# Licensed under a 3-clause BSD style license - see LICENSE.rst
from .index import TableIndices, TableLoc, TableILoc, TableLocIndices
import sys
from collections import OrderedDict, defaultdict
from collections.abc import Mapping
import warnings
from copy import deepcopy
import types
import numpy as np
from numpy import ma
from astropy import log
from astropy.units import Quantity, QuantityInfo
from astropy.utils import isiterable, ShapedLikeNDArray
from astropy.utils.console import color_print
from astropy.utils.metadata import MetaData
from astropy.utils.data_info import BaseColumnInfo, MixinInfo, ParentDtypeInfo, DataInfo
from astropy.utils.decorators import format_doc
from astropy.utils.exceptions import AstropyDeprecationWarning, NoValue
from astropy.io.registry import UnifiedReadWriteMethod
from . import groups
from .pprint import TableFormatter
from .column import (BaseColumn, Column, MaskedColumn, _auto_names, FalseArray,
col_copy)
from .row import Row
from .np_utils import fix_column_name
from .info import TableInfo
from .index import Index, _IndexModeContext, get_index
from .connect import TableRead, TableWrite
from . import conf
_implementation_notes = """
This string has informal notes concerning Table implementation for developers.
Things to remember:
- Table has customizable attributes ColumnClass, Column, MaskedColumn.
Table.Column is normally just column.Column (same w/ MaskedColumn)
but in theory they can be different. Table.ColumnClass is the default
class used to create new non-mixin columns, and this is a function of
the Table.masked attribute. Column creation / manipulation in a Table
needs to respect these.
- Column objects that get inserted into the Table.columns attribute must
have the info.parent_table attribute set correctly. Beware just dropping
an object into the columns dict since an existing column may
be part of another Table and have parent_table set to point at that
table. Dropping that column into `columns` of this Table will cause
a problem for the old one so the column object needs to be copied (but
not necessarily the data).
Currently replace_column is always making a copy of both object and
data if parent_table is set. This could be improved but requires a
generic way to copy a mixin object but not the data.
- Be aware of column objects that have indices set.
- `cls.ColumnClass` is a property that effectively uses the `masked` attribute
to choose either `cls.Column` or `cls.MaskedColumn`.
"""
__doctest_skip__ = ['Table.read', 'Table.write', 'Table._read',
'Table.convert_bytestring_to_unicode',
'Table.convert_unicode_to_bytestring',
]
__doctest_requires__ = {'*pandas': ['pandas']}
_pprint_docs = """
{__doc__}
Parameters
----------
max_lines : int or `None`
Maximum number of lines in table output.
max_width : int or `None`
Maximum character width of output.
show_name : bool
Include a header row for column names. Default is True.
show_unit : bool
Include a header row for unit. Default is to show a row
for units only if one or more columns has a defined value
for the unit.
show_dtype : bool
Include a header row for column dtypes. Default is True.
align : str or list or tuple or `None`
Left/right alignment of columns. Default is right (None) for all
columns. Other allowed values are '>', '<', '^', and '0=' for
right, left, centered, and 0-padded, respectively. A list of
strings can be provided for alignment of tables with multiple
columns.
"""
_pformat_docs = """
{__doc__}
Parameters
----------
max_lines : int or `None`
Maximum number of rows to output
max_width : int or `None`
Maximum character width of output
show_name : bool
Include a header row for column names. Default is True.
show_unit : bool
Include a header row for unit. Default is to show a row
for units only if one or more columns has a defined value
for the unit.
show_dtype : bool
Include a header row for column dtypes. Default is True.
html : bool
Format the output as an HTML table. Default is False.
tableid : str or `None`
An ID tag for the table; only used if html is set. Default is
"table{id}", where id is the unique integer id of the table object,
id(self)
align : str or list or tuple or `None`
Left/right alignment of columns. Default is right (None) for all
columns. Other allowed values are '>', '<', '^', and '0=' for
right, left, centered, and 0-padded, respectively. A list of
strings can be provided for alignment of tables with multiple
columns.
tableclass : str or list of str or `None`
CSS classes for the table; only used if html is set. Default is
None.
Returns
-------
lines : list
Formatted table as a list of strings.
"""
class TableReplaceWarning(UserWarning):
"""
Warning class for cases when a table column is replaced via the
Table.__setitem__ syntax e.g. t['a'] = val.
This does not inherit from AstropyWarning because we want to use
stacklevel=3 to show the user where the issue occurred in their code.
"""
pass
def descr(col):
"""Array-interface compliant full description of a column.
This returns a 3-tuple (name, type, shape) that can always be
used in a structured array dtype definition.
"""
col_dtype = 'O' if (col.info.dtype is None) else col.info.dtype
col_shape = col.shape[1:] if hasattr(col, 'shape') else ()
return (col.info.name, col_dtype, col_shape)
def has_info_class(obj, cls):
return hasattr(obj, 'info') and isinstance(obj.info, cls)
def _get_names_from_list_of_dict(rows):
"""Return list of column names if ``rows`` is a list of dict that
defines table data.
If rows is not a list of dict then return None.
"""
if rows is None:
return None
names = set()
for row in rows:
if not isinstance(row, dict):
return None
names.update(row)
return list(names)
# Note to future maintainers: when transitioning this to dict
# be sure to change the OrderedDict ref(s) in Row and in __len__().
class TableColumns(OrderedDict):
"""OrderedDict subclass for a set of columns.
This class enhances item access to provide convenient access to columns
by name or index, including slice access. It also handles renaming
of columns.
The initialization argument ``cols`` can be a list of ``Column`` objects
or any structure that is valid for initializing a Python dict. This
includes a dict, list of (key, val) tuples or [key, val] lists, etc.
Parameters
----------
cols : dict, list, tuple; optional
Column objects as data structure that can init dict (see above)
"""
def __init__(self, cols={}):
if isinstance(cols, (list, tuple)):
# `cols` should be a list of two-tuples, but it is allowed to have
# columns (BaseColumn or mixins) in the list.
newcols = []
for col in cols:
if has_info_class(col, BaseColumnInfo):
newcols.append((col.info.name, col))
else:
newcols.append(col)
cols = newcols
super().__init__(cols)
def __getitem__(self, item):
"""Get items from a TableColumns object.
::
tc = TableColumns(cols=[Column(name='a'), Column(name='b'), Column(name='c')])
tc['a'] # Column('a')
tc[1] # Column('b')
tc['a', 'b'] # <TableColumns names=('a', 'b')>
tc[1:3] # <TableColumns names=('b', 'c')>
"""
if isinstance(item, str):
return OrderedDict.__getitem__(self, item)
elif isinstance(item, (int, np.integer)):
return self.values()[item]
elif (isinstance(item, np.ndarray) and item.shape == () and item.dtype.kind == 'i'):
return self.values()[item.item()]
elif isinstance(item, tuple):
return self.__class__([self[x] for x in item])
elif isinstance(item, slice):
return self.__class__([self[x] for x in list(self)[item]])
else:
raise IndexError('Illegal key or index value for {} object'
.format(self.__class__.__name__))
def __setitem__(self, item, value, validated=False):
"""
Set item in this dict instance, but do not allow directly replacing an
existing column unless it is already validated (and thus is certain to
not corrupt the table).
NOTE: it is easily possible to corrupt a table by directly *adding* a new
key to the TableColumns attribute of a Table, e.g.
``t.columns['jane'] = 'doe'``.
"""
if item in self and not validated:
raise ValueError("Cannot replace column '{}'. Use Table.replace_column() instead."
.format(item))
super().__setitem__(item, value)
def __repr__(self):
names = (f"'{x}'" for x in self.keys())
return "<{1} names=({0})>".format(",".join(names), self.__class__.__name__)
def _rename_column(self, name, new_name):
if name == new_name:
return
if new_name in self:
raise KeyError(f"Column {new_name} already exists")
mapper = {name: new_name}
new_names = [mapper.get(name, name) for name in self]
cols = list(self.values())
self.clear()
self.update(list(zip(new_names, cols)))
# Define keys and values for Python 2 and 3 source compatibility
def keys(self):
return list(OrderedDict.keys(self))
def values(self):
return list(OrderedDict.values(self))
def isinstance(self, cls):
"""
Return a list of columns which are instances of the specified classes.
Parameters
----------
cls : class or tuple of classes
Column class (including mixin) or tuple of Column classes.
Returns
-------
col_list : list of Columns
List of Column objects which are instances of given classes.
"""
cols = [col for col in self.values() if isinstance(col, cls)]
return cols
def not_isinstance(self, cls):
"""
Return a list of columns which are not instances of the specified classes.
Parameters
----------
cls : class or tuple of classes
Column class (including mixin) or tuple of Column classes.
Returns
-------
col_list : list of Columns
List of Column objects which are not instances of given classes.
"""
cols = [col for col in self.values() if not isinstance(col, cls)]
return cols
class TableReadWrite:
def __get__(self, instance, owner_cls):
if instance is None:
# This is an unbound descriptor on the class
info = self
info._parent_cls = owner_cls
else:
info = instance.__dict__.get('info')
if info is None:
info = instance.__dict__['info'] = self.__class__(bound=True)
info._parent = instance
return info
class Table:
"""A class to represent tables of heterogeneous data.
`~astropy.table.Table` provides a class for heterogeneous tabular data.
A key enhancement provided by the `~astropy.table.Table` class over
e.g. a `numpy` structured array is the ability to easily modify the
structure of the table by adding or removing columns, or adding new
rows of data. In addition table and column metadata are fully supported.
`~astropy.table.Table` differs from `~astropy.nddata.NDData` by the
assumption that the input data consists of columns of homogeneous data,
where each column has a unique identifier and may contain additional
metadata such as the data unit, format, and description.
See also: http://docs.astropy.org/en/stable/table/
Parameters
----------
data : numpy ndarray, dict, list, Table, or table-like object, optional
Data to initialize table.
masked : bool, optional
Specify whether the table is masked.
names : list, optional
Specify column names.
dtype : list, optional
Specify column data types.
meta : dict, optional
Metadata associated with the table.
copy : bool, optional
Copy the input data. If the input is a Table the ``meta`` is always
copied regardless of the ``copy`` parameter.
Default is True.
rows : numpy ndarray, list of lists, optional
Row-oriented data for table instead of ``data`` argument.
copy_indices : bool, optional
Copy any indices in the input data. Default is True.
**kwargs : dict, optional
Additional keyword args when converting table-like object.
"""
meta = MetaData(copy=False)
# Define class attributes for core container objects to allow for subclass
# customization.
Row = Row
Column = Column
MaskedColumn = MaskedColumn
TableColumns = TableColumns
TableFormatter = TableFormatter
# Unified I/O read and write methods from .connect
read = UnifiedReadWriteMethod(TableRead)
write = UnifiedReadWriteMethod(TableWrite)
def as_array(self, keep_byteorder=False, names=None):
"""
Return a new copy of the table in the form of a structured np.ndarray or
np.ma.MaskedArray object (as appropriate).
Parameters
----------
keep_byteorder : bool, optional
By default the returned array has all columns in native byte
order. However, if this option is `True` this preserves the
byte order of all columns (if any are non-native).
names : list, optional:
List of column names to include for returned structured array.
Default is to include all table columns.
