# Licensed under the GPLv3 - see LICENSE
import re
import astropy.units as u
from astropy.utils import lazyproperty
from ..helpers import sequentialfile as sf
from ..base.base import (
FileBase,
StreamReaderBase, StreamWriterBase,
FileOpener, FileInfo)
from .header import GUPPIHeader
from .payload import GUPPIPayload
from .frame import GUPPIFrame
from .file_info import GUPPIFileReaderInfo
__all__ = ['GUPPIFileNameSequencer', 'GUPPIFileReader', 'GUPPIFileWriter',
'GUPPIStreamBase', 'GUPPIStreamReader', 'GUPPIStreamWriter',
'open', 'info']
[docs]class GUPPIFileNameSequencer(sf.FileNameSequencer):
"""List-like generator of GUPPI filenames using a template.
The template is formatted, filling in any items in curly brackets with
values from the header, as well as possibly a file number equal to the
indexing value, indicated with '{file_nr}'.
The length of the instance will be the number of files that exist that
match the template for increasing values of the file number (when writing,
it is the number of files that have so far been generated).
Parameters
----------
template : str
Template to format to get specific filenames. Curly bracket item
keywords are not case-sensitive.
header : dict-like
Structure holding key'd values that are used to fill in the format.
Keys must be in all caps (eg. ``DATE``), as with GUPPI header keys.
Examples
--------
>>> from baseband import guppi
>>> gfs = guppi.GUPPIFileNameSequencer(
... '{date}_{file_nr:03d}.raw', {'DATE': "2018-01-01"})
>>> gfs[10]
'2018-01-01_010.raw'
>>> from baseband.data import SAMPLE_PUPPI
>>> with open(SAMPLE_PUPPI, 'rb') as fh:
... header = guppi.GUPPIHeader.fromfile(fh)
>>> template = 'puppi_{stt_imjd}_{src_name}_{scannum}.{file_nr:04d}.raw'
>>> gfs = guppi.GUPPIFileNameSequencer(template, header)
>>> gfs[0]
'puppi_58132_J1810+1744_2176.0000.raw'
>>> gfs[10]
'puppi_58132_J1810+1744_2176.0010.raw'
"""
def __init__(self, template, header={}):
self.items = {}
def check_and_convert(x):
string = x.group().upper()
key = string[1:-1]
if key != 'FILE_NR':
self.items[key] = header[key]
return string
# This converts template names to upper case, since header keywords are
# all upper case.
self.template = re.sub(r'{\w+[}:]', check_and_convert, template)
def _process_items(self, file_nr):
super()._process_items(file_nr)
# Pop file_nr, as we need to capitalize it.
self.items['FILE_NR'] = self.items.pop('file_nr')
[docs]class GUPPIFileReader(FileBase):
"""Simple reader for GUPPI files.
Wraps a binary filehandle, providing methods to help interpret the data,
such as `read_frame` and `get_frame_rate`. By default, frame payloads
are mapped rather than fully read into physical memory.
Parameters
----------
fh_raw : filehandle
Filehandle of the raw binary data file.
"""
info = GUPPIFileReaderInfo()
[docs] def read_frame(self, memmap=True, verify=True):
"""Read the frame header and read or map the corresponding payload.
Parameters
----------
memmap : bool, optional
If `True` (default), map the payload using `~numpy.memmap`, so that
parts are only loaded into memory as needed to access data.
verify : bool, optional
Whether to do basic checks of frame integrity. Default: `True`.
Returns
-------
frame : `~baseband.guppi.GUPPIFrame`
With ``.header`` and ``.payload`` properties. The ``.data``
property returns all data encoded in the frame. Since this may
be too large to fit in memory, it may be better to access the
parts of interest by slicing the frame.
"""
return GUPPIFrame.fromfile(self.fh_raw, memmap=memmap, verify=verify)
[docs] def get_frame_rate(self):
"""Determine the number of frames per second.
The routine uses the sample rate and number of samples per frame
(excluding overlap) from the first header in the file.
Returns
-------
frame_rate : `~astropy.units.Quantity`
Frames per second.
"""
with self.temporary_offset(0):
header = self.read_header()
return (header.sample_rate
/ (header.samples_per_frame - header.overlap)).to(u.Hz)
[docs]class GUPPIFileWriter(FileBase):
"""Simple writer/mapper for GUPPI files.
Adds `write_frame` and `memmap_frame` methods to the binary file wrapper.
The latter allows one to encode data in pieces, writing to disk as needed.
"""
[docs] def write_frame(self, data, header=None, **kwargs):
"""Write a single frame (header plus payload).
