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pydruid exposes a simple API to create, execute, and analyze Druid queries. pydruid can parse query results into Pandas DataFrame objects for subsequent data analysis -- this offers a tight integration between Druid, the SciPy stack (for scientific computing) and scikit-learn (for machine learning). pydruid can export query results into TSV or JSON for further processing with your favorite tool, e.g., R, Julia, Matlab, Excel. It provides both synchronous and asynchronous clients.
Additionally, pydruid implements the Python DB API 2.0, a SQLAlchemy dialect, and a provides a command line interface to interact with Druid.
To install:
pip install pydruid
# or, if you intend to use asynchronous client
pip install pydruid[async]
# or, if you intend to export query results into pandas
pip install pydruid[pandas]
# or, if you intend to do both
pip install pydruid[async, pandas]
# or, if you want to use the SQLAlchemy engine
pip install pydruid[sqlalchemy]
# or, if you want to use the CLI
pip install pydruid[cli]
Documentation: https://pythonhosted.org/pydruid/.
The following exampes show how to execute and analyze the results of three types of queries: timeseries, topN, and groupby. We will use these queries to ask simple questions about twitter's public data set.
What was the average tweet length, per day, surrounding the 2014 Sochi olympics?
from pydruid.client import *
from pylab import plt
query = PyDruid(druid_url_goes_here, 'druid/v2')
ts = query.timeseries(
datasource='twitterstream',
granularity='day',
intervals='2014-02-02/p4w',
aggregations={'length': doublesum('tweet_length'), 'count': doublesum('count')},
post_aggregations={'avg_tweet_length': (Field('length') / Field('count'))},
filter=Dimension('first_hashtag') == 'sochi2014'
)
df = query.export_pandas()
df['timestamp'] = df['timestamp'].map(lambda x: x.split('T')[0])
df.plot(x='timestamp', y='avg_tweet_length', ylim=(80, 140), rot=20,
title='Sochi 2014')
plt.ylabel('avg tweet length (chars)')
plt.show()
Who were the top ten mentions (@user_name) during the 2014 Oscars?
top = query.topn(
datasource='twitterstream',
granularity='all',
intervals='2014-03-03/p1d', # utc time of 2014 oscars
aggregations={'count': doublesum('count')},
dimension='user_mention_name',
filter=(Dimension('user_lang') == 'en') & (Dimension('first_hashtag') == 'oscars') &
(Dimension('user_time_zone') == 'Pacific Time (US & Canada)') &
~(Dimension('user_mention_name') == 'No Mention'),
metric='count',
threshold=10
)
df = query.export_pandas()
print df
count timestamp user_mention_name
0 1303 2014-03-03T00:00:00.000Z TheEllenShow
1 44 2014-03-03T00:00:00.000Z TheAcademy
2 21 2014-03-03T00:00:00.000Z MTV
3 21 2014-03-03T00:00:00.000Z peoplemag
4 17 2014-03-03T00:00:00.000Z THR
5 16 2014-03-03T00:00:00.000Z ItsQueenElsa
6 16 2014-03-03T00:00:00.000Z eonline
7 15 2014-03-03T00:00:00.000Z PerezHilton
8 14 2014-03-03T00:00:00.000Z realjohngreen
9 12 2014-03-03T00:00:00.000Z KevinSpacey
What does the social network of users replying to other users look like?
from igraph import *
from cairo import *
from pandas import concat
group = query.groupby(
datasource='twitterstream',
granularity='hour',
intervals='2013-10-04/pt12h',
dimensions=["user_name", "reply_to_name"],
filter=(~(Dimension("reply_to_name") == "Not A Reply")) &
(Dimension("user_location") == "California"),
aggregations={"count": doublesum("count")}
)
df = query.export_pandas()
# map names to categorical variables with a lookup table
names = concat([df['user_name'], df['reply_to_name']]).unique()
nameLookup = dict([pair[::-1] for pair in enumerate(names)])
df['user_name_lookup'] = df['user_name'].map(nameLookup.get)
df['reply_to_name_lookup'] = df['reply_to_name'].map(nameLookup.get)
# create the graph with igraph
g = Graph(len(names), directed=False)
vertices = zip(df['user_name_lookup'], df['reply_to_name_lookup'])
g.vs["name"] = names
g.add_edges(vertices)
layout = g.layout_fruchterman_reingold()
plot(g, "tweets.png", layout=layout, vertex_size=2, bbox=(400, 400), margin=25, edge_width=1, vertex_color="blue")
HTTP client from ```Tornado``` framework. The asynchronous client is suitable for use with async frameworks such as Tornado
and provides much better performance at scale. It lets you serve multiple requests at the same time, without blocking on
Druid executing your queries.
