skbio.table.Table.merge#
- Table.merge(other, sample='union', observation='union', sample_metadata_f=<function prefer_self>, observation_metadata_f=<function prefer_self>)[source]#
Merge two tables together
The axes, samples and observations, can be controlled independently. Both can work on either “union” or “intersection”.
sample_metadata_f and observation_metadata_f define how to merge metadata between tables. The default is to just keep the metadata associated to self if self has metadata otherwise take metadata from other. These functions are given both metadata dicts and must return a single metadata dict
- Parameters:
- otherbiom.Table or Iterable of Table
The other table to merge with this one. If an iterable, the tables are expected to not have metadata.
- sample‘union’, ‘intersection’, optional
How the sample axis is handled
- observation‘union’, ‘intersection’, optional
How the observation axis is handled
- sample_metadata_ffunction, optional
Defaults to
biom.util.prefer_self. Defines how to handle sample metadata during merge.- obesrvation_metadata_ffunction, optional
Defaults to
biom.util.prefer_self. Defines how to handle observation metdata during merge.
- Returns:
- biom.Table
The merged table
Notes
- If
sample_metadata_fandobservation_metadata_fare None, then a fast merge is applied.
- If
There is an implicit type conversion to
float.The return type is always that of
self
Examples
>>> import numpy as np >>> from biom.table import Table
Create a 2x2 table and a 3x2 table:
>>> d_a = np.asarray([[2, 0], [6, 1]]) >>> t_a = Table(d_a, ['O1', 'O2'], ['S1', 'S2']) >>> d_b = np.asarray([[4, 5], [0, 3], [10, 10]]) >>> t_b = Table(d_b, ['O1', 'O2', 'O3'], ['S1', 'S2'])
Merging the table results in the overlapping samples/observations (see O1 and S2) to be summed and the non-overlapping ones to be added to the resulting table (see S3).
>>> merged_table = t_a.merge(t_b) >>> print(merged_table) # Constructed from biom file #OTU ID S1 S2 O1 6.0 5.0 O2 6.0 4.0 O3 10.0 10.0