Yes

Yes

Yes

No

INPD

Input D

INLINK

Yes

Yes

Yes

No

INPE

Input E

INLINK

Yes

Yes

Yes

No

INPF

Input F

INLINK

Yes

Yes

Yes

No

INPG

Input G

INLINK

Yes

Yes

Yes

No

INPH

Input H

INLINK

Yes

Yes

Yes

No

INPI

Input I

INLINK

Yes

Yes

Yes

No

INPJ

Input J

INLINK

Yes

Yes

Yes

No

INPK

Input K

INLINK

Yes

Yes

Yes

No

INPL

Input L

INLINK

Yes

Yes

Yes

No

A

Value of Input A

DOUBLE

No

Yes

Yes

Yes

B

Value of Input B

DOUBLE

No

Yes

Yes

Yes

C

Value of Input C

DOUBLE

No

Yes

Yes

Yes

D

Value of Input D

DOUBLE

No

Yes

Yes

Yes

E

Value of Input E

DOUBLE

No

Yes

Yes

Yes

F

Value of Input F

DOUBLE

No

Yes

Yes

Yes

G

Value of Input G

DOUBLE

No

Yes

Yes

Yes

H

Value of Input H

DOUBLE

No

Yes

Yes

Yes

I

Value of Input I

DOUBLE

No

Yes

Yes

Yes

J

Value of Input J

DOUBLE

No

Yes

Yes

Yes

K

Value of Input K

DOUBLE

No

Yes

Yes

Yes

L

Value of Input L

DOUBLE

No

Yes

Yes

Yes

Select Parameters

The selection algorithm is determined by three fields configurable by the user: the select mechanism (SELM) field, the select number (SELN) field, and the index value location (NVL) field.

The SELM field has four choices, i.e., four algorithms as follows:

Operator Display Parameters

These parameters are used to present meaningful data to the operator. They display the value and other parameters of the select record either textually or graphically.

EGU is a string of up to 16 characters describing the units that the selection record manipulates. It is retrieved by the get_units record support routine.

The HOPR and LOPR fields set the upper and lower display limits for the VAL, HIHI, HIGH, LOW, and LOLO fields. Both the get_graphic_double and get_control_double record support routines retrieve these fields.

The PREC field determines the floating point precision with which to display VAL. It is used whenever the get_precision record support routine is called.

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 [16]

Yes

Yes

Yes

No

HOPR

High Operating Rng

DOUBLE

Yes

Yes

Yes

No

LOPR

Low Operating Range

DOUBLE

Yes

Yes

Yes

No

PREC

Display Precision

SHORT

Yes

Yes

Yes

No

NAME

Record Name

STRING [61]

No

Yes

No

No

DESC

Descriptor

STRING [41]

Yes

Yes

Yes

No

Alarm Parameters

The possible alarm conditions for select records are the SCAN, READ, and limit alarms. The SCAN and READ alarms are called by the record or device support routines. The limit alarms are configured by the user in the HIHI, LOLO, HIGH, and LOW fields using numerical values. They specify conditions for the VAL field. For each of these fields, there is a corresponding severity field which can be either NO_ALARM, MINOR, or MAJOR. Alarm Fields lists the fields related to alarms that are common to all record types.

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

Monitor Parameters

These fields are configurable by the user. They are used as deadbands for the archiver and monitor calls for the VAL field. Unless, VAL changes by more than the value specified by each, then the respective monitors will not be called. If these fields have a value of zero, everytime the VAL changes, monitors are triggered; if they have a value of -1, everytime the record is processed, monitors are triggered.

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

Run-time Parameters

These parameters are used by the run-time code for processing the selection record. They are not configurable prior to run-time, nor are they modifiable at run-time. They represent the current state of the record. The record support routines use some of them for more efficient processing.

The VAL field is the result of the selection record’s processing. It can be accessed in the normal way by another record or through database access, but is not modifiable except by the record itself. The LALM, ALST, and the MLST are used to implement the HYST, ADEL, and MDEL hysteresis factors for the alarms, archiver, and monitors, respectively.