Returns
-------
table_array : np.ndarray (unmasked) or np.ma.MaskedArray (masked)
Copy of table as a numpy structured array
"""
masked = self.masked or self.has_masked_columns or self.has_masked_values
empty_init = ma.empty if masked else np.empty
if len(self.columns) == 0:
return empty_init(0, dtype=None)
sys_byteorder = ('>', '<')[sys.byteorder == 'little']
native_order = ('=', sys_byteorder)
dtype = []
cols = self.columns.values()
if names is not None:
cols = [col for col in cols if col.info.name in names]
for col in cols:
col_descr = descr(col)
byteorder = col.info.dtype.byteorder
if not keep_byteorder and byteorder not in native_order:
new_dt = np.dtype(col_descr[1]).newbyteorder('=')
col_descr = (col_descr[0], new_dt, col_descr[2])
dtype.append(col_descr)
data = empty_init(len(self), dtype=dtype)
for col in cols:
# When assigning from one array into a field of a structured array,
# Numpy will automatically swap those columns to their destination
# byte order where applicable
data[col.info.name] = col
# For masked out, masked mixin columns need to set output mask attribute.
if masked and has_info_class(col, MixinInfo) and hasattr(col, 'mask'):
data[col.info.name].mask = col.mask
return data
def __init__(self, data=None, masked=False, names=None, dtype=None,
meta=None, copy=True, rows=None, copy_indices=True,
**kwargs):
# Set up a placeholder empty table
self._set_masked(masked)
self.columns = self.TableColumns()
self.formatter = self.TableFormatter()
self._copy_indices = True # copy indices from this Table by default
self._init_indices = copy_indices # whether to copy indices in init
self.primary_key = None
# Must copy if dtype are changing
if not copy and dtype is not None:
raise ValueError('Cannot specify dtype when copy=False')
# Specifies list of names found for the case of initializing table with
# a list of dict. If data are not list of dict then this is None.
names_from_list_of_dict = None
# Row-oriented input, e.g. list of lists or list of tuples, list of
# dict, Row instance. Set data to something that the subsequent code
# will parse correctly.
if rows is not None:
if data is not None:
raise ValueError('Cannot supply both `data` and `rows` values')
if isinstance(rows, types.GeneratorType):
# Without this then the all(..) test below uses up the generator
rows = list(rows)
# Get column names if `rows` is a list of dict, otherwise this is None
names_from_list_of_dict = _get_names_from_list_of_dict(rows)
if names_from_list_of_dict:
data = rows
elif isinstance(rows, self.Row):
data = rows
else:
data = list(zip(*rows))
# Infer the type of the input data and set up the initialization
# function, number of columns, and potentially the default col names
default_names = None
if hasattr(data, '__astropy_table__'):
# Data object implements the __astropy_table__ interface method.
# Calling that method returns an appropriate instance of
# self.__class__ and respects the `copy` arg. The returned
# Table object should NOT then be copied.
data = data.__astropy_table__(self.__class__, copy, **kwargs)
copy = False
elif kwargs:
raise TypeError('__init__() got unexpected keyword argument {!r}'
.format(list(kwargs.keys())[0]))
if (isinstance(data, np.ndarray) and
data.shape == (0,) and
not data.dtype.names):
data = None
if isinstance(data, self.Row):
data = data._table[data._index:data._index + 1]
if isinstance(data, (list, tuple)):
# Get column names from `data` if it is a list of dict, otherwise this is None.
# This might be previously defined if `rows` was supplied as an init arg.
names_from_list_of_dict = (names_from_list_of_dict or
_get_names_from_list_of_dict(data))
if names_from_list_of_dict:
init_func = self._init_from_list_of_dicts
n_cols = len(names_from_list_of_dict)
else:
init_func = self._init_from_list
n_cols = len(data)
elif isinstance(data, np.ndarray):
if data.dtype.names:
init_func = self._init_from_ndarray # _struct
n_cols = len(data.dtype.names)
default_names = data.dtype.names
else:
init_func = self._init_from_ndarray # _homog
if data.shape == ():
raise ValueError('Can not initialize a Table with a scalar')
elif len(data.shape) == 1:
data = data[np.newaxis, :]
n_cols = data.shape[1]
elif isinstance(data, Mapping):
init_func = self._init_from_dict
default_names = list(data)
n_cols = len(default_names)
elif isinstance(data, Table):
# If user-input meta is None then use data.meta (if non-trivial)
if meta is None and data.meta:
# At this point do NOT deepcopy data.meta as this will happen after
# table init_func() is called. But for table input the table meta
# gets a key copy here if copy=False because later a direct object ref
# is used.
meta = data.meta if copy else data.meta.copy()
# Handle indices on input table. Copy primary key and don't copy indices
# if the input Table is in non-copy mode.
self.primary_key = data.primary_key
self._init_indices = self._init_indices and data._copy_indices
# Extract default names, n_cols, and then overwrite ``data`` to be the
# table columns so we can use _init_from_list.
default_names = data.colnames
n_cols = len(default_names)
data = list(data.columns.values())
init_func = self._init_from_list
elif data is None:
if names is None:
if dtype is None:
if meta is not None:
self.meta = deepcopy(meta) if copy else meta
return
try:
# No data nor names but dtype is available. This must be
# valid to initialize a structured array.
dtype = np.dtype(dtype)
names = dtype.names
dtype = [dtype[name] for name in names]
except Exception:
raise ValueError('dtype was specified but could not be '
'parsed for column names')
# names is guaranteed to be set at this point
init_func = self._init_from_list
n_cols = len(names)
data = [[]] * n_cols
else:
raise ValueError('Data type {} not allowed to init Table'
.format(type(data)))
# Set up defaults if names and/or dtype are not specified.
# A value of None means the actual value will be inferred
# within the appropriate initialization routine, either from
# existing specification or auto-generated.
if names is None:
names = default_names or [None] * n_cols
if dtype is None:
dtype = [None] * n_cols
# Numpy does not support bytes column names on Python 3, so fix them
# up now.
names = [fix_column_name(name) for name in names]
self._check_names_dtype(names, dtype, n_cols)
# Finally do the real initialization
init_func(data, names, dtype, n_cols, copy)
# Set table meta. If copy=True then deepcopy meta otherwise use the
# user-supplied meta directly.
if meta is not None:
self.meta = deepcopy(meta) if copy else meta
# Whatever happens above, the masked property should be set to a boolean
if self.masked not in (None, True, False):
raise TypeError("masked property must be None, True or False")
def __getstate__(self):
columns = OrderedDict((key, col if isinstance(col, BaseColumn) else col_copy(col))
for key, col in self.columns.items())
return (columns, self.meta)
def __setstate__(self, state):
columns, meta = state
self.__init__(columns, meta=meta)
@property
def mask(self):
# Dynamic view of available masks
if self.masked or self.has_masked_columns or self.has_masked_values:
mask_table = Table([getattr(col, 'mask', FalseArray(col.shape))
for col in self.itercols()],
names=self.colnames, copy=False)
# Set hidden attribute to force inplace setitem so that code like
# t.mask['a'] = [1, 0, 1] will correctly set the underlying mask.
# See #5556 for discussion.
mask_table._setitem_inplace = True
else:
mask_table = None
return mask_table
@mask.setter
def mask(self, val):
self.mask[:] = val
@property
def _mask(self):
"""This is needed so that comparison of a masked Table and a
MaskedArray works. The requirement comes from numpy.ma.core
so don't remove this property."""
return self.as_array().mask
def filled(self, fill_value=None):
"""Return copy of self, with masked values filled.
If input ``fill_value`` supplied then that value is used for all
masked entries in the table. Otherwise the individual
``fill_value`` defined for each table column is used.
Parameters
----------
fill_value : str
If supplied, this ``fill_value`` is used for all masked entries
in the entire table.
Returns
-------
filled_table : Table
New table with masked values filled
"""
if self.masked or self.has_masked_columns or self.has_masked_values:
# Get new columns with masked values filled, then create Table with those
# new cols (copy=False) but deepcopy the meta.
data = [col.filled(fill_value) if hasattr(col, 'filled') else col
for col in self.itercols()]
return self.__class__(data, meta=deepcopy(self.meta), copy=False)
else:
# Return copy of the original object.
return self.copy()
@property
def indices(self):
'''
Return the indices associated with columns of the table
as a TableIndices object.
'''
lst = []
for column in self.columns.values():
for index in column.info.indices:
if sum([index is x for x in lst]) == 0: # ensure uniqueness
lst.append(index)
return TableIndices(lst)
@property
def loc(self):
'''
Return a TableLoc object that can be used for retrieving
rows by index in a given data range. Note that both loc
and iloc work only with single-column indices.
'''
return TableLoc(self)
@property
def loc_indices(self):
"""
Return a TableLocIndices object that can be used for retrieving
the row indices corresponding to given table index key value or values.
"""
return TableLocIndices(self)
@property
def iloc(self):
'''
Return a TableILoc object that can be used for retrieving
indexed rows in the order they appear in the index.
'''
return TableILoc(self)
def add_index(self, colnames, engine=None, unique=False):
'''
Insert a new index among one or more columns.
If there are no indices, make this index the
primary table index.
Parameters
----------
colnames : str or list
List of column names (or a single column name) to index
engine : type or None
Indexing engine class to use, from among SortedArray, BST,
FastBST, FastRBT, and SCEngine. If the supplied argument is None
(by default), use SortedArray.
unique : bool
Whether the values of the index must be unique. Default is False.
'''
if isinstance(colnames, str):
colnames = (colnames,)
columns = self.columns[tuple(colnames)].values()
# make sure all columns support indexing
for col in columns:
if not getattr(col.info, '_supports_indexing', False):
raise ValueError('Cannot create an index on column "{}", of '
'type "{}"'.format(col.info.name, type(col)))
index = Index(columns, engine=engine, unique=unique)
if not self.indices:
self.primary_key = colnames
for col in columns:
col.info.indices.append(index)
def remove_indices(self, colname):
'''
Remove all indices involving the given column.
If the primary index is removed, the new primary
index will be the most recently added remaining
index.
Parameters
----------
colname : str
Name of column
'''
col = self.columns[colname]
for index in self.indices:
try:
index.col_position(col.info.name)
except ValueError:
pass
else:
for c in index.columns:
c.info.indices.remove(index)
def index_mode(self, mode):
'''
Return a context manager for an indexing mode.
Parameters
----------
mode : str
Either 'freeze', 'copy_on_getitem', or 'discard_on_copy'.
In 'discard_on_copy' mode,
indices are not copied whenever columns or tables are copied.
In 'freeze' mode, indices are not modified whenever columns are
modified; at the exit of the context, indices refresh themselves
based on column values. This mode is intended for scenarios in
which one intends to make many additions or modifications in an
indexed column.
In 'copy_on_getitem' mode, indices are copied when taking column
slices as well as table slices, so col[i0:i1] will preserve
indices.
'''
return _IndexModeContext(self, mode)
def __array__(self, dtype=None):
"""Support converting Table to np.array via np.array(table).
Coercion to a different dtype via np.array(table, dtype) is not
supported and will raise a ValueError.
"""
if dtype is not None:
raise ValueError('Datatype coercion is not allowed')
# This limitation is because of the following unexpected result that
# should have made a table copy while changing the column names.
#
# >>> d = astropy.table.Table([[1,2],[3,4]])
# >>> np.array(d, dtype=[('a', 'i8'), ('b', 'i8')])
# array([(0, 0), (0, 0)],
# dtype=[('a', '<i8'), ('b', '<i8')])
out = self.as_array()
return out.data if isinstance(out, np.ma.MaskedArray) else out
def _check_names_dtype(self, names, dtype, n_cols):
"""Make sure that names and dtype are both iterable and have
the same length as data.
"""
for inp_list, inp_str in ((dtype, 'dtype'), (names, 'names')):
if not isiterable(inp_list):
raise ValueError(f'{inp_str} must be a list or None')
if len(names) != n_cols or len(dtype) != n_cols:
raise ValueError(
'Arguments "names" and "dtype" must match number of columns'
.format(inp_str))
def _init_from_list_of_dicts(self, data, names, dtype, n_cols, copy):
"""Initialize table from a list of dictionaries representing rows."""
