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# Changelog All notable changes to this project will be documented in this file. ## [Unreleased] ### Fixed - `mwa_corr_fits` handing of the `BSCALE` keyword in gpubox files. ## [2.2.8] - 2022-2-15 ### Added - Parameter `check_azza_domain` in `UVBeam.interp()`, which can turn off the (relatively expensive) check on input az/za values. ## [2.2.7] - 2022-02-09 ### Added - The `UVCal.initialize_from_uvdata` method to initialize a UVCal object using metadata from a UVData object. - An option to `UVData.reorder_blts` to sort the autos before the crosses. - Added new functionality to `UVData.check` to verify that auto-correlations are real-only, along with an option to force them to be real-only if non-zero imaginary components are detected. ### Changed - `UVFlag.to_baseline()` uses internal time tolerances (both rtol and atol) stored in the UVParameter `_time_array.tols` to check whether times in the UVFlag object and the input UVFlag/UVData object match. ### Deprecated - The `with_conjugates` keyword in favor of the `include_conjugates` keyword in the `utils.get_baseline_redundancies` function. ## [2.2.6] - 2022-01-12 ### Added - A new attribute to `UVData` called `flex_spw_polarization_array`, of type=int and shape=(`Nspws`,), which allows for individual spectral windows to carry different polarization data. - Added the `_make_flex_pol` and `remove_flex_pol` methods to `UVData`, which allows for one to convert a standard `UVData` object to one with "flexible-polarization". - Added a new method to `MirParser` called `_apply_tsys`, which will convert MIR visibility data from correlation coefficiencts to pseudo-Jy. - Added a method to `Mir` called `_init_from_mir_parser`, which allows for one to pass a `MirParser` object to be coverted into a UVData object (rather than reading from a file on disk). - Added the `flex_spw` attribute to the `UVCal` class, which can be set to True by using the new `_set_flex_spw` method. - Added the optional `flex_spw_id_array` attribute to UVCal class, of type=int and shape=(`Nfreqs`,), which indexes individual channels along the frequency axis to `spw_array`. - Added `use_future_array_shapes` method to UVCal to allow users to convert to using the future array shapes now, with support throughout UVCal methods and related utility functions. Also added `use_current_array_shapes` to revert to the standard shapes. - Added support for wide-band gain calibrations via the `wide_band` attribute on the `UVCal` class, which can be set using the new `_set_wide_band` method. - Added `time_range`, `lsts`, and `lst_range` kwargs from UVH5.write_uvh5_part() to UVData.write_uvh5_part(). - Added `time_range`, `lsts`, and `lst_range` kwargs from UVH5.write_uvh5_part() to UVData.write_uvh5_part(). ## Changed - General performance improvements in the `read_mir` method. - Enabled `read_mir` to read in dual- and full-polarization data. ### Fixed - Fixed a bug where `UVData.compress_by_redundancy` sometimes produced incorrectly conjugated visibilities. - Fixed a bug where `lsts` and `lst_range` got ignored when doing partial i/o with multiple files. ## [2.2.5] - 2021-12-21 ### Added - Support for reading MWAX correlator fits files. - Added a warning when using `UVData.write_uvfits` when the `vis_units` attribute is anything other than `Jy`. - Added a warning when using `UVData.write_uvfits` if a UVData object has > 256 antennas, recommending use of `UVData.write_ms` if intending to import the data into CASA. - Reading writing of scan numbers for MS files as `UVData.scan_number_array`. - Grouping of contiguous integrations for a phase center into "scan numbers" in `UVData._set_scan_numbers`. This grouping defines `UVData.scan_number_array` when not originally present in the data (e.g. reading in a non-MS file) and is used when writing to an MS file. - Added a `filename` attribute to UVCal, UVBeam and UVFlag objects. - Support for reading MWAX/birli uvfits files. - Flexible spectral windows to `read_mwa_corr_fits`. ### Changed - Changed the `UVData.write_ms` to reduce processing time and memory footprint. - Changed the order in which data are written in Measurement Set format via the method `UVData.write_ms`, where data are now first grouped together by `scan_number_array`. - Changed the defaults by which the `UVData.antenna_names` attribute is set when reading measurement sets (used to default to station names, now uses antenna names if available and the MS file was not written using the CASA `importuvfits` routine). - Fixed a bug where `UVData.x_orientation` and `UVData.vis_units` were not being written to / read from measurement sets. - Updated the astroquery requirement to >= 0.4.4, due to changes in the API handling for calls to JPL Horizons. - Assumes uvfits files are in ITRF frame unless explicitly stated otherwise. Consistent with AIPS 117. - Improved readability, functionality, and memory usage in `read_mwa_corr_fits`. ### Fixed - A bug in writing calfits files when the optional `time_range` parameter is not set. - A bug where the `TIME_CENTROID` field was not being filled in data sets written by `UVData.write_ms`, which caused odd behavior in some CASA routines (e.g., `gaincal`). - A bug in reading in uvfits files with baseline coordinates that have suffixes of '---SIN' or '---NCP' which are allowed in uvfits files. - A bug that could cause some routines in CASA to fail when using data sets written by `UVData.write_ms`. - A bug that could have resulted in `UVData.