pyqtgraph/examples/ScatterPlot.py
2021-05-14 06:16:21 +08:00

139 lines
4.3 KiB
Python

# -*- coding: utf-8 -*-
"""
Example demonstrating a variety of scatter plot features.
"""
## Add path to library (just for examples; you do not need this)
import initExample
from pyqtgraph.Qt import QtGui, QtCore
import pyqtgraph as pg
import numpy as np
from collections import namedtuple
from itertools import chain
app = pg.mkQApp("Scatter Plot Item Example")
mw = QtGui.QMainWindow()
mw.resize(800,800)
view = pg.GraphicsLayoutWidget() ## GraphicsView with GraphicsLayout inserted by default
mw.setCentralWidget(view)
mw.show()
mw.setWindowTitle('pyqtgraph example: ScatterPlot')
## create four areas to add plots
w1 = view.addPlot()
w2 = view.addViewBox()
w2.setAspectLocked(True)
view.nextRow()
w3 = view.addPlot()
w4 = view.addPlot()
print("Generating data, this takes a few seconds...")
## Make all plots clickable
clickedPen = pg.mkPen('b', width=2)
lastClicked = []
def clicked(plot, points):
global lastClicked
for p in lastClicked:
p.resetPen()
print("clicked points", points)
for p in points:
p.setPen(clickedPen)
lastClicked = points
## There are a few different ways we can draw scatter plots; each is optimized for different types of data:
## 1) All spots identical and transform-invariant (top-left plot).
## In this case we can get a huge performance boost by pre-rendering the spot
## image and just drawing that image repeatedly.
n = 300
s1 = pg.ScatterPlotItem(size=10, pen=pg.mkPen(None), brush=pg.mkBrush(255, 255, 255, 120))
pos = np.random.normal(size=(2,n), scale=1e-5)
spots = [{'pos': pos[:,i], 'data': 1} for i in range(n)] + [{'pos': [0,0], 'data': 1}]
s1.addPoints(spots)
w1.addItem(s1)
s1.sigClicked.connect(clicked)
## 2) Spots are transform-invariant, but not identical (top-right plot).
## In this case, drawing is almsot as fast as 1), but there is more startup
## overhead and memory usage since each spot generates its own pre-rendered
## image.
TextSymbol = namedtuple("TextSymbol", "label symbol scale")
def createLabel(label, angle):
symbol = QtGui.QPainterPath()
#symbol.addText(0, 0, QFont("San Serif", 10), label)
f = QtGui.QFont()
f.setPointSize(10)
symbol.addText(0, 0, f, label)
br = symbol.boundingRect()
scale = min(1. / br.width(), 1. / br.height())
tr = QtGui.QTransform()
tr.scale(scale, scale)
tr.rotate(angle)
tr.translate(-br.x() - br.width()/2., -br.y() - br.height()/2.)
return TextSymbol(label, tr.map(symbol), 0.1 / scale)
random_str = lambda : (''.join([chr(np.random.randint(ord('A'),ord('z'))) for i in range(np.random.randint(1,5))]), np.random.randint(0, 360))
s2 = pg.ScatterPlotItem(size=10, pen=pg.mkPen('w'), pxMode=True)
pos = np.random.normal(size=(2,n), scale=1e-5)
spots = [{'pos': pos[:,i], 'data': 1, 'brush':pg.intColor(i, n), 'symbol': i%10, 'size': 5+i/10.} for i in range(n)]
s2.addPoints(spots)
spots = [{'pos': pos[:,i], 'data': 1, 'brush':pg.intColor(i, n), 'symbol': label[1], 'size': label[2]*(5+i/10.)} for (i, label) in [(i, createLabel(*random_str())) for i in range(n)]]
s2.addPoints(spots)
w2.addItem(s2)
s2.sigClicked.connect(clicked)
## 3) Spots are not transform-invariant, not identical (bottom-left).
## This is the slowest case, since all spots must be completely re-drawn
## every time because their apparent transformation may have changed.
s3 = pg.ScatterPlotItem(
pxMode=False, # Set pxMode=False to allow spots to transform with the view
hoverable=True,
hoverPen=pg.mkPen('g'),
hoverSize=1e-6
)
spots3 = []
for i in range(10):
for j in range(10):
spots3.append({'pos': (1e-6*i, 1e-6*j), 'size': 1e-6, 'pen': {'color': 'w', 'width': 2}, 'brush':pg.intColor(i*10+j, 100)})
s3.addPoints(spots3)
w3.addItem(s3)
s3.sigClicked.connect(clicked)
## Test performance of large scatterplots
s4 = pg.ScatterPlotItem(
size=10,
pen=pg.mkPen(None),
brush=pg.mkBrush(255, 255, 255, 20),
hoverable=True,
hoverSymbol='s',
hoverSize=15,
hoverPen=pg.mkPen('r', width=2),
hoverBrush=pg.mkBrush('g'),
)
n = 10000
pos = np.random.normal(size=(2, n), scale=1e-9)
s4.addPoints(
x=pos[0],
y=pos[1],
# size=(np.random.random(n) * 20.).astype(int),
# brush=[pg.mkBrush(x) for x in np.random.randint(0, 256, (n, 3))],
data=np.arange(n)
)
w4.addItem(s4)
s4.sigClicked.connect(clicked)
if __name__ == '__main__':
pg.exec()