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datastock-0.0.9

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توضیحات

A python library for generic class and data handling
ویژگی مقدار
سیستم عامل -
نام فایل datastock-0.0.9
نام datastock
نسخه کتابخانه 0.0.9
نگهدارنده []
ایمیل نگهدارنده []
نویسنده Didier VEZINET
ایمیل نویسنده didier.vezinet@gmail.com
آدرس صفحه اصلی https://github.com/ToFuProject/datastock
آدرس اینترنتی https://pypi.org/project/datastock/
مجوز MIT
[![Conda]( https://anaconda.org/conda-forge/datastock/badges/version.svg)](https://anaconda.org/conda-forge/datastock) [![](https://anaconda.org/conda-forge/datastock/badges/downloads.svg)](https://anaconda.org/conda-forge/datastock) [![](https://anaconda.org/conda-forge/datastock/badges/latest_release_date.svg)](https://anaconda.org/conda-forge/datastock) [![](https://anaconda.org/conda-forge/datastock/badges/platforms.svg)](https://anaconda.org/conda-forge/datastock) [![](https://anaconda.org/conda-forge/datastock/badges/license.svg)](https://github.com/conda-forge/datastock/blob/master/LICENSE.txt) [![](https://anaconda.org/conda-forge/datastock/badges/installer/conda.svg)](https://anaconda.org/conda-forge/datastock) [![](https://badge.fury.io/py/datastock.svg)](https://badge.fury.io/py/datastock) datastock ========= Provides a generic class for storing multiple heterogeneous numpy arrays with non-uniform shapes and built-in interactive visualization routines. Also stores the relationships between arrays (e.g.: matching dimensions...) Also provides an elegant way of storing objects of various categories depending on the storeed arrays The full power of datastock is unveiled when using the DataStock class and sub-classing it for your own use. But a simpler and more straightforward use is possible if you are just looking for a ready-to-use interactive visualization tool of 1d, 2d and 3d numpy arrays by using a shortcut Installation: ------------- datastock is available on Pypi and anaconda.org `` pip install datastock `` `` conda install -c conda-forge datastock `` Examples: ========= Straightforward array visualization: ------------------------------------ ``` import datastock as ds # any 1d, 2d or 3d array aa = np.np.random.random((100, 100, 100)) # plot interactive figure using shortcut to method dax = ds.plot_as_array(aa) ``` Now do **shift + left clic** on any axes, the rest of the interactive commands are automatically printed in your python console <p align="center"> <img align="middle" src="https://github.com/ToFuProject/datastock/blob/devel/README_figures/DirectVisualization_3d.png" width="600" alt="Direct 3d array visualization"/> </p> The DataStock class: -------------------- You will want to instanciate the DataStock class (which is the cor of datastock) if: * You have many numpy arrays, not just one, especially if they do not have the same shape * You want to define a variety of objects from these data arrays (DataStock can be seen as a class storing many sub-classes) DataStock has 3 main dict attributes: * `dref`: to store the size of each dimension, each under a unique key * `ddata`: to store all numpy arrays, each under a unique key * `dobj`: to store any number of arbitrary sub-dict, each containing a category of object Thanks to dref, the class knows the relationaships between all numpy arrays. In particular it knows which arrays share the same references / dimensions ``` import numpy as np import datastock as ds # ----------- # Define data # Here: time-varying profiles representing velocity measurement across the radius of a tube # we assume 5 measurement campaigns were conducted, each yielding a different number of measurements, all sampled on 80 radial points nc = 5 nx = 80 lnt = [100, 90, 80, 120, 110] x = np.linspace(1, 2, nx) lt = [np.linspace(0, 10, nt) for nt in lnt] lprof = [(1 + np.cos(t)[:, None]) * x[None, :] for t in lt] # ------------------ # Populate DataStock # instanciate st = ds.DataStock() # add references (i.e.: store size of each dimension under a unique key) st.add_ref(key='nc', size=nc) st.add_ref(key='nx', size=nx) for