# Define placeholder for missing values as a unique object that cannot
# every occur in user data.
MISSING = object()
# Gather column names that exist in the input `data`.
names_from_data = set()
for row in data:
names_from_data.update(row)
# Put names into a preferred order, either using the first row of data
# if it is ordered, or alphabetically. Starting with Python 3.7, dict
# is ordered so this test can be relaxed. (In practice CPython 3.6 is
# this way, but not according to the formal spec).
if (isinstance(data[0], OrderedDict) and
set(data[0].keys()) == names_from_data):
names_from_data = list(data[0].keys())
else:
names_from_data = sorted(names_from_data)
# Note: if set(data[0].keys()) != names_from_data, this will give an
# exception later, so NO need to catch here.
# Convert list of dict into dict of list (cols), keep track of missing
# indexes and put in MISSING placeholders in the `cols` lists.
cols = {}
missing_indexes = defaultdict(list)
for name in names_from_data:
cols[name] = []
for ii, row in enumerate(data):
try:
val = row[name]
except KeyError:
missing_indexes[name].append(ii)
val = MISSING
cols[name].append(val)
# Fill the missing entries with first values
if missing_indexes:
for name, indexes in missing_indexes.items():
col = cols[name]
first_val = next(val for val in col if val is not MISSING)
for index in indexes:
col[index] = first_val
# prepare initialization
if all(name is None for name in names):
names = names_from_data
self._init_from_dict(cols, names, dtype, n_cols, copy)
# Mask the missing values if necessary, converting columns to MaskedColumn
# as needed.
if missing_indexes:
for name, indexes in missing_indexes.items():
col = self[name]
# Ensure that any Column subclasses with MISSING values can support
# setting masked values. As of astropy 4.0 the test condition below is
# always True since _init_from_dict cannot result in mixin columns.
if isinstance(col, Column) and not isinstance(col, MaskedColumn):
self[name] = self.MaskedColumn(col, copy=False)
# Finally do the masking in a mixin-safe way.
self[name][indexes] = np.ma.masked
return
def _init_from_list(self, data, names, dtype, n_cols, copy):
"""Initialize table from a list of column data. A column can be a
Column object, np.ndarray, mixin, or any other iterable object.
"""
cols = []
default_names = _auto_names(n_cols)
for col, name, default_name, dtype in zip(data, names, default_names, dtype):
col = self._convert_data_to_col(col, copy, default_name, dtype, name)
cols.append(col)
self._init_from_cols(cols)
def _convert_data_to_col(self, data, copy=True, default_name=None, dtype=None, name=None):
"""
Convert any allowed sequence data ``col`` to a column object that can be used
directly in the self.columns dict. This could be a Column, MaskedColumn,
or mixin column.
The final column name is determined by::
name or data.info.name or def_name
If ``data`` has no ``info`` then ``name = name or def_name``.
The behavior of ``copy`` for Column objects is:
- copy=True: new class instance with a copy of data and deep copy of meta
- copy=False: new class instance with same data and a key-only copy of meta
For mixin columns:
- copy=True: new class instance with copy of data and deep copy of meta
- copy=False: original instance (no copy at all)
Parameters
----------
data : object (column-like sequence)
Input column data
copy : bool
Make a copy
default_name : str
Default name
dtype : np.dtype or None
Data dtype
name : str or None
Column name
Returns
-------
col : Column, MaskedColumn, mixin-column type
Object that can be used as a column in self
"""
data_is_mixin = self._is_mixin_for_table(data)
masked_col_cls = (self.ColumnClass
if issubclass(self.ColumnClass, self.MaskedColumn)
else self.MaskedColumn)
try:
data0_is_mixin = self._is_mixin_for_table(data[0])
except Exception:
# Need broad exception, cannot predict what data[0] raises for arbitrary data
data0_is_mixin = False
# Structured ndarray gets viewed as a mixin unless already a valid
# mixin class
if (not isinstance(data, Column) and not data_is_mixin and
isinstance(data, np.ndarray) and len(data.dtype) > 1):
data = data.view(NdarrayMixin)
data_is_mixin = True
# Get the final column name using precedence. Some objects may not
# have an info attribute.
if not name:
if hasattr(data, 'info'):
name = data.info.name or default_name
else:
name = default_name
if isinstance(data, Column):
# If self.ColumnClass is a subclass of col, then "upgrade" to ColumnClass,
# otherwise just use the original class. The most common case is a
# table with masked=True and ColumnClass=MaskedColumn. Then a Column
# gets upgraded to MaskedColumn, but the converse (pre-4.0) behavior
# of downgrading from MaskedColumn to Column (for non-masked table)
# does not happen.
col_cls = self._get_col_cls_for_table(data)
elif data_is_mixin:
# Copy the mixin column attributes if they exist since the copy below
# may not get this attribute.
col = col_copy(data, copy_indices=self._init_indices) if copy else data
col.info.name = name
return col
elif data0_is_mixin:
# Handle case of a sequence of a mixin, e.g. [1*u.m, 2*u.m].
try:
col = data[0].__class__(data)
col.info.name = name
col.info.indices = []
return col
except Exception:
# If that didn't work for some reason, just turn it into np.array of object
data = np.array(data, dtype=object)
col_cls = self.ColumnClass
elif isinstance(data, np.ma.MaskedArray):
# Require that col_cls be a subclass of MaskedColumn, remembering
# that ColumnClass could be a user-defined subclass (though more-likely
# could be MaskedColumn).
col_cls = masked_col_cls
elif not hasattr(data, 'dtype'):
# If value doesn't have a dtype then convert to a masked numpy array.
# Then check if there were any masked elements. This logic is handling
# normal lists like [1, 2] but also odd-ball cases like a list of masked
# arrays (see #8977). Use np.ma.array() to do the heavy lifting.
try:
np_data = np.ma.array(data, dtype=dtype)
except Exception:
# Conversion failed for some reason, e.g. [2, 1*u.m] gives TypeError in Quantity
np_data = np.ma.array(data, dtype=object)
if np_data.ndim > 0 and len(np_data) == 0:
# Implies input was an empty list (e.g. initializing an empty table
# with pre-declared names and dtypes but no data). Here we need to
# fall through to initializing with the original data=[].
col_cls = self.ColumnClass
else:
if np_data.mask is np.ma.nomask:
data = np_data.data
col_cls = self.ColumnClass
else:
data = np_data
col_cls = masked_col_cls
copy = False
else:
# `data` is none of the above, so just go for it and try init'ing Column
col_cls = self.ColumnClass
try:
col = col_cls(name=name, data=data, dtype=dtype,
copy=copy, copy_indices=self._init_indices)
except Exception:
# Broad exception class since we don't know what might go wrong
raise ValueError('unable to convert data to Column for Table')
col = self._convert_col_for_table(col)
return col
def _init_from_ndarray(self, data, names, dtype, n_cols, copy):
"""Initialize table from an ndarray structured array"""
data_names = data.dtype.names or _auto_names(n_cols)
struct = data.dtype.names is not None
names = [name or data_names[i] for i, name in enumerate(names)]
cols = ([data[name] for name in data_names] if struct else
[data[:, i] for i in range(n_cols)])
self._init_from_list(cols, names, dtype, n_cols, copy)
def _init_from_dict(self, data, names, dtype, n_cols, copy):
"""Initialize table from a dictionary of columns"""
data_list = [data[name] for name in names]
self._init_from_list(data_list, names, dtype, n_cols, copy)
def _get_col_cls_for_table(self, col):
"""Get the correct column class to use for upgrading any Column-like object.
For a masked table, ensure any Column-like object is a subclass
of the table MaskedColumn.
For unmasked table, ensure any MaskedColumn-like object is a subclass
of the table MaskedColumn. If not a MaskedColumn, then ensure that any
Column-like object is a subclass of the table Column.
"""
col_cls = col.__class__
if self.masked:
if isinstance(col, Column) and not isinstance(col, self.MaskedColumn):
col_cls = self.MaskedColumn
else:
if isinstance(col, MaskedColumn):
if not isinstance(col, self.MaskedColumn):
col_cls = self.MaskedColumn
elif isinstance(col, Column) and not isinstance(col, self.Column):
col_cls = self.Column
return col_cls
def _convert_col_for_table(self, col):
"""
Make sure that all Column objects have correct base class for this type of
Table. For a base Table this most commonly means setting to
MaskedColumn if the table is masked. Table subclasses like QTable
override this method.
"""
if isinstance(col, Column) and not isinstance(col, self.ColumnClass):
col_cls = self._get_col_cls_for_table(col)
if col_cls is not col.__class__:
col = col_cls(col, copy=False)
return col
def _init_from_cols(self, cols):
"""Initialize table from a list of Column or mixin objects"""
lengths = set(len(col) for col in cols)
if len(lengths) > 1:
raise ValueError('Inconsistent data column lengths: {}'
.format(lengths))
# Make sure that all Column-based objects have correct class. For
# plain Table this is self.ColumnClass, but for instance QTable will
# convert columns with units to a Quantity mixin.
newcols = [self._convert_col_for_table(col) for col in cols]
self._make_table_from_cols(self, newcols)
# Deduplicate indices. It may happen that after pickling or when
# initing from an existing table that column indices which had been
# references to a single index object got *copied* into an independent
# object. This results in duplicates which will cause downstream problems.
index_dict = {}
for col in self.itercols():
for i, index in enumerate(col.info.indices or []):
names = tuple(ind_col.info.name for ind_col in index.columns)
if names in index_dict:
col.info.indices[i] = index_dict[names]
else:
index_dict[names] = index
def _new_from_slice(self, slice_):
"""Create a new table as a referenced slice from self."""
table = self.__class__(masked=self.masked)
if self.meta:
table.meta = self.meta.copy() # Shallow copy for slice
table.primary_key = self.primary_key
newcols = []
for col in self.columns.values():
newcol = col[slice_]
# Note in line below, use direct attribute access to col.indices for Column
# instances instead of the generic col.info.indices. This saves about 4 usec
# per column.
if (col if isinstance(col, Column) else col.info).indices:
# TODO : as far as I can tell the only purpose of setting _copy_indices
# here is to communicate that to the initial test in `slice_indices`.
# Why isn't that just sent as an arg to the function?
col.info._copy_indices = self._copy_indices
newcol = col.info.slice_indices(newcol, slice_, len(col))
# Don't understand why this is forcing a value on the original column.
# Normally col.info does not even have a _copy_indices attribute. Tests
# still pass if this line is deleted. (Each col.info attribute access
# is expensive).
col.info._copy_indices = True
newcols.append(newcol)
self._make_table_from_cols(table, newcols, verify=False, names=self.columns.keys())
return table
@staticmethod
def _make_table_from_cols(table, cols, verify=True, names=None):
"""
Make ``table`` in-place so that it represents the given list of ``cols``.
"""
if names is None:
names = [col.info.name for col in cols]
# Note: we do not test for len(names) == len(cols) if names is not None. In that
# case the function is being called by from "trusted" source (e.g. right above here)
# that is assumed to provide valid inputs. In that case verify=False.
if verify:
if None in names:
raise TypeError('Cannot have None for column name')
if len(set(names)) != len(names):
raise ValueError('Duplicate column names')
table.columns = table.TableColumns((name, col) for name, col in zip(names, cols))
for col in cols:
table._set_col_parent_table_and_mask(col)
def _set_col_parent_table_and_mask(self, col):
"""
Set ``col.parent_table = self`` and force ``col`` to have ``mask``
attribute if the table is masked and ``col.mask`` does not exist.
"""
# For Column instances it is much faster to do direct attribute access
# instead of going through .info
col_info = col if isinstance(col, Column) else col.info
col_info.parent_table = self
# Legacy behavior for masked table
if self.masked and not hasattr(col, 'mask'):
col.mask = FalseArray(col.shape)
def itercols(self):
"""
Iterate over the columns of this table.
Examples
--------
To iterate over the columns of a table::
>>> t = Table([[1], [2]])
>>> for col in t.itercols():
... print(col)
col0
----
1
col1
----
2
Using ``itercols()`` is similar to ``for col in t.columns.values()``
but is syntactically preferred.
"""
for colname in self.columns:
yield self[colname]
def _base_repr_(self, html=False, descr_vals=None, max_width=None,
tableid=None, show_dtype=True, max_lines=None,
tableclass=None):
if descr_vals is None:
descr_vals = [self.__class__.__name__]
if self.masked:
descr_vals.append('masked=True')
descr_vals.append('length={}'.format(len(self)))
descr = ' '.join(descr_vals)
if html:
from astropy.utils.xml.writer import xml_escape
descr = '<i>{}</i>\n'.format(xml_escape(descr))
else:
descr = f'<{descr}>\n'
if tableid is None:
tableid = 'table{id}'.format(id=id(self))
data_lines, outs = self.formatter._pformat_table(
self, tableid=tableid, html=html, max_width=max_width,
show_name=True, show_unit=None, show_dtype=show_dtype,
max_lines=max_lines, tableclass=tableclass)
out = descr + '\n'.join(data_lines)
return out
def _repr_html_(self):
return self._base_repr_(html=True, max_width=-1,
tableclass=conf.default_notebook_table_class)
def __repr__(self):
return self._base_repr_(html=False, max_width=None)
def __str__(self):
return '\n'.join(self.pformat())
def __bytes__(self):
return str(self).encode('utf-8')
@property
def has_mixin_columns(self):
"""
True if table has any mixin columns (defined as columns that are not Column
subclasses).
