# Licensed under a 3-clause BSD style license - see LICENSE.rst
"""An extensible ASCII table reader and writer.
cds.py:
Classes to read CDS / Vizier table format
:Copyright: Smithsonian Astrophysical Observatory (2011)
:Author: Tom Aldcroft (aldcroft@head.cfa.harvard.edu)
"""
import fnmatch
import itertools
import re
import os
from contextlib import suppress
from . import core
from . import fixedwidth
from astropy.units import Unit
__doctest_skip__ = ['*']
class CdsHeader(core.BaseHeader):
col_type_map = {'e': core.FloatType,
'f': core.FloatType,
'i': core.IntType,
'a': core.StrType}
'The ReadMe file to construct header from.'
readme = None
def get_type_map_key(self, col):
match = re.match(r'\d*(\S)', col.raw_type.lower())
if not match:
raise ValueError('Unrecognized CDS format "{}" for column "{}"'.format(
col.raw_type, col.name))
return match.group(1)
def get_cols(self, lines):
"""
Initialize the header Column objects from the table ``lines`` for a CDS
header.
Parameters
----------
lines : list
List of table lines
"""
# Read header block for the table ``self.data.table_name`` from the read
# me file ``self.readme``.
if self.readme and self.data.table_name:
in_header = False
readme_inputter = core.BaseInputter()
f = readme_inputter.get_lines(self.readme)
# Header info is not in data lines but in a separate file.
lines = []
comment_lines = 0
for line in f:
line = line.strip()
if in_header:
lines.append(line)
if line.startswith(('------', '=======')):
comment_lines += 1
if comment_lines == 3:
break
else:
match = re.match(r'Byte-by-byte Description of file: (?P<name>.+)$',
line, re.IGNORECASE)
if match:
# Split 'name' in case in contains multiple files
names = [s for s in re.split('[, ]+', match.group('name'))
if s]
# Iterate on names to find if one matches the tablename
# including wildcards.
for pattern in names:
if fnmatch.fnmatch(self.data.table_name, pattern):
in_header = True
lines.append(line)
break
else:
raise core.InconsistentTableError("Can't find table {} in {}".format(
self.data.table_name, self.readme))
found_line = False
for i_col_def, line in enumerate(lines):
if re.match(r'Byte-by-byte Description', line, re.IGNORECASE):
found_line = True
elif found_line: # First line after list of file descriptions
i_col_def -= 1 # Set i_col_def to last description line
break
re_col_def = re.compile(r"""\s*
(?P<start> \d+ \s* -)? \s*
(?P<end> \d+) \s+
(?P<format> [\w.]+) \s+
(?P<units> \S+) \s+
(?P<name> \S+)
(\s+ (?P<descr> \S.*))?""",
re.VERBOSE)
cols = []
for line in itertools.islice(lines, i_col_def + 4, None):
if line.startswith(('------', '=======')):
break
match = re_col_def.match(line)
if match:
col = core.Column(name=match.group('name'))
col.start = int(re.sub(r'[-\s]', '',
match.group('start') or match.group('end'))) - 1
col.end = int(match.group('end'))
unit = match.group('units')
if unit == '---':
col.unit = None # "---" is the marker for no unit in CDS table
else:
col.unit = Unit(unit, format='cds', parse_strict='warn')
col.description = (match.group('descr') or '').strip()
col.raw_type = match.group('format')
col.type = self.get_col_type(col)
match = re.match(
r'(?P<limits>[\[\]] \S* [\[\]])?' # Matches limits specifier (eg [])
# that may or may not be present
r'\?' # Matches '?' directly
r'((?P<equal>=)(?P<nullval> \S*))?' # Matches to nullval if and only
# if '=' is present
r'(?P<order>[-+]?[=]?)' # Matches to order specifier:
# ('+', '-', '+=', '-=')
r'(\s* (?P<descriptiontext> \S.*))?', # Matches description text even
# even if no whitespace is
# present after '?'
col.description, re.VERBOSE)
if match:
col.description = (match.group('descriptiontext') or '').strip()
if issubclass(col.type, core.FloatType):
fillval = 'nan'
else:
fillval = '0'
if match.group('nullval') == '-':
col.null = '---'
# CDS tables can use -, --, ---, or ---- to mark missing values
# see https://github.com/astropy/astropy/issues/1335
for i in [1, 2, 3, 4]:
self.data.fill_values.append(('-' * i, fillval, col.name))
else:
col.null = match.group('nullval')
if (col.null is None):
col.null = ''
self.data.fill_values.append((col.null, fillval, col.name))
cols.append(col)
else: # could be a continuation of the previous col's description
if cols:
cols[-1].description += line.strip()
else:
raise ValueError(f'Line "{line}" not parsable as CDS header')
self.names = [x.name for x in cols]
self.cols = cols
class CdsData(core.BaseData):
"""CDS table data reader
"""
splitter_class = fixedwidth.FixedWidthSplitter
def process_lines(self, lines):
"""Skip over CDS header by finding the last section delimiter"""
# If the header has a ReadMe and data has a filename
# then no need to skip, as the data lines do not have header
# info. The ``read`` method adds the table_name to the ``data``
# attribute.
if self.header.readme and self.table_name:
return lines
i_sections = [i for i, x in enumerate(lines)
if x.startswith(('------', '======='))]
if not i_sections:
raise core.InconsistentTableError('No CDS section delimiter found')
return lines[i_sections[-1]+1:] # noqa
[ドキュメント]class Cds(core.BaseReader):
"""CDS format table.
