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epics-base/src/rec/recSub.c
Janet B. Anderson 8ec540e6d7 changed graphic/control limits
1992-06-03 10:16:34 +00:00

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/* recSub.c */
/* share/src/rec $Id$ */
/* recSub.c - Record Support Routines for Subroutine records */
/*
* Original Author: Bob Dalesio
* Current Author: Marty Kraimer
* Date: 01-25-90
*
* Experimental Physics and Industrial Control System (EPICS)
*
* Copyright 1991, the Regents of the University of California,
* and the University of Chicago Board of Governors.
*
* This software was produced under U.S. Government contracts:
* (W-7405-ENG-36) at the Los Alamos National Laboratory,
* and (W-31-109-ENG-38) at Argonne National Laboratory.
*
* Initial development by:
* The Controls and Automation Group (AT-8)
* Ground Test Accelerator
* Accelerator Technology Division
* Los Alamos National Laboratory
*
* Co-developed with
* The Controls and Computing Group
* Accelerator Systems Division
* Advanced Photon Source
* Argonne National Laboratory
*
* Modification Log:
* -----------------
* .01 10-10-90 mrk Made changes for new record support
* .02 11-11-91 jba Moved set and reset of alarm stat and sevr to macros
* .03 01-08-92 jba Added casts in symFindByName to avoid compile warning messages
* .04 02-05-92 jba Changed function arguments from paddr to precord
* .05 02-28-92 jba Changed get_precision,get_graphic_double,get_control_double
* .06 02-28-92 jba ANSI C changes
* .07 04-10-92 jba pact now used to test for asyn processing, not status
* .08 06-02-92 jba changed graphic/control limits for hihi,high,low,lolo
*/
#include <vxWorks.h>
#include <types.h>
#include <stdioLib.h>
#include <lstLib.h>
#include <string.h>
#include <symLib.h>
#include <sysSymTbl.h> /* for sysSymTbl*/
#include <a_out.h> /* for N_TEXT */
#include <alarm.h>
#include <dbDefs.h>
#include <dbAccess.h>
#include <dbFldTypes.h>
#include <errMdef.h>
#include <recSup.h>
#include <subRecord.h>
/* Create RSET - Record Support Entry Table*/
#define report NULL
#define initialize NULL
static long init_record();
static long process();
#define special NULL
static long get_value();
#define cvt_dbaddr NULL
#define get_array_info NULL
#define put_array_info NULL
static long get_units();
static long get_precision();
#define get_enum_str NULL
#define get_enum_strs NULL
#define put_enum_str NULL
static long get_graphic_double();
static long get_control_double();
static long get_alarm_double();
struct rset subRSET={
RSETNUMBER,
report,
initialize,
init_record,
process,
special,
get_value,
cvt_dbaddr,
get_array_info,
put_array_info,
get_units,
get_precision,
get_enum_str,
get_enum_strs,
put_enum_str,
get_graphic_double,
get_control_double,
get_alarm_double };
#define ARG_MAX 12
void alarm();
void monitor();
long do_sub();
long fetch_values();
/* Added for Channel Access Links */
long dbCaAddInlink();
long dbCaGetLink();
#define ARG_MAX 12
/* Fldnames should have as many as ARG_MAX */
static char Fldnames[ARG_MAX][FLDNAME_SZ] =
{"A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L"};
static long init_record(psub,pass)
struct subRecord *psub;
int pass;
{
FUNCPTR psubroutine;
char sub_type;
char temp[40];
long status;
STATUS ret;
struct link *plink;
int i;
double *pvalue;
if (pass==0) return(0);
plink = &psub->inpa;
pvalue = &psub->a;
for(i=0; i<ARG_MAX; i++, plink++, pvalue++) {
if(plink->type==CONSTANT) *pvalue = plink->value.value;
if (plink->type == PV_LINK)
{
status = dbCaAddInlink(plink, (void *) psub, Fldnames[i]);
if(status) return(status);
} /* endif */
}
/* convert the initialization subroutine name */
