ProgenyGeneticCovarianceMatrix#

class pybrops.model.pcvmat.ProgenyGeneticCovarianceMatrix.ProgenyGeneticCovarianceMatrix[source]#

Bases: SquareTaxaSquareTraitMatrix, PandasInputOutput, CSVInputOutput

An abstract class for matrices storing progeny covariances for specific crosses.

The purpose of this abstract interface is to provide functionality for:
  1. Estimation of genetic covariances from a genomic model.

Methods

adjoin

Add additional elements to the end of the Matrix along an axis.

adjoin_taxa

Add additional elements to the end of the Matrix along the taxa axis.

adjoin_trait

Add additional elements to the end of the Matrix along the trait axis.

append

Append values to the Matrix.

append_taxa

Append values to the Matrix along the taxa axis.

append_trait

Append values to the TraitMatrix along the trait axis.

concat

Concatenate matrices together along an axis.

concat_taxa

Concatenate list of Matrix together along the taxa axis.

concat_trait

Concatenate list of Matrix together along the trait axis.

copy

Make a shallow copy of the Matrix.

deepcopy

Make a deep copy of the Matrix.

delete

Delete sub-arrays along an axis.

delete_taxa

Delete sub-arrays along the taxa axis.

delete_trait

Delete sub-arrays along the trait axis.

from_csv

Read an object from a CSV file.

from_gmod

Estimate genetic variances from a GenomicModel.

from_hdf5

Read an object from an HDF5 file.

from_pandas

Read an object from a pandas.DataFrame.

group

Sort the GroupableMatrix along an axis, then populate grouping indices.

group_taxa

Sort the Matrix along the taxa axis, then populate grouping indices for the taxa axis.

incorp

Incorporate values along the given axis before the given indices.

incorp_taxa

Incorporate values along the taxa axis before the given indices.

incorp_trait

Incorporate values along the trait axis before the given indices.

insert

Insert values along the given axis before the given indices.

insert_taxa

Insert values along the taxa axis before the given indices.

insert_trait

Insert values along the trait axis before the given indices.

is_grouped

Determine whether the Matrix has been sorted and grouped.

is_grouped_taxa

Determine whether the Matrix has been sorted and grouped along the taxa axis.

is_square

Determine whether the axes lengths for the square axes are identical.

is_square_taxa

Determine whether the taxa axes lengths for the square axes are identical.

is_square_trait

Determine whether the trait axes lengths for the square axes are identical.

lexsort

Perform an indirect stable sort using a sequence of keys.

lexsort_taxa

Perform an indirect stable sort using a sequence of keys along the taxa axis.

lexsort_trait

Perform an indirect stable sort using a sequence of keys along the trait axis.

remove

Remove sub-arrays along an axis.

remove_taxa

Remove sub-arrays along the taxa axis.

remove_trait

Remove sub-arrays along the trait axis.

reorder

Reorder elements of the Matrix using an array of indices.

reorder_taxa

Reorder elements of the Matrix along the taxa axis using an array of indices.

reorder_trait

Reorder elements of the Matrix along the trait axis using an array of indices.

select

Select certain values from the matrix.

select_taxa

Select certain values from the Matrix along the taxa axis.

select_trait

Select certain values from the Matrix along the trait axis.

sort

Sort slements of the Matrix using a sequence of keys.

sort_taxa

Sort slements of the Matrix along the taxa axis using a sequence of keys.

sort_trait

Sort slements of the Matrix along the trait axis using a sequence of keys.

to_csv

Write an object to a CSV file.

to_hdf5

Write an object to an HDF5 file.

to_pandas

Export an object to a pandas.DataFrame.

ungroup

Ungroup the GroupableMatrix along an axis by removing grouping metadata.

ungroup_taxa

Ungroup the TaxaMatrix along the taxa axis by removing taxa group metadata.

