Metadata-Version: 2.1
Name: siunits
Version: 0.0.6
Summary: Perform operations on SI units
Home-page: https://github.com/David-OConnor/si_units
Author: David O'Connor
Author-email: david.alan.oconnor@gmail.com
License: MIT
Keywords: si units dimensional analysis
Platform: UNKNOWN
Classifier: Programming Language :: Python :: 3 :: Only
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Classifier: Topic :: Scientific/Engineering
Requires-Python: >=3.7
Description-Content-Type: text/markdown

[![image](https://img.shields.io/pypi/v/siunits.svg)](https://pypi.org/project/siunits/)
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# SI Units

This is a library used to symbolically manipulate SI units. It comprises a `BaseUnit` type,
used for base SI units like `kilogram`, `meter` etc, a `DerivedUnit` type,
for units derived from them, and a `Composite` type, for when numerical coefficients
are included. Python version 3.7 or greater is required. There are no dependencies.

This library is useful for dimensional analysis. It relies on the concept that
SI units are all composed of varying exponents of 7 base units. We can think 
of all other units as linear combinations of base units.

You can perform normal multiplication, division, and power operations on units
provided by this lib, and between them and `int`s and `floats`. You can check equality,
based on the resulting combination of base units.

## Install
```bash
pip install siunits
```
In Linux, you may need to use something like `pip3 install siunits`, or `python3.7 -m pip install siunits`.

## Examples

A base unit:
```python
import siunits as u

u.kg
>>> kilogram (kg), mass
```

A derived unit:
```python
u.v
>>> volt (V), [kg: 1, m: 2, s: -3, A: -1]
```

Multiplication:
```python
u.kg * u.s
>>> kilogram·second (kg·s), [kg: 1, s: 1]
```

Division:
```python
u.j / u.m**2
>>> joule / meter² (kg·s⁻²), [kg: 1, s: -2]

u.s**2 / u.kg**3
>>> second²·kilogram⁻³ (s²·kg⁻³), [s: 2, kg: -3]

```

With numerical coefficients:
```python
2*u.a**2 * 3*u.v**2
>>> 6kg²·m⁴·s⁻⁶
```

Equality testing is based on composition of base units:
```python
u.w == u.v * u.a == u.kg * u.m**2 / u.s**3
>>> True
```

## Todo

- Infer composite types that match a given custom (eg multiplied) unit
- Apply arithmetic to quantities as well (eg `energy`, `work` etc), and display them
- Addition and subtraction

## Scope

This project doesn't aim to provide conversions with other unit systems, like
`cgs` and `imperial`, nor does it provide physical constants. For these
tasks, try [scipy.constants](https://docs.scipy.org/doc/scipy/reference/constants.html).

## Why add another unit library?

The clean symbolic manipulation this library provides doesn't appear to exist
in any existing one.


