def Predict(self):
self._scriptWeightDict = self._dataframe_context.get_ml_model_prediction_weight()
self._scriptStages = {
"initialization":{
"summary":"Initialized the Decision Tree Regression Scripts",
"weight":2
},
"predictionStart":{
"summary":"Decision Tree Regression Model Prediction Started",
"weight":2
},
"predictionFinished":{
"summary":"Decision Tree Regression Model Prediction Finished",
"weight":6
}
}
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"initialization","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
SQLctx = SQLContext(sparkContext=self._spark.sparkContext, sparkSession=self._spark)
dataSanity = True
categorical_columns = self._dataframe_helper.get_string_columns()
uid_col = self._dataframe_context.get_uid_column()
if self._metaParser.check_column_isin_ignored_suggestion(uid_col):
categorical_columns = list(set(categorical_columns) - {uid_col})
allDateCols = self._dataframe_context.get_date_columns()
categorical_columns = list(set(categorical_columns)-set(allDateCols))
numerical_columns = self._dataframe_helper.get_numeric_columns()
result_column = self._dataframe_context.get_result_column()
test_data_path = self._dataframe_context.get_input_file()
if self._mlEnv == "spark":
score_data_path = self._dataframe_context.get_score_path()+"/data.csv"
trained_model_path = "file://" + self._dataframe_context.get_model_path()
trained_model_path += "/model"
pipeline_path = "/".join(trained_model_path.split("/")[:-1])+"/pipeline"
print "trained_model_path",trained_model_path
print "pipeline_path",pipeline_path
print "score_data_path",score_data_path
pipelineModel = MLUtils.load_pipeline(pipeline_path)
trained_model = MLUtils.load_dtree_regresssion_pyspark_model(trained_model_path)
df = self._data_frame
indexed = pipelineModel.transform(df)
transformed = trained_model.transform(indexed)
if result_column in transformed.columns:
transformed = transformed.withColumnRenamed(result_column,"originalLabel")
transformed = transformed.withColumnRenamed("prediction",result_column)
pandas_scored_df = transformed.select(list(set(self._data_frame.columns+[result_column]))).toPandas()
if score_data_path.startswith("file"):
score_data_path = score_data_path[7:]
pandas_scored_df.to_csv(score_data_path,header=True,index=False)
print "STARTING Measure ANALYSIS ..."
columns_to_keep = []
columns_to_drop = []
columns_to_keep = self._dataframe_context.get_score_consider_columns()
if len(columns_to_keep) > 0:
columns_to_drop = list(set(df.columns)-set(columns_to_keep))
else:
columns_to_drop += ["predicted_probability"]
columns_to_drop = [x for x in columns_to_drop if x in df.columns and x != result_column]
print "columns_to_drop",columns_to_drop
spark_scored_df = transformed.select(list(set(columns_to_keep+[result_column])))
elif self._mlEnv == "sklearn":
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"predictionStart","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
score_data_path = self._dataframe_context.get_score_path()+"/data.csv"
trained_model_path = "file://" + self._dataframe_context.get_model_path()
trained_model_path += "/"+self._dataframe_context.get_model_for_scoring()+".pkl"
print "trained_model_path",trained_model_path
print "score_data_path",score_data_path
if trained_model_path.startswith("file"):
trained_model_path = trained_model_path[7:]
trained_model = joblib.load(trained_model_path)
model_columns = self._dataframe_context.get_model_features()
print "model_columns",model_columns
df = self._data_frame.toPandas()
# pandas_df = MLUtils.factorize_columns(df,[x for x in categorical_columns if x != result_column])
pandas_df = MLUtils.create_dummy_columns(df,[x for x in categorical_columns if x != result_column])
pandas_df = MLUtils.fill_missing_columns(pandas_df,model_columns,result_column)
if uid_col:
pandas_df = pandas_df[[x for x in pandas_df.columns if x != uid_col]]
y_score = trained_model.predict(pandas_df)
scoreKpiArray = MLUtils.get_scored_data_summary(y_score)
kpiCard = NormalCard()
kpiCardData = [KpiData(data=x) for x in scoreKpiArray]
kpiCard.set_card_data(kpiCardData)
kpiCard.set_cente_alignment(True)
print CommonUtils.convert_python_object_to_json(kpiCard)
self._result_setter.set_kpi_card_regression_score(kpiCard)
pandas_df[result_column] = y_score
df[result_column] = y_score
df.to_csv(score_data_path,header=True,index=False)
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"predictionFinished","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
print "STARTING Measure ANALYSIS ..."
