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This package is for measuring the apparent optical depth of spectra

Project description

SpectrAOD

spectraod_technique

spectrAOD is a package for measuring the apparent optical depth, and thus, the apparent column density for spectral absorption features as outlined by Savage and Sembach in their 1991 paper. Many researchers have their own code for performing these measurements but we set out to create an open-source, well-maintained python package for people who didn't want to reinvent the wheel. Currently, the package has a limited use case scenario for Cosmic Origins Spectrograph data at a redshift of zero, but we hope to expand the capabilities of the package in terms of what missions are supported, the computation abilities, and visualization for these calculations. Stay tuned!

Installation

This package is registered on PyPI and available via pip. pip installations will provide the latest version released to PyPI, and is sufficient for installing the package. However, in case you would like the latest version, between published releases, we also offer instructions on how to install by cloning the repository. You will need a working, and preferably current version of Anaconda.

N.B.: If you are having any issues with installation, please consult the Common Issues section.

Make a new environment
conda create --name <environment_name> python=3.5 <other packages>

<other packages> simply denotes any other packages you may wish to install in this environment, such as stsci or notebook. All required packages for spectrAOD will be installed as a dependency automatically.

Activate the new environment with:

conda activate <environment_name>

We recommend a short and simple name for the environment such as spectraod.

Install with pip (Latest published release, recommended)

From the command line, in your new environment:

pip install spectrAOD==1.1.0

You can drop the version number and just use the name of the package if you would like the version most recently published. pip will also give you instructions on how to upgrade your version if there is a newer published one available.

Clone the repository and install it (Latest version, recommended for developers only)

This repository has a button near the top where you can click for the link to clone or download. Choose the https version unless you have set up an ssh token for Github. Move into the directory that you would like this package to live in, then:

git clone https://github.com/cmagness/spectrAOD.git
cd spectrAOD
pip install .

Alternately, if you are having issues installing with pip, you can also use python setup.py install.

Set Up

There are several files involved in running this package:

  1. Your settings file (see Configuring Main Settings)
  2. Your target list (only required for ASCII filetypes. see Setting a Target List)
  3. Your batch table (only required for Batch Mode)
  4. Your ions list (optional, a simple one is built into the package. see Ions List)

Additionally, you will need to choose a method for the settings file to be accessed by the package.

Configuring Main Settings

In this repository you will see a file called sample_settings.yaml. You will need a settings file to use this package that is of the same format. Copy the settings file and rename it as you please, but retain the .yaml extension. If you've installed via pip, you will not be easily able to find this file. Create a .yaml file and make sure it has the following information in it:

inputs:
  # string: path to data
  datadir:
  # string: path to output directory
  outdir:
  # string: path to target list. use an empty string for X1DSUM filetype
  targets:

parameters:
  # string: ion
  ion:
  # string: instrument
  instrument:
  # string: filetype
  filetype:
  # int: minimum number for velocity window in km/s
  vel_min:
  # int: maximum number for velocity window in km/s
  vel_max:
  # string: grating
  grating:
  # float: redshift in z. use 0.0 for MW
  redshift:

defaults:
  # string: path to your batch table
  batch_table: ""
  # string: target name. only required for ASCII filetypes
  target: ""
  # list[int, int]: specify continuum windows to measure from, velocity (km/s)
  continuum_left: [-450, -300]
  continuum_right: [300, 450]
  # bool: show_plot=True displays visualization before being saved
  show_plot: False
  # bool: galactic=True assumes target list coordinates are galactic instead
  # of equatorial (default)
  galactic: False
  # string: path to ions file if not using default ions list
  all_ions: "mini_ions.csv"

Brief explanations of each keyword are provided via comments in the file; however see About the Settings for more information.

Setting a Target List

If you are working with X1DSUM data you do not need a target list and can skip this section. The RA and DEC used to calculate the LSR correction will be retrieved from the file header. Just make sure to set targets: "".