Parameters
----------
data : `~numpy.ndarray` or `~baseband.guppi.GUPPIFrame`
If an array, a ``header`` should be given, which will be used to
get the information needed to encode the array, and to construct
the GUPPI frame.
header : `~baseband.guppi.GUPPIHeader`
Can instead give keyword arguments to construct a header. Ignored
if ``data`` is a `~baseband.guppi.GUPPIFrame` instance.
**kwargs
If ``header`` is not given, these are used to initialize one.
"""
if not isinstance(data, GUPPIFrame):
data = GUPPIFrame.fromdata(data, header, **kwargs)
return data.tofile(self.fh_raw)
[docs] def memmap_frame(self, header=None, **kwargs):
"""Get frame by writing the header to disk and mapping its payload.
The header is written to disk immediately, but the payload is mapped,
so that it can be filled in pieces, by setting slices of the frame.
Parameters
----------
header : `~baseband.guppi.GUPPIHeader`
Written to disk immediately. Can instead give keyword arguments to
construct a header.
**kwargs
If ``header`` is not given, these are used to initialize one.
Returns
-------
frame: `~baseband.guppi.GUPPIFrame`
By assigning slices to data, the payload can be encoded piecewise.
"""
if header is None:
header = GUPPIHeader.fromvalues(**kwargs)
header.tofile(self.fh_raw)
payload = GUPPIPayload.fromfile(self.fh_raw, memmap=True,
header=header)
return GUPPIFrame(header, payload)
[docs]class GUPPIStreamBase:
"""Provides samples_per_frame and fast index getting/setting."""
_sample_shape_maker = GUPPIPayload._sample_shape_maker
# Overriding instead of passing on a different samples_per_frame
# in __init__ so the docstring indicates the exclusion of the overlap.
@property
def samples_per_frame(self):
""""Number of complete samples per frame, excluding overlap."""
return self.header0.samples_per_frame - self.header0.overlap
@lazyproperty
def _packets_per_frame(self):
# GUPPI headers report their offsets using 'PKTIDX', the number of
# unique UDP data packets (i.e. excluding overlap) written since the
# start of observation. 'PKTSIZE' is the packet size in bytes. Here
# we calculate the packets per frame.
return ((self.header0.payload_nbytes
- self.header0.overlap * self.header0._bpcs // 8)
// self.header0['PKTSIZE'])
def _get_index(self, header):
# Override to avoid calculating index from time.
return int(round((header['PKTIDX'] - self.header0['PKTIDX'])
/ self._packets_per_frame))
def _set_index(self, header, index):
header.update(pktidx=self.header0['PKTIDX']
+ index * self._packets_per_frame)
[docs]class GUPPIStreamReader(GUPPIStreamBase, StreamReaderBase):
"""GUPPI format reader.
Allows access to GUPPI files as a continuous series of samples.
Parameters
----------
fh_raw : filehandle
Filehandle of the raw GUPPI stream.
squeeze : bool, optional
If `True` (default), remove any dimensions of length unity from
decoded data.
subset : indexing object or tuple of objects, optional
Specific components of the complete sample to decode (after possibly
squeezing). If a single indexing object is passed, it selects
polarizations. With a tuple, the first selects polarizations and the
second selects channels. If the tuple is empty (default), all
components are read.
verify : bool, optional
Whether to do basic checks of frame integrity when reading. The first
frame of the stream is always checked, so ``verify`` is effective only
when reading sequences of files. Default: `True`.
"""
def __init__(self, fh_raw, squeeze=True, subset=(), verify=True):
fh_raw = GUPPIFileReader(fh_raw)
header0 = fh_raw.read_header()
super().__init__(fh_raw, header0, squeeze=squeeze,
subset=subset, verify=verify)
@lazyproperty
def stop_time(self):
"""Time at the end of the file, just after the last sample.
This includes any overlap in the last frame.
See also `start_time` for the start time of the file, and `time` for
the time of the sample pointer's current offset.
"""
return (self._get_time(self._last_header)
+ (self._last_header.samples_per_frame / self.sample_rate))
def _get_frame(self, offset):
normal_end = self._nsample-self._last_header.overlap
if normal_end <= offset < self._nsample:
# In overlap of last frame.
frame, sample_offset = super()._get_frame(normal_end-1)
return frame, sample_offset + 1 + offset - normal_end
else:
return super()._get_frame(offset)
[docs]class GUPPIStreamWriter(GUPPIStreamBase, StreamWriterBase):
"""GUPPI format writer.
Encodes and writes sequences of samples to file.
Parameters
----------
raw : filehandle
For writing the header and raw data to storage.
header0 : :class:`~baseband.guppi.GUPPIHeader`
Header for the first frame, holding time information, etc.
squeeze : bool, optional
If `True` (default), `write` accepts squeezed arrays as input,
and adds any dimensions of length unity.
