The procedure for requesting AWR support has changed. Please read all about the new AWR product support process.
Page tree
Skip to end of metadata
Go to start of metadata

When you get a measurement object there is a lot of information packed into it including the data source, the name of the measurement, the plot dimensions, the type of the axes, etc.  Here is a utility class that gets and decodes all this information from a measurement.

class AwrMeasurement():
    def __init__(self, measurement: mwo.CMeasurement):
        (source, name, simulator) = self.parse_meas_string(measurement.Name)

        self.name = name
        self.source = source  # schematic name for example
        self.simulator = simulator
        self.data_type = mwo.mwMeasDataType(measurement.DataType)._name_
        self.plot_dim = measurement.PlotDimension
        self.x_units = mwo.mwUnitType(measurement.UnitType(1))._name_
        self.y_units = mwo.mwUnitType(measurement.UnitType(2))._name_

    @classmethod
    def parse_meas_string(cls, s: str) -> Tuple[str, str, str]:
        (source, name) = s.split(':')
        if '.' in source:
            (source, simulator) = source.split('.')
        else:
            simulator = ''
        return (source, name, simulator)


Using this you can parse a measurement string using:

(source, meas_name, simulator) = AwrMeasurement.parse_meas_string('Pulse Signal.HS:Vtime(PORT_1,1)')

Or create an AwrMeasurement object by passing in a CMeasurement object as in:

    m = awrde.Project.Graphs[0].Measurements[0]
    parsed_measurement = AwrMeasurement(m)
  • No labels