The LA-LL fields are used to implement the monitors for each of the value fields, A-L. They represent previous input values. For example, unless LA is not equal to A, no monitor is invoked for A.

Field

Summary

Type

DCT

Default

Read

Write

CA PP

VAL

Result

DOUBLE

Yes

Yes

No

No

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

LA

Prev Value of A

DOUBLE

No

Yes

No

No

LB

Prev Value of B

DOUBLE

No

Yes

No

No

LC

Prev Value of C

DOUBLE

No

Yes

No

No

LD

Prev Value of D

DOUBLE

No

Yes

No

No

LE

Prev Value of E

DOUBLE

No

Yes

No

No

LF

Prev Value of F

DOUBLE

No

Yes

No

No

LG

Prev Value of G

DOUBLE

No

Yes

No

No

LH

Prev Value of H

DOUBLE

No

Yes

No

No

LI

Prev Value of I

DOUBLE

No

Yes

No

No

LJ

Prev Value of J

DOUBLE

No

Yes

No

No

LK

Prev Value of K

DOUBLE

No

Yes

No

No

LL

Prev Value of L

DOUBLE

No

Yes

No

No

Record Support

Record Support Routines

init_record

long (*init_record)(struct dbCommon *precord, int pass)

IF NVL is a constant, SELN is set to its value. If NVL is a PV_LINK a channel access link is created.

For each constant input link, the corresponding value field is initialized with the constant value (or NaN if the constant has the value 0).

For each input link that is of type PV_LINK, a database or channel access link is created.

process

long (*process)(struct dbCommon *precord)

See “Record Processing”.

get_units

long (*get_units)(struct dbAddr *paddr, char *units)

Retrieves EGU.

get_precision

long (*get_precision)(const struct dbAddr *paddr, long *precision)

Retrieves PREC.

get_graphic_double

long (*get_graphic_double)(struct dbAddr *paddr, struct dbr_grDouble *p)

Sets the upper display and lower display limits for a field. If the field is VAL, HIHI, HIGH, LOW, or LOLO, the limits are set to HOPR and LOPR, else if the field has upper and lower limits defined they will be used, else the upper and lower maximum values for the field type will be used.

get_control_double

long (*get_control_double)(struct dbAddr *paddr, struct dbr_ctrlDouble *p)

Sets the upper control and the lower control limits for a field. If the field is VAL, HIHI, HIGH, LOW, or LOLO, the limits are set to HOPR and LOPR, else if the field has upper and lower limits defined they will be used, else the upper and lower maximum values for the field type will be used.

get_alarm_double

long (*get_alarm_double)(struct dbAddr *paddr, struct dbr_alDouble *p)

Sets the following values:

upper_alarm_limit = HIHI
upper_warning_limit = HIGH
lower_warning_limit = LOW
lower_alarm_limit = LOLO

Record Processing

Routine process implements the following algorithm:

  1. If NVL is a database or channel access link, SELN is obtained from NVL. Fetch all values if database or channel access links. If SELM is SELECTED, then only the selected link is fetched.

  2. Implement the appropriate selection algorithm. For SELECT_HIGH, SELECT_LOW, and SELECT_MEDIAN, input fields are ignored if they are undefined. If success, UDF is set to FALSE.

  3. Check alarms. This routine checks to see if the new VAL causes the alarm status and severity to change. If so, NSEV, NSTA, and LALM are set. It also honors the alarm hysteresis factor (HYST). Thus the value must change by more than HYST before the alarm status and severity is lowered.

  4. Check to see if monitors should be invoked.

    • Alarm monitors are invoked if the alarm status or severity has changed.

    • Archive and value change monitors are invoked if ADEL and MDEL conditions are met

    • Monitors for A-L are checked whenever other monitors are invoked

    • NSEV and NSTA are reset to 0.

  5. Scan forward link if necessary, set PACT FALSE, and return.