"""
return any(has_info_class(col, MixinInfo) for col in self.columns.values())
@property
def has_masked_columns(self):
"""True if table has any ``MaskedColumn`` columns.
This does not check for mixin columns that may have masked values, use the
``has_masked_values`` property in that case.
"""
return any(isinstance(col, MaskedColumn) for col in self.itercols())
@property
def has_masked_values(self):
"""True if column in the table has values which are masked.
This may be relatively slow for large tables as it requires checking the mask
values of each column.
"""
for col in self.itercols():
if hasattr(col, 'mask') and np.any(col.mask):
return True
else:
return False
def _is_mixin_for_table(self, col):
"""
Determine if ``col`` should be added to the table directly as
a mixin column.
"""
if isinstance(col, BaseColumn):
return False
# Is it a mixin but not not Quantity (which gets converted to Column with
# unit set).
return has_info_class(col, MixinInfo) and not has_info_class(col, QuantityInfo)
@format_doc(_pprint_docs)
def pprint(self, max_lines=None, max_width=None, show_name=True,
show_unit=None, show_dtype=False, align=None):
"""Print a formatted string representation of the table.
If no value of ``max_lines`` is supplied then the height of the
screen terminal is used to set ``max_lines``. If the terminal
height cannot be determined then the default is taken from the
configuration item ``astropy.conf.max_lines``. If a negative
value of ``max_lines`` is supplied then there is no line limit
applied.
The same applies for max_width except the configuration item is
``astropy.conf.max_width``.
"""
lines, outs = self.formatter._pformat_table(self, max_lines, max_width,
show_name=show_name, show_unit=show_unit,
show_dtype=show_dtype, align=align)
if outs['show_length']:
lines.append('Length = {} rows'.format(len(self)))
n_header = outs['n_header']
for i, line in enumerate(lines):
if i < n_header:
color_print(line, 'red')
else:
print(line)
@format_doc(_pprint_docs)
def pprint_all(self, max_lines=-1, max_width=-1, show_name=True,
show_unit=None, show_dtype=False, align=None):
"""Print a formatted string representation of the entire table.
This method is the same as `astropy.table.Table.pprint` except that
the default ``max_lines`` and ``max_width`` are both -1 so that by
default the entire table is printed instead of restricting to the size
of the screen terminal.
"""
return self.pprint(max_lines, max_width, show_name,
show_unit, show_dtype, align)
def _make_index_row_display_table(self, index_row_name):
if index_row_name not in self.columns:
idx_col = self.ColumnClass(name=index_row_name, data=np.arange(len(self)))
return self.__class__([idx_col] + self.columns.values(),
copy=False)
else:
return self
def show_in_notebook(self, tableid=None, css=None, display_length=50,
table_class='astropy-default', show_row_index='idx'):
"""Render the table in HTML and show it in the IPython notebook.
Parameters
----------
tableid : str or `None`
An html ID tag for the table. Default is ``table{id}-XXX``, where
id is the unique integer id of the table object, id(self), and XXX
is a random number to avoid conflicts when printing the same table
multiple times.
table_class : str or `None`
A string with a list of HTML classes used to style the table.
The special default string ('astropy-default') means that the string
will be retrieved from the configuration item
``astropy.table.default_notebook_table_class``. Note that these
table classes may make use of bootstrap, as this is loaded with the
notebook. See `this page <https://getbootstrap.com/css/#tables>`_
for the list of classes.
css : str
A valid CSS string declaring the formatting for the table. Defaults
to ``astropy.table.jsviewer.DEFAULT_CSS_NB``.
display_length : int, optional
Number or rows to show. Defaults to 50.
show_row_index : str or False
If this does not evaluate to False, a column with the given name
will be added to the version of the table that gets displayed.
This new column shows the index of the row in the table itself,
even when the displayed table is re-sorted by another column. Note
that if a column with this name already exists, this option will be
ignored. Defaults to "idx".
Notes
-----
Currently, unlike `show_in_browser` (with ``jsviewer=True``), this
method needs to access online javascript code repositories. This is due
to modern browsers' limitations on accessing local files. Hence, if you
call this method while offline (and don't have a cached version of
jquery and jquery.dataTables), you will not get the jsviewer features.
"""
from .jsviewer import JSViewer
from IPython.display import HTML
if tableid is None:
tableid = 'table{}-{}'.format(id(self),
np.random.randint(1, 1e6))
jsv = JSViewer(display_length=display_length)
if show_row_index:
display_table = self._make_index_row_display_table(show_row_index)
else:
display_table = self
if table_class == 'astropy-default':
table_class = conf.default_notebook_table_class
html = display_table._base_repr_(html=True, max_width=-1, tableid=tableid,
max_lines=-1, show_dtype=False,
tableclass=table_class)
columns = display_table.columns.values()
sortable_columns = [i for i, col in enumerate(columns)
if col.info.dtype.kind in 'iufc']
html += jsv.ipynb(tableid, css=css, sort_columns=sortable_columns)
return HTML(html)
def show_in_browser(self, max_lines=5000, jsviewer=False,
browser='default', jskwargs={'use_local_files': True},
tableid=None, table_class="display compact",
css=None, show_row_index='idx'):
"""Render the table in HTML and show it in a web browser.
Parameters
----------
max_lines : int
Maximum number of rows to export to the table (set low by default
to avoid memory issues, since the browser view requires duplicating
the table in memory). A negative value of ``max_lines`` indicates
no row limit.
jsviewer : bool
If `True`, prepends some javascript headers so that the table is
rendered as a `DataTables <https://datatables.net>`_ data table.
This allows in-browser searching & sorting.
browser : str
Any legal browser name, e.g. ``'firefox'``, ``'chrome'``,
``'safari'`` (for mac, you may need to use ``'open -a
"/Applications/Google Chrome.app" {}'`` for Chrome). If
``'default'``, will use the system default browser.
jskwargs : dict
Passed to the `astropy.table.JSViewer` init. Defaults to
``{'use_local_files': True}`` which means that the JavaScript
libraries will be served from local copies.
tableid : str or `None`
An html ID tag for the table. Default is ``table{id}``, where id
is the unique integer id of the table object, id(self).
table_class : str or `None`
A string with a list of HTML classes used to style the table.
Default is "display compact", and other possible values can be
found in https://www.datatables.net/manual/styling/classes
css : str
A valid CSS string declaring the formatting for the table. Defaults
to ``astropy.table.jsviewer.DEFAULT_CSS``.
show_row_index : str or False
If this does not evaluate to False, a column with the given name
will be added to the version of the table that gets displayed.
This new column shows the index of the row in the table itself,
even when the displayed table is re-sorted by another column. Note
that if a column with this name already exists, this option will be
ignored. Defaults to "idx".
"""
import os
import webbrowser
import tempfile
from .jsviewer import DEFAULT_CSS
from urllib.parse import urljoin
from urllib.request import pathname2url
if css is None:
css = DEFAULT_CSS
# We can't use NamedTemporaryFile here because it gets deleted as
# soon as it gets garbage collected.
tmpdir = tempfile.mkdtemp()
path = os.path.join(tmpdir, 'table.html')
with open(path, 'w') as tmp:
if jsviewer:
if show_row_index:
display_table = self._make_index_row_display_table(show_row_index)
else:
display_table = self
display_table.write(tmp, format='jsviewer', css=css,
max_lines=max_lines, jskwargs=jskwargs,
table_id=tableid, table_class=table_class)
else:
self.write(tmp, format='html')
try:
br = webbrowser.get(None if browser == 'default' else browser)
except webbrowser.Error:
log.error(f"Browser '{browser}' not found.")
else:
br.open(urljoin('file:', pathname2url(path)))
@format_doc(_pformat_docs, id="{id}")
def pformat(self, max_lines=None, max_width=None, show_name=True,
show_unit=None, show_dtype=False, html=False, tableid=None,
align=None, tableclass=None):
"""Return a list of lines for the formatted string representation of
the table.
If no value of ``max_lines`` is supplied then the height of the
screen terminal is used to set ``max_lines``. If the terminal
height cannot be determined then the default is taken from the
configuration item ``astropy.conf.max_lines``. If a negative
value of ``max_lines`` is supplied then there is no line limit
applied.
The same applies for ``max_width`` except the configuration item is
``astropy.conf.max_width``.
"""
lines, outs = self.formatter._pformat_table(
self, max_lines, max_width, show_name=show_name,
show_unit=show_unit, show_dtype=show_dtype, html=html,
tableid=tableid, tableclass=tableclass, align=align)
if outs['show_length']:
lines.append('Length = {} rows'.format(len(self)))
return lines
@format_doc(_pformat_docs, id="{id}")
def pformat_all(self, max_lines=-1, max_width=-1, show_name=True,
show_unit=None, show_dtype=False, html=False, tableid=None,
align=None, tableclass=None):
"""Return a list of lines for the formatted string representation of
the entire table.
If no value of ``max_lines`` is supplied then the height of the
screen terminal is used to set ``max_lines``. If the terminal
height cannot be determined then the default is taken from the
configuration item ``astropy.conf.max_lines``. If a negative
value of ``max_lines`` is supplied then there is no line limit
applied.
The same applies for ``max_width`` except the configuration item is
``astropy.conf.max_width``.
"""
return self.pformat(max_lines, max_width, show_name,
show_unit, show_dtype, html, tableid,
align, tableclass)
def more(self, max_lines=None, max_width=None, show_name=True,
show_unit=None, show_dtype=False):
"""Interactively browse table with a paging interface.
Supported keys::
f, <space> : forward one page
b : back one page
r : refresh same page
n : next row
p : previous row
< : go to beginning
> : go to end
q : quit browsing
h : print this help
Parameters
----------
max_lines : int
Maximum number of lines in table output
max_width : int or `None`
Maximum character width of output
show_name : bool
Include a header row for column names. Default is True.
show_unit : bool
Include a header row for unit. Default is to show a row
for units only if one or more columns has a defined value
for the unit.
show_dtype : bool
Include a header row for column dtypes. Default is True.
