Metadata-Version: 2.1
Name: sheet
Version: 0.0.3
Summary: Tools to manipulate ipython (jupyter) notebooks
Home-page: https://github.com/thorwhalen/sheet
Author: Thor Whalen
License: apache-2.0
Description: 
        # sheet
        Tools to manipulate ipython (jupyter) notebooks
        
        
        To install:	```pip install sheet```
        
        
        # Examples
        
        ```python
        from sheet import get_ipynb_cells, get_ipynb_cells_source
        filepath = '~/my_notebook_folder/some_notebook.ipynb'
        
        cells = get_ipynb_cells(filepath)
        assert type(cells), type(cells[0]) == (list, dict)
        
        cells = get_ipynb_cells_source(filepath)
        assert type(cells), type(cells[0]) == (list, str)
        ```
        
        
        ```python
        from sheet import get_ipynb_cells_full_text
        notebook_text = get_ipynb_cells_full_text(filepath)
        print(notebook_text)
        ```
        
        ```python
        from sheet import SearchNotebooks
        
        search = SearchNotebooks('~/my_notebooks_folder', max_levels=0)  # enter max_levels=None for full recursive
        search('bayesian')
        ```
        
            array(['Spyn 01 - Potentials.ipynb',
                   'Bayes 01 - Potentials-Only explanation.ipynb', 'taped.ipynb',
                   'separation of concerns - how py2store does it.ipynb',
                   'equate.ipynb', 'peruse.ipynb',
                   'hum, taped, lined -- feeding audio to a pipeline.ipynb',
                   'owner.ipynb', 'best of 2020.ipynb',
                   'Bayes 02 - Potentials - And drug data example.ipynb'],
                  dtype=object)
        
        Okay, we have a list of notebooks that match our query 
        (i.e. the highest average alignment to our query -- not just keyword matching!), 
        but what cells in particular have the highest relevance?
        
        Well, we can now peruse our notebook at that level, with a notebook cells searcher.
        (Note: You can combine both to make a cell-level searcher from the folder level.)
        
        ```python
        ss = search.search_notebook('Spyn 01 - Potentials.ipynb')
        ss('bayesian')
        ```
        
            array([['Spyn 01 - Potentials.ipynb', 6],
                   ['Spyn 01 - Potentials.ipynb', 2],
                   ['Spyn 01 - Potentials.ipynb', 71],
                   ['Spyn 01 - Potentials.ipynb', 88],
                   ['Spyn 01 - Potentials.ipynb', 91],
                   ['Spyn 01 - Potentials.ipynb', 84],
                   ['Spyn 01 - Potentials.ipynb', 85],
                   ['Spyn 01 - Potentials.ipynb', 86],
                   ['Spyn 01 - Potentials.ipynb', 87],
                   ['Spyn 01 - Potentials.ipynb', 82]], dtype=object)
                   
        ```python
        ss['Spyn 01 - Potentials.ipynb', 6]
        ```
        
            '# Potentials - A key data structure to Discrete Bayesian Inference'
        
        
        ```python
        ss['Spyn 01 - Potentials.ipynb', 87]
        ```
        
            '### Making a few potentials from pts data'
        
        
Platform: any
Description-Content-Type: text/markdown