In the settings file you will notice one of the parameters asks for the path to your target list file. Explicitly, this needs to be a path to a target list and NOT a list of targets.

To perform the LSR correction spectrAOD needs a target list with the target name and corresponding coordinates. You can see the format for this file (it must be a csv at this time) in sample_targets.csv. Feel free to use that file to build your target list. The expected coordinates of this file are controlled with the settings keyword galactic. By default, galactic=False, and spectrAOD will expect equatorial coordinates and column names for RA and DEC. If you would like to use galactic coordinates, you may change galactic to True and then change the values and column names accordingly.

Ions List

You should leave the all_ions field as is to use the list of "mini_ions.csv" included with the package, unless you wish to provide the path to your own list. If you choose to use your own ions list, you may either copy the mini list from the repository and add to it in the same format, or you may create an entirely new ions file with four columns, a header column, and the values space separated as follows:

ion wavelength f(oscillating strength) damping
<STR:ION> <FLOAT:WAVELENGTH> <FLOAT:f> <FLOAT:damping>

N.B.: the column names don't particularly matter as long as you have a header column.

Package Access to Settings

For spectrAOD to find the settings.yaml file, you have two options:

Set an environment variable (Recommended)

We recommend creating an environment variable in your .bashrc or .bash_profile to point to this file. To do so, open your .bashrc or .bash_profile in a text editor (this will be a hidden file in your home directory if you are unfamiliar) and then add the line:

export SPECTRAOD_SETTINGS="/path/to/your/settings/file"

Save and close your .bash_profile and then activate these changes with:

source .bash_profile

Now spectrAOD will know where to look for your file. If you decide to move it, just update the path.

Move your copy (Slightly faster)

If you don't want to mess with setting an environment variable, that is just fine. You can move your settings file to the directory you plan to run the package from and spectrAOD will look for a .yaml file if no environment variable is set. Just be warned that it will look for any .yaml file.

Usage

About the Settings

This section is meant to provide more information about the settings keywords. Feel free to skip ahead to Command Line or Batch Mode if you understand how to populate the settings.

Inputs

The first section of the settings file is the inputs:

inputs:
  # string: path to data
  datadir:
  # string: path to output directory
  outdir:
  # string: path to target list. use an empty string for X1DSUM filetype
  targets:

This is fairly self explanatory. For the datadir and outdir keywords, please provide the path to your directory containing your datasets and the directory you would like the measurements and visualizations written to, respectively. For targets, please see Setting a Target List.

Parameters

The main section of the settings that you will use is parameters:

parameters:
  # string: ion
  ion:
  # string: instrument
  instrument:
  # string: filetype
  filetype:
  # int: minimum number for velocity window in km/s
  vel_min:
  # int: maximum number for velocity window in km/s
  vel_max:
  # string: grating
  grating:
  # float: redshift in z. use 0.0 for MW
  redshift:

These parameters are all required to run spectrAOD, and can all be updated in real time from the command line when running a single measurement. They can also be distinct for separate measurements in Batch Mode.

ion: The ion to perform the measurement for.

instrument: The instrument the data was taken on. Currently only supports "COS", although other values will cause a graceful exit.

filetype: The filetype of the data. Currently supported filetypes include "X1DSUM", "ASCII", "BART", and "BART-N".

vel_min/vel_max: The velocity windows you would like to perform the measurement in, units of km/s.

grating: The grating of the mode used to take the data. Only applies for X1DSUM filetypes.

redshift: The z value of the target. Use 0.0 for Milky Way targets.

