UNIT
| NEXT UNIT { addincr:
| PLUS opt_number UNIT { goto addincr; }
%token UNIT
nlp->svalue = nlp->value / sizeof (UNIT);
lowpc = h.lowpc / sizeof (UNIT);
highpc = h.highpc / sizeof (UNIT);
nl[j].value/sizeof (UNIT), svalue0,
(long)scale * sizeof (UNIT));
(long)scale * sizeof (UNIT));
#define UNITS_TO_CODE (OFFSET_OF_CODE / sizeof(UNIT))
instance = UNIT(dev);
unit = UNIT(*dev);
cmn_err(CE_NOTE, "zs%d: silo overflow\n", UNIT(za->za_dev));
UNIT(za->za_dev));
UNIT(za->za_dev)); \
zs = &zscom[UNIT(dev)];
UNIT(za->za_dev)); \
if ((unit = UNIT(dev)) >= nzs)
unit = UNIT(*dev);
if ((unit = UNIT(dev)) >= nzs)
unit = UNIT(*dev);
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev), cc);
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev),
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
UNIT(async->async_dev));
if ((instance = UNIT(dev)) > max_asy_instance)
unit = UNIT(*dev);