Cleanup yrange auto-update callback
This was a mess before with a weird loop using the parent split charts to update all "indicators". Instead just have each plot do its own yrange updates since the signals are being handled just fine per plot. Handle both the OHLC and plane line chart cases with a hacky `try:, except IndexError:` for now. Oh, and move the main entry point for the chart app to the relevant module. I added some WIP bar update code for the moment.its_happening
parent
970a528264
commit
56f65bcd40
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@ -1,11 +1,9 @@
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"""
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"""
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Console interface to UI components.
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Console interface to UI components.
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"""
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"""
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from datetime import datetime
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from functools import partial
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from functools import partial
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import os
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import os
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import click
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import click
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import trio
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import tractor
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import tractor
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from ..cli import cli
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from ..cli import cli
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@ -116,25 +114,6 @@ def optschain(config, symbol, date, tl, rate, test):
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def chart(config, symbol, date, tl, rate, test):
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def chart(config, symbol, date, tl, rate, test):
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"""Start an option chain UI
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"""Start an option chain UI
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"""
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"""
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from .qt._exec import run_qtrio
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from .qt._chart import main
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from .qt._chart import Chart
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# uses pandas_datareader
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main(symbol)
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from .qt.quantdom.loaders import get_quotes
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async def plot_symbol(widgets):
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"""Main Qt-trio routine invoked by the Qt loop with
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the widgets ``dict``.
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"""
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qtw = widgets['main']
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quotes = get_quotes(
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symbol=symbol,
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date_from=datetime(1900, 1, 1),
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date_to=datetime(2030, 12, 31),
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)
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# spawn chart
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qtw.load_symbol(symbol, quotes)
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await trio.sleep_forever()
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run_qtrio(plot_symbol, (), Chart)
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@ -1,6 +1,7 @@
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"""
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"""
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High level Qt chart widgets.
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High level Qt chart widgets.
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"""
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"""
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import trio
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import numpy as np
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import numpy as np
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import pyqtgraph as pg
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import pyqtgraph as pg
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from pyqtgraph import functions as fn
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from pyqtgraph import functions as fn
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@ -12,7 +13,7 @@ from ._axes import (
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)
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)
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from ._graphics import CrossHairItem, ChartType
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from ._graphics import CrossHairItem, ChartType
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from ._style import _xaxis_at
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from ._style import _xaxis_at
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from ._source import Symbol
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from ._source import Symbol, ohlc_zeros
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from .quantdom.charts import CenteredTextItem
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from .quantdom.charts import CenteredTextItem
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from .quantdom.base import Quotes
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from .quantdom.base import Quotes
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@ -77,6 +78,7 @@ class Chart(QtGui.QWidget):
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self.chart.plot(s, data)
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self.chart.plot(s, data)
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self.h_layout.addWidget(self.chart)
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self.h_layout.addWidget(self.chart)
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return self.chart
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# TODO: add signalling painter system
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# TODO: add signalling painter system
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# def add_signals(self):
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# def add_signals(self):
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@ -163,6 +165,7 @@ class SplitterPlots(QtGui.QWidget):
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)
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)
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# TODO: ``pyqtgraph`` doesn't pass through a parent to the
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# TODO: ``pyqtgraph`` doesn't pass through a parent to the
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# ``PlotItem`` by default; maybe we should PR this in?
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# ``PlotItem`` by default; maybe we should PR this in?
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cv.splitter_widget = self
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self.chart.plotItem.vb.splitter_widget = self
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self.chart.plotItem.vb.splitter_widget = self
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self.chart.getPlotItem().setContentsMargins(*CHART_MARGINS)
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self.chart.getPlotItem().setContentsMargins(*CHART_MARGINS)
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@ -182,6 +185,7 @@ class SplitterPlots(QtGui.QWidget):
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# axisItems={'top': self.xaxis_ind, 'right': PriceAxis()},
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# axisItems={'top': self.xaxis_ind, 'right': PriceAxis()},
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viewBox=cv,
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viewBox=cv,
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)
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)
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cv.splitter_widget = self
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self.chart.plotItem.vb.splitter_widget = self
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self.chart.plotItem.vb.splitter_widget = self
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ind_chart.setFrameStyle(
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ind_chart.setFrameStyle(
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@ -260,7 +264,7 @@ class SplitterPlots(QtGui.QWidget):
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self.signals_visible = True
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self.signals_visible = True
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_min_points_to_show = 20
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_min_points_to_show = 15
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_min_bars_in_view = 10
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_min_bars_in_view = 10
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@ -291,7 +295,6 @@ class ChartPlotWidget(pg.PlotWidget):
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):
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):
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"""Configure chart display settings.
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"""Configure chart display settings.