__add__` combining objects together incorrectly when containing overlapping time-baselines/polarization/frequency channels together that were ordered differently for the two `UVData` objects. - A bug that prevented `extra_keywords` keys with a value of `None` from being saved to UVH5 files. - A bug that resulted in the wrong expected shapes for data-like arrays when metadata only UVData objects were set to use future array shapes. - A bug that caused an error when writing non-double antenna diameters to measurement set files - Added a warning in `utils.uvcalibrate` when uvdata x_orientation is not set. - Fixed a bug in `UVBeam.efield_to_power` when there is only one feed. ## [2.2.4] - 2021-10-14 ### Fixed - Fixed a bug in converting non-crosspol power beams to real in `UVBeam.efield_to_power`. ## [2.2.3] - 2021-10-13 ### Fixed - A bug that resulted in coordinate queries via for solar-system objects `utils.lookup_jplhorizons` to throw an error. The workaround temporarily requires the precision for ephemerides to be limited to 0.05 arcseconds. - A bug that resulted in a potential error when attempting to write out multi-phase-center data sets into the UVH5 file format. ## [2.2.2] - 2021-9-30 ### Added - Added the `UVData.write_ms` method, a UVData measurement set writer. - Added an option to the `UVData.check` method to flip the uvws and conjugate the data_array to align with the `UVData` convention on baseline orientation. - Added the `flip_gain_conj` option to `utils.uvcalibrate` to use the opposite gain conjugation convention in calibration. - Support for selecting on polarization strings on `UVData`, `UVCal`, `UVBeam` and `UVFlag`. - `from_file` class function on UVData and UVBeam. Allows users to instantiate an object from a file directly from each Class. - Generic 'read' function for UVBeam objects. - UVData methods `set_data`, `set_flags`, and `set_nsamples` which allow the user to update values in the corresponding arrays. - pyERFA was added as an explicit dependency (previously it was implicit because it is an astropy dependency). ### Fixed - A bug in the way times were written to uvfits files that could cause a loss of precision. - A bug that allowed the check to pass on `UVData`, `UVCal` and `UVFlag` objects if the `flag_array` contained integers instead of booleans. - A bug in equality testing for `UVParameter` objects with strict types when the parameters contain arrays. - Provide a more useful error message if `UVCal.read_fhd_cal` is called with `read_data=False` and a settings file is not provided. - Fixed a bug in `UVCal.read_fhd_cal` where the reader crashed on a metadata only read if the settings file had an empty field for the diffuse model. - Fixed a bug in `UVBeam.efield_to_power` where a the `data_array` remained complex rather than real because the tolerance was too low in the numpy `real_if_close` call. ## [2.2.1] - 2021-7-21 ### Changed - The `__eq__` method on UVBase objects (and subclasses) now supports an `allowed_failures` keyword for parameters which are allowed to be unequal without failing the check. This includes the `filename` parameter of `UVData` objects by default. ## [2.2.0] - 2021-6-26 ### Added - Added `filename` attribute for UVData objects. - Added support for multiple sources/phase centers in a single UVData object, which can be enabled using the `_set_multi_phase_center` method. Using this method will set the new attribute `multi_phase_center` to `True` (otherwise set to `False`.). - Added the optional attribute `Nphase`, of type `int` and required if `multi_phase_center=True`, which records the number of different phase centers recorded in the UVData object. - Added the optional attribute `phase_center_catalog`, a dictionary of dictionaries that is required if `multi_phase_center=True`, which records various meta-information about the different phase centers used within the UVData object. The keys of individual entries of phase_center_catalog are strings representing the names of the individual phase centers. These keys are matched to individual dictionaries which store various information about the phase centers, including coordinate information (e.g., `cat_lat`, `cat_lon`, `cat_frame`, `cat_epoch`) and a unique identification number (`cat_id`, type `int`). Catalog information can be printed to the terminal using the method `print_phase_center_info`. - Added the optional attribute `phase_center_id_array`, of type `int` and shape `(Nblts,)` required if `multi_phase_center=True`, which records which phase center the individual baseline-time record is phased to. The individual values of are matched to `cat_id` from the individual dictionary entries of `phase_center_catalog`. - Added the attributes `phase_center_app_ra` and `phase_center_app_dec`, which records he topocentric apparent positions of the phase center as seen from the position `telescope_location`. Both are of type `float`, shape `(Nblts,)`. - Added