"""
self.formatter._more_tabcol(self, max_lines, max_width, show_name=show_name,
show_unit=show_unit, show_dtype=show_dtype)
def __getitem__(self, item):
if isinstance(item, str):
return self.columns[item]
elif isinstance(item, (int, np.integer)):
return self.Row(self, item)
elif (isinstance(item, np.ndarray) and item.shape == () and item.dtype.kind == 'i'):
return self.Row(self, item.item())
elif self._is_list_or_tuple_of_str(item):
out = self.__class__([self[x] for x in item],
copy_indices=self._copy_indices)
out._groups = groups.TableGroups(out, indices=self.groups._indices,
keys=self.groups._keys)
out.meta = self.meta.copy() # Shallow copy for meta
return out
elif ((isinstance(item, np.ndarray) and item.size == 0) or
(isinstance(item, (tuple, list)) and not item)):
# If item is an empty array/list/tuple then return the table with no rows
return self._new_from_slice([])
elif (isinstance(item, slice) or
isinstance(item, np.ndarray) or
isinstance(item, list) or
isinstance(item, tuple) and all(isinstance(x, np.ndarray)
for x in item)):
# here for the many ways to give a slice; a tuple of ndarray
# is produced by np.where, as in t[np.where(t['a'] > 2)]
# For all, a new table is constructed with slice of all columns
return self._new_from_slice(item)
else:
raise ValueError('Illegal type {} for table item access'
.format(type(item)))
def __setitem__(self, item, value):
# If the item is a string then it must be the name of a column.
# If that column doesn't already exist then create it now.
if isinstance(item, str) and item not in self.colnames:
self.add_column(value, name=item, copy=True)
else:
n_cols = len(self.columns)
if isinstance(item, str):
# Set an existing column by first trying to replace, and if
# this fails do an in-place update. See definition of mask
# property for discussion of the _setitem_inplace attribute.
if (not getattr(self, '_setitem_inplace', False)
and not conf.replace_inplace):
try:
self._replace_column_warnings(item, value)
return
except Exception:
pass
self.columns[item][:] = value
elif isinstance(item, (int, np.integer)):
self._set_row(idx=item, colnames=self.colnames, vals=value)
elif (isinstance(item, slice) or
isinstance(item, np.ndarray) or
isinstance(item, list) or
(isinstance(item, tuple) and # output from np.where
all(isinstance(x, np.ndarray) for x in item))):
if isinstance(value, Table):
vals = (col for col in value.columns.values())
elif isinstance(value, np.ndarray) and value.dtype.names:
vals = (value[name] for name in value.dtype.names)
elif np.isscalar(value):
import itertools
vals = itertools.repeat(value, n_cols)
else: # Assume this is an iterable that will work
if len(value) != n_cols:
raise ValueError('Right side value needs {} elements (one for each column)'
.format(n_cols))
vals = value
for col, val in zip(self.columns.values(), vals):
col[item] = val
else:
raise ValueError('Illegal type {} for table item access'
.format(type(item)))
def __delitem__(self, item):
if isinstance(item, str):
self.remove_column(item)
elif isinstance(item, (int, np.integer)):
self.remove_row(item)
elif (isinstance(item, (list, tuple, np.ndarray)) and
all(isinstance(x, str) for x in item)):
self.remove_columns(item)
elif (isinstance(item, (list, np.ndarray)) and
np.asarray(item).dtype.kind == 'i'):
self.remove_rows(item)
elif isinstance(item, slice):
self.remove_rows(item)
else:
raise IndexError('illegal key or index value')
def _ipython_key_completions_(self):
return self.colnames
def field(self, item):
"""Return column[item] for recarray compatibility."""
return self.columns[item]
@property
def masked(self):
return self._masked
@masked.setter
def masked(self, masked):
raise Exception('Masked attribute is read-only (use t = Table(t, masked=True)'
' to convert to a masked table)')
def _set_masked(self, masked):
"""
Set the table masked property.
Parameters
----------
masked : bool
State of table masking (`True` or `False`)
"""
if masked in [True, False, None]:
self._masked = masked
else:
raise ValueError("masked should be one of True, False, None")
self._column_class = self.MaskedColumn if self._masked else self.Column
@property
def ColumnClass(self):
if self._column_class is None:
return self.Column
else:
return self._column_class
@property
def dtype(self):
return np.dtype([descr(col) for col in self.columns.values()])
@property
def colnames(self):
return list(self.columns.keys())
@staticmethod
def _is_list_or_tuple_of_str(names):
"""Check that ``names`` is a tuple or list of strings"""
return (isinstance(names, (tuple, list)) and names and
all(isinstance(x, str) for x in names))
def keys(self):
return list(self.columns.keys())
def __len__(self):
# For performance reasons (esp. in Row) cache the first column name
# and use that subsequently for the table length. If might not be
# available yet or the column might be gone now, in which case
# try again in the except block.
try:
return len(OrderedDict.__getitem__(self.columns, self._first_colname))
except (AttributeError, KeyError):
if len(self.columns) == 0:
return 0
# Get the first column name
self._first_colname = next(iter(self.columns))
return len(self.columns[self._first_colname])
def index_column(self, name):
"""
Return the positional index of column ``name``.
Parameters
----------
name : str
column name
Returns
-------
index : int
Positional index of column ``name``.
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Get index of column 'b' of the table::
>>> t.index_column('b')
1
"""
try:
return self.colnames.index(name)
except ValueError:
raise ValueError(f"Column {name} does not exist")
def add_column(self, col, index=None, name=None, rename_duplicate=False, copy=True,
default_name=None):
"""
Add a new column to the table using ``col`` as input. If ``index``
is supplied then insert column before ``index`` position
in the list of columns, otherwise append column to the end
of the list.
The ``col`` input can be any data object which is acceptable as a
`~astropy.table.Table` column object or can be converted. This includes
mixin columns and scalar or length=1 objects which get broadcast to match
the table length.
To add several columns at once use ``add_columns()`` or simply call
``add_column()`` for each one. There is very little performance difference
in the two approaches.
Parameters
----------
col : object
Data object for the new column
index : int or `None`
Insert column before this position or at end (default).
name : str
Column name
rename_duplicate : bool
Uniquify column name if it already exist. Default is False.
copy : bool
Make a copy of the new column. Default is True.
default_name : str or `None`
Name to use if both ``name`` and ``col.info.name`` are not available.
Defaults to ``col{number_of_columns}``.
Examples
--------
Create a table with two columns 'a' and 'b', then create a third column 'c'
and append it to the end of the table::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> col_c = Column(name='c', data=['x', 'y'])
>>> t.add_column(col_c)
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
Add column 'd' at position 1. Note that the column is inserted
before the given index::
>>> t.add_column(['a', 'b'], name='d', index=1)
>>> print(t)
a d b c
--- --- --- ---
1 a 0.1 x
2 b 0.2 y
Add second column named 'b' with rename_duplicate::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> t.add_column(1.1, name='b', rename_duplicate=True)
>>> print(t)
a b b_1
--- --- ---
1 0.1 1.1
2 0.2 1.1
Add an unnamed column or mixin object in the table using a default name
or by specifying an explicit name with ``name``. Name can also be overridden::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> t.add_column(['a', 'b'])
>>> t.add_column(col_c, name='d')
>>> print(t)
a b col2 d
--- --- ---- ---
1 0.1 a x
2 0.2 b y
"""
if default_name is None:
default_name = 'col{}'.format(len(self.columns))
# Convert col data to acceptable object for insertion into self.columns.
# Note that along with the lines above and below, this allows broadcasting
# of scalars to the correct shape for adding to table.
col = self._convert_data_to_col(col, name=name, copy=copy,
default_name=default_name)
# Make col data shape correct for scalars. The second test is to allow
# broadcasting an N-d element to a column, e.g. t['new'] = [[1, 2]].
if (col.shape == () or col.shape[0] == 1) and len(self) > 0:
new_shape = (len(self),) + getattr(col, 'shape', ())[1:]
if isinstance(col, np.ndarray):
col = np.broadcast_to(col, shape=new_shape,
subok=True)
elif isinstance(col, ShapedLikeNDArray):
col = col._apply(np.broadcast_to, shape=new_shape,
subok=True)
# broadcast_to() results in a read-only array. Apparently it only changes
# the view to look like the broadcasted array. So copy.
col = col_copy(col)
name = col.info.name
# Ensure that new column is the right length
if len(self.columns) > 0 and len(col) != len(self):
raise ValueError('Inconsistent data column lengths')
if rename_duplicate:
orig_name = name
i = 1
while name in self.columns:
# Iterate until a unique name is found
name = orig_name + '_' + str(i)
i += 1
col.info.name = name
# Set col parent_table weakref and ensure col has mask attribute if table.masked
self._set_col_parent_table_and_mask(col)
# Add new column as last column
self.columns[name] = col
if index is not None:
# Move the other cols to the right of the new one
move_names = self.colnames[index:-1]
for move_name in move_names:
self.columns.move_to_end(move_name, last=True)
def add_columns(self, cols, indexes=None, names=None, copy=True, rename_duplicate=False):
"""
Add a list of new columns the table using ``cols`` data objects. If a
corresponding list of ``indexes`` is supplied then insert column
before each ``index`` position in the *original* list of columns,
otherwise append columns to the end of the list.
The ``cols`` input can include any data objects which are acceptable as
`~astropy.table.Table` column objects or can be converted. This includes
mixin columns and scalar or length=1 objects which get broadcast to match
the table length.
From a performance perspective there is little difference between calling
this method once or looping over the new columns and calling ``add_column()``
for each column.
Parameters
----------
cols : list of objects
List of data objects for the new columns
indexes : list of ints or `None`
Insert column before this position or at end (default).
names : list of str
Column names
copy : bool
Make a copy of the new columns. Default is True.
rename_duplicate : bool
Uniquify new column names if they duplicate the existing ones.
Default is False.
Examples
--------
Create a table with two columns 'a' and 'b', then create columns 'c' and 'd'
and append them to the end of the table::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> col_c = Column(name='c', data=['x', 'y'])
>>> col_d = Column(name='d', data=['u', 'v'])
>>> t.add_columns([col_c, col_d])
>>> print(t)
a b c d
--- --- --- ---
1 0.1 x u
2 0.2 y v
Add column 'c' at position 0 and column 'd' at position 1. Note that
the columns are inserted before the given position::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> t.add_columns([['x', 'y'], ['u', 'v']], names=['c', 'd'],
... indexes=[0, 1])
>>> print(t)
c a d b
--- --- --- ---
x 1 u 0.1
y 2 v 0.2
Add second column 'b' and column 'c' with ``rename_duplicate``::
>>> t = Table([[1, 2], [0.1, 0.2]], names=('a', 'b'))
>>> t.add_columns([[1.1, 1.2], ['x', 'y']], names=('b', 'c'),
... rename_duplicate=True)
>>> print(t)
a b b_1 c
--- --- --- ---
1 0.1 1.1 x
2 0.2 1.2 y
Add unnamed columns or mixin objects in the table using default names
or by specifying explicit names with ``names``. Names can also be overridden::
>>> t = Table()
>>> col_b = Column(name='b', data=['u', 'v'])
>>> t.add_columns([[1, 2], col_b])
>>> t.add_columns([[3, 4], col_b], names=['c', 'd'])
>>> print(t)
col0 b c d
---- --- --- ---
1 u 3 u
2 v 4 v
"""
if indexes is None:
indexes = [len(self.columns)] * len(cols)
elif len(indexes) != len(cols):
raise ValueError('Number of indexes must match number of cols')
if names is None:
names = (None,) * len(cols)
elif len(names) != len(cols):
raise ValueError('Number of names must match number of cols')
default_names = ['col{}'.format(ii + len(self.columns))
for ii in range(len(cols))]
for ii in reversed(np.argsort(indexes)):
self.add_column(cols[ii], index=indexes[ii], name=names[ii],
default_name=default_names[ii],
rename_duplicate=rename_duplicate, copy=copy)
def _replace_column_warnings(self, name, col):
"""
Same as replace_column but issues warnings under various circumstances.
"""
warns = conf.replace_warnings
if 'refcount' in warns and name in self.colnames:
refcount = sys.getrefcount(self[name])
if name in self.colnames:
old_col = self[name]
# This may raise an exception (e.g. t['a'] = 1) in which case none of
# the downstream code runs.
self.replace_column(name, col)
if 'always' in warns:
warnings.warn(f"replaced column '{name}'",
TableReplaceWarning, stacklevel=3)
if 'slice' in warns:
try:
# Check for ndarray-subclass slice. An unsliced instance
# has an ndarray for the base while sliced has the same class
# as parent.
if isinstance(old_col.base, old_col.__class__):
msg = ("replaced column '{}' which looks like an array slice. "
"The new column no longer shares memory with the "
"original array.".format(name))
warnings.warn(msg, TableReplaceWarning, stacklevel=3)
except AttributeError:
pass
if 'refcount' in warns:
# Did reference count change?
new_refcount = sys.getrefcount(self[name])
if refcount != new_refcount:
msg = ("replaced column '{}' and the number of references "
"to the column changed.".format(name))
warnings.warn(msg, TableReplaceWarning, stacklevel=3)
if 'attributes' in warns:
# Any of the standard column attributes changed?
changed_attrs = []
new_col = self[name]
# Check base DataInfo attributes that any column will have
for attr in DataInfo.attr_names:
if getattr(old_col.info, attr) != getattr(new_col.info, attr):
changed_attrs.append(attr)
if changed_attrs:
msg = ("replaced column '{}' and column attributes {} changed."
.format(name, changed_attrs))
warnings.warn(msg, TableReplaceWarning, stacklevel=3)
def replace_column(self, name, col, copy=True):
"""
Replace column ``name`` with the new ``col`` object.