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"""
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"""
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super().__init__(**kwargs)
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super().__init__(**kwargs)
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# label = pg.LabelItem(justify='left')
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# label = pg.LabelItem(justify='left')
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# self.addItem(label)
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# self.addItem(label)
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@ -299,6 +302,12 @@ class ChartPlotWidget(pg.PlotWidget):
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# label.setText("<span style='font-size: 12pt'>x=")
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# label.setText("<span style='font-size: 12pt'>x=")
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self.parent = split_charts
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self.parent = split_charts
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# placeholder for source of data
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self._array = ohlc_zeros(1)
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# to be filled in when data is loaded
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self._graphics = {}
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# show only right side axes
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# show only right side axes
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self.hideAxis('left')
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self.hideAxis('left')
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self.showAxis('right')
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self.showAxis('right')
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@ -306,51 +315,75 @@ class ChartPlotWidget(pg.PlotWidget):
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# show background grid
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# show background grid
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self.showGrid(x=True, y=True, alpha=0.4)
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self.showGrid(x=True, y=True, alpha=0.4)
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self.plotItem.vb.setXRange(0, 0)
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# use cross-hair for cursor
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# use cross-hair for cursor
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self.setCursor(QtCore.Qt.CrossCursor)
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self.setCursor(QtCore.Qt.CrossCursor)
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# set panning limits
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max_lookahead = _min_points_to_show - _min_bars_in_view
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last = Quotes[-1].id
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self.setLimits(
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xMin=Quotes[0].id,
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xMax=last + max_lookahead,
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minXRange=_min_points_to_show,
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# maxYRange=highest-lowest,
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yMin=Quotes.low.min() * 0.98,
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yMax=Quotes.high.max() * 1.02,
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)
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# show last 50 points on startup
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self.plotItem.vb.setXRange(last - 50, last + max_lookahead)
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# assign callback for rescaling y-axis automatically
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# assign callback for rescaling y-axis automatically
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# based on y-range contents
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# based on y-range contents
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self.sigXRangeChanged.connect(self._update_yrange_limits)
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self.sigXRangeChanged.connect(self._update_yrange_limits)
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def set_view_limits(self, xfirst, xlast, ymin, ymax):
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# max_lookahead = _min_points_to_show - _min_bars_in_view
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# set panning limits
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# last = data[-1]['id']
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self.setLimits(
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# xMin=data[0]['id'],
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xMin=xfirst,
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# xMax=last + _min_points_to_show - 3,
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xMax=xlast + _min_points_to_show - 3,
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minXRange=_min_points_to_show,
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# maxYRange=highest-lowest,
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# yMin=data['low'].min() * 0.98,
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# yMax=data['high'].max() * 1.02,
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yMin=ymin * 0.98,
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yMax=ymax * 1.02,
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)
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# show last 50 points on startup
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# self.plotItem.vb.setXRange(last - 50, last + 50)
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self.plotItem.vb.setXRange(xlast - 50, xlast + 50)
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# fit y
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self._update_yrange_limits()
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self._update_yrange_limits()
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def bars_range(self):
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def bars_range(self):
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"""Return a range tuple for the bars present in view.
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"""Return a range tuple for the bars present in view.
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"""
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"""
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vr = self.viewRect()
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vr = self.viewRect()
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lbar, rbar = int(vr.left()), int(min(vr.right(), len(Quotes) - 1))
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lbar = int(vr.left())
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rbar = int(min(vr.right(), len(self._array) - 1))
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return lbar, rbar
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return lbar, rbar
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def draw_ohlc(
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def draw_ohlc(
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self,
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self,
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data: np.ndarray,
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data: np.ndarray,
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# XXX: pretty sure this is dumb and we don't need an Enum
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style: ChartType = ChartType.BAR,
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style: ChartType = ChartType.BAR,
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) -> None:
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) -> None:
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"""Draw OHLC datums to chart.
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"""Draw OHLC datums to chart.
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"""
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"""
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# remember it's an enum type..
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# remember it's an enum type..
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graphics = style.value()
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graphics = style.value()
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# adds all bar/candle graphics objects for each
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# data point in the np array buffer to
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# adds all bar/candle graphics objects for each data point in
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# be drawn on next render cycle
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# the np array buffer to be drawn on next render cycle
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graphics.draw_from_data(data)
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graphics.draw_from_data(data)
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self._graphics['ohlc'] = graphics
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self.addItem(graphics)
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self.addItem(graphics)
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self._array = data
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# update view limits
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self.set_view_limits(
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data[0]['id'],
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data[-1]['id'],
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data['low'].min(),
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data['high'].max()
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)
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return graphics
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def draw_curve(
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def draw_curve(
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self,
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self,
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curve = pg.PlotDataItem(data, antialias=True)
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curve = pg.PlotDataItem(data, antialias=True)
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self.addItem(curve)
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self.addItem(curve)
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# update view limits
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self.set_view_limits(0, len(data)-1, data.min(), data.max())
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self._array = data
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return curve
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def _update_yrange_limits(self):
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def _update_yrange_limits(self):
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"""Callback for each y-range update.
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"""Callback for each y-range update.