the attribute `phase_center_frame_pa`, of type `float`, shape `(Nblts,)`, which encodes the position angle between the topocentric apparent frame and the celestial frame of phase center coordinates, as recorded in `phase_center_frame` (e.g., FK5, ICRS). UV-coordinates are rotated by `phase_center_frame_pa`, such that - Added a switch called `ignore_name` to `__add__` which allows one to ignore whether the `object_name` attribute matches when attempting to combine objects (default is `ignore_name=False`, which will cause an error to be thrown if `object_name` does not match). This parameter is also available with the `read` method, when reading in multiple files. - Added a switch called `make_multi_phase` to the `__add__` method, which will convert the data to a multi-phase-center-enabled dataset, allowing for UVData objects with different phase centers to be combined. This parameter is also available with the `read` method, when reading in multiple files. - Added the `fix_phase` method, which converts UVData objects from the "old" phasing framework to the "new' phasing framework. - Added support for looking up ephemeris information of solar system objects from JPL-Horizons via the optionally required `astroquery` packaged. - Added option to select based on LST or an LST range in UVData objects. - Added `get_lsts` method on UVData objects for retrieving LST corresponding to data. ### Changed - `utils.uvcalibrate` will error rather than warn if some of the newly added checks do not pass, including if antenna names do not match between the objects. - Phasing methods (e.g., `UVData.phase`, `UVData.unphase_to_drift`, `UVData.set_uvws_from_antenna_positions`) have undergone a significant revision, which change the way in UVW coordinates are calculated. Specifically, these methods will now use the topocentric apparent positions (stored in the attributes `phase_center_app_ra`, `phase_center_app_dec`). As a result, phasing of data and calculating of uvw-coordinates are significantly faster. - `phase` method now supports phase centers of different types, specified by the `cat_type` parameter. Supported types include "sidereal" (default; fixed position in RA/Dec), "ephem" (position in RA/Dec which moves with time), and "driftscan" (fixed position in Az/El, NOT the same as `phase_type`=“drift”). The "ephem" and "driftscan" types can only be used when `multi_phase_center=True`. - `phase` now uses antenna positions for deriving uvw-coordinates by default. - Decreased the standard tolerances for angle-based parameters to 1 mas (was 10 mas). - Updated the astropy requirement to >= 4.2.1 - Unknown phasing types (i.e., `phase_type="unknown"`) are no longer supported, `read` (and the associated file-reading methods) will default `phase_type` to "drift" when unable to definitively ascertain the phasing type. ### Fixed - A bug in `aipy_extracts.pipe` that caused an error when using `raw=True`. - A bug in `aipy_extracts.write` which caused an error when using certain masked arrays. - Phasing accuracy/UVW coordinate calculation no longer limited to 2 cm on a 3 km baseline (i.e.,~1 part in 1e5; new accuracy is better than 1 part in 1e8). - A bug in reading DSB data from Mir filetypes, that resulted in visibilities being matched to the wrong baselines. - A bug in `UVData.phase_to_time` which prevented users from rephasing phased objects. - A bug in `UVBeam.read_cst_beam` when specifying beams with a single file using a yaml. ### Removed - The UVBeam methods `set_cs_params`, `set_efield`, `set_power`, `set_simple`, and `set_phased_array` have been removed. - The UVCal methods `set_gain`, `set_delay`, `set_unknown_cal_type`, `set_sky`, and `set_redundant` have been removed. - The UVData methods `set_phased` and `set_drift` have been removed. - The functions `utils._str_to_bytes` and `utils._bytes_to_str` have been removed. - The `flag_missing` keyword of the `utils.uvcalibrate` function has been removed. ## [2.1.5] - 2021-4-02 ### Added - Added `use_future_array_shapes` method to allow users to convert to using the future array shapes now, with support throughout UVData methods and related utility functions. Also added `use_current_array_shapes` to revert to the standard shapes. - Added versioning to UVH5 files. Files with future array shapes are version 1.0, files with the current shapes are are version 0.1. - Added `UVData.reorder_freqs` method to reorder the data along the frequency axis. - Better re-initialization of UVParameters on UVBase objects when using pickle. Improves compatibility of UVBase objects with MPI. - Added option to apply a Van Vleck correction to mwa_corr_fits files. ### Fixed - A bug in mwa_corr_fits that resulted in an error when using `memap=true` while reading files containing the 'BSCALE' keyword. - A bug in mwa_corr_fits that didn't properly test against 2015 data, and so didn't catch the error when using `memap=true` while reading files containing the 'BSCALE' keyword. - A bug in mwa_corr_fits that didn't round start_flag to the nearest multiple of integration time when using goodtime, resulting in an error when reading data taken at 2 seconds. - A bug in reading in the MWA beam that caused the beam to be rotated by 90 degrees. ## [2.1.4] - 