Metadata-Version: 2.4
Name: jetto_tools
Version: 2.0.9
Summary: Tools for plotting and manipulating JETTO runs.
Home-page: https://gitlab.com/jintrac/jetto-pythontools
Author: Karel van de Plassche
Author-email: k.l.vandeplassche@differ.nl
License: MIT
Classifier: Intended Audience :: Developers
Classifier: Intended Audience :: Science/Research
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Natural Language :: English
Classifier: Topic :: Utilities
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License-File: LICENSE
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# jetto-pythontools

Python tools for plotting and manipulating JETTO runs.

## A word of caution

These tools are a community collaboration under development, and probably always will be. 
If you want to report a problem or ask for a feature, please 
[open an issue at JET](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/issues) or [gitlab.com](https://gitlab.com/jintrac/jetto-pythontools),
so the responsible person can be identified and notified.  On gitlab.com please ping a developer since it
may not be actively monitored.

## Prerequisites

We try to keep jetto-pythontools modular and easy-to-install. However, to
keep our sanity, we request at least a recent version of:
- `python >= 3.7.0`
- `pip >= 20.0.0 `

Different scripts might require different dependecies. Whenever a module is
missing, not provided by the default environment of the machine you are at, 
and not installed by our `pip install` process, please open an issue. 

## Installation (user)

Install the [latest relase from PyPi](https://pypi.org/project/jetto-tools/), 
including the plotting GUI `jpyplot`

```
sudo apt-get install python3-tk idle3  # On Ubuntu, tk is not always installed
sudo pip install jetto-tools[gui,tests]
```

Or for a lightweight install without the plotting GUI

```pip install jetto-tools```


## Installation (developer)

An easy way to get up and running is to install from the git repository in developer mode.

``` bash
python --version # Make sure you have at least python3.7
pip --version # Make sure you have at least version 20.0 of pip to read pyproject.toml files
git clone git@git.ccfe.ac.uk:jintrac/jetto-pythontools.git # Clone from JET repository if you have access
# Or git clone https://gitlab.com/jintrac/jetto-pythontools.git # for the public version
pip install -e jetto-pythontools
python -c "import jetto_tools; print(jetto_tools.__version__)" # Check if you indeed installed the right version and can call it in python
```

However, on Heimdall / Freia, editable mode does not always work, unless pip is updated.  For Freia testing of GUI changes, use
```
module unload jintrac-pythontools
pip install --user --upgrade pip
cd jetto-pythontools
python -m pip install --user -e .
python -m pip install --user -e .[gui,tests]  #GUI needs to be installed explicitly
```

In some cases, you might also need to 

```
export PATH=$HOME/.local/bin:$PATH
export PYTHONPATH=$HOME/.local/lib/python3.7/site-packages:$PYTHONPATH
```

to make your local install take precedence over the central installation.  (Note: in some versions of Python, local installs take precedence over the default installed version in PYTHONPATH (via importlib) - 
but this is not the case with the importlib in Python version 3.7.1 on Heimdall - hence the need for explicit PYTHONPATH modification).  

You can then launch the scripts or gui of your local install directly from PATH e.g. `jpyplot`.


### Non-pip builds (e.g. pure setuptools)
It is possible to build and install this package with other tool. In that case,
make sure your tools can read `pyproject.toml` files, and be able to generate
a version number somehow. For setuptools, that means:
- `setuptools >=40.8.0`
- `setuptools_scm[toml]>=3.4`

### Developer notes
- Do not add JET or other tokamak data to this repository! This repository is synced to
an open gitlab repository on [gitlab.com](https://gitlab.com/jintrac/jetto-pythontools)
- Open Issues and MRs at JET if you have access, or on gitlab.com if you don't.  On gitlab.com please ping a developer since it
may not be actively monitored.
- We try to follow the Python Package Authority recommendations. A full guide to
install Python packages can be found [on their website](https://packaging.python.org/tutorials/installing-packages/)
- In some cases the editable install does not pickup changes (?), in which case prepending the working dir to PYTHONPATH can be a workaround - See [Editable install requires python/3.7.9](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/-/issues/13) (not yet in Heimdall site packages so you would need a venv for this)
- If you are making more major changes, you may prefer to use a venv, following the [expert install procedure](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/-/issues/11)
- This repo uses [gitlab-flow](https://about.gitlab.com/topics/version-control/what-is-gitlab-flow/), e.g. merge to master directly, no develop branch.


## Features and Examples

### JETTO scan API

To progamatically generate JETTO runs from python, most useful for scans.

* See [API docs](https://jintrac.gitlab.io/jetto-pythontools/) deployed on gitlab pages

### JETTO plotting GUI

The `jpyplot` tool allows to load and plot runs from either the command line or a GUI. 
If you launch it from a run directory it loads that case automatically.

Particularly useful is to specify run dirs and plot variables from the CLI e.g.