The behavior of ``copy`` for Column objects is:
- copy=True: new class instance with a copy of data and deep copy of meta
- copy=False: new class instance with same data and a key-only copy of meta
For mixin columns:
- copy=True: new class instance with copy of data and deep copy of meta
- copy=False: original instance (no copy at all)
Parameters
----------
name : str
Name of column to replace
col : column object (list, ndarray, Column, etc)
New column object to replace the existing column
copy : bool
Make copy of the input ``col``, default=True
Examples
--------
Replace column 'a' with a float version of itself::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3]], names=('a', 'b'))
>>> float_a = t['a'].astype(float)
>>> t.replace_column('a', float_a)
"""
if name not in self.colnames:
raise ValueError(f'column name {name} is not in the table')
if self[name].info.indices:
raise ValueError('cannot replace a table index column')
col = self._convert_data_to_col(col, name=name, copy=copy)
self._set_col_parent_table_and_mask(col)
# Ensure that new column is the right length, unless it is the only column
# in which case re-sizing is allowed.
if len(self.columns) > 1 and len(col) != len(self[name]):
raise ValueError('length of new column must match table length')
self.columns.__setitem__(name, col, validated=True)
def remove_row(self, index):
"""
Remove a row from the table.
Parameters
----------
index : int
Index of row to remove
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Remove row 1 from the table::
>>> t.remove_row(1)
>>> print(t)
a b c
--- --- ---
1 0.1 x
3 0.3 z
To remove several rows at the same time use remove_rows.
"""
# check the index against the types that work with np.delete
if not isinstance(index, (int, np.integer)):
raise TypeError("Row index must be an integer")
self.remove_rows(index)
def remove_rows(self, row_specifier):
"""
Remove rows from the table.
Parameters
----------
row_specifier : slice, int, or array of ints
Specification for rows to remove
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Remove rows 0 and 2 from the table::
>>> t.remove_rows([0, 2])
>>> print(t)
a b c
--- --- ---
2 0.2 y
Note that there are no warnings if the slice operator extends
outside the data::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> t.remove_rows(slice(10, 20, 1))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
"""
# Update indices
for index in self.indices:
index.remove_rows(row_specifier)
keep_mask = np.ones(len(self), dtype=bool)
keep_mask[row_specifier] = False
columns = self.TableColumns()
for name, col in self.columns.items():
newcol = col[keep_mask]
newcol.info.parent_table = self
columns[name] = newcol
self._replace_cols(columns)
# Revert groups to default (ungrouped) state
if hasattr(self, '_groups'):
del self._groups
def iterrows(self, *names):
"""
Iterate over rows of table returning a tuple of values for each row.
This method is especially useful when only a subset of columns are needed.
The ``iterrows`` method can be substantially faster than using the standard
Table row iteration (e.g. ``for row in tbl:``), since that returns a new
``~astropy.table.Row`` object for each row and accessing a column in that
row (e.g. ``row['col0']``) is slower than tuple access.
Parameters
----------
names : list
List of column names (default to all columns if no names provided)
Returns
-------
rows : iterator returning tuples of row values
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table({'a': [1, 2, 3],
... 'b': [1.0, 2.5, 3.0],
... 'c': ['x', 'y', 'z']})
To iterate row-wise using column names::
>>> for a, c in t.iterrows('a', 'c'):
... print(a, c)
1 x
2 y
3 z
"""
if len(names) == 0:
names = self.colnames
else:
for name in names:
if name not in self.colnames:
raise ValueError(f'{name} is not a valid column name')
cols = (self[name] for name in names)
out = zip(*cols)
return out
def remove_column(self, name):
"""
Remove a column from the table.
This can also be done with::
del table[name]
Parameters
----------
name : str
Name of column to remove
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Remove column 'b' from the table::
>>> t.remove_column('b')
>>> print(t)
a c
--- ---
1 x
2 y
3 z
To remove several columns at the same time use remove_columns.
"""
self.remove_columns([name])
def remove_columns(self, names):
'''
Remove several columns from the table.
Parameters
----------
names : list
A list containing the names of the columns to remove
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Remove columns 'b' and 'c' from the table::
>>> t.remove_columns(['b', 'c'])
>>> print(t)
a
---
1
2
3
Specifying only a single column also works. Remove column 'b' from the table::
>>> t = Table([[1, 2, 3], [0.1, 0.2, 0.3], ['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> t.remove_columns('b')
>>> print(t)
a c
--- ---
1 x
2 y
3 z
This gives the same as using remove_column.
'''
if isinstance(names, str):
names = [names]
for name in names:
if name not in self.columns:
raise KeyError(f"Column {name} does not exist")
for name in names:
self.columns.pop(name)
def _convert_string_dtype(self, in_kind, out_kind, encode_decode_func):
"""
Convert string-like columns to/from bytestring and unicode (internal only).
Parameters
----------
in_kind : str
Input dtype.kind
out_kind : str
Output dtype.kind
"""
for col in self.itercols():
if col.dtype.kind == in_kind:
try:
# This requires ASCII and is faster by a factor of up to ~8, so
# try that first.
newcol = col.__class__(col, dtype=out_kind)
except (UnicodeEncodeError, UnicodeDecodeError):
newcol = col.__class__(encode_decode_func(col, 'utf-8'))
# Quasi-manually copy info attributes. Unfortunately
# DataInfo.__set__ does not do the right thing in this case
# so newcol.info = col.info does not get the old info attributes.
for attr in col.info.attr_names - col.info._attrs_no_copy - set(['dtype']):
value = deepcopy(getattr(col.info, attr))
setattr(newcol.info, attr, value)
self[col.name] = newcol
def convert_bytestring_to_unicode(self):
"""
Convert bytestring columns (dtype.kind='S') to unicode (dtype.kind='U')
using UTF-8 encoding.
Internally this changes string columns to represent each character
in the string with a 4-byte UCS-4 equivalent, so it is inefficient
for memory but allows scripts to manipulate string arrays with
natural syntax.
"""
self._convert_string_dtype('S', 'U', np.char.decode)
def convert_unicode_to_bytestring(self):
"""
Convert unicode columns (dtype.kind='U') to bytestring (dtype.kind='S')
using UTF-8 encoding.
When exporting a unicode string array to a file, it may be desirable
to encode unicode columns as bytestrings.
"""
self._convert_string_dtype('U', 'S', np.char.encode)
def keep_columns(self, names):
'''
Keep only the columns specified (remove the others).
Parameters
----------
names : list
A list containing the names of the columns to keep. All other
columns will be removed.
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1, 2, 3],[0.1, 0.2, 0.3],['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> print(t)
a b c
--- --- ---
1 0.1 x
2 0.2 y
3 0.3 z
Specifying only a single column name keeps only this column.
Keep only column 'a' of the table::
>>> t.keep_columns('a')
>>> print(t)
a
---
1
2
3
Specifying a list of column names is keeps is also possible.
Keep columns 'a' and 'c' of the table::
>>> t = Table([[1, 2, 3],[0.1, 0.2, 0.3],['x', 'y', 'z']],
... names=('a', 'b', 'c'))
>>> t.keep_columns(['a', 'c'])
>>> print(t)
a c
--- ---
1 x
2 y
3 z
'''
if isinstance(names, str):
names = [names]
for name in names:
if name not in self.columns:
raise KeyError(f"Column {name} does not exist")
remove = list(set(self.keys()) - set(names))
self.remove_columns(remove)
def rename_column(self, name, new_name):
'''
Rename a column.
This can also be done directly with by setting the ``name`` attribute
for a column::
table[name].name = new_name
TODO: this won't work for mixins
Parameters
----------
name : str
The current name of the column.
new_name : str
The new name for the column
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1,2],[3,4],[5,6]], names=('a','b','c'))
>>> print(t)
a b c
--- --- ---
1 3 5
2 4 6
Renaming column 'a' to 'aa'::
>>> t.rename_column('a' , 'aa')
>>> print(t)
aa b c
--- --- ---
1 3 5
2 4 6
'''
if name not in self.keys():
raise KeyError(f"Column {name} does not exist")
self.columns[name].info.name = new_name
def rename_columns(self, names, new_names):
'''
Rename multiple columns.
Parameters
----------
names : list, tuple
A list or tuple of existing column names.
new_names : list, tuple
A list or tuple of new column names.
Examples
--------
Create a table with three columns 'a', 'b', 'c'::
>>> t = Table([[1,2],[3,4],[5,6]], names=('a','b','c'))
>>> print(t)
a b c
--- --- ---
1 3 5
2 4 6
Renaming columns 'a' to 'aa' and 'b' to 'bb'::
>>> names = ('a','b')
>>> new_names = ('aa','bb')
>>> t.rename_columns(names, new_names)
>>> print(t)
aa bb c
--- --- ---
1 3 5
2 4 6
'''
if not self._is_list_or_tuple_of_str(names):
raise TypeError("input 'names' must be a tuple or a list of column names")
if not self._is_list_or_tuple_of_str(new_names):
raise TypeError("input 'new_names' must be a tuple or a list of column names")
if len(names) != len(new_names):
raise ValueError("input 'names' and 'new_names' list arguments must be the same length")
for name, new_name in zip(names, new_names):
self.rename_column(name, new_name)
def _set_row(self, idx, colnames, vals):
try:
assert len(vals) == len(colnames)
except Exception:
raise ValueError('right hand side must be a sequence of values with '
'the same length as the number of selected columns')
# Keep track of original values before setting each column so that
# setting row can be transactional.
orig_vals = []
cols = self.columns
try:
for name, val in zip(colnames, vals):
orig_vals.append(cols[name][idx])
cols[name][idx] = val
except Exception:
# If anything went wrong first revert the row update then raise
for name, val in zip(colnames, orig_vals[:-1]):
cols[name][idx] = val
raise
def add_row(self, vals=None, mask=None):
"""Add a new row to the end of the table.
The ``vals`` argument can be:
sequence (e.g. tuple or list)
Column values in the same order as table columns.
mapping (e.g. dict)
Keys corresponding to column names. Missing values will be
filled with np.zeros for the column dtype.
`None`
All values filled with np.zeros for the column dtype.
This method requires that the Table object "owns" the underlying array
data. In particular one cannot add a row to a Table that was
initialized with copy=False from an existing array.
The ``mask`` attribute should give (if desired) the mask for the
values. The type of the mask should match that of the values, i.e. if
``vals`` is an iterable, then ``mask`` should also be an iterable
with the same length, and if ``vals`` is a mapping, then ``mask``
should be a dictionary.
Parameters
----------
vals : tuple, list, dict or `None`
Use the specified values in the new row
mask : tuple, list, dict or `None`
Use the specified mask values in the new row
Examples
--------
Create a table with three columns 'a', 'b' and 'c'::
>>> t = Table([[1,2],[4,5],[7,8]], names=('a','b','c'))
>>> print(t)
a b c
--- --- ---
1 4 7
2 5 8
Adding a new row with entries '3' in 'a', '6' in 'b' and '9' in 'c'::
>>> t.add_row([3,6,9])
>>> print(t)
a b c
--- --- ---
1 4 7
2 5 8
3 6 9
"""
self.insert_row(len(self), vals, mask)
def insert_row(self, index, vals=None, mask=None):
"""Add a new row before the given ``index`` position in the table.
The ``vals`` argument can be:
sequence (e.g. tuple or list)
Column values in the same order as table columns.
mapping (e.g. dict)
Keys corresponding to column names. Missing values will be
filled with np.zeros for the column dtype.
`None`
All values filled with np.zeros for the column dtype.
The ``mask`` attribute should give (if desired) the mask for the
values. The type of the mask should match that of the values, i.e. if
``vals`` is an iterable, then ``mask`` should also be an iterable
with the same length, and if ``vals`` is a mapping, then ``mask``
should be a dictionary.