temp[0] = 0; /* all global variables start with _ */
if (psub->inam[0] != '_'){
strcpy(temp,"_");
}
strcat(temp,psub->inam);
ret = symFindByName(sysSymTbl,temp,(void *)&psub->sadr,(void *)&sub_type);
if ((ret !=OK) || ((sub_type & N_TEXT) == 0)){
recGblRecordError(S_db_BadSub,psub,"recSub(init_record)");
return(S_db_BadSub);
}
/* invoke the initialization subroutine */
psubroutine = (FUNCPTR)(psub->sadr);
status = psubroutine(psub,process);
/* convert the subroutine name to an address and type */
/* convert the processing subroutine name */
temp[0] = 0; /* all global variables start with _ */
if (psub->snam[0] != '_'){
strcpy(temp,"_");
}
strcat(temp,psub->snam);
ret = symFindByName(sysSymTbl,temp,(void *)&psub->sadr,(void *)&sub_type);
if ((ret < 0) || ((sub_type & N_TEXT) == 0)){
recGblRecordError(S_db_BadSub,psub,"recSub(init_record)");
return(S_db_BadSub);
}
psub->styp = sub_type;
return(0);
}
static long process(psub)
struct subRecord *psub;
{
long status=0;
if(!psub->pact){
psub->pact = TRUE;
status = fetch_values(psub);
psub->pact = FALSE;
}
if(status==0) status = do_sub(psub);
psub->pact = TRUE;
if(status==1) return(0);
tsLocalTime(&psub->time);
/* check for alarms */
alarm(psub);
/* check event list */
monitor(psub);
/* process the forward scan link record */
if (psub->flnk.type==DB_LINK) dbScanPassive(((struct dbAddr *)psub->flnk.value.db_link.pdbAddr)->precord);
psub->pact = FALSE;
return(0);
}
static long get_value(psub,pvdes)
struct subRecord *psub;
struct valueDes *pvdes;
{
pvdes->field_type = DBF_DOUBLE;
pvdes->no_elements=1;
(double *)(pvdes->pvalue) = &psub->val;
return(0);
}
static long get_units(paddr,units)
struct dbAddr *paddr;
char *units;
{
struct subRecord *psub=(struct subRecord *)paddr->precord;
strncpy(units,psub->egu,sizeof(psub->egu));
return(0);
}
static long get_precision(paddr,precision)
struct dbAddr *paddr;
long *precision;
{
struct subRecord *psub=(struct subRecord *)paddr->precord;
*precision = psub->prec;
if(paddr->pfield==(void *)&psub->val) return(0);
recGblGetPrec(paddr,precision);
return(0);
}
static long get_graphic_double(paddr,pgd)
struct dbAddr *paddr;
struct dbr_grDouble *pgd;
{
struct subRecord *psub=(struct subRecord *)paddr->precord;
if(paddr->pfield==(void *)&psub->val
|| paddr->pfield==(void *)&psub->hihi
|| paddr->pfield==(void *)&psub->high
|| paddr->pfield==(void *)&psub->low
|| paddr->pfield==(void *)&psub->lolo){
pgd->upper_disp_limit = psub->hopr;
pgd->lower_disp_limit = psub->lopr;
return(0);
}
if(paddr->pfield>=(void *)&psub->a && paddr->pfield<=(void *)&psub->l){
pgd->upper_disp_limit = psub->hopr;
pgd->lower_disp_limit = psub->lopr;
return(0);
}
if(paddr->pfield>=(void *)&psub->la && paddr->pfield<=(void *)&psub->ll){
pgd->upper_disp_limit = psub->hopr;
pgd->lower_disp_limit = psub->lopr;
return(0);
}
return(0);
}
static long get_control_double(paddr,pcd)
struct dbAddr *paddr;
struct dbr_ctrlDouble *pcd;
{
struct subRecord *psub=(struct subRecord *)paddr->precord;
if(paddr->pfield==(void *)&psub->val
|| paddr->pfield==(void *)&psub->hihi
|| paddr->pfield==(void *)&psub->high
|| paddr->pfield==(void *)&psub->low
|| paddr->pfield==(void *)&psub->lolo){
pcd->upper_ctrl_limit = psub->hopr;
pcd->lower_ctrl_limit = psub->lopr;
return(0);
}
if(paddr->pfield>=(void *)&psub->a && paddr->pfield<=(void *)&psub->l){
pcd->upper_ctrl_limit = psub->hopr;
pcd->lower_ctrl_limit = psub->lopr;
return(0);
}
if(paddr->pfield>=(void *)&psub->la && paddr->pfield<=(void *)&psub->ll){
pcd->upper_ctrl_limit = psub->hopr;
pcd->lower_ctrl_limit = psub->lopr;
return(0);
}
return(0);
}
static long get_alarm_double(paddr,pad)