columns_to_keep = []
columns_to_drop = []
columns_to_keep = self._dataframe_context.get_score_consider_columns()
if len(columns_to_keep) > 0:
columns_to_drop = list(set(df.columns)-set(columns_to_keep))
else:
columns_to_drop += ["predicted_probability"]
columns_to_drop = [x for x in columns_to_drop if x in df.columns and x != result_column]
print "columns_to_drop",columns_to_drop
pandas_scored_df = df[list(set(columns_to_keep+[result_column]))]
spark_scored_df = SQLctx.createDataFrame(pandas_scored_df)
# spark_scored_df.write.csv(score_data_path+"/data",mode="overwrite",header=True)
# TODO update metadata for the newly created dataframe
self._dataframe_context.update_consider_columns(columns_to_keep)
print spark_scored_df.printSchema()
df_helper = DataFrameHelper(spark_scored_df, self._dataframe_context,self._metaParser)
df_helper.set_params()
df = df_helper.get_data_frame()
# self._dataframe_context.set_dont_send_message(True)
try:
fs = time.time()
descr_stats_obj = DescriptiveStatsScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,scriptWeight=self._scriptWeightDict,analysisName="Descriptive analysis")
descr_stats_obj.Run()
print "DescriptiveStats Analysis Done in ", time.time() - fs, " seconds."
except:
print "Frequency Analysis Failed "
# try:
# fs = time.time()
# df_helper.fill_na_dimension_nulls()
# df = df_helper.get_data_frame()
# dt_reg = DecisionTreeRegressionScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,self._metaParser,scriptWeight=self._scriptWeightDict,analysisName="Predictive modeling")
# dt_reg.Run()
# print "DecisionTrees Analysis Done in ", time.time() - fs, " seconds."
# except:
# print "DTREE FAILED"
try:
fs = time.time()
two_way_obj = TwoWayAnovaScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,self._metaParser,scriptWeight=self._scriptWeightDict,analysisName="Measure vs. Dimension")
two_way_obj.Run()
print "OneWayAnova Analysis Done in ", time.time() - fs, " seconds."
except:
print "Anova Analysis Failed"
def Predict(self):
self._scriptWeightDict = self._dataframe_context.get_ml_model_prediction_weight(
)
self._scriptStages = {
"initialization": {
"summary": "Initialized the Naive Bayes Scripts",
"weight": 2
},
"prediction": {
"summary": "Spark ML Naive Bayes Model Prediction Finished",
"weight": 2
},
"frequency": {
"summary": "descriptive analysis finished",
"weight": 2
},
"chisquare": {
"summary": "chi Square analysis finished",
"weight": 4
},
"completion": {
"summary": "all analysis finished",
"weight": 4
},
}
self._completionStatus += self._scriptWeightDict[self._analysisName][
"total"] * self._scriptStages["initialization"]["weight"] / 10
progressMessage = CommonUtils.create_progress_message_object(self._analysisName,\
"initialization",\
"info",\
self._scriptStages["initialization"]["summary"],\
self._completionStatus,\
self._completionStatus)
CommonUtils.save_progress_message(self._messageURL, progressMessage)
self._dataframe_context.update_completion_status(
self._completionStatus)
SQLctx = SQLContext(sparkContext=self._spark.sparkContext,
sparkSession=self._spark)
dataSanity = True
level_counts_train = self._dataframe_context.get_level_count_dict()
categorical_columns = self._dataframe_helper.get_string_columns()
numerical_columns = self._dataframe_helper.get_numeric_columns()
time_dimension_columns = self._dataframe_helper.get_timestamp_columns()
result_column = self._dataframe_context.get_result_column()
categorical_columns = [
x for x in categorical_columns if x != result_column
]
level_counts_score = CommonUtils.get_level_count_dict(
self._data_frame,
categorical_columns,
self._dataframe_context.get_column_separator(),
output_type="dict",
dataType="spark")
for key in level_counts_train:
if key in level_counts_score:
if level_counts_train[key] != level_counts_score[key]:
dataSanity = False