Attributes

epgc

Expected parental genome contribution to the offspring from each parent.

mat

Pointer to raw matrix object.

mat_ndim

Number of dimensions of the raw matrix.

mat_shape

Shape of the raw matrix.

nsquare

Number of axes that are square.

nsquare_taxa

Number of taxa axes that are square.

nsquare_trait

Number of trait axes that are square.

ntaxa

Number of taxa.

ntrait

Number of traits.

square_axes

Axis indices for axes that are square.

square_axes_len

Axis lengths for axes that are square.

square_taxa_axes

Axis indices for taxa axes that are square.

square_taxa_axes_len

Axis lengths for axes that are square.

square_trait_axes

Axis indices for trait axes that are square.

square_trait_axes_len

Axis lengths for axes that are square.

taxa

Taxa label.

taxa_axis

Axis along which taxa are stored.

taxa_grp

Taxa group label.

taxa_grp_len

Taxa group length.

taxa_grp_name

Taxa group name.

taxa_grp_spix

Taxa group stop index.

taxa_grp_stix

Taxa group start index.

trait

Trait label.

trait_axis

Axis along which traits are stored.

abstract __add__(value)#

Elementwise add matrices

Parameters:

value (object) – Object which to add.

Returns:

out – An object resulting from the addition.

Return type:

object

abstract __mul__(value)#

Elementwise multiply matrices

Parameters:

value (object) – Object which to multiply.

Returns:

out – An object resulting from the multiplication.

Return type:

object

abstract adjoin(values, axis, **kwargs)#

Add additional elements to the end of the Matrix along an axis.

Parameters:
  • values (Matrix or numpy.ndarray) – Values are appended to append to the Matrix.

  • axis (int) – The axis along which values are adjoined.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A copy of mat with values appended to axis. Note that adjoin does not occur in-place: a new Matrix is allocated and filled.

Return type:

Matrix

abstract adjoin_taxa(values, taxa, taxa_grp, **kwargs)#

Add additional elements to the end of the Matrix along the taxa axis.

Parameters:
  • values (Matrix, numpy.ndarray) – Values are appended to adjoin to the Matrix.

  • taxa (numpy.ndarray) – Taxa names to adjoin to the Matrix.

  • taxa_grp (numpy.ndarray) – Taxa groups to adjoin to the Matrix.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A copy of TaxaMatrix with values appended to axis. Note that adjoin does not occur in-place: a new TaxaMatrix is allocated and filled.

Return type:

TaxaMatrix

abstract adjoin_trait(values, trait, **kwargs)#

Add additional elements to the end of the Matrix along the trait axis.

Parameters:
  • values (Matrix, numpy.ndarray) – Values are appended to adjoin to the Matrix.

  • trait (numpy.ndarray) – Trait names to adjoin to the TraitMatrix.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A copy of the TraitMatrix with values appended to axis. Note that adjoin does not occur in-place: a new TraitMatrix is allocated and filled.

Return type:

TraitMatrix

abstract append(values, axis, **kwargs)#

Append values to the Matrix.

Parameters:
  • values (Matrix, numpy.ndarray) – Values are appended to append to the matrix.

  • axis (int) – The axis along which values are appended.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract append_taxa(values, taxa, taxa_grp, **kwargs)#

Append values to the Matrix along the taxa axis.

Parameters:
  • values (Matrix, numpy.ndarray) – Values are appended to append to the matrix.

  • taxa (numpy.ndarray) – Taxa names to append to the Matrix.

  • taxa_grp (numpy.ndarray) – Taxa groups to append to the Matrix.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract append_trait(values, trait, **kwargs)#

Append values to the TraitMatrix along the trait axis.

Parameters:
  • values (Matrix, numpy.ndarray) – Values are appended to append to the TraitMatrix.

  • trait (numpy.ndarray) – Trait names to append to the TraitMatrix.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract classmethod concat(mats, axis, **kwargs)#

Concatenate matrices together along an axis.

