Exemplo n.º 1
0
 def test_6_trainNNModel(self):
     logging.info("Test Case : Train NN model.")
     filePath = 'testUseCase/supportdata/irisNN.pmml'
     logFolder = 'testUseCase/supportdata/logs'
     payload = {
         "batchSize": 15,
         "epoch": 10,
         "stepPerEpoch": 10,
         "learningRate": 0.001,
         "loss": "categorical_crossentropy",
         "metrics": ["accuracy"],
         "optimizer": "Adam",
         "testSize": 0.3,
         "scriptOutput": "NA",
         "problemType": "classification",
         "filePath": os.path.abspath(filePath),
         "tensorboardLogFolder": os.path.abspath(logFolder),
         "tensorboardUrl": '',
         'dataFolder': ''
     }
     result = Training.trainNeuralNetworkModels(payload)
     result = json.loads(result.__dict__['_container'][0])
     self.assertEqual(result['pmmlFile'],
                      filePath.split('/')[-1].replace('.pmml', ''))
     self.assertEqual(result['idforData'],
                      filePath.split('/')[-1].replace('.pmml', ''))
     self.assertEqual(result['status'], 'In Progress')
     self.assertEqual('pID' in result, True)
     Utility.deleteTaskfromMemory(result['idforData'])
     logging.info("PASSED")
Exemplo n.º 2
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	def post(self,requests):
		userInput=requests.body
		try:
			userInput=json.loads(userInput)
		except:
			return JsonResponse({'error':'Invalid Request Parameter'},status=400)
		return Training.trainMRCNN(userInput)
Exemplo n.º 3
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 def post(self, requests):
     try:
         requests.body
         # print (requests.POST.get('filePath'))
     except:
         return JsonResponse({'error': 'Invalid Request Parameter'},
                             status=400)
     return Training.trainNeuralNetworkModels(requests)
Exemplo n.º 4
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 def test_4_AutoMLSendData(self):
     logging.info("Test Case : Send data for AutoML.")
     filePath = os.path.abspath(
         'testUseCase/supportdata/mpg_data_example2.csv')
     result = Training.autoMLdataprocess(filePath)
     self.assertEqual(
         'idforData' in json.loads(result.__dict__['_container'][0]), True)
     logging.info("PASSED")
Exemplo n.º 5
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	def get(self,requests):
		try:
			pathOffile=requests.GET['filePath']
			if not pathOffile:
				raise Exception("Invalid Request Parameter")
		except:
			return JsonResponse({'error':'Invalid Request Parameter'},status=400)
		return Training.autoMLdataprocess(pathOffile)
Exemplo n.º 6
0
 def get(self, requests, id_for_task):
     return Training.statusOfModel(id_for_task)
Exemplo n.º 7
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    def test_5_AutoMLTrain(self):
        logging.info(
            "Test Case : Perform preprocessing and train AutoML model.")
        filePath = os.path.abspath(
            'testUseCase/supportdata/mpg_data_example2.csv')
        result = Training.autoMLdataprocess(filePath)
        tempa = json.loads(result.__dict__['_container'][0])
        newPMMLFileName = 'xyz.pmml'
        target_variable = 'mpg'
        true = True
        false = False
        dataPreprocessingsteps = {
            "data": [{
                "position": 1,
                "variable": "mpg",
                "dtype": "float64",
                "missing_val": 0,
                "changedataType": "Continuous",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 2,
                "variable": "cylinders",
                "dtype": "int64",
                "missing_val": 0,
                "changedataType": "Continuous",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 3,
                "variable": "displacement",
                "dtype": "float64",
                "missing_val": 0,
                "changedataType": "Continuous",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 4,
                "variable": "horsepower",
                "dtype": "float64",
                "missing_val": 6,
                "changedataType": "Continuous",
                "imputation_method": "Mean",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 5,
                "variable": "weight",
                "dtype": "int64",
                "missing_val": 0,
                "changedataType": "Continuous",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 6,
                "variable": "acceleration",
                "dtype": "float64",
                "missing_val": 0,
                "changedataType": "Continuous",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 7,
                "variable": "model year",
                "dtype": "int64",
                "missing_val": 0,
                "changedataType": "Categorical",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": true
            }, {
                "position": 8,
                "variable": "origin",
                "dtype": "int64",
                "missing_val": 0,
                "changedataType": "Categorical",
                "imputation_method": "None",
                "data_transformation_step": "One Hot Encoding",
                "use_for_model": true
            }, {
                "position": 9,
                "variable": "car name",
                "dtype": "object",
                "missing_val": 0,
                "changedataType": "Categorical",
                "imputation_method": "None",
                "data_transformation_step": "None",
                "use_for_model": false
            }],
            "problem_type":
            "Regression",
            "target_variable":
            target_variable,
            "idforData":
            tempa['idforData'],
            'newPMMLFileName':
            newPMMLFileName,
            'filePath':
            filePath,
            "parameters": []
        }
        result2 = Training.autoMLtrainModel(dataPreprocessingsteps)
        result2 = json.loads(result2.__dict__['_container'][0])
        self.assertEqual('pID' in result2, True)
        self.assertEqual('status' in result2, True)
        self.assertEqual('newPMMLFileName' in result2, True)
        self.assertEqual('targetVar' in result2, True)
        self.assertEqual('problem_type' in result2, True)
        self.assertEqual('idforData' in result2, True)
        self.assertEqual(result2['status'], 'In Progress')
        self.assertEqual(result2['newPMMLFileName'], newPMMLFileName)
        self.assertEqual(result2['targetVar'], target_variable)
        self.assertEqual(result2['idforData'], tempa['idforData'])

        result = Utility.runningTaskList()
        self.assertEqual(result.status_code, 200)
        self.assertEqual(
            'runningTask' in json.loads(result.__dict__['_container'][0]),
            True)
        self.assertEqual(
            len(json.loads(result.__dict__['_container'][0])['runningTask']),
            1)

        idforData = tempa['idforData']
        result = Training.statusOfModel(idforData)
        self.assertEqual(result.status_code, 200)
        result = json.loads(result.__dict__['_container'][0])
        self.assertEqual('pID' in result, True)
        self.assertEqual('status' in result, True)
        self.assertEqual('idforData' in result, True)

        idforData = tempa['idforData']
        result = Utility.deleteTaskfromMemory(idforData)
        self.assertEqual(
            'idforData' in json.loads(result.__dict__['_container'][0]), True)
        self.assertEqual(
            'message' in json.loads(result.__dict__['_container'][0]), True)
        self.assertEqual(
            json.loads(result.__dict__['_container'][0])['idforData'],
            tempa['idforData'])
        self.assertEqual(
            json.loads(result.__dict__['_container'][0])['message'],
            'Deleted successfully')

        result = Utility.runningTaskList()
        self.assertEqual(result.status_code, 200)
        self.assertEqual(
            'runningTask' in json.loads(result.__dict__['_container'][0]),
            True)
        self.assertEqual(
            len(json.loads(result.__dict__['_container'][0])['runningTask']),
            0)
        logging.info("PASSED")