else:
dataSanity = False
test_data_path = self._dataframe_context.get_input_file()
score_data_path = self._dataframe_context.get_score_path(
) + "/data.csv"
trained_model_path = self._dataframe_context.get_model_path()
trained_model_path = "/".join(
trained_model_path.split("/")[:-1]
) + "/" + self._slug + "/" + self._dataframe_context.get_model_for_scoring(
)
# score_summary_path = self._dataframe_context.get_score_path()+"/Summary/summary.json"
pipelineModel = MLUtils.load_pipeline(trained_model_path)
df = self._data_frame
transformed = pipelineModel.transform(df)
label_indexer_dict = MLUtils.read_string_indexer_mapping(
trained_model_path, SQLctx)
prediction_to_levels = udf(lambda x: label_indexer_dict[x],
StringType())
transformed = transformed.withColumn(
result_column, prediction_to_levels(transformed.prediction))
if "probability" in transformed.columns:
probability_dataframe = transformed.select(
[result_column, "probability"]).toPandas()
probability_dataframe = probability_dataframe.rename(
index=str, columns={result_column: "predicted_class"})
probability_dataframe[
"predicted_probability"] = probability_dataframe[
"probability"].apply(lambda x: max(x))
self._score_summary[
"prediction_split"] = MLUtils.calculate_scored_probability_stats(
probability_dataframe)
self._score_summary["result_column"] = result_column
scored_dataframe = transformed.select(
categorical_columns + time_dimension_columns +
numerical_columns + [result_column, "probability"]).toPandas()
scored_dataframe['predicted_probability'] = probability_dataframe[
"predicted_probability"].values
# scored_dataframe = scored_dataframe.rename(index=str, columns={"predicted_probability": "probability"})
else:
self._score_summary["prediction_split"] = []
self._score_summary["result_column"] = result_column
scored_dataframe = transformed.select(categorical_columns +
time_dimension_columns +
numerical_columns +
[result_column]).toPandas()
labelMappingDict = self._dataframe_context.get_label_map()
if score_data_path.startswith("file"):
score_data_path = score_data_path[7:]
scored_dataframe.to_csv(score_data_path, header=True, index=False)
uidCol = self._dataframe_context.get_uid_column()
if uidCol == None:
uidCols = self._metaParser.get_suggested_uid_columns()
if len(uidCols) > 0:
uidCol = uidCols[0]
uidTableData = []
predictedClasses = list(scored_dataframe[result_column].unique())
if uidCol:
if uidCol in df.columns:
for level in predictedClasses:
levelDf = scored_dataframe[scored_dataframe[result_column]
== level]
levelDf = levelDf[[
uidCol, "predicted_probability", result_column
]]
levelDf.sort_values(by="predicted_probability",
ascending=False,
inplace=True)
levelDf["predicted_probability"] = levelDf[
"predicted_probability"].apply(
lambda x: humanize.apnumber(x * 100) + "%"
if x * 100 >= 10 else str(int(x * 100)) + "%")
uidTableData.append(levelDf[:5])
uidTableData = pd.concat(uidTableData)
uidTableData = [list(arr) for arr in list(uidTableData.values)]
uidTableData = [[uidCol, "Probability", result_column]
] + uidTableData
uidTable = TableData()
uidTable.set_table_width(25)
uidTable.set_table_data(uidTableData)
uidTable.set_table_type("normalHideColumn")
self._result_setter.set_unique_identifier_table(
json.loads(
CommonUtils.convert_python_object_to_json(uidTable)))
self._completionStatus += self._scriptWeightDict[self._analysisName][
"total"] * self._scriptStages["prediction"]["weight"] / 10
progressMessage = CommonUtils.create_progress_message_object(self._analysisName,\
"prediction",\
"info",\
self._scriptStages["prediction"]["summary"],\
self._completionStatus,\
self._completionStatus)
CommonUtils.save_progress_message(self._messageURL, progressMessage)
self._dataframe_context.update_completion_status(
self._completionStatus)
print("STARTING DIMENSION ANALYSIS ...")
