def test_dbrName(self):
write( 'DBR Type Check')
self.assertEqual(dbr.Name(dbr.STRING), 'STRING')
self.assertEqual(dbr.Name(dbr.FLOAT), 'FLOAT')
self.assertEqual(dbr.Name(dbr.ENUM), 'ENUM')
self.assertEqual(dbr.Name(dbr.CTRL_CHAR), 'CTRL_CHAR')
self.assertEqual(dbr.Name(dbr.TIME_DOUBLE), 'TIME_DOUBLE')
self.assertEqual(dbr.Name(dbr.TIME_LONG), 'TIME_LONG')
self.assertEqual(dbr.Name('STRING', reverse=True), dbr.STRING)
self.assertEqual(dbr.Name('DOUBLE', reverse=True), dbr.DOUBLE)
self.assertEqual(dbr.Name('CTRL_ENUM', reverse=True), dbr.CTRL_ENUM)
self.assertEqual(dbr.Name('TIME_LONG', reverse=True), dbr.TIME_LONG)
def test_dbrName():
write('DBR Type Check')
assert dbr.Name(dbr.STRING) == 'STRING'
assert dbr.Name(dbr.FLOAT) == 'FLOAT'
assert dbr.Name(dbr.ENUM) == 'ENUM'
assert dbr.Name(dbr.CTRL_CHAR) == 'CTRL_CHAR'
assert dbr.Name(dbr.TIME_DOUBLE) == 'TIME_DOUBLE'
assert dbr.Name(dbr.TIME_LONG) == 'TIME_LONG'
assert dbr.Name('STRING', reverse=True) == dbr.STRING
assert dbr.Name('DOUBLE', reverse=True) == dbr.DOUBLE
assert dbr.Name('CTRL_ENUM', reverse=True) == dbr.CTRL_ENUM
assert dbr.Name('TIME_LONG', reverse=True) == dbr.TIME_LONG
def __on_connect(self, pvname=None, chid=None, conn=True):
"""Run callback for connection events."""
# occassionally chid is still None (ie if a second PV is created
# while __on_connect is still pending for the first one.)
# Just return here, and connection will happen later
if conn:
self.chid = self._args['chid'] = dbr.chid_t(chid.value)
# allow reduction of elements, via count argument
count = self._args['nelm']
if self._args['count'] is not None:
count = min(count, self._args['count'])
self._args['count'] = count
self._args['host'] = 'localhost:00000'
_ftype_ = dbr.Name(self.ftype).lower()
self._args['type'] = _ftype_
self._args['typefull'] = _ftype_
self._args['ftype'] = dbr.Name(_ftype_, reverse=True)
if self.auto_monitor is None:
self.auto_monitor = count < AUTOMONITOR_MAXLENGTH
for conn_cb in self.connection_callbacks:
if hasattr(conn_cb, '__call__'):
conn_cb(pvname=self.pvname, conn=conn, pv=self)
elif not conn and self.verbose:
write("PV '%s' disconnected." % pvname)
# pv end of connect, force a read of access rights
self.force_read_access_rights()
# waiting until the very end until to set self.connected prevents
# threads from thinking a connection is complete when it is actually
# still in progress.
self.connected = conn
return
def _set_charval(self, val, call_ca=True):
"""Set the character representation of the value.
