SpyQL: SQL with Python in the midle
Project description
SpyQL
SQL with Python in the middle
Concept
SpyQL is a query language that combines:
- the simplicity and structure of SQL
- with the power and readability of Python
SELECT
date.fromtimestamp(purchase_ts) AS purchase_date,
price * quantity AS total
FROM csv
WHERE department.upper() == 'IT'
TO json
SQL provides the structure of the query, while Python is used to define expressions, bringing along a vast ecosystem of packages.
SpyQL is fast and memory efficient. Take a look at the benchmarks with GB-size JSON data (best viewed on Colab).
SpyQL command-line tool
With the SpyQL command-line tool you can make SQL-like SELECTs powered by Python on top of text data (e.g. CSV and JSON). Data can come from files but also from data streams, such as Kafka, or from databases such as PostgreSQL. Basically, data can come from any command that outputs text :-). More, data can be generated by a Python iterator! Take a look at the examples section to see how to query parquet, process API calls, transverse directories of zipped JSONs, among many other things.
SpyQL also allows you to easily convert between text data formats:
-
FROM
: CSV, JSON, TEXT and Python iterators (YES, you can use a list comprehension as the data source) -
TO
: CSV, JSON, SQL (INSERT statements), pretty terminal printing, and terminal plotting.
The JSON format is JSON lines, where each line has a valid JSON object or array. Piping with jq allows SpyQL to handle any JSON input (more on the examples section).
You can leverage command line tools to process other file types like Parquet and XML (more on the examples section).
Installation
To install SpyQL, run this command in your terminal:
pip install spyql
Hello world
To test your installation run in the terminal:
spyql "SELECT 'Hello world' as Message TO pretty"
Output:
Message
-----------
Hello world
Try replacing the output format by json and csv, and try adding more columns. e.g. run in the terminal:
spyql "SELECT 'Hello world' as message, 1+2 as three TO json"
Output:
{"message": "Hello world", "three": 3}
SPyQL supports reading/writing json data using orjson, a fast, correct JSON library for Python. To use orjson, you need to install it separately. Then, test it by running the last example again, replacing json
by orjson
:
spyql "SELECT 'Hello world' as message, 1+2 as three TO orjson"
Output:
{"message":"Hello world","three":3}
Principles
Right now, the focus is on building a command-line tool that follows these core principles:
- Simple: simple to use with a straightforward implementation
- Familiar: you should feel at home if you are acquainted with SQL and Python
- Light: small memory footprint that allows you to process large data that fit into your machine
- Useful: it should make your life easier, filling a gap in the ecosystem
Syntax
[ IMPORT python_module [ AS identifier ] [, ...] ]
SELECT [ DISTINCT | PARTIALS ]
[ * | python_expression [ AS output_column_name ] [, ...] ]
[ FROM csv | spy | text | python_expression | orjson | json [ EXPLODE path ] ]
[ WHERE python_expression ]
[ GROUP BY output_column_number | python_expression [, ...] ]
[ ORDER BY output_column_number | python_expression
[ ASC | DESC ] [ NULLS { FIRST | LAST } ] [, ...] ]
[ LIMIT row_count ]
[ OFFSET num_rows_to_skip ]
[ TO csv | orjson | json | spy | sql | pretty | plot ]
Notable differences to SQL
In SpyQL:
- there is guarantee that the order of the output rows is the same as in the input (if no reordering is done)
- the
AS
keyword must precede a column alias definition (it is not optional as in SQL) - you can always access the nth input column by using the default column names
colN
(e.g.col1
for the first column) - currently only a small subset of SQL is supported, namely
SELECT
statements without: sub-queries, joins, set operations, etc (check the Syntax section) - sub-queries are achieved by piping (see the Command line examples section)
- aggregation functions have the suffix
_agg
to avoid conflicts with python's built-in functions:
Operation | PostgreSQL | SpyQL |
---|---|---|
Sum all values of a column | SELECT sum(col_name) |
SELECT sum_agg(col_name) |
Sum an array | SELECT sum(a) FROM (SELECT unnest(array[1,2,3]) AS a) AS t |
SELECT sum([1,2,3]) |
- expressions are pure Python:
SQL | SpySQL |
---|---|
x = y |
x == y |
x BETWEEN a AND b |
a <= x <= b |
CAST(x AS INTEGER) |
int(x) |
CASE WHEN x > 0 THEN 1 ELSE -1 END |
1 if x > 0 else -1 |
upper('hello') |
'hello'.upper() |
Notable differences to Python
Additional syntax
We added additional syntax for making querying easier:
Python | SpySQL shortcut | Purpose |
---|---|---|
json['hello']['planet earth'] |
json->hello->'planet earth' |
Easy access of elements in dicts (e.g. JSONs) |
json['hello'] |
json.hello |
Easy access of elements in dicts (e.g. JSONs) |
NULL datatype
Python's None
generates exceptions when making operations on missing data, breaking query execution (e.g. None + 1
throws a TypeError
). To overcome this, we created a NULL
type that has the same behavior as in SQL (e.g. NULL + 1
returns NULL
), allowing for queries to continue processing data.
