def testEnumPut(self): pv = PV(pvnames.enum_pv) self.assertIsNot(pv, None) pv.put('Stop') time.sleep(0.1) val = pv.get() self.assertEqual(val, 0) assert pv.get(as_string=True) == 'Stop'
def test_waveform_get_with_count_arg(self): with no_simulator_updates(): wf = PV(pvnames.char_arr_pv, count=32) val = wf.get() self.assertEquals(len(val), 32) val = wf.get(count=wf.nelm) self.assertEquals(len(val), wf.nelm)
def test_get1(self): write('Simple Test: test value and char_value on an integer\n') with no_simulator_updates(): pv = PV(pvnames.int_pv) val = pv.get() cval = pv.get(as_string=True) self.failUnless(int(cval) == val)
def test_putwait(self): write('Put with wait (using real motor!) \n') pv = PV(pvnames.motor1) # this works with a real motor, fail if it doesn't connect quickly if not pv.wait_for_connection(timeout=0.2): self.skipTest('Unable to connect to real motor record') val = pv.get() t0 = time.time() if val < 5: pv.put(val + 1.0, wait=True) else: pv.put(val - 1.0, wait=True) dt = time.time() - t0 write(' put took %s sec\n' % dt) self.failUnless(dt > 0.1) # now with a callback! global put_callback_called put_callback_called = False def onPutdone(pvname=None, **kws): print('put done ', pvname, kws) global put_callback_called put_callback_called = True val = pv.get() if val < 5: pv.put(val + 1.0, callback=onPutdone) else: pv.put(val - 1.0, callback=onPutdone) t0 = time.time() while time.time() - t0 < dt * 1.50: time.sleep(0.02) write(' put should be done by now? %s \n' % put_callback_called) self.failUnless(put_callback_called) # now using pv.put_complete val = pv.get() if val < 5: pv.put(val + 1.0, use_complete=True) else: pv.put(val - 1.0, use_complete=True) t0 = time.time() count = 0 while time.time() - t0 < dt * 1.50: if pv.put_complete: break count = count + 1 time.sleep(0.02) write( ' put_complete=%s (should be True), and count=%i (should be>3)\n' % (pv.put_complete, count)) self.failUnless(pv.put_complete) self.failUnless(count > 3)
def test_DoubleVal(self): pvn = pvnames.double_pv pv = PV(pvn) pv.get() cdict = pv.get_ctrlvars() write('Testing CTRL Values for a Double (%s)\n' % (pvn)) self.failUnless('severity' in cdict) self.failUnless(len(pv.host) > 1) self.assertEqual(pv.count, 1) self.assertEqual(pv.precision, pvnames.double_pv_prec) self.assertEqual(pv.units, pvnames.double_pv_units) self.failUnless(pv.access.startswith('read'))
def test_subarray_zerolen(self): subarr1 = PV(pvnames.zero_len_subarr1) subarr1.wait_for_connection() val = subarr1.get(use_monitor=True, as_numpy=True) self.assertIsInstance(val, numpy.ndarray, msg='using monitor') self.assertEquals(len(val), 0, msg='using monitor') # caproto returns things in big endian, not native type # self.assertEquals(val.dtype, numpy.float64, msg='using monitor') val = subarr1.get(use_monitor=False, as_numpy=True) self.assertIsInstance(val, numpy.ndarray, msg='no monitor') self.assertEquals(len(val), 0, msg='no monitor')
def test_emptyish_char_waveform_monitor(self): '''a test of a char waveform of length 1 (NORD=1): value "\0" with using auto_monitor ''' with no_simulator_updates(): zerostr = PV(pvnames.char_arr_pv, auto_monitor=True) zerostr.wait_for_connection() zerostr.put([0], wait=True) time.sleep(0.2) self.assertEquals(zerostr.get(as_string=True), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False), [0]) self.assertEquals(zerostr.get(as_string=True, as_numpy=False), '') numpy.testing.assert_array_equal( zerostr.get(as_string=False, as_numpy=False), [0]) zerostr.put([0, 0], wait=True) time.sleep(0.2) self.assertEquals(zerostr.get(as_string=True), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False), [0, 0]) self.assertEquals(zerostr.get(as_string=True, as_numpy=False), '') numpy.testing.assert_array_equal( zerostr.get(as_string=False, as_numpy=False), [0, 0]) zerostr.disconnect()
def test_subarray_1elem(self): with no_simulator_updates(): # pv = PV(pvnames.zero_len_subarr1) pv = PV(pvnames.double_arr_pv) pv.wait_for_connection() val = pv.get(count=1, use_monitor=False) print('val is', val, type(val)) self.assertIsInstance(val, numpy.ndarray) self.assertEqual(len(val), 1) val = pv.get(count=1, as_numpy=False, use_monitor=False) print('val is', val, type(val)) self.assertIsInstance(val, list) self.assertEqual(len(val), 1)