intended only for internal use"""
if val is None:
self._args['char_value'] = 'None'
return 'None'
ftype = self._args['ftype']
ntype = dbr.native_type(ftype)
if ntype == dbr.STRING:
self._args['char_value'] = val
return val
# char waveform as string
if ntype == dbr.CHAR and self.count < AUTOMONITOR_MAXLENGTH:
if HAS_NUMPY and isinstance(val, _np.ndarray):
# a numpy array
val = val.tolist()
if not isinstance(val, list):
# a scalar value from numpy, tolist() turns it into a
# native python integer
val = [val.tolist()]
else:
try:
# otherwise, try forcing it into a list. this will fail for
# scalar types
val = list(val)
except TypeError:
# and when it fails, make it a list of one scalar value
val = [val]
if 0 in val:
firstnull = val.index(0)
else:
firstnull = len(val)
try:
cval = ''.join([chr(i) for i in val[:firstnull]]).rstrip()
except ValueError:
cval = ''
self._args['char_value'] = cval
return cval
cval = repr(val)
if self.count > 1:
try:
length = len(val)
except TypeError:
length = 1
cval = '<array size=%d, type=%s>' % (length,
dbr.Name(ftype).lower())
elif ntype in (dbr.FLOAT, dbr.DOUBLE):
if call_ca and self._args['precision'] is None:
self.get_ctrlvars()
try:
prec = self._args['precision']
fmt = "%%.%if"
if 4 < abs(int(log10(abs(val + 1.e-9)))):
fmt = "%%.%ig"
cval = (fmt % prec) % val
except (ValueError, TypeError, ArithmeticError):
cval = str(val)
elif ntype == dbr.ENUM:
if call_ca and self._args['enum_strs'] in ([], None):
self.get_ctrlvars()
try:
cval = self._args['enum_strs'][val]
except (TypeError, KeyError, IndexError):
cval = str(val)
self._args['char_value'] = cval
return cval
def __init__(self,
pvname,
callback=None,
form='time',
verbose=False,
auto_monitor=None,
count=None,
connection_callback=None,
connection_timeout=None,
access_callback=None):
"""."""
dbase = _DATABASE.get(pvname)
if dbase is None:
raise Exception(
'PV does not exist in local database. Configure database ' +
'first with add_to_database module function.')
self.pvname = pvname.strip()
self.form = form.lower()
self.verbose = verbose
self.auto_monitor = auto_monitor
self.ftype = None
self.connected = False
self.connection_timeout = connection_timeout
if self.connection_timeout is None:
self.connection_timeout = DEFAULT_CONNECTION_TIMEOUT
self._args = {}.fromkeys(self._fields)
self._args['pvname'] = self.pvname
self._args['value'] = dbase.get('value',
'' if dbase['type'] == 'str' else 0)
self._args['count'] = count
self._args['nelm'] = dbase.get('count', 1)
self._args['type'] = 'unknown'
self._args['typefull'] = 'unknown'
self._args['access'] = 'unknown'
self._args['severity'] = 0 # not simulated correctly
self._args['status'] = 1 # not simulated correctly
self._args['precision'] = dbase.get('prec')
self._args['units'] = dbase.get('unit')
self._args['upper_disp_limit'] = dbase.get('hilim')
self._args['upper_disp_limit'] = dbase.get('lolim')
self._args['upper_alarm_limit'] = dbase.get('high')
self._args['upper_alarm_limit'] = dbase.get('low')
self._args['upper_warning_limit'] = dbase.get('hihi')
self._args['upper_warning_limit'] = dbase.get('lolo')
self._args['upper_ctrl_limit'] = dbase.get('hilim')
self._args['upper_ctrl_limit'] = dbase.get('lolim')
self._args['enum_strs'] = dbase.get('enums')
self.context = dbr.ECA_NORMAL
self._pytype = _PYTYPES[dbase['type']]
self.ftype = promote_type(dbase['type'],
use_ctrl=self.form == 'ctrl',
use_time=self.form == 'time')
self._args['type'] = dbr.Name(self.ftype).lower()
self.connection_callbacks = []
if connection_callback is not None:
self.connection_callbacks = [connection_callback]
self.access_callbacks = []
if access_callback is not None:
self.access_callbacks = [access_callback]
self.callbacks = {}
self._conn_started = False
if isinstance(callback, (tuple, list)):
for i, thiscb in enumerate(callback):
if hasattr(thiscb, '__call__'):
self.callbacks[i] = (thiscb, {})
elif hasattr(callback, '__call__'):
self.callbacks[0] = (callback, {})
self._args['chid'] = dbr.chid_t(_randint(1, 10000000))
self.__on_connect(pvname=pvname, chid=self._args['chid'])
self.chid = self._args['chid']
self._set_charval(self._args['value'], call_ca=False)
self.__on_access_rights_event(read_access=True, write_access=True)
pvid = (self.pvname, self.form, self.context)
if pvid not in _PVCACHE_:
_PVCACHE_[pvid] = self