columns_to_keep = []
columns_to_drop = []
columns_to_keep = self._dataframe_context.get_score_consider_columns()
if len(columns_to_keep) > 0:
columns_to_drop = list(set(df.columns) - set(columns_to_keep))
else:
columns_to_drop += ["predicted_probability"]
scored_df = transformed.select(categorical_columns +
time_dimension_columns +
numerical_columns + [result_column])
columns_to_drop = [
x for x in columns_to_drop if x in scored_df.columns
]
modified_df = scored_df.select(
[x for x in scored_df.columns if x not in columns_to_drop])
resultColLevelCount = dict(
modified_df.groupby(result_column).count().collect())
self._metaParser.update_column_dict(
result_column, {
"LevelCount": resultColLevelCount,
"numberOfUniqueValues": len(resultColLevelCount.keys())
})
self._dataframe_context.set_story_on_scored_data(True)
self._dataframe_context.update_consider_columns(columns_to_keep)
df_helper = DataFrameHelper(modified_df, self._dataframe_context,
self._metaParser)
df_helper.set_params()
spark_scored_df = df_helper.get_data_frame()
if len(predictedClasses) >= 2:
try:
fs = time.time()
df_decision_tree_obj = DecisionTrees(
spark_scored_df,
df_helper,
self._dataframe_context,
self._spark,
self._metaParser,
scriptWeight=self._scriptWeightDict,
analysisName=self._analysisName).test_all(
dimension_columns=[result_column])
narratives_obj = CommonUtils.as_dict(
DecisionTreeNarrative(result_column,
df_decision_tree_obj,
self._dataframe_helper,
self._dataframe_context,
self._metaParser,
self._result_setter,
story_narrative=None,
analysisName=self._analysisName,
scriptWeight=self._scriptWeightDict))
print(narratives_obj)
except Exception as e:
print("DecisionTree Analysis Failed ", str(e))
else:
data_dict = {
"npred": len(predictedClasses),
"nactual": len(labelMappingDict.values())
}
if data_dict["nactual"] > 2:
levelCountDict[predictedClasses[0]] = resultColLevelCount[
predictedClasses[0]]
levelCountDict["Others"] = sum([
v for k, v in resultColLevelCount.items()
if k != predictedClasses[0]
])
else:
levelCountDict = resultColLevelCount
otherClass = list(
set(labelMappingDict.values()) - set(predictedClasses))[0]
levelCountDict[otherClass] = 0
print(levelCountDict)
total = float(
sum([x for x in levelCountDict.values() if x != None]))
levelCountTuple = [({
"name":
k,
"count":
v,
"percentage":
humanize.apnumber(v * 100 / total) + "%"
}) for k, v in levelCountDict.items() if v != None]
levelCountTuple = sorted(levelCountTuple,
key=lambda x: x["count"],
reverse=True)
data_dict["blockSplitter"] = "|~NEWBLOCK~|"
data_dict["targetcol"] = result_column
data_dict["nlevel"] = len(levelCountDict.keys())
data_dict["topLevel"] = levelCountTuple[0]
data_dict["secondLevel"] = levelCountTuple[1]
maincardSummary = NarrativesUtils.get_template_output(
"/apps/", 'scorewithoutdtree.html', data_dict)
main_card = NormalCard()
main_card_data = []
main_card_narrative = NarrativesUtils.block_splitter(
maincardSummary, "|~NEWBLOCK~|")
main_card_data += main_card_narrative
chartData = NormalChartData([levelCountDict]).get_data()
chartJson = ChartJson(data=chartData)
chartJson.set_title(result_column)
chartJson.set_chart_type("donut")
mainCardChart = C3ChartData(data=chartJson)
mainCardChart.set_width_percent(33)
main_card_data.append(mainCardChart)
uidTable = self._result_setter.get_unique_identifier_table()
if uidTable != None:
main_card_data.append(uidTable)
main_card.set_card_data(main_card_data)
main_card.set_card_name(
"Predicting Key Drivers of {}".format(result_column))
self._result_setter.set_score_dtree_cards([main_card], {})
def Predict(self):