def test_put_string_waveform(self): write('String Array: \n') with no_simulator_updates(): pv = PV(pvnames.string_arr_pv) put_value = ['a', 'b', 'c'] pv.put(put_value) get_value = pv.get(use_monitor=False, count=len(put_value)) numpy.testing.assert_array_equal(get_value, put_value)
def testA_CreatedWithConn(self): write('Simple Test: create pv with conn callback\n') pv = PV(pvnames.int_pv, connection_callback=onConnect) val = pv.get() global CONN_DAT conn = CONN_DAT.get(pvnames.int_pv, None) self.assertEqual(conn, True)
def test_get_string_waveform(self): write('String Array: \n') with no_simulator_updates(): pv = PV(pvnames.string_arr_pv) val = pv.get() self.failUnless(len(val) > 10) self.assertIsInstance(val[0], str) self.failUnless(len(val[0]) > 1) self.assertIsInstance(val[1], str) self.failUnless(len(val[1]) > 1)
def test_subarrays(self): write("Subarray test: dynamic length arrays\n") driver = PV(pvnames.subarr_driver) subarr1 = PV(pvnames.subarr1) subarr1.connect() len_full = 64 len_sub1 = 16 full_data = numpy.arange(len_full) / 1.0 caput("%s.NELM" % pvnames.subarr1, len_sub1) caput("%s.INDX" % pvnames.subarr1, 0) driver.put(full_data) time.sleep(0.1) subval = subarr1.get() self.assertEqual(len(subval), len_sub1) self.failUnless(numpy.all(subval == full_data[:len_sub1])) write("Subarray test: C\n") caput("%s.NELM" % pvnames.subarr2, 19) caput("%s.INDX" % pvnames.subarr2, 3) subarr2 = PV(pvnames.subarr2) subarr2.get() driver.put(full_data) time.sleep(0.1) subval = subarr2.get() self.assertEqual(len(subval), 19) self.failUnless(numpy.all(subval == full_data[3:3 + 19])) caput("%s.NELM" % pvnames.subarr2, 5) caput("%s.INDX" % pvnames.subarr2, 13) driver.put(full_data) time.sleep(0.1) subval = subarr2.get() self.assertEqual(len(subval), 5) self.failUnless(numpy.all(subval == full_data[13:5 + 13]))
def test_thread_pv(threading_broadcaster): from caproto.threading.client import Context, PV pv1 = "XF:31IDA-OP{Tbl-Ax:X1}Mtr.VAL" # pv2 = "XF:31IDA-OP{Tbl-Ax:X2}Mtr.VAL" # Some user function to call when subscriptions receive data. called = [] def user_callback(*, value, **kwargs): print() print('-- user callback', value) called.append(True) ctx = Context(threading_broadcaster, log_level='DEBUG') ctx.register() time_pv = PV(pv1, context=ctx, form='time') ctrl_pv = PV(pv1, context=ctx, form='ctrl') time_pv.wait_for_connection() time_pv.add_callback(user_callback) print('time read', time_pv.get()) print('ctrl read', ctrl_pv.get()) time_pv.put(3, wait=True) time_pv.put(6, wait=True) time.sleep(0.1) assert time_pv.get() == 6 assert called print('read', time_pv.get()) print('done') repr(time_pv) for k, v in PV.__dict__.items(): if isinstance(v, property): getattr(time_pv, k) getattr(ctrl_pv, k)
def test_emptyish_char_waveform_no_monitor(self): '''a test of a char waveform of length 1 (NORD=1): value "\0" without using auto_monitor ''' with no_simulator_updates(): zerostr = PV(pvnames.char_arr_pv, auto_monitor=False) zerostr.wait_for_connection() # elem_count = 128, requested count = None, libca returns count = 1 zerostr.put([0], wait=True) self.assertEquals(zerostr.get(as_string=True), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False), [0]) self.assertEquals(zerostr.get(as_string=True, as_numpy=False), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False, as_numpy=False), [0]) # elem_count = 128, requested count = None, libca returns count = 2 zerostr.put([0, 0], wait=True) self.assertEquals(zerostr.get(as_string=True), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False), [0, 0]) self.assertEquals(zerostr.get(as_string=True, as_numpy=False), '') numpy.testing.assert_array_equal(zerostr.get(as_string=False, as_numpy=False), [0, 0])
def bench_threading_put_speed(pvname, *, value, log_level='ERROR'): from caproto.threading.client import (PV, SharedBroadcaster, Context as ThreadingContext) shared_broadcaster = SharedBroadcaster() context = ThreadingContext(broadcaster=shared_broadcaster, log_level=log_level) def threading(): pv.put(value, wait=True) pv = PV(pvname, auto_monitor=False, context=context) yield threading np.testing.assert_array_almost_equal(pv.get(), value) logger.debug('Disconnecting threading pv %s', pv) pv.disconnect() logger.debug('Disconnecting shared broadcaster %s', shared_broadcaster) shared_broadcaster.disconnect() logger.debug('Done')
def test_waveform_get_1elem(self): pv = PV(pvnames.double_arr_pv) val = pv.get(count=1, use_monitor=False) self.failUnless(isinstance(val, numpy.ndarray)) self.failUnless(len(val), 1)