Parameters
----------
vals : tuple, list, dict or `None`
Use the specified values in the new row
mask : tuple, list, dict or `None`
Use the specified mask values in the new row
"""
colnames = self.colnames
N = len(self)
if index < -N or index > N:
raise IndexError("Index {} is out of bounds for table with length {}"
.format(index, N))
if index < 0:
index += N
def _is_mapping(obj):
"""Minimal checker for mapping (dict-like) interface for obj"""
attrs = ('__getitem__', '__len__', '__iter__', 'keys', 'values', 'items')
return all(hasattr(obj, attr) for attr in attrs)
if _is_mapping(vals) or vals is None:
# From the vals and/or mask mappings create the corresponding lists
# that have entries for each table column.
if mask is not None and not _is_mapping(mask):
raise TypeError("Mismatch between type of vals and mask")
# Now check that the mask is specified for the same keys as the
# values, otherwise things get really confusing.
if mask is not None and set(vals.keys()) != set(mask.keys()):
raise ValueError('keys in mask should match keys in vals')
if vals and any(name not in colnames for name in vals):
raise ValueError('Keys in vals must all be valid column names')
vals_list = []
mask_list = []
for name in colnames:
if vals and name in vals:
vals_list.append(vals[name])
mask_list.append(False if mask is None else mask[name])
else:
col = self[name]
if hasattr(col, 'dtype'):
# Make a placeholder zero element of the right type which is masked.
# This assumes the appropriate insert() method will broadcast a
# numpy scalar to the right shape.
vals_list.append(np.zeros(shape=(), dtype=col.dtype))
# For masked table any unsupplied values are masked by default.
mask_list.append(self.masked and vals is not None)
else:
raise ValueError(f"Value must be supplied for column '{name}'")
vals = vals_list
mask = mask_list
if isiterable(vals):
if mask is not None and (not isiterable(mask) or _is_mapping(mask)):
raise TypeError("Mismatch between type of vals and mask")
if len(self.columns) != len(vals):
raise ValueError('Mismatch between number of vals and columns')
if mask is not None:
if len(self.columns) != len(mask):
raise ValueError('Mismatch between number of masks and columns')
else:
mask = [False] * len(self.columns)
else:
raise TypeError('Vals must be an iterable or mapping or None')
columns = self.TableColumns()
try:
# Insert val at index for each column
for name, col, val, mask_ in zip(colnames, self.columns.values(), vals, mask):
# If new val is masked and the existing column does not support masking
# then upgrade the column to a mask-enabled type: either the table-level
# default ColumnClass or else MaskedColumn.
if mask_ and isinstance(col, Column) and not isinstance(col, MaskedColumn):
col_cls = (self.ColumnClass
if issubclass(self.ColumnClass, self.MaskedColumn)
else self.MaskedColumn)
col = col_cls(col, copy=False)
newcol = col.insert(index, val, axis=0)
if len(newcol) != N + 1:
raise ValueError('Incorrect length for column {} after inserting {}'
' (expected {}, got {})'
.format(name, val, len(newcol), N + 1))
newcol.info.parent_table = self
# Set mask if needed and possible
if mask_:
if hasattr(newcol, 'mask'):
newcol[index] = np.ma.masked
else:
raise TypeError("mask was supplied for column '{}' but it does not "
"support masked values".format(col.info.name))
columns[name] = newcol
# insert row in indices
for table_index in self.indices:
table_index.insert_row(index, vals, self.columns.values())
except Exception as err:
raise ValueError("Unable to insert row because of exception in column '{}':\n{}"
.format(name, err))
else:
self._replace_cols(columns)
# Revert groups to default (ungrouped) state
if hasattr(self, '_groups'):
del self._groups
def _replace_cols(self, columns):
for col, new_col in zip(self.columns.values(), columns.values()):
new_col.info.indices = []
for index in col.info.indices:
index.columns[index.col_position(col.info.name)] = new_col
new_col.info.indices.append(index)
self.columns = columns
def argsort(self, keys=None, kind=None, reverse=False):
"""
Return the indices which would sort the table according to one or
more key columns. This simply calls the `numpy.argsort` function on
the table with the ``order`` parameter set to ``keys``.
Parameters
----------
keys : str or list of str
The column name(s) to order the table by
kind : {'quicksort', 'mergesort', 'heapsort'}, optional
Sorting algorithm.
reverse : bool
Sort in reverse order (default=False)
Returns
-------
index_array : ndarray, int
Array of indices that sorts the table by the specified key
column(s).
"""
if isinstance(keys, str):
keys = [keys]
# use index sorted order if possible
if keys is not None:
index = get_index(self, names=keys)
if index is not None:
return index.sorted_data()
kwargs = {}
if keys:
kwargs['order'] = keys
if kind:
kwargs['kind'] = kind
if keys:
data = self.as_array(names=keys)
else:
data = self.as_array()
idx = data.argsort(**kwargs)
if reverse:
return idx[::-1]
return idx
def sort(self, keys=None, reverse=False):
'''
Sort the table according to one or more keys. This operates
on the existing table and does not return a new table.
Parameters
----------
keys : str or list of str
The key(s) to order the table by. If None, use the
primary index of the Table.
reverse : bool
Sort in reverse order (default=False)
Examples
--------
Create a table with 3 columns::
>>> t = Table([['Max', 'Jo', 'John'], ['Miller', 'Miller', 'Jackson'],
... [12, 15, 18]], names=('firstname', 'name', 'tel'))
>>> print(t)
firstname name tel
--------- ------- ---
Max Miller 12
Jo Miller 15
John Jackson 18
Sorting according to standard sorting rules, first 'name' then 'firstname'::
>>> t.sort(['name', 'firstname'])
>>> print(t)
firstname name tel
--------- ------- ---
John Jackson 18
Jo Miller 15
Max Miller 12
Sorting according to standard sorting rules, first 'firstname' then 'tel',
in reverse order::
>>> t.sort(['firstname', 'tel'], reverse=True)
>>> print(t)
firstname name tel
--------- ------- ---
Max Miller 12
John Jackson 18
Jo Miller 15
'''
if keys is None:
if not self.indices:
raise ValueError("Table sort requires input keys or a table index")
keys = [x.info.name for x in self.indices[0].columns]
if isinstance(keys, str):
keys = [keys]
indexes = self.argsort(keys)
if reverse:
indexes = indexes[::-1]
sort_index = get_index(self, names=keys)
if sort_index is not None:
# avoid inefficient relabelling of sorted index
prev_frozen = sort_index._frozen
sort_index._frozen = True
for name, col in self.columns.items():
# Make a new sorted column. This requires that take() also copies
# relevant info attributes for mixin columns.
new_col = col.take(indexes, axis=0)
# First statement in try: will succeed if the column supports an in-place
# update, and matches the legacy behavior of astropy Table. However,
# some mixin classes may not support this, so in that case just drop
# in the entire new column. See #9553 and #9536 for discussion.
try:
col[:] = new_col
except Exception:
# In-place update failed for some reason, exception class not
# predictable for arbitrary mixin.
self[col.info.name] = new_col
if sort_index is not None:
# undo index freeze
sort_index._frozen = prev_frozen
# now relabel the sort index appropriately
sort_index.sort()
def reverse(self):
'''
Reverse the row order of table rows. The table is reversed
in place and there are no function arguments.
Examples
--------
Create a table with three columns::
>>> t = Table([['Max', 'Jo', 'John'], ['Miller','Miller','Jackson'],
... [12,15,18]], names=('firstname','name','tel'))
>>> print(t)
firstname name tel
--------- ------- ---
Max Miller 12
Jo Miller 15
John Jackson 18
Reversing order::
>>> t.reverse()
>>> print(t)
firstname name tel
--------- ------- ---
John Jackson 18
Jo Miller 15
Max Miller 12
'''
for col in self.columns.values():
# First statement in try: will succeed if the column supports an in-place
# update, and matches the legacy behavior of astropy Table. However,
# some mixin classes may not support this, so in that case just drop
# in the entire new column. See #9836, #9553, and #9536 for discussion.
new_col = col[::-1]
try:
col[:] = new_col
except Exception:
# In-place update failed for some reason, exception class not
# predictable for arbitrary mixin.
self[col.info.name] = new_col
for index in self.indices:
index.reverse()
def copy(self, copy_data=True):
'''
Return a copy of the table.
Parameters
----------
copy_data : bool
If `True` (the default), copy the underlying data array.
Otherwise, use the same data array. The ``meta`` is always
deepcopied regardless of the value for ``copy_data``.
'''
out = self.__class__(self, copy=copy_data)
# If the current table is grouped then do the same in the copy
if hasattr(self, '_groups'):
out._groups = groups.TableGroups(out, indices=self._groups._indices,
keys=self._groups._keys)
return out
def __deepcopy__(self, memo=None):
return self.copy(True)
def __copy__(self):
return self.copy(False)
def __lt__(self, other):
return super().__lt__(other)
def __gt__(self, other):
return super().__gt__(other)
def __le__(self, other):
return super().__le__(other)
def __ge__(self, other):
return super().__ge__(other)
def __eq__(self, other):
return self._rows_equal(other)
def __ne__(self, other):
return ~self.__eq__(other)
def _rows_equal(self, other):
"""
Row-wise comparison of table with any other object.
This is actual implementation for __eq__.
Returns a 1-D boolean numpy array showing result of row-wise comparison.
This is the same as the ``==`` comparison for tables.
Parameters
----------
other : Table or DataFrame or ndarray
An object to compare with table
Examples
--------
Comparing one Table with other::
>>> t1 = Table([[1,2],[4,5],[7,8]], names=('a','b','c'))
>>> t2 = Table([[1,2],[4,5],[7,8]], names=('a','b','c'))
>>> t1._rows_equal(t2)
array([ True, True])
"""
if isinstance(other, Table):
other = other.as_array()
if self.has_masked_columns:
if isinstance(other, np.ma.MaskedArray):
result = self.as_array() == other
else:
# If mask is True, then by definition the row doesn't match
# because the other array is not masked.
false_mask = np.zeros(1, dtype=[(n, bool) for n in self.dtype.names])
result = (self.as_array().data == other) & (self.mask == false_mask)
else:
if isinstance(other, np.ma.MaskedArray):
# If mask is True, then by definition the row doesn't match
# because the other array is not masked.
false_mask = np.zeros(1, dtype=[(n, bool) for n in other.dtype.names])
result = (self.as_array() == other.data) & (other.mask == false_mask)
else:
result = self.as_array() == other
return result
def values_equal(self, other):
"""
Element-wise comparison of table with another table, list, or scalar.
Returns a ``Table`` with the same columns containing boolean values
showing result of comparison.
Parameters
----------
other : Table-like object or list or scalar
Object to compare with table
Examples
--------
Compare one Table with other::
>>> t1 = Table([[1, 2], [4, 5], [-7, 8]], names=('a', 'b', 'c'))
>>> t2 = Table([[1, 2], [-4, 5], [7, 8]], names=('a', 'b', 'c'))
>>> t1.values_equal(t2)
<Table length=2>
a b c
bool bool bool
---- ----- -----
True False False
True True True
"""
if isinstance(other, Table):
names = other.colnames
else:
try:
other = Table(other, copy=False)
names = other.colnames
except Exception:
# Broadcast other into a dict, so e.g. other = 2 will turn into
# other = {'a': 2, 'b': 2} and then equality does a
# column-by-column broadcasting.
names = self.colnames
other = {name: other for name in names}
# Require column names match but do not require same column order
if set(self.colnames) != set(names):
raise ValueError('cannot compare tables with different column names')
eqs = []
for name in names:
try:
np.broadcast(self[name], other[name]) # Check if broadcast-able
# Catch the numpy FutureWarning related to equality checking,
# "elementwise comparison failed; returning scalar instead, but
# in the future will perform elementwise comparison". Turn this
# into an exception since the scalar answer is not what we want.
with warnings.catch_warnings(record=True) as warns:
warnings.simplefilter('always')
eq = self[name] == other[name]
if (warns and issubclass(warns[-1].category, FutureWarning) and
'elementwise comparison failed' in str(warns[-1].message)):
raise FutureWarning(warns[-1].message)
except Exception as err:
raise ValueError(f'unable to compare column {name}') from err
# Be strict about the result from the comparison. E.g. SkyCoord __eq__ is just
# broken and completely ignores that it should return an array.
if not (isinstance(eq, np.ndarray) and
eq.dtype is np.dtype('bool') and
len(eq) == len(self)):
raise TypeError(f'comparison for column {name} returned {eq} '
f'instead of the expected boolean ndarray')
eqs.append(eq)
out = Table(eqs, names=names)
return out
@property
def groups(self):
if not hasattr(self, '_groups'):
self._groups = groups.TableGroups(self)
return self._groups
def group_by(self, keys):
"""
Group this table by the specified ``keys``
This effectively splits the table into groups which correspond to unique
values of the ``keys`` grouping object. The output is a new
`~astropy.table.TableGroups` which contains a copy of this table but
sorted by row according to ``keys``.
