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/* Copyright (c) 1995-2003 Pragmatic C Software Corp. */
/*
* test of time related cbs
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "vpi_user.h"
#include "cv_vpi_user.h"
int num_simstarttime_cbs;
int num_after_cbs;
/* local function prototypes */
/* global function prototypes */
extern int setup_delcbs(p_cb_data);
extern int cbtimstart_rtn(struct t_cb_data *);
extern int cbdel_rtn(p_cb_data);
extern int cbwrsync_rtn(p_cb_data);
extern int cbrosync_rtn(p_cb_data);
extern int cbnxttim_rtn(p_cb_data);
extern int my_error_handler(struct t_cb_data *);
extern void register_cbs(void);
int setup_delcbs(struct t_cb_data *cbp)
{
struct t_cb_data cbrec;
p_vpi_time timp;
cbrec.reason = cbAtStartOfSimTime;
cbrec.cb_rtn = cbtimstart_rtn;
cbrec.obj = NULL;
/* just allocate once */
timp = (p_vpi_time) malloc(sizeof(s_vpi_time));
timp->type = vpiSimTime;
timp->high = 0;
timp->low = 22;
cbrec.time = timp;
cbrec.value = NULL;
cbrec.index = 0;
vpi_register_cb(&cbrec);
cbrec.reason = cbAfterDelay;
cbrec.obj = NULL;
cbrec.cb_rtn = cbdel_rtn;
timp->type = vpiSimTime;
timp->high = 0;
timp->low = 43;
cbrec.time = timp;
cbrec.value = NULL;
cbrec.index = 0;
vpi_register_cb(&cbrec);
return(0);
}
/*
* call back for start of sim delays - schedule another one (total of 20)
*/
int cbtimstart_rtn(p_cb_data cbp)
{
vpi_printf("*** start of simulation time wake up at %d\n", cbp->time->low);
/* notice reusing passed call back for new register is really illegal */
cbp->cb_rtn = cbtimstart_rtn;
cbp->time->high = 0;
cbp->time->low = 6;
if (++num_simstarttime_cbs < 50) vpi_register_cb(cbp);
return(0);
}
/*
* call back for normal delays
*/
int cbdel_rtn(p_cb_data cbp)
{
vpi_printf("*** normal delay time wake up at %d\n", cbp->time->low);
/* notice reusing passed call back for new register is really illegal */
cbp->reason = cbReadWriteSynch;
cbp->cb_rtn = cbwrsync_rtn;
cbp->time->high = 0;
cbp->time->low = 0;
vpi_register_cb(cbp);
return(0);
}
/*
* ro sync cb routine
*/
int cbwrsync_rtn(p_cb_data cbp)
{
vpi_printf("*** rw sync time wake up at %d\n", cbp->time->low);
/* not sure if legal to usurp t_cb_data since removed when event happens */
cbp->reason = cbReadOnlySynch;
cbp->cb_rtn = cbrosync_rtn;
cbp->obj = NULL;
cbp->time->high = 0;
cbp->time->low = 0;
cbp->value = NULL;
cbp->index = 0;
vpi_register_cb(cbp);
return(0);
}
/*
* ro sync cb routine - schedules 2 events
*/
int cbrosync_rtn(p_cb_data cbp)
{
struct t_cb_data cbrec;
p_vpi_time timp;
vpi_printf("*** ro sync time wake up at %d\n", cbp->time->low);
cbp->reason = cbNextSimTime;
cbp->cb_rtn = cbnxttim_rtn;
cbp->obj = NULL;
cbp->time->high = 0;
cbp->time->low = 0;
cbp->value = NULL;
cbp->index = 0;
vpi_register_cb(cbp);
if (++num_after_cbs > 20) return(0);
cbrec.reason = cbAfterDelay;
cbrec.cb_rtn = cbdel_rtn;
cbrec.obj = NULL;
timp = (p_vpi_time) malloc(sizeof(s_vpi_time));
timp->type = vpiSimTime;
timp->high = 0;
timp->low = 87;
cbrec.time = timp;
cbrec.value = NULL;
cbrec.index = 0;
vpi_register_cb(&cbrec);
return(0);
}
/*
* next sim time cb routine - no new scheduling from here
*/
int cbnxttim_rtn(p_cb_data cbp)
{
vpi_printf("*** next sim time wake up at %d\n", cbp->time->low);
return(0);
}
/*
* routine to build an error indication string
*/
int my_error_handler(struct t_cb_data *cbp)
{
struct t_vpi_error_info einfotab;
struct t_vpi_error_info *einfop;
char s1[128];
einfop = &einfotab;
vpi_chk_error(einfop);
if (einfop->state == vpiCompile) strcpy(s1, "vpiCompile");
else if (einfop->state == vpiPLI) strcpy(s1, "vpiPLI");
else if (einfop->state == vpiRun) strcpy(s1, "vpiRun");
else strcpy(s1, "**unknown**");
vpi_printf("**ERR(%s) %s (level %d) at **%s(%d):\n %s\n",
einfop->code, s1, einfop->level, einfop->file, einfop->line,
einfop->message);
/* if serious error give up */
if (einfop->level == vpiError || einfop->level == vpiSystem
|| einfop->level == vpiInternal)
{
vpi_printf("**FATAL: encountered error - giving up\n");
vpi_sim_control(vpiFinish, 0);
}
return(0);
}
/* Template functin table for added user systf tasks and functions.
See file vpi_user.h for structure definition
Note only vpi_register_systf and vpi_ or tf_ utility routines that
do not access the simulation data base may be called from these routines
*/
/* all routines are called to register cbs */
/* called just after all PLI 1.0 tf_ veriusertfs table routines are set up */
/* before source is read */
void (*vlog_startup_routines[]) () =
{
register_cbs,
0
};
/* routine to do the systf registering - probably should go in other file */
/* usually only vpi_ PLI 2.0 systf or cb registering is done here */
/*
* register the start of sim scan call back and set up error handling
*
* notice making version of Cver that prints some stuff to start but
* is a normal Cver
*
* since handle not save (passed back?), no way to find out cb info
*/
void register_cbs(void)
{
vpiHandle href, href2;
struct t_cb_data *ecbp, *cbp;
struct t_cb_data cbrec;
num_simstarttime_cbs = 0;
num_after_cbs = 0;
/* notice cb records must be in global storage */
ecbp = &cbrec;
ecbp->reason = cbPLIError;
ecbp->cb_rtn = my_error_handler;
ecbp->obj = NULL;
ecbp->time = NULL;
ecbp->value = NULL;
ecbp->user_data = NULL;
/* probably should check for error here */
if ((href = vpi_register_cb(ecbp)) == NULL)
vpi_printf("**ERR: PLI 2.0 can not register error handler callback.\n");
cbp = &cbrec;
cbp->reason = cbStartOfSimulation;
cbp->cb_rtn = setup_delcbs;
cbp->obj = NULL;
cbp->time = NULL;
cbp->value = NULL;
cbp->user_data = NULL;
/* probably should check for error here */
if ((href2 = vpi_register_cb(cbp)) == NULL)
vpi_printf(
"**ERR: PLI 2.0 can not register start of sim setup callback.\n");
/* if not registered will be no call backs */
}
/* dummy +loadvpi= boostrap routine - mimics old style exec all routines */
/* in standard PLI vlog_startup_routines table */
void vpi_compat_bootstrap(void)
{
int i;
for (i = 0;; i++)
{
if (vlog_startup_routines[i] == NULL) break;
vlog_startup_routines[i]();
}
}
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