Pure Python asyncio connector to KDB
Project description
aiokdb
Python asyncio connector to KDB. Pure python, so does not depend on the k.h
bindings or kdb shared objects, or numpy/pandas. Fully type hinted to comply with PEP-561
. No non-core dependencies, and tested on Python 3.8 - 3.12.
Peer review & motivation
qPython is a widely used library for this task and it maps objects to Pandas Dataframes which might be more suitable for the majority of applications.
This library takes a different approach and aims to replicate using the KDB C-library functions, ie. being 100% explicit about KDB types. It was built working from the publicly documented Serialisation Examples and C API for kdb+ pages. Users might also need to be familiar with k.h.
A simple example, using blocking sockets:
from aiokdb.socket import khpu
# run ./q -p 12345 &
h = khpu("localhost", 12345, "kdb:pass")
# if the remote returns a Q Exception, this gets raised here, unless khpu(..., raise_krr=False)
result = h.k("2.0+3.0")
assert result.aF() == 5.0
# raises ValueError: wrong type KF (-9) for aJ
result.aJ()
The result
object is a K-like Python object (a KObj
), having the usual signed integer type available as result.type
. Accessors for the primitive types are prefixed with an a
and check at runtime that the accessor is appropriate for the stored type (.aI()
, .aJ()
, .aH()
, .aF()
etc.). Atoms store their value to a bytes
object irrespective of the type, and encode/decode on demand. Atomic values can be set with (.i(3)
, .j(12)
, .ss("hello")
).
Arrays are implemented with subtypes that use Python's native arrays module for efficient array types. The MutableSequence
arrays are returned using the usual array accessor functions .kI()
, .kB()
, .kS()
etc.
Serialisation is handled by the b9
function, which encodes a KObj
to a python bytes
, and the d9
function which takes a bytes
and returns a KObj
.
- Atoms are created by
ka
,kb
,ku
,kg
,kh
,ki
,kj
,ke
,kf
,kc
,ks
,kt
,kd
,kz
,ktj
- Lists with
ktn
andknk
- Dictionaries with
xd
and tables withxt
.
Python manages garbage collection, so none of the reference counting primitives exist, i.e. k.r
and functions r1
, r0
and m9
, setm
.
Asyncio
Both kdb client and server protocols are implemented using asyncio, and can be tested back-to-back.
For instance running python -m aiokdb.server
and then python -m aiokdb.client
will connect together using KDB IPC. However since there is no interpreter (and the default server does not handle any commands) the server will return an nyi
error to all queries. To implement a partial protocol for your own application, subclass aiokdb.server.ServerContext
and implement on_sync_request()
, on_async_message()
, and perhaps check_login()
.
Command Line Interface
Usable command line client support for connecting to a remote KDB instance (using python asyncio
, and prompt_toolkit
for line editing and history) is built into the package:
$ pip install aiokdb prompt_toolkit
$ ./q -p 12345 &
$ python -m aiokdb.cli --host localhost --port 12345
(eval) > ([s:7 6 0Nj]x:3?0Ng;y:2)
s| x y
-|---------------------------------------
7| 409031f3-b19c-6770-ee84-6e9369c98697 2
6| 52cb20d9-f12c-9963-2829-3c64d8d8cb14 2
| cddeceef-9ee9-3847-9172-3e3d7ab39b26 2
(eval) > 4 5 6!(`abc`def;til 300;(3 4!`a`b))
4| abc def
5| 0 1 2 ... 297 298 299
6| KDict
(eval) > [ctrl-D]
$
Text formatting above is controlled by aiokdb.format.ASCIIFormatter
, which looks inside a KObj
to render XD
, SD
, XT
types in tabular form containing atom and vector values. Nested complex types ie. dictionary or table render as KDict
or KFlip
constant.
QDB Files
Ordinary .qdb
files written with set can be read by kfromfile
or written by ktofile
:
>>> from aiokdb.files import kfromfile, ktofile
>>> k = kfromfile('test_qdb0/test.qdb')
>>> k
<aiokdb.KObjArray object at 0x7559136d8230>
>>> from aiokdb.format import AsciiFormatter
>>> fmt = AsciiFormatter()
>>> print(fmt.format(k))
[5, hello]
Ordinarily k
is dictionary representing a KDB namespace containing other objects.
Tests
The library has extensive test coverage, however de-serialisation of certain (obscure) KObj may not be fully supported yet. PR's welcome. All tests are pure python except for those in test/test_rpc.py
, which will use a real KDB server to test against if you set the KDB_PYTEST_SERVICE
environment variable (to a URL of the form kdb://user:password@hostname:port
), otherwise that test is skipped.
- Formatting with
ruff check .
- Formatting with
ruff format .
- Check type annotations with
mypy --strict .
- Run
pytest .
in the root directory
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