self._scriptWeightDict = self._dataframe_context.get_ml_model_prediction_weight()
self._scriptStages = {
"initialization":{
"summary":"Initialized the Generalized Linear Regression Scripts",
"weight":2
},
"predictionStart":{
"summary":"Generalized Linear Regression Model Prediction Started",
"weight":2
},
"predictionFinished":{
"summary":"Generalized Linear Regression Model Prediction Finished",
"weight":6
}
}
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"initialization","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
SQLctx = SQLContext(sparkContext=self._spark.sparkContext, sparkSession=self._spark)
dataSanity = True
categorical_columns = self._dataframe_helper.get_string_columns()
uid_col = self._dataframe_context.get_uid_column()
if self._metaParser.check_column_isin_ignored_suggestion(uid_col):
categorical_columns = list(set(categorical_columns) - {uid_col})
allDateCols = self._dataframe_context.get_date_columns()
categorical_columns = list(set(categorical_columns)-set(allDateCols))
numerical_columns = self._dataframe_helper.get_numeric_columns()
result_column = self._dataframe_context.get_result_column()
test_data_path = self._dataframe_context.get_input_file()
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"predictionStart","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
test_data_path = self._dataframe_context.get_input_file()
score_data_path = self._dataframe_context.get_score_path()+"/data.csv"
trained_model_path = "file://" + self._dataframe_context.get_model_path()
trained_model_path += "/model"
pipeline_path = "/".join(trained_model_path.split("/")[:-1])+"/pipeline"
print "trained_model_path",trained_model_path
print "pipeline_path",pipeline_path
print "score_data_path",score_data_path
pipelineModel = MLUtils.load_pipeline(pipeline_path)
trained_model = MLUtils.load_generalized_linear_regresssion_pyspark_model(trained_model_path)
df = self._data_frame
indexed = pipelineModel.transform(df)
transformed = trained_model.transform(indexed)
if result_column in transformed.columns:
transformed = transformed.withColumnRenamed(result_column,"originalLabel")
transformed = transformed.withColumnRenamed("prediction",result_column)
pandas_scored_df = transformed.select(list(set(self._data_frame.columns+[result_column]))).toPandas()
if score_data_path.startswith("file"):
score_data_path = score_data_path[7:]
pandas_scored_df.to_csv(score_data_path,header=True,index=False)
CommonUtils.create_update_and_save_progress_message(self._dataframe_context,self._scriptWeightDict,self._scriptStages,self._slug,"predictionFinished","info",display=True,emptyBin=False,customMsg=None,weightKey="total")
print "STARTING Measure ANALYSIS ..."
columns_to_keep = []
columns_to_drop = []
columns_to_keep = self._dataframe_context.get_score_consider_columns()
if len(columns_to_keep) > 0:
columns_to_drop = list(set(df.columns)-set(columns_to_keep))
else:
columns_to_drop += ["predicted_probability"]
columns_to_drop = [x for x in columns_to_drop if x in df.columns and x != result_column]
print "columns_to_drop",columns_to_drop
spark_scored_df = transformed.select(list(set(columns_to_keep+[result_column])))
df_helper = DataFrameHelper(spark_scored_df, self._dataframe_context,self._metaParser)
df_helper.set_params()
df = df_helper.get_data_frame()
# self._dataframe_context.set_dont_send_message(True)
try:
fs = time.time()
descr_stats_obj = DescriptiveStatsScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,scriptWeight=self._scriptWeightDict,analysisName="Descriptive analysis")
descr_stats_obj.Run()
print "DescriptiveStats Analysis Done in ", time.time() - fs, " seconds."
