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EXcellent PRoperty Extractor and Serializer.

Project description

PyPI version License: Apache

ExPreSS

Exabyte Property Extractor, Sourcer, Serializer (ExPreSS) is a Python package to extract material- and simulation-related properties and serialize them according to the Exabyte Data Convention (EDC) outlined in Exabyte Source of Schemas and Examples (ESSE).

1. Overview

The following Functionality is supported:

  • Extract structural information, material properties and from simulation data
  • Serialize extracted information according to ESSE data standard
  • Support for multiple simulation engines, including:

The package is written in a modular way easy to extend for additional applications and properties of interest. Contributions can be in the form of additional functionality and bug/issue reports.

2. Installation

ExPreSS can be installed as a Python package either via PyPi or the repository as below.

2.1. From PyPi

pip install express-py

2.2. From GitHub repository

See "Development" section below.

3. Usage

3.1. Extract Total Energy

The following example demonstrates how to initialize an ExPreSS class instance to extract and serialize total energy produced in a Quantum ESPRESSO calculation. The full path to the calculation directory (work_dir) and the file containing standard output (stdout_file) are required to be passed as arguments to the underlying Espresso parser.

import json
from express import ExPrESS

kwargs = {
    "work_dir": "./tests/fixtures/espresso/test-001",
    "stdout_file": "./tests/fixtures/espresso/test-001/pw-scf.out"

}

handler = ExPrESS("espresso", **kwargs)
data = handler.property("total_energy", **kwargs)
print(json.dumps(data, indent=4))

3.2. Extract Relaxed Structure

In this example the final structure of a VASP calculation is extracted and is serialized to a material. The final structure is extracted from the CONTCAR file located in the calculation directory (work_dir). is_final_structure=True argument should be passed to the Material Property class to let it know to extract final structure.

import json
from express import ExPrESS

kwargs = {
    "work_dir": "./tests/fixtures/vasp/test-001",
    "stdout_file": "./tests/fixtures/vasp/test-001/vasp.out"

}

handler = ExPrESS("vasp", **kwargs)
data = handler.property("material", is_final_structure=True, **kwargs)
print(json.dumps(data, indent=4))

3.3. Extract Structure from input file

One can use StructureParser to extract materials from POSCAR or PW input files. Please note that StructureParser class only works with strings and not files and therefore the input files should be read first and then passed to the parser.

import json
from express import ExPrESS

with open("./tests/fixtures/vasp/test-001/POSCAR") as f:
    poscar = f.read()

kwargs = {
    "structure_string": poscar,
    "structure_format": "poscar"
}

handler = ExPrESS("structure", **kwargs)
data = handler.property("material", **kwargs)
print(json.dumps(data, indent=4))

with open("./tests/fixtures/espresso/test-001/pw-scf.in") as f:
    pwscf_input = f.read()

kwargs = {
    "structure_string": pwscf_input,
    "structure_format": "espresso-in"
}

handler = ExPrESS("structure", **kwargs)
data = handler.property("material", **kwargs)
print(json.dumps(data, indent=4))

4. Development

4.1. Install From GitHub

  1. Install git-lfs in order to pull the files stored on Git LFS.
  2. Clone repository:
    git clone git@github.com:Exabyte-io/express.git
    
  3. Install virtualenv using pip if not already present:
    pip install virtualenv
    
  4. Create virtual environment and install required packages:
    cd express
    virtualenv venv
    source venv/bin/activate
    export GIT_LFS_SKIP_SMUDGE=1
    pip install -e PATH_TO_EXPRESS_REPOSITORY
    

4.2. Tests

There are two types of tests in ExPreSS: unit and integration, implemented in Python Unit Testing Framework.

4.2.1. Unit Tests

Unit tests are used to assert properties are serialized according to EDC. Properties classes are initialized with mocked parser data and then are serialized to assert functionality.

4.2.2. Integration Tests

Parsers functionality is tested through integration tests. The parsers are initialized with the configuration specified in the Tests Manifest and then the functionality is asserted.

4.2.3. Running Tests

Note that the CI tests are run using a github action in .github, and not using the script below, so there could be discrepancies.

Run the following commands to run the tests ("unit" tests only in this case).

python -m unittest discover --verbose --catch --start-directory tests/unit

5. Architecture

The following diagram presents the package architecture. The package provides an interface to extract properties in EDC format. Inside the interface Property classes are initialized with a Parser (Vasp, Espresso, or Structure) depending on the given parameters through the parser factory. Each Property class implements required calls to Parser functions listed in these Mixins Classes to extract raw data either from the textual files, XML files or input files in string format and implements a serializer to form the final property according to the EDC format.

ExPreSS

5.1. Parsers

As explained above, ExPreSS parsers are responsible for extracting raw data from different sources such as data on the disk and provide the raw data to properties classes. In order to make sure all parsers implement the same interfaces and abstract properties classes from the parsers implementations, a set a Mixin Classes are provided which should be mixed with the parsers. The parsers must implement Mixins' abstract methods at the time of inheritance.

5.2. Properties

ExPreSS properties classes are responsible to form the properties based on the raw data provided by the parsers and serialize the property according to EDC. A list of supported properties are available in here.

5.3. Extractors

Extractors are classes that are composed with the parsers to extract raw data from the corresponding sources such as text or XML.

6. Contribution

This repository is an open-source work-in-progress and we welcome contributions. We suggest forking this repository and introducing the adjustments there. The changes in the fork can further be considered for merging into this repository as explained in GitHub Standard Fork and Pull Request Workflow.

7. TODO list

Desirable features for implementation:

  • Add support for other properties
  • Add support for other types of applications, parsers and extractors
  • other (TBA)

Links

  1. Excellent Source of Schemas and Examples (ESSE), Github Repository
  2. Vienna Ab-initio Simulation Package (VASP), official website
  3. Quantum ESPRESSO, Official Website
  4. JARVIS NIST

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