trading gear for hackers.
piker
is a broker agnostic, next-gen FOSS toolset for real-time
computational trading targeted at hardcore Linux users .
we use as much bleeding edge tech as possible including (but not limited to):
- latest python for glue
- trio for structured concurrency
- tractor for distributed, multi-core, real-time streaming
- marketstore for historical and real-time tick data persistence and sharing
- techtonicdb for L2 book storage
- Qt for pristine high performance UIs
- pyqtgraph for real-time charting
numpy
andnumba
for fast numerics
- 100% federated: your code, your hardware, your data feeds, your broker fills.
- zero web: low latency, native software that doesn't try to re-invent the OS
- maximal privacy: prevent brokers and mms from knowing your planz; smack their spreads with dark volume.
- zero clutter: modal, context oriented UIs that echew minimalism, reduce thought noise and encourage un-emotion.
- first class parallelism: built from the ground up on next-gen structured concurrency primitives.
- traders first: broker/exchange/asset-class agnostic
- systems grounded: real-time financial signal processing that will make any queuing or DSP eng juice their shorts.
- non-tina UX: sleek, powerful keyboard driven interaction with expected use in tiling wms
- data collaboration: every process and protocol is multi-host scalable.
- fight club ready: zero interest in adoption by suits; no corporate friendly license, ever.
fitting with these tenets, we're always open to new framework suggestions and ideas.
building the best looking, most reliable, keyboard friendly trading platform is the dream; join the cause.
piker
is currently under heavy pre-alpha development and as such
should be cloned from this repo and hacked on directly.
for a development install:
git clone [email protected]:pikers/piker.git cd piker virtualenv env source ./env/bin/activate pip install -r requirements.txt -e .
for users of NixOS we offer a development shell envoirment that can be loaded with:
nix-shell develop.nix
this will setup the required python environment to run piker, make sure to run:
pip install -r requirements.txt -e .
once after loading the shell
for windows peeps you can start by installing all the prerequisite software:
- install git with all default settings - https://git-scm.com/download/win
- install anaconda all default settings - https://www.anaconda.com/products/individual
- install microsoft build tools (check the box for Desktop development for C++, you might be able to uncheck some optional downloads) - https://visualstudio.microsoft.com/visual-cpp-build-tools/
- install visual studio code default settings - https://code.visualstudio.com/download
then, crack a conda shell and run the following commands:
mkdir code # create code directory cd code # change directory to code git clone https://github.com/pikers/piker.git # downloads piker installation package from github cd piker # change directory to piker conda create -n pikonda # creates conda environment named pikonda conda activate pikonda # activates pikonda conda install -c conda-forge python-levenshtein # in case it is not already installed conda install pip # may already be installed pip # will show if pip is installed pip install -e . -r requirements.txt # install piker in editable mode
test Piker to see if it is working:
piker -b binance chart btcusdt.binance # formatting for loading a chart piker -b kraken -b binance chart xbtusdt.kraken piker -b kraken -b binance -b ib chart qqq.nasdaq.ib piker -b ib chart tsla.nasdaq.ib
potential error:
FileNotFoundError: [Errno 2] No such file or directory: 'C:\\Users\\user\\AppData\\Roaming\\piker\\brokers.toml'
solution:
- navigate to file directory above (may be different on your machine, location should be listed in the error code)
- copy and paste file from 'C:\Users\user\code\data/brokers.toml' or create a blank file using notepad at the location above
Visual Studio Code setup:
- now that piker is installed we can set up vscode as the default terminal for running piker and editing the code
- open Visual Studio Code
- file --> Add Folder to Workspace --> C:Usersusercodepiker (adds piker directory where all piker files are located)
- file --> Save Workspace As --> save it wherever you want and call it whatever you want, this is going to be your default workspace for running and editing piker code
- ctrl + shift + p --> start typing Python: Select Interpetter --> when the option comes up select it --> Select at the workspace level --> select the one that shows ('pikonda')
- change the default terminal to cmd.exe instead of powershell (default)
- now when you create a new terminal VScode should automatically activate you conda env so that piker can be run as the first command after a new terminal is created
also, try out fancyzones as part of powertoyz for a decent tiling windows manager to manage all the cool new software you are going to be running.
for live data feeds the in-progress set of supported brokers is:
- IB via
ib_insync
, also see our container docs - binance and kraken for crypto over their public websocket API
- questrade (ish) which comes with effectively free L1
coming soon...
- webull via the reverse engineered public API
- yahoo via yliveticker
if you want your broker supported and they have an API let us know.
bet you weren't expecting this from the foss:
piker -l info -b kraken -b binance chart btcusdt.binance --pdb
this runs the main chart (currently with 1m sampled OHLC) in in debug mode and you can practice paper trading using the following micro-manual:
order_mode
(edge triggered activation by any of the following keys,
mouse-click
on y-level to submit at that price ):f
/ctl-f
to stage buyd
/ctl-d
to stage sella
to stage alert
search_mode
(ctl-l
orctl-space
to open,ctl-c
orctl-space
to close ) :- begin typing to have symbol search automatically lookup symbols from all loaded backend (broker) providers
- arrow keys and mouse click to navigate selection
- vi-like
ctl-[hjkl]
for navigation
you can also configure your position allocation limits from the sidepane.
start the service manager and data feed daemon in the background and connect to it:
pikerd -l info --pdb
connect your chart:
piker -l info -b kraken -b binance chart xmrusdt.binance --pdb
enjoy persistent real-time data feeds tied to daemon lifetime. the next
time you spawn a chart it will load much faster since the data feed has
been cached and is now always running live in the background until you
kill pikerd
.
you don't talk about it.
enter the matrix.
suck it up, learn the code; no one is trying to sell you on anything. also, we need lotsa help so if you want to start somewhere and can't necessarily write serious code, this might be the place for you!