2021-2-04 ### Added - Added `propagate_coarse_flags` option to `read_mwa_corr_fits`, as well as new flagging defaults. - Added support for `extra_keywords` in UVFlag construction from UVData objects (and paths) ### Changed - Improved memory usage in reading MWA correlator fits files. - Speed improvement in redundant group finder. ### Fixed - Fixed a bug in `compress_by_redundancy` with `method='average'` that resulted in more unique times on the compressed object than on the original object. - Fixed bug causing MemoryError when finding redundant baselines for over 100 antennas. ## [2.1.3] - 2020-12-15 ### Added - Added support for `telescope_location`, `antenna_positions` and `lst_array` in UVCal objects and file types. - Added support for a `metadata_only` mode in UVCal, including options to only read the metadata when reading in calibration files. - Added a `copy` method for UVCal objects. - Added `antenna_positions`, `antenna_names` and `antenna_numbers` as optional metadata to our known telescopes list and added HERA antenna position information. - Added handling for `extra_keywords` in UVFlag objects, including read/write to/from files. - Added handling for `object_name` and `extra_keywords` to `sum_vis` and `diff_vis` methods and added the `override_params` option to override other parameters. ### Changed - Changed to use Astropy sites for telescope locations when avaliable. This results in a small change for our known position for the MWA. - Modified `UVData.read` to do faster concatenation of files, changed the interface to `UVData.fast_concat` to allow lists of `UVData` objects to be passed in. ### Fixed - Fixed a bug where telescope positions from MWA uvfits files created by Cotter were not identified as being in the ITRF frame because of a missing FITS keyword. - Fixed a bug where `antenna_positions` from FHD files were interpreted as being in the relative ECEF frame rather than the rotated ECEF frame - Fixed a bug where the `lst_array` was not updated in `compress_by_redundancy` when using `method='average'`. - Fixed an undefined parameter bug when interpolating beams that do not cover the sky. - Fixed an indexing error bug in `compress_by_redundancy` when using `method='average'`. ### Deprecated - UVCal objects now require `telescope_location`, `antenna_positions` and `lst_array` parameters. Not setting them will cause an error starting in pyuvdata 2.3. ## [2.1.2] - 2020-10-07 ### Added - Added support for multiple spectral windows for UVH5, UVFITS, MIR, and MIRIAD files. - Added the `flex_spw` attribute to the `UVData` class, which can be set to True by using the new `_set_flex_spw` method. - Added the optional `flex_spw_id_array` attribute, of type=int and shape=(`Nfreqs`,), which indexes individual channels along the frequency axis to `spw_array`. - Adjustment to digital gain removal from mwa_corr_fits files to account for a division by 64 due to a bit selection shift. - Options to remove coarse band shape and digital gains from mwa_corr_fits files. - Support for cotter flags in mwa_corr_fits files. ### Changed - When `flex_spw=True`, the `channel_width` attribute of UVData is expected to be an array of type=float and shape=(`Nfreqs`,). Individual channels are allowed to have different channel widths. - Changed `freq_array` to be of shape (1, `Nfreqs`) (formerley (`Nspws`, `Nfreqs`)). - Changed `data_array`, `flag_array`, `nsample_array` to be of shape (`Nblts`, 1, `Nfreqs`, `Npols`) (formerly (`Nblts`, `Nspws`, `Nfreqs`, `Npols`)). - Changed UVH5 metadata byte conversion method from tobytes() to bytes() ## [2.1.1] - 2020-8-07 ### Added - Added read-only support for MIR files, adding the `Mir` class to `UVData`. - Added the `MirParser` class, which allows for python access to MIR files. - A new `check_warnings` method in our test module that behaves like `pytest.warns` but adds the ability to check for multiple warnings. - The 'ant_str' option when making selects on UVFlag objects - A check that the uvws match the antenna positions, as part of the acceptability checking. ### Changed - Updated the numpy requirement to >= 1.18 - Moved `parse_ants` to `utils.py` to allow any UVBased object the potential to use it. ### Deprecated - The `checkWarnings` function in our test module, use the new `check_warnings` function instead. ## [2.1.0] - 2020-7-08 ### Added - `UVFlag` can now take `PosixPath` objects as input. - An option to average rather than select a single baseline in `UVData.compress_by_redundancy`, controlled by the `method` keyword. - `nsample_array_dtype` keyword for `UVData.read`, which sets the datatype for the nsample_array. Currently only used for mwa_corr_fits files. - `utils` cython module to speed up some common utility functions. - Added support for installing the package on Windows. - 'background_lsts' keyword in `uvdata.read` to calculate lsts in the background while reading. Defaults to True. - `background` keyword in `uvdata.set_lsts_from_time_array` to allow lst calculation in a background thread. - `read_data` keyword to read_mwa_corr_fits, allows from metadata only reads of MWA correlator fits files. - `propagate_flags` keyword for `UVData.frequency_average` which flags averaged samples if any