# Module sipy

sipy is a python package for manipulating physical quantities. All quantities in sipy are constructed dynamically from their SI base units so that sipy can use dimensional analysis to spot errors in your calculations and learn all the valid units for #a quantity.

>>> from sipy import meter, second
>>> meter
<Length 1.00E+00m>
>>> try:
...     meter + second
... except TypeError as exception:
...     print(exception)
unsupported operand type(s) for +: 'Length' and 'Time'
>>> distance = 1000 * meter
>>> distance.kilometers
1.0


It is able to handle non-SI base units. The example below demonstrates the various ways you can create and combine units by calculating the power, in watts, required for a car to accelerate from 0 mph to 100 mph, in 5 seconds we use

>>> from sipy import Length, Time
>>> distance_to_travel = Length()
>>> distance_to_travel.miles = 100
>>> speed_of_car = distance_to_travel / Time(hours=1)
>>> mass_of_car = 1300 * kilogram
>>> power = 0.5 * mass_of_car * speed_of_car ** 2 / Time(seconds=5)
>>> round(power.watts)
259797


Note

To calculate the power required we determine the change in kinetic energy and divide it by the time taken, giving us this equation:

## Custom Units

All units and quantities are created dynamically from the config file, sipy.toml included in the sipy package. Extending sipy is just a matter of updating the config file, it is also possible to augment the package by specifying a custom config file using the SIPY_CFG_FILE environment variable:

$export SIPY_CFG_FILE="custom_sipy_config.toml"  The format of the config file is described in sipy.config. ## Constants As well as quantities, it comes packaged with a variety of physical constants: >>> from sipy import avogradro, boltzmann, planck >>> avogradro <InverseAmount 6.02E+23mol^-1> >>> boltzmann <InverseTemperatureMassLength2InverseTime2 1.38E-23K^-1kgm^2s^-2> >>> planck <MassLength2InverseTime 6.63E-34kgm^2s^-1>  ## Source The source code, along with installation instructions are on Gitlab. Expand source code # -*- coding: utf-8 -*- """ sipy is a python package for manipulating physical quantities. All quantities in sipy are constructed dynamically from their [SI base units] so that sipy can use [dimensional analysis] to spot errors in your calculations and learn all the valid units for #a quantity. >>> from sipy import meter, second >>> meter <Length 1.00E+00m> >>> try: ... meter + second ... except TypeError as exception: ... print(exception) unsupported operand type(s) for +: 'Length' and 'Time' >>> distance = 1000 * meter >>> distance.kilometers 1.0 It is able to handle non-SI base units. The example below demonstrates the various ways you can create and combine units by calculating the power, in watts, required for a car to accelerate from 0 mph to 100 mph, in 5 seconds we use >>> from sipy import Length, Time >>> distance_to_travel = Length() >>> distance_to_travel.miles = 100 >>> speed_of_car = distance_to_travel / Time(hours=1) >>> mass_of_car = 1300 * kilogram >>> power = 0.5 * mass_of_car * speed_of_car ** 2 / Time(seconds=5) >>> round(power.watts) 259797 .. NOTE:: To calculate the power required we determine the change in kinetic energy and divide it by the time taken, giving us this equation: .. math:: \\displaystyle \\frac{ \\frac{1}{2} \\times mass \\times {velocity}^2} {time} Custom Units ------------ All units and quantities are created dynamically from the config file, sipy.toml included in the sipy package. Extending sipy is just a matter of updating the config file, it is also possible to augment the package by specifying a custom config file using the SIPY_CFG_FILE environment variable:$ export SIPY_CFG_FILE="custom_sipy_config.toml"

The format of the config file is described in sipy.config.

Constants
---------

As well as quantities, it comes packaged with a variety of physical constants:
>>> from sipy import avogradro, boltzmann, planck
<InverseAmount 6.02E+23mol^-1>
>>> boltzmann
<InverseTemperatureMassLength2InverseTime2 1.38E-23K^-1kgm^2s^-2>
>>> planck
<MassLength2InverseTime 6.63E-34kgm^2s^-1>

Source
------

The source code, along with installation instructions are on [Gitlab].

[SI base units]: https://en.wikipedia.org/wiki/SI_base_unit
[Gitlab]: https://gitlab.com/broster/sipy/
[dimensional analysis]: https://en.wikipedia.org/wiki/Dimensional_analysis
"""
# SIpy
from sipy.quantities import defined_quantities, generate_constants
from sipy.units import generate_units_from_quantities

__version__ = "0.3.1"

# Update project namespace to include all quantities, units and constants
_QUANTITIES = defined_quantities()
locals().update(_QUANTITIES)
locals().update(generate_units_from_quantities(_QUANTITIES))
locals().update(generate_constants())

## Sub-modules

sipy.automap

Populate the UNIT_MAP dictionary used when generating new quantities …

sipy.config

All quantities and units in sipy are generated from a config file …

sipy.definitions

Definitions of the underlying SI Base Units that make up all quantities …

sipy.quantities

The API for working with quantities

sipy.units

The API for working with units