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Flatten out chart tasks

bar_select
Tyler Goodlet 2020-08-02 20:10:06 -04:00
parent 6b572eb0ef
commit 65fb92eaff
2 changed files with 162 additions and 140 deletions
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289
piker/ui/_chart.py
View File

@ -1,7 +1,7 @@
"""
High level Qt chart widgets.
"""
from typing import List, Optional, Tuple
from typing import List, Optional, Tuple, Dict, Any
import time
from PyQt5 import QtCore, QtGui
@ -21,6 +21,9 @@ from ._source import Symbol
from .. import brokers
from .. import data
from ..log import get_logger
from ._exec import run_qtractor
from ._source import ohlc_dtype
from .. import fsp
log = get_logger(__name__)
@ -166,13 +169,13 @@ class LinkedSplitCharts(QtGui.QWidget):
# add crosshairs
self._ch = CrossHair(
parent=self, #.chart,
parent=self,
# subplots=[plot for plot, d in self.subplots],
digits=self.digits
)
self.chart = self.add_plot(
name='main',
array=array, #['close'],
array=array,
xaxis=self.xaxis,
ohlc=True,
)
@ -586,140 +589,158 @@ class ChartView(pg.ViewBox):
self.sigRangeChangedManually.emit(mask)
async def add_new_bars(delay_s, linked_charts):
"""Task which inserts new bars into the ohlc every ``delay_s`` seconds.
"""
# TODO: right now we'll spin printing bars if the last time
# stamp is before a large period of no market activity.
# Likely the best way to solve this is to make this task
# aware of the instrument's tradable hours?
# adjust delay to compensate for trio processing time
ad = delay_s - 0.002
ohlc = linked_charts._array
async def sleep():
"""Sleep until next time frames worth has passed from last bar.
"""
last_ts = ohlc[-1]['time']
delay = max((last_ts + ad) - time.time(), 0)
await trio.sleep(delay)
# sleep for duration of current bar
await sleep()
while True:
# TODO: bunch of stuff:
# - I'm starting to think all this logic should be
# done in one place and "graphics update routines"
# should not be doing any length checking and array diffing.
# - don't keep appending, but instead increase the
# underlying array's size less frequently
# - handle odd lot orders
# - update last open price correctly instead
# of copying it from last bar's close
# - 5 sec bar lookback-autocorrection like tws does?
(index, t, close) = ohlc[-1][['index', 'time', 'close']]
new = np.append(
ohlc,
np.array(
[(index + 1, t + delay_s, close, close,
close, close, 0)],
dtype=ohlc.dtype
),
)
ohlc = linked_charts._array = new
last_quote = ohlc[-1]
# we **don't** update the bar right now
# since the next quote that arrives should
await sleep()
# if the last bar has not changed print a flat line and
# move to the next
if last_quote == ohlc[-1]:
log.debug("Printing flat line for {sym}")
linked_charts.update_from_array(ohlc)
async def _async_main(
sym: str,
brokername: str,
# implicit required argument provided by ``qtractor_run()``
widgets: Dict[str, Any],
# all kwargs are passed through from the CLI entrypoint
loglevel: str = None,
) -> None:
"""Main Qt-trio routine invoked by the Qt loop with
the widgets ``dict``.
"""
chart_app = widgets['main']
# historical data fetch
brokermod = brokers.get_brokermod(brokername)
async with brokermod.get_client() as client:
# figure out the exact symbol
bars = await client.bars(symbol=sym)
# remember, msgpack-numpy's ``from_buffer` returns read-only array
bars = np.array(bars[list(ohlc_dtype.names)])
linked_charts = chart_app.load_symbol(sym, bars)
# determine ohlc delay between bars
times = bars['time']
# find expected time step between datums
delay = times[-1] - times[times != times[-1]][-1]
async def stream_to_chart(func):
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
f'fsp_{func.__name__}',
func,
brokername=brokermod.name,
sym=sym,
# loglevel='info',
)
stream = await portal.result()
# retreive named layout and style instructions
layout = await stream.__anext__()
async for quote in stream:
ticks = quote.get('ticks')
if ticks:
for tick in ticks:
print(tick)
async with trio.open_nursery() as n:
async with data.open_feed(
brokername,
[sym],
loglevel=loglevel,
) as (fquote, stream):
# start downstream processor
n.start_soon(stream_to_chart, fsp.broker_latency)
# wait for a first quote before we start any update tasks
quote = await stream.__anext__()
# start graphics tasks after receiving first live quote
n.start_soon(add_new_bars, delay, linked_charts)
async for quote in stream:
ticks = quote.get('ticks')
if ticks:
for tick in ticks:
if tick.get('type') == 'trade':
linked_charts.update_from_quote(