contributing samples were flagged ### Changed - Nants data calculation changed to use numpy functions for small speed up. - Changed `input` variable to `indata` in UVFlag to avoid shadowing python builtin. - `select` now also accepts a list of baseline indices for the `bls` parameter. - `data_array_dtype` keyword for `UVData.read` is now also respected by mwa_corr_fits files. Previously it was only used by uvh5 files. - The `time_range` parameter on UVCal is no longer required and it is suggested to only set it if the Ntimes axis is length one. - FHD now supports metadata only reads. - Updated formatting and added more explicit typing in corr_fits.pyx - Updated Nants calculations for speed up. - updated HERA telescope location to match the HERA defined center of array. - `utils.uvcalibrate` now incorporates many more consistency checks between the uvcal and uvdata object. The new keywords `time_check` and `ant_check` were added to control some of these checks. ### Deprecated - The UVBeam methods `set_cs_params`, `set_efield`, `set_power`, `set_simple`, and `set_phased_array` have been made private. The public methods will be removed in version 2.2. - The UVCal methods `set_gain`, `set_delay`, `set_unknown_cal_type`, `set_sky`, and `set_redundant` have been made private. The public methods will be removed in version 2.2. - `utils.uvcalibrate` will error rather than warn if some of the newly added checks do not pass, including if antenna names do not match between the objects, starting in version 2.2. In addition, the `flag_missing` keyword is deprecated and will be removed in version 2.2. ### Fixed - UVFlag.__add__ now properly concatenates all existing data-like parameters of the object, including optional ones. - A bug in `UVData.downsample_in_time` where the data were not being properly weighted by the nsample array and the nsample_array was not being properly weighted by the integration times. - A bug in `UVData.downsample_in_time` that lead to duplicated data on the final object if a baseline had varying integration times and some integration times were greater than or equal to the requested minimum integration time. ## [2.0.2] - 2020-4-29 ### Added - New `_corr_fits` C extension for performing the index and conjugation mapping calculation for read_mwa_corr_fits - `copy` method to UVCal and UVBeam objects - `chunks` to `UVH5.write_uvh5` and `UVData.write_uvh5` for HDF5 dataset chunking. - `multidim_index` to `UVH5.read_uvh5` and `UVData.read` for multidimensional slicing into HDF5 datasets ### Changed - Various serialized calculations in uvdata.py, uvbeam.py, and utils.py to be vectorized with numpy - Miriad interface was re-written from a hand written CPython interface to a Cython interface which dynamically creates the CPython during package setup/build. - uvfits, calfits and beamfits files should now be read faster due to a simplified handling of fits header objects, especially when the history is very long. - The UVData methods `set_drift`, `set_phased`, and `set_unknown_phase_type` have been made private. The public methods will be removed in version 2.2. ## [2.0.1] - 2020-3-24 ### Changed - UVData allows conjugation of metadata only objects. - Handling of strings in UVFlag files has been made more widely compatible. ### Added - Option to provide parameters for RectBivariatespline through interp - `weights_square_array` (optional) parameter on UVFlag - stores sum of squares of weights when converting to waterfall - `frequency_average` method on UVData to average data along the frequency axis. ### Fixed - A bug in `select` where baseline-polarization tuples would not be conjugated correctly in `UVData` and `UVFlag`, and select on read for Miriad files. - `metafits_ppds.fits` files can now be passed to `mwa_corr_fits.read` without throwing an error. - UVParameters that are array_like and have NaNs are now properly identified as equal if the NaNs are in the same locations and all non-NaN entries are equal. - A bug in `mwa_corr_fits.read` in filling flag and nsample arrays. - A bug in `UVData.downsample_in_time` in calculating the number of new blts. ## [2.0.0] - 2020-2-12 ### Changed - All references to Python 2 removed from codebase. ### Added - Routine flagging of MWA coarse band edges and center channels, as well as beginning and end integrations. Only done during `read_mwa_corr_fits`. - Added a return_weights_square option to `utils.collapse` function, which returns the sum of the squares of the weights. ### Removed - Previously deprecated code marked for removal in version > 1.5: - reading multiple files with file format specific read functions (e.g. read_mirad). Multi-file reads can only be performed with `uvdata.read` - `read_metadata` keyword in various specific read functions (e.g. `read_miriad`) - `metadata_only` keyword in `select` and `get_redundancies` - `uvdata.miriad.read_miriad_metadata` - `phase_center` keyword in `uvdata.read_mwa_corr_fits` - `phase_data` keyword in `uvdata.read_mwa_corr_fits` - `uvdata.get_antenna_redundancies` - `uvdata.get_baseline_redundancies` - `uvdata.uvfits.read_uvfits_metadata` - `uvdata.uvfits.read_uvfits_data` ## [1.5.0] - 2020-1-15 ### Added - Support for reading the MWA full embedded element