dwker/lightweight-charts-python
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lightweight-charts-python/lightweight_charts/helpers.py

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from lightweight_charts.widgets import JupyterChart
class Panel:
def __init__(self, ohlcv=None, right=None, left=None, middle1=None, middle2=None, histogram=None, title=None):
self.ohlcv = ohlcv if ohlcv is not None else []
self.right = right if right is not None else []
self.left = left if left is not None else []
self.middle1 = middle1 if middle1 is not None else []
self.middle2 = middle2 if middle2 is not None else []
self.histogram = histogram if histogram is not None else []
self.title = title
def chart(panes: list[Panel], sync=False, title=''):
"""Function to fast render a chart with multiple panes.
Args:
panes (List[Pane]): A list of Pane instances to be rendered in the chart.
sync (bool): If True, synchronize scales of all panes. Default is False.
title (str): Title of the chart. Default is an empty string.
Returns:
None. This function is expected to manipulate a graphical output or an external framework.
# Example usage
```
pane1 = Pane(
ohlcv=(t1data.data["BAC"],), #(series, entries, exits, other_markers)
histogram=[(order_imbalance_allvolume, "oivol")] # [(series, name, "rgba(53, 94, 59, 0.6)")]
#following attributes corresponds to different priceScaleId and allow to display
# line series on these scale
right=[], # [(series, name, entries, exits, other_markers)]
left=[(sma, "sma", short_signals, short_exits)],
middle1=[],
middle2=[],
)
pane2 = Pane(
ohlcv=(t1data.data["BAC"],),
right=[],
left=[(sma, "sma_below", short_signals, short_exits)],
middle1=[],
middle2=[],
histogram=[(order_imbalance_sma, "oisma")]
)
ch = chart([pane1, pane2], sync=True)
```
"""
numpanes = len(panes)
main_title_set = False
for index, pane in enumerate(panes):
subchartX = None
if index == 0:
chartX = JupyterChart(width=1000, height=600, inner_width=1, inner_height=0.5, leftScale=bool(pane.left))
active_chart = chartX
else:
subchartX = chartX.create_subchart(position='right', width=1, height=0.5, sync=sync, leftScale=bool(pane.left))
active_chart = subchartX
if pane.ohlcv is not None:
series, entries, exits, markers = (pane.ohlcv + (None,) * 4)[:4]
active_chart.set(series)
if entries is not None:
active_chart.markers_set(entries, "entries")
if exits is not None:
active_chart.markers_set(exits, "exits")
if markers is not None:
active_chart.markers_set(markers)
for tup in pane.histogram:
series, name, color, _, _ = (tup + (None, None, None, None, None))[:5]
if series is None:
continue
#conditionally include color
kwargs = {'name': name}
if color is not None:
kwargs['color'] = color
tmp = active_chart.create_histogram(**kwargs) #green transparent "rgba(53, 94, 59, 0.6)"
tmp.set(series)
if pane.title is not None:
active_chart.topbar.textbox("title",pane.title)
main_title_set = True if index==0 else False
#iterate over keys - they are all priceScaleId except of histogram and ohlcv
for att_name, att_value_tuple in vars(pane).items():
if att_name in ["ohlcv","histogram","title"]:
continue
for tup in att_value_tuple:
series, name, entries, exits, markers = (tup + (None, None, None, None, None))[:5]
if series is None:
continue
tmp = active_chart.create_line(name=name, priceScaleId=att_name)#, color="blue")
tmp.set(series)
if entries is not None:
tmp.markers_set(entries, "entries")
if exits is not None:
tmp.markers_set(exits, "exits")
if markers is not None:
tmp.markers_set(markers)
active_chart.legend(True)
active_chart.fit()
if not main_title_set:
chartX.topbar.textbox("title",title)
chartX.legend(True)
chartX.fit()
chartX.load()
return chartX
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