def testProcessScanFile1(self): self.concurrentScan = createMockConcurrentScanForRealNexusFile() rootNamespaceDict = {} min_processor = MinPositionAndValue() max_processor = MaxPositionAndValue() min_processor.raise_process_exceptions = True max_processor.raise_process_exceptions = True sdp = ScanDataProcessor([min_processor, max_processor], rootNamespaceDict, raiseProcessorExceptions=True) sdp.raiseProcessorExceptions = True result = sdp.processScan(self.concurrentScan) self.assertAlmostEqual(result['maxval'].result.maxpos, -50)
class TestMax(Test): def setUp(self): Test.setUp(self) self.p = MaxPositionAndValue() def test_process(self): self.assertEqual(self.p._process(self.x, self.peak), (15., 5.0))
def testPrepareForScan(self): dataSetResult = Mock() dataSetResult.resultsDict = {'key':None} dataSetResult.keyxlabel = 'key' sdpr = ScanDataProcessorResult(dataSetResult, None, None, None, None, scanDataPointCache=self.sdpc) namespace = {'myobject': 1, 'minval': 'Non SDPR should be left alone at this stage', 'maxval': sdpr} sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], namespace, raiseProcessorExceptions=True, scanDataPointCache=self.sdpc) sdp.prepareForScan() self.assertEquals(namespace, {'myobject': 1, 'minval': 'Non SDPR should be left alone at this stage'})
def testProcessScanWithMultiInputXScannable(self): concurrentScan = MockConcurrentScan() sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], {}) report = sdp.processScan(concurrentScan) print "report:" print "***" print report print "***"
def testProcessScanWithMultiInputXScannable(self): concurrentScan = MockConcurrentScan() concurrentScan.getUserListedScannables.return_value = [self.w, self.x, self.y, self.z] concurrentScan.getScanPlotSettings.return_value.getXAxisName.return_value = 'wi1' sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], {}, raiseProcessorExceptions=True) report = sdp.processScan(concurrentScan) print "report:" print "***" print report print "***"
def testProcessScan(self): rootNamespaceDict = {} sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], rootNamespaceDict, raiseProcessorExceptions=True) report = sdp.processScan(self.concurrentScan) print "report:" print "***" print report print "***" self.assertEquals(report['minval'].name, 'minval') self.assertEquals(report['maxval'].name, 'maxval') self.assertEquals(self.x.name, sdp.last_scannable_scanned.name) print rootNamespaceDict
from gdascripts.analysis.datasetprocessor.oned.MaxPositionAndValue import MaxPositionAndValue from gdascripts.analysis.datasetprocessor.oned.MinPositionAndValue import MinPositionAndValue from gdascripts.analysis.datasetprocessor.oned.CentreOfMass import CentreOfMass from gdascripts.analysis.datasetprocessor.oned.GaussianPeakAndBackground import GaussianPeakAndBackground from gdascripts.scan.process.ScanDataProcessor import ScanDataProcessor from gdascripts.scan.process.ScanDataProcessorResult import go from gdascripts.scan import specscans from gdascripts.scan import gdascans from gda.jython.commands.GeneralCommands import alias print "Setting up scan data processor, scan_processor" scan_processor = ScanDataProcessor([ MaxPositionAndValue(), MinPositionAndValue(), CentreOfMass(), GaussianPeakAndBackground() ], globals()) alias("go") print "Creating scan commands:" ascan = specscans.Ascan([scan_processor]) a2scan = specscans.A2scan([scan_processor]) a3scan = specscans.A3scan([scan_processor]) mesh = specscans.Mesh([scan_processor]) dscan = specscans.Dscan([scan_processor]) d2scan = specscans.D2scan([scan_processor]) d3scan = specscans.D3scan([scan_processor]) scan = gdascans.Scan([scan_processor]) rscan = gdascans.Rscan([scan_processor]) alias('ascan')
def testProcessScanNamespaceWritingWorksTwice(self): sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], {}, raiseProcessorExceptions=True) sdp.processScan(self.concurrentScan) sdp.processScan(self.concurrentScan)
def testPrepareForScanDisablesGo(self): sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], {}, raiseProcessorExceptions=True, scanDataPointCache=self.sdpc) sdp.last_scannable_scanned = self.x sdp.prepareForScan() self.assertRaises(Exception, sdp.go, 3)
def testProcessScan(self): rootNamespaceDict = {} sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue(), SimpleXYDataSetProcessorWithError()], rootNamespaceDict, raiseProcessorExceptions=True) report = sdp.processScan(self.concurrentScan) print report print rootNamespaceDict
def testProcessScan(self): rootNamespaceDict = {} sdp = ScanDataProcessor([MaxPositionAndValue(), MinPositionAndValue()], rootNamespaceDict, raiseProcessorExceptions=True) report = sdp.processScan(self.concurrentScan) self.assertEquals(report, 'Scan too short to process sensibly')
from gdascripts.analysis.datasetprocessor.oned.MaxPositionAndValue import MaxPositionAndValue from gdascripts.analysis.datasetprocessor.oned.MinPositionAndValue import MinPositionAndValue from gdascripts.analysis.datasetprocessor.oned.CentreOfMass import CentreOfMass from gdascripts.analysis.datasetprocessor.oned.GaussianPeakAndBackground import GaussianPeakAndBackground from gdascripts.scan.process.ScanDataProcessor import ScanDataProcessor from gdascripts.scan.process.ScanDataProcessorResult import go from gdascripts.scan import specscans from gdascripts.scan import gdascans from gda.jython.commands.GeneralCommands import alias print "Setting up scan data processor, scan_processor" scan_processor = ScanDataProcessor( [MaxPositionAndValue(),MinPositionAndValue(),CentreOfMass(), GaussianPeakAndBackground() ], globals() ) alias("go") print "Creating scan commands:" ascan = specscans.Ascan([scan_processor]) a2scan = specscans.A2scan([scan_processor]) a3scan = specscans.A3scan([scan_processor]) mesh = specscans.Mesh([scan_processor]) dscan = specscans.Dscan([scan_processor]) d2scan = specscans.D2scan([scan_processor]) d3scan = specscans.D3scan([scan_processor]) scan=gdascans.Scan([scan_processor]) rscan=gdascans.Rscan([scan_processor]) alias('ascan'); print ascan.__doc__.split('\nUSAGE:\n\t\n ')[1] alias('a2scan');print a2scan.__doc__.split('\nUSAGE:\n\t\n ')[1] alias('a3scan');print a3scan.__doc__.split('\nUSAGE:\n\t\n ')[1] alias('mesh');print mesh.__doc__.split('\nUSAGE:\n\t\n ')[1] alias('dscan');print dscan.__doc__.split('\nUSAGE:\n\t\n ')[1] alias('d2scan');print d2scan.__doc__.split('\nUSAGE:\n\t\n ')[1]
from gdascripts.analysis.datasetprocessor.oned.MaxPositionAndValue import MaxPositionAndValue from gdascripts.analysis.datasetprocessor.oned.MinPositionAndValue import MinPositionAndValue from gdascripts.scan.process.ScanDataProcessor import ScanDataProcessor scanprocessor = ScanDataProcessor( [MaxPositionAndValue(), MinPositionAndValue()], globals()) exec("scanp = Scan([scanprocessor])") alias("scanp") #@UndefinedVariable alias("go") #@UndefinedVariable
def setUp(self): Test.setUp(self) self.p = MaxPositionAndValue()