beam into a UVBeam object. - New `time_range` keyword to `select` so exact times don't need to be specified (also added to `read` methods for select on read). - Support for rephasing phased data including on `read`, `__add__` and `fast_concat` so that files with different phasing can be read in together. - `sum_vis` and `diff_vis` for summing or differencing visibilities in the data_array. - `read_mwa_corr_fits` for reading in MWA correlator gpubox files and applying cable corrections. - `eq_coeffs` for storing equalization coefficients and `remove_eq_coeffs` for removing them. - `utils.apply_uvflag` for applying UVFlag objects to UVData objects ### Fixed - Fixed `utils.uvcalibrate` to handle `x_orientation` attribute - Arrays of file names can now be passed to `read` (not just lists). - run_check is no longer turned off in `read_uvfits` and `read_uvh5` when `read_data` is False. - Redundancy finder will now error if any baselines appear in multiple groups. - A bug in `UVCal` objects that prevented them from properly getting data with `ee`/`nn`-style polarizations. - a bug in `UVFlag` where `x_orientation` was not set during initialization. - A bug in `UVCal.read_fhd_cal` that caused calibration solutions to be approximately doubled. - A bug in UVFlag where polarization array states were not updated when using `force_pol` keyword in `to_antenna` and `to_baseline` - A bug in UVFlag.to_baseline() where force_pol kwarg did not work for UVData Npols > 1 - `UVData.read_uvfits` no longer breaks if there are non-ascii bytes in antenna names (which CASA sometimes writes). ### Deprecated - Reading in multiple files (or file sets) using file-type specific read methods (e.g. `read_uvfits`) in favor of the generic `read` method. - The `phase_center` and `phase_data` keywords to `read_mwa_corr_fits` in favor of `phase_to_pointing_center` and the `phase_center_radec` keyword in the generic `read` method. - Support for reading only the header (not all the metadata) of uvfits files. - The `read_uvfits_metadata` and `read_uvfits_data` methods on the UVFITS object. - The `read_miriad_metadata` method on the Mirad object. ## [1.4.2] - 2019-10-15 ### Added - `copy` method for `UVData`, which can optionally make a copy of just metadata - `upsample_in_time`, `downsample_in_time`, and `resample_in_time` methods on `UVData` objects - `utils.uvcalibrate(.., undo=True)` kwarg for undo-ing a calibration. - `utils.uvcalibrate` updates `UVData.vis_units` if `UVCal.gain_scale` is set. - `UVCal.gain_scale` non-required attribute - UVData.get_redundancies method to replace old get_baseline_redundancies and get_antenna_redundancies. - option for `UVBeam.interp` to return a new beam object. - `UVFlag` information on Read The Docs ### Changed - `UVData.phase_to_time` now accepts a float as an input. Assumes float represents a JD. - Added optional acceptability check for `utils.LatLonAlt_from_XYZ` - Use `astropy_healpix` rather than `healpy` for HEALPix functionality because `healpy` has a GPL license which is incompatible with ours. - `h5py` is now a required package instead of an optional one. - Phasing now supports metadata only `UVData` objects - utils.get_baseline_redundancies uses scipy pdist functions instead of for loops (faster) - UVData.get_antenna_redundancies will no longer automatically conjugate baselines. - UVData.get_baseline_redundancies and UVData.get_antenna_redundancies have been combined. - `UVFlag` inherits from `UVBase` object. - `UVFlag` objects can now convert from antenna type to baseline type - `UVFlag` objects can now be initialized without inputs ### Fixed - A bug in UVBeam._interp_freq where kind parameter was not passed for real-only beams - A bug in get_antenna_redundancies for nearly N-S baselines. - A bug where `conj_pol` could not handle cardinal direction polarizations. - A bug that gave the wrong error message when calling `UVData.phase_to_time` without an Astropy Time object. ### Deprecated - UVData.get_baseline_redundancies and UVData.get_antenna_redundancies will be deprecated in version 1.6.1 ## [1.4.1] - 2019-08-2 ### Added - `metadata_only` property on `UVData` to automatically detect if data-like arrays are present - support for combining metadata only objects and reading in multiple files as metadata only - `utils.uvcalibrate` flag propagation bug fix - `UVCal.ant2ind` indexing bug fix - `UVCal.get_*` methods for accessing data arrays with antenna-polarization keys - `utils.uvcalibrate` for automated calibration of `UVData` by `UVCal` ### Fixed - Fixed a bug in select that caused bls and antenna_names/numbers to be or'ed rather than and'ed together. - Fixed a bug where `baseline_to_antnums` could accept a numpy array as input but not other array_like objects. ### Changed - removed `new_object` keyword from `UVBeam._interp_freq` in favor of new functionality in `UVBeam.interp` ## [1.4.0] - 2019-05-23 ### Added - Option in UVBase.check() to ignore whether required parameters are set. - made an option to not save the `lst_array` to uvfits files. - `conjugate_bls` option to `UVData.get_antenna_redundancies` - `UVData.conjugate_bls` method to conjugate baselines to get the desired baseline directions. - `UVData.reorder_blts` method