```
jpyplot --plotvars=TI,TE,NE run1 run1 runwild*
```

* [Overview of jpyplot design](https://users.euro-fusion.org/pages/data-cmg/wiki/files/JETTO_plotting_jpyplot.pdf) also [here](https://gitlab.com/jintrac/jetto-pythontools/-/wikis/uploads/464fed7e9385aaf865716787448085ba/JETTO_plotting_jpyplot.pdf)
* See [this comment](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/-/merge_requests/17#note_79461) to change default linestyles

### JETTO binary tools

The binary tools (in `jetto_tools/binary.py`) reads native JETTO outputs and can write JETTO inputs (exfiles)

* `convert_binary_file(input_file,output_file)`:    Converts .ex,.ext,.jsp,.jst,.jse files into ASCII equivalent for easy reading
* `read_binary_file(input_file)`:                   Reads .ex,.ext,.jsp,.jst,.jse files into memory (specific structure) for further processing in Python
* `write_binary_exfile(data,output_file)`:          Writes data (specific structure) into binary file according to .ex format
* `modify_entry(data,key,moddata)`:                 Modifies entry under key in data (specific structure), replacing it with moddata and updating tracking

One use is to read an existing ex-file into memory to
generate the specific structure needed, modifying it as required using
the function as it preserves some degree of providence, and writing it
back out as a binary for use in JETTO. The tracking is updated simply by
erasing all DDA/DTYPE/SEQ tags and replacing the DDA tag with the string
"Python modification tool" and setting seq=0.

Units can be accessed from jetto_tools dictionary via `dict['INFO'][<var>]['UNITS']`

**Simple example** to expose what the low level functions do (don't actually make plots like this, use the JETTO class - see below...!):

```
from jetto_tools.binary import *
import matplotlib.pyplot as plt

jst = read_binary_file('jetto.jst')
time = jst['TVEC1'][0,:] # First index is rho-index,
                         # but since this is a time trace,
                         # dimension is singular
Teax = jst['TEAX'][0,:]

plt.figure()
plt.plot(time,Teax,label='Simulation')
plt.legend()
plt.xlabel('Time [s]')
plt.ylabel('Te,core [eV]')
plt.show()

```

### JETTO class

The JETTO class reads all data into a structure which drives the results_gui (`jpyplot`).

For more information:

* Overview of class design [here](https://gitlab.com/jintrac/jetto-pythontools/-/wikis/uploads/464fed7e9385aaf865716787448085ba/JETTO_plotting_jpyplot.pdf)
* Try using the docstrings...
* Try browsing or searching the gitlab [issues](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/-/issues) and merge requests.

**Example** (cut down from [here](https://git.ccfe.ac.uk/jintrac/jetto-pythontools/-/merge_requests/21)) - untested...