"""
def __init__(self, fh_raw, header0, squeeze=True):
assert header0.get('OVERLAP', 0) == 0, ("overlap must be 0 when "
"writing GUPPI files.")
fh_raw = GUPPIFileWriter(fh_raw)
super().__init__(fh_raw, header0, squeeze=squeeze)
def _make_frame(self, index):
header = self.header0.copy()
self._set_index(header, index)
return self.fh_raw.memmap_frame(header)
def _fh_raw_write_frame(self, frame):
assert frame is self._frame
del self._frame
class GUPPIFileOpener(FileOpener):
FileNameSequencer = GUPPIFileNameSequencer
non_header_keys = FileOpener.non_header_keys | {'frames_per_file'}
def get_fh(self, name, mode, kwargs):
if mode == 'ws' and self.is_sequence(name):
kwargs.setdefault('file_size',
kwargs.pop('frames_per_file', 128)
* kwargs['header0'].frame_nbytes)
return super().get_fh(name, mode, kwargs)
open = GUPPIFileOpener.create(globals(), doc="""
--- For reading a stream : (see `~baseband.guppi.base.GUPPIStreamReader`)
squeeze : bool, optional
If `True` (default), remove any dimensions of length unity from
decoded data.
subset : indexing object or tuple of objects, optional
Specific components of the complete sample to decode (after possibly
squeezing). If a single indexing object is passed, it selects
polarizations. With a tuple, the first selects polarizations and the
second selects channels. If the tuple is empty (default), all
components are read.
--- For writing a stream : (see `~baseband.guppi.base.GUPPIStreamWriter`)
header0 : `~baseband.guppi.GUPPIHeader`
Header for the first frame, holding time information, etc. Can instead
give keyword arguments to construct a header (see ``**kwargs``).
squeeze : bool, optional
If `True` (default), writer accepts squeezed arrays as input, and adds
any dimensions of length unity.
frames_per_file : int, optional
When writing to a sequence of files, sets the number of frames
within each file. Default: 128.
**kwargs
If no header is given, an attempt is made to construct one from these.
For a standard header, this would include the following.
--- Header keywords : (see :meth:`~baseband.guppi.GUPPIHeader.fromvalues`)
time : `~astropy.time.Time`
Start time of the file. Must have an integer number of seconds.
sample_rate : `~astropy.units.Quantity`
Number of complete samples per second, i.e. the rate at which each
channel of each polarization is sampled.
samples_per_frame : int
Number of complete samples per frame. Can alternatively give
``payload_nbytes``.
payload_nbytes : int
Number of bytes per payload. Can alternatively give ``samples_per_frame``.
offset : `~astropy.units.Quantity` or `~astropy.time.TimeDelta`, optional
Time offset from the start of the whole observation (default: 0).
npol : int, optional
Number of polarizations (default: 1).
nchan : int, optional
Number of channels (default: 1). For GUPPI, complex data is only allowed
when nchan > 1.
bps : int, optional
Bits per elementary sample, i.e. per real or imaginary component for
complex data (default: 8).
Returns
-------
Filehandle
:class:`~baseband.guppi.base.GUPPIFileReader` or
:class:`~baseband.guppi.base.GUPPIFileWriter` (binary), or
:class:`~baseband.guppi.base.GUPPIStreamReader` or
:class:`~baseband.guppi.base.GUPPIStreamWriter` (stream).
Notes
-----
For streams, one can also pass to ``name`` a list of files, or a template
string that can be formatted using 'stt_imjd', 'src_name', and other header
keywords (by `~baseband.guppi.GUPPIFileNameSequencer`).
For writing, one can mimic, for example, what is done at Arecibo by using
the template 'puppi_{stt_imjd}_{src_name}_{scannum}.{file_nr:04d}.raw'. GUPPI
typically has 128 frames per file; to change this, use the ``frames_per_file``
keyword. ``file_size`` is set by ``frames_per_file`` and cannot be passed.
For reading, to read series such as the above, you will need to use something
like 'puppi_58132_J1810+1744_2176.{file_nr:04d}.raw'. Here we have to pass in
the MJD, source name and scan number explicitly, since the template is used to
get the first file name, before any header is read, and therefore the only
keyword available is 'file_nr', which is assumed to be zero for the first file.
To avoid this restriction, pass in keyword arguments with values appropriate
for the first file.
One may also pass in a `~baseband.helpers.sequentialfile` object
(opened in 'rb' mode for reading or 'w+b' for writing), though for typical use
cases it is practically identical to passing in a list or template.
""")
info = FileInfo.create(globals())