to reorder the data along the blt axis (and optionally also conjugate baselines), and a new `blt_order` optional parameter on UVData objects to track the ordering (including through read/writes). - `lst_array` is now saved to UVFITS files (even though it's not a standard parameter) so that it doesn't have to be recalculated ### Fixed - Fixed init logic in UVFlag. - Fixed a bug in how FHD uvw vectors were oriented (and visibilities were conjugated) - Fixed a bug in `UVData.inflate_by_redundancy` when Nblts is not equal to Nbls * Ntimes. - Fixed a bug in UVData when reading in an FHD file with a single time integration. - Fixed a bug in how the longitudinal branch cut was handled in beam interpolation - Changed the way interpolation splines are saved in UVBeam to fix errors related to polarization selections. - Python 3: `np.string_` call now uses `keepdims=True` to guard against `antenna_names` being cast as an array. ### Changed - Testing framework changed from `nose` to `pytest`. - `uvdata.set_lsts_from_time_array` only calculates lsts for unique elements in `time_array`. ## [1.3.8] - 2019-05-01 ### Added - Optional `x_orientation` parameter to utils functions polstr2num, polnum2str, jstr2num and jnum2str to allow for E/N based polarization strings (rather than just x/y based ones) - New optional `x_orientation` parameter on UVBeam (paralleling UVData and UVCal), with read/write support in beamfits - Added `x_orientation` as an optional parameter in read_cst_beam and in cst settings yaml files. - All str2num or num2str calls on UVData and UVBeam pass the object's x_orientation - New `UVData.fast_concat` method to allow fast concatenation of UVData objects (or files) along a particular axis. - Added preliminary `UVFlag` module from hera_qm to pyuvdata. Will eventually promote to `UVBase` object, but for now this is undocumented functionality. ### Deprecated - Defined 'east' and 'north' as the allowed 'x_orientation' values in UVData and UVCal, Backwards compatiblity support exists for 'E' and 'N' values - `UVData.order_pols` method in favor of `UVData.reorder_pols`. ### Fixed - Building pyuvdata on macOS now targets minimum macOS 10.9 if run on macOS 10.9 or above - Possible bug where `check_variables` dictionary can change size during `read_miriad` call ## [1.3.7] - 2019-04-02 ### Added - Added `add_to_history` kwarg to UVH5.write_uvh5_part - `_healpix_interp_bilinear` as a new interpolation method in `UVBeam` - `freq_interpolation_kind` added as an attribute to `UVBeam` - `tol` added as keyword argument to `UVBeam._interp_freq` which allows for a fast return of `data_array` slice if nearest-neighbor frequencies are all within the distance tolerance. - `polarizations` added as keyword argument to `UVBeam` interpolation methods. - Support for a yaml settings file to collect and propagate metadata for CST beam files. ### Changed - `UVBeam._interp_freq` returns both `interp_data` and `interp_bandpass`, instead of just the former. ### Fixed - Combining overlapping data along multiple axes (most common when reading in multiple files) no longer errors. ## [1.3.6] - 2019-02-15 ### Added - `keep_all_metadata` keyword for optionally discarding unused metadata when performing a select operation. ### Changed - Extends `run_acceptability_check` for UVH5 metadata in `check_header` function. ### Fixed - Antenna numbering bug in redundancy methods. It wasn't using the correct antenna numbers to make baseline indices. - Redundancy code returns one group if all baselines are redundant. Previously returned each baseline as a separate group - Redundancy code finds unique baselines along baseline_array without assuming Nblts = Nbls \* Ntimes. Previously assumed Nblts = Nbls \* Ntimes and attempted to slice array. - "inflate_by_redundancy" method errored when phase_type == phased, due to _set_u_positive using phased uvw coordinates. It now uses ENU frame uvw coordinates. ## [1.3.5] - 2018-12-20 ## [1.3.4] - 2018-12-19 ### Added - Methods on UVData objects to compress/inflate data by redundant baselines. - Convenience functions on UVData for finding redundant baselines (calling the corresponding utils functions) - memo describing the UVH5 format - read/write support for uvh5 files with integer datatypes for visibilities - Option to only do the select on the metadata. This is useful for partially defined objects as in pyuvsim setup or after reading only the metadata from a file. - support for python3.7 ### Changed - UVdata.get_ENU_antpos() now defaults to using the telescope_location as the center rather than the median antenna position. - UVBeam.efield_to_pstokes() no longer restricted to healpix coordinates - latitude and longitude in uvh5 files are written in degrees instead of radians. - Fixes a bug in redundancy methods for when there are no redundant baselines. ### Fixed - `_key2inds` now properly reorders polarization axis for conjugated visibilities. This also effects the `get_data` function. - long strings are saved correctly in miriad files from python3 ## [1.3.3] - 2018-11-01 ### Added - option to save splines for reuse in UVBeam.interp function ### Changed - improve string handling for uvh5 files - changed top-level import structure to exclude