def setup_method(self): dummy = createDummyAxes(['a', 'b', 'c', 'd', 'e', 'f']) self.grp = ScannableGroup('grp', dummy) self.diffhw = DiffractometerScannableGroup('sixc', MockDiffcalc(6), self.grp) self.energyhw = MockMotor() self.hardware = ScannableHardwareAdapter(self.diffhw, self.energyhw)
class TestGdaHardwareMonitor(unittest.TestCase): def setUp(self): dummy = createDummyAxes(['a', 'b', 'c', 'd', 'e', 'f']) self.grp = ScannableGroup('grp', dummy) self.diffhw = DiffractometerScannableGroup('sixc', MockDiffcalc(6), self.grp) self.energyhw = MockMotor() self.hardware = ScannableHardwareAdapter(self.diffhw, self.energyhw) def test__init__Andget_axes_names(self): self.assertEquals(self.hardware.get_axes_names(), ('a', 'b', 'c', 'd', 'e', 'f')) def testGetPosition(self): self.diffhw.asynchronousMoveTo((1, 2, 3, 4, 5, 6)) self.assertEqual(self.hardware.get_position(), [1.0, 2.0, 3.0, 4.0, 5.0, 6.0]) def testGetEnergy(self): self.energyhw.asynchronousMoveTo(1.0) self.assertEqual(self.hardware.get_energy(), 1.0) def testGetWavelength(self): self.energyhw.asynchronousMoveTo(1.0) self.assertEqual(self.hardware.get_wavelength(), 12.39842 / 1.0)
def setup_module(): global you settings.hardware = ScannableHardwareAdapter(sixc_group, en) settings.geometry = SixCircle() settings.ubcalc_persister = UbCalculationNonPersister() settings.axes_scannable_group = sixc_group settings.energy_scannable = en settings.ubcalc_strategy = diffcalc.hkl.you.calc.YouUbCalcStrategy() settings.angles_to_hkl_function = diffcalc.hkl.you.calc.youAnglesToHkl from diffcalc.gdasupport import you reload(you)
class TestGdaHardwareMonitor(object): def setup_method(self): dummy = createDummyAxes(['a', 'b', 'c', 'd', 'e', 'f']) self.grp = ScannableGroup('grp', dummy) self.diffhw = DiffractometerScannableGroup('sixc', MockDiffcalc(6), self.grp) self.energyhw = MockMotor() self.hardware = ScannableHardwareAdapter(self.diffhw, self.energyhw) def test__init__Andget_axes_names(self): assert self.hardware.get_axes_names() == ('a', 'b', 'c', 'd', 'e', 'f') def testGetPosition(self): self.diffhw.asynchronousMoveTo((1, 2, 3, 4, 5, 6)) assert self.hardware.get_position() == [1.0, 2.0, 3.0, 4.0, 5.0, 6.0] def testGetEnergy(self): self.energyhw.asynchronousMoveTo(1.0) assert self.hardware.get_energy() == 1.0 def testGetWavelength(self): self.energyhw.asynchronousMoveTo(1.0) assert self.hardware.get_wavelength() == 12.39842 / 1.0
def createDiffcalcAndScannables(self): self.en = DummyPD('en') dummy = createDummyAxes(['delta', 'omega', 'chi', 'phi']) scannableGroup = ScannableGroup('fourcgrp', dummy) self.fourc = DiffractometerScannableGroup('fourc', None, scannableGroup) settings.hardware = ScannableHardwareAdapter(self.fourc, self.en) settings.geometry = Fourc() settings.ubcalc_persister = UbCalculationNonPersister() from diffcalc.dc import dcvlieg as dc reload(dc) self.dc = dc self.fourc.diffcalc = self.dc self.hkl = Hkl('hkl', self.fourc, self.dc)
def setup_method(self): self.en = DummyPD('en') dummy = createDummyAxes(['alpha', 'delta', 'omega', 'chi', 'phi']) group = ScannableGroup('fivecgrp', dummy) self.fivec = DiffractometerScannableGroup('fivec', None, group) settings.hardware = ScannableHardwareAdapter(self.fivec, self.en) settings.geometry = Fivec() settings.ubcalc_persister = UbCalculationNonPersister() from diffcalc.dc import dcvlieg as dc reload(dc) self.dc = dc self.fivec.diffcalc = self.dc self.hkl = Hkl('hkl', self.fivec, self.dc) self.hklverbose = Hkl('hkl', self.fivec, self.dc, ('theta', '2theta', 'Bin', 'Bout', 'azimuth')) self.orient()
def createDiffcalcAndScannables(self, geometryClass): self.en = DummyPD('en') dummy = createDummyAxes( ['alpha', 'delta', 'gamma', 'omega', 'chi', 'phi']) group = ScannableGroup('sixcgrp', dummy) self.sixc = DiffractometerScannableGroup('sixc', None, group) self.hardware = DummyHardwareAdapter( ('alpha', 'delta', 'gamma', 'omega', 'chi', 'phi')) settings.hardware = ScannableHardwareAdapter(self.sixc, self.en) settings.geometry = geometryClass() settings.ubcalc_persister = UbCalculationNonPersister() from diffcalc.dc import dcvlieg as dc reload(dc) self.dc = dc self.sixc.diffcalc = self.dc self.hkl = Hkl('hkl', self.sixc, self.dc)
class TestGdaHardwareMonitor(object): def setup_method(self): dummy = createDummyAxes(['a', 'b', 'c', 'd', 'e', 'f']) self.grp = ScannableGroup('grp', dummy) self.diffhw = DiffractometerScannableGroup('sixc', MockDiffcalc(6), self.grp) self.energyhw = MockMotor() self.hardware = ScannableHardwareAdapter(self.diffhw, self.energyhw) def test__init__Andget_axes_names(self): assert self.hardware.get_axes_names() == ('a', 'b', 'c', 'd', 'e', 'f') def testGetPosition(self): self.diffhw.asynchronousMoveTo((1, 2, 3, 4, 5, 6)) assert self.hardware.get_position() == [1.0, 2.0, 3.0, 4.0, 5.0, 6.0] def testGetEnergy(self): self.energyhw.asynchronousMoveTo(1.0) assert self.hardware.get_energy() == 1.0 def testGetWavelength(self): self.energyhw.asynchronousMoveTo(1.0) assert self.hardware.get_wavelength() == 12.39842 / 1.0 def testLowerLimitSetAndGet(self): self.hardware.set_lower_limit('a', -1) self.hardware.set_lower_limit('b', -2) self.hardware.set_lower_limit('c', -3) with pytest.raises(DiffcalcException): self.hardware.set_lower_limit('not an angle', 1) self.hardware.set_lower_limit('d', None) print "Should print WARNING:" self.hardware.set_lower_limit('d', None) assert self.hardware.get_lower_limit('a') == -1 assert self.hardware.get_lower_limit('c') == -3 def testUpperLimitSetAndGet(self): self.hardware.set_upper_limit('a', 1) self.hardware.set_upper_limit('b', 2) self.hardware.set_upper_limit('c', 3) with pytest.raises(DiffcalcException): self.hardware.set_upper_limit('not an angle', 1) self.hardware.set_upper_limit('d', None) print "Should print WARNING:" self.hardware.set_upper_limit('d', None) assert self.hardware.get_upper_limit('a') == 1 assert self.hardware.get_upper_limit('c') == 3