Truth.assign#
missionbio.demultiplex.dna.truth.Truth.assign
- Truth.assign(**kwargs) DataFrame #
Assign new columns to a DataFrame.
Returns a new object with all original columns in addition to new ones. Existing columns that are re-assigned will be overwritten.
- Parameters:
- **kwargsdict of {str: callable or Series}
The column names are keywords. If the values are callable, they are computed on the DataFrame and assigned to the new columns. The callable must not change input DataFrame (though pandas doesn’t check it). If the values are not callable, (e.g. a Series, scalar, or array), they are simply assigned.
- Returns:
- DataFrame
A new DataFrame with the new columns in addition to all the existing columns.
Notes
Assigning multiple columns within the same
assign
is possible. Later items in ‘**kwargs’ may refer to newly created or modified columns in ‘df’; items are computed and assigned into ‘df’ in order.Examples
>>> df = pd.DataFrame({'temp_c': [17.0, 25.0]}, ... index=['Portland', 'Berkeley']) >>> df temp_c Portland 17.0 Berkeley 25.0
Where the value is a callable, evaluated on df:
>>> df.assign(temp_f=lambda x: x.temp_c * 9 / 5 + 32) temp_c temp_f Portland 17.0 62.6 Berkeley 25.0 77.0
Alternatively, the same behavior can be achieved by directly referencing an existing Series or sequence:
>>> df.assign(temp_f=df['temp_c'] * 9 / 5 + 32) temp_c temp_f Portland 17.0 62.6 Berkeley 25.0 77.0
You can create multiple columns within the same assign where one of the columns depends on another one defined within the same assign:
>>> df.assign(temp_f=lambda x: x['temp_c'] * 9 / 5 + 32, ... temp_k=lambda x: (x['temp_f'] + 459.67) * 5 / 9) temp_c temp_f temp_k Portland 17.0 62.6 290.15 Berkeley 25.0 77.0 298.15
< Class Truth