file-specific class (e.g. `UVFITS`, `CALFITS`) and base classes (`UVBase`, `UVParameter`) and to not import utility functions into the top-level namespace ### Deprecated - Support for UVData objects without antenna_positions. Antenna positions will be required in a future version. ## [1.3.2] - 2018-09-27 ### Added - Utility functions to identify redundant baselines (either by baseline or antenna pair) - Reading FHD layout files to get antenna positions - Polarization dict constants and parsing functions in utils.py for mapping between polarization strings and numbers ### Changed - LST array is now optional in uvh5 files - polarization string capitalization was unified throughout: use lower case except for Stokes parameters - integration_time is now a vector of length NBlts instead of a scalar ### Deprecated - Support for FHD inputs without layout files (containing antenna positions). ### Fixed - flags are always returned as a boolean array from `UVData.get_flags` - integration_time, uvw_array and lst_array are now always checked for consistency when adding UVData objects - consistency checks on baseline lengths now uses the uvw_array tolerances ## [1.3.1] - 2018-07-24 ## [1.3] - 2018-07-22 ### Added - compatibility with python 3 (retaining python 2 compatibility) - generic `UVData.read` method for all input file types, including select on read options - partial write support for uvh5 file format - partial read support for uvfits, miriad and uvh5 file formats (including only reading metadata and select on read) - new uvh5 file format: an HDF5 file standard matched to UVData objects - new method to calculate uvws from antenna positions - `UVBeam.get_beam_area` and `UVBeam.get_beam_sq_area` functions to calculate beam integrals, including for pseudo-Stokes beams - beam interpolation methods, to any set of points and to healpix pixel centers - a script to renumber antennas for CASA compatiblity if there are fewer than 256 antennas but numbers higher than that - memo describing the beam fits file format - method to peak normalize UVBeam objects - support for reading FHD calibrations into UVCal objects - support for sky-based calibration metadata in UVCal and the calfits file format - method to convert E-field beams to power beams - `UVData.get_ENU_antpos` method to get ENU coordinates from antenna positions - support for `extra_keywords` on UVCal objects ### Changed - Major overhaul of phasing code, see the phasing memo in docs/references for more details - Make all earth location coordinate conversions use same axes order (n_points, 3) - replaced `ant_pair_nums` keyword in `UVData.select` and partial read methods with `bls` which supports lists like [(0,1,'xx'), (2,3,'yy')] - extracted miriad wrappers from aipy, removing aipy as a dependency ### Fixed - Fixed error when combining auto-correlation only and cross-correlation only UVData objects - Fixed error with the `UVData.select` function using a single antenna name - Fixed bugs with `UVData.get_data`, `UVData.get_flags`, and `UVData.get_nsamples` for conjugated baseline polarizations - Fixed a bug that caused a memory error in `UVData.write_uvfits` - Fixed bugs in interpreting the uvw direction convention for uvfits - Fixed a bug in reading azimuth locations from CST beam files - Fixed a bug reading in single frequency uvfits files - Fixed a bug in reading MWA Cotter measurement sets - Fixed units errors in cal fits files - Fixed a serious bug where data was overwritten in the add functions if the axes were out of canonical order - Fixed scrambled data ordering in add function ## [1.2.1] - 2017-11-09 ### Fixed - Fixed a bug in parsing frequencies from CST file names ## [1.2] - 2017-11-08 ### Added - support doctest in the tutorial - utility functions for converting between Jones numbers and polarization strings - support for `antdiam` variable in miriad files - module for reading a CST file into a UVBeam object - utility functions for converting to rotated ECEF coordinates from ECEF coordinates - support reading in a list of calfits files - include `extra_keywords` to miriad files - `__add__` method for UVCal objects - `antenna_diameters` value to UVData objects - `parse_ants` method on UVData objects - `x_orientation` value to UVData objects - "smart slicing" functionality to UVData objects - convenience methods on UVData objects for easily getting data and metadata - UVBeam object - in-place selection for UVData objects - `total_quality_array` value on UVCal objects - `__add__` method for UVData objects - utility functions for converting to local ENU coordinates from ECEF coordinates - `convert_to_gain` method on UVCal delay-type objects - read-only support for CASA measurement sets into UVData objects - `select` method on UVCal objects ### Changed - antenna names in miriad saved as strings instead of arrays of ASCII hex values ### Fixed - baseline-time axis mis-ordering in add function - handling of antenna positions in miriad and uvfits files - selecting autocorrelation data from UVData objects - indexing of spectral windows in calfits files - handling of `total_quality_array` in UVCal objects when selecting a subset of data ## [1.1] - 2017-04-14 (historical information needs to be filled in)