{'last': tick['price']}
)
def _main(
sym: str,
brokername: str,
**qtractor_kwargs,
) -> None:
"""Entry point to spawn a chart app.
"""Sync entry point to start a chart app.
"""
from ._exec import run_qtractor
from ._source import ohlc_dtype
async def _main(widgets):
"""Main Qt-trio routine invoked by the Qt loop with
the widgets ``dict``.
"""
chart_app = widgets['main']
# historical data fetch
brokermod = brokers.get_brokermod(brokername)
async with brokermod.get_client() as client:
# figure out the exact symbol
bars = await client.bars(symbol=sym)
# remember, msgpack-numpy's ``from_buffer` returns read-only array
bars = np.array(bars[list(ohlc_dtype.names)])
linked_charts = chart_app.load_symbol(sym, bars)
# determine ohlc delay between bars
times = bars['time']
# find expected time step between datums
delay = times[-1] - times[times != times[-1]][-1]
async def add_new_bars(delay_s):
"""Task which inserts new bars into the ohlc every ``delay_s`` seconds.
"""
# TODO: right now we'll spin printing bars if the last time
# stamp is before a large period of no market activity.
# Likely the best way to solve this is to make this task
# aware of the instrument's tradable hours?
# adjust delay to compensate for trio processing time
ad = delay_s - 0.002
ohlc = linked_charts._array
async def sleep():
"""Sleep until next time frames worth has passed from last bar.
"""
last_ts = ohlc[-1]['time']
delay = max((last_ts + ad) - time.time(), 0)
await trio.sleep(delay)
# sleep for duration of current bar
await sleep()
while True:
# TODO: bunch of stuff:
# - I'm starting to think all this logic should be
# done in one place and "graphics update routines"
# should not be doing any length checking and array diffing.
# - don't keep appending, but instead increase the
# underlying array's size less frequently
# - handle odd lot orders
# - update last open price correctly instead
# of copying it from last bar's close
# - 5 sec bar lookback-autocorrection like tws does?
(index, t, close) = ohlc[-1][['index', 'time', 'close']]
new = np.append(
ohlc,
np.array(
[(index + 1, t + delay, close, close,
close, close, 0)],
dtype=ohlc.dtype
),
)
ohlc = linked_charts._array = new
last_quote = ohlc[-1]
# we **don't** update the bar right now
# since the next quote that arrives should
await sleep()
# if the last bar has not changed print a flat line and
# move to the next
if last_quote == ohlc[-1]:
log.debug("Printing flat line for {sym}")
linked_charts.update_from_array(ohlc)
async def stream_to_chart(func):
async with tractor.open_nursery() as n:
portal = await n.run_in_actor(
f'fsp_{func.__name__}',
func,
brokername=brokermod.name,
sym=sym,
# loglevel='info',
)
stream = await portal.result()
# retreive named layout and style instructions
layout = await stream.__anext__()
async for quote in stream:
ticks = quote.get('ticks')
if ticks:
for tick in ticks:
print(tick)
async with trio.open_nursery() as n:
from piker import fsp
async with data.open_feed(
brokername,
[sym],
loglevel=qtractor_kwargs['loglevel'],
) as (fquote, stream):
# start downstream processor
n.start_soon(stream_to_chart, fsp.broker_latency)
# wait for a first quote before we start any update tasks
quote = await stream.__anext__()
# start graphics tasks after receiving first live quote
n.start_soon(add_new_bars, delay)
async for quote in stream:
ticks = quote.get('ticks')
if ticks:
for tick in ticks:
if tick.get('type') == 'trade':
linked_charts.update_from_quote(
{'last': tick['price']}
)
run_qtractor(_main, (), ChartSpace, **qtractor_kwargs)
# Qt entry point
run_qtractor(
# func
_async_main,
# args,
(sym, brokername),
# kwargs passed through
qtractor_kwargs,
# main widget
ChartSpace,
# **qtractor_kwargs
)

13
piker/ui/_exec.py
View File

@ -5,6 +5,7 @@ Run ``trio`` in guest mode on top of the Qt event loop.
All global Qt runtime settings are mostly defined here.
"""
import traceback
from typing import Tuple, Callable, Dict
import PyQt5 # noqa
from pyqtgraph import QtGui
@ -28,11 +29,11 @@ class MainWindow(QtGui.QMainWindow):
def run_qtractor(
func,
args,
func: Callable,
args: Tuple,
kwargs: Dict,
main_widget: QtGui.QWidget,
window_type: QtGui.QMainWindow = MainWindow,
loglevel: str = None,
) -> None:
# avoids annoying message when entering debugger from qt loop
pyqtRemoveInputHook()
@ -92,10 +93,10 @@ def run_qtractor(
args = (
# async_fn
func,
# args
(widgets,),
# args (always append widgets list)
args + (widgets,),
# kwargs
{'loglevel': loglevel},
kwargs,
# arbiter_addr
(
tractor._default_arbiter_host,