ii, nt in enumerate(lnt): st.add_ref(key=f'nt{ii}', size=nt) # add data dependening on these references # you can, optionally, specify units, physical dimensionality (ex: distance, time...), quantity (ex: radius, height, ...) and name (to your liking) st.add_data(key='x', data=x, dimension='distance', quant='radius', units='m', ref='nx') for ii, nt in enumerate(lnt): st.add_data(key=f't{ii}', data=lt[ii], dimension='time', units='s', ref=f'nt{ii}') st.add_data(key=f'prof{ii}', data=lprof[ii], dimension='velocity', units='m/s', ref=(f'nt{ii}', 'x')) # print in the console the content of st st ``` <p align="center"> <img align="middle" src="https://github.com/ToFuProject/datastock/blob/devel/README_figures/DataStock_refdata.png" width="600" alt="Direct 3d array visualization"/> </p> You can see that DataStock stores the relationships between each array and each reference Specifying explicitly the references is only necessary if there is an ambiguity (i.e.: several references have the same size, like nx and nt2 in our case) ``` # plot any array interactively dax = st.plot_as_array('x') dax = st.plot_as_array('t0') dax = st.plot_as_array('prof0') dax = st.plot_as_array('prof0', keyX='t0', keyY='x', aspect='auto') ``` You can then decide to store any object category Let's create a 'campaign' category to store the characteristics of each measurements campaign and let's add a 'campaign' parameter to each profile data ``` # add arbitrary object category as sub-dict of self.dobj for ii in range(nc): st.add_obj( which='campaign', key=f'c{ii}', start_date=f'{ii}.04.2022', end_date=f'{ii+5}.05.2022', operator='Barnaby' if ii > 2 else 'Jack Sparrow', comment='leak on tube' if ii == 1 else 'none', index=ii, ) # create new 'campaign' parameter for data arrays st.add_param('campaign', which='data') # tag each data with its campaign for ii in range(nc): st.set_param(which='data', key=f't{ii}', param='campaign', value=f'c{ii}') st.set_param(which='data', key=f'prof{ii}', param='campaign', value=f'c{ii}') # print in the console the content of st st ``` <p align="center"> <img align="middle" src="https://github.com/ToFuProject/datastock/blob/devel/README_figures/DataStock_Obj.png" width="600" alt="Direct 3d array visualization"/> </p> DataStock also provides built-in object selection method to allow return all objects matching a criterion, as lits of int indices, bool indices or keys. ``` In [9]: st.select(which='campaign', index=2, returnas=int) Out[9]: array([2]) # list of 2 => return all matches inside the interval In [10]: st.select(which='campaign', index=[2, 4], returnas=int) Out[10]: array([2, 3, 4]) # tuple of 2 => return all matches outside the interval In [11]: st.select(which='campaign', index=(2, 4), returnas=int) Out[11]: array([0, 1]) # return as keys In [12]: st.select(which='campaign', index=(2, 4), returnas=str) Out[12]: array(['c0', 'c1'], dtype='<U2') # return as bool indices In [13]: st.select(which='campaign', index=(2, 4), returnas=bool) Out[13]: array([ True, True, False, False, False]) # You can combine as many constraints as needed In [17]: st.select(which='campaign', index=[2, 4], operator='Barnaby', returnas=str) Out[17]: array(['c3', 'c4'], dtype='<U2') ``` You can also decide to sub-class DataStock to implement methods and visualizations specific to your needs Other useful built-in methods: ----------------------------- DataStock provides built-in methods like: * `get_nbytes()`: return a tuple (size, dsize) where: - size is the total size of all data stored in the instance in bytes - dsize is a dict with the detail (size for each item in each sub-dict of the instance) * `save()`: will save the instance * `ds.load()`: will load a saved instance


نیازمندی

مقدار نام
- numpy
- scipy
- matplotlib
- astropy
- check-manifest
- coverage
- pytest
- sphinx
- sphinx-gallery
- sphinx-bootstrap-theme


زبان مورد نیاز

مقدار نام
>=3.6 Python


نحوه نصب


نصب پکیج whl datastock-0.0.9:

    pip install datastock-0.0.9.whl


نصب پکیج tar.gz datastock-0.0.9:

    pip install datastock-0.0.9.tar.gz