Operation | Native Python throws | SpySQL returns | SpySQL warning |
---|---|---|---|
NULL + 1 |
NameError |
NULL |
|
a_dict['inexistent_key'] |
KeyError |
NULL |
yes |
int('') |
ValueError |
NULL |
yes |
int('abc') |
ValueError |
NULL |
yes |
The above dictionary key access only returns NULL
if the dict is an instance of qdict
. SpyQL adds qdict
, which extends python's native dict
. JSONs are automatically loaded as qdict
. Unless you are creating dictionaries on the fly you do not need to worry about this.
Importing python modules and user-defined functions
By default, spyql do some commonly used imports:
- everything from the
math
module datetime
,date
andtimezone
from thedatetime
module- the
re
module
SpyQL queries support a single import statement at the beginning of the query where several modules can be imported (e.g. IMPORT numpy AS np, sys SELECT ...
). Note that the python syntax from module import identifier
is not supported in queries.
In addition, you can create a python file that is loaded before executing queries. Here you can define imports, functions, variables, etc using regular python code. Everything defined in this file is available to all your spyql queries. The file should be located at XDG_CONFIG_HOME/spyql/init.py
. If the environment variable XDG_CONFIG_HOME
is not defined, it defaults to HOME/.config
(e.g. /Users/janedoe/.config/spyql/init.py
).
Example queries
You can run the following example queries in the terminal:
spyql "the_query" < a_data_file
Example data files are not provided on most cases.
Query a CSV (and print a pretty table)
SELECT a_col_name, 'positive' if col2 >= 0 else 'negative' AS sign
FROM csv
TO pretty
Convert CSV to a flat JSON
SELECT * FROM csv TO json
Convert from CSV to a hierarchical JSON
SELECT {'client': {'id': col1, 'name': col2}, 'price': 120.40}
FROM csv TO json
or
SELECT {'id': col1, 'name': col2} AS client, 120.40 AS price
FROM csv TO json
JSON to CSV, filtering out NULLs
SELECT json->client->id AS id, json->client->name AS name, json->price AS price
FROM json
WHERE json->client->name is not NULL
TO csv
Explode JSON to CSV
SELECT json->invoice_num AS id, json->items->name AS name, json-items->price AS price
FROM json
EXPLODE json->items
TO csv
Sample input:
{"invoice_num" : 1028, "items": [{"name": "tomatoes", "price": 1.5}, {"name": "bananas", "price": 2.0}]}
{"invoice_num" : 1029, "items": [{"name": "peaches", "price": 3.12}]}
Output:
id, name, price
1028, tomatoes, 1.5
1028, bananas, 2.0
1029, peaches, 3.12
Python iterator/list/comprehension to JSON
SELECT 10 * cos(col1 * ((pi * 4) / 90))
FROM range(80)
TO json
or
SELECT col1
FROM [10 * cos(i * ((pi * 4) / 90)) for i in range(80)]
TO json
Importing python modules
Here we import hashlib
to calculate a md5 hash for each input line.
Before running this example you need to install the hashlib
package (pip install hashlib
).
IMPORT hashlib as hl
SELECT hl.md5(col1.encode('utf-8')).hexdigest()
FROM text
Getting the top 5 records
SELECT int(score) AS score, player_name
FROM csv
ORDER BY 1 DESC NULLS LAST, score_date
LIMIT 5
Aggregations
Totals by player, alphabetically ordered.
SELECT json->player_name, sum_agg(json->score) AS total_score
FROM json
GROUP BY 1
ORDER BY 1
Partial aggregations
Calculating the cumulative sum of a variable using the PARTIALS
modifier. Also demoing the lag aggregator.