Parameters:
  • mats (Sequence of Matrix) – List of Matrix to concatenate. The matrices must have the same shape, except in the dimension corresponding to axis.

  • axis (int) – The axis along which the arrays will be joined.

  • kwargs (dict) – Additional keyword arguments

Returns:

out – The concatenated matrix. Note that concat does not occur in-place: a new Matrix is allocated and filled.

Return type:

Matrix

abstract classmethod concat_taxa(mats, **kwargs)#

Concatenate list of Matrix together along the taxa axis.

Parameters:
  • mats (Sequence of Matrix) – List of Matrix to concatenate. The matrices must have the same shape, except in the dimension corresponding to axis.

  • kwargs (dict) – Additional keyword arguments

Returns:

out – The concatenated TaxaMatrix. Note that concat does not occur in-place: a new TaxaMatrix is allocated and filled.

Return type:

TaxaMatrix

abstract classmethod concat_trait(mats, **kwargs)#

Concatenate list of Matrix together along the trait axis.

Parameters:
  • mats (Sequence of TraitMatrix) – List of TraitMatrix to concatenate. The matrices must have the same shape, except in the dimension corresponding to axis.

  • kwargs (dict) – Additional keyword arguments

Returns:

out – The concatenated TraitMatrix. Note that concat does not occur in-place: a new TraitMatrix is allocated and filled.

Return type:

TraitMatrix

abstract copy()#

Make a shallow copy of the Matrix.

Returns:

out – A shallow copy of the original Matrix.

Return type:

Matrix

abstract deepcopy(memo)#

Make a deep copy of the Matrix.

Parameters:

memo (dict) – Dictionary of memo metadata.

Returns:

out – A deep copy of the original Matrix.

Return type:

Matrix

abstract delete(obj, axis, **kwargs)#

Delete sub-arrays along an axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • axis (int) – The axis along which to delete the subarray defined by obj.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A Matrix with deleted elements. Note that concat does not occur in-place: a new Matrix is allocated and filled.

Return type:

Matrix

abstract delete_taxa(obj, **kwargs)#

Delete sub-arrays along the taxa axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A TaxaMatrix with deleted elements. Note that concat does not occur in-place: a new TaxaMatrix is allocated and filled.

Return type:

TaxaMatrix

abstract delete_trait(obj, **kwargs)#

Delete sub-arrays along the trait axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A TraitMatrix with deleted elements. Note that concat does not occur in-place: a new TraitMatrix is allocated and filled.

Return type:

TraitMatrix

abstract property epgc: tuple#

Expected parental genome contribution to the offspring from each parent.

abstract classmethod from_csv(filename, **kwargs)#

Read an object from a CSV file.

Parameters:
  • filename (str) – CSV file name from which to read.

  • kwargs (dict) – Additional keyword arguments to use for dictating importing from a CSV.

Returns:

out – An object read from a CSV file.

Return type:

CSVInputOutput

abstract classmethod from_gmod(gmod, pgmat, ncross, nprogeny, nself, gmapfn, **kwargs)[source]#

Estimate genetic variances from a GenomicModel.

Parameters:
  • gmod (GenomicModel) – GenomicModel with which to estimate genetic variances.

  • pgmat (PhasedGenotypeMatrix) – Input genomes to use to estimate genetic variances.

  • ncross (int) – Number of cross patterns to simulate for genetic covariance estimation.

  • nprogeny (int) – Number of progeny to simulate per cross to estimate genetic covariance.

  • nself (int) – Number of selfing generations post-cross pattern before ‘nprogeny’ individuals are simulated.

  • gmapfn (GeneticMapFunction) – Genetic map function with which to calculate recombination probabilities.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A matrix of genetic covariance estimations.

Return type:

ProgenyGeneticCovarianceMatrix

abstract classmethod from_hdf5(filename, groupname)#

Read an object from an HDF5 file.