## example
python from tornado import gen from pydruid.async_client import AsyncPyDruid from pydruid.utils.aggregators import longsum from pydruid.utils.filters import Dimension
client = AsyncPyDruid(url_to_druid_broker, 'druid/v2')
@gen.coroutine def your_asynchronous_method_serving_top10_mentions_for_day(day
top_mentions = yield client.topn(
datasource='twitterstream',
granularity='all',
intervals="%s/p1d" % (day, ),
aggregations={'count': doublesum('count')},
dimension='user_mention_name',
filter=(Dimension('user_lang') == 'en') & (Dimension('first_hashtag') == 'oscars') &
(Dimension('user_time_zone') == 'Pacific Time (US & Canada)') &
~(Dimension('user_mention_name') == 'No Mention'),
metric='count',
threshold=10)
# asynchronously return results
# can be simply ```return top_mentions``` in python 3.x
raise gen.Return(top_mentions)
# thetaSketches
Theta sketch Post aggregators are built slightly differently to normal Post Aggregators, as they have different operators.
Note: you must have the ```druid-datasketches``` extension loaded into your Druid cluster in order to use these.
See the [Druid datasketches](http://druid.io/docs/latest/development/extensions-core/datasketches-aggregators.html) documentation for details.
python from pydruid.client import * from pydruid.utils import aggregators from pydruid.utils import filters from pydruid.utils import postaggregator
query = PyDruid(url_to_druid_broker, 'druid/v2') ts = query.groupby(
datasource='test_datasource',
granularity='all',
intervals='2016-09-01/P1M',
filter = ( filters.Dimension('product').in_(['product_A', 'product_B'])),
aggregations={
'product_A_users': aggregators.filtered(
filters.Dimension('product') == 'product_A',
aggregators.thetasketch('user_id')
),
'product_B_users': aggregators.filtered(
filters.Dimension('product') == 'product_B',
aggregators.thetasketch('user_id')
)
},
post_aggregations={
'both_A_and_B': postaggregator.ThetaSketchEstimate(
postaggregator.ThetaSketch('product_A_users') & postaggregator.ThetaSketch('product_B_users')
)
}
)
# DB API
python from pydruid.db import connect
conn = connect(host='localhost', port=8082, path='/druid/v2/sql/', scheme='http') curs = conn.cursor() curs.execute("""
SELECT place,
CAST(REGEXP_EXTRACT(place, '(.*),', 1) AS FLOAT) AS lat,
CAST(REGEXP_EXTRACT(place, ',(.*)', 1) AS FLOAT) AS lon
FROM places
LIMIT 10
""") for row in curs:
print(row)
# SQLAlchemy
python from sqlalchemy import * from sqlalchemy.engine import create_engine from sqlalchemy.schema import *
engine = create_engine('druid://localhost:8082/druid/v2/sql/') # uses HTTP by default :(
places = Table('places', MetaData(bind=engine), autoload=True) print(select([func.count('*')], from_obj=places).scalar())
## Column headers
In version 0.13.0 Druid SQL added support for including the column names in the
response which can be requested via the "header" field in the request. This
helps to ensure that the cursor description is defined (which is a requirement
for SQLAlchemy query statements) regardless on whether the result set contains
any rows. Historically this was problematic for result sets which contained no
rows at one could not infer the expected column names.
Enabling the header can be configured via the SQLAlchemy URI by using the query
parameter, i.e.,
python engine = create_engine('druid://localhost:8082/druid/v2/sql?header=true')
Note the current default is `false` to ensure backwards compatibility but should
be set to `true` for Druid versions >= 0.13.0.
# Command line
bash $ pydruid http://localhost:8082/druid/v2/sql/
SELECT COUNT(*) AS cnt FROM places
cnt
12345 SELECT TABLE_NAME FROM INFORMATION_SCHEMA.TABLES;
TABLE_NAME
test_table COLUMNS SCHEMATA TABLES BYE; GoodBye!
# Contributing Contributions are welcomed of course. We like to use `black` and `flake8`.bash pip install -r requirements-dev.txt # installs useful dev deps pre-commit install # installs useful commit hooks ```