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# self.setAutoVisible(x=False, y=True)
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# self.setAutoVisible(x=False, y=True)
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# self.enableAutoRange(x=False, y=True)
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# self.enableAutoRange(x=False, y=True)
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chart = self
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chart_parent = self.parent
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lbar, rbar = self.bars_range()
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lbar, rbar = self.bars_range()
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# vr = chart.viewRect()
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# lbar, rbar = int(vr.left()), int(vr.right())
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if chart_parent.signals_visible:
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# if chart_parent.signals_visible:
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chart_parent._show_text_signals(lbar, rbar)
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# chart_parent._show_text_signals(lbar, rbar)
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bars = Quotes[lbar:rbar]
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bars = self._array[lbar:rbar]
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ylow = bars.low.min() * 0.98
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if not len(bars):
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yhigh = bars.high.max() * 1.02
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# likely no data loaded yet
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return
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std = np.std(bars.close)
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# TODO: should probably just have some kinda attr mark
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chart.setLimits(yMin=ylow, yMax=yhigh, minYRange=std)
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# that determines this behavior based on array type
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try:
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ylow = bars['low'].min()
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yhigh = bars['high'].max()
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std = np.std(bars['close'])
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except IndexError:
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# must be non-ohlc array?
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ylow = bars.min()
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yhigh = bars.max()
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std = np.std(bars)
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# view margins
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ylow *= 0.98
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yhigh *= 1.02
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chart = self
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chart.setLimits(
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yMin=ylow,
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yMax=yhigh,
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minYRange=std
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)
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chart.setYRange(ylow, yhigh)
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chart.setYRange(ylow, yhigh)
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for i, d in chart_parent.indicators:
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# ydata = i.plotItem.items[0].getData()[1]
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ydata = d[lbar:rbar]
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ylow = ydata.min() * 0.98
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yhigh = ydata.max() * 1.02
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std = np.std(ydata)
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i.setLimits(yMin=ylow, yMax=yhigh, minYRange=std)
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i.setYRange(ylow, yhigh)
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def enterEvent(self, ev): # noqa
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def enterEvent(self, ev): # noqa
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# pg.PlotWidget.enterEvent(self, ev)
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# pg.PlotWidget.enterEvent(self, ev)
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self.sig_mouse_enter.emit(self)
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self.sig_mouse_enter.emit(self)
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super().__init__(parent=parent, **kwargs)
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super().__init__(parent=parent, **kwargs)
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# disable vertical scrolling
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# disable vertical scrolling
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self.setMouseEnabled(x=True, y=False)
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self.setMouseEnabled(x=True, y=False)
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self.splitter_widget = None
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def wheelEvent(self, ev, axis=None):
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def wheelEvent(self, ev, axis=None):
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"""Override "center-point" location for scrolling.
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"""Override "center-point" location for scrolling.
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@ -447,11 +493,12 @@ class ChartView(pg.ViewBox):
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# don't zoom more then the min points setting
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# don't zoom more then the min points setting
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lbar, rbar = self.splitter_widget.chart.bars_range()
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lbar, rbar = self.splitter_widget.chart.bars_range()
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# breakpoint()
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if ev.delta() >= 0 and rbar - lbar <= _min_points_to_show:
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if ev.delta() >= 0 and rbar - lbar <= _min_points_to_show:
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return
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return
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# actual scaling factor
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# actual scaling factor
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s = 1.02 ** (ev.delta() * self.state['wheelScaleFactor'])
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s = 1.02 ** (ev.delta() * -1/10) # self.state['wheelScaleFactor'])
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s = [(None if m is False else s) for m in mask]
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s = [(None if m is False else s) for m in mask]
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# center = pg.Point(
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# center = pg.Point(
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@ -470,3 +517,37 @@ class ChartView(pg.ViewBox):
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self.scaleBy(s, center)
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self.scaleBy(s, center)
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ev.accept()
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ev.accept()
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self.sigRangeChangedManually.emit(mask)
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self.sigRangeChangedManually.emit(mask)
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def main(symbol):
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"""Entry point to spawn a chart app.
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"""
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from datetime import datetime
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from ._exec import run_qtrio
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# uses pandas_datareader
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from .quantdom.loaders import get_quotes
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async def _main(widgets):
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"""Main Qt-trio routine invoked by the Qt loop with
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the widgets ``dict``.
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"""
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chart_app = widgets['main']
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quotes = get_quotes(
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symbol=symbol,
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date_from=datetime(1900, 1, 1),
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date_to=datetime(2030, 12, 31),
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)
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# spawn chart
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splitter_chart = chart_app.load_symbol(symbol, quotes)
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import itertools
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nums = itertools.cycle([315., 320., 325.])
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while True:
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await trio.sleep(0.05)
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splitter_chart.chart._graphics['ohlc'].update_last_bar(
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{'last': next(nums)})
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# splitter_chart.chart.plotItem.sigPlotChanged.emit(self)
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# breakpoint()
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run_qtrio(_main, (), Chart)
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Reference in New Issue