Donut Chart Breakdown Example¶
This example shows how to use create a donut breakdown chart using QPieSeries API.
"""PySide6 port of the Donut Chart Breakdown example from Qt v5.x"""
import sys
from PySide6.QtCore import Qt
from PySide6.QtGui import QColor, QFont, QPainter, QScreen
from PySide6.QtWidgets import QApplication, QMainWindow
from PySide6.QtCharts import QChart, QChartView, QPieSeries, QPieSlice
class MainSlice(QPieSlice):
def __init__(self, breakdown_series, parent=None):
super().__init__(parent)
self.breakdown_series = breakdown_series
self.name = None
self.percentageChanged.connect(self.update_label)
def get_breakdown_series(self):
return self.breakdown_series
def set_name(self, name):
self.name = name
def name(self):
return self.name
def update_label(self):
p = self.percentage() * 100
self.setLabel(f"{self.name} {p:.2f}%")
class DonutBreakdownChart(QChart):
def __init__(self, parent=None):
super().__init__(QChart.ChartTypeCartesian,
parent, Qt.WindowFlags())
self.main_series = QPieSeries()
self.main_series.setPieSize(0.7)
self.addSeries(self.main_series)
def add_breakdown_series(self, breakdown_series, color):
font = QFont("Arial", 8)
# add breakdown series as a slice to center pie
main_slice = MainSlice(breakdown_series)
main_slice.set_name(breakdown_series.name())
main_slice.setValue(breakdown_series.sum())
self.main_series.append(main_slice)
# customize the slice
main_slice.setBrush(color)
main_slice.setLabelVisible()
main_slice.setLabelColor(Qt.white)
main_slice.setLabelPosition(QPieSlice.LabelInsideHorizontal)
main_slice.setLabelFont(font)
# position and customize the breakdown series
breakdown_series.setPieSize(0.8)
breakdown_series.setHoleSize(0.7)
breakdown_series.setLabelsVisible()
for pie_slice in breakdown_series.slices():
color = QColor(color).lighter(115)
pie_slice.setBrush(color)
pie_slice.setLabelFont(font)
# add the series to the chart
self.addSeries(breakdown_series)
# recalculate breakdown donut segments
self.recalculate_angles()
# update customize legend markers
self.update_legend_markers()
def recalculate_angles(self):
angle = 0
slices = self.main_series.slices()
for pie_slice in slices:
breakdown_series = pie_slice.get_breakdown_series()
breakdown_series.setPieStartAngle(angle)
angle += pie_slice.percentage() * 360.0 # full pie is 360.0
breakdown_series.setPieEndAngle(angle)
def update_legend_markers(self):
# go through all markers
for series in self.series():
markers = self.legend().markers(series)
for marker in markers:
if series == self.main_series:
# hide markers from main series
marker.setVisible(False)
else:
# modify markers from breakdown series
label = marker.slice().label()
p = marker.slice().percentage() * 100
marker.setLabel(f"{label} {p:.2f}%")
marker.setFont(QFont("Arial", 8))
if __name__ == "__main__":
app = QApplication(sys.argv)
# Graph is based on data of:
# 'Total consumption of energy increased by 10 per cent in 2010'
# Statistics Finland, 13 December 2011
# http://www.stat.fi/til/ekul/2010/ekul_2010_2011-12-13_tie_001_en.html
series1 = QPieSeries()
series1.setName("Fossil fuels")
series1.append("Oil", 353295)
series1.append("Coal", 188500)
series1.append("Natural gas", 148680)
series1.append("Peat", 94545)
series2 = QPieSeries()
series2.setName("Renewables")
series2.append("Wood fuels", 319663)
series2.append("Hydro power", 45875)
series2.append("Wind power", 1060)
series3 = QPieSeries()
series3.setName("Others")
series3.append("Nuclear energy", 238789)
series3.append("Import energy", 37802)
series3.append("Other", 32441)
donut_breakdown = DonutBreakdownChart()
donut_breakdown.setAnimationOptions(QChart.AllAnimations)
donut_breakdown.setTitle("Total consumption of energy in Finland 2010")
donut_breakdown.legend().setAlignment(Qt.AlignRight)
donut_breakdown.add_breakdown_series(series1, Qt.red)
donut_breakdown.add_breakdown_series(series2, Qt.darkGreen)
donut_breakdown.add_breakdown_series(series3, Qt.darkBlue)
window = QMainWindow()
chart_view = QChartView(donut_breakdown)
chart_view.setRenderHint(QPainter.Antialiasing)
window.setCentralWidget(chart_view)
available_geometry = window.screen().availableGeometry()
size = available_geometry.height() * 0.75
window.resize(size, size * 0.8)
window.show()
sys.exit(app.exec())
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