Defaults

Generally, the default keywords do not need to be changed unless you prefer to, with the exception of the target keyword in the instance of ASCII filetypes.

defaults:
  # string: path to your batch table
  batch_table: ""
  # string: target name. only required for ASCII filetypes
  target: ""
  # list[int, int]: specify continuum windows to measure from, velocity (km/s)
  continuum_left: [-450, -300]
  continuum_right: [300, 450]
  # bool: show_plot=True displays visualization before being saved
  show_plot: False
  # bool: galactic=True assumes target list coordinates are galactic instead
  # of equatorial (default)
  galactic: False
  # string: path to ions file if not using default ions list
  all_ions: "mini_ions.csv"

batch_table: For batch mode only. Otherwise should be an empty string/empty.

target: For ASCII filetypes only. The name of the target, must be included in the filename for the data, and must match the target name in your target list.

continuum_left/right: Continuum windows (km/s) that are used to make continuum measurements and thus normalize the data. The default windows tend to be sufficient for most datasets, but you are free to change them as you wish.

show_plot: Whether or not the visualization is displayed during runtime. The visualization will be saved regardless of whether the plot is shown, but by default show_plot=False and the plot will not be displayed. If you choose to have the plot displayed at runtime, you must exit the popup window before spectrAOD can continue.

galactic: Determines the coordinate system in the target list. By default, galactic=False and equatorial coordinates are expected. galactic=True expects galactic coordinates. Because this only applies to the target list, the value of this keyword does not matter for X1DSUM filetypes.

all_ions: see Ions List

Command Line

spectrAOD is equipped with entry points for both the command line and batch mode options. Entry points are shortcuts in a package, that once installed, allow a user to access a certain part of the code from the command line in the environment the package is installed in. The entry point for the command line, single use case, is measure.

To run the default measurements you've put in the settings file, from the command line, in any directory (but within the correct environment), enter:

measure

or, from within the package level:

python measure_aod.py

To see the full list of parameter options, run:

measure --help

This will give you information about all the parameters you can change from the command line (see Parameters). By default, spectrAOD will use the values in your settings file but you can alter any of them from the default by adding the correct flag at the command line.

Say you perform a measurement of an ion in the region from -100 to 100 km/s but then decide it may be advantageous to perform the measurement in the window from -100 to 150 km/s. You can do this without making changes to your settings file by running:

measure --vel_max 150

Batch Mode

Batch mode is a new feature of spectrAOD 1.0.0 that allows you to make multiple measurements, of multiple ions and multiple targets, at once. You will see a file in the repository, sample_batch_table.csv that has the correct format for the required table, or you may make your own from the format below:

,ROOTNAME,TARGET,ION,INSTRUMENT,FILETYPE,VEL_MIN,VEL_MAX,GRATING,REDSHIFT
0,rootname, target, ion, instrument, filetype, vel_min, vel_max, grating,
redshift
1,rootname, target, ion, instrument, filetype, vel_min, vel_max, grating,
redshift

Each column is required, and must have a value populated in each row, as in this mode, the keywords in your settings file corresponding to the column name replace the defaults in your settings file. The exception is the TARGET column, which must still exist but whose values only matter for ASCII filetypes.

For each row (and therefore file) in the table, spectrAOD will perform a measurement equivalent to altering those keywords in your settings file. It does not actually change your settings file. All other values in the settings file will remain the same across all measurements and will be sourced from there.

N.B.: Because of this, it is highly recommended that show_plot remains False.

The entry point for batch mode is simply batch. There are no optional arguments:

batch

or, from within the package level:

python batch_run.py

Visualization

Another new feature of spectrAOD 1.0.0. is the primitive visualization module. The visualizations are automatically saved as .pngs to your output directory, and are optionally displayed during runtime with the keyword show_plot=True.

Other

Common Issues

The following are issues encountered by people during the use of this package. These are usually due to machine level installation problems but they are being documented here in case someone else runs into a similar issue.

  • Problem: If you encounter an issue, error message, or traceback referencing or relating to setuptools, you may have a corrupt version of the package. Solution: You may need to uninstall your version before installing spectrAOD. You can do this with pip uninstall setuptools and then you should be able to proceed with spectrAOD installation as usual. spectrAOD will install a new version of setuptools for you.

Should you encounter any other issues with the use of this package, please open a new issue on the repository here.

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