Parameters:
  • filename (str, Path, h5py.File) – If str, an HDF5 file name from which to read. If Path, an HDF5 file name from which to read. If h5py.File, an opened HDF5 file from which to read.

  • groupname (str, None) – If str, an HDF5 group name under which object data is stored. If None, object is read from base HDF5 group.

Returns:

out – An object read from an HDF5 file.

Return type:

HDF5InputOutput

abstract classmethod from_pandas(df, **kwargs)#

Read an object from a pandas.DataFrame.

Parameters:
  • df (pandas.DataFrame) – Pandas dataframe from which to read.

  • kwargs (dict) – Additional keyword arguments to use for dictating importing from a pandas.DataFrame.

Returns:

out – An object read from a pandas.DataFrame.

Return type:

PandasInputOutput

abstract group(axis, **kwargs)#

Sort the GroupableMatrix along an axis, then populate grouping indices.

Parameters:
  • axis (int) – The axis along which values are grouped.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract group_taxa(**kwargs)#

Sort the Matrix along the taxa axis, then populate grouping indices for the taxa axis.

Parameters:

kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract incorp(obj, values, axis, **kwargs)#

Incorporate values along the given axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is incorporated.

  • values (numpy.ndarray) – Values to incorporate into the matrix.

  • axis (int) – The axis along which values are incorporated.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract incorp_taxa(obj, values, taxa, taxa_grp, **kwargs)#

Incorporate values along the taxa axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is incorporated.

  • values (Matrix, numpy.ndarray) – Values to incorporate into the matrix.

  • taxa (numpy.ndarray) – Taxa names to incorporate into the Matrix.

  • taxa_grp (numpy.ndarray) – Taxa groups to incorporate into the Matrix.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract incorp_trait(obj, values, trait, **kwargs)#

Incorporate values along the trait axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is incorporated.

  • values (Matrix, numpy.ndarray) – Values to incorporate into the matrix.

  • trait (numpy.ndarray) – Trait names to incorporate into the Matrix.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract insert(obj, values, axis, **kwargs)#

Insert values along the given axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is inserted.

  • values (ArrayLike) – Values to insert into the matrix.

  • axis (int) – The axis along which values are inserted.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A Matrix with values inserted. Note that insert does not occur in-place: a new Matrix is allocated and filled.

Return type:

Matrix

abstract insert_taxa(obj, values, taxa, taxa_grp, **kwargs)#

Insert values along the taxa axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is inserted.

  • values (Matrix, numpy.ndarray) – Values to insert into the matrix.

  • taxa (numpy.ndarray) – Taxa names to insert into the Matrix.

  • taxa_grp (numpy.ndarray) – Taxa groups to insert into the Matrix.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A TaxaMatrix with values inserted. Note that insert does not occur in-place: a new TaxaMatrix is allocated and filled.

Return type:

TaxaMatrix

abstract insert_trait(obj, values, trait, **kwargs)#

Insert values along the trait axis before the given indices.

Parameters:
  • obj (int, slice, or Sequence of ints) – Object that defines the index or indices before which values is inserted.

  • values (Matrix, numpy.ndarray) – Values to insert into the matrix.

  • trait (numpy.ndarray) – Trait names to insert into the TraitMatrix.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – A TraitMatrix with values inserted. Note that insert does not occur in-place: a new TraitMatrix is allocated and filled.

Return type:

TraitMatrix

abstract is_grouped(axis, **kwargs)#

Determine whether the Matrix has been sorted and grouped.

Parameters:
  • axis (int) – Axis along which to determine whether elements have been sorted and grouped.

  • kwargs (dict) – Additional keyword arguments.

Returns:

grouped – True or False indicating whether the Matrix has been sorted and grouped.

Return type:

bool

abstract is_grouped_taxa(**kwargs)#

Determine whether the Matrix has been sorted and grouped along the taxa axis.

