pyqtgraph/examples/crosshair.py
Kenneth Lyons ba7129a719
Add option to limit LinearRegionitem bounds to a secondary item (#1834)
* Added clipItem option to LinearRegionItem

* Added a clipItem option to LinearRegionItem

Handle case when no self.viewBox() is yet available

* Implement LinearRegionItem clipItem

* Undo unnecessary change

* Update clipItem doc

* Fixup docstring formatting

* Cleanup

* Support clearing clipItem via setBounds. Fix initialization bug

* Add tests for LinearRegionItem clipItem

* Better clipItem demo in crosshair example

* Another test to verify claim in docstring

Co-authored-by: Arjun Chennu <arjun.chennu@gmail.com>
Co-authored-by: Ogi Moore <ognyan.moore@gmail.com>
Co-authored-by: Arjun Chennu <achennu@mpi-bremen.de>
2021-07-17 21:02:06 -07:00

88 lines
2.5 KiB
Python

# -*- coding: utf-8 -*-
"""
Demonstrates some customized mouse interaction by drawing a crosshair that follows
the mouse.
"""
import initExample ## Add path to library (just for examples; you do not need this)
import numpy as np
import pyqtgraph as pg
from pyqtgraph.Qt import QtGui, QtCore
from pyqtgraph.Point import Point
#generate layout
app = pg.mkQApp("Crosshair Example")
win = pg.GraphicsLayoutWidget(show=True)
win.setWindowTitle('pyqtgraph example: crosshair')
label = pg.LabelItem(justify='right')
win.addItem(label)
p1 = win.addPlot(row=1, col=0)
p2 = win.addPlot(row=2, col=0)
region = pg.LinearRegionItem()
region.setZValue(10)
# Add the LinearRegionItem to the ViewBox, but tell the ViewBox to exclude this
# item when doing auto-range calculations.
p2.addItem(region, ignoreBounds=True)
#pg.dbg()
p1.setAutoVisible(y=True)
#create numpy arrays
#make the numbers large to show that the xrange shows data from 10000 to all the way 0
data1 = 10000 + 15000 * pg.gaussianFilter(np.random.random(size=10000), 10) + 3000 * np.random.random(size=10000)
data2 = 15000 + 15000 * pg.gaussianFilter(np.random.random(size=10000), 10) + 3000 * np.random.random(size=10000)
p1.plot(data1, pen="r")
p1.plot(data2, pen="g")
p2d = p2.plot(data1, pen="w")
# bound the LinearRegionItem to the plotted data
region.setClipItem(p2d)
def update():
region.setZValue(10)
minX, maxX = region.getRegion()
p1.setXRange(minX, maxX, padding=0)
region.sigRegionChanged.connect(update)
def updateRegion(window, viewRange):
rgn = viewRange[0]
region.setRegion(rgn)
p1.sigRangeChanged.connect(updateRegion)
region.setRegion([1000, 2000])
#cross hair
vLine = pg.InfiniteLine(angle=90, movable=False)
hLine = pg.InfiniteLine(angle=0, movable=False)
p1.addItem(vLine, ignoreBounds=True)
p1.addItem(hLine, ignoreBounds=True)
vb = p1.vb
def mouseMoved(evt):
pos = evt[0] ## using signal proxy turns original arguments into a tuple
if p1.sceneBoundingRect().contains(pos):
mousePoint = vb.mapSceneToView(pos)
index = int(mousePoint.x())
if index > 0 and index < len(data1):
label.setText("<span style='font-size: 12pt'>x=%0.1f, <span style='color: red'>y1=%0.1f</span>, <span style='color: green'>y2=%0.1f</span>" % (mousePoint.x(), data1[index], data2[index]))
vLine.setPos(mousePoint.x())
hLine.setPos(mousePoint.y())
proxy = pg.SignalProxy(p1.scene().sigMouseMoved, rateLimit=60, slot=mouseMoved)
#p1.scene().sigMouseMoved.connect(mouseMoved)
if __name__ == '__main__':
pg.exec()