except:
print "Frequency Analysis Failed "
try:
fs = time.time()
df_helper.fill_na_dimension_nulls()
df = df_helper.get_data_frame()
dt_reg = DecisionTreeRegressionScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,self._metaParser,scriptWeight=self._scriptWeightDict,analysisName="Predictive modeling")
dt_reg.Run()
print "DecisionTrees Analysis Done in ", time.time() - fs, " seconds."
except:
print "DTREE FAILED"
try:
fs = time.time()
two_way_obj = TwoWayAnovaScript(df, df_helper, self._dataframe_context, self._result_setter, self._spark,self._prediction_narrative,self._metaParser,scriptWeight=self._scriptWeightDict,analysisName="Measure vs. Dimension")
two_way_obj.Run()
print "OneWayAnova Analysis Done in ", time.time() - fs, " seconds."
except:
print "Anova Analysis Failed"
def Predict(self):
SQLctx = SQLContext(sparkContext=self._spark.sparkContext,
sparkSession=self._spark)
dataSanity = True
level_counts_train = self._dataframe_context.get_level_count_dict()
categorical_columns = self._dataframe_helper.get_string_columns()
numerical_columns = self._dataframe_helper.get_numeric_columns()
time_dimension_columns = self._dataframe_helper.get_timestamp_columns()
result_column = self._dataframe_context.get_result_column()
categorical_columns = [
x for x in categorical_columns if x != result_column
]
level_counts_score = CommonUtils.get_level_count_dict(
self._data_frame,
categorical_columns,
self._dataframe_context.get_column_separator(),
output_type="dict",
dataType="spark")
for key in level_counts_train:
if key in level_counts_score:
if level_counts_train[key] != level_counts_score[key]:
dataSanity = False
else:
dataSanity = False
test_data_path = self._dataframe_context.get_input_file()
score_data_path = self._dataframe_context.get_score_path(
) + "/ScoredData/data.csv"
trained_model_path = self._dataframe_context.get_model_path()
if trained_model_path.endswith(".pkl"):
trained_model_path = "/".join(
trained_model_path.split("/")[:-1]) + "/model"
pipeline_path = "/".join(
trained_model_path.split("/")[:-1]) + "/pipeline"
score_summary_path = self._dataframe_context.get_score_path(
) + "/Summary/summary.json"
pipelineModel = MLUtils.load_pipeline(pipeline_path)
if self._classifier == "OneVsRest":
trained_model = MLUtils.load_one_vs_rest_model(trained_model_path)
elif self._classifier == "lr":
trained_model = MLUtils.load_logistic_model(trained_model_path)
df = self._data_frame
indexed = pipelineModel.transform(df)
transformed = trained_model.transform(indexed)
label_indexer_dict = MLUtils.read_string_indexer_mapping(
pipeline_path, SQLctx)
prediction_to_levels = udf(lambda x: label_indexer_dict[x],
StringType())
transformed = transformed.withColumn(
result_column, prediction_to_levels(transformed.prediction))
# udf_to_calculate_probability = udf(lambda x:max(x[0]))
# transformed = transformed.withColumn("predicted_probability",udf_to_calculate_probability(transformed.probability))
# print transformed.select("predicted_probability").show(5)
if "probability" in transformed.columns:
probability_dataframe = transformed.select(
[result_column, "probability"]).toPandas()
probability_dataframe = probability_dataframe.rename(
index=str, columns={result_column: "predicted_class"})
probability_dataframe[
"predicted_probability"] = probability_dataframe[
"probability"].apply(lambda x: max(x))
self._score_summary[
"prediction_split"] = MLUtils.calculate_scored_probability_stats(
probability_dataframe)
self._score_summary["result_column"] = result_column
scored_dataframe = transformed.select(
categorical_columns + time_dimension_columns +
numerical_columns + [result_column, "probability"]).toPandas()
# scored_dataframe = scored_dataframe.rename(index=str, columns={"predicted_probability": "probability"})
else:
self._score_summary["prediction_split"] = []
self._score_summary["result_column"] = result_column
scored_dataframe = transformed.select(categorical_columns +
time_dimension_columns +
numerical_columns +
[result_column]).toPandas()
if score_data_path.startswith("file"):
score_data_path = score_data_path[7:]
scored_dataframe.to_csv(score_data_path, header=True, index=False)
# print json.dumps({"scoreSummary":self._score_summary},indent=2)
CommonUtils.write_to_file(
score_summary_path,
json.dumps({"scoreSummary": self._score_summary}))
print "STARTING DIMENSION ANALYSIS ..."