Parameters:

kwargs (dict) – Additional keyword arguments.

Returns:

grouped – True or False indicating whether the Matrix has been sorted and grouped.

Return type:

bool

abstract is_square()#

Determine whether the axes lengths for the square axes are identical.

Returns:

outTrue if all square axes are the same length. False if not all square axes are the same length.

Return type:

bool

abstract is_square_taxa()#

Determine whether the taxa axes lengths for the square axes are identical.

Returns:

outTrue if all square taxa axes are the same length. False if not all square taxa axes are the same length.

Return type:

bool

abstract is_square_trait()#

Determine whether the trait axes lengths for the square axes are identical.

Returns:

outTrue if all square trait axes are the same length. False if not all square trait axes are the same length.

Return type:

bool

abstract lexsort(keys, axis, **kwargs)#

Perform an indirect stable sort using a sequence of keys.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • axis (int) – Axis to be indirectly sorted.

  • kwargs (dict) – Additional keyword arguments.

Returns:

indices – Array of indices that sort the keys along the specified axis.

Return type:

A (N,) ndarray of ints

abstract lexsort_taxa(keys, **kwargs)#

Perform an indirect stable sort using a sequence of keys along the taxa axis.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • kwargs (dict) – Additional keyword arguments.

Returns:

indices – Array of indices that sort the keys along the specified axis.

Return type:

A (N,) ndarray of ints

abstract lexsort_trait(keys, **kwargs)#

Perform an indirect stable sort using a sequence of keys along the trait axis.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • kwargs (dict) – Additional keyword arguments.

Returns:

indices – Array of indices that sort the keys along the specified axis.

Return type:

A (N,) ndarray of ints

abstract property mat: object#

Pointer to raw matrix object.

abstract property mat_ndim: int#

Number of dimensions of the raw matrix.

abstract property mat_shape: tuple#

Shape of the raw matrix.

abstract property nsquare: int#

Number of axes that are square.

abstract property nsquare_taxa: int#

Number of taxa axes that are square.

abstract property nsquare_trait: int#

Number of trait axes that are square.

abstract property ntaxa: int#

Number of taxa.

abstract property ntrait: int#

Number of traits.

abstract remove(obj, axis, **kwargs)#

Remove sub-arrays along an axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • axis (int) – The axis along which to remove the subarray defined by obj.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract remove_taxa(obj, **kwargs)#

Remove sub-arrays along the taxa axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract remove_trait(obj, **kwargs)#

Remove sub-arrays along the trait axis.

Parameters:
  • obj (int, slice, or Sequence of ints) – Indicate indices of sub-arrays to remove along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract reorder(indices, axis, **kwargs)#

Reorder elements of the Matrix using an array of indices. Note this modifies the Matrix in-place.

Parameters:
  • indices (A (N,) ndarray of ints, Sequence of ints) – Array of indices that reorder the matrix along the specified axis.

  • axis (int) – Axis to be reordered.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract reorder_taxa(indices, **kwargs)#

Reorder elements of the Matrix along the taxa axis using an array of indices. Note this modifies the Matrix in-place.

Parameters:
  • indices (A (N,) ndarray of ints) – Array of indices that reorder the matrix along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract reorder_trait(indices, **kwargs)#

Reorder elements of the Matrix along the trait axis using an array of indices. Note this modifies the Matrix in-place.

Parameters:
  • indices (A (N,) ndarray of ints, Sequence of ints) – Array of indices that reorder the matrix along the specified axis.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract select(indices, axis, **kwargs)#

Select certain values from the matrix.

Parameters:
  • indices (ArrayLike (Nj, ...)) – The indices of the values to select.

  • axis (int) – The axis along which values are selected.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – The output matrix with values selected. Note that select does not occur in-place: a new Matrix is allocated and filled.

Return type:

Matrix

abstract select_taxa(indices, **kwargs)#

Select certain values from the Matrix along the taxa axis.