The ``keys`` input to `group_by` can be specified in different ways:
- String or list of strings corresponding to table column name(s)
- Numpy array (homogeneous or structured) with same length as this table
- `~astropy.table.Table` with same length as this table
Parameters
----------
keys : str, list of str, numpy array, or `~astropy.table.Table`
Key grouping object
Returns
-------
out : `~astropy.table.Table`
New table with groups set
"""
return groups.table_group_by(self, keys)
def to_pandas(self, index=None):
"""
Return a :class:`pandas.DataFrame` instance
The index of the created DataFrame is controlled by the ``index``
argument. For ``index=True`` or the default ``None``, an index will be
specified for the DataFrame if there is a primary key index on the
Table *and* if it corresponds to a single column. If ``index=False``
then no DataFrame index will be specified. If ``index`` is the name of
a column in the table then that will be the DataFrame index.
In additional to vanilla columns or masked columns, this supports Table
mixin columns like Quantity, Time, or SkyCoord. In many cases these
objects have no analog in pandas and will be converted to a "encoded"
representation using only Column or MaskedColumn. The exception is
Time or TimeDelta columns, which will be converted to the corresponding
representation in pandas using ``np.datetime64`` or ``np.timedelta64``.
See the example below.
Returns
-------
dataframe : :class:`pandas.DataFrame`
A pandas :class:`pandas.DataFrame` instance
index : None, bool, str
Specify DataFrame index mode
Raises
------
ImportError
If pandas is not installed
ValueError
If the Table has multi-dimensional columns
Examples
--------
Here we convert a table with a few mixins to a
:class:`pandas.DataFrame` instance.
>>> import pandas as pd
>>> from astropy.table import QTable
>>> import astropy.units as u
>>> from astropy.time import Time, TimeDelta
>>> from astropy.coordinates import SkyCoord
>>> q = [1, 2] * u.m
>>> tm = Time([1998, 2002], format='jyear')
>>> sc = SkyCoord([5, 6], [7, 8], unit='deg')
>>> dt = TimeDelta([3, 200] * u.s)
>>> t = QTable([q, tm, sc, dt], names=['q', 'tm', 'sc', 'dt'])
>>> df = t.to_pandas(index='tm')
>>> with pd.option_context('display.max_columns', 20):
... print(df)
q sc.ra sc.dec dt
tm
1998-01-01 1.0 5.0 7.0 00:00:03
2002-01-01 2.0 6.0 8.0 00:03:20
"""
from pandas import DataFrame
if index is not False:
if index in (None, True):
# Default is to use the table primary key if available and a single column
if self.primary_key and len(self.primary_key) == 1:
index = self.primary_key[0]
else:
index = False
else:
if index not in self.colnames:
raise ValueError('index must be None, False, True or a table '
'column name')
def _encode_mixins(tbl):
"""Encode a Table ``tbl`` that may have mixin columns to a Table with only
astropy Columns + appropriate meta-data to allow subsequent decoding.
"""
from . import serialize
from astropy.utils.data_info import MixinInfo, serialize_context_as
from astropy.time import Time, TimeDelta
# Convert any Time or TimeDelta columns and pay attention to masking
time_cols = [col for col in tbl.itercols() if isinstance(col, Time)]
if time_cols:
# Make a light copy of table and clear any indices
new_cols = []
for col in tbl.itercols():
new_col = col_copy(col, copy_indices=False) if col.info.indices else col
new_cols.append(new_col)
tbl = tbl.__class__(new_cols, copy=False)
for col in time_cols:
if isinstance(col, TimeDelta):
# Convert to nanoseconds (matches astropy datetime64 support)
new_col = (col.sec * 1e9).astype('timedelta64[ns]')
nat = np.timedelta64('NaT')
else:
new_col = col.datetime64.copy()
nat = np.datetime64('NaT')
if col.masked:
new_col[col.mask] = nat
tbl[col.info.name] = new_col
# Convert the table to one with no mixins, only Column objects.
encode_tbl = serialize.represent_mixins_as_columns(tbl)
return encode_tbl
tbl = _encode_mixins(self)
badcols = [name for name, col in self.columns.items() if len(col.shape) > 1]
if badcols:
raise ValueError(
f'Cannot convert a table with multidimensional columns to a '
f'pandas DataFrame. Offending columns are: {badcols}\n'
f'One can filter out such columns using:\n'
f'names = [name for name in tbl.colnames if len(tbl[name].shape) <= 1]\n'
f'tbl[names].to_pandas(...)')
out = OrderedDict()
for name, column in tbl.columns.items():
if isinstance(column, MaskedColumn) and np.any(column.mask):
if column.dtype.kind in ['i', 'u']:
out[name] = column.astype(float).filled(np.nan)
warnings.warn(
"converted column '{}' from integer to float".format(
name), TableReplaceWarning, stacklevel=3)
elif column.dtype.kind in ['f', 'c']:
out[name] = column.filled(np.nan)
else:
out[name] = column.astype(object).filled(np.nan)
else:
out[name] = column
if out[name].dtype.byteorder not in ('=', '|'):
out[name] = out[name].byteswap().newbyteorder()
kwargs = {'index': out.pop(index)} if index else {}
return DataFrame(out, **kwargs)
@classmethod
def from_pandas(cls, dataframe, index=False):
"""
Create a `~astropy.table.Table` from a :class:`pandas.DataFrame` instance
In addition to converting generic numeric or string columns, this supports
conversion of pandas Date and Time delta columns to `~astropy.time.Time`
and `~astropy.time.TimeDelta` columns, respectively.
Parameters
----------
dataframe : :class:`pandas.DataFrame`
A pandas :class:`pandas.DataFrame` instance
index : bool
Include the index column in the returned table (default=False)
Returns
-------
table : `~astropy.table.Table`
A `~astropy.table.Table` (or subclass) instance
Raises
------
ImportError
If pandas is not installed
Examples
--------
Here we convert a :class:`pandas.DataFrame` instance
to a `~astropy.table.QTable`.
>>> import numpy as np
>>> import pandas as pd
>>> from astropy.table import QTable
>>> time = pd.Series(['1998-01-01', '2002-01-01'], dtype='datetime64[ns]')
>>> dt = pd.Series(np.array([1, 300], dtype='timedelta64[s]'))
>>> df = pd.DataFrame({'time': time})
>>> df['dt'] = dt
>>> df['x'] = [3., 4.]
>>> with pd.option_context('display.max_columns', 20):
... print(df)
time dt x
0 1998-01-01 00:00:01 3.0
1 2002-01-01 00:05:00 4.0
>>> QTable.from_pandas(df)
<QTable length=2>
time dt x
object object float64
----------------------- ------ -------
1998-01-01T00:00:00.000 1.0 3.0
2002-01-01T00:00:00.000 300.0 4.0
"""
out = OrderedDict()
names = list(dataframe.columns)
columns = [dataframe[name] for name in names]
datas = [np.array(column) for column in columns]
masks = [np.array(column.isnull()) for column in columns]
if index:
index_name = dataframe.index.name or 'index'
while index_name in names:
index_name = '_' + index_name + '_'
names.insert(0, index_name)
columns.insert(0, dataframe.index)
datas.insert(0, np.array(dataframe.index))
masks.insert(0, np.zeros(len(dataframe), dtype=bool))
for name, column, data, mask in zip(names, columns, datas, masks):
if data.dtype.kind == 'O':
# If all elements of an object array are string-like or np.nan
# then coerce back to a native numpy str/unicode array.
string_types = (str, bytes)
nan = np.nan
if all(isinstance(x, string_types) or x is nan for x in data):
# Force any missing (null) values to b''. Numpy will
# upcast to str/unicode as needed.
data[mask] = b''
# When the numpy object array is represented as a list then
# numpy initializes to the correct string or unicode type.
data = np.array([x for x in data])
# Numpy datetime64
if data.dtype.kind == 'M':
from astropy.time import Time
out[name] = Time(data, format='datetime64')
if np.any(mask):
out[name][mask] = np.ma.masked
out[name].format = 'isot'
# Numpy timedelta64
elif data.dtype.kind == 'm':
from astropy.time import TimeDelta
data_sec = data.astype('timedelta64[ns]').astype(np.float64) / 1e9
out[name] = TimeDelta(data_sec, format='sec')
if np.any(mask):
out[name][mask] = np.ma.masked
else:
if np.any(mask):
out[name] = MaskedColumn(data=data, name=name, mask=mask)
else:
out[name] = Column(data=data, name=name)
return cls(out)
info = TableInfo()
class QTable(Table):
"""A class to represent tables of heterogeneous data.
`~astropy.table.QTable` provides a class for heterogeneous tabular data
which can be easily modified, for instance adding columns or new rows.
The `~astropy.table.QTable` class is identical to `~astropy.table.Table`
except that columns with an associated ``unit`` attribute are converted to
`~astropy.units.Quantity` objects.
See also:
- http://docs.astropy.org/en/stable/table/
- http://docs.astropy.org/en/stable/table/mixin_columns.html
Parameters
----------
data : numpy ndarray, dict, list, Table, or table-like object, optional
Data to initialize table.
masked : bool, optional
Specify whether the table is masked.
names : list, optional
Specify column names.
dtype : list, optional
Specify column data types.
meta : dict, optional
Metadata associated with the table.
copy : bool, optional
Copy the input data. Default is True.
rows : numpy ndarray, list of lists, optional
Row-oriented data for table instead of ``data`` argument.
copy_indices : bool, optional
Copy any indices in the input data. Default is True.
**kwargs : dict, optional
Additional keyword args when converting table-like object.
"""
def _is_mixin_for_table(self, col):
"""
Determine if ``col`` should be added to the table directly as
a mixin column.
"""
return has_info_class(col, MixinInfo)
def _convert_col_for_table(self, col):
if isinstance(col, Column) and getattr(col, 'unit', None) is not None:
# What to do with MaskedColumn with units: leave as MaskedColumn or
# turn into Quantity and drop mask? Assuming we have masking support
# in Quantity someday, let's drop the mask (consistent with legacy
# behavior) but issue a warning.
if isinstance(col, MaskedColumn) and np.any(col.mask):
warnings.warn("dropping mask in Quantity column '{}': "
"masked Quantity not supported".format(col.info.name))
# We need to turn the column into a quantity, or a subclass
# identified in the unit (such as u.mag()).
q_cls = getattr(col.unit, '_quantity_class', Quantity)
qcol = q_cls(col.data, col.unit, copy=False)
qcol.info = col.info
col = qcol
else:
col = super()._convert_col_for_table(col)
return col
class NdarrayMixin(np.ndarray):
"""
Mixin column class to allow storage of arbitrary numpy
ndarrays within a Table. This is a subclass of numpy.ndarray
and has the same initialization options as ndarray().
"""
info = ParentDtypeInfo()
def __new__(cls, obj, *args, **kwargs):
self = np.array(obj, *args, **kwargs).view(cls)
if 'info' in getattr(obj, '__dict__', ()):
self.info = obj.info
return self
def __array_finalize__(self, obj):
if obj is None:
return
if callable(super().__array_finalize__):
super().__array_finalize__(obj)
# Self was created from template (e.g. obj[slice] or (obj * 2))
# or viewcast e.g. obj.view(Column). In either case we want to
# init Column attributes for self from obj if possible.
if 'info' in getattr(obj, '__dict__', ()):
self.info = obj.info
def __reduce__(self):
# patch to pickle Quantity objects (ndarray subclasses), see
# http://www.mail-archive.com/numpy-discussion@scipy.org/msg02446.html
object_state = list(super().__reduce__())
object_state[2] = (object_state[2], self.__dict__)
return tuple(object_state)
def __setstate__(self, state):
# patch to unpickle NdarrayMixin objects (ndarray subclasses), see
# http://www.mail-archive.com/numpy-discussion@scipy.org/msg02446.html
nd_state, own_state = state
super().__setstate__(nd_state)
self.__dict__.update(own_state)