See: http://vizier.u-strasbg.fr/doc/catstd.htx
Example::
Table: Table name here
= ==============================================================================
Catalog reference paper
Bibliography info here
================================================================================
ADC_Keywords: Keyword ; Another keyword ; etc
Description:
Catalog description here.
================================================================================
Byte-by-byte Description of file: datafile3.txt
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 3 I3 --- Index Running identification number
5- 6 I2 h RAh Hour of Right Ascension (J2000)
8- 9 I2 min RAm Minute of Right Ascension (J2000)
11- 15 F5.2 s RAs Second of Right Ascension (J2000)
--------------------------------------------------------------------------------
Note (1): A CDS file can contain sections with various metadata.
Notes can be multiple lines.
Note (2): Another note.
--------------------------------------------------------------------------------
1 03 28 39.09
2 04 18 24.11
**About parsing the CDS format**
The CDS format consists of a table description and the table data. These
can be in separate files as a ``ReadMe`` file plus data file(s), or
combined in a single file. Different subsections within the description
are separated by lines of dashes or equal signs ("------" or "======").
The table which specifies the column information must be preceded by a line
starting with "Byte-by-byte Description of file:".
In the case where the table description is combined with the data values,
the data must be in the last section and must be preceded by a section
delimiter line (dashes or equal signs only).
**Basic usage**
Use the ``ascii.read()`` function as normal, with an optional ``readme``
parameter indicating the CDS ReadMe file. If not supplied it is assumed that
the header information is at the top of the given table. Examples::
>>> from astropy.io import ascii
>>> table = ascii.read("data/cds.dat")
>>> table = ascii.read("data/vizier/table1.dat", readme="data/vizier/ReadMe")
>>> table = ascii.read("data/cds/multi/lhs2065.dat", readme="data/cds/multi/ReadMe")
>>> table = ascii.read("data/cds/glob/lmxbrefs.dat", readme="data/cds/glob/ReadMe")
The table name and the CDS ReadMe file can be entered as URLs. This can be used
to directly load tables from the Internet. For example, Vizier tables from the
CDS::
>>> table = ascii.read("ftp://cdsarc.u-strasbg.fr/pub/cats/VII/253/snrs.dat",
... readme="ftp://cdsarc.u-strasbg.fr/pub/cats/VII/253/ReadMe")
If the header (ReadMe) and data are stored in a single file and there
is content between the header and the data (for instance Notes), then the
parsing process may fail. In this case you can instruct the reader to
guess the actual start of the data by supplying ``data_start='guess'`` in the
call to the ``ascii.read()`` function. You should verify that the output
data table matches expectation based on the input CDS file.
**Using a reader object**
When ``Cds`` reader object is created with a ``readme`` parameter
passed to it at initialization, then when the ``read`` method is
executed with a table filename, the header information for the
specified table is taken from the ``readme`` file. An
``InconsistentTableError`` is raised if the ``readme`` file does not
have header information for the given table.
>>> readme = "data/vizier/ReadMe"
>>> r = ascii.get_reader(ascii.Cds, readme=readme)
>>> table = r.read("data/vizier/table1.dat")
>>> # table5.dat has the same ReadMe file
>>> table = r.read("data/vizier/table5.dat")
If no ``readme`` parameter is specified, then the header
information is assumed to be at the top of the given table.
>>> r = ascii.get_reader(ascii.Cds)
>>> table = r.read("data/cds.dat")
>>> #The following gives InconsistentTableError, since no
>>> #readme file was given and table1.dat does not have a header.
>>> table = r.read("data/vizier/table1.dat")
Traceback (most recent call last):
...
InconsistentTableError: No CDS section delimiter found
Caveats:
* The Units and Explanations are available in the column ``unit`` and
``description`` attributes, respectively.
* The other metadata defined by this format is not available in the output table.
"""
_format_name = 'cds'
_io_registry_format_aliases = ['cds']
_io_registry_can_write = False
_description = 'CDS format table'
data_class = CdsData
header_class = CdsHeader
def __init__(self, readme=None):
super().__init__()
self.header.readme = readme
[ドキュメント] def write(self, table=None):
"""Not available for the Cds class (raises NotImplementedError)"""
raise NotImplementedError
[ドキュメント] def read(self, table):
# If the read kwarg `data_start` is 'guess' then the table may have extraneous
# lines between the end of the header and the beginning of data.
if self.data.start_line == 'guess':
# Replicate the first part of BaseReader.read up to the point where
# the table lines are initially read in.
with suppress(TypeError):
# For strings only
if os.linesep not in table + '':
self.data.table_name = os.path.basename(table)
self.data.header = self.header
self.header.data = self.data
# Get a list of the lines (rows) in the table
lines = self.inputter.get_lines(table)
# Now try increasing data.start_line by one until the table reads successfully.
# For efficiency use the in-memory list of lines instead of `table`, which
# could be a file.
for data_start in range(len(lines)):
self.data.start_line = data_start
with suppress(Exception):
table = super().read(lines)
return table
else:
return super().read(table)