struct dbAddr *paddr;
struct dbr_alDouble *pad;
{
struct subRecord *psub=(struct subRecord *)paddr->precord;
pad->upper_alarm_limit = psub->hihi;
pad->upper_warning_limit = psub->high;
pad->lower_warning_limit = psub->low;
pad->lower_alarm_limit = psub->lolo;
return(0);
}
static void alarm(psub)
struct subRecord *psub;
{
double ftemp;
double val=psub->val;
/* undefined condition */
if(psub->udf == TRUE) {
if(recGblSetSevr(psub,UDF_ALARM,VALID_ALARM)) return;
}
/* if difference is not > hysterisis use lalm not val */
ftemp = psub->lalm - psub->val;
if(ftemp<0.0) ftemp = -ftemp;
if (ftemp < psub->hyst) val=psub->lalm;
/* alarm condition hihi */
if (val > psub->hihi && recGblSetSevr(psub,HIHI_ALARM,psub->hhsv)){
psub->lalm = val;
return;
}
/* alarm condition lolo */
if (val < psub->lolo && recGblSetSevr(psub,LOLO_ALARM,psub->llsv)){
psub->lalm = val;
return;
}
/* alarm condition high */
if (val > psub->high && recGblSetSevr(psub,HIGH_ALARM,psub->hsv)){
psub->lalm = val;
return;
}
/* alarm condition low */
if (val < psub->low && recGblSetSevr(psub,LOW_ALARM,psub->lsv)){
psub->lalm = val;
return;
}
return;
}
static void monitor(psub)
struct subRecord *psub;
{
unsigned short monitor_mask;
double delta;
short stat,sevr,nsta,nsev;
double *pnew;
double *pprev;
int i;
/* get previous stat and sevr and new stat and sevr*/
recGblResetSevr(psub,stat,sevr,nsta,nsev);
monitor_mask = 0;
/* alarm condition changed this scan */
if (stat!=nsta || sevr!=nsev) {
/* post events for alarm condition change*/
monitor_mask = DBE_ALARM;
/* post stat and nsev fields */
db_post_events(psub,&psub->stat,DBE_VALUE);
db_post_events(psub,&psub->sevr,DBE_VALUE);
}
/* check for value change */
delta = psub->mlst - psub->val;
if(delta<0.0) delta = -delta;
if (delta > psub->mdel) {
/* post events for value change */
monitor_mask |= DBE_VALUE;
/* update last value monitored */
psub->mlst = psub->val;
}
/* check for archive change */
delta = psub->alst - psub->val;
if(delta<0.0) delta = -delta;
if (delta > psub->adel) {
/* post events on value field for archive change */
monitor_mask |= DBE_LOG;
/* update last archive value monitored */
psub->alst = psub->val;
}
/* send out monitors connected to the value field */
if (monitor_mask){
db_post_events(psub,&psub->val,monitor_mask);
/* check all input fields for changes*/
for(i=0, pnew=&psub->a, pprev=&psub->la; i<ARG_MAX; i++, pnew++, pprev++) {
if(*pnew != *pprev) {
db_post_events(psub,pnew,monitor_mask|DBE_VALUE);
*pprev = *pnew;
}
}
}
return;
}
static long fetch_values(psub)
struct subRecord *psub;
{
struct link *plink; /* structure of the link field */
double *pvalue;
long options,nRequest;
int i;
long status;
for(i=0, plink=&psub->inpa, pvalue=&psub->a; i<ARG_MAX; i++, plink++, pvalue++) {
if (plink->type==CA_LINK)
{
if (dbCaGetLink(plink))
{
recGblSetSevr(psub,LINK_ALARM,VALID_ALARM);
return(-1);
} /* endif */
}
else
{
if(plink->type==DB_LINK)
{
options=0;
nRequest=1;
status=dbGetLink(&plink->value.db_link,(struct dbCommon *)psub,DBR_DOUBLE,
pvalue,&options,&nRequest);
if(status!=0) {
recGblSetSevr(psub,LINK_ALARM,VALID_ALARM);
return(-1);
}
} /* endif */
} /* endif */
}
return(0);
}
static long do_sub(psub)
struct subRecord *psub; /* pointer to subroutine record */
{
long status;
FUNCPTR psubroutine;
/* call the subroutine */
psubroutine = (FUNCPTR)(psub->sadr);
if(psubroutine==NULL) {
recGblSetSevr(psub,BAD_SUB_ALARM,VALID_ALARM);
return(0);
}
status = psubroutine(psub);
if(status < 0){
recGblSetSevr(psub,SOFT_ALARM,psub->brsv);
} else psub->udf = FALSE;
return(status);
}
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