Metadata-Version: 2.1
Name: tiled
Version: 0.1.0a20
Summary: Tile-based access to SciPy/PyData data structures over the web in many formats
Home-page: https://github.com/bluesky/tiled
Author: Bluesky Collaboration
Author-email: dallan@bnl.gov
License: BSD (3-clause)
Description: # Tiled
        
        *Disclaimer: This is very early work, still in the process of defining scope.*
        
        Data analysis is easier and better when we load and operate on data in simple,
        self-describing structures that keep our mind on the science rather the
        book-keeping of filenames and file formats.
        
        Tiled is a **data access** service for data-aware portals and data science tools.
        It enables **search** and **structured, chunkwise access** to data in an
        extensible **variety of appropriate formats**, regardless of the format the data
        happens to be stored in at rest. The natively supported formats span slow but
        widespread interchange formats (e.g. CSV, JSON) and fast, efficient ones
        (e.g. C buffers, Apache Arrow DataFrames). Tiled enables slicing and
        sub-selection to read and transfer only the data of interest, and it enables
        parallelized download of many chunks at once. Users can access data with very
        light software dependencies and fast partial downloads.
        
        Tiled takes a forward-looking emphasis on **structures** rather than formats,
        including:
        
        * N-dimensional strided arrays (i.e. numpy-like arrays)
        * Tabular data (i.e. pandas-like "dataframes")
        * Hierarchical structures thereof (e.g. xarrays, HDF5-compatible structures like NeXus)
        
        Tiled implements extensible **access control enforcement** based on web security
        standards. Like Jupyter, Tiled can be used by a single user or deployed as
        a shared resource.
        
        Tiled facilitates **local caching** in a standard web browser or in Tiled's
        Python client, making efficient use of bandwidth and enabling an offline
        "airplane mode."
        
        | Distribution   | Where to get it                                              |
        | -------------- | ------------------------------------------------------------ |
        | PyPI           | `pip install tiled`                                          |
        | Conda          | Coming Soon                                                  |
        | Source code    | [github.com/bluesky/tiled](https://github.com/bluesky/tiled) |
        | Documentation  | [blueskyproject.io/tiled](https://blueskyproject.io/tiled)   |
        
        ## Example
        
        In this example, we'll serve of a collection of data that is generated in
        memory.  Alternatively, it could be read on demand from a directory of files,
        network resource, database, or some combination of these.
        
        ```
        tiled serve pyobject --public tiled.examples.generated:demo
        ```
        
        And then access the data efficiently via the Python client, a web browser, or
        any HTTP client.
        
        ```python
        >>> from tiled.client import from_uri
        
        >>> client = from_uri("http://localhost:8000")
        
        >>> client
        <Node {'arrays', 'dataframes', 'xarrays', 'nested', ...} ~5 entries>
        
        >>> client['arrays']
        <Node {'large', 'medium', 'small', 'tiny'}>
        
        >>> client['arrays']['medium']
        <ArrayClient>
        
        >>> client['arrays']['medium'][:]
        array([[0.21267816, 0.59685753, 0.12483017, ..., 0.74891246, 0.43889019,
                0.27761903],
               [0.95434218, 0.31376234, 0.05776443, ..., 0.53886856, 0.92855426,
                0.32506382],
               [0.0458622 , 0.0561961 , 0.3893611 , ..., 0.23124064, 0.40311252,
                0.22488572],
               ...,
               [0.91990991, 0.98361972, 0.26394368, ..., 0.86427576, 0.00436757,
                0.03021872],
               [0.26595236, 0.18207517, 0.18989639, ..., 0.16221733, 0.59052007,
                0.94255651],
               [0.4721781 , 0.01424852, 0.57294198, ..., 0.70392867, 0.69371454,
                0.228491  ]])
        
        >>> client['dataframes']
        <Node {'df'}>
        
        >>> client['dataframes']['df']
        <DataFrameClient ['A', 'B', 'C']>
        
        >>> client['dataframes']['df'][['A', 'B']]
                      A         B
        index                    
        0      0.748885  0.769644
        1      0.071319  0.364743
        2      0.322665  0.897854
        3      0.328785  0.810159
        4      0.158253  0.822505
        ...         ...       ...
        95     0.913758  0.488304
        96     0.969652  0.287850
        97     0.769774  0.941785
        98     0.350033  0.052412
        99     0.356245  0.683540
        
        [100 rows x 2 columns]
        ```
        
        Using an Internet browser or a command-line HTTP client like
        [curl](https://curl.se/) or [httpie](https://httpie.io/) you can download the
        data in whole or in efficiently-chunked parts in the format of your choice:
        
        ```
        # Download tabular data as CSV
        http://localhost:8000/dataframe/full/dataframes/df?format=csv
        
        # or XLSX (Excel)
        http://localhost:8000/dataframe/full/dataframes/df?format=xslx
        
        # and subselect columns.
        http://localhost:8000/dataframe/full/dataframes/df?format=xslx&column=A&column=B
        
        # View or download (2D) array data as PNG
        http://localhost:8000/array/full/arrays/medium?format=png
        
        # and slice regions of interest.
        http://localhost:8000/array/full/arrays/medium?format=png&slice=:50,100:200
        ```
        
        Web-based data access usually involves downloading complete files, in the
        manner of [Globus](https://www.globus.org/); or using modern chunk-based
        storage formats, such as [TileDB](https://tiledb.com/) and
        [Zarr](https://zarr.readthedocs.io/en/stable/) in local or cloud storage; or
        using custom solutions tailored to a particular large dataset. Waiting for an
        entire file to download when only the first frame of an image stack or a
        certain column of a table are of interest is wasteful and can be prohibitive
        for large longitudinal analyses. Yet, it is not always practical to transcode
        the data into a chunk-friendly format or build a custom tile-based-access
        solution. (Though if you can do either of those things, you should consider
        them instead!)
Platform: UNKNOWN
Classifier: Development Status :: 2 - Pre-Alpha
Classifier: Natural Language :: English
Classifier: Programming Language :: Python :: 3
Requires-Python: >=3.7
Description-Content-Type: text/markdown
Provides-Extra: client
Provides-Extra: cache
Provides-Extra: server
Provides-Extra: array
Provides-Extra: dataframe
Provides-Extra: xarray
Provides-Extra: complete