Parameters:
  • indices (array_like (Nj, ...)) – The indices of the values to select.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – The output TaxaMatrix with values selected. Note that select does not occur in-place: a new TaxaMatrix is allocated and filled.

Return type:

TaxaMatrix

abstract select_trait(indices, **kwargs)#

Select certain values from the Matrix along the trait axis.

Parameters:
  • indices (ArrayLike (Nj, ...)) – The indices of the values to select.

  • kwargs (dict) – Additional keyword arguments.

Returns:

out – The output TraitMatrix with values selected. Note that select does not occur in-place: a new TraitMatrix is allocated and filled.

Return type:

TraitMatrix

abstract sort(keys, axis, **kwargs)#

Sort slements of the Matrix using a sequence of keys. Note this modifies the Matrix in-place.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • axis (int) – Axis to be indirectly sorted.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract sort_taxa(keys, **kwargs)#

Sort slements of the Matrix along the taxa axis using a sequence of keys. Note this modifies the Matrix in-place.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract sort_trait(keys, **kwargs)#

Sort slements of the Matrix along the trait axis using a sequence of keys. Note this modifies the Matrix in-place.

Parameters:
  • keys (A (k, N) array or tuple containing k (N,)-shaped sequences) – The k different columns to be sorted. The last column (or row if keys is a 2D array) is the primary sort key.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract property square_axes: tuple#

Axis indices for axes that are square.

abstract property square_axes_len: tuple#

Axis lengths for axes that are square.

abstract property square_taxa_axes: tuple#

Axis indices for taxa axes that are square.

abstract property square_taxa_axes_len: tuple#

Axis lengths for axes that are square.

abstract property square_trait_axes: tuple#

Axis indices for trait axes that are square.

abstract property square_trait_axes_len: tuple#

Axis lengths for axes that are square.

abstract property taxa: object#

Taxa label.

abstract property taxa_axis: int#

Axis along which taxa are stored.

abstract property taxa_grp: object#

Taxa group label.

abstract property taxa_grp_len: object#

Taxa group length.

abstract property taxa_grp_name: object#

Taxa group name.

abstract property taxa_grp_spix: object#

Taxa group stop index.

abstract property taxa_grp_stix: object#

Taxa group start index.

abstract to_csv(filename, **kwargs)#

Write an object to a CSV file.

Parameters:
  • filename (str) – CSV file name to which to write.

  • kwargs (dict) – Additional keyword arguments to use for dictating export to a CSV.

Return type:

None

abstract to_hdf5(filename, groupname, overwrite)#

Write an object to an HDF5 file.

Parameters:
  • filename (str, Path, h5py.File) – If str, an HDF5 file name to which to write. If Path, an HDF5 file path to which to write. If h5py.File, an opened HDF5 file to which to write.

  • groupname (str, None) – If str, an HDF5 group name under which object data is stored. If None, object is written to the base HDF5 group.

  • overwrite (bool) – Whether to overwrite values in an HDF5 file if a field already exists.

Return type:

None

abstract to_pandas(**kwargs)#

Export an object to a pandas.DataFrame.

Parameters:

kwargs (dict) – Additional keyword arguments to use for dictating export to a pandas.DataFrame.

Returns:

out – An output dataframe.

Return type:

pandas.DataFrame

abstract property trait: object#

Trait label.

abstract property trait_axis: int#

Axis along which traits are stored.

abstract ungroup(axis, **kwargs)#

Ungroup the GroupableMatrix along an axis by removing grouping metadata.

Parameters:
  • axis (int) – The axis along which values should be ungrouped.

  • kwargs (dict) – Additional keyword arguments.

Return type:

None

abstract ungroup_taxa(**kwargs)#

Ungroup the TaxaMatrix along the taxa axis by removing taxa group metadata.

Parameters:

kwargs (dict) – Additional keyword arguments.

Return type:

None