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Python package provided to make elasticsearch aggregations and queries easy.

Project description

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What is it?

pandagg is a Python package providing a simple interface to manipulate ElasticSearch queries and aggregations. Its goal is to make it the easiest possible to explore data indexed in an Elasticsearch cluster.

Some of its interactive features are inspired by pandas library, hence the name pandagg which aims to apply pandas to Elasticsearch aggregations.

pandagg is also greatly inspired by the official high level python client elasticsearch-dsl, and is intended to make it more convenient to deal with deeply nested queries and aggregations.

Features

  • flexible aggregation and search queries declaration, with ability to insert clauses at specific points (and not only below last manipulated clause)
  • query validation based on provided mappings
  • parsing of aggregation results in convenient formats: tree with interactive navigation, csv-like tabular breakdown, pandas dataframe, and others
  • cluster indices discovery module, and mappings interactive navigation

Documentation

Full documentation and user-guide are available here on read-the-docs.

Installation

pip install pandagg

Dependencies

Hard dependency: ligthtree

Soft dependency: to parse aggregation results as tabular dataframe: pandas

Quick demo

Discover indices on cluster with matching pattern:

>>> from elasticsearch import Elasticsearch
>>> from pandagg.discovery import discover
>>> client = Elasticsearch(hosts=['localhost:9200'])


>>> indices = discover(client, "mov*")
>>> indices
<Indices> ['movies', 'movies_fake']

Explore index mappings:

>>> movies = indices.movies
>>> movies.imappings
<Mappings>
_
├── directors                                                [Nested]
   ├── director_id                                           Keyword
   ├── first_name                                            Text
      └── raw                                             ~ Keyword
   ├── full_name                                             Text
      └── raw                                             ~ Keyword
   ├── genres                                                Keyword
   └── last_name                                             Text
       └── raw                                             ~ Keyword
├── genres                                                    Keyword
├── movie_id                                                  Keyword
├── name                                                      Text
...
>>> movies.imappings.roles
<Mappings subpart: roles>
roles                                                        [Nested]
├── actor_id                                                  Keyword
├── first_name                                                Text
   └── raw                                                 ~ Keyword
├── full_name                                                 Text
   └── raw                                                 ~ Keyword
├── gender                                                    Keyword
├── last_name                                                 Text
   └── raw                                                 ~ Keyword
└── role                                                      Keyword

Execute aggregation on field:

>>> movies.imappings.roles.gender.a.terms()
   doc_count key
M    2296792   M
F    1135174   F

Build search request:

>> > search = movies
    .search()
    .size(2)
    .groupby('decade', 'histogram', interval=10, field='year')
    .groupby('genres', size=3)
    .agg('avg_rank', 'avg', field='rank')
    .agg('avg_nb_roles', 'avg', field='nb_roles')
    .filter('range', year={"gte": 1990})

>> > search.to_dict()
{'aggs': {'decade': {u'aggs': {'genres': {u'aggs': {'avg_nb_roles': {u'avg': {'field': 'nb_roles'}},
                                                    'avg_rank': {u'avg': {'field': 'rank'}}},
                                          'terms': {'field': 'genres', 'size': 3}}},
                     'histogram': {'field': 'year', 'interval': 10}}},
 'query': {'bool': {u'filter': [{'range': {'year': {'gte': 1990}}}]}},
 'size': 2}

Execute it:

>>> response = search.execute()
>>> response
<Response> took 52ms, success: True, total result >=10000, contains 2 hits

Parse it in tabular format:

>>> response.aggregations.to_dataframe()
                    avg_nb_roles  avg_rank  doc_count
decade genres
2000.0 Drama           14.385391  6.269675      11500
1990.0 Documentary      3.778982  6.517093       8393
2000.0 Short            4.053082  6.836253      13451
       Documentary      5.581433  6.980898       8639
1990.0 Short            3.023284  6.311326      12197
       Drama           18.518067  5.981429      12232

Disclaimers

It does not ensure retro-compatible with previous versions of elasticsearch (intended to work with >=7). It is part of the roadmap to tag pandagg versions according to the ElasticSearch versions they are related to (ie v7.1.4 would work with Elasticsearch v7.X.X).

It doesn't provide yet all functionalities provided by the official client (for instance ORM like insert/updates, index operations etc..). Primary focus of pandagg was on read operations.

Contributing

All contributions, bug reports, bug fixes, documentation improvements, enhancements and ideas are welcome.

Roadmap

  • on aggregation nodes, ensure all allowed fields are listed
  • expand functionalities: proper ORM similar to elasticsearch-dsl Document classes, index managing operations
  • package versions for different ElasticSearch versions
  • composite aggregation iterator
  • clean and proper documentation

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