SELECT PARTIALS
json->new_entries,
sum_agg(json->new_entries) AS cum_new_entries,
lag(json->new_entries) AS prev_entries
FROM json
TO json
Sample input:
{"new_entries" : 10}
{"new_entries" : 5}
{"new_entries" : 25}
{"new_entries" : null}
{}
{"new_entries" : 100}
Output:
{"new_entries" : 10, "cum_new_entries" : 10, "prev_entries": null}
{"new_entries" : 5, "cum_new_entries" : 15, "prev_entries": 10}
{"new_entries" : 25, "cum_new_entries" : 40, "prev_entries": 5}
{"new_entries" : null, "cum_new_entries" : 40, "prev_entries": 25}
{"new_entries" : null, "cum_new_entries" : 40, "prev_entries": null}
{"new_entries" : 100, "cum_new_entries" : 140, "prev_entries": null}
If PARTIALS
was omitted the result would be equivalent to the last output row.
Distinct rows
SELECT DISTINCT *
FROM csv
Command line examples
To run the following examples, type Ctrl-x Ctrl-e
on you terminal. This will open your default editor (emacs/vim). Paste the code of one of the examples, save and exit.
Queries on Parquet with directories
Here, find
transverses a directory and executes parquet-tools
for each parquet file, dumping each file to json format. jq -c
makes sure that the output has 1 json per line before handing over to spyql. This is far from being an efficient way to query parquet files, but it might be a handy option if you need to do a quick inspection.
find /the/directory -name "*.parquet" -exec parquet-tools cat --json {} \; |
jq -c |
spyql "
SELECT json->a_field, json->a_num_field * 2 + 1
FROM json
"
Querying multiple json.gz files
gzcat *.json.gz |
jq -c |
spyql "
SELECT json->a_field, json->a_num_field * 2 + 1
FROM json
"
Querying YAML / XML / TOML files
yq converts yaml, xml and toml files to json, allowing to easily query any of these with spyql.
cat file.yaml | yq -c | spyql "SELECT json->a_field FROM json"
cat file.xml | xq -c | spyql "SELECT json->a_field FROM json"
cat file.toml | tomlq -c | spyql "SELECT json->a_field FROM json"
Kafka to PostgreSQL pipeline
Read data from a kafka topic and write to postgres table name customer
.
kafkacat -b the.broker.com -t the.topic |
spyql -Otable=customer -Ochunk_size=1 --unbuffered "
SELECT
json->customer->id AS id,
json->customer->name AS name
FROM json
TO sql
" |
psql -U an_user_name -h a.host.com a_database_name
Monitoring statistics in Kafka
Read data from a kafka topic, continuously calculating statistics.
kafkacat -b the.broker.com -t the.topic |
spyql --unbuffered "
SELECT PARTIALS
count_agg(*) AS running_count,
sum_agg(value) AS running_sum,
min_agg(value) AS min_so_far,
value AS current_value
FROM json
TO csv
"
Sub-queries (piping)
A special file format (spy) is used to efficiently pipe data between queries.
cat a_file.json |
spyql "
SELECT ' '.join([json->first_name, json->middle_name, json->last_name]) AS full_name
FROM json
TO spy" |
spyql "SELECT full_name, full_name.upper() FROM spy"
(Equi) Joins
It is possible to make simple (LEFT) JOIN operations based on dictionary lookups.
Given numbers.json
:
{
"1": "One",
"2": "Two",
"3": "Three"
}
Query:
spyql -Jnums=numbers.json "
SELECT nums[col1] as res
FROM [3,4,1,1]
TO json"
Output:
{"res": "Three"}
{"res": null}
{"res": "One"}
{"res": "One"}
If you want a INNER JOIN instead of a LEFT JOIN, you can add a criteria to the where clause, e.g.:
SELECT nums[col1] as res
FROM [3,4,1,1]
WHERE col1 in nums
TO json
Output:
{"res": "Three"}
{"res": "One"}
{"res": "One"}
Queries over APIs
curl https://reqres.in/api/users?page=2 |
spyql "
SELECT
json->data->email AS email,
'Dear {}, thank you for being a great customer!'.format(json->data->first_name) AS msg
FROM json
EXPLODE json->data
TO json
"
Plotting to the terminal
spyql "
SELECT col1
FROM [10 * cos(i * ((pi * 4) / 90)) for i in range(80)]
TO plot
"
GUI Plotting with matplotcli
spyql "
SELECT col1 AS y
FROM [10 * cos(i * ((pi * 4) / 90)) for i in range(80)]
TO json
" | plt "plot(y)"
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