columns_to_keep = []
columns_to_drop = []
considercolumnstype = self._dataframe_context.get_score_consider_columns_type(
)
considercolumns = self._dataframe_context.get_score_consider_columns()
if considercolumnstype != None:
if considercolumns != None:
if considercolumnstype == ["excluding"]:
columns_to_drop = considercolumns
elif considercolumnstype == ["including"]:
columns_to_keep = considercolumns
if len(columns_to_keep) > 0:
columns_to_drop = list(set(df.columns) - set(columns_to_keep))
# spark_scored_df = transformed.select(categorical_columns+time_dimension_columns+numerical_columns+[result_column])
scored_df = transformed.select(categorical_columns +
time_dimension_columns +
numerical_columns + [result_column])
SQLctx = SQLContext(sparkContext=self._spark.sparkContext,
sparkSession=self._spark)
spark_scored_df = SQLctx.createDataFrame(scored_df.toPandas())
columns_to_drop = [
x for x in columns_to_drop if x in spark_scored_df.columns
]
modified_df = spark_scored_df.select(
[x for x in spark_scored_df.columns if x not in columns_to_drop])
df_helper = DataFrameHelper(modified_df, self._dataframe_context)
df_helper.set_params()
df = df_helper.get_data_frame()
try:
fs = time.time()
narratives_file = self._dataframe_context.get_score_path(
) + "/narratives/FreqDimension/data.json"
result_file = self._dataframe_context.get_score_path(
) + "/results/FreqDimension/data.json"
df_freq_dimension_obj = FreqDimensions(
spark_scored_df, df_helper, self._dataframe_context).test_all(
dimension_columns=[result_column])
df_freq_dimension_result = CommonUtils.as_dict(
df_freq_dimension_obj)
CommonUtils.write_to_file(result_file,
json.dumps(df_freq_dimension_result))
narratives_obj = DimensionColumnNarrative(result_column, df_helper,
self._dataframe_context,
df_freq_dimension_obj)
narratives = CommonUtils.as_dict(narratives_obj)
CommonUtils.write_to_file(narratives_file, json.dumps(narratives))
print "Frequency Analysis Done in ", time.time() - fs, " seconds."
except:
print "Frequency Analysis Failed "
try:
fs = time.time()
narratives_file = self._dataframe_context.get_score_path(
) + "/narratives/ChiSquare/data.json"
result_file = self._dataframe_context.get_score_path(
) + "/results/ChiSquare/data.json"
df_chisquare_obj = ChiSquare(df, df_helper,
self._dataframe_context).test_all(
dimension_columns=[result_column])
df_chisquare_result = CommonUtils.as_dict(df_chisquare_obj)
# print 'RESULT: %s' % (json.dumps(df_chisquare_result, indent=2))
CommonUtils.write_to_file(result_file,
json.dumps(df_chisquare_result))
chisquare_narratives = CommonUtils.as_dict(
ChiSquareNarratives(df_helper, df_chisquare_obj,
self._dataframe_context, df))
# print 'Narrarives: %s' %(json.dumps(chisquare_narratives, indent=2))
CommonUtils.write_to_file(narratives_file,
json.dumps(chisquare_narratives))
print "ChiSquare Analysis Done in ", time.time() - fs, " seconds."
except:
print "ChiSquare Analysis Failed "