```
from pathlib import Path

import numpy as np
import xarray as xr
import matplotlib.pyplot as plt

from jetto_tools.classes import JETTO, ODS
from jetto_tools.results_gui import run_list_to_runs, slice_plotter

from IPython import embed

# Read runs
run_list = ['run1','run2']
runs = run_list_to_runs(run_list)

# For convenience, extract a JINTRAC run
jrun = runs[list(runs.keys())[0]]
jsp = jrun['JSP']

# Set plot variables
yvar = 'TE'
file = 'JSP'
# Find the max time in all JSPs
max_time = np.max([run[file]['time'].max() for run in runs.values()])
time = max_time

# Use GUI scripts to make a plot
fig, axes = plt.subplots(3)
ax0, ax1, ax2 = axes
xvar = 'XRHO'
for ax, yvar in zip(axes, ['TE', 'TI', 'NE']):
    slice_plotter(ax, None, runs, file, xvar, yvar, zslice=('time', time), verbosity=1)

ax0.legend([Path(k).name for k in runs.keys()])
plt.show()
```

### JINTRAC class
The JINTRAC class was devised as an extension to the JETTO class to handle
simultaneously JETTO and EDGE2D outputs. The class therefore parses typical
JETTO output files, such as jsp, jst, ssp, etc. and also EDGE2D TRAN files.
Reading JETTO files is achieved through the JETTO binary tools library previously
described for standard output, or through the IMAS DB tools for IDS output.
The TRAN files are parsed using the EPROC library. The output is then casted
into a single Python dictionary using the same key names independently of
where the output comes from (i.e. in JETTO standard or IDS). This is at the
moment a CL tool, and has no GUI, but can be used for plotting or data manipulation
for scientific production. To get started, all you have to do is open a Python
session:

```
import imas
from idstools.ids_tools import *
import numpy as np
import matplotlib.pyplot as plt
import matplotlib, os
from read_jetto_gsl import jintrac
from IPython import embed

embed()

#jetto_path should be the path to your run directory, and the rest of the
#variables should match your IMAS /imasdb folder if you are reading IDS
#The resulting dictionary "jet" will now contain most of the output data from
#your run.
jet = jintrac(database="iter", nshot=53298,
              run=2, jetto_path=jetto_path, 
              data_version="3.39.0",
              out_memory=True)

#Plot the electron temperature profile in [keV]
fig, ax = plt.subplots(figsize=(5,5))
ax.plot(jet.out["rhot_norm"][-1,:], jet.out["Te"][-1,:]/1.e3,
        c='blue', ls="-")
        
#The JINTRAC class also contains a basic plotting function, which functionality
#is still being extended. This can be invoked by:
jet.plot_jettorun()

```

A word of caution: The dictionary keys, such as "Te" do not correspond to the
names of the variables in the JINTRAC Wiki, i.e. the spelling is "Te" and not
"TE". To see all the key names, one needs to check the jintrac class at the 
moment or do:

```
jet.out.keys()
```
Future developments might include an overhaul to match the names to
those of the Wiki.


### JETTO file generation utilities

## coconut-to-jetto

Takes as input a list of COCONUT run directories and generates JETTO input file jetto.jset. Requires a 'donor' JETTO run to take the initial jetto.jset from.

## set-exfile-profiles

Replaces exfile contents with last time point from a selected JSP file.

## time-dependent-boundary-condition

Read in a sequence of COCONUT/JETTO outputs and writes time-dependent boundary condition files for JETTO input, smoothing with a Savitzky-Golay filter.

## Adding Documentation

Some external user docs are maintained on the JINTRAC pages (WIP: merging here):
* https://users.euro-fusion.org/pages/data-cmg/wiki/JETTO_python_tool.html

Developer API docs are deployed on gitlab pages via gitlab CI:
* https://jintrac.gitlab.io/jetto-pythontools/

The API documentation is written using reStructuredText and Sphinx. In order to build the 
documentation, run the commands:

```
$ cd docs/
$ make html
```
They can then be viewed in the browser of your choice e.g.
```
$ firefox docs/_build/html/index.html
```
The packages required to build the documentation are listed in `requirements_docs.txt`.
If this pakage was installed via `pip`, as above, then the prerequisites should have
been installed automatically.
