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Scientific numbers with multiple uncertainties and correlation-aware, gaussian propagation.

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scinum provides a simple Number class that wraps plain floats or NumPy arrays and adds support for multiple uncertainties, automatic (gaussian) error propagation, and scientific rounding.

Usage

The following examples demonstrate the most common use cases. For more info, see the API documentation.

Number definition
from scinum import Number, UP, DOWN

num = Number(5, (2, 1))
print(num)                    # -> 5.00 +2.00-1.00
print(num.nominal)            # -> 5.0
print(num.n)                  # -> 5.0 (shorthand)
print(num.get_uncertainty())  # -> (2.0, 1.0)
print(num.u())                # -> (2.0, 1.0) (shorthand)
print(num.u(direction=UP))    # -> 2.0
Multiple uncertainties
from scinum import Number, ABS, REL

num = Number(2.5, {
    "sourceA": 0.5,                  # absolute 0.5, both up and down
    "sourceB": (1.0, 1.5),           # absolute 1.0 up, 1.5 down
    "sourceC": (REL, 0.1),           # relative 10%, both up and down
    "sourceD": (REL, 0.1, 0.2),      # relative 10% up, 20% down
    "sourceE": (1.0, REL, 0.2),      # absolute 1.0 up, relative 20% down
    "sourceF": (REL, 0.3, ABS, 0.3)  # relative 30% up, absolute 0.3 down
})
Formatting and rounding

Number.str() provides some simple formatting tools, including latex and root latex support, as well as scientific rounding rules:

# output formatting
n = Number(8848, 10)
n.str(unit="m")                          # -> "8848.0 +- 10.0 m"
n.str(unit="m", force_asymmetric=True)   # -> "8848.0 +10.0-10.0 m"
n.str(unit="m", scientific=True)         # -> "8.848 +- 0.01 x 1E3 m"
n.str(unit="m", si=True)                 # -> "8.848 +- 0.01 km"
n.str(unit="m", style="latex")           # -> "$8848.0\;\pm\;10.0\;m$"
n.str(unit="m", style="latex", si=True)  # -> "$8.848\;\pm\;0.01\;km$"
n.str(unit="m", style="root")            # -> "8848.0 #pm 10.0 m"
n.str(unit="m", style="root", si=True)   # -> "8.848 #pm 0.01 km"

# output rounding
n = Number(17.321, {"a": 1.158, "b": 0.453})
n.str()               # -> '17.321 +- 1.158 (a) +- 0.453 (b)'
n.str("%.1f")         # -> '17.3 +- 1.2 (a) +- 0.5 (b)'
n.str("publication")  # -> '17.32 +- 1.16 (a) +- 0.45 (b)'
n.str("pdg")          # -> '17.3 +- 1.2 (a) +- 0.5 (b)'

For situations that require more sophisticated rounding and formatting rules, you might want to checkout:

NumPy arrays
from scinum import Number, ABS, REL
import numpy as np

num = Number(np.array([3, 4, 5]), 2)
print(num)
# [ 3.  4.  5.]
# + [ 2.  2.  2.]
# - [ 2.  2.  2.]

num = Number(np.array([3, 4, 5]), {
    "sourceA": (np.array([0.1, 0.2, 0.3]), REL, 0.5)  # absolute values for up, 50% down
})
print(num)
# [ 3.  4.  5.]
# + sourceA [ 0.1  0.2  0.3]
# - sourceA [ 1.5  2.   2.5]
Uncertainty propagation
from scinum import Number

num = Number(5, 1)
print(num + 2)  # -> '7.0 +- 1.0'
print(num * 3)  # -> '15.0 +- 3.0'

num2 = Number(2.5, 1.5)
print(num + num2)  # -> '7.5 +- 1.80277563773'
print(num * num2)  # -> '12.5 +- 7.90569415042'

# add num2 to num and consider their uncertainties to be fully correlated, i.e. rho = 1
num.add(num2, rho=1)
print(num)  # -> '7.5 +- 2.5'
Math operations

As a drop-in replacement for the math module, scinum provides an object ops that contains math operations that are aware of guassian error propagation.

from scinum import Number, ops

num = ops.log(Number(5, 2))
print(num)  # -> 1.61 (+0.40, -0.40)

num = ops.exp(ops.tan(Number(5, 2)))
print(num)  # -> 0.03 (+0.85, -0.85)
Custom operations

There might be situations where a specific operation is not (yet) contained in the ops object. In this case, you can easily register a new one via:

from scinum import Number, ops

@ops.register
def my_op(x):
    return x * 2 + 1

@my_op.derive
def my_op(x):
    return 2

num = ops.my_op(Number(5, 2))
print(num)  # -> 11.00 (+4.00, -4.00)

Please note that there is no need to register simple functions like in the particular example above as most of them are just composite operations whose propagation rules (derivatives) are already known.

Installation and dependencies

Via pip

pip install scinum

or by simply copying the file into your project.

Numpy is an optional dependency.

Contributing

If you like to contribute, I'm happy to receive pull requests. Just make sure to add a new test cases and run them via:

> python -m unittest tests
Testing

In general, tests should be run for different environments:

  • Python 2.7
  • Python 3.X (X ≥ 5)
Docker

To run tests in a docker container, do:

git clone https://github.com/riga/scinum.git
cd scinum

docker run --rm -v `pwd`:/root/scinum -w /root/scinum python:3.6 python -m unittest tests

Development

Contributors

License

The MIT License (MIT)

Copyright (c) 2017-2018 Marcel Rieger

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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