def build_ui(cls): # Define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem( name='input_item', datatype=float, description= 'Data item to calculate average of same hour of previous day')) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle( name='output_item1', datatype=float, description='output_item1', )) outputs.append( ui.UIFunctionOutSingle( name='output_item2', datatype=float, description='output_item2', )) return inputs, outputs
def build_ui(cls): # We don't need specific input, and output the predicted condition return ([], [ ui.UIFunctionOutSingle(name='condition', datatype=str, description='Predicted condition') ])
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append( ui.UIMultiItem( name='input_items', datatype=float, description='Choose columns to multiply', required=True, )) outputs = [ui.UIFunctionOutSingle(name='output_item', datatype=float)] return (inputs, outputs)
def build_ui(cls): # Your function will UI built automatically for configuring it # This method describes the contents of the dialog that will be built # Account for each argument - specifying it as a ui object in the "inputs" or "outputs" list inputs = [] inputs.append( ui.UISingleItem(name='BPT1', datatype=float, description='BPT1')) inputs.append( ui.UISingleItem(name='BPT2', datatype=float, description='BPT2')) inputs.append( ui.UISingleItem(name='BPT3', datatype=float, description='BPT3')) inputs.append( ui.UISingleItem(name='BPT4', datatype=float, description='BPT4')) inputs.append( ui.UISingleItem(name='BPT5', datatype=float, description='BPT5')) inputs.append( ui.UISingleItem(name='BPT6', datatype=float, description='BPT6')) inputs.append( ui.UISingleItem(name='BPT7', datatype=float, description='BPT7')) inputs.append( ui.UISingleItem(name='BPT8', datatype=float, description='BPT8')) inputs.append( ui.UISingleItem(name='Powerup_Steam_Flow_Rate', datatype=float, description='Powerup Steam Flow Rate')) inputs.append( ui.UISingleItem(name='Ratio_outlet_inlet_temp', datatype=float, description='Ratio of outlet inlet temp')) inputs.append( ui.UISingleItem(name='Steam_Supply_Pressure', datatype=float, description='Steam supply pressure')) inputs.append( ui.UISingleItem(name='Turbine_Inlet_Temperature', datatype=float, description='Turbine Inlet Temperature')) inputs.append( ui.UISingleItem(name='Turbine_Outlet_Temperature', datatype=float, description='Turbine Outlet Temperature')) inputs.append( ui.UISingleItem(name='Vibration', datatype=float, description='Vibration')) outputs = [ ui.UIFunctionOutSingle( name='prediction', datatype=float, description='Output item produced by function') ] return inputs, outputs
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='timestamp', datatype=dt.datetime, description='Timestamp')) inputs.append( ui.UISingleItem(name='totalizer_hourly', datatype=float, description="Totalizer hourly")) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='timestamp', datatype=dt.datetime, description='Timestamp')) outputs.append( ui.UIFunctionOutSingle(name='output_item', datatype=float, description='DRA Usage')) return inputs, outputs
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append(ui.UISingleItem( name='input_item', datatype=float, description='Choose an item to aggregate', required=True, )) outputs = [ ui.UIFunctionOutSingle(name='output_item', datatype=float) ] return (inputs,outputs)
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='input_item', datatype=float, description='Data item to calculate daily sum')) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='output_item', datatype=float, description='HistDaySumEntity')) return inputs, outputs
def build_ui(cls): # Your function will UI built automatically for configuring it # This method describes the contents of the dialog that will be built # Account for each argument - specifying it as a ui object in the "inputs" or "outputs" list inputs = [ ui.UISingle(name='name', datatype=str, description='Name of person to greet') ] outputs = [ ui.UIFunctionOutSingle( name='greeting_col', datatype=str, description='Output item produced by function') ] return (inputs, outputs)
def build_ui(cls): # Your function will UI built automatically for configuring it # This method describes the contents of the dialog that will be built # Account for each argument - specifying it as a ui object in the "inputs" or "outputs" list inputs = [(ui.UISingleItem( name='input_item', datatype=None, description= 'Data items that have conditional values, e.g. temp and pressure')) ] outputs = [ ui.UIFunctionOutSingle( name='output_item_append', datatype=str, description='Output item produced by function') ] return (inputs, outputs)
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='input_item_1', datatype=float, description='Input item 1')) inputs.append( ui.UISingleItem(name='input_item_2', datatype=float, description="Input item 2")) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='output_item', datatype=float, description='output data')) return (inputs, outputs)
def build_ui(cls): ''' Registration metadata ''' #define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingle(name='dummy_input', datatype=str, description='Any input')) #define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle( name='output_item', datatype=bool, description='Returns a status flag of True when executed')) return (inputs, outputs)
def build_ui(cls): #define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='input_item_1', datatype=float, description='First column for correlation')) inputs.append( ui.UISingleItem(name='input_item_2', datatype=float, description='Second column for correlation')) #define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle( name='output_item', datatype=float, description='Column with the (scalar) coefficient')) return (inputs, outputs)
def build_ui(cls): #define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingle(name='nr_centroids', datatype=int, description='Number of centroids')) inputs.append( ui.UISingleItem(name='input_item_1', datatype=float, description='First column for correlation')) inputs.append( ui.UISingleItem(name='input_item_2', datatype=float, description='Second column for correlation')) #define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='label', datatype=int, description='K-Means label')) return (inputs, outputs)
def build_ui(cls): # define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='status_input_item', datatype=None, description='Item name to use for status')) inputs.append( ui.UISingle( name='include_only', datatype=str, description='Filter to include only rows with a status of this' )) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle( name='output_item', datatype=bool, description= 'Item that contains the execution status of this function')) return (inputs, outputs)
def build_ui(cls): # Your function will UI built automatically for configuring it # This method describes the contents of the dialog that will be built # Account for each argument - specifying it as a ui object in the "inputs" or "outputs" list inputs = [] inputs.append( ui.UISingleItem(name='temp', datatype=float, description='Temperature Value')) inputs.append( ui.UISingleItem(name='pressure', datatype=float, description='Pressure Value')) outputs = [ ui.UIFunctionOutSingle( name='output_value', datatype=float, description= 'Output dessa função é o calculo da temperatura e a pressao') ] return (inputs, outputs)
def build_ui(cls): # define arguments that behave as function inputs inputs = [ ui.UIMultiItem(name='features', datatype=float, description='Predictive features'), ui.UISingle( name='saved_model_name', datatype=str, description='Name of the model to use with ' 'this forecaster. This model will be retrieved from model store' ) ] # define arguments that behave as function outputs outputs = [ ui.UIFunctionOutSingle(name='target', datatype=float, description='Predicted output') ] return inputs, outputs
def build_ui(cls): #define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='input_item', datatype=float, description='Column for feature extraction')) inputs.append( ui.UISingle( name='windowsize', datatype=int, description='Window size for spectral analysis - default 24')) inputs.append( ui.UISingle(name='zscore', datatype=float, description='Zscore to be interpreted as anomaly')) #define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='output_item', datatype=float, description='zscore')) return (inputs, outputs)
def build_ui(cls): """ Registration metadata """ # define arguments that behave as function inputs inputs = [] inputs.append( ui.UISingleItem(name='date_1', datatype=dt.datetime, required=False, description=('Date data item. Use timestamp' ' if no date specified'))) inputs.append( ui.UISingle(name='ref_date', datatype=dt.datetime, description='Date value')) # define arguments that behave as function outputs outputs = [] outputs.append( ui.UIFunctionOutSingle(name='num_days', datatype=float, description='Number of days')) return (inputs, outputs)